],
)
+CStructureLiteralExpression = collections.namedtuple(
+ 'CStructureLiteralExpression',
+ [
+ 'field_count',
+ 'symbol_list_variable',
+ 'value_list_variable',
+ ],
+)
+
+CDotExpression = collections.namedtuple(
+ 'CDotExpression',
+ [
+ 'instance',
+ 'symbol',
+ 'symbol_list_index',
+ ],
+)
+
CNegationExpression = collections.namedtuple(
'CNegationExpression',
[
CFunctionCallForFurInfixOperator = collections.namedtuple(
'CFunctionCallForFurInfixOperator',
[
+ 'metadata',
'name',
- 'left',
- 'right',
],
)
+CPushStatement = collections.namedtuple(
+ 'CPushStatement',
+ (
+ 'expression',
+ ),
+)
+
CFunctionCallExpression = collections.namedtuple(
'CFunctionCallExpression',
[
'function_expression',
'argument_count',
- 'argument_items',
],
)
],
)
+CSymbolArrayVariableInitializationStatement = collections.namedtuple(
+ 'CSymbolArrayVariableInitializationStatement',
+ [
+ 'variable',
+ 'symbol_list',
+ 'symbol_list_indices',
+ ],
+)
+
CVariableInitializationStatement = collections.namedtuple(
'CVariableInitializationStatement',
[
)
BUILTINS = {
+ 'concatenate': [],
'false': [],
'pow': ['math.h'],
'print': ['stdio.h'],
}
def transform_variable_expression(accumulators, expression):
+ assert isinstance(expression, normalization.NormalVariableExpression)
return CVariableExpression(variable=expression.variable)
def transform_string_literal_expression(accumulators, expression):
],
)
-INFIX_OPERATOR_TO_DECLARATION = {
+FUR_INFIX_OPERATOR_TO_C_FUNCTION = {
+ '++': 'concatenate',
+}
+
+FUR_INFIX_OPERATOR_TO_C_INFIX_OPERATOR = {
'+': 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='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,
- ),
- )
-
+def transform_infix_operator_without_c_equivalent(accumulators, expression):
return CFunctionCallForFurInfixOperator(
- name=INFIX_OPERATOR_TO_DECLARATION[expression.operator].name,
- left=transform_expression(accumulators, expression.left),
- right=transform_expression(accumulators, expression.right),
+ metadata=expression.metadata,
+ name='concatenate',
)
def transform_infix_expression(accumulators, expression):
- if expression.order == 'comparison_level':
- return transform_comparison_level_expression(accumulators, expression)
+ if expression.operator in FUR_INFIX_OPERATOR_TO_C_FUNCTION:
+ return transform_infix_operator_without_c_equivalent(accumulators, expression)
- accumulators.operator_set.add(INFIX_OPERATOR_TO_DECLARATION[expression.operator])
+ accumulators.operator_set.add(FUR_INFIX_OPERATOR_TO_C_INFIX_OPERATOR[expression.operator])
return CFunctionCallForFurInfixOperator(
- name=INFIX_OPERATOR_TO_DECLARATION[expression.operator].name,
- left=transform_expression(accumulators, expression.left),
- right=transform_expression(accumulators, expression.right),
+ metadata=expression.metadata,
+ name=FUR_INFIX_OPERATOR_TO_C_INFIX_OPERATOR[expression.operator].name,
)
def transform_integer_literal_expression(accumulators, expression):
],
)
+def transform_structure_literal_expression(accumulators, expression):
+ return CStructureLiteralExpression(
+ field_count=expression.field_count,
+ symbol_list_variable=expression.symbol_list_variable,
+ value_list_variable=expression.value_list_variable,
+ )
+
+def transform_dot_expression(accumulators, expression):
+ try:
+ symbol_list_index = accumulators.symbol_list.index(expression.field)
+
+ except ValueError:
+ symbol_list_index = len(accumulators.symbol_list)
+ accumulators.symbol_list.append(expression.field)
+
+ return CDotExpression(
+ instance=transform_variable_expression(accumulators, expression.instance),
+ symbol=expression.field,
+ symbol_list_index=symbol_list_index,
+ )
+
def transform_list_construct_expression(accumulators, expression):
return CListConstructExpression(allocate=expression.allocate)
parsing.FurIntegerLiteralExpression: transform_integer_literal_expression,
parsing.FurNegationExpression: transform_negation_expression,
parsing.FurStringLiteralExpression: transform_string_literal_expression,
+ normalization.NormalDotExpression: transform_dot_expression,
normalization.NormalFunctionCallExpression: transform_function_call_expression,
normalization.NormalInfixExpression: transform_infix_expression,
normalization.NormalIntegerLiteralExpression: transform_integer_literal_expression,
normalization.NormalListConstructExpression: transform_list_construct_expression,
normalization.NormalListGetExpression: transform_list_get_expression,
normalization.NormalNegationExpression: transform_negation_expression,
+ normalization.NormalStructureLiteralExpression: transform_structure_literal_expression,
normalization.NormalStringLiteralExpression: transform_string_literal_expression,
normalization.NormalSymbolExpression: transform_symbol_expression,
normalization.NormalVariableExpression: transform_variable_expression,
return CFunctionCallExpression(
function_expression=transform_expression(accumulators, function_call.function_expression),
argument_count=function_call.argument_count,
- argument_items=transform_expression(accumulators, function_call.argument_items),
)
def transform_expression_statement(accumulators, statement):
items=tuple(transform_expression(accumulators, i) for i in statement.items),
)
+def transform_symbol_array_variable_initialization_statement(accumulators, statement):
+ symbol_list_indices = []
+
+ for symbol in statement.symbol_list:
+ try:
+ symbol_list_index = accumulators.symbol_list.index(symbol)
+ except ValueError:
+ symbol_list_index = len(accumulators.symbol_list)
+ accumulators.symbol_list.append(symbol)
+
+ symbol_list_indices.append(symbol_list_index)
+
+ return CSymbolArrayVariableInitializationStatement(
+ variable=statement.variable,
+ symbol_list=statement.symbol_list,
+ symbol_list_indices=tuple(symbol_list_indices),
+ )
+
def transform_variable_initialization_statement(accumulators, statement):
return CVariableInitializationStatement(
variable=statement.variable,
return CFunctionDeclaration(name=statement.name)
+def transform_push_statement(accumulators, statement):
+ return CPushStatement(expression=transform_expression(accumulators, statement.expression))
+
def transform_statement(accumulators, statement):
return {
parsing.FurExpressionStatement: transform_expression_statement,
normalization.NormalFunctionDefinitionStatement: transform_function_definition_statement,
normalization.NormalIfElseStatement: transform_if_else_statement,
normalization.NormalListAppendStatement: transform_list_append_statement,
+ normalization.NormalPushStatement: transform_push_statement,
+ normalization.NormalSymbolArrayVariableInitializationStatement: transform_symbol_array_variable_initialization_statement,
normalization.NormalVariableInitializationStatement: transform_variable_initialization_statement,
normalization.NormalVariableReassignmentStatement: transform_variable_reassignment_statement,
}[type(statement)](accumulators, statement)
transform_statement(accumulators, statement) for statement in program.statement_list
]
- # This prevents warnings about normalized variables being entire C statements
- last_statement = statement_list[-1]
- if isinstance(last_statement, normalization.NormalExpressionStatement) and isinstance(last_statement.expression, normalization.NormalVariableExpression):
- del statement_list[-1]
-
standard_library_set = set()
for builtin in accumulators.builtin_set:
for standard_library in BUILTINS[builtin]: