--- /dev/null
+//===- llvm/Testing/Support/Error.h ---------------------------------------===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#ifndef LLVM_TESTING_SUPPORT_ERROR_H
+#define LLVM_TESTING_SUPPORT_ERROR_H
+
+#include "llvm/ADT/Optional.h"
+#include "llvm/Support/Error.h"
+#include "llvm/Testing/Support/SupportHelpers.h"
+
+#include "gmock/gmock.h"
+#include <ostream>
+
+namespace llvm {
+namespace detail {
+ErrorHolder TakeError(Error Err);
+
+template <typename T> ExpectedHolder<T> TakeExpected(Expected<T> &Exp) {
+ llvm::detail::ExpectedHolder<T> Result;
+ auto &EH = static_cast<llvm::detail::ErrorHolder &>(Result);
+ EH = TakeError(Exp.takeError());
+ if (Result.Success)
+ Result.Value = &(*Exp);
+ return Result;
+}
+
+template <typename T> ExpectedHolder<T> TakeExpected(const Expected<T> &Exp) {
+ return TakeExpected(const_cast<Expected<T> &>(Exp));
+}
+} // namespace detail
+
+#define EXPECT_THAT_ERROR(Err, Matcher) \
+ EXPECT_THAT(llvm::detail::TakeError(Err), Matcher)
+#define ASSERT_THAT_ERROR(Err, Matcher) \
+ ASSERT_THAT(llvm::detail::TakeError(Err), Matcher)
+
+#define EXPECT_THAT_EXPECTED(Err, Matcher) \
+ EXPECT_THAT(llvm::detail::TakeExpected(Err), Matcher)
+#define ASSERT_THAT_EXPECTED(Err, Matcher) \
+ ASSERT_THAT(llvm::detail::TakeExpected(Err), Matcher)
+
+MATCHER(Succeeded, "") { return arg.Success; }
+MATCHER(Failed, "") { return !arg.Success; }
+
+MATCHER_P(HasValue, value,
+ "succeeded with value " + testing::PrintToString(value)) {
+ if (!arg.Success) {
+ *result_listener << "operation failed";
+ return false;
+ }
+
+ assert(arg.Value.hasValue());
+ if (**arg.Value != value) {
+ *result_listener << "but \"" + testing::PrintToString(**arg.Value) +
+ "\" != " + testing::PrintToString(value);
+ return false;
+ }
+
+ return true;
+}
+} // namespace llvm
+
+#endif
--- /dev/null
+//===- Testing/Support/SupportHelpers.h -----------------------------------===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#ifndef LLVM_TESTING_SUPPORT_SUPPORTHELPERS_H
+#define LLVM_TESTING_SUPPORT_SUPPORTHELPERS_H
+
+#include "llvm/ADT/StringRef.h"
+#include "llvm/Support/Error.h"
+
+namespace llvm {
+namespace detail {
+struct ErrorHolder {
+ bool Success;
+ std::string Message;
+};
+
+template <typename T> struct ExpectedHolder : public ErrorHolder {
+ Optional<T *> Value;
+};
+
+inline void PrintTo(const ErrorHolder &Err, std::ostream *Out) {
+ *Out << (Err.Success ? "succeeded" : "failed");
+ if (!Err.Success) {
+ *Out << " (" << StringRef(Err.Message).trim().str() << ")";
+ }
+}
+
+template <typename T>
+void PrintTo(const ExpectedHolder<T> &Item, std::ostream *Out) {
+ if (Item.Success) {
+ *Out << "succeeded with value \"" << testing::PrintToString(**Item.Value)
+ << "\"";
+ } else {
+ PrintTo(static_cast<const ErrorHolder &>(Item), Out);
+ }
+}
+} // namespace detail
+} // namespace llvm
+
+#endif
add_subdirectory(Passes)
add_subdirectory(ToolDrivers)
add_subdirectory(XRay)
+add_subdirectory(Testing)
Support
TableGen
Target
+ Testing
ToolDrivers
Transforms
--- /dev/null
+add_subdirectory(Support)
--- /dev/null
+;===- ./lib/Testing/LLVMBuild.txt ------------------------------*- Conf -*--===;
+;
+; The LLVM Compiler Infrastructure
+;
+; This file is distributed under the University of Illinois Open Source
+; License. See LICENSE.TXT for details.
+;
+;===------------------------------------------------------------------------===;
+;
+; This is an LLVMBuild description file for the components in this subdirectory.
+;
+; For more information on the LLVMBuild system, please see:
+;
+; http://llvm.org/docs/LLVMBuild.html
+;
+;===------------------------------------------------------------------------===;
+
+[common]
+subdirectories = Support
--- /dev/null
+add_llvm_library(LLVMTestingSupport
+ Error.cpp
+
+ BUILDTREE_ONLY
+
+ ADDITIONAL_HEADER_DIRS
+ ${LLVM_MAIN_INCLUDE_DIR}/llvm/Testing/Support
+ )
+
+include_directories(${LLVM_MAIN_SRC_DIR}/utils/unittest/googletest/include)
+include_directories(${LLVM_MAIN_SRC_DIR}/utils/unittest/googlemock/include)
+target_link_libraries(LLVMTestingSupport PRIVATE gtest)
\ No newline at end of file
--- /dev/null
+//===- llvm/Testing/Support/Error.cpp -------------------------------------===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+
+#include "llvm/Testing/Support/Error.h"
+
+#include "llvm/ADT/StringRef.h"
+
+using namespace llvm;
+
+llvm::detail::ErrorHolder llvm::detail::TakeError(llvm::Error Err) {
+ bool Succeeded = !static_cast<bool>(Err);
+ std::string Message;
+ if (!Succeeded)
+ Message = toString(std::move(Err));
+ return {Succeeded, Message};
+}
--- /dev/null
+;===- ./Testing/Support/LLVMBuild.txt --------------------------*- Conf -*--===;
+;
+; The LLVM Compiler Infrastructure
+;
+; This file is distributed under the University of Illinois Open Source
+; License. See LICENSE.TXT for details.
+;
+;===------------------------------------------------------------------------===;
+;
+; This is an LLVMBuild description file for the components in this subdirectory.
+;
+; For more information on the LLVMBuild system, please see:
+;
+; http://llvm.org/docs/LLVMBuild.html
+;
+;===------------------------------------------------------------------------===;
+
+[component_0]
+type = Library
+name = TestingSupport
+parent = Libraries
+required_libraries = Support
-set(LLVM_LINK_COMPONENTS\r
- DebugInfoCodeView\r
- )\r
-\r
-set(DebugInfoCodeViewSources\r
- RandomAccessVisitorTest.cpp\r
- TypeIndexDiscoveryTest.cpp\r
- )\r
-\r
-add_llvm_unittest(DebugInfoCodeViewTests\r
- ${DebugInfoCodeViewSources}\r
- )\r
+set(LLVM_LINK_COMPONENTS
+ DebugInfoCodeView
+ TestingSupport
+ )
+
+set(DebugInfoCodeViewSources
+ RandomAccessVisitorTest.cpp
+ TypeIndexDiscoveryTest.cpp
+ )
+
+add_llvm_unittest(DebugInfoCodeViewTests
+ ${DebugInfoCodeViewSources}
+ )
+++ /dev/null
-//===- ErrorChecking.h - Helpers for verifying llvm::Errors -----*- C++ -*-===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-
-#ifndef LLVM_UNITTESTS_DEBUGINFO_CODEVIEW_ERRORCHECKING_H
-#define LLVM_UNITTESTS_DEBUGINFO_CODEVIEW_ERRORCHECKING_H
-
-#define EXPECT_NO_ERROR(Err) \
- { \
- auto E = Err; \
- EXPECT_FALSE(static_cast<bool>(E)); \
- if (E) \
- consumeError(std::move(E)); \
- }
-
-#define EXPECT_ERROR(Err) \
- { \
- auto E = Err; \
- EXPECT_TRUE(static_cast<bool>(E)); \
- if (E) \
- consumeError(std::move(E)); \
- }
-
-#define ASSERT_EXPECTED(Exp) \
- { \
- auto E = Exp.takeError(); \
- bool Success = static_cast<bool>(E); \
- if (!Success) \
- consumeError(std::move(E)); \
- ASSERT_FALSE(Success); \
- }
-
-#define EXPECT_EXPECTED(Exp) \
- { \
- auto E = Exp.takeError(); \
- EXPECT_FALSE(static_cast<bool>(E)); \
- if (E) { \
- consumeError(std::move(E)); \
- return; \
- } \
- }
-
-#define EXPECT_EXPECTED_EQ(Val, Exp) \
- { \
- auto Result = Exp; \
- auto E = Result.takeError(); \
- EXPECT_FALSE(static_cast<bool>(E)); \
- if (E) { \
- consumeError(std::move(E)); \
- return; \
- } \
- EXPECT_EQ(Val, *Result); \
- }
-
-#define EXPECT_UNEXPECTED(Exp) \
- { \
- auto E = Exp.takeError(); \
- EXPECT_TRUE(static_cast<bool>(E)); \
- if (E) { \
- consumeError(std::move(E)); \
- return; \
- } \
- }
-
-#endif
//
//===----------------------------------------------------------------------===//
-#include "ErrorChecking.h"
-
#include "llvm/ADT/SmallBitVector.h"
#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
#include "llvm/DebugInfo/CodeView/LazyRandomTypeCollection.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/BinaryItemStream.h"
#include "llvm/Support/Error.h"
+#include "llvm/Testing/Support/Error.h"
#include "gtest/gtest.h"
for (uint32_t I : IndicesToVisit) {
TypeIndex TI = TypeIndex::fromArrayIndex(I);
CVType T = Types.getType(TI);
- EXPECT_NO_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks),
+ Succeeded());
}
// [0,8) should be present
for (uint32_t I : IndicesToVisit) {
TypeIndex TI = TypeIndex::fromArrayIndex(I);
CVType T = Types.getType(TI);
- EXPECT_NO_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks),
+ Succeeded());
}
// [0, 7]
for (uint32_t I : IndicesToVisit) {
TypeIndex TI = TypeIndex::fromArrayIndex(I);
CVType T = Types.getType(TI);
- EXPECT_NO_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks),
+ Succeeded());
}
// [0, 7]
for (uint32_t I : IndicesToVisit) {
TypeIndex TI = TypeIndex::fromArrayIndex(I);
CVType T = Types.getType(TI);
- EXPECT_NO_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks),
+ Succeeded());
}
// [0, 8) should be visited.
