diff options
Diffstat (limited to 'include/qhy/qhyccd.h')
-rw-r--r-- | include/qhy/qhyccd.h | 851 |
1 files changed, 790 insertions, 61 deletions
diff --git a/include/qhy/qhyccd.h b/include/qhy/qhyccd.h index 8f709e1..c14044b 100644 --- a/include/qhy/qhyccd.h +++ b/include/qhy/qhyccd.h @@ -1,139 +1,868 @@ -/*
- QHYCCD SDK
-
- Copyright (c) 2014 QHYCCD.
- All Rights Reserved.
-
- This program is free software; you can redistribute it and/or modify it
- under the terms of the GNU General Public License as published by the Free
- Software Foundation; either version 2 of the License, or (at your option)
- any later version.
-
- This program 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 General Public License for
- more details.
-
- You should have received a copy of the GNU General Public License along with
- this program; if not, write to the Free Software Foundation, Inc., 59
- Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-
- The full GNU General Public License is included in this distribution in the
- file called LICENSE.
- */
-#ifndef _QHYCCD_H_
-#define _QHYCCD_H_
-#include "qhycam.h"
#include "qhyccderr.h"
#include "qhyccdcamdef.h"
#include "qhyccdstruct.h"
#include "stdint.h"
-#include "qhydevice.h"
+#include "config.h"
+#include <functional>
+
+
+
-#ifdef WIN32
+
+#if defined (_WIN32)
#include "cyapi.h"
-typedef CCyUSBDevice qhyccd_handle;
-#else // Linux & Mac
-typedef struct libusb_device_handle qhyccd_handle;
-uint32_t DeviceIsQHYCCD(uint32_t index, qhyccd_device *pDevice);
-EXPORTC void STDCALL MutexInit();
-EXPORTC void STDCALL MutexDestroy();
-EXPORTC void STDCALL MutexLock();
-EXPORTC void STDCALL MutexUnlock();
-EXPORTC int STDCALL MutexTrylock();
-#endif // WIN32
-
-class QHYBASE;
-class QhyDevice;
-
-uint32_t DeviceIsQHYCCD(uint32_t index, uint32_t vid, uint32_t pid);
-uint32_t QHYCCDSeriesMatch(uint32_t index, qhyccd_handle *pHandle);
-uint32_t GetIdFromCam(qhyccd_handle *pHandle, char *id);
-
-EXPORTC QhyDevice* STDCALL GetCyDevBasedOnInstance(QHYBASE *pCam);
-EXPORTC QhyDevice* STDCALL GetCyDevBasedOnHandle(qhyccd_handle *pHandle);
-EXPORTC int GetCyDevIdxBasedOnInstance(QHYBASE *pCam);
-EXPORTC int GetCyDevIdxBasedOnHandle(qhyccd_handle *pHandle);
-EXPORTC uint32_t STDCALL GetReceivedRawDataLen(QHYBASE *pCam);
-EXPORTC bool STDCALL SetReceivedRawDataLen(QHYBASE *pCam, uint32_t value);
-EXPORTC bool STDCALL CleanUnlockImageQueue(QHYBASE *pCam);
-//EXPORTC bool STDCALL SetUnlockImageQueue(QHYBASE *pCam);
-EXPORTC uint32_t STDCALL InitQHYCCDClass(uint32_t camtype, uint32_t index);
+#endif
+
+#ifndef __QHYCCD_H__
+#define __QHYCCD_H__
+
+typedef void qhyccd_handle;
+
+
+EXPORTFUNC void STDCALL SetQHYCCDAutoDetectCamera(bool enable);
+
+EXPORTC void STDCALL SetQHYCCDLogLevel(uint8_t logLevel);
+
+#if defined(__linux__ )&&!defined (__ANDROID__)
+
+EXPORTC void STDCALL SetQHYCCDLogFunction(std::function<void(const std::string &message)> logFunction);
+EXPORTC void STDCALL SetQHYCCDBufferNumber(uint32_t BufNumber);
+
+#endif
+
+EXPORTC void STDCALL EnableQHYCCDMessage(bool enable);
+EXPORTC void STDCALL EnableQHYCCDLogFile(bool enable);
+
+EXPORTC uint32_t STDCALL SetQHYCCDSingleFrameTimeOut(qhyccd_handle *h,uint32_t time);
+
+
+EXPORTC const char* STDCALL GetTimeStamp();
+
+/** \fn uint32_t InitQHYCCDResource()
+ \brief initialize QHYCCD SDK resource
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ QHYCCD_ERROR_INITRESOURCE if the initialize failed \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL InitQHYCCDResource(void);
+
+/** \fn uint32_t ReleaseQHYCCDResource()
+ \brief release QHYCCD SDK resource
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ QHYCCD_ERROR_RELEASERESOURCE if the release failed \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL ReleaseQHYCCDResource(void);
+
+/** \fn uint32_t ScanQHYCCD()
+ \brief scan the connected cameras
+ \return
+ on success,return the number of connected cameras \n
+ QHYCCD_ERROR_NO_DEVICE,if no camera connect to computer
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL ScanQHYCCD(void);
-EXPORTC uint32_t STDCALL GetQHYCCDId(int index, char *id);
+
+/** \fn uint32_t GetQHYCCDId(uint32_t index,char *id)
+ \brief get the id from camera
+ \param index sequence number of the connected cameras
