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/*M///////////////////////////////////////////////////////////////////////////////////////
//
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//
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// If you do not agree to this license, do not download, install,
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//
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// For Open Source Computer Vision Library
//
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# include "precomp.hpp"
# ifdef HAVE_DC1394_2
# include <unistd.h>
# include <stdint.h>
# include <sys/select.h>
# include <dc1394/dc1394.h>
# include <stdlib.h>
# include <string.h>
static dc1394error_t adaptBufferStereoLocal ( dc1394video_frame_t * in , dc1394video_frame_t * out )
{
uint32_t bpp ;
// buffer position is not changed. Size is boubled in Y
out - > size [ 0 ] = in - > size [ 0 ] ;
out - > size [ 1 ] = in - > size [ 1 ] * 2 ;
out - > position [ 0 ] = in - > position [ 0 ] ;
out - > position [ 1 ] = in - > position [ 1 ] ;
// color coding is set to mono8 or raw8.
switch ( in - > color_coding )
{
case DC1394_COLOR_CODING_RAW16 :
out - > color_coding = DC1394_COLOR_CODING_RAW8 ;
break ;
case DC1394_COLOR_CODING_MONO16 :
case DC1394_COLOR_CODING_YUV422 :
out - > color_coding = DC1394_COLOR_CODING_MONO8 ;
break ;
default :
return DC1394_INVALID_COLOR_CODING ;
}
// keep the color filter value in all cases. if the format is not raw it will not be further used anyway
out - > color_filter = in - > color_filter ;
// the output YUV byte order must be already set if the buffer is YUV422 at the output
// if the output is not YUV we don't care about this field.
// Hence nothing to do.
// we always convert to 8bits (at this point) we can safely set this value to 8.
out - > data_depth = 8 ;
// don't know what to do with stride... >>>> TODO: STRIDE SHOULD BE TAKEN INTO ACCOUNT... <<<<
// out->stride=??
// the video mode should not change. Color coding and other stuff can be accessed in specific fields of this struct
out - > video_mode = in - > video_mode ;
// padding is kept:
out - > padding_bytes = in - > padding_bytes ;
// image bytes changes: >>>> TODO: STRIDE SHOULD BE TAKEN INTO ACCOUNT... <<<<
dc1394_get_color_coding_bit_size ( out - > color_coding , & bpp ) ;
out - > image_bytes = ( out - > size [ 0 ] * out - > size [ 1 ] * bpp ) / 8 ;
// total is image_bytes + padding_bytes
out - > total_bytes = out - > image_bytes + out - > padding_bytes ;
// bytes-per-packet and packets_per_frame are internal data that can be kept as is.
out - > packet_size = in - > packet_size ;
out - > packets_per_frame = in - > packets_per_frame ;
// timestamp, frame_behind, id and camera are copied too:
out - > timestamp = in - > timestamp ;
out - > frames_behind = in - > frames_behind ;
out - > camera = in - > camera ;
out - > id = in - > id ;
// verify memory allocation:
if ( out - > total_bytes > out - > allocated_image_bytes )
{
free ( out - > image ) ;
out - > image = ( uint8_t * ) malloc ( out - > total_bytes * sizeof ( uint8_t ) ) ;
out - > allocated_image_bytes = out - > total_bytes ;
}
// Copy padding bytes:
memcpy ( & ( out - > image [ out - > image_bytes ] ) , & ( in - > image [ in - > image_bytes ] ) , out - > padding_bytes ) ;
out - > little_endian = DC1394_FALSE ; // not used before 1.32 is out.
out - > data_in_padding = DC1394_FALSE ; // not used before 1.32 is out.