for (uint32_t I : IndicesToVisit) {
TypeIndex TI = TypeIndex::fromArrayIndex(I);
CVType T = Types.getType(TI);
- EXPECT_NO_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(T, TI, TestState->Callbacks),
+ Succeeded());
}
// [4, 9)
#include "llvm/DebugInfo/CodeView/TypeIndexDiscovery.h"
-#include "ErrorChecking.h"
#include "llvm/DebugInfo/CodeView/TypeTableBuilder.h"
#include "llvm/Support/Allocator.h"
DebugInfoCodeView
DebugInfoMSF
DebugInfoPDB
+ TestingSupport
)
set(DebugInfoPDBSources
+++ /dev/null
-//===- ErrorChecking.h - Helpers for verifying llvm::Errors -----*- C++ -*-===//
-//
-// The LLVM Compiler Infrastructure
-//
-// This file is distributed under the University of Illinois Open Source
-// License. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-
-#ifndef LLVM_UNITTESTS_DEBUGINFO_PDB_ERRORCHECKING_H
-#define LLVM_UNITTESTS_DEBUGINFO_PDB_ERRORCHECKING_H
-
-#define EXPECT_NO_ERROR(Err) \
- { \
- auto E = Err; \
- EXPECT_FALSE(static_cast<bool>(E)); \
- if (E) \
- consumeError(std::move(E)); \
- }
-
-#define EXPECT_ERROR(Err) \
- { \
- auto E = Err; \
- EXPECT_TRUE(static_cast<bool>(E)); \
- if (E) \
- consumeError(std::move(E)); \
- }
-
-#define EXPECT_EXPECTED(Exp) \
- { \
- auto E = Exp.takeError(); \
- EXPECT_FALSE(static_cast<bool>(E)); \
- if (E) { \
- consumeError(std::move(E)); \
- return; \
- } \
- }
-
-#define EXPECT_EXPECTED_EQ(Val, Exp) \
- { \
- auto Result = Exp; \
- auto E = Result.takeError(); \
- EXPECT_FALSE(static_cast<bool>(E)); \
- if (E) { \
- consumeError(std::move(E)); \
- return; \
- } \
- EXPECT_EQ(Val, *Result); \
- }
-
-#define EXPECT_UNEXPECTED(Exp) \
- { \
- auto E = Exp.takeError(); \
- EXPECT_TRUE(static_cast<bool>(E)); \
- if (E) { \
- consumeError(std::move(E)); \
- return; \
- } \
- }
-
-#endif
//
//===----------------------------------------------------------------------===//
-#include "ErrorChecking.h"
-#include "gtest/gtest.h"
-
#include "llvm/DebugInfo/PDB/Native/HashTable.h"
#include "llvm/Support/BinaryByteStream.h"
#include "llvm/Support/BinaryStreamReader.h"
#include "llvm/Support/BinaryStreamWriter.h"
+#include "llvm/Testing/Support/Error.h"
+
+#include "gtest/gtest.h"
#include <vector>
std::vector<uint8_t> Buffer(Table.calculateSerializedLength());
MutableBinaryByteStream Stream(Buffer, little);
BinaryStreamWriter Writer(Stream);
- EXPECT_NO_ERROR(Table.commit(Writer));
+ EXPECT_THAT_ERROR(Table.commit(Writer), Succeeded());
// We should have written precisely the number of bytes we calculated earlier.
EXPECT_EQ(Buffer.size(), Writer.getOffset());
HashTableInternals Table2;
BinaryStreamReader Reader(Stream);
- EXPECT_NO_ERROR(Table2.load(Reader));
+ EXPECT_THAT_ERROR(Table2.load(Reader), Succeeded());
// We should have read precisely the number of bytes we calculated earlier.
EXPECT_EQ(Buffer.size(), Reader.getOffset());
//
//===----------------------------------------------------------------------===//
-#include "ErrorChecking.h"
-
#include "llvm/DebugInfo/MSF/MSFBuilder.h"
#include "llvm/DebugInfo/MSF/MSFCommon.h"
+#include "llvm/Testing/Support/Error.h"
#include "gtest/gtest.h"
SuperBlock SB;
initializeSuperBlock(SB);
- EXPECT_NO_ERROR(msf::validateSuperBlock(SB));
+ EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Succeeded());
}
TEST_F(MSFBuilderTest, ValidateSuperBlockReject) {
// Mismatched magic
SB.MagicBytes[0] = 8;
- EXPECT_ERROR(msf::validateSuperBlock(SB));
+ EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Failed());
initializeSimpleSuperBlock(SB);
// Block 0 is reserved for super block, can't be occupied by the block map
SB.BlockMapAddr = 0;
- EXPECT_ERROR(msf::validateSuperBlock(SB));
+ EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Failed());
initializeSimpleSuperBlock(SB);
// Block sizes have to be powers of 2.
SB.BlockSize = 3120;
- EXPECT_ERROR(msf::validateSuperBlock(SB));
+ EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Failed());
initializeSimpleSuperBlock(SB);
// The directory itself has a maximum size.
SB.NumDirectoryBytes = SB.BlockSize * SB.BlockSize / 4;
- EXPECT_NO_ERROR(msf::validateSuperBlock(SB));
+ EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Succeeded());
SB.NumDirectoryBytes = SB.NumDirectoryBytes + 4;
- EXPECT_ERROR(msf::validateSuperBlock(SB));
+ EXPECT_THAT_ERROR(msf::validateSuperBlock(SB), Failed());
}
TEST_F(MSFBuilderTest, TestUsedBlocksMarkedAsUsed) {
// after the initialization.
