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/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmCTestRunTest.h"
#include "cmCTest.h"
#include "cmCTestMemCheckHandler.h"
#include "cmCTestMultiProcessHandler.h"
#include "cmProcess.h"
#include "cmSystemTools.h"
#include "cmWorkingDirectory.h"
#include "cm_zlib.h"
#include "cmsys/Base64.h"
#include "cmsys/RegularExpression.hxx"
#include <chrono>
#include <cmAlgorithms.h>
#include <iomanip>
#include <ratio>
#include <sstream>
#include <stdio.h>
#include <utility>
cmCTestRunTest::cmCTestRunTest(cmCTestMultiProcessHandler& multiHandler)
: MultiTestHandler(multiHandler)
{
this->CTest = multiHandler.CTest;
this->TestHandler = multiHandler.TestHandler;
this->TestResult.ExecutionTime = cmDuration::zero();
this->TestResult.ReturnValue = 0;
this->TestResult.Status = cmCTestTestHandler::NOT_RUN;
this->TestResult.TestCount = 0;
this->TestResult.Properties = nullptr;
this->ProcessOutput.clear();
this->CompressedOutput.clear();
this->CompressionRatio = 2;
this->NumberOfRunsLeft = 1; // default to 1 run of the test
this->RunUntilFail = false; // default to run the test once
this->RunAgain = false; // default to not having to run again
}
void cmCTestRunTest::CheckOutput(std::string const& line)
{
cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, this->GetIndex()
<< ": " << line << std::endl);
this->ProcessOutput += line;
this->ProcessOutput += "\n";
// Check for TIMEOUT_AFTER_MATCH property.
if (!this->TestProperties->TimeoutRegularExpressions.empty()) {
for (auto& reg : this->TestProperties->TimeoutRegularExpressions) {
if (reg.first.find(this->ProcessOutput.c_str())) {
cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, this->GetIndex()
<< ": "
<< "Test timeout changed to "
<< std::chrono::duration_cast<std::chrono::seconds>(
this->TestProperties->AlternateTimeout)
.count()
<< std::endl);
this->TestProcess->ResetStartTime();
this->TestProcess->ChangeTimeout(
this->TestProperties->AlternateTimeout);
this->TestProperties->TimeoutRegularExpressions.clear();
break;
}
}
}
}
// Streamed compression of test output. The compressed data
// is appended to this->CompressedOutput
void cmCTestRunTest::CompressOutput()
{
int ret;
z_stream strm;
unsigned char* in = reinterpret_cast<unsigned char*>(
const_cast<char*>(this->ProcessOutput.c_str()));
// zlib makes the guarantee that this is the maximum output size
int outSize = static_cast<int>(
static_cast<double>(this->ProcessOutput.size()) * 1.001 + 13.0);
unsigned char* out = new unsigned char[outSize];
strm.zalloc = Z_NULL;
strm.zfree = Z_NULL;
strm.opaque = Z_NULL;
ret = deflateInit(&strm, -1); // default compression level
if (ret != Z_OK) {
delete[] out;
return;
}
strm.avail_in = static_cast<uInt>(this->ProcessOutput.size());
strm.next_in = in;
strm.avail_out = outSize;
strm.next_out = out;
ret = deflate(&strm, Z_FINISH);
if (ret != Z_STREAM_END) {
cmCTestLog(this->CTest, ERROR_MESSAGE,
"Error during output compression. Sending uncompressed output."
