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nnstreamer-ex.cpp
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nnstreamer-ex.cpp
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/**
* @file nnstreamer-ex.cpp
* @date 20 May 2019
* @brief Tensor stream example with TF-Lite model
* @author Jaeyun Jung <[email protected]>
* @bug No known bugs
*
* Before running this example, model and labels should be in an internal storage of Android device.
* /sdcard/nnstreamer/tflite_model/
*/
#include <vector>
#include <iostream>
#include <fstream>
#include <algorithm>
#include <math.h>
#include <gst/gst.h>
#include <cairo/cairo.h>
#include "nnstreamer-jni.h"
#define EX_MODEL_PATH "/sdcard/nnstreamer/tflite_model"
#define EX_BOX_PRIORS EX_MODEL_PATH "/box_priors.txt"
#define EX_OBJ_MODEL EX_MODEL_PATH "/ssd_mobilenet_v2_coco.tflite"
#define EX_OBJ_LABEL EX_MODEL_PATH "/coco_labels_list.txt"
#define EX_FACE_MODEL EX_MODEL_PATH "/detect_face.tflite"
#define EX_FACE_LABEL EX_MODEL_PATH "/labels_face.txt"
#define EX_HAND_MODEL EX_MODEL_PATH "/detect_hand.tflite"
#define EX_HAND_LABEL EX_MODEL_PATH "/labels_hand.txt"
#define EX_POSE_MODEL EX_MODEL_PATH "/detect_pose.tflite"
#define MODEL_FACE (1 << 1)
#define MODEL_HAND (1 << 2)
#define MODEL_OBJ (1 << 3)
#define MODEL_POSE (1 << 4)
#define IS_FACE(m) ((m) & MODEL_FACE)
#define IS_HAND(m) ((m) & MODEL_HAND)
#define IS_OBJ(m) ((m) & MODEL_OBJ)
#define IS_POSE(m) ((m) & MODEL_POSE)
#define USE_FRONT(m) ((m) & (1 << 8))
#define MEDIA_WIDTH 480
#define MEDIA_HEIGHT 480
#define Y_SCALE 10.0f
#define X_SCALE 10.0f
#define H_SCALE 5.0f
#define W_SCALE 5.0f
#define SSD_MODEL_WIDTH 300
#define SSD_MODEL_HEIGHT 300
#define SSD_BOX_SIZE 4
#define SSD_DETECTION_MAX 1917
#define POSE_MODEL_WIDTH 192
#define POSE_MODEL_HEIGHT 192
#define POSE_SIZE 14
#define POSE_OUT_W 96
#define POSE_OUT_H 96
/**
* @brief Max objects to be displayed in the screen.
* The application will draw the boxes and labels of detected objects with this limitation.
*/
#define MAX_OBJECT_DETECTION 5
/**
* @brief Data structure for pose estimation.
*/
typedef struct
{
gboolean valid;
guint x;
guint y;
gfloat prob;
} pose_s;
/**
* @brief Data structure for detected object.
*/
typedef struct
{
guint x;
guint y;
guint width;
guint height;
guint class_id;
gfloat prob;
} ssd_object_s;
/**
* @brief Data structure for model info.
*/
typedef struct
{
gfloat box_priors[SSD_BOX_SIZE][SSD_DETECTION_MAX]; /**< box prior */
GSList *labels_obj; /**< list of loaded labels (object detection) */
GSList *labels_face; /**< list of loaded labels (face detection) */
GSList *labels_hand; /**< list of loaded labels (hand detection) */
gboolean is_initialized;
} nns_ex_model_info_s;
static gint launch_option = 0;
static nns_ex_model_info_s nns_ex_model_info;
static GMutex res_mutex;
static gchar *pipeline_description = NULL;
static std::vector<ssd_object_s> detected_face;
static std::vector<ssd_object_s> detected_hand;
static std::vector<ssd_object_s> detected_object;
static std::vector<pose_s> estimated_pose;
/**
* @brief Read strings from file.
