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More work on order independent bindings, A bit more cleanup, Delete some of the null code, no longer valid c code

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This commit is contained in:
Krzosa Karol
2022-05-29 21:38:29 +02:00
parent b6ea62fd67
commit 2ad3131dba
5 changed files with 250 additions and 214 deletions
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98
ccodegen.cpp
View File

@@ -20,15 +20,15 @@ gen_indent(){
function void
gen_simple_decl_prefix(Ast_Resolved_Type *ast){
switch(ast->kind){
case TYPE_Int: gen("int "); break;
case TYPE_Bool: gen("bool "); break;
case TYPE_Unsigned: gen("unsigned "); break;
case TYPE_String: gen("String "); break;
case TYPE_Void: gen("void "); break;
case TYPE_Pointer:{gen_simple_decl_prefix(ast->base); gen("*");} break;
case TYPE_Array: gen_simple_decl_prefix(ast->base); break;
case TYPE_Lambda:break;
case TYPE_Struct: {
case TYPE_INT: gen("int "); break;
case TYPE_BOOL: gen("bool "); break;
case TYPE_UNSIGNED: gen("unsigned "); break;
case TYPE_STRING: gen("String "); break;
case TYPE_VOID: gen("void "); break;
case TYPE_POINTER:{gen_simple_decl_prefix(ast->base); gen("*");} break;
case TYPE_ARRAY: gen_simple_decl_prefix(ast->base); break;
case TYPE_LAMBDA:break;
case TYPE_STRUCT: {
auto name = ast->sym->name;
gen("%s ", name.str);
}break;
@@ -39,22 +39,22 @@ gen_simple_decl_prefix(Ast_Resolved_Type *ast){
function void
gen_simple_decl_postfix(Ast_Resolved_Type *ast){
switch(ast->kind){
case TYPE_Int: break;
case TYPE_Bool: break;
case TYPE_Unsigned: break;
case TYPE_String: break;
case TYPE_Void: break;
case TYPE_Pointer: gen_simple_decl_postfix(ast->base); break;
case TYPE_Array: gen("[%d]", (int)ast->arr.size); gen_simple_decl_postfix(ast->arr.base); break;
case TYPE_Lambda:break;
case TYPE_Struct:break;
case TYPE_INT: break;
case TYPE_BOOL: break;
case TYPE_UNSIGNED: break;
case TYPE_STRING: break;
case TYPE_VOID: break;
case TYPE_POINTER: gen_simple_decl_postfix(ast->base); break;
case TYPE_ARRAY: gen("[%d]", (int)ast->arr.size); gen_simple_decl_postfix(ast->arr.base); break;
case TYPE_LAMBDA:break;
case TYPE_STRUCT:break;
invalid_default_case;
}
}
function void
gen_simple_decl(Ast_Resolved_Type *ast, Intern_String name){
if(ast->kind == TYPE_Lambda) {
if(ast->kind == TYPE_LAMBDA) {
gen_simple_decl_prefix(ast->func.ret);
gen("(*%s)(", name.str);
For(ast->func.args){
@@ -75,39 +75,39 @@ gen_simple_decl(Ast_Resolved_Type *ast, Intern_String name){
function void
gen_expr(Ast_Expr *ast){
switch(ast->kind){
Ast_Begin(AST_IDENT, Ast_Atom){
CASE(IDENT, Atom){
gen("%s", node->intern_val.str);
Ast_End();
BREAK();
}
Ast_Begin(AST_INT, Ast_Atom){
CASE(INT, Atom){
gen("%lld", node->int_val);
Ast_End();
BREAK();
}
Ast_Begin(AST_STR, Ast_Atom){
CASE(STR, Atom){
gen("LIT(\"%s\")", node->intern_val.str);
Ast_End();
BREAK();
}
Ast_Begin(AST_INDEX, Ast_Index){
CASE(INDEX, Index){
gen_expr(node->expr);
gen("[");
gen_expr(node->index);
gen("]");
Ast_End();
BREAK();
}
Ast_Begin(AST_BINARY, Ast_Binary){
CASE(BINARY, Binary){
gen("(");
gen_expr(node->left);
gen("%s", token_kind_string(node->op).str);
gen_expr(node->right);
gen(")");
Ast_End();
BREAK();
}
Ast_Begin(AST_UNARY, Ast_Unary){
CASE(UNARY, Unary){
switch(node->op){
case TK_Pointer: {
gen("(*");
@@ -121,20 +121,20 @@ gen_expr(Ast_Expr *ast){
} break;
