void MapInfo::resetToDefaults()
{
Definition::resetToDefaults();
// Add all expected fields with their default values.
def().addText ("id", "");
def().addText ("title", "Untitled");
def().addText ("titleImage", "");
def().addText ("author", "Unknown");
def().addNumber("flags", 0);
def().addText ("music", "");
def().addNumber("parTime", -1); // unknown
def().addArray ("fogColor", new ArrayValue(Vector3f(DEFAULT_FOG_COLOR_RED, DEFAULT_FOG_COLOR_GREEN, DEFAULT_FOG_COLOR_BLUE)));
def().addNumber("fogStart", DEFAULT_FOG_START);
def().addNumber("fogEnd", DEFAULT_FOG_END);
def().addNumber("fogDensity", DEFAULT_FOG_DENSITY);
def().addText ("fadeTable", "");
def().addNumber("ambient", 0);
def().addNumber("gravity", 1);
def().addText ("skyId", "");
def().addText ("execute", "");
QScopedPointer<Record> sky(new Record);
Sky(*sky).resetToDefaults();
def().add ("sky", sky.take());
}
Vector PerlinGenerator::at( const Vector& pos )
{
//return sky( pos.x,pos.y,pos.z, SKY_BLUE, CLOUD_WHITE ) ;
Vector n = pos/worldNormalizer ;
switch( noiseType )
{
case PerlinNoiseType::Sky:
return sky( n.x, n.y, n.z, SKY_BLUE, CLOUD_WHITE ) ;
case PerlinNoiseType::Wood:
return wood( n.x, n.y, n.z ) ;
case PerlinNoiseType::Marble:
default:
return marble( n.x,n.y,n.z, n.x ) ;
case PerlinNoiseType::CustomLinear:
return linearSpline( PerlinNoise3D( n.x,n.y,n.z, persistence, lacunarity, octaves ) ) ;
case PerlinNoiseType::CustomQuadratic:
return quadraticSpline( PerlinNoise3D( n.x,n.y,n.z, persistence, lacunarity, octaves ) ) ;
case PerlinNoiseType::CustomCubic:
return cubicSpline( PerlinNoise3D( n.x,n.y,n.z, persistence, lacunarity, octaves ) ) ;
case PerlinNoiseType::CustomQuartic:
return quarticSpline( PerlinNoise3D( n.x,n.y,n.z, persistence, lacunarity, octaves ) ) ;
case PerlinNoiseType::CustomQuintic:
return quinticSpline( PerlinNoise3D( n.x,n.y,n.z, persistence, lacunarity, octaves ) ) ;
}
}
int main()
{
/*const int SIZE = 500;
ColorScale gradient;
// gradient.insert(0.0,sf::Color::Red);
gradient.insert(2.0,sf::Color(150,0,100));
gradient.insert(1.0,sf::Color(0,0,255,70));
// gradient.insert(3.0,sf::Color::Cyan);
// gradient.insert(4.0,sf::Color::Green);
// gradient.insert(5.0,sf::Color::Yellow);
// gradient.insert(6.0,sf::Color::Red);
sf::Color* tab =new sf::Color[SIZE];
gradient.fillTab(tab,SIZE);
Sky sky(800);
*/
/*sf::RenderWindow DisplayManager().getWindow()(sf::VideoMode(800, 800, 32), "Gradient");
DisplayManager().getWindow().setFramerateLimit(30);
sf::Image image;
image.create(SIZE,SIZE);
for(int i=0;i<SIZE;i++)
{
for(int j=0;j<SIZE;j++)
{
image.setPixel(i,j,tab[j]);
}
}
sf::Texture texture;
texture.loadFromImage(image);
sf::Sprite sprite(texture);
*/
Sky sky(1000);
while(DisplayManager().getWindow().isOpen())
{
sf::sleep(sf::seconds(1));
sf::Event Event;
while (DisplayManager().getWindow().pollEvent(Event))
{
if (Event.type==sf::Event::Closed)
{
DisplayManager().getWindow().close();
}
}
DisplayManager().getWindow().clear();
sky.update();
DisplayManager().getWindow().display();
}
return 0;
}
void
statistics(struct statisticsparams *p)
{
int print_basic_info=1;
/* Print the one-row numbers if the user asked for them. */
if(p->singlevalue)
{
print_basic_info=0;
if(p->ontile) statistics_on_tile(p);
else statistics_print_one_row(p);
}
/* Find the Sky value if called. */
if(p->sky)
{
sky(p);
print_basic_info=0;
}
/* Print the ASCII plots if requested. */
if(p->asciihist || p->asciicfp)
{
ascii_plots(p);
print_basic_info=0;
}
/* Save the histogram and CFP as tables if requested. */
if(p->histogram || p->cumulative)
{
print_basic_info=0;
save_hist_and_or_cfp(p);
}
/* Print the sigma-clipped results. */
if( p->sigmaclip )
{
print_basic_info=0;
print_sigma_clip(p);
}
/* Make the mirror table. */
if( !isnan(p->mirror) )
{
print_basic_info=0;
print_mirror_hist_cfp(p);
}
/* If nothing was requested print the simple statistics. */
if(print_basic_info)
print_basics(p);
}
void PlayableState::draw()
{
sky(100);
playerControls.doEvents();
if (auto spt = theWorld.lock()) // Has to be copied into a shared_ptr before usage
{
spt->stepWorld();
spt->debugDraw();
spt->draw();
// spt->playerShip.fireDefaultWeapon();
}
}
DrawingState::DrawingState()
{
// reasonable defaults for everything
timeOfDay = 9; // morning
sky(.7f,.7f,1); // blue sky
ground(0,84,24); // green grass
camera = 0;
fieldOfView = 45;
backCull = 0;
drGrTex = 0;
counter = 0;
}
void ProfileSelectState::draw()
{
sky();
title->display();
highlightOption(selectedOption);
highlight->display();
for(int i = 0; i < selectableOptions.size(); ++i)
{
selectableOptions.at(i)->display();
}
}
int main() {
const int num_steps=1000;
const real_t x=1., y=1., z=1., sigma=10., rho=28, beta=8./3., dt=0.02;
air sky(x, sigma);
cloud puff(y, rho);
ground earth(z, beta);
ptr_t boundary_layer = ptr_t(new atmosphere(sky, puff, earth));
real_t t = 0.;
std::cout << fmt(t,5,2) << " "
<< fmt(boundary_layer->state_vector()) << "\n";
for(int step = 1; step <= num_steps; ++step) {
integrate(boundary_layer, dt);
t += dt;
std::cout << fmt(t,5,2) << " "
<< fmt(boundary_layer->state_vector()) << "\n";
}
}
void GLEEHorizonPortal::DrawContents()
{
PortalAll.Clock();
sector_t *sector = portal->mOrigin;
if (sector->GetTexture(sector_t::floor) == skyflatnum ||
sector->GetTexture(sector_t::ceiling) == skyflatnum)
{
GLSkyInfo skyinfo;
skyinfo.init(sector->sky, 0);
GLSkyPortal sky(&skyinfo, true);
sky.DrawContents();
}
if (sector->GetTexture(sector_t::ceiling) != skyflatnum)
{
GLHorizonInfo horz;
horz.plane.GetFromSector(sector, true);
horz.lightlevel = gl_ClampLight(sector->GetCeilingLight());
horz.colormap = sector->ColorMap;
if (portal->mType == PORTS_PLANE)
{
horz.plane.Texheight = ViewPos.Z + fabs(horz.plane.Texheight);
}
GLHorizonPortal ceil(&horz, true);
ceil.DrawContents();
}
if (sector->GetTexture(sector_t::floor) != skyflatnum)
{
GLHorizonInfo horz;
horz.plane.GetFromSector(sector, false);
horz.lightlevel = gl_ClampLight(sector->GetFloorLight());
horz.colormap = sector->ColorMap;
if (portal->mType == PORTS_PLANE)
{
horz.plane.Texheight = ViewPos.Z - fabs(horz.plane.Texheight);
}
GLHorizonPortal floor(&horz, true);
floor.DrawContents();
}
}
void HWEEHorizonPortal::DrawContents(HWDrawInfo *di, FRenderState &state)
{
auto &vp = di->Viewpoint;
sector_t *sector = portal->mOrigin;
if (sector->GetTexture(sector_t::floor) == skyflatnum ||
sector->GetTexture(sector_t::ceiling) == skyflatnum)
{
GLSkyInfo skyinfo;
skyinfo.init(di, sector->sky, 0);
HWSkyPortal sky(screen->mSkyData, mState, &skyinfo, true);
sky.DrawContents(di, state);
}
if (sector->GetTexture(sector_t::ceiling) != skyflatnum)
{
GLHorizonInfo horz;
horz.plane.GetFromSector(sector, sector_t::ceiling);
horz.lightlevel = hw_ClampLight(sector->GetCeilingLight());
horz.colormap = sector->Colormap;
horz.specialcolor = 0xffffffff;
if (portal->mType == PORTS_PLANE)
{
horz.plane.Texheight = vp.Pos.Z + fabs(horz.plane.Texheight);
}
HWHorizonPortal ceil(mState, &horz, di->Viewpoint, true);
ceil.DrawContents(di, state);
}
if (sector->GetTexture(sector_t::floor) != skyflatnum)
{
GLHorizonInfo horz;
horz.plane.GetFromSector(sector, sector_t::floor);
horz.lightlevel = hw_ClampLight(sector->GetFloorLight());
horz.colormap = sector->Colormap;
horz.specialcolor = 0xffffffff;
if (portal->mType == PORTS_PLANE)
{
horz.plane.Texheight = vp.Pos.Z - fabs(horz.plane.Texheight);
}
