// Tencent is pleased to support the open source community by making RapidJSON available. // // Copyright (C) 2015 THL A29 Limited, a Tencent company, and Milo Yip. All rights reserved. // // Licensed under the MIT License (the "License"); you may not use this file except // in compliance with the License. You may obtain a copy of the License at // // http://opensource.org/licenses/MIT // // Unless required by applicable law or agreed to in writing, software distributed // under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR // CONDITIONS OF ANY KIND, either express or implied. See the License for the // specific language governing permissions and limitations under the License. #include "unittest.h" #include "rapidjson/filereadstream.h" #include "rapidjson/filewritestream.h" #include "rapidjson/encodedstream.h" #include "rapidjson/stringbuffer.h" #include "rapidjson/memorystream.h" #include "rapidjson/memorybuffer.h" using namespace rapidjson; class EncodedStreamTest : public ::testing::Test { public: EncodedStreamTest() : json_(), length_() {} virtual void SetUp() { json_ = ReadFile("utf8.json", true, &length_); } virtual void TearDown() { free(json_); json_ = 0; } private: EncodedStreamTest(const EncodedStreamTest&); EncodedStreamTest& operator=(const EncodedStreamTest&); protected: static FILE* Open(const char* filename) { const char *paths[] = { "encodings/%s", "bin/encodings/%s", "../bin/encodings/%s", "../../bin/encodings/%s", "../../../bin/encodings/%s" }; char buffer[1024]; for (size_t i = 0; i < sizeof(paths) / sizeof(paths[0]); i++) { sprintf(buffer, paths[i], filename); FILE *fp = fopen(buffer, "rb"); if (fp) return fp; } return 0; } static char *ReadFile(const char* filename, bool appendPath, size_t* outLength) { FILE *fp = appendPath ? Open(filename) : fopen(filename, "rb"); if (!fp) { *outLength = 0; return 0; } fseek(fp, 0, SEEK_END); *outLength = (size_t)ftell(fp); fseek(fp, 0, SEEK_SET); char* buffer = (char*)malloc(*outLength + 1); size_t readLength = fread(buffer, 1, *outLength, fp); buffer[readLength] = '\0'; fclose(fp); return buffer; } template void TestEncodedInputStream(const char* filename) { // Test FileReadStream { char buffer[16]; FILE *fp = Open(filename); ASSERT_TRUE(fp != 0); FileReadStream fs(fp, buffer, sizeof(buffer)); EncodedInputStream eis(fs); StringStream s(json_); while (eis.Peek() != '\0') { unsigned expected, actual; EXPECT_TRUE(UTF8<>::Decode(s, &expected)); EXPECT_TRUE(MemoryEncoding::Decode(eis, &actual)); EXPECT_EQ(expected, actual); } EXPECT_EQ('\0', s.Peek()); fclose(fp); } // Test MemoryStream { size_t size; char* data = ReadFile(filename, true, &size); MemoryStream ms(data, size); EncodedInputStream eis(ms); StringStream s(json_); while (eis.Peek() != '\0') { unsigned expected, actual; EXPECT_TRUE(UTF8<>::Decode(s, &expected)); EXPECT_TRUE(MemoryEncoding::Decode(eis, &actual)); EXPECT_EQ(expected, actual); } EXPECT_EQ('\0', s.Peek()); free(data); EXPECT_EQ(size, eis.Tell()); } } void TestAutoUTFInputStream(const char *filename, bool expectHasBOM) { // Test FileReadStream { char buffer[16]; FILE *fp = Open(filename); ASSERT_TRUE(fp != 0); FileReadStream fs(fp, buffer, sizeof(buffer)); AutoUTFInputStream eis(fs); EXPECT_EQ(expectHasBOM, eis.HasBOM()); StringStream s(json_); while (eis.Peek() != '\0') { unsigned expected, actual; EXPECT_TRUE(UTF8<>::Decode(s, &expected)); EXPECT_TRUE(AutoUTF::Decode(eis, &actual)); EXPECT_EQ(expected, actual); } EXPECT_EQ('\0', s.Peek()); fclose(fp); } // Test MemoryStream { size_t size; char* data = ReadFile(filename, true, &size); MemoryStream ms(data, size); AutoUTFInputStream eis(ms); EXPECT_EQ(expectHasBOM, eis.HasBOM()); StringStream s(json_); while (eis.Peek() != '\0') { unsigned expected, actual; EXPECT_TRUE(UTF8<>::Decode(s, &expected)); EXPECT_TRUE(AutoUTF::Decode(eis, &actual)); EXPECT_EQ(expected, actual); } EXPECT_EQ('\0', s.Peek()); free(data); EXPECT_EQ(size, eis.Tell()); } } template void TestEncodedOutputStream(const char* expectedFilename, bool putBOM) { // Test FileWriteStream { char filename[L_tmpnam]; FILE* fp = TempFile(filename); char buffer[16]; FileWriteStream os(fp, buffer, sizeof(buffer)); EncodedOutputStream eos(os, putBOM); StringStream s(json_); while (s.Peek() != '\0') { bool success = Transcoder, MemoryEncoding>::Transcode(s, eos); EXPECT_TRUE(success); } eos.Flush(); fclose(fp); EXPECT_TRUE(CompareFile(filename, expectedFilename)); remove(filename); } // Test