def buildBinaryOpNode(provider, node, source_ref): operator = getKind(node.op) if operator == "Div": operator = "TrueDiv" if getFutureSpec().isFutureDivision() else "OldDiv" left = buildNode(provider, node.left, source_ref) right = buildNode(provider, node.right, source_ref) result = makeBinaryOperationNode( operator=operator, left=left, right=right, source_ref=source_ref ) result.setCompatibleSourceReference(source_ref=right.getCompatibleSourceReference()) return result
def buildBinaryOpNode(provider, node, source_ref): operator = getKind(node.op) if operator == "Div" and source_ref.getFutureSpec().isFutureDivision(): operator = "TrueDiv" left = buildNode(provider, node.left, source_ref) right = buildNode(provider, node.right, source_ref) result = makeBinaryOperationNode( operator = operator, left = left, right = right, source_ref = source_ref ) result.setCompatibleSourceReference( source_ref = right.getCompatibleSourceReference() ) return result
def getDictUnpackingHelper(): helper_name = "_unpack_dict" result = makeInternalHelperFunctionBody( name=helper_name, parameters=ParameterSpec( ps_name=helper_name, ps_normal_args=(), ps_list_star_arg="args", ps_dict_star_arg=None, ps_default_count=0, ps_kw_only_args=(), ), ) temp_scope = None tmp_result_variable = result.allocateTempVariable(temp_scope, "dict") tmp_iter_variable = result.allocateTempVariable(temp_scope, "iter") tmp_item_variable = result.allocateTempVariable(temp_scope, "keys") loop_body = makeStatementsSequenceFromStatements( makeTryExceptSingleHandlerNode( tried=StatementAssignmentVariable( variable=tmp_item_variable, source=ExpressionBuiltinNext1( value=ExpressionTempVariableRef( variable=tmp_iter_variable, source_ref=internal_source_ref ), source_ref=internal_source_ref, ), source_ref=internal_source_ref, ), exception_name="StopIteration", handler_body=StatementLoopBreak(source_ref=internal_source_ref), source_ref=internal_source_ref, ), makeTryExceptSingleHandlerNode( tried=StatementDictOperationUpdate( dict_arg=ExpressionTempVariableRef( variable=tmp_result_variable, source_ref=internal_source_ref ), value=ExpressionTempVariableRef( variable=tmp_item_variable, source_ref=internal_source_ref ), source_ref=internal_source_ref, ), exception_name="AttributeError", handler_body=StatementRaiseException( exception_type=ExpressionBuiltinMakeException( exception_name="TypeError", args=( makeBinaryOperationNode( operator="Mod", left=makeConstantRefNode( constant="""\ '%s' object is not a mapping""", source_ref=internal_source_ref, user_provided=True, ), right=ExpressionMakeTuple( elements=( ExpressionAttributeLookup( source=ExpressionBuiltinType1( value=ExpressionTempVariableRef( variable=tmp_item_variable, source_ref=internal_source_ref, ), source_ref=internal_source_ref, ), attribute_name="__name__", source_ref=internal_source_ref, ), ), source_ref=internal_source_ref, ), source_ref=internal_source_ref, ), ), source_ref=internal_source_ref, ), exception_value=None, exception_trace=None, exception_cause=None, source_ref=internal_source_ref, ), source_ref=internal_source_ref, ), ) args_variable = result.getVariableForAssignment(variable_name="args") final = ( StatementReleaseVariable( variable=tmp_result_variable, source_ref=internal_source_ref ), StatementReleaseVariable( variable=tmp_iter_variable, source_ref=internal_source_ref ), StatementReleaseVariable( variable=tmp_item_variable, source_ref=internal_source_ref ), # We get handed our args responsibility. StatementDelVariable( variable=args_variable, tolerant=False, source_ref=internal_source_ref ), ) tried = makeStatementsSequenceFromStatements( StatementAssignmentVariable( variable=tmp_iter_variable, source=ExpressionBuiltinIter1( value=ExpressionVariableRef( variable=args_variable, source_ref=internal_source_ref ), source_ref=internal_source_ref, ), source_ref=internal_source_ref, ), StatementAssignmentVariable( variable=tmp_result_variable, source=makeConstantRefNode(constant={}, source_ref=internal_source_ref), source_ref=internal_source_ref, ), StatementLoop(body=loop_body, source_ref=internal_source_ref), StatementReturn( expression=ExpressionTempVariableRef( variable=tmp_result_variable, source_ref=internal_source_ref ), source_ref=internal_source_ref, ), ) result.setBody( makeStatementsSequenceFromStatement( makeTryFinallyStatement( provider=result, tried=tried, final=final, source_ref=internal_source_ref, ) ) ) return result