HWHorizonPortal floor(mState, &horz, di->Viewpoint, true);
floor.DrawContents(di, state);
}
}
int main(int argc, char *argv[])
{
KAboutData aboutData( "kstars", 0, ki18n("KStars"),
KSTARS_VERSION, ki18n(description), KAboutData::License_GPL,
ki18n("(c) 2001-2012, The KStars Team"), ki18n(notice), "http://edu.kde.org/kstars");
aboutData.addAuthor(ki18n("Jason Harris"),KLocalizedString(), "*****@*****.**", "http://www.30doradus.org");
aboutData.addAuthor(ki18n("Jasem Mutlaq"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("James Bowlin"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Pablo de Vicente"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Thomas Kabelmann"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Heiko Evermann"),KLocalizedString(), "*****@*****.**", "http://www.evermann.de");
aboutData.addAuthor(ki18n("Carsten Niehaus"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Mark Hollomon"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Alexey Khudyakov"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Médéric Boquien"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Akarsh Simha"), KLocalizedString(), "*****@*****.**", "http://www.ph.utexas.edu/~asimha");
aboutData.addAuthor(ki18n("Jérôme Sonrier"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Prakash Mohan"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Victor Cărbune"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Henry de Valence"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Samikshan Bairagya"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Rafał Kułaga"), KLocalizedString(), "*****@*****.**");
aboutData.addAuthor(ki18n("Rishab Arora"), KLocalizedString(), "*****@*****.**");
aboutData.addCredit(ki18n("Valery Kharitonov"), ki18n("Converted labels containing technical terms to links to documentation") );
aboutData.addCredit(ki18n("Ana-Maria Constantin"), ki18n("Technical documentation on Astronomy and KStars") );
aboutData.addCredit(ki18n("Andrew Stepanenko"), ki18n("Guiding code based on lin_guider") );
aboutData.addCredit(ki18n("Nuno Pinheiro"), ki18n("Artwork") );
KCmdLineArgs::init( argc, argv, &aboutData );
KCmdLineOptions options;
options.add("!dump", ki18n( "Dump sky image to file" ));
options.add("script ", ki18n( "Script to execute" ));
options.add("width ", ki18n( "Width of sky image" ), "640");
options.add("height ", ki18n( "Height of sky image" ), "480");
options.add("filename ", ki18n( "Filename for sky image" ), "kstars.png");
options.add("date ", ki18n( "Date and time" ));
options.add("!paused", ki18n( "Start with clock paused" ));
KCmdLineArgs::addCmdLineOptions( options ); // Add our own options.
KCmdLineArgs *args = KCmdLineArgs::parsedArgs();
KApplication a;
if ( args->isSet( "dump" ) ) {
kDebug() << i18n( "Dumping sky image" );
//parse filename and image format
const char* format = "PNG";
QString fname = args->getOption( "filename" );
QString ext = fname.mid( fname.lastIndexOf(".")+1 );
if ( ext.toLower() == "png" ) { format = "PNG"; }
else if ( ext.toLower() == "jpg" || ext.toLower() == "jpeg" ) { format = "JPG"; }
else if ( ext.toLower() == "gif" ) { format = "GIF"; }
else if ( ext.toLower() == "pnm" ) { format = "PNM"; }
else if ( ext.toLower() == "bmp" ) { format = "BMP"; }
else { kWarning() << i18n( "Could not parse image format of %1; assuming PNG.", fname ) ; }
//parse width and height
bool ok(false);
int w(0), h(0);
w = args->getOption( "width" ).toInt( &ok );
if ( ok ) h = args->getOption( "height" ).toInt( &ok );
if ( !ok ) {
kWarning() << "Unable to parse arguments: " ;
kWarning() << "Width: " << args->getOption( "width" )
<< " Height: " << args->getOption( "height" ) << endl;
return 1;
}
KStarsData *dat = KStarsData::Create();
QObject::connect( dat, SIGNAL( progressText(QString) ), dat, SLOT( slotConsoleMessage(QString) ) );
dat->initialize();
//Set Geographic Location
dat->setLocationFromOptions();
//Set color scheme
dat->colorScheme()->loadFromConfig();
//set clock now that we have a location:
//Check to see if user provided a date/time string. If not, use current CPU time
QString datestring = args->getOption( "date" );
KStarsDateTime kdt;
if ( ! datestring.isEmpty() ) {
if ( datestring.contains( "-" ) ) { //assume ISODate format
if ( datestring.contains( ":" ) ) { //also includes time
kdt = KDateTime::fromString( datestring, KDateTime::ISODate );
} else { //string probably contains date only
kdt.setDate( QDate::fromString( datestring, Qt::ISODate ) );
kdt.setTime( QTime( 0, 0, 0 ) );
}
} else { //assume Text format for date string
kdt = dat->geo()->LTtoUT( KDateTime::fromString( datestring, KDateTime::QtTextDate ) );
}
if ( ! kdt.isValid() ) {
kWarning() << i18n( "Using CPU date/time instead." ) ;
kdt = KStarsDateTime::currentUtcDateTime();
}
} else {
kdt = KStarsDateTime::currentUtcDateTime();
}
dat->clock()->setUTC( kdt );
KSNumbers num( dat->ut().djd() );
// dat->initGuides(&num);
SkyMap *map = SkyMap::Create();
map->resize( w, h );
QPixmap sky( w, h );
dat->setFullTimeUpdate();
dat->updateTime(dat->geo(), map );
SkyPoint dest( Options::focusRA(), Options::focusDec() );
map->setDestination( dest );
map->destination()->EquatorialToHorizontal( dat->lst(), dat->geo()->lat() );
map->setFocus( map->destination() );
map->focus()->EquatorialToHorizontal( dat->lst(), dat->geo()->lat() );
//Execute the specified script
QString scriptfile = args->getOption( "script" );
if ( ! scriptfile.isEmpty() ) {
if ( dat->executeScript( scriptfile, map ) ) {
std::cout << i18n( "Script executed." ).toUtf8().data() << std::endl;
} else {
kWarning() << i18n( "Could not execute script." ) ;
}
}
qApp->processEvents();
map->setupProjector();
map->exportSkyImage( &sky );
qApp->processEvents();
if ( ! sky.save( fname, format ) ) kWarning() << i18n( "Unable to save image: %1 ", fname ) ;
else kDebug() << i18n( "Saved to file: %1", fname );
delete map;
delete dat;
return 0;
}
//start up normally in GUI mode
//Try to parse the given date string
QString datestring = args->getOption( "date" );
//DEBUG
kDebug() << "Date string: " << datestring;
if ( ! datestring.isEmpty() && ! KStarsDateTime::fromString( datestring ).isValid() ) {
kWarning() << i18n( "Using CPU date/time instead." ) ;
datestring.clear();
}
KStars::createInstance( true, ! args->isSet( "paused" ), datestring );
args->clear();
QObject::connect(kapp, SIGNAL(lastWindowClosed()), kapp, SLOT(quit()));
return a.exec();
}
Scene * D3D::BuildScene(IDirect3DDevice9 *d3dDevice)
{
// Setup some materials - we'll use these for
// making the same mesh appear in multiple
// colors
D3DMATERIAL9 colors[8];
D3DUtil_InitMaterial( colors[0], 1.0f, 1.0f, 1.0f, 1.0f ); // white
D3DUtil_InitMaterial( colors[1], 0.0f, 1.0f, 1.0f, 1.0f ); // cyan
D3DUtil_InitMaterial( colors[2], 1.0f, 0.0f, 0.0f, 1.0f ); // red
D3DUtil_InitMaterial( colors[3], 0.0f, 1.0f, 0.0f, 1.0f ); // green
D3DUtil_InitMaterial( colors[4], 0.0f, 0.0f, 1.0f, 1.0f ); // blue
D3DUtil_InitMaterial( colors[5], 0.4f, 0.4f, 0.4f, 0.4f ); // 40% grey
D3DUtil_InitMaterial( colors[6], 0.25f, 0.25f, 0.25f, 0.25f ); // 25% grey
D3DUtil_InitMaterial( colors[7], 0.65f, 0.65f, 0.65f, 0.65f ); // 65% grey
// The identity matrix is always useful
D3DXMATRIX ident;
D3DXMatrixIdentity(&ident);
// We'll use these rotations for some teapots and grid objects
D3DXMATRIX rotateX, rotateY, rotateZ;
// Create the root, and the camera.