+ \param id the id for camera,each camera has only id
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
+EXPORTC uint32_t STDCALL GetQHYCCDId(uint32_t index,char *id);
+
+/** \fn uint32_t GetQHYCCDModel(char *id, char *model)
+ \brief get camera model name by id
+ \param id the id of the camera
+ \param model the camera model
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code in failure
+ */
EXPORTC uint32_t STDCALL GetQHYCCDModel(char *id, char *model);
+
+/** \fn qhyccd_handle *OpenQHYCCD(char *id)
+ \brief open camera by camera id
+ \param id the id for camera,each camera has only id
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC qhyccd_handle * STDCALL OpenQHYCCD(char *id);
+
+/** \fn uint32_t CloseQHYCCD(qhyccd_handle *handle)
+ \brief close camera by handle
+ \param handle camera handle
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL CloseQHYCCD(qhyccd_handle *handle);
+
+/**
+ @fn uint32_t SetQHYCCDStreamMode(qhyccd_handle *handle,uint8_t mode)
+ @brief Set the camera's mode to chose the way reading data from camera
+ @param handle camera control handle
+ @param mode the stream mode \n
+ 0x00:default mode,single frame mode \n
+ 0x01:live mode \n
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL SetQHYCCDStreamMode(qhyccd_handle *handle,uint8_t mode);
+
+/** \fn uint32_t InitQHYCCD(qhyccd_handle *handle)
+ \brief initialization specified camera by camera handle
+ \param handle camera control handle
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ on failed,return QHYCCD_ERROR_INITCAMERA \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL InitQHYCCD(qhyccd_handle *handle);
+
+/** @fn uint32_t IsQHYCCDControlAvailable(qhyccd_handle *handle,CONTROL_ID controlId)
+ @brief check the camera has the queried function or not
+ @param handle camera control handle
+ @param controlId function type
+ @return
+ on have,return QHYCCD_SUCCESS \n
+ on do not have,return QHYCCD_ERROR_NOTSUPPORT \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL IsQHYCCDControlAvailable(qhyccd_handle *handle,CONTROL_ID controlId);
+
+/** \fn uint32_t SetQHYCCDParam(qhyccd_handle *handle,CONTROL_ID controlId,double value)
+ \brief set params to camera
+ \param handle camera control handle
+ \param controlId function type
+ \param value value to camera
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ QHYCCD_ERROR_NOTSUPPORT,if the camera do not have the function \n
+ QHYCCD_ERROR_SETPARAMS,if set params to camera failed \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL SetQHYCCDParam(qhyccd_handle *handle,CONTROL_ID controlId, double value);
+
+/** \fn double GetQHYCCDParam(qhyccd_handle *handle,CONTROL_ID controlId)
+ \brief get the params value from camera
+ \param handle camera control handle
+ \param controlId function type
+ \return
+ on success,return the value\n
+ QHYCCD_ERROR_NOTSUPPORT,if the camera do not have the function \n
+ QHYCCD_ERROR_GETPARAMS,if get camera params'value failed \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC double STDCALL GetQHYCCDParam(qhyccd_handle *handle,CONTROL_ID controlId);
+
+/** \fn uint32_t GetQHYCCDParamMinMaxStep(qhyccd_handle *handle,CONTROL_ID controlId,double *min,double *max,double *step)
+ \brief get the params value from camera
+ \param handle camera control handle
+ \param controlId function type
+ \param *min the pointer to the function's min value
+ \param *max the pointer to the function's max value
+ \param *step the pointer to the function's single step value
+ \return
+ on success,return QHYCCD_SUCCESS\n
+ QHYCCD_ERROR_NOTSUPPORT,if the camera do not have the function \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDParamMinMaxStep(qhyccd_handle *handle,CONTROL_ID controlId,double *min,double *max,double *step);
+
+/** @fn uint32_t SetQHYCCDResolution(qhyccd_handle *handle,uint32_t x,uint32_t y,uint32_t xsize,uint32_t ysize)
+ @brief set camera ouput resolution
+ @param handle camera control handle
+ @param x the top left position x
+ @param y the top left position y
+ @param xsize the image width
+ @param ysize the image height
+ @return
+ on success,return QHYCCD_SUCCESS\n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL SetQHYCCDResolution(qhyccd_handle *handle,uint32_t x,uint32_t y,uint32_t xsize,uint32_t ysize);
+