<< std::endl);
delete[] out;
return;
}
(void)deflateEnd(&strm);
unsigned char* encoded_buffer =
new unsigned char[static_cast<int>(outSize * 1.5)];
size_t rlen = cmsysBase64_Encode(out, strm.total_out, encoded_buffer, 1);
this->CompressedOutput.clear();
for (size_t i = 0; i < rlen; i++) {
this->CompressedOutput += encoded_buffer[i];
}
if (strm.total_in) {
this->CompressionRatio =
static_cast<double>(strm.total_out) / static_cast<double>(strm.total_in);
}
delete[] encoded_buffer;
delete[] out;
}
bool cmCTestRunTest::EndTest(size_t completed, size_t total, bool started)
{
if ((!this->TestHandler->MemCheck &&
this->CTest->ShouldCompressTestOutput()) ||
(this->TestHandler->MemCheck &&
this->CTest->ShouldCompressTestOutput())) {
this->CompressOutput();
}
this->WriteLogOutputTop(completed, total);
std::string reason;
bool passed = true;
cmProcess::State res =
started ? this->TestProcess->GetProcessStatus() : cmProcess::State::Error;
int retVal = this->TestProcess->GetExitValue();
bool forceFail = false;
bool skipped = false;
bool outputTestErrorsToConsole = false;
if (!this->TestProperties->RequiredRegularExpressions.empty() &&
this->FailedDependencies.empty()) {
bool found = false;
for (auto& pass : this->TestProperties->RequiredRegularExpressions) {
if (pass.first.find(this->ProcessOutput.c_str())) {
found = true;
reason = "Required regular expression found.";
break;
}
}
if (!found) {
reason = "Required regular expression not found.";
forceFail = true;
}
reason += "Regex=[";
for (auto& pass : this->TestProperties->RequiredRegularExpressions) {
reason += pass.second;
reason += "\n";
}
reason += "]";
}
if (!this->TestProperties->ErrorRegularExpressions.empty() &&
this->FailedDependencies.empty()) {
for (auto& pass : this->TestProperties->ErrorRegularExpressions) {
if (pass.first.find(this->ProcessOutput.c_str())) {
reason = "Error regular expression found in output.";
reason += " Regex=[";
reason += pass.second;
reason += "]";
forceFail = true;
break;
}
}
}
if (res == cmProcess::State::Exited) {
bool success = !forceFail &&
(retVal == 0 ||
!this->TestProperties->RequiredRegularExpressions.empty());
if (this->TestProperties->SkipReturnCode >= 0 &&
this->TestProperties->SkipReturnCode == retVal) {
this->TestResult.Status = cmCTestTestHandler::NOT_RUN;
std::ostringstream s;
s << "SKIP_RETURN_CODE=" << this->TestProperties->SkipReturnCode;
this->TestResult.CompletionStatus = s.str();
cmCTestLog(this->CTest, HANDLER_OUTPUT, "***Skipped ");
skipped = true;
} else if ((success && !this->TestProperties->WillFail) ||
(!success && this->TestProperties->WillFail)) {
this->TestResult.Status = cmCTestTestHandler::COMPLETED;
cmCTestLog(this->CTest, HANDLER_OUTPUT, " Passed ");
} else {
this->TestResult.Status = cmCTestTestHandler::FAILED;
cmCTestLog(this->CTest, HANDLER_OUTPUT, "***Failed " << reason);
outputTestErrorsToConsole = this->CTest->OutputTestOutputOnTestFailure;
}
} else if (res == cmProcess::State::Expired) {
cmCTestLog(this->CTest, HANDLER_OUTPUT, "***Timeout ");
this->TestResult.Status = cmCTestTestHandler::TIMEOUT;
outputTestErrorsToConsole = this->CTest->OutputTestOutputOnTestFailure;
} else if (res == cmProcess::State::Exception) {
outputTestErrorsToConsole = this->CTest->OutputTestOutputOnTestFailure;
cmCTestLog(this->CTest, HANDLER_OUTPUT, "***Exception: ");
this->TestResult.ExceptionStatus =
this->TestProcess->GetExitExceptionString();
switch (this->TestProcess->GetExitException()) {
case cmProcess::Exception::Fault:
cmCTestLog(this->CTest, HANDLER_OUTPUT, "SegFault");
this->TestResult.Status = cmCTestTestHandler::SEGFAULT;
break;
case cmProcess::Exception::Illegal:
cmCTestLog(this->CTest, HANDLER_OUTPUT, "Illegal");
