Boolean operators
This commit is contained in:
Krzosa Karol
@@ -22,6 +22,11 @@ binary_test :: ()
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bit_or :: 1 | 4
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bit_or :: 1 | 4
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bit_xor :: 8 ^ 7
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bit_xor :: 8 ^ 7
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boolean_equals :: true == false
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boolean_var: Bool = boolean_equals
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bvar2 := int_val > 1
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bvar3 := int_val < 1
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basic_type_assignment :: ()
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basic_type_assignment :: ()
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100
typecheck.cpp
100
typecheck.cpp
@@ -95,7 +95,28 @@ value_get_float(Value value){
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#include <math.h>
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#include <math.h>
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function Value
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function Value
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eval_binary(Token *pos, Token_Kind op, Value a, Value b){
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eval_binary(Token *pos, Token_Kind op, Value a, Value b){
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if(!(is_numeric(a.type) && is_numeric(b.type))) parsing_error(pos, "Constant application of binary %s on values of type %s is not allowed", token_kind_string(op).str, docname(a.type));
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if(!(is_numeric(a.type) && is_numeric(b.type))) parsing_error(pos, "Constant application of binary %s on values of type %s and %s is not allowed", token_kind_string(op).str, docname(a.type), docname(a.type));
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// @warning: this bool path returns early, always should return untyped bool
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if(is_bool(a.type) || is_bool(b.type)){
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if(!is_bool(a.type)) parsing_error(pos, "Type mismatch in binary operation %s - left: %s right: %s", token_kind_string(op).str, docname(a.type), docname(b.type));
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if(!is_bool(b.type)) parsing_error(pos, "Type mismatch in binary operation %s - left: %s right: %s", token_kind_string(op).str, docname(a.type), docname(b.type));
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Value result;
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result.type = untyped_bool;
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switch(op){
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case TK_And: result.bool_val = a.bool_val && b.bool_val; break;
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case TK_Or: result.bool_val = a.bool_val || b.bool_val; break;
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case TK_GreaterThen: result.bool_val = a.bool_val > b.bool_val; break;
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case TK_GreaterThenOrEqual: result.bool_val = a.bool_val >= b.bool_val; break;
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case TK_LesserThen: result.bool_val = a.bool_val < b.bool_val; break;
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case TK_LesserThenOrEqual: result.bool_val = a.bool_val <= b.bool_val; break;
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case TK_Equals: result.bool_val = a.bool_val == b.bool_val; break;
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case TK_NotEquals: result.bool_val = a.bool_val != b.bool_val; break;
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invalid_default_case;
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}
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return result;
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}
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Ast_Resolved_Type *final_type = 0;
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Ast_Resolved_Type *final_type = 0;
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Value before_conversion;
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Value before_conversion;
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@@ -123,7 +144,53 @@ eval_binary(Token *pos, Token_Kind op, Value a, Value b){
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F64 right_float = value_get_float(b);
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F64 right_float = value_get_float(b);
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// @WARNING: When introducing big ints & | ^ will be problematic
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// @WARNING: When introducing big ints & | ^ will be problematic
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Value c;
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c.type = untyped_bool;
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switch(op){
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switch(op){
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// @note: These return early, they don't need type evaluation
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// always should return untyped bool
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case TK_And: {
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if(final_type == untyped_int) c.bool_val = left_int && right_int;
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else c.bool_val = left_float && right_float;
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return c;
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}break;
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case TK_Or: {
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if(final_type == untyped_int) c.bool_val = left_int || right_int;
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else c.bool_val = left_float || right_float;
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return c;
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}break;
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case TK_GreaterThen: {
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if(final_type == untyped_int) c.bool_val = left_int > right_int;
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else c.bool_val = left_float > right_float;
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return c;
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}break;
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case TK_GreaterThenOrEqual: {
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if(final_type == untyped_int) c.bool_val = left_int >= right_int;
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else c.bool_val = left_float >= right_float;
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return c;
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}break;
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case TK_LesserThen: {
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if(final_type == untyped_int) c.bool_val = left_int < right_int;
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else c.bool_val = left_float < right_float;
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return c;
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}break;
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case TK_LesserThenOrEqual: {
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if(final_type == untyped_int) c.bool_val = left_int <= right_int;
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else c.bool_val = left_float <= right_float;
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return c;
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}break;
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case TK_Equals: {
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if(final_type == untyped_int) c.bool_val = left_int == right_int;
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else c.bool_val = left_float == right_float;
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return c;
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}break;
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case TK_NotEquals: {
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if(final_type == untyped_int) c.bool_val = left_int != right_int;
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else c.bool_val = left_float != right_float;
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return c;
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}break;
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case TK_Add: {
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case TK_Add: {
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left_int = left_int + right_int;
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left_int = left_int + right_int;
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left_float = left_float + right_float;
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left_float = left_float + right_float;
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@@ -156,7 +223,7 @@ eval_binary(Token *pos, Token_Kind op, Value a, Value b){
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left_int = left_int ^ right_int;
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left_int = left_int ^ right_int;
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if(before_conversion.type == untyped_float) parsing_error(pos, "%s cant be performed on [Untyped_Float]", token_kind_string(op).str);
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if(before_conversion.type == untyped_float) parsing_error(pos, "%s cant be performed on [Untyped_Float]", token_kind_string(op).str);
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} break;
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} break;
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invalid_default_case;
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default: parsing_error(pos, "Binary operation %s is not allowed on types: left: %s right: %s", token_kind_string(op).str, docname(a.type), docname(b.type));
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}
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}
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if(before_conversion.type == untyped_float){
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if(before_conversion.type == untyped_float){
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@@ -711,35 +778,6 @@ resolve_expr(Ast_Expr *ast, Ast_Resolved_Type *expected_type, Sym *lambda_to_res
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}
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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else if(token_is_compare(node->op)){
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Operand left = resolve_expr(node->left);
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Operand right = resolve_expr(node->right);
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if(left.is_const && right.is_const){
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if(result.type == type_int){
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switch(node->op){
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case TK_GreaterThen : result.bool_val = left.int_val > right.int_val; break;
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case TK_GreaterThenOrEqual: result.bool_val = left.int_val >= right.int_val; break;
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case TK_LesserThen : result.bool_val = left.int_val < right.int_val; break;
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case TK_LesserThenOrEqual : result.bool_val = left.int_val <= right.int_val; break;
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case TK_Equals : result.bool_val = left.int_val == right.int_val; break;
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case TK_NotEquals : result.bool_val = left.int_val != right.int_val; break;
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invalid_default_case;
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}
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}
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else parsing_error(node->pos, "Arithmetic on type [%s] is not supported", type_names[result.type->kind]);
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}
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else if(left.type != right.type) {
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parsing_error(node->pos, "Type mismatch in binary operation %s - left: %s right: %s", token_kind_string(node->op).str, docname(left.type), docname(right.type));
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}
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else{
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result = operand_rvalue(left.type);
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}
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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else{
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else{
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Operand left = resolve_expr(node->left);
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Operand left = resolve_expr(node->left);
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