From 5defddffd074b221cbb393bfdd9c3d50ffd7b499 Mon Sep 17 00:00:00 2001 From: Laytan Laats Date: Thu, 6 Feb 2025 21:44:34 +0100 Subject: [PATCH] reorganize tests and handle endian --- src/llvm_backend_proc.cpp | 13 ++-- tests/internal/test_abs.odin | 122 +++++++++++++++++++++++++++++++++-- 2 files changed, 122 insertions(+), 13 deletions(-) diff --git a/src/llvm_backend_proc.cpp b/src/llvm_backend_proc.cpp index fe7a85fee..e5c04852c 100644 --- a/src/llvm_backend_proc.cpp +++ b/src/llvm_backend_proc.cpp @@ -2175,24 +2175,21 @@ gb_internal lbValue lb_build_builtin_proc(lbProcedure *p, Ast *expr, TypeAndValu } GB_PANIC("Unknown complex type"); } else if (is_type_float(t)) { - Type *t_float = nullptr; + bool little = is_type_endian_little(t) || (is_type_endian_platform(t) && build_context.endian_kind == TargetEndian_Little); Type *t_unsigned = nullptr; lbValue mask = {0}; switch (type_size_of(t)) { case 2: - t_float = t_f16; t_unsigned = t_u16; - mask = lb_const_int(p->module, t_unsigned, 0x7FFF); + mask = lb_const_int(p->module, t_unsigned, little ? 0x7FFF : 0xFF7F); break; case 4: - t_float = t_f32; t_unsigned = t_u32; - mask = lb_const_int(p->module, t_unsigned, 0x7FFFFFFF); + mask = lb_const_int(p->module, t_unsigned, little ? 0x7FFFFFFF : 0xFFFFFF7F); break; case 8: - t_float = t_f64; t_unsigned = t_u64; - mask = lb_const_int(p->module, t_unsigned, 0x7FFFFFFFFFFFFFFF); + mask = lb_const_int(p->module, t_unsigned, little ? 0x7FFFFFFFFFFFFFFF : 0xFFFFFFFFFFFFFF7F); break; default: GB_PANIC("abs: unhandled float size"); @@ -2200,7 +2197,7 @@ gb_internal lbValue lb_build_builtin_proc(lbProcedure *p, Ast *expr, TypeAndValu lbValue as_unsigned = lb_emit_transmute(p, x, t_unsigned); lbValue abs = lb_emit_arith(p, Token_And, as_unsigned, mask, t_unsigned); - return lb_emit_transmute(p, abs, t_float); + return lb_emit_transmute(p, abs, t); } lbValue zero = lb_const_nil(p->module, t); diff --git a/tests/internal/test_abs.odin b/tests/internal/test_abs.odin index 2f7b67862..56db10c09 100644 --- a/tests/internal/test_abs.odin +++ b/tests/internal/test_abs.odin @@ -2,26 +2,65 @@ package test_internal import "core:testing" -@(test) -test_abs_float :: proc(t: ^testing.T) { - not_const :: proc(v: $T) -> T { return v } +@(private="file") +not_const :: proc(v: $T) -> T { return v } +@(test) +abs_f16_const :: proc(t: ^testing.T) { // Constant f16 testing.expect_value(t, abs(f16(0.)), 0.) testing.expect_value(t, abs(f16(-0.)), 0.) testing.expect_value(t, abs(f16(-1.)), 1.) testing.expect_value(t, abs(min(f16)), max(f16)) testing.expect_value(t, abs(max(f16)), max(f16)) - testing.expect_value(t, abs(f16(-.12345)), .12345) + testing.expect_value(t, abs(f16(-.12)), .12) + // Constant f16le + testing.expect_value(t, abs(f16le(0.)), 0.) + testing.expect_value(t, abs(f16le(-0.)), 0.) + testing.expect_value(t, abs(f16le(-1.)), 1.) + testing.expect_value(t, abs(min(f16le)), max(f16le)) + testing.expect_value(t, abs(max(f16le)), max(f16le)) + testing.expect_value(t, abs(f16le(-.12)), .12) + + // Constant