// Copyright 2015 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include #include "core/fxcrt/fx_system.h" #include "testing/fx_string_testhelpers.h" #include "testing/gtest/include/gtest/gtest.h" // Unit test covering cases where PDFium replaces well-known library // functionality on any given platformn. #if _FXM_PLATFORM_ != _FXM_PLATFORM_WINDOWS_ namespace { const char kSentinel = 0x7f; void Check32BitBase16Itoa(int32_t input, const char* expected_output) { const size_t kBufLen = 11; // "-" + 8 digits + NUL + sentinel. char buf[kBufLen]; buf[kBufLen - 1] = kSentinel; FXSYS_itoa(input, buf, 16); EXPECT_EQ(std::string(expected_output), buf); EXPECT_EQ(kSentinel, buf[kBufLen - 1]); } void Check32BitBase10Itoa(int32_t input, const char* expected_output) { const size_t kBufLen = 13; // "-" + 10 digits + NUL + sentinel. char buf[kBufLen]; buf[kBufLen - 1] = kSentinel; FXSYS_itoa(input, buf, 10); EXPECT_EQ(std::string(expected_output), buf); EXPECT_EQ(kSentinel, buf[kBufLen - 1]); } void Check32BitBase2Itoa(int32_t input, const char* expected_output) { const size_t kBufLen = 35; // "-" + 32 digits + NUL + sentinel. char buf[kBufLen]; buf[kBufLen - 1] = kSentinel; FXSYS_itoa(input, buf, 2); EXPECT_EQ(std::string(expected_output), buf); EXPECT_EQ(kSentinel, buf[kBufLen - 1]); } void Check64BitBase16Itoa(int64_t input, const char* expected_output) { const size_t kBufLen = 19; // "-" + 16 digits + NUL + sentinel. char buf[kBufLen]; buf[kBufLen - 1] = kSentinel; FXSYS_i64toa(input, buf, 16); EXPECT_EQ(std::string(expected_output), buf); EXPECT_EQ(kSentinel, buf[kBufLen - 1]); } void Check64BitBase10Itoa(int64_t input, const char* expected_output) { const size_t kBufLen = 22; // "-" + 19 digits + NUL + sentinel. char buf[kBufLen]; buf[kBufLen - 1] = kSentinel; FXSYS_i64toa(input, buf, 10); EXPECT_EQ(std::string(expected_output), buf); EXPECT_EQ(kSentinel, buf[kBufLen - 1]); } void Check64BitBase2Itoa(int64_t input, const char* expected_output) { const size_t kBufLen = 67; // "-" + 64 digits + NUL + sentinel. char buf[kBufLen]; buf[kBufLen - 1] = kSentinel; FXSYS_i64toa(input, buf, 2); EXPECT_EQ(std::string(expected_output), buf); EXPECT_EQ(kSentinel, buf[kBufLen - 1]); } } // namespace TEST(fxcrt, FXSYS_itoa_InvalidRadix) { char buf[32]; FXSYS_itoa(42, buf, 17); // Ours stops at 16. EXPECT_EQ(std::string(""), buf); FXSYS_itoa(42, buf, 1); EXPECT_EQ(std::string(""), buf); FXSYS_itoa(42, buf, 0); EXPECT_EQ(std::string(""), buf); FXSYS_itoa(42, buf, -1); EXPECT_EQ(std::string(""), buf); } TEST(fxcrt, FXSYS_itoa) { Check32BitBase16Itoa(std::numeric_limits::min(), "-80000000"); Check32BitBase10Itoa(std::numeric_limits::min(), "-2147483648"); Check32BitBase2Itoa(std::numeric_limits::min(), "-10000000000000000000000000000000"); Check32BitBase16Itoa(-1, "-1"); Check32BitBase10Itoa(-1, "-1"); Check32BitBase2Itoa(-1, "-1"); Check32BitBase16Itoa(0, "0"); Check32BitBase10Itoa(0, "0"); Check32BitBase2Itoa(0, "0"); Check32BitBase16Itoa(42, "2a"); Check32BitBase10Itoa(42, "42"); Check32BitBase2Itoa(42, "101010"); Check32BitBase16Itoa(std::numeric_limits::max(), "7fffffff"); Check32BitBase10Itoa(std::numeric_limits::max(), "2147483647"); Check32BitBase2Itoa(std::numeric_limits::max(), "1111111111111111111111111111111"); } TEST(fxcrt, FXSYS_i64toa_InvalidRadix) { char