length_of align_of size_of are no longer operators but function calls

2022-09-27 13:50:30 +02:00
parent 60f794580c
commit dda2252ca2
4 changed files with 146 additions and 134 deletions
--- a/core_codegen_c_language.cpp
+++ b/core_codegen_c_language.cpp
@@ -362,9 +362,10 @@ gen_expr(Ast_Expr *ast, Ast_Type *type_of_var){
      BREAK();
    }

-    CASE(LENGTH_OF, Builtin){
-      gen_expr(node->expr);
-      if(is_pointer(node->expr->resolved_type))
+    CASE(LENGTH_OF, Call){
+      Ast_Expr *expr = unpack_ast_call_expr_for_builtin(node);
+      gen_expr(expr);
+      if(is_pointer(expr->resolved_type))
        gen("->len");
      else gen(".len");
      BREAK();
--- a/core_compiler.h
+++ b/core_compiler.h
@@ -169,11 +169,11 @@ Intern_String keyword_switch;
 Intern_String keyword_break;
 Intern_String keyword_elif;
 Intern_String keyword_assert;
-Intern_String keyword_sizeof;
-Intern_String keyword_alignof;
-Intern_String keyword_lengthof;
 Intern_String keyword_enum;

+Intern_String intern_sizeof;
+Intern_String intern_alignof;
+Intern_String intern_lengthof;
 Intern_String intern_void;
 Intern_String intern_foreign;
 Intern_String intern_it;
@@ -226,9 +226,6 @@ lex_init(Allocator *token_string_arena, Allocator *map_allocator, Lexer *l){

  keyword_struct= l->intern("struct"_s);
  keyword_union = l->intern("union"_s);
-  keyword_sizeof = l->intern("size_of"_s);
-  keyword_lengthof = l->intern("length_of"_s);
-  keyword_alignof = l->intern("align_of"_s);
  keyword_true = l->intern("true"_s);
  keyword_default = l->intern("default"_s);
  keyword_break = l->intern("break"_s);
@@ -245,6 +242,9 @@ lex_init(Allocator *token_string_arena, Allocator *map_allocator, Lexer *l){
  l->interns.first_keyword = keyword_struct.str;
  l->interns.last_keyword  = keyword_enum.str;

+  intern_sizeof = l->intern("size_of"_s);
+  intern_lengthof = l->intern("length_of"_s);
+  intern_alignof = l->intern("align_of"_s);
  intern_foreign = intern_string(&l->interns, "foreign"_s);
  intern_strict = intern_string(&l->interns, "strict"_s);
  intern_void = intern_string(&l->interns, "void"_s);
--- a/core_parsing.cpp
+++ b/core_parsing.cpp
@@ -566,25 +566,7 @@ parse_expr(S64 min_bp){
        left = ast_bool(token, 1);
      else if(token->intern_val == keyword_false)
        left = ast_bool(token, 0);
-      else if(token->intern_val == keyword_sizeof){
-        token_expect(TK_OpenParen);
-        Ast_Expr *expr = parse_expr();
-        token_expect(TK_CloseParen);
-        left = ast_sizeof(token, expr);
-      }
-      else if(token->intern_val == keyword_alignof){
-        token_expect(TK_OpenParen);
-        Ast_Expr *expr = parse_expr();
-        token_expect(TK_CloseParen);
-        left = ast_alignof(token, expr);
-      }
-      else if(token->intern_val == keyword_lengthof){
-        token_expect(TK_OpenParen);
-        Ast_Expr *expr = parse_expr();
-        token_expect(TK_CloseParen);
-        left = ast_len(token, expr);
-      }
-      else compiler_error(token, "Unexpected keyword: [%s], expected keyword [cast]", token->intern_val.str);
+      else compiler_error(token, "Unexpected keyword: [%s]", token->intern_val.str);
    }break;

    case TK_OpenParen: {
--- a/core_typechecking.cpp
+++ b/core_typechecking.cpp
@@ -989,6 +989,26 @@ resolve_field_access(Ast_Expr *node, Ast_Scope *context){
  return resolve_field_access(next, ((Ast_Decl *)type->ast)->scope);
 }

