blob: f82d75d036890303dd6a1432d800da2ee02eedff [file] [log] [blame]
/*
* Copyright 2013 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "CrashHandler.h"
// #include "OverwriteLine.h"
#include "Resources.h"
#include "SkBitmap.h"
#include "SkCanvas.h"
#include "SkColor.h"
#include "SkColorPriv.h"
#include "SkCommandLineFlags.h"
#include "SkDevice.h"
#include "SkForceLinking.h"
#include "SkGraphics.h"
#include "SkImageDecoder.h"
#include "SkImageEncoder.h"
#include "SkOSFile.h"
#include "SkPathOpsDebug.h"
#include "SkPicture.h"
#include "SkRTConf.h"
#include "SkRunnable.h"
#include "SkTSort.h"
#include "SkStream.h"
#include "SkString.h"
#include "SkTArray.h"
#include "SkTDArray.h"
#include "SkTaskGroup.h"
#include "SkTemplates.h"
#include "SkTime.h"
#include <stdlib.h>
__SK_FORCE_IMAGE_DECODER_LINKING;
/* add local exceptions here */
/* TODO : add command flag interface */
const struct SkipOverTest {
int directory;
const char* filename;
bool blamePathOps;
} skipOver[] = {
{ 2, "http___www_groupon_sg_.skp", false}, // SkAAClip::Builder::addRun SkASSERT(fBounds.contains(x, y));
{ 6, "http___www_googleventures_com_.skp", true}, // addTCoincident SkASSERT(test->fT < 1);
{ 7, "http___www_foxsports_nl_.skp", true}, // (no repro on mac) addT SkASSERT(this != other || fVerb == SkPath::kCubic_Verb)
{13, "http___www_modernqigong_com_.skp", false}, // SkAAClip::Builder::addRun SkASSERT(fBounds.contains(x, y));
{14, "http___www_devbridge_com_.skp", true}, // checkSmallCoincidence SkASSERT(!next->fSmall || checkMultiple);
{16, "http___www_1023world_net_.skp", false}, // bitmap decode assert (corrupt skp?)
{19, "http___www_alamdi_com_.skp", true}, // cubic/quad intersection
{26, "http___www_liveencounters_net_.skp", true}, // (no repro on mac) checkSmall addT:549 (line, expects cubic)
{28, "http___www_encros_fr_.skp", false}, // SkAAClip::Builder::addRun SkASSERT(fBounds.contains(x, y));
{37, "http___www_familysurvivalprotocol_wordpress_com_.skp", true}, // bumpSpan SkASSERT(span->fOppValue >= 0);
{39, "http___sufeinet_com_.skp", false}, // bitmap decode assert (corrupt skp?)
{41, "http___www_rano360_com_.skp", true}, // checkSmallCoincidence SkASSERT(!next->fSmall || checkMultiple);
{44, "http___www_firstunitedbank_com_.skp", true}, // addTCancel SkASSERT(oIndex > 0);
{46, "http___www_shinydemos_com_.skp", true}, // addSimpleAngle SkASSERT(index == count() - 2);
{48, "http___www_familysurvivalprotocol_com_.skp", true}, // bumpSpan SkASSERT "span->fOppValue >= 0"
{57, "http___www_lptemp_com_.skp", true}, // addTCoincident oPeek = &other->fTs[++oPeekIndex];
{71, "http___www_1milyonkahraman_org_.skp", true}, // addTCoincident SkASSERT(test->fT < 1);
{88, "http___www_apuntesdelechuza_wordpress_com_.skp", true}, // bumpSpan SkASSERT "span->fOppValue >= 0"
{89, "http___www_mobilizedconsulting_com_.skp", true}, // addTCancel SkASSERT(oIndex > 0);
{93, "http___www_simple_living_in_suffolk_co_uk_.skp", true}, // bumpSpan SkASSERT "span->fOppValue >= 0"
};
size_t skipOverCount = sizeof(skipOver) / sizeof(skipOver[0]);
/* customize file in/out here */
/* TODO : add command flag interface */
#define CHROME_VERSION "1e5dfa4-4a995df"
#define SUMMARY_RUN 1
#ifdef SK_BUILD_FOR_WIN
#define DRIVE_SPEC "D:"
#define PATH_SLASH "\\"
#else
#define DRIVE_SPEC ""
#define PATH_SLASH "/"
#endif
#define IN_DIR_PRE DRIVE_SPEC PATH_SLASH "skps" PATH_SLASH "slave"
#define OUT_DIR_PRE DRIVE_SPEC PATH_SLASH "skpOut" PATH_SLASH "slave"
#define OUT_DIR_SUM DRIVE_SPEC PATH_SLASH "skpOut" PATH_SLASH "summary"
#define DIR_POST PATH_SLASH "All" PATH_SLASH CHROME_VERSION
static const char outOpDir[] = "opClip";
static const char outOldDir[] = "oldClip";
static const char outStatusDir[] = "statusTest";
static SkString get_in_path(int dirNo, const char* filename) {
SkString path;
SkASSERT(dirNo);
path.appendf("%s%d%s", IN_DIR_PRE, dirNo, DIR_POST);
if (!sk_exists(path.c_str())) {
SkDebugf("could not read %s\n", path.c_str());
return SkString();
}
if (filename) {
path.appendf("%s%s", PATH_SLASH, filename);
if (!sk_exists(path.c_str())) {
