int App::start(const std::vector<std::string> &args)
{
quit = false;
ConsoleWindow console("Console", 80, 200);
print_usage();
DisplayWindowDescription desc;
desc.set_title("ClanLib Collision Test");
desc.set_size(Size(950, 700), true);
DisplayWindow window(desc);
Canvas canvas(window);
Slot slot_quit = window.sig_window_close().connect(this, &App::on_window_close);
Slot slot_input_up = window.get_ic().get_keyboard().sig_key_up().connect(this, &App::on_input_up);
Font font(canvas, "Tahoma", 16);
//////////////////////////////////////////////////////////////////////////
std::string file1("images/triangle.png");
//std::string file2("images/triangle.png");
std::string file2("images/weird.png");
//std::string file2("images/edge_test2.png");
//std::string file2("images/inside_test5.png");
if( args.size() == 3 )
{
file1 = args[1];
file2 = args[2];
}
double tri_x_pos = 0;
double tri_y_pos = 0;
double other_x_pos = canvas.get_width()/2;
double other_y_pos = canvas.get_height()/2;
// draw_limit = 0;
bool draw_min_on_co1 = false;
bool draw_min_on_co2 = false;
bool draw_sub_on_co1 = false;
bool draw_sub_on_co2 = false;
bool draw_surfaces = false;
bool draw_deep_point = false;
float sub_circle_multiplier = 3.5f;
////////////////////////////////////////////
// load resources:
Sprite surface(canvas, file1);
Sprite surface2(canvas, file2);
surface.set_rotation_hotspot(origin_center);
surface.set_alignment(origin_center);
surface2.set_rotation_hotspot(origin_center);
surface2.set_alignment(origin_center);
////////////////////////////////////////////
// Collision code
// load outlines
FileSystem vfs(".");
CollisionOutline co1(file1);
CollisionOutline co2(file2, vfs, 128, accuracy_medium, true);
// Save now before alignment and positions have been applied
co1.save("collision_1_test_outline_file.out");
co2.save("collision_2_test_outline_file.out");
// print some info about the outlines:
unsigned int size = co1.get_contours().size();
Console::write_line(string_format("outline 1: %1 contour(s)", (int) co1.get_contours().size()));
Console::write_line(string_format("outline 2: %1 contour(s)", (int) co2.get_contours().size()));
std::vector<Contour>::const_iterator it;
Console::write_line("outline 1:");
int i=1;
for( it = co1.get_contours().begin(); it!=co1.get_contours().end(); ++it )
{
Console::write_line(string_format("\tcontour %1: %2 points", i, (int) (*it).get_points().size()));
i++;
}
Console::write_line("outline 2:");
i=1;
for( it = co2.get_contours().begin(); it!=co2.get_contours().end(); ++it )
{
Console::write_line("\tcontour %1: %2 points", i, (int) (*it).get_points().size());
i++;
}
co1.set_alignment(origin_center);
co1.set_rotation_hotspot(origin_center);
co1.enable_collision_info(true,true,true,true);
co1.set_inside_test(true);
co2.set_alignment(origin_center);
co2.set_rotation_hotspot(origin_center);
co2.enable_collision_info(true,true,true,true);
co2.set_inside_test(true);
print_usage();
InputDevice keyboard = window.get_ic().get_keyboard();
// Loop until the user hits escape:
while (!quit)
{
canvas.clear(Colorf::ghostwhite);
if (keyboard.get_keycode(keycode_shift))
{
// Control Other
if( keyboard.get_keycode(keycode_right) )
other_x_pos+=0.25;
if( keyboard.get_keycode(keycode_left) )
other_x_pos-=0.25;
if( keyboard.get_keycode(keycode_up) )
other_y_pos-=0.25;
if( keyboard.get_keycode(keycode_down) )
other_y_pos+=0.25;
}
else
{
// Control Triangle
if( keyboard.get_keycode(keycode_right) )