return DC1394_SUCCESS ;
}
static dc1394error_t dc1394_deinterlace_stereo_frames_fixed ( dc1394video_frame_t * in ,
dc1394video_frame_t * out , dc1394stereo_method_t method )
{
dc1394error_t err ;
if ( ( in - > color_coding = = DC1394_COLOR_CODING_RAW16 ) | |
( in - > color_coding = = DC1394_COLOR_CODING_MONO16 ) | |
( in - > color_coding = = DC1394_COLOR_CODING_YUV422 ) )
{
switch ( method )
{
case DC1394_STEREO_METHOD_INTERLACED :
err = adaptBufferStereoLocal ( in , out ) ;
//FIXED by AB:
// dc1394_deinterlace_stereo(in->image, out->image, in->size[0], in->size[1]);
dc1394_deinterlace_stereo ( in - > image , out - > image , out - > size [ 0 ] , out - > size [ 1 ] ) ;
break ;
case DC1394_STEREO_METHOD_FIELD :
err = adaptBufferStereoLocal ( in , out ) ;
memcpy ( out - > image , in - > image , out - > image_bytes ) ;
break ;
}
return DC1394_INVALID_STEREO_METHOD ;
}
else
return DC1394_FUNCTION_NOT_SUPPORTED ;
}
static uint32_t getControlRegister ( dc1394camera_t * camera , uint64_t offset )
{
uint32_t value = 0 ;
dc1394error_t err = dc1394_get_control_register ( camera , offset , & value ) ;
assert ( err = = DC1394_SUCCESS ) ;
return err = = DC1394_SUCCESS ? value : 0xffffffff ;
}
struct CvDC1394
{
CvDC1394 ( ) ;
~ CvDC1394 ( ) ;
dc1394_t * dc ;
fd_set camFds ;
} ;
CvDC1394 : : CvDC1394 ( )
{
dc = dc1394_new ( ) ;
FD_ZERO ( & camFds ) ;
}
CvDC1394 : : ~ CvDC1394 ( )
{
if ( dc )
dc1394_free ( dc ) ;
dc = 0 ;
}
static CvDC1394 dc1394 ;
class CvCaptureCAM_DC1394_v2_CPP : public CvCapture
{
public :
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static int dc1394properties [ CV_CAP_PROP_MAX_DC1394 ] ;
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CvCaptureCAM_DC1394_v2_CPP ( ) ;
virtual ~ CvCaptureCAM_DC1394_v2_CPP ( )
{
close ( ) ;
}
virtual bool open ( int index ) ;
virtual void close ( ) ;
virtual double getProperty ( int ) ;
virtual bool setProperty ( int , double ) ;
virtual bool grabFrame ( ) ;
virtual IplImage * retrieveFrame ( int ) ;
virtual int getCaptureDomain ( ) { return CV_CAP_DC1394 ; } // Return the type of the capture object: CV_CAP_VFW, etc...
protected :
virtual bool startCapture ( ) ;
virtual bool getVidereCalibrationInfo ( char * buf , int bufSize ) ;
virtual bool initVidereRectifyMaps ( const char * info , IplImage * ml [ 2 ] , IplImage * mr [ 2 ] ) ;
uint64_t guid ;
dc1394camera_t * dcCam ;
int isoSpeed ;
int videoMode ;
int frameWidth , frameHeight ;
double fps ;
int nDMABufs ;
bool started ;
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int userMode ;
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enum { VIDERE = 0x5505 } ;
int cameraId ;
bool colorStereo ;
dc1394bayer_method_t bayer ;
dc1394color_filter_t bayerFilter ;
enum { NIMG = 2 } ;
IplImage * img [ NIMG ] ;
dc1394video_frame_t * frameC ;
int nimages ;
bool rectify ;
bool init_rectify ;
IplImage * maps [ NIMG ] [ 2 ] ;
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dc1394featureset_t feature_set ;
} ;
//mapping CV_CAP_PROP_ to DC1394_FEATUREs
int CvCaptureCAM_DC1394_v2_CPP : : dc1394properties [ CV_CAP_PROP_MAX_DC1394 ] = {
- 1 , //no corresponding feature for CV_CAP_PROP_POS_MSEC
- 1 , - 1 , - 1 , - 1 ,
DC1394_FEATURE_FRAME_RATE , //CV_CAP_PROP_FPS - fps can be set for format 7 only!
