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#include <stdlib.h>
#include <string.h>
#include <libpco/libpco.h>
#include "uca.h"
#include "uca-cam.h"
#include "uca-grabber.h"
#include "pco.h"
typedef struct pco_desc {
struct pco_edge *pco;
uint16_t roi[4];
} pco_desc_t;
#define GET_PCO_DESC(cam) ((struct pco_desc *) cam->user)
#define GET_PCO(cam) (((struct pco_desc *)(cam->user))->pco)
#define uca_set_void(p, type, value) { *((type *) p) = (type) value; }
static uint32_t uca_pco_set_exposure(struct uca_camera_priv *cam, uint32_t *exposure)
{
uint32_t err = UCA_ERR_CAMERA | UCA_ERR_PROP;
uint32_t e, d;
if (pco_get_delay_exposure(GET_PCO(cam), &d, &e) != PCO_NOERROR)
return err | UCA_ERR_INVALID;
if (pco_set_delay_exposure(GET_PCO(cam), d, *exposure) != PCO_NOERROR)
return err | UCA_ERR_INVALID;
return UCA_NO_ERROR;
}
static uint32_t uca_pco_set_delay(struct uca_camera_priv *cam, uint32_t *delay)
{
uint32_t err = UCA_ERR_CAMERA | UCA_ERR_PROP;
uint32_t e, d;
if (pco_get_delay_exposure(GET_PCO(cam), &d, &e) != PCO_NOERROR)
return err | UCA_ERR_INVALID;
if (pco_set_delay_exposure(GET_PCO(cam), *delay, e) != PCO_NOERROR)
return err | UCA_ERR_INVALID;
return UCA_NO_ERROR;
}
static uint32_t uca_pco_destroy(struct uca_camera_priv *cam)
{
pco_set_rec_state(GET_PCO(cam), 0);
pco_destroy(GET_PCO(cam));
free(GET_PCO_DESC(cam));
return UCA_NO_ERROR;
}
static uint32_t uca_pco_set_property(struct uca_camera_priv *cam, enum uca_property_ids property, void *data)
{
struct uca_grabber_priv *grabber = cam->grabber;
struct pco_desc *pco_d = GET_PCO_DESC(cam);
uint32_t err = UCA_ERR_CAMERA | UCA_ERR_PROP;
/* We try to set the property on the grabber. If it returns "invalid", we
* also try it via the libpco. Else, there was a more serious error. */
err = grabber->set_property(grabber, property, data);
if (((err & UCA_ERR_MASK_CODE) == UCA_ERR_INVALID) || (err == UCA_NO_ERROR))
err = UCA_ERR_CAMERA | UCA_ERR_PROP;
else
return err;
switch (property) {
case UCA_PROP_WIDTH:
cam->frame_width = *((uint32_t *) data);
pco_d->roi[2] = cam->frame_width;
if (pco_set_roi(pco_d->pco, pco_d->roi) != PCO_NOERROR)
return err | UCA_ERR_OUT_OF_RANGE;
/* Twice the width because of 16 bits per pixel */
uint32_t w = cam->frame_width * 2;
grabber->set_property(grabber, UCA_PROP_WIDTH, &w);
break;
case UCA_PROP_HEIGHT:
cam->frame_height = *((uint32_t *) data);
pco_d->roi[3] = cam->frame_height;
if (pco_set_roi(pco_d->pco, pco_d->roi) == PCO_NOERROR)
return err | UCA_ERR_OUT_OF_RANGE;
break;
case UCA_PROP_EXPOSURE:
return uca_pco_set_exposure(cam, (uint32_t *) data);
case UCA_PROP_DELAY:
return uca_pco_set_delay(cam, (uint32_t *) data);
case UCA_PROP_TIMESTAMP_MODE:
return pco_set_timestamp_mode(GET_PCO(cam), *((uint16_t *) data));
default:
return err | UCA_ERR_INVALID;
}
return UCA_NO_ERROR;
}
static uint32_t uca_pco_get_property(struct uca_camera_priv *cam, enum uca_property_ids property, void *data, size_t num)
{
struct pco_edge *pco = GET_PCO(cam);
struct uca_grabber_priv *grabber = cam->grabber;
switch (property) {
case UCA_PROP_NAME:
{
