#include #include #include #include #include "uca.h" #include "uca-cam.h" #include "uca-grabber.h" /* TODO: REMOVE THIS ASAP */ #define FG_WIDTH 100 #define FG_HEIGHT 200 #define FG_MAXWIDTH 6100 #define FG_MAXHEIGHT 6200 #define FG_ACTIVEPORT 6300 #define FG_XOFFSET 300 #define FG_YOFFSET 400 #define FG_FORMAT 700 #define FG_GRAY 3 #define FG_CAMERA_LINK_CAMTYP 11011 #define FG_CL_8BIT_FULL_8 308 #define FG_TRIGGERMODE 8100 #define FG_EXPOSURE 10020 /**< Exposure Time in us (Brigthness) (float) */ #define set_void(p, type, value) { *((type *) p) = value; } struct uca_pf_map { enum uca_property_ids uca_prop; const char *pf_prop; }; static struct uca_pf_map uca_to_pf[] = { { UCA_PROP_NAME, "CameraName" }, { UCA_PROP_WIDTH, "Window.W" }, { UCA_PROP_WIDTH_MIN, "Window.W.Min" }, { UCA_PROP_WIDTH_MAX, "Window.W.Max" }, { UCA_PROP_HEIGHT, "Window.H" }, { UCA_PROP_HEIGHT_MIN, "Window.H.Min" }, { UCA_PROP_HEIGHT_MAX, "Window.H.Max" }, { UCA_PROP_X_OFFSET, "Window.X" }, { UCA_PROP_X_OFFSET_MIN,"Window.X.Min" }, { UCA_PROP_X_OFFSET_MAX,"Window.X.Max" }, { UCA_PROP_Y_OFFSET, "Window.Y" }, { UCA_PROP_Y_OFFSET_MIN,"Window.Y.Min" }, { UCA_PROP_Y_OFFSET_MAX,"Window.Y.Max" }, { UCA_PROP_EXPOSURE, "ExposureTime" }, { UCA_PROP_EXPOSURE_MIN, "ExposureTime.Min" }, { UCA_PROP_EXPOSURE_MAX, "ExposureTime.Max" }, { UCA_PROP_FRAMERATE, "FrameRate" }, { -1, NULL } }; static uint32_t uca_pf_set_bitdepth(struct uca_camera_t *cam, uint8_t *bitdepth) { /* TODO: it's not possible via CameraLink so do it via frame grabber */ return 0; } static uint32_t uca_pf_acquire_image(struct uca_camera_t *cam, void *buffer) { return UCA_NO_ERROR; } static uint32_t uca_pf_set_property(struct uca_camera_t *cam, enum uca_property_ids property, void *data) { struct uca_grabber_t *grabber = cam->grabber; TOKEN t = INVALID_TOKEN; int i = 0; while (uca_to_pf[i].uca_prop != -1) { if (uca_to_pf[i].uca_prop == property) t = pfProperty_ParseName(0, uca_to_pf[i].pf_prop); i++; } if (t == INVALID_TOKEN) return UCA_ERR_PROP_INVALID; PFValue value; switch (property) { case UCA_PROP_WIDTH: if (grabber->set_property(grabber, FG_WIDTH, (uint32_t *) data) != UCA_NO_ERROR) return UCA_ERR_PROP_VALUE_OUT_OF_RANGE; value.value.i = *((uint32_t *) data); if (pfDevice_SetProperty(0, t, &value) < 0) return UCA_ERR_PROP_VALUE_OUT_OF_RANGE; cam->frame_width = value.value.i; break; case UCA_PROP_HEIGHT: if (grabber->set_property(grabber, FG_HEIGHT, (uint32_t *) data) != UCA_NO_ERROR) return UCA_ERR_PROP_VALUE_OUT_OF_RANGE; value.value.i = *((uint32_t *) data); if (pfDevice_SetProperty(0, t, &value) < 0) return UCA_ERR_PROP_VALUE_OUT_OF_RANGE; cam->frame_height = *((uint32_t *) data); break; case UCA_PROP_X_OFFSET: if (grabber->set_property(grabber, FG_XOFFSET, (uint32_t *) data) != UCA_NO_ERROR) return UCA_ERR_PROP_VALUE_OUT_OF_RANGE; break; case UCA_PROP_Y_OFFSET: if (grabber->set_property(grabber, FG_YOFFSET, (uint32_t *) data) != UCA_NO_ERROR) return UCA_ERR_PROP_VALUE_OUT_OF_RANGE; break; case UCA_PROP_EXPOSURE: if (grabber->set_property(grabber, FG_EXPOSURE, (uint32_t *) data) != UCA_NO_ERROR) return UCA_ERR_PROP_VALUE_OUT_OF_RANGE; value.value.f = (float) *((uint32_t *) data); if (pfDevice_SetProperty(0, t, &value) < 0) return UCA_ERR_PROP_VALUE_OUT_OF_RANGE; break; default: return UCA_ERR_PROP_INVALID; } return UCA_NO_ERROR; } static uint32_t uca_pf_get_property(struct uca_camera_t *cam, enum uca_property_ids property, void *data) { struct uca_grabber_t *grabber = cam->grabber; TOKEN t; /* You gotta love developers who name types capitalized... */ PFValue value; int i = 0; while (uca_to_pf[i].uca_prop != -1) { if (uca_to_pf[i].uca_prop == property) { t = pfProperty_ParseName(0, uca_to_pf[i].pf_prop); if (t == INVALID_TOKEN || (pfDevice_GetProperty(0, t, &value) < 0)) return UCA_ERR_PROP_INVALID; switch (value.type) { case PF_INT: set_void(data, uint32_t, value.value.i); break; case PF_FLOAT: set_void(data, uint32_t, (uint32_t) floor(value.value.f+0.5)); break; case PF_STRING: if (property == UCA_PROP_FRAMERATE) { set_void(data, uint32_t, (uint32_t) floor(atof(value.value.p)+0.5)); } else { strcpy((char *) data, value.value.p); } break; } return UCA_NO_ERROR; } i++; } switch (property) { case UCA_PROP_BITDEPTH: set_void(data, uint8_t, 8); break; default: return UCA_ERR_PROP_INVALID; } return UCA_NO_ERROR; } uint32_t uca_pf_start_recording(struct uca_camera_t *cam) { return cam->grabber->acquire(cam->grabber, -1); } uint32_t uca_pf_stop_recording(struct uca_camera_t *cam) { return UCA_NO_ERROR; } uint32_t uca_pf_grab(struct uca_camera_t *cam, char *buffer) { uint16_t *frame; uint32_t err = cam->grabber->grab(cam->grabber, (void **) &frame); if (err != UCA_NO_ERROR) return err; /* FIXME: choose according to data format */ memcpy(buffer, frame, cam->frame_width*cam->frame_height); return UCA_NO_ERROR; } static uint32_t uca_pf_destroy(struct uca_camera_t *cam) { pfDeviceClose(0); return UCA_NO_ERROR; } uint32_t uca_pf_init(struct uca_camera_t **cam, struct uca_grabber_t *grabber) { int num_ports; if (pfPortInit(&num_ports) < 0) return UCA_ERR_CAM_NOT_FOUND; if (pfDeviceOpen(0) < 0) return UCA_ERR_CAM_NOT_FOUND; /* We could check if a higher baud rate is supported, but... forget about * it. We don't need high speed configuration. */ struct uca_camera_t *uca = (struct uca_camera_t *) malloc(sizeof(struct uca_camera_t)); uca->grabber = grabber; uca->grabber->asynchronous = false; /* Camera found, set function pointers... */ uca->destroy = &uca_pf_destroy; uca->set_property = &uca_pf_set_property; uca->get_property = &uca_pf_get_property; uca->start_recording = &uca_pf_start_recording; uca->stop_recording = &uca_pf_stop_recording; uca->grab = &uca_pf_grab; /* Prepare frame grabber for recording */ int val = FG_CL_8BIT_FULL_8; grabber->set_property(grabber, FG_CAMERA_LINK_CAMTYP, &val); val = FG_GRAY; grabber->set_property(grabber, FG_FORMAT, &val); val = 0; grabber->set_property(grabber, FG_TRIGGERMODE, &val); uca_pf_get_property(uca, UCA_PROP_WIDTH, &uca->frame_width); uca_pf_get_property(uca, UCA_PROP_HEIGHT, &uca->frame_height); grabber->set_property(grabber, FG_WIDTH, &uca->frame_width); grabber->set_property(grabber, FG_HEIGHT, &uca->frame_height); uca->state = UCA_CAM_CONFIGURABLE; *cam = uca; return UCA_NO_ERROR; }