// Remeber how to use smart pointers?? I hope so!
boost::shared_ptr<TransformNode> root(new TransformNode(&ident));
boost::shared_ptr<CameraNode> camera(new CameraNode(&ident));
root->m_children.push_back(camera);
// We'll put the camera in the scene at (20,20,20) looking back at the Origin
D3DXMATRIX rotOnly, result, inverse;
float cameraYaw = - (3.0f * D3DX_PI) / 4.0f;
float cameraPitch = D3DX_PI / 4.0f;
D3DXQUATERNION q;
D3DXQuaternionIdentity(&q);
D3DXQuaternionRotationYawPitchRoll(&q, cameraYaw, cameraPitch, 0.0);
D3DXMatrixRotationQuaternion(&rotOnly, &q);
D3DXMATRIX trans;
D3DXMatrixTranslation(&trans, 15.0f, 15.0f, 15.0f);
D3DXMatrixMultiply(&result, &rotOnly, &trans);
D3DXMatrixInverse(&inverse, NULL, &result);
camera->VSetTransform(&result, &inverse);
D3DXMatrixRotationZ(&rotateZ, D3DX_PI / 2.0f);
D3DXMatrixRotationX(&rotateX, -D3DX_PI / 2.0f);
D3DXVECTOR3 target(30, 2, 15);
//
ID3DXMesh *teapot;
if( SUCCEEDED( D3DXCreateTeapot( d3dDevice, &teapot, NULL ) ) )
{
// Teapot #1 - a white one at (x=6,y=2,z=4)
D3DXMatrixTranslation(&trans,6,2,4);
boost::shared_ptr<SceneNode> mesh1(new MeshNode(teapot, &trans, colors[2]));
root->m_children.push_back(mesh1);
// Teapot #2 - a cyan one at (x=3,y=2,z=1)
// with a
D3DXMatrixTranslation(&trans, 3,2,1);
D3DXMATRIX result;
D3DXMatrixMultiply(&result, &rotateZ, &trans);
boost::shared_ptr<SceneNode> mesh2(new MeshNode(teapot, &result, colors[1]));
root->m_children.push_back(mesh2);
// Teapot #3 - another white one at (x=30, y=2, z=15)
D3DXMATRIX rotateY90;
D3DXMatrixRotationY(&rotateY90, D3DX_PI / 2.0f);
D3DXMatrixTranslation(&trans, target.x, target.y, target.z);
D3DXMatrixMultiply(&result, &rotateY90, &trans);
boost::shared_ptr<SceneNode> mesh3(new MeshNode(teapot, &result, colors[0]));
root->m_children.push_back(mesh3);
// We can release the teapot now, mesh1 and mesh2 AddRef'd it.
SAFE_RELEASE(teapot);
}
ID3DXMesh *sphere;
if ( SUCCEEDED(
D3DXCreateSphere(
d3dDevice, .25, 16, 16, &sphere, NULL) ) )
{
// We're going to create a spiral of spheres...
// starting at (x=3, y=0, z=3), and spiraling
// upward about a local Y axis.
D3DXMatrixTranslation(&trans, 3,0,3);
boost::shared_ptr<SceneNode> sphere1(new MeshNode(sphere, &trans, colors[4]) );
root->m_children.push_back(sphere1);
// Here's the local rotation and translation.
// We'll rotate about Y, and then translate
// up (along Y) and forward (along Z).
D3DXMatrixRotationY(&rotateY, D3DX_PI / 8.0f);
D3DXMATRIX trans2;
D3DXMatrixTranslation(&trans2, 0, 0.5, 0.5);
D3DXMatrixMultiply(&result, &trans2, &rotateY);
for (int i=0; i<25; i++)
{
// If you didn't think smart pointers were cool -
// watch this! No leaked memory....
// Notice this is a heirarchy....
boost::shared_ptr<SceneNode> sphere2(new MeshNode(sphere, &result, colors[i%5]) );
sphere1->m_children.push_back(sphere2);
sphere1 = sphere2;
}
// We can release the sphere now, all the cylinders AddRef'd it.
SAFE_RELEASE(sphere);
}
//
D3DXMatrixTranslation(&trans,-25,20,20);
//D3DXMatrixScaling(&trans, -10, -10, -10);
ScaleMtrl scale;
scale.x = -50.0f;
scale.y = -50.0f;
scale.z = -50.0f;
boost::shared_ptr<SceneNode> xmesh1(new XMeshNode(L"gf3.x", d3dDevice, &trans, &scale));
root->m_children.push_back(xmesh1);
root->m_children.push_back(xmesh1);
/*D3DXMatrixTranslation(&trans,-45,20,20);
boost::shared_ptr<SceneNode> xmesh11(new XMeshNode(L"gf3.x", d3dDevice, &trans, &scale));
root->m_children.push_back(xmesh11);*/
XMeshNode *mm = new XMeshNode(L"gow_m1.x", d3dDevice, &trans, &scale);
D3DXMatrixTranslation(&trans,10,10,10);
//D3DXMatrixScaling(&trans, -10, -10, -10);
//ScaleMtrl scale;
scale.x = 100.0f;
scale.y = 100.0f;
scale.z = 100.0f;
boost::shared_ptr<SceneNode> xmesh2( new XMeshNode(L"gow_m1.x", d3dDevice, &trans, &scale));
root->m_children.push_back(xmesh2);
/*D3DXMatrixTranslation(&trans,20,20,20);
boost::shared_ptr<SceneNode> xmesh3(new XMeshNode(mm->m_mesh, mm->Mtrls, mm->Textures, &trans, 0));
root->m_children.push_back(xmesh3);*/
int col = 10;
int row= 10;
int zoom = 10;
const int COUNT = 13;
for(int i = 0; i < COUNT; i++)
{
for (int j = 0; j< COUNT; j++)
{
for(int z = 0; z< COUNT; z++)
{
D3DXMatrixTranslation(&trans, col + i, row + j , zoom + z);
boost::shared_ptr<SceneNode> xmeshNew(new XMeshNode(mm->m_mesh, mm->Mtrls, mm->Textures, &trans, 0));
root->m_children.push_back(xmeshNew);
}
}
}
//D3DXMatrixScaling(&trans, 10, 10, 10);
// Here are the grids...they make it easy for us to
// see where the coordinates are in 3D space.
boost::shared_ptr<SceneNode> grid1(new Grid(40, 0x00404040, L"Textures\\grid.dds", &ident));
root->m_children.push_back(grid1);
boost::shared_ptr<SceneNode> grid2(new Grid(40, 0x00004000, L"Textures\\grid.dds", &rotateX));
root->m_children.push_back(grid2);
boost::shared_ptr<SceneNode> grid3(new Grid(40, 0x00000040, L"Textures\\grid.dds", &rotateZ));
root->m_children.push_back(grid3);
// Here's the sky node that never worked!!!!
boost::shared_ptr<SkyNode> sky(new SkyNode(_T("Sky2"), camera));
root->m_children.push_back(sky);
D3DXMatrixTranslation(&trans,15,2,15);
D3DXMatrixRotationY(&rotateY, D3DX_PI / 4.0f);
D3DXMatrixMultiply(&result, &rotateY, &trans);
boost::shared_ptr<SceneNode> arrow1(new ArrowNode(2, &result, colors[0], d3dDevice));
root->m_children.push_back(arrow1);
D3DXMatrixRotationY(&rotateY, D3DX_PI / 2.0f);
D3DXMatrixMultiply(&result, &rotateY, &trans);
boost::shared_ptr<SceneNode> arrow2(new ArrowNode(2, &result, colors[5], d3dDevice));
root->m_children.push_back(arrow2);
D3DXMatrixMultiply(&result, &rotateX, &trans);
boost::shared_ptr<SceneNode> arrow3(new ArrowNode(2, &result, colors[0], d3dDevice));
root->m_children.push_back(arrow3);
// Everything has been attached to the root. Now
// we attach the root to the scene.
Scene *scene = new Scene(d3dDevice, root);
scene->Restore();
// A movement controller is going to control the camera,
// but it could be constructed with any of the objects you see in this
// function. You can have your very own remote controlled sphere. What fun...
boost::shared_ptr<MovementController> m_pMovementController(new MovementController(camera, cameraYaw, cameraPitch));
scene->m_pMovementController = m_pMovementController;
return scene;
}
int main(int argc, char* argv[])
{
// Build your scene and setup your camera here, by calling
// functions from Raytracer. The code here sets up an example
// scene and renders it from two different view points, DO NOT
// change this if you're just implementing part one of the
// assignment.
Raytracer raytracer;
int width = 320;
int height = 240;
if (argc == 3) {
width = atoi(argv[1]);
height = atoi(argv[2]);
}
/***********************************************************Testing ********************************
// Camera parameters.
