/**
* Shows the "New Sprite" dialog.
*/
void NewFileCommand::onExecute(Context* context)
{
Preferences& pref = Preferences::instance();
int ncolors = get_default_palette()->size();
char buf[1024];
app::Color bg_table[] = {
app::Color::fromMask(),
app::Color::fromRgb(255, 255, 255),
app::Color::fromRgb(0, 0, 0),
};
// Load the window widget
app::gen::NewSprite window;
// Default values: Indexed, 320x240, Background color
PixelFormat format = pref.newFile.colorMode();
// Invalid format in config file.
if (format != IMAGE_RGB &&
format != IMAGE_INDEXED &&
format != IMAGE_GRAYSCALE) {
format = IMAGE_INDEXED;
}
int w = pref.newFile.width();
int h = pref.newFile.height();
int bg = pref.newFile.backgroundColor();
bg = MID(0, bg, 2);
// If the clipboard contains an image, we can show the size of the
// clipboard as default image size.
gfx::Size clipboardSize;
if (clipboard::get_image_size(clipboardSize)) {
w = clipboardSize.w;
h = clipboardSize.h;
}
window.width()->setTextf("%d", MAX(1, w));
window.height()->setTextf("%d", MAX(1, h));
// Select image-type
window.colorMode()->setSelectedItem(format);
// Select background color
window.bgColor()->setSelectedItem(bg);
// Advance options
bool advanced = pref.newFile.advanced();
window.advancedCheck()->setSelected(advanced);
window.advancedCheck()->Click.connect(
base::Bind<void>(
[&]{
gfx::Rect bounds = window.bounds();
window.advanced()->setVisible(window.advancedCheck()->isSelected());
window.setBounds(gfx::Rect(window.bounds().origin(),
window.sizeHint()));
window.layout();
window.manager()->invalidateRect(bounds);
}));
window.advanced()->setVisible(advanced);
if (advanced)
window.pixelRatio()->setValue(pref.newFile.pixelRatio());
else
window.pixelRatio()->setValue("1:1");
// Open the window
window.openWindowInForeground();
if (window.closer() == window.okButton()) {
bool ok = false;
// Get the options
format = (doc::PixelFormat)window.colorMode()->selectedItem();
w = window.width()->textInt();
h = window.height()->textInt();
bg = window.bgColor()->selectedItem();
static_assert(IMAGE_RGB == 0, "RGB pixel format should be 0");
static_assert(IMAGE_INDEXED == 2, "Indexed pixel format should be 2");
format = MID(IMAGE_RGB, format, IMAGE_INDEXED);
w = MID(1, w, DOC_SPRITE_MAX_WIDTH);
h = MID(1, h, DOC_SPRITE_MAX_HEIGHT);
bg = MID(0, bg, 2);
// Select the color
app::Color color = app::Color::fromMask();
if (bg >= 0 && bg <= 3) {
color = bg_table[bg];
ok = true;
}
if (ok) {
// Save the configuration
pref.newFile.width(w);
pref.newFile.height(h);
pref.newFile.colorMode(format);
pref.newFile.backgroundColor(bg);
pref.newFile.advanced(window.advancedCheck()->isSelected());
pref.newFile.pixelRatio(window.pixelRatio()->getValue());
// Create the new sprite
ASSERT(format == IMAGE_RGB || format == IMAGE_GRAYSCALE || format == IMAGE_INDEXED);
ASSERT(w > 0 && h > 0);
std::unique_ptr<Sprite> sprite(Sprite::createBasicSprite(format, w, h, ncolors));
if (window.advancedCheck()->isSelected()) {
sprite->setPixelRatio(
base::convert_to<PixelRatio>(window.pixelRatio()->getValue()));
}
if (sprite->pixelFormat() != IMAGE_GRAYSCALE)
get_default_palette()->copyColorsTo(sprite->palette(frame_t(0)));
// If the background color isn't transparent, we have to
// convert the `Layer 1' in a `Background'
if (color.getType() != app::Color::MaskType) {
Layer* layer = sprite->root()->firstLayer();
if (layer && layer->isImage()) {
LayerImage* layerImage = static_cast<LayerImage*>(layer);
layerImage->configureAsBackground();
Image* image = layerImage->cel(frame_t(0))->image();
// TODO Replace this adding a new parameter to color utils
Palette oldPal = *get_current_palette();
set_current_palette(get_default_palette(), false);
doc::clear_image(image,
color_utils::color_for_target(color,
ColorTarget(
ColorTarget::BackgroundLayer,
sprite->pixelFormat(),
sprite->transparentColor())));
set_current_palette(&oldPal, false);
}
}
// Show the sprite to the user
std::unique_ptr<Doc> doc(new Doc(sprite.get()));
sprite.release();
sprintf(buf, "Sprite-%04d", ++_sprite_counter);
doc->setFilename(buf);
doc->setContext(context);
doc.release();
}
}
}
bool TmxFile2D::LoadTileSet(const XMLElement& element)
{
int firstgid = element.GetInt("firstgid");
XMLElement tileSetElem;
if (element.HasAttribute("source"))
{
String source = element.GetAttribute("source");
HashMap<String, SharedPtr<XMLFile> >::Iterator i = tsxXMLFiles_.Find(source);
if (i == tsxXMLFiles_.End())
{
SharedPtr<XMLFile> tsxXMLFile = LoadTSXFile(source);
if (!tsxXMLFile)
return false;
// Add to napping to avoid release
tsxXMLFiles_[source] = tsxXMLFile;
tileSetElem = tsxXMLFile->GetRoot("tileset");
}
else
tileSetElem = i->second_->GetRoot("tileset");
}
else
tileSetElem = element;
XMLElement imageElem = tileSetElem.GetChild("image");
String textureFilePath = GetParentPath(GetName()) + imageElem.GetAttribute("source");
ResourceCache* cache = GetSubsystem<ResourceCache>();
SharedPtr<Texture2D> texture(cache->GetResource<Texture2D>(textureFilePath));
if (!texture)
{
LOGERROR("Could not load texture " + textureFilePath);
return false;
}
tileSetTextures_.Push(texture);
int tileWidth = tileSetElem.GetInt("tilewidth");
int tileHeight = tileSetElem.GetInt("tileheight");
int spacing = tileSetElem.GetInt("spacing");
int margin = tileSetElem.GetInt("margin");
int imageWidth = imageElem.GetInt("width");
int imageHeight = imageElem.GetInt("height");
// Set hot spot at left bottom
Vector2 hotSpot(0.0f, 0.0f);
