c512d6173f
Replace by inline constants with separators (single quotes) for better readability. R=mlippautz@chromium.org Bug: v8:10506 Change-Id: Iae7c72eeb9d463c63c2d135f6236edc6821d1e63 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2297379 Commit-Queue: Clemens Backes <clemensb@chromium.org> Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Cr-Commit-Position: refs/heads/master@{#68939}
501 lines
20 KiB
C++
501 lines
20 KiB
C++
// Copyright 2011 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#include <stdlib.h>
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#include "src/base/platform/platform.h"
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#include "src/execution/isolate.h"
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#include "src/heap/factory-inl.h"
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#include "src/init/v8.h"
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#include "src/numbers/conversions.h"
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#include "src/objects/heap-number-inl.h"
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#include "src/objects/objects.h"
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#include "src/objects/smi.h"
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#include "test/cctest/cctest.h"
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namespace v8 {
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namespace internal {
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TEST(Hex) {
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CHECK_EQ(0.0, StringToDouble("0x0", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0X0", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(1.0, StringToDouble("0x1", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(16.0, StringToDouble("0x10", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(255.0, StringToDouble("0xFF", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(175.0, StringToDouble("0xAF", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0x0", ALLOW_HEX));
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CHECK_EQ(0.0, StringToDouble("0X0", ALLOW_HEX));
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CHECK_EQ(1.0, StringToDouble("0x1", ALLOW_HEX));
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CHECK_EQ(16.0, StringToDouble("0x10", ALLOW_HEX));
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CHECK_EQ(255.0, StringToDouble("0xFF", ALLOW_HEX));
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CHECK_EQ(175.0, StringToDouble("0xAF", ALLOW_HEX));
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}
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TEST(Octal) {
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CHECK_EQ(0.0, StringToDouble("0o0", ALLOW_OCTAL | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0O0", ALLOW_OCTAL | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(1.0, StringToDouble("0o1", ALLOW_OCTAL | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(7.0, StringToDouble("0o7", ALLOW_OCTAL | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(8.0, StringToDouble("0o10", ALLOW_OCTAL | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(63.0, StringToDouble("0o77", ALLOW_OCTAL | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0o0", ALLOW_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0O0", ALLOW_OCTAL));
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CHECK_EQ(1.0, StringToDouble("0o1", ALLOW_OCTAL));
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CHECK_EQ(7.0, StringToDouble("0o7", ALLOW_OCTAL));
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CHECK_EQ(8.0, StringToDouble("0o10", ALLOW_OCTAL));
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CHECK_EQ(63.0, StringToDouble("0o77", ALLOW_OCTAL));
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}
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TEST(ImplicitOctal) {
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CHECK_EQ(0.0, StringToDouble("0", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("00", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(1.0, StringToDouble("01", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(7.0, StringToDouble("07", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(8.0, StringToDouble("010", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(63.0, StringToDouble("077", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0", ALLOW_HEX));
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CHECK_EQ(0.0, StringToDouble("00", ALLOW_HEX));
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CHECK_EQ(1.0, StringToDouble("01", ALLOW_HEX));
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CHECK_EQ(7.0, StringToDouble("07", ALLOW_HEX));
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CHECK_EQ(10.0, StringToDouble("010", ALLOW_HEX));
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CHECK_EQ(77.0, StringToDouble("077", ALLOW_HEX));
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const double x = 010000000000; // Power of 2, no rounding errors.