+function Ast_Expr *
+unpack_ast_call_expr_for_builtin(Ast_Call *call){
+  if(call->exprs.len != 1) {
+    compiler_error(call->pos, "Expected exactly 1 argument inside a builtin function call got instead %d", (int)call->exprs.len);
+  }
+  return call->exprs[0]->item;
+}
+
+function bool
+expr_atom_is_equal_intern(Ast_Expr *expr, Intern_String intern){
+  assert(expr->kind == AST_IDENT || expr->kind == AST_BINARY);
+  if(expr->kind == AST_IDENT){
+    Ast_Atom *atom = (Ast_Atom *)expr;
+    if(atom->intern_val == intern) {
+      return true;
+    }
+  }
+  return false;
+}
+
 function Operand
 resolve_expr(Ast_Expr *ast, Resolve_Flag flags, Ast_Type *compound_context){
  if(!ast && is_flag_set(flags, AST_CAN_BE_NULL)) return {};
@@ -1202,127 +1222,136 @@ resolve_expr(Ast_Expr *ast, Resolve_Flag flags, Ast_Type *compound_context){
      BREAK();
    }

-    CASE(ALIGN_OF, Builtin){
-      Operand name = resolve_expr(node->expr, inherit_flag(flags, AST_CANT_BE_NULL));
-      if(!name.is_const) compiler_error(node->pos, "align_of requires a constant value");
-      Ast_Type *type = name.type == type_type ? name.type_val : name.type;
-      Value v = value_int(type->align);
-      rewrite_into_const(node, Ast_Builtin, v);
-      return operand_const_rvalue(v);
-      BREAK();
-    }
-
-    CASE(SIZE_OF, Builtin){
-      Operand name = resolve_expr(node->expr, inherit_flag(flags, AST_CANT_BE_NULL));
-      if(!name.is_const) compiler_error(node->pos, "size_of requires a constant value");
-      Ast_Type *type = name.type == type_type ? name.type_val : name.type;
-      Value v = value_int(type->size);
-      rewrite_into_const(node, Ast_Builtin, v);
-      return operand_const_rvalue(v);
-      BREAK();
-    }
-
-    CASE(LENGTH_OF, Builtin){
-      Operand name = resolve_expr(node->expr, inherit_flag(flags, AST_CANT_BE_NULL));
-      node->resolved_type = type_s64;
-      if(is_array(name.type)){
-        Value value = value_int(name.type->arr.size);
-        rewrite_into_const(node, Ast_Builtin, value);
-        return operand_const_rvalue(value);
-      }
-      else if(name.type->kind == TYPE_UNTYPED_STRING){
-        Value value = value_int(name.intern_val.len);
-        rewrite_into_const(node, Ast_Builtin, value);
-        return operand_const_rvalue(value);
-      }
-      else if(is_array(name.type) || is_slice(name.type) || is_string(name.type)){
-        return operand_rvalue(type_s64);
-      }
-      else compiler_error(node->pos, "Can't get length of type %Q", typestring(name.type));
-      BREAK();
-    }
-
    CASE(CALL, Call){
-      Operand name = resolve_expr(node->name, inherit_flag(flags, AST_CANT_BE_NULL));
-      if(name.type->kind != TYPE_LAMBDA)
-        compiler_error(node->pos, "Calling %Q which is not a [Lambda]", typestring(name.type));
+      if(expr_atom_is_equal_intern(node->name, intern_sizeof)){
+        Ast_Expr *expr = unpack_ast_call_expr_for_builtin(node);