*/
static gboolean
nns_ex_read_lines (const gchar * file_name, GSList ** lines)
{
std::ifstream file (file_name);
if (!file) {
nns_loge ("Failed to open file %s", file_name);
return FALSE;
}
std::string str;
while (std::getline (file, str)) {
*lines = g_slist_append (*lines, g_strdup (str.c_str ()));
}
return TRUE;
}
/**
* @brief Load box priors.
*/
static gboolean
nns_ex_load_box_priors (void)
{
GSList *box_priors = NULL;
gchar *box_row;
if (!nns_ex_read_lines (EX_BOX_PRIORS, &box_priors)) {
nns_loge ("Failed to load box prior");
return FALSE;
}
for (guint row = 0; row < SSD_BOX_SIZE; row++) {
gint column = 0;
gint i = 0, j = 0;
gchar buff[11];
memset (buff, 0, 11);
box_row = (gchar *) g_slist_nth_data (box_priors, row);
while ((box_row[i] != '\n') && (box_row[i] != '\0')) {
if (box_row[i] != ' ') {
buff[j] = box_row[i];
j++;
} else {
if (j != 0) {
nns_ex_model_info.box_priors[row][column++] =
(gfloat) g_ascii_strtod (buff, NULL);
memset (buff, 0, 11);
}
j = 0;
}
i++;
}
nns_ex_model_info.box_priors[row][column] =
(gfloat) g_ascii_strtod (buff, NULL);
}
g_slist_free_full (box_priors, g_free);
return TRUE;
}
/**
* @brief Load labels.
*/
static gboolean
nns_ex_load_labels (void)
{
if (!nns_ex_read_lines (EX_OBJ_LABEL, &nns_ex_model_info.labels_obj) ||
!nns_ex_read_lines (EX_FACE_LABEL, &nns_ex_model_info.labels_face) ||
!nns_ex_read_lines (EX_HAND_LABEL, &nns_ex_model_info.labels_hand)) {
return FALSE;
}
return TRUE;
}
/**
* @brief Free pipeline info.
*/
static void
nns_ex_free (void)
{
if (nns_ex_model_info.labels_obj) {
g_slist_free_full (nns_ex_model_info.labels_obj, g_free);
nns_ex_model_info.labels_obj = NULL;
}
if (nns_ex_model_info.labels_face) {
g_slist_free_full (nns_ex_model_info.labels_face, g_free);
nns_ex_model_info.labels_face = NULL;
}
if (nns_ex_model_info.labels_hand) {
g_slist_free_full (nns_ex_model_info.labels_hand, g_free);
nns_ex_model_info.labels_hand = NULL;
}
g_mutex_clear (&res_mutex);
g_free (pipeline_description);
detected_face.clear ();
detected_hand.clear ();
detected_object.clear ();
estimated_pose.clear ();
nns_ex_model_info.is_initialized = FALSE;
}
/**
* @brief Init pipeline info.
*/
static gboolean
nns_ex_init (void)
{
memset (&nns_ex_model_info, 0, sizeof (nns_ex_model_info_s));
g_mutex_init (&res_mutex);
detected_face.clear ();
detected_hand.clear ();
detected_object.clear ();
estimated_pose.clear ();
return TRUE;
}
/**
* @brief Get total label size.
*/
static guint
nns_ex_get_label_size (const int model)
{
GSList *list = NULL;
if (IS_FACE (model))
list = nns_ex_model_info.labels_face;
else if (IS_HAND (model))
list = nns_ex_model_info.labels_hand;
else if (IS_OBJ (model))
list = nns_ex_model_info.labels_obj;
return g_slist_length (list);
}
/**
* @brief Get label with given class id.
