#include #include #include #include using namespace std; using namespace Magick; Napi::Value Tile(const Napi::CallbackInfo &info) { Napi::Env env = info.Env(); try { Napi::Object obj = info[0].As(); Napi::Buffer data = obj.Get("data").As>(); string type = obj.Get("type").As().Utf8Value(); int delay = obj.Has("delay") ? obj.Get("delay").As().Int32Value() : 0; Blob blob; list frames; list coalesced; list mid; try { readImages(&frames, Blob(data.Data(), data.Length())); } catch (Magick::WarningCoder &warning) { cerr << "Coder Warning: " << warning.what() << endl; } catch (Magick::Warning &warning) { cerr << "Warning: " << warning.what() << endl; } coalesceImages(&coalesced, frames.begin(), frames.end()); for (Image &image : coalesced) { list duplicated; Image appended; list montage; Image frame; image.magick(type); for (int i = 0; i < 5; ++i) { duplicated.push_back(image); } appendImages(&appended, duplicated.begin(), duplicated.end()); appended.repage(); for (int i = 0; i < 5; ++i) { montage.push_back(appended); } appendImages(&frame, montage.begin(), montage.end(), true); frame.repage(); frame.scale(Geometry("800x800>")); frame.animationDelay(delay == 0 ? image.animationDelay() : delay); mid.push_back(frame); } optimizeTransparency(mid.begin(), mid.end()); if (type == "gif") { for (Image &image : mid) { image.quantizeDitherMethod(FloydSteinbergDitherMethod); image.quantize(); } } writeImages(mid.begin(), mid.end(), &blob); Napi::Object result = Napi::Object::New(env); result.Set("data", Napi::Buffer::Copy(env, (char *)blob.data(), blob.length())); result.Set("type", type); return result; } catch (std::exception const &err) { throw Napi::Error::New(env, err.what()); } catch (...) { throw Napi::Error::New(env, "Unknown error"); } }