src/mem/slicc/ast/MethodCallExprAST.py - public/gem5 - Git at Google

 # Copyright (c) 1999-2008 Mark D. Hill and David A. Wood
 # Copyright (c) 2009 The Hewlett-Packard Development Company
 # All rights reserved.
 #
 # Redistribution and use in source and binary forms, with or without
 # modification, are permitted provided that the following conditions are
 # met: redistributions of source code must retain the above copyright
 # notice, this list of conditions and the following disclaimer;
 # redistributions in binary form must reproduce the above copyright
 # notice, this list of conditions and the following disclaimer in the
 # documentation and/or other materials provided with the distribution;
 # neither the name of the copyright holders nor the names of its
 # contributors may be used to endorse or promote products derived from
 # this software without specific prior written permission.
 #
 # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 from slicc.ast.ExprAST import ExprAST

 class MethodCallExprAST(ExprAST):
     def __init__(self, slicc, proc_name, expr_ast_vec):
         super().__init__(slicc)
         self.proc_name = proc_name
         self.expr_ast_vec = expr_ast_vec

     def generate(self, code, **kwargs):
         tmp = self.slicc.codeFormatter()
         paramTypes = []
         for expr_ast in self.expr_ast_vec:
             return_type = expr_ast.generate(tmp)
             paramTypes.append(return_type)

         obj_type, methodId, prefix = self.generate_prefix(paramTypes)

         # generate code
         params = []
         for expr_ast in self.expr_ast_vec:
             return_type,tcode = expr_ast.inline(True)
             params.append(str(tcode))
         fix = code.nofix()
         code("$prefix${{self.proc_name}}(${{', '.join(params)}}))")
         code.fix(fix)

         # Verify that this is a method of the object
         if methodId not in obj_type.methods:
             self.error("Invalid method call: Type '%s' does not have a method '%s'",
                        obj_type, methodId)

         func = obj_type.methods[methodId]
         func.checkArguments(self.expr_ast_vec)

         # Return the return type of the method
         return obj_type.methods[methodId].return_type

     def findResources(self, resources):
         pass

 class MemberMethodCallExprAST(MethodCallExprAST):
     def __init__(self, slicc, obj_expr_ast, func_call):
         s = super()
         s.__init__(slicc, func_call.proc_name, func_call.exprs)
         self.obj_expr_ast = obj_expr_ast

     def __repr__(self):
         return "[MethodCallExpr: %r%r %r]" % (self.proc_name,
                                               self.obj_expr_ast,
                                               self.expr_ast_vec)
     def generate_prefix(self, paramTypes):
         code = self.slicc.codeFormatter()

         # member method call
         obj_type = self.obj_expr_ast.generate(code)
         methodId = obj_type.methodId(self.proc_name, paramTypes)

         prefix = ""
         implements_interface = False

         if methodId in obj_type.methods:
             return_type = obj_type.methods[methodId].return_type

         else:
             #
             # Check whether the method is implemented by the super class
             if "interface" in obj_type:
                 interface_type = self.symtab.find(obj_type["interface"]);

                 if methodId in interface_type.methods:
                     return_type = interface_type.methods[methodId].return_type
                     obj_type = interface_type

                 else:
                     self.error("Invalid method call: " \
                                "Type '%s' does not have a method %s, '%s'",
                                obj_type, self.proc_name, methodId)

             else:
                   #
                   # The initial method check has failed, but before generating an
                   # error we must check whether any of the paramTypes implement
                   # an interface.  If so, we must check if the method ids using
                   # the inherited types exist.
                   #
                   # This code is a temporary fix and only checks for the methodId
                   # where all paramTypes are converted to their inherited type.  The
                   # right way to do this is to replace slicc's simple string
                   # comparison for determining the correct overloaded method, with a
                   # more robust param by param check.
                   #
                   implemented_paramTypes = []
                   for paramType in paramTypes:
                       implemented_paramType = paramType
                       if paramType.isInterface:
                           implements_interface = True
                           implemented_paramType.abstract_ident = paramType["interface"]
                       else:
                           implemented_paramType.abstract_ident = paramType.c_ident