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CHECK_EQ(x * x * x * x * x, StringToDouble("01"
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"0000000000"
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"0000000000"
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"0000000000"
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"0000000000"
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"0000000000",
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ALLOW_IMPLICIT_OCTAL));
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}
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TEST(Binary) {
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CHECK_EQ(0.0, StringToDouble("0b0", ALLOW_BINARY | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0B0", ALLOW_BINARY | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(1.0, StringToDouble("0b1", ALLOW_BINARY | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(2.0, StringToDouble("0b10", ALLOW_BINARY | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(3.0, StringToDouble("0b11", ALLOW_BINARY | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0b0", ALLOW_BINARY));
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CHECK_EQ(0.0, StringToDouble("0B0", ALLOW_BINARY));
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CHECK_EQ(1.0, StringToDouble("0b1", ALLOW_BINARY));
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CHECK_EQ(2.0, StringToDouble("0b10", ALLOW_BINARY));
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CHECK_EQ(3.0, StringToDouble("0b11", ALLOW_BINARY));
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}
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TEST(MalformedOctal) {
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CHECK_EQ(8.0, StringToDouble("08", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(81.0, StringToDouble("081", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(78.0, StringToDouble("078", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK(std::isnan(StringToDouble("07.7", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL)));
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CHECK(std::isnan(StringToDouble("07.8", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL)));
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CHECK(std::isnan(StringToDouble("07e8", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL)));
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CHECK(std::isnan(StringToDouble("07e7", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL)));
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CHECK_EQ(8.7, StringToDouble("08.7", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(8e7, StringToDouble("08e7", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.001, StringToDouble("0.001", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.713, StringToDouble("0.713", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(8.0, StringToDouble("08", ALLOW_HEX));
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CHECK_EQ(81.0, StringToDouble("081", ALLOW_HEX));
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CHECK_EQ(78.0, StringToDouble("078", ALLOW_HEX));
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CHECK_EQ(7.7, StringToDouble("07.7", ALLOW_HEX));
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CHECK_EQ(7.8, StringToDouble("07.8", ALLOW_HEX));
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CHECK_EQ(7e8, StringToDouble("07e8", ALLOW_HEX));
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CHECK_EQ(7e7, StringToDouble("07e7", ALLOW_HEX));
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CHECK_EQ(8.7, StringToDouble("08.7", ALLOW_HEX));
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CHECK_EQ(8e7, StringToDouble("08e7", ALLOW_HEX));
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CHECK_EQ(0.001, StringToDouble("0.001", ALLOW_HEX));
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CHECK_EQ(0.713, StringToDouble("0.713", ALLOW_HEX));
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}
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TEST(TrailingJunk) {
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CHECK_EQ(8.0, StringToDouble("8q", ALLOW_TRAILING_JUNK));
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CHECK_EQ(63.0, StringToDouble("077qqq",
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ALLOW_IMPLICIT_OCTAL | ALLOW_TRAILING_JUNK));
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CHECK_EQ(10.0,
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StringToDouble("10e", ALLOW_IMPLICIT_OCTAL | ALLOW_TRAILING_JUNK));
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CHECK_EQ(10.0,
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StringToDouble("10e-", ALLOW_IMPLICIT_OCTAL | ALLOW_TRAILING_JUNK));
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}
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TEST(NonStrDecimalLiteral) {
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CHECK(std::isnan(
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StringToDouble(" ", NO_FLAGS, std::numeric_limits<double>::quiet_NaN())));
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CHECK(std::isnan(
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StringToDouble("", NO_FLAGS, std::numeric_limits<double>::quiet_NaN())));
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CHECK(std::isnan(
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StringToDouble(" ", NO_FLAGS, std::numeric_limits<double>::quiet_NaN())));
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CHECK_EQ(0.0, StringToDouble("", NO_FLAGS));
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CHECK_EQ(0.0, StringToDouble(" ", NO_FLAGS));
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}
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TEST(IntegerStrLiteral) {
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CHECK_EQ(0.0, StringToDouble("0.0", NO_FLAGS));
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CHECK_EQ(0.0, StringToDouble("0", NO_FLAGS));
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CHECK_EQ(0.0, StringToDouble("00", NO_FLAGS));
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CHECK_EQ(0.0, StringToDouble("000", NO_FLAGS));
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CHECK_EQ(1.0, StringToDouble("1", NO_FLAGS));
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CHECK_EQ(-1.0, StringToDouble("-1", NO_FLAGS));
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CHECK_EQ(-1.0, StringToDouble(" -1 ", NO_FLAGS));
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CHECK_EQ(1.0, StringToDouble(" +1 ", NO_FLAGS));
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CHECK(std::isnan(StringToDouble(" - 1 ", NO_FLAGS)));
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CHECK(std::isnan(StringToDouble(" + 1 ", NO_FLAGS)));
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CHECK_EQ(0.0, StringToDouble("0e0", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0e1", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0e-1", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0e-100000", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0e+100000", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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CHECK_EQ(0.0, StringToDouble("0.", ALLOW_HEX | ALLOW_IMPLICIT_OCTAL));
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}
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TEST(LongNumberStr) {
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CHECK_EQ(1e10, StringToDouble("1"
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"0000000000",
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NO_FLAGS));
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CHECK_EQ(1e20, StringToDouble("1"
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"0000000000"
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"0000000000",
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NO_FLAGS));
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CHECK_EQ(1e60, StringToDouble("1"
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"0000000000"
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"0000000000"
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"0000000000"
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"0000000000"
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"0000000000"
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"0000000000",
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NO_FLAGS));
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CHECK_EQ(1e-2, StringToDouble("."