- 1 , - 1 , - 1 , - 1 ,
DC1394_FEATURE_BRIGHTNESS , //CV_CAP_PROP_BRIGHTNESS 10
- 1 ,
DC1394_FEATURE_SATURATION , //CV_CAP_PROP_SATURATION
DC1394_FEATURE_HUE ,
DC1394_FEATURE_GAIN ,
DC1394_FEATURE_SHUTTER , //CV_CAP_PROP_EXPOSURE
- 1 , //CV_CAP_PROP_CONVERT_RGB
DC1394_FEATURE_WHITE_BALANCE , //corresponds to CV_CAP_PROP_WHITE_BALANCE_BLUE_U and CV_CAP_PROP_WHITE_BALANCE_RED_V, see set function to check these props are set
- 1 , - 1 ,
DC1394_FEATURE_SHARPNESS , //20
DC1394_FEATURE_EXPOSURE , //CV_CAP_PROP_AUTO_EXPOSURE - this is auto exposure according to the IIDC standard
DC1394_FEATURE_GAMMA , //CV_CAP_PROP_GAMMA
DC1394_FEATURE_TEMPERATURE , //CV_CAP_PROP_TEMPERATURE
DC1394_FEATURE_TRIGGER , //CV_CAP_PROP_TRIGGER
DC1394_FEATURE_TRIGGER_DELAY , //CV_CAP_PROP_TRIGGER_DELAY
DC1394_FEATURE_WHITE_BALANCE //CV_CAP_PROP_WHITE_BALANCE_RED_V
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} ;
CvCaptureCAM_DC1394_v2_CPP : : CvCaptureCAM_DC1394_v2_CPP ( )
{
guid = 0 ;
dcCam = 0 ;
isoSpeed = 400 ;
fps = 15 ;
nDMABufs = 8 ;
started = false ;
cameraId = 0 ;
colorStereo = false ;
bayer = DC1394_BAYER_METHOD_BILINEAR ;
bayerFilter = DC1394_COLOR_FILTER_GRBG ;
frameWidth = 640 ;
frameHeight = 480 ;
for ( int i = 0 ; i < NIMG ; i + + )
img [ i ] = maps [ i ] [ 0 ] = maps [ i ] [ 1 ] = 0 ;
frameC = 0 ;
nimages = 1 ;
rectify = false ;
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userMode = - 1 ;
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}
bool CvCaptureCAM_DC1394_v2_CPP : : startCapture ( )
{
int i ;
int code = 0 ;
if ( ! dcCam )
return false ;
if ( isoSpeed > 0 )
{
code = dc1394_video_set_iso_speed ( dcCam ,
isoSpeed < = 100 ? DC1394_ISO_SPEED_100 :
isoSpeed < = 200 ? DC1394_ISO_SPEED_200 :
isoSpeed < = 400 ? DC1394_ISO_SPEED_400 :
isoSpeed < = 800 ? DC1394_ISO_SPEED_800 :
isoSpeed = = 1600 ? DC1394_ISO_SPEED_1600 :
DC1394_ISO_SPEED_3200 ) ;
}
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if ( userMode = = - 1 & & ( frameWidth > 0 | | frameHeight > 0 ) )
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{
dc1394video_mode_t bestMode = ( dc1394video_mode_t ) - 1 ;
dc1394video_modes_t videoModes ;
dc1394_video_get_supported_modes ( dcCam , & videoModes ) ;
for ( i = 0 ; i < ( int ) videoModes . num ; i + + )
{
dc1394video_mode_t mode = videoModes . modes [ i ] ;
if ( mode > = DC1394_VIDEO_MODE_FORMAT7_MIN & & mode < = DC1394_VIDEO_MODE_FORMAT7_MAX )
continue ;
int pref = - 1 ;
dc1394color_coding_t colorCoding ;
dc1394_get_color_coding_from_video_mode ( dcCam , mode , & colorCoding ) ;
uint32_t width , height ;
dc1394_get_image_size_from_video_mode ( dcCam , mode , & width , & height ) ;
if ( ( int ) width = = frameWidth | | ( int ) height = = frameHeight )
{
if ( colorCoding = = DC1394_COLOR_CODING_RGB8 | |
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colorCoding = = DC1394_COLOR_CODING_RAW8 )
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{
bestMode = mode ;
break ;
}
if ( colorCoding = = DC1394_COLOR_CODING_YUV411 | |
colorCoding = = DC1394_COLOR_CODING_YUV422 | |
( colorCoding = = DC1394_COLOR_CODING_YUV444 & &
pref < 1 ) )
{
bestMode = mode ;
pref = 1 ;
}
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if ( colorCoding = = DC1394_COLOR_CODING_MONO8 )