tri_x_pos+=0.25;
if( keyboard.get_keycode(keycode_left) )
tri_x_pos-=0.25;
if( keyboard.get_keycode(keycode_up) )
tri_y_pos-=0.25;
if( keyboard.get_keycode(keycode_down) )
tri_y_pos+=0.25;
}
if( keyboard.get_keycode(keycode_e) )
{
surface.rotate(Angle(0.1f, angle_degrees));
co1.rotate(Angle(0.1f, angle_degrees));
}
if( keyboard.get_keycode(keycode_r) )
{
co2.rotate(Angle(0.1f, angle_degrees));
surface2.rotate(Angle(0.1f, angle_degrees));
}
if( keyboard.get_keycode(keycode_1) )
{
co2.set_scale(1.0f, 1.0f);
surface2.set_scale(1.0f, 1.0f);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_2) )
{
co2.set_scale(2.0f, 2.0f);
surface2.set_scale(2.0f, 2.0f);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_3) )
{
co2.set_scale(3.0f, 3.0f);
surface2.set_scale(3.0f, 3.0f);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_4) )
{
co2.set_scale(4.0f, 4.0f);
surface2.set_scale(4.0f, 4.0f);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_5) )
{
co2.set_scale(5.0f, 5.0f);
surface2.set_scale(5.0f, 5.0f);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_6) )
{
co2.set_scale(6.0f, 6.0f);
surface2.set_scale(6.0f, 6.0f);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_7) )
{
co2.set_scale(7.0f, 7.0f);
surface2.set_scale(7.0f, 7.0f);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_8) )
{
co2.set_scale(8.0f, 8.0f);
surface2.set_scale(8.0f, 8.0f);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_i) )
{
draw_sub_on_co1 = !draw_sub_on_co1;
System::sleep(100);
}
if( keyboard.get_keycode(keycode_o) )
{
draw_sub_on_co2 = !draw_sub_on_co2;
System::sleep(100);
}
if( keyboard.get_keycode(keycode_t) )
{
draw_min_on_co1 = !draw_min_on_co1;
System::sleep(100);
}
if( keyboard.get_keycode(keycode_y) )
{
draw_min_on_co2 = !draw_min_on_co2;
System::sleep(100);
}
if( keyboard.get_keycode(keycode_d) )
{
draw_deep_point = !draw_deep_point;
System::sleep(100);
}
if( keyboard.get_keycode(keycode_s) )
{
draw_surfaces = !draw_surfaces;
System::sleep(100);
}
if( keyboard.get_keycode(keycode_x) )
{
// Load, ensuring recreated
co1 = CollisionOutline("collision_1_test_outline_file.out");
co2 = CollisionOutline("collision_2_test_outline_file.out");
// Reset the options
co1.set_alignment(origin_center);
co1.set_rotation_hotspot(origin_center);
co1.enable_collision_info(true,true,true,true);
co1.set_inside_test(true);
co2.set_alignment(origin_center);
co2.set_rotation_hotspot(origin_center);
co2.enable_collision_info(true,true,true,true);
co2.set_inside_test(true);
System::sleep(100);
}
if( keyboard.get_keycode(keycode_subtract) )
{
sub_circle_multiplier -= 0.2f;
co1.calculate_sub_circles(sub_circle_multiplier);
co2.calculate_sub_circles(sub_circle_multiplier);
System::sleep(50);
}
if( keyboard.get_keycode(keycode_add) )
{
sub_circle_multiplier += 0.2f;
co1.calculate_sub_circles(sub_circle_multiplier);
co2.calculate_sub_circles(sub_circle_multiplier);
System::sleep(50);
}
if( keyboard.get_keycode(keycode_g) )
{
co1.calculate_smallest_enclosing_discs();
co2.calculate_smallest_enclosing_discs();
System::sleep(50);
}
if( keyboard.get_keycode(keycode_c) )
{
co1.calculate_convex_hulls();
co2.calculate_convex_hulls();
System::sleep(200);
}
if( keyboard.get_keycode(keycode_h) )
{
print_usage();
System::sleep(200);
}
// -----------------------------------
// surfaces
if(draw_surfaces)
{
surface.draw(canvas, (float)tri_x_pos, (float)tri_y_pos);
surface2.draw(canvas, (float)other_x_pos, (float)other_y_pos);
}
