darknet.h

#ifndef DARKNET_API
#define DARKNET_API

#if defined(_MSC_VER) && _MSC_VER < 1900
#define inline __inline
#endif

#if defined(DEBUG) && !defined(_CRTDBG_MAP_ALLOC)
#define _CRTDBG_MAP_ALLOC
#endif

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <stdint.h>
#include <assert.h>
#include <pthread.h>

#ifndef LIB_API
#ifdef LIB_EXPORTS
#if defined(_MSC_VER)
#define LIB_API __declspec(dllexport)
#else
#define LIB_API __attribute__((visibility("default")))
#endif
#else
#if defined(_MSC_VER)
#define LIB_API
#else
#define LIB_API
#endif
#endif
#endif

#define SECRET_NUM -1234

typedef enum { UNUSED_DEF_VAL } UNUSED_ENUM_TYPE;

#ifdef GPU

#include <cuda_runtime.h>
#include <curand.h>
#include <cublas_v2.h>

#ifdef CUDNN
#include <cudnn.h>
#endif  // CUDNN
#endif  // GPU

#ifdef __cplusplus
extern "C" {
#endif

struct network;
typedef struct network network;

struct network_state;
typedef struct network_state network_state;

struct layer;
typedef struct layer layer;

struct image;
typedef struct image image;

struct detection;
typedef struct detection detection;

struct load_args;
typedef struct load_args load_args;

struct data;
typedef struct data data;

struct metadata;
typedef struct metadata metadata;

struct tree;
typedef struct tree tree;

extern int gpu_index;

// option_list.h
typedef struct metadata {
    int classes;
    char **names;
} metadata;


// tree.h
typedef struct tree {
    int *leaf;
    int n;
    int *parent;
    int *child;
    int *group;
    char **name;

    int groups;
    int *group_size;
    int *group_offset;
} tree;


// activations.h
typedef enum {
    LOGISTIC, RELU, RELU6, RELIE, LINEAR, RAMP, TANH, PLSE, REVLEAKY, LEAKY, ELU, LOGGY, STAIR, HARDTAN, LHTAN, SELU, GELU, SWISH, MISH, HARD_MISH, NORM_CHAN, NORM_CHAN_SOFTMAX, NORM_CHAN_SOFTMAX_MAXVAL
}ACTIVATION;

// parser.h
typedef enum {
    IOU, GIOU, MSE, DIOU, CIOU
} IOU_LOSS;

// parser.h
typedef enum {
    DEFAULT_NMS, GREEDY_NMS, DIOU_NMS, CORNERS_NMS
} NMS_KIND;

// parser.h
typedef enum {
    YOLO_CENTER = 1 << 0, YOLO_LEFT_TOP = 1 << 1, YOLO_RIGHT_BOTTOM = 1 << 2
} YOLO_POINT;

// parser.h
typedef enum {
    NO_WEIGHTS, PER_FEATURE, PER_CHANNEL
} WEIGHTS_TYPE_T;

// parser.h
typedef enum {
    NO_NORMALIZATION, RELU_NORMALIZATION, SOFTMAX_NORMALIZATION
} WEIGHTS_NORMALIZATION_T;

// image.h
typedef enum{
    PNG, BMP, TGA, JPG
} IMTYPE;

// activations.h
typedef enum{
    MULT, ADD, SUB, DIV
} BINARY_ACTIVATION;

// blas.h
typedef struct contrastive_params {
    float sim;
    float exp_sim;
    float P;
    int i, j;
    int time_step_i, time_step_j;
} contrastive_params;


// layer.h
typedef enum {
    CONVOLUTIONAL,
    DECONVOLUTIONAL,
    CONNECTED,
    MAXPOOL,
    LOCAL_AVGPOOL,
    SOFTMAX,
    DETECTION,
    DROPOUT,
    CROP,
    ROUTE,
    COST,
    NORMALIZATION,
    AVGPOOL,
    LOCAL,
    SHORTCUT,
    SCALE_CHANNELS,
    SAM,
    ACTIVE,
    RNN,
    GRU,
    LSTM,
    CONV_LSTM,
    HISTORY,
    CRNN,
    BATCHNORM,
    NETWORK,
    XNOR,
    REGION,
    YOLO,
    GAUSSIAN_YOLO,
    ISEG,
    REORG,
    REORG_OLD,
    UPSAMPLE,
    LOGXENT,
    L2NORM,
    EMPTY,
    BLANK,
    CONTRASTIVE
} LAYER_TYPE;

