mirror of
https://github.com/gwm17/Mask.git
synced 2024-11-22 18:28:51 -05:00
Added Python plotting tools using matplotlib and pickle. Updated ANASEN geometry to better reflect the actual detector setup.
This commit is contained in:
parent
51b64e0c97
commit
6c21c214b4
1
.gitignore
vendored
1
.gitignore
vendored
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@ -12,6 +12,7 @@
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.DS_Store
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.DS_Store
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Makefile
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Makefile
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*.make
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*.make
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__pycache__
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###Keep this file###
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###Keep this file###
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2
bin/.gitignore
vendored
2
bin/.gitignore
vendored
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@ -1,3 +1,5 @@
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||||||
###keep only the directory, not the contents###
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###keep only the directory, not the contents###
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*
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*
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!.gitignore
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!.gitignore
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!PyPlotter
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!PyPlotViewer
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5
bin/PyPlotViewer
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5
bin/PyPlotViewer
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@ -0,0 +1,5 @@
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#!/bin/bash
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FileName=$1;
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./src/Plotters/Python/ViewPyPlots.py ${FileName}
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6
bin/PyPlotter
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6
bin/PyPlotter
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@ -0,0 +1,6 @@
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#!/bin/bash
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InputFile=$1;
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OutputFile=$2;
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./src/Plotters/Python/PyPlotter.py ${InputFile} ${OutputFile}
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@ -2498,4 +2498,3 @@
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158 108 266 Hs 266 130045.252
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158 108 266 Hs 266 130045.252
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159 110 269 Ds 269 144751.021
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159 110 269 Ds 269 144751.021
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160 110 270 Ds 270 144583.090
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160 110 270 Ds 270 144583.090
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@ -43,14 +43,15 @@ private:
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const int n_qqq = 4;
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const int n_qqq = 4;
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const double sx3_length = 0.075;
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const double sx3_length = 0.075;
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const double sx3_width = 0.04;
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const double sx3_width = 0.04;
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const double barrel_gap = 0.013 + 0.049; //0.049 is base gap due to frames
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const double barrel_gap = 0.0254;
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const double ring1_z = sx3_length/2.0 + barrel_gap/2.0;
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const double sx3_frame = 0.049; //0.049 is base gap due to frames
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//const double ring2_z = -0.124 + sx3_length/2.0 + 0.0245 - barrel_gap/2.0;
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const double ring1_z = sx3_length/2.0 + sx3_frame + barrel_gap/2.0;
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const double qqq_nom_z = 0.025 + sx3_length + 0.0245 + barrel_gap/2.0;
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const double ring2_z = (-1.0)*(barrel_gap/2.0 + sx3_length/2.0);
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const double qqq_nom_z = 0.0125 + sx3_length + sx3_frame + barrel_gap/2.0;
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const double qqq_rinner = 0.0501;
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const double qqq_rinner = 0.0501;
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const double qqq_router = 0.0990;
