Random Order File Scope Declaration

This commit is contained in:
gingerBill
2016-07-12 23:53:34 +01:00
parent 9f90ff50cf
commit aa6a2caecb
11 changed files with 688 additions and 258 deletions
+229 -129
View File
@@ -1,5 +1,63 @@
// Statements and Declarations
void check_statement(Checker *c, AstNode *node);
void check_statement_list(Checker *c, AstNode *node) {
for (; node != NULL; node = node->next)
check_statement(c, node);
}
// NOTE(bill): The last expression has to be a `return` statement
// TODO(bill): This is a mild hack and should be probably handled
// TODO(bill): Warn/err against code after `return` that it won't be executed
b32 check_is_terminating(Checker *c, AstNode *node);
b32 check_is_terminating_list(Checker *c, AstNode *node_list) {
AstNode *end_of_list = node_list;
for (; end_of_list != NULL; end_of_list = end_of_list->next) {
if (end_of_list->next == NULL)
break;
}
for (AstNode *node = end_of_list; node != NULL; node = node->prev) {
if (node->kind == AstNode_EmptyStatement)
continue;
return check_is_terminating(c, node);
}
return false;
}
b32 check_is_terminating(Checker *c, AstNode *node) {
switch (node->kind) {
case AstNode_BlockStatement:
return check_is_terminating_list(c, node->block_statement.list);
case AstNode_ExpressionStatement:
return check_is_terminating(c, node->expression_statement.expression);
case AstNode_ReturnStatement:
return true;
case AstNode_IfStatement:
if (node->if_statement.else_statement != NULL) {
if (check_is_terminating(c, node->if_statement.body) &&
check_is_terminating(c, node->if_statement.else_statement))
return true;
}
break;
case AstNode_ForStatement:
if (node->for_statement.cond == NULL) {
return true;
}
break;
}
return false;
}
b32 check_is_assignable_to(Checker *c, Operand *operand, Type *type) {
if (operand->mode == Addressing_Invalid ||
type == &basic_types[Basic_Invalid]) {
@@ -42,9 +100,8 @@ b32 check_is_assignable_to(Checker *c, Operand *operand, Type *type) {
}
}
if ((sb->kind == Type_Array || sb->kind == Type_Slice) &&
tb->kind == Type_Slice) {
if (are_types_identical(sb->array.element, tb->slice.element)) {
if (sb->kind == Type_Slice && tb->kind == Type_Slice) {
if (are_types_identical(sb->slice.element, tb->slice.element)) {
return true;
}
}
@@ -214,13 +271,13 @@ Type *check_init_variable(Checker *c, Entity *e, Operand *operand, String contex
}
void check_init_variables(Checker *c, Entity **lhs, isize lhs_count, AstNode *init_list, isize init_count, String context_name) {
if (lhs_count == 0 && init_count == 0)
if ((lhs == NULL || lhs_count == 0) && init_count == 0)
return;
isize i = 0;
AstNode *rhs = init_list;
for (;
i < lhs_count && rhs != NULL;
i < lhs_count && i < init_count && rhs != NULL;
i++, rhs = rhs->next) {
Operand operand = {};
check_multi_expression(c, &operand, rhs);
@@ -229,7 +286,7 @@ void check_init_variables(Checker *c, Entity **lhs, isize lhs_count, AstNode *in
} else {
auto *tuple = &operand.type->tuple;
for (isize j = 0;
j < tuple->variable_count && i < lhs_count;
j < tuple->variable_count && i < lhs_count && i < init_count;
j++, i++) {
Type *type = tuple->variables[j]->type;
operand.type = type;
@@ -238,7 +295,7 @@ void check_init_variables(Checker *c, Entity **lhs, isize lhs_count, AstNode *in
}
}
if (i < lhs_count) {
if (i < lhs_count && i < init_count) {
if (lhs[i]->type == NULL)
print_checker_error(c, lhs[i]->token, "Too few values on the right hand side of the declaration");
} else if (rhs != NULL) {
@@ -250,7 +307,6 @@ void check_init_constant(Checker *c, Entity *e, Operand *operand) {
if (operand->mode == Addressing_Invalid ||
operand->type == &basic_types[Basic_Invalid] ||
e->type == &basic_types[Basic_Invalid]) {
if (e->type == NULL)
e->type = &basic_types[Basic_Invalid];
return;
@@ -266,7 +322,7 @@ void check_init_constant(Checker *c, Entity *e, Operand *operand) {