invalid_default_case;
}
Ast_End();
BREAK();
}
Ast_Begin(AST_CAST, Ast_Cast){
CASE(CAST, Cast){
gen("(");
gen("(");
gen_simple_decl(resolved_type_get(node->typespec), {});
gen(")");
gen_expr(node->expr);
gen(")");
Ast_End();
BREAK();
}
Ast_Begin(AST_COMPOUND, Ast_Compound){
CASE(COMPOUND, Compound){
gen("(");
gen_simple_decl(node->type, {});
gen(")");
@@ -159,7 +159,7 @@ gen_expr(Ast_Expr *ast){
}
gen("}");
Ast_End();
BREAK();
}
invalid_default_case;
@@ -184,25 +184,25 @@ function void
gen_ast(Ast *ast){
switch(ast->kind){
Ast_Begin(AST_PACKAGE, Ast_Package){
CASE(PACKAGE, Package){
For(node->ordered) {
genln("");
gen_ast(*it);
}
Ast_End();
BREAK();
}
Ast_Begin(AST_RETURN, Ast_Return){
CASE(RETURN, Return){
gen("return");
if(node->expr){
gen(" ");
gen_expr(node->expr);
}
gen(";");
Ast_End();
BREAK();
}
Ast_Begin(AST_VAR, Ast_Var){
CASE(VAR, Var){
Sym *sym = resolved_get(node);
gen_simple_decl(sym->type, node->name);
if(node->expr){
@@ -210,10 +210,10 @@ gen_ast(Ast *ast){
gen_expr(node->expr);
}
gen(";");
Ast_End();
BREAK();
}
Ast_Begin(AST_INIT, Ast_Init){
CASE(INIT, Init){
Sym *sym = resolved_get(node);
gen_simple_decl(sym->type, node->ident->intern_val);
if(node->expr){
@@ -221,10 +221,10 @@ gen_ast(Ast *ast){
gen_expr(node->expr);
}
gen(";");
Ast_End();
BREAK();
}
Ast_Begin(AST_IF, Ast_If){
CASE(IF, If){
For(node->ifs){
if(it[0]->init) gen_ast(it[0]->init);
if(node->ifs.is_first(it)){
@@ -243,13 +243,13 @@ gen_ast(Ast *ast){
gen_block(it[0]->block);
}
}
Ast_End();
BREAK();
}
Ast_Begin(AST_CONST, Ast_Const){
CASE(CONST, Const){
Sym *sym = resolved_get(node);
if(sym->type->kind == TYPE_Lambda){
if(sym->type->kind == TYPE_LAMBDA){
if(node->value->kind == AST_LAMBDA){
Ast_Lambda *lambda = (Ast_Lambda *)node->value;
gen("static ");
@@ -283,7 +283,7 @@ gen_ast(Ast *ast){
gen("String %s = LIT(\"%s\");", node->name.str, sym->intern_val.str);
}
else if(sym->type == type_type){
if(sym->type_val->kind == TYPE_Struct){
if(sym->type_val->kind == TYPE_STRUCT){
Ast_Struct *agg = const_get_struct(sym->type_val->sym->ast);
if(node->value->kind == AST_STRUCT){
gen("struct %s{", node->name.str);
@@ -309,7 +309,7 @@ gen_ast(Ast *ast){
parsing_error(node->pos, "C_Codegen: Unhandled type of constant expression");
}
Ast_End();
BREAK();
}
invalid_default_case;

1
main.cpp
View File

@@ -3,7 +3,6 @@
#include "new_lex.cpp"
#include "new_ast.cpp"
#include "new_parse.cpp"
#include "new_type.cpp"
#include "new_resolve.cpp"
#include "ccodegen.cpp"

22
new_ast.cpp
View File

@@ -226,7 +226,11 @@ struct Ast_Var: Ast_Named{
};
struct Ast_Const: Ast_Named{
union{
Ast *ast;
Ast_Expr *value;
Ast_Struct *agg;
};
};
struct Ast_Package:Ast{
@@ -460,3 +464,21 @@ ast_package(Token *pos, String name, Array<Ast_Named *> decls){
For(result->decls) it[0]->parent = result;
return result;
}
//-----------------------------------------------------------------------------
// Utillities
//-----------------------------------------------------------------------------
function Ast_Struct *
const_get_struct(Ast *ast){
assert(ast->kind == AST_CONST);
Ast_Const *constant = (Ast_Const *)ast;
assert(constant->value->kind == AST_STRUCT);
return (Ast_Struct *)constant->value;
}
function Intern_String
ast_get_name(Ast *ast){
assert(is_flag_set(ast->flags, AST_BINDING));
auto constant = (Ast_Named *)ast;
return constant->name;
}

239
new_resolve.cpp
View File

@@ -1,5 +1,5 @@