this->TestResult.Status = cmCTestTestHandler::ILLEGAL;
break;
case cmProcess::Exception::Interrupt:
cmCTestLog(this->CTest, HANDLER_OUTPUT, "Interrupt");
this->TestResult.Status = cmCTestTestHandler::INTERRUPT;
break;
case cmProcess::Exception::Numerical:
cmCTestLog(this->CTest, HANDLER_OUTPUT, "Numerical");
this->TestResult.Status = cmCTestTestHandler::NUMERICAL;
break;
default:
cmCTestLog(this->CTest, HANDLER_OUTPUT,
this->TestResult.ExceptionStatus);
this->TestResult.Status = cmCTestTestHandler::OTHER_FAULT;
}
} else if ("Disabled" == this->TestResult.CompletionStatus) {
cmCTestLog(this->CTest, HANDLER_OUTPUT, "***Not Run (Disabled) ");
} else // cmProcess::State::Error
{
cmCTestLog(this->CTest, HANDLER_OUTPUT, "***Not Run ");
}
passed = this->TestResult.Status == cmCTestTestHandler::COMPLETED;
char buf[1024];
sprintf(buf, "%6.2f sec", this->TestProcess->GetTotalTime().count());
cmCTestLog(this->CTest, HANDLER_OUTPUT, buf << "\n");
if (outputTestErrorsToConsole) {
cmCTestLog(this->CTest, HANDLER_OUTPUT, this->ProcessOutput << std::endl);
}
if (this->TestHandler->LogFile) {
*this->TestHandler->LogFile << "Test time = " << buf << std::endl;
}
// Set the working directory to the tests directory to process Dart files.
{
cmWorkingDirectory workdir(this->TestProperties->Directory);
this->DartProcessing();
}
// if this is doing MemCheck then all the output needs to be put into
// Output since that is what is parsed by cmCTestMemCheckHandler
if (!this->TestHandler->MemCheck && started) {
this->TestHandler->CleanTestOutput(
this->ProcessOutput,
static_cast<size_t>(
this->TestResult.Status == cmCTestTestHandler::COMPLETED
? this->TestHandler->CustomMaximumPassedTestOutputSize
: this->TestHandler->CustomMaximumFailedTestOutputSize));
}
this->TestResult.Reason = reason;
if (this->TestHandler->LogFile) {
bool pass = true;
const char* reasonType = "Test Pass Reason";
if (this->TestResult.Status != cmCTestTestHandler::COMPLETED &&
this->TestResult.Status != cmCTestTestHandler::NOT_RUN) {
reasonType = "Test Fail Reason";
pass = false;
}
auto ttime = this->TestProcess->GetTotalTime();
auto hours = std::chrono::duration_cast<std::chrono::hours>(ttime);
ttime -= hours;
auto minutes = std::chrono::duration_cast<std::chrono::minutes>(ttime);
ttime -= minutes;
auto seconds = std::chrono::duration_cast<std::chrono::seconds>(ttime);
char buffer[100];
sprintf(buffer, "%02d:%02d:%02d", static_cast<unsigned>(hours.count()),
static_cast<unsigned>(minutes.count()),
static_cast<unsigned>(seconds.count()));
*this->TestHandler->LogFile
<< "----------------------------------------------------------"
<< std::endl;
if (!this->TestResult.Reason.empty()) {
*this->TestHandler->LogFile << reasonType << ":\n"
<< this->TestResult.Reason << "\n";
} else {
if (pass) {
*this->TestHandler->LogFile << "Test Passed.\n";
} else {
*this->TestHandler->LogFile << "Test Failed.\n";
}
}
*this->TestHandler->LogFile
<< "\"" << this->TestProperties->Name
<< "\" end time: " << this->CTest->CurrentTime() << std::endl
<< "\"" << this->TestProperties->Name << "\" time elapsed: " << buffer
<< std::endl
<< "----------------------------------------------------------"
<< std::endl
<< std::endl;
}
// if the test actually started and ran
// record the results in TestResult
if (started) {
bool compress = !this->TestHandler->MemCheck &&
this->CompressionRatio < 1 && this->CTest->ShouldCompressTestOutput();
this->TestResult.Output =
compress ? this->CompressedOutput : this->ProcessOutput;
this->TestResult.CompressOutput = compress;
this->TestResult.ReturnValue = this->TestProcess->GetExitValue();
if (!skipped) {
this->TestResult.CompletionStatus = "Completed";
}
this->TestResult.ExecutionTime = this->TestProcess->GetTotalTime();