SC2_Camera_Name_Response name;
/* FIXME: This is _not_ a mistake. For some reason (which I
* still have to figure out), it is sometimes not possible to
* read the camera name... unless the same call precedes that
* one.*/
pco_read_property(pco, GET_CAMERA_NAME, &name, sizeof(name));
pco_read_property(pco, GET_CAMERA_NAME, &name, sizeof(name));
strncpy((char *) data, name.szName, num);
}
break;
case UCA_PROP_TEMPERATURE_SENSOR:
{
SC2_Temperature_Response temperature;
if (pco_read_property(pco, GET_TEMPERATURE, &temperature, sizeof(temperature)) == PCO_NOERROR)
uca_set_void(data, uint32_t, temperature.sCCDtemp / 10);
}
break;
case UCA_PROP_TEMPERATURE_CAMERA:
{
SC2_Temperature_Response temperature;
if (pco_read_property(pco, GET_TEMPERATURE, &temperature, sizeof(temperature)) == PCO_NOERROR)
uca_set_void(data, uint32_t, temperature.sCamtemp);
}
break;
case UCA_PROP_WIDTH:
uca_set_void(data, uint32_t, cam->frame_width);
break;
case UCA_PROP_WIDTH_MIN:
uca_set_void(data, uint32_t, 1);
break;
case UCA_PROP_WIDTH_MAX:
uca_set_void(data, uint32_t, pco->description.wMaxHorzResStdDESC);
break;
case UCA_PROP_HEIGHT:
uca_set_void(data, uint32_t, cam->frame_height);
break;
case UCA_PROP_HEIGHT_MIN:
uca_set_void(data, uint32_t, 1);
break;
case UCA_PROP_HEIGHT_MAX:
uca_set_void(data, uint32_t, pco->description.wMaxVertResStdDESC);
break;
case UCA_PROP_X_OFFSET:
return grabber->get_property(grabber, UCA_PROP_X_OFFSET, (uint32_t *) data);
case UCA_PROP_Y_OFFSET:
return grabber->get_property(grabber, UCA_PROP_Y_OFFSET, (uint32_t *) data);
case UCA_PROP_DELAY:
{
uint32_t exposure;
pco_get_delay_exposure(pco, (uint32_t *) data, &exposure);
}
break;
case UCA_PROP_DELAY_MIN:
{
uint32_t delay = pco->description.dwMinDelayDESC / 1000;
uca_set_void(data, uint32_t, delay);
}
break;
case UCA_PROP_DELAY_MAX:
{
uint32_t delay = pco->description.dwMaxDelayDESC * 1000;
uca_set_void(data, uint32_t, delay);
}
break;
case UCA_PROP_EXPOSURE:
{
uint32_t delay;
pco_get_delay_exposure(pco, &delay, (uint32_t *) data);
}
break;
case UCA_PROP_EXPOSURE_MIN:
{
uint32_t exposure = pco->description.dwMinExposureDESC / 1000;
uca_set_void(data, uint32_t, exposure);
}
break;
case UCA_PROP_EXPOSURE_MAX:
{
uint32_t exposure = pco->description.dwMaxExposureDESC * 1000;
uca_set_void(data, uint32_t, exposure);
}
break;
case UCA_PROP_BITDEPTH:
uca_set_void(data, uint32_t, 16);
break;
case UCA_PROP_GRAB_TIMEOUT:
{
uint32_t timeout;
uint32_t err = cam->grabber->get_property(cam->grabber, UCA_PROP_GRAB_TIMEOUT, &timeout);
if (err != UCA_NO_ERROR)
return err;
uca_set_void(data, uint32_t, timeout);
}
break;
default:
return UCA_ERR_CAMERA | UCA_ERR_PROP | UCA_ERR_INVALID;
}
return UCA_NO_ERROR;
}
static uint32_t uca_pco_start_recording(struct uca_camera_priv *cam)
{
uint32_t err = UCA_ERR_CAMERA | UCA_ERR_INIT;
struct pco_edge *pco = GET_PCO(cam);
if (pco_arm_camera(pco) != PCO_NOERROR)
return err | UCA_ERR_UNCLASSIFIED;
if (pco_set_rec_state(pco, 1) != PCO_NOERROR)
return err | UCA_ERR_UNCLASSIFIED;
return cam->grabber->acquire(cam->grabber, -1);
}
static uint32_t uca_pco_stop_recording(struct uca_camera_priv *cam)