uint32_t NumBlocks = msf::getMinimumBlockCount() + Blocks.size() + 10;
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096, NumBlocks);
- EXPECT_EXPECTED(ExpectedMsf);
+ ASSERT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
- EXPECT_EXPECTED(Msf.addStream(Blocks.size() * 4096, Blocks));
+ EXPECT_THAT_EXPECTED(Msf.addStream(Blocks.size() * 4096, Blocks),
+ Succeeded());
for (auto B : Blocks) {
EXPECT_FALSE(Msf.isBlockFree(B));
// tests the case where the directory *DOES NOT* grow large enough that it
// crosses a Block boundary.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
auto ExpectedL1 = Msf.build();
- EXPECT_EXPECTED(ExpectedL1);
+ EXPECT_THAT_EXPECTED(ExpectedL1, Succeeded());
MSFLayout &L1 = *ExpectedL1;
auto OldDirBlocks = L1.DirectoryBlocks;
EXPECT_EQ(1U, OldDirBlocks.size());
auto ExpectedMsf2 = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf2);
+ EXPECT_THAT_EXPECTED(ExpectedMsf2, Succeeded());
auto &Msf2 = *ExpectedMsf2;
- EXPECT_EXPECTED(Msf2.addStream(4000));
+ EXPECT_THAT_EXPECTED(Msf2.addStream(4000), Succeeded());
EXPECT_EQ(1U, Msf2.getNumStreams());
EXPECT_EQ(4000U, Msf2.getStreamSize(0));
auto Blocks = Msf2.getStreamBlocks(0);
EXPECT_EQ(1U, Blocks.size());
auto ExpectedL2 = Msf2.build();
- EXPECT_EXPECTED(ExpectedL2);
+ EXPECT_THAT_EXPECTED(ExpectedL2, Succeeded());
MSFLayout &L2 = *ExpectedL2;
auto NewDirBlocks = L2.DirectoryBlocks;
EXPECT_EQ(1U, NewDirBlocks.size());
// so many Blocks that need to be indexed in the directory that the directory
// crosses a Block boundary.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
- EXPECT_EXPECTED(Msf.addStream(4096 * 4096 / sizeof(uint32_t)));
+ EXPECT_THAT_EXPECTED(Msf.addStream(4096 * 4096 / sizeof(uint32_t)),
+ Succeeded());
auto ExpectedL1 = Msf.build();
- EXPECT_EXPECTED(ExpectedL1);
+ EXPECT_THAT_EXPECTED(ExpectedL1, Succeeded());
MSFLayout &L1 = *ExpectedL1;
auto DirBlocks = L1.DirectoryBlocks;
EXPECT_EQ(2U, DirBlocks.size());
// Test growing an existing stream by a value that does not affect the number
// of blocks it occupies.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
- EXPECT_EXPECTED(Msf.addStream(1024));
+ EXPECT_THAT_EXPECTED(Msf.addStream(1024), Succeeded());
EXPECT_EQ(1024U, Msf.getStreamSize(0));
auto OldStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, OldStreamBlocks.size());
- EXPECT_NO_ERROR(Msf.setStreamSize(0, 2048));
+ EXPECT_THAT_ERROR(Msf.setStreamSize(0, 2048), Succeeded());
EXPECT_EQ(2048U, Msf.getStreamSize(0));
auto NewStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, NewStreamBlocks.size());
// stream's
// block list.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
- EXPECT_EXPECTED(Msf.addStream(2048));
+ EXPECT_THAT_EXPECTED(Msf.addStream(2048), Succeeded());
EXPECT_EQ(2048U, Msf.getStreamSize(0));
std::vector<uint32_t> OldStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, OldStreamBlocks.size());
- EXPECT_NO_ERROR(Msf.setStreamSize(0, 6144));
+ EXPECT_THAT_ERROR(Msf.setStreamSize(0, 6144), Succeeded());
EXPECT_EQ(6144U, Msf.getStreamSize(0));
std::vector<uint32_t> NewStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(2U, NewStreamBlocks.size());
// Test that shrinking an existing stream by a value that does not affect the
// number of Blocks it occupies makes no changes to stream's block list.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
- EXPECT_EXPECTED(Msf.addStream(2048));
+ EXPECT_THAT_EXPECTED(Msf.addStream(2048), Succeeded());
EXPECT_EQ(2048U, Msf.getStreamSize(0));
std::vector<uint32_t> OldStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, OldStreamBlocks.size());
- EXPECT_NO_ERROR(Msf.setStreamSize(0, 1024));
+ EXPECT_THAT_ERROR(Msf.setStreamSize(0, 1024), Succeeded());
EXPECT_EQ(1024U, Msf.getStreamSize(0));
std::vector<uint32_t> NewStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, NewStreamBlocks.size());
// causes the need to deallocate new Blocks to the stream correctly updates
// the stream's block list.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
- EXPECT_EXPECTED(Msf.addStream(6144));
+ EXPECT_THAT_EXPECTED(Msf.addStream(6144), Succeeded());
EXPECT_EQ(6144U, Msf.getStreamSize(0));
std::vector<uint32_t> OldStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(2U, OldStreamBlocks.size());
- EXPECT_NO_ERROR(Msf.setStreamSize(0, 2048));
+ EXPECT_THAT_ERROR(Msf.setStreamSize(0, 2048), Succeeded());
EXPECT_EQ(2048U, Msf.getStreamSize(0));
std::vector<uint32_t> NewStreamBlocks = Msf.getStreamBlocks(0);
EXPECT_EQ(1U, NewStreamBlocks.size());
// Test that attempting to add a stream and assigning a block that is already
// in use by another stream fails.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
- EXPECT_EXPECTED(Msf.addStream(6144));
+ EXPECT_THAT_EXPECTED(Msf.addStream(6144), Succeeded());
std::vector<uint32_t> Blocks = {2, 3};
- EXPECT_UNEXPECTED(Msf.addStream(6144, Blocks));
+ EXPECT_THAT_EXPECTED(Msf.addStream(6144, Blocks), Failed());
}
TEST_F(MSFBuilderTest, TestBlockCountsWhenAddingStreams) {
// Test that when adding multiple streams, the number of used and free Blocks
// allocated to the MSF file are as expected.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
// one for the super block, one for the directory block map
const uint32_t StreamSizes[] = {4000, 6193, 189723};
for (int I = 0; I < 3; ++I) {
- EXPECT_EXPECTED(Msf.addStream(StreamSizes[I]));
+ EXPECT_THAT_EXPECTED(Msf.addStream(StreamSizes[I]), Succeeded());
NumUsedBlocks += bytesToBlocks(StreamSizes[I], 4096);
EXPECT_EQ(NumUsedBlocks, Msf.getNumUsedBlocks());
EXPECT_EQ(0U, Msf.getNumFreeBlocks());
// Test that we can generate an MSFLayout structure from a valid layout
// specification.
auto ExpectedMsf = MSFBuilder::create(Allocator, 4096);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
const uint32_t StreamSizes[] = {4000, 6193, 189723};
uint32_t ExpectedNumBlocks = msf::getMinimumBlockCount();
for (int I = 0; I < 3; ++I) {
- EXPECT_EXPECTED(Msf.addStream(StreamSizes[I]));
+ EXPECT_THAT_EXPECTED(Msf.addStream(StreamSizes[I]), Succeeded());
ExpectedNumBlocks += bytesToBlocks(StreamSizes[I], 4096);
}
++ExpectedNumBlocks; // The directory itself should use 1 block
auto ExpectedLayout = Msf.build();
- EXPECT_EXPECTED(ExpectedLayout);
+ EXPECT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
EXPECT_EQ(4096U, L.SB->BlockSize);