if (tileSetElem.HasChild("tileoffset"))
{
XMLElement offsetElem = tileSetElem.GetChild("tileoffset");
hotSpot.x_ += offsetElem.GetFloat("x") / (float)tileWidth;
hotSpot.y_ += offsetElem.GetFloat("y") / (float)tileHeight;
}
int gid = firstgid;
for (int y = margin; y + tileHeight <= imageHeight - margin; y += tileHeight + spacing)
{
for (int x = margin; x + tileWidth <= imageWidth - margin; x += tileWidth + spacing)
{
SharedPtr<Sprite2D> sprite(new Sprite2D(context_));
sprite->SetTexture(texture);
sprite->SetRectangle(IntRect(x, y, x + tileWidth, y + tileHeight));
sprite->SetHotSpot(hotSpot);
gidToSpriteMapping_[gid++] = sprite;
}
}
for (XMLElement tileElem = tileSetElem.GetChild("tile"); tileElem; tileElem = tileElem.GetNext("tile"))
{
if (tileElem.HasChild("properties"))
{
SharedPtr<PropertySet2D> propertySet(new PropertySet2D());
propertySet->Load(tileElem.GetChild("properties"));
gidToPropertySetMapping_[firstgid + tileElem.GetInt("id")] = propertySet;
}
}
return true;
}
void NarratorVolumeSlider::draw(sf::RenderTarget& target, sf::RenderStates states) const{
Button::draw(target,states);
sf::Sprite sprite(*mTexture);
sprite.setPosition(NarratorVolumeSliderSpecs::get().mSliderX*target.getSize().x+(mVolume*NarratorVolumeSliderSpecs::get().mStepSize),NarratorVolumeSliderSpecs::get().mSliderY*target.getSize().y);
WindowManager::get().getRenderWindow()->draw(sprite);
}
int main()
{
WORKING_DIR=SDL_GetBasePath();
WORKING_DIR=WORKING_DIR.substr(0,WORKING_DIR.find_last_of("/\\"));
WORKING_DIR=WORKING_DIR.substr(0,WORKING_DIR.find_last_of("/\\"));
WORKING_DIR=WORKING_DIR.substr(0,WORKING_DIR.find_last_of("/\\"));
#ifdef __gnu_linux__
WORKING_DIR+="/";
#elif __WIN32
WORKING_DIR+="\\";
#endif
std::cout<< WORKING_DIR<<std::endl;
SDL_Window *mainwindow; /* Our window handle */
SDL_GLContext maincontext; /* Our opengl context handle */
Mix_Chunk *pong = NULL;
Mix_Chunk *pong2 = NULL;
Mix_Chunk *pong3 = NULL;
if( SDL_Init( SDL_INIT_VIDEO| SDL_INIT_AUDIO ) < 0 )
{
sdldie("SDL could not initialize! SDL Error: %s\n");
}
else
{
//Use OpenGL 3.3 core
SDL_GL_SetAttribute( SDL_GL_CONTEXT_MAJOR_VERSION, 3 );
SDL_GL_SetAttribute( SDL_GL_CONTEXT_MINOR_VERSION, 3 );
SDL_GL_SetAttribute( SDL_GL_CONTEXT_PROFILE_MASK, SDL_GL_CONTEXT_PROFILE_CORE );
//Create window
mainwindow = SDL_CreateWindow( "pong", SDL_WINDOWPOS_UNDEFINED, SDL_WINDOWPOS_UNDEFINED, screenWidth, screenHeight, SDL_WINDOW_OPENGL | SDL_WINDOW_SHOWN |SDL_WINDOW_RESIZABLE );
if( mainwindow == NULL )
{
sdldie("Unable to create window");
}
else
{
//Create context
maincontext = SDL_GL_CreateContext( mainwindow );
if( maincontext == NULL ){
sdldie("OpenGL context could not be created! SDL Error: %s\n");
}
else
{
//Initialize GLEW
glewExperimental = GL_TRUE;
GLenum glewError = glewInit();
if( glewError != GLEW_OK )
{
std::cout<<"Error initializing GLEW! %s\n"<<glewGetErrorString( glewError );
}
//Use Vsync
if( SDL_GL_SetSwapInterval( 1 ) < 0 )
{
std::cout<<"Warning: Unable to set VSync! SDL Error: %s\n"<<SDL_GetError();
}
SDL_DisplayMode current;
int should_be_zero = SDL_GetCurrentDisplayMode(0, ¤t); //@HACK:should check for multiple monitors
if(should_be_zero != 0)
sdldie("Could not get display mode for video display");
screenWidth=(3.0f/4.0f)*current.w;
screenHeight=(3.0f/4.0f)*current.h;
(*(int*)(&originalScreenHeight))=screenHeight;
(*(int*)(&originalScreenWidth))=screenWidth;
}
}
}
//Initialize SDL_mixer
if( Mix_OpenAudio( 44100, MIX_DEFAULT_FORMAT, 2, 2048 ) < 0 ) {
std::cout<<"SDL_mixer could not initialize! SDL_mixer Error: "<<Mix_GetError();
return 1;
}
//Load sound effects
pong = Mix_LoadWAV(WORKING_DIR_FILE("assets/sounds/pong.wav"));
if( pong == NULL ) {
std::cout<< "Failed to load scratch sound effect! SDL_mixer Error: "<<Mix_GetError();
return 1;
}
pong2 = Mix_LoadWAV(WORKING_DIR_FILE("assets/sounds/pong2.wav"));
if( pong2 == NULL ) {
std::cout<< "Failed to load scratch sound effect! SDL_mixer Error: "<<Mix_GetError();
return 1;
}
pong3 = Mix_LoadWAV(WORKING_DIR_FILE("assets/sounds/pong3.wav"));
if( pong3 == NULL ) {
std::cout<< "Failed to load scratch sound effect! SDL_mixer Error: "<<Mix_GetError();
return 1;
}
glEnable(GL_DEPTH_TEST);
glViewport(0, 0, screenWidth, screenHeight);
/* Clear our buffer with a red background */
glClearColor ( 1.0, 0.0, 0.0, 1.0 );
glClear ( GL_COLOR_BUFFER_BIT );
/* Swap our back buffer to the front */
SDL_GL_SwapWindow(mainwindow);
/* Wait 2 seconds */
SDL_Delay(100);
/* Same as above, but green */
glClearColor ( 0.0, 1.0, 0.0, 1.0 );
glClear ( GL_COLOR_BUFFER_BIT );
SDL_GL_SwapWindow(mainwindow);
SDL_Delay(100);
/* Same as above, but blue */
glClearColor ( 0.0, 0.0, 1.0, 1.0 );
glClear ( GL_COLOR_BUFFER_BIT );
SDL_GL_SwapWindow(mainwindow);
SDL_Delay(100);
GLfloat vertices[] = {
0.5f, 0.5f, 0.0f, // Top Right
0.5f, -0.5f, 0.0f, // Bottom Right
-0.5f, -0.5f, 0.0f, // Bottom Left
-0.5f, 0.5f, 0.0f, // Top Left
};
GLuint indices[] = { // Note that we start from 0!
0, 1, 3, // First Triangle
1, 2, 3 // Second Triangle
};
std::vector<Vertex> vertices2;
std::vector<GLuint> indices2;
{
for(unsigned int i=0;i<(sizeof(vertices)/sizeof(vertices[0]));i+=3){
Vertex aux;
aux.position={vertices[i+0],vertices[i+1],vertices[i+2]};
vertices2.push_back(aux);
}
for(unsigned int i=0;i<(sizeof(indices)/sizeof(indices[0]));i++){
indices2.push_back(indices[i]);
}
}
Sprite sprite(vertices2,indices2);
GLfloat quadVertices[] = { // Vertex attributes for a quad that fills the entire screen in Normalized Device Coordinates.