}
if (!is_type_constant_type(operand->type)) {
// NOTE(bill): no need to free string as it's panicking
GB_PANIC("Type `%s` not constant!!!", type_to_string(operand->type));
GB_PANIC("Compiler error: Type `%s` not constant!!!", type_to_string(operand->type));
}
if (e->type == NULL) // NOTE(bill): type inference
@@ -279,7 +335,8 @@ void check_init_constant(Checker *c, Entity *e, Operand *operand) {
e->constant.value = operand->value;
}
void check_constant_declaration(Checker *c, Entity *e, AstNode *type_expression, AstNode *init_expression) {
void check_constant_declaration(Checker *c, Entity *e, AstNode *type_expr, AstNode *init_expr) {
GB_ASSERT(e->type == NULL);
if (e->variable.visited) {
@@ -288,12 +345,12 @@ void check_constant_declaration(Checker *c, Entity *e, AstNode *type_expression,
}
e->variable.visited = true;
if (type_expression) {
Type *t = check_type(c, type_expression);
if (type_expr) {
Type *t = check_type(c, type_expr);
if (!is_type_constant_type(t)) {
gbString str = type_to_string(t);
defer (gb_string_free(str));
print_checker_error(c, ast_node_token(type_expression),
print_checker_error(c, ast_node_token(type_expr),
"Invalid constant type `%s`", str);
e->type = &basic_types[Basic_Invalid];
return;
@@ -302,68 +359,169 @@ void check_constant_declaration(Checker *c, Entity *e, AstNode *type_expression,
}
Operand operand = {Addressing_Invalid};
if (init_expression)
check_expression(c, &operand, init_expression);
if (init_expr)
check_expression(c, &operand, init_expr);
check_init_constant(c, e, &operand);
}
void check_statement(Checker *c, AstNode *node);
void check_type_declaration(Checker *c, Entity *e, AstNode *type_expr, Type *named_type) {
GB_ASSERT(e->type == NULL);
Type *named = make_type_named(c->allocator, e->token.string, NULL, e);
named->named.type_name = e;
set_base_type(named_type, named);
e->type = named;
void check_statement_list(Checker *c, AstNode *node) {
for (; node != NULL; node = node->next)
check_statement(c, node);
check_type(c, type_expr, named);
set_base_type(named, get_base_type(get_base_type(named)));
}
// NOTE(bill): The last expression has to be a `return` statement
// TODO(bill): This is a mild hack and should be probably handled
// TODO(bill): Warn/err against code after `return` that it won't be executed
b32 check_is_terminating(Checker *c, AstNode *node);
b32 check_is_terminating_list(Checker *c, AstNode *node_list) {
AstNode *end_of_list = node_list;
for (; end_of_list != NULL; end_of_list = end_of_list->next) {
if (end_of_list->next == NULL)
break;
}
for (AstNode *node = end_of_list; node != NULL; node = node->prev) {
if (node->kind == AstNode_EmptyStatement)
continue;
return check_is_terminating(c, node);
}
return false;
}
b32 check_is_terminating(Checker *c, AstNode *node) {
switch (node->kind) {
case AstNode_BlockStatement:
return check_is_terminating_list(c, node->block_statement.list);
case AstNode_ExpressionStatement:
return check_is_terminating(c, node->expression_statement.expression);
case AstNode_ReturnStatement:
return true;
case AstNode_IfStatement:
if (node->if_statement.else_statement != NULL) {
if (check_is_terminating(c, node->if_statement.body) &&
check_is_terminating(c, node->if_statement.else_statement))
return true;
void check_procedure_body(Checker *c, Token token, DeclarationInfo *decl, Type *type, AstNode *body) {
GB_ASSERT(body->kind == AstNode_BlockStatement);
Scope *origin_curr_scope = c->curr_scope;
c->curr_scope = decl->scope;
push_procedure(c, type);
check_statement_list(c, body->block_statement.list);
if (decl->type_expr != NULL &&
decl->type_expr->procedure_type.result_count > 0) {
if (!check_is_terminating(c, body)) {
print_checker_error(c, body->block_statement.close, "Missing return statement at the end of the procedure");
}
}
pop_procedure(c);