SkDebugf("could not read %s\n", path.c_str());
return SkString();
}
}
return path;
}
static void make_recursive_dir(const SkString& path) {
if (sk_exists(path.c_str())) {
return;
}
const char* pathStr = path.c_str();
int last = (int) path.size();
do {
while (last > 0 && pathStr[--last] != PATH_SLASH[0])
;
SkASSERT(last > 0);
SkString shorter(pathStr, last);
if (sk_mkdir(shorter.c_str())) {
break;
}
} while (true);
do {
while (last < (int) path.size() && pathStr[++last] != PATH_SLASH[0])
;
SkString shorter(pathStr, last);
SkAssertResult(sk_mkdir(shorter.c_str()));
} while (last < (int) path.size());
}
static SkString get_out_path(int dirNo, const char* dirName) {
SkString path;
SkASSERT(dirNo);
SkASSERT(dirName);
path.appendf("%s%d%s%s%s", OUT_DIR_PRE, dirNo, DIR_POST, PATH_SLASH, dirName);
make_recursive_dir(path);
return path;
}
static SkString get_sum_path(const char* dirName) {
SkString path;
SkASSERT(dirName);
path.appendf("%s%d%s%s", OUT_DIR_SUM, SUMMARY_RUN, PATH_SLASH, dirName);
SkDebugf("%s\n", path.c_str());
make_recursive_dir(path);
return path;
}
static SkString make_png_name(const char* filename) {
SkString pngName = SkString(filename);
pngName.remove(pngName.size() - 3, 3);
pngName.append("png");
return pngName;
}
////////////////////////////////////////////////////////
enum TestStep {
kCompareBits,
kEncodeFiles,
};
enum {
kMaxLength = 256,
kMaxFiles = 128,
kSmallLimit = 1000,
};
struct TestResult {
void init(int dirNo) {
fDirNo = dirNo;
sk_bzero(fFilename, sizeof(fFilename));
fTestStep = kCompareBits;
fScale = 1;
}
void init(int dirNo, const SkString& filename) {
fDirNo = dirNo;
strcpy(fFilename, filename.c_str());
fTestStep = kCompareBits;
fScale = 1;
}
SkString status() {
SkString outStr;
outStr.printf("%s %d %d\n", fFilename, fPixelError, fTime);
return outStr;
}
SkString progress() {
SkString outStr;
outStr.printf("dir=%d %s ", fDirNo, fFilename);
if (fPixelError) {
outStr.appendf(" err=%d", fPixelError);
}
if (fTime) {
outStr.appendf(" time=%d", fTime);
}
if (fScale != 1) {
outStr.appendf(" scale=%d", fScale);
}
outStr.appendf("\n");
return outStr;
}
void test(int dirNo, const SkString& filename) {
init(dirNo);
strcpy(fFilename, filename.c_str());
testOne();
}
void testOne();
char fFilename[kMaxLength];
TestStep fTestStep;
int fDirNo;
int fPixelError;
int fTime;
int fScale;
};
class SortByPixel : public TestResult {
public:
bool operator<(const SortByPixel& rh) const {
return fPixelError < rh.fPixelError;
}
};
class SortByTime : public TestResult {
public:
bool operator<(const SortByTime& rh) const {
return fTime < rh.fTime;
}
};
class SortByName : public TestResult {
public:
bool operator<(const SortByName& rh) const {
return strcmp(fFilename, rh.fFilename) < 0;
}
};
struct TestState {
void init(int dirNo) {
fResult.init(dirNo);
}
SkTDArray<SortByPixel> fPixelWorst;
SkTDArray<SortByTime> fSlowest;
TestResult fResult;
};
struct TestRunner {
~TestRunner();
void render();
SkTDArray<class TestRunnable*> fRunnables;
};
class TestRunnable : public SkRunnable {
public:
void run() override {
SkGraphics::SetTLSFontCacheLimit(1 * 1024 * 1024);
(*fTestFun)(&fState);
}
TestState fState;
void (*fTestFun)(TestState*);
};
class TestRunnableDir : public TestRunnable {
public:
TestRunnableDir(void (*testFun)(TestState*), int dirNo, TestRunner* runner) {
fState.init(dirNo);
fTestFun = testFun;
}
};
class TestRunnableFile : public TestRunnable {
public:
TestRunnableFile(void (*testFun)(TestState*), int dirNo, const char* name, TestRunner* runner) {
fState.init(dirNo);
strcpy(fState.fResult.fFilename, name);
fTestFun = testFun;
}
};
class TestRunnableEncode : public TestRunnableFile {
public:
TestRunnableEncode(void (*testFun)(TestState*), int dirNo, const char* name, TestRunner* runner)
: TestRunnableFile(testFun, dirNo, name, runner) {
fState.fResult.fTestStep = kEncodeFiles;
}
};
TestRunner::~TestRunner() {
for (int index = 0; index < fRunnables.count(); index++) {
delete fRunnables[index];
}
}
void TestRunner::render() {
// TODO: this doesn't really need to use SkRunnables any more.