// Positions // TexCoords
-1.0f, 1.0f, 0.0f, 1.0f,
-1.0f, -1.0f, 0.0f, 0.0f,
1.0f, -1.0f, 1.0f, 0.0f,
-1.0f, 1.0f, 0.0f, 1.0f,
1.0f, -1.0f, 1.0f, 0.0f,
1.0f, 1.0f, 1.0f, 1.0f
};
// Setup cube VAO
GLuint quadVAO, quadVBO;
glGenVertexArrays(1, &quadVAO);
glGenBuffers(1, &quadVBO);
glBindVertexArray(quadVAO);
glBindBuffer(GL_ARRAY_BUFFER, quadVBO);
glBufferData(GL_ARRAY_BUFFER, sizeof(quadVertices), quadVertices, GL_STATIC_DRAW);
glEnableVertexAttribArray(0);
glVertexAttribPointer(0, 2, GL_FLOAT, GL_FALSE, 4 * sizeof(GLfloat), (GLvoid*)0);
glEnableVertexAttribArray(1);
glVertexAttribPointer(1, 2, GL_FLOAT, GL_FALSE, 4 * sizeof(GLfloat), (GLvoid*)(2 * sizeof(GLfloat)));
glBindVertexArray(0);
unsigned int points_p1=0,points_p2=0;
bool first_point_p1=true,first_point_p2=true;
GameObject player1(&sprite,{0.0f,2.0f});
GameObject player2(&sprite,{0.0f,2.0f});
GameObject ball(&sprite,{0.0f,0.0f});
Entity roof(&sprite);
Entity floor(&sprite);
GameObject leftwall(&sprite,{0.0f,0.0f});
GameObject rightwall(&sprite,{0.0f,0.0f});
{
player1.entity.setPos({-0.95f,0.0f});
player2.entity.setPos({0.95f,0.0f});
ball.entity.setPos({0.0f,8.0f});
roof.setPos({-1.0f,1.10f});
floor.setPos({-1.0f,-1.10f});
roof.scale({4.0f,1.0f});
floor.scale({4.0f,1.0f});
leftwall.entity.setPos({-1.0f,0.0f});
rightwall.entity.setPos({1.0f,0.0f});
leftwall.entity.scale({0.025f,2.0f});
rightwall.entity.scale({0.025f,2.0f});
player1.entity.scale({0.025f, 0.49f});
player2.entity.scale({0.025f, 0.49f});
ball.entity.scale({0.0625f,0.0625f});
ball.entity.order(SCALE,ROTATE,TRANSLATE);
}
std::vector<CollisionChecker> collisions;
{
collisions.push_back(CollisionChecker(&player1.entity,&roof));
collisions.push_back(CollisionChecker(&player1.entity,&floor));
collisions.push_back(CollisionChecker(&player2.entity,&roof));
collisions.push_back(CollisionChecker(&player2.entity,&floor));
}
CollisionChecker ball_floor(&ball.entity,&floor);
CollisionChecker ball_roof(&ball.entity,&roof);
CollisionChecker ball_p1(&ball.entity,&player1.entity);
CollisionChecker ball_p2(&ball.entity,&player2.entity);
CollisionChecker ball_leftwall(&ball.entity,&leftwall.entity);
CollisionChecker ball_rightwall(&ball.entity,&rightwall.entity);
SDL_StartTextInput();
bool quit = false;
bool started=false;
glm::vec2 p1_speed_gain(0.0f,0.0f);
glm::vec2 p2_speed_gain(0.0f,0.0f);
unsigned int i=0;
Uint32 lastFrame=0;
Uint32 deltaTime=0;
float framerate=0.0f;
float dt;
framebuffer fb(originalScreenWidth,originalScreenHeight);
Shader shader(WORKING_DIR_FILE("assets/shaders/shader.vert"),WORKING_DIR_FILE("assets/shaders/shader.frag"));
Shader fb_shader(WORKING_DIR_FILE("assets/shaders/framebuffer_shader.vert"),WORKING_DIR_FILE("assets/shaders/framebuffer_shader.frag"));
while(!quit)
{
SDL_PumpEvents();
Uint32 currentFrame = SDL_GetTicks();//miliseconds
deltaTime = currentFrame - lastFrame;
lastFrame = currentFrame;
dt = deltaTime/1000.0f;
framerate += 1000.0f/deltaTime;
p1_speed_gain={0.0f,0.0f};
p2_speed_gain={0.0f,0.0f};
{
const Uint8 *keystates = SDL_GetKeyboardState( NULL );
quit = keystates[SDL_GetScancodeFromKey(SDLK_q)] || SDL_QuitRequested();
started = started || keystates[SDL_GetScancodeFromKey(SDLK_SPACE)];
if(started){
if(keystates[SDL_GetScancodeFromKey(SDLK_w )])
{
player1.move( dt );
p1_speed_gain={ 0.0f , 1.0f };
}
if(keystates[SDL_GetScancodeFromKey(SDLK_s )])
{
player1.move(-dt );
p1_speed_gain={ 0.0f ,-1.0f };
}
if(keystates[SDL_GetScancodeFromKey(SDLK_UP )])
{
player2.move( dt );
p2_speed_gain={ 0.0f , 1.0f };
}
if(keystates[SDL_GetScancodeFromKey(SDLK_DOWN)])
{
player2.move(-dt );
p2_speed_gain={ 0.0f ,-1.0f };
}
if(keystates[SDL_GetScancodeFromKey(SDLK_j)])
{
player1.entity.rotate(15.0f );
}
do_ball_movement(ball,dt);
}
}
{
unsigned int size=collisions.size();
for(unsigned int i=0;i<size;i++)
{
if(collisions[i].checkCollision())
handleCollision(collisions[i]);
}
}
{
glm::vec3 pos=ball.entity.position;
glm::vec3 oldpos=ball.entity.oldPosition;
if(ball_floor.checkCollision()){
handleCollision(ball_floor);
ball.speed=glm::normalize(glm::reflect(glm::vec2(pos.x-oldpos.x,pos.y-oldpos.y),glm::vec2(0.0f,1.0f)))*glm::length(ball.speed);
Mix_PlayChannel( -1, pong2, 0 );
}
if(ball_roof.checkCollision()){
handleCollision(ball_roof);
ball.speed=glm::normalize(glm::reflect(glm::vec2(pos.x-oldpos.x,pos.y-oldpos.y),glm::vec2(0.0f,-1.0f)))*glm::length(ball.speed);
Mix_PlayChannel( -1, pong2, 0 );
}
if(ball_p1.checkCollision()){
handleCollision(ball_p1);
ball.speed=glm::normalize(glm::reflect(glm::vec2(pos.x-oldpos.x,pos.y-oldpos.y),glm::vec2(1.0f,0.0f)) + p1_speed_gain)
*
(glm::length(ball.speed)+glm::length(p1_speed_gain));
Mix_PlayChannel( -1, pong, 0 );
}
if(ball_p2.checkCollision()){
handleCollision(ball_p2);
ball.speed=glm::normalize(glm::reflect(glm::vec2(pos.x-oldpos.x,pos.y-oldpos.y),glm::vec2(-1.0f,0.0f)) + p2_speed_gain)
*
(glm::length(ball.speed)+glm::length(p2_speed_gain));
Mix_PlayChannel( -1, pong, 0 );
}
if(ball_leftwall.checkCollision()){
points_p2++;
ball.entity.setPos({0.0f,8.0f});//scale adjusted due the order it uses...