{
if (pco_set_rec_state(GET_PCO(cam), 0) != PCO_NOERROR)
return UCA_ERR_CAMERA | UCA_ERR_INIT | UCA_ERR_UNCLASSIFIED;
return UCA_NO_ERROR;
}
static uint32_t uca_pco_trigger(struct uca_camera_priv *cam)
{
return cam->grabber->trigger(cam->grabber);
}
static uint32_t uca_pco_grab(struct uca_camera_priv *cam, char *buffer, void *meta_data)
{
uint16_t *frame;
uint32_t err = cam->grabber->grab(cam->grabber, (void **) &frame, &cam->current_frame);
if (err != UCA_NO_ERROR)
return err;
GET_PCO(cam)->reorder_image((uint16_t *) buffer, frame, cam->frame_width, cam->frame_height);
return UCA_NO_ERROR;
}
static uint32_t uca_pco_register_callback(struct uca_camera_priv *cam, uca_cam_grab_callback callback, void *user)
{
if (cam->callback == NULL) {
cam->callback = callback;
cam->callback_user = user;
return cam->grabber->register_callback(cam->grabber, callback, NULL, user);
}
return UCA_ERR_CAMERA | UCA_ERR_CALLBACK | UCA_ERR_ALREADY_REGISTERED;
}
uint32_t uca_pco_init(struct uca_camera_priv **cam, struct uca_grabber_priv *grabber)
{
uint32_t err = UCA_ERR_CAMERA | UCA_ERR_INIT;
if (grabber == NULL)
return err | UCA_ERR_NOT_FOUND;
struct pco_edge *pco = pco_init();
if (pco == NULL)
return err | UCA_ERR_NOT_FOUND;
if ((pco->serial_ref == NULL) || !pco_is_active(pco)) {
pco_destroy(pco);
return err | UCA_ERR_NOT_FOUND;
}
struct uca_camera_priv *uca = uca_cam_new();
uca->grabber = grabber;
uca->grabber->synchronous = false;
/* Camera found, set function pointers... */
uca->destroy = &uca_pco_destroy;
uca->set_property = &uca_pco_set_property;
uca->get_property = &uca_pco_get_property;
uca->start_recording = &uca_pco_start_recording;
uca->stop_recording = &uca_pco_stop_recording;
uca->trigger = &uca_pco_trigger;
uca->grab = &uca_pco_grab;
uca->register_callback = &uca_pco_register_callback;
/* Prepare camera for recording */
pco_set_scan_mode(pco, PCO_SCANMODE_SLOW);
pco_set_rec_state(pco, 0);
pco_set_timestamp_mode(pco, UCA_TIMESTAMP_ASCII);
pco_set_timebase(pco, 1, 1);
pco_arm_camera(pco);
/* Prepare frame grabber for recording */
int val = UCA_CL_8BIT_FULL_10;
grabber->set_property(grabber, UCA_GRABBER_CAMERALINK_TYPE, &val);
val = UCA_FORMAT_GRAY8;
grabber->set_property(grabber, UCA_GRABBER_FORMAT, &val);
val = UCA_TRIGGER_AUTO;
grabber->set_property(grabber, UCA_GRABBER_TRIGGER_MODE, &val);
uint32_t width, height;
pco_get_actual_size(pco, &width, &height);
uca->frame_width = width;
uca->frame_height = height;
struct pco_desc *pco_d = (struct pco_desc *) malloc(sizeof(struct pco_desc));
uca->user = pco_d;
pco_d->pco = pco;
pco_d->roi[0] = pco_d->roi[1] = 1;
pco_d->roi[2] = width;
pco_d->roi[3] = height;
/* Yes, we really have to take an image twice as large because we set the
* CameraLink interface to 8-bit 10 Taps, but are actually using 5x16 bits. */
width *= 2;
grabber->set_property(grabber, UCA_PROP_WIDTH, &width);
grabber->set_property(grabber, UCA_PROP_HEIGHT, &height);
uca->state = UCA_CAM_CONFIGURABLE;
*cam = uca;
return UCA_NO_ERROR;
}
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