#include "ttest.h"
#include "tsystem.h"
#include "tfilepath_io.h"
#include "tlevel_io.h"
#include "tfx.h"
#include "tparam.h"
#include "tpalette.h"
#include "ttoonzimage.h"
#include "trasterimage.h"
#include "tstroke.h"
#include "tcolorstyles.h"
#include <set>
#include <sstream>
#if defined(LINUX) || defined(FREEBSD)
#include <typeinfo>
#endif
using namespace std;
namespace {
class TTestTable {
typedef map<std::string, TTest *> Table;
typedef set<std::string> SkipTable;
Table m_table;
SkipTable m_skipTable;
TTestTable(){};
public:
static TTestTable *table() {
static TTestTable *theTable = 0;
if (!theTable) theTable = new TTestTable;
return theTable;
}
void add(const std::string &str, TTest *test) {
assert(test);
if (m_table.find(str) != m_table.end()) {
cout << "*error* Duplicate test name '" << str << "'" << endl;
assert(0);
return;
}
m_table[str] = test;
}
void skip(const std::string &str) { m_skipTable.insert(str); }
void run(const std::string &str) {
if (m_skipTable.find(str) != m_skipTable.end()) return;
Table::iterator it = m_table.find(str);
if (it == m_table.end())
cout << "*error* test '" << str << "' not found" << endl;
else {
cout << "\nVerifying " << str << " ... " << endl;
it->second->before();
it->second->test();
it->second->after();
cout << "OK" << endl;
}
}
void runAll() {
int count = 0;
cout << "Running all tests:" << endl;
Table::iterator it;
for (it = m_table.begin(); it != m_table.end(); ++it) {
run(it->first);
++count;
}
cout << count << " test(s) launched" << endl;
}
void runType(string type) {
int count = 0;
cout << "Running " << type << " tests:" << endl;
Table::iterator it;
for (it = m_table.begin(); it != m_table.end(); ++it) {
string str(it->first);
int i = str.find("_");
if (i <= 0) continue;
string subStr(str, 0, i);
if (subStr == type) run(it->first);
++count;
}
cout << count << " test(s) launched" << endl;
}
};
}
//------------------------------------------------------------
TTest::TTest(const std::string &testName) {
TTestTable::table()->add(testName, this);
}
//------------------------------------------------------------
TTest::~TTest() {}
//------------------------------------------------------------
void TTest::setInstanceCount() {
m_levelInstanceCount = TLevel::getInstanceCount();
m_imageInstanceCount = TImage::getInstanceCount();
m_rasterInstanceCount = TRaster::getInstanceCount();
m_imageReaderInstanceCount = TImageReader::getInstanceCount();
m_imageWriterInstanceCount = TImageWriter::getInstanceCount();
m_levelReaderInstanceCount = TLevelReader::getInstanceCount();
m_levelWriterInstanceCount = TLevelWriter::getInstanceCount();
m_paramInstanceCount = TParam::getInstanceCount();
m_fxInstanceCount = TFx::getInstanceCount();
}
//------------------------------------------------------------
void TTest::verifyInstanceCount() {
assert(m_levelInstanceCount == TLevel::getInstanceCount());
assert(m_imageInstanceCount == TImage::getInstanceCount());
// assert(m_rasterInstanceCount==TRaster::getInstanceCount());
// commentata da gmt: in qualche test viene creata un
// offline gl context con annesso raster che ovviamente non
// viene liberato.
