Improve particle_pair generation
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@ -20,7 +20,7 @@
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},
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{
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"cell_type": "code",
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"execution_count": 7,
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"execution_count": 6,
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"metadata": {},
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"outputs": [
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{
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@ -65,50 +65,72 @@
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},
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{
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"cell_type": "code",
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"execution_count": 8,
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"execution_count": 7,
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"metadata": {},
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"outputs": [],
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"outputs": [
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{
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"data": {
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"text/plain": [
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"Dict{VirtualParticle, Vector{Tuple{VirtualParticle, VirtualParticle}}} with 254 entries:\n",
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" positron: \t01000010 | 11 => [(photon: \t00000000 | 10, positron: \t01000010 | 01),…\n",
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" positron: \t11010000 | 11 => [(photon: \t00000000 | 10, positron: \t11010000 | 01),…\n",
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" electron: \t10100011 | 00 => [(photon: \t00000010 | 00, electron: \t10100001 | 00),…\n",
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" positron: \t11000000 | 11 => [(photon: \t00000000 | 10, positron: \t11000000 | 01),…\n",
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" positron: \t00010100 | 01 => [(photon: \t00000100 | 00, positron: \t00010000 | 01),…\n",
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" positron: \t01001000 | 11 => [(photon: \t00000000 | 10, positron: \t01001000 | 01),…\n",
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" positron: \t11000110 | 01 => [(photon: \t00000010 | 00, positron: \t11000100 | 01),…\n",
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" electron: \t10001011 | 10 => [(photon: \t00000000 | 10, electron: \t10001011 | 00),…\n",
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" positron: \t00100000 | 11 => [(photon: \t00000000 | 10, positron: \t00100000 | 01),…\n",
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" positron: \t01010000 | 11 => [(photon: \t00000000 | 10, positron: \t01010000 | 01),…\n",
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" electron: \t11101001 | 00 => [(photon: \t00001000 | 00, electron: \t11100001 | 00),…\n",
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" electron: \t00100101 | 10 => [(photon: \t00000000 | 10, electron: \t00100101 | 00),…\n",
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" electron: \t11000101 | 00 => [(photon: \t00000100 | 00, electron: \t11000001 | 00),…\n",
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" electron: \t01101001 | 00 => [(photon: \t00001000 | 00, electron: \t01100001 | 00),…\n",
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" positron: \t00101000 | 01 => [(photon: \t00001000 | 00, positron: \t00100000 | 01),…\n",
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" positron: \t00011000 | 11 => [(photon: \t00000000 | 10, positron: \t00011000 | 01),…\n",
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" positron: \t00011010 | 01 => [(photon: \t00000010 | 00, positron: \t00011000 | 01),…\n",
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" electron: \t10000101 | 10 => [(photon: \t00000000 | 10, electron: \t10000101 | 00),…\n",
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" electron: \t10000111 | 00 => [(photon: \t00000010 | 00, electron: \t10000101 | 00),…\n",
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" ⋮ => ⋮"
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]
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},
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"metadata": {},
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"output_type": "display_data"
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}
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],
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"source": [
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"pseudo_particles = FeynmanDiagramGenerator._pseudo_virtual_particles(proc)\n",
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"\n",
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"pairs = Dict{VirtualParticle, Vector{Tuple{VirtualParticle, VirtualParticle}}}()\n",
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"for p in all_particles\n",
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" pairs[p] = particle_pairs(p, [all_particles..., pseudo_particles...])\n",
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" #println(\"$p has $(length(pairs[p])) children: $(pairs[p])\")\n",
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"end\n",
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"\n",
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"#pairs"
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"pairs = FeynmanDiagramGenerator.particle_pairs(all_particles)"
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]
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},
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{
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"cell_type": "code",
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"execution_count": 9,
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"execution_count": 8,
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"metadata": {},
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"outputs": [
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{
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"data": {
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"text/plain": [
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"280-element Vector{Tuple{VirtualParticle, VirtualParticle, VirtualParticle}}:\n",
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" (photon: \t00000000 | 10, electron: \t11001101 | 00, positron: \t00110010 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t01101001 | 00, positron: \t10010110 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t01010101 | 00, positron: \t10101010 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t11000111 | 00, positron: \t00111000 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t11101001 | 00, positron: \t00010110 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t00101101 | 00, positron: \t11010010 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t11100101 | 00, positron: \t00011010 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t01010011 | 00, positron: \t10101100 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t00001111 | 00, positron: \t11110000 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t01001011 | 00, positron: \t10110100 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t00010111 | 00, positron: \t11101000 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t00110011 | 00, positron: \t11001100 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t10111001 | 00, positron: \t01000110 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t10110101 | 00, positron: \t01001010 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t11110001 | 00, positron: \t00001110 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t11010011 | 00, positron: \t00101100 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t01001101 | 00, positron: \t10110010 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t11101001 | 00, positron: \t00010110 | 01)\n",
