def generateCode(self,gSym,iSym,lSym,cref,blocko,blocki):
# set up internal return stuff
oldReturn = lSym['_return']
lSym['_return'] = None
oldSelf = lSym['@']
# set up new block
block = Block(blocko.getName()+"_inner",True)
# transfer arguments
argNumber = 0
start = blocko.temporaries_count
for arg in self.args:
# implicit given
if arg[0:2] == '@@':
lSym['@'] = TemporaryEntry(blocko)
# assignment
elif arg[0:1] == '@':
lSym[arg[1:]] = TemporaryEntry(blocko)
# ignore
elif arg[0:1] == '_':
TemporaryEntry(blocko)
argNumber += 1
finish = blocko.temporaries_count - 1
if finish>=start:
block.add_instruction("BlockArgs %i %i"%(start,finish))
blocki.add_instruction("Block #%s"%(block.getName()))
self.expr.generateCode(gSym,iSym,lSym,cref,blocko,block)
if lSym['_return']==True:
block.add_instruction('RetValReturn')
elif lSym['_return']:
lSym['_return'].loadCode(block)
block.add_instruction('Return')
lSym['_blocks'].append(block)
lSym['_return'] = oldReturn
lSym['@'] = oldSelf
def generateCode(self,symbolTable):
test_global = Global()
store_global = Global()
test_global.setName('test'+self.name)
store_global.setName('store'+self.name)
secondary_block = Block(innerBlock = True)
secondary_block.add_instruction('Global $store'+self.name)
secondary_block.add_instruction('Return')
blocks = []
self.block.add_instruction('Block #'+secondary_block.getName())
self.block.add_instruction('Global $test'+self.name)
self.block.add_instruction("MCall 1 'and:'")
self.block.add_instruction('Pop')
self.expr.generateCode(symbolTable,
{},
{'_return': None,'@':None,'_blocks':blocks},
None,
self.block,
self.block)
self.block.add_instruction('Dup')
self.block.add_instruction('StoreGlobal $store'+self.name)
self.block.add_instruction('Global $true')
self.block.add_instruction('StoreGlobal $test'+self.name)
self.block.add_instruction("Return")
return [self.block,secondary_block,store_global,test_global]+blocks
def generateCode(self,gSym,iSym,lSym,cref,blocko,blocki):
block = Block(blocko.getName()+"_inner",True)
blocki.add_instruction("Block #%s"%(block.getName()))
if self.operator:
if self.messageName == '?//' or self.messageName == ':[]=':
self.argCount = 2
elif self.messageName == '[~~]':
self.argCount = 3
elif self.messageName == ':[~~]=':
self.argCount = 4
else:
self.argCount = 1
for i in range(0,self.argCount):
block.add_instruction('BlockArg %i'%(i+1))
block.add_instruction('BlockArg 0')
if self.messageName == "+":
block.add_instruction("Add 1 '+'")
else:
block.add_instruction("MCall %i '%s'"%\
(self.argCount,self.messageName))
lSym['_blocks'].append(block)
def generateCode(self,symbolTable):
argNumber = 0
blocks = []
selector = Selector(self.selector,False)
for value in self.values:
block = Block()
block.add_instruction('Arg %i'%(argNumber))
block.add_instruction("MCall 0 '()'")
block.add_instruction("Return")
symbolTable[value].addMethod(symbolTable,
selector,
PseudoMethod(block.getName(),selector))
blocks += [block]
argNumber = argNumber + 1
return blocks
def parseMethodCode(self):
if self.tokenizer.check(';'):
self.expr = None
else:
self.tokenizer.require('{')
self.expr = parseExpression(self.tokenizer)
self.tokenizer.require('}')
if self.selector.operator:
name = None
else:
name = self.selector.messageName
name = name + "_" + self.cls
if self.isClass:
name = name + "_class"
self.block = Block(name = name,nameSet = False)
self.name = self.block.getName()
return True
def tryParse(self):
publicToken = self.tokenizer.check('public')
if not publicToken:
publicToken = self.tokenizer.check('private')
if not self.tokenizer.check('global'):
if publicToken:
self.tokenizer.push(publicToken)
return False
self.tokenizer.require('$')
idToken = self.tokenizer.nextToken()
if idToken.type() != TokenTypes.identifier:
raise SyntaxError("expected identifier: "+idToken.errForm())
self.name = idToken.str
self.tokenizer.require('=')
self.expr = parseExpressionSimple(self.tokenizer)
if not self.expr:
raise SyntaxError('expression required for global')
self.tokenizer.require(';')
self.block = Block(innerBlock = False)
return True
def addClassMethod(self,symbolTable):
blk = Block()
blk.add_instruction('Global $%s' % self.name)
blk.add_instruction('Return')
if not self.exceptionHandlingBlocks:
self.exceptionHandlingBlocks = []
self.exceptionHandlingBlocks += [blk]
class FakeSelector:
def __init__(self,name):
self.messageName = name
selector = FakeSelector('class')
method = PseudoMethod(blk.getName(),selector)
self.addMethod(symbolTable,selector,method) # XXX ???
