private void StoreError(VendorSampleTestReport.Record record, string buildLogFile, VendorSamplePass pass)
{
var prevPass = pass - 1;
if (record.LastSucceededPass > prevPass)
{
record.LastSucceededPass = prevPass;
}
record.BuildFailedExplicitly = true;
record.KnownProblemID = _KnownProblems.TryClassifyError(buildLogFile)?.ID;
}
internal void LogSampleResult(VendorSampleTestReport.Record record)
{
_TotalSamples++;
if (!record.BuildFailedExplicitly)
{
_FileStream.WriteLine($"{record.ID} succeded in {record.BuildDuration} milliseconds");
}
else
{
_FileStream.WriteLine($"{record.ID} FAILED");
_FailedSamples++;
}
}
StandaloneBSPValidator.Program.TestStatistics TestVendorSamplesAndUpdateReportAndDependencies(VendorSample[] samples, string sampleDirPath, VendorSamplePass pass, Predicate <VendorSample> keepDirectoryAfterSuccessfulBuild = null, double testProbability = 1, BSPValidationFlags validationFlags = BSPValidationFlags.None)
{
Console.WriteLine($"Building {samples.Length} samples...");
if (pass != VendorSamplePass.RelocatedBuild && pass != VendorSamplePass.InPlaceBuild)
{
throw new Exception("Invalid build pass: "******"test.log")))
{
foreach (var vs in samples)
{
LoadedBSP.LoadedMCU mcu;
try
{
var rgFilterID = new Regex(vs.DeviceID.Replace('x', '.').Replace("_DEBUG", "").Replace("_MBR", "").Replace("_S132", "").Replace("_S140", ""), RegexOptions.IgnoreCase);
//We need to find the shortest MCU name that matches the mask (e.g. for CC3220S and CC3220SF we should pick CC3220S).
mcu = BSP.MCUs.OrderBy(m => m.ExpandedMCU.ID.Length).Where(f => rgFilterID.IsMatch(f.ExpandedMCU.ID)).ToArray()?.First();
vs.DeviceID = mcu.ExpandedMCU.ID;
}
catch
{
logger.HandleError($"Could not find {vs.DeviceID} MCU , Project: {vs.UserFriendlyName} ");
continue;
}
if (testProbability < 1 && rng.NextDouble() > testProbability)
{
samplesProcessed++;
continue;
}
VendorSampleTestReport.Record record = _Report.ProvideEntryForSample(new VendorSampleID(vs));
string mcuDir = Path.Combine(outputDir, record.ID.ToString());
DateTime start = DateTime.Now;
var thisSampleFlags = validationFlags;
if (keepDirectoryAfterSuccessfulBuild?.Invoke(vs) == true)
{
thisSampleFlags |= BSPValidationFlags.KeepDirectoryAfterSuccessfulTest;
}
var result = StandaloneBSPValidator.Program.TestVendorSampleAndUpdateDependencies(mcu, vs, mcuDir, sampleDirPath, CodeRequiresDebugInfoFlag, thisSampleFlags);
record.BuildDuration = (int)(DateTime.Now - start).TotalMilliseconds;
record.TimeOfLastBuild = DateTime.Now;
if (result.Result != StandaloneBSPValidator.Program.TestBuildResult.Succeeded)
{
StoreError(record, result.LogFile, pass);
samplesFailed++;
}
else
{
record.BuildFailedExplicitly = false;
record.LastSucceededPass = pass;
}
logger.LogSampleResult(record);
samplesProcessed++;
var timePerSample = (DateTime.Now - passStartTime).TotalMilliseconds / samplesProcessed;
string displayedSampleName = record.ID.ToString();
int maxNameLength = 50;
if (displayedSampleName.Length > maxNameLength)
{
displayedSampleName = displayedSampleName.Substring(0, maxNameLength - 3) + "...";
}
List <KeyValuePair <string, string> > fields = new List <KeyValuePair <string, string> >();
fields.Add(new KeyValuePair <string, string>("Pass:"******"Current sample:", displayedSampleName));
fields.Add(new KeyValuePair <string, string>("Samples processed:", $"{samplesProcessed}/{sampleCount}"));
fields.Add(new KeyValuePair <string, string>("Average time per sample:", $"{timePerSample:f0} msec"));
fields.Add(new KeyValuePair <string, string>("Failed samples:", $"{samplesFailed}"));
var remainingTime = TimeSpan.FromMilliseconds(timePerSample * (sampleCount - samplesProcessed));
fields.Add(new KeyValuePair <string, string>("ETA:", $"{remainingTime.Hours:d}:{remainingTime.Minutes:d2}:{remainingTime.Seconds:d2}"));
Console.SetCursorPosition(0, line);
OutputKeyValueList(fields);
int maxWidth = Console.WindowWidth - 2;
int progressWidth = (int)((double)maxWidth * samplesProcessed) / sampleCount;
Console.WriteLine("[" + new string('#', progressWidth).PadRight(maxWidth) + "]");
}
}
return(new StandaloneBSPValidator.Program.TestStatistics {
Passed = sampleCount - samplesFailed, Failed = samplesFailed
});
}