f16be + testing.expect_value(t, abs(f16be(0.)), 0.) + testing.expect_value(t, abs(f16be(-0.)), 0.) + testing.expect_value(t, abs(f16be(-1.)), 1.) + testing.expect_value(t, abs(min(f16be)), max(f16be)) + testing.expect_value(t, abs(max(f16be)), max(f16be)) + testing.expect_value(t, abs(f16be(-.12)), .12) +} + +@(test) +abs_f16_variable :: proc(t: ^testing.T) { // Variable f16 testing.expect_value(t, abs(not_const(f16(0.))), 0.) testing.expect_value(t, abs(not_const(f16(-0.))), 0.) testing.expect_value(t, abs(not_const(f16(-1.))), 1.) testing.expect_value(t, abs(not_const(min(f16))), max(f16)) testing.expect_value(t, abs(not_const(max(f16))), max(f16)) - testing.expect_value(t, abs(not_const(f16(-.12345))), .12345) + testing.expect_value(t, abs(not_const(f16(-.12))), .12) + // Variable f16le + testing.expect_value(t, abs(not_const(f16le(0.))), 0.) + testing.expect_value(t, abs(not_const(f16le(-0.))), 0.) + testing.expect_value(t, abs(not_const(f16le(-1.))), 1.) + testing.expect_value(t, abs(not_const(min(f16le))), max(f16le)) + testing.expect_value(t, abs(not_const(max(f16le))), max(f16le)) + testing.expect_value(t, abs(not_const(f16le(-.12))), .12) + + // Variable f16be + testing.expect_value(t, abs(not_const(f16be(0.))), 0.) + testing.expect_value(t, abs(not_const(f16be(-0.))), 0.) + testing.expect_value(t, abs(not_const(f16be(-1.))), 1.) + testing.expect_value(t, abs(not_const(min(f16be))), max(f16be)) + testing.expect_value(t, abs(not_const(max(f16be))), max(f16be)) + testing.expect_value(t, abs(not_const(f16be(-.12))), .12) +} + +@(test) +abs_f32_const :: proc(t: ^testing.T) { // Constant f32 testing.expect_value(t, abs(f32(0.)), 0.) testing.expect_value(t, abs(f32(-0.)), 0.) @@ -30,6 +69,25 @@ test_abs_float :: proc(t: ^testing.T) { testing.expect_value(t, abs(max(f32)), max(f32)) testing.expect_value(t, abs(f32(-.12345)), .12345) + // Constant f32le + testing.expect_value(t, abs(f32le(0.)), 0.) + testing.expect_value(t, abs(f32le(-0.)), 0.) + testing.expect_value(t, abs(f32le(-1.)), 1.) + testing.expect_value(t, abs(min(f32le)), max(f32le)) + testing.expect_value(t, abs(max(f32le)), max(f32le)) + testing.expect_value(t, abs(f32le(-.12345)), .12345) + + // Constant f32be + testing.expect_value(t, abs(f32be(0.)), 0.) + testing.expect_value(t, abs(f32be(-0.)), 0.) + testing.expect_value(t, abs(f32be(-1.)), 1.) + testing.expect_value(t, abs(min(f32be)), max(f32be)) + testing.expect_value(t, abs(max(f32be)), max(f32be)) + testing.expect_value(t, abs(f32be(-.12345)), .12345) +} + +@(test) +abs_f32_variable :: proc(t: ^testing.T) { // Variable f32 testing.expect_value(t, abs(not_const(f32(0.))), 0.) testing.expect_value(t, abs(not_const(f32(-0.))), 0.) @@ -38,6 +96,25 @@ test_abs_float :: proc(t: ^testing.T) { testing.expect_value(t, abs(not_const(max(f32))), max(f32)) testing.expect_value(t, abs(not_const(f32(-.12345))), .12345) + // Variable