// We can just write the code to run in the for-loop directly.
sk_parallel_for(fRunnables.count(), [&](int i) {
fRunnables[i]->run();
});
}
////////////////////////////////////////////////
static int similarBits(const SkBitmap& gr, const SkBitmap& sk) {
const int kRowCount = 3;
const int kThreshold = 3;
int width = SkTMin(gr.width(), sk.width());
if (width < kRowCount) {
return true;
}
int height = SkTMin(gr.height(), sk.height());
if (height < kRowCount) {
return true;
}
int errorTotal = 0;
SkTArray<int, true> errorRows;
errorRows.push_back_n(width * kRowCount);
SkAutoLockPixels autoGr(gr);
SkAutoLockPixels autoSk(sk);
for (int y = 0; y < height; ++y) {
SkPMColor* grRow = gr.getAddr32(0, y);
SkPMColor* skRow = sk.getAddr32(0, y);
int* base = &errorRows[0];
int* cOut = &errorRows[y % kRowCount];
for (int x = 0; x < width; ++x) {
SkPMColor grColor = grRow[x];
SkPMColor skColor = skRow[x];
int dr = SkGetPackedR32(grColor) - SkGetPackedR32(skColor);
int dg = SkGetPackedG32(grColor) - SkGetPackedG32(skColor);
int db = SkGetPackedB32(grColor) - SkGetPackedB32(skColor);
int error = cOut[x] = SkTMax(SkAbs32(dr), SkTMax(SkAbs32(dg), SkAbs32(db)));
if (error < kThreshold || x < 2) {
continue;
}
if (base[x - 2] < kThreshold
|| base[width + x - 2] < kThreshold
|| base[width * 2 + x - 2] < kThreshold
|| base[x - 1] < kThreshold
|| base[width + x - 1] < kThreshold
|| base[width * 2 + x - 1] < kThreshold
|| base[x] < kThreshold
|| base[width + x] < kThreshold
|| base[width * 2 + x] < kThreshold) {
continue;
}
errorTotal += error;
}
}
return errorTotal;
}
static bool addError(TestState* data, const TestResult& testResult) {
if (testResult.fPixelError <= 0 && testResult.fTime <= 0) {
return false;
}
int worstCount = data->fPixelWorst.count();
int pixelError = testResult.fPixelError;
if (pixelError > 0) {
for (int index = 0; index < worstCount; ++index) {
if (pixelError > data->fPixelWorst[index].fPixelError) {
data->fPixelWorst[index] = *(SortByPixel*) &testResult;
return true;
}
}
}
int slowCount = data->fSlowest.count();
int time = testResult.fTime;
if (time > 0) {
for (int index = 0; index < slowCount; ++index) {
if (time > data->fSlowest[index].fTime) {
data->fSlowest[index] = *(SortByTime*) &testResult;
return true;
}
}
}
if (pixelError > 0 && worstCount < kMaxFiles) {
*data->fPixelWorst.append() = *(SortByPixel*) &testResult;
return true;
}
if (time > 0 && slowCount < kMaxFiles) {
*data->fSlowest.append() = *(SortByTime*) &testResult;
return true;
}
return false;
}
static SkMSec timePict(SkPicture* pic, SkCanvas* canvas) {
canvas->save();
SkScalar pWidth = pic->cullRect().width();
SkScalar pHeight = pic->cullRect().height();
const SkScalar maxDimension = 1000.0f;
const int slices = 3;
SkScalar xInterval = SkTMax(pWidth - maxDimension, 0.0f) / (slices - 1);
SkScalar yInterval = SkTMax(pHeight - maxDimension, 0.0f) / (slices - 1);
SkRect rect = {0, 0, SkTMin(maxDimension, pWidth), SkTMin(maxDimension, pHeight) };
canvas->clipRect(rect);
SkMSec start = SkTime::GetMSecs();
for (int x = 0; x < slices; ++x) {
for (int y = 0; y < slices; ++y) {
pic->playback(canvas);
canvas->translate(0, yInterval);
}
canvas->translate(xInterval, -yInterval * slices);
}
SkMSec end = SkTime::GetMSecs();
canvas->restore();
return end - start;
}
static void drawPict(SkPicture* pic, SkCanvas* canvas, int scale) {
canvas->clear(SK_ColorWHITE);
if (scale != 1) {
canvas->save();