*/
static gboolean
nns_ex_get_label (const gint model, const guint class_id, gchar ** label)
{
GSList *list = NULL;
*label = NULL;
if (IS_FACE (model))
list = nns_ex_model_info.labels_face;
else if (IS_HAND (model))
list = nns_ex_model_info.labels_hand;
else if (IS_OBJ (model))
list = nns_ex_model_info.labels_obj;
*label = (gchar *) g_slist_nth_data (list, class_id);
return (*label != NULL);
}
/**
* @brief Compare score of detected objects.
*/
static bool
ssd_compare_objs (ssd_object_s &a, ssd_object_s &b)
{
return a.prob > b.prob;
}
/**
* @brief Intersection of union
*/
static gfloat
ssd_iou (ssd_object_s &A, ssd_object_s &B)
{
gint x1 = std::max (A.x, B.x);
gint y1 = std::max (A.y, B.y);
gint x2 = std::min (A.x + A.width, B.x + B.width);
gint y2 = std::min (A.y + A.height, B.y + B.height);
gint w = std::max (0, (x2 - x1 + 1));
gint h = std::max (0, (y2 - y1 + 1));
gfloat inter = w * h;
gfloat areaA = A.width * A.height;
gfloat areaB = B.width * B.height;
gfloat o = inter / (areaA + areaB - inter);
return (o >= 0) ? o : 0;
}
/**
* @brief NMS (non-maximum suppression)
*/
static void
ssd_nms (std::vector<ssd_object_s> &detected, const gint model)
{
const gfloat threshold_iou = .5f;
gsize boxes_size;
guint i, j;
std::sort (detected.begin (), detected.end (), ssd_compare_objs);
boxes_size = detected.size ();
std::vector<bool> del (boxes_size, false);
for (i = 0; i < boxes_size; i++) {
if (!del[i]) {
for (j = i + 1; j < boxes_size; j++) {
if (ssd_iou (detected.at (i), detected.at (j)) > threshold_iou) {
del[j] = true;
}
}
}
}
/* update result */
g_mutex_lock (&res_mutex);
if (IS_FACE (model)) {
detected_face.clear ();
for (i = 0; i < boxes_size; i++) {
if (!del[i])
detected_face.push_back (detected[i]);
}
} else if (IS_HAND (model)) {
detected_hand.clear ();
for (i = 0; i < boxes_size; i++) {
if (!del[i])
detected_hand.push_back (detected[i]);
}
} else if (IS_OBJ (model)) {
detected_object.clear ();
for (i = 0; i < boxes_size; i++) {
if (!del[i])
detected_object.push_back (detected[i]);
}
}
g_mutex_unlock (&res_mutex);
}
/**
* @brief Update detected objects.
*/
static void
ssd_update_detection (gfloat * detections, gfloat * boxes, const gint model)
{
const gfloat threshold_score = .5f;
gfloat xcenter, ycenter, x, y, width, height;
gfloat xmin, ymin, xmax, ymax, score;
gfloat *detect, *box;
guint label_size;
std::vector<ssd_object_s> detected;
label_size = nns_ex_get_label_size (model);
for (guint d = 0; d < SSD_DETECTION_MAX; d++) {
box = boxes + (SSD_BOX_SIZE * d);
ycenter = box[0] / Y_SCALE * nns_ex_model_info.box_priors[2][d] +
nns_ex_model_info.box_priors[0][d];
xcenter = box[1] / X_SCALE * nns_ex_model_info.box_priors[3][d] +
nns_ex_model_info.box_priors[1][d];
height = (gfloat) expf (box[2] / H_SCALE) * nns_ex_model_info.box_priors[2][d];
width = (gfloat) expf (box[3] / W_SCALE) * nns_ex_model_info.box_priors[3][d];
ymin = ycenter - height / 2.f;
xmin = xcenter - width / 2.f;
ymax = ycenter + height / 2.f;
xmax = xcenter + width / 2.f;
x = xmin * SSD_MODEL_WIDTH;
y = ymin * SSD_MODEL_HEIGHT;
width = (xmax - xmin) * SSD_MODEL_WIDTH;
height = (ymax - ymin) * SSD_MODEL_HEIGHT;
detect = detections + (label_size * d);
for (guint c = 1; c < label_size; c++) {
score = 1.f / (1.f + expf (-1.f * detect[c]));
/**
* This score cutoff is taken from Tensorflow's demo app.
