#ifndef __UNIFIED_CAMERA_ACCESS_H
#define __UNIFIED_CAMERA_ACCESS_H
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* \file uca.h
* \brief Abstract camera model
*
* The uca_t structure represents a common interface for cameras regardless of
* their connectivity. Each camera that adheres to this model must provide an
* initialization function that probes the device and sets all function pointers
* to their respective implementation.
*/
/**
* \mainpage
*
* \section intro_sec Introduction
*
* libuca is a thin wrapper to make different cameras and their access
* interfaces (via CameraLink, PCIe, Thunderbolt …) accessible in an easy way.
* It builds support for cameras, when it can find the necessary dependencies,
* so there is no need to have camera SDKs installed when you don't own a
* camera.
*
* \section intro_quickstart Quick Start
*
* First you would create a new uca_t structure
*
* \code struct uca_t *uca = uca_init() \endcode
*
* and see if it is not NULL. If it is NULL, no camera or frame grabber was
* found. If you build with HAVE_DUMMY_CAMERA, there will always be at least the
* dummy camera available.
*
* You can then iterate through all available cameras using
*
* \code
* struct uca_camera_t *i = uca->cameras;
* while (i != NULL) {
* // do something with i
* i = i->next;
* }
* \endcode
*
* With such a uca_camera_t structure, you can set properties, retrieve
* properties or start grabbing frames. Be aware, to check bit depth and frame
* dimensions in order to allocate enough memory.
*
* \section intro_usage Adding new cameras
*
* Up to now, new cameras have to be integrated into libuca directly. Later on,
* we might provide a plugin mechanism. To add a new camera, add
* cameras/new-cam.c and cameras/new-cam.h to the source tree and change
* CMakeLists.txt to include these files. Furthermore, if this camera relies on
* external dependencies, these have to be found first via the CMake system.
*
* The new camera must export exactly one function: uca_new_camera_init() which
* checks if (given the grabber) the camera is available and sets the function
* pointers to access the camera accordingly.
*/
/* The property IDs must start with 0 and must be continuous. Whenever this
* library is released, the IDs must not change to guarantee binary compatibility! */
enum uca_property_ids {
UCA_PROP_NAME = 0,
UCA_PROP_WIDTH,
UCA_PROP_WIDTH_MIN,
UCA_PROP_WIDTH_MAX,
UCA_PROP_HEIGHT,
UCA_PROP_HEIGHT_MIN,
UCA_PROP_HEIGHT_MAX,
UCA_PROP_X_OFFSET,
UCA_PROP_X_OFFSET_MIN,
UCA_PROP_X_OFFSET_MAX,
UCA_PROP_Y_OFFSET,
UCA_PROP_Y_OFFSET_MIN,
UCA_PROP_Y_OFFSET_MAX,
UCA_PROP_BITDEPTH,
UCA_PROP_EXPOSURE,
UCA_PROP_EXPOSURE_MIN,
UCA_PROP_EXPOSURE_MAX,
UCA_PROP_DELAY,
UCA_PROP_DELAY_MIN,
UCA_PROP_DELAY_MAX,
UCA_PROP_FRAMERATE,
UCA_PROP_TEMPERATURE_SENSOR,
UCA_PROP_TEMPERATURE_CAMERA,
UCA_PROP_TRIGGER_MODE,
UCA_PROP_TRIGGER_EXPOSURE,
UCA_PROP_PGA_GAIN,
UCA_PROP_PGA_GAIN_MIN,
UCA_PROP_PGA_GAIN_MAX,
UCA_PROP_PGA_GAIN_STEPS,
UCA_PROP_ADC_GAIN,
UCA_PROP_ADC_GAIN_MIN,
UCA_PROP_ADC_GAIN_MAX,
UCA_PROP_ADC_GAIN_STEPS,
/* grabber specific */
UCA_PROP_GRAB_TIMEOUT,
UCA_PROP_GRAB_SYNCHRONOUS,
/* pco.edge specific */
UCA_PROP_TIMESTAMP_MODE,
UCA_PROP_SCAN_MODE,
/* IPE camera specific */
UCA_PROP_INTERLACE_SAMPLE_RATE,
UCA_PROP_INTERLACE_PIXEL_THRESH,
UCA_PROP_INTERLACE_ROW_THRESH,
/* Photon Focus specific */
UCA_PROP_CORRECTION_MODE,
UCA_PROP_LAST
};
/* Possible timestamp modes for UCA_PROP_TIMESTAMP_MODE */
#define UCA_TIMESTAMP_ASCII 0x01
#define UCA_TIMESTAMP_BINARY 0x02
/* Trigger mode for UCA_PROP_TRIGGER_MODE */
#define UCA_TRIGGER_AUTO 1 /**< free-run mode */
#define UCA_TRIGGER_SOFTWARE 2
#define UCA_TRIGGER_EXTERNAL 3
#define UCA_TRIGGER_EXP_CAMERA 1 /**< camera-controlled exposure time */
#define UCA_TRIGGER_EXP_LEVEL 2 /**< level-controlled (trigger signal) exposure time */
/* Correction modes for UCA_PROP_CORRECTION_MODE */
#define UCA_CORRECT_OFFSET 0x01
#define UCA_CORRECT_HOTPIXEL 0x02
#define UCA_CORRECT_GAIN 0x04
/**
* The physical unit of this property.
