caio/clang-p2996
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
416a5080d89066029f9889dc23f94de47c2fa895
clang-p2996/libc/utils/UnitTest/LibcTest.cpp
Michael Jones 1170951c73 [libc] add uint128 implementation 
Some platforms don't support proper 128 bit integers, but some
algorithms use them, such as any that use long doubles. This patch
modifies the existing UInt class to support the necessary operators.
This does not put this new class into use, that will be in followup
patches.

Reviewed By: sivachandra, lntue

Differential Revision: https://reviews.llvm.org/D124959
2022-05-12 11:16:53 -07:00

401 lines
14 KiB
C++
Raw Blame History

//===-- Implementation of the base class for libc unittests----------------===//
//
// 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 "LibcTest.h"
#include "src/__support/CPP/UInt.h"
#include "utils/testutils/ExecuteFunction.h"
#include <cassert>
#include <iostream>
#include <string>
namespace __llvm_libc {
namespace testing {
// This need not be a class as all it has is a single read-write state variable.
// But, we make it class as then its implementation can be hidden from the
// header file.
class RunContext {
public:
enum RunResult { Result_Pass = 1, Result_Fail = 2 };
RunResult status() const { return Status; }
void markFail() { Status = Result_Fail; }
private:
RunResult Status = Result_Pass;
};
namespace internal {
// When the value is of integral type, just display it as normal.
template <typename ValType>
cpp::EnableIfType<cpp::IsIntegral<ValType>::Value, std::string>
describeValue(ValType Value) {
return std::to_string(Value);
}
std::string describeValue(std::string Value) { return std::string(Value); }
#ifdef __SIZEOF_INT128__
// When the value is __uint128_t, also show its hexadecimal digits.
// Using template to force exact match, prevent ambiguous promotion.
std::string describeValue128(__uint128_t Value) {
std::string S(sizeof(__uint128_t) * 2, '0');
for (auto I = S.rbegin(), End = S.rend(); I != End; ++I, Value >>= 4) {
unsigned char Mod = static_cast<unsigned char>(Value) & 15;
*I = Mod < 10 ? '0' + Mod : 'a' + Mod - 10;
}
return "0x" + S;
}
template <> std::string describeValue<__int128_t>(__int128_t Value) {
return describeValue128(Value);
}
template <> std::string describeValue<__uint128_t>(__uint128_t Value) {
return describeValue128(Value);
}
#endif
// When the value is UInt<128>, also show its hexadecimal digits.
template <>
std::string
describeValue<__llvm_libc::cpp::UInt<128>>(__llvm_libc::cpp::UInt<128> Value) {
std::string S(sizeof(__llvm_libc::cpp::UInt<128>) * 2, '0');
for (auto I = S.rbegin(), End = S.rend(); I != End; ++I, Value = Value >> 4) {
unsigned char Mod = static_cast<unsigned char>(Value) & 15;
*I = Mod < 10 ? '0' + Mod : 'a' + Mod - 10;
}
return "0x" + S;
}
template <typename ValType>
void explainDifference(ValType LHS, ValType RHS, const char *LHSStr,
const char *RHSStr, const char *File, unsigned long Line,
std::string OpString) {
size_t OffsetLength = OpString.size() > 2 ? OpString.size() - 2 : 0;
std::string Offset(OffsetLength, ' ');
std::cout << File << ":" << Line << ": FAILURE\n"
<< Offset << "Expected: " << LHSStr << '\n'
<< Offset << "Which is: " << describeValue(LHS) << '\n'
<< "To be " << OpString << ": " << RHSStr << '\n'
<< Offset << "Which is: " << describeValue(RHS) << '\n';
}
template <typename ValType>
bool test(RunContext *Ctx, TestCondition Cond, ValType LHS, ValType RHS,
const char *LHSStr, const char *RHSStr, const char *File,
unsigned long Line) {
auto ExplainDifference = [=](std::string OpString) {
explainDifference(LHS, RHS, LHSStr, RHSStr, File, Line, OpString);
};
switch (Cond) {
case Cond_EQ:
if (LHS == RHS)
return true;
Ctx->markFail();
ExplainDifference("equal to");
return false;