EXPECT_EQ(ExpectedNumBlocks, L.SB->NumBlocks);
TEST_F(MSFBuilderTest, UseDirectoryBlockHint) {
Expected<MSFBuilder> ExpectedMsf = MSFBuilder::create(
Allocator, 4096, msf::getMinimumBlockCount() + 1, false);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
uint32_t B = msf::getFirstUnreservedBlock();
- EXPECT_NO_ERROR(Msf.setDirectoryBlocksHint({B + 1}));
- EXPECT_EXPECTED(Msf.addStream(2048, {B + 2}));
+ EXPECT_THAT_ERROR(Msf.setDirectoryBlocksHint({B + 1}), Succeeded());
+ EXPECT_THAT_EXPECTED(Msf.addStream(2048, {B + 2}), Succeeded());
auto ExpectedLayout = Msf.build();
- EXPECT_EXPECTED(ExpectedLayout);
+ EXPECT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
EXPECT_EQ(msf::getMinimumBlockCount() + 2, L.SB->NumBlocks);
EXPECT_EQ(1U, L.DirectoryBlocks.size());
TEST_F(MSFBuilderTest, DirectoryBlockHintInsufficient) {
Expected<MSFBuilder> ExpectedMsf =
MSFBuilder::create(Allocator, 4096, msf::getMinimumBlockCount() + 2);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
uint32_t B = msf::getFirstUnreservedBlock();
- EXPECT_NO_ERROR(Msf.setDirectoryBlocksHint({B + 1}));
+ EXPECT_THAT_ERROR(Msf.setDirectoryBlocksHint({B + 1}), Succeeded());
uint32_t Size = 4096 * 4096 / 4;
- EXPECT_EXPECTED(Msf.addStream(Size));
+ EXPECT_THAT_EXPECTED(Msf.addStream(Size), Succeeded());
auto ExpectedLayout = Msf.build();
- EXPECT_EXPECTED(ExpectedLayout);
+ EXPECT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
EXPECT_EQ(2U, L.DirectoryBlocks.size());
EXPECT_EQ(B + 1, L.DirectoryBlocks[0]);
TEST_F(MSFBuilderTest, DirectoryBlockHintOverestimated) {
Expected<MSFBuilder> ExpectedMsf =
MSFBuilder::create(Allocator, 4096, msf::getMinimumBlockCount() + 2);
- EXPECT_EXPECTED(ExpectedMsf);
+ EXPECT_THAT_EXPECTED(ExpectedMsf, Succeeded());
auto &Msf = *ExpectedMsf;
uint32_t B = msf::getFirstUnreservedBlock();
- EXPECT_NO_ERROR(Msf.setDirectoryBlocksHint({B + 1, B + 2}));
+ EXPECT_THAT_ERROR(Msf.setDirectoryBlocksHint({B + 1, B + 2}), Succeeded());
- EXPECT_EXPECTED(Msf.addStream(2048));
+ ASSERT_THAT_EXPECTED(Msf.addStream(2048), Succeeded());
auto ExpectedLayout = Msf.build();
- EXPECT_EXPECTED(ExpectedLayout);
+ ASSERT_THAT_EXPECTED(ExpectedLayout, Succeeded());
MSFLayout &L = *ExpectedLayout;
EXPECT_EQ(1U, L.DirectoryBlocks.size());
EXPECT_EQ(B + 1, L.DirectoryBlocks[0]);
//
//===----------------------------------------------------------------------===//
-#include "ErrorChecking.h"
-
+#include "llvm/DebugInfo/MSF/MappedBlockStream.h"
#include "llvm/DebugInfo/MSF/IMSFFile.h"
#include "llvm/DebugInfo/MSF/MSFError.h"
#include "llvm/DebugInfo/MSF/MSFStreamLayout.h"
-#include "llvm/DebugInfo/MSF/MappedBlockStream.h"
#include "llvm/Support/BinaryByteStream.h"
#include "llvm/Support/BinaryStreamReader.h"
#include "llvm/Support/BinaryStreamRef.h"
#include "llvm/Support/BinaryStreamWriter.h"
+#include "llvm/Testing/Support/Error.h"
+
#include "gtest/gtest.h"
#include <unordered_map>
BinaryStreamReader R(*S);
BinaryStreamRef SR;
- EXPECT_NO_ERROR(R.readStreamRef(SR, 0U));
+ EXPECT_THAT_ERROR(R.readStreamRef(SR, 0U), Succeeded());
ArrayRef<uint8_t> Buffer;
- EXPECT_ERROR(SR.readBytes(0U, 1U, Buffer));
- EXPECT_NO_ERROR(R.readStreamRef(SR, 1U));
- EXPECT_ERROR(SR.readBytes(1U, 1U, Buffer));
+ EXPECT_THAT_ERROR(SR.readBytes(0U, 1U, Buffer), Failed());
+ EXPECT_THAT_ERROR(R.readStreamRef(SR, 1U), Succeeded());
+ EXPECT_THAT_ERROR(SR.readBytes(1U, 1U, Buffer), Failed());
}
// Tests that a read which outputs into a full destination buffer works and
BinaryStreamReader R(*S);
StringRef Str = "ZYXWVUTSRQPONMLKJIHGFEDCBA";
- EXPECT_NO_ERROR(R.readFixedString(Str, 1));
+ EXPECT_THAT_ERROR(R.readFixedString(Str, 1), Succeeded());
EXPECT_EQ(Str, StringRef("A"));
EXPECT_EQ(0U, F.Allocator.getBytesAllocated());
}
F.Allocator);
BinaryStreamReader R(*S);
StringRef Str;
- EXPECT_NO_ERROR(R.readFixedString(Str, 2));
+ EXPECT_THAT_ERROR(R.readFixedString(Str, 2), Succeeded());
EXPECT_EQ(Str, StringRef("AB"));
EXPECT_EQ(0U, F.Allocator.getBytesAllocated());
R.setOffset(6);
- EXPECT_NO_ERROR(R.readFixedString(Str, 4));
+ EXPECT_THAT_ERROR(R.readFixedString(Str, 4), Succeeded());
EXPECT_EQ(Str, StringRef("GHIJ"));
EXPECT_EQ(0U, F.Allocator.getBytesAllocated());
}
F.Allocator);
BinaryStreamReader R(*S);
StringRef Str;
- EXPECT_NO_ERROR(R.readFixedString(Str, 10));
+ EXPECT_THAT_ERROR(R.readFixedString(Str, 10), Succeeded());
EXPECT_EQ(Str, StringRef("ABCDEFGHIJ"));
EXPECT_EQ(10U, F.Allocator.getBytesAllocated());
}
StringRef Str;
R.setOffset(10);
- EXPECT_ERROR(R.readFixedString(Str, 1));
+ EXPECT_THAT_ERROR(R.readFixedString(Str, 1), Failed());
EXPECT_EQ(0U, F.Allocator.getBytesAllocated());
}
StringRef Str;
R.setOffset(6);
- EXPECT_ERROR(R.readFixedString(Str, 5));
+ EXPECT_THAT_ERROR(R.readFixedString(Str, 5), Failed());
EXPECT_EQ(0U, F.Allocator.getBytesAllocated());
}
BinaryStreamReader R(*S);
StringRef Str;
- EXPECT_ERROR(R.readFixedString(Str, 11));
+ EXPECT_THAT_ERROR(R.readFixedString(Str, 11), Failed());
EXPECT_EQ(0U, F.Allocator.getBytesAllocated());
}
F.Allocator);
BinaryStreamReader R(*S);
StringRef Str;
- EXPECT_NO_ERROR(R.readFixedString(Str, 1));
+ EXPECT_THAT_ERROR(R.readFixedString(Str, 1), Succeeded());
EXPECT_EQ(Str, StringRef("A"));
EXPECT_EQ(0U, F.Allocator.getBytesAllocated());
}
BinaryStreamReader R(*S);
StringRef Str1;
StringRef Str2;
- EXPECT_NO_ERROR(R.readFixedString(Str1, 7));
+ EXPECT_THAT_ERROR(R.readFixedString(Str1, 7), Succeeded());
EXPECT_EQ(Str1, StringRef("ABCDEFG"));
EXPECT_EQ(7U, F.Allocator.getBytesAllocated());
R.setOffset(2);
- EXPECT_NO_ERROR(R.readFixedString(Str2, 3));
+ EXPECT_THAT_ERROR(R.readFixedString(Str2, 3), Succeeded());
EXPECT_EQ(Str2, StringRef("CDE"));
EXPECT_EQ(Str1.data() + 2, Str2.data());
EXPECT_EQ(7U, F.Allocator.getBytesAllocated());
BinaryStreamReader R(*S);
StringRef Str1;
StringRef Str2;
- EXPECT_NO_ERROR(R.readFixedString(Str1, 6));
+ EXPECT_THAT_ERROR(R.readFixedString(Str1, 6), Succeeded());
EXPECT_EQ(Str1, StringRef("ABCDEF"));
EXPECT_EQ(6U, F.Allocator.getBytesAllocated());
R.setOffset(4);
- EXPECT_NO_ERROR(R.readFixedString(Str2, 4));
+ EXPECT_THAT_ERROR(R.readFixedString(Str2, 4), Succeeded());
EXPECT_EQ(Str2, StringRef("EFGH"));
EXPECT_EQ(10U, F.Allocator.getBytesAllocated());
}
F, F.Allocator);
ArrayRef<uint8_t> Buffer;
- EXPECT_ERROR(S->writeBytes(0, ArrayRef<uint8_t>(LargeBuffer)));