// layer.h
typedef enum{
    SSE, MASKED, L1, SEG, SMOOTH,WGAN
} COST_TYPE;

// layer.h
typedef struct update_args {
    int batch;
    float learning_rate;
    float momentum;
    float decay;
    int adam;
    float B1;
    float B2;
    float eps;
    int t;
} update_args;

// layer.h
struct layer {
    LAYER_TYPE type;
    ACTIVATION activation;
    ACTIVATION lstm_activation;
    COST_TYPE cost_type;
    void(*forward)   (struct layer, struct network_state);
    void(*backward)  (struct layer, struct network_state);
    void(*update)    (struct layer, int, float, float, float);
    void(*forward_gpu)   (struct layer, struct network_state);
    void(*backward_gpu)  (struct layer, struct network_state);
    void(*update_gpu)    (struct layer, int, float, float, float, float);
    layer *share_layer;
    int train;
    int avgpool;
    int batch_normalize;
    int shortcut;
    int batch;
    int dynamic_minibatch;
    int forced;
    int flipped;
    int inputs;
    int outputs;
    float mean_alpha;
    int nweights;
    int nbiases;
    int extra;
    int truths;
    int h, w, c;
    int out_h, out_w, out_c;
    int n;
    int max_boxes;
    int truth_size;
    int groups;
    int group_id;
    int size;
    int side;
    int stride;
    int stride_x;
    int stride_y;
    int dilation;
    int antialiasing;
    int maxpool_depth;
    int maxpool_zero_nonmax;
    int out_channels;
    float reverse;
    int coordconv;
    int flatten;
    int spatial;
    int pad;
    int sqrt;
    int flip;
    int index;
    int scale_wh;
    int binary;
    int xnor;
    int peephole;
    int use_bin_output;
    int keep_delta_gpu;
    int optimized_memory;
    int steps;
    int history_size;
    int bottleneck;
    float time_normalizer;
    int state_constrain;
    int hidden;
    int truth;
    float smooth;
    float dot;
    int deform;
    int grad_centr;
    int sway;
    int rotate;
    int stretch;
    int stretch_sway;
    float angle;
    float jitter;
    float resize;
    float saturation;
    float exposure;
    float shift;
    float ratio;
    float learning_rate_scale;
    float clip;
    int focal_loss;
    float *classes_multipliers;
    float label_smooth_eps;
    int noloss;
    int softmax;
    int classes;
    int detection;
    int embedding_layer_id;
    float *embedding_output;
    int embedding_size;
    float sim_thresh;
    int track_history_size;
    int dets_for_track;
    int dets_for_show;
    float track_ciou_norm;
    int coords;
    int background;
    int rescore;
    int objectness;
    int does_cost;
    int joint;
    int noadjust;
    int reorg;
    int log;
    int tanh;
    int *mask;
    int total;
    float bflops;

    int adam;
    float B1;
    float B2;
    float eps;

    int t;

    float alpha;
    float beta;
    float kappa;

    float coord_scale;
    float object_scale;
    float noobject_scale;
    float mask_scale;
    float class_scale;
    int bias_match;
    float random;
    float ignore_thresh;
    float truth_thresh;
    float iou_thresh;
    float thresh;
    float focus;
    int classfix;
    int absolute;
    int assisted_excitation;

    int onlyforward;
    int stopbackward;
    int train_only_bn;
    int dont_update;
    int burnin_update;
    int dontload;
    int dontsave;
    int dontloadscales;
    int numload;

    float temperature;
    float probability;
    float dropblock_size_rel;
    int dropblock_size_abs;
    int dropblock;
    float scale;

