Abseil Common Libraries (C++) (grcp 依赖)
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357 lines
16 KiB
357 lines
16 KiB
// Copyright 2018 The Abseil Authors. |
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// |
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// Licensed under the Apache License, Version 2.0 (the "License"); |
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// you may not use this file except in compliance with the License. |
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// You may obtain a copy of the License at |
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// |
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// http://www.apache.org/licenses/LICENSE-2.0 |
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// |
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// Unless required by applicable law or agreed to in writing, software |
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// distributed under the License is distributed on an "AS IS" BASIS, |
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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// See the License for the specific language governing permissions and |
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// limitations under the License. |
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#include "absl/strings/internal/charconv_parse.h" |
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#include <string> |
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#include <utility> |
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#include "gmock/gmock.h" |
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#include "gtest/gtest.h" |
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#include "absl/base/internal/raw_logging.h" |
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#include "absl/strings/str_cat.h" |
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using absl::chars_format; |
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using absl::strings_internal::FloatType; |
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using absl::strings_internal::ParsedFloat; |
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using absl::strings_internal::ParseFloat; |
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namespace { |
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// Check that a given string input is parsed to the expected mantissa and |
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// exponent. |
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// |
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// Input string `s` must contain a '$' character. It marks the end of the |
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// characters that should be consumed by the match. It is stripped from the |
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// input to ParseFloat. |
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// |
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// If input string `s` contains '[' and ']' characters, these mark the region |
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// of characters that should be marked as the "subrange". For NaNs, this is |
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// the location of the extended NaN string. For numbers, this is the location |
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// of the full, over-large mantissa. |
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template <int base> |
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void ExpectParsedFloat(std::string s, absl::chars_format format_flags, |
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FloatType expected_type, uint64_t expected_mantissa, |
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int expected_exponent, |
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int expected_literal_exponent = -999) { |
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SCOPED_TRACE(s); |
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int begin_subrange = -1; |
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int end_subrange = -1; |
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// If s contains '[' and ']', then strip these characters and set the subrange |
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// indices appropriately. |
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std::string::size_type open_bracket_pos = s.find('['); |
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if (open_bracket_pos != std::string::npos) { |
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begin_subrange = static_cast<int>(open_bracket_pos); |
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s.replace(open_bracket_pos, 1, ""); |
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std::string::size_type close_bracket_pos = s.find(']'); |
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ABSL_RAW_CHECK(close_bracket_pos != absl::string_view::npos, |
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"Test input contains [ without matching ]"); |
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end_subrange = static_cast<int>(close_bracket_pos); |
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s.replace(close_bracket_pos, 1, ""); |
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} |
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const std::string::size_type expected_characters_matched = s.find('$'); |
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ABSL_RAW_CHECK(expected_characters_matched != std::string::npos, |
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"Input std::string must contain $"); |
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s.replace(expected_characters_matched, 1, ""); |
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ParsedFloat parsed = |
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ParseFloat<base>(s.data(), s.data() + s.size(), format_flags); |
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EXPECT_NE(parsed.end, nullptr); |
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if (parsed.end == nullptr) { |
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return; // The following tests are not useful if we fully failed to parse |
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} |
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EXPECT_EQ(parsed.type, expected_type); |
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if (begin_subrange == -1) { |
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EXPECT_EQ(parsed.subrange_begin, nullptr); |
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EXPECT_EQ(parsed.subrange_end, nullptr); |
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} else { |
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EXPECT_EQ(parsed.subrange_begin, s.data() + begin_subrange); |
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EXPECT_EQ(parsed.subrange_end, s.data() + end_subrange); |
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} |
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if (parsed.type == FloatType::kNumber) { |
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EXPECT_EQ(parsed.mantissa, expected_mantissa); |
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EXPECT_EQ(parsed.exponent, expected_exponent); |
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if (expected_literal_exponent != -999) { |
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EXPECT_EQ(parsed.literal_exponent, expected_literal_exponent); |
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} |
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} |
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auto characters_matched = static_cast<int>(parsed.end - s.data()); |
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EXPECT_EQ(characters_matched, expected_characters_matched); |