#define Ast_Begin(kind,type) case kind: { type *node = (type *)ast;
#define Ast_End() } break
#define CASE(kind,type) case AST_##kind: { Ast_##type *node = (Ast_##type *)ast;
#define BREAK() } break
enum Sym_Kind{
SYM_NONE,
@@ -37,6 +37,14 @@ struct Operand{
INLINE_VALUE_FIELDS;
};
enum{
AST_CANT_BE_NULL = 0,
AST_CAN_BE_NULL = 1
};
function Sym *resolve_name(Token *pos, Intern_String name);
function Operand resolve_expr(Ast_Expr *ast, Ast_Resolved_Type *compound_required_type = 0, Sym *const_sym = 0);
function Operand resolve_binding(Ast *ast, Sym *sym = 0);
global Ast_Named empty_decl = {};
function void
@@ -104,6 +112,7 @@ resolved_get(Ast *ast){
assert(result);
return result;
}
#include "new_type.cpp"
function Ast_Resolved_Type *
resolved_type_get(Ast_Expr *ast){
@@ -150,18 +159,10 @@ sym_insert_builtins(){
}
}
function Sym *resolve_name(Token *pos, Intern_String name);
function Operand eval_expr(Ast_Expr *ast, Ast_Resolved_Type *compound_required_type = 0, Sym *lambda_to_complete = 0);
enum{
AST_CANT_BE_NULL = 0,
AST_CAN_BE_NULL = 1
};
function Ast_Resolved_Type *
eval_typespec(Ast_Expr *ast, B32 ast_can_be_null = AST_CANT_BE_NULL){
resolve_typespec(Ast_Expr *ast, B32 ast_can_be_null = AST_CANT_BE_NULL){
if(ast_can_be_null && ast == 0) return 0;
Operand resolved = eval_expr(ast);
Operand resolved = resolve_expr(ast);
if(resolved.type != type_type) parsing_error(ast->pos, "Expected [Type] got instead %s", resolved.type->kind);
return resolved.type_val;
}
@@ -173,67 +174,66 @@ resolve_type_pair(Token *pos, Ast_Resolved_Type *a, Ast_Resolved_Type *b){
else if(a && !b) result = a;
else if(!a && !b) parsing_error(pos, "Trying to resolve a type pair where both types are [Null]");
else{ // a && b
if(b->kind == TYPE_Null) result = a;
else if(a->kind == TYPE_Null) result = b;
if(b->kind == TYPE_NULL) result = a;
else if(a->kind == TYPE_NULL) result = b;
else if(a != b) parsing_error(pos, "Expression and type specification are differing %s %s", type_names[a->kind], type_names[b->kind]);
else result = a; // Types are the same
}
if(result->kind == TYPE_Null) parsing_error(pos, "Couldn't infer type of null value");
if(result->kind == TYPE_NULL) parsing_error(pos, "Couldn't infer type of null value");
return result;
}
function Operand eval_binding(Ast *ast, Sym *sym = 0);
function void
eval_stmt(Ast *ast, Ast_Resolved_Type *ret){
resolve_stmt(Ast *ast, Ast_Resolved_Type *ret){
switch(ast->kind){
Ast_Begin(AST_RETURN, Ast_Return){ // @todo: need to check if all paths return a value
CASE(RETURN, Return){ // @todo: need to check if all paths return a value
Operand op = {};
if(node->expr) op = eval_expr(node->expr);
if(node->expr) op = resolve_expr(node->expr);
if(!op.type && ret != type_void) parsing_error(node->pos, "Function expects a void return value but the returned value is [x]");
if(op.type && op.type != ret) parsing_error(node->pos, "Return statement has different type then returned value");
Ast_End();
BREAK();
}
Ast_Begin(AST_VAR, Ast_Var){
Operand op = eval_binding(node);
CASE(VAR, Var){
Operand op = resolve_binding(node);
Sym *sym = sym_new_resolved(SYM_VAR, node->name, op.type, op.value, node);
sym_insert(sym);
Ast_End();
BREAK();
}
Ast_Begin(AST_CONST, Ast_Const){
Operand op = eval_binding(node);
CASE(CONST, Const){
Operand op = resolve_binding(node);
Sym *sym = sym_new_resolved(SYM_CONST, node->name, op.type, op.value, node);
