def __init__(self):
self.grammarParser = GrammarParser()
self.loader = Loader()
self.lexer = Lexer()
self.parser = Parser()
self.checker = Checker()
self.genFactory = GenFactory()
# compile grammar rules
self.grammarParser.compileGrammar()
self.compiledModules = {}
class Compiler(object):
def __init__(self):
self.grammarParser = GrammarParser()
self.loader = Loader()
self.lexer = Lexer()
self.parser = Parser()
self.checker = Checker()
self.genFactory = GenFactory()
# compile grammar rules
self.grammarParser.compileGrammar()
self.compiledModules = {}
def compile(self, srcPaths, moduleName):
"""
Create mutant lang source code tree.
Load module and all referenced modules.
Tokenize and parse source code.
Always cache modules by moduleName (import name).
output:
module - common.Module instance.
"""
# check if moduleName already compiled
if moduleName in self.compiledModules:
return self.compiledModules[moduleName]
self.loader.setPaths(srcPaths)
# loader, lexer and parser all change module object
mainModule = self.loader.loadModule(moduleName)
# parse each module in lexer.modules cache
for name, module in self.loader.modules.items():
# check cache
if name in self.compiledModules:
continue
self.lexer.parse(module)
self.parser.parse(module)
# check and set functioncall as constructor
for name, module in self.loader.modules.items():
self.markConstructors(module)
# check and add module to cache
for name, module in self.loader.modules.items():
self.checker.check(module)
self.compiledModules[name] = module
return mainModule
def mutate(self, module, destPath, genName):
"""
Translate module and referenced modules to genName
language modules.
Create generated module sources formatted.
Save generated sources to disk.
"""
gen = self.genFactory.createGen(genName)
def save(self, filename, lines):
with open(filename, 'w') as f:
f.writelines(lines)
def markConstructors(self, module):
"""
Find and mark constructor among functioncall nodes
"""
# find in variables body
for name, va in module.variables.items():
self.markConstructorInVariable(module, va)
# find in functions
for name, fn in module.functions.items():
self.markConstructorInNodes(module, fn.bodyNodes)
for cn, cl in module.classes.items():
# find in class variables body
for name, va in cl.variables.items():
self.markConstructorInVariable(module, va)
# find in class functions variables body
for name, fn in cl.functions.items():
self.markConstructorInNodes(module, fn.bodyNodes)
def markConstructorInVariable(self, module, va):
if va.body and (va.body.nodetype == 'functioncall'):
self.markConstructorFunctioncall(module, va.body)
def markConstructorFunctioncall(self, module, fc):
if common.isClassName(module, fc.name):
fc.isConstructorCall = True
# mark constructor in params
for node in fc.params:
if node.nodetype == 'functioncall':
self.markConstructorFunctioncall(module, node)
def markConstructorInNodes(self, module, nodes):
for node in nodes:
if (node.nodetype == 'variable') and node.body:
if node.body.nodetype == 'functioncall':
self.markConstructorFunctioncall(module, node.body)
elif (node.nodetype == 'value') and node.body and (node.body.nodetype == 'functioncall'):
self.markConstructorFunctioncall(module, node.body)
elif node.nodetype == 'return':
if node.body.nodetype == 'functioncall':
self.markConstructorFunctioncall(module, node.body)
elif node.nodetype == 'if':
if node.body: self.markConstructorInNodes(module, node.body)
if node.elseBody: self.markConstructorInNodes(module, node.elseBody)