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{
bestMode = mode ;
pref = 0 ;
}
}
}
if ( ( int ) bestMode > = 0 )
code = dc1394_video_set_mode ( dcCam , bestMode ) ;
}
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if ( userMode > 0 )
{
dc1394video_modes_t videoModes ;
dc1394_video_get_supported_modes ( dcCam , & videoModes ) ;
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if ( userMode < ( int ) videoModes . num )
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{
dc1394video_mode_t mode = videoModes . modes [ userMode ] ;
code = dc1394_video_set_mode ( dcCam , mode ) ;
}
}
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if ( fps > 0 )
{
dc1394video_mode_t mode ;
dc1394framerates_t framerates ;
double minDiff = DBL_MAX ;
dc1394framerate_t bestFps = ( dc1394framerate_t ) - 1 ;
dc1394_video_get_mode ( dcCam , & mode ) ;
dc1394_video_get_supported_framerates ( dcCam , mode , & framerates ) ;
for ( i = 0 ; i < ( int ) framerates . num ; i + + )
{
dc1394framerate_t ifps = framerates . framerates [ i ] ;
double fps1 = ( 1 < < ( ifps - DC1394_FRAMERATE_1_875 ) ) * 1.875 ;
double diff = fabs ( fps1 - fps ) ;
if ( diff < minDiff )
{
minDiff = diff ;
bestFps = ifps ;
}
}
if ( ( int ) bestFps > = 0 )
code = dc1394_video_set_framerate ( dcCam , bestFps ) ;
}
if ( cameraId = = VIDERE )
{
bayerFilter = DC1394_COLOR_FILTER_GBRG ;
nimages = 2 ;
uint32_t value = 0 ;
dc1394_get_control_register ( dcCam , 0x50c , & value ) ;
colorStereo = ( value & 0x80000000 ) ! = 0 ;
}
code = dc1394_capture_setup ( dcCam , nDMABufs , DC1394_CAPTURE_FLAGS_DEFAULT ) ;
if ( code > = 0 )
{
FD_SET ( dc1394_capture_get_fileno ( dcCam ) , & dc1394 . camFds ) ;
dc1394_video_set_transmission ( dcCam , DC1394_ON ) ;
if ( cameraId = = VIDERE )
{
enum { PROC_MODE_OFF , PROC_MODE_NONE , PROC_MODE_TEST , PROC_MODE_RECTIFIED , PROC_MODE_DISPARITY , PROC_MODE_DISPARITY_RAW } ;
int procMode = PROC_MODE_RECTIFIED ;
usleep ( 100000 ) ;
uint32_t qval1 = 0x08000000 | ( 0x90 < < 16 ) | ( ( procMode & 0x7 ) < < 16 ) ;
uint32_t qval2 = 0x08000000 | ( 0x9C < < 16 ) ;
dc1394_set_control_register ( dcCam , 0xFF000 , qval1 ) ;
dc1394_set_control_register ( dcCam , 0xFF000 , qval2 ) ;
}
started = true ;
}
return code > = 0 ;
}
bool CvCaptureCAM_DC1394_v2_CPP : : open ( int index )
{
bool result = false ;
dc1394camera_list_t * cameraList = 0 ;
dc1394error_t err ;
close ( ) ;
if ( ! dc1394 . dc )
goto _exit_ ;
err = dc1394_camera_enumerate ( dc1394 . dc , & cameraList ) ;
if ( err < 0 | | ! cameraList | | ( unsigned ) index > = ( unsigned ) cameraList - > num )
goto _exit_ ;
guid = cameraList - > ids [ index ] . guid ;
dcCam = dc1394_camera_new ( dc1394 . dc , guid ) ;
if ( ! dcCam )
goto _exit_ ;
cameraId = dcCam - > vendor_id ;
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//get all features
if ( dc1394_feature_get_all ( dcCam , & feature_set ) = = DC1394_SUCCESS )
result = true ;
else
result = false ;
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_exit_ :
if ( cameraList )
dc1394_camera_free_list ( cameraList ) ;
return result ;
}
void CvCaptureCAM_DC1394_v2_CPP : : close ( )
{
if ( dcCam )
{
if ( FD_ISSET ( dc1394_capture_get_fileno ( dcCam ) , & dc1394 . camFds ) )
FD_CLR ( dc1394_capture_get_fileno ( dcCam ) , & dc1394 . camFds ) ;
