/* Copyright (C) 2011, 2012 Matthias Vogelgesang (Karlsruhe Institute of Technology) This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110, USA */ #include #include #include #include #include #include #include #include "uca-camera.h" #include "uca-pco-camera.h" #define FG_TRY_PARAM(fg, camobj, param, val_addr, port) \ { int r = Fg_setParameter(fg, param, val_addr, port); \ if (r != FG_OK) { \ g_set_error(error, UCA_PCO_CAMERA_ERROR, \ UCA_PCO_CAMERA_ERROR_FG_GENERAL, \ "%s", Fg_getLastErrorDescription(fg)); \ g_object_unref(camobj); \ return NULL; \ } } #define FG_SET_ERROR(err, fg, err_type) \ if (err != FG_OK) { \ g_set_error(error, UCA_PCO_CAMERA_ERROR, \ err_type, \ "%s", Fg_getLastErrorDescription(fg)); \ return; \ } #define HANDLE_PCO_ERROR(err) \ if ((err) != PCO_NOERROR) { \ g_set_error(error, UCA_PCO_CAMERA_ERROR, \ UCA_PCO_CAMERA_ERROR_LIBPCO_GENERAL,\ "libpco error %i", err); \ return; \ } #define UCA_PCO_CAMERA_GET_PRIVATE(obj) (G_TYPE_INSTANCE_GET_PRIVATE((obj), UCA_TYPE_PCO_CAMERA, UcaPcoCameraPrivate)) G_DEFINE_TYPE(UcaPcoCamera, uca_pco_camera, UCA_TYPE_CAMERA) #define TIMEBASE_INVALID 0xDEAD /** * UcaPcoCameraError: * @UCA_PCO_CAMERA_ERROR_LIBPCO_INIT: Initializing libpco failed * @UCA_PCO_CAMERA_ERROR_LIBPCO_GENERAL: General libpco error * @UCA_PCO_CAMERA_ERROR_UNSUPPORTED: Camera type is not supported * @UCA_PCO_CAMERA_ERROR_FG_INIT: Framegrabber initialization failed * @UCA_PCO_CAMERA_ERROR_FG_GENERAL: General framegrabber error * @UCA_PCO_CAMERA_ERROR_FG_ACQUISITION: Framegrabber acquisition error */ GQuark uca_pco_camera_error_quark() { return g_quark_from_static_string("uca-pco-camera-error-quark"); } enum { PROP_NAME = N_BASE_PROPERTIES, PROP_SENSOR_EXTENDED, PROP_SENSOR_WIDTH_EXTENDED, PROP_SENSOR_HEIGHT_EXTENDED, PROP_SENSOR_TEMPERATURE, PROP_SENSOR_PIXELRATES, PROP_SENSOR_PIXELRATE, PROP_SENSOR_ADCS, PROP_DELAY_TIME, PROP_HAS_DOUBLE_IMAGE_MODE, PROP_DOUBLE_IMAGE_MODE, PROP_OFFSET_MODE, PROP_RECORD_MODE, PROP_ACQUIRE_MODE, PROP_COOLING_POINT, PROP_NOISE_FILTER, N_PROPERTIES }; static gint base_overrideables[] = { PROP_SENSOR_WIDTH, PROP_SENSOR_HEIGHT, PROP_SENSOR_BITDEPTH, PROP_SENSOR_HORIZONTAL_BINNING, PROP_SENSOR_HORIZONTAL_BINNINGS, PROP_SENSOR_VERTICAL_BINNING, PROP_SENSOR_VERTICAL_BINNINGS, PROP_SENSOR_MAX_FRAME_RATE, PROP_EXPOSURE_TIME, PROP_TRIGGER_MODE, PROP_ROI_X, PROP_ROI_Y, PROP_ROI_WIDTH, PROP_ROI_HEIGHT, PROP_HAS_STREAMING, PROP_HAS_CAMRAM_RECORDING, 0 }; static GParamSpec *pco_properties[N_PROPERTIES] = { NULL, }; /* * This structure defines type-specific properties of PCO cameras. */ typedef struct { int camera_type; const char *so_file; int cl_type; int cl_format; gfloat max_frame_rate; gboolean has_camram; } pco_cl_map_entry; struct _UcaPcoCameraPrivate { pco_handle pco; pco_cl_map_entry *camera_description; Fg_Struct *fg; guint fg_port; dma_mem *fg_mem; guint frame_width; guint frame_height; gsize num_bytes; guint16 width, height; guint16 width_ex, height_ex; GValueArray *horizontal_binnings; 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; guint current_image; }; /** * UcaPcoCameraRecordMode: * @UCA_PCO_CAMERA_RECORD_MODE_SEQUENCE: Store all frames and stop if necessary * @UCA_PCO_CAMERA_RECORD_MODE_RING_BUFFER: Store frames in ring-buffer fashion * and overwrite if necessary */ static GType uca_pco_camera_record_mode_get_type(void) { static GType record_mode_type = 0; if (!record_mode_type) { static GEnumValue record_modes[] = { { UCA_PCO_CAMERA_RECORD_MODE_SEQUENCE, "Store frames in a ring buffer", "ring-buffer" }, { UCA_PCO_CAMERA_RECORD_MODE_RING_BUFFER, "Store frames in a ring buffer", "sequence" }, { 0, NULL, NULL } }; record_mode_type = g_enum_register_static("UcaPcoCameraRecordMode", record_modes); } return record_mode_type; } /** * UcaPcoCameraAcquireMode: * @UCA_PCO_CAMERA_ACQUIRE_MODE_AUTO: Take all images * @UCA_PCO_CAMERA_ACQUIRE_MODE_EXTERNAL: Use signal */ static GType uca_pco_camera_acquire_mode_get_type(void) { static GType acquire_mode_type = 0; if (!acquire_mode_type) { static GEnumValue acquire_modes[] = { { UCA_PCO_CAMERA_ACQUIRE_MODE_AUTO, "Take all images", "auto" }, { UCA_PCO_CAMERA_ACQUIRE_MODE_EXTERNAL, "Use signal", "external" }, { 0, NULL, NULL } }; acquire_mode_type = g_enum_register_static("UcaPcoCameraAcquireMode", acquire_modes); } return acquire_mode_type; } static pco_cl_map_entry pco_cl_map[] = { { CAMERATYPE_PCO_EDGE, "libFullAreaGray8.so", FG_CL_8BIT_FULL_10, FG_GRAY, 30.0f, FALSE }, { CAMERATYPE_PCO4000, "libDualAreaGray16.so", FG_CL_SINGLETAP_16_BIT, FG_GRAY16, 5.0f, TRUE }, { CAMERATYPE_PCO_DIMAX_STD, "libFullAreaGray16.so", FG_CL_SINGLETAP_8_BIT, FG_GRAY16, 1279.0f, TRUE }, { 0, NULL, 0, 0, 0.0f, FALSE } }; static pco_cl_map_entry *get_pco_cl_map_entry(int camera_type) { pco_cl_map_entry *entry = pco_cl_map; while (entry->camera_type != 0) { if (entry->camera_type == camera_type) return entry; entry++; } return NULL; } static guint fill_binnings(UcaPcoCameraPrivate *priv) { uint16_t *horizontal = NULL; uint16_t *vertical = NULL; guint num_horizontal, num_vertical; guint err = pco_get_possible_binnings(priv->pco, &horizontal, &num_horizontal, &vertical, &num_vertical); GValue val = {0}; g_value_init(&val, G_TYPE_UINT); if (err == PCO_NOERROR) { priv->horizontal_binnings = g_value_array_new(num_horizontal); priv->vertical_binnings = g_value_array_new(num_vertical); for (guint i = 0; i < num_horizontal; i++) { g_value_set_uint(&val, horizontal[i]); g_value_array_append(priv->horizontal_binnings, &val); } for (guint i = 0; i < num_vertical; i++) { g_value_set_uint(&val, vertical[i]); g_value_array_append(priv->vertical_binnings, &val); } } free(horizontal); free(vertical); return err; } static guint fill_pixelrates(UcaPcoCameraPrivate *priv) { guint32 rates[4] = {0}; gint num_rates = 0; guint err = pco_get_available_pixelrates(priv->pco, rates, &num_rates); GValue val = {0}; g_value_init(&val, G_TYPE_UINT); if (err == PCO_NOERROR) { for (gint i = 0; i < num_rates; i++) { g_value_set_uint(&val, (guint) rates[i]); g_value_array_append(priv->pixelrates, &val); } } return err; } static guint override_temperature_range(UcaPcoCameraPrivate *priv) { int16_t default_temp, min_temp, max_temp; guint err = pco_get_cooling_range(priv->pco, &default_temp, &min_temp, &max_temp); if (err == PCO_NOERROR) { GParamSpecInt *spec = (GParamSpecInt *) pco_properties[PROP_COOLING_POINT]; spec->minimum = min_temp; spec->maximum = max_temp; spec->default_value = default_temp; } return err; } static gdouble convert_timebase(guint16 timebase) { switch (timebase) { case TIMEBASE_NS: return 10e-9; case TIMEBASE_US: return 10e-6; case TIMEBASE_MS: return 10e-3; default: g_warning("Unknown timebase"); } return 10e-3; } static void read_timebase(UcaPcoCameraPrivate *priv) { pco_get_timebase(priv->pco, &priv->delay_timebase, &priv->exposure_timebase); } static gdouble get_suitable_timebase(gdouble time) { if (time * 10e3 >= 1.0) return TIMEBASE_MS; if (time * 10e6 >= 1.0) return TIMEBASE_US; if (time * 10e9 >= 1.0) return TIMEBASE_NS; return TIMEBASE_INVALID; } UcaPcoCamera *uca_pco_camera_new(GError **error) { pco_handle pco = pco_init(); if (pco == NULL) { g_set_error(error, UCA_PCO_CAMERA_ERROR, UCA_PCO_CAMERA_ERROR_LIBPCO_INIT, "Initializing libpco failed"); return NULL; } UcaPcoCamera *camera = g_object_new(UCA_TYPE_PCO_CAMERA, NULL); UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(camera); priv->pco = pco; pco_get_resolution(priv->pco, &priv->width, &priv->height, &priv->width_ex, &priv->height_ex); pco_set_storage_mode(pco, STORAGE_MODE_RECORDER); pco_set_auto_transfer(pco, 1); guint16 camera_type, camera_subtype; pco_get_camera_type(priv->pco, &camera_type, &camera_subtype); pco_cl_map_entry *map_entry = get_pco_cl_map_entry(camera_type); priv->camera_description = map_entry; if (map_entry == NULL) { g_set_error(error, UCA_PCO_CAMERA_ERROR, UCA_PCO_CAMERA_ERROR_UNSUPPORTED, "Camera type is not supported"); g_object_unref(camera); return NULL; } priv->fg_port = PORT_A; priv->fg = Fg_Init(map_entry->so_file, priv->fg_port); if (priv->fg == NULL) { g_set_error(error, UCA_PCO_CAMERA_ERROR, UCA_PCO_CAMERA_ERROR_FG_INIT, "%s", Fg_getLastErrorDescription(priv->fg)); g_object_unref(camera); return NULL; } const guint32 fg_width = camera_type == CAMERATYPE_PCO_EDGE ? priv->width * 2 : priv->width; FG_TRY_PARAM(priv->fg, camera, FG_CAMERA_LINK_CAMTYP, &map_entry->cl_type, priv->fg_port); FG_TRY_PARAM(priv->fg, camera, FG_FORMAT, &map_entry->cl_format, priv->fg_port); FG_TRY_PARAM(priv->fg, camera, FG_WIDTH, &fg_width, priv->fg_port); FG_TRY_PARAM(priv->fg, camera, FG_HEIGHT, &priv->height, priv->fg_port); int val = FREE_RUN; FG_TRY_PARAM(priv->fg, camera, FG_TRIGGERMODE, &val, priv->fg_port); fill_binnings(priv); fill_pixelrates(priv); /* * Here we override the temperature property range because this was not * possible at property installation time. */ override_temperature_range(priv); return camera; } static void uca_pco_camera_start_recording(UcaCamera *camera, GError **error) { g_return_if_fail(UCA_IS_PCO_CAMERA(camera)); guint err = PCO_NOERROR; UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(camera); /* * Get the actual size of the frame that we are going to grab based on the * currently selected region of interest. This size is fixed until recording * has stopped. */ guint16 roi[4] = {0}; err = pco_get_roi(priv->pco, roi); guint frame_width = roi[2] - roi[0] + 1; guint frame_height = roi[3] - roi[1] + 1; if (priv->frame_width != frame_width || priv->frame_height != frame_height || priv->fg_mem == NULL) { priv->frame_width = frame_width; priv->frame_height = frame_height; priv->num_bytes = 2; Fg_setParameter(priv->fg, FG_WIDTH, &priv->frame_width, priv->fg_port); Fg_setParameter(priv->fg, FG_HEIGHT, &priv->frame_height, priv->fg_port); if (priv->fg_mem) Fg_FreeMemEx(priv->fg, priv->fg_mem); const guint num_buffers = 2; priv->fg_mem = Fg_AllocMemEx(priv->fg, num_buffers * priv->frame_width * priv->frame_height * sizeof(uint16_t), num_buffers); if (priv->fg_mem == NULL) { g_set_error(error, UCA_PCO_CAMERA_ERROR, UCA_PCO_CAMERA_ERROR_FG_INIT, "%s", Fg_getLastErrorDescription(priv->fg)); g_object_unref(camera); return; } } if ((priv->camera_description->camera_type == CAMERATYPE_PCO_DIMAX_STD) || (priv->camera_description->camera_type == CAMERATYPE_PCO4000)) pco_clear_active_segment(priv->pco); priv->last_frame = 0; err = pco_arm_camera(priv->pco); HANDLE_PCO_ERROR(err); err = pco_start_recording(priv->pco); HANDLE_PCO_ERROR(err); err = Fg_AcquireEx(priv->fg, priv->fg_port, GRAB_INFINITE, ACQ_STANDARD, priv->fg_mem); FG_SET_ERROR(err, priv->fg, UCA_PCO_CAMERA_ERROR_FG_ACQUISITION); } static void uca_pco_camera_stop_recording(UcaCamera *camera, GError **error) { g_return_if_fail(UCA_IS_PCO_CAMERA(camera)); UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(camera); guint err = pco_stop_recording(priv->pco); HANDLE_PCO_ERROR(err); err = Fg_stopAcquireEx(priv->fg, priv->fg_port, priv->fg_mem, STOP_SYNC); FG_SET_ERROR(err, priv->fg, UCA_PCO_CAMERA_ERROR_FG_ACQUISITION); err = Fg_setStatusEx(priv->fg, FG_UNBLOCK_ALL, 0, priv->fg_port, priv->fg_mem); if (err == FG_INVALID_PARAMETER) g_print(" Unable to unblock all\n"); } static void uca_pco_camera_start_readout(UcaCamera *camera, GError **error) { g_return_if_fail(UCA_IS_PCO_CAMERA(camera)); UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(camera); /* * TODO: Check if readout mode is possible. This is not the case for the * edge. */ guint err = pco_get_active_segment(priv->pco, &priv->active_segment); HANDLE_PCO_ERROR(err); err = pco_get_num_images(priv->pco, priv->active_segment, &priv->num_recorded_images); HANDLE_PCO_ERROR(err); priv->current_image = 1; } static void uca_pco_camera_trigger(UcaCamera *camera, GError **error) { g_return_if_fail(UCA_IS_PCO_CAMERA(camera)); UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(camera); /* TODO: Check if we can trigger */ guint32 success = 0; pco_force_trigger(priv->pco, &success); if (!success) g_set_error(error, UCA_PCO_CAMERA_ERROR, UCA_PCO_CAMERA_ERROR_LIBPCO_GENERAL, "Could not trigger frame acquisition"); } static void uca_pco_camera_grab(UcaCamera *camera, gpointer *data, GError **error) { g_return_if_fail(UCA_IS_PCO_CAMERA(camera)); UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(camera); gboolean is_readout = FALSE; g_object_get(G_OBJECT(camera), "is-readout", &is_readout, NULL); if (is_readout) { if (priv->current_image == priv->num_recorded_images) { *data = NULL; return; } /* * No joke, the pco firmware allows to read a range of images but * implements only reading single images ... */ pco_read_images(priv->pco, priv->active_segment, priv->current_image, priv->current_image); priv->current_image++; } pco_request_image(priv->pco); priv->last_frame = Fg_getLastPicNumberBlockingEx(priv->fg, priv->last_frame+1, priv->fg_port, 5, priv->fg_mem); if (priv->last_frame <= 0) { guint err = FG_OK + 1; FG_SET_ERROR(err, priv->fg, UCA_PCO_CAMERA_ERROR_FG_GENERAL); } guint16 *frame = Fg_getImagePtrEx(priv->fg, priv->last_frame, priv->fg_port, priv->fg_mem); if (*data == NULL) *data = g_malloc0(priv->frame_width * priv->frame_height * priv->num_bytes); if (priv->camera_description->camera_type == CAMERATYPE_PCO_EDGE) pco_get_reorder_func(priv->pco)((guint16 *) *data, frame, priv->frame_width, priv->frame_height); else memcpy((gchar *) *data, (gchar *) frame, priv->frame_width * priv->frame_height * priv->num_bytes); } static void uca_pco_camera_set_property(GObject *object, guint property_id, const GValue *value, GParamSpec *pspec) { UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(object); switch (property_id) { case PROP_SENSOR_EXTENDED: { guint16 format = g_value_get_boolean(value) ? SENSORFORMAT_EXTENDED : SENSORFORMAT_STANDARD; pco_set_sensor_format(priv->pco, format); } break; 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; pco_set_timebase(priv->pco, priv->delay_timebase, suitable_timebase); } gdouble timebase = convert_timebase(suitable_timebase); guint32 timesteps = time / timebase; pco_set_exposure_time(priv->pco, timesteps); } } 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) { g_warning("Cannot set such a small exposure time"); } else { if (suitable_timebase != priv->delay_timebase) { priv->delay_timebase = suitable_timebase; pco_set_timebase(priv->pco, suitable_timebase, priv->exposure_timebase); } gdouble timebase = convert_timebase(suitable_timebase); guint32 timesteps = time / timebase; pco_set_delay_time(priv->pco, timesteps); } } break; case PROP_SENSOR_ADCS: { const guint num_adcs = g_value_get_uint(value); pco_set_adc_mode(priv->pco, num_adcs); } break; case PROP_SENSOR_PIXELRATE: pco_set_pixelrate(priv->pco, g_value_get_uint(value)); break; case PROP_DOUBLE_IMAGE_MODE: if (!pco_is_double_image_mode_available(priv->pco)) g_warning("Double image mode is not available on this pco model"); else pco_set_double_image_mode(priv->pco, g_value_get_boolean(value)); break; case PROP_OFFSET_MODE: pco_set_offset_mode(priv->pco, g_value_get_boolean(value)); break; case PROP_COOLING_POINT: { int16_t temperature = (int16_t) g_value_get_int(value); pco_set_cooling_temperature(priv->pco, temperature); } break; case PROP_RECORD_MODE: { /* TODO: setting this is not possible for the edge */ UcaPcoCameraRecordMode mode = (UcaPcoCameraRecordMode) g_value_get_enum(value); if (mode == UCA_PCO_CAMERA_RECORD_MODE_SEQUENCE) pco_set_record_mode(priv->pco, RECORDER_SUBMODE_SEQUENCE); else if (mode == UCA_PCO_CAMERA_RECORD_MODE_RING_BUFFER) pco_set_record_mode(priv->pco, RECORDER_SUBMODE_RINGBUFFER); else g_warning("Unknown record mode"); } break; case PROP_ACQUIRE_MODE: { UcaPcoCameraAcquireMode mode = (UcaPcoCameraAcquireMode) g_value_get_enum(value); if (mode == UCA_PCO_CAMERA_ACQUIRE_MODE_AUTO) pco_set_acquire_mode(priv->pco, ACQUIRE_MODE_AUTO); else if (mode == UCA_PCO_CAMERA_ACQUIRE_MODE_EXTERNAL) pco_set_record_mode(priv->pco, ACQUIRE_MODE_EXTERNAL); else g_warning("Unknown acquire mode"); } break; case PROP_TRIGGER_MODE: { UcaCameraTrigger trigger_mode = (UcaCameraTrigger) g_value_get_enum(value); switch (trigger_mode) { case UCA_CAMERA_TRIGGER_AUTO: pco_set_trigger_mode(priv->pco, TRIGGER_MODE_AUTOTRIGGER); break; case UCA_CAMERA_TRIGGER_INTERNAL: pco_set_trigger_mode(priv->pco, TRIGGER_MODE_SOFTWARETRIGGER); break; case UCA_CAMERA_TRIGGER_EXTERNAL: pco_set_trigger_mode(priv->pco, TRIGGER_MODE_EXTERNALTRIGGER); break; } } break; case PROP_NOISE_FILTER: { guint16 filter_mode = g_value_get_boolean(value) ? NOISE_FILTER_MODE_ON : NOISE_FILTER_MODE_OFF; pco_set_noise_filter_mode(priv->pco, filter_mode); } break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID(object, property_id, pspec); return; } } static void uca_pco_camera_get_property(GObject *object, guint property_id, GValue *value, GParamSpec *pspec) { UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(object); switch (property_id) { case PROP_SENSOR_EXTENDED: { guint16 format; pco_get_sensor_format(priv->pco, &format); g_value_set_boolean(value, format == SENSORFORMAT_EXTENDED); } break; case PROP_SENSOR_WIDTH: g_value_set_uint(value, priv->width); break; case PROP_SENSOR_HEIGHT: g_value_set_uint(value, priv->height); break; case PROP_SENSOR_WIDTH_EXTENDED: g_value_set_uint(value, priv->width_ex); break; case PROP_SENSOR_HEIGHT_EXTENDED: g_value_set_uint(value, priv->height_ex); break; case PROP_SENSOR_HORIZONTAL_BINNING: { uint16_t h, v; /* TODO: check error */ pco_get_binning(priv->pco, &h, &v); g_value_set_uint(value, h); } break; case PROP_SENSOR_HORIZONTAL_BINNINGS: g_value_set_boxed(value, priv->horizontal_binnings); break; case PROP_SENSOR_VERTICAL_BINNING: { uint16_t h, v; /* TODO: check error */ pco_get_binning(priv->pco, &h, &v); g_value_set_uint(value, v); } break; case PROP_SENSOR_VERTICAL_BINNINGS: g_value_set_boxed(value, priv->vertical_binnings); break; case PROP_SENSOR_MAX_FRAME_RATE: g_value_set_float(value, priv->camera_description->max_frame_rate); break; case PROP_SENSOR_BITDEPTH: g_value_set_uint(value, 16); break; case PROP_SENSOR_TEMPERATURE: { guint32 ccd, camera, power; pco_get_temperature(priv->pco, &ccd, &camera, &power); g_value_set_double(value, ccd / 10.0); } break; case PROP_SENSOR_ADCS: { /* * Up to now, the ADC mode corresponds directly to the number of * ADCs in use. */ pco_adc_mode mode; pco_get_adc_mode(priv->pco, &mode); g_value_set_uint(value, mode); } break; case PROP_SENSOR_PIXELRATES: g_value_set_boxed(value, priv->pixelrates); break; case PROP_SENSOR_PIXELRATE: { guint32 pixelrate; pco_get_pixelrate(priv->pco, &pixelrate); g_value_set_uint(value, pixelrate); } break; case PROP_EXPOSURE_TIME: { uint32_t exposure_time; pco_get_exposure_time(priv->pco, &exposure_time); if (priv->exposure_timebase == TIMEBASE_INVALID) read_timebase(priv); g_value_set_double(value, convert_timebase(priv->exposure_timebase) * exposure_time); } break; case PROP_DELAY_TIME: { uint32_t delay_time; pco_get_delay_time(priv->pco, &delay_time); if (priv->delay_timebase == TIMEBASE_INVALID) read_timebase(priv); g_value_set_double(value, convert_timebase(priv->delay_timebase) * delay_time); } break; case PROP_HAS_DOUBLE_IMAGE_MODE: g_value_set_boolean(value, pco_is_double_image_mode_available(priv->pco)); break; case PROP_DOUBLE_IMAGE_MODE: if (!pco_is_double_image_mode_available(priv->pco)) g_warning("Double image mode is not available on this pco model"); else { bool on; pco_get_double_image_mode(priv->pco, &on); g_value_set_boolean(value, on); } break; case PROP_OFFSET_MODE: { bool on; pco_get_offset_mode(priv->pco, &on); g_value_set_boolean(value, on); } break; case PROP_HAS_STREAMING: g_value_set_boolean(value, TRUE); break; case PROP_HAS_CAMRAM_RECORDING: g_value_set_boolean(value, priv->camera_description->has_camram); break; case PROP_RECORD_MODE: { guint16 mode; pco_get_record_mode(priv->pco, &mode); if (mode == RECORDER_SUBMODE_SEQUENCE) g_value_set_enum(value, UCA_PCO_CAMERA_RECORD_MODE_SEQUENCE); else if (mode == RECORDER_SUBMODE_RINGBUFFER) g_value_set_enum(value, UCA_PCO_CAMERA_RECORD_MODE_RING_BUFFER); else g_warning("pco record mode not handled"); } break; case PROP_ACQUIRE_MODE: { guint16 mode; pco_get_acquire_mode(priv->pco, &mode); if (mode == ACQUIRE_MODE_AUTO) g_value_set_enum(value, UCA_PCO_CAMERA_ACQUIRE_MODE_AUTO); else if (mode == ACQUIRE_MODE_EXTERNAL) g_value_set_enum(value, UCA_PCO_CAMERA_ACQUIRE_MODE_EXTERNAL); else g_warning("pco acquire mode not handled"); } break; case PROP_TRIGGER_MODE: { guint16 mode; pco_get_trigger_mode(priv->pco, &mode); switch (mode) { case TRIGGER_MODE_AUTOTRIGGER: g_value_set_enum(value, UCA_CAMERA_TRIGGER_AUTO); break; case TRIGGER_MODE_SOFTWARETRIGGER: g_value_set_enum(value, UCA_CAMERA_TRIGGER_INTERNAL); break; case TRIGGER_MODE_EXTERNALTRIGGER: g_value_set_enum(value, UCA_CAMERA_TRIGGER_EXTERNAL); break; default: g_warning("pco trigger mode not handled"); } } break; case PROP_ROI_X: { guint16 roi[4] = {0}; pco_get_roi(priv->pco, roi); g_value_set_uint(value, roi[0]); } break; case PROP_ROI_Y: { guint16 roi[4] = {0}; pco_get_roi(priv->pco, roi); g_value_set_uint(value, roi[1]); } break; case PROP_ROI_WIDTH: { guint16 roi[4] = {0}; pco_get_roi(priv->pco, roi); g_value_set_uint(value, (roi[2] - roi[0])); } break; case PROP_ROI_HEIGHT: { guint16 roi[4] = {0}; pco_get_roi(priv->pco, roi); g_value_set_uint(value, (roi[3] - roi[1])); } break; case PROP_NAME: { gchar *name = NULL; pco_get_name(priv->pco, &name); g_value_set_string(value, name); g_free(name); } break; case PROP_COOLING_POINT: { int16_t temperature; pco_get_cooling_temperature(priv->pco, &temperature); g_value_set_int(value, temperature); } break; case PROP_NOISE_FILTER: { guint16 filter_mode; pco_get_noise_filter_mode(priv->pco, &filter_mode); g_value_set_boolean(value, filter_mode != NOISE_FILTER_MODE_OFF); } break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID(object, property_id, pspec); break; } } static void uca_pco_camera_finalize(GObject *object) { UcaPcoCameraPrivate *priv = UCA_PCO_CAMERA_GET_PRIVATE(object); if (priv->horizontal_binnings) g_value_array_free(priv->horizontal_binnings); if (priv->vertical_binnings) g_value_array_free(priv->vertical_binnings); if (priv->fg) { if (priv->fg_mem) Fg_FreeMemEx(priv->fg, priv->fg_mem); Fg_FreeGrabber(priv->fg); } if (priv->pco) pco_destroy(priv->pco); G_OBJECT_CLASS(uca_pco_camera_parent_class)->finalize(object); } static void uca_pco_camera_class_init(UcaPcoCameraClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS(klass); gobject_class->set_property = uca_pco_camera_set_property; gobject_class->get_property = uca_pco_camera_get_property; gobject_class->finalize = uca_pco_camera_finalize; UcaCameraClass *camera_class = UCA_CAMERA_CLASS(klass); camera_class->start_recording = uca_pco_camera_start_recording; camera_class->stop_recording = uca_pco_camera_stop_recording; camera_class->start_readout = uca_pco_camera_start_readout; camera_class->trigger = uca_pco_camera_trigger; camera_class->grab = uca_pco_camera_grab; for (guint i = 0; base_overrideables[i] != 0; i++) g_object_class_override_property(gobject_class, base_overrideables[i], uca_camera_props[base_overrideables[i]]); /** * UcaPcoCamera:sensor-extended: * * Activate larger sensor area that contains surrounding pixels for dark * references and dummies. Use #UcaPcoCamera:sensor-width-extended and * #UcaPcoCamera:sensor-height-extended to query the resolution of the * larger area. */ pco_properties[PROP_SENSOR_EXTENDED] = g_param_spec_boolean("sensor-extended", "Use extended sensor format", "Use extended sensor