- EXPECT_NO_ERROR(S->writeBytes(0, ArrayRef<uint8_t>(SmallBuffer)));
- EXPECT_NO_ERROR(S->writeBytes(7, ArrayRef<uint8_t>(SmallBuffer)));
- EXPECT_ERROR(S->writeBytes(8, ArrayRef<uint8_t>(SmallBuffer)));
+ EXPECT_THAT_ERROR(S->writeBytes(0, ArrayRef<uint8_t>(LargeBuffer)), Failed());
+ EXPECT_THAT_ERROR(S->writeBytes(0, ArrayRef<uint8_t>(SmallBuffer)),
+ Succeeded());
+ EXPECT_THAT_ERROR(S->writeBytes(7, ArrayRef<uint8_t>(SmallBuffer)),
+ Succeeded());
+ EXPECT_THAT_ERROR(S->writeBytes(8, ArrayRef<uint8_t>(SmallBuffer)), Failed());
}
TEST(MappedBlockStreamTest, TestWriteBytesNoBreakBoundary) {
F, F.Allocator);
ArrayRef<uint8_t> Buffer;
- EXPECT_NO_ERROR(S->readBytes(0, 1, Buffer));
+ EXPECT_THAT_ERROR(S->readBytes(0, 1, Buffer), Succeeded());
EXPECT_EQ(Buffer, ArrayRef<uint8_t>('A'));
- EXPECT_NO_ERROR(S->readBytes(9, 1, Buffer));
+ EXPECT_THAT_ERROR(S->readBytes(9, 1, Buffer), Succeeded());
EXPECT_EQ(Buffer, ArrayRef<uint8_t>('J'));
- EXPECT_NO_ERROR(S->writeBytes(0, ArrayRef<uint8_t>('J')));
- EXPECT_NO_ERROR(S->writeBytes(9, ArrayRef<uint8_t>('A')));
+ EXPECT_THAT_ERROR(S->writeBytes(0, ArrayRef<uint8_t>('J')), Succeeded());
+ EXPECT_THAT_ERROR(S->writeBytes(9, ArrayRef<uint8_t>('A')), Succeeded());
- EXPECT_NO_ERROR(S->readBytes(0, 1, Buffer));
+ EXPECT_THAT_ERROR(S->readBytes(0, 1, Buffer), Succeeded());
EXPECT_EQ(Buffer, ArrayRef<uint8_t>('J'));
- EXPECT_NO_ERROR(S->readBytes(9, 1, Buffer));
+ EXPECT_THAT_ERROR(S->readBytes(9, 1, Buffer), Succeeded());
EXPECT_EQ(Buffer, ArrayRef<uint8_t>('A'));
- EXPECT_NO_ERROR(S->writeBytes(0, ArrayRef<uint8_t>('A')));
- EXPECT_NO_ERROR(S->writeBytes(9, ArrayRef<uint8_t>('J')));
+ EXPECT_THAT_ERROR(S->writeBytes(0, ArrayRef<uint8_t>('A')), Succeeded());
+ EXPECT_THAT_ERROR(S->writeBytes(9, ArrayRef<uint8_t>('J')), Succeeded());
- EXPECT_NO_ERROR(S->readBytes(0, 1, Buffer));
+ EXPECT_THAT_ERROR(S->readBytes(0, 1, Buffer), Succeeded());
EXPECT_EQ(Buffer, ArrayRef<uint8_t>('A'));
- EXPECT_NO_ERROR(S->readBytes(9, 1, Buffer));
+ EXPECT_THAT_ERROR(S->readBytes(9, 1, Buffer), Succeeded());
EXPECT_EQ(Buffer, ArrayRef<uint8_t>('J'));
}
F, F.Allocator);
ArrayRef<uint8_t> Buffer;
- EXPECT_NO_ERROR(S->writeBytes(0, TestData));
+ EXPECT_THAT_ERROR(S->writeBytes(0, TestData), Succeeded());
// First just compare the memory, then compare the result of reading the
// string out.
EXPECT_EQ(ArrayRef<uint8_t>(Data), ArrayRef<uint8_t>(Expected));
- EXPECT_NO_ERROR(S->readBytes(0, 8, Buffer));
+ EXPECT_THAT_ERROR(S->readBytes(0, 8, Buffer), Succeeded());
EXPECT_EQ(Buffer, ArrayRef<uint8_t>(TestData));
}
BinaryStreamReader Reader(*S);
BinaryStreamWriter Writer(*S);
- EXPECT_NO_ERROR(Writer.writeInteger(u16[0]));
- EXPECT_NO_ERROR(Reader.readInteger(u16[1]));
+ EXPECT_THAT_ERROR(Writer.writeInteger(u16[0]), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readInteger(u16[1]), Succeeded());
EXPECT_EQ(u16[0], u16[1]);
EXPECT_EQ(std::vector<uint8_t>({0, 0x7A, 0xEC, 0, 0, 0, 0, 0, 0, 0}),
DataBytes);
Reader.setOffset(0);
Writer.setOffset(0);
::memset(DataBytes.data(), 0, 10);
- EXPECT_NO_ERROR(Writer.writeInteger(u32[0]));
- EXPECT_NO_ERROR(Reader.readInteger(u32[1]));
+ EXPECT_THAT_ERROR(Writer.writeInteger(u32[0]), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readInteger(u32[1]), Succeeded());
EXPECT_EQ(u32[0], u32[1]);
EXPECT_EQ(std::vector<uint8_t>({0x17, 0x5C, 0x50, 0, 0, 0, 0x35, 0, 0, 0}),
DataBytes);
Reader.setOffset(0);
Writer.setOffset(0);
::memset(DataBytes.data(), 0, 10);
- EXPECT_NO_ERROR(Writer.writeEnum(Enum[0]));
- EXPECT_NO_ERROR(Reader.readEnum(Enum[1]));
+ EXPECT_THAT_ERROR(Writer.writeEnum(Enum[0]), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readEnum(Enum[1]), Succeeded());
EXPECT_EQ(Enum[0], Enum[1]);
EXPECT_EQ(std::vector<uint8_t>({0x2C, 0x60, 0x4A, 0, 0, 0, 0, 0, 0, 0}),
DataBytes);
Reader.setOffset(0);
Writer.setOffset(0);
::memset(DataBytes.data(), 0, 10);
- EXPECT_NO_ERROR(Writer.writeCString(ZStr[0]));
- EXPECT_NO_ERROR(Reader.readCString(ZStr[1]));
+ EXPECT_THAT_ERROR(Writer.writeCString(ZStr[0]), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readCString(ZStr[1]), Succeeded());
EXPECT_EQ(ZStr[0], ZStr[1]);
EXPECT_EQ(
std::vector<uint8_t>({'r', 'e', 'Z', ' ', 'S', 't', 'o', 'r', 0, 0}),
Reader.setOffset(0);
Writer.setOffset(0);
::memset(DataBytes.data(), 0, 10);
- EXPECT_NO_ERROR(Writer.writeFixedString(FStr[0]));
- EXPECT_NO_ERROR(Reader.readFixedString(FStr[1], FStr[0].size()));
+ EXPECT_THAT_ERROR(Writer.writeFixedString(FStr[0]), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readFixedString(FStr[1], FStr[0].size()),
+ Succeeded());
EXPECT_EQ(FStr[0], FStr[1]);
EXPECT_EQ(
std::vector<uint8_t>({'x', 'i', 'F', 'd', ' ', 'S', 'e', 't', 0, 'r'}),
Reader.setOffset(0);
Writer.setOffset(0);
::memset(DataBytes.data(), 0, 10);
- EXPECT_NO_ERROR(Writer.writeArray(byteArray[0]));
- EXPECT_NO_ERROR(Reader.readArray(byteArray[1], byteArray[0].size()));
+ EXPECT_THAT_ERROR(Writer.writeArray(byteArray[0]), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readArray(byteArray[1], byteArray[0].size()),
+ Succeeded());
EXPECT_EQ(byteArray[0], byteArray[1]);
EXPECT_EQ(std::vector<uint8_t>({0, 0x32, 0x31, 0, 0, 0, 0, 0, 0, 0}),
DataBytes);
Reader.setOffset(0);
Writer.setOffset(0);
::memset(DataBytes.data(), 0, 10);
- EXPECT_NO_ERROR(Writer.writeArray(intArray[0]));
- EXPECT_NO_ERROR(Reader.readArray(intArray[1], intArray[0].size()));
+ EXPECT_THAT_ERROR(Writer.writeArray(intArray[0]), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readArray(intArray[1], intArray[0].size()),
+ Succeeded());
EXPECT_EQ(intArray[0], intArray[1]);
}
// First write "Test Str" into the source stream.
MutableBinaryByteStream SourceStream(SrcData, little);
BinaryStreamWriter SourceWriter(SourceStream);
- EXPECT_NO_ERROR(SourceWriter.writeCString("Test Str"));
+ EXPECT_THAT_ERROR(SourceWriter.writeCString("Test Str"), Succeeded());
EXPECT_EQ(SrcDataBytes, std::vector<uint8_t>(
{'T', 'e', 's', 't', ' ', 'S', 't', 'r', 0, 0}));
// Then write the source stream into the dest stream.
BinaryStreamWriter DestWriter(*DestStream);
- EXPECT_NO_ERROR(DestWriter.writeStreamRef(SourceStream));
+ EXPECT_THAT_ERROR(DestWriter.writeStreamRef(SourceStream), Succeeded());
EXPECT_EQ(DestDataBytes, std::vector<uint8_t>(
{'s', 'e', 'T', ' ', 'S', 't', 't', 'r', 0, 0}));
// Then read the string back out of the dest stream.