canvas->scale(1.0f / scale, 1.0f / scale);
}
pic->playback(canvas);
if (scale != 1) {
canvas->restore();
}
}
static void writePict(const SkBitmap& bitmap, const char* outDir, const char* pngName) {
SkString outFile = get_sum_path(outDir);
outFile.appendf("%s%s", PATH_SLASH, pngName);
if (!SkImageEncoder::EncodeFile(outFile.c_str(), bitmap, SkImageEncoder::kPNG_Type, 100)) {
SkDebugf("unable to encode gr %s (width=%d height=%d)\n", pngName,
bitmap.width(), bitmap.height());
}
}
void TestResult::testOne() {
SkPicture* pic = nullptr;
{
#if DEBUG_SHOW_TEST_NAME
if (fTestStep == kCompareBits) {
SkString testName(fFilename);
const char http[] = "http";
if (testName.startsWith(http)) {
testName.remove(0, sizeof(http) - 1);
}
while (testName.startsWith("_")) {
testName.remove(0, 1);
}
const char dotSkp[] = ".skp";
if (testName.endsWith(dotSkp)) {
size_t len = testName.size();
testName.remove(len - (sizeof(dotSkp) - 1), sizeof(dotSkp) - 1);
}
testName.prepend("skp");
testName.append("1");
strncpy(DEBUG_FILENAME_STRING, testName.c_str(), DEBUG_FILENAME_STRING_LENGTH);
} else if (fTestStep == kEncodeFiles) {
strncpy(DEBUG_FILENAME_STRING, "", DEBUG_FILENAME_STRING_LENGTH);
}
#endif
SkString path = get_in_path(fDirNo, fFilename);
SkFILEStream stream(path.c_str());
if (!stream.isValid()) {
SkDebugf("invalid stream %s\n", path.c_str());
goto finish;
}
pic = SkPicture::CreateFromStream(&stream, &SkImageDecoder::DecodeMemory);
if (!pic) {
SkDebugf("unable to decode %s\n", fFilename);
goto finish;
}
SkScalar width = pic->cullRect().width();
SkScalar height = pic->cullRect().height();
SkBitmap oldBitmap, opBitmap;
fScale = 1;
while (width / fScale > 32767 || height / fScale > 32767) {
++fScale;
}
do {
int dimX = SkScalarCeilToInt(width / fScale);
int dimY = SkScalarCeilToInt(height / fScale);
if (oldBitmap.tryAllocN32Pixels(dimX, dimY) && opBitmap.tryAllocN32Pixels(dimX, dimY)) {
break;
}
SkDebugf("-%d-", fScale);
} while (++fScale < 256);
if (fScale >= 256) {
SkDebugf("unable to allocate bitmap for %s (w=%f h=%f)\n", fFilename,
width, height);
goto finish;
}
oldBitmap.eraseColor(SK_ColorWHITE);
SkCanvas oldCanvas(oldBitmap);
oldCanvas.setAllowSimplifyClip(false);
opBitmap.eraseColor(SK_ColorWHITE);
SkCanvas opCanvas(opBitmap);
opCanvas.setAllowSimplifyClip(true);
drawPict(pic, &oldCanvas, fScale);
drawPict(pic, &opCanvas, fScale);
if (fTestStep == kCompareBits) {
fPixelError = similarBits(oldBitmap, opBitmap);
int oldTime = timePict(pic, &oldCanvas);
int opTime = timePict(pic, &opCanvas);
fTime = SkTMax(0, oldTime - opTime);
} else if (fTestStep == kEncodeFiles) {
SkString pngStr = make_png_name(fFilename);
const char* pngName = pngStr.c_str();
writePict(oldBitmap, outOldDir, pngName);
writePict(opBitmap, outOpDir, pngName);
}
}
finish:
if (pic) {
pic->unref();
}
}
DEFINE_string2(match, m, "PathOpsSkpClipThreaded",
"[~][^]substring[$] [...] of test name to run.\n"
"Multiple matches may be separated by spaces.\n"
"~ causes a matching test to always be skipped\n"
"^ requires the start of the test to match\n"
"$ requires the end of the test to match\n"
"^ and $ requires an exact match\n"
"If a test does not match any list entry,\n"
"it is skipped unless some list entry starts with ~");
DEFINE_string2(dir, d, nullptr, "range of directories (e.g., 1-100)");
DEFINE_string2(skp, s, nullptr, "skp to test");
DEFINE_bool2(single, z, false, "run tests on a single thread internally.");
