/* * See Copyright Notice in atomorph.h */ #include "atomorph.h" namespace am { class thread { public: thread(); ~thread(); void next_state() {skip_state = true;} unsigned get_state() {return state;} size_t get_identifier() {return identifier;} void set_identifier(size_t id) {if (paused) identifier = id;} frame *get_frame(size_t nr) {return (has_frame(nr) ? &(frames[nr]) : nullptr);} const std::map *get_chains() {return (const std::map *) &chains;} unsigned get_seed() {return seed;} double get_energy(); void set_frame(size_t nr, frame* f); size_t get_blob_count(size_t frame); size_t get_blob_count(); void set_bbox(uint16_t x1, uint16_t y1, uint16_t x2, uint16_t y2); void set_blob_weights(unsigned char rgba, unsigned char size, unsigned char xy); bool clear(); void set_seed(unsigned seed); void set_blob_delimiter(unsigned char d) {if (paused) blob_delimiter = d;} // Color distance formula. void set_blob_threshold(double t) {if (paused) blob_threshold = t;} // Color difference toleration. void set_blob_max_size (size_t s) {if (paused) blob_max_size = s;} // Maximum size of a blob. void set_blob_min_size (size_t s) {if (paused) blob_min_size = s;} // Minimum size of a blob. void set_blob_box_grip (uint16_t g) {if (paused) blob_box_grip = g;} // Defines the bounding box. void set_blob_box_samples(size_t s) {if (paused) blob_box_samples=s;} // Number of dust samples. void set_blob_number (size_t n) {if (paused) blob_number = n;} // Preferred number of blobs. void set_degeneration (size_t d) {if (paused) degenerate = d;} // Degeneration period. void set_density (uint16_t d) {if (paused) point_density = d;} // Key points per pixel. void set_threads (size_t n) {if (paused) thread_count = n;} // Number of threads to spawn. void set_cycle_length (size_t l) {if (paused) cycle_length = l;} // Steps per iteration to repeat. bool is_running() const {return running;} bool is_paused() const {return paused;} void stop() { signal_stop = true; while(running) std::this_thread::sleep_for(std::chrono::milliseconds(0)); step_thread.join();} void start() { running = true; step_thread = std::thread(&thread::run, this);} void pause() { signal_pause = true; } void resume() { paused = false;} void start (size_t iterations); void resume(size_t iterations); void start (double seconds); void resume(double seconds); private: double blob_distance(const blob *b1, const blob *b2); pixel get_pixel(size_t frame, size_t position); bool blobify (); bool unify (); bool match (); bool morph (); bool blobify_frame (size_t f); bool unify_frame (size_t f); bool init_morph (); double get_energy (struct blob ***map); double get_energy (chain *ch); void fix_volatiles (std::vector *to_be_fixed); inline bool has_frame (size_t f ) const {return (frames.find(f) != frames.end());} inline bool has_pixel (size_t f, size_t pos) {return (has_frame(f) && frames[f].pixels.find(pos) != frames[f].pixels.end());} inline bool has_blob (size_t f, size_t b ) {return (has_frame(f) && frames[f].blobs.size() > b);} inline bool can_expand (size_t frame, size_t from_pos, size_t to_pos); void run(); void step(); std::map frames; std::map chains; // Key is the blob's group. uint16_t point_density = 1; // How many key points to create per pixel at minimum. struct blob *** blob_map; size_t blob_map_w; // Number of blobs per key frame. size_t blob_map_h; // Number of key frames. double blob_map_e; // Energy of the current blob map. double best_blob_map_e; double chain_map_e; // Minimum Bounding Box that fits all pixels of all frames: uint16_t bbox_x1 = UINT16_MAX; uint16_t bbox_y1 = UINT16_MAX; uint16_t bbox_x2 = 0; uint16_t bbox_y2 = 0; uint32_t bbox_d = 0; // Squared diagonal length. unsigned char blob_delimiter = HSP; double blob_threshold = 1.0; size_t blob_max_size = SIZE_MAX; size_t blob_min_size = 1; uint16_t blob_box_grip = UINT16_MAX; size_t blob_box_samples = 10; size_t blob_number = 1; size_t thread_count = 0; size_t cycle_length = 1; double blob_rgba_weight = 0.33; double blob_size_weight = 0.33; double blob_xy_weight = 0.34; size_t identifier = SIZE_MAX; unsigned state = STATE_BLOB_DETECTION; unsigned seed = 0; bool skip_state = false; size_t degenerate = 0; size_t counter = 0; double best_e; bool deviant; // True when a bad solution has been accepted lately. std::default_random_engine e1; std::atomic iterations; std::atomic seconds; std::atomic signal_stop; std::atomic signal_pause; std::atomic running; std::atomic paused; std::thread step_thread; }; }