* There are quite a lot of nodes to be run to convert it to the useful possibility
* scores. As a result of that, this cutoff will cause it to lose good detections in
* some scenarios and generate too much noise in other scenario.
*/
if (score < threshold_score)
continue;
ssd_object_s object;
object.class_id = c;
object.x = (guint) x;
object.y = (guint) y;
object.width = (guint) width;
object.height = (guint) height;
object.prob = score;
detected.push_back (object);
}
}
ssd_nms (detected, model);
}
/**
* @brief Get detected objects.
*/
static guint
ssd_get_detected_objects (ssd_object_s * objects, const gint model)
{
guint index = 0;
std::vector<ssd_object_s> detected;
std::vector<ssd_object_s>::iterator iter;
g_mutex_lock (&res_mutex);
if (IS_FACE (model))
detected = detected_face;
else if (IS_HAND (model))
detected = detected_hand;
else if (IS_OBJ (model))
detected = detected_object;
g_mutex_unlock (&res_mutex);
for (iter = detected.begin (); iter != detected.end (); ++iter) {
objects[index].x = iter->x;
objects[index].y = iter->y;
objects[index].width = iter->width;
objects[index].height = iter->height;
objects[index].class_id = iter->class_id;
objects[index].prob = iter->prob;
if (++index >= MAX_OBJECT_DETECTION) {
/* max objects to be drawn */
break;
}
}
return index;
}
/**
* @brief Draw detected object.
*/
static void
ssd_draw_object (cairo_t * cr, ssd_object_s * objects,
const gint size, const gint model)
{
guint i;
gdouble x, y, width, height;
gdouble red, green, blue;
gchar *label;
/* Set clolr */
if (IS_FACE (model)) {
blue = 1.0;
red = green = 0.0;
} else if (IS_HAND (model)) {
red = blue = 0.0;
green = 0.5;
} else {
red = 1.0;
green = blue = 0.0;
}
for (i = 0; i < size; ++i) {
x = (gdouble) objects[i].x * MEDIA_WIDTH / SSD_MODEL_WIDTH;
y = (gdouble) objects[i].y * MEDIA_HEIGHT / SSD_MODEL_HEIGHT;
width = (gdouble) objects[i].width * MEDIA_WIDTH / SSD_MODEL_WIDTH;
height = (gdouble) objects[i].height * MEDIA_HEIGHT / SSD_MODEL_HEIGHT;
/* draw rectangle */
cairo_rectangle (cr, x, y, width, height);
cairo_set_source_rgb (cr, red, green, blue);
cairo_set_line_width (cr, 1.5);
cairo_stroke (cr);
/* draw title */
if (IS_OBJ (model)) {
if (nns_ex_get_label (model, objects[i].class_id, &label)) {
cairo_move_to (cr, x + 5, y + 15);
cairo_text_path (cr, label);
cairo_set_source_rgb (cr, red, green, blue);
cairo_fill_preserve (cr);
cairo_set_source_rgb (cr, 1, 1, 1);
cairo_set_line_width (cr, .3);
cairo_stroke (cr);
cairo_fill_preserve (cr);
} else {
nns_logd ("Failed to get label (class id %d)", objects[i].class_id);
}
}
}
}
/**
* @brief Update pose data.
*/
static void
pose_update_result (std::vector<pose_s> &detected)
{
const gfloat threshold_score = .5f;
gsize len = detected.size ();
g_mutex_lock (&res_mutex);
estimated_pose.clear ();
for (guint i = 0; i < len; ++i) {
if (detected[i].prob > threshold_score)
detected[i].valid = TRUE;
estimated_pose.push_back (detected[i]);
}
g_mutex_unlock (&res_mutex);
}
/**
* @brief Draw line of pose estimation.