DEFINE_int32(testIndex, 0, "override local test index (PathOpsSkpClipOneOff only).");
DEFINE_bool2(verbose, v, false, "enable verbose output.");
static bool verbose() {
return FLAGS_verbose;
}
class Dirs {
public:
Dirs() {
reset();
sk_bzero(fRun, sizeof(fRun));
fSet = false;
}
int first() const {
int index = 0;
while (++index < kMaxDir) {
if (fRun[index]) {
return index;
}
}
SkASSERT(0);
return -1;
}
int last() const {
int index = kMaxDir;
while (--index > 0 && !fRun[index])
;
return index;
}
int next() {
while (++fIndex < kMaxDir) {
if (fRun[fIndex]) {
return fIndex;
}
}
return -1;
}
void reset() {
fIndex = -1;
}
void set(int start, int end) {
while (start < end) {
fRun[start++] = 1;
}
fSet = true;
}
void setDefault() {
if (!fSet) {
set(1, 100);
}
}
private:
enum {
kMaxDir = 101
};
char fRun[kMaxDir];
int fIndex;
bool fSet;
} gDirs;
class Filenames {
public:
Filenames()
: fIndex(-1) {
}
const char* next() {
while (fNames && ++fIndex < fNames->count()) {
return (*fNames)[fIndex];
}
return nullptr;
}
void set(const SkCommandLineFlags::StringArray& names) {
fNames = &names;
}
private:
int fIndex;
const SkCommandLineFlags::StringArray* fNames;
} gNames;
static bool buildTestDir(int dirNo, int firstDirNo,
SkTDArray<TestResult>* tests, SkTDArray<SortByName*>* sorted) {
SkString dirName = get_out_path(dirNo, outStatusDir);
if (!dirName.size()) {
return false;
}
SkOSFile::Iter iter(dirName.c_str(), "skp");
SkString filename;
while (iter.next(&filename)) {
TestResult test;
test.init(dirNo);
SkString spaceFile(filename);
char* spaces = spaceFile.writable_str();
int spaceSize = (int) spaceFile.size();
for (int index = 0; index < spaceSize; ++index) {
if (spaces[index] == '.') {
spaces[index] = ' ';
}
}
int success = sscanf(spaces, "%s %d %d skp", test.fFilename,
&test.fPixelError, &test.fTime);
if (success < 3) {
SkDebugf("failed to scan %s matched=%d\n", filename.c_str(), success);
return false;
}
*tests[dirNo - firstDirNo].append() = test;
}
if (!sorted) {
return true;
}
SkTDArray<TestResult>& testSet = tests[dirNo - firstDirNo];
int count = testSet.count();
for (int index = 0; index < count; ++index) {
*sorted[dirNo - firstDirNo].append() = (SortByName*) &testSet[index];
}
if (sorted[dirNo - firstDirNo].count()) {
SkTQSort<SortByName>(sorted[dirNo - firstDirNo].begin(),
sorted[dirNo - firstDirNo].end() - 1);
if (verbose()) {
SkDebugf("+");
}
}
return true;
}
static void testSkpClip(TestState* data) {
data->fResult.testOne();
SkString statName(data->fResult.fFilename);
SkASSERT(statName.endsWith(".skp"));
statName.remove(statName.size() - 4, 4);
statName.appendf(".%d.%d.skp", data->fResult.fPixelError, data->fResult.fTime);
SkString statusFile = get_out_path(data->fResult.fDirNo, outStatusDir);
if (!statusFile.size()) {
SkDebugf("failed to create %s", statusFile.c_str());
return;
}
statusFile.appendf("%s%s", PATH_SLASH, statName.c_str());
FILE* file = sk_fopen(statusFile.c_str(), kWrite_SkFILE_Flag);
if (!file) {
SkDebugf("failed to create %s", statusFile.c_str());
return;
}
sk_fclose(file);
if (verbose()) {
if (data->fResult.fPixelError || data->fResult.fTime) {
SkDebugf("%s", data->fResult.progress().c_str());
} else {
SkDebugf(".");
}
}
}
bool Less(const SortByName& a, const SortByName& b);
bool Less(const SortByName& a, const SortByName& b) {
return a < b;
}
static bool doOneDir(TestState* state, bool threaded) {
int dirNo = state->fResult.fDirNo;