buf[32]; FXSYS_i64toa(42, buf, 17); // Ours stops at 16. EXPECT_EQ(std::string(""), buf); FXSYS_i64toa(42, buf, 1); EXPECT_EQ(std::string(""), buf); FXSYS_i64toa(42, buf, 0); EXPECT_EQ(std::string(""), buf); FXSYS_i64toa(42, buf, -1); EXPECT_EQ(std::string(""), buf); } TEST(fxcrt, FXSYS_i64toa) { Check64BitBase16Itoa(std::numeric_limits::min(), "-8000000000000000"); Check64BitBase10Itoa(std::numeric_limits::min(), "-9223372036854775808"); Check64BitBase2Itoa( std::numeric_limits::min(), "-1000000000000000000000000000000000000000000000000000000000000000"); Check64BitBase16Itoa(-1, "-1"); Check64BitBase10Itoa(-1, "-1"); Check64BitBase2Itoa(-1, "-1"); Check64BitBase16Itoa(0, "0"); Check64BitBase10Itoa(0, "0"); Check64BitBase2Itoa(0, "0"); Check64BitBase16Itoa(42, "2a"); Check64BitBase10Itoa(42, "42"); Check64BitBase2Itoa(42, "101010"); Check64BitBase16Itoa(std::numeric_limits::max(), "7fffffffffffffff"); Check64BitBase10Itoa(std::numeric_limits::max(), "9223372036854775807"); Check64BitBase2Itoa( std::numeric_limits::max(), "111111111111111111111111111111111111111111111111111111111111111"); } #endif // _FXM_PLATFORM_ != _FXM_PLATFORM_WINDOWS_ TEST(fxcrt, FXSYS_wcsftime) { struct tm good_time = {}; good_time.tm_year = 74; // 1900-based. good_time.tm_mon = 7; // 0-based. good_time.tm_mday = 9; // 1-based. good_time.tm_hour = 11; good_time.tm_min = 59; good_time.tm_sec = 59; wchar_t buf[100] = {}; EXPECT_EQ(19u, FXSYS_wcsftime(buf, FX_ArraySize(buf), L"%Y-%m-%dT%H:%M:%S", &good_time)); EXPECT_STREQ(L"1974-08-09T11:59:59", buf); // Ensure wcsftime handles a wide range of years without crashing. struct tm year_time = {}; year_time.tm_mon = 7; // 0-based. year_time.tm_mday = 9; // 1-based. year_time.tm_hour = 11; year_time.tm_min = 59; year_time.tm_sec = 59; for (int year = -2500; year <= 2500; ++year) { year_time.tm_year = year; wchar_t buf[100] = {}; FXSYS_wcsftime(buf, FX_ArraySize(buf), L"%Y-%m-%dT%H:%M:%S", &year_time); } // Ensure wcsftime handles bad years, etc. without crashing. struct tm bad_time = {}; bad_time.tm_year = -1; bad_time.tm_mon = -1; bad_time.tm_mday = -1; bad_time.tm_hour = -1; bad_time.tm_min = -1; bad_time.tm_sec = -1; FXSYS_wcsftime(buf, FX_ArraySize(buf), L"%y-%m-%dT%H:%M:%S", &bad_time); // Ensure wcsftime handles bad-ish day without crashing (Feb 30). struct tm feb_time = {}; feb_time.tm_year = 115; // 1900-based. feb_time.tm_mon = 1; // 0-based. feb_time.tm_mday = 30; // 1-based. feb_time.tm_hour = 12; feb_time.tm_min = 00; feb_time.tm_sec = 00; FXSYS_wcsftime(buf, FX_ArraySize(buf), L"%y-%m-%dT%H:%M:%S", &feb_time); }