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const double qqq_router = 0.0990;
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const double qqq_deltaphi = 1.52119;
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const double qqq_deltaphi = 1.52119;
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const double qqq_z[4] = {qqq_nom_z, qqq_nom_z - 0.00828, qqq_nom_z, qqq_nom_z};
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const double qqq_z[4] = {qqq_nom_z, qqq_nom_z, qqq_nom_z, qqq_nom_z};
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const double qqq_phi[4] = {5.49779, 0.785398, 2.35619, 3.92699};
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const double qqq_phi[4] = {5.49779, 0.785398, 2.35619, 3.92699};
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const double ring_rho[12] = {0.0890601, 0.0889871, 0.0890354, 0.0890247, 0.0890354, 0.0890354, 0.0890247, 0.0890354, 0.0890354, 0.0890247, 0.0890354, 0.0890354};
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const double ring_rho[12] = {0.0890601, 0.0889871, 0.0890354, 0.0890247, 0.0890354, 0.0890354, 0.0890247, 0.0890354, 0.0890354, 0.0890247, 0.0890354, 0.0890354};
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const double ring_phi[12] = {0.785795, 0.262014, 6.02132, 5.49779, 4.97426, 4.45052, 3.92699, 3.40346, 2.87972, 2.35619, 1.83266, 1.30893};
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const double ring_phi[12] = {0.785795, 0.262014, 6.02132, 5.49779, 4.97426, 4.45052, 3.92699, 3.40346, 2.87972, 2.35619, 1.83266, 1.30893};
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@ -1,13 +1,14 @@
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----------Data Information----------
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----------Data Information----------
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OutputFile: /data1/gwm17/mask_tests/7Be12C_870keV_beam_50CD2.mask
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OutputFile: /media/gordon/ANASENData/MaskData/Kinematics/7Bedp_870keV_beam_50CD2.mask
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SaveTree: yes
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SaveTree: yes
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SavePlots: yes
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SavePlots: yes
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----------Reaction Information----------
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----------Reaction Information----------
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ReactionType: 1
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ReactionType: 2
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Z A (order is target, projectile, ejectile, break1, break3(if pure decay is target, ejectile))
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Z A (order is target, projectile, ejectile, break1, break3(if pure decay is target, ejectile))
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6 12
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1 2
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4 7
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4 7
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4 7
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1 1
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2 4
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----------Target Information----------
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----------Target Information----------
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Name: test_targ
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Name: test_targ
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Layers: 1
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Layers: 1
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@ -44,8 +44,8 @@ project "RootPlot"
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}
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}
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--User specified path to ROOT CERN libraries--
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--User specified path to ROOT CERN libraries--
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ROOTIncludepath = "/usr/include/root"
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ROOTIncludepath = "/home/gordon/cern/root-6.22.02/root-install/include"
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ROOTLibpath = "/usr/lib64/root"
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ROOTLibpath = "/home/gordon/cern/root-6.22.02/root-install/lib"
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includedirs {
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includedirs {
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"include"
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"include"
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@ -9,7 +9,7 @@ AnasenEfficiency::AnasenEfficiency() :
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for(int i=0; i<n_sx3_per_ring; i++) {