*/
static void
pose_draw_line (cairo_t * cr, std::vector<pose_s> &detected,
guint start, guint end)
{
gdouble xs, ys, xe, ye;
if (detected[start].valid && detected[end].valid) {
xs = detected[start].x * MEDIA_WIDTH / POSE_OUT_W;
ys = detected[start].y * MEDIA_HEIGHT / POSE_OUT_H;
xe = detected[end].x * MEDIA_WIDTH / POSE_OUT_W;
ye = detected[end].y * MEDIA_HEIGHT / POSE_OUT_H;
cairo_move_to (cr, xs, ys);
cairo_line_to (cr, xe, ye);
cairo_stroke (cr);
}
}
/**
* @brief Draw pose estimation.
*/
static void
pose_draw (cairo_t * cr)
{
std::vector<pose_s> detected;
gdouble x, y;
g_mutex_lock (&res_mutex);
detected = estimated_pose;
g_mutex_unlock (&res_mutex);
if (detected.size () != POSE_SIZE) {
nns_logd ("Current vector size is %zd", detected.size ());
return;
}
cairo_set_source_rgb (cr, 1.0, 1.0, 1.0);
cairo_set_line_width (cr, 3.0);
/* line */
pose_draw_line (cr, detected, 0, 1);
pose_draw_line (cr, detected, 1, 2);
pose_draw_line (cr, detected, 2, 3);
pose_draw_line (cr, detected, 3, 4);
pose_draw_line (cr, detected, 1, 5);
pose_draw_line (cr, detected, 5, 6);
pose_draw_line (cr, detected, 6, 7);
pose_draw_line (cr, detected, 1, 8);
pose_draw_line (cr, detected, 8, 9);
pose_draw_line (cr, detected, 9, 10);
pose_draw_line (cr, detected, 1, 11);
pose_draw_line (cr, detected, 11, 12);
pose_draw_line (cr, detected, 12, 13);
/* dot */
for (guint i = 0; i < POSE_SIZE; ++i) {
if (detected[i].valid) {
x = detected[i].x * MEDIA_WIDTH / POSE_OUT_W;
y = detected[i].y * MEDIA_HEIGHT / POSE_OUT_H;
cairo_arc (cr, x, y, 5, 0, 2 * M_PI);
cairo_fill (cr);
}
}
}
/**
* @brief Parse pose result.
*/
static void
nns_ex_parse_pose (GstBuffer * buffer)
{
GstMemory *mem_pose;
GstMapInfo info_pose;
gfloat *pose_data;
guint index, i, j;
guint maxX, maxY;
gfloat max, cen;
std::vector<pose_s> detected;
if (gst_buffer_n_memory (buffer) != 1) {
nns_loge ("Invalid result, the number of memory blocks is different.");
return;
}
mem_pose = gst_buffer_get_memory (buffer, 0);
gst_memory_map (mem_pose, &info_pose, GST_MAP_READ);
pose_data = (gfloat *) info_pose.data;
for (index = 0; index < POSE_SIZE; ++index) {
maxX = maxY = 0;
max = .0f;
for (j = 0; j < POSE_OUT_H; ++j) {
for (i = 0; i < POSE_OUT_W; ++i) {
cen = pose_data[i * POSE_SIZE + j * POSE_OUT_W * POSE_SIZE + index];
if (cen > max) {
max = cen;
maxX = i;
maxY = j;
}
}
}
pose_s p;
p.valid = FALSE;
p.x = maxX;
p.y = maxY;
p.prob = max;
detected.push_back (p);
}
gst_memory_unmap (mem_pose, &info_pose);
gst_memory_unref (mem_pose);
pose_update_result (detected);
}
/**
* @brief Parse detection result.