case Cond_NE:
if (LHS != RHS)
return true;
Ctx->markFail();
ExplainDifference("not equal to");
return false;
case Cond_LT:
if (LHS < RHS)
return true;
Ctx->markFail();
ExplainDifference("less than");
return false;
case Cond_LE:
if (LHS <= RHS)
return true;
Ctx->markFail();
ExplainDifference("less than or equal to");
return false;
case Cond_GT:
if (LHS > RHS)
return true;
Ctx->markFail();
ExplainDifference("greater than");
return false;
case Cond_GE:
if (LHS >= RHS)
return true;
Ctx->markFail();
ExplainDifference("greater than or equal to");
return false;
default:
Ctx->markFail();
std::cout << "Unexpected test condition.\n";
return false;
}
}
} // namespace internal
Test *Test::Start = nullptr;
Test *Test::End = nullptr;
void Test::addTest(Test *T) {
if (End == nullptr) {
Start = T;
End = T;
return;
}
End->Next = T;
End = T;
}
int Test::runTests(const char *TestFilter) {
int TestCount = 0;
int FailCount = 0;
for (Test *T = Start; T != nullptr; T = T->Next) {
const char *TestName = T->getName();
std::string StrTestName(TestName);
constexpr auto GREEN = "\033[32m";
constexpr auto RED = "\033[31m";
constexpr auto RESET = "\033[0m";
if ((TestFilter != nullptr) && (StrTestName != TestFilter)) {
continue;
}
std::cout << GREEN << "[ RUN ] " << RESET << TestName << '\n';
RunContext Ctx;
T->SetUp();
T->setContext(&Ctx);
T->Run();
T->TearDown();
auto Result = Ctx.status();
switch (Result) {
case RunContext::Result_Fail:
std::cout << RED << "[ FAILED ] " << RESET << TestName << '\n';
++FailCount;
break;
case RunContext::Result_Pass:
std::cout << GREEN << "[ OK ] " << RESET << TestName << '\n';
break;
}
++TestCount;
}
if (TestCount > 0) {
std::cout << "Ran " << TestCount << " tests. "
<< " PASS: " << TestCount - FailCount << ' '
<< " FAIL: " << FailCount << '\n';
} else {
std::cout << "No tests run.\n";
if (TestFilter) {
std::cout << "No matching test for " << TestFilter << '\n';
}
}
return FailCount > 0 || TestCount == 0 ? 1 : 0;
}
namespace internal {
template bool test<char>(RunContext *Ctx, TestCondition Cond, char LHS,
char RHS, const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<short>(RunContext *Ctx, TestCondition Cond, short LHS,
short RHS, const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<int>(RunContext *Ctx, TestCondition Cond, int LHS, int RHS,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<long>(RunContext *Ctx, TestCondition Cond, long LHS,
long RHS, const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<long long>(RunContext *Ctx, TestCondition Cond,
long long LHS, long long RHS, const char *LHSStr,
const char *RHSStr, const char *File,
unsigned long Line);
#ifdef __SIZEOF_INT128__
template bool test<__int128_t>(RunContext *Ctx, TestCondition Cond,
__int128_t LHS, __int128_t RHS,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
#endif
template bool test<__llvm_libc::cpp::UInt<128>>(
RunContext *Ctx, TestCondition Cond, __llvm_libc::cpp::UInt<128> LHS,
__llvm_libc::cpp::UInt<128> RHS, const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<unsigned char>(RunContext *Ctx, TestCondition Cond,
unsigned char LHS, unsigned char RHS,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<unsigned short>(RunContext *Ctx, TestCondition Cond,
unsigned short LHS, unsigned short RHS,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<unsigned int>(RunContext *Ctx, TestCondition Cond,
unsigned int LHS, unsigned int RHS,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<unsigned long>(RunContext *Ctx, TestCondition Cond,
unsigned long LHS, unsigned long RHS,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<bool>(RunContext *Ctx, TestCondition Cond, bool LHS,
bool RHS, const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