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for(int i=0; i<n_sx3_per_ring; i++) {
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m_Ring1.emplace_back(4, sx3_length, sx3_width, ring_phi[i], ring1_z, ring_rho[i]);
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m_Ring1.emplace_back(4, sx3_length, sx3_width, ring_phi[i], ring1_z, ring_rho[i]);
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m_Ring1[i].TurnOnRandomizedCoordinates();
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m_Ring1[i].TurnOnRandomizedCoordinates();
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m_Ring2.emplace_back(4, sx3_length, sx3_width, ring_phi[i], -1.0*ring1_z, ring_rho[i]);
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m_Ring2.emplace_back(4, sx3_length, sx3_width, ring_phi[i], ring2_z, ring_rho[i]);
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m_Ring2[i].TurnOnRandomizedCoordinates();
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m_Ring2[i].TurnOnRandomizedCoordinates();
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}
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}
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for(int i=0; i<n_qqq; i++) {
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for(int i=0; i<n_qqq; i++) {
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@ -113,11 +113,9 @@ void AnasenEfficiency::DrawDetectorSystem(const std::string& filename) {
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}
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}
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output<<"ANASEN Geometry File -- Coordinates for Detectors"<<std::endl;
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output<<"ANASEN Geometry File -- Coordinates for Detectors"<<std::endl;
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output<<"Edges: x y z"<<std::endl;
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for(unsigned int i=0; i<x.size(); i++) {
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for(unsigned int i=0; i<x.size(); i++) {
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output<<x[i]<<" "<<y[i]<<" "<<z[i]<<std::endl;
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output<<x[i]<<" "<<y[i]<<" "<<z[i]<<std::endl;
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}
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}
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output<<"Centers: x y z"<<std::endl;
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for(unsigned int i=0; i<cx.size(); i++) {
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for(unsigned int i=0; i<cx.size(); i++) {
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output<<cx[i]<<" "<<cy[i]<<" "<<cz[i]<<std::endl;
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output<<cx[i]<<" "<<cy[i]<<" "<<cz[i]<<std::endl;
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}
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}
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3
src/Plotters/Python/.gitignore
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3
src/Plotters/Python/.gitignore
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__pycache__
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!.gitignore
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80
src/Plotters/Python/MaskFile.py
Executable file
80
src/Plotters/Python/MaskFile.py
Executable file
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#!/usr/bin/env python3
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import numpy as np
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import struct
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class MaskFileData :
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def __init__(self, n):
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self.Z = np.zeros(n, dtype=int)
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self.A = np.zeros(n, dtype=int)
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self.dFlag = np.zeros(n, dtype=bool)
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self.E = np.zeros(n)
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self.KE = np.zeros(n)
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self.p = np.zeros(n)
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self.theta = np.zeros(n)
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self.phi = np.zeros(n)
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class MaskFile:
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int_size = 4
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double_size = 8
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bool_size = 1
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def __init__(self, filename=""):
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self.eofFlag = False
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self.openFlag = False
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if filename != "" :
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self.Open(filename)
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def Open(self, filename):