+/** \fn uint32_t GetQHYCCDMemLength(qhyccd_handle *handle)
+ \brief get the minimum memory space for image data to save(byte)
+ \param handle camera control handle
+ \return
+ on success,return the total memory space for image data(byte) \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDMemLength(qhyccd_handle *handle);
+
+/** \fn uint32_t ExpQHYCCDSingleFrame(qhyccd_handle *handle)
+ \brief start to expose one frame
+ \param handle camera control handle
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ QHYCCD_ERROR_EXPOSING,if the camera is exposing \n
+ QHYCCD_ERROR_EXPFAILED,if start failed \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL ExpQHYCCDSingleFrame(qhyccd_handle *handle);
+
+/**
+ @fn uint32_t GetQHYCCDSingleFrame(qhyccd_handle *handle,uint32_t *w,uint32_t *h,uint32_t *bpp,uint32_t *channels,uint8_t *imgdata)
+ @brief get live frame data from camera
+ @param handle camera control handle
+ @param *w pointer to width of ouput image
+ @param *h pointer to height of ouput image
+ @param *bpp pointer to depth of ouput image
+ @param *channels pointer to channels of ouput image
+ @param *imgdata image data buffer
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ QHYCCD_ERROR_GETTINGFAILED,if get data failed \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDSingleFrame(qhyccd_handle *handle,uint32_t *w,uint32_t *h,uint32_t *bpp,uint32_t *channels,uint8_t *imgdata);
+
+/**
+ @fn uint32_t CancelQHYCCDExposing(qhyccd_handle *handle)
+ @param handle camera control handle
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL CancelQHYCCDExposing(qhyccd_handle *handle);
+
+/**
+ @fn uint32_t CancelQHYCCDExposingAndReadout(qhyccd_handle *handle)
+ @brief stop the camera exposing and readout
+ @param handle camera control handle
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL CancelQHYCCDExposingAndReadout(qhyccd_handle *handle);
+
+/** \fn uint32_t BeginQHYCCDLive(qhyccd_handle *handle)
+ \brief start continue exposing
+ \param handle camera control handle
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL BeginQHYCCDLive(qhyccd_handle *handle);
+
+/**
+ @fn uint32_t GetQHYCCDLiveFrame(qhyccd_handle *handle,uint32_t *w,uint32_t *h,uint32_t *bpp,uint32_t *channels,uint8_t *imgdata)
+ @brief get live frame data from camera
+ @param handle camera control handle
+ @param *w pointer to width of ouput image
+ @param *h pointer to height of ouput image
+ @param *bpp pointer to depth of ouput image
+ @param *channels pointer to channels of ouput image
+ @param *imgdata image data buffer
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ QHYCCD_ERROR_GETTINGFAILED,if get data failed \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDLiveFrame(qhyccd_handle *handle,uint32_t *w,uint32_t *h,uint32_t *bpp,uint32_t *channels,uint8_t *imgdata);
+
+/** \fn uint32_t StopQHYCCDLive(qhyccd_handle *handle)
+ \brief stop the camera continue exposing
+ \param handle camera control handle
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL StopQHYCCDLive(qhyccd_handle *handle);
+
+/** \
+ @fn uint32_t SetQHYCCDBinMode(qhyccd_handle *handle,uint32_t wbin,uint32_t hbin)
+ @brief set camera's bin mode for ouput image data
+ @param handle camera control handle
+ @param wbin width bin mode
+ @param hbin height bin mode
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL SetQHYCCDBinMode(qhyccd_handle *handle,uint32_t wbin,uint32_t hbin);
+
+/**
+ @fn uint32_t SetQHYCCDBitsMode(qhyccd_handle *handle,uint32_t bits)
+ @brief set camera's depth bits for ouput image data
+ @param handle camera control handle
+ @param bits image depth
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL SetQHYCCDBitsMode(qhyccd_handle *handle,uint32_t bits);
+
+/** \fn uint32_t ControlQHYCCDTemp(qhyccd_handle *handle,double targettemp)
+ \brief This is a auto temprature control for QHYCCD cameras. \n
+ To control this,you need call this api every single second
+ \param handle camera control handle
+ \param targettemp the target control temprature
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL ControlQHYCCDTemp(qhyccd_handle *handle,double targettemp);
+
+/** \fn uint32_t ControlQHYCCDGuide(qhyccd_handle *handle,uint32_t direction,uint16_t duration)
+ \brief control the camera' guide port
+ \param handle camera control handle
