blob: 78a2384fea7e960f8ee4d60232ed96c80e888354 [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 "SkBitmap.h"
#include "SkImageDecoder.h"
#include "SkOSFile.h"
#include "SkStream.h"
#include "SkDiffContext.h"
#include "SkImageDiffer.h"
#include "skpdiff_util.h"
SkDiffContext::SkDiffContext() {
fRecords = NULL;
fDiffers = NULL;
fDifferCount = 0;
}
SkDiffContext::~SkDiffContext() {
// Delete the record linked list
DiffRecord* currentRecord = fRecords;
while (NULL != currentRecord) {
DiffRecord* nextRecord = currentRecord->fNext;
SkDELETE(currentRecord);
currentRecord = nextRecord;
}
if (NULL != fDiffers) {
SkDELETE_ARRAY(fDiffers);
}
}
void SkDiffContext::setDiffers(const SkTDArray<SkImageDiffer*>& differs) {
// Delete whatever the last array of differs was
if (NULL != fDiffers) {
SkDELETE_ARRAY(fDiffers);
fDiffers = NULL;
fDifferCount = 0;
}
// Copy over the new differs
fDifferCount = differs.count();
fDiffers = SkNEW_ARRAY(SkImageDiffer*, fDifferCount);
differs.copy(fDiffers);
}
void SkDiffContext::addDiff(const char* baselinePath, const char* testPath) {
// Load the images at the paths
SkBitmap baselineBitmap;
SkBitmap testBitmap;
if (!SkImageDecoder::DecodeFile(baselinePath, &baselineBitmap)) {
SkDebugf("Failed to load bitmap \"%s\"\n", baselinePath);
return;
}
if (!SkImageDecoder::DecodeFile(testPath, &testBitmap)) {
SkDebugf("Failed to load bitmap \"%s\"\n", testPath);
return;
}
// Setup a record for this diff
DiffRecord* newRecord = SkNEW(DiffRecord);
newRecord->fBaselinePath = baselinePath;
newRecord->fTestPath = testPath;
newRecord->fNext = fRecords;
fRecords = newRecord;
// Perform each diff
for (int differIndex = 0; differIndex < fDifferCount; differIndex++) {
SkImageDiffer* differ = fDiffers[differIndex];
int diffID = differ->queueDiff(&baselineBitmap, &testBitmap);
if (diffID >= 0) {
// Copy the results into data for this record
DiffData& diffData = newRecord->fDiffs.push_back();
diffData.fDiffName = differ->getName();
diffData.fResult = differ->getResult(diffID);
int poiCount = differ->getPointsOfInterestCount(diffID);
SkIPoint* poi = differ->getPointsOfInterest(diffID);
diffData.fPointsOfInterest.append(poiCount, poi);
// Because we are doing everything synchronously for now, we are done with the diff
// after reading it.
differ->deleteDiff(diffID);
}
}
}
void SkDiffContext::diffDirectories(const char baselinePath[], const char testPath[]) {
// Get the files in the baseline, we will then look for those inside the test path
SkTArray<SkString> baselineEntries;
if (!get_directory(baselinePath, &baselineEntries)) {
SkDebugf("Unable to open path \"%s\"\n", baselinePath);
return;
}
for (int baselineIndex = 0; baselineIndex < baselineEntries.count(); baselineIndex++) {
const char* baseFilename = baselineEntries[baselineIndex].c_str();
// Find the real location of each file to compare
SkString baselineFile = SkOSPath::SkPathJoin(baselinePath, baseFilename);
SkString testFile = SkOSPath::SkPathJoin(testPath, baseFilename);
// Check that the test file exists and is a file
if (sk_exists(testFile.c_str()) && !sk_isdir(testFile.c_str())) {
// Queue up the comparison with the differ
this->addDiff(baselineFile.c_str(), testFile.c_str());
} else {
SkDebugf("Baseline file \"%s\" has no corresponding test file\n", baselineFile.c_str());
}
}
}
void SkDiffContext::diffPatterns(const char baselinePattern[], const char testPattern[]) {
// Get the files in the baseline and test patterns. Because they are in sorted order, it's easy
// to find corresponding images by matching entry indices.
SkTArray<SkString> baselineEntries;
if (!glob_files(baselinePattern, &baselineEntries)) {
SkDebugf("Unable to get pattern \"%s\"\n", baselinePattern);
return;
}
SkTArray<SkString> testEntries;
if (!glob_files(testPattern, &testEntries)) {
SkDebugf("Unable to get pattern \"%s\"\n", testPattern);
return;
}
if (baselineEntries.count() != testEntries.count()) {
SkDebugf("Baseline and test patterns do not yield corresponding number of files\n");
return;
}
for (int entryIndex = 0; entryIndex < baselineEntries.count(); entryIndex++) {
const char* baselineFilename = baselineEntries[entryIndex].c_str();
const char* testFilename = testEntries [entryIndex].c_str();
this->addDiff(baselineFilename, testFilename);
}
}
void SkDiffContext::outputRecords(SkWStream& stream, bool useJSONP) {
DiffRecord* currentRecord = fRecords;
if (useJSONP) {
stream.writeText("var SkPDiffRecords = {\n");
}
else
{
stream.writeText("{\n");
}
stream.writeText(" \"records\": [\n");
while (NULL != currentRecord) {
stream.writeText(" {\n");
stream.writeText(" \"baselinePath\": \"");
stream.writeText(currentRecord->fBaselinePath.c_str());
stream.writeText("\",\n");
stream.writeText(" \"testPath\": \"");
stream.writeText(currentRecord->fTestPath.c_str());
stream.writeText("\",\n");
stream.writeText(" \"diffs\": [\n");
for (int diffIndex = 0; diffIndex < currentRecord->fDiffs.count(); diffIndex++) {
DiffData& data = currentRecord->fDiffs[diffIndex];
stream.writeText(" {\n");
stream.writeText(" \"differName\": \"");
stream.writeText(data.fDiffName);
stream.writeText("\",\n");
stream.writeText(" \"result\": ");
stream.writeScalarAsText(data.fResult);
stream.writeText(",\n");
stream.writeText(" \"pointsOfInterest\": [\n");
for (int poiIndex = 0; poiIndex < data.fPointsOfInterest.count(); poiIndex++) {
SkIPoint poi = data.fPointsOfInterest[poiIndex];
stream.writeText(" [");
stream.writeDecAsText(poi.x());
stream.writeText(",");
stream.writeDecAsText(poi.y());
stream.writeText("]");
// JSON does not allow trailing commas
if (poiIndex + 1 < data.fPointsOfInterest.count())
{
stream.writeText(",");
}
stream.writeText("\n");
}
stream.writeText(" ]\n");
stream.writeText(" }");
// JSON does not allow trailing commas
if (diffIndex + 1 < currentRecord->fDiffs.count())
{
stream.writeText(",");
}
stream.writeText(" \n");
}
stream.writeText(" ]\n");
stream.writeText(" }");
// JSON does not allow trailing commas
if (NULL != currentRecord->fNext)
{
stream.writeText(",");
}
stream.writeText("\n");
currentRecord = currentRecord->fNext;
}
stream.writeText(" ]\n");
if (useJSONP) {
stream.writeText("};\n");
}
else
{
stream.writeText("}\n");
}
}