/*
* Copyright 2019 faddenSoft
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.Diagnostics;
using System.IO;
using System.Text.RegularExpressions;
using System.Windows.Media;
using Asm65;
using CommonUtil;
using SourceGen.AsmGen;
namespace SourceGen.Tests {
///
/// Source code generation regression test.
///
/// The generator is tested in two ways: (1) by comparing the output to known-good
/// sources, and (2) by running it through the assembler. Assembling the sources is
/// important to ensure that we don't get bad sources in the "known-good" set.
///
/// This does not take assembler version into account, so it will not be helpful for
/// monitoring compatibility with old versions of assemblers.
///
public class GenTest {
private const string TEST_DIR_NAME = "SGTestData";
private const string EXPECTED_DIR_NAME = "Expected";
//private static char[] sInvalidChars = new char[] { '.', '_' };
private const string TestCasePattern = @"^\d\d\d\d\d-[A-Za-z0-9-]+$";
private static Regex sTestCaseRegex = new Regex(TestCasePattern);
///
/// Whitelist of removable names for ScrubWorkDirectory().
///
private static string[] sScrubList = new string[] {
"_FileInformation.txt", // created by Merlin 32
"error_output.txt", // created by Merlin 32 (only when errors found)
};
///
/// Test result. One of these will be created for every {test-case, assembler} pair.
///
public class GenTestResults {
public string PathName { get; private set; }
public string FileName { get; private set; }
public AssemblerInfo.Id AsmId { get; private set; }
public FileLoadReport ProjectLoadReport { get; set; }
public bool GenerateOkay { get; set; }
public bool AssembleOkay { get; set; }
public AssemblerResults AsmResults { get; set; } // may be null
public TaskTimer Timer { get; set; } // may be null
public GenTestResults(string pathName, AssemblerInfo.Id asmId) {
PathName = pathName;
AsmId = asmId;
FileName = Path.GetFileName(pathName);
}
// Return a string for use in the UI combo box.
public override string ToString() {
return (GenerateOkay && AssembleOkay ? "OK" : "FAIL") + " - " +
FileName + " - " + AsmId.ToString();
}
}
///
/// If true, don't scrub directories.
///
public bool RetainOutput { get; set; }
///
/// Directory with test cases.
///
private string mTestDir;
private BackgroundWorker mWorker;
private List mResults = new List();
///
/// Runs generate/assemble test cases. Main entry point.
///
/// Background worker object from dialog box.
public List Run(BackgroundWorker worker) {
Debug.Assert(mWorker == null); // don't re-use object
mWorker = worker;
string runtimeDir = RuntimeDataAccess.GetDirectory();
mTestDir = Path.Combine(Path.GetDirectoryName(runtimeDir), TEST_DIR_NAME);
if (!Directory.Exists(mTestDir)) {
ReportErrMsg("Regression test directory not found: " + mTestDir);
ReportFailure();
return null;
}
List testCases = new List();
foreach (string pathName in Directory.EnumerateFiles(mTestDir)) {
// Filter out everything that doesn't look like "1000-nifty-test". We
// want to ignore .dis65 files and assembler output (which has the name
// of the assembler following an underscore).
string fileName = Path.GetFileName(pathName);
MatchCollection matches = sTestCaseRegex.Matches(fileName);
if (matches.Count == 0) {
//ReportProgress("Ignoring " + fileName + "\r\n", Color.Gray);
continue;
}
ReportProgress("Found " + fileName + "\r\n");
testCases.Add(pathName);
}
ReportProgress("Processing " + testCases.Count + " test cases...\r\n");
DateTime startWhen = DateTime.Now;
int successCount = 0;
foreach (string pathName in testCases) {
if (GenerateAndAssemble(pathName)) {
successCount++;
}
if (worker.CancellationPending) {
ReportProgress("\r\nCancelled.\r\n", Colors.Red);
return mResults;
}
}
DateTime endWhen = DateTime.Now;
if (successCount == testCases.Count) {
ReportProgress(string.Format("All " + testCases.Count +
" tests passed in {0:N3} sec\r\n",
(endWhen - startWhen).TotalSeconds), Colors.Green);
} else {
ReportProgress(successCount + " of " + testCases.Count + " tests passed\r\n");
}
return mResults;
}
private void ReportProgress(string msg) {
mWorker.ReportProgress(0, new ProgressMessage(msg));
}
private void ReportProgress(string msg, Color color) {
mWorker.ReportProgress(0, new ProgressMessage(msg, color));
}
private void ReportErrMsg(string msg) {
ReportProgress(" [" + msg + "] ", Colors.Blue);
}
private void ReportSuccess() {
ReportProgress(" success\r\n", Colors.Green);
}
private void ReportFailure() {
ReportProgress(" failed\r\n", Colors.Red);
}
///
/// Extracts the test's number from the pathname.
