unittests/Support/CSKYAttributeParserTest.cpp - llvm-project/llvm - Git at Google

 //===----- unittests/CSKYAttributeParserTest.cpp --------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 #include "llvm/Support/CSKYAttributeParser.h"
 #include "llvm/Support/ARMBuildAttributes.h"
 #include "llvm/Support/ELFAttributes.h"
 #include "gtest/gtest.h"
 #include <string>

 using namespace llvm;

 struct CSKYAttributeSection {
   unsigned Tag;
   struct {
     unsigned IntValue;
     const char *StringValue;
   } Value;

   CSKYAttributeSection(unsigned tag, unsigned value) : Tag(tag) {
     Value.IntValue = value;
   }

   CSKYAttributeSection(unsigned tag, const char *value) : Tag(tag) {
     Value.StringValue = value;
   }

   void writeInt(raw_ostream &OS) {
     OS.flush();
     // Format version.
     OS << 'A'
        // uint32_t = VendorHeaderSize + TagHeaderSize + ContentsSize.
        << (uint8_t)16 << (uint8_t)0 << (uint8_t)0
        << (uint8_t)0
        // CurrentVendor.
        << "csky"
        << '\0'
        // ELFAttrs::File.
        << (uint8_t)1
        // uint32_t = TagHeaderSize + ContentsSize.
        << (uint8_t)6 << (uint8_t)0 << (uint8_t)0
        << (uint8_t)0
        // Tag
        << (uint8_t)Tag
        // IntValue
        << (uint8_t)Value.IntValue;
   }

   void writeString(raw_ostream &OS) {
     OS.flush();
     // Format version.
     OS << 'A'
        // uint32_t = VendorHeaderSize + TagHeaderSize + ContentsSize.
        << (uint8_t)(16 + strlen(Value.StringValue)) << (uint8_t)0 << (uint8_t)0
        << (uint8_t)0
        // CurrentVendor.
        << "csky"
        << '\0'
        // ELFAttrs::File.
        << (uint8_t)1
        // uint32_t = TagHeaderSize + ContentsSize.
        << (uint8_t)(6 + strlen(Value.StringValue)) << (uint8_t)0 << (uint8_t)0
        << (uint8_t)0
        // Tag
        << (uint8_t)Tag
        // StringValue
        << Value.StringValue << '\0';
   }
 };

 static bool testAttributeInt(unsigned Tag, unsigned Value, unsigned ExpectedTag,
                              unsigned ExpectedValue) {
   std::string buffer;
   raw_string_ostream OS(buffer);
   CSKYAttributeSection Section(Tag, Value);
   Section.writeInt(OS);
   ArrayRef<uint8_t> Bytes(reinterpret_cast<const uint8_t *>(OS.str().c_str()),
                           OS.str().size());

   CSKYAttributeParser Parser;
   cantFail(Parser.parse(Bytes, support::little));

   Optional<unsigned> Attr = Parser.getAttributeValue(ExpectedTag);
   return Attr && *Attr == ExpectedValue;
 }

 static bool testAttributeString(unsigned Tag, const char *Value,
                                 unsigned ExpectedTag,
                                 const char *ExpectedValue) {
   std::string buffer;
   raw_string_ostream OS(buffer);
   CSKYAttributeSection Section(Tag, Value);
   Section.writeString(OS);
   ArrayRef<uint8_t> Bytes(reinterpret_cast<const uint8_t *>(OS.str().c_str()),
                           OS.str().size());

   CSKYAttributeParser Parser;
   cantFail(Parser.parse(Bytes, support::little));

   Optional<StringRef> Attr = Parser.getAttributeString(ExpectedTag);
   return Attr && *Attr == ExpectedValue;
 }

 static void testParseError(unsigned Tag, unsigned Value, const char *msg) {
   std::string buffer;
   raw_string_ostream OS(buffer);
   CSKYAttributeSection Section(Tag, Value);
   Section.writeInt(OS);
   ArrayRef<uint8_t> Bytes(reinterpret_cast<const uint8_t *>(OS.str().c_str()),
                           OS.str().size());

