Mercurial > hg > CbC > CbC_llvm
view unittests/Support/raw_ostream_test.cpp @ 121:803732b1fca8
LLVM 5.0
| author | kono |
|---|---|
| date | Fri, 27 Oct 2017 17:07:41 +0900 |
| parents | 1172e4bd9c6f |
| children | c2174574ed3a |
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//===- llvm/unittest/Support/raw_ostream_test.cpp - raw_ostream tests -----===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/ADT/SmallString.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Format.h" #include "llvm/Support/raw_ostream.h" #include "gtest/gtest.h" using namespace llvm; namespace { template<typename T> std::string printToString(const T &Value) { std::string res; llvm::raw_string_ostream(res) << Value; return res; } /// printToString - Print the given value to a stream which only has \arg /// BytesLeftInBuffer bytes left in the buffer. This is useful for testing edge /// cases in the buffer handling logic. template<typename T> std::string printToString(const T &Value, unsigned BytesLeftInBuffer) { // FIXME: This is relying on internal knowledge of how raw_ostream works to // get the buffer position right. SmallString<256> SVec; assert(BytesLeftInBuffer < 256 && "Invalid buffer count!"); llvm::raw_svector_ostream OS(SVec); unsigned StartIndex = 256 - BytesLeftInBuffer; for (unsigned i = 0; i != StartIndex; ++i) OS << '?'; OS << Value; return OS.str().substr(StartIndex); } template<typename T> std::string printToStringUnbuffered(const T &Value) { std::string res; llvm::raw_string_ostream OS(res); OS.SetUnbuffered(); OS << Value; return res; } TEST(raw_ostreamTest, Types_Buffered) { // Char EXPECT_EQ("c", printToString('c')); // String EXPECT_EQ("hello", printToString("hello")); EXPECT_EQ("hello", printToString(std::string("hello"))); // Int EXPECT_EQ("0", printToString(0)); EXPECT_EQ("2425", printToString(2425)); EXPECT_EQ("-2425", printToString(-2425)); // Long long EXPECT_EQ("0", printToString(0LL)); EXPECT_EQ("257257257235709", printToString(257257257235709LL)); EXPECT_EQ("-257257257235709", printToString(-257257257235709LL)); // Double EXPECT_EQ("1.100000e+00", printToString(1.1)); // void* EXPECT_EQ("0x0", printToString((void*) nullptr)); EXPECT_EQ("0xbeef", printToString((void*) 0xbeefLL)); EXPECT_EQ("0xdeadbeef", printToString((void*) 0xdeadbeefLL)); // Min and max. EXPECT_EQ("18446744073709551615", printToString(UINT64_MAX)); EXPECT_EQ("-9223372036854775808", printToString(INT64_MIN)); } TEST(raw_ostreamTest, Types_Unbuffered) { // Char EXPECT_EQ("c", printToStringUnbuffered('c')); // String EXPECT_EQ("hello", printToStringUnbuffered("hello")); EXPECT_EQ("hello", printToStringUnbuffered(std::string("hello"))); // Int EXPECT_EQ("0", printToStringUnbuffered(0)); EXPECT_EQ("2425", printToStringUnbuffered(2425)); EXPECT_EQ("-2425", printToStringUnbuffered(-2425)); // Long long EXPECT_EQ("0", printToStringUnbuffered(0LL)); EXPECT_EQ("257257257235709", printToStringUnbuffered(257257257235709LL)); EXPECT_EQ("-257257257235709", printToStringUnbuffered(-257257257235709LL)); // Double EXPECT_EQ("1.100000e+00", printToStringUnbuffered(1.1)); // void* EXPECT_EQ("0x0", printToStringUnbuffered((void*) nullptr)); EXPECT_EQ("0xbeef", printToStringUnbuffered((void*) 0xbeefLL)); EXPECT_EQ("0xdeadbeef", printToStringUnbuffered((void*) 0xdeadbeefLL)); // Min and