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self.filename = filename
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self.file = open(self.filename, mode="rb")
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if self.file.closed :
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self.openFlag = False
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else:
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self.openFlag = True
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def ReadHeader(self):
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data = self.file.read(2*self.int_size)
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(self.nsamples, self.rxntype) = struct.unpack("ii", data)
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self.datasize = (5*self.double_size+2*self.int_size+self.bool_size)
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self.datastr = "=ii?ddddd"
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if self.rxntype == 0:
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self.N_nuclei = 3
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elif self.rxntype == 1:
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self.N_nuclei = 4
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elif self.rxntype == 2:
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self.N_nuclei = 6
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elif self.rxntype == 3:
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self.N_nuclei = 8
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def ReadData(self):
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data = MaskFileData(self.N_nuclei)
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for i in range(self.N_nuclei):
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buffer = self.file.read(self.datasize)
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(data.Z[i], data.A[i], data.dFlag[i], data.E[i], data.KE[i], data.p[i], data.theta[i], data.phi[i]) = struct.unpack(self.datastr, buffer)
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if buffer == "":
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self.eofFlag = True
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return data
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def Close(self):
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self.file.close()
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def main() :
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file = MaskFile(filename="/data1/gwm17/mask_tests/7Bedp_870keV_beam_50CD2.mask")
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file.ReadHeader()
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print("samples: ", file.nsamples, "rxntype:", file.rxntype, "datasize:", file.datasize)
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count=0
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for i in range(file.nsamples):
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file.ReadData()
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count += 1
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print("count:",count)
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print("eofFlag:",file.eofFlag)
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file.Close()
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if __name__ == '__main__':
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main()
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70
src/Plotters/Python/NucData.py
Executable file
70
src/Plotters/Python/NucData.py
Executable file
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#!/usr/bin/env python3
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import numpy as np
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import requests
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import lxml.html as xhtml
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class MassTable:
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def __init__(self):
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file = open("./etc/mass.txt","r")
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self.mtable = {}
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u2mev = 931.4940954
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me = 0.000548579909 #amu
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self.etable = {}
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line = file.readline()
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line = file.readline()
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for line in file:
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entries = line.split()
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n = entries[0]
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z = entries[1]
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a = entries[2]
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element = entries[3]
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massBig = float(entries[4])
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massSmall = float(entries[5])