SkString dirName = get_in_path(dirNo, nullptr);
if (!dirName.size()) {
return false;
}
SkTDArray<TestResult> tests[1];
SkTDArray<SortByName*> sorted[1];
if (!buildTestDir(dirNo, dirNo, tests, sorted)) {
return false;
}
SkOSFile::Iter iter(dirName.c_str(), "skp");
SkString filename;
while (iter.next(&filename)) {
for (size_t index = 0; index < skipOverCount; ++index) {
if (skipOver[index].directory == dirNo
&& strcmp(filename.c_str(), skipOver[index].filename) == 0) {
goto checkEarlyExit;
}
}
{
SortByName name;
name.init(dirNo);
strncpy(name.fFilename, filename.c_str(), filename.size() - 4); // drop .skp
int count = sorted[0].count();
int idx = SkTSearch<SortByName, Less>(sorted[0].begin(), count, &name, sizeof(&name));
if (idx >= 0) {
SortByName* found = sorted[0][idx];
(void) addError(state, *found);
continue;
}
TestResult test;
test.init(dirNo, filename);
state->fResult = test;
testSkpClip(state);
#if 0 // artificially limit to a few while debugging code
static int debugLimit = 0;
if (++debugLimit == 5) {
return true;
}
#endif
}
checkEarlyExit:
;
}
return true;
}
static void initTest() {
#if !defined SK_BUILD_FOR_WIN && !defined SK_BUILD_FOR_MAC
SK_CONF_SET("images.jpeg.suppressDecoderWarnings", true);
SK_CONF_SET("images.png.suppressDecoderWarnings", true);
#endif
}
static void testSkpClipEncode(TestState* data) {
data->fResult.testOne();
if (verbose()) {
SkDebugf("+");
}
}
static void encodeFound(TestState& state) {
if (verbose()) {
if (state.fPixelWorst.count()) {
SkTDArray<SortByPixel*> worst;
for (int index = 0; index < state.fPixelWorst.count(); ++index) {
*worst.append() = &state.fPixelWorst[index];
}
SkTQSort<SortByPixel>(worst.begin(), worst.end() - 1);
for (int index = 0; index < state.fPixelWorst.count(); ++index) {
const TestResult& result = *worst[index];
SkDebugf("%d %s pixelError=%d\n", result.fDirNo, result.fFilename, result.fPixelError);
}
}
if (state.fSlowest.count()) {
SkTDArray<SortByTime*> slowest;
for (int index = 0; index < state.fSlowest.count(); ++index) {
*slowest.append() = &state.fSlowest[index];
}
if (slowest.count() > 0) {
SkTQSort<SortByTime>(slowest.begin(), slowest.end() - 1);
for (int index = 0; index < slowest.count(); ++index) {
const TestResult& result = *slowest[index];
SkDebugf("%d %s time=%d\n", result.fDirNo, result.fFilename, result.fTime);
}
}
}
}
TestRunner testRunner;
for (int index = 0; index < state.fPixelWorst.count(); ++index) {
const TestResult& result = state.fPixelWorst[index];
SkString filename(result.fFilename);
if (!filename.endsWith(".skp")) {
filename.append(".skp");
}
*testRunner.fRunnables.append() = new TestRunnableEncode(&testSkpClipEncode, result.fDirNo,
filename.c_str(), &testRunner);
}
testRunner.render();
}
class Test {
public:
Test() {}
virtual ~Test() {}
const char* getName() { onGetName(&fName); return fName.c_str(); }
void run() { onRun(); }
protected:
virtual void onGetName(SkString*) = 0;
virtual void onRun() = 0;
private:
SkString fName;
};
typedef SkTRegistry<Test*(*)(void*)> TestRegistry;
#define DEF_TEST(name) \
static void test_##name(); \
class name##Class : public Test { \
public: \
static Test* Factory(void*) { return new name##Class; } \
\
protected: \
void onGetName(SkString* name) override { name->set(#name); } \
void onRun() override { test_##name(); } \
}; \
static TestRegistry gReg_##name##Class(name##Class::Factory); \
static void test_##name()
