return LITERAL_TYPE_MAPPING[type(expression)](expression)
if isinstance(expression, transformation.CFunctionCallForFurInfixOperator):
- return 'builtin${}({}, {})'.format(
+ return 'operator${}({}, {})'.format(
expression.name,
generate_expression(expression.left),
generate_expression(expression.right),
}[type(expression)](expression)
def generate_negation_expression(c_negation_expression):
- return 'builtin$negate({})'.format(
+ return 'operator$negate({})'.format(
generate_expression(c_negation_expression.value)
)
-def generate_function_call(c_function_call):
- return '{}({})'.format(
- c_function_call.name,
- ', '.join(generate_expression(argument) for argument in c_function_call.arguments),
+def generate_function_call(function_call):
+ return '{}({}, {})'.format(
+ function_call.name,
+ function_call.argument_count,
+ # TODO This is just a single item containing a reference to the items list--make that clearer
+ generate_expression(function_call.argument_items),
)
def generate_expression_statement(statement):
generate_expression(c_assignment_statement.expression),
)
+def generate_array_variable_initialization_statement(statement):
+ return 'Object {}[] = {{ {} }};'.format(
+ statement.variable,
+ ', '.join(generate_expression(i) for i in statement.items),
+ )
+
def generate_variable_initialization_statement(statement):
return 'Object {} = {};'.format(
statement.variable,
generate_expression(statement.expression),
)
+def generate_variable_reassignment_statement(statement):
+ return '{} = {};'.format(
+ statement.variable,
+ generate_expression(statement.expression),
+ )
+
+
+def indent(s):
+ return '\n'.join(' ' * 2 + l for l in s.split('\n'))
+
+def generate_if_else_statement(statement):
+ # TODO Check that the argument is boolean
+ return 'if({}.instance.boolean)\n{{\n{}\n}}\nelse\n{{\n{}\n}}'.format(
+ generate_expression(statement.condition_expression),
+ indent('\n'.join(generate_statement(s) for s in statement.if_statements)),
+ indent('\n'.join(generate_statement(s) for s in statement.else_statements)),
+ )
+
def generate_statement(statement):
return {
- transformation.CSymbolAssignmentStatement: generate_symbol_assignment_statement,
transformation.CExpressionStatement: generate_expression_statement,
+ transformation.CIfElseStatement: generate_if_else_statement,
+ transformation.CSymbolAssignmentStatement: generate_symbol_assignment_statement,
+ transformation.CArrayVariableInitializationStatement: generate_array_variable_initialization_statement,
transformation.CVariableInitializationStatement: generate_variable_initialization_statement,
+ transformation.CVariableReassignmentStatement: generate_variable_reassignment_statement,
}[type(statement)](statement)
def generate(program):