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"0"
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"1",
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NO_FLAGS));
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CHECK_EQ(1e-11, StringToDouble("."
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"0000000000"
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"1",
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NO_FLAGS));
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CHECK_EQ(1e-21, StringToDouble("."
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"0000000000"
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"0000000000"
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"1",
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NO_FLAGS));
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CHECK_EQ(1e-61, StringToDouble("."
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"0000000000"
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"0000000000"
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"0000000000"
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"0000000000"
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"0000000000"
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"0000000000"
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"1",
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NO_FLAGS));
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// x = 24414062505131248.0 and y = 24414062505131252.0 are representable in
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// double. Check chat z = (x + y) / 2 is rounded to x...
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CHECK_EQ(24414062505131248.0,
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StringToDouble("24414062505131250.0", NO_FLAGS));
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// ... and z = (x + y) / 2 + delta is rounded to y.
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CHECK_EQ(24414062505131252.0,
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StringToDouble("24414062505131250.000000001", NO_FLAGS));
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}
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TEST(MaximumSignificantDigits) {
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char num[] =
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"4.4501477170144020250819966727949918635852426585926051135169509"
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"122872622312493126406953054127118942431783801370080830523154578"
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"251545303238277269592368457430440993619708911874715081505094180"
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"604803751173783204118519353387964161152051487413083163272520124"
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"606023105869053620631175265621765214646643181420505164043632222"
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"668006474326056011713528291579642227455489682133472873831754840"
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"341397809846934151055619529382191981473003234105366170879223151"
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"087335413188049110555339027884856781219017754500629806224571029"
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"581637117459456877330110324211689177656713705497387108207822477"
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"584250967061891687062782163335299376138075114200886249979505279"
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"101870966346394401564490729731565935244123171539810221213221201"
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"847003580761626016356864581135848683152156368691976240370422601"
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"6998291015625000000000000000000000000000000000e-308";
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CHECK_EQ(4.4501477170144017780491e-308, StringToDouble(num, NO_FLAGS));
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// Changes the result of strtod (at least in glibc implementation).
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num[sizeof(num) - 8] = '1';
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CHECK_EQ(4.4501477170144022721148e-308, StringToDouble(num, NO_FLAGS));
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}
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TEST(MinimumExponent) {
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// Same test but with different point-position.
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char num[] =
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"445014771701440202508199667279499186358524265859260511351695091"
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"228726223124931264069530541271189424317838013700808305231545782"
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"515453032382772695923684574304409936197089118747150815050941806"
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"048037511737832041185193533879641611520514874130831632725201246"
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"060231058690536206311752656217652146466431814205051640436322226"
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"680064743260560117135282915796422274554896821334728738317548403"
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"413978098469341510556195293821919814730032341053661708792231510"
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"873354131880491105553390278848567812190177545006298062245710295"
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"816371174594568773301103242116891776567137054973871082078224775"
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"842509670618916870627821633352993761380751142008862499795052791"
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"018709663463944015644907297315659352441231715398102212132212018"
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"470035807616260163568645811358486831521563686919762403704226016"
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"998291015625000000000000000000000000000000000e-1108";
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CHECK_EQ(4.4501477170144017780491e-308, StringToDouble(num, NO_FLAGS));
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// Changes the result of strtod (at least in glibc implementation).
