#include #include #include #include using namespace std; using namespace vips; Napi::Value Reverse(const Napi::CallbackInfo &info) { Napi::Env env = info.Env(); try { Napi::Object obj = info[0].As(); Napi::Buffer data = obj.Get("data").As>(); bool soos = obj.Has("soos") ? obj.Get("soos").As().Value() : false; VOption *options = VImage::option()->set("access", "sequential")->set("n", -1); VImage in = VImage::new_from_buffer(data.Data(), data.Length(), "", options) .colourspace(VIPS_INTERPRETATION_sRGB); int width = in.width(); int page_height = vips_image_get_page_height(in.get_image()); int n_pages = vips_image_get_n_pages(in.get_image()); vector split; // todo: find a better way of getting individual frames (or at least getting the frames in reverse order) for (int i = 0; i < n_pages; i++) { VImage img_frame = in.crop(0, i * page_height, width, page_height); split.push_back(img_frame); } vector delays = in.get_array_int("delay"); if (soos) { vector copy = split; vector copy2 = delays; reverse(copy.begin(), copy.end()); reverse(copy2.begin(), copy2.end()); copy.pop_back(); copy2.pop_back(); copy.erase(copy.begin()); copy2.erase(copy2.begin()); split.insert(split.end(), copy.begin(), copy.end()); delays.insert(delays.end(), copy2.begin(), copy2.end()); } else { reverse(split.begin(), split.end()); reverse(delays.begin(), delays.end()); } VImage final = VImage::arrayjoin(split, VImage::option()->set("across", 1)); final.set(VIPS_META_PAGE_HEIGHT, page_height); final.set("delay", delays); void *buf; size_t length; final.write_to_buffer(".gif", &buf, &length, VImage::option()->set("dither", 0)); vips_thread_shutdown(); Napi::Object result = Napi::Object::New(env); result.Set("data", Napi::Buffer::Copy(env, (char *)buf, length)); result.Set("type", "gif"); return result; } catch (std::exception const &err) { throw Napi::Error::New(env, err.what()); } catch (...) { throw Napi::Error::New(env, "Unknown error"); } }