Point3D eye(0, 0, 1);
Vector3D view(0, 0, -1);
Vector3D up(0, 1, 0);
double fov = 60;
// Defines a material for shading.
Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648),
Colour(0.628281, 0.555802, 0.366065),
51.2,0.3,0,NULL );
Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63),
Colour(0.316228, 0.316228, 0.316228),
12.8,0.3,0,NULL);
// Defines a point light source.
raytracer.addLightSource( new PointLight(Point3D(0.0, 0, 5),
Colour(0.9, 0.9, 0.9) ) );
// Add a unit square into the scene with material mat.
SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &gold );
SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade );
// Apply some transformations to the unit square.
double factor1[3] = { 1.0, 2.0, 1.0 };
double factor2[3] = { 6.0, 6.0, 6.0 };
raytracer.translate(sphere, Vector3D(0, 0, -5));
raytracer.rotate(sphere, 'x', -45);
raytracer.rotate(sphere, 'z', 45);
raytracer.scale(sphere, Point3D(0, 0, 0), factor1);
raytracer.translate(plane, Vector3D(0, 0, -7));
raytracer.rotate(plane, 'z', 45);
raytracer.scale(plane, Point3D(0, 0, 0), factor2);
// Render the scene, feel free to make the image smaller for
// testing purposes.
raytracer.render(width, height, eye, view, up, fov, "view4.bmp");
// Render it from a different point of view.
Point3D eye2(4, 2, 1);
Vector3D view2(-4, -2, -6);
raytracer.render(width, height, eye2, view2, up, fov, "view5.bmp");
***********************************************************Testing ********************************/
/***********************************************************Final Scene********************************/
// Camera parameters.
// Point3D eye(0, 8, -3);
// Vector3D view(0, -1,0);
Point3D eye(0, 0, 1);
Vector3D view(0, 0, -1);
Vector3D up(0, 1, 0);
double fov = 60;
// Defines a material for shading.
Material gold( Colour(0.3, 0.3, 0.3), Colour(0.75164, 0.60648, 0.22648),
Colour(0.628281, 0.555802, 0.366065),
51.2,0.2,NULL);
// Material jade( Colour(0, 0, 0), Colour(0.54, 0.89, 0.63),
// Colour(0.316228, 0.316228, 0.316228),
// 12.8,0.5,NULL);
Material jade( Colour(0, 0, 0), Colour(0.47, 0.576, 0.859),
Colour(0.316228, 0.316228, 0.316228),
12.8,0.5,NULL);
Material red( Colour(0.3, 0.3, 0.3), Colour(1, 0, 0),
Colour(0.628281, 0.555802, 0.366065),
51.2,0.2,NULL);
Material white( Colour(0.3, 0.3, 0.3), Colour(1, 0.8549, 0.7255),
Colour(0.628281, 0.555802, 0.366065),
51.2,0.2,NULL);
Material pink( Colour(0.3, 0.3, 0.3), Colour(0.9412, 0.502, 0.502),
Colour(0.628281, 0.555802, 0.366065),
51.2,0.2,NULL);
Material mirror( Colour(0.0, 0.0, 0.0), Colour(0.0, 0.0, 0.0),
Colour(0.0, 0.0, 0.0),
51.2,1,NULL);
Material glass( Colour(0.3, 0.3, 0.3), Colour(1, 1, 1),
Colour(0.628281, 0.555802, 0.366065),
51.2,0,1,NULL);
glass.R_index = 1.3;
glass.transparency_coef=1;
// Defines a point light source.
raytracer.addLightSource( new PointLight(Point3D(0, 0, 5),
Colour(0.9, 0.9, 0.9) ) );
raytracer.addLightSource( new PointLight(Point3D(0, 6, -1),
Colour(0.9, 0.3, 0.1) ) );
Material test( Colour(0.3, 0.3, 0.3), Colour(0.3, 0.60648, 0.22648),
Colour(0.628281, 0.555802, 0.366065),
51.2 ,0.1,NULL);
Material test3( Colour(0.3, 0.3, 0.3), Colour(0.3, 0.5, 0.22648),
Colour(0.628281, 0.555802, 0.366065),
51.2,1,NULL );
Material test2( Colour(0, 0, 0), Colour(0.3, 0.3, 0.3),
Colour(1.0, 1.0, 1.0),
51.2,0,NULL );
Texture sky("/Users/bingxu/Documents/graphics/COMP3271_assignment_4_template/raytracerMacOS/sky.bmp");
Texture board("/Users/bingxu/Documents/graphics/COMP3271_assignment_4_template/raytracerMacOS/board.bmp");
Material starrysky(Colour(0, 0, 0),Colour(0, 0, 0),
Colour(0.1, 0.1, 0.1), 11.264, 0, &sky);
Material board_mat(Colour(0, 0, 0),Colour(0, 0, 0),
Colour(0.1, 0.1, 0.1), 11.264, 1, &board);
SceneDagNode* plane = raytracer.addObject( new UnitSquare(), &jade );
SceneDagNode* plane1 = raytracer.addObject( new UnitSquare(), &jade );
SceneDagNode* plane2 = raytracer.addObject( new UnitSquare(), &board_mat );//the bottom
SceneDagNode* sphere = raytracer.addObject( new UnitSphere(), &mirror);
SceneDagNode* sphere1 = raytracer.addObject( new UnitSphere(), &white );
SceneDagNode* mars = raytracer.addObject( new UnitSphere(), &glass );
SceneDagNode* earth = raytracer.addObject( new UnitSphere(), &pink );
SceneDagNode* cylinder1 = raytracer.addObject( new UnitFiniteCylinder(), &gold );
SceneDagNode* cylinder2 = raytracer.addObject( new UnitFiniteCylinder(), &gold );
SceneDagNode* cylinder3 = raytracer.addObject( new UnitFiniteCylinder(), &gold );
SceneDagNode* cone = raytracer.addObject( new UnitFiniteCone(), &red );
double factor1[3] = { 2.0, 2.0, 2.0 };
double factor2[3] = {50,50,50};
double factor3[3] = { 1.0, 1.0, 1.0};
double factor4[3] = { 1.0, 2, 1.0};
double factor5[3] = {0.5,0.5,0.5};
double factor6[3] = {0.5,1.5,0.5};
double factor7[3] = {1.0,4.0,1.0};
//3 squares
raytracer.translate(plane, Vector3D(0, 0, -15));
raytracer.scale(plane, Point3D(0, 0, 0), factor2);
raytracer.translate(plane1, Vector3D(-15, 0, 0));
raytracer.rotate(plane1, 'y', 90);
raytracer.scale(plane1, Point3D(0, 0, 0), factor2);
raytracer.translate(plane2, Vector3D(0, -8, 0));
raytracer.rotate(plane2, 'x', -90);
raytracer.scale(plane2, Point3D(0, 0, 0), factor2);
//four balls
raytracer.translate(sphere, Vector3D(-1, -6, -2));
raytracer.scale(sphere, Point3D(0, 0, 0), factor3);
raytracer.translate(sphere1,Vector3D(-4.5, -6, 1));
raytracer.scale(sphere1, Point3D(0, 0, 0), factor3);
raytracer.translate(mars, Vector3D(3, -3, -1));
raytracer.scale(mars, Point3D(0, 0, 0), factor3);
raytracer.translate(earth, Vector3D(-8, -6, -2));
raytracer.scale(earth, Point3D(0, 0, 0), factor3);
raytracer.rotate(cylinder1, 'z', -30);
//raytracer.rotate(cylinder1, 'x', -15);
raytracer.translate(cylinder1, Vector3D(0, -4, -2));
raytracer.scale(cylinder1, Point3D(0, 0, 0), factor7);
raytracer.rotate(cylinder2, 'z', -30);
raytracer.translate(cylinder2, Vector3D(1.5, -3, -2));
raytracer.scale(cylinder2, Point3D(0, 0, 0), factor6);
raytracer.rotate(cylinder3, 'z', -30);
raytracer.translate(cylinder3, Vector3D(-1.5, -3, -2));
raytracer.scale(cylinder3, Point3D(0, 0, 0), factor6);
raytracer.rotate(cone, 'z', -30);
raytracer.translate(cone, Vector3D(0, 2, -2));
raytracer.scale(cone, Point3D(0, 0, 0), factor4);
std::clock_t start;
double duration;
start = std::clock();
// raytracer.render(width, height, eye, view, up, fov, "view4.bmp");
duration = ( std::clock() - start ) / (double) CLOCKS_PER_SEC;
//std::cout<<"The rendering duration 1 is .......: "<< duration <<'\n';
// Render it from a different point of view.