// -----------------------------------
// co1
co1.set_translation((float)tri_x_pos, (float)tri_y_pos);
co1.draw(0.0, 0.0, Colorf::limegreen, canvas);
if(draw_sub_on_co1)
co1.draw_sub_circles(0.0, 0.0, Colorf::blue, canvas);
// -----------------------------------
// co2
co2.set_translation((float)other_x_pos, (float)other_y_pos);
co2.draw(0.0, 0.0, Colorf::red, canvas );
if(draw_sub_on_co2)
co2.draw_sub_circles(0.0, 0.0, Colorf::blue, canvas);
if(draw_min_on_co1)
canvas.fill_circle(co1.get_minimum_enclosing_disc().position, co1.get_minimum_enclosing_disc().radius, Colorf(0.4f, 0.0f, 0.0f, 0.5f));
if(draw_min_on_co2)
canvas.fill_circle(co2.get_minimum_enclosing_disc().position, co2.get_minimum_enclosing_disc().radius, Colorf(0.0f, 0.4f, 0.0f, 0.5f));
int font_ypos = 20;
// -----------------------------------
// collision testing
if( co2.collide(co1) )
{
canvas.fill_rect(canvas.get_size(), Colorf(Color(55,40,250,20)));
const std::vector<CollidingContours> &colpointinfo = co2.get_collision_info();
for(unsigned int c = 0; c < colpointinfo.size(); c++)
{
// Console::write_line(string_format("c1: %1 c2: %2 inside: %3", colpointinfo[c].contour1, colpointinfo[c].contour2, colpointinfo[c].inside));
for(unsigned int p = 0; p < colpointinfo[c].points.size(); p++)
{
const CollisionPoint &collision_point = colpointinfo[c].points[p];
draw_point_normal(canvas, collision_point.point, collision_point.normal, collision_point.is_entry ? Colorf::green : Colorf::red);
// Draw information
std::string output(string_format("Collision(%1). Point Number (%2). ", c, p));
output = output + string_format("Point(%1,%2). Normal(%3,%4). ", collision_point.point.x, collision_point.point.y, collision_point.normal.x, collision_point.normal.y);
if (collision_point.is_entry)
{
output = output + string_format("Entry(true). ");
}
else
{
output = output + string_format("Entry(false). ");
}
output = output + string_format("Contour1(%1,%2), Contour2(%3,%4).", collision_point.contour1_line_start, collision_point.contour1_line_end, collision_point.contour2_line_start, collision_point.contour2_line_end);
font.draw_text(canvas, 0, font_ypos, output, Colorf(0.0f, 0.0f, 0.0f, 0.5f));
font_ypos += 20;
}
// Paint the pen-depth and normal from the deepest points
{
if (draw_deep_point)
{
draw_point_normal(canvas, colpointinfo[c].contour1_deep_point, colpointinfo[c].penetration_normal, Colorf::blue);
draw_point_normal(canvas, colpointinfo[c].contour2_deep_point, colpointinfo[c].penetration_normal, Colorf::blue);
}
// Draw information
std::string output(string_format("Collision(%1). ", c));
if (colpointinfo[c].inside)
{
output = output + string_format("Inside(true). ");
}
else
{
output = output + string_format("Inside(false). ");
}
output = output + string_format("PenNormal(%1,%2). ", colpointinfo[c].penetration_normal.x, colpointinfo[c].penetration_normal.y);
output = output + string_format("PenDepth(%1). ", colpointinfo[c].penetration_depth);
output = output + string_format("DeepPoint1(%1,%2). ", colpointinfo[c].contour1_deep_point.x, colpointinfo[c].contour1_deep_point.y);
output = output + string_format("DeepPoint2(%1,%2). ", colpointinfo[c].contour2_deep_point.x, colpointinfo[c].contour2_deep_point.y);
font.draw_text(canvas, 0, font_ypos, output, Colorf(0.0f, 0.0f, 0.0f, 0.5f));
font_ypos += 20;
}
}
}
// Update keyboard input and handle system events:
window.flip(1);
KeepAlive::process();
}
//////////////////////////////////////////////////////////////////////////