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key = '('+z+','+a+')'
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value = ((massBig+massSmall*1e-6) - float(z)*me)*u2mev
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self.mtable[key] = value
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self.etable[key] = element
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file.close()
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def GetMass(self, z, a):
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key = '('+str(z)+','+str(a)+')'
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if key in self.mtable:
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return self.mtable[key]
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else:
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return 0
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def GetSymbol(self, z, a):
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key = '('+str(z)+','+str(a)+')'
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if key in self.etable:
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return str(a)+self.etable[key]
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else:
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return 'none'
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Masses = MassTable()
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def GetExcitations(symbol):
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levels = np.array(np.empty(0))
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text = ''
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site = requests.get("https://www.nndc.bnl.gov/nudat2/getdatasetClassic.jsp?nucleus="+symbol+"&unc=nds")
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contents = xhtml.fromstring(site.content)
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tables = contents.xpath("//table")
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rows = tables[2].xpath("./tr")
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for row in rows[1:-2]:
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entries = row.xpath("./td")
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if len(entries) != 0:
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entry = entries[0]
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data = entry.xpath("./a")
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if len(data) == 0:
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text = entry.text
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else:
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text = data[0].text
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text = text.replace('?', '')
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text = text.replace('\xa0\xa0≈','')
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levels = np.append(levels, float(text)/1000.0)
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return levels
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106
src/Plotters/Python/Nucleus.py
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106
src/Plotters/Python/Nucleus.py
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#!/usr/bin/env python3
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import numpy as np
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from NucData import Masses
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class Nucleus:
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deg2rad = np.pi/180.0
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def __init__(self, Z=0, A=0):
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self.Z = Z
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self.A = A
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if Z != 0 and A != 0:
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self.gsMass = Masses.GetMass(self.Z, self.A)
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self.vec4 = np.zeros(4)
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self.symbol = Masses.GetSymbol(self.Z, self.A)
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self.vec4[3] = self.gsMass
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def SetIsotope(self, Z, A):
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self.gsMass = Masses.GetMass(Z, A)
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self.symbol = Masses.GetSymbol(Z, A)
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self.Z = Z
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self.A = A
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self.vec4 = np.zeros(4)
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self.vec4[3] = self.gsMass
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def SetVectorCart(self, px, py, pz, E):
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self.vec4[0] = px
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self.vec4[1] = py
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self.vec4[2] = pz
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self.vec4[3] = E