self.exceptionHandlingBlocks += [blk]
def parseArgsWithSelector(self):
self.args = []
while not self.tokenizer.peekCheck('{') and \
not self.tokenizer.peekCheck(';') and \
not self.tokenizer.peekCheck('('):
if not self.tokenizer.check('@'):
if self.tokenizer.check('#'):
class Foo: pass
self.block = Foo()
name = self.tokenizer.nextToken().str
self.block.name = name
self.block.getName = lambda: name
self.special = True
self.name = self.block.name
self.tokenizer.check(';')
return True
else:
raise SyntaxError('@ or {: '+
self.tokenizer.nextToken().errForm())
self.args += ['@'+self.tokenizer.nextToken().str]
if not self.tokenizer.check(','):
break
class MethodDecl(ASTNode):
def tryParse(self):
self.access = ''
publicToken = self.tokenizer.check('public')
if publicToken:
self.access = 'public'
else:
publicToken = self.tokenizer.check('private')
if publicToken:
self.access = 'private'
dollarSign = self.tokenizer.check('$')
if not dollarSign:
if publicToken:
self.tokenizer.push(publicToken)
return False
classToken = self.tokenizer.nextToken()
self.cls = classToken.str
self.isClass = self.tokenizer.check('class')
self.isMixin = False # TODO mixin methods
mixinToken = self.tokenizer.check('mixin')
self.expr = None
if mixinToken:
self.tokenizer.push(mixinToken)
self.tokenizer.push(classToken)
self.tokenizer.push(dollarSign)
if publicToken:
self.tokenizer.push(publicToken)
return False
# TODO constructor code generation
self.isConstructor = self.tokenizer.check('constructor')
self.isAbstract = self.tokenizer.check('abstract')
self.isUndefine = self.tokenizer.check('undefine')
if not self.isAbstract:
self.isAbstract = self.tokenizer.check('optional')
self.isFinal = self.tokenizer.check('final')
self.isAlias = self.tokenizer.check('alias')
self.special = False
self.selector = tryParse(SelectorLiteral, self.tokenizer)
if self.selector:
if self.isAlias:
self.aliasTarget = tryParse(SelectorLiteral, self.tokenizer)
if not self.aliasTarget:
raise SyntaxError('Expected selector; found: ' + \
self.tokenizer.nextToken().errForm())
self.tokenizer.require(';')
return True
if self.isAbstract:
self.tokenizer.require(';')
return True
else:
self.parseArgsWithSelector()
else:
self.parseInterwoven()
if self.special:
return True
else:
self.parseSecureLevelDecl()
return self.parseMethodCode()
def parseArgument(self):
arg = self.tryParseArgument()
if not arg:
raise SyntaxError("argument expected: "+\
self.tokenizer.nextToken().errForm())
return arg
def tryParseArgument(self):
if self.tokenizer.check('@'):
id = self.tokenizer.nextToken()
if id.type() != TokenTypes.identifier:
raise SyntaxError("not id: "+id.errForm())
return "@"+id.str
elif self.tokenizer.check('_'):
return "_"