ball.speed={0.0f,0.0f};
Mix_PlayChannel( -1, pong3, 0 );
}
if(ball_rightwall.checkCollision()){
points_p1++;
ball.entity.setPos({0.0f,8.0f});
ball.speed={0.0f,0.0f};
Mix_PlayChannel( -1, pong3, 0 );
}
if(((ball.speed.y/ball.speed.x)>3.0f) || ((ball.speed.y/ball.speed.x)<-3.0f)){
ball.speed.y/=2.0f;
ball.speed.x*=4.0f;
}
}
if(i==100){
i=0;
framerate/=100.0f;
std::cout<<framerate<<std::endl;
std::cout<<points_p1<<'-'<<points_p2<<std::endl;
framerate=0.0f;
}
i+=1;
shader.Use();
fb.bind();
glViewport(0,0,originalScreenWidth,originalScreenHeight);
glClearColor(0.0f, 0.0f, 0.0f, 1.0f);
glEnable(GL_DEPTH_TEST);
glClear(GL_DEPTH_BUFFER_BIT | GL_COLOR_BUFFER_BIT | GL_STENCIL_BUFFER_BIT);
glm::mat4 projection;//= glm::ortho(-1.0f,1.0f,-1.0f,1.0f,0.0f,1.0f);
GLint projection_uniform=glGetUniformLocation(shader.Program, "projection");
glUniformMatrix4fv(projection_uniform, 1, GL_FALSE, glm::value_ptr(projection));
glm::vec2 position;
position=glm::vec2(-3.0f*1.06255f*0.125f,0.0f);
if(points_p1>=5 || points_p2>=5){
drawdigit(-1,&shader,position,{0.125f,0.125f},DIGIT_TOP|DIGIT_MIDDLE|DIGIT_TOPLEFT|DIGIT_TOPRIGHT|DIGIT_BOTTOMLEFT);
position+=glm::vec2(1.0625f*0.125f,0.0f);
drawdigit((points_p1>=5)?1:2,&shader,position,{0.125f,0.125f});
position+=glm::vec2(1.0625f*0.125f,0.0f);
position+=glm::vec2(1.0625f*0.125f,0.0f);
drawdigit(-1,&shader,position,{0.125f,0.125f},DIGIT_TOPLEFT |DIGIT_BOTTOMLEFT |DIGIT_BOTTOMLEFT_MIDDLE|
DIGIT_TOPRIGHT|DIGIT_BOTTOMRIGHT|DIGIT_BOTTOMRIGHT_MIDDLE);
position+=glm::vec2(1.0625f*0.125f,0.0f);
drawdigit(-1,&shader,position,{0.125f,0.125f},DIGIT_TOPMIDDLE|DIGIT_BOTTOMMIDDLE);
position+=glm::vec2(1.0625f*0.125f,0.0f);
drawdigit(-1,&shader,position,{0.125f,0.125f},DIGIT_BOTTOMLEFT |DIGIT_TOPLEFT|DIGIT_TOPLEFT_BOTTOMRIGHT|
DIGIT_BOTTOMRIGHT|DIGIT_TOPRIGHT);
position+=glm::vec2(1.0625f*0.125f,0.0f);
drawdigit(5,&shader,position,{0.125f,0.125f});
started=false;
}
player1.entity.draw(&shader);
player2.entity.draw(&shader);
if(started) ball.entity.draw(&shader);
roof.draw(&shader);
floor.draw(&shader);
leftwall.entity.draw(&shader);
rightwall.entity.draw(&shader);
unsigned int aux=points_p2;
position=glm::vec2(0.25f,0.5f);
//NOTE: when one of the points hits 20 I should put a you win screen
first_point_p2=points_p2? false:true;
while((aux/10) || (aux%10) || first_point_p2){
drawdigit(aux%10,&shader,position,{0.125f,0.125f});
position.x-=1.5f*0.125f;
aux=aux/10;
first_point_p2=false;//endless loop if I dont
}
aux=points_p1;
position={-0.25f,0.5f};
first_point_p1=points_p1? false:true;
while((aux/10) || (aux%10) || first_point_p1){
drawdigit(aux%10,&shader,position,{0.125f,0.125f});
position.x-=1.5f*0.125f;
aux=aux/10;
first_point_p1=false;
}
fb.unbind();
SDL_GetWindowSize(mainwindow,&screenWidth,&screenHeight);
glViewport(0,0,screenWidth,screenHeight);
glClearColor(0.0f, 0.0f, 0.1f, 1.0f);
glClear(GL_COLOR_BUFFER_BIT);
glDisable(GL_DEPTH_TEST);
fb_shader.Use();
glm::mat4 screenscaler;
float aspectRatio=(float)screenWidth/(float)screenHeight;
float inverseAspectRatio=(float)screenHeight/(float)screenWidth;
if(aspectRatio>1.0f)
screenscaler = glm::perspective(radians(59.2f),aspectRatio,0.1f,1.0f);
else
screenscaler = glm::perspective(radians(59.2f),inverseAspectRatio,0.1f,1.0f);
GLint model_uniform=glGetUniformLocation(fb_shader.Program, "model");
glUniformMatrix4fv(model_uniform, 1, GL_FALSE, glm::value_ptr(screenscaler));
glBindVertexArray(quadVAO);//should scale the scale to the % of resolution
glActiveTexture(GL_TEXTURE0);
glBindTexture(GL_TEXTURE_2D, fb.texture);
glDrawArrays(GL_TRIANGLES, 0, 6);
glBindTexture(GL_TEXTURE_2D,0);
glBindVertexArray(0);
SDL_Delay(1);
SDL_GL_SwapWindow(mainwindow);
if(points_p1>=5 || points_p2>=5){
points_p1=0;
points_p2=0;
ball.speed={0.0f,0.0f};
SDL_Delay(3000);
}
}
DESTRUCTOR(fb);
DESTRUCTOR(shader);
DESTRUCTOR(fb_shader);
Mix_FreeChunk(pong);
Mix_FreeChunk(pong2);
Mix_FreeChunk(pong3);
SDL_GL_DeleteContext(maincontext);
SDL_DestroyWindow(mainwindow);
SDL_Quit();
return 0;
}
int main() {
sf::RenderWindow window(sf::VideoMode(640, 480), "Mandelbrot Set Viewer");
sf::Texture texture; if (!texture.create(640, 480)) return -1;
sf::Sprite sprite(texture);
/*
Red ff 0 0
Orange ff 7f 0
Yellow ff ff 0
Y - G 7f ff 0
Green 0 ff 0
Blue 0 0 ff
Purple ff 0 ff
Pink 7f 0 7f
Black 0 0 0
*/
const auto grad = std::vector<sf::Color> {
sf::Color::Red,
sf::Color(0xff, 0x7f, 0x00),
sf::Color::Yellow,
sf::Color(0x7f, 0xff, 0x00),
sf::Color::Green,
sf::Color::Blue,
sf::Color::Magenta,
sf::Color(0x7f, 0x00, 0x7f),
sf::Color::Black
};
auto palette = mbv::gradient::Linear(grad, 256);
palette.at(0) = sf::Color::Black;
const sf::Vector2u textureSize = texture.getSize();
const sf::FloatRect textureRect(0, 0, textureSize.x, textureSize.y);
sf::Uint8 pixels[textureSize.x * textureSize.y * 4];
const sf::FloatRect initialView(-2, -2, 4, 4);
auto view = initialView;
updateViewTexture(pixels, texture, view, palette);
sf::Vector2f newTopLeft(-2, -2);
sf::Vector2f newBottomRight(2, 2);
sf::Vector2f mm(0, 0);
auto mousePressed = false;
// while window is open
while(window.isOpen()) {
sf::Event event;
while(window.pollEvent(event)) {
if (event.type == sf::Event::KeyPressed) {
if (event.key.code == sf::Keyboard::Key::R) {
view = initialView;
updateViewTexture(pixels, texture, view, palette);
}
}
if (event.type == sf::Event::Closed) {
window.close();
}
if (event.type == sf::Event::MouseMoved) {
mm = sf::Vector2f(event.mouseMove.x, event.mouseMove.y);
}
if (event.type == sf::Event::MouseButtonPressed) {
mousePressed = true;
if (event.mouseButton.button == sf::Mouse::Left) {