///
/// Full or partial path to test file.
/// Test number.
private int GetTestNum(string pathName) {
// Should always succeed if pathName matched on our regex.
string fileName = Path.GetFileName(pathName);
return int.Parse(fileName.Substring(0, 5));
}
///
/// Determines the desired CPU from the test case number.
///
///
///
private CpuDef.CpuType GetCpuTypeFromNum(int testNum) {
switch (testNum % 10) {
case 0: return CpuDef.CpuType.Cpu6502;
case 1: return CpuDef.CpuType.Cpu65C02;
case 2: return CpuDef.CpuType.Cpu65816;
default: return CpuDef.CpuType.CpuUnknown;
}
}
///
/// Generates source code for the specified test case, assembles it, and compares
/// the output of both steps to expected values. The process is repeated for every
/// known assembler.
///
/// If an assembler is known but not configured, the assembly step is skipped, and
/// does not count as a failure.
///
/// Full path to test case.
/// True if all assemblers worked as expected.
private bool GenerateAndAssemble(string pathName) {
ReportProgress(Path.GetFileName(pathName) + "...\r\n");
// Create DisasmProject object, either as a new project for a plain data file,
// or from a project file.
DisasmProject project = InstantiateProject(pathName,
out FileLoadReport projectLoadReport);
if (project == null) {
ReportFailure();
return false;
}
int testNum = GetTestNum(pathName);
// Create a temporary directory to work in.
string workDir = CreateWorkDirectory(pathName);
if (string.IsNullOrEmpty(workDir)) {
ReportFailure();
project.Cleanup();
return false;
}
AppSettings settings = CreateNormalizedSettings();
ApplyProjectSettings(settings, project);
// Iterate through all known assemblers.
bool didFail = false;
foreach (AssemblerInfo.Id asmId in
(AssemblerInfo.Id[])Enum.GetValues(typeof(AssemblerInfo.Id))) {
if (asmId == AssemblerInfo.Id.Unknown) {
continue;
}
string fileName = Path.GetFileName(pathName);
TaskTimer timer = new TaskTimer();
timer.StartTask("Full Test Duration");
// Create results object and add it to the list. We'll add stuff to it for
// as far as we get.
GenTestResults results = new GenTestResults(pathName, asmId);
mResults.Add(results);
results.ProjectLoadReport = projectLoadReport;
// Generate source code.
ReportProgress(" " + asmId.ToString() + " generate...");
IGenerator gen = AssemblerInfo.GetGenerator(asmId);
if (gen == null) {
ReportErrMsg("generator unavailable");
ReportProgress("\r\n");
//didFail = true;
continue;
}
timer.StartTask("Generate Source");
gen.Configure(project, workDir, fileName,
AssemblerVersionCache.GetVersion(asmId), settings);
List genPathNames = gen.GenerateSource(mWorker);
timer.EndTask("Generate Source");
if (mWorker.CancellationPending) {
// The generator will stop early if a cancellation is requested. If we
// don't break here, the compare function will report a failure, which
// isn't too problematic but looks funny.
break;
}
ReportProgress(" verify...");
timer.StartTask("Compare Source to Expected");
bool match = CompareGeneratedToExpected(pathName, genPathNames);
timer.EndTask("Compare Source to Expected");
if (match) {
ReportSuccess();
results.GenerateOkay = true;
} else {
ReportFailure();
didFail = true;
// The fact that it doesn't match the expected sources doesn't mean it's
// invalid. Go ahead and try to build it.
