From c8e26d13fec3de8797436e3a7512f151241aa288 Mon Sep 17 00:00:00 2001 From: Rubydragon Date: Mon, 5 Aug 2024 13:52:31 +0200 Subject: [PATCH] Fix computation and add trident example notebook --- notebooks/diagram_generation.ipynb | 181 +- notebooks/trident.ipynb | 3584 ++++++++++++++++++++++++++++ src/generic_process_def.jl | 22 + src/metagraph_impl/compute.jl | 60 +- src/metagraph_impl/generation.jl | 115 +- 5 files changed, 3814 insertions(+), 148 deletions(-) create mode 100644 notebooks/trident.ipynb diff --git a/notebooks/diagram_generation.ipynb b/notebooks/diagram_generation.ipynb index 1a4f2dc..48c82c3 100644 --- a/notebooks/diagram_generation.ipynb +++ b/notebooks/diagram_generation.ipynb @@ -29,27 +29,15 @@ { "data": { "text/plain": [ - "42-element Vector{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Electron, Positron, Positron}, Tuple{AllPolarization, AllSpin}, NTuple{5, AllSpin}}, PT, 2, 5} where PT<:AbstractParticleType}:\n", - " photon: \t00 | 00101\n", - " photon: \t00 | 00110\n", - " photon: \t00 | 01001\n", - " photon: \t00 | 01010\n", - " photon: \t00 | 10001\n", - " photon: \t00 | 10010\n", - " photon: \t01 | 00100\n", - " photon: \t01 | 01000\n", - " photon: \t01 | 10000\n", - " electron: \t10 | 00001\n", - " ⋮\n", - " photon: \t10 | 00101\n", - " photon: \t10 | 00110\n", - " photon: \t10 | 01001\n", - " photon: \t10 | 01010\n", - " photon: \t10 | 10001\n", - " photon: \t10 | 10010\n", - " photon: \t11 | 00100\n", - " photon: \t11 | 01000\n", - " photon: \t11 | 10000" + "8-element Vector{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PT, 2, 3} where PT<:AbstractParticleType}:\n", + " photon: \t00 | 011\n", + " photon: \t00 | 101\n", + " photon: \t01 | 010\n", + " photon: \t01 | 100\n", + " electron: \t10 | 001\n", + " positron: \t10 | 010\n", + " positron: \t10 | 100\n", + " electron: \t11 | 000" ] }, "metadata": {}, @@ -64,7 +52,7 @@ } ], "source": [ - "proc = QEDProcess(1, 0, 1, 3, 0, 2)\n", + "proc = QEDProcess(1, 0, 1, 2, 0, 1)\n", "all_particles = Set()\n", "for fd in feynman_diagrams(proc)\n", " push!(all_particles, virtual_particles(proc, fd)...)\n", @@ -81,27 +69,15 @@ { "data": { "text/plain": [ - "OrderedCollections.OrderedDict{VirtualParticle, Vector{Tuple{VirtualParticle, VirtualParticle}}} with 42 entries:\n", - " photon: \t00 | 00101 => [(electron: \t00 | 00001, positron: \t00 | 00100)]\n", - " photon: \t00 | 00110 => [(electron: \t00 | 00010, positron: \t00 | 00100)]\n", - " photon: \t00 | 01001 => [(electron: \t00 | 00001, positron: \t00 | 01000)]\n", - " photon: \t00 | 01010 => [(electron: \t00 | 00010, positron: \t00 | 01000)]\n", - " photon: \t00 | 10001 => [(electron: \t00 | 00001, positron: \t00 | 10000)]\n", - " photon: \t00 | 10010 => [(electron: \t00 | 00010, positron: \t00 | 10000)]\n", - " photon: \t01 | 00100 => [(positron: \t00 | 00100, electron: \t01 | 00000)]\n", - " photon: \t01 | 01000 => [(positron: \t00 | 01000, electron: \t01 | 00000)]\n", - " photon: \t01 | 10000 => [(positron: \t00 | 10000, electron: \t01 | 00000)]\n", - " electron: \t10 | 00001 => [(electron: \t00 | 00001, photon: \t10 | 00000)]\n", - " electron: \t10 | 00010 => [(electron: \t00 | 00010, photon: \t10 | 00000)]\n", - " positron: \t10 | 00100 => [(positron: \t00 | 00100, photon: \t10 | 00000)]\n", - " positron: \t10 | 01000 => [(positron: \t00 | 01000, photon: \t10 | 00000)]\n", - " positron: \t10 | 10000 => [(positron: \t00 | 10000, photon: \t10 | 00000)]\n", - " electron: \t11 | 00000 => [(electron: \t01 | 00000, photon: \t10 | 00000)]\n", - " electron: \t00 | 00111 => [(electron: \t00 | 00001, photon: \t00 | 00110), (electro…\n", - " electron: \t00 | 01011 => [(electron: \t00 | 00001, photon: \t00 | 01010), (electro…\n", - " positron: \t00 | 01101 => [(positron: \t00 | 00100, photon: \t00 | 01001), (positro…\n", - " positron: \t00 | 01110 => [(positron: \t00 | 00100, photon: \t00 | 01010), (positro…\n", - " ⋮ => ⋮" + "OrderedCollections.OrderedDict{VirtualParticle, Vector{Tuple{VirtualParticle, VirtualParticle}}} with 8 entries:\n", + " photon: \t00 | 011 => [(electron: \t00 | 001, positron: \t00 | 010)]\n", + " photon: \t00 | 101 => [(electron: \t00 | 001, positron: \t00 | 100)]\n", + " photon: \t01 | 010 => [(positron: \t00 | 010, electron: \t01 | 000)]\n", + " photon: \t01 | 100 => [(positron: \t00 | 100, electron: \t01 | 000)]\n", + " electron: \t10 | 001 => [(electron: \t00 | 001, photon: \t10 | 000)]\n", + " positron: \t10 | 010 => [(positron: \t00 | 010, photon: \t10 | 000)]\n", + " positron: \t10 | 100 => [(positron: \t00 | 100, photon: \t10 | 000)]\n", + " electron: \t11 | 000 => [(electron: \t01 | 000, photon: \t10 | 000)]" ] }, "metadata": {}, @@ -120,27 +96,15 @@ { "data": { "text/plain": [ - "81-element Vector{Tuple{VirtualParticle, VirtualParticle, VirtualParticle}}:\n", - " (photon: \t00 | 00101, electron: \t01 | 10010, positron: \t10 | 01000)\n", - " (photon: \t00 | 00101, electron: \t11 | 00000, positron: \t00 | 11010)\n", - " (photon: \t00 | 00101, electron: \t10 | 00010, positron: \t01 | 11000)\n", - " (photon: \t00 | 00101, electron: \t01 | 01010, positron: \t10 | 10000)\n", - " (photon: \t00 | 00110, electron: \t11 | 00000, positron: \t00 | 11001)\n", - " (photon: \t00 | 00110, electron: \t10 | 00001, positron: \t01 | 11000)\n", - " (photon: \t00 | 00110, electron: \t01 | 10001, positron: \t10 | 01000)\n", - " (photon: \t00 | 00110, electron: \t01 | 01001, positron: \t10 | 10000)\n", - " (photon: \t00 | 01001, electron: \t01 | 10010, positron: \t10 | 00100)\n", - " (photon: \t00 | 01001, electron: \t11 | 00000, positron: \t00 | 10110)\n", - " ⋮\n", - " (photon: \t10 | 00000, electron: \t01 | 10010, positron: \t00 | 01101)\n", - " (photon: \t10 | 00000, electron: \t01 | 00110, positron: \t00 | 11001)\n", - " (photon: \t10 | 00000, electron: \t00 | 00111, positron: \t01 | 11000)\n", - " (photon: \t10 | 00000, electron: \t00 | 01011, positron: \t01 | 10100)\n", - " (photon: \t10 | 00000, electron: \t01 | 10001, positron: \t00 | 01110)\n", - " (photon: \t10 | 00000, electron: \t00 | 10011, positron: \t01 | 01100)\n", - " (photon: \t10 | 00000, electron: \t01 | 01001, positron: \t00 | 10110)\n", - " (photon: \t10 | 00000, electron: \t01 | 00101, positron: \t00 | 11010)\n", - " (photon: \t10 | 00000, electron: \t01 | 01010, positron: \t00 | 10101)" + "8-element Vector{Tuple{VirtualParticle, VirtualParticle, VirtualParticle}}:\n", + " (photon: \t00 | 011, electron: \t01 | 000, positron: \t10 | 100)\n", + " (photon: \t00 | 011, electron: \t11 | 000, positron: \t00 | 100)\n", + " (photon: \t00 | 101, electron: \t01 | 000, positron: \t10 | 010)\n", + " (photon: \t00 | 101, electron: \t11 | 000, positron: \t00 | 010)\n", + " (photon: \t01 | 010, electron: \t00 | 001, positron: \t10 | 100)\n", + " (photon: \t01 | 010, electron: \t10 | 001, positron: \t00 | 100)\n", + " (photon: \t01 | 100, electron: \t00 | 001, positron: \t10 | 010)\n", + " (photon: \t01 | 100, electron: \t10 | 001, positron: \t00 | 010)" ] }, "metadata": {}, @@ -160,34 +124,22 @@ "name": "stdout", "output_type": "stream", "text": [ - "s: 252, should be: 252\n", - "number of triples: 81\n" + "s: 8, should be: 8\n", + "number of triples: 8\n" ] }, { "data": { "text/plain": [ - "81-element Vector{Tuple{VirtualParticle, VirtualParticle, VirtualParticle}}:\n", - " (photon: \t10 | 00000, electron: \t00 | 00111, positron: \t01 | 11000)\n", - " (photon: \t10 | 00000, electron: \t00 | 01011, positron: \t01 | 10100)\n", - " (photon: \t10 | 00000, electron: \t00 | 10011, positron: \t01 | 01100)\n", - " (photon: \t10 | 00000, electron: \t01 | 00101, positron: \t00 | 11010)\n", - " (photon: \t10 | 00000, electron: \t01 | 00110, positron: \t00 | 11001)\n", - " (photon: \t10 | 00000, electron: \t01 | 01001, positron: \t00 | 10110)\n", - " (photon: \t10 | 00000, electron: \t01 | 01010, positron: \t00 | 10101)\n", - " (photon: \t10 | 00000, electron: \t01 | 10001, positron: \t00 | 01110)\n", - " (photon: \t10 | 00000, electron: \t01 | 10010, positron: \t00 | 01101)\n", - " (photon: \t00 | 00101, electron: \t10 | 00010, positron: \t01 | 11000)\n", - " ⋮\n", - " (photon: \t11 | 00100, electron: \t00 | 10011, positron: \t00 | 01000)\n", - " (photon: \t11 | 01000, electron: \t00 | 00001, positron: \t00 | 10110)\n", - " (photon: \t11 | 01000, electron: \t00 | 00010, positron: \t00 | 10101)\n", - " (photon: \t11 | 01000, electron: \t00 | 00111, positron: \t00 | 10000)\n", - " (photon: \t11 | 01000, electron: \t00 | 10011, positron: \t00 | 00100)\n", - " (photon: \t11 | 10000, electron: \t00 | 00001, positron: \t00 | 01110)\n", - " (photon: \t11 | 10000, electron: \t00 | 00010, positron: \t00 | 01101)\n", - " (photon: \t11 | 10000, electron: \t00 | 00111, positron: \t00 | 01000)\n", - " (photon: \t11 | 10000, electron: \t00 | 01011, positron: \t00 | 00100)" + "8-element Vector{Tuple{VirtualParticle, VirtualParticle, VirtualParticle}}:\n", + " (photon: \t00 | 011, electron: \t01 | 000, positron: \t10 | 100)\n", + " (photon: \t00 | 011, electron: \t11 | 000, positron: \t00 | 100)\n", + " (photon: \t00 | 101, electron: \t01 | 000, positron: \t10 | 010)\n", + " (photon: \t00 | 101, electron: \t11 | 000, positron: \t00 | 010)\n", + " (photon: \t01 | 010, electron: \t00 | 001, positron: \t10 | 100)\n", + " (photon: \t01 | 010, electron: \t10 | 001, positron: \t00 | 100)\n", + " (photon: \t01 | 100, electron: \t00 | 001, positron: \t10 | 010)\n", + " (photon: \t01 | 100, electron: \t10 | 001, positron: \t00 | 010)" ] }, "metadata": {}, @@ -226,11 +178,11 @@ "data": { "text/plain": [ "Graph:\n", - " Nodes: Total: 23250, FeynmanDiagramGenerator.ComputeTask_CollectTriples: 128, FeynmanDiagramGenerator.ComputeTask_Pair: 492, \n", - " FeynmanDiagramGenerator.ComputeTask_BaseState: 14, MetagraphOptimization.DataTask: 11653, FeynmanDiagramGenerator.ComputeTask_Triple: 10368, \n", - " FeynmanDiagramGenerator.ComputeTask_PropagatePairs: 276, FeynmanDiagramGenerator.ComputeTask_CollectPairs: 276, FeynmanDiagramGenerator.ComputeTask_Propagator: 42, \n", - " FeynmanDiagramGenerator.ComputeTask_SpinPolCumulation: 1\n", - " Edges: 55281\n", + " Nodes: Total: 824, FeynmanDiagramGenerator.ComputeTask_CollectPairs: 32, FeynmanDiagramGenerator.ComputeTask_Triple: 256, \n", + " MetagraphOptimization.DataTask: 421, FeynmanDiagramGenerator.ComputeTask_BaseState: 10, FeynmanDiagramGenerator.ComputeTask_SpinPolCumulation: 1, \n", + " FeynmanDiagramGenerator.ComputeTask_Pair: 32, FeynmanDiagramGenerator.ComputeTask_CollectTriples: 32, FeynmanDiagramGenerator.ComputeTask_Propagator: 8, \n", + " FeynmanDiagramGenerator.ComputeTask_PropagatePairs: 32\n", + " Edges: 1637\n", " Total Compute Effort: 0.0\n", " Total Data Transfer: 0.0\n", " Total Compute Intensity: 0.0\n" @@ -287,7 +239,7 @@ { "data": { "text/plain": [ - "PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Electron, Positron, Positron}, Tuple{AllPolarization, AllSpin}, NTuple{5, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}" + "PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}" ] }, "metadata": {}, @@ -296,9 +248,9 @@ ], "source": [ "psp = PhaseSpacePoint(\n", - " proc, \n", - " PerturbativeQED(), \n", - " PhasespaceDefinition(SphericalCoordinateSystem(), ElectronRestFrame()), \n", + " proc,\n", + " PerturbativeQED(),\n", + " PhasespaceDefinition(SphericalCoordinateSystem(), ElectronRestFrame()),\n", " tuple((rand(SFourMomentum) for _ in 1:number_incoming_particles(proc))...),\n", " tuple((rand(SFourMomentum) for _ in 1:number_outgoing_particles(proc))...)\n", ")\n", @@ -307,9 +259,19 @@ }, { "cell_type": "code", - "execution_count": 9, + "execution_count": 11, "metadata": {}, - "outputs": [], + "outputs": [ + { + "data": { + "text/plain": [ + "32.69810945002751" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], "source": [ "using MetagraphOptimization: unpack_identity\n", "\n", @@ -320,9 +282,28 @@ }, { "cell_type": "code", - "execution_count": null, + "execution_count": 12, "metadata": {}, - "outputs": [], + "outputs": [ + { + "data": { + "text/plain": [ + "BenchmarkTools.Trial: 10000 samples with 1 evaluation.\n", + " Range \u001b[90m(\u001b[39m\u001b[36m\u001b[1mmin\u001b[22m\u001b[39m … \u001b[35mmax\u001b[39m\u001b[90m): \u001b[39m\u001b[36m\u001b[1m35.405 μs\u001b[22m\u001b[39m … \u001b[35m627.297 μs\u001b[39m \u001b[90m┊\u001b[39m GC \u001b[90m(\u001b[39mmin … max\u001b[90m): \u001b[39m0.00% … 0.00%\n", + " Time \u001b[90m(\u001b[39m\u001b[34m\u001b[1mmedian\u001b[22m\u001b[39m\u001b[90m): \u001b[39m\u001b[34m\u001b[1m41.790 μs \u001b[22m\u001b[39m\u001b[90m┊\u001b[39m GC \u001b[90m(\u001b[39mmedian\u001b[90m): \u001b[39m0.00%\n", + " Time \u001b[90m(\u001b[39m\u001b[32m\u001b[1mmean\u001b[22m\u001b[39m ± \u001b[32mσ\u001b[39m\u001b[90m): \u001b[39m\u001b[32m\u001b[1m54.989 μs\u001b[22m\u001b[39m ± \u001b[32m 33.980 μs\u001b[39m \u001b[90m┊\u001b[39m GC \u001b[90m(\u001b[39mmean ± σ\u001b[90m): \u001b[39m0.00% ± 0.00%\n", + "\n", + " \u001b[39m█\u001b[39m▇\u001b[34m▆\u001b[39m\u001b[39m▅\u001b[39m▄\u001b[39m▄\u001b[39m▄\u001b[32m▃\u001b[39m\u001b[39m▃\u001b[39m▃\u001b[39m▃\u001b[39m▂\u001b[39m▂\u001b[39m▁\u001b[39m▂\u001b[39m▂\u001b[39m▁\u001b[39m▁\u001b[39m▁\u001b[39m▁\u001b[39m▁\u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m \u001b[39m▂\n", + " \u001b[39m█\u001b[39m█\u001b[34m█\u001b[39m\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[32m█\u001b[39m\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m█\u001b[39m▇\u001b[39m▇\u001b[39m█\u001b[39m█\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▇\u001b[39m▆\u001b[39m▇\u001b[39m▆\u001b[39m▆\u001b[39m▅\u001b[39m▆\u001b[39m▅\u001b[39m▆\u001b[39m▅\u001b[39m▆\u001b[39m▅\u001b[39m▆\u001b[39m▄\u001b[39m▄\u001b[39m▄\u001b[39m▅\u001b[39m▅\u001b[39m▅\u001b[39m▆\u001b[39m \u001b[39m█\n", + " 35.4 μs\u001b[90m \u001b[39m\u001b[90mHistogram: \u001b[39m\u001b[90m\u001b[1mlog(\u001b[22m\u001b[39m\u001b[90mfrequency\u001b[39m\u001b[90m\u001b[1m)\u001b[22m\u001b[39m\u001b[90m by time\u001b[39m 197 μs \u001b[0m\u001b[1m<\u001b[22m\n", + "\n", + " Memory estimate\u001b[90m: \u001b[39m\u001b[33m3.66 KiB\u001b[39m, allocs estimate\u001b[90m: \u001b[39m\u001b[33m50\u001b[39m." + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], "source": [ "using BenchmarkTools\n", "\n", diff --git a/notebooks/trident.ipynb b/notebooks/trident.ipynb new file mode 100644 index 0000000..c2a258e --- /dev/null +++ b/notebooks/trident.ipynb @@ -0,0 +1,3584 @@ +{ + "cells": [ + { + "cell_type": "code", + "execution_count": 1, + "metadata": {}, + "outputs": [ + { + "name": "stderr", + "output_type": "stream", + "text": [ + "WARNING: Method definition (::Type{QEDcore.ParticleStateful{DIR, SPECIES, ELEMENT} where ELEMENT<:QEDbase.AbstractFourMomentum})(QEDbase.AbstractFourMomentum) where {DIR<:QEDbase.ParticleDirection, SPECIES<:QEDbase.AbstractParticleType} in module QEDcore at /home/antonr/.julia/packages/QEDcore/uVldP/src/phase_spaces/create.jl:7 overwritten in module MetagraphOptimization at /home/antonr/.julia/packages/MetagraphOptimization/kQaEJ/src/QEDprocesses_patch.jl:15.\n", + "ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation.\n", + "WARNING: Method definition (::Type{QEDcore.ParticleStateful{DIR, SPECIES, ELEMENT} where ELEMENT<:QEDbase.AbstractFourMomentum})(QEDbase.AbstractFourMomentum) where {DIR<:QEDbase.ParticleDirection, SPECIES<:QEDbase.AbstractParticleType} in module QEDcore at /home/antonr/.julia/packages/QEDcore/uVldP/src/phase_spaces/create.jl:7 overwritten in module MetagraphOptimization at /home/antonr/.julia/packages/MetagraphOptimization/kQaEJ/src/QEDprocesses_patch.jl:15.\n", + "ERROR: Method overwriting is not permitted during Module precompilation. Use `__precompile__(false)` to opt-out of precompilation.\n" + ] + }, + { + "data": { + "text/plain": [ + "Machine(MetagraphOptimization.AbstractDevice[MetagraphOptimization.NumaNode(0x0000, 0x0001, MetagraphOptimization.LocalVariables(), -1.0, UUID(\"502eb87c-45ac-11ef-3d26-1f4a669f85a9\"))], [-1.0;;])" + ] + }, + "metadata": {}, + "output_type": "display_data" + } + ], + "source": [ + "using FeynmanDiagramGenerator\n", + "using QEDcore\n", + "using MetagraphOptimization\n", + "using UUIDs\n", + "\n", + "using MetagraphOptimization: unpack_identity\n", + "\n", + "function mock_machine()\n", + " return Machine(\n", + " [\n", + " MetagraphOptimization.NumaNode(\n", + " 0,\n", + " 1,\n", + " MetagraphOptimization.default_strategy(MetagraphOptimization.NumaNode),\n", + " -1.0,\n", + " UUIDs.uuid1(),\n", + " ),\n", + " ],\n", + " [-1.0;;],\n", + " )\n", + "end\n", + "machine = mock_machine()" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "MethodInstance for compute__6cadb4b4_45ac_11ef_0d00_81b831ed05d8(::PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum})\n", + " from compute__6cadb4b4_45ac_11ef_0d00_81b831ed05d8(\u001b[90mdata_input\u001b[39m)\u001b[90m @\u001b[39m \u001b[90mMain\u001b[39m \u001b[90m\u001b[4mnone:1\u001b[24m\u001b[39m\n", + "Arguments\n", + " #self#" + ] + }, + { + "name": "stderr", + "output_type": "stream", + "text": [ + "WARNING: both QEDcore and QEDbase export \"mul\"; uses of it in module FeynmanDiagramGenerator must be qualified\n" + ] + }, + { + "name": "stdout", + "output_type": "stream", + "text": [ + "\u001b[36m::Core.Const(compute__6cadb4b4_45ac_11ef_0d00_81b831ed05d8)\u001b[39m\n", + " data_input\u001b[36m::PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}\u001b[39m\n", + "Locals\n", + " data__6a1cc4cc_45ac_11ef_0b16_ad2b169d56f9\u001b[36m::Float64\u001b[39m\n", + " data__6a1a6d62_45ac_11ef_0c83_73c486adc828\u001b[36m::Float64\u001b[39m\n", + " 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ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + " data__64cc5a5a_45ac_11ef_0d77_19f1bff29635_in\u001b[36m::FeynmanDiagramGenerator.BaseStateInput{ParticleStateful{Incoming, Photon, SFourMomentum}, PolarizationY}\u001b[39m\n", + " data__65019940_45ac_11ef_3265_67c230e68b49_in\u001b[36m::FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + " data__64cc5bd4_45ac_11ef_2000_a32640bcf141_in\u001b[36m::FeynmanDiagramGenerator.BaseStateInput{ParticleStateful{Outgoing, Electron, SFourMomentum}, SpinUp}\u001b[39m\n", + " data__64f0ad12_45ac_11ef_0bef_21c356bb9d69_in\u001b[36m::FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + " data__64cc5ba6_45ac_11ef_05a6_1ddef1669943_in\u001b[36m::FeynmanDiagramGenerator.BaseStateInput{ParticleStateful{Outgoing, Electron, SFourMomentum}, SpinDown}\u001b[39m\n", + " data__64cc5c30_45ac_11ef_21df_97e8535e77d4_in\u001b[36m::FeynmanDiagramGenerator.BaseStateInput{ParticleStateful{Outgoing, Positron, SFourMomentum}, SpinUp}\u001b[39m\n", + " data__64c9ee32_45ac_11ef_0c0f_75c97d4d341e_in\u001b[36m::FeynmanDiagramGenerator.BaseStateInput{ParticleStateful{Incoming, Electron, SFourMomentum}, SpinDown}\u001b[39m\n", + " data__64f0abf8_45ac_11ef_33f9_3177f48e999f_in\u001b[36m::FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + " data__64c88132_45ac_11ef_0866_0f591a3b69ea_in\u001b[36m::FeynmanDiagramGenerator.BaseStateInput{ParticleStateful{Incoming, Electron, SFourMomentum}, SpinUp}\u001b[39m\n", + "Body\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m1 ─\u001b[39m %1 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2 = Main.Incoming()\u001b[36m::Core.Const(incoming)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %3 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %4 = Main.Incoming()\u001b[36m::Core.Const(incoming)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %5 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %6 = Main.momentum(data_input, %4, %5, 1)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %7 = Main.ParticleStateful(%2, %3, %6)\u001b[36m::ParticleStateful{Incoming, Electron, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %8 = Main.SpinUp()\u001b[36m::Core.Const(spin up)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64c88132_45ac_11ef_0866_0f591a3b69ea_in = (%1)(%7, %8))\n", + "\u001b[90m│ \u001b[39m %10 = FeynmanDiagramGenerator.PropagatorInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.PropagatorInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %11 = FeynmanDiagramGenerator.VirtualParticle\u001b[36m::Core.Const(VirtualParticle)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %12 = Main.process(data_input)\u001b[36m::QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %13 = Main.Photon()\u001b[36m::Core.Const(photon)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %14 = Core.tuple(false, false)\u001b[36m::Core.Const((false, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %15 = Core.tuple(false, true, true)\u001b[36m::Core.Const((false, true, true))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %16 = (%11)(%12, %13, %14, %15)\u001b[36m::Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, false)), Core.Const((false, true, true))])\u001b[39m\n", + "\u001b[90m│ \u001b[39m %17 = Main.Ref(data_input)\u001b[36m::Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64f0abf8_45ac_11ef_33f9_3177f48e999f_in = (%10)(%16, %17))\n", + "\u001b[90m│ \u001b[39m %19 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %20 = Main.Incoming()\u001b[36m::Core.Const(incoming)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %21 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %22 = Main.Incoming()\u001b[36m::Core.Const(incoming)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %23 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %24 = Main.momentum(data_input, %22, %23, 1)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %25 = Main.ParticleStateful(%20, %21, %24)\u001b[36m::ParticleStateful{Incoming, Electron, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %26 = Main.SpinDown()\u001b[36m::Core.Const(spin down)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64c9ee32_45ac_11ef_0c0f_75c97d4d341e_in = (%19)(%25, %26))\n", + "\u001b[90m│ \u001b[39m %28 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %29 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %30 = Main.Positron()\u001b[36m::Core.Const(positron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %31 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %32 = Main.Positron()\u001b[36m::Core.Const(positron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %33 = Main.momentum(data_input, %31, %32, 1)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %34 = Main.ParticleStateful(%29, %30, %33)\u001b[36m::ParticleStateful{Outgoing, Positron, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %35 = Main.SpinUp()\u001b[36m::Core.Const(spin up)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5c30_45ac_11ef_21df_97e8535e77d4_in = (%28)(%34, %35))\n", + "\u001b[90m│ \u001b[39m %37 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %38 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %39 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %40 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %41 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %42 = Main.momentum(data_input, %40, %41, 1)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %43 = Main.ParticleStateful(%38, %39, %42)\u001b[36m::ParticleStateful{Outgoing, Electron, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %44 = Main.SpinDown()\u001b[36m::Core.Const(spin down)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5ba6_45ac_11ef_05a6_1ddef1669943_in = (%37)(%43, %44))\n", + "\u001b[90m│ \u001b[39m %46 = FeynmanDiagramGenerator.PropagatorInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.PropagatorInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %47 = FeynmanDiagramGenerator.VirtualParticle\u001b[36m::Core.Const(VirtualParticle)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %48 = Main.process(data_input)\u001b[36m::QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %49 = Main.Photon()\u001b[36m::Core.Const(photon)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %50 = Core.tuple(false, false)\u001b[36m::Core.Const((false, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %51 = Core.tuple(true, false, true)\u001b[36m::Core.Const((true, false, true))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %52 = (%47)(%48, %49, %50, %51)\u001b[36m::Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, false)), Core.Const((true, false, true))])\u001b[39m\n", + "\u001b[90m│ \u001b[39m %53 = Main.Ref(data_input)\u001b[36m::Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64f0ad12_45ac_11ef_0bef_21c356bb9d69_in = (%46)(%52, %53))\n", + "\u001b[90m│ \u001b[39m %55 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %56 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %57 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %58 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %59 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %60 = Main.momentum(data_input, %58, %59, 2)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %61 = Main.ParticleStateful(%56, %57, %60)\u001b[36m::ParticleStateful{Outgoing, Electron, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %62 = Main.SpinUp()\u001b[36m::Core.Const(spin up)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5bd4_45ac_11ef_2000_a32640bcf141_in = (%55)(%61, %62))\n", + "\u001b[90m│ \u001b[39m %64 = FeynmanDiagramGenerator.PropagatorInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.PropagatorInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %65 = FeynmanDiagramGenerator.VirtualParticle\u001b[36m::Core.Const(VirtualParticle)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %66 = Main.process(data_input)\u001b[36m::QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %67 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %68 = Core.tuple(true, false)\u001b[36m::Core.Const((true, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %69 = Core.tuple(false, false, true)\u001b[36m::Core.Const((false, false, true))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %70 = (%65)(%66, %67, %68, %69)\u001b[36m::Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(electron), Core.Const((true, false)), Core.Const((false, false, true))])\u001b[39m\n", + "\u001b[90m│ \u001b[39m %71 = Main.Ref(data_input)\u001b[36m::Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__65019940_45ac_11ef_3265_67c230e68b49_in = (%64)(%70, %71))\n", + "\u001b[90m│ \u001b[39m %73 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %74 = Main.Incoming()\u001b[36m::Core.Const(incoming)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %75 = Main.Photon()\u001b[36m::Core.Const(photon)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %76 = Main.Incoming()\u001b[36m::Core.Const(incoming)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %77 = Main.Photon()\u001b[36m::Core.Const(photon)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %78 = Main.momentum(data_input, %76, %77, 1)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %79 = Main.ParticleStateful(%74, %75, %78)\u001b[36m::ParticleStateful{Incoming, Photon, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %80 = Main.PolY()\u001b[36m::Core.Const(y-polarized)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5a5a_45ac_11ef_0d77_19f1bff29635_in = (%73)(%79, %80))\n", + "\u001b[90m│ \u001b[39m %82 = FeynmanDiagramGenerator.PropagatorInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.PropagatorInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %83 = FeynmanDiagramGenerator.VirtualParticle\u001b[36m::Core.Const(VirtualParticle)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %84 = Main.process(data_input)\u001b[36m::QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %85 = Main.Photon()\u001b[36m::Core.Const(photon)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %86 = Core.tuple(false, true)\u001b[36m::Core.Const((false, true))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %87 = Core.tuple(false, true, false)\u001b[36m::Core.Const((false, true, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %88 = (%83)(%84, %85, %86, %87)\u001b[36m::Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, true)), Core.Const((false, true, false))])\u001b[39m\n", + "\u001b[90m│ \u001b[39m %89 = Main.Ref(data_input)\u001b[36m::Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64de3c20_45ac_11ef_0984_f1c89aa09113_in = (%82)(%88, %89))\n", + "\u001b[90m│ \u001b[39m %91 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %92 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %93 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %94 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %95 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %96 = Main.momentum(data_input, %94, %95, 2)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %97 = Main.ParticleStateful(%92, %93, %96)\u001b[36m::ParticleStateful{Outgoing, Electron, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %98 = Main.SpinDown()\u001b[36m::Core.Const(spin down)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5bfe_45ac_11ef_2ff1_c3c3d1cebf39_in = (%91)(%97, %98))\n", + "\u001b[90m│ \u001b[39m %100 = FeynmanDiagramGenerator.PropagatorInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.PropagatorInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %101 = FeynmanDiagramGenerator.VirtualParticle\u001b[36m::Core.Const(VirtualParticle)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %102 = Main.process(data_input)\u001b[36m::QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %103 = Main.Photon()\u001b[36m::Core.Const(photon)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %104 = Core.tuple(false, true)\u001b[36m::Core.Const((false, true))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %105 = Core.tuple(true, false, false)\u001b[36m::Core.Const((true, false, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %106 = (%101)(%102, %103, %104, %105)\u001b[36m::Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, true)), Core.Const((true, false, false))])\u001b[39m\n", + "\u001b[90m│ \u001b[39m %107 = Main.Ref(data_input)\u001b[36m::Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__650199e0_45ac_11ef_3a1a_1dc818646f47_in = (%100)(%106, %107))\n", + "\u001b[90m│ \u001b[39m %109 = FeynmanDiagramGenerator.PropagatorInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.PropagatorInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %110 = FeynmanDiagramGenerator.VirtualParticle\u001b[36m::Core.Const(VirtualParticle)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %111 = Main.process(data_input)\u001b[36m::QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %112 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %113 = Core.tuple(true, true)\u001b[36m::Core.Const((true, true))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %114 = Core.tuple(false, false, false)\u001b[36m::Core.Const((false, false, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %115 = (%110)(%111, %112, %113, %114)\u001b[36m::Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(electron), Core.Const((true, true)), Core.Const((false, false, false))])\u001b[39m\n", + "\u001b[90m│ \u001b[39m %116 = Main.Ref(data_input)\u001b[36m::Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5caa_45ac_11ef_3e09_e12138165051_in = (%109)(%115, %116))\n", + "\u001b[90m│ \u001b[39m %118 = FeynmanDiagramGenerator.PropagatorInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.PropagatorInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %119 = FeynmanDiagramGenerator.VirtualParticle\u001b[36m::Core.Const(VirtualParticle)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %120 = Main.process(data_input)\u001b[36m::QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %121 = Main.Positron()\u001b[36m::Core.Const(positron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %122 = Core.tuple(true, false)\u001b[36m::Core.Const((true, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %123 = Core.tuple(false, true, false)\u001b[36m::Core.Const((false, true, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %124 = (%119)(%120, %121, %122, %123)\u001b[36m::Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(positron), Core.Const((true, false)), Core.Const((false, true, false))])\u001b[39m\n", + "\u001b[90m│ \u001b[39m %125 = Main.Ref(data_input)\u001b[36m::Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64f0ad44_45ac_11ef_1009_259fa4cb0b18_in = (%118)(%124, %125))\n", + "\u001b[90m│ \u001b[39m %127 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %128 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %129 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %130 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %131 = Main.Electron()\u001b[36m::Core.Const(electron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %132 = Main.momentum(data_input, %130, %131, 1)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %133 = Main.ParticleStateful(%128, %129, %132)\u001b[36m::ParticleStateful{Outgoing, Electron, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %134 = Main.SpinUp()\u001b[36m::Core.Const(spin up)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5b5e_45ac_11ef_3fb7_b733a3439296_in = (%127)(%133, %134))\n", + "\u001b[90m│ \u001b[39m %136 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %137 = Main.Incoming()\u001b[36m::Core.Const(incoming)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %138 = Main.Photon()\u001b[36m::Core.Const(photon)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %139 = Main.Incoming()\u001b[36m::Core.Const(incoming)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %140 = Main.Photon()\u001b[36m::Core.Const(photon)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %141 = Main.momentum(data_input, %139, %140, 1)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %142 = Main.ParticleStateful(%137, %138, %141)\u001b[36m::ParticleStateful{Incoming, Photon, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %143 = Main.PolX()\u001b[36m::Core.Const(x-polarized)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64caf86a_45ac_11ef_0f39_875d45e90207_in = (%136)(%142, %143))\n", + "\u001b[90m│ \u001b[39m %145 = FeynmanDiagramGenerator.PropagatorInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.PropagatorInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %146 = FeynmanDiagramGenerator.VirtualParticle\u001b[36m::Core.Const(VirtualParticle)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %147 = Main.process(data_input)\u001b[36m::QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %148 = Main.Positron()\u001b[36m::Core.Const(positron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %149 = Core.tuple(true, false)\u001b[36m::Core.Const((true, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %150 = Core.tuple(true, false, false)\u001b[36m::Core.Const((true, false, false))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %151 = (%146)(%147, %148, %149, %150)\u001b[36m::Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(positron), Core.Const((true, false)), Core.Const((true, false, false))])\u001b[39m\n", + "\u001b[90m│ \u001b[39m %152 = Main.Ref(data_input)\u001b[36m::Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__65019a12_45ac_11ef_2d69_9fd6ac36efd1_in = (%145)(%151, %152))\n", + "\u001b[90m│ \u001b[39m %154 = FeynmanDiagramGenerator.BaseStateInput\u001b[36m::Core.Const(FeynmanDiagramGenerator.BaseStateInput)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %155 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %156 = Main.Positron()\u001b[36m::Core.Const(positron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %157 = Main.Outgoing()\u001b[36m::Core.Const(outgoing)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %158 = Main.Positron()\u001b[36m::Core.Const(positron)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %159 = Main.momentum(data_input, %157, %158, 1)\u001b[36m::SFourMomentum\u001b[39m\n", + "\u001b[90m│ \u001b[39m %160 = Main.ParticleStateful(%155, %156, %159)\u001b[36m::ParticleStateful{Outgoing, Positron, SFourMomentum}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %161 = Main.SpinDown()\u001b[36m::Core.Const(spin down)\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5c4e_45ac_11ef_1139_3548f64a599a_in = (%154)(%160, %161))\n", + "\u001b[90m│ \u001b[39m (data__64caf86a_45ac_11ef_0f39_875d45e90207 = Main.unpack_identity(data__64caf86a_45ac_11ef_0f39_875d45e90207_in))\n", + "\u001b[90m│ \u001b[39m (data__64de3c20_45ac_11ef_0984_f1c89aa09113 = Main.unpack_identity(data__64de3c20_45ac_11ef_0984_f1c89aa09113_in::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, true)), Core.Const((false, true, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m %165 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %166 = (%165)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64caf872_45ac_11ef_3aaa_e36831c25c08 = Main.compute(%166, data__64caf86a_45ac_11ef_0f39_875d45e90207))\n", + "\u001b[90m│ \u001b[39m %168 = FeynmanDiagramGenerator.ComputeTask_Propagator\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %169 = (%168)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64de3c52_45ac_11ef_350a_c391455b6430 = Main.compute(%169, data__64de3c20_45ac_11ef_0984_f1c89aa09113::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, true)), Core.Const((false, true, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m (data__64caf8b8_45ac_11ef_03c5_158fe21ccceb = Main.unpack_identity(data__64caf872_45ac_11ef_3aaa_e36831c25c08::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m (data__64de3c5c_45ac_11ef_00c2_678c4eb03718 = Main.unpack_identity(data__64de3c52_45ac_11ef_350a_c391455b6430))\n", + "\u001b[90m│ \u001b[39m (data__64c9ee32_45ac_11ef_0c0f_75c97d4d341e = Main.unpack_identity(data__64c9ee32_45ac_11ef_0c0f_75c97d4d341e_in))\n", + "\u001b[90m│ \u001b[39m (data__64f0ad12_45ac_11ef_0bef_21c356bb9d69 = Main.unpack_identity(data__64f0ad12_45ac_11ef_0bef_21c356bb9d69_in::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, false)), Core.Const((true, false, true))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m (data__64cc5a5a_45ac_11ef_0d77_19f1bff29635 = Main.unpack_identity(data__64cc5a5a_45ac_11ef_0d77_19f1bff29635_in))\n", + "\u001b[90m│ \u001b[39m (data__64cc5c4e_45ac_11ef_1139_3548f64a599a = Main.unpack_identity(data__64cc5c4e_45ac_11ef_1139_3548f64a599a_in))\n", + "\u001b[90m│ \u001b[39m %177 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %178 = (%177)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64c9ee50_45ac_11ef_3c7b_11e538a36352 = Main.compute(%178, data__64c9ee32_45ac_11ef_0c0f_75c97d4d341e))\n", + "\u001b[90m│ \u001b[39m %180 = FeynmanDiagramGenerator.ComputeTask_Propagator\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %181 = (%180)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64f0ad1a_45ac_11ef_09b4_41b7496ec051 = Main.compute(%181, data__64f0ad12_45ac_11ef_0bef_21c356bb9d69::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, false)), Core.Const((true, false, true))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m %183 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %184 = (%183)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5a6c_45ac_11ef_2c4c_eb53485d10fa = Main.compute(%184, data__64cc5a5a_45ac_11ef_0d77_19f1bff29635))\n", + "\u001b[90m│ \u001b[39m %186 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %187 = (%186)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5c58_45ac_11ef_2549_2989b73b4e07 = Main.compute(%187, data__64cc5c4e_45ac_11ef_1139_3548f64a599a))\n", + "\u001b[90m│ \u001b[39m (data__64c9eebe_45ac_11ef_278e_dbea70dfc20c = Main.unpack_identity(data__64c9ee50_45ac_11ef_3c7b_11e538a36352))\n", + "\u001b[90m│ \u001b[39m (data__64f0ad24_45ac_11ef_1dfb_37e835f16813 = Main.unpack_identity(data__64f0ad1a_45ac_11ef_09b4_41b7496ec051))\n", + "\u001b[90m│ \u001b[39m (data__64cc5b04_45ac_11ef_292e_4183199490e4 = Main.unpack_identity(data__64cc5a6c_45ac_11ef_2c4c_eb53485d10fa::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m (data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5 = Main.unpack_identity(data__64cc5c58_45ac_11ef_2549_2989b73b4e07))\n", + "\u001b[90m│ \u001b[39m %193 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %194 = (%193)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %195 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669c8c_45ac_11ef_12e8_194959094e5e = Main.compute(%194, %195, data__64caf8b8_45ac_11ef_03c5_158fe21ccceb::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m (data__64f0ad44_45ac_11ef_1009_259fa4cb0b18 = Main.unpack_identity(data__64f0ad44_45ac_11ef_1009_259fa4cb0b18_in::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(positron), Core.Const((true, false)), Core.Const((false, true, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m (data__64cc5caa_45ac_11ef_3e09_e12138165051 = Main.unpack_identity(data__64cc5caa_45ac_11ef_3e09_e12138165051_in::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(electron), Core.Const((true, true)), Core.Const((false, false, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m (data__64cc5bfe_45ac_11ef_2ff1_c3c3d1cebf39 = Main.unpack_identity(data__64cc5bfe_45ac_11ef_2ff1_c3c3d1cebf39_in))\n", + "\u001b[90m│ \u001b[39m (data__67669c94_45ac_11ef_3128_03fdb0adcc6d = Main.unpack_identity(data__67669c8c_45ac_11ef_12e8_194959094e5e))\n", + "\u001b[90m│ \u001b[39m %201 = FeynmanDiagramGenerator.ComputeTask_Propagator\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %202 = (%201)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64f0ae64_45ac_11ef_1c7c_419f3f6857c8 = Main.compute(%202, data__64f0ad44_45ac_11ef_1009_259fa4cb0b18::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(positron), Core.Const((true, false)), Core.Const((false, true, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m %204 = FeynmanDiagramGenerator.ComputeTask_Propagator\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %205 = (%204)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5cc6_45ac_11ef_3b63_e3821341ece5 = Main.compute(%205, data__64cc5caa_45ac_11ef_3e09_e12138165051::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(electron), Core.Const((true, true)), Core.Const((false, false, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m %207 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %208 = (%207)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5bfe_45ac_11ef_1851_53be2e3ccb5c = Main.compute(%208, data__64cc5bfe_45ac_11ef_2ff1_c3c3d1cebf39))\n", + "\u001b[90m│ \u001b[39m %210 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %211 = (%210)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669e60_45ac_11ef_2a92_cb6e03ef4fff = Main.compute(%211, data__67669c94_45ac_11ef_3128_03fdb0adcc6d))\n", + "\u001b[90m│ \u001b[39m (data__64f0ae64_45ac_11ef_047d_97fc1062e4a9 = Main.unpack_identity(data__64f0ae64_45ac_11ef_1c7c_419f3f6857c8))\n", + "\u001b[90m│ \u001b[39m (data__64cc5cd0_45ac_11ef_346f_d3c975f573e0 = Main.unpack_identity(data__64cc5cc6_45ac_11ef_3b63_e3821341ece5))\n", + "\u001b[90m│ \u001b[39m (data__64cc5c06_45ac_11ef_055c_fb1bde872e51 = Main.unpack_identity(data__64cc5bfe_45ac_11ef_1851_53be2e3ccb5c))\n", + "\u001b[90m│ \u001b[39m (data__67669e60_45ac_11ef_24a5_f7e0991e9ff2 = Main.unpack_identity(data__67669e60_45ac_11ef_2a92_cb6e03ef4fff))\n", + "\u001b[90m│ \u001b[39m %217 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %218 = (%217)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %219 = data__64cc5c06_45ac_11ef_055c_fb1bde872e51\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f08f4_45ac_11ef_27cf_354d02b19c36 = Main.compute(%218, %219, data__64c9eebe_45ac_11ef_278e_dbea70dfc20c))\n", + "\u001b[90m│ \u001b[39m %221 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %222 = (%221)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %223 = data__64cc5cd0_45ac_11ef_346f_d3c975f573e0\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669e6a_45ac_11ef_2f25_215054d06ad5 = Main.compute(%222, %223, data__67669e60_45ac_11ef_24a5_f7e0991e9ff2))\n", + "\u001b[90m│ \u001b[39m (data__65019940_45ac_11ef_3265_67c230e68b49 = Main.unpack_identity(data__65019940_45ac_11ef_3265_67c230e68b49_in::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(electron), Core.Const((true, false)), Core.Const((false, false, true))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m (data__64cc5ba6_45ac_11ef_05a6_1ddef1669943 = Main.unpack_identity(data__64cc5ba6_45ac_11ef_05a6_1ddef1669943_in))\n", + "\u001b[90m│ \u001b[39m %227 = FeynmanDiagramGenerator.ComputeTask_Propagator\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %228 = (%227)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6501995e_45ac_11ef_300e_73cc31b8a9c4 = Main.compute(%228, data__65019940_45ac_11ef_3265_67c230e68b49::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Electron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(electron), Core.Const((true, false)), Core.Const((false, false, true))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m %230 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %231 = (%230)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5bae_45ac_11ef_0421_a9d6e8034fd1 = Main.compute(%231, data__64cc5ba6_45ac_11ef_05a6_1ddef1669943))\n", + "\u001b[90m│ \u001b[39m (data__65019966_45ac_11ef_2887_0bb0edd119ca = Main.unpack_identity(data__6501995e_45ac_11ef_300e_73cc31b8a9c4))\n", + "\u001b[90m│ \u001b[39m (data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6 = Main.unpack_identity(data__64cc5bae_45ac_11ef_0421_a9d6e8034fd1))\n", + "\u001b[90m│ \u001b[39m (data__64cc5c30_45ac_11ef_21df_97e8535e77d4 = Main.unpack_identity(data__64cc5c30_45ac_11ef_21df_97e8535e77d4_in))\n", + "\u001b[90m│ \u001b[39m %236 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %237 = (%236)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %238 = data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0cfa_45ac_11ef_38c7_7157d8d17afb = Main.compute(%237, %238, data__64c9eebe_45ac_11ef_278e_dbea70dfc20c))\n", + "\u001b[90m│ \u001b[39m (data__650199e0_45ac_11ef_3a1a_1dc818646f47 = Main.unpack_identity(data__650199e0_45ac_11ef_3a1a_1dc818646f47_in::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, true)), Core.Const((true, false, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m %241 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %242 = (%241)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %243 = data__64cc5c06_45ac_11ef_055c_fb1bde872e51\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__675f5740_45ac_11ef_3dff_6be56a95ff8b = Main.compute(%242, %243, data__64caf8b8_45ac_11ef_03c5_158fe21ccceb::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m %245 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %246 = (%245)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %247 = data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669816_45ac_11ef_084c_dfc9c68083a9 = Main.compute(%246, %247, data__64caf8b8_45ac_11ef_03c5_158fe21ccceb::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m %249 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %250 = (%249)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5c30_45ac_11ef_3b3d_678549237dee = Main.compute(%250, data__64cc5c30_45ac_11ef_21df_97e8535e77d4))\n", + "\u001b[90m│ \u001b[39m (data__665f0cfa_45ac_11ef_201f_fdfe733e83c5 = Main.unpack_identity(data__665f0cfa_45ac_11ef_38c7_7157d8d17afb))\n", + "\u001b[90m│ \u001b[39m %253 = FeynmanDiagramGenerator.ComputeTask_Propagator\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %254 = (%253)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__650199e0_45ac_11ef_01c5_d78eeb0fee6e = Main.compute(%254, data__650199e0_45ac_11ef_3a1a_1dc818646f47::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, true)), Core.Const((true, false, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m (data__675f574a_45ac_11ef_2072_dd234894ca3a = Main.unpack_identity(data__675f5740_45ac_11ef_3dff_6be56a95ff8b))\n", + "\u001b[90m│ \u001b[39m (data__67669822_45ac_11ef_1e16_4de6b06735b7 = Main.unpack_identity(data__67669816_45ac_11ef_084c_dfc9c68083a9))\n", + "\u001b[90m│ \u001b[39m (data__64cc5c3a_45ac_11ef_0379_5b012ddd8810 = Main.unpack_identity(data__64cc5c30_45ac_11ef_3b3d_678549237dee))\n", + "\u001b[90m│ \u001b[39m %259 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %260 = (%259)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0e12_45ac_11ef_0645_7719a84454ca = Main.compute(%260, data__665f0cfa_45ac_11ef_201f_fdfe733e83c5))\n", + "\u001b[90m│ \u001b[39m %262 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %263 = (%262)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %264 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6615a862_45ac_11ef_3e0d_abe160377142 = Main.compute(%263, %264, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__665f0e1c_45ac_11ef_1a49_ffe740410d23 = Main.unpack_identity(data__665f0e12_45ac_11ef_0645_7719a84454ca))\n", + "\u001b[90m│ \u001b[39m (data__6615a876_45ac_11ef_2f7c_cd00c02d2303 = Main.unpack_identity(data__6615a862_45ac_11ef_3e0d_abe160377142))\n", + "\u001b[90m│ \u001b[39m (data__650199ea_45ac_11ef_21c2_c100afd327b2 = Main.unpack_identity(data__650199e0_45ac_11ef_01c5_d78eeb0fee6e))\n", + "\u001b[90m│ \u001b[39m %269 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %270 = (%269)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665765b8_45ac_11ef_33de_eb7060625dda = Main.compute(%270, data__6615a876_45ac_11ef_2f7c_cd00c02d2303))\n", + "\u001b[90m│ \u001b[39m %272 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %273 = (%272)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67634e68_45ac_11ef_3d73_c5dd53726fbb = Main.compute(%273, data__675f574a_45ac_11ef_2072_dd234894ca3a))\n", + "\u001b[90m│ \u001b[39m (data__665765c2_45ac_11ef_3840_dbb8dd0e6474 = Main.unpack_identity(data__665765b8_45ac_11ef_33de_eb7060625dda))\n", + "\u001b[90m│ \u001b[39m (data__67634e72_45ac_11ef_0459_97a7b4769c06 = Main.unpack_identity(data__67634e68_45ac_11ef_3d73_c5dd53726fbb))\n", + "\u001b[90m│ \u001b[39m %277 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %278 = (%277)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669af2_45ac_11ef_00c7_2dde22fd1325 = Main.compute(%278, data__67669822_45ac_11ef_1e16_4de6b06735b7))\n", + "\u001b[90m│ \u001b[39m %280 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %281 = (%280)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %282 = data__64f0ae64_45ac_11ef_047d_97fc1062e4a9\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67634e86_45ac_11ef_1325_8ba25e908a68 = Main.compute(%281, %282, data__67634e72_45ac_11ef_0459_97a7b4769c06))\n", + "\u001b[90m│ \u001b[39m (data__67669af2_45ac_11ef_2208_a3734b3991c8 = Main.unpack_identity(data__67669af2_45ac_11ef_00c7_2dde22fd1325))\n", + "\u001b[90m│ \u001b[39m (data__67634f12_45ac_11ef_24fc_2994378f8cf0 = Main.unpack_identity(data__67634e86_45ac_11ef_1325_8ba25e908a68))\n", + "\u001b[90m│ \u001b[39m %286 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %287 = (%286)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %288 = data__650199ea_45ac_11ef_21c2_c100afd327b2\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0e1c_45ac_11ef_16bd_a5458f0b8397 = Main.compute(%287, %288, data__665f0e1c_45ac_11ef_1a49_ffe740410d23))\n", + "\u001b[90m│ \u001b[39m %290 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %291 = (%290)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %292 = data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__676699ee_45ac_11ef_0fd9_598012065a18 = Main.compute(%291, %292, data__64cc5b04_45ac_11ef_292e_4183199490e4::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m (data__665f0e30_45ac_11ef_170a_b16f2d53d880 = Main.unpack_identity(data__665f0e1c_45ac_11ef_16bd_a5458f0b8397))\n", + "\u001b[90m│ \u001b[39m (data__676699ee_45ac_11ef_2f84_7d0630bdc9b2 = Main.unpack_identity(data__676699ee_45ac_11ef_0fd9_598012065a18))\n", + "\u001b[90m│ \u001b[39m %296 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %297 = (%296)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %298 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %299 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a151948_45ac_11ef_0703_b7a93534dc01 = Main.compute(%297, %298, %299, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %301 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %302 = (%301)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669b0e_45ac_11ef_262d_ff130c6fe20a = Main.compute(%302, data__676699ee_45ac_11ef_2f84_7d0630bdc9b2))\n", + "\u001b[90m│ \u001b[39m (data__6a151952_45ac_11ef_061a_f72bcd5556b9 = Main.unpack_identity(data__6a151948_45ac_11ef_0703_b7a93534dc01))\n", + "\u001b[90m│ \u001b[39m (data__67669b18_45ac_11ef_3eb1_1568426eab34 = Main.unpack_identity(data__67669b0e_45ac_11ef_262d_ff130c6fe20a))\n", + "\u001b[90m│ \u001b[39m (data__64cc5b5e_45ac_11ef_3fb7_b733a3439296 = Main.unpack_identity(data__64cc5b5e_45ac_11ef_3fb7_b733a3439296_in))\n", + "\u001b[90m│ \u001b[39m %307 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %308 = (%307)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %309 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %310 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a151f3a_45ac_11ef_39c1_07857b3ce909 = Main.compute(%308, %309, %310, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %312 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %313 = (%312)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5b68_45ac_11ef_2f84_c156cc6eb3f3 = Main.compute(%313, data__64cc5b5e_45ac_11ef_3fb7_b733a3439296))\n", + "\u001b[90m│ \u001b[39m (data__6a151f42_45ac_11ef_1b0f_11d551f471c9 = Main.unpack_identity(data__6a151f3a_45ac_11ef_39c1_07857b3ce909))\n", + "\u001b[90m│ \u001b[39m (data__64cc5b74_45ac_11ef_027f_1dff3f4e269a = Main.unpack_identity(data__64cc5b68_45ac_11ef_2f84_c156cc6eb3f3))\n", + "\u001b[90m│ \u001b[39m (data__64cc5bd4_45ac_11ef_2000_a32640bcf141 = Main.unpack_identity(data__64cc5bd4_45ac_11ef_2000_a32640bcf141_in))\n", + "\u001b[90m│ \u001b[39m %318 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %319 = (%318)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %320 = data__64cc5b74_45ac_11ef_027f_1dff3f4e269a\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0c6e_45ac_11ef_0533_5d7e7578c91e = Main.compute(%319, %320, data__64c9eebe_45ac_11ef_278e_dbea70dfc20c))\n", + "\u001b[90m│ \u001b[39m %322 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %323 = (%322)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64cc5be0_45ac_11ef_068b_21b59d25aff3 = Main.compute(%323, data__64cc5bd4_45ac_11ef_2000_a32640bcf141))\n", + "\u001b[90m│ \u001b[39m (data__665f0c78_45ac_11ef_17d5_736721583cdd = Main.unpack_identity(data__665f0c6e_45ac_11ef_0533_5d7e7578c91e))\n", + "\u001b[90m│ \u001b[39m (data__64cc5bea_45ac_11ef_39d9_a5984eef1140 = Main.unpack_identity(data__64cc5be0_45ac_11ef_068b_21b59d25aff3))\n", + "\u001b[90m│ \u001b[39m %327 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %328 = (%327)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0e44_45ac_11ef_3baf_77a8b07d657c = Main.compute(%328, data__665f0c78_45ac_11ef_17d5_736721583cdd))\n", + "\u001b[90m│ \u001b[39m %330 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %331 = (%330)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %332 = data__64cc5bea_45ac_11ef_39d9_a5984eef1140\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0856_45ac_11ef_1194_63931a1af155 = Main.compute(%331, %332, data__64c9eebe_45ac_11ef_278e_dbea70dfc20c))\n", + "\u001b[90m│ \u001b[39m %334 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %335 = (%334)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %336 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6712f706_45ac_11ef_39e7_dded14ae7ce3 = Main.compute(%335, %336, data__64caf8b8_45ac_11ef_03c5_158fe21ccceb::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m %338 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %339 = (%338)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %340 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665efc6a_45ac_11ef_25f1_cdbe10ec12f1 = Main.compute(%339, %340, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__6712f724_45ac_11ef_1e6e_2739f7c9c737 = Main.unpack_identity(data__6712f706_45ac_11ef_39e7_dded14ae7ce3))\n", + "\u001b[90m│ \u001b[39m (data__665efc72_45ac_11ef_2303_93829d9f7fdb = Main.unpack_identity(data__665efc6a_45ac_11ef_25f1_cdbe10ec12f1))\n", + "\u001b[90m│ \u001b[39m %344 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %345 = (%344)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6752269c_45ac_11ef_2a99_2b1b8a142d0e = Main.compute(%345, data__6712f724_45ac_11ef_1e6e_2739f7c9c737))\n", + "\u001b[90m│ \u001b[39m %347 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %348 = (%347)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f03e0_45ac_11ef_1eda_eb8fc2ee71bb = Main.compute(%348, data__665efc72_45ac_11ef_2303_93829d9f7fdb))\n", + "\u001b[90m│ \u001b[39m (data__675226a6_45ac_11ef_3320_558b53eaf0d9 = Main.unpack_identity(data__6752269c_45ac_11ef_2a99_2b1b8a142d0e))\n", + "\u001b[90m│ \u001b[39m (data__665f03e0_45ac_11ef_37b8_09046c44d87f = Main.unpack_identity(data__665f03e0_45ac_11ef_1eda_eb8fc2ee71bb))\n", + "\u001b[90m│ \u001b[39m %352 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %353 = (%352)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %354 = data__64cc5b74_45ac_11ef_027f_1dff3f4e269a\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__676695d2_45ac_11ef_3ee4_71310cdc48e8 = Main.compute(%353, %354, data__64caf8b8_45ac_11ef_03c5_158fe21ccceb::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m %356 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %357 = (%356)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %358 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__65ce3946_45ac_11ef_30e2_b35dea29b967 = Main.compute(%357, %358, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %360 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %361 = (%360)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %362 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__65613aa8_45ac_11ef_1782_2dd2480c94b9 = Main.compute(%361, %362, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__65ce396e_45ac_11ef_0c6e_898855b628d6 = Main.unpack_identity(data__65ce3946_45ac_11ef_30e2_b35dea29b967))\n", + "\u001b[90m│ \u001b[39m (data__65613abc_45ac_11ef_3345_2960661e874c = Main.unpack_identity(data__65613aa8_45ac_11ef_1782_2dd2480c94b9))\n", + "\u001b[90m│ \u001b[39m %366 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %367 = (%366)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__66596994_45ac_11ef_296d_030000c1a769 = Main.compute(%367, data__65ce396e_45ac_11ef_0c6e_898855b628d6))\n", + "\u001b[90m│ \u001b[39m %369 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %370 = (%369)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__664fb34a_45ac_11ef_1bbb_3d84b3328df5 = Main.compute(%370, data__65613abc_45ac_11ef_3345_2960661e874c))\n", + "\u001b[90m│ \u001b[39m (data__6659699e_45ac_11ef_22d2_ef3b00075805 = Main.unpack_identity(data__66596994_45ac_11ef_296d_030000c1a769))\n", + "\u001b[90m│ \u001b[39m (data__664fb35e_45ac_11ef_02fb_7531faaf1bce = Main.unpack_identity(data__664fb34a_45ac_11ef_1bbb_3d84b3328df5))\n", + "\u001b[90m│ \u001b[39m %374 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %375 = (%374)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %376 = data__64cc5bea_45ac_11ef_39d9_a5984eef1140\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__675f545c_45ac_11ef_3951_0d29c4d04d47 = Main.compute(%375, %376, data__64caf8b8_45ac_11ef_03c5_158fe21ccceb::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m %378 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %379 = (%378)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %380 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f02f0_45ac_11ef_310a_f3422744e228 = Main.compute(%379, %380, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__675f5470_45ac_11ef_05ff_67c64a2c0287 = Main.unpack_identity(data__675f545c_45ac_11ef_3951_0d29c4d04d47))\n", + "\u001b[90m│ \u001b[39m (data__665f02f0_45ac_11ef_22b5_dbe2fba46d30 = Main.unpack_identity(data__665f02f0_45ac_11ef_310a_f3422744e228))\n", + "\u001b[90m│ \u001b[39m %384 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %385 = (%384)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669320_45ac_11ef_2097_81feca8636c8 = Main.compute(%385, data__675f5470_45ac_11ef_05ff_67c64a2c0287))\n", + "\u001b[90m│ \u001b[39m %387 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %388 = (%387)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0534_45ac_11ef_3433_c7581578f966 = Main.compute(%388, data__665f02f0_45ac_11ef_22b5_dbe2fba46d30))\n", + "\u001b[90m│ \u001b[39m (data__6766932a_45ac_11ef_19e1_5562b492e85c = Main.unpack_identity(data__67669320_45ac_11ef_2097_81feca8636c8))\n", + "\u001b[90m│ \u001b[39m (data__665f0534_45ac_11ef_0261_c733e95d448b = Main.unpack_identity(data__665f0534_45ac_11ef_3433_c7581578f966))\n", + "\u001b[90m│ \u001b[39m %392 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %393 = (%392)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %394 = data__64f0ae64_45ac_11ef_047d_97fc1062e4a9\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6766933e_45ac_11ef_24ab_9518df960e16 = Main.compute(%393, %394, data__6766932a_45ac_11ef_19e1_5562b492e85c))\n", + "\u001b[90m│ \u001b[39m %396 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %397 = (%396)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %398 = data__64f0ad24_45ac_11ef_1dfb_37e835f16813\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f053e_45ac_11ef_38b7_fbe40a766adb = Main.compute(%397, %398, data__665f0534_45ac_11ef_0261_c733e95d448b))\n", + "\u001b[90m│ \u001b[39m %400 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %401 = (%400)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %402 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__662559d8_45ac_11ef_1d50_99f7556af89b = Main.compute(%401, %402, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__665f055c_45ac_11ef_2897_d7e1b6e8e05e = Main.unpack_identity(data__665f053e_45ac_11ef_38b7_fbe40a766adb))\n", + "\u001b[90m│ \u001b[39m (data__662559f6_45ac_11ef_0047_61d0287c4b9c = Main.unpack_identity(data__662559d8_45ac_11ef_1d50_99f7556af89b))\n", + "\u001b[90m│ \u001b[39m %406 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %407 = (%406)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %408 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %409 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14513e_45ac_11ef_1f54_910f795b6e51 = Main.compute(%407, %408, %409, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %411 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %412 = (%411)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665cbdc4_45ac_11ef_0f66_fb63be7ea59f = Main.compute(%412, data__662559f6_45ac_11ef_0047_61d0287c4b9c))\n", + "\u001b[90m│ \u001b[39m (data__6a14513e_45ac_11ef_3034_71cbd5a13d8e = Main.unpack_identity(data__6a14513e_45ac_11ef_1f54_910f795b6e51))\n", + "\u001b[90m│ \u001b[39m (data__665cbdce_45ac_11ef_06a8_d3cd2e627d89 = Main.unpack_identity(data__665cbdc4_45ac_11ef_0f66_fb63be7ea59f))\n", + "\u001b[90m│ \u001b[39m %416 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %417 = (%416)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %418 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f01ba_45ac_11ef_3fc5_cb31bd14fe67 = Main.compute(%417, %418, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %420 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %421 = (%420)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %422 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__668d3512_45ac_11ef_1189_b5fc21eb8297 = Main.compute(%421, %422, data__64caf8b8_45ac_11ef_03c5_158fe21ccceb::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m (data__665f01c4_45ac_11ef_230d_9de410903359 = Main.unpack_identity(data__665f01ba_45ac_11ef_3fc5_cb31bd14fe67))\n", + "\u001b[90m│ \u001b[39m (data__668d3620_45ac_11ef_3857_db9cb39a922d = Main.unpack_identity(data__668d3512_45ac_11ef_1189_b5fc21eb8297))\n", + "\u001b[90m│ \u001b[39m %426 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %427 = (%426)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f04a8_45ac_11ef_343e_7f12d51d594e = Main.compute(%427, data__665f01c4_45ac_11ef_230d_9de410903359))\n", + "\u001b[90m│ \u001b[39m %429 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %430 = (%429)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__674cbfae_45ac_11ef_167a_85bd3223985a = Main.compute(%430, data__668d3620_45ac_11ef_3857_db9cb39a922d))\n", + "\u001b[90m│ \u001b[39m (data__665f04a8_45ac_11ef_1421_77b6a7d6199f = Main.unpack_identity(data__665f04a8_45ac_11ef_343e_7f12d51d594e))\n", + "\u001b[90m│ \u001b[39m (data__674cbfc4_45ac_11ef_1952_475d39830be6 = Main.unpack_identity(data__674cbfae_45ac_11ef_167a_85bd3223985a))\n", + "\u001b[90m│ \u001b[39m %434 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %435 = (%434)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %436 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665efe9a_45ac_11ef_1b95_4570d1239902 = Main.compute(%435, %436, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__665f08fe_45ac_11ef_0641_07a59263b69b = Main.unpack_identity(data__665f08f4_45ac_11ef_27cf_354d02b19c36))\n", + "\u001b[90m│ \u001b[39m (data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f = Main.unpack_identity(data__67669e6a_45ac_11ef_2f25_215054d06ad5))\n", + "\u001b[90m│ \u001b[39m %440 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %441 = (%440)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f098c_45ac_11ef_105c_579ea5ff0eaf = Main.compute(%441, data__665f08fe_45ac_11ef_0641_07a59263b69b))\n", + "\u001b[90m│ \u001b[39m %443 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %444 = (%443)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %445 = data__65019966_45ac_11ef_2887_0bb0edd119ca\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__675226ba_45ac_11ef_05d7_eb8ca8ddb63b = Main.compute(%444, %445, data__675226a6_45ac_11ef_3320_558b53eaf0d9))\n", + "\u001b[90m│ \u001b[39m (data__665f09a8_45ac_11ef_3cbf_e75947eef008 = Main.unpack_identity(data__665f098c_45ac_11ef_105c_579ea5ff0eaf))\n", + "\u001b[90m│ \u001b[39m (data__675410b0_45ac_11ef_3ced_fbcd6e3d1128 = Main.unpack_identity(data__675226ba_45ac_11ef_05d7_eb8ca8ddb63b))\n", + "\u001b[90m│ \u001b[39m %449 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %450 = (%449)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %451 = data__64de3c5c_45ac_11ef_00c2_678c4eb03718\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f09a8_45ac_11ef_1866_d9702e7d1c36 = Main.compute(%450, %451, data__665f09a8_45ac_11ef_3cbf_e75947eef008))\n", + "\u001b[90m│ \u001b[39m %453 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %454 = (%453)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %455 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %456 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a155160_45ac_11ef_05a1_15e1ce8b5598 = Main.compute(%454, %455, %456, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %458 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %459 = (%458)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %460 = data__65019966_45ac_11ef_2887_0bb0edd119ca\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__674cbfcc_45ac_11ef_105b_d1958ae482d3 = Main.compute(%459, %460, data__674cbfc4_45ac_11ef_1952_475d39830be6))\n", + "\u001b[90m│ \u001b[39m (data__64f0abf8_45ac_11ef_33f9_3177f48e999f = Main.unpack_identity(data__64f0abf8_45ac_11ef_33f9_3177f48e999f_in::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, false)), Core.Const((false, true, true))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m (data__674e9888_45ac_11ef_0e79_911117c65c14 = Main.unpack_identity(data__674cbfcc_45ac_11ef_105b_d1958ae482d3))\n", + "\u001b[90m│ \u001b[39m %464 = FeynmanDiagramGenerator.ComputeTask_Propagator\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %465 = (%464)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64f0ac2a_45ac_11ef_38e9_530db73559ea = Main.compute(%465, data__64f0abf8_45ac_11ef_33f9_3177f48e999f::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Photon, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(photon), Core.Const((false, false)), Core.Const((false, true, true))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m %467 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %468 = (%467)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %469 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %470 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a154b98_45ac_11ef_2118_35193dda2750 = Main.compute(%468, %469, %470, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %472 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %473 = (%472)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %474 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %475 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15690c_45ac_11ef_3310_5ff6dff8317c = Main.compute(%473, %474, %475, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a154b98_45ac_11ef_1e31_fd53944b9035 = Main.unpack_identity(data__6a154b98_45ac_11ef_2118_35193dda2750))\n", + "\u001b[90m│ \u001b[39m (data__6a15690c_45ac_11ef_3aa0_ad7f673da9d8 = Main.unpack_identity(data__6a15690c_45ac_11ef_3310_5ff6dff8317c))\n", + "\u001b[90m│ \u001b[39m (data__65019a12_45ac_11ef_2d69_9fd6ac36efd1 = Main.unpack_identity(data__65019a12_45ac_11ef_2d69_9fd6ac36efd1_in::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(positron), Core.Const((true, false)), Core.Const((true, false, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m %480 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %481 = (%480)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %482 = data__64cc5c06_45ac_11ef_055c_fb1bde872e51\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__675f5998_45ac_11ef_34cf_e5156eee987d = Main.compute(%481, %482, data__64cc5b04_45ac_11ef_292e_4183199490e4::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m %484 = FeynmanDiagramGenerator.ComputeTask_Propagator\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %485 = (%484)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Propagator())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__65019a1c_45ac_11ef_2ad8_fb6bb2170a5a = Main.compute(%485, data__65019a12_45ac_11ef_2d69_9fd6ac36efd1::Core.PartialStruct(FeynmanDiagramGenerator.PropagatorInput{VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}, Any[Core.PartialStruct(VirtualParticle{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Positron, 2, 3}, Any[QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, Core.Const(positron), Core.Const((true, false)), Core.Const((true, false, false))]), Base.RefValue{PhaseSpacePoint{QEDProcess{Tuple{Photon, Electron}, Tuple{Electron, Electron, Positron}, Tuple{AllPolarization, AllSpin}, Tuple{AllSpin, AllSpin, AllSpin}}, PerturbativeQED, PhasespaceDefinition{SphericalCoordinateSystem, ElectronRestFrame}, Tuple{ParticleStateful{Incoming, Photon, SFourMomentum}, ParticleStateful{Incoming, Electron, SFourMomentum}}, Tuple{ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Electron, SFourMomentum}, ParticleStateful{Outgoing, Positron, SFourMomentum}}, SFourMomentum}}])))\n", + "\u001b[90m│ \u001b[39m (data__675f5998_45ac_11ef_1db6_3b4e3237f60d = Main.unpack_identity(data__675f5998_45ac_11ef_34cf_e5156eee987d))\n", + "\u001b[90m│ \u001b[39m (data__65019a26_45ac_11ef_3d71_d36320d619c4 = Main.unpack_identity(data__65019a1c_45ac_11ef_2ad8_fb6bb2170a5a))\n", + "\u001b[90m│ \u001b[39m %489 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %490 = (%489)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669456_45ac_11ef_18ef_f5cd61775c50 = Main.compute(%490, data__675f5998_45ac_11ef_1db6_3b4e3237f60d))\n", + "\u001b[90m│ \u001b[39m %492 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %493 = (%492)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %494 = data__64cc5b74_45ac_11ef_027f_1dff3f4e269a\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__676698f2_45ac_11ef_2201_4f1af1667e2e = Main.compute(%493, %494, data__64cc5b04_45ac_11ef_292e_4183199490e4::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m (data__67669460_45ac_11ef_2817_1f92c1d8bae2 = Main.unpack_identity(data__67669456_45ac_11ef_18ef_f5cd61775c50))\n", + "\u001b[90m│ \u001b[39m (data__676698f2_45ac_11ef_021f_012aecbbf214 = Main.unpack_identity(data__676698f2_45ac_11ef_2201_4f1af1667e2e))\n", + "\u001b[90m│ \u001b[39m %498 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %499 = (%498)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %500 = data__64f0ae64_45ac_11ef_047d_97fc1062e4a9\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669460_45ac_11ef_3a1d_5745216f4cc4 = Main.compute(%499, %500, data__67669460_45ac_11ef_2817_1f92c1d8bae2))\n", + "\u001b[90m│ \u001b[39m %502 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %503 = (%502)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669aaa_45ac_11ef_347b_2f7a54863701 = Main.compute(%503, data__676698f2_45ac_11ef_021f_012aecbbf214))\n", + "\u001b[90m│ \u001b[39m (data__67669474_45ac_11ef_2325_e1792fb4a48a = Main.unpack_identity(data__67669460_45ac_11ef_3a1d_5745216f4cc4))\n", + "\u001b[90m│ \u001b[39m (data__67669ab4_45ac_11ef_33ac_799e36acc16b = Main.unpack_identity(data__67669aaa_45ac_11ef_347b_2f7a54863701))\n", + "\u001b[90m│ \u001b[39m %507 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %508 = (%507)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %509 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %510 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a147970_45ac_11ef_0988_0de98a35385e = Main.compute(%508, %509, %510, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %512 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %513 = (%512)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %514 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %515 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15458a_45ac_11ef_237d_6d13248215c1 = Main.compute(%513, %514, %515, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m (data__6a14797a_45ac_11ef_1e4e_23bca5d49951 = Main.unpack_identity(data__6a147970_45ac_11ef_0988_0de98a35385e))\n", + "\u001b[90m│ \u001b[39m (data__6a15458a_45ac_11ef_0ff3_e33a14dfcb2c = Main.unpack_identity(data__6a15458a_45ac_11ef_237d_6d13248215c1))\n", + "\u001b[90m│ \u001b[39m %519 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %520 = (%519)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %521 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %522 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a153fa4_45ac_11ef_1e3c_c364710b48aa = Main.compute(%520, %521, %522, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %524 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %525 = (%524)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %526 = data__65019a26_45ac_11ef_3d71_d36320d619c4\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669ab4_45ac_11ef_17a2_1d8fec9ccd54 = Main.compute(%525, %526, data__67669ab4_45ac_11ef_33ac_799e36acc16b))\n", + "\u001b[90m│ \u001b[39m (data__6a153fa4_45ac_11ef_19a1_435cb0e834ad = Main.unpack_identity(data__6a153fa4_45ac_11ef_1e3c_c364710b48aa))\n", + "\u001b[90m│ \u001b[39m (data__67669ad2_45ac_11ef_078e_19dd6b98d4f6 = Main.unpack_identity(data__67669ab4_45ac_11ef_17a2_1d8fec9ccd54))\n", + "\u001b[90m│ \u001b[39m %530 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %531 = (%530)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %532 = data__65019a26_45ac_11ef_3d71_d36320d619c4\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669af2_45ac_11ef_31e1_dba3b56f9857 = Main.compute(%531, %532, data__67669af2_45ac_11ef_2208_a3734b3991c8))\n", + "\u001b[90m│ \u001b[39m (data__665f0e44_45ac_11ef_2d48_23b64d147f07 = Main.unpack_identity(data__665f0e44_45ac_11ef_3baf_77a8b07d657c))\n", + "\u001b[90m│ \u001b[39m (data__67669b04_45ac_11ef_1c31_7f085d85f58a = Main.unpack_identity(data__67669af2_45ac_11ef_31e1_dba3b56f9857))\n", + "\u001b[90m│ \u001b[39m %536 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %537 = (%536)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %538 = data__65019a26_45ac_11ef_3d71_d36320d619c4\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669b18_45ac_11ef_168c_d769b2d53c0d = Main.compute(%537, %538, data__67669b18_45ac_11ef_3eb1_1568426eab34))\n", + "\u001b[90m│ \u001b[39m %540 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %541 = (%540)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %542 = data__650199ea_45ac_11ef_21c2_c100afd327b2\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0e44_45ac_11ef_364e_4539b63c9691 = Main.compute(%541, %542, data__665f0e44_45ac_11ef_2d48_23b64d147f07))\n", + "\u001b[90m│ \u001b[39m (data__665f0856_45ac_11ef_2e96_21c485eabafc = Main.unpack_identity(data__665f0856_45ac_11ef_1194_63931a1af155))\n", + "\u001b[90m│ \u001b[39m (data__676695dc_45ac_11ef_1d5e_d3fe255385ec = Main.unpack_identity(data__676695d2_45ac_11ef_3ee4_71310cdc48e8))\n", + "\u001b[90m│ \u001b[39m %546 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %547 = (%546)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %548 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__673a84ce_45ac_11ef_1571_bfb6aa725942 = Main.compute(%547, %548, data__64cc5b04_45ac_11ef_292e_4183199490e4::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m %550 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %551 = (%550)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %552 = data__64cc5bea_45ac_11ef_39d9_a5984eef1140\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__675f5844_45ac_11ef_0bae_0518ab9ea7f4 = Main.compute(%551, %552, data__64cc5b04_45ac_11ef_292e_4183199490e4::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m (data__676693ca_45ac_11ef_3786_ed0e68bc4390 = Main.unpack_identity(data__6766933e_45ac_11ef_24ab_9518df960e16))\n", + "\u001b[90m│ \u001b[39m (data__665efea4_45ac_11ef_0799_637df8e327a4 = Main.unpack_identity(data__665efe9a_45ac_11ef_1b95_4570d1239902))\n", + "\u001b[90m│ \u001b[39m %556 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %557 = (%556)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %558 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %559 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a145e72_45ac_11ef_1282_c902cfaf87a0 = Main.compute(%557, %558, %559, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m %561 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %562 = (%561)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %563 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %564 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a152500_45ac_11ef_1ce7_5bd17444ac8a = Main.compute(%562, %563, %564, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__6a145e72_45ac_11ef_13c9_496539992205 = Main.unpack_identity(data__6a145e72_45ac_11ef_1282_c902cfaf87a0))\n", + "\u001b[90m│ \u001b[39m (data__6a152500_45ac_11ef_1f72_f9ef0880077a = Main.unpack_identity(data__6a152500_45ac_11ef_1ce7_5bd17444ac8a))\n", + "\u001b[90m│ \u001b[39m %568 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %569 = (%568)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %570 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %571 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a152ac8_45ac_11ef_1a38_151267e95c99 = Main.compute(%569, %570, %571, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__67669b24_45ac_11ef_3734_27f184f04e80 = Main.unpack_identity(data__67669b18_45ac_11ef_168c_d769b2d53c0d))\n", + "\u001b[90m│ \u001b[39m (data__665f0e56_45ac_11ef_114e_8fd9c447ef6a = Main.unpack_identity(data__665f0e44_45ac_11ef_364e_4539b63c9691))\n", + "\u001b[90m│ \u001b[39m %575 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %576 = (%575)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0a48_45ac_11ef_0961_13c5df4a9c49 = Main.compute(%576, data__665f0856_45ac_11ef_2e96_21c485eabafc))\n", + "\u001b[90m│ \u001b[39m %578 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %579 = (%578)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %580 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %581 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a151aa6_45ac_11ef_3a0e_010e69f67f82 = Main.compute(%579, %580, %581, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %583 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %584 = (%583)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %585 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %586 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15412a_45ac_11ef_1d36_89e416baf8bc = Main.compute(%584, %585, %586, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %588 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %589 = (%588)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %590 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %591 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15208c_45ac_11ef_0b22_2f0a78deff77 = Main.compute(%589, %590, %591, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m (data__6a15412a_45ac_11ef_306d_b5a0ddda920b = Main.unpack_identity(data__6a15412a_45ac_11ef_1d36_89e416baf8bc))\n", + "\u001b[90m│ \u001b[39m (data__6a152096_45ac_11ef_3f74_07dd13669855 = Main.unpack_identity(data__6a15208c_45ac_11ef_0b22_2f0a78deff77))\n", + "\u001b[90m│ \u001b[39m %595 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %596 = (%595)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %597 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %598 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a154cf6_45ac_11ef_38f6_f7f2435abc32 = Main.compute(%596, %597, %598, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %600 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %601 = (%600)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %602 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %603 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15264a_45ac_11ef_37a4_93a7bd981576 = Main.compute(%601, %602, %603, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__6a154cf6_45ac_11ef_03b7_1d4f090c49ac = Main.unpack_identity(data__6a154cf6_45ac_11ef_38f6_f7f2435abc32))\n", + "\u001b[90m│ \u001b[39m (data__6a152654_45ac_11ef_1410_5bbce5e0c783 = Main.unpack_identity(data__6a15264a_45ac_11ef_37a4_93a7bd981576))\n", + "\u001b[90m│ \u001b[39m %607 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %608 = (%607)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %609 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %610 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a152c3a_45ac_11ef_1b7a_c3bebe22b4a1 = Main.compute(%608, %609, %610, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m %612 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %613 = (%612)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %614 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %615 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1546d4_45ac_11ef_389d_8fd290391364 = Main.compute(%613, %614, %615, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %617 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %618 = (%617)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669b2c_45ac_11ef_245a_3369cd4b21f6 = Main.compute(%618, data__676695dc_45ac_11ef_1d5e_d3fe255385ec))\n", + "\u001b[90m│ \u001b[39m (data__673a84ec_45ac_11ef_20ac_4b4eac7f2750 = Main.unpack_identity(data__673a84ce_45ac_11ef_1571_bfb6aa725942))\n", + "\u001b[90m│ \u001b[39m (data__67669b2c_45ac_11ef_1bb5_9553b40befd0 = Main.unpack_identity(data__67669b2c_45ac_11ef_245a_3369cd4b21f6))\n", + "\u001b[90m│ \u001b[39m %622 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %623 = (%622)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6755bca8_45ac_11ef_29df_ff7eb5e8918a = Main.compute(%623, data__673a84ec_45ac_11ef_20ac_4b4eac7f2750))\n", + "\u001b[90m│ \u001b[39m %625 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %626 = (%625)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %627 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %628 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a156a88_45ac_11ef_1e85_f1f0041af9cb = Main.compute(%626, %627, %628, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6755bde8_45ac_11ef_1503_b126789850ee = Main.unpack_identity(data__6755bca8_45ac_11ef_29df_ff7eb5e8918a))\n", + "\u001b[90m│ \u001b[39m (data__6a156a92_45ac_11ef_1e93_3f0d6914c7bb = Main.unpack_identity(data__6a156a88_45ac_11ef_1e85_f1f0041af9cb))\n", + "\u001b[90m│ \u001b[39m %632 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %633 = (%632)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %634 = data__65019a26_45ac_11ef_3d71_d36320d619c4\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669b2c_45ac_11ef_360d_e3e4a234b275 = Main.compute(%633, %634, data__67669b2c_45ac_11ef_1bb5_9553b40befd0))\n", + "\u001b[90m│ \u001b[39m %636 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %637 = (%636)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %638 = data__65019966_45ac_11ef_2887_0bb0edd119ca\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6755bdf2_45ac_11ef_2cfd_7ba8511f1fbc = Main.compute(%637, %638, data__6755bde8_45ac_11ef_1503_b126789850ee))\n", + "\u001b[90m│ \u001b[39m (data__675f5844_45ac_11ef_1231_6381dc441917 = Main.unpack_identity(data__675f5844_45ac_11ef_0bae_0518ab9ea7f4))\n", + "\u001b[90m│ \u001b[39m (data__6757a612_45ac_11ef_0a8d_f7649013418c = Main.unpack_identity(data__6755bdf2_45ac_11ef_2cfd_7ba8511f1fbc))\n", + "\u001b[90m│ \u001b[39m %642 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %643 = (%642)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669424_45ac_11ef_0c82_6f83ca3df066 = Main.compute(%643, data__675f5844_45ac_11ef_1231_6381dc441917))\n", + "\u001b[90m│ \u001b[39m %645 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %646 = (%645)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %647 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %648 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a155ce6_45ac_11ef_2126_1143b4aca6f9 = Main.compute(%646, %647, %648, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__67669424_45ac_11ef_394c_c32babcd8184 = Main.unpack_identity(data__67669424_45ac_11ef_0c82_6f83ca3df066))\n", + "\u001b[90m│ \u001b[39m (data__6a155cf2_45ac_11ef_15e0_13ae1e738d8c = Main.unpack_identity(data__6a155ce6_45ac_11ef_2126_1143b4aca6f9))\n", + "\u001b[90m│ \u001b[39m %652 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %653 = (%652)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %654 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %655 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a155e44_45ac_11ef_0957_3f2e135e3ab8 = Main.compute(%653, %654, %655, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %657 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %658 = (%657)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %659 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %660 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a157690_45ac_11ef_3b7c_9b7f0ffdbb02 = Main.compute(%658, %659, %660, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a155e44_45ac_11ef_2b95_493e2e8e4a0d = Main.unpack_identity(data__6a155e44_45ac_11ef_0957_3f2e135e3ab8))\n", + "\u001b[90m│ \u001b[39m (data__6a157690_45ac_11ef_3b45_39440d28af45 = Main.unpack_identity(data__6a157690_45ac_11ef_3b7c_9b7f0ffdbb02))\n", + "\u001b[90m│ \u001b[39m %664 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %665 = (%664)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %666 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %667 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15751e_45ac_11ef_0e91_7f0ef09c37fd = Main.compute(%665, %666, %667, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %669 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %670 = (%669)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %671 = data__64f0ae64_45ac_11ef_047d_97fc1062e4a9\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669424_45ac_11ef_20d3_3ba51fcabd29 = Main.compute(%670, %671, data__67669424_45ac_11ef_394c_c32babcd8184))\n", + "\u001b[90m│ \u001b[39m (data__6a15751e_45ac_11ef_3391_13d01332b17b = Main.unpack_identity(data__6a15751e_45ac_11ef_0e91_7f0ef09c37fd))\n", + "\u001b[90m│ \u001b[39m (data__67669442_45ac_11ef_08d8_4bad8d8bb6fd = Main.unpack_identity(data__67669424_45ac_11ef_20d3_3ba51fcabd29))\n", + "\u001b[90m│ \u001b[39m %675 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %676 = (%675)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f04e2_45ac_11ef_327f_d3e6e756c5c5 = Main.compute(%676, data__665efea4_45ac_11ef_0799_637df8e327a4))\n", + "\u001b[90m│ \u001b[39m %678 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %679 = (%678)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %680 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %681 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a146c50_45ac_11ef_1217_a1d324eca14d = Main.compute(%679, %680, %681, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__665f04ee_45ac_11ef_2329_a3d8940c5a95 = Main.unpack_identity(data__665f04e2_45ac_11ef_327f_d3e6e756c5c5))\n", + "\u001b[90m│ \u001b[39m (data__6a146c50_45ac_11ef_3e83_7177f0b76eb1 = Main.unpack_identity(data__6a146c50_45ac_11ef_1217_a1d324eca14d))\n", + "\u001b[90m│ \u001b[39m %685 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %686 = (%685)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %687 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %688 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a153270_45ac_11ef_0eb2_591184497cf0 = Main.compute(%686, %687, %688, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m %690 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %691 = (%690)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %692 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %693 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a153568_45ac_11ef_33f7_3bb458e7b24a = Main.compute(%691, %692, %693, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__6a15327a_45ac_11ef_369c_451c0ca9ecc5 = Main.unpack_identity(data__6a153270_45ac_11ef_0eb2_591184497cf0))\n", + "\u001b[90m│ \u001b[39m (data__6a153568_45ac_11ef_04a7_c55ad8d25421 = Main.unpack_identity(data__6a153568_45ac_11ef_33f7_3bb458e7b24a))\n", + "\u001b[90m│ \u001b[39m %697 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %698 = (%697)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %699 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %700 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a153b3a_45ac_11ef_08b1_3527aa67d8eb = Main.compute(%698, %699, %700, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m %702 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %703 = (%702)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %704 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %705 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1539dc_45ac_11ef_2506_058be8130662 = Main.compute(%703, %704, %705, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__6a153b3a_45ac_11ef_060e_05dc6df58827 = Main.unpack_identity(data__6a153b3a_45ac_11ef_08b1_3527aa67d8eb))\n", + "\u001b[90m│ \u001b[39m (data__6a1539e6_45ac_11ef_2587_6b8d209b9106 = Main.unpack_identity(data__6a1539dc_45ac_11ef_2506_058be8130662))\n", + "\u001b[90m│ \u001b[39m %709 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %710 = (%709)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %711 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %712 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1552be_45ac_11ef_320a_d5802da0389b = Main.compute(%710, %711, %712, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__665f0a50_45ac_11ef_2211_e360c6a1a1b0 = Main.unpack_identity(data__665f0a48_45ac_11ef_0961_13c5df4a9c49))\n", + "\u001b[90m│ \u001b[39m (data__6a1552be_45ac_11ef_03dd_4dd3a4eb603a = Main.unpack_identity(data__6a1552be_45ac_11ef_320a_d5802da0389b))\n", + "\u001b[90m│ \u001b[39m %716 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %717 = (%716)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %718 = data__64f0ad24_45ac_11ef_1dfb_37e835f16813\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f04ee_45ac_11ef_3f2d_11acaa1c984f = Main.compute(%717, %718, data__665f04ee_45ac_11ef_2329_a3d8940c5a95))\n", + "\u001b[90m│ \u001b[39m %720 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %721 = (%720)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %722 = data__64de3c5c_45ac_11ef_00c2_678c4eb03718\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0a50_45ac_11ef_2d1a_2d0bce3e06f6 = Main.compute(%721, %722, data__665f0a50_45ac_11ef_2211_e360c6a1a1b0))\n", + "\u001b[90m│ \u001b[39m (data__665f0502_45ac_11ef_0b79_d58accc6ec3e = Main.unpack_identity(data__665f04ee_45ac_11ef_3f2d_11acaa1c984f))\n", + "\u001b[90m│ \u001b[39m (data__665f0a70_45ac_11ef_3186_837851fa5740 = Main.unpack_identity(data__665f0a50_45ac_11ef_2d1a_2d0bce3e06f6))\n", + "\u001b[90m│ \u001b[39m %726 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %727 = (%726)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %728 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %729 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a149298_45ac_11ef_1811_4380de41adf7 = Main.compute(%727, %728, %729, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %731 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %732 = (%731)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %733 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %734 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a144f68_45ac_11ef_2e3b_73eb1b792bec = Main.compute(%732, %733, %734, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m (data__6a1492a2_45ac_11ef_3491_1de44e7bf173 = Main.unpack_identity(data__6a149298_45ac_11ef_1811_4380de41adf7))\n", + "\u001b[90m│ \u001b[39m (data__6a144f68_45ac_11ef_35d5_4137625179f2 = Main.unpack_identity(data__6a144f68_45ac_11ef_2e3b_73eb1b792bec))\n", + "\u001b[90m│ \u001b[39m %738 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %739 = (%738)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %740 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %741 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a146ab6_45ac_11ef_03c8_8d65edcce307 = Main.compute(%739, %740, %741, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m %743 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %744 = (%743)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %745 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %746 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14e932_45ac_11ef_2b68_fb8bd93a5907 = Main.compute(%744, %745, %746, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %748 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %749 = (%748)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %750 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %751 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14eef0_45ac_11ef_00cb_21ef3554c265 = Main.compute(%749, %750, %751, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %753 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %754 = (%753)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %755 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %756 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1477ea_45ac_11ef_009e_7b02beb38647 = Main.compute(%754, %755, %756, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m (data__6a14eef0_45ac_11ef_3a27_995734dbe0d2 = Main.unpack_identity(data__6a14eef0_45ac_11ef_00cb_21ef3554c265))\n", + "\u001b[90m│ \u001b[39m (data__6a1477ea_45ac_11ef_08dd_a7027e5481ee = Main.unpack_identity(data__6a1477ea_45ac_11ef_009e_7b02beb38647))\n", + "\u001b[90m│ \u001b[39m %760 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %761 = (%760)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %762 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %763 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14fa8a_45ac_11ef_2d6b_8bbb64fa588c = Main.compute(%761, %762, %763, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %765 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %766 = (%765)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %767 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %768 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15142c_45ac_11ef_156f_69a35c1408bb = Main.compute(%766, %767, %768, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %770 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %771 = (%770)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %772 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %773 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a145cba_45ac_11ef_0749_33543b9c764b = Main.compute(%771, %772, %773, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__6a151434_45ac_11ef_313a_95685b70c0fd = Main.unpack_identity(data__6a15142c_45ac_11ef_156f_69a35c1408bb))\n", + "\u001b[90m│ \u001b[39m (data__6a145cba_45ac_11ef_1176_932d567e10a9 = Main.unpack_identity(data__6a145cba_45ac_11ef_0749_33543b9c764b))\n", + "\u001b[90m│ \u001b[39m %777 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %778 = (%777)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %779 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %780 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14cdb2_45ac_11ef_2ef6_c1c80b14f717 = Main.compute(%778, %779, %780, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m (data__6a151aa6_45ac_11ef_1be1_4fe2e8d2ec3f = Main.unpack_identity(data__6a151aa6_45ac_11ef_3a0e_010e69f67f82))\n", + "\u001b[90m│ \u001b[39m (data__6a14cdb2_45ac_11ef_2c63_23acac0a5ed9 = Main.unpack_identity(data__6a14cdb2_45ac_11ef_2ef6_c1c80b14f717))\n", + "\u001b[90m│ \u001b[39m %784 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %785 = (%784)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %786 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %787 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14b606_45ac_11ef_374f_f9a35dfaf7a7 = Main.compute(%785, %786, %787, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %789 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %790 = (%789)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %791 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %792 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14c1c8_45ac_11ef_04c8_0b07b2090d13 = Main.compute(%790, %791, %792, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6a14b606_45ac_11ef_0795_e1c7477da49a = Main.unpack_identity(data__6a14b606_45ac_11ef_374f_f9a35dfaf7a7))\n", + "\u001b[90m│ \u001b[39m (data__6a14c1c8_45ac_11ef_1425_91318be89d13 = Main.unpack_identity(data__6a14c1c8_45ac_11ef_04c8_0b07b2090d13))\n", + "\u001b[90m│ \u001b[39m %796 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %797 = (%796)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %798 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %799 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14d35c_45ac_11ef_2248_a7599ede1a01 = Main.compute(%797, %798, %799, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %801 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %802 = (%801)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %803 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %804 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14bbf6_45ac_11ef_0d54_bb86e473204e = Main.compute(%802, %803, %804, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %806 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %807 = (%806)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %808 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %809 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14c792_45ac_11ef_3e23_e7329aa4a691 = Main.compute(%807, %808, %809, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6a14bbf6_45ac_11ef_3f45_e3c9bf3516a4 = Main.unpack_identity(data__6a14bbf6_45ac_11ef_0d54_bb86e473204e))\n", + "\u001b[90m│ \u001b[39m (data__6a14c79a_45ac_11ef_264f_d98ab49ee013 = Main.unpack_identity(data__6a14c792_45ac_11ef_3e23_e7329aa4a691))\n", + "\u001b[90m│ \u001b[39m %813 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %814 = (%813)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %815 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %816 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1507f0_45ac_11ef_2c76_09a4caaa0e88 = Main.compute(%814, %815, %816, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %818 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %819 = (%818)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %820 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %821 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1501ba_45ac_11ef_1121_9d9671450ed0 = Main.compute(%819, %820, %821, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__6a152ac8_45ac_11ef_0907_cb956772e437 = Main.unpack_identity(data__6a152ac8_45ac_11ef_1a38_151267e95c99))\n", + "\u001b[90m│ \u001b[39m (data__6a1501ba_45ac_11ef_26b5_5db624369af0 = Main.unpack_identity(data__6a1501ba_45ac_11ef_1121_9d9671450ed0))\n", + "\u001b[90m│ \u001b[39m (data__6a152c42_45ac_11ef_16cf_97428e705430 = Main.unpack_identity(data__6a152c3a_45ac_11ef_1b7a_c3bebe22b4a1))\n", + "\u001b[90m│ \u001b[39m (data__6a1546d4_45ac_11ef_3fd9_610f3367856c = Main.unpack_identity(data__6a1546d4_45ac_11ef_389d_8fd290391364))\n", + "\u001b[90m│ \u001b[39m (data__67669b36_45ac_11ef_2954_79c8e451573d = Main.unpack_identity(data__67669b2c_45ac_11ef_360d_e3e4a234b275))\n", + "\u001b[90m│ \u001b[39m (data__665f09c6_45ac_11ef_28d9_43066742c079 = Main.unpack_identity(data__665f09a8_45ac_11ef_1866_d9702e7d1c36))\n", + "\u001b[90m│ \u001b[39m %829 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %830 = (%829)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %831 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %832 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14dcb2_45ac_11ef_0622_4161501c201a = Main.compute(%830, %831, %832, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %834 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %835 = (%834)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %836 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %837 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14c916_45ac_11ef_2025_6f0d1b908dd7 = Main.compute(%835, %836, %837, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %839 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %840 = (%839)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %841 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %842 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14e4a0_45ac_11ef_2c2e_0f7fdb51a47b = Main.compute(%840, %841, %842, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %844 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %845 = (%844)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %846 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %847 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14eacc_45ac_11ef_2fe8_7d348d14cff6 = Main.compute(%845, %846, %847, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__6a14dcb2_45ac_11ef_0dd8_571a6aa03748 = Main.unpack_identity(data__6a14dcb2_45ac_11ef_0622_4161501c201a))\n", + "\u001b[90m│ \u001b[39m (data__6a14c916_45ac_11ef_2243_611b4ef45eb9 = Main.unpack_identity(data__6a14c916_45ac_11ef_2025_6f0d1b908dd7))\n", + "\u001b[90m│ \u001b[39m (data__6a14e4a0_45ac_11ef_317a_e507fefa7c63 = Main.unpack_identity(data__6a14e4a0_45ac_11ef_2c2e_0f7fdb51a47b))\n", + "\u001b[90m│ \u001b[39m (data__6a14eacc_45ac_11ef_188e_6da678972307 = Main.unpack_identity(data__6a14eacc_45ac_11ef_2fe8_7d348d14cff6))\n", + "\u001b[90m│ \u001b[39m %853 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %854 = (%853)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %855 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %856 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14d840_45ac_11ef_0164_39a432632d00 = Main.compute(%854, %855, %856, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %858 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %859 = (%858)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %860 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %861 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14f63e_45ac_11ef_2147_499157f0190d = Main.compute(%859, %860, %861, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__6a14d848_45ac_11ef_2bbc_1fcbd2695e3f = Main.unpack_identity(data__6a14d840_45ac_11ef_0164_39a432632d00))\n", + "\u001b[90m│ \u001b[39m (data__6a14f648_45ac_11ef_112f_233d361206ab = Main.unpack_identity(data__6a14f63e_45ac_11ef_2147_499157f0190d))\n", + "\u001b[90m│ \u001b[39m (data__6a15516a_45ac_11ef_1728_5bfff6bb3f78 = Main.unpack_identity(data__6a155160_45ac_11ef_05a1_15e1ce8b5598))\n", + "\u001b[90m│ \u001b[39m %866 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %867 = (%866)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %868 