newTopLeft = translatePointFromTo(textureRect, view, mm);
std::cout << "newTopLeft(" << newTopLeft.x << ", " << newTopLeft.y << ")" << std::endl;
}
}
if (event.type == sf::Event::MouseButtonReleased) {
mousePressed = false;
if (event.mouseButton.button == sf::Mouse::Left) {
newBottomRight = translatePointFromTo(textureRect, view, mm);
std::cout << "newBottomRight(" << newBottomRight.x << ", " << newBottomRight.y << ")" << std::endl;
const sf::Vector2f newDimensions(fabs(newBottomRight.x - newTopLeft.x), fabs(newBottomRight.y - newTopLeft.y));
const sf::FloatRect newView(newTopLeft.x, newTopLeft.y, newDimensions.x, newDimensions.y);
const sf::Vector2f scaleFactor(view.width / newView.width, view.height / newView.height);
view = newView;
std::cout << "view(" << view.left << ", " << view.top << ") (" << view.width << "," << view.height << ") " << std::endl;
updateViewTexture(pixels, texture, view, palette);
}
}
}
window.clear(sf::Color::White);
window.draw(sprite);
window.display();
}
return 0;
}
// does not clip on left or right edges of surface
void blit_sprite_hv_blend( SDL_Surface *surface, int x, int y, unsigned int table, unsigned int index, Uint8 hue, Sint8 value )
{
if (index >= sprite_table[table].count || !sprite_exists(table, index))
{
assert(false);
return;
}
hue <<= 4;
const Sprite * const cur_sprite = sprite(table, index);
const Uint8 *data = cur_sprite->data;
const Uint8 * const data_ul = data + cur_sprite->size;
const unsigned int width = cur_sprite->width;
unsigned int x_offset = 0;
assert(surface->format->BitsPerPixel == 8);
Uint8 * pixels = (Uint8 *)surface->pixels + (y * surface->pitch) + x;
const Uint8 * const pixels_ll = (Uint8 *)surface->pixels, // lower limit
* const pixels_ul = (Uint8 *)surface->pixels + (surface->h * surface->pitch); // upper limit
for (; data < data_ul; ++data)
{
switch (*data)
{
case 255: // transparent pixels
data++; // next byte tells how many
pixels += *data;
x_offset += *data;
break;
case 254: // next pixel row
pixels += width - x_offset;
x_offset = width;
break;
case 253: // 1 transparent pixel
pixels++;
x_offset++;
break;
default: // set a pixel
if (pixels >= pixels_ul)
return;
if (pixels >= pixels_ll)
{
Uint8 temp_value = (*data & 0x0f) + value;
if (temp_value > 0xf)
temp_value = (temp_value >= 0x1f) ? 0x0 : 0xf;
*pixels = hue | (((*pixels & 0x0f) + temp_value) / 2);
}
pixels++;
x_offset++;
break;
}
if (x_offset >= width)
{
pixels += surface->pitch - x_offset;
x_offset = 0;
}
}
}
void GameState::onDraw(sf::RenderTarget& target) {
float w = target.getSize().x;
float h = target.getSize().y;
m_renderTextures[0].clear();
m_renderTextures[1].clear();
sf::RenderTarget& t = m_renderTextures[0];
target.clear();
t.clear(sf::Color(80, 80, 80));
// backdrop
// t.setView(t.getDefaultView());
// sf::RectangleShape backdrop(sf::Vector2f(t.getSize()));
// backdrop.setFillColor(sf::Color(100, 150, 255));
// backdrop.setFillColor(sf::Color(40, 40, 40));
// auto shader = Root().resources.getShader("backdrop");
// shader->setParameter("size", sf::Vector2f(t.getSize()));
// shader->setParameter("time", getTime());
// t.draw(backdrop, shader.get());
setView(t);
int backTiles = 50;
float s = 4.0;
auto tex = Root().resources.getTexture("cave-1");
tex->setRepeated(true);
sf::Sprite back(*tex.get());
back.setTextureRect(sf::IntRect(0, 0, tex->getSize().x * backTiles, tex->getSize().y * backTiles));
back.setScale(s / tex->getSize().x, s / tex->getSize().y);
back.setPosition(m_center.x * 0.2, m_center.y * 0.2);
back.setOrigin(tex->getSize().x / 2 * backTiles, tex->getSize().y / 2 * backTiles);
auto levelColor = {
sf::Color(100, 20, 0),
sf::Color(100, 120, 200),
sf::Color(250, 200, 0),
sf::Color(255, 0, 128)
};
back.setColor(*(levelColor.begin() + (m_currentLevel) % levelColor.size()));
t.draw(back);
s = 8.0;
tex = Root().resources.getTexture("perlin");
tex->setRepeated(true);
back.setTexture(*tex.get(), false);
back.setTextureRect(sf::IntRect(0, 0, tex->getSize().x * backTiles, tex->getSize().y * backTiles));
back.setScale(s / tex->getSize().x, s / tex->getSize().y);
back.setOrigin(tex->getSize().x / 2 * backTiles, tex->getSize().y / 2 * backTiles);
back.setColor(sf::Color(128, 128, 128));
back.setPosition(m_center.x * 0.1, m_center.y * 0.1);
t.draw(back, sf::BlendMultiply);
s = 8.0;
back.setScale(s / tex->getSize().x, s / tex->getSize().y);
back.setPosition(0, 0);
back.setColor(sf::Color(255, 255, 255, 80));
back.setPosition(-m_center.x * 0.2, -m_center.y * 0.2);
t.draw(back, sf::BlendAdd);
s = 8.0;
back.setScale(s / tex->getSize().x, s / tex->getSize().y);
back.setPosition(-m_center.x * 0.3, -m_center.y * 0.3);
back.setColor(sf::Color(255, 255, 255, 255));
t.draw(back, sf::BlendMultiply);
// draw
setView(t);
drawEntities(t);
setView(m_renderTextures[1]);
float f = - 0.2;
back.setColor(sf::Color(255, 255, 255, 150));
back.setPosition(m_center.x * f + m_time * f * 1.5, m_center.y * f);
m_renderTextures[1].draw(back, sf::BlendAdd);
sf::Sprite sprite;
sprite = sf::Sprite(m_renderTextures[1].getTexture());
Root().resources.getShader("fog")->setParameter("size", sf::Vector2f(m_renderTextures[1].getSize()));
t.setView(sf::View(sf::FloatRect(0, h, w, -h)));
t.draw(sprite, sf::RenderStates(sf::BlendAdd, sf::RenderStates::Default.transform, sf::RenderStates::Default.texture, Root().resources.getShader("fog").get()));
// post-processing
target.setView(sf::View(sf::FloatRect(0, h, w, -h)));
auto pixel = Root().resources.getShader("pixel");
auto verticalBlur = Root().resources.getShader("blur-vertical");
auto horizontalBlur = Root().resources.getShader("blur-horizontal");
horizontalBlur->setParameter("blurSize", 2.5 / w);