+ \param direction direction \n
+ 0: EAST RA+ \n
+ 3: WEST RA- \n
+ 1: NORTH DEC+ \n
+ 2: SOUTH DEC- \n
+ \param duration duration of the direction
+ \return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL ControlQHYCCDGuide(qhyccd_handle *handle,uint32_t direction,uint16_t duration);
+
+/**
+ @fn uint32_t SendOrder2QHYCCDCFW(qhyccd_handle *handle,char *order,uint32_t length)
+ @brief control color filter wheel port
+ @param handle camera control handle
+ @param order order send to color filter wheel
+ @param length the order string length
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL SendOrder2QHYCCDCFW(qhyccd_handle *handle,char *order,uint32_t length);
+
+/**
+ @fn uint32_t GetQHYCCDCFWStatus(qhyccd_handle *handle,char *status)
+ @brief control color filter wheel port
+ @param handle camera control handle
+ @param status the color filter wheel position status
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDCFWStatus(qhyccd_handle *handle,char *status);
+
+/**
+ @fn uint32_t IsQHYCCDCFWPlugged(qhyccd_handle *handle)
+ @brief control color filter wheel port
+ @param handle camera control handle
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL IsQHYCCDCFWPlugged(qhyccd_handle *handle);
+
+/**
+ \fn uint32_t SetQHYCCDTrigerMode(qhyccd_handle *handle,uint32_t trigerMode)
+ \brief set camera triger mode
+ \param handle camera control handle
+ \param trigerMode triger mode
+ \return
+on success,return QHYCCD_SUCCESS \n
+another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL SetQHYCCDTrigerMode(qhyccd_handle *handle,uint32_t trigerMode);
+
+/** \fn void Bits16ToBits8(qhyccd_handle *h,uint8_t *InputData16,uint8_t *OutputData8,uint32_t imageX,uint32_t imageY,uint16_t B,uint16_t W)
+ \brief turn 16bits data into 8bits
+ \param h camera control handle
+ \param InputData16 for 16bits data memory
+ \param OutputData8 for 8bits data memory
+ \param imageX image width
+ \param imageY image height
+ \param B for stretch balck
+ \param W for stretch white
+ */
EXPORTC void STDCALL Bits16ToBits8(qhyccd_handle *h,uint8_t *InputData16,uint8_t *OutputData8,uint32_t imageX,uint32_t imageY,uint16_t B,uint16_t W);
+
+/**
+ @fn void HistInfo192x130(qhyccd_handle *h,uint32_t x,uint32_t y,uint8_t *InBuf,uint8_t *OutBuf)
+ @brief make the hist info
+ @param h camera control handle
+ @param x image width
+ @param y image height
+ @param InBuf for the raw image data
+ @param OutBuf for 192x130 8bits 3 channels image
+ */
EXPORTC void STDCALL HistInfo192x130(qhyccd_handle *h,uint32_t x,uint32_t y,uint8_t *InBuf,uint8_t *OutBuf);
+
+
+/**
+ @fn uint32_t OSXInitQHYCCDFirmware(char *path)
+ @brief download the firmware to camera.(this api just need call in OSX system)
+ @param path path to HEX file
+ */
EXPORTC uint32_t STDCALL OSXInitQHYCCDFirmware(char *path);
+
+/**
+ @fn uint32_t OSXInitQHYCCDFirmware(char *path)
+ @brief download the firmware to camera.(this api just need call in OSX system)
+ @param path path to HEX file
+ */
+EXPORTC uint32_t STDCALL OSXInitQHYCCDFirmwareArray();
+
+
+
+EXPORTC uint32_t STDCALL OSXInitQHYCCDAndroidFirmwareArray(int idVendor,int idProduct,
+ qhyccd_handle *handle);
+
+
+
+/** @fn uint32_t GetQHYCCDChipInfo(qhyccd_handle *h,double *chipw,double *chiph,uint32_t *imagew,uint32_t *imageh,double *pixelw,double *pixelh,uint32_t *bpp)
+ @brief get the camera's ccd/cmos chip info
+ @param h camera control handle
+ @param chipw chip size width
+ @param chiph chip size height
+ @param imagew chip output image width
+ @param imageh chip output image height
+ @param pixelw chip pixel size width
+ @param pixelh chip pixel size height
+ @param bpp chip pixel depth
+ */
EXPORTC uint32_t STDCALL GetQHYCCDChipInfo(qhyccd_handle *h,double *chipw,double *chiph,uint32_t *imagew,uint32_t *imageh,double *pixelw,double *pixelh,uint32_t *bpp);
+
+/** @fn uint32_t GetQHYCCDEffectiveArea(qhyccd_handle *h,uint32_t *startX, uint32_t *startY, uint32_t *sizeX, uint32_t *sizeY)
+ @brief get the camera's ccd/cmos chip info
+ @param h camera control handle
+ @param startX the Effective area x position
+ @param startY the Effective area y position
+ @param sizeX the Effective area x size
+ @param sizeY the Effective area y size