                       implemented_paramTypes.append(implemented_paramType)

                   implementedMethodId = ""
                   if implements_interface:
                       implementedMethodId = obj_type.methodIdAbstract(
                               self.proc_name, implemented_paramTypes)

                   if implementedMethodId not in obj_type.methods:
                       self.error("Invalid method call: Type '%s' " \
                                  "does not have a method %s, '%s' nor '%s'",
                                  obj_type, self.proc_name, methodId,
                                  implementedMethodId)

                   # Replace the methodId with the implementedMethodId
                   # found in the method list.
                   methodId = implementedMethodId
                   return_type = obj_type.methods[methodId].return_type

         # Check object type or interface of entries by checking
         # AbstractCacheEntry since AbstractCacheEntry is used in
         # protocol files.
         if str(obj_type) == "AbstractCacheEntry" or \
            ("interface" in obj_type and (
             obj_type["interface"] == "AbstractCacheEntry")):
             prefix = "%s((*(%s))." % (prefix, code)
         else:
             prefix = "%s((%s)." % (prefix, code)

         return obj_type, methodId, prefix

 class ClassMethodCallExprAST(MethodCallExprAST):
     def __init__(self, slicc, type_ast, proc_name, expr_ast_vec):
         s = super()
         s.__init__(slicc, proc_name, expr_ast_vec)

         self.type_ast = type_ast

     def __repr__(self):
         return "[MethodCallExpr: %r %r]" % (self.proc_name, self.expr_ast_vec)

     def generate_prefix(self, paramTypes):

         # class method call
         prefix = "(%s::" % self.type_ast
         obj_type = self.type_ast.type
         methodId = obj_type.methodId(self.proc_name, paramTypes)

         return obj_type, methodId, prefix

 __all__ = [ "MemberMethodCallExprAST", "ClassMethodCallExprAST" ]
	# Copyright (c) 1999-2008 Mark D. Hill and David A. Wood
	# Copyright (c) 2009 The Hewlett-Packard Development Company
	# All rights reserved.
	#
	# Redistribution and use in source and binary forms, with or without
	# modification, are permitted provided that the following conditions are
	# met: redistributions of source code must retain the above copyright
	# notice, this list of conditions and the following disclaimer;
	# redistributions in binary form must reproduce the above copyright
	# notice, this list of conditions and the following disclaimer in the
	# documentation and/or other materials provided with the distribution;
	# neither the name of the copyright holders nor the names of its
	# contributors may be used to endorse or promote products derived from
	# this software without specific prior written permission.
	#
	# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	from slicc.ast.ExprAST import ExprAST

	class MethodCallExprAST(ExprAST):
	def __init__(self, slicc, proc_name, expr_ast_vec):
	super().__init__(slicc)
	self.proc_name = proc_name
	self.expr_ast_vec = expr_ast_vec

	def generate(self, code, **kwargs):
	tmp = self.slicc.codeFormatter()
	paramTypes = []
	for expr_ast in self.expr_ast_vec:
	return_type = expr_ast.generate(tmp)
	paramTypes.append(return_type)

	obj_type, methodId, prefix = self.generate_prefix(paramTypes)

	# generate code
	params = []
	for expr_ast in self.expr_ast_vec:
	return_type,tcode = expr_ast.inline(True)
	params.append(str(tcode))
	fix = code.nofix()
	code("$prefix${{self.proc_name}}(${{', '.join(params)}}))")
	code.fix(fix)

	# Verify that this is a method of the object
	if methodId not in obj_type.methods:
	self.error("Invalid method call: Type '%s' does not have a method '%s'",
	obj_type, methodId)

	func = obj_type.methods[methodId]
	func.checkArguments(self.expr_ast_vec)