verticalBlur->setParameter("blurSize", 2.5 / h);
// pixel->setParameter("center", m_center.x, m_center.y);
pixel->setParameter("size", w, h);
m_renderTextures[0].setView(m_renderTextures[0].getDefaultView());
m_renderTextures[1].setView(m_renderTextures[1].getDefaultView());
m_renderTextures[0].setSmooth(true);
m_renderTextures[1].setSmooth(true);
if(m_shadersEnabled) {
sprite = sf::Sprite(m_renderTextures[0].getTexture());
m_renderTextures[1].draw(sprite, horizontalBlur.get());
sprite = sf::Sprite(m_renderTextures[1].getTexture());
m_renderTextures[0].draw(sprite, verticalBlur.get());
sprite = sf::Sprite(m_renderTextures[0].getTexture());
target.draw(sprite, pixel.get());
} else {
sprite = sf::Sprite(m_renderTextures[0].getTexture());
target.draw(sprite);
}
// help
setView(target);
if(m_currentHelp != "" && m_helpProgress > 0 && m_helpProgress < 1) {
float fade = glm::smoothstep(0.f, 0.1f, m_helpProgress) - glm::smoothstep(0.9f, 1.f, m_helpProgress);
float wobble = sin(m_time * 5);
float alpha = fade;
float angle = tween::Cubic().easeIn(1 - fade, 0, 1, 1) * 0.2;
float scale = (0.6 + 0.01 * wobble) * m_pixelSize;
std::string texture = "help-" + m_currentHelp;
auto tex = Root().resources.getTexture(texture);
if(tex) {
sf::Sprite sprite(*tex.get());
glm::vec2 ang(-1, 0);
glm::vec2 pos = m_player->position() - glm::vec2(0, 1.1f) + ang - glm::rotate(ang, angle);
sprite.setPosition(pos.x, pos.y);
sprite.setOrigin(tex->getSize().x / 2, tex->getSize().y / 2);
sprite.setColor(sf::Color(255, 255, 255, 255 * alpha));
sprite.setScale(scale, scale);
sprite.setRotation(wobble + thor::toDegree(angle));
target.draw(sprite);
}
}
// message
target.setView(target.getDefaultView());
if(m_message != "") {
float alpha = fmin(1, fmax(0, m_messageTime)) * fmin(1, fmax(0, 4 - m_messageTime));
alpha = tween::Cubic().easeOut(alpha, 0, 1, 1);
sf::Text text;
text.setFont(* Root().resources.getFont("default"));
text.setCharacterSize(36);
text.setString(m_message);
text.setStyle(sf::Text::Bold);
text.setPosition(sf::Vector2f(target.getSize().x / 2 - text.getLocalBounds().width / 2, target.getSize().y * 0.8 - fabs(sin(m_time)) * 20));
text.setColor(sf::Color(255, 255, 255, 255 * alpha));
sf::Vector2f b(10, 5);
sf::RectangleShape rect(sf::Vector2f(text.getLocalBounds().width + 2 * b.x, text.getLocalBounds().height * 1.5 + 2 * b.y));
rect.setPosition(text.getPosition() - b);
rect.setFillColor(sf::Color(0, 0, 0, 100 * alpha));
target.draw(rect);
target.draw(text);
}
if(Root().debug) {
sf::Text text;
text.setFont(* Root().resources.getFont("mono"));
text.setCharacterSize(20);
text.setString(std::to_string(getFPS()) + " FPS");
text.setPosition(sf::Vector2f(10, 10));
text.setColor(sf::Color(255, 255, 255, 100));
target.draw(text);
}
if(m_levelFade) {
sf::RectangleShape rect(sf::Vector2f(target.getSize()));
rect.setFillColor(sf::Color(0, 0, 0, 255 * m_levelFade));
target.draw(rect);
}
}
void VDTestPixmaps() {
CPUEnableExtensions(CPUCheckForExtensions());
VDFastMemcpyAutodetect();
VDRegisterVideoDisplayControl();
HWND hwndDisp = CreateWindow(VIDEODISPLAYCONTROLCLASS, "Kasumi onee-sama", WS_VISIBLE|WS_POPUP, 0, 0, 1024, 768, NULL, NULL, GetModuleHandle(NULL), NULL);
IVDVideoDisplay *pDisp = VDGetIVideoDisplay(hwndDisp);
const int srcw = 80;
const int srch = 60;
VDPixmapBuffer image(srcw, srch, nsVDPixmap::kPixFormat_XRGB8888);
for(int y=0; y<srch; ++y) {
for(int x=0; x<srcw; ++x) {
int x2 = x - (srcw>>1);
int y2 = y - (srch>>1);
uint32 v = (int)((1.0 + sin((x2*x2 + y2*y2) / 50.0)) * 255.0 / 2.0 + 0.5);
uint32 r = (255-v)<<16;
if ((x^y)&1)
v = r = 0;
((uint32 *)((char *)image.data + image.pitch * y))[x] = (v*x/srcw) + (((v*y)/srch)<<8) + r;
}
}
VDPixmapBuffer sprite(srcw, srch, nsVDPixmap::kPixFormat_XRGB8888);
VDPixmapBuffer buffer(1024, 768, nsVDPixmap::kPixFormat_XRGB8888);
VDPixmapBlt(sprite, image);
pDisp->SetSourcePersistent(true, buffer);
bouncer p1(-64, -48, 1024+64, 768+48, 1.0);
bouncer p2(-64, -48, 1024+64, 768+48, 0.5);
sint64 freq;
QueryPerformanceFrequency((LARGE_INTEGER *)&freq);
sint64 start;
QueryPerformanceCounter((LARGE_INTEGER *)&start);
int blits = 0;
double th = 0;
VDPixmapTextureMipmapChain mipchain(sprite);
vdautoptr<IVDPixmapResampler> pResampler(VDCreatePixmapResampler());
while(pump()) {
int x1 = p1.xposf();
int y1 = p1.yposf();
int x2 = p2.xposf();
int y2 = p2.yposf();
// VDPixmapBlt(buffer, xp, yp, image, 0, 0, 320, 240);
// VDPixmapStretchBltNearest(buffer, x1, y1, x2, y2, sprite, -32<<16, -32<<16, (srcw+32)<<16, (srch+32)<<16);
// VDPixmapStretchBltBilinear(buffer, x1, y1, x2, y2, sprite, 0, 0, srcw<<16, srch<<16);
double fx1 = x1 / 65536.0;
double fy1 = y1 / 65536.0;
double fx2 = x2 / 65536.0;
double fy2 = y2 / 65536.0;
if (fx2 < fx1)
std::swap(fx1, fx2);
if (fy2 < fy1)
std::swap(fy1, fy2);
pResampler->Init(fx2-fx1, fy2-fy1, buffer.format, sprite.w, sprite.h, sprite.format, IVDPixmapResampler::kFilterLanczos3, IVDPixmapResampler::kFilterLanczos3, false);
pResampler->Process(&buffer, fx1, fy1, fx2, fy2, &sprite, 0, 0);
#if 0
float mx[16]={1,0,0,0,0,1,0,0,0,0,1,0,0,0,0,1};
mx[0] = cos(th) / 512.0f;
mx[1] = sin(th) / 512.0f;
mx[5] = cos(th) / 384.0f;
mx[4] = -sin(th) / 384.0f;
mx[13] = -6.0f / 384.0f;
mx[15] = 1.0f;
VDTriBltVertex vx[4]={
{ -100, -100, 0, 0, 0 },
{ +100, -100, 0, 0, 60 },
{ +100, +100, 0, 80, 60 },
{ -100, +100, 0, 80, 0 },
};
const int idx[6]={0,1,2,0,2,3};
VDPixmap buffer_cropped(VDPixmapOffset(buffer, 160, 120));
buffer_cropped.w -= 320;
buffer_cropped.h -= 240;
VDPixmapTriBlt(buffer_cropped, mipchain.Mips(), mipchain.Levels(), vx, 4, idx, 6, kTriBltFilterTrilinear, 0.0f, mx);