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} |
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// Check that a given string input is parsed to the expected mantissa and |
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// exponent. |
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// |
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// Input string `s` must contain a '$' character. It marks the end of the |
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// characters that were consumed by the match. |
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template <int base> |
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void ExpectNumber(std::string s, absl::chars_format format_flags, |
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uint64_t expected_mantissa, int expected_exponent, |
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int expected_literal_exponent = -999) { |
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ExpectParsedFloat<base>(std::move(s), format_flags, FloatType::kNumber, |
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expected_mantissa, expected_exponent, |
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expected_literal_exponent); |
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} |
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// Check that a given string input is parsed to the given special value. |
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// |
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// This tests against both number bases, since infinities and NaNs have |
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// identical representations in both modes. |
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void ExpectSpecial(const std::string& s, absl::chars_format format_flags, |
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FloatType type) { |
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ExpectParsedFloat<10>(s, format_flags, type, 0, 0); |
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ExpectParsedFloat<16>(s, format_flags, type, 0, 0); |
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} |
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// Check that a given input string is not matched by Float. |
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template <int base> |
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void ExpectFailedParse(absl::string_view s, absl::chars_format format_flags) { |
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ParsedFloat parsed = |
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ParseFloat<base>(s.data(), s.data() + s.size(), format_flags); |
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EXPECT_EQ(parsed.end, nullptr); |
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} |
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TEST(ParseFloat, SimpleValue) { |
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// Test that various forms of floating point numbers all parse correctly. |
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ExpectNumber<10>("1.23456789e5$", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("1.23456789e+5$", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("1.23456789E5$", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("1.23456789e05$", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("123.456789e3$", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("0.000123456789e9$", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("123456.789$", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("123456789e-3$", chars_format::general, 123456789, -3); |
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ExpectNumber<16>("1.234abcdefp28$", chars_format::general, 0x1234abcdef, -8); |
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ExpectNumber<16>("1.234abcdefp+28$", chars_format::general, 0x1234abcdef, -8); |
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ExpectNumber<16>("1.234ABCDEFp28$", chars_format::general, 0x1234abcdef, -8); |
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ExpectNumber<16>("1.234AbCdEfP0028$", chars_format::general, 0x1234abcdef, |
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-8); |
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ExpectNumber<16>("123.4abcdefp20$", chars_format::general, 0x1234abcdef, -8); |
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ExpectNumber<16>("0.0001234abcdefp44$", chars_format::general, 0x1234abcdef, |
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-8); |
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ExpectNumber<16>("1234abcd.ef$", chars_format::general, 0x1234abcdef, -8); |
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ExpectNumber<16>("1234abcdefp-8$", chars_format::general, 0x1234abcdef, -8); |
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// ExpectNumber does not attempt to drop trailing zeroes. |
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ExpectNumber<10>("0001.2345678900e005$", chars_format::general, 12345678900, |
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-5); |
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ExpectNumber<16>("0001.234abcdef000p28$", chars_format::general, |
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0x1234abcdef000, -20); |
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// Ensure non-matching characters after a number are ignored, even when they |
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// look like potentially matching characters. |
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ExpectNumber<10>("1.23456789e5$ ", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("1.23456789e5$e5e5", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("1.23456789e5$.25", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("1.23456789e5$-", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("1.23456789e5$PUPPERS!!!", chars_format::general, 123456789, |
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-3); |
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ExpectNumber<10>("123456.789$efghij", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("123456.789$e", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("123456.789$p5", chars_format::general, 123456789, -3); |
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ExpectNumber<10>("123456.789$.10", chars_format::general, 123456789, -3); |
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ExpectNumber<16>("1.234abcdefp28$ ", chars_format::general, 0x1234abcdef, |
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-8); |
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ExpectNumber<16>("1.234abcdefp28$p28", chars_format::general, 0x1234abcdef, |
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-8); |
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ExpectNumber<16>("1.234abcdefp28$.125", chars_format::general, 0x1234abcdef, |
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-8); |
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ExpectNumber<16>("1.234abcdefp28$-", chars_format::general, 0x1234abcdef, -8); |
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ExpectNumber<16>("1.234abcdefp28$KITTEHS!!!", chars_format::general, |
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0x1234abcdef, -8); |
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ExpectNumber<16>("1234abcd.ef$ghijk", chars_format::general, 0x1234abcdef, |
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-8); |
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ExpectNumber<16>("1234abcd.ef$p", chars_format::general, 0x1234abcdef, -8); |
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ExpectNumber<16>("1234abcd.ef$.10", chars_format::general, 0x1234abcdef, -8); |
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// Ensure we can read a full resolution mantissa without overflow. |