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num[sizeof(num) - 8] = '1';
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CHECK_EQ(4.4501477170144022721148e-308, StringToDouble(num, NO_FLAGS));
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}
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TEST(MaximumExponent) {
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char num[] = "0.16e309";
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CHECK_EQ(1.59999999999999997765e+308, StringToDouble(num, NO_FLAGS));
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}
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TEST(ExponentNumberStr) {
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CHECK_EQ(1e1, StringToDouble("1e1", NO_FLAGS));
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CHECK_EQ(1e1, StringToDouble("1e+1", NO_FLAGS));
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CHECK_EQ(1e-1, StringToDouble("1e-1", NO_FLAGS));
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CHECK_EQ(1e100, StringToDouble("1e+100", NO_FLAGS));
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CHECK_EQ(1e-100, StringToDouble("1e-100", NO_FLAGS));
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CHECK_EQ(1e-106, StringToDouble(".000001e-100", NO_FLAGS));
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}
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using OneBit1 = base::BitField<uint32_t, 0, 1>;
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using OneBit2 = base::BitField<uint32_t, 7, 1>;
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using EightBit1 = base::BitField<uint32_t, 0, 8>;
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using EightBit2 = base::BitField<uint32_t, 13, 8>;
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TEST(BitField) {
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uint32_t x;
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// One bit bit field can hold values 0 and 1.
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CHECK(!OneBit1::is_valid(static_cast<uint32_t>(-1)));
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CHECK(!OneBit2::is_valid(static_cast<uint32_t>(-1)));
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for (unsigned i = 0; i < 2; i++) {
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CHECK(OneBit1::is_valid(i));
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x = OneBit1::encode(i);
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CHECK_EQ(i, OneBit1::decode(x));
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CHECK(OneBit2::is_valid(i));
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x = OneBit2::encode(i);
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CHECK_EQ(i, OneBit2::decode(x));
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}
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CHECK(!OneBit1::is_valid(2));
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CHECK(!OneBit2::is_valid(2));
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// Eight bit bit field can hold values from 0 tp 255.
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CHECK(!EightBit1::is_valid(static_cast<uint32_t>(-1)));
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CHECK(!EightBit2::is_valid(static_cast<uint32_t>(-1)));
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for (unsigned i = 0; i < 256; i++) {
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CHECK(EightBit1::is_valid(i));
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x = EightBit1::encode(i);
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CHECK_EQ(i, EightBit1::decode(x));
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CHECK(EightBit2::is_valid(i));
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x = EightBit2::encode(i);
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CHECK_EQ(i, EightBit2::decode(x));
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}
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CHECK(!EightBit1::is_valid(256));
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CHECK(!EightBit2::is_valid(256));
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}
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using UpperBits = base::BitField64<int, 61, 3>;
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using MiddleBits = base::BitField64<int, 31, 2>;
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TEST(BitField64) {
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uint64_t x;
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// Test most significant bits.
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x = 0xE000'0000'0000'0000;
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CHECK(x == UpperBits::encode(7));
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CHECK_EQ(7, UpperBits::decode(x));
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// Test the 32/64-bit boundary bits.
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x = 0x0000'0001'8000'0000;
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CHECK(x == MiddleBits::encode(3));
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CHECK_EQ(3, MiddleBits::decode(x));
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}
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static void CheckNonArrayIndex(bool expected, const char* chars) {
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auto isolate = CcTest::i_isolate();
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auto string = isolate->factory()->NewStringFromAsciiChecked(chars);
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CHECK_EQ(expected, IsSpecialIndex(*string));
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}
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TEST(SpecialIndexParsing) {
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auto isolate = CcTest::i_isolate();
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HandleScope scope(isolate);
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CheckNonArrayIndex(false, "");
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CheckNonArrayIndex(false, "-");
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CheckNonArrayIndex(true, "0");
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CheckNonArrayIndex(true, "-0");
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CheckNonArrayIndex(false, "01");
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CheckNonArrayIndex(false, "-01");
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CheckNonArrayIndex(true, "0.5");
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CheckNonArrayIndex(true, "-0.5");
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CheckNonArrayIndex(true, "1");
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CheckNonArrayIndex(true, "-1");
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CheckNonArrayIndex(true, "10");
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CheckNonArrayIndex(true, "-10");
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CheckNonArrayIndex(true, "NaN");
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CheckNonArrayIndex(true, "Infinity");
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CheckNonArrayIndex(true, "-Infinity");
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CheckNonArrayIndex(true, "4294967295");
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CheckNonArrayIndex(true, "429496.7295");
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CheckNonArrayIndex(true, "1.3333333333333333");
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CheckNonArrayIndex(false, "1.3333333333333339");
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CheckNonArrayIndex(true, "1.333333333333331e+222");
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CheckNonArrayIndex(true, "-1.3333333333333211e+222");
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CheckNonArrayIndex(false, "-1.3333333333333311e+222");
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CheckNonArrayIndex(true, "429496.7295");