DEF_TEST(PathOpsSkpClip) {
gDirs.setDefault();
initTest();
SkTArray<TestResult, true> errors;
TestState state;
state.init(0);
int dirNo;
gDirs.reset();
while ((dirNo = gDirs.next()) > 0) {
if (verbose()) {
SkDebugf("dirNo=%d\n", dirNo);
}
state.fResult.fDirNo = dirNo;
if (!doOneDir(&state, false)) {
break;
}
}
encodeFound(state);
}
static void testSkpClipMain(TestState* data) {
(void) doOneDir(data, true);
}
DEF_TEST(PathOpsSkpClipThreaded) {
gDirs.setDefault();
initTest();
TestRunner testRunner;
int dirNo;
gDirs.reset();
while ((dirNo = gDirs.next()) > 0) {
*testRunner.fRunnables.append() = new TestRunnableDir(&testSkpClipMain, dirNo, &testRunner);
}
testRunner.render();
TestState state;
state.init(0);
gDirs.reset();
while ((dirNo = gDirs.next()) > 0) {
TestState& testState = testRunner.fRunnables[dirNo - 1]->fState;
SkASSERT(testState.fResult.fDirNo == dirNo);
for (int inner = 0; inner < testState.fPixelWorst.count(); ++inner) {
addError(&state, testState.fPixelWorst[inner]);
}
for (int inner = 0; inner < testState.fSlowest.count(); ++inner) {
addError(&state, testState.fSlowest[inner]);
}
}
encodeFound(state);
}
static bool buildTests(SkTDArray<TestResult>* tests, SkTDArray<SortByName*>* sorted) {
int firstDirNo = gDirs.first();
int dirNo;
while ((dirNo = gDirs.next()) > 0) {
if (!buildTestDir(dirNo, firstDirNo, tests, sorted)) {
return false;
}
}
return true;
}
DEF_TEST(PathOpsSkpClipUberThreaded) {
gDirs.setDefault();
const int firstDirNo = gDirs.next();
const int lastDirNo = gDirs.last();
initTest();
int dirCount = lastDirNo - firstDirNo + 1;
SkAutoTDeleteArray<SkTDArray<TestResult> > tests(new SkTDArray<TestResult>[dirCount]);
SkAutoTDeleteArray<SkTDArray<SortByName*> > sorted(new SkTDArray<SortByName*>[dirCount]);
if (!buildTests(tests.get(), sorted.get())) {
return;
}
TestRunner testRunner;
int dirNo;
gDirs.reset();
while ((dirNo = gDirs.next()) > 0) {
SkString dirName = get_in_path(dirNo, nullptr);
if (!dirName.size()) {
continue;
}
SkOSFile::Iter iter(dirName.c_str(), "skp");
SkString filename;
while (iter.next(&filename)) {
for (size_t index = 0; index < skipOverCount; ++index) {
if (skipOver[index].directory == dirNo
&& strcmp(filename.c_str(), skipOver[index].filename) == 0) {
goto checkEarlyExit;
}
}
{
SortByName name;
name.init(dirNo);
strncpy(name.fFilename, filename.c_str(), filename.size() - 4); // drop .skp
int count = sorted.get()[dirNo - firstDirNo].count();
if (SkTSearch<SortByName, Less>(sorted.get()[dirNo - firstDirNo].begin(),
count, &name, sizeof(&name)) < 0) {
*testRunner.fRunnables.append() = new TestRunnableFile(
&testSkpClip, dirNo, filename.c_str(), &testRunner);
}
}
checkEarlyExit:
;
}
}
testRunner.render();
SkAutoTDeleteArray<SkTDArray<TestResult> > results(new SkTDArray<TestResult>[dirCount]);
if (!buildTests(results.get(), nullptr)) {
return;
}
SkTDArray<TestResult> allResults;
for (int dirNo = firstDirNo; dirNo <= lastDirNo; ++dirNo) {
SkTDArray<TestResult>& array = results.get()[dirNo - firstDirNo];
allResults.append(array.count(), array.begin());
}
int allCount = allResults.count();
SkTDArray<SortByPixel*> pixels;
SkTDArray<SortByTime*> times;
for (int index = 0; index < allCount; ++index) {
*pixels.append() = (SortByPixel*) &allResults[index];
*times.append() = (SortByTime*) &allResults[index];
}
TestState state;
if (pixels.count()) {
SkTQSort<SortByPixel>(pixels.begin(), pixels.end() - 1);