this->MemCheckPostProcess();
this->ComputeWeightedCost();
}
// If the test does not need to rerun push the current TestResult onto the
// TestHandler vector
if (!this->NeedsToRerun()) {
this->TestHandler->TestResults.push_back(this->TestResult);
}
this->TestProcess.reset();
return passed || skipped;
}
bool cmCTestRunTest::StartAgain()
{
if (!this->RunAgain) {
return false;
}
this->RunAgain = false; // reset
// change to tests directory
cmWorkingDirectory workdir(this->TestProperties->Directory);
this->StartTest(this->TotalNumberOfTests);
return true;
}
bool cmCTestRunTest::NeedsToRerun()
{
this->NumberOfRunsLeft--;
if (this->NumberOfRunsLeft == 0) {
return false;
}
// if number of runs left is not 0, and we are running until
// we find a failed test, then return true so the test can be
// restarted
if (this->RunUntilFail &&
this->TestResult.Status == cmCTestTestHandler::COMPLETED) {
this->RunAgain = true;
return true;
}
return false;
}
void cmCTestRunTest::ComputeWeightedCost()
{
double prev = static_cast<double>(this->TestProperties->PreviousRuns);
double avgcost = static_cast<double>(this->TestProperties->Cost);
double current = this->TestResult.ExecutionTime.count();
if (this->TestResult.Status == cmCTestTestHandler::COMPLETED) {
this->TestProperties->Cost =
static_cast<float>(((prev * avgcost) + current) / (prev + 1.0));
this->TestProperties->PreviousRuns++;
}
}
void cmCTestRunTest::MemCheckPostProcess()
{
if (!this->TestHandler->MemCheck) {
return;
}
cmCTestOptionalLog(this->CTest, HANDLER_VERBOSE_OUTPUT, this->Index
<< ": process test output now: "
<< this->TestProperties->Name << " "
<< this->TestResult.Name << std::endl,
this->TestHandler->GetQuiet());
cmCTestMemCheckHandler* handler =
static_cast<cmCTestMemCheckHandler*>(this->TestHandler);
handler->PostProcessTest(this->TestResult, this->Index);
}
// Starts the execution of a test. Returns once it has started
bool cmCTestRunTest::StartTest(size_t total)
{
this->TotalNumberOfTests = total; // save for rerun case
cmCTestLog(this->CTest, HANDLER_OUTPUT, std::setw(2 * getNumWidth(total) + 8)
<< "Start "
<< std::setw(getNumWidth(this->TestHandler->GetMaxIndex()))
<< this->TestProperties->Index << ": "
<< this->TestProperties->Name << std::endl);
this->ProcessOutput.clear();
// Return immediately if test is disabled
if (this->TestProperties->Disabled) {
this->TestResult.Properties = this->TestProperties;
this->TestResult.ExecutionTime = cmDuration::zero();
this->TestResult.CompressOutput = false;
this->TestResult.ReturnValue = -1;
this->TestResult.CompletionStatus = "Disabled";
this->TestResult.Status = cmCTestTestHandler::NOT_RUN;
this->TestResult.TestCount = this->TestProperties->Index;
this->TestResult.Name = this->TestProperties->Name;
this->TestResult.Path = this->TestProperties->Directory;
this->TestProcess = cm::make_unique<cmProcess>(*this);
this->TestResult.Output = "Disabled";
this->TestResult.FullCommandLine.clear();
return false;
}
this->TestResult.Properties = this->TestProperties;
this->TestResult.ExecutionTime = cmDuration::zero();
this->TestResult.CompressOutput = false;
this->TestResult.ReturnValue = -1;
this->TestResult.CompletionStatus = "Failed to start";
this->TestResult.Status = cmCTestTestHandler::BAD_COMMAND;
this->TestResult.TestCount = this->TestProperties->Index;
this->TestResult.Name = this->TestProperties->Name;
this->TestResult.Path = this->TestProperties->Directory;
// Check for failed fixture dependencies before we even look at the command
// arguments because if we are not going to run the test, the command and
// its arguments are irrelevant. This matters for the case where a fixture
// dependency might be creating the executable we want to run.