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ExpectNumber<10>("9999999999999999999$", chars_format::general, |
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9999999999999999999u, 0); |
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ExpectNumber<16>("fffffffffffffff$", chars_format::general, |
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0xfffffffffffffffu, 0); |
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// Check that zero is consistently read. |
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ExpectNumber<10>("0$", chars_format::general, 0, 0); |
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ExpectNumber<16>("0$", chars_format::general, 0, 0); |
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ExpectNumber<10>("000000000000000000000000000000000000000$", |
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chars_format::general, 0, 0); |
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ExpectNumber<16>("000000000000000000000000000000000000000$", |
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chars_format::general, 0, 0); |
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ExpectNumber<10>("0000000000000000000000.000000000000000000$", |
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chars_format::general, 0, 0); |
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ExpectNumber<16>("0000000000000000000000.000000000000000000$", |
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chars_format::general, 0, 0); |
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ExpectNumber<10>("0.00000000000000000000000000000000e123456$", |
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chars_format::general, 0, 0); |
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ExpectNumber<16>("0.00000000000000000000000000000000p123456$", |
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chars_format::general, 0, 0); |
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} |
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TEST(ParseFloat, LargeDecimalMantissa) { |
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// After 19 significant decimal digits in the mantissa, ParsedFloat will |
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// truncate additional digits. We need to test that: |
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// 1) the truncation to 19 digits happens |
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// 2) the returned exponent reflects the dropped significant digits |
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// 3) a correct literal_exponent is set |
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// |
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// If and only if a significant digit is found after 19 digits, then the |
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// entirety of the mantissa in case the exact value is needed to make a |
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// rounding decision. The [ and ] characters below denote where such a |
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// subregion was marked by by ParseFloat. They are not part of the input. |
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// Mark a capture group only if a dropped digit is significant (nonzero). |
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ExpectNumber<10>("100000000000000000000000000$", chars_format::general, |
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1000000000000000000, |
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/* adjusted exponent */ 8); |
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ExpectNumber<10>("123456789123456789100000000$", chars_format::general, |
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1234567891234567891, |
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/* adjusted exponent */ 8); |
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ExpectNumber<10>("[123456789123456789123456789]$", chars_format::general, |
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1234567891234567891, |
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/* adjusted exponent */ 8, |
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/* literal exponent */ 0); |
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ExpectNumber<10>("[123456789123456789100000009]$", chars_format::general, |
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1234567891234567891, |
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/* adjusted exponent */ 8, |
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/* literal exponent */ 0); |
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ExpectNumber<10>("[123456789123456789120000000]$", chars_format::general, |
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1234567891234567891, |
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/* adjusted exponent */ 8, |
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/* literal exponent */ 0); |
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// Leading zeroes should not count towards the 19 significant digit limit |
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ExpectNumber<10>("[00000000123456789123456789123456789]$", |
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chars_format::general, 1234567891234567891, |
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/* adjusted exponent */ 8, |
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/* literal exponent */ 0); |
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ExpectNumber<10>("00000000123456789123456789100000000$", |
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chars_format::general, 1234567891234567891, |
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/* adjusted exponent */ 8); |
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// Truncated digits after the decimal point should not cause a further |
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// exponent adjustment. |
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ExpectNumber<10>("1.234567891234567891e123$", chars_format::general, |
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1234567891234567891, 105); |
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ExpectNumber<10>("[1.23456789123456789123456789]e123$", chars_format::general, |
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1234567891234567891, |
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/* adjusted exponent */ 105, |
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/* literal exponent */ 123); |
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// Ensure we truncate, and not round. (The from_chars algorithm we use |
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// depends on our guess missing low, if it misses, so we need the rounding |
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// error to be downward.) |
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ExpectNumber<10>("[1999999999999999999999]$", chars_format::general, |
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1999999999999999999, |
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/* adjusted exponent */ 3, |
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/* literal exponent */ 0); |
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} |
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TEST(ParseFloat, LargeHexadecimalMantissa) { |
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// After 15 significant hex digits in the mantissa, ParsedFloat will treat |
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// additional digits as sticky, We need to test that: |
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// 1) The truncation to 15 digits happens |
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// 2) The returned exponent reflects the dropped significant digits |
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// 3) If a nonzero digit is dropped, the low bit of mantissa is set. |