template bool test<unsigned long long>(RunContext *Ctx, TestCondition Cond,
unsigned long long LHS,
unsigned long long RHS,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
#ifdef __SIZEOF_INT128__
template bool test<__uint128_t>(RunContext *Ctx, TestCondition Cond,
__uint128_t LHS, __uint128_t RHS,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line);
#endif
} // namespace internal
bool Test::testStrEq(const char *LHS, const char *RHS, const char *LHSStr,
const char *RHSStr, const char *File, unsigned long Line) {
return internal::test(Ctx, Cond_EQ, LHS ? std::string(LHS) : std::string(),
RHS ? std::string(RHS) : std::string(), LHSStr, RHSStr,
File, Line);
}
bool Test::testStrNe(const char *LHS, const char *RHS, const char *LHSStr,
const char *RHSStr, const char *File, unsigned long Line) {
return internal::test(Ctx, Cond_NE, LHS ? std::string(LHS) : std::string(),
RHS ? std::string(RHS) : std::string(), LHSStr, RHSStr,
File, Line);
}
bool Test::testMatch(bool MatchResult, MatcherBase &Matcher, const char *LHSStr,
const char *RHSStr, const char *File, unsigned long Line) {
if (MatchResult)
return true;
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n"
<< "Failed to match " << LHSStr << " against " << RHSStr << ".\n";
testutils::StreamWrapper OutsWrapper = testutils::outs();
Matcher.explainError(OutsWrapper);
return false;
}
#ifdef ENABLE_SUBPROCESS_TESTS
bool Test::testProcessKilled(testutils::FunctionCaller *Func, int Signal,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line) {
testutils::ProcessStatus Result = testutils::invoke_in_subprocess(Func, 500);
if (const char *error = Result.get_error()) {
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n" << error << '\n';
return false;
}
if (Result.timed_out()) {
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n"
<< "Process timed out after " << 500 << " milliseconds.\n";
return false;
}
if (Result.exited_normally()) {
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n"
<< "Expected " << LHSStr
<< " to be killed by a signal\nBut it exited normally!\n";
return false;
}
int KilledBy = Result.get_fatal_signal();
assert(KilledBy != 0 && "Not killed by any signal");
if (Signal == -1 || KilledBy == Signal)
return true;
using testutils::signal_as_string;
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n"
<< " Expected: " << LHSStr << '\n'
<< "To be killed by signal: " << Signal << '\n'
<< " Which is: " << signal_as_string(Signal) << '\n'
<< " But it was killed by: " << KilledBy << '\n'
<< " Which is: " << signal_as_string(KilledBy) << '\n';
return false;
}
bool Test::testProcessExits(testutils::FunctionCaller *Func, int ExitCode,
const char *LHSStr, const char *RHSStr,
const char *File, unsigned long Line) {
testutils::ProcessStatus Result = testutils::invoke_in_subprocess(Func, 500);
if (const char *error = Result.get_error()) {
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n" << error << '\n';
return false;
}
if (Result.timed_out()) {
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n"
<< "Process timed out after " << 500 << " milliseconds.\n";
return false;
}
if (!Result.exited_normally()) {
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n"
<< "Expected " << LHSStr << '\n'
<< "to exit with exit code " << ExitCode << '\n'
<< "But it exited abnormally!\n";
return false;
}
int ActualExit = Result.get_exit_code();
if (ActualExit == ExitCode)
return true;
Ctx->markFail();
std::cout << File << ":" << Line << ": FAILURE\n"
<< "Expected exit code of: " << LHSStr << '\n'
<< " Which is: " << ActualExit << '\n'
<< " To be equal to: " << RHSStr << '\n'
<< " Which is: " << ExitCode << '\n';
return false;
}
#endif // ENABLE_SUBPROCESS_TESTS
} // namespace testing
} // namespace __llvm_libc
Reference in New Issue View Git Blame Copy Permalink