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDEffectiveArea(qhyccd_handle *h,uint32_t *startX, uint32_t *startY, uint32_t *sizeX, uint32_t *sizeY);
+
+/** @fn uint32_t GetQHYCCDOverScanArea(qhyccd_handle *h,uint32_t *startX, uint32_t *startY, uint32_t *sizeX, uint32_t *sizeY)
+ @brief get the camera's ccd/cmos chip info
+ @param h camera control handle
+ @param startX the OverScan area x position
+ @param startY the OverScan area y position
+ @param sizeX the OverScan area x size
+ @param sizeY the OverScan area y size
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDOverScanArea(qhyccd_handle *h,uint32_t *startX, uint32_t *startY, uint32_t *sizeX, uint32_t *sizeY);
+
+
+/** @fn uint32_t SetQHYCCDFocusSetting(qhyccd_handle *h,uint32_t focusCenterX, uint32_t focusCenterY)
+ @brief Set the camera on focus mode
+ @param h camera control handle
+ @param focusCenterX
+ @param focusCenterY
+ @return
+ on success,return QHYCCD_SUCCESS \n
+
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL SetQHYCCDFocusSetting(qhyccd_handle *h,uint32_t focusCenterX, uint32_t focusCenterY);
+
+/** @fn uint32_t GetQHYCCDExposureRemaining(qhyccd_handle *h)
+ @brief Get remaining ccd/cmos expose time
+ @param h camera control handle
+ @return
+ 100 or less 100,it means exposoure is over \n
+ another is remaining time
+ */
EXPORTC uint32_t STDCALL GetQHYCCDExposureRemaining(qhyccd_handle *h);
+
+/** @fn uint32_t GetQHYCCDFWVersion(qhyccd_handle *h,uint8_t *buf)
+ @brief Get the QHYCCD's firmware version
+ @param h camera control handle
+ @param buf buffer for version info
+ @return
+ on success,return QHYCCD_SUCCESS \n
+
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDFWVersion(qhyccd_handle *h,uint8_t *buf);
+EXPORTC uint32_t STDCALL GetQHYCCDFPGAVersion(qhyccd_handle *h, uint8_t fpga_index, uint8_t *buf);
+
+/** @fn uint32_t SetQHYCCDInterCamSerialParam(qhyccd_handle *h,uint32_t opt)
+ @brief Set InterCam serial2 params
+ @param h camera control handle
+ @param opt the param \n
+ opt: \n
+ 0x00 baud rate 9600bps 8N1 \n
+ 0x01 baud rate 4800bps 8N1 \n
+ 0x02 baud rate 19200bps 8N1 \n
+ 0x03 baud rate 28800bps 8N1 \n
+ 0x04 baud rate 57600bps 8N1
+ @return
+ on success,return QHYCCD_SUCCESS \n
+
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL SetQHYCCDInterCamSerialParam(qhyccd_handle *h,uint32_t opt);
+
+/** @fn uint32_t QHYCCDInterCamSerialTX(qhyccd_handle *h,char *buf,uint32_t length)
+ @brief Send data to InterCam serial2
+ @param h camera control handle
+ @param buf buffer for data
+ @param length to send
+ @return
+ on success,return QHYCCD_SUCCESS \n
+
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL QHYCCDInterCamSerialTX(qhyccd_handle *h,char *buf,uint32_t length);
+
+/** @fn uint32_t QHYCCDInterCamSerialRX(qhyccd_handle *h,char *buf)
+ @brief Get data from InterCam serial2
+ @param h camera control handle
+ @param buf buffer for data
+ @return
+ on success,return the data number \n
+
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL QHYCCDInterCamSerialRX(qhyccd_handle *h,char *buf);
+
+/** @fn uint32_t QHYCCDInterCamOledOnOff(qhyccd_handle *handle,uint8_t onoff)
+ @brief turn off or turn on the InterCam's Oled
+ @param handle camera control handle
+ @param onoff on or off the oled \n
+ 1:on \n
+ 0:off \n
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL QHYCCDInterCamOledOnOff(qhyccd_handle *handle,uint8_t onoff);
+
+/**
+ @fn uint32_t SetQHYCCDInterCamOledBrightness(qhyccd_handle *handle,uint8_t brightness)
+ @brief send data to show on InterCam's OLED
+ @param handle camera control handle
+ @param brightness the oled's brightness
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL SetQHYCCDInterCamOledBrightness(qhyccd_handle *handle,uint8_t brightness);
+
+/**
+ @fn uint32_t SendFourLine2QHYCCDInterCamOled(qhyccd_handle *handle,char *messagetemp,char *messageinfo,char *messagetime,char *messagemode)
+ @brief spilit the message to two line,send to camera
+ @param handle camera control handle
+ @param messagetemp message for the oled's 1st line
+ @param messageinfo message for the oled's 2nd line
+ @param messagetime message for the oled's 3rd line
+ @param messagemode message for the oled's 4th line
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL SendFourLine2QHYCCDInterCamOled(qhyccd_handle *handle,char *messagetemp,char *messageinfo,char *messagetime,char *messagemode);