MemoryBuffer { MemoryBuffer mb; EncodedOutputStream eos(mb, putBOM); StringStream s(json_); while (s.Peek() != '\0') { bool success = Transcoder, MemoryEncoding>::Transcode(s, eos); EXPECT_TRUE(success); } eos.Flush(); EXPECT_TRUE(CompareBufferFile(mb.GetBuffer(), mb.GetSize(), expectedFilename)); } } void TestAutoUTFOutputStream(UTFType type, bool putBOM, const char *expectedFilename) { // Test FileWriteStream { char filename[L_tmpnam]; FILE* fp = TempFile(filename); char buffer[16]; FileWriteStream os(fp, buffer, sizeof(buffer)); AutoUTFOutputStream eos(os, type, putBOM); StringStream s(json_); while (s.Peek() != '\0') { bool success = Transcoder, AutoUTF >::Transcode(s, eos); EXPECT_TRUE(success); } eos.Flush(); fclose(fp); EXPECT_TRUE(CompareFile(filename, expectedFilename)); remove(filename); } // Test MemoryBuffer { MemoryBuffer mb; AutoUTFOutputStream eos(mb, type, putBOM); StringStream s(json_); while (s.Peek() != '\0') { bool success = Transcoder, AutoUTF >::Transcode(s, eos); EXPECT_TRUE(success); } eos.Flush(); EXPECT_TRUE(CompareBufferFile(mb.GetBuffer(), mb.GetSize(), expectedFilename)); } } bool CompareFile(const char* filename, const char* expectedFilename) { size_t actualLength, expectedLength; char* actualBuffer = ReadFile(filename, false, &actualLength); char* expectedBuffer = ReadFile(expectedFilename, true, &expectedLength); bool ret = (expectedLength == actualLength) && memcmp(expectedBuffer, actualBuffer, actualLength) == 0; free(actualBuffer); free(expectedBuffer); return ret; } bool CompareBufferFile(const char* actualBuffer, size_t actualLength, const char* expectedFilename) { size_t expectedLength; char* expectedBuffer = ReadFile(expectedFilename, true, &expectedLength); bool ret = (expectedLength == actualLength) && memcmp(expectedBuffer, actualBuffer, actualLength) == 0; free(expectedBuffer); return ret; } char *json_; size_t length_; }; TEST_F(EncodedStreamTest, EncodedInputStream) { TestEncodedInputStream, UTF8<> >("utf8.json"); TestEncodedInputStream, UTF8<> >("utf8bom.json"); TestEncodedInputStream, UTF16<> >("utf16le.json"); TestEncodedInputStream, UTF16<> >("utf16lebom.json"); TestEncodedInputStream, UTF16<> >("utf16be.json"); TestEncodedInputStream, UTF16<> >("utf16bebom.json"); TestEncodedInputStream, UTF32<> >("utf32le.json"); TestEncodedInputStream, UTF32<> >("utf32lebom.json"); TestEncodedInputStream, UTF32<> >("utf32be.json"); TestEncodedInputStream, UTF32<> >("utf32bebom.json"); } TEST_F(EncodedStreamTest, AutoUTFInputStream) { TestAutoUTFInputStream("utf8.json", false); TestAutoUTFInputStream("utf8bom.json", true); TestAutoUTFInputStream("utf16le.json", false); TestAutoUTFInputStream("utf16lebom.json",true); TestAutoUTFInputStream("utf16be.json", false); TestAutoUTFInputStream("utf16bebom.json",true); TestAutoUTFInputStream("utf32le.json", false); TestAutoUTFInputStream("utf32lebom.json",true); TestAutoUTFInputStream("utf32be.json", false); TestAutoUTFInputStream("utf32bebom.json", true); { // Auto detection fail, use user defined UTF type const char json[] = "{ }"; MemoryStream ms(json, sizeof(json)); AutoUTFInputStream eis(ms, kUTF8); EXPECT_FALSE(eis.HasBOM()); EXPECT_EQ(kUTF8, eis.GetType()); } } TEST_F(EncodedStreamTest, EncodedOutputStream) { TestEncodedOutputStream, UTF8<> >("utf8.json", false); TestEncodedOutputStream, UTF8<> >("utf8bom.json", true); TestEncodedOutputStream, UTF16<> >("utf16le.json", false); TestEncodedOutputStream, UTF16<> >("utf16lebom.json",true); TestEncodedOutputStream, UTF16<> >("utf16be.json", false); TestEncodedOutputStream, UTF16<> >("utf16bebom.json",true); TestEncodedOutputStream, UTF32<> >("utf32le.json", false); TestEncodedOutputStream, UTF32<> >("utf32lebom.json",true); TestEncodedOutputStream, UTF32<> >("utf32be.json", false); TestEncodedOutputStream, UTF32<> >("utf32bebom.json",true); } TEST_F(EncodedStreamTest, AutoUTFOutputStream) { TestAutoUTFOutputStream(kUTF8, false, "utf8.json"); TestAutoUTFOutputStream(kUTF8, true, "utf8bom.json"); TestAutoUTFOutputStream(kUTF16LE, false, "utf16le.json"); TestAutoUTFOutputStream(kUTF16LE, true, "utf16lebom.json"); TestAutoUTFOutputStream(kUTF16BE, false, "utf16be.json"); TestAutoUTFOutputStream(kUTF16BE, true, "utf16bebom.json"); TestAutoUTFOutputStream(kUTF32LE, false, "utf32le.json"); TestAutoUTFOutputStream(kUTF32LE, true, "utf32lebom.json"); TestAutoUTFOutputStream(kUTF32BE, false, "utf32be.json"); TestAutoUTFOutputStream(kUTF32BE, true, "utf32bebom.json"); }