for (int inner = 0; inner < kMaxFiles; ++inner) {
*state.fPixelWorst.append() = *pixels[allCount - inner - 1];
}
}
if (times.count()) {
SkTQSort<SortByTime>(times.begin(), times.end() - 1);
for (int inner = 0; inner < kMaxFiles; ++inner) {
*state.fSlowest.append() = *times[allCount - inner - 1];
}
}
encodeFound(state);
}
DEF_TEST(PathOpsSkpClipOneOff) {
const int testIndex = FLAGS_testIndex;
int dirNo = gDirs.next();
if (dirNo < 0) {
dirNo = skipOver[testIndex].directory;
}
const char* skp = gNames.next();
if (!skp) {
skp = skipOver[testIndex].filename;
}
initTest();
SkAssertResult(get_in_path(dirNo, skp).size());
SkString filename(skp);
TestResult state;
state.test(dirNo, filename);
if (verbose()) {
SkDebugf("%s", state.status().c_str());
}
state.fTestStep = kEncodeFiles;
state.testOne();
}
DEF_TEST(PathOpsTestSkipped) {
for (size_t index = 0; index < skipOverCount; ++index) {
const SkipOverTest& skip = skipOver[index];
if (!skip.blamePathOps) {
continue;
}
int dirNo = skip.directory;
const char* skp = skip.filename;
initTest();
SkAssertResult(get_in_path(dirNo, skp).size());
SkString filename(skp);
TestResult state;
state.test(dirNo, filename);
if (verbose()) {
SkDebugf("%s", state.status().c_str());
}
state.fTestStep = kEncodeFiles;
state.testOne();
}
}
DEF_TEST(PathOpsCopyFails) {
FLAGS_verbose = true;
for (size_t index = 0; index < skipOverCount; ++index) {
int dirNo = skipOver[index].directory;
SkDebugf("mkdir -p " IN_DIR_PRE "%d" DIR_POST "\n", dirNo);
}
for (size_t index = 0; index < skipOverCount; ++index) {
int dirNo = skipOver[index].directory;
const char* filename = skipOver[index].filename;
SkDebugf("rsync -av cary-linux.cnc:/tera" PATH_SLASH "skps" PATH_SLASH "slave"
"%d" DIR_POST "/%s " IN_DIR_PRE "%d" DIR_POST "\n", dirNo, filename, dirNo);
}
}
template TestRegistry* TestRegistry::gHead;
class Iter {
public:
Iter() { this->reset(); }
void reset() { fReg = TestRegistry::Head(); }
Test* next() {
if (fReg) {
TestRegistry::Factory fact = fReg->factory();
fReg = fReg->next();
Test* test = fact(nullptr);
return test;
}
return nullptr;
}
private:
const TestRegistry* fReg;
};
int tool_main(int argc, char** argv);
int tool_main(int argc, char** argv) {
SetupCrashHandler();
SkCommandLineFlags::SetUsage("");
SkCommandLineFlags::Parse(argc, argv);
SkGraphics::Init();
SkString header("PathOps SkpClip:");
if (!FLAGS_match.isEmpty()) {
header.appendf(" --match");
for (int index = 0; index < FLAGS_match.count(); ++index) {
header.appendf(" %s", FLAGS_match[index]);
}
}
if (!FLAGS_dir.isEmpty()) {
int count = FLAGS_dir.count();
for (int i = 0; i < count; ++i) {
const char* range = FLAGS_dir[i];
const char* dash = strchr(range, '-');
if (!dash) {
dash = strchr(range, ',');
}
int first = atoi(range);
int last = dash ? atoi(dash + 1) : first;
if (!first || !last) {
SkDebugf("couldn't parse --dir %s\n", range);
return 1;
}
gDirs.set(first, last);
}
}
if (!FLAGS_skp.isEmpty()) {
gNames.set(FLAGS_skp);
}
#ifdef SK_DEBUG
header.append(" SK_DEBUG");
#else
header.append(" SK_RELEASE");
#endif
if (FLAGS_verbose) {
header.appendf("\n");
}
SkDebugf("%s", header.c_str());
Iter iter;
Test* test;
while ((test = iter.next()) != nullptr) {
SkAutoTDelete<Test> owned(test);
if (!SkCommandLineFlags::ShouldSkip(FLAGS_match, test->getName())) {
test->run();
}
}
return 0;
}
#if !defined(SK_BUILD_FOR_IOS)
int main(int argc, char * const argv[]) {
return tool_main(argc, (char**) argv);
}
#endif