    int receptive_w;
    int receptive_h;
    int receptive_w_scale;
    int receptive_h_scale;

    char  * cweights;
    int   * indexes;
    int   * input_layers;
    int   * input_sizes;
    float **layers_output;
    float **layers_delta;
    WEIGHTS_TYPE_T weights_type;
    WEIGHTS_NORMALIZATION_T weights_normalization;
    int   * map;
    int   * counts;
    float ** sums;
    float * rand;
    float * cost;
    int *labels;
    int *class_ids;
    int contrastive_neg_max;
    float *cos_sim;
    float *exp_cos_sim;
    float *p_constrastive;
    contrastive_params *contrast_p_gpu;
    float * state;
    float * prev_state;
    float * forgot_state;
    float * forgot_delta;
    float * state_delta;
    float * combine_cpu;
    float * combine_delta_cpu;

    float *concat;
    float *concat_delta;

    float *binary_weights;

    float *biases;
    float *bias_updates;

    float *scales;
    float *scale_updates;

    float *weights;
    float *weight_updates;

    float scale_x_y;
    int objectness_smooth;
    float max_delta;
    float uc_normalizer;
    float iou_normalizer;
    float obj_normalizer;
    float cls_normalizer;
    float delta_normalizer;
    IOU_LOSS iou_loss;
    IOU_LOSS iou_thresh_kind;
    NMS_KIND nms_kind;
    float beta_nms;
    YOLO_POINT yolo_point;

    char *align_bit_weights_gpu;
    float *mean_arr_gpu;
    float *align_workspace_gpu;
    float *transposed_align_workspace_gpu;
    int align_workspace_size;

    char *align_bit_weights;
    float *mean_arr;
    int align_bit_weights_size;
    int lda_align;
    int new_lda;
    int bit_align;

    float *col_image;
    float * delta;
    float * output;
    float * activation_input;
    int delta_pinned;
    int output_pinned;
    float * loss;
    float * squared;
    float * norms;

    float * spatial_mean;
    float * mean;
    float * variance;

    float * mean_delta;
    float * variance_delta;

    float * rolling_mean;
    float * rolling_variance;

    float * x;
    float * x_norm;

    float * m;
    float * v;

    float * bias_m;
    float * bias_v;
    float * scale_m;
    float * scale_v;


    float *z_cpu;
    float *r_cpu;
    float *h_cpu;
    float *stored_h_cpu;
    float * prev_state_cpu;

    float *temp_cpu;
    float *temp2_cpu;
    float *temp3_cpu;

    float *dh_cpu;
    float *hh_cpu;
    float *prev_cell_cpu;
    float *cell_cpu;
    float *f_cpu;
    float *i_cpu;
    float *g_cpu;
    float *o_cpu;
    float *c_cpu;
    float *stored_c_cpu;
    float *dc_cpu;

    float *binary_input;
    uint32_t *bin_re_packed_input;
    char *t_bit_input;

    struct layer *input_layer;
    struct layer *self_layer;
    struct layer *output_layer;

    struct layer *reset_layer;
    struct layer *update_layer;
    struct layer *state_layer;

    struct layer *input_gate_layer;
    struct layer *state_gate_layer;
    struct layer *input_save_layer;
    struct layer *state_save_layer;
    struct layer *input_state_layer;
    struct layer *state_state_layer;

    struct layer *input_z_layer;
    struct layer *state_z_layer;

    struct layer *input_r_layer;
    struct layer *state_r_layer;

    struct layer *input_h_layer;
    struct layer *state_h_layer;

    struct layer *wz;
    struct layer *uz;
    struct layer *wr;
    struct layer *ur;
    struct layer *wh;
    struct layer *uh;
    struct layer *uo;
    struct layer *wo;
    struct layer *vo;
    struct layer *uf;
    struct layer *wf;
    struct layer *vf;
    struct layer *ui;
    struct layer *wi;
    struct layer *vi;
    struct layer *ug;
    struct layer *wg;

    tree *softmax_tree;

    size_t workspace_size;