Point3D eye2(3, 1, 5);
Vector3D view2(-10, -8, -15);
std::clock_t start1;
double duration1;
start1 = std::clock();
raytracer.render(width, height, eye2, view2, up, fov, "view5.bmp");
duration1 = ( std::clock() - start1 ) / (double) CLOCKS_PER_SEC;
// std::cout<<"The rendering duration 2 is .......: "<< duration1 <<'\n';
/***********************************************************Final Scene********************************/
return 0;
}
int main(int argc, char** argv)
{
if(argc != 3)
{
std::cerr << "syntax: " << argv[0] << " input_sky.hdr output.ppm" << std::endl;
return EXIT_FAILURE;
}
// Load the sky
mcvoxel::sky sky(argv[1]);
// Size of output
const int w(850), h(480);
// Create a camera
mcvoxel::camera camera;
camera.set_centre(Eigen::Vector3f(0.f, 128.f, 0.f));
camera.set_focal_length(h);
camera.yaw_left(190.f * (2.f * M_PI / 360.f));
//camera.pitch_up(-20.f * (2.f * M_PI / 360.f));
camera.pitch_up(20.f * (2.f * M_PI / 360.f));
// What is the ray corresponding to (0,0)
mcvoxel::ray origin_ray(camera.eye_ray(0.f,0.f));
std::cout << "Camera origin: " << origin_ray.origin().transpose() << '\n';
std::cout << " Looking at: " << origin_ray.direction().transpose() << '\n';
// Create a collection of pixel samples which is 3x(w*h)
Eigen::ArrayXXf samples(3, w*h);
// Get camera vectors
Eigen::Vector3f centre, look_at, up, right;
camera.get_frame(centre, look_at, up, right);
// Draw samples from the sky.
for(int j=0; j<15; ++j)
{
std::cout << "j: " << j << std::endl;
for(int i=0; i<w*h; ++i)
{
Eigen::Vector3f direction, chrominance;
sky.sample_direction(direction, chrominance);
// Get the image-plane co-ordinates for that ray
float x, y;
if(!camera.pixel_coord(direction, x, y))
continue;
// convert to image pixel co-ordinate
x = floor(x + 0.5f * w); y = floor(-y + 0.5f * h);
if((x < 0.f) || (x >= w) || (y < 0.f) || (y >= h))
continue;
int idx = static_cast<int>(y) * w + static_cast<int>(x);
samples.matrix().col(idx) += chrominance;
}
}
std::cout << "Rendering done." << std::endl;
// Poor-man's tone-mapping
Eigen::ArrayXXf tone_mapped_samples((samples / std::max(1e-3f, samples.maxCoeff())).cwiseSqrt());
std::vector<data::pixel<uint8_t> > pixels(w*h, data::pixel<uint8_t>(0,0,0));
for(int i=0; i<w*h; ++i)
{
pixels[i].r = static_cast<uint8_t>(255.f * tone_mapped_samples(0,i));
pixels[i].g = static_cast<uint8_t>(255.f * tone_mapped_samples(1,i));
pixels[i].b = static_cast<uint8_t>(255.f * tone_mapped_samples(2,i));
}
std::ofstream output(argv[2]);
io::write_ppm(output, &(pixels[0]), w, h);
return EXIT_SUCCESS;
}
void SceneObjectEntryPointSurf::onAdd() {
// Physics
std::shared_ptr<pge::SceneObjectPhysicsWorld> physicsWorld(new pge::SceneObjectPhysicsWorld());
getRenderScene()->addNamed(physicsWorld, "physWrld");
pge::SceneObjectRef lighting = getScene()->getNamed("lighting");
pge::SceneObjectLighting* pLighting = static_cast<pge::SceneObjectLighting*>(lighting.get());
pLighting->_ambientLight = pge::Vec3f(0.01f, 0.01f, 0.01f);
/*std::shared_ptr<pge::SceneObjectDirectionalLightShadowed> light(new pge::SceneObjectDirectionalLightShadowed());
getRenderScene()->add(light);
light->create(pLighting, 2, 2048, 0.5f, 100.0f, 0.6f);
light->setDirection(pge::Vec3f(-0.4f, -1.0f, 0.6f).normalized());
light->setColor(pge::Vec3f(1.0f, 1.0f, 1.0f));*/
// GUI
/*std::shared_ptr<SceneObjectGUI> gui(new SceneObjectGUI());
getRenderScene()->addNamed(gui, "gui", false);
gui->_layer = 2.0f;*/
// Control
std::shared_ptr<SceneObjectOrbitCamera> camera(new SceneObjectOrbitCamera());
getRenderScene()->add(camera, false);
// Map
/*std::shared_ptr<pge::Map3DWS> map(new pge::Map3DWS());
map->_settings._pScene = getScene();
map->createAsset("resources/maps/horrorMap.3dw");
pge::addMapLights(*map, getScene());*/
std::shared_ptr<SceneObjectProp> prop(new SceneObjectProp());
getScene()->add(prop, true);
prop->create("resources/models/BlockGame.obj");
prop->calculateAABB();
std::shared_ptr<SceneObjectSurf> cartPole(new SceneObjectSurf());
getRenderScene()->add(cartPole, false);
cartPole->create();
cartPole->_layer = 100.0f;
std::shared_ptr<SceneObjectProp> sky(new SceneObjectProp());
getScene()->add(sky, true);
sky->create("resources/models/skybox1.obj");
sky->_transform = pge::Matrix4x4f::scaleMatrix(pge::Vec3f(100.0f, 100.0f, 100.0f));
sky->calculateAABB();
std::shared_ptr<pge::SceneObjectDirectionalLightShadowed> directionalLight(new pge::SceneObjectDirectionalLightShadowed());
getScene()->add(directionalLight);
directionalLight->create(pLighting, 3, 2048, 0.2f, 100.0f, 0.6f);
directionalLight->setDirection(pge::Vec3f(-0.2523f, -0.9423f, -0.424f).normalized());
directionalLight->setColor(pge::Vec3f(0.7f, 0.7f, 0.7f));
// ------------------------------------------- Image Effects -------------------------------------------
std::shared_ptr<pge::SceneObjectEffectBuffer> effectBuffer(new pge::SceneObjectEffectBuffer());
getRenderScene()->addNamed(effectBuffer, "ebuf", false);
effectBuffer->create(0.5f);
std::shared_ptr<pge::Asset> assetBlurHorizontal;
getScene()->getAssetManager("shader", pge::Shader::assetFactory)->getAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/blurHorizontal.frag", assetBlurHorizontal);
std::shared_ptr<pge::Shader> blurShaderHorizontal = std::static_pointer_cast<pge::Shader>(assetBlurHorizontal);
std::shared_ptr<pge::Asset> assetBlurVertical;
getScene()->getAssetManager("shader", pge::Shader::assetFactory)->getAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/blurVertical.frag", assetBlurVertical);
std::shared_ptr<pge::Shader> blurShaderVertical = std::static_pointer_cast<pge::Shader>(assetBlurVertical);
std::shared_ptr<pge::Asset> assetRenderImage;
getScene()->getAssetManager("shader", pge::Shader::assetFactory)->getAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/renderImage.frag", assetRenderImage);
std::shared_ptr<pge::Shader> renderImageShader = std::static_pointer_cast<pge::Shader>(assetRenderImage);
std::shared_ptr<pge::Asset> assetRenderMultImage;
getScene()->getAssetManager("shader", pge::Shader::assetFactory)->getAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/renderImageMult.frag", assetRenderMultImage);
std::shared_ptr<pge::Shader> renderImageMultShader = std::static_pointer_cast<pge::Shader>(assetRenderMultImage);
std::shared_ptr<pge::Asset> assetNoise;
getScene()->getAssetManager("tex2D", pge::Texture2D::assetFactory)->getAsset("resources/textures/noise.bmp", assetNoise);
std::shared_ptr<pge::Texture2D> noiseMap = std::static_pointer_cast<pge::Texture2D>(assetNoise);
noiseMap->bind();
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_REPEAT);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
std::shared_ptr<pge::Asset> assetBlurHorizontalEdgeAware;
getScene()->getAssetManager("shader", pge::Shader::assetFactory)->getAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/blurHorizontalEdgeAware.frag", assetBlurHorizontalEdgeAware);
std::shared_ptr<pge::Shader> blurShaderHorizontalEdgeAware = std::static_pointer_cast<pge::Shader>(assetBlurHorizontalEdgeAware);
std::shared_ptr<pge::Asset> assetBlurVerticalEdgeAware;