return 0;
}
void game::run()
{
//MissileDesc projectile(*this);
towerDesc towr(this);
std::string txt;
std::string txt2 = "Life:";
std::string txt3 = "Money:";
std::string main = "Cam Pos";
std::string txt4 = "Game Over";
std::list<SceneObject *> troll;
endgame = false;
mouseUp = false;
float dir = 0.0f;
float spot_dir = 45.0f;
float aspect_time = 0.0f;
towerCount = 0;
cost = 0;
life = 20;
money = 10;
quit = false;
cameraRestricted = false;
selected_tower = "";
std::stringstream ss2 (std::stringstream::in | std::stringstream::out);
std::stringstream ss3 (std::stringstream::in | std::stringstream::out);
/*GUI app;
int retval = app.main(args);
if (retval == 0)
{
return retval;
}*/
Quaternionf camera_orientation(55.0f, 0.0f, 0.0f, angle_degrees, order_YXZ);
clan::OpenGLWindowDescription opengl_desc;
opengl_desc.set_version(3, 2, false);
clan::OpenGLTarget::set_description(opengl_desc);
//Scene test;
//clan::SceneCamera camera(test);
//DisplayWindowDescription innerwindow("Hello World", Size(640, 480), true);
//innerwindow.set_allow_resize(true);
//innerwindow.set_fullscreen(true);
clan::DisplayWindowDescription win_desc;
win_desc.set_allow_resize(true);
win_desc.set_title("Main");
win_desc.set_size(clan::Size( 1100, 900 ), false);
DisplayWindow window(win_desc);
//DisplayWindow window("main", 1200, 900, false, true);
//window.maximize();
//DisplayWindow window(innerwindow);
Rect viewport = window.get_viewport();
GraphicContext gc = window.get_gc();
ResourceManager resources;
SceneCache::set(resources, std::shared_ptr<SceneCache>(new AppSceneCache()));
ResourceManager sound_resources = XMLResourceManager::create(XMLResourceDocument("../Resources/resources.xml"));
sound_resources_=&sound_resources;
std::string shader_path = "../Resources/Scene3D";
Scene scene(gc, resources, shader_path);
sceneHolder = &scene;
SceneCamera camera(scene);
scene.set_camera(camera);
scene.set_viewport(gc.get_size());
camera.set_orientation(camera_orientation);
camera.set_position(Vec3f(0.0f, 40.0f, down));
Canvas canvas(window);
image_hp = Image(canvas, "../Resources/Images/heart.png");
image_hp.set_alignment(origin_center);
image_hp.set_scale(0.07, 0.07);
image_coin = Image(canvas, "../Resources/Images/coin.png");
image_coin.set_alignment(origin_center);
image_coin.set_scale(0.3, 0.3);
GUIWindowManagerDirect direct(window, canvas);
GUIManager maingui(direct, "../Resources");
GUIComponent *win_comp = new GUIComponent(&maingui, win_desc, "");
radial_menu = new RadialMenu(win_comp);
radial_menu->func_selected.set(this, &game::on_radial_menu_itemselected);
//GameComponent game_component(viewport, &maingui);
/*Rect toolbar_rect = Rect((viewport.get_width() - 448) / 2, viewport.bottom - 56, (viewport.get_width() - 448) / 2 + 448, viewport.bottom);
Toolbar toolbar(toolbar_rect, &game_component); // GameComponent is the "desktop" that the toolbar sits on, as an owner
toolbar.add_item(Sprite(canvas, "../Resources/Images/spell1.png"), Sprite(canvas, "../Resources/Images/spell1_selected.png"), Sprite(canvas, "../Resources/Images/spell1_clicked.png"));
toolbar.add_item(Sprite(canvas, "../Resources/Images/spell2.png"), Sprite(canvas, "../Resources/Images/spell2_selected.png"), Sprite(canvas, "../Resources/Images/spell2_clicked.png"));
toolbar.add_item(Sprite(canvas, "../Resources/Images/spell3.png"), Sprite(canvas, "../Resources/Images/spell3_selected.png"), Sprite(canvas, "../Resources/Images/spell3_clicked.png"));