max. EXPECT_EQ("18446744073709551615", printToStringUnbuffered(UINT64_MAX)); EXPECT_EQ("-9223372036854775808", printToStringUnbuffered(INT64_MIN)); } TEST(raw_ostreamTest, BufferEdge) { EXPECT_EQ("1.20", printToString(format("%.2f", 1.2), 1)); EXPECT_EQ("1.20", printToString(format("%.2f", 1.2), 2)); EXPECT_EQ("1.20", printToString(format("%.2f", 1.2), 3)); EXPECT_EQ("1.20", printToString(format("%.2f", 1.2), 4)); EXPECT_EQ("1.20", printToString(format("%.2f", 1.2), 10)); } TEST(raw_ostreamTest, TinyBuffer) { std::string Str; raw_string_ostream OS(Str); OS.SetBufferSize(1); OS << "hello"; OS << 1; OS << 'w' << 'o' << 'r' << 'l' << 'd'; EXPECT_EQ("hello1world", OS.str()); } TEST(raw_ostreamTest, WriteEscaped) { std::string Str; Str = ""; raw_string_ostream(Str).write_escaped("hi"); EXPECT_EQ("hi", Str); Str = ""; raw_string_ostream(Str).write_escaped("\\\t\n\""); EXPECT_EQ("\\\\\\t\\n\\\"", Str); Str = ""; raw_string_ostream(Str).write_escaped("\1\10\200"); EXPECT_EQ("\\001\\010\\200", Str); } TEST(raw_ostreamTest, Justify) { EXPECT_EQ("xyz ", printToString(left_justify("xyz", 6), 6)); EXPECT_EQ("abc", printToString(left_justify("abc", 3), 3)); EXPECT_EQ("big", printToString(left_justify("big", 1), 3)); EXPECT_EQ(" xyz", printToString(right_justify("xyz", 6), 6)); EXPECT_EQ("abc", printToString(right_justify("abc", 3), 3)); EXPECT_EQ("big", printToString(right_justify("big", 1), 3)); EXPECT_EQ(" on ", printToString(center_justify("on", 9), 9)); EXPECT_EQ(" off ", printToString(center_justify("off", 10), 10)); EXPECT_EQ("single ", printToString(center_justify("single", 7), 7)); EXPECT_EQ("none", printToString(center_justify("none", 1), 4)); EXPECT_EQ("none", printToString(center_justify("none", 1), 1)); } TEST(raw_ostreamTest, FormatHex) { EXPECT_EQ("0x1234", printToString(format_hex(0x1234, 6), 6)); EXPECT_EQ("0x001234", printToString(format_hex(0x1234, 8), 8)); EXPECT_EQ("0x00001234", printToString(format_hex(0x1234, 10), 10)); EXPECT_EQ("0x1234", printToString(format_hex(0x1234, 4), 6)); EXPECT_EQ("0xff", printToString(format_hex(255, 4), 4)); EXPECT_EQ("0xFF", printToString(format_hex(255, 4, true), 4)); EXPECT_EQ("0x1", printToString(format_hex(1, 3), 3)); EXPECT_EQ("0x12", printToString(format_hex(0x12, 3), 4)); EXPECT_EQ("0x123", printToString(format_hex(0x123, 3), 5)); EXPECT_EQ("FF", printToString(format_hex_no_prefix(0xFF, 2, true), 4)); EXPECT_EQ("ABCD", printToString(format_hex_no_prefix(0xABCD, 2, true), 4)); EXPECT_EQ("0xffffffffffffffff", printToString(format_hex(UINT64_MAX, 18), 18)); EXPECT_EQ("0x8000000000000000", printToString(format_hex((INT64_MIN), 18), 18)); } TEST(raw_ostreamTest, FormatDecimal) { EXPECT_EQ(" 0", printToString(format_decimal(0, 4), 4)); EXPECT_EQ(" -1", printToString(format_decimal(-1, 4), 4)); EXPECT_EQ(" -1", printToString(format_decimal(-1, 6), 6)); EXPECT_EQ("1234567890", printToString(format_decimal(1234567890, 10), 10)); EXPECT_EQ(" 9223372036854775807", printToString(format_decimal(INT64_MAX, 21), 21)); EXPECT_EQ(" -9223372036854775808", printToString(format_decimal(INT64_MIN, 21), 21)); } static std::string formatted_bytes_str(ArrayRef<uint8_t> Bytes, llvm::Optional<uint64_t> Offset = None, uint32_t NumPerLine = 16, uint8_t ByteGroupSize = 4) { std::string S; raw_string_ostream Str(S); Str << format_bytes(Bytes, Offset, NumPerLine, ByteGroupSize); Str.flush(); return S; } static std::string format_bytes_with_ascii_str(ArrayRef<uint8_t> Bytes, Optional<uint64_t> Offset = None, uint32_t NumPerLine = 16, uint8_t