StringRef Result;
BinaryStreamReader DestReader(*DestStream);
- EXPECT_NO_ERROR(DestReader.readCString(Result));
+ EXPECT_THAT_ERROR(DestReader.readCString(Result), Succeeded());
EXPECT_EQ(Result, "Test Str");
}
// First write "Test Str" into the source stream.
BinaryStreamWriter SourceWriter(*Src);
- EXPECT_NO_ERROR(SourceWriter.writeCString("Test Str"));
+ EXPECT_THAT_ERROR(SourceWriter.writeCString("Test Str"), Succeeded());
EXPECT_EQ(SrcDataBytes, std::vector<uint8_t>(
{'e', 'T', 't', 't', ' ', 'S', 's', 'r', 0, 0}));
// Then write the source stream into the dest stream.
BinaryStreamWriter DestWriter(*Dest);
- EXPECT_NO_ERROR(DestWriter.writeStreamRef(*Src));
+ EXPECT_THAT_ERROR(DestWriter.writeStreamRef(*Src), Succeeded());
EXPECT_EQ(DestDataBytes, std::vector<uint8_t>(
{'s', 'e', 'T', ' ', 'S', 't', 't', 'r', 0, 0}));
// Then read the string back out of the dest stream.
StringRef Result;
BinaryStreamReader DestReader(*Dest);
- EXPECT_NO_ERROR(DestReader.readCString(Result));
+ EXPECT_THAT_ERROR(DestReader.readCString(Result), Succeeded());
EXPECT_EQ(Result, "Test Str");
}
BinaryStreamReader Reader(*S);
BinaryStreamWriter Writer(*S);
::memset(DataBytes.data(), 0, 10);
- EXPECT_NO_ERROR(Writer.writeCString(Str[0]));
- EXPECT_NO_ERROR(Reader.readCString(Str[1]));
+ EXPECT_THAT_ERROR(Writer.writeCString(Str[0]), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readCString(Str[1]), Succeeded());
EXPECT_EQ(Str[0], Str[1]);
}
//
//===----------------------------------------------------------------------===//
-#include "ErrorChecking.h"
-
#include "llvm/DebugInfo/PDB/Native/PDBStringTable.h"
#include "llvm/DebugInfo/PDB/Native/PDBStringTableBuilder.h"
#include "llvm/Support/BinaryByteStream.h"
#include "llvm/Support/BinaryStreamReader.h"
#include "llvm/Support/BinaryStreamWriter.h"
+#include "llvm/Testing/Support/Error.h"
#include "gtest/gtest.h"
std::vector<uint8_t> Buffer(Builder.calculateSerializedSize());
MutableBinaryByteStream OutStream(Buffer, little);
BinaryStreamWriter Writer(OutStream);
- EXPECT_NO_ERROR(Builder.commit(Writer));
+ EXPECT_THAT_ERROR(Builder.commit(Writer), Succeeded());
// Reads the contents back.
BinaryByteStream InStream(Buffer, little);
BinaryStreamReader Reader(InStream);
PDBStringTable Table;
- EXPECT_NO_ERROR(Table.reload(Reader));
+ EXPECT_THAT_ERROR(Table.reload(Reader), Succeeded());
EXPECT_EQ(3U, Table.getNameCount());
EXPECT_EQ(1U, Table.getHashVersion());
- EXPECT_EXPECTED_EQ("foo", Table.getStringForID(1));
- EXPECT_EXPECTED_EQ("bar", Table.getStringForID(5));
- EXPECT_EXPECTED_EQ("baz", Table.getStringForID(9));
- EXPECT_EXPECTED_EQ(1U, Table.getIDForString("foo"));
- EXPECT_EXPECTED_EQ(5U, Table.getIDForString("bar"));
- EXPECT_EXPECTED_EQ(9U, Table.getIDForString("baz"));
+ EXPECT_THAT_EXPECTED(Table.getStringForID(1), HasValue("foo"));
+ EXPECT_THAT_EXPECTED(Table.getStringForID(5), HasValue("bar"));
+ EXPECT_THAT_EXPECTED(Table.getStringForID(9), HasValue("baz"));
+ EXPECT_THAT_EXPECTED(Table.getIDForString("foo"), HasValue(1U));
+ EXPECT_THAT_EXPECTED(Table.getIDForString("bar"), HasValue(5U));
+ EXPECT_THAT_EXPECTED(Table.getIDForString("baz"), HasValue(9U));
}
//
//===----------------------------------------------------------------------===//
-#include "ErrorChecking.h"
-
+#include "llvm/DebugInfo/CodeView/TypeServerHandler.h"
#include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
#include "llvm/DebugInfo/CodeView/TypeRecord.h"
#include "llvm/DebugInfo/CodeView/TypeRecordMapping.h"
#include "llvm/DebugInfo/CodeView/TypeSerializer.h"
-#include "llvm/DebugInfo/CodeView/TypeServerHandler.h"
#include "llvm/DebugInfo/CodeView/TypeTableBuilder.h"
#include "llvm/DebugInfo/CodeView/TypeVisitorCallbackPipeline.h"
#include "llvm/DebugInfo/CodeView/TypeVisitorCallbacks.h"
#include "llvm/DebugInfo/PDB/Native/RawTypes.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/Error.h"
+#include "llvm/Testing/Support/Error.h"
#include "gtest/gtest.h"
Pipeline.addCallbackToPipeline(C1);
Pipeline.addCallbackToPipeline(C2);
- EXPECT_NO_ERROR(codeview::visitTypeRecord(TypeServerRecord, Pipeline));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(TypeServerRecord, Pipeline),
+ Succeeded());
EXPECT_EQ(MockTypeVisitorCallbacks::State::VisitTypeEnd, C1.S);
EXPECT_EQ(MockTypeVisitorCallbacks::State::VisitTypeEnd, C2.S);
MockTypeVisitorCallbacks C1;
// Our mock server returns true the first time.
- EXPECT_NO_ERROR(codeview::visitTypeRecord(
- TypeServerRecord, C1, codeview::VDS_BytesExternal, &Handler));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(TypeServerRecord, C1,
+ codeview::VDS_BytesExternal,
+ &Handler),
+ Succeeded());
EXPECT_TRUE(Handler.Handled);
EXPECT_EQ(MockTypeVisitorCallbacks::State::Ready, C1.S);
// And false the second time.
- EXPECT_NO_ERROR(codeview::visitTypeRecord(
- TypeServerRecord, C1, codeview::VDS_BytesExternal, &Handler));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(TypeServerRecord, C1,
+ codeview::VDS_BytesExternal,
+ &Handler),
+ Succeeded());
EXPECT_TRUE(Handler.Handled);
EXPECT_EQ(MockTypeVisitorCallbacks::State::VisitTypeEnd, C1.S);
}
MockTypeVisitorCallbacks C1;
- EXPECT_NO_ERROR(codeview::visitTypeRecord(
- TypeServerRecord, C1, codeview::VDS_BytesExternal, &Handler));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(TypeServerRecord, C1,
+ codeview::VDS_BytesExternal,
+ &Handler),
+ Succeeded());
EXPECT_TRUE(Handler.Handled);
EXPECT_EQ(MockTypeVisitorCallbacks::State::Ready, C1.S);
- EXPECT_NO_ERROR(codeview::visitTypeRecord(
- TypeServerRecord, C1, codeview::VDS_BytesExternal, &Handler));
+ EXPECT_THAT_ERROR(codeview::visitTypeRecord(TypeServerRecord, C1,
+ codeview::VDS_BytesExternal,
+ &Handler),
+ Succeeded());
EXPECT_TRUE(Handler.Handled);
EXPECT_EQ(MockTypeVisitorCallbacks::State::Ready, C1.S);
}
#include "llvm/Support/BinaryStreamReader.h"
#include "llvm/Support/BinaryStreamRef.h"
#include "llvm/Support/BinaryStreamWriter.h"
+#include "llvm/Testing/Support/Error.h"
+
#include "gtest/gtest.h"
#include <unordered_map>
using namespace llvm;
using namespace llvm::support;
-#define EXPECT_NO_ERROR(Err) \
- { \
- auto E = Err; \
- EXPECT_FALSE(static_cast<bool>(E)); \
- if (E) \
- consumeError(std::move(E)); \
- }
-
-#define ASSERT_NO_ERROR(Err) \
- { \
- auto E = Err; \
- ASSERT_FALSE(static_cast<bool>(E)); \
- if (E) \
- consumeError(std::move(E)); \
- }
-
-#define EXPECT_ERROR(Err) \
- { \
- auto E = Err; \
- EXPECT_TRUE(static_cast<bool>(E)); \
- if (E) \
- consumeError(std::move(E)); \
- }
-
namespace {
class BrokenStream : public WritableBinaryStream {
// 1. If the read fits it should work.