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def SetVectorSpher(self, theta, phi, p, E):
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self.vec4[0] = p*np.sin(theta)*np.cos(phi)
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self.vec4[1] = p*np.sin(theta)*np.sin(phi)
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self.vec4[2] = p*np.cos(theta)
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self.vec4[3] = E
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def __add__(self, other):
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vec4 = self.vec4 + other.vec4
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newNuc = Nucleus(self.Z + other.Z, self.A + other.A)
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newNuc.SetVectorCart(vec4[0], vec4[1], vec4[2], vec4[3])
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return newNuc
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def __sub__(self, other):
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vec4 = self.vec4 - other.vec4
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newNuc = Nucleus(self.Z - other.Z, self.A - other.A)
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newNuc.SetVectorCart(vec4[0], vec4[1], vec4[2], vec4[3])
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return newNuc
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def __str__(self):
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return "Nucleus({0},{1}) with 4-vector({2})".format(self.Z, self.A, self.vec4)
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def GetP(self):
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||||||
|
return np.sqrt(self.vec4[0]**2.0 + self.vec4[1]**2.0 + self.vec4[2]**2.0)
|
||||||
|
|
||||||
|
def GetInvMass(self):
|
||||||
|
return np.sqrt(self.vec4[3]**2.0 - self.GetP()**2.0)
|
||||||
|
|
||||||
|
def GetKE(self):
|
||||||
|
return self.vec4[3] - self.GetInvMass()
|
||||||
|
|
||||||
|
def GetTheta(self):
|
||||||
|
return np.arccos(self.vec4[2]/self.GetP())
|
||||||
|
|
||||||
|
def GetPhi(self):
|
||||||
|
result = np.arctan2(self.vec4[1], self.vec4[0])
|
||||||
|
if result < 0.0:
|
||||||
|
result += 2.0*np.pi
|
||||||
|
return result
|
||||||
|
|
||||||
|
def GetExcitation(self):
|
||||||
|
return self.GetInvMass() - self.gsMass
|
||||||
|
|
||||||
|
def GetBoostToCMFrame(self):
|
||||||
|
boost_vec = np.zeros(3)
|
||||||
|
boost_vec[0] = self.vec4[0]/self.vec4[3]
|
||||||
|
boost_vec[1] = self.vec4[1]/self.vec4[3]
|
||||||
|
boost_vec[2] = self.vec4[2]/self.vec4[3]
|
||||||
|
return boost_vec
|
||||||
|
|
||||||
|
def ApplyBoost(self, boost_vec):
|
||||||
|
beta2 = np.linalg.norm(boost_vec)**2.0
|
||||||
|
gamma = 1.0/np.sqrt(1.0 - beta2)
|
||||||
|
bdotp = boost_vec[0]*self.vec4[0] + boost_vec[1]*self.vec4[1] + boost_vec[2]*self.vec4[2]
|
||||||
|
gfactor = (gamma-1.0)/beta2 if beta2 > 0.0 else 0.0
|
||||||
|
|
||||||
|
px = self.vec4[0]+gfactor*bdotp*boost_vec[0]+gamma*boost_vec[0]*self.vec4[3]
|
||||||
|
py = self.vec4[1]+gfactor*bdotp*boost_vec[1]+gamma*boost_vec[1]*self.vec4[3]
|
||||||
|
pz = self.vec4[2]+gfactor*bdotp*boost_vec[2]+gamma*boost_vec[2]*self.vec4[3]
|
||||||
|
E = gamma*(self.vec4[3] + bdotp)
|
||||||
|
|
||||||
|
self.SetVectorCart(px, py, pz, E);
|
||||||
|
|
||||||
|
|
||||||
|
def main():
|
||||||
|
nuc = Nucleus(1,1)
|
||||||
|
print("First",nuc)
|
||||||
|
nuc2 = Nucleus(2,4)
|
||||||
|
print("Second", nuc2)
|
||||||
|
result = nuc + nuc2
|
||||||
|
print("Addition", result)
|
||||||
|
result2 = nuc2 - nuc
|
||||||
|
print("Subtraction", result2)
|
||||||
|
|
||||||
|
|
||||||
|
if __name__ == '__main__':
|
||||||
|
main()
|
135
src/Plotters/Python/PyPlotter.py
Executable file
135
src/Plotters/Python/PyPlotter.py
Executable file
|
@ -0,0 +1,135 @@
|
||||||
|
#!/usr/bin/env python3
|
||||||
|
|
||||||
|
import numpy as np
|
||||||
|
import matplotlib.pyplot as plt
|
||||||
|
from Nucleus import Nucleus
|
||||||
|
from MaskFile import MaskFile, MaskFileData
|
||||||
|
from NucData import Masses
|
||||||
|
import pickle
|
||||||
|
import sys
|
||||||
|
|
||||||
|
def PlotData(inputname, outputname):
|
||||||
|
rad2deg = 180.0/np.pi
|
||||||
|
|
||||||
|
datafile = MaskFile(inputname)
|
||||||
|
datafile.ReadHeader()
|
||||||
|
|
||||||
|
print("MaskFile opened -- rxntype:", datafile.rxntype, "number of samples:", datafile.nsamples)
|
||||||
|
|
||||||
|
data = MaskFileData(datafile.N_nuclei)
|
||||||
|
|
||||||
|
ke = np.zeros((datafile.N_nuclei, datafile.nsamples))
|
||||||
|
ke_d = np.zeros((datafile.N_nuclei, datafile.nsamples))
|
||||||
|
theta = np.zeros((datafile.N_nuclei, datafile.nsamples))
|
||||||
|
theta_d = np.zeros((datafile.N_nuclei, datafile.nsamples))
|
||||||
|
phi = np.zeros((datafile.N_nuclei, datafile.nsamples))
|
||||||
|
phi_d = np.zeros((datafile.N_nuclei, datafile.nsamples))
|
||||||
|
detect_mask = np.ones((datafile.N_nuclei, datafile.nsamples), dtype=bool)
|
||||||
|
names = []
|
||||||
|
for i in range(datafile.N_nuclei):
|
||||||
|
names.append(" ")
|
||||||
|
|
||||||
|
nuc = Nucleus()
|
||||||
|
|
||||||
|
for i in range(datafile.nsamples):
|
||||||
|
data = datafile.ReadData()