def buildAssignmentStatementsFromDecoded(provider, kind, detail, source, source_ref): # This is using many variable names on purpose, so as to give names to the # unpacked detail values, and has many branches due to the many cases # dealt with, pylint: disable=too-many-branches,too-many-locals,too-many-statements if kind == "Name": return StatementAssignmentVariableName( provider=provider, variable_name=detail, source=source, source_ref=source_ref, ) elif kind == "Attribute": lookup_source, attribute_name = detail return StatementAssignmentAttribute( expression=lookup_source, attribute_name=mangleName(attribute_name, provider), source=source, source_ref=source_ref, ) elif kind == "Subscript": subscribed, subscript = detail return StatementAssignmentSubscript( expression=subscribed, subscript=subscript, source=source, source_ref=source_ref, ) elif kind == "Slice": lookup_source, lower, upper = detail # For Python3 there is no slicing operation, this is always done # with subscript using a slice object. For Python2, it is only done # if no "step" is provided. use_sliceobj = python_version >= 300 if use_sliceobj: return StatementAssignmentSubscript( expression=lookup_source, source=source, subscript=makeExpressionBuiltinSlice(start=lower, stop=upper, step=None, source_ref=source_ref), source_ref=source_ref, ) else: return StatementAssignmentSlice( expression=lookup_source, lower=lower, upper=upper, source=source, source_ref=source_ref, ) elif kind == "Tuple": temp_scope = provider.allocateTempScope("tuple_unpack") source_iter_var = provider.allocateTempVariable(temp_scope=temp_scope, name="source_iter") element_vars = [ provider.allocateTempVariable(temp_scope=temp_scope, name="element_%d" % (element_index + 1)) for element_index in range(len(detail)) ] starred_list_var = None starred_index = None statements = [] for element_index, element in enumerate(detail): if element[0] == "Starred": if starred_index is not None: raiseSyntaxError( "two starred expressions in assignment" if python_version < 390 else "multiple starred expressions in assignment", source_ref.atColumnNumber(0), ) starred_index = element_index for element_index, element in enumerate(detail): element_var = element_vars[element_index] if starred_list_var is not None: statements.insert( starred_index + 1, StatementAssignmentVariable( variable=element_var, source=ExpressionListOperationPop( list_arg=ExpressionTempVariableRef( variable=starred_list_var, source_ref=source_ref), source_ref=source_ref, ), source_ref=source_ref, ), ) elif element[0] != "Starred": statements.append( StatementAssignmentVariable( variable=element_var, source=ExpressionSpecialUnpack( value=ExpressionTempVariableRef( variable=source_iter_var, source_ref=source_ref), count=element_index + 1, expected=starred_index or len(detail), starred=starred_index is not None, source_ref=source_ref, ), source_ref=source_ref, )) else: assert starred_index == element_index starred_list_var = element_var statements.append( StatementAssignmentVariable( variable=element_var, source=ExpressionBuiltinList( value=ExpressionTempVariableRef( variable=source_iter_var, source_ref=source_ref), source_ref=source_ref, ), source_ref=source_ref, )) if starred_list_var is None: statements.append( StatementSpecialUnpackCheck( iterator=ExpressionTempVariableRef( variable=source_iter_var, source_ref=source_ref), count=len(detail), source_ref=source_ref, )) else: statements.insert( starred_index + 