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CheckNonArrayIndex(false, "43s3");
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CheckNonArrayIndex(true, "4294967296");
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CheckNonArrayIndex(true, "-4294967296");
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CheckNonArrayIndex(true, "999999999999999");
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CheckNonArrayIndex(false, "9999999999999999");
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CheckNonArrayIndex(true, "-999999999999999");
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CheckNonArrayIndex(false, "-9999999999999999");
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CheckNonArrayIndex(false, "42949672964294967296429496729694966");
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}
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TEST(NoHandlesForTryNumberToSize) {
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i::Isolate* isolate = CcTest::i_isolate();
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size_t result = 0;
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{
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SealHandleScope no_handles(isolate);
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Smi smi = Smi::FromInt(1);
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CHECK(TryNumberToSize(smi, &result));
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CHECK_EQ(result, 1u);
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}
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result = 0;
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{
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HandleScope scope(isolate);
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Handle<HeapNumber> heap_number1 = isolate->factory()->NewHeapNumber(2.0);
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{
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SealHandleScope no_handles(isolate);
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CHECK(TryNumberToSize(*heap_number1, &result));
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CHECK_EQ(result, 2u);
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}
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Handle<HeapNumber> heap_number2 = isolate->factory()->NewHeapNumber(
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static_cast<double>(std::numeric_limits<size_t>::max()) + 10000.0);
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{
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SealHandleScope no_handles(isolate);
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CHECK(!TryNumberToSize(*heap_number2, &result));
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}
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}
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}
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TEST(TryNumberToSizeWithMaxSizePlusOne) {
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i::Isolate* isolate = CcTest::i_isolate();
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{
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HandleScope scope(isolate);
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// 1 << 64, larger than the limit of size_t.
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double value = 18446744073709551616.0;
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size_t result = 0;
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Handle<HeapNumber> heap_number = isolate->factory()->NewHeapNumber(value);
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CHECK(!TryNumberToSize(*heap_number, &result));
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}
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}
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TEST(PositiveNumberToUint32) {
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i::Isolate* isolate = CcTest::i_isolate();
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i::Factory* factory = isolate->factory();
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uint32_t max = std::numeric_limits<uint32_t>::max();
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HandleScope scope(isolate);
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// Test Smi conversions.
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Handle<Object> number = handle(Smi::FromInt(0), isolate);
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
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number = handle(Smi::FromInt(-1), isolate);
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
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number = handle(Smi::FromInt(-1), isolate);
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
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number = handle(Smi::FromInt(Smi::kMinValue), isolate);
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
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number = handle(Smi::FromInt(Smi::kMaxValue), isolate);
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CHECK_EQ(PositiveNumberToUint32(*number),
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static_cast<uint32_t>(Smi::kMaxValue));
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// Test Double conversions.
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number = factory->NewHeapNumber(0.0);
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
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number = factory->NewHeapNumber(0.999);
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
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number = factory->NewHeapNumber(1.999);
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CHECK_EQ(PositiveNumberToUint32(*number), 1u);
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number = factory->NewHeapNumber(-12.0);
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
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number = factory->NewHeapNumber(12000.0);
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CHECK_EQ(PositiveNumberToUint32(*number), 12000u);
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number = factory->NewHeapNumber(static_cast<double>(Smi::kMaxValue) + 1);
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CHECK_EQ(PositiveNumberToUint32(*number),
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static_cast<uint32_t>(Smi::kMaxValue) + 1);
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number = factory->NewHeapNumber(max);
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CHECK_EQ(PositiveNumberToUint32(*number), max);
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number = factory->NewHeapNumber(static_cast<double>(max) * 1000);
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CHECK_EQ(PositiveNumberToUint32(*number), max);
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number = factory->NewHeapNumber(std::numeric_limits<double>::max());
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CHECK_EQ(PositiveNumberToUint32(*number), max);
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number = factory->NewHeapNumber(std::numeric_limits<double>::infinity());
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CHECK_EQ(PositiveNumberToUint32(*number), max);
|
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number =
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factory->NewHeapNumber(-1.0 * std::numeric_limits<double>::infinity());
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
|
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number = factory->NewHeapNumber(std::nan(""));
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CHECK_EQ(PositiveNumberToUint32(*number), 0u);
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}
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} // namespace internal
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} // namespace v8
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