sym_insert(sym);
Ast_End();
BREAK();
}
Ast_Begin(AST_INIT, Ast_Init){
CASE(INIT, Init){
switch(node->op){
case TK_Comma:{
Operand op = eval_expr(node->expr);
Operand op = resolve_expr(node->expr);
Sym *sym = sym_new_resolved(SYM_VAR, node->ident->intern_val, op.type, op.value, node);
sym_insert(sym);
}break;
invalid_default_case;
}
Ast_End();
BREAK();
}
Ast_Begin(AST_IF, Ast_If){
CASE(IF, If){
For(node->ifs){
if(it[0]->init) eval_stmt(it[0]->init, ret);
if(it[0]->expr) eval_expr(it[0]->expr);
if(it[0]->init) resolve_stmt(it[0]->init, ret);
if(it[0]->expr) resolve_expr(it[0]->expr);
S64 scope_index = scope_open();
For_It(it[0]->block->stmts, jt){
eval_stmt(jt[0], ret);
resolve_stmt(jt[0], ret);
}
scope_close(scope_index);
}
Ast_End();
BREAK();
}
invalid_default_case;
@@ -241,29 +241,29 @@ eval_stmt(Ast *ast, Ast_Resolved_Type *ret){
}
function Operand
eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_complete){
resolve_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *const_sym){
switch(ast->kind){
Ast_Begin(AST_INT, Ast_Atom){
CASE(INT, Atom){
Operand result = {type_int, true};
result.int_val = node->int_val;
return result;
Ast_End();
BREAK();
}
Ast_Begin(AST_STR, Ast_Atom){
CASE(STR, Atom){
Operand result = {type_string, true};
result.intern_val = node->intern_val;
return result;
Ast_End();
BREAK();
}
Ast_Begin(AST_IDENT, Ast_Atom){
CASE(IDENT, Atom){
Sym *sym = resolve_name(node->pos, node->intern_val);
// @cleanup: due to Value being a union this portion probably can get cleaned
// @note: check if null and rewrite the expression to match the expected type
Operand result = {};
if(sym->type->kind == TYPE_Null){
if(sym->type->kind == TYPE_NULL){
if(!expected_type) parsing_error(node->pos, "Couldn't infer type of null");
result.type = expected_type;
result.is_const = true;
@@ -277,30 +277,30 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
else invalid_codepath;
return result;
Ast_End();
BREAK();
}
Ast_Begin(AST_ARRAY, Ast_Array){
Operand type = eval_expr(node->base);
CASE(ARRAY, Array){
Operand type = resolve_expr(node->base);
if(type.type != type_type) parsing_error(node->pos, "Prefix array operator is only allowed on types");
Operand expr = eval_expr(node->expr);
Operand expr = resolve_expr(node->expr);
if(!expr.is_const) parsing_error(node->pos, "Array operator requires a constant value");
if(expr.type != type_int) parsing_error(node->pos, "Array index requires type [Int]");
type.type_val = type_array(type.type_val, expr.int_val);
sym_new_resolved(SYM_CONST, {}, type_type, type.value, node);
return type;
Ast_End();
BREAK();
}
Ast_Begin(AST_LAMBDA, Ast_Lambda){
CASE(LAMBDA, Lambda){
// @note: first resolve type of lambda
Scratch scratch;
Ast_Resolved_Type *lambda_type = 0;
Ast_Resolved_Type *ret_type = eval_typespec(node->ret);
Ast_Resolved_Type *ret_type = resolve_typespec(node->ret);
Array<Ast_Resolved_Type *> args = {scratch};
For(node->args){
Operand type = eval_expr(it[0]->typespec);
Operand type = resolve_expr(it[0]->typespec);
if(type.type != type_type) parsing_error(it[0]->pos, "Required expression of kind [type]");
args.add(type.type_val);
}
@@ -309,9 +309,9 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
assert(lambda_type);
Value val; val.type_val = lambda_type;
sym_new_resolved(SYM_CONST, {}, type_type, val, node);
if(lambda_to_complete){