ASSERT_EQ(InputData.size(), Stream.Input->getLength());
- ASSERT_NO_ERROR(Stream.Input->readBytes(2, 1, Buffer));
+ ASSERT_THAT_ERROR(Stream.Input->readBytes(2, 1, Buffer), Succeeded());
EXPECT_EQ(makeArrayRef(InputData).slice(2, 1), Buffer);
- ASSERT_NO_ERROR(Stream.Input->readBytes(0, 4, Buffer));
+ ASSERT_THAT_ERROR(Stream.Input->readBytes(0, 4, Buffer), Succeeded());
EXPECT_EQ(makeArrayRef(InputData).slice(0, 4), Buffer);
// 2. Reading past the bounds of the input should fail.
- EXPECT_ERROR(Stream.Input->readBytes(4, 2, Buffer));
+ EXPECT_THAT_ERROR(Stream.Input->readBytes(4, 2, Buffer), Failed());
}
}
// Read 1 byte from offset 2 should work
ASSERT_EQ(InputData.size(), Ref.getLength());
- ASSERT_NO_ERROR(Ref.readBytes(2, 1, Buffer));
+ ASSERT_THAT_ERROR(Ref.readBytes(2, 1, Buffer), Succeeded());
EXPECT_EQ(makeArrayRef(InputData).slice(2, 1), Buffer);
// Reading everything from offset 2 on.
- ASSERT_NO_ERROR(Ref.readLongestContiguousChunk(2, Buffer));
+ ASSERT_THAT_ERROR(Ref.readLongestContiguousChunk(2, Buffer), Succeeded());
if (Stream.IsContiguous)
EXPECT_EQ(makeArrayRef(InputData).slice(2), Buffer);
else
EXPECT_FALSE(Buffer.empty());
// Reading 6 bytes from offset 0 is too big.
- EXPECT_ERROR(Ref.readBytes(0, 6, Buffer));
- EXPECT_ERROR(Ref.readLongestContiguousChunk(6, Buffer));
+ EXPECT_THAT_ERROR(Ref.readBytes(0, 6, Buffer), Failed());
+ EXPECT_THAT_ERROR(Ref.readLongestContiguousChunk(6, Buffer), Failed());
// Reading 1 byte from offset 2 after dropping 1 byte is the same as reading
// 1 byte from offset 3.
Ref = Ref.drop_front(1);
- ASSERT_NO_ERROR(Ref.readBytes(2, 1, Buffer));
+ ASSERT_THAT_ERROR(Ref.readBytes(2, 1, Buffer), Succeeded());
if (Stream.IsContiguous)
EXPECT_EQ(makeArrayRef(InputData).slice(3, 1), Buffer);
else
EXPECT_FALSE(Buffer.empty());
// Reading everything from offset 2 on after dropping 1 byte.
- ASSERT_NO_ERROR(Ref.readLongestContiguousChunk(2, Buffer));
+ ASSERT_THAT_ERROR(Ref.readLongestContiguousChunk(2, Buffer), Succeeded());
if (Stream.IsContiguous)
EXPECT_EQ(makeArrayRef(InputData).slice(3), Buffer);
else
// Reading 2 bytes from offset 2 after dropping 2 bytes is the same as
// reading 2 bytes from offset 4, and should fail.
Ref = Ref.drop_front(1);
- EXPECT_ERROR(Ref.readBytes(2, 2, Buffer));
+ EXPECT_THAT_ERROR(Ref.readBytes(2, 2, Buffer), Failed());
// But if we read the longest contiguous chunk instead, we should still
// get the 1 byte at the end.
- ASSERT_NO_ERROR(Ref.readLongestContiguousChunk(2, Buffer));
+ ASSERT_THAT_ERROR(Ref.readLongestContiguousChunk(2, Buffer), Succeeded());
EXPECT_EQ(makeArrayRef(InputData).take_back(), Buffer);
}
}
BinaryStreamRef Original(InputData, support::little);
ASSERT_EQ(InputData.size(), Original.getLength());
- EXPECT_NO_ERROR(Original.readBytes(0, InputData.size(), Result));
+ EXPECT_THAT_ERROR(Original.readBytes(0, InputData.size(), Result),
+ Succeeded());
EXPECT_EQ(RefData, Result);
auto Dropped = Original.drop_front(2);
- EXPECT_NO_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result));
+ EXPECT_THAT_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result),
+ Succeeded());
EXPECT_EQ(RefData.drop_front(2), Result);
Dropped = Original.drop_back(2);
- EXPECT_NO_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result));
+ EXPECT_THAT_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result),
+ Succeeded());
EXPECT_EQ(RefData.drop_back(2), Result);
Dropped = Original.keep_front(2);
- EXPECT_NO_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result));
+ EXPECT_THAT_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result),
+ Succeeded());
EXPECT_EQ(RefData.take_front(2), Result);
Dropped = Original.keep_back(2);
- EXPECT_NO_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result));
+ EXPECT_THAT_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result),
+ Succeeded());
EXPECT_EQ(RefData.take_back(2), Result);
Dropped = Original.drop_symmetric(2);
- EXPECT_NO_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result));
+ EXPECT_THAT_ERROR(Dropped.readBytes(0, Dropped.getLength(), Result),
+ Succeeded());
EXPECT_EQ(RefData.drop_front(2).drop_back(2), Result);
}
// Read everything from Offset until the end of the input data.
ArrayRef<uint8_t> Data;
- ASSERT_NO_ERROR(Stream.Input->readBytes(Offset, ExpectedSize, Data));
+ ASSERT_THAT_ERROR(Stream.Input->readBytes(Offset, ExpectedSize, Data),
+ Succeeded());
ASSERT_EQ(ExpectedSize, Data.size());
// Then write it to the destination.
- ASSERT_NO_ERROR(Stream.Output->writeBytes(0, Data));
+ ASSERT_THAT_ERROR(Stream.Output->writeBytes(0, Data), Succeeded());
// Then we read back what we wrote, it should match the corresponding
// slice of the original input data.
ArrayRef<uint8_t> Data2;
- ASSERT_NO_ERROR(Stream.Output->readBytes(Offset, ExpectedSize, Data2));
+ ASSERT_THAT_ERROR(Stream.Output->readBytes(Offset, ExpectedSize, Data2),
+ Succeeded());
EXPECT_EQ(makeArrayRef(InputData).drop_front(Offset), Data2);
}
std::vector<uint8_t> BigData = {0, 1, 2, 3, 4};
// 2. If the write is too big, it should fail.
- EXPECT_ERROR(Stream.Output->writeBytes(3, BigData));
+ EXPECT_THAT_ERROR(Stream.Output->writeBytes(3, BigData), Failed());
}
}
StringRef S;
BinaryStreamReader Reader(*Stream.Input);
EXPECT_EQ(0U, Reader.bytesRemaining());
- EXPECT_ERROR(Reader.readFixedString(S, 1));
+ EXPECT_THAT_ERROR(Reader.readFixedString(S, 1), Failed());
}
Bytes.resize(5);
StringRef S;
BinaryStreamReader Reader(*Stream.Input);
EXPECT_EQ(Bytes.size(), Reader.bytesRemaining());
- EXPECT_NO_ERROR(Reader.readFixedString(S, 5));
- EXPECT_ERROR(Reader.readFixedString(S, 6));
+ EXPECT_THAT_ERROR(Reader.readFixedString(S, 5), Succeeded());
+ EXPECT_THAT_ERROR(Reader.readFixedString(S, 6), Failed());
}
}
for (auto &Stream : Streams) {
BinaryStreamWriter Writer(*Stream.Output);
- ASSERT_NO_ERROR(Writer.writeObject(Little));
- ASSERT_NO_ERROR(Writer.writeObject(Big));
- ASSERT_NO_ERROR(Writer.writeInteger(NS));
- ASSERT_NO_ERROR(Writer.writeInteger(NI));
- ASSERT_NO_ERROR(Writer.writeInteger(NUL));
+ ASSERT_THAT_ERROR(Writer.writeObject(Little), Succeeded());
+ ASSERT_THAT_ERROR(Writer.writeObject(Big), Succeeded());
+ ASSERT_THAT_ERROR(Writer.writeInteger(NS), Succeeded());
+ ASSERT_THAT_ERROR(Writer.writeInteger(NI), Succeeded());
+ ASSERT_THAT_ERROR(Writer.writeInteger(NUL), Succeeded());
const support::ulittle64_t *Little2;
const support::ubig32_t *Big2;
// 1. Reading fields individually.