1, makeStatementConditional( condition=makeComparisonExpression( comparator="Lt", left=ExpressionBuiltinLen( value=ExpressionTempVariableRef( variable=starred_list_var, source_ref=source_ref), source_ref=source_ref, ), right=makeConstantRefNode( constant=len(statements) - starred_index - 1, source_ref=source_ref, ), source_ref=source_ref, ), yes_branch=makeRaiseExceptionExpressionFromTemplate( exception_type="ValueError", template="""\ not enough values to unpack (expected at least %d, got %%d)""" % (len(statements) - 1), template_args=makeBinaryOperationNode( operator="Add", left=ExpressionBuiltinLen( value=ExpressionTempVariableRef( variable=starred_list_var, source_ref=source_ref), source_ref=source_ref, ), right=makeConstantRefNode(constant=starred_index, source_ref=source_ref), source_ref=source_ref, ), source_ref=source_ref, ).asStatement(), no_branch=None, source_ref=source_ref, ), ) if python_version >= 370: iter_creation_class = ExpressionBuiltinIterForUnpack else: iter_creation_class = ExpressionBuiltinIter1 statements = [ StatementAssignmentVariable( variable=source_iter_var, source=iter_creation_class(value=source, source_ref=source_ref), source_ref=source_ref, ), makeTryFinallyStatement( provider=provider, tried=statements, final=(StatementReleaseVariable(variable=source_iter_var, source_ref=source_ref), ), source_ref=source_ref, ), ] # When all is done, copy over to the actual assignment targets, starred # or not makes no difference here anymore. for element_index, element in enumerate(detail): if element[0] == "Starred": element = element[1] element_var = element_vars[element_index] statements.append( buildAssignmentStatementsFromDecoded( provider=provider, kind=element[0], detail=element[1], source=ExpressionTempVariableRef(variable=element_var, source_ref=source_ref), source_ref=source_ref, )) # Need to release temporary variables right after successful # usage. statements.append( StatementDelVariable(variable=element_var, tolerant=True, source_ref=source_ref)) final_statements = [] for element_var in element_vars: final_statements.append( StatementReleaseVariable(variable=element_var, source_ref=source_ref)) return makeTryFinallyStatement( provider=provider, tried=statements, final=final_statements, source_ref=source_ref, ) elif kind == "Starred": raiseSyntaxError( "starred assignment target must be in a list or tuple", source_ref.atColumnNumber(0), ) else: assert False, (kind, source_ref, detail)
def getDictUnpackingHelper(): helper_name = "_unpack_dict" result = ExpressionFunctionBody( provider = getInternalModule(), name = helper_name, doc = None, parameters = ParameterSpec( ps_name = helper_name, ps_normal_args = (), ps_list_star_arg = "args", ps_dict_star_arg = None, ps_default_count = 0, ps_kw_only_args = () ), flags = set(), source_ref = internal_source_ref ) temp_scope = None tmp_result_variable = result.allocateTempVariable(temp_scope, "dict") tmp_iter_variable = result.allocateTempVariable(temp_scope, "iter") tmp_item_variable = result.allocateTempVariable(temp_scope, "keys") loop_body = makeStatementsSequenceFromStatements( makeTryExceptSingleHandlerNode( tried = StatementAssignmentVariable( variable = tmp_item_variable, source = ExpressionBuiltinNext1( value = ExpressionTempVariableRef( variable = tmp_iter_variable, source_ref = internal_source_ref ), source_ref = internal_source_ref ), source_ref = internal_source_ref ), exception_name = "StopIteration", handler_body = StatementLoopBreak( source_ref = internal_source_ref ), source_ref = internal_source_ref ), makeTryExceptSingleHandlerNode( tried = StatementDictOperationUpdate( dict_arg = ExpressionTempVariableRef( variable = tmp_result_variable, source_ref = internal_source_ref ), value = ExpressionTempVariableRef( variable = tmp_item_variable, source_ref = internal_source_ref ), source_ref = internal_source_ref ), exception_name = "AttributeError", handler_body = StatementRaiseException( exception_type = ExpressionBuiltinMakeException( exception_name = "TypeError", args = ( makeBinaryOperationNode( operator = "Mod", left = makeConstantRefNode( constant = """\ '%s' object is not a mapping""", source_ref = internal_source_ref, user_provided = True ), right = ExpressionMakeTuple( elements = ( ExpressionAttributeLookup( source = ExpressionBuiltinType1( value = ExpressionTempVariableRef( variable = tmp_item_variable, source_ref = internal_source_ref ), source_ref = internal_source_ref ), attribute_name = "__name__", source_ref = internal_source_ref ), ), source_ref = internal_source_ref ), source_ref = internal_source_ref ), ), source_ref = internal_source_ref ), exception_value = None, exception_trace = None, exception_cause = None, source_ref = internal_source_ref ), source_ref = internal_source_ref ) ) args_variable = result.getVariableForAssignment( variable_name = "args" ) final = ( StatementReleaseVariable( variable = tmp_result_variable, source_ref = internal_source_ref ), StatementReleaseVariable( variable = tmp_iter_variable, source_ref = internal_source_ref ), StatementReleaseVariable( variable = tmp_item_variable, source_ref = internal_source_ref ), # We get handed our args responsibility. StatementDelVariable( variable = args_variable, tolerant = False, source_ref = internal_source_ref ) ) tried = makeStatementsSequenceFromStatements( StatementAssignmentVariable( variable = tmp_iter_variable, source = ExpressionBuiltinIter1( value = ExpressionVariableRef( variable = args_variable, source_ref = internal_source_ref ), source_ref = internal_source_ref ), source_ref = internal_source_ref ), StatementAssignmentVariable( variable = tmp_result_variable, source = makeConstantRefNode( constant = {}, source_ref = internal_source_ref ), source_ref = internal_source_ref ), StatementLoop( body = loop_body, source_ref = internal_source_ref ), StatementReturn( expression = ExpressionTempVariableRef( variable = tmp_result_variable, source_ref = internal_source_ref ), source_ref = internal_source_ref ) ) result.setBody( makeStatementsSequenceFromStatement( makeTryFinallyStatement( provider = result, tried = tried, final = final, source_ref = internal_source_ref ) ) ) return result
def buildAssignmentStatementsFromDecoded(provider, kind, detail, source, source_ref): # This is using many variable names on purpose, so as to give names to the # unpacked detail values, and has many branches due to the many cases # dealt with, pylint: disable=too-many-branches,too-many-locals,too-many-statements if kind == "Name": return StatementAssignmentVariableName( provider=provider, variable_name=detail, source=source, source_ref=source_ref, ) elif kind == "Attribute": lookup_source, attribute_name = detail return StatementAssignmentAttribute( expression=lookup_source, attribute_name=attribute_name, source=source, source_ref=source_ref, ) elif kind == "Subscript": subscribed, subscript = detail return StatementAssignmentSubscript( expression=subscribed, subscript=subscript, source=source, source_ref=source_ref, ) elif kind == "Slice": lookup_source, lower, upper = detail # For Python3 there is no slicing operation, this is always done # with subscript using a slice object. For Python2, it is only done # if no "step" is provided. use_sliceobj = python_version >= 300 if use_sliceobj: return StatementAssignmentSubscript( expression=lookup_source, source=source, subscript=ExpressionBuiltinSlice( start=lower, stop=upper, step=None, source_ref=source_ref ), source_ref=source_ref, ) else: return StatementAssignmentSlice( expression=lookup_source, lower=lower, upper=upper, source=source, source_ref=source_ref, ) elif kind == "Tuple": temp_scope = provider.allocateTempScope("tuple_unpack") source_iter_var = provider.allocateTempVariable( temp_scope=temp_scope, name="source_iter" ) element_vars = [ provider.allocateTempVariable( temp_scope=temp_scope, name="element_%d" % (element_index + 1) ) for element_index in range(len(detail)) ] starred_list_var = None starred_index = None statements = [] for element_index, element in