//#ifdef GPU
    int *indexes_gpu;

    float *z_gpu;
    float *r_gpu;
    float *h_gpu;
    float *stored_h_gpu;
    float *bottelneck_hi_gpu;
    float *bottelneck_delta_gpu;

    float *temp_gpu;
    float *temp2_gpu;
    float *temp3_gpu;

    float *dh_gpu;
    float *hh_gpu;
    float *prev_cell_gpu;
    float *prev_state_gpu;
    float *last_prev_state_gpu;
    float *last_prev_cell_gpu;
    float *cell_gpu;
    float *f_gpu;
    float *i_gpu;
    float *g_gpu;
    float *o_gpu;
    float *c_gpu;
    float *stored_c_gpu;
    float *dc_gpu;

    // adam
    float *m_gpu;
    float *v_gpu;
    float *bias_m_gpu;
    float *scale_m_gpu;
    float *bias_v_gpu;
    float *scale_v_gpu;

    float * combine_gpu;
    float * combine_delta_gpu;

    float * forgot_state_gpu;
    float * forgot_delta_gpu;
    float * state_gpu;
    float * state_delta_gpu;
    float * gate_gpu;
    float * gate_delta_gpu;
    float * save_gpu;
    float * save_delta_gpu;
    float * concat_gpu;
    float * concat_delta_gpu;

    float *binary_input_gpu;
    float *binary_weights_gpu;
    float *bin_conv_shortcut_in_gpu;
    float *bin_conv_shortcut_out_gpu;

    float * mean_gpu;
    float * variance_gpu;
    float * m_cbn_avg_gpu;
    float * v_cbn_avg_gpu;

    float * rolling_mean_gpu;
    float * rolling_variance_gpu;

    float * variance_delta_gpu;
    float * mean_delta_gpu;

    float * col_image_gpu;

    float * x_gpu;
    float * x_norm_gpu;
    float * weights_gpu;
    float * weight_updates_gpu;
    float * weight_deform_gpu;
    float * weight_change_gpu;

    float * weights_gpu16;
    float * weight_updates_gpu16;

    float * biases_gpu;
    float * bias_updates_gpu;
    float * bias_change_gpu;

    float * scales_gpu;
    float * scale_updates_gpu;
    float * scale_change_gpu;

    float * input_antialiasing_gpu;
    float * output_gpu;
    float * output_avg_gpu;
    float * activation_input_gpu;
    float * loss_gpu;
    float * delta_gpu;
    float * cos_sim_gpu;
    float * rand_gpu;
    float * drop_blocks_scale;
    float * drop_blocks_scale_gpu;
    float * squared_gpu;
    float * norms_gpu;

    float *gt_gpu;
    float *a_avg_gpu;

    int *input_sizes_gpu;
    float **layers_output_gpu;
    float **layers_delta_gpu;
#ifdef CUDNN
    cudnnTensorDescriptor_t srcTensorDesc, dstTensorDesc;
    cudnnTensorDescriptor_t srcTensorDesc16, dstTensorDesc16;
    cudnnTensorDescriptor_t dsrcTensorDesc, ddstTensorDesc;
    cudnnTensorDescriptor_t dsrcTensorDesc16, ddstTensorDesc16;
    cudnnTensorDescriptor_t normTensorDesc, normDstTensorDesc, normDstTensorDescF16;
    cudnnFilterDescriptor_t weightDesc, weightDesc16;
    cudnnFilterDescriptor_t dweightDesc, dweightDesc16;
    cudnnConvolutionDescriptor_t convDesc;
    cudnnConvolutionFwdAlgo_t fw_algo, fw_algo16;
    cudnnConvolutionBwdDataAlgo_t bd_algo, bd_algo16;
    cudnnConvolutionBwdFilterAlgo_t bf_algo, bf_algo16;
    cudnnPoolingDescriptor_t poolingDesc;
#else   // CUDNN
    void* srcTensorDesc, *dstTensorDesc;
    void* srcTensorDesc16, *dstTensorDesc16;
    void* dsrcTensorDesc, *ddstTensorDesc;
    void* dsrcTensorDesc16, *ddstTensorDesc16;
    void* normTensorDesc, *normDstTensorDesc, *normDstTensorDescF16;
    void* weightDesc, *weightDesc16;
    void* dweightDesc, *dweightDesc16;
    void* convDesc;
    UNUSED_ENUM_TYPE fw_algo, fw_algo16;
    UNUSED_ENUM_TYPE bd_algo, bd_algo16;
    UNUSED_ENUM_TYPE bf_algo, bf_algo16;
    void* poolingDesc;
#endif  // CUDNN
//#endif  // GPU
};