	# Return the return type of the method
	return obj_type.methods[methodId].return_type

	def findResources(self, resources):
	pass

	class MemberMethodCallExprAST(MethodCallExprAST):
	def __init__(self, slicc, obj_expr_ast, func_call):
	s = super()
	s.__init__(slicc, func_call.proc_name, func_call.exprs)
	self.obj_expr_ast = obj_expr_ast

	def __repr__(self):
	return "[MethodCallExpr: %r%r %r]" % (self.proc_name,
	self.obj_expr_ast,
	self.expr_ast_vec)
	def generate_prefix(self, paramTypes):
	code = self.slicc.codeFormatter()

	# member method call
	obj_type = self.obj_expr_ast.generate(code)
	methodId = obj_type.methodId(self.proc_name, paramTypes)

	prefix = ""
	implements_interface = False

	if methodId in obj_type.methods:
	return_type = obj_type.methods[methodId].return_type

	else:
	#
	# Check whether the method is implemented by the super class
	if "interface" in obj_type:
	interface_type = self.symtab.find(obj_type["interface"]);

	if methodId in interface_type.methods:
	return_type = interface_type.methods[methodId].return_type
	obj_type = interface_type

	else:
	self.error("Invalid method call: " \
	"Type '%s' does not have a method %s, '%s'",
	obj_type, self.proc_name, methodId)

	else:
	#
	# The initial method check has failed, but before generating an
	# error we must check whether any of the paramTypes implement
	# an interface. If so, we must check if the method ids using
	# the inherited types exist.
	#
	# This code is a temporary fix and only checks for the methodId
	# where all paramTypes are converted to their inherited type. The
	# right way to do this is to replace slicc's simple string
	# comparison for determining the correct overloaded method, with a
	# more robust param by param check.
	#
	implemented_paramTypes = []
	for paramType in paramTypes:
	implemented_paramType = paramType
	if paramType.isInterface:
	implements_interface = True
	implemented_paramType.abstract_ident = paramType["interface"]
	else:
	implemented_paramType.abstract_ident = paramType.c_ident

	implemented_paramTypes.append(implemented_paramType)

	implementedMethodId = ""
	if implements_interface:
	implementedMethodId = obj_type.methodIdAbstract(
	self.proc_name, implemented_paramTypes)

	if implementedMethodId not in obj_type.methods:
	self.error("Invalid method call: Type '%s' " \
	"does not have a method %s, '%s' nor '%s'",
	obj_type, self.proc_name, methodId,
	implementedMethodId)

	# Replace the methodId with the implementedMethodId
	# found in the method list.
	methodId = implementedMethodId
	return_type = obj_type.methods[methodId].return_type

	# Check object type or interface of entries by checking
	# AbstractCacheEntry since AbstractCacheEntry is used in
	# protocol files.
	if str(obj_type) == "AbstractCacheEntry" or \
	("interface" in obj_type and (
	obj_type["interface"] == "AbstractCacheEntry")):
	prefix = "%s((*(%s))." % (prefix, code)
	else:
	prefix = "%s((%s)." % (prefix, code)

	return obj_type, methodId, prefix

	class ClassMethodCallExprAST(MethodCallExprAST):
	def __init__(self, slicc, type_ast, proc_name, expr_ast_vec):
	s = super()
	s.__init__(slicc, proc_name, expr_ast_vec)

	self.type_ast = type_ast

	def __repr__(self):
	return "[MethodCallExpr: %r %r]" % (self.proc_name, self.expr_ast_vec)

	def generate_prefix(self, paramTypes):

	# class method call
	prefix = "(%s::" % self.type_ast
	obj_type = self.type_ast.type
	methodId = obj_type.methodId(self.proc_name, paramTypes)

	return obj_type, methodId, prefix

	__all__ = [ "MemberMethodCallExprAST", "ClassMethodCallExprAST" ]