toolbar.add_item(Sprite(canvas, "../Resources/Images/spell4.png"), Sprite(canvas, "../Resources/Images/spell4_selected.png"), Sprite(canvas, "../Resources/Images/spell4_clicked.png"));
toolbar.add_item(Sprite(canvas, "../Resources/Images/spell5.png"), Sprite(canvas, "../Resources/Images/spell5_selected.png"), Sprite(canvas, "../Resources/Images/spell5_clicked.png"));
toolbar.add_item(Sprite(canvas, "../Resources/Images/spell6.png"), Sprite(canvas, "../Resources/Images/spell6_selected.png"), Sprite(canvas, "../Resources/Images/spell6_clicked.png"));
toolbar.add_item(Sprite(canvas, "../Resources/Images/spell7.png"), Sprite(canvas, "../Resources/Images/spell7_selected.png"), Sprite(canvas, "../Resources/Images/spell7_clicked.png"));
*/
InputDevice keyboard = window.get_ic().get_keyboard();
InputDevice mouse = window.get_ic().get_mouse();
clan::Font font(canvas, "Tahoma", 30); // The clan prefix is required on linux due to a namespace conflict
SceneModel plane(gc, scene, "plane");
SceneModel box(gc, scene, "box");
SceneModel tower(gc, scene, "tower");
SceneModel gate(gc,scene,"gate");
SceneObject object(scene, plane, Vec3f(0.0f, 0.0f, 0.0f));
object.rotate(180.0f, 0.0f, 0.0f);
scene.show_skybox_stars(false);
/*SceneObject box0(scene, tower, Vec3f(20.0f, 5.0f, 0.0f), Quaternionf(0.0f, 0.0f, 0.0f, angle_degrees, order_YXZ));
SceneObject box1(scene, tower, Vec3f(-20.0f, 5.0f, 0.0f), Quaternionf(0.0f, 0.0f, 0.0f, angle_degrees, order_YXZ));
SceneObject box2(scene, tower, Vec3f(0.0f, 5.0f, 20.0f), Quaternionf(0.0f, 0.0f, 0.0f, angle_degrees, order_YXZ));
SceneObject box3(scene, tower, Vec3f(0.0f, 5.0f, -20.0f), Quaternionf(0.0f, 0.0f, 0.0f, angle_degrees, order_YXZ));
SceneObject tower[10];*/
SceneObject theGate(scene, gate, Vec3f(-75.0f,5.0f,60.0f), Quaternionf(0.0f,0.0f,0.0f,angle_degrees,order_YXZ));
theGate.set_scale(Vec3f(1.0f,2.0f,2.0f));
std::vector<SceneLight> omni_lights;
for (int i = 0; i < 4; i++)
{
SceneLight omni(scene);
omni.set_type(SceneLight::type_omni);
omni.set_color(Vec3f(0.05f));
omni.set_position(Quaternionf(45.0f, 45.0f + i * 90.0f, 0.0f, angle_degrees, order_YXZ).rotate_vector(Vec3f(0.0f, 0.0f, -100.0f)));
omni.set_attenuation_end(200.0f);
omni.set_ambient_illumination(0.025f);
omni_lights.push_back(omni);
}
SceneLight spot(scene);
spot.set_type(SceneLight::type_spot);
spot.set_orientation(Quaternionf(45.0f, 45.0f, 0.0f, angle_degrees, order_YXZ));
spot.set_position(spot.get_orientation().rotate_vector(Vec3f(-55.0f, 90.0f, -550.0f)));
//spot.set_position(Vec3f(-250, 100, -430));
spot.set_color(Vec3f(1.0f, 1.0f, 0.8f));
spot.set_falloff(45.0f);
spot.set_hotspot(15.0f);
spot.set_attenuation_start(150.0f);
spot.set_attenuation_end(1500.0f);
spot.set_shadow_caster(true);
spot.set_rectangle_shape(false);
//spot.set_ambient_illumination(true);
spot.set_aspect_ratio(1.0f);
/*SceneLight spot(scene);
spot.set_type(SceneLight::type_spot);
spot.set_orientation(Quaternionf(30.0f, 30.0f, 0.0f, angle_degrees, order_YXZ));
spot.set_position(spot.get_orientation().rotate_vector(Vec3f(0.0f, 0.0f, -100.0f)));
spot.set_color(Vec3f(1.0f, 1.0f, 0.8f));
spot.set_falloff(45.0f);
spot.set_hotspot(15.0f);
spot.set_attenuation_start(20.0f);
spot.set_attenuation_end(200.0f);
spot.set_shadow_caster(true);
spot.set_rectangle_shape(false);
spot.set_aspect_ratio(1.0f);*/
/*SceneLight spot2(scene);
spot2.set_type(SceneLight::type_spot);
spot2.set_position(Vec3f(0.0f, 100.0f, 0.0f));
