//tasta apasata
void notifyKeyPressed(unsigned char key_pressed, int mouse_x, int mouse_y){
if(key_pressed == 27) lab::glut::close(); //ESC inchide glut si
if(key_pressed == 32) {
//SPACE reincarca shaderul si recalculeaza locatiile (offseti/pointeri)
glDeleteProgram(gl_program_shader);
gl_program_shader = lab::loadShader("shadere\\shader_vertex.glsl", "shadere\\shader_fragment.glsl");
}
if(key_pressed == 'i'){
static bool wire =true;
wire=!wire;
glPolygonMode(GL_FRONT_AND_BACK, (wire?GL_LINE:GL_FILL));
}
if(key_pressed == 'w') { cam1.translateForward(1.0f); }
if(key_pressed == 'a') { cam1.translateRight(-1.0f); }
if(key_pressed == 's') { cam1.translateForward(-1.0f); }
if(key_pressed == 'd') { cam1.translateRight(1.0f); }
if(key_pressed == 'r') { cam1.translateUpword(1.0f); }
if(key_pressed == 'f') { cam1.translateUpword(-1.0f); }
if(key_pressed == 'q') { cam1.rotateFPSoY(1.0f); }
if(key_pressed == 'e') { cam1.rotateFPSoY(-1.0f); }
if(key_pressed == 'z') { cam1.rotateFPSoZ(-1.0f); }
if(key_pressed == 'c') { cam1.rotateFPSoZ(1.0f); }
if(key_pressed == 't') { cam1.rotateFPSoX(1.0f); }
if(key_pressed == 'g') { cam1.rotateFPSoX(-1.0f); }
if(key_pressed == 'o') { cam1.set(glm::vec3(0,0,40), glm::vec3(0,0,0), glm::vec3(0,1,0)); }
if(key_pressed == '1') { cam1.rotateTPSoX(1.0f,40.0f); }
if(key_pressed == '2') { cam1.rotateTPSoX(-1.0f,40.0f); }
if(key_pressed == '3') { cam1.rotateTPSoY(1.0f,40.0f); }
if(key_pressed == '4') { cam1.rotateTPSoY(-1.0f,40.0f); }
if(key_pressed == '5') { cam1.rotateTPSoZ(1.0f,40.0f); }
if(key_pressed == '6') { cam1.rotateTPSoZ(-1.0f,40.0f); }
if (key_pressed == '7') { active_camera = 1; }
if (key_pressed == '8') { active_camera = 2; }
if (key_pressed == '9') { active_camera = 3; }
if (key_pressed == '0') { active_camera = 4; }
}
void notifyKeyPressed(unsigned char key_pressed, int mouse_x, int mouse_y){
//ESC inchide glut.
if (key_pressed == 27) lab::glut::close();
if (key_pressed == 'W') {
static bool wire = true;
wire = !wire;
glPolygonMode(GL_FRONT_AND_BACK, (wire ? GL_LINE : GL_FILL));
}
// Taste pentru deplasarea camerei FPS de sus.
if (key_pressed == 'w')
view1->translateForward(1.0f);
if (key_pressed == 's')
view1->translateForward(-1.0f);
if (key_pressed == 'q')
view1->translateUpword(1.0f);
if (key_pressed == 'e')
view1->translateUpword(-1.0f);
if (key_pressed == 'a')
view1->translateRight(-1.0f);
if (key_pressed == 'd')
view1->translateRight(1.0f);
if (key_pressed == '1')
view1->rotateFPSoX(1.0f);
if (key_pressed == '2')
view1->rotateFPSoX(-1.0f);
if (key_pressed == '3')
view1->rotateFPSoY(1.0f);
if (key_pressed == '4')
view1->rotateFPSoY(-1.0f);
if (key_pressed == '5')
view1->rotateFPSoZ(1.0f);
if (key_pressed == '6')
view1->rotateFPSoZ(-1.0f);
if (key_pressed == 'c')
is_fps = !is_fps;
modified = true;
}
Tema4() {
// Setari pentru desenare, clear color seteaza culoarea de clear pentru ecran (format R,G,B,A).
glClearColor(0.0, 0.0, 0.0, 1);
glClearDepth(1); // clear depth si depth test sunt folosite pentru a determina obiectele cele mai apropiate de camera.
glEnable(GL_DEPTH_TEST);
// Incarca un shader din fisiere si gaseste locatiile matricilor relativ la programul creat.
gl_program_shader = lab::loadShader("shadere\\shader_vertex.glsl", "shadere\\shader_fragment.glsl");
// Incarca texturi.
textures.push_back(lab::loadTextureBMP("resurse\\b1.bmp"));
textures.push_back(lab::loadTextureBMP("resurse\\b2.bmp"));
textures.push_back(lab::loadTextureBMP("resurse\\b3.bmp"));
textures.push_back(lab::loadTextureBMP("resurse\\b4.bmp"));
textures.push_back(lab::loadTextureBMP("resurse\\b5.bmp"));
textures.push_back(lab::loadTextureBMP("resurse\\flying_car_texture.bmp"));
for (int i = 0; i < textures.size(); ++i) {
glActiveTexture(GL_TEXTURE0 + i + 1);
glBindTexture(GL_TEXTURE_2D, textures[i]);
}
srand(time(NULL));
// Camere
view1 = new lab::Camera();
view1->set(glm::vec3(-10, Building::MAX_HEIGHT + 10, 500), glm::vec3(490, Building::MAX_HEIGHT + 10, 500), glm::vec3(0, 1, 0));
view2 = new lab::Camera();
view2->set(glm::vec3(500, 750, 500), glm::vec3(500.1, 0, 500.1), glm::vec3(0, 1, 0));
view2->rotateFPSoX(-45);
is_fps = true;
vehicle = new Vehicle();
quad = new Quad(1000);
// Folosesc primele 5 texturi pentru cladiri.
city = new City(textures.size() - 1);
// Lumina & material
material_shininess = 10;
material_kd = 0.4;
material_ks = 0.1;
// Desenare solid
glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
modified = true;
}
