-def transform_expression(builtin_dependencies, expression):
- if isinstance(expression, parsing.FurNegationExpression):
- return transform_negation_expression(builtin_dependencies, expression)
-
- if isinstance(expression, parsing.FurFunctionCallExpression):
- return transform_function_call_expression(builtin_dependencies, expression)
-
- LITERAL_TYPE_MAPPING = {
- parsing.FurIntegerLiteralExpression: CIntegerLiteral,
- parsing.FurStringLiteralExpression: CStringLiteral,
- parsing.FurSymbolExpression: CSymbolExpression,
- }
-
- if type(expression) in LITERAL_TYPE_MAPPING:
- return LITERAL_TYPE_MAPPING[type(expression)](value=expression.value)
-
- INFIX_TYPE_MAPPING = {
- parsing.FurAdditionExpression: CAdditionExpression,
- parsing.FurSubtractionExpression: CSubtractionExpression,
- parsing.FurMultiplicationExpression: CMultiplicationExpression,
- parsing.FurIntegerDivisionExpression: CIntegerDivisionExpression,
- parsing.FurModularDivisionExpression: CModularDivisionExpression,
- }
-
- return INFIX_TYPE_MAPPING[type(expression)](
- left=transform_expression(builtin_dependencies, expression.left),
- right=transform_expression(builtin_dependencies, expression.right),
+def transform_variable_expression(accumulators, expression):
+ return CVariableExpression(variable=expression.variable)
+
+def transform_string_literal_expression(accumulators, expression):
+ value = expression.string
+
+ try:
+ index = accumulators.string_literal_list.index(value)
+ except ValueError:
+ index = len(accumulators.string_literal_list)
+ accumulators.string_literal_list.append(value)
+
+ return CStringLiteral(index=index, value=value)
+
+def transform_symbol_expression(accumulators, expression):
+ if expression.symbol in ['true', 'false']:
+ return CConstantExpression(value=expression.symbol)
+
+ try:
+ symbol_list_index = accumulators.symbol_list.index(expression.symbol)
+ except ValueError:
+ symbol_list_index = len(accumulators.symbol_list)
+ accumulators.symbol_list.append(expression.symbol)
+
+ return CSymbolExpression(
+ symbol=expression.symbol,
+ symbol_list_index=symbol_list_index,
+ )
+
+CInfixDeclaration = collections.namedtuple(
+ 'CInfixDeclaration',
+ [
+ 'name',
+ 'in_type',
+ 'out_type',
+ 'operator',
+ ],
+)
+
+INFIX_OPERATOR_TO_DECLARATION = {
+ '+': CInfixDeclaration(name='add', in_type='integer', out_type='integer', operator='+'),
+ '-': CInfixDeclaration(name='subtract', in_type='integer', out_type='integer', operator='-'),
+ '*': CInfixDeclaration(name='multiply', in_type='integer', out_type='integer', operator='*'),
+ '//': CInfixDeclaration(name='integerDivide', in_type='integer', out_type='integer', operator='/'),
+ '%': CInfixDeclaration(name='modularDivide', in_type='integer', out_type='integer', operator='%'),
+ 'and': CInfixDeclaration(name='and', in_type='boolean', out_type='boolean', operator='&&'),
+ 'or': CInfixDeclaration(name='or', in_type='boolean', out_type='boolean', operator='||'),
+ '==': CInfixDeclaration(name='equals', in_type='integer', out_type='boolean', operator='=='),
+ '!=': CInfixDeclaration(name='notEquals', in_type='integer', out_type='boolean', operator='!='),
+ '<=': CInfixDeclaration(name='lessThanOrEqual', in_type='integer', out_type='boolean', operator='<='),
+ '>=': CInfixDeclaration(name='greaterThanOrEqual', in_type='integer', out_type='boolean', operator='>='),
+ '<': CInfixDeclaration(name='lessThan', in_type='integer', out_type='boolean', operator='<'),
+ '>': CInfixDeclaration(name='greaterThan', in_type='integer', out_type='boolean', operator='>'),
+}
+
+def transform_comparison_level_expression(accumulators, expression):
+ accumulators.operator_set.add(INFIX_OPERATOR_TO_DECLARATION[expression.operator])
+
+ # Transform expressions like 1 < 2 < 3 into expressions like 1 < 2 && 2 < 3
+ if isinstance(expression.left, parsing.FurInfixExpression) and expression.left.order == 'comparison_level':
+ left = transform_comparison_level_expression(
+ accumulators,
+ expression.left
+ )
+
+ middle = left.right
+
+ right = transform_expression(
+ accumulators,
+ expression.right,
+ )
+
+ # TODO Don't evaluate the middle expression twice
+ return CFunctionCallForFurInfixOperator(
+ name='and',
+ left=left,
+ right=CFunctionCallForFurInfixOperator(
+ name=INFIX_OPERATOR_TO_DECLARATION[expression.operator].name,
+ left=middle,
+ right=right,
+ ),
+ )
+
+ return CFunctionCallForFurInfixOperator(
+ name=INFIX_OPERATOR_TO_DECLARATION[expression.operator].name,
+ left=transform_expression(accumulators, expression.left),
+ right=transform_expression(accumulators, expression.right),
+ )
+
+def transform_infix_expression(accumulators, expression):
+ if expression.order == 'comparison_level':
+ return transform_comparison_level_expression(accumulators, expression)
+
+ accumulators.operator_set.add(INFIX_OPERATOR_TO_DECLARATION[expression.operator])
+
+ return CFunctionCallForFurInfixOperator(
+ name=INFIX_OPERATOR_TO_DECLARATION[expression.operator].name,
+ left=transform_expression(accumulators, expression.left),
+ right=transform_expression(accumulators, expression.right),