assert(m_imageReaderInstanceCount == TImageReader::getInstanceCount());
assert(m_imageWriterInstanceCount == TImageWriter::getInstanceCount());
assert(m_levelReaderInstanceCount == TLevelReader::getInstanceCount());
assert(m_levelWriterInstanceCount == TLevelWriter::getInstanceCount());
assert(m_paramInstanceCount == TParam::getInstanceCount());
assert(m_fxInstanceCount == TFx::getInstanceCount());
}
//------------------------------------------------------------
void TTest::runTests(string name) {
TFilePath testFile = getTestFile(name);
std::vector<std::string> testType;
if (name == "verif_image") {
testType.push_back("write");
testType.push_back("read");
}
Tifstream is(testFile);
if (!is) {
cout << "*error* test file '" << testFile << "' not found" << endl;
return;
}
cout << "Test file : '" << testFile << "'" << endl;
char buffer[1024];
while (is.getline(buffer, sizeof(buffer))) {
std::istringstream ss(buffer);
while (ss) {
string s;
ss >> s;
if (s == "") continue;
if (s[0] == '#' || s[0] == '!') break;
// Verifica tutti i test
if (s == "all") {
TTestTable::table()->runAll();
continue;
}
// Verifica una parte dei test che ha come nome iniziale testType[i]
int i;
bool isTypeFound = false;
for (i = 0; i < (int)testType.size(); i++)
if (s == testType[i]) {
isTypeFound = true;
TTestTable::table()->runType(testType[i]);
break;
}
if (isTypeFound) continue;
if (s[0] == '~')
TTestTable::table()->skip(s.substr(1));
else // Verifica il test di nome s
TTestTable::table()->run(s);
}
}
}
//================================================================================
// Utility
//--------------------------------------------------------------------------------
TFilePath getTestFile(string name) {
TFilePath testFile;
TFilePath parentDir = TSystem::getBinDir().getParentDir();
#ifndef _WIN32
parentDir = parentDir.getParentDir();
#endif
TFilePath relativePath;
#ifndef NDEBUG
relativePath = parentDir + TFilePath("projects\\test\\") + TFilePath(name);
#endif
if (name == "verify_tnzcore")
testFile = relativePath + TFilePath(name).withType("txt");
else if (name == "verify_toonzlib")
testFile = relativePath + TFilePath(name).withType("txt");
else if (name == "verify_image")
testFile = relativePath + TFilePath(name).withType("txt");
else
testFile = parentDir + TFilePath(name).withType("txt");
return testFile;
}
//--------------------------------------------------------------------------------
/*!
* Return true if \b ra raster and \b rb raster are equal, with an error
* less than \b err; return false otherwise.
* To verify rasters parity check pixel raster; if rasters are different is
* showed an error message.
*
* \b err max variance allowed to value pixels.
*
* OSS.: Usually \b ra is check image and \b rb reference image.
*/
int areEqual(TRasterP ra, TRasterP rb, double err) {
if (!ra && !rb) return true;
int y, x;
if (typeid(ra) != typeid(rb)) return false;
if (!ra || !rb) return false;
if (ra->getSize() != rb->getSize()) return false;
const int rowSize = ra->getRowSize();
TRaster32P ra32 = ra;
TRaster64P ra64 = ra;
TRasterGR8P raGR8 = ra;
TRasterCM32P raCM32 = ra;
if (ra32) {
TRaster32P rb32 = rb;
if (!rb32) return 2;
for (y = 0; y < ra->getLy(); y++)
for (x = 0; x < ra->getLx(); x++) {
TPixel32 *apix = (TPixel32 *)ra->getRawData(x, y);
TPixel32 *bpix = (TPixel32 *)rb->getRawData(x, y);
int rA = apix->r;
int gA = apix->g;
int bA = apix->b;
int mA = apix->m;
int rB = bpix->r;
int gB = bpix->g;
int bB = bpix->b;
int mB = bpix->m;
if (!areAlmostEqual(double(rA), double(rB), err) ||
!areAlmostEqual(double(gA), double(gB), err) ||
!areAlmostEqual(double(bA), double(bB), err) ||
!areAlmostEqual(double(mA), double(mB), err)) {
cout << "MISMATCH: x=" << x << " y=" << y << ". Pixel a = ("
<< (int)rA << "," << (int)gA << "," << (int)bA << "," << (int)mA
<< ")"
<< ". Pixel b = (" << (int)rB << "," << (int)gB << "," << (int)bB
<< "," << (int)mB << ")" << endl;
return false;
}
}
} else if (ra64) {
TRaster64P rb64 = rb;
if (!rb64) return 2;
for (y = 0; y < ra->getLy(); y++)
for (x = 0; x < ra->getLx(); x++) {
TPixel64 *apix = (TPixel64 *)ra->getRawData(x, y);
TPixel64 *bpix = (TPixel64 *)rb->getRawData(x, y);
int rA = apix->r;
int gA = apix->g;
int bA = apix->b;
int mA = apix->m;
int rB = bpix->r;