*/
static void
nns_ex_parse_ssd (GstBuffer * buffer, const gint model)
{
GstMemory *mem_boxes, *mem_detections;
GstMapInfo info_boxes, info_detections;
gfloat *boxes, *detections;
if (gst_buffer_n_memory (buffer) != 2) {
nns_loge ("Invalid result, the number of memory blocks is different.");
return;
}
/* boxes */
mem_boxes = gst_buffer_get_memory (buffer, 0);
gst_memory_map (mem_boxes, &info_boxes, GST_MAP_READ);
boxes = (gfloat *) info_boxes.data;
/* detections */
mem_detections = gst_buffer_get_memory (buffer, 1);
gst_memory_map (mem_detections, &info_detections, GST_MAP_READ);
detections = (gfloat *) info_detections.data;
ssd_update_detection (detections, boxes, model);
gst_memory_unmap (mem_boxes, &info_boxes);
gst_memory_unmap (mem_detections, &info_detections);
gst_memory_unref (mem_boxes);
gst_memory_unref (mem_detections);
}
/**
* @brief Callback for tensor sink signal.
*/
static void
nns_ex_new_data_face_cb (GstElement * element, GstBuffer * buffer,
gpointer user_data)
{
nns_ex_parse_ssd (buffer, MODEL_FACE);
}
/**
* @brief Callback for tensor sink signal.
*/
static void
nns_ex_new_data_hand_cb (GstElement * element, GstBuffer * buffer,
gpointer user_data)
{
nns_ex_parse_ssd (buffer, MODEL_HAND);
}
/**
* @brief Callback for tensor sink signal.
*/
static void
nns_ex_new_data_obj_cb (GstElement * element, GstBuffer * buffer,
gpointer user_data)
{
nns_ex_parse_ssd (buffer, MODEL_OBJ);
}
/**
* @brief Callback for tensor sink signal.
*/
static void
nns_ex_new_data_pose_cb (GstElement * element, GstBuffer * buffer,
gpointer user_data)
{
nns_ex_parse_pose (buffer);
}
/**
* @brief Callback to draw the overlay.
*/
static void
nns_ex_draw_overlay_cb (GstElement * overlay, cairo_t * cr, guint64 timestamp,
guint64 duration, gpointer user_data)
{
guint max_objects;
ssd_object_s objects[MAX_OBJECT_DETECTION];
/* set font props */
cairo_select_font_face (cr, "Sans", CAIRO_FONT_SLANT_NORMAL,
CAIRO_FONT_WEIGHT_BOLD);
cairo_set_font_size (cr, 18.0);
if (IS_FACE (launch_option)) {
max_objects = ssd_get_detected_objects (objects, MODEL_FACE);
ssd_draw_object (cr, objects, max_objects, MODEL_FACE);
}
if (IS_HAND (launch_option)) {
max_objects = ssd_get_detected_objects (objects, MODEL_HAND);
ssd_draw_object (cr, objects, max_objects, MODEL_HAND);
}
if (IS_OBJ (launch_option)) {
max_objects = ssd_get_detected_objects (objects, MODEL_OBJ);
ssd_draw_object (cr, objects, max_objects, MODEL_OBJ);
}
if (IS_POSE (launch_option)) {
pose_draw (cr);
}
}
/**
* @brief Get model name.
*/
static gboolean
nns_ex_get_name (gchar ** name, const gint option)
{
static gchar model_name_face[] = "Face Detection";
static gchar model_name_hand[] = "Hand Detection";
static gchar model_name_obj[] = "Object Detection";
static gchar model_name_pose[] = "Pose Estimation";
if (IS_FACE (option)) {
*name = model_name_face;
} else if (IS_HAND (option)) {
*name = model_name_hand;
} else if (IS_OBJ (option)) {
*name = model_name_obj;
} else if (IS_POSE (option)) {
*name = model_name_pose;
} else {
nns_loge ("Cannot get the model name with option %d", option);
return FALSE;
}
return TRUE;
}
/**
* @brief Get current pipeline description.
