],
)
-CFunctionCallStatement = collections.namedtuple(
- 'CFunctionCallStatement',
+CSymbolExpression = collections.namedtuple(
+ 'CSymbolExpression',
+ [
+ 'symbol',
+ 'symbol_list_index',
+ ],
+)
+
+CNegationExpression = collections.namedtuple(
+ 'CNegationExpression',
+ [
+ 'value',
+ ],
+)
+
+CAdditionExpression = collections.namedtuple(
+ 'CAdditionExpression',
+ [
+ 'left',
+ 'right',
+ ],
+)
+
+CSubtractionExpression = collections.namedtuple(
+ 'CSubtractionExpression',
+ [
+ 'left',
+ 'right',
+ ],
+)
+
+CMultiplicationExpression = collections.namedtuple(
+ 'CMultiplicationExpression',
+ [
+ 'left',
+ 'right',
+ ],
+)
+
+CIntegerDivisionExpression = collections.namedtuple(
+ 'CIntegerDivisionExpression',
+ [
+ 'left',
+ 'right',
+ ],
+)
+
+CModularDivisionExpression = collections.namedtuple(
+ 'CModularDivisionExpression',
+ [
+ 'left',
+ 'right',
+ ],
+)
+
+CFunctionCallExpression = collections.namedtuple(
+ 'CFunctionCallExpression',
[
'name',
'arguments',
],
)
+CAssignmentStatement = collections.namedtuple(
+ 'CAssignmentStatement',
+ [
+ 'target',
+ 'target_symbol_list_index',
+ 'expression',
+ ],
+)
+
CProgram = collections.namedtuple(
'CProgram',
[
'builtins',
'statements',
'standard_libraries',
+ 'symbol_list',
],
)
BUILTINS = {
- 'print': ['stdio.h.'],
+ 'pow': ['math.h'],
+ 'print': ['stdio.h'],
}
-def transform_argument(builtin_dependencies, argument):
- return {
- parsing.IntegerLiteral: CIntegerLiteral,
- parsing.StringLiteral: CStringLiteral,
- }[type(argument)](value=argument.value)
+def transform_expression(builtin_dependencies, symbol_list, expression):
+ if isinstance(expression, parsing.FurNegationExpression):
+ return transform_negation_expression(builtin_dependencies, symbol_list, expression)
-def transform_function_call_statement(builtin_dependencies, function_call):
- if function_call.name in BUILTINS.keys():
- builtin_dependencies.add(function_call.name)
+ if isinstance(expression, parsing.FurFunctionCallExpression):
+ return transform_function_call_expression(builtin_dependencies, symbol_list, expression)
- return CFunctionCallStatement(
- name='builtin$' + function_call.name,
- arguments=tuple(transform_argument(builtin_dependencies, arg) for arg in function_call.arguments),
+ if isinstance(expression, parsing.FurSymbolExpression):
+ if expression.value not in symbol_list:
+ symbol_list.append(expression.value)
+
+ return CSymbolExpression(
+ symbol=expression.value,
+ symbol_list_index=symbol_list.index(expression.value),
+ )
+
+ LITERAL_TYPE_MAPPING = {
+ parsing.FurIntegerLiteralExpression: CIntegerLiteral,
+ parsing.FurStringLiteralExpression: CStringLiteral,
+ }
+
+ 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, symbol_list, expression.left),
+ right=transform_expression(builtin_dependencies, symbol_list, expression.right),
+ )
+
+def transform_assignment_statement(builtin_dependencies, symbol_list, assignment_statement):
+ # TODO Check that target is not a builtin
+ if assignment_statement.target not in symbol_list:
+ symbol_list.append(assignment_statement.target)
+
+ return CAssignmentStatement(
+ target=assignment_statement.target,
+ target_symbol_list_index=symbol_list.index(assignment_statement.target),
+ expression=transform_expression(
+ builtin_dependencies,
+ symbol_list,
+ assignment_statement.expression,
+ ),
+ )
+
+def transform_negation_expression(builtin_dependencies, symbol_list, negation_expression):
+ return CNegationExpression(
+ value=transform_expression(builtin_dependencies, symbol_list, negation_expression.value),
+ )
+
+def transform_function_call_expression(builtin_dependencies, symbol_list, function_call):
+ if function_call.function.value in BUILTINS.keys():
+ builtin_dependencies.add(function_call.function.value)
+
+ return CFunctionCallExpression(
+ name='builtin$' + function_call.function.value,
+ arguments=tuple(
+ transform_expression(builtin_dependencies, symbol_list, arg)
+ for arg in function_call.arguments
+ ),
)
raise Exception()
+def transform_statement(builtin_dependencies, symbol_list, statement):
+ return {
+ parsing.FurAssignmentStatement: transform_assignment_statement,
+ parsing.FurFunctionCallExpression: transform_function_call_expression,
+ }[type(statement)](builtin_dependencies, symbol_list, statement)
-def transform(function_call):
+def transform(program):
builtins = set()
+ symbol_list = []
- statement = transform_function_call_statement(builtins, function_call)
+ c_statements = [
+ transform_statement(builtins, symbol_list, statement) for statement in program.statement_list
+ ]
standard_libraries = set()
for builtin in builtins:
return CProgram(
builtins=builtins,
- statements=[statement],
+ statements=c_statements,
standard_libraries=standard_libraries,
+ symbol_list=symbol_list,
)