BinaryStreamReader Reader(*Stream.Input);
- ASSERT_NO_ERROR(Reader.readObject(Little2));
- ASSERT_NO_ERROR(Reader.readObject(Big2));
- ASSERT_NO_ERROR(Reader.readInteger(NS2));
- ASSERT_NO_ERROR(Reader.readInteger(NI2));
- ASSERT_NO_ERROR(Reader.readInteger(NUL2));
+ ASSERT_THAT_ERROR(Reader.readObject(Little2), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readObject(Big2), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readInteger(NS2), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readInteger(NI2), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readInteger(NUL2), Succeeded());
ASSERT_EQ(0U, Reader.bytesRemaining());
EXPECT_EQ(Little, *Little2);
for (auto &Stream : Streams) {
BinaryStreamReader Reader(*Stream.Input);
ArrayRef<int> IntsRef;
- ASSERT_NO_ERROR(Reader.readArray(IntsRef, Ints.size()));
+ ASSERT_THAT_ERROR(Reader.readArray(IntsRef, Ints.size()), Succeeded());
ASSERT_EQ(0U, Reader.bytesRemaining());
EXPECT_EQ(makeArrayRef(Ints), IntsRef);
Reader.setOffset(0);
FixedStreamArray<int> FixedIntsRef;
- ASSERT_NO_ERROR(Reader.readArray(FixedIntsRef, Ints.size()));
+ ASSERT_THAT_ERROR(Reader.readArray(FixedIntsRef, Ints.size()), Succeeded());
ASSERT_EQ(0U, Reader.bytesRemaining());
ASSERT_EQ(Ints, std::vector<int>(FixedIntsRef.begin(), FixedIntsRef.end()));
}
for (auto &Stream : Streams) {
BinaryStreamWriter Writer(*Stream.Output);
for (auto Value : Enums)
- ASSERT_NO_ERROR(Writer.writeEnum(Value));
+ ASSERT_THAT_ERROR(Writer.writeEnum(Value), Succeeded());
BinaryStreamReader Reader(*Stream.Input);
for (size_t I = 0; I < Enums.size(); ++I) {
MyEnum Value;
- ASSERT_NO_ERROR(Reader.readEnum(Value));
+ ASSERT_THAT_ERROR(Reader.readEnum(Value), Succeeded());
EXPECT_EQ(Enums[I], Value);
}
ASSERT_EQ(0U, Reader.bytesRemaining());
const Foo *FPtrOut = nullptr;
const Foo *GPtrOut = nullptr;
const Foo *HPtrOut = nullptr;
- ASSERT_NO_ERROR(Reader.readObject(FPtrOut));
- ASSERT_NO_ERROR(Reader.readObject(GPtrOut));
- ASSERT_NO_ERROR(Reader.readObject(HPtrOut));
+ ASSERT_THAT_ERROR(Reader.readObject(FPtrOut), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readObject(GPtrOut), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readObject(HPtrOut), Succeeded());
EXPECT_EQ(0U, Reader.bytesRemaining());
EXPECT_EQ(Foos[0], *FPtrOut);
EXPECT_EQ(Foos[1], *GPtrOut);
StringRef S2;
StringRef S3;
StringRef S4;
- ASSERT_NO_ERROR(Reader.readCString(S1));
- ASSERT_NO_ERROR(Reader.readCString(S2));
- ASSERT_NO_ERROR(Reader.readCString(S3));
- ASSERT_NO_ERROR(Reader.readCString(S4));
+ ASSERT_THAT_ERROR(Reader.readCString(S1), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readCString(S2), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readCString(S3), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readCString(S4), Succeeded());
ASSERT_EQ(0U, Reader.bytesRemaining());
EXPECT_EQ("One", S1);
S1 = S2 = S3 = S4 = "";
Reader.setOffset(0);
- ASSERT_NO_ERROR(Reader.readFixedString(S1, 3));
- ASSERT_NO_ERROR(Reader.skip(1));
- ASSERT_NO_ERROR(Reader.readFixedString(S2, 3));
- ASSERT_NO_ERROR(Reader.skip(1));
- ASSERT_NO_ERROR(Reader.readFixedString(S3, 5));
- ASSERT_NO_ERROR(Reader.skip(1));
- ASSERT_NO_ERROR(Reader.readFixedString(S4, 4));
- ASSERT_NO_ERROR(Reader.skip(1));
+ ASSERT_THAT_ERROR(Reader.readFixedString(S1, 3), Succeeded());
+ ASSERT_THAT_ERROR(Reader.skip(1), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readFixedString(S2, 3), Succeeded());
+ ASSERT_THAT_ERROR(Reader.skip(1), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readFixedString(S3, 5), Succeeded());
+ ASSERT_THAT_ERROR(Reader.skip(1), Succeeded());
+ ASSERT_THAT_ERROR(Reader.readFixedString(S4, 4), Succeeded());
+ ASSERT_THAT_ERROR(Reader.skip(1), Succeeded());
ASSERT_EQ(0U, Reader.bytesRemaining());
EXPECT_EQ("One", S1);
// 1. Can write a string that exactly fills the buffer.
EXPECT_EQ(5U, Writer.bytesRemaining());
- EXPECT_NO_ERROR(Writer.writeFixedString("abcde"));
+ EXPECT_THAT_ERROR(Writer.writeFixedString("abcde"), Succeeded());
EXPECT_EQ(0U, Writer.bytesRemaining());
// 2. Can write an empty string even when you're full
- EXPECT_NO_ERROR(Writer.writeFixedString(""));
- EXPECT_ERROR(Writer.writeFixedString("a"));
+ EXPECT_THAT_ERROR(Writer.writeFixedString(""), Succeeded());
+ EXPECT_THAT_ERROR(Writer.writeFixedString("a"), Failed());
// 3. Can't write a string that is one character too long.
Writer.setOffset(0);
- EXPECT_ERROR(Writer.writeFixedString("abcdef"));
+ EXPECT_THAT_ERROR(Writer.writeFixedString("abcdef"), Failed());
}
}
ArrayRef<int> Ints;
ArrayRef<int> Ints2;
// First read them, then write them, then read them back.
- ASSERT_NO_ERROR(Reader.readArray(Ints, SourceInts.size()));
- ASSERT_NO_ERROR(Writer.writeArray(Ints));
+ ASSERT_THAT_ERROR(Reader.readArray(Ints, SourceInts.size()), Succeeded());
+ ASSERT_THAT_ERROR(Writer.writeArray(Ints), Succeeded());
BinaryStreamReader ReaderBacker(*Stream.Output);
- ASSERT_NO_ERROR(ReaderBacker.readArray(Ints2, SourceInts.size()));
+ ASSERT_THAT_ERROR(ReaderBacker.readArray(Ints2, SourceInts.size()),
+ Succeeded());
EXPECT_EQ(makeArrayRef(SourceInts), Ints2);
}
for (auto &Stream : Streams) {
BinaryStreamWriter Writer(*Stream.Output);
for (auto S : Strings)
- ASSERT_NO_ERROR(Writer.writeCString(S));
+ ASSERT_THAT_ERROR(Writer.writeCString(S), Succeeded());
std::vector<StringRef> InStrings;
BinaryStreamReader Reader(*Stream.Input);
while (!Reader.empty()) {
StringRef S;
- ASSERT_NO_ERROR(Reader.readCString(S));
+ ASSERT_THAT_ERROR(Reader.readCString(S), Succeeded());
InStrings.push_back(S);
}
EXPECT_EQ(makeArrayRef(Strings), makeArrayRef(InStrings));
MutableArrayRef<uint8_t> Buffer(Ptr, sizeof(Foo));
MutableBinaryByteStream Stream(Buffer, llvm::support::big);
BinaryStreamWriter Writer(Stream);
- ASSERT_NO_ERROR(Writer.writeObject(F));
+ ASSERT_THAT_ERROR(Writer.writeObject(F), Succeeded());
Objects.push_back(BinaryItemStreamObject(Buffer));
}
for (const auto &F : Foos) {
const Foo *F2;
- ASSERT_NO_ERROR(Reader.readObject(F2));
+ ASSERT_THAT_ERROR(Reader.readObject(F2), Succeeded());
EXPECT_EQ(F.X, F2->X);
EXPECT_DOUBLE_EQ(F.Y, F2->Y);
set(LLVM_LINK_COMPONENTS
Support
+ TestingSupport
)
add_llvm_unittest(SupportTests
projects / llvm / commitdiff