spot2.set_color(Vec3f(1.0f, 1.0f, 1.0f) * 3.0f);
spot2.set_falloff(35.0f);
spot2.set_hotspot(30.0f);
spot2.set_attenuation_start(20.0f);
spot2.set_attenuation_end(130.0f);
spot2.set_shadow_caster(true);
spot2.set_rectangle_shape(false);
spot2.set_ambient_illumination(0.025f);*/
wm.NodeArray[0].setPos(75.0f,1.25f,0.0f);
wm.NodeArray[1].setPos(-60.0f,1.25f,0.0f);
wm.NodeArray[2].setPos(-55.0f,1.25f,-65.0f);
wm.NodeArray[3].setPos(60.0f,1.25f,-60.0f);
wm.NodeArray[4].setPos(55.0f,1.25f,65.0f);
wm.NodeArray[5].setPos(-80.0f,1.25f,60.0f);
Physics3DShape box_shape = Physics3DShape::box(Vec3f(5.0f));
Physics3DShape plane_shape = Physics3DShape::box(Vec3f(75.0f, 1.0f, 75.0f));
Physics3DShape sphere_shape = Physics3DShape::sphere(2.0f);
Physics3DObject phys_plane(physics_world, plane_shape, Vec3f(0.0f, -0.5f, 0.0f));
/*Physics3DObject phys_box0(physics_world, box_shape, Vec3f(20.0f, 5.0f, 0.0f), box0.get_orientation());
Physics3DObject phys_box1(physics_world, box_shape, Vec3f(-20.0f, 5.0f, 0.0f), box1.get_orientation());
Physics3DObject phys_box2(physics_world, box_shape, Vec3f(0.0f, 5.0f, 20.0f), box2.get_orientation());
Physics3DObject phys_box3(physics_world, box_shape, Vec3f(0.0f, 5.0f, -20.0f), box3.get_orientation());
Physics3DObject phys_box[10];*/
Physics3DSweepTest sweep_test(physics_world);
Physics3DRayTest raycast(physics_world);
Slot slot_keyboard_key_down = (window.get_ic().get_keyboard()).sig_key_down() .connect(this,&game::on_key_down);
Slot slot_keyboard_key_up = (window.get_ic().get_keyboard()).sig_key_up() .connect(this,&game::on_key_up);
Slot slot_mouse_moved = (window.get_ic().get_mouse()).sig_pointer_move() .connect(this,&game::on_pointer_move);
Slot slot_mouse_down = (window.get_ic().get_mouse()).sig_key_down() .connect(this,&game::on_pointer_down);
Slot slot_mouse_up = (window.get_ic().get_mouse()).sig_key_up() .connect(this,&game::on_pointer_up);
//________________________________________________________________
// S O U N D S
total_channels=3;
current_channel=1;
SoundBuffer music = SoundBuffer::resource("Music1",sound_resources);
music.set_volume(0.3f);
sound_session1.play();
sound_session2.play();
sound_session3.play();
total_samples = 6;
samples.resize(total_samples);
samples[0] = SoundBuffer::resource("Explosion1",sound_resources);
samples[1] = SoundBuffer::resource("Explosion2",sound_resources);
samples[2] = SoundBuffer::resource("Hurt1",sound_resources);
samples[3] = SoundBuffer::resource("Hurt2",sound_resources);
samples[4] = SoundBuffer::resource("Powerup1",sound_resources);
samples[5] = SoundBuffer::resource("Shoot1",sound_resources);
for(int i = 0; i<total_samples; i++)
{
samples[i].set_volume(0.3f);
}
SoundBuffer_Session music_session = music.prepare();
music_session_ = &music_session;
music_session.set_looping(true);
music_session.play();
is_music_muted = false;
/********Enemies(Jasper)************************/
SceneObject enemyobj[30];
wm.spawnCreeps();
for(int i = 0; i < 30; i ++)
{
enemyobj[i] = SceneObject(scene, box);
enemyobj[i].set_scale(Vec3f(0.25f));
wm.enemyArray[i].setEnemyObject(&enemyobj[i]);
}
/***************************************/
ElapsedTimer elapsed_timer;
while (!quit)
{
float time_elapsed = elapsed_timer.seconds_elapsed();
/*spot_dir = std::fmod(spot_dir + time_elapsed * 30.0f, 90.0f);
aspect_time = std::fmod(aspect_time + time_elapsed * 0.2f, 2.0f);
spot2.set_aspect_ratio(clamp(aspect_time >= 1.0f ? 2.0f - aspect_time : aspect_time, 0.1f, 1.0f));