// network.h
typedef enum {
    CONSTANT, STEP, EXP, POLY, STEPS, SIG, RANDOM, SGDR
} learning_rate_policy;

// network.h
typedef struct network {
    int n;
    int batch;
    uint64_t *seen;
    int *cur_iteration;
    float loss_scale;
    int *t;
    float epoch;
    int subdivisions;
    layer *layers;
    float *output;
    learning_rate_policy policy;
    int benchmark_layers;
    int *total_bbox;
    int *rewritten_bbox;

    float learning_rate;
    float learning_rate_min;
    float learning_rate_max;
    int batches_per_cycle;
    int batches_cycle_mult;
    float momentum;
    float decay;
    float gamma;
    float scale;
    float power;
    int time_steps;
    int step;
    int max_batches;
    int num_boxes;
    int train_images_num;
    float *seq_scales;
    float *scales;
    int   *steps;
    int num_steps;
    int burn_in;
    int cudnn_half;

    int adam;
    float B1;
    float B2;
    float eps;

    int inputs;
    int outputs;
    int truths;
    int notruth;
    int h, w, c;
    int max_crop;
    int min_crop;
    float max_ratio;
    float min_ratio;
    int center;
    int flip; // horizontal flip 50% probability augmentaiont for classifier training (default = 1)
    int gaussian_noise;
    int blur;
    int mixup;
    float label_smooth_eps;
    int resize_step;
    int attention;
    int adversarial;    
    float adversarial_lr;
    float max_chart_loss;
    int letter_box;
    int mosaic_bound;
    int contrastive;
    int contrastive_jit_flip;
    int contrastive_color;
    int unsupervised;
    float angle;
    float aspect;
    float exposure;
    float saturation;
    float hue;
    int random;
    int track;
    int augment_speed;
    int sequential_subdivisions;
    int init_sequential_subdivisions;
    int current_subdivision;
    int try_fix_nan;

    int gpu_index;
    tree *hierarchy;

    float *input;
    float *truth;
    float *delta;
    float *workspace;
    int train;
    int index;
    float *cost;
    float clip;

//#ifdef GPU
    //float *input_gpu;
    //float *truth_gpu;
    float *delta_gpu;
    float *output_gpu;

    float *input_state_gpu;
    float *input_pinned_cpu;
    int input_pinned_cpu_flag;

    float **input_gpu;
    float **truth_gpu;
    float **input16_gpu;
    float **output16_gpu;
    size_t *max_input16_size;
    size_t *max_output16_size;
    int wait_stream;

    float *global_delta_gpu;
    float *state_delta_gpu;
    size_t max_delta_gpu_size;
//#endif  // GPU
    int optimized_memory;
    int dynamic_minibatch;
    size_t workspace_size_limit;
} network;

// network.h
typedef struct network_state {
    float *truth;
    float *input;
    float *delta;
    float *workspace;
    int train;
    int index;
    network net;
} network_state;

//typedef struct {
//    int w;
//    int h;
//    float scale;
//    float rad;
//    float dx;
//    float dy;
//    float aspect;
//} augment_args;

// image.h
typedef struct image {
    int w;
    int h;
    int c;
    float *data;
} image;

//typedef struct {
//    int w;
//    int h;
//    int c;
//    float *data;
//} image;

// box.h
typedef struct box {
    float x, y, w, h;
} box;

// box.h
typedef struct boxabs {
    float left, right, top, bot;
} boxabs;