th += 0.01;
#endif
pDisp->Update();
++blits;
p1.advance();
p2.advance();
sint64 last;
QueryPerformanceCounter((LARGE_INTEGER *)&last);
if (last-start >= freq) {
start += freq;
VDDEBUG2("%d blits/sec\n", blits);
blits = 0;
}
}
}
SpriteID Stage::new_sprite() {
SpriteID s = SpriteManager::manager_new();
sprite(s)->set_parent(this);
signal_sprite_created_(s);
return s;
}
void Stage::delete_sprite(SpriteID s) {
sprite(s)->apply_recursively_leaf_first(&ownable_tree_node_destroy, false);
sprite(s)->detach();
SpriteManager::manager_delete(s);
}
void AnimatedSprite::draw(sf::RenderTarget& target, sf::RenderStates states) const
{
sf::Sprite sprite(*mv_frames[mi_currentFrame]->m_texture, mv_frames[mi_currentFrame]->m_placement);
states.transform *= getTransform();
target.draw(sprite, states);
}
int main(int, char const**)
{
// Create the main window
sf::RenderWindow window(sf::VideoMode(800, 600), "SFML window");
// Set the Icon
sf::Image icon;
if (!icon.loadFromFile(resourcePath() + "icon.png")) {
return EXIT_FAILURE;
}
window.setIcon(icon.getSize().x, icon.getSize().y, icon.getPixelsPtr());
// Load a sprite to display
sf::Texture texture;
if (!texture.loadFromFile(resourcePath() + "cute_image.jpg")) {
return EXIT_FAILURE;
}
sf::Sprite sprite(texture);
// Create a graphical text to display
sf::Font font;
if (!font.loadFromFile(resourcePath() + "sansation.ttf")) {
return EXIT_FAILURE;
}
sf::Text text("This is how you do it with sfml", font, 50);
text.setColor(sf::Color::Black);
// Load a music to play
sf::Music music;
if (!music.openFromFile(resourcePath() + "nice_music.ogg")) {
return EXIT_FAILURE;
}
// Play the music
music.play();
// Start the game loop
while (window.isOpen())
{
// Process events
sf::Event event;
while (window.pollEvent(event))
{
// Close window : exit
if (event.type == sf::Event::Closed) {
window.close();
}
// Escape pressed : exit
if (event.type == sf::Event::KeyPressed && event.key.code == sf::Keyboard::Escape) {
window.close();
}
}
// Clear screen
window.clear();
// Draw the sprite
window.draw(sprite);
// Draw the string
window.draw(text);
// Update the window
window.display();
}
return EXIT_SUCCESS;
}
void Render::operator()(double deltatime)
{
// Get entity updates
zmq::message_t zmq_message;
zmq_game_subscriber->recv(&zmq_message, ZMQ_NOBLOCK);
if(zeug::string_hash("Sprite") == zeug::string_hash(zmq_message.data()))
{
zmq_message.rebuild();
zmq_game_subscriber->recv(&zmq_message, 0);
if (zeug::string_hash("Create") == zeug::string_hash(zmq_message.data()))
{
zmq_message.rebuild();
zmq_game_subscriber->recv(&zmq_message, 0);
while(zeug::string_hash("Finish") != zeug::string_hash(zmq_message.data()))
{
Entity entity{0, 0, 0, 0.0f, "", ""};
msgpack::unpacked unpacked;
msgpack::unpack(&unpacked, reinterpret_cast<char*>(zmq_message.data()), zmq_message.size());
msgpack::object obj = unpacked.get();
obj.convert(&entity);
Sprite sprite = {this->base_window, entity.json_desc, entity.id};
sprite.SetPosition(std::make_pair(entity.position_x, entity.position_y));
sprite.SetScale(entity.scale);
sprite.SetState(Statestring_enum::toEnum(entity.state));
this->sprites.push_back(std::move(sprite));
zmq_message.rebuild();
zmq_game_subscriber->recv(&zmq_message, 0);
}
}
else if(zeug::string_hash("Update") == zeug::string_hash(zmq_message.data()))
{
zmq_message.rebuild();
zmq_game_subscriber->recv(&zmq_message, 0);
while(zeug::string_hash("Finish") != zeug::string_hash(zmq_message.data()))
{
Entity entity{0, 0, 0, 0.0f, "", ""};
msgpack::unpacked unpacked;
msgpack::unpack(&unpacked, reinterpret_cast<char*>(zmq_message.data()), zmq_message.size());
msgpack::object obj = unpacked.get();
obj.convert(&entity);
for (auto& sprite : this->sprites)
{
//break;
if( sprite.GetId() == entity.id)
{
sprite.SetPosition(std::make_pair(entity.position_x, entity.position_y));
sprite.SetScale(entity.scale);
sprite.SetState(Statestring_enum::toEnum(entity.state));
break;
}
}
zmq_message.rebuild();
zmq_game_subscriber->recv(&zmq_message, 0);
}
}
}
// Render sprites
glEnable (GL_BLEND);
glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
for (auto& sprite : this->sprites)
{
sprite(deltatime);
}
glBlendFunc (GL_ZERO, GL_ZERO);
glDisable (GL_BLEND);
}
//------------------------------------------------------------------------------
void
Game::render()
{
HGE * hge( Engine::hge() );
hgeResourceManager * rm( Engine::rm() );
hgeFont * font( rm->GetFont( "love" ) );
ViewPort * vp( Engine::vp() );
hge->Gfx_Clear( 0x00AAAAAA );
vp->setTransform();
font->SetColor( 0xF0000000 );
font->SetScale( 0.1f );
float top( -32.0f );
unsigned int row( 0 );
unsigned int col( 0 );
// draw the lines that we've entered so far
for( std::vector< std::string >::iterator i = m_lines.begin();
i != m_lines.end(); ++i )
{
const char * line( i->c_str() );
for ( unsigned int j = 0; j < strlen( line ); ++j )
{
font->printf( -50.0f + 2.0f * row,
top + 4.75f * col,
HGETEXT_LEFT, "%c", line[j] );
row += 1;
if ( row > 50 ) break;
}
col += 1;
row = 0;
}
// draw what we've written this far: m_brain.getBuffer();
row = 0;
const char * past( m_brain.getBuffer() );
for ( unsigned int i = 0; i < strlen( past ); ++i )
{
font->printf( -50.0f + 2.0f * row,
top + 4.75f * col,
HGETEXT_LEFT, "%c", past[i] );
row += 1;
if ( row > 50 ) break;
}
row = strlen( past );
// draw the cursor, showing a dial of characters
hgeSprite * cursor( rm->GetSprite( "cursor" ) );
cursor->RenderEx( -50.0f + 2.0f * row + 0.7f, top + 4.75f * col + 5.5f,
0.0f, 0.06f, 0.13f );
if ( m_dial.size() < 5 )
{
return;
}
int current( m_current[m_brain.getMode()] );