elif self.tokenizer.check('!'):
id = self.tokenizer.nextToken()
if id.type() != TokenTypes.identifier:
raise SyntaxError("not id: "+id.errForm())
return "!"+id.str
else:
return None
def getArgCount(self):
return len(self.args)
def parseInterwoven(self):
nextToken = self.tokenizer.nextToken()
if nextToken.type() == TokenTypes.operator:
if nextToken.str not in ['?','[',':[', '(']:
self.args = [self.parseArgument()]
self.selector = Selector(nextToken.str,True)
return
elif nextToken.str == '?':
self.selector = Selector('?//',True)
self.args = [self.parseArgument()]
self.tokenizer.require('//')
self.args += [self.parseArgument()]
return
elif nextToken.str == ':[':
self.args = [self.parseArgument()]
if self.tokenizer.check('~'):
self.selector = Selector(':[~~]=',True)
self.args += [self.parseArgument()]
self.tokenizer.require('~')
self.args += [self.parseArgument()]
else:
self.selector = Selector(':[]=',True)
self.tokenizer.require(']=')
self.args += [self.parseArgument()]
return
elif nextToken.str == '[':
self.args = [self.parseArgument()]
if self.tokenizer.check('~'):
self.selector = Selector('[~~]',True)
self.args += [self.parseArgument()]
self.tokenizer.require('~')
self.args += [self.parseArgument()]
else:
self.selector = Selector('[]',True)
self.tokenizer.require(']')
return
elif nextToken.str == '(':
self.args = [self.parseArgument()]
# TODO (for C3 probably) check if this is a list and match
self.selector = Selector('()',True)
self.tokenizer.require(')')
return
elif nextToken.type() == TokenTypes.identifier:
#so it's either a unary message-send or a keyworder.
colon = self.tokenizer.checkNoWhitespace(':')
if colon:
self.args = [self.parseArgument()]
name = nextToken.str + ':'
while True:
nextToken = self.tokenizer.nextToken()
if nextToken.type() != TokenTypes.identifier:
self.tokenizer.push(nextToken)
break
self.tokenizer.require(':')
self.args += [self.parseArgument()]
name += nextToken.str + ':'
self.selector = Selector(name,False)
else:
self.args = []
self.selector = Selector(nextToken.str,False)
return
def parseArgsWithSelector(self):
self.args = []
while not self.tokenizer.peekCheck('{') and \
not self.tokenizer.peekCheck(';') and \
not self.tokenizer.peekCheck('('):
if not self.tokenizer.check('@'):
if self.tokenizer.check('#'):
class Foo: pass
self.block = Foo()
name = self.tokenizer.nextToken().str
self.block.name = name
self.block.getName = lambda: name
self.special = True
self.name = self.block.name
self.tokenizer.check(';')
return True
else:
raise SyntaxError('@ or {: '+
self.tokenizer.nextToken().errForm())
self.args += ['@'+self.tokenizer.nextToken().str]
if not self.tokenizer.check(','):
break
def parseSecureLevelDecl(self):