ByteGroupSize = 4) { std::string S; raw_string_ostream Str(S); Str << format_bytes_with_ascii(Bytes, Offset, NumPerLine, ByteGroupSize); Str.flush(); return S; } TEST(raw_ostreamTest, FormattedHexBytes) { std::vector<uint8_t> Buf = {'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9'}; ArrayRef<uint8_t> B(Buf); // Test invalid input. EXPECT_EQ("", formatted_bytes_str(ArrayRef<uint8_t>())); EXPECT_EQ("", format_bytes_with_ascii_str(ArrayRef<uint8_t>())); //---------------------------------------------------------------------- // Test hex byte output with the default 4 byte groups //---------------------------------------------------------------------- EXPECT_EQ("61", formatted_bytes_str(B.take_front())); EXPECT_EQ("61626364 65", formatted_bytes_str(B.take_front(5))); // Test that 16 bytes get written to a line correctly. EXPECT_EQ("61626364 65666768 696a6b6c 6d6e6f70", formatted_bytes_str(B.take_front(16))); // Test raw bytes with default 16 bytes per line wrapping. EXPECT_EQ("61626364 65666768 696a6b6c 6d6e6f70\n71", formatted_bytes_str(B.take_front(17))); // Test raw bytes with 1 bytes per line wrapping. EXPECT_EQ("61\n62\n63\n64\n65\n66", formatted_bytes_str(B.take_front(6), None, 1)); // Test raw bytes with 7 bytes per line wrapping. EXPECT_EQ("61626364 656667\n68696a6b 6c6d6e\n6f7071", formatted_bytes_str(B.take_front(17), None, 7)); // Test raw bytes with 8 bytes per line wrapping. EXPECT_EQ("61626364 65666768\n696a6b6c 6d6e6f70\n71", formatted_bytes_str(B.take_front(17), None, 8)); //---------------------------------------------------------------------- // Test hex byte output with the 1 byte groups //---------------------------------------------------------------------- EXPECT_EQ("61 62 63 64 65", formatted_bytes_str(B.take_front(5), None, 16, 1)); // Test that 16 bytes get written to a line correctly. EXPECT_EQ("61 62 63 64 65 66 67 68 69 6a 6b 6c 6d 6e 6f 70", formatted_bytes_str(B.take_front(16), None, 16, 1)); // Test raw bytes with default 16 bytes per line wrapping. EXPECT_EQ("61 62 63 64 65 66 67 68 69 6a 6b 6c 6d 6e 6f 70\n71", formatted_bytes_str(B.take_front(17), None, 16, 1)); // Test raw bytes with 7 bytes per line wrapping. EXPECT_EQ("61 62 63 64 65 66 67\n68 69 6a 6b 6c 6d 6e\n6f 70 71", formatted_bytes_str(B.take_front(17), None, 7, 1)); // Test raw bytes with 8 bytes per line wrapping. EXPECT_EQ("61 62 63 64 65 66 67 68\n69 6a 6b 6c 6d 6e 6f 70\n71", formatted_bytes_str(B.take_front(17), None, 8, 1)); //---------------------------------------------------------------------- // Test hex byte output with the 2 byte groups //---------------------------------------------------------------------- EXPECT_EQ("6162 6364 65", formatted_bytes_str(B.take_front(5), None, 16, 2)); // Test that 16 bytes get written to a line correctly. EXPECT_EQ("6162 6364 6566 6768 696a 6b6c 6d6e 6f70", formatted_bytes_str(B.take_front(16), None, 16, 2)); // Test raw bytes with default 16 bytes per line wrapping. EXPECT_EQ("6162 6364 6566 6768 696a 6b6c 6d6e 6f70\n71", formatted_bytes_str(B.take_front(17), None, 16, 2)); // Test raw bytes with 7 bytes per line wrapping. EXPECT_EQ("6162 6364 6566 67\n6869 6a6b 6c6d 6e\n6f70 71", formatted_bytes_str(B.take_front(17), None, 7, 2)); // Test raw bytes with 8 bytes per line wrapping. EXPECT_EQ("6162 6364 6566 6768\n696a 6b6c 6d6e 6f70\n71", formatted_bytes_str(B.take_front(17), None, 8, 