|
||||||
|
|
||||||
|
if i == 0:
|
||||||
|
for j in range(datafile.N_nuclei):
|
||||||
|
names[j] = Masses.GetSymbol(data.Z[j], data.A[j])
|
||||||
|
|
||||||
|
for j in range(datafile.N_nuclei):
|
||||||
|
nuc.SetIsotope(data.Z[j], data.A[j])
|
||||||
|
nuc.SetVectorSpher(data.theta[j], data.phi[j], data.p[j], data.E[j])
|
||||||
|
|
||||||
|
ke[j][i] = nuc.GetKE()
|
||||||
|
theta[j][i] = data.theta[j]*rad2deg
|
||||||
|
phi[j][i] = data.phi[j]*rad2deg
|
||||||
|
if data.dFlag[j] == True:
|
||||||
|
ke_d[j][i] = data.KE[j]
|
||||||
|
theta_d[j][i] = data.theta[j]*rad2deg
|
||||||
|
phi_d[j][i] = data.phi[j]*rad2deg
|
||||||
|
else:
|
||||||
|
detect_mask[j][i] = False
|
||||||
|
|
||||||
|
datafile.Close()
|
||||||
|
|
||||||
|
#Remove empty values from detection arrays
|
||||||
|
final_theta_d = theta_d[detect_mask]
|
||||||
|
final_phi_d = phi_d[detect_mask]
|
||||||
|
final_ke_d = ke_d[detect_mask]
|
||||||
|
|
||||||
|
#figs = {}
|
||||||
|
#axes = {}
|
||||||
|
|
||||||
|
'''
|
||||||
|
for i in range(len(names)):
|
||||||
|
figs[i], axes[i] = plt.subplots(2,2)
|
||||||
|
'''
|
||||||
|
fig, axes = plt.subplots(len(names)-1,4)
|
||||||
|
fig.set_size_inches(12, 12)
|
||||||
|
|
||||||
|
for i in range(1, len(names)):
|
||||||
|
'''
|
||||||
|
axes[i][0][0].plot(theta[i], ke[i], marker=',', linestyle='None')
|
||||||
|
axes[i][0][0].set_title(names[i]+" KE vs. Theta")
|
||||||
|
axes[i][0][0].set_xlabel(r"$\theta$ (degrees)")
|
||||||
|
axes[i][0][0].set_ylabel("KE (MeV)")
|
||||||
|
|
||||||
|
axes[i][0][1].plot(phi[i], ke[i], marker=",", linestyle='None')
|
||||||
|
axes[i][0][1].set_title(names[i]+" KE vs. Phi")
|
||||||
|
axes[i][0][1].set_xlabel(r"$\phi$ (degrees)")
|
||||||
|
axes[i][0][1].set_ylabel("KE (MeV)")
|
||||||
|
|
||||||
|
axes[i][1][0].plot(theta_d[i], ke_d[i], marker=',', linestyle='None')
|
||||||
|
axes[i][1][0].set_title(names[i]+" KE vs. Theta -- Detected")
|
||||||
|
axes[i][1][0].set_xlabel(r"$\theta$ (degrees)")
|
||||||
|
axes[i][1][0].set_ylabel("KE (MeV)")
|
||||||
|
|
||||||
|
axes[i][1][1].plot(phi_d[i], ke_d[i], marker=",", linestyle='None')
|
||||||
|
axes[i][1][1].set_title(names[i]+" KE vs. Phi -- Detected")
|
||||||
|
axes[i][1][1].set_xlabel(r"$\phi$ (degrees)")
|
||||||
|
axes[i][1][1].set_ylabel("KE (MeV)")
|
||||||
|
'''
|
||||||
|
|
||||||
|
axes[i-1][0].plot(theta[i], ke[i], marker=',', linestyle='None')
|
||||||
|
axes[i-1][0].set_title(names[i]+" KE vs. Theta")
|
||||||
|
axes[i-1][0].set_xlabel(r"$\theta$ (degrees)")
|
||||||
|
axes[i-1][0].set_ylabel("KE (MeV)")
|
||||||
|
|
||||||
|
axes[i-1][1].plot(phi[i], ke[i], marker=",", linestyle='None')
|
||||||
|
axes[i-1][1].set_title(names[i]+" KE vs. Phi")
|
||||||
|
axes[i-1][1].set_xlabel(r"$\phi$ (degrees)")
|
||||||
|
axes[i-1][1].set_ylabel("KE (MeV)")
|
||||||
|
|
||||||
|
axes[i-1][2].plot(theta_d[i], ke_d[i], marker=',', linestyle='None')
|
||||||
|
axes[i-1][2].set_title(names[i]+" KE vs. Theta -- Detected")
|
||||||
|
axes[i-1][2].set_xlabel(r"$\theta$ (degrees)")
|
||||||
|
axes[i-1][2].set_ylabel("KE (MeV)")
|
||||||
|
|
||||||
|
axes[i-1][3].plot(phi_d[i], ke_d[i], marker=",", linestyle='None')
|
||||||
|
axes[i-1][3].set_title(names[i]+" KE vs. Phi -- Detected")
|
||||||
|
axes[i-1][3].set_xlabel(r"$\phi$ (degrees)")
|
||||||
|
axes[i-1][3].set_ylabel("KE (MeV)")
|
||||||
|
|
||||||
|
plt.tight_layout()
|
||||||
|
plt.show(block=True)
|
||||||
|
|
||||||
|
print("Writing figure to file:", outputname)
|
||||||
|
with open(outputname, "wb") as outfile:
|
||||||
|
pickle.dump(fig, outfile)
|
||||||
|
outfile.close()
|
||||||
|
|
||||||
|
print("Finished.")
|
||||||
|
|
||||||
|
def main():
|
||||||
|
if len(sys.argv) == 3:
|
||||||
|
PlotData(sys.argv[1], sys.argv[2])
|
||||||
|
else:
|
||||||
|
print("Unable to run PyPlotter, incorrect number of arguments! Need an input datafile name, and an output plot file name")
|
||||||
|
|
||||||
|
if __name__ == '__main__':
|
||||||
|
main()
|
||||||
|
|
||||||
|
|
||||||
|
|
32
src/Plotters/Python/ViewPyPlots.py
Executable file
32
src/Plotters/Python/ViewPyPlots.py
Executable file
|
@ -0,0 +1,32 @@
|
||||||
|
#!/usr/bin/env python3
|
||||||
|
|
||||||
|
import matplotlib.pyplot as plt
|
||||||
|
import numpy as np
|
||||||
|
import pickle
|
||||||
|
import sys
|
||||||
|
|
||||||
|
def SetManager(figure):
|
||||||
|
dummy = plt.figure()
|
||||||
|
manager = dummy.canvas.manager
|
||||||
|
manager.canvas.figure = figure
|
||||||
|
figure.set_canvas(manager.canvas)
|
||||||
|
|
||||||
|
def ViewPyPlots(filename):
|
||||||
|
|
||||||
|
figure = pickle.load(open(filename, "rb"))
|
||||||
|
SetManager(figure)
|
||||||
|
|
||||||
|
figure.set_size_inches(12, 12)
|
||||||
|
plt.tight_layout()
|
||||||
|
|
||||||
|
plt.show(block=True)
|
||||||
|
|
||||||
|
|
||||||
|
def main():
|
||||||
|
if len(sys.argv) == 2:
|
||||||
|
ViewPyPlots(sys.argv[1])
|
||||||
|
else:
|
||||||
|
print("Unable to run ViewPyPlots, incorrect number of commandline arguments -- requires an input pickle file")
|
||||||
|
|
||||||
|
if __name__ == '__main__':
|
||||||
|
main()
|
Loading…
Reference in New Issue
Block a user