//continue;
}
// Assemble code.
ReportProgress(" " + asmId.ToString() + " assemble...");
IAssembler asm = AssemblerInfo.GetAssembler(asmId);
if (asm == null) {
ReportErrMsg("assembler unavailable");
ReportProgress("\r\n");
continue;
}
timer.StartTask("Assemble Source");
asm.Configure(genPathNames, workDir);
AssemblerResults asmResults = asm.RunAssembler(mWorker);
timer.EndTask("Assemble Source");
if (asmResults == null) {
ReportErrMsg("unable to run assembler");
ReportFailure();
didFail = true;
continue;
}
if (asmResults.ExitCode != 0) {
ReportErrMsg("assembler returned code=" + asmResults.ExitCode);
ReportFailure();
didFail = true;
continue;
}
results.AsmResults = asmResults;
ReportProgress(" verify...");
timer.StartTask("Compare Binary to Expected");
FileInfo fi = new FileInfo(asmResults.OutputPathName);
if (!fi.Exists) {
// This can happen if the assembler fails to generate output but doesn't
// report an error code (e.g. Merlin 32 in certain situations).
ReportErrMsg("asm output missing");
ReportFailure();
didFail = true;
continue;
} else if (fi.Length != project.FileData.Length) {
ReportErrMsg("asm output mismatch: length is " + fi.Length + ", expected " +
project.FileData.Length);
ReportFailure();
didFail = true;
continue;
} else if (!FileUtil.CompareBinaryFile(project.FileData, asmResults.OutputPathName,
out int badOffset, out byte badFileVal)) {
ReportErrMsg("asm output mismatch: offset +" + badOffset.ToString("x6") +
" has value $" + badFileVal.ToString("x2") + ", expected $" +
project.FileData[badOffset].ToString("x2"));
ReportFailure();
didFail = true;
continue;
}
timer.EndTask("Compare Binary to Expected");
// Victory!
results.AssembleOkay = true;
ReportSuccess();
timer.EndTask("Full Test Duration");
results.Timer = timer;
// We don't scrub the directory on success at this point. We could, but we'd
// need to remove only those files associated with the currently assembler.
// Otherwise, a failure followed by a success would wipe out the unsuccessful
// temporaries.
}
// If something failed, leave the bits around for examination. Otherwise, try to
// remove the directory and all its contents.
if (!didFail && !RetainOutput) {
ScrubWorkDirectory(workDir, testNum);
RemoveWorkDirectory(workDir);
}
project.Cleanup();
return !didFail;
}
///
/// Gets a copy of the AppSettings with a standard set of formatting options (e.g. lower
/// case for everything).
///
/// New app settings object.
private AppSettings CreateNormalizedSettings() {
AppSettings settings = AppSettings.Global.GetCopy();
// Override all asm formatting options. We can ignore ShiftBeforeAdjust and the
// pseudo-op names because those are set by the generators.
settings.SetBool(AppSettings.FMT_UPPER_HEX_DIGITS, false);
settings.SetBool(AppSettings.FMT_UPPER_OP_MNEMONIC, false);
settings.SetBool(AppSettings.FMT_UPPER_PSEUDO_OP_MNEMONIC, false);
settings.SetBool(AppSettings.FMT_UPPER_OPERAND_A, true);
settings.SetBool(AppSettings.FMT_UPPER_OPERAND_S, true);
settings.SetBool(AppSettings.FMT_UPPER_OPERAND_XY, false);
settings.SetBool(AppSettings.FMT_ADD_SPACE_FULL_COMMENT, false);
// Don't show the assembler ident line. You can make a case for this being
// mandatory, since the generated code is only guaranteed to work with the
// assembler for which it was targeted, but I expect we'll quickly get to a
// place where we don't have to work around assembler bugs, and this will just
// become a nuisance.
settings.SetBool(AppSettings.SRCGEN_ADD_IDENT_COMMENT, false);
// Don't break lines with long labels. That way we can redefine "long"
// without breaking our tests. (This is purely cosmetic.)
settings.SetBool(AppSettings.SRCGEN_LONG_LABEL_NEW_LINE, false);
// This could be on or off. Off seems less distracting.