+/**
+ @fn uint32_t SendTwoLine2QHYCCDInterCamOled(qhyccd_handle *handle,char *messageTop,char *messageBottom)
+ @brief spilit the message to two line,send to camera
+ @param handle camera control handle
+ @param messageTop message for the oled's 1st line
+ @param messageBottom message for the oled's 2nd line
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL SendTwoLine2QHYCCDInterCamOled(qhyccd_handle *handle,char *messageTop,char *messageBottom);
+
+/**
+ @fn uint32_t SendOneLine2QHYCCDInterCamOled(qhyccd_handle *handle,char *messageTop)
+ @brief spilit the message to two line,send to camera
+ @param handle camera control handle
+ @param messageTop message for all the oled
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL SendOneLine2QHYCCDInterCamOled(qhyccd_handle *handle,char *messageTop);
+
+/**
+ @fn uint32_t GetQHYCCDCameraStatus(qhyccd_handle *h,uint8_t *buf)
+ @brief Get the camera statu
+ @param h camera control handle
+ @param buf camera's status save space
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+ */
EXPORTC uint32_t STDCALL GetQHYCCDCameraStatus(qhyccd_handle *h,uint8_t *buf);
+
+/**
+ @fn uint32_t GetQHYCCDShutterStatus(qhyccd_handle *handle)
+ @brief get the camera's shutter status
+ @param handle camera control handle
+ @return
+ on success,return status \n
+ 0x00:shutter turn to right \n
+ 0x01:shutter from right turn to middle \n
+ 0x02:shutter from left turn to middle \n
+ 0x03:shutter turn to left \n
+ 0xff:IDLE \n
+ another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL GetQHYCCDShutterStatus(qhyccd_handle *handle);
+
+/**
+ @fn uint32_t ControlQHYCCDShutter(qhyccd_handle *handle,uint8_t status)
+ @brief control camera's shutter
+ @param handle camera control handle
+ @param status the shutter status \n
+ 0x00:shutter turn to right \n
+ 0x01:shutter from right turn to middle \n
+ 0x02:shutter from left turn to middle \n
+ 0x03:shutter turn to left \n
+ 0xff:IDLE
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL ControlQHYCCDShutter(qhyccd_handle *handle,uint8_t status);
+
+/**
+ @fn uint32_t GetQHYCCDHumidity(qhyccd_handle *handle,double *hd)
+ @brief query cavity's humidity
+ @param handle control handle
+ @param hd the humidity value
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
+EXPORTC uint32_t STDCALL GetQHYCCDPressure(qhyccd_handle *handle,double *pressure);
+/**
+ @fn uint32_t GetQHYCCDPressure(qhyccd_handle *handle,double *pressure)
+ @get the pressure of sensor chamber
+ @param handle control handle
+ @param pressure : the sensor chamber pressure . unit is mbar range 0.0-2000.0
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
+
EXPORTC uint32_t STDCALL GetQHYCCDHumidity(qhyccd_handle *handle,double *hd);
+
+
+/**
+ @fn uint32_t QHYCCDI2CTwoWrite(qhyccd_handle *handle,uint16_t addr,uint16_t value)
+ @brief Set the value of the addr register in the camera.
+ @param handle camera control handle
+ @param addr the address of register
+ @param value the value of the address
+ @return
+ on success,return QHYCCD_SUCCESS \n
+ another QHYCCD_ERROR code on other failures
+*/
EXPORTC uint32_t STDCALL QHYCCDI2CTwoWrite(qhyccd_handle *handle,uint16_t addr,uint16_t value);
+
+/**
+ @fn uint32_t QHYCCDI2CTwoRead(qhyccd_handle *handle,uint16_t addr)
+ @brief Get the value of the addr register in the camera.
+ @param handle camera control handle
+ @param addr the address of register
+ @return value of the addr register
+*/
EXPORTC uint32_t STDCALL QHYCCDI2CTwoRead(qhyccd_handle *handle,uint16_t addr);
+
+/**
+ @fn double GetQHYCCDReadingProgress(qhyccd_handle *handle)
+ @brief get reading data from camera progress
+ @param handle camera control handle
+ @return current progress
+*/
EXPORTC double STDCALL GetQHYCCDReadingProgress(qhyccd_handle *handle);
-EXPORTC void STDCALL SetQHYCCDLogLevel(uint8_t logLevel);
+
+
+/**
+ test pid parameters
+*/
EXPORTC uint32_t STDCALL TestQHYCCDPIDParas(qhyccd_handle *h, double p, double i, double d);
+
EXPORTC uint32_t STDCALL SetQHYCCDTrigerFunction(qhyccd_handle *h,bool value);
+
EXPORTC uint32_t STDCALL DownloadFX3FirmWare(uint16_t vid,uint16_t pid,char *imgpath);
+
EXPORTC uint32_t STDCALL GetQHYCCDType(qhyccd_handle *h);
+
EXPORTC uint32_t STDCALL SetQHYCCDDebayerOnOff(qhyccd_handle *h,bool onoff);