if (!this->FailedDependencies.empty()) {
this->TestProcess = cm::make_unique<cmProcess>(*this);
std::string msg = "Failed test dependencies:";
for (std::string const& failedDep : this->FailedDependencies) {
msg += " " + failedDep;
}
*this->TestHandler->LogFile << msg << std::endl;
cmCTestLog(this->CTest, HANDLER_OUTPUT, msg << std::endl);
this->TestResult.Output = msg;
this->TestResult.FullCommandLine.clear();
this->TestResult.CompletionStatus = "Fixture dependency failed";
this->TestResult.Status = cmCTestTestHandler::NOT_RUN;
return false;
}
this->ComputeArguments();
std::vector<std::string>& args = this->TestProperties->Args;
if (args.size() >= 2 && args[1] == "NOT_AVAILABLE") {
this->TestProcess = cm::make_unique<cmProcess>(*this);
std::string msg;
if (this->CTest->GetConfigType().empty()) {
msg = "Test not available without configuration.";
msg += " (Missing \"-C <config>\"?)";
} else {
msg = "Test not available in configuration \"";
msg += this->CTest->GetConfigType();
msg += "\".";
}
*this->TestHandler->LogFile << msg << std::endl;
cmCTestLog(this->CTest, ERROR_MESSAGE, msg << std::endl);
this->TestResult.Output = msg;
this->TestResult.FullCommandLine.clear();
this->TestResult.CompletionStatus = "Missing Configuration";
this->TestResult.Status = cmCTestTestHandler::NOT_RUN;
return false;
}
// Check if all required files exist
for (std::string const& file : this->TestProperties->RequiredFiles) {
if (!cmSystemTools::FileExists(file.c_str())) {
// Required file was not found
this->TestProcess = cm::make_unique<cmProcess>(*this);
*this->TestHandler->LogFile << "Unable to find required file: " << file
<< std::endl;
cmCTestLog(this->CTest, ERROR_MESSAGE,
"Unable to find required file: " << file << std::endl);
this->TestResult.Output = "Unable to find required file: " + file;
this->TestResult.FullCommandLine.clear();
this->TestResult.CompletionStatus = "Required Files Missing";
this->TestResult.Status = cmCTestTestHandler::NOT_RUN;
return false;
}
}
// log and return if we did not find the executable
if (this->ActualCommand.empty()) {
// if the command was not found create a TestResult object
// that has that information
this->TestProcess = cm::make_unique<cmProcess>(*this);
*this->TestHandler->LogFile << "Unable to find executable: " << args[1]
<< std::endl;
cmCTestLog(this->CTest, ERROR_MESSAGE,
"Unable to find executable: " << args[1] << std::endl);
this->TestResult.Output = "Unable to find executable: " + args[1];
this->TestResult.FullCommandLine.clear();
this->TestResult.CompletionStatus = "Unable to find executable";
this->TestResult.Status = cmCTestTestHandler::NOT_RUN;
return false;
}
this->StartTime = this->CTest->CurrentTime();
auto timeout = this->TestProperties->Timeout;
std::chrono::system_clock::time_point stop_time = this->CTest->GetStopTime();
if (stop_time != std::chrono::system_clock::time_point()) {
std::chrono::duration<double> stop_timeout =
(stop_time - std::chrono::system_clock::now()) % std::chrono::hours(24);
if (stop_timeout <= std::chrono::duration<double>::zero()) {
stop_timeout = std::chrono::duration<double>::zero();
}
if (timeout == std::chrono::duration<double>::zero() ||
stop_timeout < timeout) {
timeout = stop_timeout;
}
}
return this->ForkProcess(timeout, this->TestProperties->ExplicitTimeout,
&this->TestProperties->Environment);
}