# TODO check these values and store them in a cleaner way.
# TODO Actually use securelevels.
if not self.tokenizer.check('('):
return # no securelevel decl
self.securelevel = self.tokenizer.nextToken()
self.tokenizer.require(',')
self.writability = self.tokenizer.nextToken()
self.tokenizer.require(')')
def parseMethodCode(self):
if self.tokenizer.check(';'):
self.expr = None
else:
self.tokenizer.require('{')
self.expr = parseExpression(self.tokenizer)
self.tokenizer.require('}')
if self.selector.operator:
name = None
else:
name = self.selector.messageName
name = name + "_" + self.cls
if self.isClass:
name = name + "_class"
self.block = Block(name = name,nameSet = False)
self.name = self.block.getName()
return True
def __str__(self):
res = '$'
res += self.cls
if self.isAlias:
res += ' alias '
res += str(self.selector)
res += ' '
if self.isAlias:
res += str(self.aliasTarget)
res += ';'
else:
for arg in self.args:
res += '@'
res += arg
res += ', '
res += "{\n"
res += str(self.expr)
res += "\n}\n"
return res
def registerMethod(self,symbolTable):
if not self.isAbstract: # TODO addAbstract() and check instead
symbolTable[self.cls].addMethod(symbolTable,self.selector,self)
def generateCode(self,symbolTable):
self.registerMethod(symbolTable)
if self.isAlias or self.isAbstract or self.special:
return []
cls = symbolTable[self.cls]
itable = cls.generateInstanceSymbolTable(symbolTable)
table = self.generateLocalSymbolTable(itable)
table['_classMethod'] = self.isClass
self.block.add_instruction('" '+self.selector.messageName)
if self.expr:
self.expr.generateCode(symbolTable,
itable,
table,
cls,
self.block,
self.block)
if table['_return'].__class__ == SelfEntry:
self.block.add_instruction("SReturn")
elif table['_return']==True:
self.block.add_instruction("RetValReturn")
elif table['_return']:
table['_return'].loadCode(self.block)
self.block.add_instruction("Return")
return [self.block]+table['_blocks']
def generateLocalSymbolTable(self,itable):
res = {'@':SelfEntry(),
'_return':SelfEntry(),
'_blocks':[]}
argNum = 0
if self.selector.messageName == '()' and len(self.args) == 1:
self.block.add_instruction("AllocFromArgs")
self.block.add_instruction("Dup")
self.block.add_instruction("ChMTable %PrimitiveArray")
realArg = self.args[0]
if realArg[0] == '@':
arg = realArg[1:]
res[arg] = TemporaryEntry(self.block)
self.block.add_instruction('StoreTemp %i'%\
(res[arg].getNumber()))
elif realArg[0] == '_':
self.block.add_instruction("Pop")
elif realArg[0] == '!':
arg = realArg[1:]
ivar = itable[arg]
ivar.storeCode(self.block)
else:
for realArg in self.args:
if realArg[0] == '@':
arg = realArg[1:]
res[arg] = ArgumentEntry(argNum)
elif realArg[0] == '_':
pass
elif realArg[0] == '!':
arg = realArg[1:]
ivar = itable[arg]
self.block.add_instruction('Arg %i'%(argNum))
ivar.storeCode(self.block)
argNum += 1
return res
def generateCode(self,stable):
self.getMethodTable(stable) #ensure method tables initialized
self.addClassMethod(stable)
#self.resolveMixins(stable)
gvar = Global() # class/singleton object reference
gvar.setName(self.name) # our name
obj = BytecodeObject(self.name) # class/singleton object
gvar.setValue(obj) # which the reference points to
if self.singleton:
obj.setMTable(self.methodTable) #singletons get object mtable
return [self.methodTable,obj,gvar]+self.exceptionHandlingBlocks
else:
obj.setMTable(self.classMethodTable) #non-singletons get factory one
block = Block(name = '_new_' + self.name) # new method
block.add_instruction("Int %i"%\
(self.getInstanceVariableCount(stable)))
block.add_instruction("Alloc %i"% \
self.getInstanceVariableCount(stable))
block.add_instruction("Dup")
block.add_instruction("ChMTable %%%s"%(self.methodTable.name))
block.add_instruction("Return")
self.classMethodTable.addMethod('basicNew',block.name)
return [self.methodTable,self.classMethodTable,block,obj,gvar]+\