settings.SetBool(AppSettings.SRCGEN_SHOW_CYCLE_COUNTS, false);
IEnumerator iter = AssemblerInfo.GetInfoEnumerator();
while (iter.MoveNext()) {
AssemblerInfo.Id asmId = iter.Current.AssemblerId;
AssemblerConfig curConfig =
AssemblerConfig.GetConfig(settings, asmId);
AssemblerConfig defConfig =
AssemblerInfo.GetAssembler(asmId).GetDefaultConfig();
// Merge the two together. We want the default assembler config for most
// things, but the executable path from the current config.
defConfig.ExecutablePath = curConfig.ExecutablePath;
// Write it into the test settings.
AssemblerConfig.SetConfig(settings, asmId, defConfig);
}
return settings;
}
///
/// Applies app setting overrides that were specified in the project settings.
///
private void ApplyProjectSettings(AppSettings settings, DisasmProject project) {
// We could probably make this a more general mechanism, but that would strain
// things a bit, since we need to know the settings name, bool/int/string, and
// desired value. Easier to just have a set of named features.
const string ENABLE_LABEL_NEWLINE = "__ENABLE_LABEL_NEWLINE";
const string ENABLE_CYCLE_COUNTS = "__ENABLE_CYCLE_COUNTS";
if (project.ProjectProps.ProjectSyms.ContainsKey(ENABLE_LABEL_NEWLINE)) {
settings.SetBool(AppSettings.SRCGEN_LONG_LABEL_NEW_LINE, true);
}
if (project.ProjectProps.ProjectSyms.ContainsKey(ENABLE_CYCLE_COUNTS)) {
settings.SetBool(AppSettings.SRCGEN_SHOW_CYCLE_COUNTS, true);
}
}
private DisasmProject InstantiateProject(string dataPathName,
out FileLoadReport projectLoadReport) {
DisasmProject project = new DisasmProject();
// always use AppDomain sandbox
projectLoadReport = null;
int testNum = GetTestNum(dataPathName);
CpuDef.CpuType cpuType = GetCpuTypeFromNum(testNum);
if (testNum < 20000) {
// create new disasm project for data file
byte[] fileData;
try {
fileData = LoadDataFile(dataPathName);
} catch (Exception ex) {
ReportErrMsg(ex.Message);
return null;
}
project.Initialize(fileData.Length);
project.ProjectProps.CpuType = cpuType;
project.ProjectProps.IncludeUndocumentedInstr = true;
project.ProjectProps.TwoByteBrk = false;
project.UpdateCpuDef();
project.PrepForNew(fileData, Path.GetFileName(dataPathName));
// no platform symbols to load
} else {
// deserialize project file, failing if we can't find it
string projectPathName = dataPathName + ProjectFile.FILENAME_EXT;
if (!ProjectFile.DeserializeFromFile(projectPathName,
project, out projectLoadReport)) {
ReportErrMsg(projectLoadReport.Format());
return null;
}
byte[] fileData;
try {
fileData = LoadDataFile(dataPathName);
} catch (Exception ex) {
ReportErrMsg(ex.Message);
return null;
}
FileLoadReport unused = new FileLoadReport("test");
project.SetFileData(fileData, Path.GetFileName(dataPathName), ref unused);
project.ProjectPathName = projectPathName;
string extMsgs = project.LoadExternalFiles();
if (!string.IsNullOrEmpty(extMsgs)) {
ReportErrMsg(extMsgs);
// keep going
}
if (project.ProjectProps.CpuType != cpuType) {
ReportErrMsg("Mismatch CPU type for test " + testNum + ": project wants " +
project.ProjectProps.CpuType);
// keep going
}
}
TaskTimer genTimer = new TaskTimer();
DebugLog genLog = new DebugLog();
genLog.SetMinPriority(DebugLog.Priority.Silent);
project.Analyze(UndoableChange.ReanalysisScope.CodeAndData, genLog, genTimer);
return project;
}
///
/// Loads the test case data file.
///
/// Throws an exception on failure.
///
/// Full path to test case data file.