void cmCTestRunTest::ComputeArguments()
{
this->Arguments.clear(); // reset becaue this might be a rerun
std::vector<std::string>::const_iterator j =
this->TestProperties->Args.begin();
++j; // skip test name
// find the test executable
if (this->TestHandler->MemCheck) {
cmCTestMemCheckHandler* handler =
static_cast<cmCTestMemCheckHandler*>(this->TestHandler);
this->ActualCommand = handler->MemoryTester;
this->TestProperties->Args[1] = this->TestHandler->FindTheExecutable(
this->TestProperties->Args[1].c_str());
} else {
this->ActualCommand = this->TestHandler->FindTheExecutable(
this->TestProperties->Args[1].c_str());
++j; // skip the executable (it will be actualCommand)
}
std::string testCommand =
cmSystemTools::ConvertToOutputPath(this->ActualCommand.c_str());
// Prepends memcheck args to our command string
this->TestHandler->GenerateTestCommand(this->Arguments, this->Index);
for (std::string const& arg : this->Arguments) {
testCommand += " \"";
testCommand += arg;
testCommand += "\"";
}
for (; j != this->TestProperties->Args.end(); ++j) {
testCommand += " \"";
testCommand += *j;
testCommand += "\"";
this->Arguments.push_back(*j);
}
this->TestResult.FullCommandLine = testCommand;
// Print the test command in verbose mode
cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, std::endl
<< this->Index << ": "
<< (this->TestHandler->MemCheck ? "MemCheck" : "Test")
<< " command: " << testCommand << std::endl);
// Print any test-specific env vars in verbose mode
if (!this->TestProperties->Environment.empty()) {
cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, this->Index
<< ": "
<< "Environment variables: " << std::endl);
}
for (std::string const& env : this->TestProperties->Environment) {
cmCTestLog(this->CTest, HANDLER_VERBOSE_OUTPUT, this->Index << ": " << env
<< std::endl);
}
}
void cmCTestRunTest::DartProcessing()
{
if (!this->ProcessOutput.empty() &&
this->ProcessOutput.find("<DartMeasurement") != std::string::npos) {
if (this->TestHandler->DartStuff.find(this->ProcessOutput.c_str())) {
this->TestResult.DartString = this->TestHandler->DartStuff.match(1);
// keep searching and replacing until none are left
while (this->TestHandler->DartStuff1.find(this->ProcessOutput.c_str())) {
// replace the exact match for the string
cmSystemTools::ReplaceString(
this->ProcessOutput, this->TestHandler->DartStuff1.match(1).c_str(),
"");
}
}
}
}
bool cmCTestRunTest::ForkProcess(cmDuration testTimeOut, bool explicitTimeout,
std::vector<std::string>* environment)
{
this->TestProcess = cm::make_unique<cmProcess>(*this);
this->TestProcess->SetId(this->Index);
this->TestProcess->SetWorkingDirectory(
this->TestProperties->Directory.c_str());
this->TestProcess->SetCommand(this->ActualCommand.c_str());
this->TestProcess->SetCommandArguments(this->Arguments);
// determine how much time we have
cmDuration timeout = this->CTest->GetRemainingTimeAllowed();
if (timeout != cmCTest::MaxDuration()) {
timeout -= std::chrono::minutes(2);
}
if (this->CTest->GetTimeOut() > cmDuration::zero() &&
this->CTest->GetTimeOut() < timeout) {
timeout = this->CTest->GetTimeOut();
}
if (testTimeOut > cmDuration::zero() &&
testTimeOut < this->CTest->GetRemainingTimeAllowed()) {
timeout = testTimeOut;
}
// always have at least 1 second if we got to here
if (timeout <= cmDuration::zero()) {
timeout = std::chrono::seconds(1);
}
