236 lines
5.1 KiB
Python
236 lines
5.1 KiB
Python
import re, os, shutil, string, sys
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def generateElements(elementFiles, outputCpp, outputH):
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elementClasses = {}
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baseClasses = {}
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elementHeader = """// This file is automatically generated by generator.py
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#ifndef ELEMENTCLASSES_H
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#define ELEMENTCLASSES_H
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#include <vector>
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#include "simulation/Element.h"
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#include "simulation/elements/Element.h"
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"""
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directives = []
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for elementFile in elementFiles:
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try:
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f = open(elementFile, "r")
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except:
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f = open("src/simulation/elements/"+elementFile, "r")
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fileData = f.read()
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f.close()
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directiveMatcher = '//#TPT-Directive\s+([^\r\n]+)'
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matcher = re.compile(directiveMatcher)
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directiveMatches = matcher.findall(fileData)
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for match in directiveMatches:
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directives.append(match.split(" "))
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classDirectives = []
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usedIDs = []
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for d in directives:
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if d[0] == "ElementClass":
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d[3] = int(d[3])
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classDirectives.append(d)
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if d[3] in usedIDs:
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print("WARNING: duplicate element ID {} ({})".format(d[3],d[2]))
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usedIDs.append(d[3])
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elementIDs = sorted(classDirectives, key=lambda directive: directive[3])
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for d in elementIDs:
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tmpClass = d[1]
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newClass = ""
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baseClass = "Element"
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if ':' in tmpClass:
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classBits = tmpClass.split(':')
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newClass = classBits[0]
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baseClass = classBits[1]
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else:
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newClass = tmpClass
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elementClasses[newClass] = []
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baseClasses[newClass] = baseClass
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elementHeader += "#define %s %s\n" % (d[2], d[3])
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for d in directives:
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if d[0] == "ElementHeader":
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tmpClass = d[1]
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newClass = ""
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baseClass = "Element"
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if ':' in tmpClass:
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classBits = tmpClass.split(':')
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newClass = classBits[0]
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baseClass = classBits[1]
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else:
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newClass = tmpClass
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elementClasses[newClass].append(" ".join(d[2:])+";")
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#for className, classMembers in elementClasses.items():
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for d in elementIDs:
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tmpClass = d[1]
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newClass = ""
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baseClass = "Element"
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if ':' in tmpClass:
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classBits = tmpClass.split(':')
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newClass = classBits[0]
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baseClass = classBits[1]
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else:
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newClass = tmpClass
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className = newClass
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classMembers = elementClasses[newClass]
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elementBase = baseClass
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elementHeader += """
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class {0}: public {1}
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{{
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public:
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{0}();
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virtual ~{0}();
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{2}
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}};
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""".format(className, elementBase, str.join("\n\t", classMembers))
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elementHeader += """
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std::vector<Element> GetElements();
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#endif
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"""
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elementContent = """#include "ElementClasses.h"
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std::vector<Element> GetElements()
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{
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std::vector<Element> elements;
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""";
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for d in elementIDs:
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tmpClass = d[1]
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newClass = ""
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baseClass = "Element"
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if ':' in tmpClass:
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classBits = tmpClass.split(':')
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newClass = classBits[0]
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baseClass = classBits[1]
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else:
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newClass = tmpClass
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elementContent += """elements.push_back(%s());
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""" % (newClass)
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elementContent += """return elements;
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}
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""";
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outputPath, outputFile = os.path.split(outputH)
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if not os.path.exists(outputPath):
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os.makedirs(outputPath)
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f = open(outputH, "w")
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f.write(elementHeader)
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f.close()
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f = open(outputCpp, "w")
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f.write(elementContent)
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f.close()
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def generateTools(toolFiles, outputCpp, outputH):
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toolClasses = {}
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toolHeader = """#ifndef TOOLCLASSES_H
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#define TOOLCLASSES_H
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#include <vector>
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#include "simulation/simtools/SimTool.h"
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"""
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directives = []
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for toolFile in toolFiles:
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try:
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f = open(toolFile, "r")
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except:
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f = open("src/simulation/simtools/"+toolFile, "r")
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fileData = f.read()
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f.close()
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directiveMatcher = '//#TPT-Directive\s+([^\r\n]+)'
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matcher = re.compile(directiveMatcher)
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directiveMatches = matcher.findall(fileData)
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for match in directiveMatches:
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directives.append(match.split(" "))
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classDirectives = []
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usedIDs = []
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for d in directives:
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if d[0] == "ToolClass":
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toolClasses[d[1]] = []
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toolHeader += "#define %s %s\n" % (d[2], d[3])
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d[3] = int(d[3])
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classDirectives.append(d)
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if d[3] in usedIDs:
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print("WARNING: duplicate tool ID {} ({})".format(d[3],d[2]))
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usedIDs.append(d[3])
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for d in directives:
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if d[0] == "ToolHeader":
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toolClasses[d[1]].append(" ".join(d[2:])+";")
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for className, classMembers in list(toolClasses.items()):
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toolHeader += """
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class {0}: public SimTool
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{{
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public:
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{0}();
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virtual ~{0}();
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virtual int Perform(Simulation * sim, Particle * cpart, int x, int y, float strength);
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}};
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""".format(className, str.join("\n", classMembers))
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toolHeader += """
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std::vector<SimTool*> GetTools();
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#endif
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"""
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toolContent = """#include "ToolClasses.h"
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std::vector<SimTool*> GetTools()
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{
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std::vector<SimTool*> tools;
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""";
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toolIDs = sorted(classDirectives, key=lambda directive: directive[3])
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for d in toolIDs:
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toolContent += """ tools.push_back(new %s());
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""" % (d[1])
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toolContent += """ return tools;
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}
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""";
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outputPath, outputFile = os.path.split(outputH)
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if not os.path.exists(outputPath):
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os.makedirs(outputPath)
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f = open(outputH, "w")
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f.write(toolHeader)
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f.close()
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f = open(outputCpp, "w")
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f.write(toolContent)
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f.close()
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generateElements(os.listdir("src/simulation/elements"), "generated/ElementClasses.cpp", "generated/ElementClasses.h")
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generateTools(os.listdir("src/simulation/simtools"), "generated/ToolClasses.cpp", "generated/ToolClasses.h")
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