-      Scratch scratch;
-      Array<Ast_Call_Item *> items = {scratch};
-      S64 was_name_indexed = false;
-      S64 default_iter = 0;
-
-      Ast_Lambda *lambda = (Ast_Lambda *)name.type->ast;
-      For_Named(lambda->args, lambda_arg){
-        assert(lambda_arg->type);
-
-        Ast_Call_Item *item = 0;
-        For(node->exprs){
-          assert(!is_flag_set(it->call_flags, CALL_INDEX));
-          if(is_flag_set(it->call_flags, CALL_NAME)){
-            Ast_Atom *name = it->name;
-            assert(name->kind == AST_IDENT);
-            was_name_indexed = true;
-            if(name->intern_val.str == lambda_arg->name.str)
-              item = it;
-          }
-          else if(node->exprs.get_index(&it) == default_iter){
-            default_iter++;
-            item = it;
-          }
-          else if(node->exprs.get_index(&it) > default_iter){
-            compiler_error(it->pos, "Positional argument after named argument");
-          }
-
-          if(item) break;
+        Operand name = resolve_expr(expr, inherit_flag(flags, AST_CANT_BE_NULL));
+        if(!name.is_const){
+          compiler_error(node->pos, "size_of requires a constant value");
        }

-        if(item){
-          set_flag(item->call_flags, CALL_INCLUDED);
-          Operand expr = resolve_expr(item->item, AST_CANT_BE_NULL, lambda_arg->type);
-          if(is_flag_set(lambda_arg->flags, AST_ANY_VARGS)){
-            make_sure_value_is_compatible_with_type(item->pos, &expr, lambda_arg->type->base, TYPE_AND_EXPR_REQUIRED);
-            item->resolved_type = expr.type;
+        Ast_Type *type = name.type == type_type ? name.type_val : name.type;
+        Value v = value_int(type->size);
+        rewrite_into_const(node, Ast_Builtin, v);
+        return operand_const_rvalue(v);
+      }
+
+      else if(expr_atom_is_equal_intern(node->name, intern_lengthof)){
+        Ast_Expr *expr = unpack_ast_call_expr_for_builtin(node);
+
+        Operand name = resolve_expr(expr, inherit_flag(flags, AST_CANT_BE_NULL));
+        node->kind = AST_LENGTH_OF;
+        node->resolved_type = type_s64;
+        if(is_array(name.type)){
+          Value value = value_int(name.type->arr.size);
+          rewrite_into_const(node, Ast_Builtin, value);
+          return operand_const_rvalue(value);
+        }
+        else if(name.type->kind == TYPE_UNTYPED_STRING){
+          Value value = value_int(name.intern_val.len);
+          rewrite_into_const(node, Ast_Builtin, value);
+          return operand_const_rvalue(value);
+        }
+        else if(is_array(name.type) || is_slice(name.type) || is_string(name.type)){
+          return operand_rvalue(type_s64);
+        }
+        else compiler_error(node->pos, "Can't get length of type %Q", typestring(name.type));
+      }
+
+      else if(expr_atom_is_equal_intern(node->name, intern_alignof)){
+        Ast_Expr *expr = unpack_ast_call_expr_for_builtin(node);
+        Operand name = resolve_expr(expr, inherit_flag(flags, AST_CANT_BE_NULL));
+        if(!name.is_const) compiler_error(node->pos, "align_of requires a constant value");
+        Ast_Type *type = name.type == type_type ? name.type_val : name.type;
+        Value v = value_int(type->align);
+        rewrite_into_const(node, Ast_Builtin, v);
+        return operand_const_rvalue(v);
+      }
+
+      else {
+        Operand name = resolve_expr(node->name, inherit_flag(flags, AST_CANT_BE_NULL));
+        if(name.type->kind != TYPE_LAMBDA)
+          compiler_error(node->pos, "Calling %Q which is not a [Lambda]", typestring(name.type));
+
+        Scratch scratch;
+        Array<Ast_Call_Item *> items = {scratch};
+        S64 was_name_indexed = false;
+        S64 default_iter = 0;
+
+        Ast_Lambda *lambda = (Ast_Lambda *)name.type->ast;
+        For_Named(lambda->args, lambda_arg){
+          assert(lambda_arg->type);
+
+          Ast_Call_Item *item = 0;
+          For(node->exprs){
+            assert(!is_flag_set(it->call_flags, CALL_INDEX));
+            if(is_flag_set(it->call_flags, CALL_NAME)){
+              Ast_Atom *name = it->name;
+              assert(name->kind == AST_IDENT);
+              was_name_indexed = true;
+              if(name->intern_val.str == lambda_arg->name.str)
+                item = it;
+            }
+            else if(node->exprs.get_index(&it) == default_iter){
+              default_iter++;
+              item = it;
+            }
+            else if(node->exprs.get_index(&it) > default_iter){
+              compiler_error(it->pos, "Positional argument after named argument");
+            }
+
+            if(item) break;
+          }
+
+          if(item){
+            set_flag(item->call_flags, CALL_INCLUDED);
+            Operand expr = resolve_expr(item->item, AST_CANT_BE_NULL, lambda_arg->type);
+            if(is_flag_set(lambda_arg->flags, AST_ANY_VARGS)){
+              make_sure_value_is_compatible_with_type(item->pos, &expr, lambda_arg->type->base, TYPE_AND_EXPR_REQUIRED);
+              item->resolved_type = expr.type;
+            }
+
+            else{
+              make_sure_value_is_compatible_with_type(item->pos, &expr, lambda_arg->type, TYPE_AND_EXPR_REQUIRED);
+              item->resolved_type = lambda_arg->type;
+            }
+
+            try_propagating_resolved_type_to_untyped_literals(item->item, item->resolved_type);
+            item->resolved_index = lambda->args.get_index(&lambda_arg);
+            items.add(item);
          }