getScene()->getAssetManager("shader", pge::Shader::assetFactory)->getAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/blurVerticalEdgeAware.frag", assetBlurVerticalEdgeAware);
std::shared_ptr<pge::Shader> blurShaderVerticalEdgeAware = std::static_pointer_cast<pge::Shader>(assetBlurVerticalEdgeAware);
// SSAO
/*std::shared_ptr<pge::Shader> ssaoShader(new pge::Shader());
ssaoShader->createAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/imageeffects/ssao.frag");
std::shared_ptr<pge::SceneObjectSSAO> ssao(new pge::SceneObjectSSAO());
getRenderScene()->add(ssao, false);
ssao->create(blurShaderHorizontal, blurShaderVertical, ssaoShader, renderImageShader, noiseMap);
ssao->_ssaoRadius = 0.1f;
ssao->_ssaoStrength = 1.0f;
ssao->_blurRadius = 0.002f;
ssao->_numBlurPasses = 1;*/
// SSR
std::shared_ptr<pge::TextureCube> cubeMap(new pge::TextureCube());
cubeMap->createAsset(
"resources/environmentmaps/skybox1/CloudyLightRaysLeft2048.png "
"resources/environmentmaps/skybox1/CloudyLightRaysRight2048.png "
"resources/environmentmaps/skybox1/CloudyLightRaysBack2048.png "
"resources/environmentmaps/skybox1/CloudyLightRaysFront2048.png "
"resources/environmentmaps/skybox1/CloudyLightRaysDown2048.png "
"resources/environmentmaps/skybox1/CloudyLightRaysUp2048.png "
);
std::shared_ptr<pge::Shader> ssrShader(new pge::Shader());
ssrShader->createAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/imageeffects/ssr.frag");
std::shared_ptr<pge::SceneObjectSSR> ssr(new pge::SceneObjectSSR());
getRenderScene()->add(ssr, false);
ssr->create(blurShaderHorizontalEdgeAware, blurShaderVerticalEdgeAware, ssrShader, renderImageShader, cubeMap, noiseMap);
ssr->_layer = 1.0f;
// Light Scattering
/*std::shared_ptr<pge::Shader> lightScatteringShader(new pge::Shader());
lightScatteringShader->createAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/imageeffects/lightScattering.frag");
std::shared_ptr<pge::SceneObjectLightScattering> lightScattering(new pge::SceneObjectLightScattering());
getRenderScene()->add(lightScattering, false);
lightScattering->create(blurShaderHorizontal, blurShaderVertical, lightScatteringShader, renderImageShader);
lightScattering->_layer = 1.5f;
lightScattering->_lightSourcePosition = -light->getDirection() * 200.0f;
lightScattering->_lightSourceColor = pge::Vec3f(1.0f, 0.9f, 0.8f) * 0.5f;*/
// Depth of field
/*std::shared_ptr<pge::Shader> depthOfFieldBlurShaderHorizontal(new pge::Shader());
depthOfFieldBlurShaderHorizontal->createAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/imageeffects/depthOfFieldBlurHorizontal.frag");
std::shared_ptr<pge::Shader> depthOfFieldBlurShaderVertical(new pge::Shader());
depthOfFieldBlurShaderVertical->createAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/imageeffects/depthOfFieldBlurVertical.frag");
std::shared_ptr<pge::SceneObjectDepthOfField> depthOfField(new pge::SceneObjectDepthOfField());
getRenderScene()->add(depthOfField, false);
depthOfField->create(depthOfFieldBlurShaderHorizontal, depthOfFieldBlurShaderVertical, renderImageShader);
depthOfField->_layer = 1.5f;
depthOfField->_focalDistance = 9.0f;
depthOfField->_focalRange = 0.4f;
depthOfField->_blurRadius = 0.002f;
depthOfField->_numBlurPasses = 1;*/
// FXAA
std::shared_ptr<pge::Shader> lumaShader(new pge::Shader());
lumaShader->createAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/imageeffects/lumaRender.frag");
std::shared_ptr<pge::Shader> fxaaShader(new pge::Shader());
fxaaShader->createAsset("NONE resources/shaders/noTransformVertex.vert resources/shaders/imageeffects/fxaa.frag");
std::shared_ptr<pge::SceneObjectFXAA> fxaa(new pge::SceneObjectFXAA());
getRenderScene()->add(fxaa, false);
fxaa->create(fxaaShader, lumaShader);
destroy();
}
int main(int argc, char *argv[])
{
#ifdef KSTARS_LITE
QApplication::setAttribute(Qt::AA_EnableHighDpiScaling);
#endif
QApplication app(argc, argv);
#ifdef Q_OS_OSX
//Note, this function will return true on OS X if the data directories are good to go. If not, quit with error code 1!
if(!KSUtils::copyDataFolderFromAppBundleIfNeeded()){
KMessageBox::sorry(0, i18n("Sorry, without a KStars Data Directory, KStars cannot operate. Exiting program now."));
return 1;
}
#endif
app.setApplicationVersion(KSTARS_VERSION);
/**
* enable high dpi support
*/
app.setAttribute(Qt::AA_UseHighDpiPixmaps, true);
KLocalizedString::setApplicationDomain("kstars");
#ifndef KSTARS_LITE
KCrash::initialize();
KAboutData aboutData( "kstars", i18n("KStars"), KSTARS_VERSION, i18n(description), KAboutLicense::GPL,
"2001-" + QString::number(QDate::currentDate().year()) + i18n("(c), The KStars Team"), i18n(notice), "http://edu.kde.org/kstars");
aboutData.addAuthor(i18n("Jason Harris"), i18n("Original Author"), "*****@*****.**", "http://www.30doradus.org");
aboutData.addAuthor(i18n("Jasem Mutlaq"), i18n("Current Maintainer"), "*****@*****.**", "http://www.indilib.org");
// Active developers
aboutData.addAuthor(i18n("Akarsh Simha"), QString(), "*****@*****.**", "http://www.ph.utexas.edu/~asimha");
aboutData.addAuthor(i18n("Artem Fedoskin"), i18n("KStars Lite"), "*****@*****.**");
aboutData.addAuthor(i18n("Robert Lancaster"), i18n("FITSViewer Improvements. KStars OSX Port"), "*****@*****.**");
// Inactive developers
aboutData.addAuthor(i18n("James Bowlin"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Pablo de Vicente"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Thomas Kabelmann"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Heiko Evermann"),QString(), "*****@*****.**", "http://www.evermann.de");
aboutData.addAuthor(i18n("Carsten Niehaus"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Mark Hollomon"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Alexey Khudyakov"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Médéric Boquien"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Jérôme Sonrier"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Prakash Mohan"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Victor Cărbune"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Henry de Valence"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Samikshan Bairagya"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Rafał Kułaga"), QString(), "*****@*****.**");
aboutData.addAuthor(i18n("Rishab Arora"), QString(), "*****@*****.**");
// Contributors
aboutData.addCredit(i18n("Valery Kharitonov"), i18n("Converted labels containing technical terms to links to documentation") );
aboutData.addCredit(i18n("Ana-Maria Constantin"), i18n("Technical documentation on Astronomy and KStars") );
aboutData.addCredit(i18n("Andrew Stepanenko"), i18n("Guiding code based on lin_guider") );
aboutData.addCredit(i18n("Nuno Pinheiro"), i18n("Artwork") );
aboutData.addCredit(i18n("Utkarsh Simha"), i18n("Improvements to observation plan execution, star hopper etc.") );
aboutData.addCredit(i18n("Daniel Holler"), i18n("Extensive testing and suggestions for Ekos/INDI.") );
aboutData.addCredit(i18n("Stephane Lucas"), i18n("Extensive testing and suggestions for Ekos Scheduler.") );
aboutData.addCredit(i18n("Yuri Fabirovsky"), i18n("Splash screen for both regular KStars and KStars Lite.") );
KAboutData::setApplicationData(aboutData);
QCommandLineParser parser;