   CSKYAttributeParser Parser;
   Error e = Parser.parse(Bytes, support::little);
   EXPECT_STREQ(toString(std::move(e)).c_str(), msg);
 }

 static bool testTagString(unsigned Tag, const char *name) {
   return ELFAttrs::attrTypeAsString(Tag, CSKYAttrs::getCSKYAttributeTags())
              .str() == name;
 }

 TEST(ArchName, testAttribute) {
   EXPECT_TRUE(testTagString(4, "Tag_CSKY_ARCH_NAME"));
   EXPECT_TRUE(
       testAttributeString(4, "ck860", CSKYAttrs::CSKY_ARCH_NAME, "ck860"));
   EXPECT_FALSE(
       testAttributeString(4, "ck86", CSKYAttrs::CSKY_ARCH_NAME, "ck60"));
 }

 TEST(CPUName, testAttribute) {
   EXPECT_TRUE(testTagString(5, "Tag_CSKY_CPU_NAME"));
   EXPECT_TRUE(
       testAttributeString(5, "ck860fv", CSKYAttrs::CSKY_CPU_NAME, "ck860fv"));
   EXPECT_FALSE(
       testAttributeString(5, "ck860", CSKYAttrs::CSKY_CPU_NAME, "ck860fv"));
 }

 TEST(DSPVersion, testAttribute) {
   EXPECT_TRUE(testTagString(8, "Tag_CSKY_DSP_VERSION"));
   EXPECT_TRUE(testAttributeInt(8, 1, CSKYAttrs::CSKY_DSP_VERSION,
                                CSKYAttrs::DSP_VERSION_EXTENSION));
   EXPECT_TRUE(testAttributeInt(8, 2, CSKYAttrs::CSKY_DSP_VERSION,
                                CSKYAttrs::DSP_VERSION_2));
   EXPECT_FALSE(testAttributeInt(8, 0, CSKYAttrs::CSKY_DSP_VERSION,
                                 CSKYAttrs::DSP_VERSION_EXTENSION));
   testParseError(8, 3, "unknown Tag_CSKY_DSP_VERSION value: 3");
 }

 TEST(VDSPVersion, testAttribute) {
   EXPECT_TRUE(testTagString(9, "Tag_CSKY_VDSP_VERSION"));
   EXPECT_TRUE(testAttributeInt(9, 1, CSKYAttrs::CSKY_VDSP_VERSION,
                                CSKYAttrs::VDSP_VERSION_1));
   EXPECT_TRUE(testAttributeInt(9, 2, CSKYAttrs::CSKY_VDSP_VERSION,
                                CSKYAttrs::VDSP_VERSION_2));
   EXPECT_FALSE(testAttributeInt(9, 0, CSKYAttrs::CSKY_VDSP_VERSION,
                                 CSKYAttrs::VDSP_VERSION_2));
   testParseError(9, 3, "unknown Tag_CSKY_VDSP_VERSION value: 3");
 }

 TEST(FPUVersion, testAttribute) {
   EXPECT_TRUE(testTagString(16, "Tag_CSKY_FPU_VERSION"));
   EXPECT_TRUE(testAttributeInt(16, 1, CSKYAttrs::CSKY_FPU_VERSION,
                                CSKYAttrs::FPU_VERSION_1));
   EXPECT_TRUE(testAttributeInt(16, 2, CSKYAttrs::CSKY_FPU_VERSION,
                                CSKYAttrs::FPU_VERSION_2));
   EXPECT_TRUE(testAttributeInt(16, 3, CSKYAttrs::CSKY_FPU_VERSION,
                                CSKYAttrs::FPU_VERSION_3));
   EXPECT_FALSE(testAttributeInt(16, 0, CSKYAttrs::CSKY_FPU_VERSION,
                                 CSKYAttrs::FPU_VERSION_3));
   testParseError(16, 4, "unknown Tag_CSKY_FPU_VERSION value: 4");
 }