lambda_to_complete->type = lambda_type;
lambda_to_complete->state = SYM_RESOLVED;
if(const_sym){
const_sym->type = lambda_type;
const_sym->state = SYM_RESOLVED;
}
}
@@ -329,34 +329,34 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
sym_insert(arg_sym);
}
For(node->block->stmts){
eval_stmt(it[0], ret_type);
resolve_stmt(it[0], ret_type);
}
scope_close(scope_index);
result.type = lambda_type;
}
return result;
Ast_End();
BREAK();
}
Ast_Begin(AST_INDEX, Ast_Index){
Operand left = eval_expr(node->expr);
Operand index = eval_expr(node->index);
if(left.type->kind != TYPE_Array) parsing_error(node->pos, "Indexing variable that is not an array");
CASE(INDEX, Index){
Operand left = resolve_expr(node->expr);
Operand index = resolve_expr(node->index);
if(left.type->kind != TYPE_ARRAY) parsing_error(node->pos, "Indexing variable that is not an array");
if(index.type != type_int) parsing_error(node->pos, "Trying to index the array with invalid type, expected int");
Operand result = {left.type->arr.base};
return result;
Ast_End();
BREAK();
}
Ast_Begin(AST_COMPOUND, Ast_Compound){
Ast_Resolved_Type *type = eval_typespec(node->typespec, AST_CAN_BE_NULL);
CASE(COMPOUND, Compound){
Ast_Resolved_Type *type = resolve_typespec(node->typespec, AST_CAN_BE_NULL);
if(!type && expected_type) type = expected_type;
else if(!expected_type && type);
else if(expected_type != type) parsing_error(node->pos, "Variable type different from explicit compound type");
node->type = type;
if(type->kind == TYPE_Array){
if(type->kind == TYPE_ARRAY){
if(node->exprs.len > type->arr.size) parsing_error(node->pos, "compound statement has too many items for this type");
Ast_Resolved_Type *item_type = type->arr.base;
@@ -366,12 +366,12 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
assert(i->kind == AST_COMPOUND_ITEM);
if(i->name) parsing_error(i->pos, "Invalid indexing kind in a compound expression of type %s", type_names[type->kind]);
if(i->index){
Operand index_op = eval_expr(i->index);
Operand index_op = resolve_expr(i->index);
if(!index_op.is_const) parsing_error(i->pos, "Index in a compound expression is not a constant");
if(index_op.type != type_int) parsing_error(i->pos, "Index should be of type int");
if(index_op.int_val > (type->arr.size - 1)) parsing_error(i->pos, "Invalid index in compound expression, larger then type can store");
}
Operand expr = eval_expr(i->item, item_type);
Operand expr = resolve_expr(i->item, item_type);
resolve_type_pair(i->pos, expr.type, item_type);
}
}
@@ -379,12 +379,12 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
Operand result = {type, false};
return result;
Ast_End();
BREAK();
}
Ast_Begin(AST_CAST, Ast_Cast){
Operand expr = eval_expr(node->expr);
Ast_Resolved_Type *type = eval_typespec(node->typespec);
CASE(CAST, Cast){
Operand expr = resolve_expr(node->expr);
Ast_Resolved_Type *type = resolve_typespec(node->typespec);
if(type == expr.type) return expr;
@@ -405,18 +405,18 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
else parsing_error(node->pos, "Failed to cast, incompatible types");
Ast_End();
BREAK();
}
Ast_Begin(AST_UNARY, Ast_Unary){
Operand value = eval_expr(node->expr);
CASE(UNARY, Unary){
Operand value = resolve_expr(node->expr);
switch(node->op){
case TK_Pointer:{
if(value.type->kind == TYPE_Pointer){
if(value.type->kind == TYPE_POINTER){
Operand result = {value.type->base};
return result;
}