c->curr_scope = origin_curr_scope;
}
void check_procedure_declaration(Checker *c, Entity *e, DeclarationInfo *d, b32 check_body_later) {
GB_ASSERT(e->type == NULL);
Type *proc_type = make_type_procedure(c->allocator, e->parent, NULL, 0, NULL, 0);
e->type = proc_type;
auto *pd = &d->proc_decl->procedure_declaration;
#if 1
Scope *origin_curr_scope = c->curr_scope;
c->curr_scope = c->file_scope;
check_open_scope(c, pd->procedure_type);
#endif
check_procedure_type(c, proc_type, pd->procedure_type);
b32 is_foreign = false;
b32 is_inline = false;
b32 is_no_inline = false;
for (AstNode *tag = pd->tag_list; tag != NULL; tag = tag->next) {
GB_ASSERT(tag->kind == AstNode_TagExpression);
String tag_name = tag->tag_expression.name.string;
if (are_strings_equal(tag_name, make_string("foreign"))) {
is_foreign = true;
} else if (are_strings_equal(tag_name, make_string("inline"))) {
is_inline = true;
} else if (are_strings_equal(tag_name, make_string("no_inline"))) {
is_no_inline = true;
} else {
print_checker_error(c, ast_node_token(tag), "Unknown procedure tag");
}
// TODO(bill): Other tags
}
if (is_inline && is_no_inline) {
print_checker_error(c, ast_node_token(pd->tag_list),
"You cannot apply both `inline` and `no_inline` to a procedure");
}
if (pd->body != NULL) {
if (is_foreign) {
print_checker_error(c, ast_node_token(pd->body),
"A procedure tagged as `#foreign` cannot have a body");
}
d->scope = c->curr_scope;
GB_ASSERT(pd->body->kind == AstNode_BlockStatement);
if (check_body_later) {
check_procedure_later(c, e->token, d, proc_type, pd->body);
} else {
check_procedure_body(c, e->token, d, proc_type, pd->body);
}
}
#if 1
check_close_scope(c);
c->curr_scope = origin_curr_scope;
#endif
}
void check_variable_declaration(Checker *c, Entity *e, Entity **entities, isize entity_count, AstNode *type_expr, AstNode *init_expr) {
GB_ASSERT(e->type == NULL);
GB_ASSERT(e->kind == Entity_Variable);
if (e->variable.visited) {
e->type = &basic_types[Basic_Invalid];
return;
}
e->variable.visited = true;
if (type_expr != NULL)
e->type = check_type(c, type_expr, NULL);
if (init_expr == NULL) {
if (type_expr == NULL)
e->type = &basic_types[Basic_Invalid];
return;
}
if (entities == NULL || entity_count == 1) {
GB_ASSERT(entities == NULL || entities[0] == e);
Operand operand = {};
check_expression(c, &operand, init_expr);
check_init_variable(c, e, &operand, make_string("variable declaration"));
}
if (type_expr != NULL) {
for (isize i = 0; i < entity_count; i++)
entities[i]->type = e->type;
}
check_init_variables(c, entities, entity_count, init_expr, 1, make_string("variable declaration"));
}
void check_entity_declaration(Checker *c, Entity *e, Type *named_type) {
if (e->type != NULL)
return;
DeclarationInfo **found = map_get(&c->entities, hash_pointer(e));
if (found == NULL) {
GB_PANIC("Compiler error: This entity should be declared!");
}
DeclarationInfo *d = *found;
switch (e->kind) {
case Entity_Constant:
c->decl = d;
check_constant_declaration(c, e, d->type_expr, d->init_expr);
break;
case AstNode_ForStatement:
if (node->for_statement.cond == NULL) {
return true;
}
case Entity_Variable:
c->decl = d;
check_variable_declaration(c, e, d->entities, d->entity_count, d->type_expr, d->init_expr);
break;
case Entity_TypeName:
check_type_declaration(c, e, d->type_expr, named_type);
break;
case Entity_Procedure:
check_procedure_declaration(c, e, d, true);
break;
}
return false;
}
void check_statement(Checker *c, AstNode *node) {
switch (node->kind) {
case AstNode_EmptyStatement: break;
@@ -577,7 +735,7 @@ void check_statement(Checker *c, AstNode *node) {
found = current_scope_lookup_entity(c->curr_scope, str);
}
if (found == NULL) {
entity = make_entity_variable(c, c->curr_scope, token, NULL);
entity = make_entity_variable(c->allocator, c->curr_scope, token, NULL);
if (!can_be_ignored) {