 TEST(FPUABI, testAttribute) {
   EXPECT_TRUE(testTagString(17, "Tag_CSKY_FPU_ABI"));
   EXPECT_TRUE(testAttributeInt(17, 1, CSKYAttrs::CSKY_FPU_ABI,
                                CSKYAttrs::FPU_ABI_SOFT));
   EXPECT_TRUE(testAttributeInt(17, 2, CSKYAttrs::CSKY_FPU_ABI,
                                CSKYAttrs::FPU_ABI_SOFTFP));
   EXPECT_TRUE(testAttributeInt(17, 3, CSKYAttrs::CSKY_FPU_ABI,
                                CSKYAttrs::FPU_ABI_HARD));
   EXPECT_FALSE(testAttributeInt(17, 0, CSKYAttrs::CSKY_FPU_ABI,
                                 CSKYAttrs::FPU_ABI_HARD));
   testParseError(17, 4, "unknown Tag_CSKY_FPU_ABI value: 4");
 }

 TEST(FPURounding, testAttribute) {
   EXPECT_TRUE(testTagString(18, "Tag_CSKY_FPU_ROUNDING"));
   EXPECT_TRUE(
       testAttributeInt(18, 0, CSKYAttrs::CSKY_FPU_ROUNDING, CSKYAttrs::NONE));
   EXPECT_TRUE(
       testAttributeInt(18, 1, CSKYAttrs::CSKY_FPU_ROUNDING, CSKYAttrs::NEEDED));
   testParseError(18, 2, "unknown Tag_CSKY_FPU_ROUNDING value: 2");
 }

 TEST(FPUDenormal, testAttribute) {
   EXPECT_TRUE(testTagString(19, "Tag_CSKY_FPU_DENORMAL"));
   EXPECT_TRUE(
       testAttributeInt(19, 0, CSKYAttrs::CSKY_FPU_DENORMAL, CSKYAttrs::NONE));
   EXPECT_TRUE(
       testAttributeInt(19, 1, CSKYAttrs::CSKY_FPU_DENORMAL, CSKYAttrs::NEEDED));
   testParseError(19, 2, "unknown Tag_CSKY_FPU_DENORMAL value: 2");
 }

 TEST(FPUException, testAttribute) {
   EXPECT_TRUE(testTagString(20, "Tag_CSKY_FPU_EXCEPTION"));
   EXPECT_TRUE(
       testAttributeInt(20, 0, CSKYAttrs::CSKY_FPU_EXCEPTION, CSKYAttrs::NONE));
   EXPECT_TRUE(testAttributeInt(20, 1, CSKYAttrs::CSKY_FPU_EXCEPTION,
                                CSKYAttrs::NEEDED));
   testParseError(20, 2, "unknown Tag_CSKY_FPU_EXCEPTION value: 2");
 }

 TEST(FPUNumberModule, testAttribute) {
   EXPECT_TRUE(testTagString(21, "Tag_CSKY_FPU_NUMBER_MODULE"));
   EXPECT_TRUE(testAttributeString(
       21, "IEEE 754", CSKYAttrs::CSKY_FPU_NUMBER_MODULE, "IEEE 754"));
   EXPECT_FALSE(testAttributeString(
       21, "IEEE 755", CSKYAttrs::CSKY_FPU_NUMBER_MODULE, "IEEE 754"));
 }

 TEST(FPUHardFP, testAttribute) {
   EXPECT_TRUE(testTagString(22, "Tag_CSKY_FPU_HARDFP"));
   EXPECT_TRUE(testAttributeInt(22, 1, CSKYAttrs::CSKY_FPU_HARDFP,
                                CSKYAttrs::FPU_HARDFP_HALF));
   EXPECT_TRUE(testAttributeInt(22, 2, CSKYAttrs::CSKY_FPU_HARDFP,
                                CSKYAttrs::FPU_HARDFP_SINGLE));
   EXPECT_TRUE(testAttributeInt(22, 4, CSKYAttrs::CSKY_FPU_HARDFP,
                                CSKYAttrs::FPU_HARDFP_DOUBLE));
   EXPECT_FALSE(testAttributeInt(22, 3, CSKYAttrs::CSKY_FPU_HARDFP,
                                 CSKYAttrs::FPU_HARDFP_DOUBLE));
   testParseError(22, 0, "unknown Tag_CSKY_FPU_HARDFP value: 0");
   testParseError(22, 8, "unknown Tag_CSKY_FPU_HARDFP value: 8");
 }
	//===----- unittests/CSKYAttributeParserTest.cpp --------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	#include "llvm/Support/CSKYAttributeParser.h"
	#include "llvm/Support/ARMBuildAttributes.h"
	#include "llvm/Support/ELFAttributes.h"
	#include "gtest/gtest.h"
	#include <string>

	using namespace llvm;

	struct CSKYAttributeSection {
	unsigned Tag;
	struct {
	unsigned IntValue;
	const char *StringValue;
	} Value;