2)); //---------------------------------------------------------------------- // Test hex bytes with offset with the default 4 byte groups. //---------------------------------------------------------------------- EXPECT_EQ("0000: 61", formatted_bytes_str(B.take_front(), 0x0)); EXPECT_EQ("1000: 61", formatted_bytes_str(B.take_front(), 0x1000)); EXPECT_EQ("1000: 61\n1001: 62", formatted_bytes_str(B.take_front(2), 0x1000, 1)); //---------------------------------------------------------------------- // Test hex bytes with ASCII with the default 4 byte groups. //---------------------------------------------------------------------- EXPECT_EQ("61626364 65666768 696a6b6c 6d6e6f70 |abcdefghijklmnop|", format_bytes_with_ascii_str(B.take_front(16))); EXPECT_EQ("61626364 65666768 |abcdefgh|\n" "696a6b6c 6d6e6f70 |ijklmnop|", format_bytes_with_ascii_str(B.take_front(16), None, 8)); EXPECT_EQ("61626364 65666768 |abcdefgh|\n696a6b6c |ijkl|", format_bytes_with_ascii_str(B.take_front(12), None, 8)); std::vector<uint8_t> Unprintable = {'a', '\x1e', 'b', '\x1f'}; // Make sure the ASCII is still lined up correctly when fewer bytes than 16 // bytes per line are available. The ASCII should still be aligned as if 16 // bytes of hex might be displayed. EXPECT_EQ("611e621f |a.b.|", format_bytes_with_ascii_str(Unprintable)); //---------------------------------------------------------------------- // Test hex bytes with ASCII with offsets with the default 4 byte groups. //---------------------------------------------------------------------- EXPECT_EQ("0000: 61626364 65666768 " "696a6b6c 6d6e6f70 |abcdefghijklmnop|", format_bytes_with_ascii_str(B.take_front(16), 0)); EXPECT_EQ("0000: 61626364 65666768 |abcdefgh|\n" "0008: 696a6b6c 6d6e6f70 |ijklmnop|", format_bytes_with_ascii_str(B.take_front(16), 0, 8)); EXPECT_EQ("0000: 61626364 656667 |abcdefg|\n" "0007: 68696a6b 6c |hijkl|", format_bytes_with_ascii_str(B.take_front(12), 0, 7)); //---------------------------------------------------------------------- // Test hex bytes with ASCII with offsets with the default 2 byte groups. //---------------------------------------------------------------------- EXPECT_EQ("0000: 6162 6364 6566 6768 " "696a 6b6c 6d6e 6f70 |abcdefghijklmnop|", format_bytes_with_ascii_str(B.take_front(16), 0, 16, 2)); EXPECT_EQ("0000: 6162 6364 6566 6768 |abcdefgh|\n" "0008: 696a 6b6c 6d6e 6f70 |ijklmnop|", format_bytes_with_ascii_str(B.take_front(16), 0, 8, 2)); EXPECT_EQ("0000: 6162 6364 6566 67 |abcdefg|\n" "0007: 6869 6a6b 6c |hijkl|", format_bytes_with_ascii_str(B.take_front(12), 0, 7, 2)); //---------------------------------------------------------------------- // Test hex bytes with ASCII with offsets with the default 1 byte groups. //---------------------------------------------------------------------- EXPECT_EQ("0000: 61 62 63 64 65 66 67 68 " "69 6a 6b 6c 6d 6e 6f 70 |abcdefghijklmnop|", format_bytes_with_ascii_str(B.take_front(16), 0, 16, 1)); EXPECT_EQ("0000: 61 62 63 64 65 66 67 68 |abcdefgh|\n" "0008: 69 6a 6b 6c 6d 6e 6f 70 |ijklmnop|", format_bytes_with_ascii_str(B.take_front(16), 0, 8, 1)); EXPECT_EQ("0000: 61 62 63 64 65 66 67 |abcdefg|\n" "0007: 68 69 6a 6b 6c |hijkl|", format_bytes_with_ascii_str(B.take_front(12), 0, 7, 1)); } TEST(raw_fd_ostreamTest, multiple_raw_fd_ostream_to_stdout) { std::error_code EC; { raw_fd_ostream("-", EC, sys::fs::OpenFlags::F_None); } { raw_fd_ostream("-", EC, sys::fs::OpenFlags::F_None); } } }