// box.h
typedef struct dxrep {
    float dt, db, dl, dr;
} dxrep;

// box.h
typedef struct ious {
    float iou, giou, diou, ciou;
    dxrep dx_iou;
    dxrep dx_giou;
} ious;


// box.h
typedef struct detection{
    box bbox;
    int classes;
    float *prob;
    float *mask;
    float objectness;
    int sort_class;
    float *uc; // Gaussian_YOLOv3 - tx,ty,tw,th uncertainty
    int points; // bit-0 - center, bit-1 - top-left-corner, bit-2 - bottom-right-corner
    float *embeddings;  // embeddings for tracking
    int embedding_size;
    float sim;
    int track_id;    
} detection;

// network.c -batch inference
typedef struct det_num_pair {
    int num;
    detection *dets;
} det_num_pair, *pdet_num_pair;

// matrix.h
typedef struct matrix {
    int rows, cols;
    float **vals;
} matrix;

// data.h
typedef struct data {
    int w, h;
    matrix X;
    matrix y;
    int shallow;
    int *num_boxes;
    box **boxes;
} data;

// data.h
typedef enum {
    CLASSIFICATION_DATA, DETECTION_DATA, CAPTCHA_DATA, REGION_DATA, IMAGE_DATA, COMPARE_DATA, WRITING_DATA, SWAG_DATA, TAG_DATA, OLD_CLASSIFICATION_DATA, STUDY_DATA, DET_DATA, SUPER_DATA, LETTERBOX_DATA, REGRESSION_DATA, SEGMENTATION_DATA, INSTANCE_DATA, ISEG_DATA
} data_type;

// data.h
typedef struct load_args {
    int threads;
    char **paths;
    char *path;
    int n;
    int m;
    char **labels;
    int h;
    int w;
    int c; // color depth
    int out_w;
    int out_h;
    int nh;
    int nw;
    int num_boxes;
    int truth_size;
    int min, max, size;
    int classes;
    int background;
    int scale;
    int center;
    int coords;
    int mini_batch;
    int track;
    int augment_speed;
    int letter_box;
    int mosaic_bound;
    int show_imgs;
    int dontuse_opencv;
    int contrastive;
    int contrastive_jit_flip;
    int contrastive_color;
    float jitter;
    float resize;
    int flip;
    int gaussian_noise;
    int blur;
    int mixup;
    float label_smooth_eps;
    float angle;
    float aspect;
    float saturation;
    float exposure;
    float hue;
    data *d;
    image *im;
    image *resized;
    data_type type;
    tree *hierarchy;
} load_args;

// data.h
typedef struct box_label {
    int id;
    int track_id;
    float x, y, w, h;
    float left, right, top, bottom;
} box_label;

// list.h
//typedef struct node {
//    void *val;
//    struct node *next;
//    struct node *prev;
//} node;

// list.h
//typedef struct list {
//    int size;
//    node *front;
//    node *back;
//} list;
// -----------------------------------------------------


// parser.c
LIB_API network *load_network(char *cfg, char *weights, int clear);
LIB_API network *load_network_custom(char *cfg, char *weights, int clear, int batch);
LIB_API network *load_network(char *cfg, char *weights, int clear);
LIB_API void free_network(network net);
LIB_API void free_network_ptr(network* net);

// network.c
LIB_API load_args get_base_args(network *net);

// box.h
LIB_API void do_nms_sort(detection *dets, int total, int classes, float thresh);
LIB_API void do_nms_obj(detection *dets, int total, int classes, float thresh);
LIB_API void diounms_sort(detection *dets, int total, int classes, float thresh, NMS_KIND nms_kind, float beta1);

// network.h
LIB_API float *network_predict(network net, float *input);
LIB_API float *network_predict_ptr(network *net, float *input);
LIB_API detection *get_network_boxes(network *net, int w, int h, float thresh, float hier, int *map, int relative, int *num, int letter);
LIB_API det_num_pair* network_predict_batch(network *net, image im, int batch_size, int w, int h, float thresh, float hier, int *map, int relative, int letter);
LIB_API void free_detections(detection *dets, int n);
LIB_API void free_batch_detections(det_num_pair *det_num_pairs, int n);
LIB_API void fuse_conv_batchnorm(network net);
LIB_API void calculate_binary_weights(network net);
LIB_API char *detection_to_json(detection *dets, int nboxes, int classes, char **names, long long int frame_id, char *filename);

