bool CvCaptureCAM_Aravis::open( int index ) { if(create(index)) { // fetch properties bounds pixelFormats = arv_camera_get_available_pixel_formats(camera, &pixelFormatsCnt); arv_camera_get_width_bounds(camera, &widthMin, &widthMax); arv_camera_get_height_bounds(camera, &heightMin, &heightMax); arv_camera_set_region(camera, 0, 0, widthMax, heightMax); if( (fpsAvailable = arv_camera_is_frame_rate_available(camera)) ) arv_camera_get_frame_rate_bounds(camera, &fpsMin, &fpsMax); if( (gainAvailable = arv_camera_is_gain_available(camera)) ) arv_camera_get_gain_bounds (camera, &gainMin, &gainMax); if( (exposureAvailable = arv_camera_is_exposure_time_available(camera)) ) arv_camera_get_exposure_time_bounds (camera, &exposureMin, &exposureMax); // get initial values pixelFormat = arv_camera_get_pixel_format(camera); exposure = exposureAvailable ? arv_camera_get_exposure_time(camera) : 0; gain = gainAvailable ? arv_camera_get_gain(camera) : 0; fps = arv_camera_get_frame_rate(camera); return startCapture(); } return false; }
CamGigE::CamGigE(int id): Cam(id) { mWidth = XSIZE; mHeight = YSIZE; xshift = 0; yshift = 0; exposure = 2*1000; gain = 300; isCapturing = false; framerate = 15.0f; mId = id; g_type_init (); camera = arv_camera_new(NULL); if(camera == NULL) { throw "No camera found"; } arv_camera_set_region(camera, xshift, yshift, mWidth, mHeight); arv_camera_set_exposure_time(camera, exposure); arv_camera_set_gain(camera, gain); arv_camera_set_pixel_format(camera, ARV_PIXEL_FORMAT_MONO_8); //arv_camera_set_pixel_format(camera, ARV_PIXEL_FORMAT_BAYER_BG_8); width = (int)mWidth; height = (int)mHeight; arv_camera_get_region (camera, &xshift, &yshift, &width, &height); payload = arv_camera_get_payload (camera); stream = arv_camera_create_stream (camera, NULL, NULL); if(stream == NULL) { throw "Cannot create stream"; } g_object_set(stream, "packet-timeout", (unsigned) 20 * 1000, "frame-retention", (unsigned) 100 * 1000, NULL); for(int i = 0; i < 4; i++) arv_stream_push_buffer(stream, arv_buffer_new(payload, NULL)); arv_camera_set_acquisition_mode(camera, ARV_ACQUISITION_MODE_CONTINUOUS); arv_camera_set_frame_rate(camera, framerate); rawdata = new unsigned char[width*height]; }
static unicap_status_t aravis_set_format( aravis_handle_t handle, unicap_format_t *format ) { ArvPixelFormat fmt = aravis_tools_get_pixel_format (format); if (fmt == 0) return STATUS_INVALID_PARAMETER; arv_camera_set_pixel_format (handle->camera, fmt); arv_camera_set_region (handle->camera, format->size.x, format->size.y, format->size.width, format->size.height); unicap_copy_format (&handle->current_format, format); return STATUS_SUCCESS; }
bool CameraGigeAravis::setSize(int width, int height, bool customSize) { if(customSize) { arv_camera_set_region(camera, 0, 0,width,height); arv_camera_get_region (camera, NULL, NULL, &mWidth, &mHeight); BOOST_LOG_SEV(logger, notification) << "Camera region size : " << mWidth << "x" << mHeight; // Default is maximum size }else { int sensor_width, sensor_height; arv_camera_get_sensor_size(camera, &sensor_width, &sensor_height); BOOST_LOG_SEV(logger, notification) << "Camera sensor size : " << sensor_width << "x" << sensor_height; arv_camera_set_region(camera, 0, 0,sensor_width,sensor_height); arv_camera_get_region (camera, NULL, NULL, &mWidth, &mHeight); } return true; }