int gB = bpix->g;
int bB = bpix->b;
int mB = bpix->m;
if (!areAlmostEqual(double(rA), double(rB), err) ||
!areAlmostEqual(double(gA), double(gB), err) ||
!areAlmostEqual(double(bA), double(bB), err) ||
!areAlmostEqual(double(mA), double(mB), err)) {
cout << "MISMATCH: x=" << x << " y=" << y << ". Pixel a = ("
<< (int)rA << "," << (int)gA << "," << (int)bA << "," << (int)mA
<< ")"
<< ". Pixel b = (" << (int)rB << "," << (int)gB << "," << (int)bB
<< "," << (int)mB << ")" << endl;
return false;
}
}
} else if (raGR8) {
TRasterGR8P rbGR8 = rb;
if (!rbGR8) return 2;
for (y = 0; y < ra->getLy(); y++)
for (x = 0; x < ra->getLx(); x++) {
TPixelGR8 *apix = (TPixelGR8 *)ra->getRawData(x, y);
TPixelGR8 *bpix = (TPixelGR8 *)rb->getRawData(x, y);
int rA = apix->value;
int rB = bpix->value;
if (!areAlmostEqual(double(rA), double(rB), err)) {
cout << "MISMATCH: x=" << x << " y=" << y << ". Pixel a = ("
<< (int)rA << ")"
<< ". Pixel b = (" << (int)rB << ")" << endl;
return false;
}
}
} else if (raCM32) {
TRasterCM32P rbCM32 = rb;
if (!rbCM32) return 2;
for (y = 0; y < ra->getLy(); y++)
for (x = 0; x < ra->getLx(); x++) {
TPixelCM32 *apix = (TPixelCM32 *)ra->getRawData(x, y);
TPixelCM32 *bpix = (TPixelCM32 *)rb->getRawData(x, y);
int rAink = apix->getInk();
int rAtone = apix->getTone();
int rAPaint = apix->getPaint();
int rBink = bpix->getInk();
int rBtone = bpix->getTone();
int rBPaint = bpix->getPaint();
if (!areAlmostEqual(double(rAink), double(rBink), err) ||
!areAlmostEqual(double(rAtone), double(rBtone), err) ||
!areAlmostEqual(double(rAPaint), double(rBPaint), err)) {
cout << "MISMATCH: x=" << x << " y=" << y
<< ". Pixel a = (Ink: " << (int)rAink << ",Tone: " << (int)rAtone
<< ",Paint: " << (int)rBPaint << ")"
<< ". Pixel b = (Ink: " << (int)rBink << ",Tone: " << (int)rBtone
<< ",Paint: " << (int)rBPaint << ")" << endl;
return false;
}
}
} else
return 2;
return true;
}
//-----------------------------------------------------------------------------
/*!
* Return true if \b va vector image and \b vb vector image are equal, with an
* error less than \b err; return false otherwise.
* To verify vector image parity check stroke count, control point count and
* control point position; if vector image are different is showed an
*error message.
*
* \b err max percentage variance, related to save box, allowed to control point
* position.
*
* OSS.: Usually \b va is check image and \b vb reference image.
*/
int areEqual(TVectorImageP va, TVectorImageP vb, double err) {
if (!va && !vb) return true;
int aStrokeCount = va->getStrokeCount();
int bStrokeCount = vb->getStrokeCount();
if (aStrokeCount != bStrokeCount) {
cout << "MISMATCH: image stroke count = " << aStrokeCount
<< ". Reference image stroke count = " << bStrokeCount << "." << endl;
return false;
}
TRectD aRect = va->getBBox();
double lxErr = 0.00001;
double lyErr = 0.00001;
if (err != 0) {
lxErr = (aRect.getLx() * err) * 0.01;
lyErr = (aRect.getLy() * err) * 0.01;
}
TRectD bRect = vb->getBBox();
if (!areAlmostEqual(bRect.getLx(), aRect.getLx(), lxErr) ||
!areAlmostEqual(bRect.getLy(), aRect.getLy(), lyErr)) {
cout << "MISMATCH: different save box rect." << endl;
return false;
}
int i;
for (i = 0; i < aStrokeCount; i++) {
TStroke *aStroke = va->getStroke(i);
TStroke *bStroke = vb->getStroke(i);
int aStrCPCount = aStroke->getControlPointCount();
int bStrCPCount = bStroke->getControlPointCount();
if (aStrCPCount != bStrCPCount) {
cout << "MISMATCH: image stroke " << i
<< "_mo control point count = " << aStrCPCount
<< ". Reference image stroke " << i
<< "_mo control point count = " << bStrCPCount << "." << endl;
return false;
}
int j;
for (j = 0; j <= aStrCPCount; j++) {
TThickPoint aControlPoint = aStroke->getControlPoint(j);
TThickPoint bControlPoint = bStroke->getControlPoint(j);
if (!areAlmostEqual(aControlPoint.x, bControlPoint.x, lxErr)) {
cout << "MISMATCH: different control point x position." << endl;
return false;
}
if (!areAlmostEqual(aControlPoint.y, bControlPoint.y, lyErr)) {
cout << "MISMATCH: different control point y position." << endl;
return false;
}
if (!areAlmostEqual(aControlPoint.thick, bControlPoint.thick)) {
cout << "MISMATCH: different control point thickness." << endl;
return false;
}
}
}
/* Non controllo i punti di controllo!!!