*/
static gboolean
nns_ex_get_description (gchar ** desc, const gint option)
{
*desc = pipeline_description;
return (*desc != NULL);
}
/**
* @brief Append new text.
*/
static gchar *
nns_ex_append_text (gchar * old, gchar * str)
{
gchar *new_pipeline;
new_pipeline = g_strconcat (old, str, NULL);
g_free (str);
g_free (old);
return new_pipeline;
}
/**
* @brief Append pipeline description.
*/
static gchar *
nns_ex_append_description (gchar * old, gchar * str, const gchar * color)
{
gchar *wrap, *new_desc;
wrap = g_strdup_printf ("<p style=\"color:%s;\">%s</p>", color, str);
new_desc = g_strconcat (old, wrap, NULL);
g_free (wrap);
g_free (str);
g_free (old);
return new_desc;
}
/**
* @brief Update pipeline description.
*/
static void
nns_ex_set_description (const gint option)
{
gchar *str_desc, *extra;
str_desc = g_strdup
("<html><meta http-equiv=\"Content-Type\" content=\"text/html;charset=utf-8\"><body>");
/* camera-source and video-sink*/
extra = g_strdup
("ahc2src ! videoflip ! videocrop ! tee name=traw "
"traw. ! queue ! cairooverlay ! videosink ");
str_desc = nns_ex_append_description (str_desc, extra, "#000080");
if (IS_POSE (option)) {
extra = g_strdup
("traw. ! queue ! videoscale ! tensor_converter ! tensor_transform ! "
"tensor_filter pose ! tensor_sink ");
str_desc = nns_ex_append_description (str_desc, extra, "#D2691E");
}
if (IS_FACE (option) || IS_HAND (option) || IS_OBJ (option)) {
extra = g_strdup
("traw. ! queue ! videoscale ! tensor_converter ! tensor_transform ! tee name=tssd ");
str_desc = nns_ex_append_description (str_desc, extra, "#000080");
if (IS_FACE (option)) {
extra = g_strdup ("tssd. ! queue ! tensor_filter model=face ! tensor_sink ");
str_desc = nns_ex_append_description (str_desc, extra, "#0000FF");
}
if (IS_HAND (option)) {
extra = g_strdup ("tssd. ! queue ! tensor_filter model=hand ! tensor_sink ");
str_desc = nns_ex_append_description (str_desc, extra, "#008000");
}
if (IS_OBJ (option)) {
extra = g_strdup ("tssd. ! queue ! tensor_filter model=object ! tensor_sink ");
str_desc = nns_ex_append_description (str_desc, extra, "#FF0000");
}
}
extra = g_strdup ("</body></html>");
str_desc = nns_ex_append_text (str_desc, extra);
g_free (pipeline_description);
pipeline_description = str_desc;
}
/**
* @brief Start pipeline.