self.exceptionHandlingBlocks
def addMethod(self,symbolTable,selector,method):
if self.exception:
self.defineExceptionMethod(symbolTable)
self.getMethodTable(symbolTable)
if method.isClass:
mt = self.classMethodTable
elif method.isConstructor:
self.methodTable.addMethod(selector.messageName,
method.block.getName())
classMethodBlock = Block()
classMethodBlock.incrementTemporaries()
classMethodBlock.add_instruction('Self')
classMethodBlock.add_instruction("MCall 0 'basicNew'")
classMethodBlock.add_instruction("StoreTemp 0")
for i in range(0,method.getArgCount()):
classMethodBlock.add_instruction("Arg %i"%(i))
classMethodBlock.add_instruction("Temp 0")
classMethodBlock.add_instruction("MCall %i '%s'"%\
(method.getArgCount(),selector.messageName))
classMethodBlock.add_instruction("Temp 0")
#classMethodBlock.add_instruction("MCall 0 'secure'")
classMethodBlock.add_instruction("Return")
self.exceptionHandlingBlocks += [classMethodBlock]
self.classMethodTable.addMethod(selector.messageName,
classMethodBlock.getName())
return
else:
mt = self.methodTable
if method.isAlias:
mt.addAlias(selector.messageName,method.aliasTarget.messageName)
else:
mt.addMethod(selector.messageName,method.block.getName())
def defineExceptionMethod(self,symbolTable):
self.exception = False
class FakeSelector:
def __init__(self,name):
self.messageName = name
testerSelector = FakeSelector('internal_is'+self.name)
self.addMethod(symbolTable,testerSelector,
generateTrueMethod(testerSelector))
symbolTable['Object'].addMethod(symbolTable,testerSelector,
generateFalseMethod(testerSelector))
blk1 = Block()
blk1.add_instruction('BlockArg 0')
blk1.add_instruction("MCall 0 'internal_is%s'"%(self.name))
blk2 = Block()
blk2.add_instruction('Block #%s'%(blk1.getName()))
blk2.add_instruction('Arg 0')
blk2.add_instruction('Self')
blk2.add_instruction("MCall 2 'onExceptionMatching:do:'")
blk2.add_instruction("Return")
self.exceptionHandlingBlocks = [blk1,blk2]
symbolTable['Block'].addMethod(symbolTable,self.selector,
PseudoMethod(blk2.getName(),self.selector))
class GlobalDecl(ASTNode):
def tryParse(self):
publicToken = self.tokenizer.check('public')
if not publicToken:
publicToken = self.tokenizer.check('private')
if not self.tokenizer.check('global'):
if publicToken:
self.tokenizer.push(publicToken)
return False
self.tokenizer.require('$')
idToken = self.tokenizer.nextToken()
if idToken.type() != TokenTypes.identifier:
raise SyntaxError("expected identifier: "+idToken.errForm())
self.name = idToken.str
self.tokenizer.require('=')
self.expr = parseExpressionSimple(self.tokenizer)
if not self.expr:
raise SyntaxError('expression required for global')
self.tokenizer.require(';')
self.block = Block(innerBlock = False)
return True
def extractSymbols(self):
return {self.name: self}
def generateCode(self,symbolTable):
test_global = Global()
store_global = Global()
test_global.setName('test'+self.name)
store_global.setName('store'+self.name)
secondary_block = Block(innerBlock = True)
secondary_block.add_instruction('Global $store'+self.name)
secondary_block.add_instruction('Return')
blocks = []
self.block.add_instruction('Block #'+secondary_block.getName())
self.block.add_instruction('Global $test'+self.name)
self.block.add_instruction("MCall 1 'and:'")
self.block.add_instruction('Pop')
self.expr.generateCode(symbolTable,
{},
{'_return': None,'@':None,'_blocks':blocks},
None,
self.block,
self.block)
self.block.add_instruction('Dup')
self.block.add_instruction('StoreGlobal $store'+self.name)
self.block.add_instruction('Global $true')
self.block.add_instruction('StoreGlobal $test'+self.name)
self.block.add_instruction("Return")
return [self.block,secondary_block,store_global,test_global]+blocks
def loadCode(self,block):
block.add_instruction("Self")
block.add_instruction("Call 0 #%s"%(self.block.getName()))
return [self.block]