	CSKYAttributeSection(unsigned tag, unsigned value) : Tag(tag) {
	Value.IntValue = value;
	}

	CSKYAttributeSection(unsigned tag, const char *value) : Tag(tag) {
	Value.StringValue = value;
	}

	void writeInt(raw_ostream &OS) {
	OS.flush();
	// Format version.
	OS << 'A'
	// uint32_t = VendorHeaderSize + TagHeaderSize + ContentsSize.
	<< (uint8_t)16 << (uint8_t)0 << (uint8_t)0
	<< (uint8_t)0
	// CurrentVendor.
	<< "csky"
	<< '\0'
	// ELFAttrs::File.
	<< (uint8_t)1
	// uint32_t = TagHeaderSize + ContentsSize.
	<< (uint8_t)6 << (uint8_t)0 << (uint8_t)0
	<< (uint8_t)0
	// Tag
	<< (uint8_t)Tag
	// IntValue
	<< (uint8_t)Value.IntValue;
	}

	void writeString(raw_ostream &OS) {
	OS.flush();
	// Format version.
	OS << 'A'
	// uint32_t = VendorHeaderSize + TagHeaderSize + ContentsSize.
	<< (uint8_t)(16 + strlen(Value.StringValue)) << (uint8_t)0 << (uint8_t)0
	<< (uint8_t)0
	// CurrentVendor.
	<< "csky"
	<< '\0'
	// ELFAttrs::File.
	<< (uint8_t)1
	// uint32_t = TagHeaderSize + ContentsSize.
	<< (uint8_t)(6 + strlen(Value.StringValue)) << (uint8_t)0 << (uint8_t)0
	<< (uint8_t)0
	// Tag
	<< (uint8_t)Tag
	// StringValue
	<< Value.StringValue << '\0';
	}
	};

	static bool testAttributeInt(unsigned Tag, unsigned Value, unsigned ExpectedTag,
	unsigned ExpectedValue) {
	std::string buffer;
	raw_string_ostream OS(buffer);
	CSKYAttributeSection Section(Tag, Value);
	Section.writeInt(OS);
	ArrayRef<uint8_t> Bytes(reinterpret_cast<const uint8_t *>(OS.str().c_str()),
	OS.str().size());

	CSKYAttributeParser Parser;
	cantFail(Parser.parse(Bytes, support::little));

	Optional<unsigned> Attr = Parser.getAttributeValue(ExpectedTag);
	return Attr && *Attr == ExpectedValue;
	}

	static bool testAttributeString(unsigned Tag, const char *Value,
	unsigned ExpectedTag,
	const char *ExpectedValue) {
	std::string buffer;
	raw_string_ostream OS(buffer);
	CSKYAttributeSection Section(Tag, Value);
	Section.writeString(OS);
	ArrayRef<uint8_t> Bytes(reinterpret_cast<const uint8_t *>(OS.str().c_str()),
	OS.str().size());

	CSKYAttributeParser Parser;
	cantFail(Parser.parse(Bytes, support::little));

	Optional<StringRef> Attr = Parser.getAttributeString(ExpectedTag);
	return Attr && *Attr == ExpectedValue;
	}

	static void testParseError(unsigned Tag, unsigned Value, const char *msg) {
	std::string buffer;
	raw_string_ostream OS(buffer);
	CSKYAttributeSection Section(Tag, Value);
	Section.writeInt(OS);
	ArrayRef<uint8_t> Bytes(reinterpret_cast<const uint8_t *>(OS.str().c_str()),
	OS.str().size());

