int main(int argc, char** argv) {
RenderDevice* rd = new RenderDevice();
OSWindow::Settings settings;
settings.width = 960;
settings.height = 600;
rd->init(settings);
for (int i = 0; i < 100; ++i) {
drawFrame(settings.width, settings.height, i);
// Render at 30 fps
System::sleep(1.0/30.0);
// See also RenderDevice::beginFrame, RenderDevice::endFrame
rd->swapBuffers();
}
rd->cleanup();
delete rd;
return 0;
}
int main(int argc, char* argv[]) {
(void)argc;
(void)argv;
RenderDevice* renderDevice = NULL;
NetworkDevice* networkDevice = new NetworkDevice();
if (networkDevice) {networkDevice->init();}
std::string s;
System::describeSystem(s);
printf("%s\n", s.c_str());
if (networkDevice) {
networkDevice->describeSystem(s);
printf("%s\n", s.c_str());
}
# ifndef _DEBUG
printf("Performance analysis:\n\n");
perfCollisionDetection();
perfArray();
perfTable();
printf("%s\n", System::mallocPerformance().c_str());
perfQueue();
perfMatrix3();
perfTextOutput();
perfSystemMemcpy();
perfBinaryIO();
perfAABSPTree();
measureMemsetPerformance();
measureNormalizationPerformance();
GWindow::Settings settings;
settings.width = 800;
settings.height = 600;
settings.alphaBits = 0;
settings.rgbBits = 8;
settings.stencilBits = 0;
settings.fsaaSamples = 1;
if (!renderDevice) {
renderDevice = new RenderDevice();
}
renderDevice->init(settings);
if (renderDevice) {
renderDevice->describeSystem(s);
printf("%s\n", s.c_str());
}
measureRDPushPopPerformance(renderDevice);
getch();
# else
printf("\n\nTests:\n\n");
testTable();
testCollisionDetection();
testCoordinateFrame();
testReliableConduit(networkDevice);
testAABSPTree();
testQuat();
testReferenceCount();
testAtomicInt32();
testGThread();
testSystemMemset();
testSystemMemcpy();
testQueue();
// Don't run contrib tests until the new 7.00 build system is in place
// testMatrix();
// testGChunk();
testArray();
testMeshAlgTangentSpace();
testConvexPolygon2D();
testPlane();
printf(" passed\n");
testAABox();
testRandom();
printf(" passed\n");
testAABoxCollision();
printf(" passed\n");
testAdjacency();
printf(" passed\n");
testWildcards();
printf(" passed\n");
testFloat();
printf(" passed\n");
testRandom();
testTextInput();
printf(" passed\n");
testBox();
printf(" passed\n");
testColor3uint8Array();
printf(" passed\n");
testglFormatOf();
printf(" passed\n");
testSwizzle();
testBinaryIO();
# ifdef RUN_SLOW_TESTS
testHugeBinaryIO();
printf(" passed\n");
# endif
printf("%s\n", System::mallocPerformance().c_str());
System::resetMallocPerformanceCounters();
printf("\nAll tests succeeded.\n");
#endif
if (renderDevice) {
renderDevice->cleanup();
delete renderDevice;
}
if (networkDevice) {
networkDevice->cleanup();
delete networkDevice;
}
return 0;
}
int main(int argc, char* argv[]) {
(void)argc;
(void)argv;
# ifdef G3D_WINDOWS
{
// Change to the executable directory
chdir(FilePath::parent(argv[0]).c_str());
}
# endif
char x[2000];
getcwd(x, sizeof(x));
debugAssertM(FileSystem::exists("apiTest.zip", false),
format("Tests are being run from the wrong directory. cwd = %s", x));
RenderDevice* renderDevice = NULL;
std::string s;
System::describeSystem(s);
printf("%s\n", s.c_str());
NetworkDevice::instance()->describeSystem(s);
printf("%s\n", s.c_str());
# ifndef _DEBUG
printf("Performance analysis:\n\n");
perfSystemMemcpy();
perfSystemMemset();
// Pause so that we can see the values in the debugger
// getch();
printf("%s\n", System::mallocPerformance().c_str());
perfArray();
perfBinaryIO();
perfTable();
perfHashTrait();
perfKDTree();
perfCollisionDetection();
perfQueue();
perfMatrix3();
perfTextOutput();
perfPointHashGrid();
measureNormalizationPerformance();
OSWindow::Settings settings;
settings.width = 800;
settings.height = 600;
settings.alphaBits = 0;
settings.rgbBits = 8;
settings.stencilBits = 0;
settings.msaaSamples = 1;
if (! renderDevice) {
renderDevice = new RenderDevice();
}
renderDevice->init(settings);
if (renderDevice) {
renderDevice->describeSystem(s);
printf("%s\n", s.c_str());
}
measureRDPushPopPerformance(renderDevice);
# ifdef G3D_WIN32
// Pause so that we can see the values in the debugger
// getch();
# endif
# else
printf("\n\nTests:\n\n");
testunorm16();
testunorm8();
testsnorm8();
testsnorm16();
testMatrix();
testAny();
testBinaryIO();
testSpeedLoad();
testReliableConduit(NetworkDevice::instance());
testFileSystem();
testCollisionDetection();
testTextInput();
testTextInput2();
printf(" passed\n");
testSphere();
testImageConvert();
testKDTree();
testLineSegment2D();
testGLight();
testZip();
testMap2D();
testfilter();
testArray();
testSmallArray();
testSpline();
testMatrix3();
testMatrix4();
testTable();
testTableTable();
testCoordinateFrame();
testQuat();
testReferenceCount();
testAtomicInt32();
testGThread();
testWeakCache();
testSystemMemset();
testSystemMemcpy();
testuint128();
testQueue();
testMeshAlgTangentSpace();
testConvexPolygon2D();
testPlane();
printf(" passed\n");
testAABox();
testRandom();
printf(" passed\n");
testAABoxCollision();
printf(" passed\n");
testAdjacency();
printf(" passed\n");
testWildcards();
printf(" passed\n");
testFloat();
printf(" passed\n");
testRandom();
testFuzzy();
printf(" passed\n");
testBox();
printf(" passed\n");
testBox2D();
printf(" passed\n");
testglFormatOf();
printf(" passed\n");
testSwizzle();
testGCamera();
testCallback();
testPointHashGrid();
# ifdef RUN_SLOW_TESTS
testHugeBinaryIO();
printf(" passed\n");
# endif
printf("%s\n", System::mallocPerformance().c_str());
System::resetMallocPerformanceCounters();
printf("\nAll tests succeeded.\n");
#endif
if (renderDevice) {
renderDevice->cleanup();
delete renderDevice;
}
NetworkDevice::cleanup();
return 0;
}
