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node/deps/v8/test/mjsunit/compiler/fast-api-clamp-annotations.js
Michaël Zasso cfbf9e0d14 deps: update V8 to 12.4.254.14 
PR-URL: https://github.com/nodejs/node/pull/52465
Reviewed-By: Matteo Collina <matteo.collina@gmail.com>
Reviewed-By: Rafael Gonzaga <rafael.nunu@hotmail.com>
Reviewed-By: Michael Dawson <midawson@redhat.com>
2024-04-22 21:25:15 +00:00

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// Copyright 2022 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// These tests exercise WebIDL annotations support in the fast API.
// Flags: --turbo-fast-api-calls --expose-fast-api --allow-natives-syntax --turbofan
// --always-turbofan is disabled because we rely on particular feedback for
// optimizing to the fastest path.
// Flags: --no-always-turbofan
// The test relies on optimizing/deoptimizing at predictable moments, so
// it's not suitable for deoptimization fuzzing.
// Flags: --deopt-every-n-times=0
// Flags: --enable-sse4-1 --enable-sse4-2
const fast_c_api = new d8.test.FastCAPI();
const min_int32 = -(2 ** 31);
const max_int32 = 2 ** 31 - 1;
const min_uint32 = 0;
const max_uint32 = 2 ** 32 - 1;
// ----------- clamp_compare -----------
// `clamp_compare` has the following signature:
// void clamp_compare(bool /*in_range*/,
// double, integer_type)
// where integer_type = {int32_t, uint32_t, int64_t, uint64_t}
// ----------- i32 -----------
function is_in_range_i32(in_range, arg, expected) {
let result = fast_c_api.clamp_compare_i32(in_range, arg, arg);
assertEquals(expected, result);
}
%PrepareFunctionForOptimization(is_in_range_i32);
is_in_range_i32(true, 123, 123);
%OptimizeFunctionOnNextCall(is_in_range_i32);
is_in_range_i32(true, 123, 123);
is_in_range_i32(true, -0.5, 0);
is_in_range_i32(true, 0.5, 0);
is_in_range_i32(true, 1.5, 2);
is_in_range_i32(true, min_int32, min_int32);
is_in_range_i32(true, max_int32, max_int32);
is_in_range_i32(false, -(2 ** 32), min_int32);
is_in_range_i32(false, -(2 ** 32 + 1), min_int32);
is_in_range_i32(false, 2 ** 32, max_int32);
is_in_range_i32(false, 2 ** 32 + 3.15, max_int32);
is_in_range_i32(false, Number.MIN_SAFE_INTEGER, min_int32);
is_in_range_i32(false, Number.MAX_SAFE_INTEGER, max_int32);
// ----------- u32 -----------
function is_in_range_u32(in_range, arg, expected) {
let result = fast_c_api.clamp_compare_u32(in_range, arg, arg);
assertEquals(expected, result);
}
%PrepareFunctionForOptimization(is_in_range_u32);
is_in_range_u32(true, 123, 123);
%OptimizeFunctionOnNextCall(is_in_range_u32);
is_in_range_u32(true, 123, 123);
is_in_range_u32(true, 0, 0);
is_in_range_u32(true, -0.5, 0);
is_in_range_u32(true, 0.5, 0);
is_in_range_u32(true, 2 ** 32 - 1, max_uint32);
is_in_range_u32(false, -(2 ** 31), min_uint32);
is_in_range_u32(false, 2 ** 32, max_uint32);
is_in_range_u32(false, -1, min_uint32);
is_in_range_u32(false, -1.5, min_uint32);
is_in_range_u32(false, Number.MIN_SAFE_INTEGER, min_uint32);
is_in_range_u32(false, Number.MAX_SAFE_INTEGER, max_uint32);
// ----------- i64 -----------
function is_in_range_i64(in_range, arg, expected) {
let result = fast_c_api.clamp_compare_i64(in_range, arg, arg);
assertEquals(expected, result);
}
%PrepareFunctionForOptimization(is_in_range_i64);
is_in_range_i64(true, 123, 123);
%OptimizeFunctionOnNextCall(is_in_range_i64);
is_in_range_i64(true, 123, 123);
is_in_range_i64(true, -0.5, 0);
is_in_range_i64(true, 0.5, 0);
is_in_range_i64(true, 1.5, 2);
is_in_range_i64(true, Number.MIN_SAFE_INTEGER, Number.MIN_SAFE_INTEGER);
is_in_range_i64(true, Number.MAX_SAFE_INTEGER, Number.MAX_SAFE_INTEGER);
// Slow path doesn't perform correct clamping outside of double range.
if (isOptimized(is_in_range_i64) && fast_c_api.fast_call_count() > 0) {
is_in_range_i64(false, -(2 ** 63), Number.MIN_SAFE_INTEGER);
is_in_range_i64(false, 2 ** 63 - 1024, Number.MAX_SAFE_INTEGER);
is_in_range_i64(false, 2 ** 63, Number.MAX_SAFE_INTEGER);
is_in_range_i64(false, -(2 ** 64), Number.MIN_SAFE_INTEGER);
is_in_range_i64(false, -(2 ** 64 + 1), Number.MIN_SAFE_INTEGER);
is_in_range_i64(false, 2 ** 64, Number.MAX_SAFE_INTEGER);
is_in_range_i64(false, 2 ** 64 + 3.15, Number.MAX_SAFE_INTEGER);
}
// ----------- u64 -----------
function is_in_range_u64(in_range, arg, expected) {
let result = fast_c_api.clamp_compare_u64(in_range, arg, arg);
assertEquals(expected, result);
}
%PrepareFunctionForOptimization(is_in_range_u64);
is_in_range_u64(true, 123, 123);
%OptimizeFunctionOnNextCall(is_in_range_u64);
is_in_range_u64(true, 123, 123);
is_in_range_u64(true, 0, 0);
is_in_range_u64(true, -0.5, 0);
is_in_range_u64(true, 0.5, 0);
is_in_range_u64(true, 2 ** 32 - 1, 2 ** 32 - 1);
is_in_range_u64(true, Number.MAX_SAFE_INTEGER, Number.MAX_SAFE_INTEGER);
is_in_range_u64(false, 1.7976931348623157e+308, Number.MAX_SAFE_INTEGER);
is_in_range_u64(false, Number.MIN_SAFE_INTEGER, 0);
is_in_range_u64(false, -1, 0);
is_in_range_u64(false, -1.5, 0);
is_in_range_u64(false, 2 ** 64, Number.MAX_SAFE_INTEGER);
is_in_range_u64(false, 2 ** 64 + 3.15, Number.MAX_SAFE_INTEGER);
// ---------- invalid arguments for clamp_compare ---------
fast_c_api.clamp_compare_i32(true);
fast_c_api.clamp_compare_i32(true, 753801, -2147483650);
fast_c_api.clamp_compare_u32(-2147483648, NaN, -5e-324);
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