LIB_API layer* get_network_layer(network* net, int i);
//LIB_API detection *get_network_boxes(network *net, int w, int h, float thresh, float hier, int *map, int relative, int *num, int letter);
LIB_API detection *make_network_boxes(network *net, float thresh, int *num);
LIB_API void reset_rnn(network *net);
LIB_API float *network_predict_image(network *net, image im);
LIB_API float *network_predict_image_letterbox(network *net, image im);
LIB_API float validate_detector_map(char *datacfg, char *cfgfile, char *weightfile, float thresh_calc_avg_iou, const float iou_thresh, const int map_points, int letter_box, network *existing_net);
LIB_API void train_detector(char *datacfg, char *cfgfile, char *weightfile, int *gpus, int ngpus, int clear, int dont_show, int calc_map, int mjpeg_port, int show_imgs, int benchmark_layers, char* chart_path);
LIB_API void test_detector(char *datacfg, char *cfgfile, char *weightfile, char *filename, float thresh,
    float hier_thresh, int dont_show, int ext_output, int save_labels, char *outfile, int letter_box, int benchmark_layers);
LIB_API int network_width(network *net);
LIB_API int network_height(network *net);
LIB_API void optimize_picture(network *net, image orig, int max_layer, float scale, float rate, float thresh, int norm);

// image.h
LIB_API void make_image_red(image im);
LIB_API image make_attention_image(int img_size, float *original_delta_cpu, float *original_input_cpu, int w, int h, int c);
LIB_API image resize_image(image im, int w, int h);
LIB_API void quantize_image(image im);
LIB_API void copy_image_from_bytes(image im, char *pdata);
LIB_API image letterbox_image(image im, int w, int h);
LIB_API void rgbgr_image(image im);
LIB_API image make_image(int w, int h, int c);
LIB_API image load_image_color(char *filename, int w, int h);
LIB_API void free_image(image m);
LIB_API image crop_image(image im, int dx, int dy, int w, int h);
LIB_API image resize_min(image im, int min);

// layer.h
LIB_API void free_layer_custom(layer l, int keep_cudnn_desc);
LIB_API void free_layer(layer l);

// data.c
LIB_API void free_data(data d);
LIB_API pthread_t load_data(load_args args);
LIB_API void free_load_threads(void *ptr);
LIB_API pthread_t load_data_in_thread(load_args args);
LIB_API void *load_thread(void *ptr);

// dark_cuda.h
LIB_API void cuda_pull_array(float *x_gpu, float *x, size_t n);
LIB_API void cuda_pull_array_async(float *x_gpu, float *x, size_t n);
LIB_API void cuda_set_device(int n);
LIB_API void *cuda_get_context();

// utils.h
LIB_API void free_ptrs(void **ptrs, int n);
LIB_API void top_k(float *a, int n, int k, int *index);

// tree.h
LIB_API tree *read_tree(char *filename);

// option_list.h
LIB_API metadata get_metadata(char *file);


// http_stream.h
LIB_API void delete_json_sender();
LIB_API void send_json_custom(char const* send_buf, int port, int timeout);
LIB_API double get_time_point();
void start_timer();
void stop_timer();
double get_time();
void stop_timer_and_show();
void stop_timer_and_show_name(char *name);
void show_total_time();

LIB_API void set_track_id(detection *new_dets, int new_dets_num, float thresh, float sim_thresh, float track_ciou_norm, int deque_size, int dets_for_track, int dets_for_show);
LIB_API int fill_remaining_id(detection *new_dets, int new_dets_num, int new_track_id, float thresh);


// gemm.h
LIB_API void init_cpu();

#ifdef __cplusplus
}
#endif  // __cplusplus
#endif  // DARKNET_API