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %869 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14e2b6_45ac_11ef_2600_456493dc0824 = Main.compute(%867, %868, %869, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %871 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %872 = (%871)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %873 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %874 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14bd7c_45ac_11ef_2fa7_910caed0a632 = Main.compute(%872, %873, %874, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6a14e2b6_45ac_11ef_0da5_2d14dcaf664b = Main.unpack_identity(data__6a14e2b6_45ac_11ef_2600_456493dc0824))\n", + "\u001b[90m│ \u001b[39m (data__6a14bd7c_45ac_11ef_1090_e13c09dae79e = Main.unpack_identity(data__6a14bd7c_45ac_11ef_2fa7_910caed0a632))\n", + "\u001b[90m│ \u001b[39m %878 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %879 = (%878)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %880 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %881 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14de2e_45ac_11ef_36a2_b14b9957c4ec = Main.compute(%879, %880, %881, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %883 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %884 = (%883)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %885 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %886 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a150f7a_45ac_11ef_26cf_9f65017b3054 = Main.compute(%884, %885, %886, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__6a14de2e_45ac_11ef_2757_7314ed277295 = Main.unpack_identity(data__6a14de2e_45ac_11ef_36a2_b14b9957c4ec))\n", + "\u001b[90m│ \u001b[39m (data__6a150f82_45ac_11ef_0629_dfcfc7f9dbdf = Main.unpack_identity(data__6a150f7a_45ac_11ef_26cf_9f65017b3054))\n", + "\u001b[90m│ \u001b[39m %890 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %891 = (%890)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %892 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %893 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14af8a_45ac_11ef_17ab_6de8e8e64ec9 = Main.compute(%891, %892, %893, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %895 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %896 = (%895)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %897 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %898 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14cf42_45ac_11ef_0962_977731569996 = Main.compute(%896, %897, %898, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m (data__6a14af94_45ac_11ef_127b_bbb388941bfd = Main.unpack_identity(data__6a14af8a_45ac_11ef_17ab_6de8e8e64ec9))\n", + "\u001b[90m│ \u001b[39m (data__6a14cf4c_45ac_11ef_0ddd_953f66008565 = Main.unpack_identity(data__6a14cf42_45ac_11ef_0962_977731569996))\n", + "\u001b[90m│ \u001b[39m %902 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %903 = (%902)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %904 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %905 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15032c_45ac_11ef_3d21_dbe553dc2644 = Main.compute(%903, %904, %905, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %907 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %908 = (%907)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %909 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %910 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14c330_45ac_11ef_2190_ffe757ef2675 = Main.compute(%908, %909, %910, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6a150336_45ac_11ef_099d_795d76cc4f01 = Main.unpack_identity(data__6a15032c_45ac_11ef_3d21_dbe553dc2644))\n", + "\u001b[90m│ \u001b[39m (data__6a14c330_45ac_11ef_136e_35f25f6dcaec = Main.unpack_identity(data__6a14c330_45ac_11ef_2190_ffe757ef2675))\n", + "\u001b[90m│ \u001b[39m %914 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %915 = (%914)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %916 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %917 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14fc10_45ac_11ef_18fa_4f02990f81eb = Main.compute(%915, %916, %917, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__64f0ac48_45ac_11ef_2edd_a987281c13c1 = Main.unpack_identity(data__64f0ac2a_45ac_11ef_38e9_530db73559ea))\n", + "\u001b[90m│ \u001b[39m (data__6a14fc1a_45ac_11ef_189d_4f80d3bef885 = Main.unpack_identity(data__6a14fc10_45ac_11ef_18fa_4f02990f81eb))\n", + "\u001b[90m│ \u001b[39m %921 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %922 = (%921)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %923 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %924 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14b78c_45ac_11ef_2676_d1aa6e1041de = Main.compute(%922, %923, %924, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %926 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %927 = (%926)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %928 = data__64f0ac48_45ac_11ef_2edd_a987281c13c1\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665765cc_45ac_11ef_39b2_eb865d4c4774 = Main.compute(%927, %928, data__665765c2_45ac_11ef_3840_dbb8dd0e6474))\n", + "\u001b[90m│ \u001b[39m (data__6a14b78c_45ac_11ef_39bb_3d26b61918a9 = Main.unpack_identity(data__6a14b78c_45ac_11ef_2676_d1aa6e1041de))\n", + "\u001b[90m│ \u001b[39m (data__6659682c_45ac_11ef_05f6_4b177f89bc01 = Main.unpack_identity(data__665765cc_45ac_11ef_39b2_eb865d4c4774))\n", + "\u001b[90m│ \u001b[39m (data__64c88132_45ac_11ef_0866_0f591a3b69ea = Main.unpack_identity(data__64c88132_45ac_11ef_0866_0f591a3b69ea_in))\n", + "\u001b[90m│ \u001b[39m %933 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %934 = (%933)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %935 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %936 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67f6ac80_45ac_11ef_2e9a_8d0f4ffe5828 = Main.compute(%934, %935, %936, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %938 = FeynmanDiagramGenerator.ComputeTask_BaseState\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %939 = (%938)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_BaseState())\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__64c88196_45ac_11ef_30b6_dd0b5b4e3b3c = Main.compute(%939, data__64c88132_45ac_11ef_0866_0f591a3b69ea))\n", + "\u001b[90m│ \u001b[39m (data__67f6ac9e_45ac_11ef_1f5e_9997491a748f = Main.unpack_identity(data__67f6ac80_45ac_11ef_2e9a_8d0f4ffe5828))\n", + "\u001b[90m│ \u001b[39m (data__64c88268_45ac_11ef_1309_5367e4625e58 = Main.unpack_identity(data__64c88196_45ac_11ef_30b6_dd0b5b4e3b3c))\n", + "\u001b[90m│ \u001b[39m %943 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %944 = (%943)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %945 = data__64f0ac48_45ac_11ef_2edd_a987281c13c1\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__664fb370_45ac_11ef_0d20_39f34b2f7a5d = Main.compute(%944, %945, data__664fb35e_45ac_11ef_02fb_7531faaf1bce))\n", + "\u001b[90m│ \u001b[39m %947 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %948 = (%947)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %949 = data__64cc5bea_45ac_11ef_39d9_a5984eef1140\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f066a_45ac_11ef_3852_3f92cab1284f = Main.compute(%948, %949, data__64c88268_45ac_11ef_1309_5367e4625e58))\n", + "\u001b[90m│ \u001b[39m %951 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %952 = (%951)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %953 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %954 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68e08cee_45ac_11ef_3973_bfa5c42acee3 = Main.compute(%952, %953, %954, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %956 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %957 = (%956)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %958 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %959 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69560d50_45ac_11ef_256e_ede3e0e4f16b = Main.compute(%957, %958, %959, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %961 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %962 = (%961)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %963 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %964 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14716e_45ac_11ef_0d27_bd947f6d2d1e = Main.compute(%962, %963, %964, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %966 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %967 = (%966)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %968 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %969 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a147308_45ac_11ef_2038_87984fd647d6 = Main.compute(%967, %968, %969, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m (data__6651191c_45ac_11ef_216d_a35987434e07 = Main.unpack_identity(data__664fb370_45ac_11ef_0d20_39f34b2f7a5d))\n", + "\u001b[90m│ \u001b[39m (data__665f066a_45ac_11ef_36d1_97a534f75315 = Main.unpack_identity(data__665f066a_45ac_11ef_3852_3f92cab1284f))\n", + "\u001b[90m│ \u001b[39m (data__68e08d00_45ac_11ef_2601_cde7cf2aedc1 = Main.unpack_identity(data__68e08cee_45ac_11ef_3973_bfa5c42acee3))\n", + "\u001b[90m│ \u001b[39m (data__69560d5a_45ac_11ef_2087_b75f51118122 = Main.unpack_identity(data__69560d50_45ac_11ef_256e_ede3e0e4f16b))\n", + "\u001b[90m│ \u001b[39m %975 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %976 = (%975)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %977 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %978 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6825a9cc_45ac_11ef_385b_73e362179c8a = Main.compute(%976, %977, %978, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6a14716e_45ac_11ef_0870_19a79ad6f800 = Main.unpack_identity(data__6a14716e_45ac_11ef_0d27_bd947f6d2d1e))\n", + "\u001b[90m│ \u001b[39m (data__6a147312_45ac_11ef_36af_a7749c2b0e87 = Main.unpack_identity(data__6a147308_45ac_11ef_2038_87984fd647d6))\n", + "\u001b[90m│ \u001b[39m %982 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %983 = (%982)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %984 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %985 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69e6c430_45ac_11ef_0121_85ef9ae12c8f = Main.compute(%983, %984, %985, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %987 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %988 = (%987)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0a0c_45ac_11ef_33a1_97aa2bbec356 = Main.compute(%988, data__665f066a_45ac_11ef_36d1_97a534f75315))\n", + "\u001b[90m│ \u001b[39m (data__6825a9ea_45ac_11ef_27af_594574e6dd66 = Main.unpack_identity(data__6825a9cc_45ac_11ef_385b_73e362179c8a))\n", + "\u001b[90m│ \u001b[39m (data__69e6c444_45ac_11ef_1885_8b2e1e1accfc = Main.unpack_identity(data__69e6c430_45ac_11ef_0121_85ef9ae12c8f))\n", + "\u001b[90m│ \u001b[39m (data__665f0a0c_45ac_11ef_39e0_9b872445f8f4 = Main.unpack_identity(data__665f0a0c_45ac_11ef_33a1_97aa2bbec356))\n", + "\u001b[90m│ \u001b[39m %993 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %994 = (%993)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %995 = data__64cc5c06_45ac_11ef_055c_fb1bde872e51\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0778_45ac_11ef_2ae9_9fe65332faf9 = Main.compute(%994, %995, data__64c88268_45ac_11ef_1309_5367e4625e58))\n", + "\u001b[90m│ \u001b[39m %997 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %998 = (%997)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %999 = data__64cc5b74_45ac_11ef_027f_1dff3f4e269a\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0b38_45ac_11ef_23f7_1f84a67d6371 = Main.compute(%998, %999, data__64c88268_45ac_11ef_1309_5367e4625e58))\n", + "\u001b[90m│ \u001b[39m %1001 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1002 = (%1001)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1003 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1004 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__683cbdba_45ac_11ef_13e1_1b1abafec367 = Main.compute(%1002, %1003, %1004, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__665f0780_45ac_11ef_0792_11f3220e7884 = Main.unpack_identity(data__665f0778_45ac_11ef_2ae9_9fe65332faf9))\n", + "\u001b[90m│ \u001b[39m (data__665f0b38_45ac_11ef_0886_cf2cd320e63b = Main.unpack_identity(data__665f0b38_45ac_11ef_23f7_1f84a67d6371))\n", + "\u001b[90m│ \u001b[39m (data__683cbdce_45ac_11ef_016f_6d32d6440970 = Main.unpack_identity(data__683cbdba_45ac_11ef_13e1_1b1abafec367))\n", + "\u001b[90m│ \u001b[39m %1009 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1010 = (%1009)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f09e4_45ac_11ef_1094_3173c43f27bf = Main.compute(%1010, data__665f0780_45ac_11ef_0792_11f3220e7884))\n", + "\u001b[90m│ \u001b[39m %1012 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1013 = (%1012)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0d72_45ac_11ef_2191_2175691fbef7 = Main.compute(%1013, data__665f0b38_45ac_11ef_0886_cf2cd320e63b))\n", + "\u001b[90m│ \u001b[39m %1015 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1016 = (%1015)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1017 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1018 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a144810_45ac_11ef_0cb1_c770718953a8 = Main.compute(%1016, %1017, %1018, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m (data__665f09e4_45ac_11ef_283c_b9f0c12002fe = Main.unpack_identity(data__665f09e4_45ac_11ef_1094_3173c43f27bf))\n", + "\u001b[90m│ \u001b[39m (data__665f0d72_45ac_11ef_0ebe_3fb9c868ca57 = Main.unpack_identity(data__665f0d72_45ac_11ef_2191_2175691fbef7))\n", + "\u001b[90m│ \u001b[39m (data__6a144810_45ac_11ef_3d02_bb7db7d99868 = Main.unpack_identity(data__6a144810_45ac_11ef_0cb1_c770718953a8))\n", + "\u001b[90m│ \u001b[39m %1023 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1024 = (%1023)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1025 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1026 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__694606ee_45ac_11ef_1b97_052bbb9a8145 = Main.compute(%1024, %1025, %1026, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %1028 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1029 = (%1028)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1030 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669cf8_45ac_11ef_264e_f9aa94701c9c = Main.compute(%1029, %1030, data__64cc5b04_45ac_11ef_292e_4183199490e4::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m %1032 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1033 = (%1032)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1034 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1035 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a146426_45ac_11ef_35c0_27c6f9f92ae6 = Main.compute(%1033, %1034, %1035, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__69460702_45ac_11ef_16aa_cb840e21fba2 = Main.unpack_identity(data__694606ee_45ac_11ef_1b97_052bbb9a8145))\n", + "\u001b[90m│ \u001b[39m (data__67669cf8_45ac_11ef_2940_dda94c792199 = Main.unpack_identity(data__67669cf8_45ac_11ef_264e_f9aa94701c9c))\n", + "\u001b[90m│ \u001b[39m (data__6a146430_45ac_11ef_1a6b_f183979abe04 = Main.unpack_identity(data__6a146426_45ac_11ef_35c0_27c6f9f92ae6))\n", + "\u001b[90m│ \u001b[39m %1040 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1041 = (%1040)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1042 = data__64de3c5c_45ac_11ef_00c2_678c4eb03718\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0a0c_45ac_11ef_2037_016a0f525330 = Main.compute(%1041, %1042, data__665f0a0c_45ac_11ef_39e0_9b872445f8f4))\n", + "\u001b[90m│ \u001b[39m %1044 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1045 = (%1044)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669e2e_45ac_11ef_1444_55f429c8675c = Main.compute(%1045, data__67669cf8_45ac_11ef_2940_dda94c792199))\n", + "\u001b[90m│ \u001b[39m %1047 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1048 = (%1047)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1049 = data__650199ea_45ac_11ef_21c2_c100afd327b2\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0d72_45ac_11ef_3857_ab0aa86649fc = Main.compute(%1048, %1049, data__665f0d72_45ac_11ef_0ebe_3fb9c868ca57))\n", + "\u001b[90m│ \u001b[39m (data__665f0a3e_45ac_11ef_11d6_25c543d5ae81 = Main.unpack_identity(data__665f0a0c_45ac_11ef_2037_016a0f525330))\n", + "\u001b[90m│ \u001b[39m (data__67669e2e_45ac_11ef_0f8f_0121c418a942 = Main.unpack_identity(data__67669e2e_45ac_11ef_1444_55f429c8675c))\n", + "\u001b[90m│ \u001b[39m (data__665f0db8_45ac_11ef_384f_230eef6f34b2 = Main.unpack_identity(data__665f0d72_45ac_11ef_3857_ab0aa86649fc))\n", + "\u001b[90m│ \u001b[39m %1054 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1055 = (%1054)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1056 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1057 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14ed92_45ac_11ef_1dc7_af12ab694a6a = Main.compute(%1055, %1056, %1057, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1059 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1060 = (%1059)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1061 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669bd6_45ac_11ef_26e9_97082ab2c69a = Main.compute(%1060, %1061, data__64caf8b8_45ac_11ef_03c5_158fe21ccceb::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Float64])])))\n", + "\u001b[90m│ \u001b[39m %1063 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1064 = (%1063)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1065 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1066 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14f922_45ac_11ef_0f93_895a5adbd6b9 = Main.compute(%1064, %1065, %1066, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__6a14ed92_45ac_11ef_239c_d91b207048c4 = Main.unpack_identity(data__6a14ed92_45ac_11ef_1dc7_af12ab694a6a))\n", + "\u001b[90m│ \u001b[39m (data__67669bd6_45ac_11ef_3ac7_19effca432c7 = Main.unpack_identity(data__67669bd6_45ac_11ef_26e9_97082ab2c69a))\n", + "\u001b[90m│ \u001b[39m (data__6a14f922_45ac_11ef_03d1_11c153b0ddeb = Main.unpack_identity(data__6a14f922_45ac_11ef_0f93_895a5adbd6b9))\n", + "\u001b[90m│ \u001b[39m %1071 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1072 = (%1071)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1073 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1074 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a152db6_45ac_11ef_0c0b_c99c48561414 = Main.compute(%1072, %1073, %1074, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m %1076 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1077 = (%1076)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669dde_45ac_11ef_3cfd_03c87c06345b = Main.compute(%1077, data__67669bd6_45ac_11ef_3ac7_19effca432c7))\n", + "\u001b[90m│ \u001b[39m %1079 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1080 = (%1079)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1081 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1082 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a153cb6_45ac_11ef_312e_810a41c28a7f = Main.compute(%1080, %1081, %1082, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m (data__6a152db6_45ac_11ef_0773_7b2a43a979be = Main.unpack_identity(data__6a152db6_45ac_11ef_0c0b_c99c48561414))\n", + "\u001b[90m│ \u001b[39m (data__67669dde_45ac_11ef_023c_0395941da7b2 = Main.unpack_identity(data__67669dde_45ac_11ef_3cfd_03c87c06345b))\n", + "\u001b[90m│ \u001b[39m (data__6a153cbe_45ac_11ef_0d5d_435c9efba88b = Main.unpack_identity(data__6a153cb6_45ac_11ef_312e_810a41c28a7f))\n", + "\u001b[90m│ \u001b[39m %1087 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1088 = (%1087)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1089 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1090 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1542ba_45ac_11ef_2963_11467affd58e = Main.compute(%1088, %1089, %1090, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %1092 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1093 = (%1092)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1094 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1095 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a145616_45ac_11ef_0973_7f9d2234ccdd = Main.compute(%1093, %1094, %1095, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m %1097 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1098 = (%1097)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1099 = data__64cc5cd0_45ac_11ef_346f_d3c975f573e0\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669dde_45ac_11ef_23f7_a32e4a9faa04 = Main.compute(%1098, %1099, data__67669dde_45ac_11ef_023c_0395941da7b2))\n", + "\u001b[90m│ \u001b[39m (data__6a1542c4_45ac_11ef_00f9_e7ade93c10c8 = Main.unpack_identity(data__6a1542ba_45ac_11ef_2963_11467affd58e))\n", + "\u001b[90m│ \u001b[39m (data__6a145616_45ac_11ef_2309_7ded9b4f4d8a = Main.unpack_identity(data__6a145616_45ac_11ef_0973_7f9d2234ccdd))\n", + "\u001b[90m│ \u001b[39m (data__67669df4_45ac_11ef_0c5b_2757863208a9 = Main.unpack_identity(data__67669dde_45ac_11ef_23f7_a32e4a9faa04))\n", + "\u001b[90m│ \u001b[39m %1104 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1105 = (%1104)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1106 = data__64cc5cd0_45ac_11ef_346f_d3c975f573e0\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669e2e_45ac_11ef_2e7c_398e28035bb6 = Main.compute(%1105, %1106, data__67669e2e_45ac_11ef_0f8f_0121c418a942))\n", + "\u001b[90m│ \u001b[39m %1108 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1109 = (%1108)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1110 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1111 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15161e_45ac_11ef_0ded_9b770ac3dcb7 = Main.compute(%1109, %1110, %1111, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %1113 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1114 = (%1113)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1115 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1116 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1498b0_45ac_11ef_231b_8d8ade631ccc = Main.compute(%1114, %1115, %1116, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1118 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1119 = (%1118)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1120 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1121 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a149a4a_45ac_11ef_3a20_f3226b36d64d = Main.compute(%1119, %1120, %1121, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1123 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1124 = (%1123)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1125 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1126 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1521fe_45ac_11ef_39c4_39d18be305fd = Main.compute(%1124, %1125, %1126, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m %1128 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1129 = (%1128)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1130 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1131 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69b653fe_45ac_11ef_11e5_d1aee8fe4128 = Main.compute(%1129, %1130, %1131, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1133 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1134 = (%1133)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1135 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1136 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69bfc402_45ac_11ef_3316_07a54ddc1bc9 = Main.compute(%1134, %1135, %1136, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__67669e38_45ac_11ef_3346_4b4918074f9f = Main.unpack_identity(data__67669e2e_45ac_11ef_2e7c_398e28035bb6))\n", + "\u001b[90m│ \u001b[39m (data__6a151626_45ac_11ef_1f19_97291264afb7 = Main.unpack_identity(data__6a15161e_45ac_11ef_0ded_9b770ac3dcb7))\n", + "\u001b[90m│ \u001b[39m (data__6a1498b0_45ac_11ef_2093_795c1d3cb78a = Main.unpack_identity(data__6a1498b0_45ac_11ef_231b_8d8ade631ccc))\n", + "\u001b[90m│ \u001b[39m %1141 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1142 = (%1141)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1143 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1144 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69ca762c_45ac_11ef_3520_2543f6313f4b = Main.compute(%1142, %1143, %1144, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1146 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1147 = (%1146)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1148 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1149 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14a03a_45ac_11ef_2cb3_cd1b662fe2cc = Main.compute(%1147, %1148, %1149, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1151 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1152 = (%1151)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1153 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1154 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69d079d2_45ac_11ef_0a5e_55920dfb24d8 = Main.compute(%1152, %1153, %1154, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__6a149a4a_45ac_11ef_1967_e3b2c887af43 = Main.unpack_identity(data__6a149a4a_45ac_11ef_3a20_f3226b36d64d))\n", + "\u001b[90m│ \u001b[39m (data__6a1521fe_45ac_11ef_2ed2_5fadad119fe9 = Main.unpack_identity(data__6a1521fe_45ac_11ef_39c4_39d18be305fd))\n", + "\u001b[90m│ \u001b[39m (data__69b65412_45ac_11ef_17c2_a30289332dcb = Main.unpack_identity(data__69b653fe_45ac_11ef_11e5_d1aee8fe4128))\n", + "\u001b[90m│ \u001b[39m (data__69bfc416_45ac_11ef_09a0_a378bcc10093 = Main.unpack_identity(data__69bfc402_45ac_11ef_3316_07a54ddc1bc9))\n", + "\u001b[90m│ \u001b[39m (data__69ca7636_45ac_11ef_340e_1b595e55cca0 = Main.unpack_identity(data__69ca762c_45ac_11ef_3520_2543f6313f4b))\n", + "\u001b[90m│ \u001b[39m (data__6a14a03a_45ac_11ef_2759_59583c85ca53 = Main.unpack_identity(data__6a14a03a_45ac_11ef_2cb3_cd1b662fe2cc))\n", + "\u001b[90m│ \u001b[39m (data__69d079e6_45ac_11ef_1c94_11a75cb2b6ec = Main.unpack_identity(data__69d079d2_45ac_11ef_0a5e_55920dfb24d8))\n", + "\u001b[90m│ \u001b[39m %1163 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1164 = (%1163)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1165 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1166 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1536e4_45ac_11ef_3f06_63d648ddf97d = Main.compute(%1164, %1165, %1166, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m %1168 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1169 = (%1168)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1170 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1171 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a154e7c_45ac_11ef_3197_d36f423f362c = Main.compute(%1169, %1170, %1171, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %1173 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1174 = (%1173)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1175 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1176 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67e54bd4_45ac_11ef_38d4_3f304f12202e = Main.compute(%1174, %1175, %1176, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %1178 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1179 = (%1178)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1180 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1181 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14db3e_45ac_11ef_1487_ade7475bc7af = Main.compute(%1179, %1180, %1181, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m (data__6a1536e4_45ac_11ef_27e3_ed75286390c3 = Main.unpack_identity(data__6a1536e4_45ac_11ef_3f06_63d648ddf97d))\n", + "\u001b[90m│ \u001b[39m (data__6a154e7c_45ac_11ef_2882_ef2473cadf2c = Main.unpack_identity(data__6a154e7c_45ac_11ef_3197_d36f423f362c))\n", + "\u001b[90m│ \u001b[39m (data__67e54bf2_45ac_11ef_3d4b_af97235d2123 = Main.unpack_identity(data__67e54bd4_45ac_11ef_38d4_3f304f12202e))\n", + "\u001b[90m│ \u001b[39m (data__6a14db4a_45ac_11ef_3774_e567d0313f57 = Main.unpack_identity(data__6a14db3e_45ac_11ef_1487_ade7475bc7af))\n", + "\u001b[90m│ \u001b[39m %1187 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1188 = (%1187)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1189 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1190 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a155fc2_45ac_11ef_005a_19eda34eb964 = Main.compute(%1188, %1189, %1190, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1192 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1193 = (%1192)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1194 = data__64de3c5c_45ac_11ef_00c2_678c4eb03718\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f09e4_45ac_11ef_1c34_23bef6fafeba = Main.compute(%1193, %1194, data__665f09e4_45ac_11ef_283c_b9f0c12002fe))\n", + "\u001b[90m│ \u001b[39m %1196 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1197 = (%1196)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1198 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1199 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14cc40_45ac_11ef_1794_3188631444d7 = Main.compute(%1197, %1198, %1199, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %1201 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1202 = (%1201)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1203 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1204 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1527c6_45ac_11ef_13e5_91cdbb113a01 = Main.compute(%1202, %1203, %1204, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__6a155fca_45ac_11ef_2b78_af808a287baf = Main.unpack_identity(data__6a155fc2_45ac_11ef_005a_19eda34eb964))\n", + "\u001b[90m│ \u001b[39m (data__665f09f8_45ac_11ef_0ae4_0569fe144261 = Main.unpack_identity(data__665f09e4_45ac_11ef_1c34_23bef6fafeba))\n", + "\u001b[90m│ \u001b[39m (data__6a14cc40_45ac_11ef_1cf1_916746254f65 = Main.unpack_identity(data__6a14cc40_45ac_11ef_1794_3188631444d7))\n", + "\u001b[90m│ \u001b[39m (data__6a1527c6_45ac_11ef_07ca_8953b5fc5ee7 = Main.unpack_identity(data__6a1527c6_45ac_11ef_13e5_91cdbb113a01))\n", + "\u001b[90m│ \u001b[39m %1210 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1211 = (%1210)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1212 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1213 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14e658_45ac_11ef_1ed9_73e0a20e173d = Main.compute(%1211, %1212, %1213, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1215 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1216 = (%1215)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1217 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1218 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14ec2a_45ac_11ef_1bd2_9faef4bc0b1b = Main.compute(%1216, %1217, %1218, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1220 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1221 = (%1220)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1222 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1223 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1565c2_45ac_11ef_2787_c7f31cd62ba4 = Main.compute(%1221, %1222, %1223, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1225 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1226 = (%1225)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1227 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1228 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14cab0_45ac_11ef_3b03_fb36bb8ef53b = Main.compute(%1226, %1227, %1228, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %1230 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1231 = (%1230)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1232 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1233 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14d9ba_45ac_11ef_12a5_c96a4f5dd80f = Main.compute(%1231, %1232, %1233, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m (data__6a14e658_45ac_11ef_33a4_85211b6fe61f = Main.unpack_identity(data__6a14e658_45ac_11ef_1ed9_73e0a20e173d))\n", + "\u001b[90m│ \u001b[39m (data__6a14ec2a_45ac_11ef_091e_ad6c8aed35a4 = Main.unpack_identity(data__6a14ec2a_45ac_11ef_1bd2_9faef4bc0b1b))\n", + "\u001b[90m│ \u001b[39m (data__6a1565c2_45ac_11ef_306e_7d203ebad8cf = Main.unpack_identity(data__6a1565c2_45ac_11ef_2787_c7f31cd62ba4))\n", + "\u001b[90m│ \u001b[39m (data__6a14caba_45ac_11ef_27bd_7973f08ec3c9 = Main.unpack_identity(data__6a14cab0_45ac_11ef_3b03_fb36bb8ef53b))\n", + "\u001b[90m│ \u001b[39m (data__6a14d9ba_45ac_11ef_1331_21cb2cefc3dc = Main.unpack_identity(data__6a14d9ba_45ac_11ef_12a5_c96a4f5dd80f))\n", + "\u001b[90m│ \u001b[39m %1240 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1241 = (%1240)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1242 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1243 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14f7ba_45ac_11ef_28ee_8d80e811a283 = Main.compute(%1241, %1242, %1243, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1245 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1246 = (%1245)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1247 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1248 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__691a47d2_45ac_11ef_165f_630ec242b71c = Main.compute(%1246, %1247, %1248, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m (data__6a14f7ba_45ac_11ef_2e5a_5d3aad31dfd4 = Main.unpack_identity(data__6a14f7ba_45ac_11ef_28ee_8d80e811a283))\n", + "\u001b[90m│ \u001b[39m (data__691a47e8_45ac_11ef_0d34_7b18fb470dc6 = Main.unpack_identity(data__691a47d2_45ac_11ef_165f_630ec242b71c))\n", + "\u001b[90m│ \u001b[39m %1252 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1253 = (%1252)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1254 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1255 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__698bc0ce_45ac_11ef_0bac_b3f2ed2f87b5 = Main.compute(%1253, %1254, %1255, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %1257 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1258 = (%1257)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1259 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1260 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68cdc7f6_45ac_11ef_3d07_f1ed7a156cb5 = Main.compute(%1258, %1259, %1260, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m (data__698bc0e4_45ac_11ef_09c2_7fcf55a61cf1 = Main.unpack_identity(data__698bc0ce_45ac_11ef_0bac_b3f2ed2f87b5))\n", + "\u001b[90m│ \u001b[39m (data__68cdc80a_45ac_11ef_2b8b_e7227413f88d = Main.unpack_identity(data__68cdc7f6_45ac_11ef_3d07_f1ed7a156cb5))\n", + "\u001b[90m│ \u001b[39m %1264 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1265 = (%1264)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1266 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1267 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14b480_45ac_11ef_3a7e_cf76614b5478 = Main.compute(%1265, %1266, %1267, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %1269 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1270 = (%1269)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1271 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1272 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14c060_45ac_11ef_2063_c7faeefc011f = Main.compute(%1270, %1271, %1272, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6a14b480_45ac_11ef_2b06_cd19258d10ba = Main.unpack_identity(data__6a14b480_45ac_11ef_3a7e_cf76614b5478))\n", + "\u001b[90m│ \u001b[39m (data__6a14c060_45ac_11ef_0c4a_8f3164df1ae3 = Main.unpack_identity(data__6a14c060_45ac_11ef_2063_c7faeefc011f))\n", + "\u001b[90m│ \u001b[39m %1276 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1277 = (%1276)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1278 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1279 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14b26c_45ac_11ef_08c1_4daf1d13214d = Main.compute(%1277, %1278, %1279, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %1281 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1282 = (%1281)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1283 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1284 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14beee_45ac_11ef_31b2_a14f001146a1 = Main.compute(%1282, %1283, %1284, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6a14b26c_45ac_11ef_3af8_0377210833fd = Main.unpack_identity(data__6a14b26c_45ac_11ef_08c1_4daf1d13214d))\n", + "\u001b[90m│ \u001b[39m (data__6a14beee_45ac_11ef_162e_e30245b30850 = Main.unpack_identity(data__6a14beee_45ac_11ef_31b2_a14f001146a1))\n", + "\u001b[90m│ \u001b[39m %1288 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1289 = (%1288)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1290 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1291 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__697edb18_45ac_11ef_16eb_9b64994c8fbe = Main.compute(%1289, %1290, %1291, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %1293 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1294 = (%1293)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1295 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1296 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14e130_45ac_11ef_30fc_9932afa79ef2 = Main.compute(%1294, %1295, %1296, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m (data__697edb2a_45ac_11ef_0fcd_9353089e2b6d = Main.unpack_identity(data__697edb18_45ac_11ef_16eb_9b64994c8fbe))\n", + "\u001b[90m│ \u001b[39m (data__6a14e13a_45ac_11ef_13d2_939a111cf9c7 = Main.unpack_identity(data__6a14e130_45ac_11ef_30fc_9932afa79ef2))\n", + "\u001b[90m│ \u001b[39m %1300 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1301 = (%1300)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1302 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1303 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a151c0e_45ac_11ef_3c9d_d1ae226096ac = Main.compute(%1301, %1302, %1303, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %1305 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1306 = (%1305)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1307 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1308 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1512ae_45ac_11ef_2d56_8b61080d21f6 = Main.compute(%1306, %1307, %1308, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1310 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1311 = (%1310)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1312 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1313 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a151100_45ac_11ef_2e97_cb1e74672163 = Main.compute(%1311, %1312, %1313, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1315 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1316 = (%1315)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1317 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1318 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14dfa8_45ac_11ef_1bd6_cf00927a1f40 = Main.compute(%1316, %1317, %1318, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %1320 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1321 = (%1320)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1322 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1323 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1486ea_45ac_11ef_1aa6_cf9ff5c59dde = Main.compute(%1321, %1322, %1323, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__6a151c18_45ac_11ef_3026_638f5face352 = Main.unpack_identity(data__6a151c0e_45ac_11ef_3c9d_d1ae226096ac))\n", + "\u001b[90m│ \u001b[39m (data__6a1512ae_45ac_11ef_2f03_d9e1ebc91500 = Main.unpack_identity(data__6a1512ae_45ac_11ef_2d56_8b61080d21f6))\n", + "\u001b[90m│ \u001b[39m (data__6a15110a_45ac_11ef_37c5_2f6ef73cc6df = Main.unpack_identity(data__6a151100_45ac_11ef_2e97_cb1e74672163))\n", + "\u001b[90m│ \u001b[39m (data__6a14dfa8_45ac_11ef_2fbf_772f81025101 = Main.unpack_identity(data__6a14dfa8_45ac_11ef_1bd6_cf00927a1f40))\n", + "\u001b[90m│ \u001b[39m (data__6a1486f4_45ac_11ef_0d23_4707d2cb3d34 = Main.unpack_identity(data__6a1486ea_45ac_11ef_1aa6_cf9ff5c59dde))\n", + "\u001b[90m│ \u001b[39m %1330 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1331 = (%1330)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1332 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1333 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69ea6e66_45ac_11ef_1994_4ffb5683d292 = Main.compute(%1331, %1332, %1333, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1335 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1336 = (%1335)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1337 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1338 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14d1fc_45ac_11ef_082b_9126c22bea0c = Main.compute(%1336, %1337, %1338, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %1340 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1341 = (%1340)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1342 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1343 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a150660_45ac_11ef_29f6_73b131284ed0 = Main.compute(%1341, %1342, %1343, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1345 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1346 = (%1345)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1347 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1348 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14d0a0_45ac_11ef_2558_a5f38db58e90 = Main.compute(%1346, %1347, %1348, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m (data__69ea6e78_45ac_11ef_0c88_21394a93d50b = Main.unpack_identity(data__69ea6e66_45ac_11ef_1994_4ffb5683d292))\n", + "\u001b[90m│ \u001b[39m (data__6a14d1fc_45ac_11ef_24dd_c3debe31591d = Main.unpack_identity(data__6a14d1fc_45ac_11ef_082b_9126c22bea0c))\n", + "\u001b[90m│ \u001b[39m (data__6a150660_45ac_11ef_1291_27d2ac5d7294 = Main.unpack_identity(data__6a150660_45ac_11ef_29f6_73b131284ed0))\n", + "\u001b[90m│ \u001b[39m (data__6a14d0a0_45ac_11ef_3970_739d217cab75 = Main.unpack_identity(data__6a14d0a0_45ac_11ef_2558_a5f38db58e90))\n", + "\u001b[90m│ \u001b[39m %1354 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1355 = (%1354)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1356 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1357 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14fef4_45ac_11ef_07eb_f131e3fd158b = Main.compute(%1355, %1356, %1357, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1359 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1360 = (%1359)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1361 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1362 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14853c_45ac_11ef_0b80_8551b6f3b133 = Main.compute(%1360, %1361, %1362, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %1364 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1365 = (%1364)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1366 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1367 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a155a02_45ac_11ef_00bc_79b342f50a2e = Main.compute(%1365, %1366, %1367, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %1369 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1370 = (%1369)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1371 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1372 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14fd82_45ac_11ef_306c_33916686c34f = Main.compute(%1370, %1371, %1372, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__6a14fef4_45ac_11ef_218d_f33143bf5b13 = Main.unpack_identity(data__6a14fef4_45ac_11ef_07eb_f131e3fd158b))\n", + "\u001b[90m│ \u001b[39m (data__6a14853c_45ac_11ef_0141_679868b77766 = Main.unpack_identity(data__6a14853c_45ac_11ef_0b80_8551b6f3b133))\n", + "\u001b[90m│ \u001b[39m (data__6a155a02_45ac_11ef_08f7_db25d629e1cc = Main.unpack_identity(data__6a155a02_45ac_11ef_00bc_79b342f50a2e))\n", + "\u001b[90m│ \u001b[39m (data__6a14fd82_45ac_11ef_10a5_8722fcc1c5af = Main.unpack_identity(data__6a14fd82_45ac_11ef_306c_33916686c34f))\n", + "\u001b[90m│ \u001b[39m %1378 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1379 = (%1378)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1380 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1381 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a0e22ca_45ac_11ef_2be7_1f8b68bd4f4e = Main.compute(%1379, %1380, %1381, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1383 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1384 = (%1383)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1385 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1386 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__690cfa34_45ac_11ef_213b_5b55f814a15f = Main.compute(%1384, %1385, %1386, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %1388 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1389 = (%1388)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1390 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1391 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14c60a_45ac_11ef_1cd8_3195cdea34c8 = Main.compute(%1389, %1390, %1391, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m %1393 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1394 = (%1393)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1395 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1396 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14c47a_45ac_11ef_1f7c_636e9ad8abd5 = Main.compute(%1394, %1395, %1396, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6a0e22e6_45ac_11ef_0e0d_7199edbf581b = Main.unpack_identity(data__6a0e22ca_45ac_11ef_2be7_1f8b68bd4f4e))\n", + "\u001b[90m│ \u001b[39m (data__690cfa48_45ac_11ef_3073_4b84f1272eec = Main.unpack_identity(data__690cfa34_45ac_11ef_213b_5b55f814a15f))\n", + "\u001b[90m│ \u001b[39m (data__6a14c614_45ac_11ef_3d1d_8dcdd98eb625 = Main.unpack_identity(data__6a14c60a_45ac_11ef_1cd8_3195cdea34c8))\n", + "\u001b[90m│ \u001b[39m (data__6a14c47a_45ac_11ef_07c2_5f04acce8bee = Main.unpack_identity(data__6a14c47a_45ac_11ef_1f7c_636e9ad8abd5))\n", + "\u001b[90m│ \u001b[39m %1402 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1403 = (%1402)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1404 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1405 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1504b2_45ac_11ef_1167_1d8a4ae73b6e = Main.compute(%1403, %1404, %1405, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1407 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1408 = (%1407)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1409 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1410 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a0c605a_45ac_11ef_14c0_dfbd4e4ca165 = Main.compute(%1408, %1409, %1410, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1412 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1413 = (%1412)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1414 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1415 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1480b4_45ac_11ef_2f79_a7d60a3ce1b8 = Main.compute(%1413, %1414, %1415, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %1417 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1418 = (%1417)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1419 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1420 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a149ebc_45ac_11ef_3803_9f3e9453ca20 = Main.compute(%1418, %1419, %1420, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a1504bc_45ac_11ef_2997_15421bbdd64c = Main.unpack_identity(data__6a1504b2_45ac_11ef_1167_1d8a4ae73b6e))\n", + "\u001b[90m│ \u001b[39m (data__6a0c606e_45ac_11ef_1c7e_8db11711379b = Main.unpack_identity(data__6a0c605a_45ac_11ef_14c0_dfbd4e4ca165))\n", + "\u001b[90m│ \u001b[39m (data__6a1480b4_45ac_11ef_0190_195b689218a0 = Main.unpack_identity(data__6a1480b4_45ac_11ef_2f79_a7d60a3ce1b8))\n", + "\u001b[90m│ \u001b[39m (data__6a149ebc_45ac_11ef_0b48_df68cf71a3cb = Main.unpack_identity(data__6a149ebc_45ac_11ef_3803_9f3e9453ca20))\n", + "\u001b[90m│ \u001b[39m %1426 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1427 = (%1426)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1428 = data__64f0ac48_45ac_11ef_2edd_a987281c13c1\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665969b4_45ac_11ef_3d59_8566c6dd2ed7 = Main.compute(%1427, %1428, data__6659699e_45ac_11ef_22d2_ef3b00075805))\n", + "\u001b[90m│ \u001b[39m %1430 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1431 = (%1430)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1432 = data__64f0ac48_45ac_11ef_2edd_a987281c13c1\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665cbdd8_45ac_11ef_1592_db75c8356855 = Main.compute(%1431, %1432, data__665cbdce_45ac_11ef_06a8_d3cd2e627d89))\n", + "\u001b[90m│ \u001b[39m %1434 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1435 = (%1434)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1436 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1437 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68917d14_45ac_11ef_3fe9_458acdf53006 = Main.compute(%1435, %1436, %1437, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f = Main.unpack_identity(data__665969b4_45ac_11ef_3d59_8566c6dd2ed7))\n", + "\u001b[90m│ \u001b[39m (data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0 = Main.unpack_identity(data__665cbdd8_45ac_11ef_1592_db75c8356855))\n", + "\u001b[90m│ \u001b[39m %1441 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1442 = (%1441)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1443 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1444 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69630a78_45ac_11ef_1b39_3588803abfcd = Main.compute(%1442, %1443, %1444, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %1446 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1447 = (%1446)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1448 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1449 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69ecbbe2_45ac_11ef_0ca5_f1c6db1ffab9 = Main.compute(%1447, %1448, %1449, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1451 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1452 = (%1451)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1453 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1454 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69c33f30_45ac_11ef_15d1_ff7172752a64 = Main.compute(%1452, %1453, %1454, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1456 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1457 = (%1456)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1458 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1459 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69d4480a_45ac_11ef_1541_bb2ad7a4404a = Main.compute(%1457, %1458, %1459, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__69c33f42_45ac_11ef_0381_87267a28a307 = Main.unpack_identity(data__69c33f30_45ac_11ef_15d1_ff7172752a64))\n", + "\u001b[90m│ \u001b[39m (data__69d44828_45ac_11ef_3d1e_c9caef5b54b5 = Main.unpack_identity(data__69d4480a_45ac_11ef_1541_bb2ad7a4404a))\n", + "\u001b[90m│ \u001b[39m %1463 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1464 = (%1463)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1465 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1466 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67d2da1c_45ac_11ef_0831_a94f5e5184cf = Main.compute(%1464, %1465, %1466, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %1468 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1469 = (%1468)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1470 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1471 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69701254_45ac_11ef_0cf4_83b41334bc6d = Main.compute(%1469, %1470, %1471, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m (data__67d2da30_45ac_11ef_0acc_15bb7cec5e7e = Main.unpack_identity(data__67d2da1c_45ac_11ef_0831_a94f5e5184cf))\n", + "\u001b[90m│ \u001b[39m (data__69701268_45ac_11ef_30fd_59d2a7da4e46 = Main.unpack_identity(data__69701254_45ac_11ef_0cf4_83b41334bc6d))\n", + "\u001b[90m│ \u001b[39m %1475 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1476 = (%1475)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1477 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1478 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69c6f326_45ac_11ef_2860_e30b13abec76 = Main.compute(%1476, %1477, %1478, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__68917d28_45ac_11ef_3eb7_03dba37ea953 = Main.unpack_identity(data__68917d14_45ac_11ef_3fe9_458acdf53006))\n", + "\u001b[90m│ \u001b[39m %1481 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1482 = (%1481)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1483 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1484 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67bc85c8_45ac_11ef_05cf_bf9d641e6ee4 = Main.compute(%1482, %1483, %1484, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %1486 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1487 = (%1486)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1488 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1489 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69987e88_45ac_11ef_07dc_abb538a592ec = Main.compute(%1487, %1488, %1489, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m (data__67bc85dc_45ac_11ef_1f00_3bdf6fde2a76 = Main.unpack_identity(data__67bc85c8_45ac_11ef_05cf_bf9d641e6ee4))\n", + "\u001b[90m│ \u001b[39m (data__69987ea6_45ac_11ef_0a19_c56a00cfec1a = Main.unpack_identity(data__69987e88_45ac_11ef_07dc_abb538a592ec))\n", + "\u001b[90m│ \u001b[39m %1493 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1494 = (%1493)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1495 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1496 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6936c92c_45ac_11ef_2119_bd3c89260bff = Main.compute(%1494, %1495, %1496, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %1498 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1499 = (%1498)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1500 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1501 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69a68e44_45ac_11ef_3d3e_95ea1a5ea11b = Main.compute(%1499, %1500, %1501, data__67669b36_45ac_11ef_2954_79c8e451573d))\n", + "\u001b[90m│ \u001b[39m %1503 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1504 = (%1503)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1505 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1506 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6806695c_45ac_11ef_38ac_83643c26fe4e = Main.compute(%1504, %1505, %1506, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m (data__69a68e60_45ac_11ef_163b_e5e2f3b6a922 = Main.unpack_identity(data__69a68e44_45ac_11ef_3d3e_95ea1a5ea11b))\n", + "\u001b[90m│ \u001b[39m (data__68066972_45ac_11ef_3d4a_219f1bb063a5 = Main.unpack_identity(data__6806695c_45ac_11ef_38ac_83643c26fe4e))\n", + "\u001b[90m│ \u001b[39m %1510 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1511 = (%1510)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1512 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1513 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69274f24_45ac_11ef_2c01_2bda88f18624 = Main.compute(%1511, %1512, %1513, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m (data__69630a96_45ac_11ef_03e6_e96324b6b634 = Main.unpack_identity(data__69630a78_45ac_11ef_1b39_3588803abfcd))\n", + "\u001b[90m│ \u001b[39m (data__69ecbbf6_45ac_11ef_09be_8d275d182a63 = Main.unpack_identity(data__69ecbbe2_45ac_11ef_0ca5_f1c6db1ffab9))\n", + "\u001b[90m│ \u001b[39m %1517 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1518 = (%1517)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1519 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1520 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a103234_45ac_11ef_3ebc_7d03e16c4657 = Main.compute(%1518, %1519, %1520, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1522 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1523 = (%1522)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1524 = data__69987ea6_45ac_11ef_0a19_c56a00cfec1a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1525 = data__69ecbbf6_45ac_11ef_09be_8d275d182a63\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1526 = data__6a145cba_45ac_11ef_1176_932d567e10a9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1527 = data__6a1492a2_45ac_11ef_3491_1de44e7bf173\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1528 = data__6a14e2b6_45ac_11ef_0da5_2d14dcaf664b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1529 = data__6a14eef0_45ac_11ef_3a27_995734dbe0d2\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1530 = data__6a152c42_45ac_11ef_16cf_97428e705430\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6b6e_45ac_11ef_2b9c_f77c48aaa836 = Main.compute(%1523, %1524, %1525, %1526, %1527, %1528, %1529, %1530, data__6a1552be_45ac_11ef_03dd_4dd3a4eb603a))\n", + "\u001b[90m│ \u001b[39m (data__6a103246_45ac_11ef_2613_53e2e412de63 = Main.unpack_identity(data__6a103234_45ac_11ef_3ebc_7d03e16c4657))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6b78_45ac_11ef_03fc_9d09f92db20f = Main.unpack_identity(data__6a1a6b6e_45ac_11ef_2b9c_f77c48aaa836))\n", + "\u001b[90m│ \u001b[39m %1534 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1535 = (%1534)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1536 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1537 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69d802c4_45ac_11ef_098e_91445645bfcd = Main.compute(%1535, %1536, %1537, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1539 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1540 = (%1539)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1541 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1542 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a124bda_45ac_11ef_049d_b5cc5031a385 = Main.compute(%1540, %1541, %1542, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__69d802d8_45ac_11ef_034c_b383f5fdd17c = Main.unpack_identity(data__69d802c4_45ac_11ef_098e_91445645bfcd))\n", + "\u001b[90m│ \u001b[39m (data__6a124bf0_45ac_11ef_2465_2542bd145a67 = Main.unpack_identity(data__6a124bda_45ac_11ef_049d_b5cc5031a385))\n", + "\u001b[90m│ \u001b[39m (data__69c6f34e_45ac_11ef_0e4c_83fa690a46d0 = Main.unpack_identity(data__69c6f326_45ac_11ef_2860_e30b13abec76))\n", + "\u001b[90m│ \u001b[39m %1547 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1548 = (%1547)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1549 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1550 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68b8ceb4_45ac_11ef_0b49_1d7242ad0dda = Main.compute(%1548, %1549, %1550, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m %1552 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1553 = (%1552)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1554 = data__69701268_45ac_11ef_30fd_59d2a7da4e46\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1555 = data__69c6f34e_45ac_11ef_0e4c_83fa690a46d0\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1556 = data__6a144810_45ac_11ef_3d02_bb7db7d99868\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1557 = data__6a1498b0_45ac_11ef_2093_795c1d3cb78a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1558 = data__6a14dfa8_45ac_11ef_2fbf_772f81025101\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1559 = data__6a14ec2a_45ac_11ef_091e_ad6c8aed35a4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1560 = data__6a151c18_45ac_11ef_3026_638f5face352\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6b3c_45ac_11ef_0fd8_cf47f6a52b93 = Main.compute(%1553, %1554, %1555, %1556, %1557, %1558, %1559, %1560, data__6a1565c2_45ac_11ef_306e_7d203ebad8cf))\n", + "\u001b[90m│ \u001b[39m (data__68b8ced2_45ac_11ef_08f2_b50501e10869 = Main.unpack_identity(data__68b8ceb4_45ac_11ef_0b49_1d7242ad0dda))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6b46_45ac_11ef_1aea_e79b5789a46b = Main.unpack_identity(data__6a1a6b3c_45ac_11ef_0fd8_cf47f6a52b93))\n", + "\u001b[90m│ \u001b[39m %1564 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1565 = (%1564)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1566 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1567 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69f58f24_45ac_11ef_0378_1f8bc17cfc8b = Main.compute(%1565, %1566, %1567, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1569 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1570 = (%1569)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1571 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1572 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14b8fe_45ac_11ef_1d26_fb7d5174dfd1 = Main.compute(%1570, %1571, %1572, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m (data__69f58f38_45ac_11ef_1ee8_2f9e711240e0 = Main.unpack_identity(data__69f58f24_45ac_11ef_0378_1f8bc17cfc8b))\n", + "\u001b[90m│ \u001b[39m (data__6a14b8fe_45ac_11ef_3a41_c9eca14155b4 = Main.unpack_identity(data__6a14b8fe_45ac_11ef_1d26_fb7d5174dfd1))\n", + "\u001b[90m│ \u001b[39m (data__6936c940_45ac_11ef_3696_3da57e04b0a4 = Main.unpack_identity(data__6936c92c_45ac_11ef_2119_bd3c89260bff))\n", + "\u001b[90m│ \u001b[39m (data__69274f38_45ac_11ef_3c63_af521a7683fe = Main.unpack_identity(data__69274f24_45ac_11ef_2c01_2bda88f18624))\n", + "\u001b[90m│ \u001b[39m %1578 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1579 = (%1578)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1580 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1581 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14ba66_45ac_11ef_0e69_a5ba6b549e4d = Main.compute(%1579, %1580, %1581, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m %1583 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1584 = (%1583)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1585 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1586 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69fcbce0_45ac_11ef_34b3_6b27f494446a = Main.compute(%1584, %1585, %1586, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__6a14ba66_45ac_11ef_2b8c_cbbffcf224b0 = Main.unpack_identity(data__6a14ba66_45ac_11ef_0e69_a5ba6b549e4d))\n", + "\u001b[90m│ \u001b[39m (data__69fcbcea_45ac_11ef_0705_7953d8179710 = Main.unpack_identity(data__69fcbce0_45ac_11ef_34b3_6b27f494446a))\n", + "\u001b[90m│ \u001b[39m %1590 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1591 = (%1590)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1592 = data__67bc85dc_45ac_11ef_1f00_3bdf6fde2a76\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1593 = data__69d44828_45ac_11ef_3d1e_c9caef5b54b5\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1594 = data__6a146430_45ac_11ef_1a6b_f183979abe04\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1595 = data__6a14853c_45ac_11ef_0141_679868b77766\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1596 = data__6a14ba66_45ac_11ef_2b8c_cbbffcf224b0\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1597 = data__6a14f922_45ac_11ef_03d1_11c153b0ddeb\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1598 = data__6a1536e4_45ac_11ef_27e3_ed75286390c3\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6984_45ac_11ef_33c5_05e147485eff = Main.compute(%1591, %1592, %1593, %1594, %1595, %1596, %1597, %1598, data__6a155a02_45ac_11ef_08f7_db25d629e1cc))\n", + "\u001b[90m│ \u001b[39m %1600 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1601 = (%1600)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1602 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1603 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69eeb00a_45ac_11ef_32ee_8b9ba18f63ff = Main.compute(%1601, %1602, %1603, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__6a1a698e_45ac_11ef_0699_01e7a0d69915 = Main.unpack_identity(data__6a1a6984_45ac_11ef_33c5_05e147485eff))\n", + "\u001b[90m│ \u001b[39m (data__69eeb01e_45ac_11ef_3d02_6950c0cf3d99 = Main.unpack_identity(data__69eeb00a_45ac_11ef_32ee_8b9ba18f63ff))\n", + "\u001b[90m│ \u001b[39m %1607 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1608 = (%1607)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1609 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1610 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1449fa_45ac_11ef_2a30_47c10743a97d = Main.compute(%1608, %1609, %1610, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %1612 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1613 = (%1612)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1614 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1615 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__681581e6_45ac_11ef_2804_ab2500bd575f = Main.compute(%1613, %1614, %1615, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m (data__6a144a04_45ac_11ef_3375_4f5b0f53005e = Main.unpack_identity(data__6a1449fa_45ac_11ef_2a30_47c10743a97d))\n", + "\u001b[90m│ \u001b[39m (data__681581fa_45ac_11ef_3e0e_bde25bb712e9 = Main.unpack_identity(data__681581e6_45ac_11ef_2804_ab2500bd575f))\n", + "\u001b[90m│ \u001b[39m %1619 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1620 = (%1619)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1621 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1622 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68a609f0_45ac_11ef_0456_ef68d682ffc4 = Main.compute(%1620, %1621, %1622, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m %1624 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1625 = (%1624)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1626 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1627 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a00b2a0_45ac_11ef_28bb_113216b1f5be = Main.compute(%1625, %1626, %1627, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__68a60a04_45ac_11ef_34fb_f124ff6615fc = Main.unpack_identity(data__68a609f0_45ac_11ef_0456_ef68d682ffc4))\n", + "\u001b[90m│ \u001b[39m (data__6a00b2b4_45ac_11ef_07f6_ff18992403e4 = Main.unpack_identity(data__6a00b2a0_45ac_11ef_28bb_113216b1f5be))\n", + "\u001b[90m│ \u001b[39m %1631 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1632 = (%1631)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1633 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1634 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69fe8afc_45ac_11ef_30f6_774d8b9e9cbb = Main.compute(%1632, %1633, %1634, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1636 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1637 = (%1636)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1638 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1639 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69f9eb50_45ac_11ef_2096_dd7b4d228d70 = Main.compute(%1637, %1638, %1639, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__69fe8b10_45ac_11ef_0825_e95b41e350ba = Main.unpack_identity(data__69fe8afc_45ac_11ef_30f6_774d8b9e9cbb))\n", + "\u001b[90m│ \u001b[39m (data__69f9eb64_45ac_11ef_1635_93a182d66e50 = Main.unpack_identity(data__69f9eb50_45ac_11ef_2096_dd7b4d228d70))\n", + "\u001b[90m│ \u001b[39m %1643 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1644 = (%1643)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1645 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1646 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69f79422_45ac_11ef_1721_ef49e362a40f = Main.compute(%1644, %1645, %1646, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1648 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1649 = (%1648)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1650 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1651 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69f36eb2_45ac_11ef_0a0d_a3bb092e470f = Main.compute(%1649, %1650, %1651, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__69f79440_45ac_11ef_1afc_23fc6d345240 = Main.unpack_identity(data__69f79422_45ac_11ef_1721_ef49e362a40f))\n", + "\u001b[90m│ \u001b[39m (data__69f36eba_45ac_11ef_0e5d_d9e15af857fe = Main.unpack_identity(data__69f36eb2_45ac_11ef_0a0d_a3bb092e470f))\n", + "\u001b[90m│ \u001b[39m %1655 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1656 = (%1655)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1657 = data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6\u001b[36m::FeynmanDiagramGenerator.Propagated{Positron, AdjointBiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0bc4_45ac_11ef_08dc_a71d423a1929 = Main.compute(%1656, %1657, data__64c88268_45ac_11ef_1309_5367e4625e58))\n", + "\u001b[90m│ \u001b[39m %1659 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1660 = (%1659)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1661 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1662 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1457ce_45ac_11ef_30c2_c336e9c0f608 = Main.compute(%1660, %1661, %1662, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__665f0bc4_45ac_11ef_0543_112f52b8263d = Main.unpack_identity(data__665f0bc4_45ac_11ef_08dc_a71d423a1929))\n", + "\u001b[90m│ \u001b[39m (data__6a1457ce_45ac_11ef_1025_81a1d2e012b5 = Main.unpack_identity(data__6a1457ce_45ac_11ef_30c2_c336e9c0f608))\n", + "\u001b[90m│ \u001b[39m %1666 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1667 = (%1666)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0dd6_45ac_11ef_0a78_c5f212e10ba6 = Main.compute(%1667, data__665f0bc4_45ac_11ef_0543_112f52b8263d))\n", + "\u001b[90m│ \u001b[39m %1669 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1670 = (%1669)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1671 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1672 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68ef45fe_45ac_11ef_3af1_ef45043a4707 = Main.compute(%1670, %1671, %1672, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m (data__665f0de0_45ac_11ef_2b33_4bb5adeeafff = Main.unpack_identity(data__665f0dd6_45ac_11ef_0a78_c5f212e10ba6))\n", + "\u001b[90m│ \u001b[39m (data__68ef46ba_45ac_11ef_0578_afcc20c98b71 = Main.unpack_identity(data__68ef45fe_45ac_11ef_3af1_ef45043a4707))\n", + "\u001b[90m│ \u001b[39m %1676 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1677 = (%1676)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1678 = data__650199ea_45ac_11ef_21c2_c100afd327b2\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f0de0_45ac_11ef_261c_d7b2de3212d5 = Main.compute(%1677, %1678, data__665f0de0_45ac_11ef_2b33_4bb5adeeafff))\n", + "\u001b[90m│ \u001b[39m (data__6a14e93c_45ac_11ef_3209_f1beed0544f6 = Main.unpack_identity(data__6a14e932_45ac_11ef_2b68_fb8bd93a5907))\n", + "\u001b[90m│ \u001b[39m (data__665f0df6_45ac_11ef_0b9f_1b830d87e916 = Main.unpack_identity(data__665f0de0_45ac_11ef_261c_d7b2de3212d5))\n", + "\u001b[90m│ \u001b[39m (data__6a14fa8a_45ac_11ef_0b70_15a415a22263 = Main.unpack_identity(data__6a14fa8a_45ac_11ef_2d6b_8bbb64fa588c))\n", + "\u001b[90m│ \u001b[39m %1683 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1684 = (%1683)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1685 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1686 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14ad70_45ac_11ef_0b27_2da902631e40 = Main.compute(%1684, %1685, %1686, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1688 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1689 = (%1688)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1690 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1691 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14abca_45ac_11ef_0cbe_bbbe27515190 = Main.compute(%1689, %1690, %1691, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a14ad8c_45ac_11ef_0f60_e99ca646eb9c = Main.unpack_identity(data__6a14ad70_45ac_11ef_0b27_2da902631e40))\n", + "\u001b[90m│ \u001b[39m (data__6a14abca_45ac_11ef_132d_efafbf106399 = Main.unpack_identity(data__6a14abca_45ac_11ef_0cbe_bbbe27515190))\n", + "\u001b[90m│ \u001b[39m (data__6a14d58c_45ac_11ef_1974_839540ef76b7 = Main.unpack_identity(data__6a14d35c_45ac_11ef_2248_a7599ede1a01))\n", + "\u001b[90m│ \u001b[39m (data__6a1507fa_45ac_11ef_20a9_69f2f9330f09 = Main.unpack_identity(data__6a1507f0_45ac_11ef_2c76_09a4caaa0e88))\n", + "\u001b[90m│ \u001b[39m %1697 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1698 = (%1697)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1699 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1700 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a152372_45ac_11ef_3685_6f8cba3b568d = Main.compute(%1698, %1699, %1700, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m %1702 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1703 = (%1702)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1704 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1705 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15616e_45ac_11ef_2c11_9b33d947997e = Main.compute(%1703, %1704, %1705, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1707 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1708 = (%1707)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1709 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1710 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a152ffa_45ac_11ef_3566_2915f9d14837 = Main.compute(%1708, %1709, %1710, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__6a152372_45ac_11ef_25b9_a10ea8f605cc = Main.unpack_identity(data__6a152372_45ac_11ef_3685_6f8cba3b568d))\n", + "\u001b[90m│ \u001b[39m (data__6a15616e_45ac_11ef_0d49_61b001528ef6 = Main.unpack_identity(data__6a15616e_45ac_11ef_2c11_9b33d947997e))\n", + "\u001b[90m│ \u001b[39m (data__6a152ffa_45ac_11ef_3cb2_45ff740f38a7 = Main.unpack_identity(data__6a152ffa_45ac_11ef_3566_2915f9d14837))\n", + "\u001b[90m│ \u001b[39m %1715 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1716 = (%1715)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1717 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1718 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a153e32_45ac_11ef_0082_5f7b477ca825 = Main.compute(%1716, %1717, %1718, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %1720 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1721 = (%1720)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1722 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1723 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15675c_45ac_11ef_2510_35123302bbe5 = Main.compute(%1721, %1722, %1723, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1725 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1726 = (%1725)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1727 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1728 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15386a_45ac_11ef_0c74_2d08bb9d3358 = Main.compute(%1726, %1727, %1728, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__6a153e3c_45ac_11ef_25bd_01489ac98b8b = Main.unpack_identity(data__6a153e32_45ac_11ef_0082_5f7b477ca825))\n", + "\u001b[90m│ \u001b[39m (data__6a156768_45ac_11ef_0e01_cf52df94b39b = Main.unpack_identity(data__6a15675c_45ac_11ef_2510_35123302bbe5))\n", + "\u001b[90m│ \u001b[39m (data__6a153874_45ac_11ef_31e6_cd08d5d6f365 = Main.unpack_identity(data__6a15386a_45ac_11ef_0c74_2d08bb9d3358))\n", + "\u001b[90m│ \u001b[39m %1733 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1734 = (%1733)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1735 = data__69a68e60_45ac_11ef_163b_e5e2f3b6a922\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1736 = data__69eeb01e_45ac_11ef_3d02_6950c0cf3d99\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1737 = data__6a144f68_45ac_11ef_35d5_4137625179f2\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1738 = data__6a14abca_45ac_11ef_132d_efafbf106399\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1739 = data__6a14de2e_45ac_11ef_2757_7314ed277295\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1740 = data__6a14eacc_45ac_11ef_188e_6da678972307\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1741 = data__6a152096_45ac_11ef_3f74_07dd13669855\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6d1c_45ac_11ef_310a_8d3c2c9163f2 = Main.compute(%1734, %1735, %1736, %1737, %1738, %1739, %1740, %1741, data__6a156a92_45ac_11ef_1e93_3f0d6914c7bb))\n", + "\u001b[90m│ \u001b[39m %1743 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1744 = (%1743)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1745 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1746 = data__675410b0_45ac_11ef_3ced_fbcd6e3d1128\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a154ff8_45ac_11ef_1e85_7f088e5cdb82 = Main.compute(%1744, %1745, %1746, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6d1c_45ac_11ef_0aca_0565e7241647 = Main.unpack_identity(data__6a1a6d1c_45ac_11ef_310a_8d3c2c9163f2))\n", + "\u001b[90m│ \u001b[39m (data__6a154ff8_45ac_11ef_0ccb_d5d94a0ba3b1 = Main.unpack_identity(data__6a154ff8_45ac_11ef_1e85_7f088e5cdb82))\n", + "\u001b[90m│ \u001b[39m %1750 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1751 = (%1750)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1752 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1753 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69f0b06c_45ac_11ef_10be_397cade17485 = Main.compute(%1751, %1752, %1753, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1755 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1756 = (%1755)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1757 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1758 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1517cc_45ac_11ef_36c4_a99091cb9e39 = Main.compute(%1756, %1757, %1758, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m (data__69f0b078_45ac_11ef_313f_394882f41b3f = Main.unpack_identity(data__69f0b06c_45ac_11ef_10be_397cade17485))\n", + "\u001b[90m│ \u001b[39m (data__6a1517cc_45ac_11ef_33ba_5f78c40c5c96 = Main.unpack_identity(data__6a1517cc_45ac_11ef_36c4_a99091cb9e39))\n", + "\u001b[90m│ \u001b[39m %1762 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1763 = (%1762)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1764 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1765 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a151d9e_45ac_11ef_36bb_0f3a413c8499 = Main.compute(%1763, %1764, %1765, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %1767 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1768 = (%1767)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1769 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1770 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a154422_45ac_11ef_2534_8f514d7293a9 = Main.compute(%1768, %1769, %1770, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m (data__6a151d9e_45ac_11ef_1518_2103ef31721c = Main.unpack_identity(data__6a151d9e_45ac_11ef_36bb_0f3a413c8499))\n", + "\u001b[90m│ \u001b[39m (data__6a154422_45ac_11ef_2948_f5e43d66f9bc = Main.unpack_identity(data__6a154422_45ac_11ef_2534_8f514d7293a9))\n", + "\u001b[90m│ \u001b[39m %1774 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1775 = (%1774)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1776 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1777 = data__64cc5c62_45ac_11ef_0f8f_711ab0a7a6e5\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a152938_45ac_11ef_2e42_e3027a29bd55 = Main.compute(%1775, %1776, %1777, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m %1779 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1780 = (%1779)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1781 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1782 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a155b74_45ac_11ef_2a81_539f652786ef = Main.compute(%1780, %1781, %1782, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__6a152938_45ac_11ef_155f_47cd5bb07a65 = Main.unpack_identity(data__6a152938_45ac_11ef_2e42_e3027a29bd55))\n", + "\u001b[90m│ \u001b[39m (data__6a155b74_45ac_11ef_0f91_f3c432fb1fa5 = Main.unpack_identity(data__6a155b74_45ac_11ef_2a81_539f652786ef))\n", + "\u001b[90m│ \u001b[39m %1786 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1787 = (%1786)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1788 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1789 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68816b18_45ac_11ef_3bea_37621efe07af = Main.compute(%1787, %1788, %1789, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m %1791 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1792 = (%1791)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1793 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1794 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1465ca_45ac_11ef_2e42_effa28a992d5 = Main.compute(%1792, %1793, %1794, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__68816b2e_45ac_11ef_006f_cb2d85278f1a = Main.unpack_identity(data__68816b18_45ac_11ef_3bea_37621efe07af))\n", + "\u001b[90m│ \u001b[39m (data__6a1465ca_45ac_11ef_06cc_aff52ee637fd = Main.unpack_identity(data__6a1465ca_45ac_11ef_2e42_effa28a992d5))\n", + "\u001b[90m│ \u001b[39m %1798 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1799 = (%1798)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1800 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1801 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15737a_45ac_11ef_17ad_b7c79458f8c0 = Main.compute(%1799, %1800, %1801, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1803 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1804 = (%1803)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1805 = data__68b8ced2_45ac_11ef_08f2_b50501e10869\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1806 = data__6a124bf0_45ac_11ef_2465_2542bd145a67\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1807 = data__6a14513e_45ac_11ef_3034_71cbd5a13d8e\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1808 = data__6a14ad8c_45ac_11ef_0f60_e99ca646eb9c\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1809 = data__6a14c330_45ac_11ef_136e_35f25f6dcaec\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1810 = data__6a150336_45ac_11ef_099d_795d76cc4f01\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1811 = data__6a151f42_45ac_11ef_1b0f_11d551f471c9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a674a_45ac_11ef_3b5b_678af22cc00b = Main.compute(%1804, %1805, %1806, %1807, %1808, %1809, %1810, %1811, data__6a15690c_45ac_11ef_3aa0_ad7f673da9d8))\n", + "\u001b[90m│ \u001b[39m (data__6a15737a_45ac_11ef_2bf5_150861f01654 = Main.unpack_identity(data__6a15737a_45ac_11ef_17ad_b7c79458f8c0))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6754_45ac_11ef_0894_230b6cfee705 = Main.unpack_identity(data__6a1a674a_45ac_11ef_3b5b_678af22cc00b))\n", + "\u001b[90m│ \u001b[39m %1815 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1816 = (%1815)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1817 = data__68ef46ba_45ac_11ef_0578_afcc20c98b71\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1818 = data__69fe8b10_45ac_11ef_0825_e95b41e350ba\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1819 = data__6a1465ca_45ac_11ef_06cc_aff52ee637fd\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1820 = data__6a1486f4_45ac_11ef_0d23_4707d2cb3d34\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1821 = data__6a14d1fc_45ac_11ef_24dd_c3debe31591d\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1822 = data__6a1512ae_45ac_11ef_2f03_d9e1ebc91500\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1823 = data__6a153874_45ac_11ef_31e6_cd08d5d6f365\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6cae_45ac_11ef_188f_d72ba462508e = Main.compute(%1816, %1817, %1818, %1819, %1820, %1821, %1822, %1823, data__6a155b74_45ac_11ef_0f91_f3c432fb1fa5))\n", + "\u001b[90m│ \u001b[39m %1825 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1826 = (%1825)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1827 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1828 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14e7de_45ac_11ef_0b96_85ebe46e9c64 = Main.compute(%1826, %1827, %1828, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6cb8_45ac_11ef_2db2_c90b4237a8f3 = Main.unpack_identity(data__6a1a6cae_45ac_11ef_188f_d72ba462508e))\n", + "\u001b[90m│ \u001b[39m (data__6a14e7de_45ac_11ef_0702_2df0c18ee607 = Main.unpack_identity(data__6a14e7de_45ac_11ef_0b96_85ebe46e9c64))\n", + "\u001b[90m│ \u001b[39m %1832 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1833 = (%1832)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1834 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1835 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a154a12_45ac_11ef_107a_1503bcc42fed = Main.compute(%1833, %1834, %1835, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %1837 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1838 = (%1837)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1839 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1840 = data__6757a612_45ac_11ef_0a8d_f7649013418c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1571f4_45ac_11ef_18c4_a1c9413f8209 = Main.compute(%1838, %1839, %1840, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a154a12_45ac_11ef_2f92_d3aa8ae4b69f = Main.unpack_identity(data__6a154a12_45ac_11ef_107a_1503bcc42fed))\n", + "\u001b[90m│ \u001b[39m (data__6a1571f4_45ac_11ef_014e_c7424a37283f = Main.unpack_identity(data__6a1571f4_45ac_11ef_18c4_a1c9413f8209))\n", + "\u001b[90m│ \u001b[39m %1844 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1845 = (%1844)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1846 = data__64cc5c3a_45ac_11ef_0379_5b012ddd8810\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6720bf1c_45ac_11ef_0234_39ff429d0fcd = Main.compute(%1845, %1846, data__64cc5b04_45ac_11ef_292e_4183199490e4::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m %1848 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1849 = (%1848)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1850 = data__67d2da30_45ac_11ef_0acc_15bb7cec5e7e\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1851 = data__69d802d8_45ac_11ef_034c_b383f5fdd17c\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1852 = data__6a14716e_45ac_11ef_0870_19a79ad6f800\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1853 = data__6a149ebc_45ac_11ef_0b48_df68cf71a3cb\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1854 = data__6a14b8fe_45ac_11ef_3a41_c9eca14155b4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1855 = data__6a14f7ba_45ac_11ef_2e5a_5d3aad31dfd4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1856 = data__6a1542c4_45ac_11ef_00f9_e7ade93c10c8\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a164388_45ac_11ef_00c8_4379fdef2771 = Main.compute(%1849, %1850, %1851, %1852, %1853, %1854, %1855, %1856, data__6a1571f4_45ac_11ef_014e_c7424a37283f))\n", + "\u001b[90m│ \u001b[39m (data__6720bf44_45ac_11ef_141a_cbb8df93b854 = Main.unpack_identity(data__6720bf1c_45ac_11ef_0234_39ff429d0fcd))\n", + "\u001b[90m│ \u001b[39m (data__6a16439a_45ac_11ef_3ce1_25f17487d9a6 = Main.unpack_identity(data__6a164388_45ac_11ef_00c8_4379fdef2771))\n", + "\u001b[90m│ \u001b[39m %1860 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1861 = (%1860)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67541146_45ac_11ef_3f35_9320a06a66e9 = Main.compute(%1861, data__6720bf44_45ac_11ef_141a_cbb8df93b854))\n", + "\u001b[90m│ \u001b[39m %1863 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1864 = (%1863)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1865 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1866 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67991a4a_45ac_11ef_0e14_5753d2faadde = Main.compute(%1864, %1865, %1866, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m (data__67541150_45ac_11ef_20fb_1503a23cc3af = Main.unpack_identity(data__67541146_45ac_11ef_3f35_9320a06a66e9))\n", + "\u001b[90m│ \u001b[39m (data__67991a5c_45ac_11ef_344d_0b1a22cd62bc = Main.unpack_identity(data__67991a4a_45ac_11ef_0e14_5753d2faadde))\n", + "\u001b[90m│ \u001b[39m %1870 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1871 = (%1870)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1872 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1873 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68515126_45ac_11ef_148f_339c0cafc238 = Main.compute(%1871, %1872, %1873, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m %1875 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1876 = (%1875)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1877 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1878 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__686b39e2_45ac_11ef_1922_6704440e03f7 = Main.compute(%1876, %1877, %1878, data__67669b04_45ac_11ef_1c31_7f085d85f58a))\n", + "\u001b[90m│ \u001b[39m (data__6851513a_45ac_11ef_3306_cdd77bf15bcc = Main.unpack_identity(data__68515126_45ac_11ef_148f_339c0cafc238))\n", + "\u001b[90m│ \u001b[39m (data__686b39f6_45ac_11ef_0067_69805e33f8c9 = Main.unpack_identity(data__686b39e2_45ac_11ef_1922_6704440e03f7))\n", + "\u001b[90m│ \u001b[39m %1882 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1883 = (%1882)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1884 = data__65019966_45ac_11ef_2887_0bb0edd119ca\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67541150_45ac_11ef_0fa4_9b615c3a322c = Main.compute(%1883, %1884, data__67541150_45ac_11ef_20fb_1503a23cc3af))\n", + "\u001b[90m│ \u001b[39m %1886 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1887 = (%1886)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1888 = data__686b39f6_45ac_11ef_0067_69805e33f8c9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1889 = data__69f79440_45ac_11ef_1afc_23fc6d345240\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1890 = data__6a144a04_45ac_11ef_3375_4f5b0f53005e\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1891 = data__6a149a4a_45ac_11ef_1967_e3b2c887af43\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1892 = data__6a14c47a_45ac_11ef_07c2_5f04acce8bee\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1893 = data__6a1504bc_45ac_11ef_2997_15421bbdd64c\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1894 = data__6a151d9e_45ac_11ef_1518_2103ef31721c\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a68a8_45ac_11ef_2a87_235bd5423621 = Main.compute(%1887, %1888, %1889, %1890, %1891, %1892, %1893, %1894, data__6a156768_45ac_11ef_0e01_cf52df94b39b))\n", + "\u001b[90m│ \u001b[39m (data__6755bbe0_45ac_11ef_0540_d9e343e1f86f = Main.unpack_identity(data__67541150_45ac_11ef_0fa4_9b615c3a322c))\n", + "\u001b[90m│ \u001b[39m (data__6a1a68a8_45ac_11ef_1384_2d7050946e99 = Main.unpack_identity(data__6a1a68a8_45ac_11ef_2a87_235bd5423621))\n", + "\u001b[90m│ \u001b[39m %1898 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1899 = (%1898)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1900 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1901 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14f076_45ac_11ef_39bb_290dbfdcb5e5 = Main.compute(%1899, %1900, %1901, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1903 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1904 = (%1903)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1905 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1906 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14f4d6_45ac_11ef_303d_b92e5949d84f = Main.compute(%1904, %1905, %1906, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1908 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1909 = (%1908)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1910 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1911 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15558e_45ac_11ef_3eb2_015ad54e4cbe = Main.compute(%1909, %1910, %1911, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %1913 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1914 = (%1913)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1915 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1916 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a156c38_45ac_11ef_28bf_03ba26937492 = Main.compute(%1914, %1915, %1916, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a14f076_45ac_11ef_13ad_91af568f7bf0 = Main.unpack_identity(data__6a14f076_45ac_11ef_39bb_290dbfdcb5e5))\n", + "\u001b[90m│ \u001b[39m (data__6a14f4d6_45ac_11ef_10f5_7b1a2982f95a = Main.unpack_identity(data__6a14f4d6_45ac_11ef_303d_b92e5949d84f))\n", + "\u001b[90m│ \u001b[39m (data__6a15558e_45ac_11ef_2cb7_012f32809cb4 = Main.unpack_identity(data__6a15558e_45ac_11ef_3eb2_015ad54e4cbe))\n", + "\u001b[90m│ \u001b[39m (data__6a156c38_45ac_11ef_09c8_c3b69cb00835 = Main.unpack_identity(data__6a156c38_45ac_11ef_28bf_03ba26937492))\n", + "\u001b[90m│ \u001b[39m %1922 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1923 = (%1922)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1924 = data__6851513a_45ac_11ef_3306_cdd77bf15bcc\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1925 = data__69f58f38_45ac_11ef_1ee8_2f9e711240e0\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1926 = data__6a1457ce_45ac_11ef_1025_81a1d2e012b5\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1927 = data__6a1480b4_45ac_11ef_0190_195b689218a0\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1928 = data__6a14c614_45ac_11ef_3d1d_8dcdd98eb625\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1929 = data__6a150660_45ac_11ef_1291_27d2ac5d7294\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1930 = data__6a152938_45ac_11ef_155f_47cd5bb07a65\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6c4a_45ac_11ef_034b_89a5e9ab9db1 = Main.compute(%1923, %1924, %1925, %1926, %1927, %1928, %1929, %1930, data__6a154ff8_45ac_11ef_0ccb_d5d94a0ba3b1))\n", + "\u001b[90m│ \u001b[39m %1932 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1933 = (%1932)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1934 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1935 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14f1f2_45ac_11ef_0be9_7b235703eda8 = Main.compute(%1933, %1934, %1935, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1937 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1938 = (%1937)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1939 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1940 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14f382_45ac_11ef_2180_7f13bf111dbe = Main.compute(%1938, %1939, %1940, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %1942 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1943 = (%1942)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1944 = data__665f09f8_45ac_11ef_0ae4_0569fe144261\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1945 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a150b2e_45ac_11ef_3055_a7af9bdc9907 = Main.compute(%1943, %1944, %1945, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1947 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1948 = (%1947)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1949 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1950 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15589a_45ac_11ef_3089_636bf762eb02 = Main.compute(%1948, %1949, %1950, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6c4a_45ac_11ef_296b_e3ced11f68c7 = Main.unpack_identity(data__6a1a6c4a_45ac_11ef_034b_89a5e9ab9db1))\n", + "\u001b[90m│ \u001b[39m (data__6a14f1f2_45ac_11ef_1e10_850fff284700 = Main.unpack_identity(data__6a14f1f2_45ac_11ef_0be9_7b235703eda8))\n", + "\u001b[90m│ \u001b[39m (data__6a14f382_45ac_11ef_0144_ab5ddc82d1df = Main.unpack_identity(data__6a14f382_45ac_11ef_2180_7f13bf111dbe))\n", + "\u001b[90m│ \u001b[39m (data__6a150b2e_45ac_11ef_3ba3_d1baea4793b2 = Main.unpack_identity(data__6a150b2e_45ac_11ef_3055_a7af9bdc9907))\n", + "\u001b[90m│ \u001b[39m (data__6a15589a_45ac_11ef_1f1c_7bbc958ec346 = Main.unpack_identity(data__6a15589a_45ac_11ef_3089_636bf762eb02))\n", + "\u001b[90m│ \u001b[39m %1957 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1958 = (%1957)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1959 = data__665f09c6_45ac_11ef_28d9_43066742c079\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1960 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15099e_45ac_11ef_203e_498c14c84bd7 = Main.compute(%1958, %1959, %1960, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1962 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1963 = (%1962)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1964 = data__665f0df6_45ac_11ef_0b9f_1b830d87e916\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1965 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a156da0_45ac_11ef_268d_8f165fb126cc = Main.compute(%1963, %1964, %1965, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %1967 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1968 = (%1967)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1969 = data__665f0a3e_45ac_11ef_11d6_25c543d5ae81\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1970 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a150caa_45ac_11ef_232c_0ff0194da9bc = Main.compute(%1968, %1969, %1970, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %1972 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1973 = (%1972)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1974 = data__665f0a70_45ac_11ef_3186_837851fa5740\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1975 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a150e08_45ac_11ef_138c_b1fc17ae37ed = Main.compute(%1973, %1974, %1975, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__6a1509a8_45ac_11ef_2f47_731bcdd4d72a = Main.unpack_identity(data__6a15099e_45ac_11ef_203e_498c14c84bd7))\n", + "\u001b[90m│ \u001b[39m (data__6a156da8_45ac_11ef_0acf_4128186906e0 = Main.unpack_identity(data__6a156da0_45ac_11ef_268d_8f165fb126cc))\n", + "\u001b[90m│ \u001b[39m (data__6a150caa_45ac_11ef_26c6_5da9deebc146 = Main.unpack_identity(data__6a150caa_45ac_11ef_232c_0ff0194da9bc))\n", + "\u001b[90m│ \u001b[39m (data__6a150e12_45ac_11ef_0c83_2bfabb94ca0a = Main.unpack_identity(data__6a150e08_45ac_11ef_138c_b1fc17ae37ed))\n", + "\u001b[90m│ \u001b[39m %1981 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1982 = (%1981)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1983 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1984 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__68fc6626_45ac_11ef_2918_7bc02a9e4294 = Main.compute(%1982, %1983, %1984, data__67669b24_45ac_11ef_3734_27f184f04e80))\n", + "\u001b[90m│ \u001b[39m %1986 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1987 = (%1986)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1988 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1989 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a155430_45ac_11ef_08e7_b55ab25b9d25 = Main.compute(%1987, %1988, %1989, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %1991 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1992 = (%1991)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1993 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %1994 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a156f10_45ac_11ef_1543_f57952f03f8b = Main.compute(%1992, %1993, %1994, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__68fc6638_45ac_11ef_19bd_5165e999e51a = Main.unpack_identity(data__68fc6626_45ac_11ef_2918_7bc02a9e4294))\n", + "\u001b[90m│ \u001b[39m (data__6a15543a_45ac_11ef_3f79_6941f94ea099 = Main.unpack_identity(data__6a155430_45ac_11ef_08e7_b55ab25b9d25))\n", + "\u001b[90m│ \u001b[39m (data__6a156f10_45ac_11ef_12ad_6b276f8c9130 = Main.unpack_identity(data__6a156f10_45ac_11ef_1543_f57952f03f8b))\n", + "\u001b[90m│ \u001b[39m %1999 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2000 = (%1999)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2001 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2002 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a157082_45ac_11ef_0a82_1d86c0ad6a25 = Main.compute(%2000, %2001, %2002, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2004 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2005 = (%2004)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2006 = data__68fc6638_45ac_11ef_19bd_5165e999e51a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2007 = data__6a00b2b4_45ac_11ef_07f6_ff18992403e4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2008 = data__6a147312_45ac_11ef_36af_a7749c2b0e87\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2009 = data__6a14a03a_45ac_11ef_2759_59583c85ca53\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2010 = data__6a14d0a0_45ac_11ef_3970_739d217cab75\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2011 = data__6a15110a_45ac_11ef_37c5_2f6ef73cc6df\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2012 = data__6a154422_45ac_11ef_2948_f5e43d66f9bc\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6718_45ac_11ef_2a9a_db6f15fe4377 = Main.compute(%2005, %2006, %2007, %2008, %2009, %2010, %2011, %2012, data__6a15737a_45ac_11ef_2bf5_150861f01654))\n", + "\u001b[90m│ \u001b[39m %2014 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2015 = (%2014)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2016 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2017 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__676cef7a_45ac_11ef_01d6_c97eb1250044 = Main.compute(%2015, %2016, %2017, data__67669ad2_45ac_11ef_078e_19dd6b98d4f6))\n", + "\u001b[90m│ \u001b[39m (data__6a157082_45ac_11ef_1c57_25c31b5846e9 = Main.unpack_identity(data__6a157082_45ac_11ef_0a82_1d86c0ad6a25))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6718_45ac_11ef_044f_9ffb6430f3d5 = Main.unpack_identity(data__6a1a6718_45ac_11ef_2a9a_db6f15fe4377))\n", + "\u001b[90m│ \u001b[39m (data__676cefa4_45ac_11ef_258c_631396a0a815 = Main.unpack_identity(data__676cef7a_45ac_11ef_01d6_c97eb1250044))\n", + "\u001b[90m│ \u001b[39m %2022 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2023 = (%2022)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2024 = data__665f0db8_45ac_11ef_384f_230eef6f34b2\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2025 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a15488c_45ac_11ef_1825_8f2086ddbb1a = Main.compute(%2023, %2024, %2025, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2027 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2028 = (%2027)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2029 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2030 = data__6755bbe0_45ac_11ef_0540_d9e343e1f86f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a155728_45ac_11ef_3237_ffb793cff90c = Main.compute(%2028, %2029, %2030, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2032 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2033 = (%2032)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2034 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2035 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a147f24_45ac_11ef_0610_559c13ad7cb6 = Main.compute(%2033, %2034, %2035, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2037 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2038 = (%2037)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2039 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2040 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14940a_45ac_11ef_268e_b5a9d9b78eb1 = Main.compute(%2038, %2039, %2040, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__6a15488c_45ac_11ef_32de_3d5064d9ac68 = Main.unpack_identity(data__6a15488c_45ac_11ef_1825_8f2086ddbb1a))\n", + "\u001b[90m│ \u001b[39m (data__6a155728_45ac_11ef_3eb6_45f923a8c817 = Main.unpack_identity(data__6a155728_45ac_11ef_3237_ffb793cff90c))\n", + "\u001b[90m│ \u001b[39m (data__6a147f24_45ac_11ef_3de5_c50f6d3078a6 = Main.unpack_identity(data__6a147f24_45ac_11ef_0610_559c13ad7cb6))\n", + "\u001b[90m│ \u001b[39m (data__6a14940a_45ac_11ef_3424_5b180755302f = Main.unpack_identity(data__6a14940a_45ac_11ef_268e_b5a9d9b78eb1))\n", + "\u001b[90m│ \u001b[39m %2046 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2047 = (%2046)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2048 = data__69630a96_45ac_11ef_03e6_e96324b6b634\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2049 = data__69c33f42_45ac_11ef_0381_87267a28a307\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2050 = data__6a145616_45ac_11ef_2309_7ded9b4f4d8a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2051 = data__6a147f24_45ac_11ef_3de5_c50f6d3078a6\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2052 = data__6a14e13a_45ac_11ef_13d2_939a111cf9c7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2053 = data__6a14ed92_45ac_11ef_239c_d91b207048c4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2054 = data__6a1527c6_45ac_11ef_07ca_8953b5fc5ee7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6a9e_45ac_11ef_02f6_f1deb71d2dca = Main.compute(%2047, %2048, %2049, %2050, %2051, %2052, %2053, %2054, data__6a154e7c_45ac_11ef_2882_ef2473cadf2c))\n", + "\u001b[90m│ \u001b[39m %2056 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2057 = (%2056)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2058 = data__665f0e56_45ac_11ef_114e_8fd9c447ef6a\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2059 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a156448_45ac_11ef_0947_a7e315db2a78 = Main.compute(%2057, %2058, %2059, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2061 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2062 = (%2061)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2063 = data__665f0e30_45ac_11ef_170a_b16f2d53d880\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2064 = data__674e9888_45ac_11ef_0e79_911117c65c14\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1562fe_45ac_11ef_2927_1719401f589d = Main.compute(%2062, %2063, %2064, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2066 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2067 = (%2066)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2068 = data__68a60a04_45ac_11ef_34fb_f124ff6615fc\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2069 = data__6a103246_45ac_11ef_2613_53e2e412de63\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2070 = data__6a145e72_45ac_11ef_13c9_496539992205\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2071 = data__6a14940a_45ac_11ef_3424_5b180755302f\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2072 = data__6a14c79a_45ac_11ef_264f_d98ab49ee013\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2073 = data__6a1507fa_45ac_11ef_20a9_69f2f9330f09\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2074 = data__6a152ac8_45ac_11ef_0907_cb956772e437\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6b0a_45ac_11ef_0999_7bc2f1c78250 = Main.compute(%2067, %2068, %2069, %2070, %2071, %2072, %2073, %2074, data__6a15516a_45ac_11ef_1728_5bfff6bb3f78))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6a9e_45ac_11ef_08d2_55ca789a4868 = Main.unpack_identity(data__6a1a6a9e_45ac_11ef_02f6_f1deb71d2dca))\n", + "\u001b[90m│ \u001b[39m (data__6a156452_45ac_11ef_2747_43a67c18db0d = Main.unpack_identity(data__6a156448_45ac_11ef_0947_a7e315db2a78))\n", + "\u001b[90m│ \u001b[39m (data__6a1562fe_45ac_11ef_1997_db3cd54ceee7 = Main.unpack_identity(data__6a1562fe_45ac_11ef_2927_1719401f589d))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6b0a_45ac_11ef_1606_19ab9b248b2b = Main.unpack_identity(data__6a1a6b0a_45ac_11ef_0999_7bc2f1c78250))\n", + "\u001b[90m│ \u001b[39m (data__6a146ab6_45ac_11ef_079d_251f966531da = Main.unpack_identity(data__6a146ab6_45ac_11ef_03c8_8d65edcce307))\n", + "\u001b[90m│ \u001b[39m %2081 = FeynmanDiagramGenerator.ComputeTask_Pair\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2082 = (%2081)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Pair())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2083 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669d66_45ac_11ef_098d_c3ac6582c57b = Main.compute(%2082, %2083, data__64cc5b04_45ac_11ef_292e_4183199490e4::Core.PartialStruct(FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{Float64}}, Any[Core.Const(photon), Core.PartialStruct(SLorentzVector{Float64}, Any[Core.Const(0.0), Float64, Float64, Core.Const(0.0)])])))\n", + "\u001b[90m│ \u001b[39m %2085 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2086 = (%2085)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2087 = data__64f0ad24_45ac_11ef_1dfb_37e835f16813\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f04b0_45ac_11ef_2a65_1f5e1ff9d228 = Main.compute(%2086, %2087, data__665f04a8_45ac_11ef_1421_77b6a7d6199f))\n", + "\u001b[90m│ \u001b[39m %2089 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2090 = (%2089)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2091 = data__64f0ad24_45ac_11ef_1dfb_37e835f16813\u001b[36m::Float64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__665f03ea_45ac_11ef_1c6b_d32e6ad92b7b = Main.compute(%2090, %2091, data__665f03e0_45ac_11ef_37b8_09046c44d87f))\n", + "\u001b[90m│ \u001b[39m (data__67669d70_45ac_11ef_00ac_1187f9208ff1 = Main.unpack_identity(data__67669d66_45ac_11ef_098d_c3ac6582c57b))\n", + "\u001b[90m│ \u001b[39m (data__665f04d0_45ac_11ef_00f0_1fa013e24212 = Main.unpack_identity(data__665f04b0_45ac_11ef_2a65_1f5e1ff9d228))\n", + "\u001b[90m│ \u001b[39m (data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e = Main.unpack_identity(data__665f03ea_45ac_11ef_1c6b_d32e6ad92b7b))\n", + "\u001b[90m│ \u001b[39m %2096 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2097 = (%2096)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2098 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2099 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1445b8_45ac_11ef_0377_e9c90f8fd1d7 = Main.compute(%2097, %2098, %2099, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %2101 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2102 = (%2101)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2103 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2104 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a144dc4_45ac_11ef_2658_0b24bf42bc6a = Main.compute(%2102, %2103, %2104, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %2106 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2107 = (%2106)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2108 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2109 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a146914_45ac_11ef_0b46_2725c2b6da2b = Main.compute(%2107, %2108, %2109, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__6a144dc4_45ac_11ef_2504_f5467718e1e1 = Main.unpack_identity(data__6a144dc4_45ac_11ef_2658_0b24bf42bc6a))\n", + "\u001b[90m│ \u001b[39m (data__6a146914_45ac_11ef_0271_b31a219ca7c8 = Main.unpack_identity(data__6a146914_45ac_11ef_0b46_2725c2b6da2b))\n", + "\u001b[90m│ \u001b[39m %2113 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2114 = (%2113)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2115 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2116 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1474b4_45ac_11ef_2cd3_5bda7697908d = Main.compute(%2114, %2115, %2116, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %2118 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2119 = (%2118)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2120 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2121 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a149bb2_45ac_11ef_1b1f_c16b01c039ab = Main.compute(%2119, %2120, %2121, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2123 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2124 = (%2123)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2125 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2126 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a145b20_45ac_11ef_009f_893085298957 = Main.compute(%2124, %2125, %2126, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__6a149bb2_45ac_11ef_17ba_e3a9d4600bd7 = Main.unpack_identity(data__6a149bb2_45ac_11ef_1b1f_c16b01c039ab))\n", + "\u001b[90m│ \u001b[39m (data__6a145b20_45ac_11ef_2fdf_811408443d77 = Main.unpack_identity(data__6a145b20_45ac_11ef_009f_893085298957))\n", + "\u001b[90m│ \u001b[39m %2130 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2131 = (%2130)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2132 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2133 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14626c_45ac_11ef_32a0_2f5c85491c71 = Main.compute(%2131, %2132, %2133, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m %2135 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2136 = (%2135)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2137 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2138 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a149568_45ac_11ef_100c_a574e4193e1f = Main.compute(%2136, %2137, %2138, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2140 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2141 = (%2140)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2142 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2143 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a146f8e_45ac_11ef_2a1b_a5e9d5155bed = Main.compute(%2141, %2142, %2143, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m (data__6a14626c_45ac_11ef_19c5_598f31acaefb = Main.unpack_identity(data__6a14626c_45ac_11ef_32a0_2f5c85491c71))\n", + "\u001b[90m│ \u001b[39m (data__6a149568_45ac_11ef_393d_ad738d0022af = Main.unpack_identity(data__6a149568_45ac_11ef_100c_a574e4193e1f))\n", + "\u001b[90m│ \u001b[39m (data__6a146f8e_45ac_11ef_39d1_d3d87fa2259a = Main.unpack_identity(data__6a146f8e_45ac_11ef_2a1b_a5e9d5155bed))\n", + "\u001b[90m│ \u001b[39m %2148 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2149 = (%2148)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2150 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2151 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a149110_45ac_11ef_2d37_45e0bef4eddf = Main.compute(%2149, %2150, %2151, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2153 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2154 = (%2153)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2155 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2156 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14763c_45ac_11ef_0dea_9bf2b45f6e87 = Main.compute(%2154, %2155, %2156, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m %2158 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2159 = (%2158)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2160 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2161 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a144162_45ac_11ef_0b91_412e26f96f1c = Main.compute(%2159, %2160, %2161, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m (data__6a149110_45ac_11ef_01ba_c36ce1bfe12a = Main.unpack_identity(data__6a149110_45ac_11ef_2d37_45e0bef4eddf))\n", + "\u001b[90m│ \u001b[39m (data__6a14763c_45ac_11ef_27df_33b5c48d5bd9 = Main.unpack_identity(data__6a14763c_45ac_11ef_0dea_9bf2b45f6e87))\n", + "\u001b[90m│ \u001b[39m (data__6a14416c_45ac_11ef_3248_2992dad3afef = Main.unpack_identity(data__6a144162_45ac_11ef_0b91_412e26f96f1c))\n", + "\u001b[90m│ \u001b[39m %2166 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2167 = (%2166)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2168 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2169 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14600c_45ac_11ef_1e6d_e967817b8d78 = Main.compute(%2167, %2168, %2169, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m %2171 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2172 = (%2171)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2173 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2174 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a144bbc_45ac_11ef_1dee_87a78545768e = Main.compute(%2172, %2173, %2174, data__67634f12_45ac_11ef_24fc_2994378f8cf0))\n", + "\u001b[90m│ \u001b[39m %2176 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2177 = (%2176)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2178 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2179 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1452b0_45ac_11ef_1fa9_ab3f18b31ba4 = Main.compute(%2177, %2178, %2179, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__6a146016_45ac_11ef_3666_79ca5718e52a = Main.unpack_identity(data__6a14600c_45ac_11ef_1e6d_e967817b8d78))\n", + "\u001b[90m│ \u001b[39m (data__6a144bbc_45ac_11ef_2a66_0904e5a76082 = Main.unpack_identity(data__6a144bbc_45ac_11ef_1dee_87a78545768e))\n", + "\u001b[90m│ \u001b[39m (data__6a1452b0_45ac_11ef_34bd_2b18bd436049 = Main.unpack_identity(data__6a1452b0_45ac_11ef_1fa9_ab3f18b31ba4))\n", + "\u001b[90m│ \u001b[39m %2184 = FeynmanDiagramGenerator.ComputeTask_CollectPairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2185 = (%2184)(1)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectPairs(1))\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669e4c_45ac_11ef_33fc_6b7408f1816f = Main.compute(%2185, data__67669d70_45ac_11ef_00ac_1187f9208ff1))\n", + "\u001b[90m│ \u001b[39m %2187 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2188 = (%2187)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2189 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2190 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a145468_45ac_11ef_05ce_63a8e1f33330 = Main.compute(%2188, %2189, %2190, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__67669e4c_45ac_11ef_2cbe_db8a6ac33608 = Main.unpack_identity(data__67669e4c_45ac_11ef_33fc_6b7408f1816f))\n", + "\u001b[90m│ \u001b[39m (data__6a145468_45ac_11ef_0384_e580164171cd = Main.unpack_identity(data__6a145468_45ac_11ef_05ce_63a8e1f33330))\n", + "\u001b[90m│ \u001b[39m %2194 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2195 = (%2194)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2196 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2197 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14972a_45ac_11ef_3f0a_c70261953a51 = Main.compute(%2195, %2196, %2197, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2199 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2200 = (%2199)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2201 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2202 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a149d38_45ac_11ef_0e16_3b20071f72ec = Main.compute(%2200, %2201, %2202, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a14972a_45ac_11ef_037b_d19a35e3e759 = Main.unpack_identity(data__6a14972a_45ac_11ef_3f0a_c70261953a51))\n", + "\u001b[90m│ \u001b[39m (data__6a149d42_45ac_11ef_0a13_bfdfdd77ffff = Main.unpack_identity(data__6a149d38_45ac_11ef_0e16_3b20071f72ec))\n", + "\u001b[90m│ \u001b[39m %2206 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2207 = (%2206)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2208 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2209 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14aa12_45ac_11ef_346c_cb0c91125edf = Main.compute(%2207, %2208, %2209, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2211 = FeynmanDiagramGenerator.ComputeTask_PropagatePairs\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2212 = (%2211)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_PropagatePairs())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2213 = data__64cc5cd0_45ac_11ef_346f_d3c975f573e0\u001b[36m::DiracMatrix\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__67669e4c_45ac_11ef_2b19_43bf38029087 = Main.compute(%2212, %2213, data__67669e4c_45ac_11ef_2cbe_db8a6ac33608))\n", + "\u001b[90m│ \u001b[39m (data__6a14aa1c_45ac_11ef_027b_99e85db64900 = Main.unpack_identity(data__6a14aa12_45ac_11ef_346c_cb0c91125edf))\n", + "\u001b[90m│ \u001b[39m (data__67669e54_45ac_11ef_2994_dd0a6019847d = Main.unpack_identity(data__67669e4c_45ac_11ef_2b19_43bf38029087))\n", + "\u001b[90m│ \u001b[39m %2217 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2218 = (%2217)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2219 = data__68917d28_45ac_11ef_3eb7_03dba37ea953\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2220 = data__6a0e22e6_45ac_11ef_0e0d_7199edbf581b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2221 = data__6a144dc4_45ac_11ef_2504_f5467718e1e1\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2222 = data__6a14aa1c_45ac_11ef_027b_99e85db64900\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2223 = data__6a14bd7c_45ac_11ef_1090_e13c09dae79e\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2224 = data__6a14fc1a_45ac_11ef_189d_4f80d3bef885\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2225 = data__6a151952_45ac_11ef_061a_f72bcd5556b9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6876_45ac_11ef_2f2d_df69672f6d4d = Main.compute(%2218, %2219, %2220, %2221, %2222, %2223, %2224, %2225, data__6a1562fe_45ac_11ef_1997_db3cd54ceee7))\n", + "\u001b[90m│ \u001b[39m %2227 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2228 = (%2227)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2229 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2230 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69dc12d8_45ac_11ef_3e56_dd8e27edcb88 = Main.compute(%2228, %2229, %2230, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6876_45ac_11ef_2bc6_cd672f3bcbcf = Main.unpack_identity(data__6a1a6876_45ac_11ef_2f2d_df69672f6d4d))\n", + "\u001b[90m│ \u001b[39m (data__69dc12ec_45ac_11ef_081b_25f6ac8b44e8 = Main.unpack_identity(data__69dc12d8_45ac_11ef_3e56_dd8e27edcb88))\n", + "\u001b[90m│ \u001b[39m %2234 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2235 = (%2234)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2236 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2237 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69e20e72_45ac_11ef_130e_fd688674a836 = Main.compute(%2235, %2236, %2237, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %2239 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2240 = (%2239)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2241 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2242 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14a198_45ac_11ef_3cf2_cf14c45f1438 = Main.compute(%2240, %2241, %2242, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2244 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2245 = (%2244)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2246 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2247 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a148936_45ac_11ef_3268_cbcf01698df9 = Main.compute(%2245, %2246, %2247, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2249 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2250 = (%2249)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2251 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2252 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a148ac8_45ac_11ef_0a14_6dae629af446 = Main.compute(%2250, %2251, %2252, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__6a148936_45ac_11ef_0b20_f5ed7e800467 = Main.unpack_identity(data__6a148936_45ac_11ef_3268_cbcf01698df9))\n", + "\u001b[90m│ \u001b[39m (data__6a148ad2_45ac_11ef_2b0c_1f68337ceb1e = Main.unpack_identity(data__6a148ac8_45ac_11ef_0a14_6dae629af446))\n", + "\u001b[90m│ \u001b[39m %2256 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2257 = (%2256)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2258 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2259 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69dfd094_45ac_11ef_3da2_2934eac97556 = Main.compute(%2257, %2258, %2259, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %2261 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2262 = (%2261)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2263 = data__6651191c_45ac_11ef_216d_a35987434e07\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2264 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a03ac1c_45ac_11ef_3ed9_15c1b96e8356 = Main.compute(%2262, %2263, %2264, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %2266 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2267 = (%2266)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2268 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2269 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14a332_45ac_11ef_2096_b1b4a4450d87 = Main.compute(%2267, %2268, %2269, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a03ac28_45ac_11ef_1763_51e2d64f87e0 = Main.unpack_identity(data__6a03ac1c_45ac_11ef_3ed9_15c1b96e8356))\n", + "\u001b[90m│ \u001b[39m (data__6a14a332_45ac_11ef_12d0_6966c8cae531 = Main.unpack_identity(data__6a14a332_45ac_11ef_2096_b1b4a4450d87))\n", + "\u001b[90m│ \u001b[39m %2273 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2274 = (%2273)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2275 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2276 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__69e47a0e_45ac_11ef_129b_63ccbff069b1 = Main.compute(%2274, %2275, %2276, data__64cc5b74_45ac_11ef_027f_1dff3f4e269a))\n", + "\u001b[90m│ \u001b[39m %2278 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2279 = (%2278)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2280 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2281 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a148df2_45ac_11ef_2da5_854479a4eff4 = Main.compute(%2279, %2280, %2281, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__69e47a16_45ac_11ef_34a5_3f579b7d8185 = Main.unpack_identity(data__69e47a0e_45ac_11ef_129b_63ccbff069b1))\n", + "\u001b[90m│ \u001b[39m (data__6a148df2_45ac_11ef_2f84_512211570930 = Main.unpack_identity(data__6a148df2_45ac_11ef_2da5_854479a4eff4))\n", + "\u001b[90m│ \u001b[39m %2285 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2286 = (%2285)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2287 = data__6659682c_45ac_11ef_05f6_4b177f89bc01\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2288 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a05e4a0_45ac_11ef_3dc1_6d2a96c5c5de = Main.compute(%2286, %2287, %2288, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %2290 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2291 = (%2290)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2292 = data__665cbd38_45ac_11ef_0240_cdd8a0ecc93f\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2293 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a083692_45ac_11ef_0588_13a5583f21f9 = Main.compute(%2291, %2292, %2293, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m (data__6a05e4b4_45ac_11ef_2fec_9be1b3be991e = Main.unpack_identity(data__6a05e4a0_45ac_11ef_3dc1_6d2a96c5c5de))\n", + "\u001b[90m│ \u001b[39m (data__6a0836b0_45ac_11ef_3943_25fc5c3e1de7 = Main.unpack_identity(data__6a083692_45ac_11ef_0588_13a5583f21f9))\n", + "\u001b[90m│ \u001b[39m %2297 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2298 = (%2297)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2299 = data__690cfa48_45ac_11ef_3073_4b84f1272eec\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2300 = data__6a03ac28_45ac_11ef_1763_51e2d64f87e0\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2301 = data__6a146914_45ac_11ef_0271_b31a219ca7c8\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2302 = data__6a148ad2_45ac_11ef_2b0c_1f68337ceb1e\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2303 = data__6a14cdb2_45ac_11ef_2c63_23acac0a5ed9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2304 = data__6a150e12_45ac_11ef_0c83_2bfabb94ca0a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2305 = data__6a15327a_45ac_11ef_369c_451c0ca9ecc5\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a66dc_45ac_11ef_2f6e_c1688da34789 = Main.compute(%2298, %2299, %2300, %2301, %2302, %2303, %2304, %2305, data__6a155728_45ac_11ef_3eb6_45f923a8c817))\n", + "\u001b[90m│ \u001b[39m %2307 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2308 = (%2307)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2309 = data__691a47e8_45ac_11ef_0d34_7b18fb470dc6\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2310 = data__6a05e4b4_45ac_11ef_2fec_9be1b3be991e\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2311 = data__6a14763c_45ac_11ef_27df_33b5c48d5bd9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2312 = data__6a14a332_45ac_11ef_12d0_6966c8cae531\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2313 = data__6a14c916_45ac_11ef_2243_611b4ef45eb9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2314 = data__6a1509a8_45ac_11ef_2f47_731bcdd4d72a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2315 = data__6a153fa4_45ac_11ef_19a1_435cb0e834ad\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6baa_45ac_11ef_2b71_3b2582b91bbd = Main.compute(%2308, %2309, %2310, %2311, %2312, %2313, %2314, %2315, data__6a156f10_45ac_11ef_12ad_6b276f8c9130))\n", + "\u001b[90m│ \u001b[39m (data__6a1a66dc_45ac_11ef_240b_811bf3b912c9 = Main.unpack_identity(data__6a1a66dc_45ac_11ef_2f6e_c1688da34789))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6baa_45ac_11ef_2876_edc79d8af68d = Main.unpack_identity(data__6a1a6baa_45ac_11ef_2b71_3b2582b91bbd))\n", + "\u001b[90m│ \u001b[39m %2319 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2320 = (%2319)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2321 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2322 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14a4e0_45ac_11ef_2317_4b7a3e3900d5 = Main.compute(%2320, %2321, %2322, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2324 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2325 = (%2324)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2326 = data__69560d5a_45ac_11ef_2087_b75f51118122\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2327 = data__69bfc416_45ac_11ef_09a0_a378bcc10093\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2328 = data__6a14416c_45ac_11ef_3248_2992dad3afef\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2329 = data__6a149568_45ac_11ef_393d_ad738d0022af\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2330 = data__6a14d9ba_45ac_11ef_1331_21cb2cefc3dc\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2331 = data__6a14e658_45ac_11ef_33a4_85211b6fe61f\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2332 = data__6a151626_45ac_11ef_1f19_97291264afb7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6786_45ac_11ef_27d8_87fd0795e424 = Main.compute(%2325, %2326, %2327, %2328, %2329, %2330, %2331, %2332, data__6a155fca_45ac_11ef_2b78_af808a287baf))\n", + "\u001b[90m│ \u001b[39m (data__6a14a4e0_45ac_11ef_336c_974b627e0bba = Main.unpack_identity(data__6a14a4e0_45ac_11ef_2317_4b7a3e3900d5))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6786_45ac_11ef_0d11_3fd114e3fd2b = Main.unpack_identity(data__6a1a6786_45ac_11ef_27d8_87fd0795e424))\n", + "\u001b[90m│ \u001b[39m %2336 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2337 = (%2336)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2338 = data__665f0502_45ac_11ef_0b79_d58accc6ec3e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2339 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a148c62_45ac_11ef_13ed_41978147b2ec = Main.compute(%2337, %2338, %2339, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2341 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2342 = (%2341)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2343 = data__665f055c_45ac_11ef_2897_d7e1b6e8e05e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2344 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14a69a_45ac_11ef_015c_37d5b370f3e7 = Main.compute(%2342, %2343, %2344, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m (data__6a148c62_45ac_11ef_3f99_436b823483bb = Main.unpack_identity(data__6a148c62_45ac_11ef_13ed_41978147b2ec))\n", + "\u001b[90m│ \u001b[39m (data__6a14a69a_45ac_11ef_04c2_d78b9dbf998b = Main.unpack_identity(data__6a14a69a_45ac_11ef_015c_37d5b370f3e7))\n", + "\u001b[90m│ \u001b[39m (data__6a1445c2_45ac_11ef_2a72_91bd314b1191 = Main.unpack_identity(data__6a1445b8_45ac_11ef_0377_e9c90f8fd1d7))\n", + "\u001b[90m│ \u001b[39m (data__6a1474b4_45ac_11ef_1d07_a5e0043cc761 = Main.unpack_identity(data__6a1474b4_45ac_11ef_2cd3_5bda7697908d))\n", + "\u001b[90m│ \u001b[39m %2350 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2351 = (%2350)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2352 = data__69274f38_45ac_11ef_3c63_af521a7683fe\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2353 = data__6a0836b0_45ac_11ef_3943_25fc5c3e1de7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2354 = data__6a146c50_45ac_11ef_3e83_7177f0b76eb1\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2355 = data__6a148df2_45ac_11ef_2f84_512211570930\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2356 = data__6a14d58c_45ac_11ef_1974_839540ef76b7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2357 = data__6a151434_45ac_11ef_313a_95685b70c0fd\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2358 = data__6a1539e6_45ac_11ef_2587_6b8d209b9106\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6678_45ac_11ef_3c7b_ef599cc9c79b = Main.compute(%2351, %2352, %2353, %2354, %2355, %2356, %2357, %2358, data__6a155cf2_45ac_11ef_15e0_13ae1e738d8c))\n", + "\u001b[90m│ \u001b[39m %2360 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2361 = (%2360)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2362 = data__683cbdce_45ac_11ef_016f_6d32d6440970\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2363 = data__69f36eba_45ac_11ef_0e5d_d9e15af857fe\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2364 = data__6a1445c2_45ac_11ef_2a72_91bd314b1191\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2365 = data__6a14972a_45ac_11ef_037b_d19a35e3e759\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2366 = data__6a14beee_45ac_11ef_162e_e30245b30850\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2367 = data__6a14fd82_45ac_11ef_10a5_8722fcc1c5af\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2368 = data__6a1517cc_45ac_11ef_33ba_5f78c40c5c96\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a69c0_45ac_11ef_36cc_0f162727d803 = Main.compute(%2361, %2362, %2363, %2364, %2365, %2366, %2367, %2368, data__6a15616e_45ac_11ef_0d49_61b001528ef6))\n", + "\u001b[90m│ \u001b[39m %2370 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2371 = (%2370)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2372 = data__681581fa_45ac_11ef_3e0e_bde25bb712e9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2373 = data__69e47a16_45ac_11ef_34a5_3f579b7d8185\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2374 = data__6a1477ea_45ac_11ef_08dd_a7027e5481ee\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2375 = data__6a14a4e0_45ac_11ef_336c_974b627e0bba\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2376 = data__6a14b78c_45ac_11ef_39bb_3d26b61918a9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2377 = data__6a14f648_45ac_11ef_112f_233d361206ab\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2378 = data__6a1546d4_45ac_11ef_3fd9_610f3367856c\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6be6_45ac_11ef_2ae4_a32ccb29cdca = Main.compute(%2371, %2372, %2373, %2374, %2375, %2376, %2377, %2378, data__6a157690_45ac_11ef_3b45_39440d28af45))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6682_45ac_11ef_1053_c16b17000778 = Main.unpack_identity(data__6a1a6678_45ac_11ef_3c7b_ef599cc9c79b))\n", + "\u001b[90m│ \u001b[39m (data__6a1a69c0_45ac_11ef_1688_451f360ba773 = Main.unpack_identity(data__6a1a69c0_45ac_11ef_36cc_0f162727d803))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6be6_45ac_11ef_0e35_5977f8944a11 = Main.unpack_identity(data__6a1a6be6_45ac_11ef_2ae4_a32ccb29cdca))\n", + "\u001b[90m│ \u001b[39m %2383 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2384 = (%2383)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2385 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2386 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1483ac_45ac_11ef_3b40_c9eea50fb224 = Main.compute(%2384, %2385, %2386, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2388 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2389 = (%2388)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2390 = data__68e08d00_45ac_11ef_2601_cde7cf2aedc1\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2391 = data__69fcbcea_45ac_11ef_0705_7953d8179710\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2392 = data__6a146f8e_45ac_11ef_39d1_d3d87fa2259a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2393 = data__6a149d42_45ac_11ef_0a13_bfdfdd77ffff\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2394 = data__6a14caba_45ac_11ef_27bd_7973f08ec3c9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2395 = data__6a150b2e_45ac_11ef_3ba3_d1baea4793b2\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2396 = data__6a153e3c_45ac_11ef_25bd_01489ac98b8b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6cea_45ac_11ef_0e23_c3fe28e4ea97 = Main.compute(%2389, %2390, %2391, %2392, %2393, %2394, %2395, %2396, data__6a156da8_45ac_11ef_0acf_4128186906e0))\n", + "\u001b[90m│ \u001b[39m (data__6a1483ac_45ac_11ef_08b3_3dc91e724bea = Main.unpack_identity(data__6a1483ac_45ac_11ef_3b40_c9eea50fb224))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6cea_45ac_11ef_1908_b16005c86660 = Main.unpack_identity(data__6a1a6cea_45ac_11ef_0e23_c3fe28e4ea97))\n", + "\u001b[90m│ \u001b[39m %2400 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2401 = (%2400)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2402 = data__68cdc80a_45ac_11ef_2b8b_e7227413f88d\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2403 = data__69f9eb64_45ac_11ef_1635_93a182d66e50\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2404 = data__6a14626c_45ac_11ef_19c5_598f31acaefb\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2405 = data__6a1483ac_45ac_11ef_08b3_3dc91e724bea\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2406 = data__6a14cc40_45ac_11ef_1cf1_916746254f65\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2407 = data__6a150caa_45ac_11ef_26c6_5da9deebc146\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2408 = data__6a152ffa_45ac_11ef_3cb2_45ff740f38a7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6a6c_45ac_11ef_3f35_039fc151f61f = Main.compute(%2401, %2402, %2403, %2404, %2405, %2406, %2407, %2408, data__6a15558e_45ac_11ef_2cb7_012f32809cb4))\n", + "\u001b[90m│ \u001b[39m (data__69e20e86_45ac_11ef_14fb_b3f78ea86525 = Main.unpack_identity(data__69e20e72_45ac_11ef_130e_fd688674a836))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6a6c_45ac_11ef_1543_1103f2c18b20 = Main.unpack_identity(data__6a1a6a6c_45ac_11ef_3f35_039fc151f61f))\n", + "\u001b[90m│ \u001b[39m %2412 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2413 = (%2412)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2414 = data__68066972_45ac_11ef_3d4a_219f1bb063a5\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2415 = data__69e20e86_45ac_11ef_14fb_b3f78ea86525\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2416 = data__6a146ab6_45ac_11ef_079d_251f966531da\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2417 = data__6a148c62_45ac_11ef_3f99_436b823483bb\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2418 = data__6a14bbf6_45ac_11ef_3f45_e3c9bf3516a4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2419 = data__6a14fa8a_45ac_11ef_0b70_15a415a22263\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2420 = data__6a153b3a_45ac_11ef_060e_05dc6df58827\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6c86_45ac_11ef_159c_a97bc84a60d3 = Main.compute(%2413, %2414, %2415, %2416, %2417, %2418, %2419, %2420, data__6a155e44_45ac_11ef_2b95_493e2e8e4a0d))\n", + "\u001b[90m│ \u001b[39m (data__6a14a198_45ac_11ef_09e4_e7ad93af0f26 = Main.unpack_identity(data__6a14a198_45ac_11ef_3cf2_cf14c45f1438))\n", + "\u001b[90m│ \u001b[39m (data__69dfd09e_45ac_11ef_0a28_d772c23e8b9a = Main.unpack_identity(data__69dfd094_45ac_11ef_3da2_2934eac97556))\n", + "\u001b[90m│ \u001b[39m %2424 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2425 = (%2424)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2426 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2427 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a148f64_45ac_11ef_1e1e_5d1f1fab75f4 = Main.compute(%2425, %2426, %2427, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6c86_45ac_11ef_1714_bdd7eb5b9def = Main.unpack_identity(data__6a1a6c86_45ac_11ef_159c_a97bc84a60d3))\n", + "\u001b[90m│ \u001b[39m (data__6a148f64_45ac_11ef_2dd8_3b617013bba8 = Main.unpack_identity(data__6a148f64_45ac_11ef_1e1e_5d1f1fab75f4))\n", + "\u001b[90m│ \u001b[39m %2431 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2432 = (%2431)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2433 = data__665ef99a_45ac_11ef_1622_1f5b1e12d3f0\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2434 = data__67669e54_45ac_11ef_2994_dd0a6019847d\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a0a549a_45ac_11ef_3370_9d20500f16a5 = Main.compute(%2432, %2433, %2434, data__64cc5bb8_45ac_11ef_18a6_f39c2fd7c1c6))\n", + "\u001b[90m│ \u001b[39m %2436 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2437 = (%2436)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2438 = data__68816b2e_45ac_11ef_006f_cb2d85278f1a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2439 = data__6a0c606e_45ac_11ef_1c7e_8db11711379b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2440 = data__6a145b20_45ac_11ef_2fdf_811408443d77\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2441 = data__6a149110_45ac_11ef_01ba_c36ce1bfe12a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2442 = data__6a14c1c8_45ac_11ef_1425_91318be89d13\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2443 = data__6a1501ba_45ac_11ef_26b5_5db624369af0\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2444 = data__6a152500_45ac_11ef_1f72_f9ef0880077a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6800_45ac_11ef_14e5_91468dc87f2f = Main.compute(%2437, %2438, %2439, %2440, %2441, %2442, %2443, %2444, data__6a154b98_45ac_11ef_1e31_fd53944b9035))\n", + "\u001b[90m│ \u001b[39m (data__6a0a54ae_45ac_11ef_15b5_97ba3de02db9 = Main.unpack_identity(data__6a0a549a_45ac_11ef_3370_9d20500f16a5))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6800_45ac_11ef_01bf_31c0de4fabe4 = Main.unpack_identity(data__6a1a6800_45ac_11ef_14e5_91468dc87f2f))\n", + "\u001b[90m│ \u001b[39m %2448 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2449 = (%2448)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2450 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2451 = data__67669e38_45ac_11ef_3346_4b4918074f9f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14822e_45ac_11ef_27fb_ad913973bca6 = Main.compute(%2449, %2450, %2451, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2453 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2454 = (%2453)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2455 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2456 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a146750_45ac_11ef_09a8_0fa77637e568 = Main.compute(%2454, %2455, %2456, data__67669442_45ac_11ef_08d8_4bad8d8bb6fd))\n", + "\u001b[90m│ \u001b[39m (data__6a14823a_45ac_11ef_06f9_858dfb542687 = Main.unpack_identity(data__6a14822e_45ac_11ef_27fb_ad913973bca6))\n", + "\u001b[90m│ \u001b[39m (data__6a146750_45ac_11ef_0f57_2371649c15b4 = Main.unpack_identity(data__6a146750_45ac_11ef_09a8_0fa77637e568))\n", + "\u001b[90m│ \u001b[39m %2460 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2461 = (%2460)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2462 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2463 = data__67669e7e_45ac_11ef_2a1a_b34f5d76e32f\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14a81e_45ac_11ef_385e_7390c30b16fe = Main.compute(%2461, %2462, %2463, data__64cc5c06_45ac_11ef_055c_fb1bde872e51))\n", + "\u001b[90m│ \u001b[39m %2465 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2466 = (%2465)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2467 = data__6936c940_45ac_11ef_3696_3da57e04b0a4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2468 = data__6a0a54ae_45ac_11ef_15b5_97ba3de02db9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2469 = data__6a14797a_45ac_11ef_1e4e_23bca5d49951\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2470 = data__6a14a69a_45ac_11ef_04c2_d78b9dbf998b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2471 = data__6a14cf4c_45ac_11ef_0ddd_953f66008565\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2472 = data__6a150f82_45ac_11ef_0629_dfcfc7f9dbdf\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2473 = data__6a15458a_45ac_11ef_0ff3_e33a14dfcb2c\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a67c2_45ac_11ef_1a4f_3d00e4220aee = Main.compute(%2466, %2467, %2468, %2469, %2470, %2471, %2472, %2473, data__6a15751e_45ac_11ef_3391_13d01332b17b))\n", + "\u001b[90m│ \u001b[39m %2475 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2476 = (%2475)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2477 = data__676cefa4_45ac_11ef_258c_631396a0a815\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2478 = data__69ca7636_45ac_11ef_340e_1b595e55cca0\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2479 = data__6a146016_45ac_11ef_3666_79ca5718e52a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2480 = data__6a14823a_45ac_11ef_06f9_858dfb542687\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2481 = data__6a14b480_45ac_11ef_2b06_cd19258d10ba\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2482 = data__6a14f382_45ac_11ef_0144_ab5ddc82d1df\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2483 = data__6a152db6_45ac_11ef_0773_7b2a43a979be\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a68e4_45ac_11ef_07b5_37645d2c9da0 = Main.compute(%2476, %2477, %2478, %2479, %2480, %2481, %2482, %2483, data__6a15543a_45ac_11ef_3f79_6941f94ea099))\n", + "\u001b[90m│ \u001b[39m (data__6a14a828_45ac_11ef_1a41_e7ebef05b497 = Main.unpack_identity(data__6a14a81e_45ac_11ef_385e_7390c30b16fe))\n", + "\u001b[90m│ \u001b[39m (data__6a1a67c2_45ac_11ef_2955_4fb449c553e3 = Main.unpack_identity(data__6a1a67c2_45ac_11ef_1a4f_3d00e4220aee))\n", + "\u001b[90m│ \u001b[39m (data__6a1a68e4_45ac_11ef_1864_0183169cf1fe = Main.unpack_identity(data__6a1a68e4_45ac_11ef_07b5_37645d2c9da0))\n", + "\u001b[90m│ \u001b[39m %2488 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2489 = (%2488)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2490 = data__698bc0e4_45ac_11ef_09c2_7fcf55a61cf1\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2491 = data__69ea6e78_45ac_11ef_0c88_21394a93d50b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2492 = data__6a144bbc_45ac_11ef_2a66_0904e5a76082\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2493 = data__6a14a828_45ac_11ef_1a41_e7ebef05b497\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2494 = data__6a14d848_45ac_11ef_2bbc_1fcbd2695e3f\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2495 = data__6a14e4a0_45ac_11ef_317a_e507fefa7c63\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2496 = data__6a151aa6_45ac_11ef_1be1_4fe2e8d2ec3f\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6c18_45ac_11ef_3dae_8f89b57f29a5 = Main.compute(%2489, %2490, %2491, %2492, %2493, %2494, %2495, %2496, data__6a156452_45ac_11ef_2747_43a67c18db0d))\n", + "\u001b[90m│ \u001b[39m %2498 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2499 = (%2498)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2500 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2501 = data__64c88268_45ac_11ef_1309_5367e4625e58\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a146dd6_45ac_11ef_20b3_874327b63161 = Main.compute(%2499, %2500, %2501, data__67669474_45ac_11ef_2325_e1792fb4a48a))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6c18_45ac_11ef_0123_f926446ab16a = Main.unpack_identity(data__6a1a6c18_45ac_11ef_3dae_8f89b57f29a5))\n", + "\u001b[90m│ \u001b[39m (data__6a146dde_45ac_11ef_20a1_2bc66784d229 = Main.unpack_identity(data__6a146dd6_45ac_11ef_20b3_874327b63161))\n", + "\u001b[90m│ \u001b[39m %2505 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2506 = (%2505)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2507 = data__67f6ac9e_45ac_11ef_1f5e_9997491a748f\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2508 = data__69dfd09e_45ac_11ef_0a28_d772c23e8b9a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2509 = data__6a1474b4_45ac_11ef_1d07_a5e0043cc761\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2510 = data__6a14a198_45ac_11ef_09e4_e7ad93af0f26\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2511 = data__6a14af94_45ac_11ef_127b_bbb388941bfd\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2512 = data__6a14f076_45ac_11ef_13ad_91af568f7bf0\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2513 = data__6a15412a_45ac_11ef_306d_b5a0ddda920b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6a2e_45ac_11ef_102e_331bb86a551d = Main.compute(%2506, %2507, %2508, %2509, %2510, %2511, %2512, %2513, data__6a157082_45ac_11ef_1c57_25c31b5846e9))\n", + "\u001b[90m│ \u001b[39m %2515 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2516 = (%2515)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2517 = data__67991a5c_45ac_11ef_344d_0b1a22cd62bc\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2518 = data__69d079e6_45ac_11ef_1c94_11a75cb2b6ec\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2519 = data__6a146dde_45ac_11ef_20a1_2bc66784d229\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2520 = data__6a149bb2_45ac_11ef_17ba_e3a9d4600bd7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2521 = data__6a14b26c_45ac_11ef_3af8_0377210833fd\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2522 = data__6a14f1f2_45ac_11ef_1e10_850fff284700\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2523 = data__6a153cbe_45ac_11ef_0d5d_435c9efba88b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6952_45ac_11ef_2764_5f23bd0ff227 = Main.compute(%2516, %2517, %2518, %2519, %2520, %2521, %2522, %2523, data__6a156c38_45ac_11ef_09c8_c3b69cb00835))\n", + "\u001b[90m│ \u001b[39m %2525 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2526 = (%2525)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2527 = data__67e54bf2_45ac_11ef_3d4b_af97235d2123\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2528 = data__69dc12ec_45ac_11ef_081b_25f6ac8b44e8\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2529 = data__6a146750_45ac_11ef_0f57_2371649c15b4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2530 = data__6a148936_45ac_11ef_0b20_f5ed7e800467\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2531 = data__6a14b606_45ac_11ef_0795_e1c7477da49a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2532 = data__6a14f4d6_45ac_11ef_10f5_7b1a2982f95a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2533 = data__6a153568_45ac_11ef_04a7_c55ad8d25421\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6acc_45ac_11ef_38b1_e78761fe3035 = Main.compute(%2526, %2527, %2528, %2529, %2530, %2531, %2532, %2533, data__6a15589a_45ac_11ef_1f1c_7bbc958ec346))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6a2e_45ac_11ef_2017_e771ff506dd1 = Main.unpack_identity(data__6a1a6a2e_45ac_11ef_102e_331bb86a551d))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6952_45ac_11ef_294e_893600b537b7 = Main.unpack_identity(data__6a1a6952_45ac_11ef_2764_5f23bd0ff227))\n", + "\u001b[90m│ \u001b[39m %2537 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2538 = (%2537)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2539 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2540 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a147ba0_45ac_11ef_3a61_ab8d2639362a = Main.compute(%2538, %2539, %2540, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m %2542 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2543 = (%2542)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2544 = data__665f0450_45ac_11ef_3c3b_7fa559dcbb8e\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2545 = data__64c9eebe_45ac_11ef_278e_dbea70dfc20c\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a14595e_45ac_11ef_2f9e_2f7cc76d29ac = Main.compute(%2543, %2544, %2545, data__676693ca_45ac_11ef_3786_ed0e68bc4390))\n", + "\u001b[90m│ \u001b[39m (data__6a147baa_45ac_11ef_1269_d10a0d0f38d2 = Main.unpack_identity(data__6a147ba0_45ac_11ef_3a61_ab8d2639362a))\n", + "\u001b[90m│ \u001b[39m (data__6a14595e_45ac_11ef_172f_3d3ce20407eb = Main.unpack_identity(data__6a14595e_45ac_11ef_2f9e_2f7cc76d29ac))\n", + "\u001b[90m│ \u001b[39m %2549 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2550 = (%2549)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2551 = data__69460702_45ac_11ef_16aa_cb840e21fba2\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2552 = data__69b65412_45ac_11ef_17c2_a30289332dcb\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2553 = data__6a1452b0_45ac_11ef_34bd_2b18bd436049\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2554 = data__6a147baa_45ac_11ef_1269_d10a0d0f38d2\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2555 = data__6a14db4a_45ac_11ef_3774_e567d0313f57\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2556 = data__6a14e7de_45ac_11ef_0702_2df0c18ee607\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2557 = data__6a1521fe_45ac_11ef_2ed2_5fadad119fe9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a69f2_45ac_11ef_2d60_3508ecfbab6a = Main.compute(%2550, %2551, %2552, %2553, %2554, %2555, %2556, %2557, data__6a15488c_45ac_11ef_32de_3d5064d9ac68))\n", + "\u001b[90m│ \u001b[39m %2559 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2560 = (%2559)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2561 = data__697edb2a_45ac_11ef_0fcd_9353089e2b6d\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2562 = data__69e6c444_45ac_11ef_1885_8b2e1e1accfc\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2563 = data__6a14595e_45ac_11ef_172f_3d3ce20407eb\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2564 = data__6a148f64_45ac_11ef_2dd8_3b617013bba8\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2565 = data__6a14dcb2_45ac_11ef_0dd8_571a6aa03748\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2566 = data__6a14e93c_45ac_11ef_3209_f1beed0544f6\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2567 = data__6a152654_45ac_11ef_1410_5bbce5e0c783\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6916_45ac_11ef_072f_9f02922a0e24 = Main.compute(%2560, %2561, %2562, %2563, %2564, %2565, %2566, %2567, data__6a154cf6_45ac_11ef_03b7_1d4f090c49ac))\n", + "\u001b[90m│ \u001b[39m (data__6a1a69f2_45ac_11ef_1f5b_27a93a6b1f56 = Main.unpack_identity(data__6a1a69f2_45ac_11ef_2d60_3508ecfbab6a))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6920_45ac_11ef_1516_7ffcea036c6e = Main.unpack_identity(data__6a1a6916_45ac_11ef_072f_9f02922a0e24))\n", + "\u001b[90m│ \u001b[39m (data__6a1a6acc_45ac_11ef_19b1_91034d08108c = Main.unpack_identity(data__6a1a6acc_45ac_11ef_38b1_e78761fe3035))\n", + "\u001b[90m│ \u001b[39m %2572 = FeynmanDiagramGenerator.ComputeTask_Triple\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2573 = (%2572)()\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_Triple())\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2574 = data__665f04d0_45ac_11ef_00f0_1fa013e24212\u001b[36m::FeynmanDiagramGenerator.Propagated{Photon, SLorentzVector{ComplexF64}}\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2575 = data__67669df4_45ac_11ef_0c5b_2757863208a9\u001b[36m::FeynmanDiagramGenerator.Propagated{Electron, BiSpinor}\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a147d64_45ac_11ef_1da2_f72242e8ef6d = Main.compute(%2573, %2574, %2575, data__64cc5bea_45ac_11ef_39d9_a5984eef1140))\n", + "\u001b[90m│ \u001b[39m (data__6a147d64_45ac_11ef_1092_557a2980c8c1 = Main.unpack_identity(data__6a147d64_45ac_11ef_1da2_f72242e8ef6d))\n", + "\u001b[90m│ \u001b[39m %2578 = FeynmanDiagramGenerator.ComputeTask_CollectTriples\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2579 = (%2578)(8)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_CollectTriples(8))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2580 = data__6825a9ea_45ac_11ef_27af_594574e6dd66\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2581 = data__69f0b078_45ac_11ef_313f_394882f41b3f\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2582 = data__6a145468_45ac_11ef_0384_e580164171cd\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2583 = data__6a147d64_45ac_11ef_1092_557a2980c8c1\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2584 = data__6a14c060_45ac_11ef_0c4a_8f3164df1ae3\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2585 = data__6a14fef4_45ac_11ef_218d_f33143bf5b13\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2586 = data__6a152372_45ac_11ef_25b9_a10ea8f605cc\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a683a_45ac_11ef_0497_812d95a84e91 = Main.compute(%2579, %2580, %2581, %2582, %2583, %2584, %2585, %2586, data__6a154a12_45ac_11ef_2f92_d3aa8ae4b69f))\n", + "\u001b[90m│ \u001b[39m (data__6a1a683a_45ac_11ef_086f_13a820978de5 = Main.unpack_identity(data__6a1a683a_45ac_11ef_0497_812d95a84e91))\n", + "\u001b[90m│ \u001b[39m %2589 = FeynmanDiagramGenerator.ComputeTask_SpinPolCumulation\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_SpinPolCumulation)\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2590 = (%2589)(32)\u001b[36m::Core.Const(FeynmanDiagramGenerator.ComputeTask_SpinPolCumulation(32))\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2591 = data__6a16439a_45ac_11ef_3ce1_25f17487d9a6\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2592 = data__6a1a6682_45ac_11ef_1053_c16b17000778\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2593 = data__6a1a66dc_45ac_11ef_240b_811bf3b912c9\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2594 = data__6a1a6718_45ac_11ef_044f_9ffb6430f3d5\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2595 = data__6a1a6754_45ac_11ef_0894_230b6cfee705\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2596 = data__6a1a6786_45ac_11ef_0d11_3fd114e3fd2b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2597 = data__6a1a67c2_45ac_11ef_2955_4fb449c553e3\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2598 = data__6a1a6800_45ac_11ef_01bf_31c0de4fabe4\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2599 = data__6a1a683a_45ac_11ef_086f_13a820978de5\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2600 = data__6a1a6876_45ac_11ef_2bc6_cd672f3bcbcf\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2601 = data__6a1a68a8_45ac_11ef_1384_2d7050946e99\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2602 = data__6a1a68e4_45ac_11ef_1864_0183169cf1fe\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2603 = data__6a1a6920_45ac_11ef_1516_7ffcea036c6e\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2604 = data__6a1a6952_45ac_11ef_294e_893600b537b7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2605 = data__6a1a698e_45ac_11ef_0699_01e7a0d69915\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2606 = data__6a1a69c0_45ac_11ef_1688_451f360ba773\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2607 = data__6a1a69f2_45ac_11ef_1f5b_27a93a6b1f56\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2608 = data__6a1a6a2e_45ac_11ef_2017_e771ff506dd1\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2609 = data__6a1a6a6c_45ac_11ef_1543_1103f2c18b20\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2610 = data__6a1a6a9e_45ac_11ef_08d2_55ca789a4868\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2611 = data__6a1a6acc_45ac_11ef_19b1_91034d08108c\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2612 = data__6a1a6b0a_45ac_11ef_1606_19ab9b248b2b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2613 = data__6a1a6b46_45ac_11ef_1aea_e79b5789a46b\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2614 = data__6a1a6b78_45ac_11ef_03fc_9d09f92db20f\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2615 = data__6a1a6baa_45ac_11ef_2876_edc79d8af68d\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2616 = data__6a1a6be6_45ac_11ef_0e35_5977f8944a11\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2617 = data__6a1a6c18_45ac_11ef_0123_f926446ab16a\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2618 = data__6a1a6c4a_45ac_11ef_296b_e3ced11f68c7\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2619 = data__6a1a6c86_45ac_11ef_1714_bdd7eb5b9def\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2620 = data__6a1a6cb8_45ac_11ef_2db2_c90b4237a8f3\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m %2621 = data__6a1a6cea_45ac_11ef_1908_b16005c86660\u001b[36m::ComplexF64\u001b[39m\n", + "\u001b[90m│ \u001b[39m (data__6a1a6d62_45ac_11ef_0c83_73c486adc828 = Main.compute(%2590, %2591, %2592, %2593, %2594, %2595, %2596, %2597, %2598, %2599, %2600, %2601, %2602, %2603, %2604, %2605, %2606, %2607, %2608, %2609, %2610, %2611, %2612, %2613, %2614, %2615, %2616, %2617, %2618, %2619, %2620, %2621, data__6a1a6d1c_45ac_11ef_0aca_0565e7241647))\n", + "\u001b[90m│ \u001b[39m (data__6a1cc4cc_45ac_11ef_0b16_ad2b169d56f9 = Main.unpack_identity(data__6a1a6d62_45ac_11ef_0c83_73c486adc828))\n", + "\u001b[90m└──\u001b[39m return data__6a1cc4cc_45ac_11ef_0b16_ad2b169d56f9\n", + "\n" + ] + } + ], + "source": [ + "proc = QEDProcess(1, 0, 1, 2, 0, 1) # trident: ke -> eep, with all spin/pol combinations\n", + "graph = generate_DAG(proc)\n", + "func = eval(get_compute_function(graph, proc, machine))\n", + "psp = PhaseSpacePoint(\n", + " proc,\n", + " PerturbativeQED(),\n", + " PhasespaceDefinition(SphericalCoordinateSystem(), ElectronRestFrame()),\n", + " tuple((rand(SFourMomentum) for _ in 1:number_incoming_particles(proc))...),\n", + " tuple((rand(SFourMomentum) for _ in 1:number_outgoing_particles(proc))...)\n", + ")\n", + "func(psp)\n", + "@code_warntype func(psp)" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Julia 1.10.4", + "language": "julia", + "name": "julia-1.10" + }, + "language_info": { + "file_extension": ".jl", + "mimetype": "application/julia", + "name": "julia", + "version": "1.10.4" + } + }, + "nbformat": 4, + "nbformat_minor": 2 +} diff --git a/src/generic_process_def.jl b/src/generic_process_def.jl index a7e1e61..c87435d 100644 --- a/src/generic_process_def.jl +++ b/src/generic_process_def.jl @@ -59,6 +59,28 @@ mutable struct QEDProcess{INT,OUTT,INSP,OUTSP} <: AbstractProcessDefinition wher end end +function QEDProcessSingleSpinPol( + in_ph::Int, out_ph::Int, in_el::Int, out_el::Int, in_po::Int, out_po::Int +) + in_p = ntuple(i -> if i <= in_ph + Photon() + elseif i <= in_ph + in_el + Electron() + else + Positron() + end, in_ph + in_el + in_po) + out_p = ntuple(i -> if i <= out_ph + Photon() + elseif i <= out_ph + out_el + Electron() + else + Positron() + end, out_ph + out_el + out_po) + in_sp = tuple([i <= in_ph ? PolX() : SpinUp() for i in 1:length(in_p)]...) + out_sp = tuple([i <= out_ph ? PolX() : SpinUp() for i in 1:length(out_p)]...) + return QEDProcess(in_p, out_p, in_sp, out_sp) +end + function spin_or_pol( process::QEDProcess, dir::ParticleDirection, species::AbstractParticleType, n::Int ) diff --git a/src/metagraph_impl/compute.jl b/src/metagraph_impl/compute.jl index e31128e..b4f4fa5 100644 --- a/src/metagraph_impl/compute.jl +++ b/src/metagraph_impl/compute.jl @@ -42,8 +42,9 @@ struct BaseStateInput{PS_T<:AbstractParticleStateful,SPIN_POL_T<:AbstractSpinOrP spin_pol::SPIN_POL_T end -@inline function compute( - ::ComputeTask_BaseState, input::BaseStateInput{PS,SPIN_POL} +function compute( #=@inline=# + ::ComputeTask_BaseState, + input::BaseStateInput{PS,SPIN_POL}, ) where {PS,SPIN_POL} species = particle_species(input.particle) if is_outgoing(input.particle) @@ -66,8 +67,9 @@ struct PropagatorInput{VP_T<:VirtualParticle,PSP_T<:AbstractPhaseSpacePoint} psp::Ref{PSP_T} end -@inline function compute( - ::ComputeTask_Propagator, input::PropagatorInput{VP_T,PSP_T} +function compute( #=@inline=# + ::ComputeTask_Propagator, + input::PropagatorInput{VP_T,PSP_T}, ) where {VP_T,PSP_T} vp_mom = zero(typeof(momentum(input.psp[], Incoming(), 1))) for i in eachindex(in_contributions(input.vp)) @@ -102,39 +104,51 @@ struct Propagated{PARTICLE_T<:AbstractParticleType,VALUE_T} end # maybe add the γ matrix term here too? -@inline function compute( - ::ComputeTask_Pair, electron::Propagated{Electron,V1}, positron::Propagated{Positron,V2} +function compute( #=@inline=# + ::ComputeTask_Pair, + electron::Propagated{Electron,V1}, + positron::Propagated{Positron,V2}, ) where {V1,V2} return Unpropagated(Photon(), positron.value * _vertex() * electron.value) # fermion - antifermion -> photon end -@inline function compute( - ::ComputeTask_Pair, positron::Propagated{Positron,V1}, electron::Propagated{Electron,V2} +function compute( #=@inline=# + ::ComputeTask_Pair, + positron::Propagated{Positron,V1}, + electron::Propagated{Electron,V2}, ) where {V1,V2} return Unpropagated(Photon(), positron.value * _vertex() * electron.value) # antifermion - fermion -> photon end -@inline function compute( - ::ComputeTask_Pair, photon::Propagated{Photon,V1}, fermion::Propagated{F,V2} +function compute( #=@inline=# + ::ComputeTask_Pair, + photon::Propagated{Photon,V1}, + fermion::Propagated{F,V2}, ) where {F<:FermionLike,V1,V2} return Unpropagated(fermion.particle, photon.value * _vertex() * fermion.value) # (anti-)fermion - photon -> (anti-)fermion end -@inline function compute( - ::ComputeTask_Pair, fermion::Propagated{F,V2}, photon::Propagated{Photon,V1} +function compute( #=@inline=# + ::ComputeTask_Pair, + fermion::Propagated{F,V2}, + photon::Propagated{Photon,V1}, ) where {F<:FermionLike,V1,V2} return Unpropagated(fermion.particle, photon.value * _vertex() * fermion.value) # photon - (anti-)fermion -> (anti-)fermion end -@inline function compute( - ::ComputeTask_PropagatePairs, left::PROP_V, right::Unpropagated{P,VAL} +function compute( #=@inline=# + ::ComputeTask_PropagatePairs, + left::PROP_V, + right::Unpropagated{P,VAL}, ) where {PROP_V,P<:AbstractParticleType,VAL} return Propagated(right.particle, left * right.value) end -@inline function compute( - ::ComputeTask_PropagatePairs, left::Unpropagated{P,VAL}, right::PROP_V +function compute( #=@inline=# + ::ComputeTask_PropagatePairs, + left::Unpropagated{P,VAL}, + right::PROP_V, ) where {PROP_V,P<:AbstractParticleType,VAL} return Propagated(left.particle, right * left.value) end -@inline function compute( +function compute( #=@inline=# ::ComputeTask_Triple, photon::Propagated{Photon,V1}, electron::Propagated{Electron,V2}, @@ -142,7 +156,7 @@ end ) where {V1,V2,V3} return positron.value * _vertex() * photon.value * electron.value end -@inline function compute( +function compute( #=@inline=# c::ComputeTask_Triple, photon::Propagated{Photon,V1}, positron::Propagated{Positron,V2}, @@ -150,7 +164,7 @@ end ) where {V1,V2,V3} return compute(c, photon, electron, positron) end -@inline function compute( +function compute( #=@inline=# c::ComputeTask_Triple, f1::Propagated{F1,V1}, f2::Propagated{F2,V2}, @@ -158,7 +172,7 @@ end ) where {V1,V2,V3,F1<:FermionLike,F2<:FermionLike} return compute(c, photon, f1, f2) end -@inline function compute( +function compute( #=@inline=# c::ComputeTask_Triple, f1::Propagated{F1,V1}, photon::Propagated{Photon,V2}, @@ -169,9 +183,9 @@ end # this compiles in a reasonable amount of time for up to about 1e4 parameters # use a summation algorithm with more accuracy and/or parallelization -@inline compute(::ComputeTask_CollectPairs, args::Vararg{N,T}) where {N,T} = sum(args) -@inline compute(::ComputeTask_CollectTriples, args::Vararg{N,T}) where {N,T} = sum(args) -@inline function compute(::ComputeTask_SpinPolCumulation, args::Vararg{N,T}) where {N,T} +compute(::ComputeTask_CollectPairs, args::Vararg{N,T}) where {N,T} = sum(args) #=@inline=# +compute(::ComputeTask_CollectTriples, args::Vararg{N,T}) where {N,T} = sum(args) #=@inline=# +function compute(::ComputeTask_SpinPolCumulation, args::Vararg{N,T}) where {N,T} #=@inline=# sum = 0.0 for arg in args sum += abs2(arg) diff --git a/src/metagraph_impl/generation.jl b/src/metagraph_impl/generation.jl index a25b996..7d698ea 100644 --- a/src/metagraph_impl/generation.jl +++ b/src/metagraph_impl/generation.jl @@ -216,7 +216,7 @@ function _base_state_name(p::VirtualParticle) ) end -# from two or three node names like "1_su-2-px"... return a single tuple of the indices and spin/pols in sorted +# from two or three node names like "1_su-2_px"... return a single tuple of the indices and spin/pols in sorted function _parse_node_names(name1::String, name2::String) split_strings_1 = split.(split(name1, "-"), "_") split_strings_2 = split.(split(name2, "-"), "_") @@ -259,9 +259,8 @@ function _parse_node_names(name1::String, name2::String, name3::String) ) end -function _make_node_name( - spin_pols::NTuple{N,Tuple{Int,AbstractSpinOrPolarization}} -) where {N} +function _make_node_name(spin_pols::Vector) + # spin_pols is a vector of tuples Tuple{Int, AbstractSpinOrPolarization} node_name = "" first = true for spin_pol_tuple in spin_pols @@ -318,8 +317,20 @@ function generate_DAG(proc::QEDProcess) invalidate_cache=false, ) - insert_edge!(graph, data_in, compute_base_state) - insert_edge!(graph, compute_base_state, data_out) + insert_edge!( + graph, + data_in, + compute_base_state; + track=false, + invalidate_cache=false, + ) + insert_edge!( + graph, + compute_base_state, + data_out; + track=false, + invalidate_cache=false, + ) base_state_task_outputs[data_node_name] = data_out end @@ -348,8 +359,12 @@ function generate_DAG(proc::QEDProcess) graph, make_node(DataTask(0)); track=false, invalidate_cache=false ) - insert_edge!(graph, data_in, compute_vp_propagator) - insert_edge!(graph, compute_vp_propagator, data_out) + insert_edge!( + graph, data_in, compute_vp_propagator; track=false, invalidate_cache=false + ) + insert_edge!( + graph, compute_vp_propagator, data_out; track=false, invalidate_cache=false + ) propagator_task_outputs[vp] = data_out end @@ -394,9 +409,15 @@ function generate_DAG(proc::QEDProcess) graph, make_node(DataTask(0)); track=false, invalidate_cache=false ) - insert_edge!(graph, in_nodes[1], compute_pair) - insert_edge!(graph, in_nodes[2], compute_pair) - insert_edge!(graph, compute_pair, pair_data_out) + insert_edge!( + graph, in_nodes[1], compute_pair; track=false, invalidate_cache=false + ) + insert_edge!( + graph, in_nodes[2], compute_pair; track=false, invalidate_cache=false + ) + insert_edge!( + graph, compute_pair, pair_data_out; track=false, invalidate_cache=false + ) # get the spin/pol config of the input particles from the data_out names index = _parse_node_names(in_nodes[1].name, in_nodes[2].name) @@ -429,21 +450,47 @@ function generate_DAG(proc::QEDProcess) # give this out node the correct name data_out_propagated = insert_node!( graph, - make_node(DataTask(0), _make_node_name(index)); + make_node(DataTask(0), _make_node_name([index...])); track=false, invalidate_cache=false, ) for node in nodes_to_sum - insert_edge!(graph, node, compute_pairs_sum) + insert_edge!( + graph, node, compute_pairs_sum; track=false, invalidate_cache=false + ) end - insert_edge!(graph, compute_pairs_sum, data_pairs_sum) + insert_edge!( + graph, + compute_pairs_sum, + data_pairs_sum; + track=false, + invalidate_cache=false, + ) - insert_edge!(graph, propagator_node, compute_propagated) - insert_edge!(graph, data_pairs_sum, compute_propagated) + insert_edge!( + graph, + propagator_node, + compute_propagated; + track=false, + invalidate_cache=false, + ) + insert_edge!( + graph, + data_pairs_sum, + compute_propagated; + track=false, + invalidate_cache=false, + ) - insert_edge!(graph, compute_propagated, data_out_propagated) + insert_edge!( + graph, + compute_propagated, + data_out_propagated; + track=false, + invalidate_cache=false, + ) push!(pair_task_outputs[product_particle], data_out_propagated) end @@ -475,11 +522,13 @@ function generate_DAG(proc::QEDProcess) graph, make_node(DataTask(0)); track=false, invalidate_cache=false ) - insert_edge!(graph, a, compute_triples) - insert_edge!(graph, b, compute_triples) - insert_edge!(graph, c, compute_triples) + insert_edge!(graph, a, compute_triples; track=false, invalidate_cache=false) + insert_edge!(graph, b, compute_triples; track=false, invalidate_cache=false) + insert_edge!(graph, c, compute_triples; track=false, invalidate_cache=false) - insert_edge!(graph, compute_triples, data_triples) + insert_edge!( + graph, compute_triples, data_triples; track=false, invalidate_cache=false + ) index = _parse_node_names(a.name, b.name, c.name) if !haskey(triples_results, index) @@ -503,9 +552,17 @@ function generate_DAG(proc::QEDProcess) ) for triple in results - insert_edge!(graph, triple, compute_collect_triples) + insert_edge!( + graph, triple, compute_collect_triples; track=false, invalidate_cache=false + ) end - insert_edge!(graph, compute_collect_triples, data_collect_triples) + insert_edge!( + graph, + compute_collect_triples, + data_collect_triples; + track=false, + invalidate_cache=false, + ) push!(collected_triples, data_collect_triples) end @@ -518,12 +575,20 @@ function generate_DAG(proc::QEDProcess) invalidate_cache=false, ) for finished_triple in collected_triples - insert_edge!(graph, finished_triple, compute_total_result) + insert_edge!( + graph, + finished_triple, + compute_total_result; + track=false, + invalidate_cache=false, + ) end final_data_out = insert_node!( graph, make_node(DataTask(0)); track=false, invalidate_cache=false ) - insert_edge!(graph, compute_total_result, final_data_out) + insert_edge!( + graph, compute_total_result, final_data_out; track=false, invalidate_cache=false + ) return graph end