*
* This is important in order to let the camera drivers know, how to convert
* the values into their respective target value. It is also used for human
* interfaces.
*/
enum uca_unit {
uca_pixel, /**< number of pixels */
uca_bits, /**< number of bits */
uca_ns, /**< nanoseconds */
uca_us, /**< microseconds */
uca_ms, /**< milliseconds */
uca_s, /**< seconds */
uca_rows, /**< number of rows */
uca_fps, /**< frames per second */
uca_dc, /**< degree celsius */
uca_bool, /**< 1 or 0 for true and false */
uca_na /**< no unit available (for example modes) */
};
/**
* The data type of this property.
*
* When using uca_cam_set_property() and uca_cam_get_property() this field
* must be respected and correct data transfered, as the values are
* interpreted like defined here.
*/
enum uca_types {
uca_uint32t,
uca_uint8t,
uca_string
};
/**
* Access rights determine if uca_cam_get_property() and/or
* uca_cam_set_property() can be used with this property.
*/
enum uca_access_rights {
uca_read = 0x01, /**< property can be read */
uca_write = 0x02, /**< property can be written */
uca_readwrite = 0x01 | 0x02 /**< property can be read and written */
};
/**
* A uca_property_t describes a vendor-independent property used by cameras and
* frame grabbers. It basically consists of a human-readable name, a physical
* unit, a type and some access rights.
*/
typedef struct uca_property {
/**
* A human-readable string for this property.
*
* A name is defined in a tree-like structure, to build some form of
* hierarchical namespace. To define a parent-child-relationship a dot '.'
* is used. For example "image.width.min" might be the name for the minimal
* acceptable frame width.
*/
const char *name;
enum uca_unit unit;
enum uca_access_rights access;
enum uca_types type;
} uca_property_t;
union uca_value {
uint32_t u32;
uint8_t u8;
char *string;
};
extern const char *uca_unit_map[]; /**< maps unit numbers to corresponding strings */
/**
* An error code is a 32 bit integer with the following format (x:y means x bits
* for purpose y):
*
* [ 31 (MSB) ... ... 0 (LSB) ]
* [ 4:lvl | 4:rsv | 4:class | 4:source | 16:code ]
*
* where
*
* - lvl describes severity such as warning or failure,
* - rsv is reserved,
* - class describes the general class of the error,
* - source describes where the error occured and
* - code is the actual error condition
*
* UCA_ERR_MASK_*s can be used to mask the desired field of the error code.
*
*/
#define UCA_NO_ERROR 0x00000000
#define UCA_ERR_MASK_CODE 0xF000FFFF
#define UCA_ERR_MASK_SOURCE 0x000F0000
#define UCA_ERR_MASK_TYPE 0x00F00000
#define UCA_ERR_MASK_RESRV 0x0F000000
#define UCA_ERR_MASK_LEVEL 0xF0000000
#define UCA_ERR_GRABBER 0x00010000
#define UCA_ERR_CAMERA 0x00020000
#define UCA_ERR_INIT 0x00100000 /**< error during initialization */
#define UCA_ERR_PROP 0x00200000 /**< error while setting/getting property */
#define UCA_ERR_CALLBACK 0x00300000 /**< callback-related errors */
#define UCA_ERR_FAILURE 0x10000000
#define UCA_ERR_WARNING 0x20000000
#define UCA_ERR_UNCLASSIFIED 0x10000001
#define UCA_ERR_NOT_FOUND 0x10000002
#define UCA_ERR_INVALID 0x10000003
#define UCA_ERR_NO_MEMORY 0x10000004
#define UCA_ERR_OUT_OF_RANGE 0x10000005
#define UCA_ERR_ACQUIRE 0x10000006
#define UCA_ERR_IS_RECORDING 0x10000007 /**< error because device is recording */
#define UCA_ERR_FRAME_TRANSFER 0x10000008
#define UCA_ERR_ALREADY_REGISTERED 0x10000009
/**
* Keeps a list of cameras and grabbers.
*/
typedef struct uca {
struct uca_camera *cameras;
/* private */
struct uca_grabber *grabbers;
} uca_t;
/**
* Initialize the unified camera access interface.
*
* \param[in] config_filename Configuration file in JSON format for cameras
* relying on external calibration data. It is ignored when no JSON parser can
* be found at compile time or config_filename is NULL.
*
* \return Pointer to a uca structure
*
* \note uca_init() is thread-safe if a Pthread-implementation is available.
*/
struct uca *uca_init(const char *config_filename);
/**
* Free resources of the unified camera access interface
*
* \note uca_destroy() is thread-safe if a Pthread-implementation is available.
*/
void uca_destroy(struct uca *u);
/**
* Convert a property string to the corresponding ID
*/
uint32_t uca_get_property_id(const char *property_name, enum uca_property_ids *prop_id);
/**
* Convert a property ID to the corresponding string
*/
const char* uca_get_property_name(enum uca_property_ids property_id);
/**
* Return the full property structure for a given ID
*/
uca_property_t *uca_get_full_property(enum uca_property_ids property_id);
#define uca_set_void(p, type, value) { *((type *) p) = (type) value; }
#ifdef __cplusplus
}
#endif
#endif