*/
static gboolean
nns_ex_launch_pipeline (GstElement ** pipeline, const gint option)
{
GstElement *element;
GError *error = NULL;
gchar *str_pipeline, *extra;
gboolean front_cam;
launch_option = option;
front_cam = USE_FRONT (option) ? TRUE : FALSE;
/* Update pipeline description */
nns_ex_set_description (option);
/* videocrop 640x480 > 480x480, front camera */
str_pipeline = g_strdup_printf
("ahc2src camera-index=%d ! videoconvert ! video/x-raw,format=RGB,width=640,height=480,framerate=30/1 ! "
"videoflip method=%s ! videocrop left=0 right=0 top=80 bottom=80 ! tee name=traw "
"traw. ! queue min-threshold-buffers=8 ! videoconvert ! "
"cairooverlay name=res_cairooverlay ! glimagesink sync=false ",
(front_cam) ? 1 : 0, (front_cam) ? "upper-right-diagonal" : "clockwise");
if (option) {
if (IS_POSE (option)) {
/**
* pose estimation
* input[0] float32 [3:192:192:1] (RGB:POSE_MODEL_WIDTH:POSE_MODEL_HEIGHT:1)
* output[0] float32 [14:96:96:1] (POSE_SIZE:POSE_OUT_W:POSE_OUT_H:1)
*/
extra = g_strdup_printf
("traw. ! queue leaky=2 max-size-buffers=2 ! videoscale ! video/x-raw,format=RGB,width=192,height=192 ! "
"tensor_converter ! tensor_transform mode=typecast option=float32 ! "
"tensor_filter framework=tensorflow-lite model=%s ! tensor_sink name=res_pose ",
EX_POSE_MODEL);
str_pipeline = nns_ex_append_text (str_pipeline, extra);
}
if (IS_FACE (option) || IS_HAND (option) || IS_OBJ (option)) {
/**
* object detection base (videoscale 480x480 > 300x300)
*/
extra = g_strdup_printf
("traw. ! queue ! videoscale ! video/x-raw,format=RGB,width=300,height=300 ! "
"tensor_converter ! tensor_transform mode=arithmetic option=typecast:float32,add:-127.5,div:127.5 ! "
"tee name=tssd ", SSD_MODEL_WIDTH, SSD_MODEL_HEIGHT);
str_pipeline = nns_ex_append_text (str_pipeline, extra);
if (IS_FACE (option)) {
/**
* face detection
* input[0] float32 [3:300:300:1] (RGB:SSD_MODEL_WIDTH:SSD_MODEL_HEIGHT:1)
* output[0] float32 [4:1:1917:1] (SSD_BOX_SIZE:1:SSD_DETECTION_MAX:1)
* output[1] float32 [2:1917:1:1] (LABEL_SIZE:SSD_DETECTION_MAX:1:1)
*/
extra = g_strdup_printf
("tssd. ! queue leaky=2 max-size-buffers=2 ! "
"tensor_filter framework=tensorflow-lite model=%s ! tensor_sink name=res_face ",
EX_FACE_MODEL);
str_pipeline = nns_ex_append_text (str_pipeline, extra);
}
if (IS_HAND (option)) {
/**
* hand detection
* input[0] float32 [3:300:300:1] (RGB:SSD_MODEL_WIDTH:SSD_MODEL_HEIGHT:1)
* output[0] float32 [4:1:1917:1] (SSD_BOX_SIZE:1:SSD_DETECTION_MAX:1)
* output[1] float32 [2:1917:1:1] (LABEL_SIZE:SSD_DETECTION_MAX:1:1)
*/
extra = g_strdup_printf
("tssd. ! queue leaky=2 max-size-buffers=2 ! "
"tensor_filter framework=tensorflow-lite model=%s ! tensor_sink name=res_hand ",
EX_HAND_MODEL);
str_pipeline = nns_ex_append_text (str_pipeline, extra);
}
if (IS_OBJ (option)) {
/**
* object detection
* input[0] float32 [3:300:300:1] (RGB:SSD_MODEL_WIDTH:SSD_MODEL_HEIGHT:1)
* output[0] float32 [4:1:1917:1] (SSD_BOX_SIZE:1:SSD_DETECTION_MAX:1)
* output[1] float32 [91:1917:1:1] (LABEL_SIZE:SSD_DETECTION_MAX:1:1)
*/
extra = g_strdup_printf
("tssd. ! queue leaky=2 max-size-buffers=2 ! "
"tensor_filter framework=tensorflow-lite model=%s ! tensor_sink name=res_obj ",
EX_OBJ_MODEL);
str_pipeline = nns_ex_append_text (str_pipeline, extra);
}
}
}
nns_logd ("Pipeline: %s", str_pipeline);
*pipeline = gst_parse_launch (str_pipeline, &error);
g_free (str_pipeline);
if (error) {