+
EXPORTC uint32_t STDCALL SetQHYCCDFineTone(qhyccd_handle *h,uint8_t setshporshd,uint8_t shdloc,uint8_t shploc,uint8_t shwidth);
+
EXPORTC uint32_t STDCALL SetQHYCCDGPSVCOXFreq(qhyccd_handle *handle,uint16_t i);
+
EXPORTC uint32_t STDCALL SetQHYCCDGPSLedCalMode(qhyccd_handle *handle,uint8_t i);
+
EXPORTC void STDCALL SetQHYCCDGPSLedCal(qhyccd_handle *handle,uint32_t pos,uint8_t width);
+
EXPORTC void STDCALL SetQHYCCDGPSPOSA(qhyccd_handle *handle,uint8_t is_slave,uint32_t pos,uint8_t width);
+
EXPORTC void STDCALL SetQHYCCDGPSPOSB(qhyccd_handle *handle,uint8_t is_slave,uint32_t pos,uint8_t width);
+
EXPORTC uint32_t STDCALL SetQHYCCDGPSMasterSlave(qhyccd_handle *handle,uint8_t i);
+
EXPORTC void STDCALL SetQHYCCDGPSSlaveModeParameter(qhyccd_handle *handle,uint32_t target_sec,uint32_t target_us,uint32_t deltaT_sec,uint32_t deltaT_us,uint32_t expTime);
+
+EXPORTFUNC void STDCALL SetQHYCCDQuit();
+
EXPORTC uint32_t STDCALL QHYCCDVendRequestWrite(qhyccd_handle *h,uint8_t req,uint16_t value,uint16_t index1,uint32_t length,uint8_t *data);
+
EXPORTC uint32_t STDCALL QHYCCDReadUSB_SYNC(qhyccd_handle *pDevHandle, uint8_t endpoint, uint32_t length, uint8_t *data, uint32_t timeout);
+
EXPORTC uint32_t STDCALL QHYCCDLibusbBulkTransfer(qhyccd_handle *pDevHandle, uint8_t endpoint, uint8_t *data, uint32_t length, int32_t *transferred, uint32_t timeout);
+
EXPORTC uint32_t STDCALL GetQHYCCDSDKVersion(uint32_t *year,uint32_t *month,uint32_t *day,uint32_t *subday);
-EXPORTC void STDCALL print_cydev(const char *pTitle);
-EXPORTC const char* STDCALL GetTimeStamp();
-EXPORTC void STDCALL GetQHYCCDControlIdString(CONTROL_ID controlId, char *pStr);
-#endif // __QHYCCD_H__
+
+
+
+
+//APIs for the Readout Mode. One camera may have more than one readout mode. The different readout mode has different base-resolution. For example
+//The QHY42PRO support HDR and STD mode. HDR mode base-resolution is 4096*2048. While the STD mode is 2048*2048. In this case we need to use the
+//readout mode to set it. The host application need to get the readout mode and select one to set it. The sequece that call this fucntion need to be(......)
+
+
+EXPORTC uint32_t STDCALL GetQHYCCDNumberOfReadModes(qhyccd_handle *h,uint32_t *numModes);
+// Get the maximum resolution for a read mode
+EXPORTC uint32_t STDCALL GetQHYCCDReadModeResolution(qhyccd_handle *h,uint32_t modeNumber, uint32_t* width, uint32_t* height);
+// Get the name of a read mode
+EXPORTC uint32_t STDCALL GetQHYCCDReadModeName(qhyccd_handle *h,uint32_t modeNumber, char* name);
+// Set the read mode
+EXPORTC uint32_t STDCALL SetQHYCCDReadMode(qhyccd_handle *h,uint32_t modeNumber);
+// Get the read mode
+EXPORTC uint32_t STDCALL GetQHYCCDReadMode(qhyccd_handle *h,uint32_t* modeNumber);
+
+EXPORTC uint32_t STDCALL GetQHYCCDBeforeOpenParam(
+ QHYCamMinMaxStepValue *p,
+ CONTROL_ID controlId);
+/*
+EXPORTC uint32_t STDCALL GetQHYCCDBeforeOpenReadMode(QHYCamReadModeInfo *p);
+*/
+EXPORTC uint32_t STDCALL EnableQHYCCDBurstMode(qhyccd_handle *h,bool i);
+EXPORTC uint32_t STDCALL SetQHYCCDBurstModeStartEnd(qhyccd_handle *h,unsigned short start,unsigned short end);
+EXPORTC uint32_t STDCALL EnableQHYCCDBurstCountFun(qhyccd_handle *h,bool i);
+EXPORTC uint32_t STDCALL ResetQHYCCDFrameCounter(qhyccd_handle *h);
+EXPORTC uint32_t STDCALL SetQHYCCDBurstIDLE(qhyccd_handle *h);
+EXPORTC uint32_t STDCALL ReleaseQHYCCDBurstIDLE(qhyccd_handle *h);
+EXPORTC uint32_t STDCALL SetQHYCCDBurstModePatchNumber(qhyccd_handle *h,uint32_t value);
+EXPORTC uint32_t STDCALL SetQHYCCDEnableLiveModeAntiRBI(qhyccd_handle *h,uint32_t value);
+EXPORTC uint32_t STDCALL SetQHYCCDWriteFPGA(qhyccd_handle *h,uint8_t number,uint8_t regindex,uint8_t regvalue);
+/**
+ @fn uint32_t SetQHYCCDWriteFPGA(qhyccd_handle *h,uint8_t number,uint8_t regindex,uint8_t regvalue);
+ @brief Write FPGA register of the camera directly for advanced control
+ @param handle camera control handle
+ @param number: if there is multiple FPGA, this is the sequence number . default is 0.
+ @param regindex: register index. It is 8bit.
+ @param regindex: register value. It is 8bit.
+ @return QHYCCD_SUCCESS or QHYCCD_ERROR. If it is QHYCCD_ERROR, it means (1) this model may have not support this function or (2) the API failur to run.