else if(value.type->kind == TYPE_Type){
else if(value.type->kind == TYPE_TYPE){
Operand result = {type_type, true};
result.type_val = type_pointer(value.type_val);
return result;
@@ -430,12 +430,12 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
invalid_default_case; return {};
}
Ast_End();
BREAK();
}
Ast_Begin(AST_BINARY, Ast_Binary){
Operand left = eval_expr(node->left);
Operand right = eval_expr(node->right);
CASE(BINARY, Binary){
Operand left = resolve_expr(node->left);
Operand right = resolve_expr(node->right);
Operand result = {};
result.type = resolve_type_pair(node->pos, left.type, right.type);
if(left.is_const && right.is_const){
@@ -453,17 +453,17 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
}
return result;
Ast_End();
BREAK();
}
// @todo: add const prepass? expecting only structs, exprs, lambdas
Ast_Begin(AST_STRUCT, Ast_Struct){
assert(lambda_to_complete);
CASE(STRUCT, Struct){
assert(const_sym);
Scratch scratch;
Array<Ast_Resolved_Type_Field> members = {scratch};
Array<Ast_Resolved_Member> members = {scratch};
For(node->members){
Operand op = eval_binding(it[0]);
Operand op = resolve_binding(it[0]);
Intern_String name = {};
if(is_flag_set(it[0]->flags, AST_BINDING)){
@@ -474,11 +474,10 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
sym_new_resolved(SYM_VAR, name, op.type, {}, it[0]);
members.add({op.type, name});
}
Ast_Resolved_Type *resolved = type_struct(lambda_to_complete, members);
Ast_Resolved_Type *resolved = type_struct(const_sym, members);
Operand result = {type_type, true}; result.type_val = resolved;
return result;
Ast_End();
BREAK();
}
invalid_default_case;
@@ -488,54 +487,47 @@ eval_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_comple
}
function Operand
eval_binding(Ast *ast, Sym *sym){
resolve_binding(Ast *ast, Sym *sym){
switch(ast->kind){
Ast_Begin(AST_VAR, Ast_Var){
Ast_Resolved_Type *type = eval_typespec(node->typespec, AST_CAN_BE_NULL);
Operand expr = node->expr ? eval_expr(node->expr, type) : Operand{};
CASE(VAR, Var){
Ast_Resolved_Type *type = resolve_typespec(node->typespec, AST_CAN_BE_NULL);
Operand expr = node->expr ? resolve_expr(node->expr, type) : Operand{};
expr.type = resolve_type_pair(node->pos, type, expr.type);
return expr;
Ast_End();
BREAK();
}
Ast_Begin(AST_CONST, Ast_Const){
Operand expr = eval_expr((Ast_Expr *)node->value, 0, sym);
if(!expr.type) parsing_error(node->pos, "Constant value without expression");
CASE(CONST, Const){
Operand expr = resolve_expr((Ast_Expr *)node->value, 0, sym);
if(!expr.is_const) parsing_error(node->pos, "Value of constant variable is not a constant expression");
assert(expr.type);
return expr;
Ast_End();
BREAK();
}
invalid_default_case; return {};
}
}
function Ast_Struct *
const_get_struct(Ast *ast){
assert(ast->kind == AST_CONST);
Ast_Const *constant = (Ast_Const *)ast;
assert(constant->value->kind == AST_STRUCT);
return (Ast_Struct *)constant->value;
}
function void
resolve_sym(Sym *sym){
if(sym->state == SYM_RESOLVED) return;
else if(sym->state == SYM_RESOLVING){ parsing_error(sym->ast->pos, "Cyclic dependency"); return; }
if(sym->state == SYM_RESOLVED){
return;
}
else if(sym->state == SYM_RESOLVING){
parsing_error(sym->ast->pos, "Cyclic dependency");
return;
}
assert(sym->state == SYM_NOT_RESOLVED);
assert(sym->ast->kind == AST_VAR || sym->ast->kind == AST_CONST);
sym->state = SYM_RESOLVING;