	CSKYAttributeParser Parser;
	Error e = Parser.parse(Bytes, support::little);
	EXPECT_STREQ(toString(std::move(e)).c_str(), msg);
	}

	static bool testTagString(unsigned Tag, const char *name) {
	return ELFAttrs::attrTypeAsString(Tag, CSKYAttrs::getCSKYAttributeTags())
	.str() == name;
	}

	TEST(ArchName, testAttribute) {
	EXPECT_TRUE(testTagString(4, "Tag_CSKY_ARCH_NAME"));
	EXPECT_TRUE(
	testAttributeString(4, "ck860", CSKYAttrs::CSKY_ARCH_NAME, "ck860"));
	EXPECT_FALSE(
	testAttributeString(4, "ck86", CSKYAttrs::CSKY_ARCH_NAME, "ck60"));
	}

	TEST(CPUName, testAttribute) {
	EXPECT_TRUE(testTagString(5, "Tag_CSKY_CPU_NAME"));
	EXPECT_TRUE(
	testAttributeString(5, "ck860fv", CSKYAttrs::CSKY_CPU_NAME, "ck860fv"));
	EXPECT_FALSE(
	testAttributeString(5, "ck860", CSKYAttrs::CSKY_CPU_NAME, "ck860fv"));
	}

	TEST(DSPVersion, testAttribute) {
	EXPECT_TRUE(testTagString(8, "Tag_CSKY_DSP_VERSION"));
	EXPECT_TRUE(testAttributeInt(8, 1, CSKYAttrs::CSKY_DSP_VERSION,
	CSKYAttrs::DSP_VERSION_EXTENSION));
	EXPECT_TRUE(testAttributeInt(8, 2, CSKYAttrs::CSKY_DSP_VERSION,
	CSKYAttrs::DSP_VERSION_2));
	EXPECT_FALSE(testAttributeInt(8, 0, CSKYAttrs::CSKY_DSP_VERSION,
	CSKYAttrs::DSP_VERSION_EXTENSION));
	testParseError(8, 3, "unknown Tag_CSKY_DSP_VERSION value: 3");
	}

	TEST(VDSPVersion, testAttribute) {
	EXPECT_TRUE(testTagString(9, "Tag_CSKY_VDSP_VERSION"));
	EXPECT_TRUE(testAttributeInt(9, 1, CSKYAttrs::CSKY_VDSP_VERSION,
	CSKYAttrs::VDSP_VERSION_1));
	EXPECT_TRUE(testAttributeInt(9, 2, CSKYAttrs::CSKY_VDSP_VERSION,
	CSKYAttrs::VDSP_VERSION_2));
	EXPECT_FALSE(testAttributeInt(9, 0, CSKYAttrs::CSKY_VDSP_VERSION,
	CSKYAttrs::VDSP_VERSION_2));
	testParseError(9, 3, "unknown Tag_CSKY_VDSP_VERSION value: 3");
	}

	TEST(FPUVersion, testAttribute) {
	EXPECT_TRUE(testTagString(16, "Tag_CSKY_FPU_VERSION"));
	EXPECT_TRUE(testAttributeInt(16, 1, CSKYAttrs::CSKY_FPU_VERSION,
	CSKYAttrs::FPU_VERSION_1));
	EXPECT_TRUE(testAttributeInt(16, 2, CSKYAttrs::CSKY_FPU_VERSION,
	CSKYAttrs::FPU_VERSION_2));
	EXPECT_TRUE(testAttributeInt(16, 3, CSKYAttrs::CSKY_FPU_VERSION,
	CSKYAttrs::FPU_VERSION_3));
	EXPECT_FALSE(testAttributeInt(16, 0, CSKYAttrs::CSKY_FPU_VERSION,
	CSKYAttrs::FPU_VERSION_3));
	testParseError(16, 4, "unknown Tag_CSKY_FPU_VERSION value: 4");
	}