aboutData.setupCommandLine(&parser);
parser.setApplicationDescription(aboutData.shortDescription());
parser.addVersionOption();
parser.addHelpOption();
//parser.addHelpOption(INSERT_DESCRIPTION_HERE);
parser.addOption(QCommandLineOption(QStringList() << "dump", i18n( "Dump sky image to file" )));
parser.addOption(QCommandLineOption(QStringList() << "script ", i18n( "Script to execute" )));
parser.addOption(QCommandLineOption(QStringList() << "width ", i18n( "Width of sky image" ), "640"));
parser.addOption(QCommandLineOption(QStringList() << "height ", i18n( "Height of sky image" ), "480"));
parser.addOption(QCommandLineOption(QStringList() << "filename ", i18n( "Filename for sky image" ), "kstars.png"));
parser.addOption(QCommandLineOption(QStringList() << "date", i18n( "Date and time" )));
parser.addOption(QCommandLineOption(QStringList() << "paused", i18n( "Start with clock paused" )));
// urls to open
parser.addPositionalArgument(QStringLiteral("urls"), i18n("FITS file(s) to open."), QStringLiteral("[urls...]"));
parser.process(app);
aboutData.processCommandLine(&parser);
if ( parser.isSet( "dump" ) )
{
qDebug() << "Dumping sky image";
//parse filename and image format
const char* format = "PNG";
QString fname = parser.value( "filename" );
QString ext = fname.mid( fname.lastIndexOf(".")+1 );
if ( ext.toLower() == "png" ) { format = "PNG"; }
else if ( ext.toLower() == "jpg" || ext.toLower() == "jpeg" ) { format = "JPG"; }
else if ( ext.toLower() == "gif" ) { format = "GIF"; }
else if ( ext.toLower() == "pnm" ) { format = "PNM"; }
else if ( ext.toLower() == "bmp" ) { format = "BMP"; }
else { qWarning() << i18n( "Could not parse image format of %1; assuming PNG.", fname ) ; }
//parse width and height
bool ok(false);
int w(0), h(0);
w = parser.value( "width" ).toInt( &ok );
if ( ok ) h = parser.value( "height" ).toInt( &ok );
if ( !ok ) {
qWarning() << "Unable to parse arguments: " ;
qWarning() << "Width: " << parser.value( "width" )
<< " Height: " << parser.value( "height" ) << endl;
return 1;
}
KStarsData *dat = KStarsData::Create();
QObject::connect( dat, SIGNAL( progressText(QString) ), dat, SLOT( slotConsoleMessage(QString) ) );
dat->initialize();
//Set Geographic Location
dat->setLocationFromOptions();
//Set color scheme
dat->colorScheme()->loadFromConfig();
//set clock now that we have a location:
//Check to see if user provided a date/time string. If not, use current CPU time
QString datestring = parser.value( "date" );
KStarsDateTime kdt;
if ( ! datestring.isEmpty() ) {
if ( datestring.contains( "-" ) ) { //assume ISODate format
if ( datestring.contains( ":" ) ) { //also includes time
//kdt = QDateTime::fromString( datestring, QDateTime::ISODate );
kdt = QDateTime::fromString( datestring, Qt::ISODate );
} else { //string probably contains date only
//kdt.setDate( QDate::fromString( datestring, Qt::ISODate ) );
kdt.setDate( QDate::fromString( datestring, Qt::ISODate ) );
kdt.setTime( QTime( 0, 0, 0 ) );
}
} else { //assume Text format for date string
kdt = dat->geo()->LTtoUT( QDateTime::fromString( datestring, Qt::TextDate ) );
}
if ( ! kdt.isValid() ) {
qWarning() << i18n( "Using CPU date/time instead." ) ;
kdt = KStarsDateTime::currentDateTimeUtc();
}
} else {
kdt = KStarsDateTime::currentDateTimeUtc();
}
dat->clock()->setUTC( kdt );
SkyMap *map = SkyMap::Create();
map->resize( w, h );
QPixmap sky( w, h );
dat->setFullTimeUpdate();
dat->updateTime(dat->geo(), map );
SkyPoint dest( Options::focusRA(), Options::focusDec() );
map->setDestination( dest );
map->destination()->EquatorialToHorizontal( dat->lst(), dat->geo()->lat() );
map->setFocus( map->destination() );
map->focus()->EquatorialToHorizontal( dat->lst(), dat->geo()->lat() );
//Execute the specified script
QString scriptfile = parser.value( "script" );
if ( ! scriptfile.isEmpty() ) {
if ( dat->executeScript( scriptfile, map ) ) {
std::cout << i18n( "Script executed." ).toUtf8().data() << std::endl;
} else {
qWarning() << i18n( "Could not execute script." ) ;
}
}
qApp->processEvents();
map->setupProjector();
map->exportSkyImage( &sky );
qApp->processEvents();
if ( ! sky.save( fname, format ) )
qWarning() << "Unable to save image: " << fname;
else
qDebug() << "Saved to file: %1" << fname;
delete map;
delete dat;
return 0;
}
//Try to parse the given date string
QString datestring = parser.value( "date" );
if ( ! datestring.isEmpty() && ! KStarsDateTime::fromString( datestring ).isValid() )
{
qWarning() << i18n( "Using CPU date/time instead." ) ;
datestring.clear();
}
#endif
// Create writable data dir if it does not exist
QDir writableDir;
writableDir.mkdir(KSPaths::writableLocation(QStandardPaths::GenericDataLocation));
#ifndef KSTARS_LITE
KStars::createInstance( true, ! parser.isSet( "paused" ), datestring );
// no session.. just start up normally
const QStringList urls = parser.positionalArguments();
// take arguments
if( ! urls.isEmpty() )
{
foreach (const QString &url, urls) {
const QUrl u = QUrl::fromUserInput(url, QDir::currentPath());
KStars::Instance()->openFITS(u);
}
}
void TRACKS()
{
sky();
tree_one();
tree_one_body();
tree_two();
tree_two_body();
wall();
platform();
//quad();
woman();
resting();
home();
/*body_one();
window_one();
c_one();
body_two();
window_two();
door_one();
c_two();
body_three();
window_three();
door_two();
c_three();
body_four();
window_four();
door_three();*/
//
glBegin(GL_LINES);// samner lomba line
glColor3f(0.0,0.0,0.0);
glVertex2f(0,85);
glVertex2f(999,85);
glVertex2f(999,84);
glVertex2f(0,84);
glVertex2f(0,82);
glVertex2f(999,82);
glVertex2f(999,78);
glVertex2f(0,78);
glVertex2f(0,147);
glVertex2f(999,147);
glVertex2f(999,148);
glVertex2f(0,148);
glVertex2f(0,152);
glVertex2f(999,152);
glVertex2f(0,150);
glVertex2f(999,150);
glEnd();
quad();
/** boundery strt **/
/* glBegin(GL_LINES);// samner boundery
glColor3f(0.0,0.0,0.0);
glVertex2f(0,300);
glVertex2f(1000,300);
glVertex2f(0,297);
glVertex2f(1000,297);
glColor3f(0.0,0.0,0.0);//boundery samner
glVertex2f(0,295);
glVertex2f(1000,295);
glVertex2f(0,293);
glVertex2f(1000,293);
glColor3f(0.0,0.0,0.0);
glVertex2f(0,400);
glVertex2f(1000,400);
glVertex2f(0,397);
glVertex2f(1000,397);
glColor3f(.1111,.10,.0);
glVertex2f(0,395);
glVertex2f(1000,395);
glVertex2f(0,393);
glVertex2f(1000,393);
glColor3f(.1111,.10,.0);
glVertex2f(0,304);
glVertex2f(1000,304);
glVertex2f(0,305);
glVertex2f(1000,305);// samner railline shes
// sliper
while(c!=1000)
{
glVertex2f(c,d);
glVertex2f(c,d+120);
c+=10;
}
glEnd();*/
/** boundery finish **/
}
int main()
{
sf::RenderWindow window(sf::VideoMode(480,800), "SFML works!");
sf::Texture sky_texture;
if (!sky_texture.loadFromFile("background.png",sf::IntRect(0,0,480,800)))
return EXIT_FAILURE;
sf::Sprite sky(sky_texture);
sf::Texture player_texture;
if (!player_texture.loadFromFile("shoot.png",sf::IntRect(0,100,103,133)))
return EXIT_FAILURE;
sf::Sprite player_sprite(player_texture);
player_sprite.setPosition(sf::Vector2f(200, 600));
x=200;
y=600;
sf::Texture forpowerup;
if (!forpowerup.loadFromFile("shoot.png",sf::IntRect(266,398,62,88)))
return EXIT_FAILURE;
sf::Sprite powerup(forpowerup);
sf::Texture enemy_texture;