static gboolean gst_aravis_set_caps (GstBaseSrc *src, GstCaps *caps) { GstAravis* gst_aravis = GST_ARAVIS(src); GstStructure *structure; ArvPixelFormat pixel_format; int height, width; int bpp, depth; const GValue *frame_rate; const char *caps_string; unsigned int i; guint32 fourcc; GST_LOG_OBJECT (gst_aravis, "Requested caps = %" GST_PTR_FORMAT, caps); arv_camera_stop_acquisition (gst_aravis->camera); if (gst_aravis->stream != NULL) g_object_unref (gst_aravis->stream); structure = gst_caps_get_structure (caps, 0); gst_structure_get_int (structure, "width", &width); gst_structure_get_int (structure, "height", &height); frame_rate = gst_structure_get_value (structure, "framerate"); gst_structure_get_int (structure, "bpp", &bpp); gst_structure_get_int (structure, "depth", &depth); if (gst_structure_get_field_type (structure, "format") == G_TYPE_STRING) { const char *string; string = gst_structure_get_string (structure, "format"); fourcc = GST_STR_FOURCC (string); } else if (gst_structure_get_field_type (structure, "format") == GST_TYPE_FOURCC) { gst_structure_get_fourcc (structure, "format", &fourcc); } else fourcc = 0; pixel_format = arv_pixel_format_from_gst_0_10_caps (gst_structure_get_name (structure), bpp, depth, fourcc); arv_camera_set_region (gst_aravis->camera, gst_aravis->offset_x, gst_aravis->offset_y, width, height); arv_camera_set_binning (gst_aravis->camera, gst_aravis->h_binning, gst_aravis->v_binning); arv_camera_set_pixel_format (gst_aravis->camera, pixel_format); if (frame_rate != NULL) { double dbl_frame_rate; dbl_frame_rate = (double) gst_value_get_fraction_numerator (frame_rate) / (double) gst_value_get_fraction_denominator (frame_rate); GST_DEBUG_OBJECT (gst_aravis, "Frame rate = %g Hz", dbl_frame_rate); arv_camera_set_frame_rate (gst_aravis->camera, dbl_frame_rate); if (dbl_frame_rate > 0.0) gst_aravis->buffer_timeout_us = MAX (GST_ARAVIS_BUFFER_TIMEOUT_DEFAULT, 3e6 / dbl_frame_rate); else gst_aravis->buffer_timeout_us = GST_ARAVIS_BUFFER_TIMEOUT_DEFAULT; } else gst_aravis->buffer_timeout_us = GST_ARAVIS_BUFFER_TIMEOUT_DEFAULT; GST_DEBUG_OBJECT (gst_aravis, "Buffer timeout = %" G_GUINT64_FORMAT " µs", gst_aravis->buffer_timeout_us); GST_DEBUG_OBJECT (gst_aravis, "Actual frame rate = %g Hz", arv_camera_get_frame_rate (gst_aravis->camera)); if(gst_aravis->gain_auto) { arv_camera_set_gain_auto (gst_aravis->camera, ARV_AUTO_CONTINUOUS); GST_DEBUG_OBJECT (gst_aravis, "Auto Gain = continuous"); } else { if (gst_aravis->gain >= 0) { GST_DEBUG_OBJECT (gst_aravis, "Gain = %g", gst_aravis->gain); arv_camera_set_gain_auto (gst_aravis->camera, ARV_AUTO_OFF); arv_camera_set_gain (gst_aravis->camera, gst_aravis->gain); } GST_DEBUG_OBJECT (gst_aravis, "Actual gain = %g", arv_camera_get_gain (gst_aravis->camera)); } if(gst_aravis->exposure_auto) { arv_camera_set_exposure_time_auto (gst_aravis->camera, ARV_AUTO_CONTINUOUS); GST_DEBUG_OBJECT (gst_aravis, "Auto Exposure = continuous"); } else { if (gst_aravis->exposure_time_us > 0.0) { GST_DEBUG_OBJECT (gst_aravis, "Exposure = %g µs", gst_aravis->exposure_time_us); arv_camera_set_exposure_time_auto (gst_aravis->camera, ARV_AUTO_OFF); arv_camera_set_exposure_time (gst_aravis->camera, gst_aravis->exposure_time_us); } GST_DEBUG_OBJECT (gst_aravis, "Actual exposure = %g µs", arv_camera_get_exposure_time (gst_aravis->camera)); } if (gst_aravis->fixed_caps != NULL) gst_caps_unref (gst_aravis->fixed_caps); caps_string = arv_pixel_format_to_gst_0_10_caps_string (pixel_format); if (caps_string != NULL) { GstStructure *structure; GstCaps *caps; caps = gst_caps_new_empty (); structure = gst_structure_from_string (caps_string, NULL); gst_structure_set (structure, "width", G_TYPE_INT, width, "height", G_TYPE_INT, height, NULL); if (frame_rate != NULL) gst_structure_set_value (structure, "framerate", frame_rate); gst_caps_append_structure (caps, structure); gst_aravis->fixed_caps = caps; } else gst_aravis->fixed_caps = NULL; gst_aravis->payload = arv_camera_get_payload (gst_aravis->camera); gst_aravis->stream = arv_camera_create_stream (gst_aravis->camera, NULL, NULL); if (ARV_IS_GV_STREAM (gst_aravis->stream) && gst_aravis->packet_resend) g_object_set (gst_aravis->stream, "packet-resend", ARV_GV_STREAM_PACKET_RESEND_ALWAYS, NULL); else g_object_set (gst_aravis->stream, "packet-resend", ARV_GV_STREAM_PACKET_RESEND_NEVER, NULL); for (i = 0; i < GST_ARAVIS_N_BUFFERS; i++) arv_stream_push_buffer (gst_aravis->stream, arv_buffer_new (gst_aravis->payload, NULL)); GST_LOG_OBJECT (gst_aravis, "Start acquisition"); arv_camera_start_acquisition (gst_aravis->camera); gst_aravis->timestamp_offset = 0; gst_aravis->last_timestamp = 0; return TRUE; }
static gboolean gst_aravis_set_caps (GstBaseSrc *src, GstCaps *caps) { GstAravis* gst_aravis = GST_ARAVIS(src); GstStructure *structure; ArvPixelFormat pixel_format; int height, width; int bpp, depth; const GValue *frame_rate; const char *caps_string; unsigned int i; guint32 fourcc; GST_LOG_OBJECT (gst_aravis, "Requested caps = %" GST_PTR_FORMAT, caps); arv_camera_stop_acquisition (gst_aravis->camera); if (gst_aravis->stream != NULL) g_object_unref (gst_aravis->stream); structure = gst_caps_get_structure (caps, 0); gst_structure_get_int (structure, "width", &width); gst_structure_get_int (structure, "height", &height); frame_rate = gst_structure_get_value (structure, "framerate"); gst_structure_get_fourcc (structure, "format", &fourcc); gst_structure_get_int (structure, "bpp", &bpp); gst_structure_get_int (structure, "depth", &depth); pixel_format = arv_pixel_format_from_gst_caps (gst_structure_get_name (structure), bpp, depth, fourcc); arv_camera_set_region (gst_aravis->camera, 0, 0, width, height); arv_camera_set_binning (gst_aravis->camera, gst_aravis->h_binning, gst_aravis->v_binning); arv_camera_set_pixel_format (gst_aravis->camera, pixel_format); if (frame_rate != NULL) { double dbl_frame_rate; dbl_frame_rate = (double) gst_value_get_fraction_numerator (frame_rate) / (double) gst_value_get_fraction_denominator (frame_rate); GST_DEBUG_OBJECT (gst_aravis, "Frame rate = %g Hz", dbl_frame_rate); arv_camera_set_frame_rate (gst_aravis->camera, dbl_frame_rate); if (dbl_frame_rate > 0.0) gst_aravis->buffer_timeout_us = MAX (GST_ARAVIS_BUFFER_TIMEOUT_DEFAULT, 3e6 / dbl_frame_rate); else gst_aravis->buffer_timeout_us = GST_ARAVIS_BUFFER_TIMEOUT_DEFAULT; } else gst_aravis->buffer_timeout_us = GST_ARAVIS_BUFFER_TIMEOUT_DEFAULT; GST_DEBUG_OBJECT (gst_aravis, "Buffer timeout = %Ld µs", gst_aravis->buffer_timeout_us); GST_DEBUG_OBJECT (gst_aravis, "Actual frame rate = %g Hz", arv_camera_get_frame_rate (gst_aravis->camera)); GST_DEBUG_OBJECT (gst_aravis, "Gain = %d", gst_aravis->gain); arv_camera_set_gain (gst_aravis->camera, gst_aravis->gain); GST_DEBUG_OBJECT (gst_aravis, "Actual gain = %d", arv_camera_get_gain (gst_aravis->camera)); GST_DEBUG_OBJECT (gst_aravis, "Exposure = %g µs", gst_aravis->exposure_time_us); arv_camera_set_exposure_time (gst_aravis->camera, gst_aravis->exposure_time_us); GST_DEBUG_OBJECT (gst_aravis, "Actual exposure = %g µs", arv_camera_get_exposure_time (gst_aravis->camera)); if (gst_aravis->fixed_caps != NULL) gst_caps_unref (gst_aravis->fixed_caps); caps_string = arv_pixel_format_to_gst_caps_string (pixel_format); if (caps_string != NULL) { GstStructure *structure; GstCaps *caps; caps = gst_caps_new_empty (); structure = gst_structure_from_string (caps_string, NULL); gst_structure_set (structure, "width", G_TYPE_INT, width, "height", G_TYPE_INT, height, NULL); if (frame_rate != NULL) gst_structure_set_value (structure, "framerate", frame_rate); gst_caps_append_structure (caps, structure); gst_aravis->fixed_caps = caps; } else gst_aravis->fixed_caps = NULL; gst_aravis->payload = arv_camera_get_payload (gst_aravis->camera); gst_aravis->stream = arv_camera_create_stream (gst_aravis->camera, NULL, NULL); for (i = 0; i < GST_ARAVIS_N_BUFFERS; i++) arv_stream_push_buffer (gst_aravis->stream, arv_buffer_new (gst_aravis->payload, NULL)); GST_LOG_OBJECT (gst_aravis, "Start acquisition"); arv_camera_start_acquisition (gst_aravis->camera); gst_aravis->timestamp_offset = 0; gst_aravis->last_timestamp = 0; return TRUE; }
int main (int argc, char **argv) { ApplicationData data; ArvCamera *camera; ArvStream *stream; ArvBuffer *buffer; int i; data.buffer_count = 0; /* Mandatory glib type system initialization */ arv_g_type_init (); /* Instantiation of the first available camera */ camera = arv_camera_new (NULL); if (camera != NULL) { void (*old_sigint_handler)(int); gint payload; guint software_trigger_source = 0; /* Set region of interrest to a 200x200 pixel area */ arv_camera_set_region (camera, 0, 0, 200, 200); /* Set frame rate to 10 Hz */ arv_camera_set_frame_rate (camera, 10.0); /* retrieve image payload (number of bytes per image) */ payload = arv_camera_get_payload (camera); /* Create a new stream object */ stream = arv_camera_create_stream (camera, NULL, NULL); if (stream != NULL) { /* Push 50 buffer in the stream input buffer queue */ for (i = 0; i < 50; i++) arv_stream_push_buffer (stream, arv_buffer_new (payload, NULL)); /* Start the video stream */ arv_camera_start_acquisition (camera); /* Connect the new-buffer signal */ g_signal_connect (stream, "new-buffer", G_CALLBACK (new_buffer_cb), &data); /* And enable emission of this signal (it's disabled by default for performance reason) */ arv_stream_set_emit_signals (stream, TRUE); /* Connect the control-lost signal */ g_signal_connect (arv_camera_get_device (camera), "control-lost", G_CALLBACK (control_lost_cb), NULL); /* Install the callback for frame rate display */ g_timeout_add_seconds (1, periodic_task_cb, &data); /* Create a new glib main loop */ data.main_loop = g_main_loop_new (NULL, FALSE); old_sigint_handler = signal (SIGINT, set_cancel); /* Run the main loop */ g_main_loop_run (data.main_loop); signal (SIGINT, old_sigint_handler); g_main_loop_unref (data.main_loop); /* Stop the video stream */ arv_camera_stop_acquisition (camera); g_object_unref (stream); } else printf ("Can't create stream thread (check if the device is not already used)\n"); g_object_unref (camera); } else printf ("No camera found\n"); return 0; }