          else{
-            make_sure_value_is_compatible_with_type(item->pos, &expr, lambda_arg->type, TYPE_AND_EXPR_REQUIRED);
-            item->resolved_type = lambda_arg->type;
+            if(!lambda_arg->expr)
+              compiler_error(lambda_arg->pos, "Required value: %Q in lambda call was not passed", lambda_arg->name);
+
+            // @note: default values are typechecked when they get resolved
+            Ast_Call_Item *call_item = ast_call_item(lambda_arg->expr->pos, 0, 0, lambda_arg->expr);
+            call_item->resolved_type  = lambda_arg->expr->resolved_type;
+            call_item->resolved_index = lambda->args.get_index(&lambda_arg);
+            set_flag(call_item->call_flags, CALL_INCLUDED);
+            items.add(call_item);
          }

-          try_propagating_resolved_type_to_untyped_literals(item->item, item->resolved_type);
-          item->resolved_index = lambda->args.get_index(&lambda_arg);
-          items.add(item);
        }

-        else{
-          if(!lambda_arg->expr)
-            compiler_error(lambda_arg->pos, "Required value: %Q in lambda call was not passed", lambda_arg->name);
+        node->exprs = items.tight_copy(pctx->perm);
+        node->resolved_type = name.type->func.ret;

-          // @note: default values are typechecked when they get resolved
-          Ast_Call_Item *call_item = ast_call_item(lambda_arg->expr->pos, 0, 0, lambda_arg->expr);
-          call_item->resolved_type  = lambda_arg->expr->resolved_type;
-          call_item->resolved_index = lambda->args.get_index(&lambda_arg);
-          set_flag(call_item->call_flags, CALL_INCLUDED);
-          items.add(call_item);
+        // @note: check if all arguments are included and cleanup
+        For(node->exprs){
+          if(!is_flag_set(it->call_flags, CALL_INCLUDED))
+            compiler_error(it->pos, "Unknown argument to a function call, couldn't match it with any of the declared arguments");
+          else unset_flag(it->call_flags, CALL_INCLUDED);
        }

+
+        return operand_rvalue(name.type->func.ret);
+        //
+        // CALL End
+        //
      }
-
-      node->exprs = items.tight_copy(pctx->perm);
-      node->resolved_type = name.type->func.ret;
-
-      // @note: check if all arguments are included and cleanup
-      For(node->exprs){
-        if(!is_flag_set(it->call_flags, CALL_INCLUDED))
-          compiler_error(it->pos, "Unknown argument to a function call, couldn't match it with any of the declared arguments");
-        else unset_flag(it->call_flags, CALL_INCLUDED);
-      }
-
-      return operand_rvalue(name.type->func.ret);
-      //
-      // CALL End
-      //
      BREAK();
    }