	TEST(FPUABI, testAttribute) {
	EXPECT_TRUE(testTagString(17, "Tag_CSKY_FPU_ABI"));
	EXPECT_TRUE(testAttributeInt(17, 1, CSKYAttrs::CSKY_FPU_ABI,
	CSKYAttrs::FPU_ABI_SOFT));
	EXPECT_TRUE(testAttributeInt(17, 2, CSKYAttrs::CSKY_FPU_ABI,
	CSKYAttrs::FPU_ABI_SOFTFP));
	EXPECT_TRUE(testAttributeInt(17, 3, CSKYAttrs::CSKY_FPU_ABI,
	CSKYAttrs::FPU_ABI_HARD));
	EXPECT_FALSE(testAttributeInt(17, 0, CSKYAttrs::CSKY_FPU_ABI,
	CSKYAttrs::FPU_ABI_HARD));
	testParseError(17, 4, "unknown Tag_CSKY_FPU_ABI value: 4");
	}

	TEST(FPURounding, testAttribute) {
	EXPECT_TRUE(testTagString(18, "Tag_CSKY_FPU_ROUNDING"));
	EXPECT_TRUE(
	testAttributeInt(18, 0, CSKYAttrs::CSKY_FPU_ROUNDING, CSKYAttrs::NONE));
	EXPECT_TRUE(
	testAttributeInt(18, 1, CSKYAttrs::CSKY_FPU_ROUNDING, CSKYAttrs::NEEDED));
	testParseError(18, 2, "unknown Tag_CSKY_FPU_ROUNDING value: 2");
	}

	TEST(FPUDenormal, testAttribute) {
	EXPECT_TRUE(testTagString(19, "Tag_CSKY_FPU_DENORMAL"));
	EXPECT_TRUE(
	testAttributeInt(19, 0, CSKYAttrs::CSKY_FPU_DENORMAL, CSKYAttrs::NONE));
	EXPECT_TRUE(
	testAttributeInt(19, 1, CSKYAttrs::CSKY_FPU_DENORMAL, CSKYAttrs::NEEDED));
	testParseError(19, 2, "unknown Tag_CSKY_FPU_DENORMAL value: 2");
	}

	TEST(FPUException, testAttribute) {
	EXPECT_TRUE(testTagString(20, "Tag_CSKY_FPU_EXCEPTION"));
	EXPECT_TRUE(
	testAttributeInt(20, 0, CSKYAttrs::CSKY_FPU_EXCEPTION, CSKYAttrs::NONE));
	EXPECT_TRUE(testAttributeInt(20, 1, CSKYAttrs::CSKY_FPU_EXCEPTION,
	CSKYAttrs::NEEDED));
	testParseError(20, 2, "unknown Tag_CSKY_FPU_EXCEPTION value: 2");
	}

	TEST(FPUNumberModule, testAttribute) {
	EXPECT_TRUE(testTagString(21, "Tag_CSKY_FPU_NUMBER_MODULE"));
	EXPECT_TRUE(testAttributeString(
	21, "IEEE 754", CSKYAttrs::CSKY_FPU_NUMBER_MODULE, "IEEE 754"));
	EXPECT_FALSE(testAttributeString(
	21, "IEEE 755", CSKYAttrs::CSKY_FPU_NUMBER_MODULE, "IEEE 754"));
	}

	TEST(FPUHardFP, testAttribute) {
	EXPECT_TRUE(testTagString(22, "Tag_CSKY_FPU_HARDFP"));
	EXPECT_TRUE(testAttributeInt(22, 1, CSKYAttrs::CSKY_FPU_HARDFP,
	CSKYAttrs::FPU_HARDFP_HALF));
	EXPECT_TRUE(testAttributeInt(22, 2, CSKYAttrs::CSKY_FPU_HARDFP,
	CSKYAttrs::FPU_HARDFP_SINGLE));
	EXPECT_TRUE(testAttributeInt(22, 4, CSKYAttrs::CSKY_FPU_HARDFP,
	CSKYAttrs::FPU_HARDFP_DOUBLE));
	EXPECT_FALSE(testAttributeInt(22, 3, CSKYAttrs::CSKY_FPU_HARDFP,
	CSKYAttrs::FPU_HARDFP_DOUBLE));
	testParseError(22, 0, "unknown Tag_CSKY_FPU_HARDFP value: 0");
	testParseError(22, 8, "unknown Tag_CSKY_FPU_HARDFP value: 8");
	}