enumerate(detail): if element[0] == "Starred": if starred_index is not None: raiseSyntaxError( "two starred expressions in assignment", source_ref.atColumnNumber(0), ) starred_index = element_index for element_index, element in enumerate(detail): element_var = element_vars[element_index] if starred_list_var is not None: statements.insert( starred_index + 1, StatementAssignmentVariable( variable=element_var, source=ExpressionListOperationPop( list_arg=ExpressionTempVariableRef( variable=starred_list_var, source_ref=source_ref ), source_ref=source_ref, ), source_ref=source_ref, ), ) elif element[0] != "Starred": statements.append( StatementAssignmentVariable( variable=element_var, source=ExpressionSpecialUnpack( value=ExpressionTempVariableRef( variable=source_iter_var, source_ref=source_ref ), count=element_index + 1, expected=starred_index or len(detail), starred=starred_index is not None, source_ref=source_ref, ), source_ref=source_ref, ) ) else: assert starred_index == element_index starred_list_var = element_var statements.append( StatementAssignmentVariable( variable=element_var, source=ExpressionBuiltinList( value=ExpressionTempVariableRef( variable=source_iter_var, source_ref=source_ref ), source_ref=source_ref, ), source_ref=source_ref, ) ) if starred_list_var is None: statements.append( StatementSpecialUnpackCheck( iterator=ExpressionTempVariableRef( variable=source_iter_var, source_ref=source_ref ), count=len(detail), source_ref=source_ref, ) ) else: statements.insert( starred_index + 1, makeStatementConditional( condition=makeComparisonExpression( comparator="Lt", left=ExpressionBuiltinLen( value=ExpressionTempVariableRef( variable=starred_list_var, source_ref=source_ref ), source_ref=source_ref, ), right=makeConstantRefNode( constant=len(statements) - starred_index - 1, source_ref=source_ref, ), source_ref=source_ref, ), yes_branch=makeRaiseExceptionExpressionFromTemplate( exception_type="ValueError", template="""\ not enough values to unpack (expected at least %d, got %%d)""" % (len(statements) - 1), template_args=makeBinaryOperationNode( operator="Add", left=ExpressionBuiltinLen( value=ExpressionTempVariableRef( variable=starred_list_var, source_ref=source_ref ), source_ref=source_ref, ), right=makeConstantRefNode( constant=starred_index, source_ref=source_ref ), source_ref=source_ref, ), source_ref=source_ref, ).asStatement(), no_branch=None, source_ref=source_ref, ), ) if python_version >= 370: iter_creation_class = ExpressionBuiltinIterForUnpack else: iter_creation_class = ExpressionBuiltinIter1 statements = [ StatementAssignmentVariable( variable=source_iter_var, source=iter_creation_class(value=source, source_ref=source_ref), source_ref=source_ref, ), makeTryFinallyStatement( provider=provider, tried=statements, final=( StatementReleaseVariable( variable=source_iter_var, source_ref=source_ref ), ), source_ref=source_ref, ), ] # When all is done, copy over to the actual assignment targets, starred # or not makes no difference here anymore. for element_index, element in enumerate(detail): if element[0] == "Starred": element = element[1] element_var = element_vars[element_index] statements.append( buildAssignmentStatementsFromDecoded( provider=provider, kind=element[0], detail=element[1], source=ExpressionTempVariableRef( variable=element_var, source_ref=source_ref ), source_ref=source_ref, ) ) # Need to release temporary variables right after successful # usage. statements.append( StatementDelVariable( variable=element_var, tolerant=True, source_ref=source_ref ) ) final_statements = [] for element_var in element_vars: final_statements.append( StatementReleaseVariable(variable=element_var, source_ref=source_ref) ) return makeTryFinallyStatement( provider=provider, tried=statements, final=final_statements, source_ref=source_ref, ) elif kind == "Starred": raiseSyntaxError( "starred assignment target must be in a list or tuple", source_ref.atColumnNumber(0), ) else: assert False, (kind, source_ref, detail)