spot2.set_orientation(Quaternionf(65.0f + (spot_dir >= 45.0f ? 90.0f - spot_dir : spot_dir), 60.0f, dir * 4.0f, angle_degrees, order_YXZ));
*/
// Draw with the canvas:
/*canvas.clear(Colorf::cadetblue);
canvas.draw_line(0, 110, 640, 110, Colorf::yellow);
font.draw_text(canvas, 100, 100, "Hello World!", Colorf::lightseagreen);
// Draw any remaining queued-up drawing commands oQAn canvas:
canvas.flush();*/
if (!endgame)
{
if (mouse.get_x() <= 0 && !cameraRestricted)
{
mouse.set_position(0, mouse.get_y());
camera.set_position(camera.get_position()+Vec3f(-mouse_move_speed, 0.0f, 0.0f));
/*canvas.clear();
font.draw_text(canvas, 100, 100, "x=0", Colorf::lightseagreen);
canvas.flush();*/
//window.flip();
}
if (mouse.get_y() <= 0 && !cameraRestricted)
{
mouse.set_position(mouse.get_x(), 0);
camera.set_position(camera.get_position()+Vec3f(0.0f, 0.0f, mouse_move_speed));
/*canvas.clear();
font.draw_text(canvas, 100, 100, "y=0", Colorf::lightseagreen);
canvas.flush();*/
//window.flip();
}
if (mouse.get_x() >= window.get_gc().get_width()-1 && !cameraRestricted)
{
mouse.set_position(window.get_gc().get_width()-1, mouse.get_y());
camera.set_position(camera.get_position()+Vec3f(mouse_move_speed, 0.0f, 0.0f));
/*canvas.clear();
font.draw_text(canvas, 100, 100, "x=windowRight", Colorf::lightseagreen);
canvas.flush();*/
//window.flip();
}
if (mouse.get_y() >= window.get_gc().get_height()-1 && !cameraRestricted)
{
mouse.set_position(mouse.get_x(), window.get_gc().get_height()-1);
camera.set_position(camera.get_position()+Vec3f(0.0f, 0.0f, -mouse_move_speed));
/*canvas.clear();
font.draw_text(canvas, 100, 100, "y=windowBottom", Colorf::lightseagreen);
canvas.flush();*/
//window.flip();
}
if (mouseUp)
{
if (selected_tower == "Tower 1")
{
towr.set_type(towr.t_bullet);
cost = 10;
}
else if (selected_tower == "Tower 2")
{
towr.set_type(towr.t_energy);
cost = 15;
}
else if (selected_tower == "Tower 3")
{
towr.set_type(towr.t_rocket);
cost = 20;
}
scene.unproject(mouse_pos, start, end);
end *= 151;
test = start + end;
if (raycast.test(start, test))
{
if (towerCount < 10 && money >= cost)
{
towr.set_pos(Vec3f(raycast.get_hit_position().x, 5.0f, raycast.get_hit_position().z));
towr.create(scene, tower, physics_world);
money -= cost;
towerCount++;
cost = 0;
}
}
mouseUp = false;
//float x = mouse.get_x() - scene.world_to_projection().get_origin_x();
//tower[0] = SceneObject(scene, box, Vec3f(camera.get_position().x, 5.0f, camera.get_position().z));
//tower[0].set_position(Vec3f(0.0f, 5.0f, 0.0f));
//window.flip();
//canvas.clear(Colorf::cadetblue);
/*canvas.draw_line(0, 110, 640, 110, Colorf::yellow);
font.draw_text(canvas, 100, 100, "Hello World!", Colorf::lightseagreen);
// Draw any remaining queued-up drawing commands oQAn canvas:
canvas.flush();
// Present the frame buffer content to the user:
window.flip();*/
}
if (mouse.get_keycode(0))
{
//maingui.process_messages(0);
//test.update();
//show_radial_menu(mouse.get_position());
}
/*if (mouse.get_keycode(1))
{
scene.unproject(mouse.get_position(), start, end);
end *= 151;
Vec3f test = start + end;
if (raycast.test(start, test))
{
Physics3DObject hit = raycast.get_hit_object();
font.draw_text(canvas, 400, 100, "hit", Colorf::lightseagreen);
//hit.set_position(Vec3f(0.0f, -10.0f, 0.0f));
std::stringstream ss3 (std::stringstream::in | std::stringstream::out);
ss3 << hit.get_position().y;
txt3 = ss3.str();
font.draw_text(canvas, 550, 100, txt3, Colorf::lightseagreen);