for ( int offset = -1; offset <= 4; ++offset )
{
int index( current + offset );
if ( index < 0 )
{
index += m_dial.size();
}
else if ( index >= static_cast<int>(m_dial.size()) )
{
index -= m_dial.size();
}
hgeSprite * sprite( font->GetSprite( m_dial[index] ) );
hgeColorRGB color( 1.0f, 1.0f, 1.0f, ( offset == 0 ) ? 1.0f : 0.8f );
if ( index >= 0 && index < m_dialSize )
{
color.b = 0.3f;
}
sprite->SetColor( color.GetHWColor() );
float scale( 1.0f );
sprite->RenderEx( -50.0f + 2.0f * row,
top + 4.75f * col + 2.5f * offset,
0.0f, 0.1f, 0.1f * scale );
}
row += 1;
// draw a prediction of what we're likely to write next
const char * future( m_brain.getText2() );
const double * probs( m_brain.getProbs2() );
for ( unsigned int i = 0; i < strlen( future ); ++i )
{
if ( row > 50 ) break;
hgeColorRGB color( 0.0f, 0.0f, 0.0f, static_cast< float >( probs[i] ) );
font->SetColor( color.GetHWColor() );
font->printf( -50.0f + 2.0f * row,
top + 4.75f * col,
HGETEXT_LEFT, "%c", future[i] );
row += 1;
}
}
int main()
{
int count = 24000;
// Random number generator
std::random_device random;
std::srand(random());
// Create the window
sf::RenderWindow window(sf::VideoMode(800, 600), "MoonyTest", sf::Style::Close);
sf::Clock frame_clock;
sf::Time frame_limit = sf::seconds(1.0f / 60.0f);
sf::Time frame_sum;
sf::Time frame_time;
int frame_count;
sf::Clock clock;
bool fullscreen = false;
moony::Sprite player1;
moony::Sprite player2;
moony::TextureAtlas texture_atlas;
moony::SpriteBatch sprite_batch;
std::vector<moony::Sprite> sprites;
if(!texture_atlas.loadFromFile("A/small/small.mtpf"))
return -1;
player1.m_subtexture = texture_atlas.findSubTexture("mario.png");
player1.m_layer = 1;
player1.setScale(5.0f, 5.0f);
player2.m_subtexture = texture_atlas.findSubTexture("goomba.png");
player2.m_layer = 4;
player2.setScale(5.0f, 5.0f);
std::vector<std::string> tex_names = texture_atlas.getSubTextureNames();
for(size_t index = 0; index < count; index++)
{
size_t name_index = std::rand() % tex_names.size();
moony::Texture sub_texture = texture_atlas.findSubTexture(tex_names[name_index]);
//moony::Texture sub_texture = texture_atlas.findSubTexture("player.png");
moony::Sprite sprite(sub_texture, std::rand() % 100);
sprite.setPosition(std::rand() % 800, std::rand() % 600);
sprite.setOrigin(sprite.m_subtexture.m_rect.width / 2, sprite.m_subtexture.m_rect.height / 2);
sprites.push_back(sprite);
}
while(window.isOpen())
{
frame_time = frame_clock.restart();
sf::Event event;
while(window.pollEvent(event))
{
switch(event.type)
{
case sf::Event::Closed:
window.close();
break;
default:
break;
}
}
frame_sum += frame_time;
frame_count = 0;
while(frame_sum > frame_limit && frame_count < 10)
{
if(sf::Keyboard::isKeyPressed(sf::Keyboard::F11))
{
window.create(sf::VideoMode(800, 600), "MoonyTest", fullscreen ? sf::Style::Fullscreen : sf::Style::Close);
fullscreen = !fullscreen;
}
if(sf::Keyboard::isKeyPressed(sf::Keyboard::Add) && sprites.size() < 128000)
{
for(size_t index = 0; index < 100; index++)
{
size_t name_index = std::rand() % tex_names.size();
moony::Texture sub_texture = texture_atlas.findSubTexture(tex_names[name_index]);
//moony::Texture sub_texture = texture_atlas.findSubTexture("player.png");
moony::Sprite sprite(sub_texture, 1);
sprite.setPosition(std::rand() % 800, std::rand() % 600);
sprite.setOrigin(sprite.m_subtexture.m_rect.width / 2, sprite.m_subtexture.m_rect.height / 2);
sprites.push_back(sprite);
}
}
if(sf::Keyboard::isKeyPressed(sf::Keyboard::Subtract) && sprites.size() > 0)
{
for(size_t index = 0; index < 100; index++)
sprites.pop_back();
}
float cos = std::cos(clock.getElapsedTime().asSeconds());
float sin = std::sin(clock.getElapsedTime().asSeconds());
for(moony::Sprite& sprite : sprites)
{
sprite.rotate(cos * sprite.m_layer);
sprite.move(cos, sin * sprite.m_layer * 0.25);
sprite.setScale(sin * 2, sin * 2);
//sprite.m_layer = random() % 10;
}
if(sf::Keyboard::isKeyPressed(sf::Keyboard::Up))
player1.move(0, -5);
if(sf::Keyboard::isKeyPressed(sf::Keyboard::Down))
player1.move(0, 5);
if(sf::Keyboard::isKeyPressed(sf::Keyboard::Left))
player1.move(-5, 0);
if(sf::Keyboard::isKeyPressed(sf::Keyboard::Right))
player1.move(5, 0);
if(sf::Keyboard::isKeyPressed(sf::Keyboard::Y))
player1.m_subtexture = texture_atlas.findSubTexture("mario.png");
if(sf::Keyboard::isKeyPressed(sf::Keyboard::H))
player1.m_subtexture = texture_atlas.findSubTexture("mushroomman.png");
if(sf::Keyboard::isKeyPressed(sf::Keyboard::N))
player1.m_subtexture = texture_atlas.findSubTexture("cactus.png");
if(sf::Keyboard::isKeyPressed(sf::Keyboard::W))
player2.move(0, -5);
if(sf::Keyboard::isKeyPressed(sf::Keyboard::S))
player2.move(0, 5);
if(sf::Keyboard::isKeyPressed(sf::Keyboard::A))
player2.move(-5, 0);
if(sf::Keyboard::isKeyPressed(sf::Keyboard::D))
player2.move(5, 0);
if(sf::Keyboard::isKeyPressed(sf::Keyboard::T))
player2.m_subtexture = texture_atlas.findSubTexture("player.png");
if(sf::Keyboard::isKeyPressed(sf::Keyboard::G))
player2.m_subtexture = texture_atlas.findSubTexture("snail.png");
if(sf::Keyboard::isKeyPressed(sf::Keyboard::B))
player2.m_subtexture = texture_atlas.findSubTexture("1-up.png");
frame_sum -= frame_limit;
frame_count++;
}
std::cout << "\r" << "sprites:" << sprites.size() << " render:" << 1.0f / frame_time.asSeconds() << " update:" << 1.0f / frame_clock.getElapsedTime().asSeconds();
window.clear(sf::Color::Black);
sprite_batch.clear();
for(const moony::Sprite& sprite : sprites)
sprite_batch.draw(sprite);
sprite_batch.draw(player1);
sprite_batch.draw(player2);
sprite_batch.order();
window.draw(sprite_batch);
window.display();
}
return 0;
}