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" (photon: \t00000000 | 10, electron: \t10011011 | 00, positron: \t01100100 | 01)\n",
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" ⋮\n",
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" (photon: \t01000000 | 00, electron: \t10011011 | 00, positron: \t00100100 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t10110011 | 00, positron: \t00001100 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t00110101 | 00, positron: \t10001010 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t00011101 | 00, positron: \t10100010 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t10101101 | 00, positron: \t00010010 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t10001011 | 10, positron: \t00110100 | 01)\n",
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" (photon: \t01000000 | 00, electron: \t00001011 | 10, positron: \t10110100 | 01)\n",
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" (photon: \t01000000 | 00, electron: \t10001111 | 00, positron: \t00110000 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t10100011 | 10, positron: \t00011100 | 01)"
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" (photon: \t01000000 | 00, electron: \t00111001 | 00, positron: \t10000110 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t00000111 | 10, positron: \t10111000 | 01)\n",
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" (photon: \t01000000 | 00, electron: \t00011011 | 00, positron: \t10100100 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t10101011 | 00, positron: \t00010100 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t10000111 | 10, positron: \t00111000 | 01)\n",
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" (photon: \t01000000 | 00, electron: \t10100101 | 10, positron: \t00011010 | 01)\n",
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" (photon: \t01000000 | 00, electron: \t00100111 | 00, positron: \t10011000 | 11)\n",
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" (photon: \t01000000 | 00, electron: \t10001101 | 10, positron: \t00110010 | 01)\n",
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" (photon: \t01000000 | 00, electron: \t10011101 | 00, positron: \t00100010 | 11)"
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]
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},
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"metadata": {},
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@ -121,7 +143,7 @@
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},
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{
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"cell_type": "code",
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"execution_count": 10,
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"execution_count": 9,
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"metadata": {},
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"outputs": [
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{
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@ -174,7 +196,6 @@
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" return s\n",
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"end\n",
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"\n",
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"n(last(all_particles))\n",
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"s = 0\n",
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"for (ph, e, p) in triples\n",
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" s += n(ph) * n(e) * n(p)\n",
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@ -303,26 +303,33 @@ function are_total(a::VirtualParticle, b::VirtualParticle, c::VirtualParticle)
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return true
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end
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"""
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pairs
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function particle_pairs(particles::Vector)
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pairs = Dict{VirtualParticle,Vector{Tuple{VirtualParticle,VirtualParticle}}}()
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For a particle `vp` and a vector of `particles`, return a Vector of pairs of particles from the vector containing all pairs whose joint contributions are equal to the contributions of `vp`.
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"""
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function particle_pairs(vp::VirtualParticle, particles::Vector)
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# momentum contributions are unique among particles, so each particle can only have at most one partner
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result_pairs = Vector{Tuple{VirtualParticle,VirtualParticle}}()
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proc = QEDbase.process(first(particles))
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# make sure the "smallest" particles come first, i.e. those with few contributors
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all_particles = sort([_pseudo_virtual_particles(proc)..., particles...])
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# TODO: make this less awful
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for i in eachindex(particles)
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a = particles[i]
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for b in particles[i+1:end]
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if make_up(a, b, vp)
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push!(result_pairs, (a, b))
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# find pairs for every particle after the external ones (those can't have pairs)
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for p_i in number_incoming_particles(proc)+number_outgoing_particles(proc)+1:length(all_particles)
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p = all_particles[p_i]
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pairs[p] = Vector{Tuple{VirtualParticle,VirtualParticle}}()
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# only need to consider external particles and virtual particles that come before p_i
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for p_a_i in 1:p_i-2
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# and only partners between a and p_i
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for p_b_i in p_a_i+1:p_i-1
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p_a = all_particles[p_a_i]
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p_b = all_particles[p_b_i]
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if make_up(p_a, p_b, p)
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push!(pairs[p], (p_a, p_b))
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end
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end
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end
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end
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return result_pairs
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return pairs
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end
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function total_particle_triples(particles::Vector)
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