}
//projectile.set_pos(Vec3f(raycast.get_hit_position().x, 5.0f, raycast.get_hit_position().z));
//projectile.fire(scene, box, physics_world);
//canvas.clear(Colorf::white);
//window.flip();
}*/
if (keyboard.get_keycode(keycode_control))
{
if (window.is_fullscreen())
{
//innerwindow.set_fullscreen(false);
window.set_size(640, 480, true);
window.restore();
}
else
window.set_size(640, 480, false);
}
if (camera.get_position().x <= left)
{
camera.set_position(Vec3f(left, camera.get_position().y, camera.get_position().z));
}
if (camera.get_position().x >= right)
{
camera.set_position(Vec3f(right, camera.get_position().y, camera.get_position().z));
}
if (camera.get_position().z >= top)
{
camera.set_position(Vec3f(camera.get_position().x, camera.get_position().y, top));
}
if (camera.get_position().z <= down)
{
camera.set_position(Vec3f(camera.get_position().x, camera.get_position().y, down));
}
/*if(objects_for_deletion.size()>0)
{
std::list<Gameobject *>::iterator it;
for(it=objects_for_deletion.begin(); it!= objects_for_deletion.end(); ++it)
{
delete (*it);
//towerCount--;
}
objects_for_deletion.clear();
}*/
if(towerObjects.size()>0)
{
std::vector<Gameobject *>::iterator it;
int counter = 0;
for(it=towerObjects.begin(); it!= towerObjects.end(); ++it)
{
towerObjects.at(counter)->update(time_elapsed, wm.enemyArray, 30);
counter++;
}
}
if(missileObjects.size()>0)
{
std::list<Gameobject *>::iterator it;
for(it=missileObjects.begin(); it!= missileObjects.end();)
{
//if (!(*it)->checkActive())
(*it)->update(time_elapsed, wm.enemyArray);
if ((*it)->checkActive())
{
delete(*it);
it = missileObjects.erase(it);
}
else
it++;
}
}
/*******Enemies(Updates)************************/
wm.Update(1);
//time_lasttime = time_elapsed;
if(wm.life > 0)
{
// Put a screen here
life -= wm.life;
wm.life = 0;
}
if (wm.currLevel == 3)
{
endgame = true;
}
/***********************************************/
//scene.update(gc, time_elapsed);
txt3 = ":";
ss3.str("");
ss3.clear();
ss3 << money;
txt3 += ss3.str();
font.draw_text(canvas, 550, 50, txt3, Colorf::lightseagreen);
if (life < 0)
{
endgame = true;
}
scene.render(gc);
/*canvas.clear(clan::Colorf(0.0f,0.0f,0.0f));
std::stringstream ss (std::stringstream::in | std::stringstream::out);
ss << game_time.get_time_elapsed();
std::string troll = ss.str();
font.draw_text(canvas, 100, 100, troll, Colorf::lightseagreen);*/
//canvas.clear(clan::Colorf(0.0f,0.0f,0.0f));
std::stringstream ss (std::stringstream::in | std::stringstream::out);
ss << scene.world_to_projection().get_origin_x();
txt = ss.str();
txt2 = ":";
ss2.str("");
ss2.clear();
ss2 << life;
txt2 += ss2.str();
font.draw_text(canvas, 150, 50, txt2, Colorf::lightseagreen);
//maingui.process_messages(0);
/*font.draw_text(canvas, 0, 100, main, Colorf::lightseagreen);
font.draw_text(canvas, 150, 100, txt, Colorf::lightseagreen);
font.draw_text(canvas, 250, 100, txt2, Colorf::lightseagreen);
canvas.draw_line(0, 110, 640, 110, Colorf::yellow);*/
maingui.render_windows();
image_hp.draw(canvas, 100, 45);
image_coin.draw(canvas, 500, 45);
window.flip();
// Read messages from the windowing system message queue, if any are available:
KeepAlive::process();
}
else
{
//maingui.render_windows();
canvas.clear(Colorf::black);
font.draw_text(canvas, 450, 400, txt4, Colorf::lightseagreen);
window.flip();
// Read messages from the windowing system message queue, if any are available:
KeepAlive::process();
}
}
}