+*/
+
+
+EXPORTC uint32_t STDCALL SetQHYCCDWriteCMOS(qhyccd_handle *h,uint8_t number,uint16_t regindex,uint16_t regvalue);
+/**
+ @fn uint32_t SetQHYCCDWriteCMOS(qhyccd_handle *h,uint8_t number,uint16_t regindex,uint16_t regvalue);
+ @brief Write CMOS register of the camera directly for advanced control
+ @param handle camera control handle
+ @param number: if there is multiple CMOS, this is the sequence number . default is 0.
+ @param regindex: register index. It is 16bit.
+ @param regindex: register value. It is 16bit.
+ @return QHYCCD_SUCCESS or QHYCCD_ERROR. If it is QHYCCD_ERROR, it means (1) this model may have not support this function or (2) the API failur to run.
+*/
+
+
+EXPORTFUNC uint32_t STDCALL SetQHYCCDTwoChannelCombineParameter(qhyccd_handle *handle, double x,double ah,double bh,double al,double bl);
+/**
+ @fn uint32_t SetQHYCCDTwoChannelCombineParameter(qhyccd_handle *handle, double x,double ah,double bh,double al,double bl);
+ @brief For the camera with high gain low gain two channel combine to 16bit function, this API can set the combination parameters
+ @param handle camera control handle
+ @param x: High gain low gain channel data switch point. (based on the high gain channel data)
+ @param ah: High gain channel ratio (y=ax+b)
+ @param bh: High gain channel offset (y=ax+b)
+ @param al: Low gain channel ratio (y=ax+b)
+ @param bl: Low gain channel offset (y=ax+b)
+ @return QHYCCD_SUCCESS or QHYCCD_ERROR. If it is QHYCCD_ERROR, it means (1) this model may have not support this function or (2) the API failur to run.
+*/
+
+EXPORTC uint32_t STDCALL EnableQHYCCDImageOSD(qhyccd_handle *h,uint32_t i);
+
+EXPORTC void STDCALL QHYCCDQuit();
+
+EXPORTC QHYDWORD STDCALL SetQHYCCDCallBack(QHYCCDProcCallBack ProcCallBack,
+ int32_t Flag);
+
+#if 0//PCIE_MODE_TEST
+
+#include "riffa.h"
+
+
+/**
+ * Populates the fpga_info_list pointer with all FPGAs registered in the system.
+ * Returns 0 on success, non-zero on error.
+ */
+EXPORTC int STDCALL QHYCCD_fpga_list(struct fpga_info_list &list);
+
+/**
+ * Initializes the FPGA specified by id. On success, returns a pointer to a
+ * fpga_t struct. On error, returns NULL. Each FPGA must be opened before any
+ * channels can be accessed. Once opened, any number of threads can use the
+ * fpga_t struct.
+ */
+EXPORTC uint32_t STDCALL QHYCCD_fpga_open(int id);
+
+/**
+ * Cleans up memory/resources for the FPGA specified by the fd descriptor.
+ */
+EXPORTC void STDCALL QHYCCD_fpga_close();
+
+/**
+ * Sends len words (4 byte words) from data to FPGA channel chnl using the
+ * fpga_t struct. The FPGA channel will be sent len, destoff, and last. If last
+ * is 1, the channel should interpret the end of this send as the end of a
+ * transaction. If last is 0, the channel should wait for additional sends
+ * before the end of the transaction. If timeout is non-zero, this call will
+ * send data and wait up to timeout ms for the FPGA to respond (between
+ * packets) before timing out. If timeout is zero, this call may block
+ * indefinitely. Multiple threads sending on the same channel may result in
+ * corrupt data or error. This function is thread safe across channels.
+ * Returns the number of words sent.
+ */
+EXPORTC int STDCALL QHYCCD_fpga_send(int chnl, void * data, int len,
+ int destoff, int last, uint64_t timeout);
+
+/**
+ * Receives data from the FPGA channel chnl to the data pointer, using the
+ * fpga_t struct. The FPGA channel can send any amount of data, so the data
+ * array should be large enough to accommodate. The len parameter specifies the
+ * actual size of the data buffer in words (4 byte words). The FPGA channel will
+ * specify an offset which will determine where in the data array the data will
+ * start being written. If the amount of data (plus offset) exceed the size of
+ * the data array (len), then that data will be discarded. If timeout is
+ * non-zero, this call will wait up to timeout ms for the FPGA to respond
+ * (between packets) before timing out. If timeout is zero, this call may block
+ * indefinitely. Multiple threads receiving on the same channel may result in
+ * corrupt data or error. This function is thread safe across channels.
+ * Returns the number of words received to the data array.
+ */
+EXPORTC int STDCALL QHYCCD_fpga_recv( int chnl, void * data, int len,
+ uint64_t timeout);
+
+/**
+ * Resets the state of the FPGA and all transfers across all channels. This is
+ * meant to be used as an alternative to rebooting if an error occurs while
+ * sending/receiving. Calling this function while other threads are sending or
+ * receiving will result in unexpected behavior.
+ */
+EXPORTC void STDCALL QHYCCD_fpga_reset();
+#endif
+
+#endif
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