f32le + testing.expect_value(t, abs(not_const(f32le(0.))), 0.) + testing.expect_value(t, abs(not_const(f32le(-0.))), 0.) + testing.expect_value(t, abs(not_const(f32le(-1.))), 1.) + testing.expect_value(t, abs(not_const(min(f32le))), max(f32le)) + testing.expect_value(t, abs(not_const(max(f32le))), max(f32le)) + testing.expect_value(t, abs(not_const(f32le(-.12345))), .12345) + + // Variable f32be + testing.expect_value(t, abs(not_const(f32be(0.))), 0.) + testing.expect_value(t, abs(not_const(f32be(-0.))), 0.) + testing.expect_value(t, abs(not_const(f32be(-1.))), 1.) + testing.expect_value(t, abs(not_const(min(f32be))), max(f32be)) + testing.expect_value(t, abs(not_const(max(f32be))), max(f32be)) + testing.expect_value(t, abs(not_const(f32be(-.12345))), .12345) +} + +@(test) +abs_f64_const :: proc(t: ^testing.T) { // Constant f64 testing.expect_value(t, abs(f64(0.)), 0.) testing.expect_value(t, abs(f64(-0.)), 0.) @@ -46,6 +123,25 @@ test_abs_float :: proc(t: ^testing.T) { testing.expect_value(t, abs(max(f64)), max(f64)) testing.expect_value(t, abs(f64(-.12345)), .12345) + // Constant f64le + testing.expect_value(t, abs(f64le(0.)), 0.) + testing.expect_value(t, abs(f64le(-0.)), 0.) + testing.expect_value(t, abs(f64le(-1.)), 1.) + testing.expect_value(t, abs(min(f64le)), max(f64le)) + testing.expect_value(t, abs(max(f64le)), max(f64le)) + testing.expect_value(t, abs(f64le(-.12345)), .12345) + + // Constant f64be + testing.expect_value(t, abs(f64be(0.)), 0.) + testing.expect_value(t, abs(f64be(-0.)), 0.) + testing.expect_value(t, abs(f64be(-1.)), 1.) + testing.expect_value(t, abs(min(f64be)), max(f64be)) + testing.expect_value(t, abs(max(f64be)), max(f64be)) + testing.expect_value(t, abs(f64be(-.12345)), .12345) +} + +@(test) +abs_f64_variable :: proc(t: ^testing.T) { // Variable f64 testing.expect_value(t, abs(not_const(f64(0.))), 0.) testing.expect_value(t, abs(not_const(f64(-0.))), 0.) @@ -53,4 +149,20 @@ test_abs_float :: proc(t: ^testing.T) { testing.expect_value(t, abs(not_const(min(f64))), max(f64)) testing.expect_value(t, abs(not_const(max(f64))), max(f64)) testing.expect_value(t, abs(not_const(f64(-.12345))), .12345) + + // Variable f64le + testing.expect_value(t, abs(not_const(f64le(0.))), 0.) + testing.expect_value(t, abs(not_const(f64le(-0.))), 0.) + testing.expect_value(t, abs(not_const(f64le(-1.))), 1.) + testing.expect_value(t, abs(not_const(min(f64le))), max(f64le)) + testing.expect_value(t, abs(not_const(max(f64le))), max(f64le)) + testing.expect_value(t, abs(not_const(f64le(-.12345))), .12345) + + // Variable f64be + testing.expect_value(t, abs(not_const(f64be(0.))), 0.) + testing.expect_value(t, abs(not_const(f64be(-0.))), 0.) + testing.expect_value(t, abs(not_const(f64be(-1.))), 1.) + testing.expect_value(t, abs(not_const(min(f64be))), max(f64be)) + testing.expect_value(t, abs(not_const(max(f64be))), max(f64be)) + testing.expect_value(t, abs(not_const(f64be(-.12345))), .12345) }