Operand op = eval_binding(sym->ast, sym);
sym->state = SYM_RESOLVING;
{
Operand op = resolve_binding(sym->ast, sym);
sym->type = op.type;
if(sym->kind == SYM_CONST){
assert(op.is_const);
sym->value = op.value;
}
sym->state = SYM_RESOLVED;
pctx->resolving_package->ordered.add((Ast_Named *)sym->ast);
}
@@ -572,21 +564,18 @@ parse_file(){
Ast_Named *decl = parse_named(true);
if(!decl) break;
Sym_Kind kind = SYM_VAR;
if(decl->kind == AST_CONST) kind = SYM_CONST;
else if(decl->kind == AST_VAR) kind = SYM_VAR;
else invalid_codepath;
Sym *sym = sym_new(SYM_VAR, decl->name, decl);
if(decl->kind == AST_CONST) {
sym->kind = SYM_CONST;
auto constant = (Ast_Const *)decl;
if(constant->value->kind == AST_STRUCT){
sym->type = type_incomplete(sym);
sym->state = SYM_RESOLVED;
}
}
else assert(decl->kind == AST_VAR);
Sym *sym = sym_new(kind, decl->name, decl);
// if(kind == SYM_CONST){
// auto constant = (Ast_Const *)decl;
// if(constant->value->kind == AST_STRUCT) {
// sym->type = type_incomplete(sym);
// sym->state = SYM_RESOLVED;
// }
// }
sym_insert(sym);
decls.add(decl);
}
Ast_Package *result = ast_package(token, token->file, decls);

100
new_type.cpp
View File

@@ -1,24 +1,26 @@
enum Ast_Resolved_Type_Kind{
TYPE_None,
TYPE_Null,
TYPE_Incomplete,
TYPE_Int,
TYPE_Bool,
TYPE_Unsigned,
TYPE_String,
TYPE_Void,
TYPE_Pointer,
TYPE_Array,
TYPE_Lambda,
TYPE_Struct,
TYPE_Union,
TYPE_Enum,
TYPE_Type,
TYPE_NONE,
TYPE_NULL,
TYPE_COMPLETING,
TYPE_INCOMPLETE,
TYPE_INT,
TYPE_BOOL,
TYPE_UNSIGNED,
TYPE_STRING,
TYPE_VOID,
TYPE_POINTER,
TYPE_ARRAY,
TYPE_LAMBDA,
TYPE_STRUCT,
TYPE_UNION,
TYPE_ENUM,
TYPE_TYPE,
};
const char *type_names[] = {
"[Invalid Ast_Resolved_Type]",
"[Null]",
"[Completing]",
"[Incomplete]",
"[Int]",
"[Bool]",
@@ -34,7 +36,7 @@ const char *type_names[] = {
"[Type]",
};
struct Ast_Resolved_Type_Field{
struct Ast_Resolved_Member{
Ast_Resolved_Type *type;
Intern_String name;
U64 offset;
@@ -53,7 +55,7 @@ struct Ast_Resolved_Type{
SizeU size;
}arr;
struct{
Array<Ast_Resolved_Type_Field> fields;
Array<Ast_Resolved_Member> members;
}agg;
struct{
Ast_Resolved_Type *ret;
@@ -65,13 +67,13 @@ struct Ast_Resolved_Type{
const SizeU pointer_size = sizeof(SizeU);
const SizeU pointer_align = __alignof(SizeU);
global Ast_Resolved_Type type__null = {TYPE_Null};
global Ast_Resolved_Type type__void = {TYPE_Void};
global Ast_Resolved_Type type__int = {TYPE_Int, sizeof(int), __alignof(int)};
global Ast_Resolved_Type type__unsigned = {TYPE_Int, sizeof(unsigned), __alignof(unsigned)};
global Ast_Resolved_Type type__string = {TYPE_String, sizeof(String), __alignof(String)};
global Ast_Resolved_Type type__bool = {TYPE_Bool, sizeof(bool), __alignof(bool)};
global Ast_Resolved_Type type__type = {TYPE_Type};
global Ast_Resolved_Type type__null = {TYPE_NULL};
global Ast_Resolved_Type type__void = {TYPE_VOID};
global Ast_Resolved_Type type__int = {TYPE_INT, sizeof(int), __alignof(int)};
global Ast_Resolved_Type type__unsigned = {TYPE_INT, sizeof(unsigned), __alignof(unsigned)};
global Ast_Resolved_Type type__string = {TYPE_STRING, sizeof(String), __alignof(String)};
global Ast_Resolved_Type type__bool = {TYPE_BOOL, sizeof(bool), __alignof(bool)};
global Ast_Resolved_Type type__type = {TYPE_TYPE};
global Ast_Resolved_Type *type_type = &type__type;
global Ast_Resolved_Type *type_void = &type__void;
@@ -101,11 +103,11 @@ function Ast_Resolved_Type *
