diff options
Diffstat (limited to 'src/ir.cpp')
| -rw-r--r-- | src/ir.cpp | 101 |
1 files changed, 49 insertions, 52 deletions
diff --git a/src/ir.cpp b/src/ir.cpp index ebeab9869..dbde6242f 100644 --- a/src/ir.cpp +++ b/src/ir.cpp @@ -1304,7 +1304,7 @@ irValue *ir_add_module_constant(irModule *m, Type *type, ExactValue value) { isize max_len = 7+8+1; u8 *str = cast(u8 *)gb_alloc_array(a, u8, max_len); - isize len = gb_snprintf(cast(char *)str, max_len, "__csba$%x", m->global_array_index); + isize len = gb_snprintf(cast(char *)str, max_len, "csba$%x", m->global_array_index); m->global_array_index++; String name = make_string(str, len-1); @@ -1323,7 +1323,7 @@ irValue *ir_add_module_constant(irModule *m, Type *type, ExactValue value) { irValue *ir_add_global_string_array(irModule *m, String string) { isize max_len = 6+8+1; u8 *str = cast(u8 *)gb_alloc_array(ir_allocator(), u8, max_len); - isize len = gb_snprintf(cast(char *)str, max_len, "__str$%x", m->global_string_index); + isize len = gb_snprintf(cast(char *)str, max_len, "str$%x", m->global_string_index); m->global_string_index++; String name = make_string(str, len-1); @@ -1448,7 +1448,7 @@ irValue *ir_add_global_generated(irModule *m, Type *type, irValue *value) { isize max_len = 7+8+1; u8 *str = cast(u8 *)gb_alloc_array(ir_allocator(), u8, max_len); - isize len = gb_snprintf(cast(char *)str, max_len, "__ggv$%x", m->global_generated_index); + isize len = gb_snprintf(cast(char *)str, max_len, "ggv$%x", m->global_generated_index); m->global_generated_index++; String name = make_string(str, len-1); @@ -1944,7 +1944,7 @@ irValue *ir_gen_map_key(irProcedure *proc, irValue *key, Type *key_type) { } else { auto args = array_make<irValue *>(ir_allocator(), 1); args[0] = str; - hashed_str = ir_emit_runtime_call(proc, "__default_hash_string", args); + hashed_str = ir_emit_runtime_call(proc, "default_hash_string", args); } ir_emit_store(proc, ir_emit_struct_ep(proc, v, 0), hashed_str); ir_emit_store(proc, ir_emit_struct_ep(proc, v, 1), str); @@ -2430,8 +2430,22 @@ irValue *ir_emit_arith(irProcedure *proc, TokenKind op, irValue *left, irValue * if (is_type_complex(t_left)) { ir_emit_comment(proc, str_lit("complex.arith.begin")); + defer (ir_emit_comment(proc, str_lit("complex.arith.end"))); + Type *ft = base_complex_elem_type(t_left); + if (op == Token_Quo) { + auto args = array_make<irValue *>(heap_allocator(), 2); + args[0] = left; + args[1] = right; + + switch (type_size_of(ft)) { + case 4: return ir_emit_runtime_call(proc, "quo_complex64", args); + case 8: return ir_emit_runtime_call(proc, "quo_complex128", args); + default: GB_PANIC("Unknown float type"); break; + } + } + irValue *res = ir_add_local_generated(proc, type); irValue *a = ir_emit_struct_ev(proc, left, 0); irValue *b = ir_emit_struct_ev(proc, left, 1); @@ -2459,28 +2473,11 @@ irValue *ir_emit_arith(irProcedure *proc, TokenKind op, irValue *left, irValue * imag = ir_emit_arith(proc, Token_Add, z, w, ft); break; } - case Token_Quo: { - irValue *s1 = ir_emit_arith(proc, Token_Mul, c, c, ft); - irValue *s2 = ir_emit_arith(proc, Token_Mul, d, d, ft); - irValue *s = ir_emit_arith(proc, Token_Add, s1, s2, ft); - - irValue *x = ir_emit_arith(proc, Token_Mul, a, c, ft); - irValue *y = ir_emit_arith(proc, Token_Mul, b, d, ft); - real = ir_emit_arith(proc, Token_Add, x, y, ft); - real = ir_emit_arith(proc, Token_Quo, real, s, ft); - - irValue *z = ir_emit_arith(proc, Token_Mul, b, c, ft); - irValue *w = ir_emit_arith(proc, Token_Mul, a, d, ft); - imag = ir_emit_arith(proc, Token_Sub, z, w, ft); - imag = ir_emit_arith(proc, Token_Quo, imag, s, ft); - break; - } } ir_emit_store(proc, ir_emit_struct_ep(proc, res, 0), real); ir_emit_store(proc, ir_emit_struct_ep(proc, res, 1), imag); - ir_emit_comment(proc, str_lit("complex.end.begin")); return ir_emit_load(proc, res); } @@ -2710,12 +2707,12 @@ irValue *ir_emit_comp(irProcedure *proc, TokenKind op_kind, irValue *left, irVal if (is_type_string(a)) { char *runtime_proc = nullptr; switch (op_kind) { - case Token_CmpEq: runtime_proc = "__string_eq"; break; - case Token_NotEq: runtime_proc = "__string_ne"; break; - case Token_Lt: runtime_proc = "__string_lt"; break; - case Token_Gt: runtime_proc = "__string_gt"; break; - case Token_LtEq: runtime_proc = "__string_le"; break; - case Token_GtEq: runtime_proc = "__string_gt"; break; + case Token_CmpEq: runtime_proc = "string_eq"; break; + case Token_NotEq: runtime_proc = "string_ne"; break; + case Token_Lt: runtime_proc = "string_lt"; break; + case Token_Gt: runtime_proc = "string_gt"; break; + case Token_LtEq: runtime_proc = "string_le"; break; + case Token_GtEq: runtime_proc = "string_gt"; break; } GB_ASSERT(runtime_proc != nullptr); @@ -2731,14 +2728,14 @@ irValue *ir_emit_comp(irProcedure *proc, TokenKind op_kind, irValue *left, irVal switch (sz) { case 64: switch (op_kind) { - case Token_CmpEq: runtime_proc = "__complex64_eq"; break; - case Token_NotEq: runtime_proc = "__complex64_ne"; break; + case Token_CmpEq: runtime_proc = "complex64_eq"; break; + case Token_NotEq: runtime_proc = "complex64_ne"; break; } break; case 128: switch (op_kind) { - case Token_CmpEq: runtime_proc = "__complex128_eq"; break; - case Token_NotEq: runtime_proc = "__complex128_ne"; break; + case Token_CmpEq: runtime_proc = "complex128_eq"; break; + case Token_NotEq: runtime_proc = "complex128_ne"; break; } break; } @@ -3068,7 +3065,7 @@ irValue *ir_cstring_len(irProcedure *proc, irValue *value) { GB_ASSERT(is_type_cstring(ir_type(value))); auto args = array_make<irValue *>(ir_allocator(), 1); args[0] = ir_emit_conv(proc, value, t_cstring); - return ir_emit_runtime_call(proc, "__cstring_len", args); + return ir_emit_runtime_call(proc, "cstring_len", args); } @@ -3313,7 +3310,7 @@ irValue *ir_emit_conv(irProcedure *proc, irValue *value, Type *t) { irValue *c = ir_emit_conv(proc, value, t_cstring); auto args = array_make<irValue *>(ir_allocator(), 1); args[0] = c; - irValue *s = ir_emit_runtime_call(proc, "__cstring_to_string", args); + irValue *s = ir_emit_runtime_call(proc, "cstring_to_string", args); return ir_emit_conv(proc, s, dst); } @@ -3334,13 +3331,13 @@ irValue *ir_emit_conv(irProcedure *proc, irValue *value, Type *t) { // case 4: { // auto args = array_make<irValue *>(ir_allocator(), 1); // args[0] = value; - // return ir_emit_runtime_call(proc, "__gnu_h2f_ieee", args); + // return ir_emit_runtime_call(proc, "gnu_h2f_ieee", args); // break; // } // case 8: { // auto args = array_make<irValue *>(ir_allocator(), 1); // args[0] = value; - // return ir_emit_runtime_call(proc, "__f16_to_f64", args); + // return ir_emit_runtime_call(proc, "f16_to_f64", args); // break; // } // } @@ -3350,13 +3347,13 @@ irValue *ir_emit_conv(irProcedure *proc, irValue *value, Type *t) { // case 4: { // auto args = array_make<irValue *>(ir_allocator(), 1); // args[0] = value; - // return ir_emit_runtime_call(proc, "__gnu_f2h_ieee", args); + // return ir_emit_runtime_call(proc, "gnu_f2h_ieee", args); // break; // } // case 8: { // auto args = array_make<irValue *>(ir_allocator(), 1); // args[0] = value; - // return ir_emit_runtime_call(proc, "__truncdfhf2", args); + // return ir_emit_runtime_call(proc, "truncdfhf2", args); // break; // } // } @@ -4306,8 +4303,8 @@ irValue *ir_emit_min(irProcedure *proc, Type *t, irValue *x, irValue *y) { args[0] = x; args[1] = y; switch (sz) { - case 32: return ir_emit_runtime_call(proc, "__min_f32", args); - case 64: return ir_emit_runtime_call(proc, "__min_f64", args); + case 32: return ir_emit_runtime_call(proc, "min_f32", args); + case 64: return ir_emit_runtime_call(proc, "min_f64", args); } GB_PANIC("Unknown float type"); } @@ -4324,8 +4321,8 @@ irValue *ir_emit_max(irProcedure *proc, Type *t, irValue *x, irValue *y) { args[0] = x; args[1] = y; switch (sz) { - case 32: return ir_emit_runtime_call(proc, "__max_f32", args); - case 64: return ir_emit_runtime_call(proc, "__max_f64", args); + case 32: return ir_emit_runtime_call(proc, "max_f32", args); + case 64: return ir_emit_runtime_call(proc, "max_f64", args); } GB_PANIC("Unknown float type"); } @@ -4676,8 +4673,8 @@ irValue *ir_build_builtin_proc(irProcedure *proc, Ast *expr, TypeAndValue tv, Bu auto args = array_make<irValue *>(ir_allocator(), 1); args[0] = x; switch (sz) { - case 64: return ir_emit_runtime_call(proc, "__abs_complex64", args); - case 128: return ir_emit_runtime_call(proc, "__abs_complex128", args); + case 64: return ir_emit_runtime_call(proc, "abs_complex64", args); + case 128: return ir_emit_runtime_call(proc, "abs_complex128", args); } GB_PANIC("Unknown complex type"); } else if (is_type_float(t)) { @@ -4685,8 +4682,8 @@ irValue *ir_build_builtin_proc(irProcedure *proc, Ast *expr, TypeAndValue tv, Bu auto args = array_make<irValue *>(ir_allocator(), 1); args[0] = x; switch (sz) { - case 32: return ir_emit_runtime_call(proc, "__abs_f32", args); - case 64: return ir_emit_runtime_call(proc, "__abs_f64", args); + case 32: return ir_emit_runtime_call(proc, "abs_f32", args); + case 64: return ir_emit_runtime_call(proc, "abs_f64", args); } GB_PANIC("Unknown float type"); } @@ -5903,7 +5900,7 @@ irAddr ir_build_addr(irProcedure *proc, Ast *expr) { } i64 item_count = cl->elems.count; - irValue *items = ir_generate_array(proc->module, elem, item_count, str_lit("__dacl$"), cast(i64)cast(intptr)expr); + irValue *items = ir_generate_array(proc->module, elem, item_count, str_lit("dacl$"), cast(i64)cast(intptr)expr); for_array(field_index, cl->elems) { Ast *f = cl->elems[field_index]; @@ -6480,7 +6477,7 @@ void ir_build_range_string(irProcedure *proc, irValue *expr, Type *val_type, irValue *str_len = ir_emit_arith(proc, Token_Sub, count, offset, t_int); auto args = array_make<irValue *>(ir_allocator(), 1); args[0] = ir_emit_string(proc, str_elem, str_len); - irValue *rune_and_len = ir_emit_runtime_call(proc, "__string_decode_rune", args); + irValue *rune_and_len = ir_emit_runtime_call(proc, "string_decode_rune", args); irValue *len = ir_emit_struct_ev(proc, rune_and_len, 1); ir_emit_store(proc, offset_, ir_emit_arith(proc, Token_Add, offset, len, t_int)); @@ -8075,9 +8072,9 @@ void ir_setup_type_info_data(irProcedure *proc) { // NOTE(bill): Setup type_info if (t->Enum.fields.count > 0) { auto fields = t->Enum.fields; irValue *name_array = ir_generate_array(m, t_string, fields.count, - str_lit("__$enum_names"), cast(i64)entry_index); + str_lit("$enum_names"), cast(i64)entry_index); irValue *value_array = ir_generate_array(m, t_type_info_enum_value, fields.count, - str_lit("__$enum_values"), cast(i64)entry_index); + str_lit("$enum_values"), cast(i64)entry_index); GB_ASSERT(is_type_integer(t->Enum.base_type)); @@ -8223,9 +8220,9 @@ void ir_setup_type_info_data(irProcedure *proc) { // NOTE(bill): Setup type_info isize count = t->BitField.fields.count; if (count > 0) { auto fields = t->BitField.fields; - irValue *name_array = ir_generate_array(m, t_string, count, str_lit("__$bit_field_names"), cast(i64)entry_index); - irValue *bit_array = ir_generate_array(m, t_i32, count, str_lit("__$bit_field_bits"), cast(i64)entry_index); - irValue *offset_array = ir_generate_array(m, t_i32, count, str_lit("__$bit_field_offsets"), cast(i64)entry_index); + irValue *name_array = ir_generate_array(m, t_string, count, str_lit("$bit_field_names"), cast(i64)entry_index); + irValue *bit_array = ir_generate_array(m, t_i32, count, str_lit("$bit_field_bits"), cast(i64)entry_index); + irValue *offset_array = ir_generate_array(m, t_i32, count, str_lit("$bit_field_offsets"), cast(i64)entry_index); for (isize i = 0; i < count; i++) { Entity *f = fields[i]; |