new_entities[new_entity_count++] = entity;
}
@@ -589,7 +747,7 @@ void check_statement(Checker *c, AstNode *node) {
print_checker_error(c, token, "A variable declaration must be an identifier");
}
if (entity == NULL)
entity = make_entity_dummy_variable(c, token);
entity = make_entity_dummy_variable(c->allocator, c->file_scope, token);
entities[entity_index++] = entity;
}
@@ -629,7 +787,7 @@ void check_statement(Checker *c, AstNode *node) {
name = name->next, value = value->next) {
GB_ASSERT(name->kind == AstNode_Identifier);
Value v = {Value_Invalid};
Entity *e = make_entity_constant(c, c->curr_scope, name->identifier.token, NULL, v);
Entity *e = make_entity_constant(c->allocator, c->curr_scope, name->identifier.token, NULL, v);
entities[entity_index++] = e;
check_constant_declaration(c, e, vd->type_expression, value);
}
@@ -656,81 +814,23 @@ void check_statement(Checker *c, AstNode *node) {
}
} break;
case AstNode_ProcedureDeclaration: {
auto *pd = &node->procedure_declaration;
GB_ASSERT_MSG(pd->kind == Declaration_Immutable, "Mutable/temp/anonymous procedures are not yet implemented");
Entity *e = make_entity_procedure(c, c->curr_scope, pd->name->identifier.token, NULL);
Entity *e = make_entity_procedure(c->allocator, c->curr_scope, pd->name->identifier.token, NULL);
add_entity(c, c->curr_scope, pd->name, e);
Type *proc_type = make_type_procedure(c->allocator, e->parent, NULL, 0, NULL, 0);
e->type = proc_type;
// NOTE(bill): Procedures are just in file scope only.
// This is because closures/lambdas are not supported yet (or maybe never)
Scope *origin_curr_scope = c->curr_scope;
c->curr_scope = c->file_scope;
check_open_scope(c, pd->procedure_type);
{
check_procedure_type(c, proc_type, pd->procedure_type);
b32 is_foreign = false;
b32 is_inline = false;
b32 is_no_inline = false;
for (AstNode *tag = pd->tag_list; tag != NULL; tag = tag->next) {
GB_ASSERT(tag->kind == AstNode_TagExpression);
String tag_name = tag->tag_expression.name.string;
if (are_strings_equal(tag_name, make_string("foreign"))) {
is_foreign = true;
} else if (are_strings_equal(tag_name, make_string("inline"))) {
is_inline = true;
} else if (are_strings_equal(tag_name, make_string("no_inline"))) {
is_no_inline = true;
} else {
print_checker_error(c, ast_node_token(tag), "Unknown procedure tag");
}
// TODO(bill): Other tags
}
if (is_inline && is_no_inline) {
print_checker_error(c, ast_node_token(pd->tag_list),
"You cannot apply both `inline` and `no_inline` to a procedure");
}
if (pd->body) {
GB_ASSERT(pd->body->kind == AstNode_BlockStatement);
if (is_foreign) {
print_checker_error(c, ast_node_token(pd->body),
"A procedure tagged as `#foreign` cannot have a body");
}
push_procedure(c, proc_type);
check_statement_list(c, pd->body->block_statement.list);
if (pd->procedure_type->procedure_type.result_count > 0) {
if (!check_is_terminating(c, pd->body)) {
print_checker_error(c, pd->body->block_statement.close, "Missing return statement at the end of the procedure");
}
}
pop_procedure(c);
}
}
check_close_scope(c);
c->curr_scope = origin_curr_scope;
DeclarationInfo *decl = make_declaration_info(gb_heap_allocator(), e->parent);
decl->proc_decl = node;
check_procedure_declaration(c, e, decl, false);
destroy_declaration_info(decl);
} break;
case AstNode_TypeDeclaration: {
auto *td = &node->type_declaration;
AstNode *name = td->name;
Entity *e = make_entity_type_name(c, c->curr_scope, name->identifier.token, NULL);
Entity *e = make_entity_type_name(c->allocator, c->curr_scope, name->identifier.token, NULL);
add_entity(c, c->curr_scope, name, e);
e->type = make_type_named(c->allocator, e->token.string, NULL, e);
check_type(c, td->type_expression, e->type);
// NOTE(bill): Prevent recursive definition
set_base_type(e->type, get_base_type(e->type));
check_type_declaration(c, e, td->type_expression, NULL);
} break;
}
}