// handle timeout explicitly set to 0
if (testTimeOut == cmDuration::zero() && explicitTimeout) {
timeout = cmDuration::zero();
}
cmCTestOptionalLog(
this->CTest, HANDLER_VERBOSE_OUTPUT, this->Index
<< ": "
<< "Test timeout computed to be: "
<< (timeout == cmCTest::MaxDuration()
? std::string("infinite")
: std::to_string(
std::chrono::duration_cast<std::chrono::seconds>(timeout)
.count()))
<< "\n",
this->TestHandler->GetQuiet());
this->TestProcess->SetTimeout(timeout);
#ifdef CMAKE_BUILD_WITH_CMAKE
cmSystemTools::SaveRestoreEnvironment sre;
#endif
if (environment && !environment->empty()) {
cmSystemTools::AppendEnv(*environment);
}
return this->TestProcess->StartProcess(this->MultiTestHandler.Loop);
}
void cmCTestRunTest::WriteLogOutputTop(size_t completed, size_t total)
{
// if this is the last or only run of this test
// then print out completed / total
// Only issue is if a test fails and we are running until fail
// then it will never print out the completed / total, same would
// got for run until pass. Trick is when this is called we don't
// yet know if we are passing or failing.
if (this->NumberOfRunsLeft == 1) {
cmCTestLog(this->CTest, HANDLER_OUTPUT, std::setw(getNumWidth(total))
<< completed << "/");
cmCTestLog(this->CTest, HANDLER_OUTPUT, std::setw(getNumWidth(total))
<< total << " ");
}
// if this is one of several runs of a test just print blank space
// to keep things neat
else {
cmCTestLog(this->CTest, HANDLER_OUTPUT, std::setw(getNumWidth(total))
<< " "
<< " ");
cmCTestLog(this->CTest, HANDLER_OUTPUT, std::setw(getNumWidth(total))
<< " "
<< " ");
}
if (this->TestHandler->MemCheck) {
cmCTestLog(this->CTest, HANDLER_OUTPUT, "MemCheck");
} else {
cmCTestLog(this->CTest, HANDLER_OUTPUT, "Test");
}
std::ostringstream indexStr;
indexStr << " #" << this->Index << ":";
cmCTestLog(this->CTest, HANDLER_OUTPUT,
std::setw(3 + getNumWidth(this->TestHandler->GetMaxIndex()))
<< indexStr.str());
cmCTestLog(this->CTest, HANDLER_OUTPUT, " ");
const int maxTestNameWidth = this->CTest->GetMaxTestNameWidth();
std::string outname = this->TestProperties->Name + " ";
outname.resize(maxTestNameWidth + 4, '.');
*this->TestHandler->LogFile << this->TestProperties->Index << "/"
<< this->TestHandler->TotalNumberOfTests
<< " Testing: " << this->TestProperties->Name
<< std::endl;
*this->TestHandler->LogFile << this->TestProperties->Index << "/"
<< this->TestHandler->TotalNumberOfTests
<< " Test: " << this->TestProperties->Name
<< std::endl;
*this->TestHandler->LogFile << "Command: \"" << this->ActualCommand << "\"";
for (std::string const& arg : this->Arguments) {
*this->TestHandler->LogFile << " \"" << arg << "\"";
}
*this->TestHandler->LogFile
<< std::endl
<< "Directory: " << this->TestProperties->Directory << std::endl
<< "\"" << this->TestProperties->Name
<< "\" start time: " << this->StartTime << std::endl;
*this->TestHandler->LogFile
<< "Output:" << std::endl
<< "----------------------------------------------------------"
<< std::endl;
*this->TestHandler->LogFile << this->ProcessOutput << "<end of output>"
<< std::endl;
cmCTestLog(this->CTest, HANDLER_OUTPUT, outname.c_str());
cmCTestLog(this->CTest, DEBUG, "Testing " << this->TestProperties->Name
<< " ... ");
}
void cmCTestRunTest::FinalizeTest()
{
this->MultiTestHandler.FinishTestProcess(this, true);
}
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