type_pointer(Ast_Resolved_Type *base){
Ast_Resolved_Type *result = (Ast_Resolved_Type *)map_get(&pctx->type_map, (void *)base);
if(!result){
result = type_new(pctx->perm, TYPE_Pointer, pointer_size, pointer_align);
result = type_new(pctx->perm, TYPE_POINTER, pointer_size, pointer_align);
result->base = base;
map_insert(&pctx->type_map, base, result);
}
assert(result->kind == TYPE_Pointer);
assert(result->kind == TYPE_POINTER);
return result;
}
@@ -114,13 +116,13 @@ type_array(Ast_Resolved_Type *base, SizeU size){
U64 hash = hash_mix(hash_ptr(base), hash_u64(size));
Ast_Resolved_Type *result = (Ast_Resolved_Type *)map_get(&pctx->type_map, hash);
if(result){
assert(result->kind == TYPE_Array);
assert(result->kind == TYPE_ARRAY);
assert(result->arr.size == size);
assert(result->arr.base == base);
return result;
}
result = type_new(pctx->perm, TYPE_Array, pointer_size, pointer_align);
result = type_new(pctx->perm, TYPE_ARRAY, pointer_size, pointer_align);
result->arr.base = base;
result->arr.size = size;
map_insert(&pctx->type_map, hash, result);
@@ -134,13 +136,13 @@ type_lambda(Ast_Resolved_Type *ret, Array<Ast_Resolved_Type *> args){
Ast_Resolved_Type *result = (Ast_Resolved_Type *)map_get(&pctx->type_map, hash);
if(result){
assert(result->kind == TYPE_Lambda);
assert(result->kind == TYPE_LAMBDA);
assert(result->func.ret == ret);
assert(result->func.args.len == args.len);
return result;
}
result = type_new(pctx->perm, TYPE_Lambda, pointer_size, pointer_align);
result = type_new(pctx->perm, TYPE_LAMBDA, pointer_size, pointer_align);
result->func.ret = ret;
result->func.args = args.tight_copy(pctx->perm);
map_insert(&pctx->type_map, hash, result);
@@ -150,21 +152,45 @@ type_lambda(Ast_Resolved_Type *ret, Array<Ast_Resolved_Type *> args){
function Ast_Resolved_Type *
type_incomplete(Sym *sym){
Ast_Resolved_Type *result = type_new(pctx->perm, TYPE_Incomplete, 0, 0);
Ast_Resolved_Type *result = type_new(pctx->perm, TYPE_INCOMPLETE, 0, 0);
result->sym = sym;
return result;
}
//Array<Ast_Resolved_Member> members
function void
type_complete_struct(Ast_Resolved_Type *type, Array<Ast_Resolved_Type_Field> fields){
type->agg.fields = fields.tight_copy(pctx->perm);
type->kind = TYPE_Struct;
type_complete(Ast_Resolved_Type *type){
if(type->kind == TYPE_COMPLETING){
parsing_error(0, "Cyclic type dependency");
}
else if(type->kind != TYPE_INCOMPLETE){
return;
}
Ast_Struct *node = const_get_struct(type->sym->ast);
// @note: resolve all the struct members
type->kind = TYPE_COMPLETING;
{
Scratch scratch;
Array<Ast_Resolved_Member> members = {scratch};
For(node->members){
Operand op = resolve_binding(it[0]);
Intern_String name = ast_get_name(it[0]);
sym_new_resolved(SYM_VAR, name, op.type, {}, it[0]);
members.add({op.type, name});
}
type->agg.members = members.tight_copy(pctx->perm);
}
// @note: complete struct
type->kind = TYPE_STRUCT;
// @todo: compute size, alignement, offset
}
function Ast_Resolved_Type *
type_struct(Sym *sym, Array<Ast_Resolved_Type_Field> fields){
Ast_Resolved_Type *result = type_new(pctx->perm, TYPE_Struct, 0, 0); // @todo: align,size
result->agg.fields = fields.tight_copy(pctx->perm);
type_struct(Sym *sym, Array<Ast_Resolved_Member> members){
Ast_Resolved_Type *result = type_new(pctx->perm, TYPE_STRUCT, 0, 0); // @todo: align,size
result->agg.members = members.tight_copy(pctx->perm);
result->sym = sym;
return result;
}