/// File contents.
private byte[] LoadDataFile(string pathName) {
byte[] fileData;
using (FileStream fs = File.Open(pathName, FileMode.Open, FileAccess.Read)) {
Debug.Assert(fs.Length <= DisasmProject.MAX_DATA_FILE_SIZE);
fileData = new byte[fs.Length];
int actual = fs.Read(fileData, 0, (int)fs.Length);
if (actual != fs.Length) {
// Not expected -- should be able to read the entire file in one shot.
throw new Exception(Res.Strings.OPEN_DATA_PARTIAL_READ);
}
}
return fileData;
}
///
/// Creates a work directory for the specified test case. The new directory will be
/// created in the same directory as the test, and named after it.
///
/// If the directory already exists, the previous contents will be scrubbed.
///
/// If the file already exists but isn't a directory, this will fail.
///
/// Test case path name.
/// Path of work directory, or null if creation failed.
private string CreateWorkDirectory(string pathName) {
string baseDir = Path.GetDirectoryName(pathName);
int testNum = GetTestNum(pathName);
string workDirName = "tmp" + testNum.ToString();
string workDirPath = Path.Combine(baseDir, workDirName);
if (Directory.Exists(workDirPath)) {
ScrubWorkDirectory(workDirPath, testNum);
} else if (File.Exists(workDirPath)) {
ReportErrMsg("file '" + workDirPath + "' exists, not directory");
return null;
} else {
try {
Directory.CreateDirectory(workDirPath);
} catch (Exception ex) {
ReportErrMsg(ex.Message);
return null;
}
}
return workDirPath;
}
///
/// Removes the contents of a temporary work directory. Only files that we believe
/// to be products of the generator or assembler are removed.
///
///
///
private void ScrubWorkDirectory(string workDir, int testNum) {
string checkString = testNum.ToString();
if (checkString.Length != 5) {
Debug.Assert(false);
return;
}
foreach (string pathName in Directory.EnumerateFiles(workDir)) {
bool doRemove = false;
string fileName = Path.GetFileName(pathName);
if (fileName.Contains(checkString)) {
doRemove = true;
} else {
foreach (string str in sScrubList) {
if (fileName == str) {
doRemove = true;
}
}
}
if (!doRemove) {
ReportErrMsg("not removing '" + fileName + "'");
continue;
} else {
try {
File.Delete(pathName);
//Debug.WriteLine("removed " + pathName);
} catch (Exception ex) {
ReportErrMsg("unable to remove '" + fileName + "': " + ex.Message);
// don't stop -- keep trying to remove things
}
}
}
}
private void RemoveWorkDirectory(string workDir) {
try {
Directory.Delete(workDir);
} catch (Exception ex) {
ReportErrMsg("unable to remove work dir: " + ex.Message);
}
}
///
/// Compares each file in genFileNames to the corresponding file in Expected.
///
/// Full pathname of test case.
/// List of file names from source generator.
///
private bool CompareGeneratedToExpected(string pathName, List genPathNames) {
string expectedDir = Path.Combine(Path.GetDirectoryName(pathName), EXPECTED_DIR_NAME);
foreach (string path in genPathNames) {
string fileName = Path.GetFileName(path);
string compareName = Path.Combine(expectedDir, fileName);
if (!File.Exists(compareName)) {
// File was generated unexpectedly.
ReportErrMsg("file '" + fileName + "' not found in " + EXPECTED_DIR_NAME);
return false;
}
// Compare the file contents as lines of text. The files may use different
// line terminators (e.g. LF vs. CRLF), so we can't use file length as a
// factor.
if (!FileUtil.CompareTextFiles(path, compareName, out int firstDiffLine,
out string line1, out string line2)) {
ReportErrMsg("file '" + fileName + "' differs on line " + firstDiffLine);
Debug.WriteLine("Difference on line " + firstDiffLine);
Debug.WriteLine(" generated: " + line1);
Debug.WriteLine(" expected : " + line2);
return false;
}
}
// NOTE: to be thorough, we should check to see if a file exists in Expected
// that doesn't exist in the work directory. This is slightly more awkward since
// Expected is a big pile of everything, but we should be able to do it by
// filtering filenames with the test number.
return true;
}
}
}