if(reader.get("slope-type", data)) {
attributes |= SOLID | SLOPE;
}
+
+ if (!reader.get("alpha", alpha)) {
+ alpha = 255;
+ }
const lisp::Lisp* images = reader.get_lisp("images");
if(images)
if(cur->get_type() == lisp::Lisp::TYPE_STRING) {
std::string file;
cur->get(file);
- imagespecs.push_back(ImageSpec(file, Rectangle(0, 0, 0, 0)));
+ imagespecs.push_back(ImageSpec(file, Rect(0, 0, 0, 0)));
} else if(cur->get_type() == lisp::Lisp::TYPE_CONS &&
cur->get_car()->get_type() == lisp::Lisp::TYPE_SYMBOL) {
const lisp::Lisp* ptr = cur->get_cdr();
ptr->get_car()->get(y); ptr = ptr->get_cdr();
ptr->get_car()->get(w); ptr = ptr->get_cdr();
ptr->get_car()->get(h);
- imagespecs.push_back(ImageSpec(file, Rectangle(x, y, x+w, y+h)));
+ imagespecs.push_back(ImageSpec(file, Rect(x, y, x+w, y+h)));
} else {
std::cerr << "Expected string or list in images tag.\n";
continue;
}
if(editor_imagefile != "") {
editor_image = new Surface(
- get_resource_filename(
- std::string("images/tilesets/") + editor_imagefile), true);
+ get_resource_filename(tilesetpath + editor_imagefile), true);
}
}
void
Tile::draw(DrawingContext& context, const Vector& pos, int layer) const
{
+ context.set_alpha(this->alpha);
+
if(images.size() > 1) {
size_t frame = size_t(global_time * anim_fps) % images.size();
context.draw_surface(images[frame], pos, layer);
} else if (images.size() == 1) {
context.draw_surface(images[0], pos, layer);
}
+
+ context.set_alpha(255);
}