if (!enemy_texture.loadFromFile("shoot.png",sf::IntRect(0,0,68,100)))
return EXIT_FAILURE;
sf::Sprite enemy_sprite(enemy_texture);
sf::Texture destroy1;
if (!destroy1.loadFromFile("shoot.png",sf::IntRect(532,650,68,100)))
return EXIT_FAILURE;
sf::Sprite spdestroy1(destroy1);
sf::Texture destroy2;
if (!destroy2.loadFromFile("shoot.png",sf::IntRect(605,650,68,100)))
return EXIT_FAILURE;
sf::Sprite spdestroy2(destroy2);
sf::Texture destroy3;
if (!destroy3.loadFromFile("shoot.png",sf::IntRect(670,650,68,100)))
return EXIT_FAILURE;
sf::Sprite spdestroy3(destroy3);
sf::Texture destroy4;
if (!destroy4.loadFromFile("shoot.png",sf::IntRect(740,650,68,100)))
return EXIT_FAILURE;
sf::Sprite spdestroy4(destroy4);
sf::Texture you1;
if (!you1.loadFromFile("shoot.png",sf::IntRect(166,236,103,120)))
return EXIT_FAILURE;
sf::Sprite dyou1(you1);
sf::Texture you2;
if (!you2.loadFromFile("shoot.png",sf::IntRect(330,626,103,120)))
return EXIT_FAILURE;
sf::Sprite dyou2(you2);
sf::Texture you3;
if (!you3.loadFromFile("shoot.png",sf::IntRect(330,500,103,120)))
return EXIT_FAILURE;
sf::Sprite dyou3(you3);
sf::SoundBuffer bgm;
if (!bgm.loadFromFile("game_music.ogg"))
return -1;
sf::Sound bgm1;
bgm1.setBuffer(bgm);
bgm1.play();
sf::SoundBuffer enemydown;
if (!enemydown.loadFromFile("enemy1_down.ogg"))
return -1;
sf::Sound enemydown1;
enemydown1.setBuffer(enemydown);
sf::SoundBuffer _player_down;
if (!_player_down.loadFromFile("youdown.ogg"))
return -1;
sf::Sound player_down;
player_down.setBuffer(_player_down);
sf::Texture player_bullet_texture;
if (!player_bullet_texture.loadFromFile("shoot.png",sf::IntRect(69,78,10,22)))
return -1;
sf::Sprite player_bullet_sprite(player_bullet_texture);
sf::Texture enemy_bullet_texture;
if (!enemy_bullet_texture.loadFromFile("shoot.png",sf::IntRect(1002,990,10,22)))
return -1;
sf::Sprite enemy_bullet_sprite(enemy_bullet_texture);
//¼ÓÔØ×ÖÌåÎļþ
sf::Font font;
if (!font.loadFromFile("score.ttf"))
return -1;
sf::Text showscore;
showscore.setFont(font);
showscore.setString(scorestr);
showscore.setCharacterSize(40);
showscore.setColor(sf::Color::White);
sf::Text text;
text.setFont(font);
text.setString("Score");
text.setCharacterSize(40);
text.setColor(sf::Color::White);
sf::Text die;
die.setFont(font);
die.setCharacterSize(22);
die.setString("You life:2/3,press Tab to continue");
die.setColor(sf::Color::White);
sf::Text gg;
gg.setFont(font);
gg.setCharacterSize(40);
gg.setString("GAME OVER");
gg.setColor(sf::Color::Red);
while (window.isOpen())
{
sf::Event event;
while (window.pollEvent(event))
{
if (event.type == sf::Event::Closed)
window.close();
}
window.draw(sky);
if (youlive>0)
{
if (destroyyou==0)
{
if (sf::Keyboard::isKeyPressed(sf::Keyboard::Right)&&x<380)
{
player_sprite.move(.5,0);
x+=0.5;
}
if (sf::Keyboard::isKeyPressed(sf::Keyboard::Left)&&x>0)
{
player_sprite.move(-.5,0);
x-=0.5;
}
if (sf::Keyboard::isKeyPressed(sf::Keyboard::Up)&&y>0)
{
player_sprite.move(0,-.5);
y-=0.5;
}
if (sf::Keyboard::isKeyPressed(sf::Keyboard::Down)&&y<660)
{
player_sprite.move(0,.5);
y+=0.5;
}
if (sf::Keyboard::isKeyPressed(sf::Keyboard::Space))
{
bullet_f_control();
}
window.draw(player_sprite);
}
for (i=1;i<=100;i++)
{
if (bullet_is[i]==1)
{
bullet_y[i]-=0.7;
bullet_x[i]+=bullet_limit[i]*0.3;
if (bullet_y[i]<0) bullet_is[i]=0;
else
{
player_bullet_sprite.setPosition(bullet_x[i],bullet_y[i]);
window.draw(player_bullet_sprite);
}
}
}
feplaneshot++;
if (feplaneshot==enemy_occur_often(score))
{
if (enemy_bullet_is[o]==0)
{
for (i=1;i<=100;i++)
{
if (enemy_exist[i]==1)
{
k++;
if (k==3)
{
enemy_bullet_is[o]=1;
enemy_bullet_x[o]=enemy_x[i]+32;
enemy_bullet_y[o]=enemy_y[i]+100;
enemy_bullet_length[o]=0;
o++;
k=1;
}
}
}
}
if (o>=500) o=1;
feplaneshot=1;
}
for (i=1;i<=500;i++)
{
if (enemy_bullet_is[i]==1)
{
enemy_bullet_y[i]+=0.4;
enemy_bullet_x[i]+=enemy_bullet_length[i]*0.5;
if (enemy_bullet_y[i]>800)
enemy_bullet_is[i]=0;
else
{
enemy_bullet_sprite.setPosition(enemy_bullet_x[i],enemy_bullet_y[i]);
window.draw(enemy_bullet_sprite);
}
}
}
tforplane++;
if (tforplane==enemy_occur_often(score))
{
enemy_number++;
if (enemy_exist[enemy_number]==0)
{
enemy_exist[enemy_number]=1;
enemy_y[enemy_number]=0;
enemy_x[enemy_number]=rand()%380;
enemy_life[enemy_number]=1+score/100;
}
if (enemy_number==50) enemy_number=1;
tforplane=1;
}
for (j=1;j<=50;j++)
{
if (enemy_exist[j]==1)
{
enemy_y[j]+=0.2;
if (enemy_y[j]>800)
enemy_exist[j]=0;
else
{
enemy_sprite.setPosition(enemy_x[j],enemy_y[j]);
window.draw(enemy_sprite);
}
}
}
for (i=1;i<=50;i++)
for (j=1;j<=100;j++)
{
if (enemy_exist[i]==1&&bullet_is[j]==1&&enemy_y[i]<bullet_y[j]&&bullet_y[j]<enemy_y[i]+100&&enemy_x[i]<bullet_x[j]&&bullet_x[j]<enemy_x[i]+68)
{
enemy_life[i]--;
bullet_is[j]=0;
if (enemy_life[i]==0)
{
enemy_exist[i]=0;
score+=10;
sprintf(scorestr,"%d",score+score2);
showscore.setString(scorestr);
if (destroy==0)
{
destroyx=enemy_x[i];
destroyy=enemy_y[i];
destroy=1;
}
else
{
destroyxadd=enemy_x[i];
destroyyadd=enemy_y[i];
destroyadd=1;
}
}
}
}
for (i=1;i<=50;i++)
{
if (enemy_exist[i]==1&&enemy_x[i]+18>x&&x+53>enemy_x[i]&&enemy_y[i]+70>y&&y+103>enemy_y[i]&&destroyyou==0)
{
youlive--;
enemy_exist[i]=0;
if (destroy==0)
{
destroyx=enemy_x[i];
destroyy=enemy_y[i];
destroy=1;
}
else
{
destroyxadd=enemy_x[i];
destroyyadd=enemy_y[i];
destroyadd=1;
}
destroyyou=1;
destroyyoux=x;
destroyyouy=y;
}
}
for (i=1;i<=500;i++)
{
if (enemy_bullet_is[i]==1&&enemy_bullet_x[i]>x+31&&enemy_bullet_x[i]<x+71&&enemy_bullet_y[i]>y+37&&enemy_bullet_y[i]<y+97&&destroyyou==0)
{
youlive--;
enemy_bullet_is[i]=0;
destroyyou=1;
destroyyoux=x;
destroyyouy=y;
}
}
if (destroyyou==1)
{
g++;
if (g<=200)
{
dyou1.setPosition(destroyyoux,destroyyouy);
window.draw(dyou1);
player_down.play();
}
if (g>200&&g<=400)
{
dyou2.setPosition(destroyyoux,destroyyouy);
window.draw(dyou2);
}
if (g>400&&g<600)
{
dyou3.setPosition(destroyyoux,destroyyouy);
window.draw(dyou3);
}
if (g>600)
{
die.setPosition(15,380);
window.draw(die);
if (sf::Keyboard::isKeyPressed(sf::Keyboard::Tab))
{
player_sprite.setPosition(sf::Vector2f(200, 600));x=200;y=600;
fuckpower=1;
destroyyou=0;
g=1;
}
}
}
if (destroy==1)
{
d++;
if (d<=200)
{
spdestroy1.setPosition(destroyx,destroyy);
window.draw(spdestroy1);
enemydown1.play();
}
if (d>200&&d<=400)
{
spdestroy2.setPosition(destroyx,destroyy);window.draw(spdestroy2);}
if (d>400&&d<600) {spdestroy3.setPosition(destroyx,destroyy);window.draw(spdestroy3);}
if (d>=600&&d<800) {spdestroy4.setPosition(destroyx,destroyy);window.draw(spdestroy4);}
if (d==800) {d=1;destroy=0;}
}
if (destroyadd==1)
{
d2++;
if (d2<=200)
{
spdestroy1.setPosition(destroyxadd,destroyyadd);
window.draw(spdestroy1);
enemydown1.play();
}
if (d2>200&&d2<=400)
{
spdestroy2.setPosition(destroyxadd,destroyyadd);
window.draw(spdestroy2);
}
if (d2>400&&d2<600)
{
spdestroy3.setPosition(destroyxadd,destroyyadd);
window.draw(spdestroy3);
}
if (d2>=600&&d2<800)
{
spdestroy4.setPosition(destroyxadd,destroyyadd);
window.draw(spdestroy4);
}
if (d2==800)
{
d2=1;
destroyadd=0;
}
}
text.setPosition(20,20);
showscore.setPosition(50,60);
window.draw(text);
window.draw(showscore);
}
else
{
gg.setPosition(145,320);
window.draw(gg);
}
window.display();
}
return 0;
}