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ExpectNumber<16>("123456789abcdef123456789abcdef$", chars_format::general, |
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0x123456789abcdef, 60); |
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// Leading zeroes should not count towards the 15 significant digit limit |
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ExpectNumber<16>("000000123456789abcdef123456789abcdef$", |
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chars_format::general, 0x123456789abcdef, 60); |
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// Truncated digits after the radix point should not cause a further |
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// exponent adjustment. |
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ExpectNumber<16>("1.23456789abcdefp100$", chars_format::general, |
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0x123456789abcdef, 44); |
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ExpectNumber<16>("1.23456789abcdef123456789abcdefp100$", |
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chars_format::general, 0x123456789abcdef, 44); |
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// test sticky digit behavior. The low bit should be set iff any dropped |
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// digit is nonzero. |
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ExpectNumber<16>("123456789abcdee123456789abcdee$", chars_format::general, |
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0x123456789abcdef, 60); |
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ExpectNumber<16>("123456789abcdee000000000000001$", chars_format::general, |
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0x123456789abcdef, 60); |
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ExpectNumber<16>("123456789abcdee000000000000000$", chars_format::general, |
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0x123456789abcdee, 60); |
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} |
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TEST(ParseFloat, ScientificVsFixed) { |
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// In fixed mode, an exponent is never matched (but the remainder of the |
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// number will be matched.) |
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ExpectNumber<10>("1.23456789$e5", chars_format::fixed, 123456789, -8); |
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ExpectNumber<10>("123456.789$", chars_format::fixed, 123456789, -3); |
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ExpectNumber<16>("1.234abcdef$p28", chars_format::fixed, 0x1234abcdef, -36); |
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ExpectNumber<16>("1234abcd.ef$", chars_format::fixed, 0x1234abcdef, -8); |
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// In scientific mode, numbers don't match *unless* they have an exponent. |
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ExpectNumber<10>("1.23456789e5$", chars_format::scientific, 123456789, -3); |
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ExpectFailedParse<10>("-123456.789$", chars_format::scientific); |
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ExpectNumber<16>("1.234abcdefp28$", chars_format::scientific, 0x1234abcdef, |
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-8); |
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ExpectFailedParse<16>("1234abcd.ef$", chars_format::scientific); |
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} |
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TEST(ParseFloat, Infinity) { |
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ExpectFailedParse<10>("in", chars_format::general); |
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ExpectFailedParse<16>("in", chars_format::general); |
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ExpectFailedParse<10>("inx", chars_format::general); |
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ExpectFailedParse<16>("inx", chars_format::general); |
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ExpectSpecial("inf$", chars_format::general, FloatType::kInfinity); |
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ExpectSpecial("Inf$", chars_format::general, FloatType::kInfinity); |
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ExpectSpecial("INF$", chars_format::general, FloatType::kInfinity); |
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ExpectSpecial("inf$inite", chars_format::general, FloatType::kInfinity); |
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ExpectSpecial("iNfInItY$", chars_format::general, FloatType::kInfinity); |
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ExpectSpecial("infinity$!!!", chars_format::general, FloatType::kInfinity); |
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} |
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TEST(ParseFloat, NaN) { |
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ExpectFailedParse<10>("na", chars_format::general); |
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ExpectFailedParse<16>("na", chars_format::general); |
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ExpectFailedParse<10>("nah", chars_format::general); |
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ExpectFailedParse<16>("nah", chars_format::general); |
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ExpectSpecial("nan$", chars_format::general, FloatType::kNan); |
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ExpectSpecial("NaN$", chars_format::general, FloatType::kNan); |
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ExpectSpecial("nAn$", chars_format::general, FloatType::kNan); |
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ExpectSpecial("NAN$", chars_format::general, FloatType::kNan); |
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ExpectSpecial("NaN$aNaNaNaNaBatman!", chars_format::general, FloatType::kNan); |
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// A parenthesized sequence of the characters [a-zA-Z0-9_] is allowed to |
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// appear after an NaN. Check that this is allowed, and that the correct |
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// characters are grouped. |
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// |
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// (The characters [ and ] in the pattern below delimit the expected matched |
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// subgroup; they are not part of the input passed to ParseFloat.) |
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ExpectSpecial("nan([0xabcdef])$", chars_format::general, FloatType::kNan); |
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ExpectSpecial("nan([0xabcdef])$...", chars_format::general, FloatType::kNan); |
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ExpectSpecial("nan([0xabcdef])$)...", chars_format::general, FloatType::kNan); |
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ExpectSpecial("nan([])$", chars_format::general, FloatType::kNan); |
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ExpectSpecial("nan([aAzZ09_])$", chars_format::general, FloatType::kNan); |
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// If the subgroup contains illegal characters, don't match it at all. |
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ExpectSpecial("nan$(bad-char)", chars_format::general, FloatType::kNan); |
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// Also cope with a missing close paren. |
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ExpectSpecial("nan$(0xabcdef", chars_format::general, FloatType::kNan); |
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} |
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} // namespace
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