int aStrCPCount = aStroke->getControlPointCount();
int bStrCPCount = bStroke->getControlPointCount();
if(aStrCPCount != bStrCPCount)
{
cout << "MISMATCH: image stroke " << i << "_mo control point count = "
<< aStrCPCount
<< ". Reference image stroke " << i << "_mo control
point count = " << bStrCPCount
<< "." << endl;
return false;
}
int j;
for(j=0; j<=aStrCPCount; j++)
{
TThickPoint aControlPoint = aStroke->getControlPoint(j);
TThickPoint bControlPoint = bStroke->getControlPoint(j);
if(!areAlmostEqual(aControlPoint.x, bControlPoint.x, lxErr))
{
cout << "MISMATCH: different control point x position." <<
endl;
return false;
}
if(!areAlmostEqual(aControlPoint.y, bControlPoint.y, lyErr))
{
cout << "MISMATCH: different control point y position." <<
endl;
return false;
}
if(!areAlmostEqual(aControlPoint.thick, bControlPoint.thick))
{
cout << "MISMATCH: different control point thickness." <<
endl;
return false;
}
}*/
return true;
}
//-----------------------------------------------------------------------------
/*!
* Return true if images \b a and \b b are equal, with an error
* less than \b err; return false otherwise.
*
* If images are rasters recall
* \b bool areEqual(TRasterP ra, TRasterP rb)
* else if image are vectorImage recall
* \b bool areEqual(TVectorImageP ra, TVectorImageP rb)
*/
int areEqual(TImageP a, TImageP b, double err) {
if (!a && !b) return true;
if (!a || !b) return false;
if (a->getType() != b->getType()) return false;
TRasterImageP ra(a);
TRasterImageP rb(b);
if ((!ra && rb) || (ra && !rb)) return false;
if (ra && rb) return areEqual(ra->getRaster(), rb->getRaster(), err);
TToonzImageP ta(a);
TToonzImageP tb(b);
if ((!ta && tb) || (ta && !tb)) return false;
if (ta && tb) return areEqual(ta->getRaster(), tb->getRaster(), err);
TVectorImageP va(a);
TVectorImageP vb(b);
if (va && vb) return areEqual(va, vb, err);
return false;
}
//-----------------------------------------------------------------------------
bool areEqual(const TPalette *paletteA, const TPalette *paletteB) {
if (paletteA->getStyleCount() != paletteB->getStyleCount() ||
paletteA->getPageCount() != paletteB->getPageCount()) {
cout << "PALETTE style count MISMATCH" << endl;
return false;
}
int i;
for (i = 0; i < paletteA->getStyleCount(); i++) {
TColorStyle *styleA = paletteA->getStyle(i);
TColorStyle *styleB = paletteB->getStyle(i);
if (styleA->getMainColor() == styleB->getMainColor()) continue;
cout << "PALETTE style MISMATCH" << endl;
return false;
}
return true;
}
//--------------------------------------------------------------------------------
bool areEqual(TLevelP la, TLevelP lb) {
if (la->getFrameCount() != lb->getFrameCount()) {
cout << "FRAME COUNT MISMATCH" << endl;
return false;
}
if (!areEqual(la->getPalette(), lb->getPalette())) return false;
TLevel::Iterator ait = la->begin(), bit = lb->begin();
for (; ait != la->end(); ait++, bit++) {
assert(bit != lb->end());
if (!areEqual(ait->second, bit->second)) return false;
}
return true;
}