diff options
-rw-r--r-- | plugins/pco/uca-pco-camera.c | 194 |
1 files changed, 18 insertions, 176 deletions
diff --git a/plugins/pco/uca-pco-camera.c b/plugins/pco/uca-pco-camera.c index 8a58f06..6eedff8 100644 --- a/plugins/pco/uca-pco-camera.c +++ b/plugins/pco/uca-pco-camera.c @@ -115,7 +115,6 @@ enum { PROP_SENSOR_PIXELRATE, PROP_SENSOR_ADCS, PROP_SENSOR_MAX_ADCS, - PROP_DELAY_TIME, PROP_HAS_DOUBLE_IMAGE_MODE, PROP_DOUBLE_IMAGE_MODE, PROP_OFFSET_MODE, @@ -194,10 +193,6 @@ struct _UcaPcoCameraPrivate { GValueArray *vertical_binnings; GValueArray *pixelrates; - /* The time bases are given as pco time bases (TIMEBASE_NS and so on) */ - guint16 delay_timebase; - guint16 exposure_timebase; - frameindex_t last_frame; guint16 active_segment; guint num_recorded_images; @@ -307,64 +302,6 @@ override_maximum_adcs(UcaPcoCameraPrivate *priv) spec->maximum = pco_get_maximum_number_of_adcs(priv->pco); } -static gdouble -convert_timebase(guint16 timebase) -{ - switch (timebase) { - case TIMEBASE_NS: - return 1e-9; - case TIMEBASE_US: - return 1e-6; - case TIMEBASE_MS: - return 1e-3; - default: - g_warning("Unknown timebase"); - } - return 1e-3; -} - -static void -read_timebase(UcaPcoCameraPrivate *priv) -{ - pco_get_timebase(priv->pco, &priv->delay_timebase, &priv->exposure_timebase); -} - -static gboolean -check_timebase (gdouble time, gdouble scale) -{ - const gdouble EPSILON = 1e-3; - gdouble scaled = time * scale; - return scaled >= 1.0 && (scaled - ((int) scaled)) < EPSILON; -} - -static gdouble -get_suitable_timebase(gdouble time) -{ - if (check_timebase (time, 1e3)) - return TIMEBASE_MS; - if (check_timebase (time, 1e6)) - return TIMEBASE_US; - if (check_timebase (time, 1e9)) - return TIMEBASE_NS; - return TIMEBASE_INVALID; -} - -static gdouble -get_internal_delay (UcaPcoCamera *camera) -{ - if (camera->priv->description->type == CAMERATYPE_PCO_DIMAX_STD) { - guint sensor_rate; - g_object_get (camera, "sensor-pixelrate", &sensor_rate, NULL); - - if (sensor_rate == 55000000.0) - return 0.000079; - else if (sensor_rate == 62500000.0) - return 0.000036; - } - - return 0.0; -} - static int fg_callback(frameindex_t frame, struct fg_apc_data *apc) { @@ -691,93 +628,23 @@ uca_pco_camera_set_property(GObject *object, guint property_id, const GValue *va case PROP_EXPOSURE_TIME: { - const gdouble time = g_value_get_double(value); - - if (priv->exposure_timebase == TIMEBASE_INVALID) - read_timebase(priv); - - /* - * Lets check if we can express the time in the current time - * base. If not, we need to adjust that. - */ - guint16 suitable_timebase = get_suitable_timebase(time); - - if (suitable_timebase == TIMEBASE_INVALID) { - g_warning("Cannot set such a small exposure time"); - } - else { - if (suitable_timebase != priv->exposure_timebase) { - priv->exposure_timebase = suitable_timebase; - err = pco_set_timebase(priv->pco, priv->delay_timebase, suitable_timebase); - break; - } - - gdouble timebase = convert_timebase(suitable_timebase); - guint32 timesteps = time / timebase; + uint32_t exposure; + uint32_t framerate; - err = pco_set_exposure_time(priv->pco, timesteps); - } + pco_get_framerate (priv->pco, &framerate, &exposure); + exposure = (uint32_t) (g_value_get_double (value) * 1000 * 1000 * 1000); + pco_set_framerate (priv->pco, framerate, exposure, false); } break; case PROP_FRAMES_PER_SECOND: { - gdouble n_frames_per_second; - gdouble exposure_time; - gdouble delay; - - /* - * We want to expose n frames in one second, each frame takes - * exposure time + delay time. Thus we have - * - * 1s = n * (t_exp + t_delay) <=> t_exp = 1s/n - t_delay. - */ - delay = get_internal_delay (UCA_PCO_CAMERA (object)); - n_frames_per_second = g_value_get_double (value); - exposure_time = 1.0 / n_frames_per_second - delay; + uint32_t exposure; + uint32_t framerate; - if (exposure_time <= 0.0) - g_warning ("Too many frames per second requested."); - else - g_object_set (object, "exposure-time", exposure_time, NULL); - } - break; - - case PROP_DELAY_TIME: - { - const gdouble time = g_value_get_double(value); - - if (priv->delay_timebase == TIMEBASE_INVALID) - read_timebase(priv); - - /* - * Lets check if we can express the time in the current time - * base. If not, we need to adjust that. - */ - guint16 suitable_timebase = get_suitable_timebase(time); - - if (suitable_timebase == TIMEBASE_INVALID) { - if (time == 0.0) { - /* - * If we want to suppress any pre-exposure delays, we - * can set the 0 seconds in whatever time base that is - * currently active. - */ - err = pco_set_delay_time(priv->pco, 0); - } - else - g_warning("Cannot set such a small exposure time"); - } - else { - if (suitable_timebase != priv->delay_timebase) { - priv->delay_timebase = suitable_timebase; - err = pco_set_timebase(priv->pco, suitable_timebase, priv->exposure_timebase); - } - - gdouble timebase = convert_timebase(suitable_timebase); - guint32 timesteps = time / timebase; - err = pco_set_delay_time(priv->pco, timesteps); - } + pco_get_framerate (priv->pco, &framerate, &exposure); + framerate = (uint32_t) (g_value_get_double (value) * 1000); + pco_set_framerate (priv->pco, framerate, exposure, true); } break; @@ -1009,36 +876,21 @@ uca_pco_camera_get_property(GObject *object, guint property_id, GValue *value, G case PROP_EXPOSURE_TIME: { - uint32_t exposure_time; - err = pco_get_exposure_time(priv->pco, &exposure_time); - - if (priv->exposure_timebase == TIMEBASE_INVALID) - read_timebase(priv); + uint32_t exposure; + uint32_t framerate; - g_value_set_double(value, convert_timebase(priv->exposure_timebase) * exposure_time); + pco_get_framerate (priv->pco, &framerate, &exposure); + g_value_set_double (value, exposure / 1000. / 1000. / 1000.); } break; case PROP_FRAMES_PER_SECOND: { - gdouble exposure_time; - gdouble delay; - - delay = get_internal_delay (UCA_PCO_CAMERA (object)); - g_object_get (object, "exposure-time", &exposure_time, NULL); - g_value_set_double (value, 1.0 / (exposure_time + delay)); - } - break; - - case PROP_DELAY_TIME: - { - uint32_t delay_time; - err = pco_get_delay_time(priv->pco, &delay_time); + uint32_t exposure; + uint32_t framerate; - if (priv->delay_timebase == TIMEBASE_INVALID) - read_timebase(priv); - - g_value_set_double(value, convert_timebase(priv->delay_timebase) * delay_time); + pco_get_framerate (priv->pco, &framerate, &exposure); + g_value_set_double (value, framerate / 1000.); } break; @@ -1419,13 +1271,6 @@ uca_pco_camera_class_init(UcaPcoCameraClass *klass) UCA_TYPE_PCO_CAMERA_ACQUIRE_MODE, UCA_PCO_CAMERA_ACQUIRE_MODE_AUTO, G_PARAM_READWRITE); - pco_properties[PROP_DELAY_TIME] = - g_param_spec_double("delay-time", - "Delay time", - "Delay before starting actual exposure", - 0.0, G_MAXDOUBLE, 0.0, - G_PARAM_READWRITE); - pco_properties[PROP_NOISE_FILTER] = g_param_spec_boolean("noise-filter", "Noise filter", @@ -1604,8 +1449,6 @@ uca_pco_camera_init (UcaPcoCamera *self) priv->last_frame = 0; priv->grab_buffer = NULL; priv->construct_error = NULL; - priv->delay_timebase = TIMEBASE_INVALID; - priv->exposure_timebase = TIMEBASE_INVALID; if (!setup_pco_camera (priv)) return; @@ -1626,7 +1469,6 @@ uca_pco_camera_init (UcaPcoCamera *self) uca_camera_register_unit (camera, "cooling-point-default", UCA_UNIT_DEGREE_CELSIUS); uca_camera_register_unit (camera, "sensor-adcs", UCA_UNIT_COUNT); uca_camera_register_unit (camera, "sensor-max-adcs", UCA_UNIT_COUNT); - uca_camera_register_unit (camera, "delay-time", UCA_UNIT_SECOND); } G_MODULE_EXPORT GType |