format", FALSE, G_PARAM_READWRITE); pco_properties[PROP_SENSOR_WIDTH_EXTENDED] = g_param_spec_uint("sensor-width-extended", "Width of extended sensor", "Width of the extended sensor in pixels", 1, G_MAXUINT, 1, G_PARAM_READABLE); pco_properties[PROP_SENSOR_HEIGHT_EXTENDED] = g_param_spec_uint("sensor-height-extended", "Height of extended sensor", "Height of the extended sensor in pixels", 1, G_MAXUINT, 1, G_PARAM_READABLE); /** * UcaPcoCamera:sensor-pixelrate: * * Read and write the pixel rate or clock of the sensor in terms of Hertz. * Make sure to query the possible pixel rates through the * #UcaPcoCamera:sensor-pixelrates property. Any other value will be * rejected by the camera. */ pco_properties[PROP_SENSOR_PIXELRATE] = g_param_spec_uint("sensor-pixelrate", "Pixel rate", "Pixel rate", 1, G_MAXUINT, 1, G_PARAM_READWRITE); pco_properties[PROP_SENSOR_PIXELRATES] = g_param_spec_value_array("sensor-pixelrates", "Array of possible sensor pixel rates", "Array of possible sensor pixel rates", pco_properties[PROP_SENSOR_PIXELRATE], G_PARAM_READABLE); pco_properties[PROP_NAME] = g_param_spec_string("name", "Name of the camera", "Name of the camera", "", G_PARAM_READABLE); pco_properties[PROP_SENSOR_TEMPERATURE] = g_param_spec_double("sensor-temperature", "Temperature of the sensor", "Temperature of the sensor in degree Celsius", -G_MAXDOUBLE, G_MAXDOUBLE, 0.0, G_PARAM_READABLE); pco_properties[PROP_SENSOR_ADCS] = g_param_spec_uint("sensor-adcs", "Number of ADCs to use", "Number of ADCs to use", 1, 2, 1, G_PARAM_READWRITE); pco_properties[PROP_HAS_DOUBLE_IMAGE_MODE] = g_param_spec_boolean("has-double-image-mode", "Is double image mode supported by this model", "Is double image mode supported by this model", FALSE, G_PARAM_READABLE); pco_properties[PROP_DOUBLE_IMAGE_MODE] = g_param_spec_boolean("double-image-mode", "Use double image mode", "Use double image mode", FALSE, G_PARAM_READWRITE); pco_properties[PROP_OFFSET_MODE] = g_param_spec_boolean("offset-mode", "Use offset mode", "Use offset mode", FALSE, G_PARAM_READWRITE); pco_properties[PROP_RECORD_MODE] = g_param_spec_enum("record-mode", "Record mode", "Record mode", UCA_TYPE_PCO_CAMERA_RECORD_MODE, UCA_PCO_CAMERA_RECORD_MODE_SEQUENCE, G_PARAM_READWRITE); pco_properties[PROP_ACQUIRE_MODE] = g_param_spec_enum("acquire-mode", "Acquire mode", "Acquire mode", 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", "Noise filter", FALSE, G_PARAM_READWRITE); /** * UcaPcoCamera:cooling-point: * * The value range is set arbitrarily, because we are not yet connected to * the camera and just don't know the cooling range. We override these * values in #uca_pco_camera_new(). */ pco_properties[PROP_COOLING_POINT] = g_param_spec_int("cooling-point", "Cooling point of the camera", "Cooling point of the camera", 0, 10, 5, G_PARAM_READWRITE); for (guint id = N_BASE_PROPERTIES; id < N_PROPERTIES; id++) g_object_class_install_property(gobject_class, id, pco_properties[id]); g_type_class_add_private(klass, sizeof(UcaPcoCameraPrivate)); } static void uca_pco_camera_init(UcaPcoCamera *self) { self->priv = UCA_PCO_CAMERA_GET_PRIVATE(self); self->priv->fg = NULL; self->priv->fg_mem = NULL; self->priv->pco = NULL; self->priv->horizontal_binnings = NULL; self->priv->vertical_binnings = NULL; self->priv->camera_description = NULL; self->priv->last_frame = 0; self->priv->delay_timebase = TIMEBASE_INVALID; self->priv->exposure_timebase = TIMEBASE_INVALID; }