dc1394_video_set_transmission ( dcCam , DC1394_OFF ) ;
dc1394_capture_stop ( dcCam ) ;
dc1394_camera_free ( dcCam ) ;
dcCam = 0 ;
started = false ;
}
for ( int i = 0 ; i < NIMG ; i + + )
{
cvReleaseImage ( & img [ i ] ) ;
cvReleaseImage ( & maps [ i ] [ 0 ] ) ;
cvReleaseImage ( & maps [ i ] [ 1 ] ) ;
}
if ( frameC )
{
if ( frameC - > image )
free ( frameC - > image ) ;
free ( frameC ) ;
frameC = 0 ;
}
}
bool CvCaptureCAM_DC1394_v2_CPP : : grabFrame ( )
{
dc1394capture_policy_t policy = DC1394_CAPTURE_POLICY_WAIT ;
bool code = false , isColor ;
dc1394video_frame_t * dcFrame = 0 , * fs = 0 ;
int i , nch ;
if ( ! dcCam | | ( ! started & & ! startCapture ( ) ) )
return false ;
dc1394_capture_dequeue ( dcCam , policy , & dcFrame ) ;
if ( ! dcFrame )
return false ;
if ( /*dcFrame->frames_behind > 1 ||*/ dc1394_capture_is_frame_corrupt ( dcCam , dcFrame ) = = DC1394_TRUE )
{
goto _exit_ ;
}
isColor = dcFrame - > color_coding ! = DC1394_COLOR_CODING_MONO8 & &
dcFrame - > color_coding ! = DC1394_COLOR_CODING_MONO16 & &
dcFrame - > color_coding ! = DC1394_COLOR_CODING_MONO16S ;
if ( nimages = = 2 )
{
fs = ( dc1394video_frame_t * ) calloc ( 1 , sizeof ( * fs ) ) ;
//dc1394_deinterlace_stereo_frames(dcFrame, fs, DC1394_STEREO_METHOD_INTERLACED);
dc1394_deinterlace_stereo_frames_fixed ( dcFrame , fs , DC1394_STEREO_METHOD_INTERLACED ) ;
dc1394_capture_enqueue ( dcCam , dcFrame ) ; // release the captured frame as soon as possible
dcFrame = 0 ;
if ( ! fs - > image )
goto _exit_ ;
isColor = colorStereo ;
}
nch = isColor ? 3 : 1 ;
for ( i = 0 ; i < nimages ; i + + )
{
IplImage fhdr ;
dc1394video_frame_t f = fs ? * fs : * dcFrame , * fc = & f ;
f . size [ 1 ] / = nimages ;
f . image + = f . size [ 0 ] * f . size [ 1 ] * i ; // TODO: make it more universal
if ( isColor )
{
if ( ! frameC )
frameC = ( dc1394video_frame_t * ) calloc ( 1 , sizeof ( * frameC ) ) ;
frameC - > color_coding = nch = = 3 ? DC1394_COLOR_CODING_RGB8 : DC1394_COLOR_CODING_MONO8 ;
if ( nimages = = 1 )
{
dc1394_convert_frames ( & f , frameC ) ;
dc1394_capture_enqueue ( dcCam , dcFrame ) ;
dcFrame = 0 ;
}
else
{
f . color_filter = bayerFilter ;
dc1394_debayer_frames ( & f , frameC , bayer ) ;
}
fc = frameC ;
}
if ( ! img [ i ] )
img [ i ] = cvCreateImage ( cvSize ( fc - > size [ 0 ] , fc - > size [ 1 ] ) , 8 , nch ) ;
cvInitImageHeader ( & fhdr , cvSize ( fc - > size [ 0 ] , fc - > size [ 1 ] ) , 8 , nch ) ;
cvSetData ( & fhdr , fc - > image , fc - > size [ 0 ] * nch ) ;
// Swap R&B channels:
if ( nch = = 3 )
cvConvertImage ( & fhdr , & fhdr , CV_CVTIMG_SWAP_RB ) ;
if ( rectify & & cameraId = = VIDERE & & nimages = = 2 )
{
if ( ! maps [ 0 ] [ 0 ] | | maps [ 0 ] [ 0 ] - > width ! = img [ i ] - > width | | maps [ 0 ] [ 0 ] - > height ! = img [ i ] - > height )
{
CvSize size = cvGetSize ( img [ i ] ) ;
cvReleaseImage ( & maps [ 0 ] [ 0 ] ) ;
cvReleaseImage ( & maps [ 0 ] [ 1 ] ) ;
cvReleaseImage ( & maps [ 1 ] [ 0 ] ) ;
cvReleaseImage ( & maps [ 1 ] [ 1 ] ) ;
maps [ 0 ] [ 0 ] = cvCreateImage ( size , IPL_DEPTH_16S , 2 ) ;
maps [ 0 ] [ 1 ] = cvCreateImage ( size , IPL_DEPTH_16S , 1 ) ;
maps [ 1 ] [ 0 ] = cvCreateImage ( size , IPL_DEPTH_16S , 2 ) ;
maps [ 1 ] [ 1 ] = cvCreateImage ( size , IPL_DEPTH_16S , 1 ) ;
char buf [ 4 * 4096 ] ;
if ( getVidereCalibrationInfo ( buf , ( int ) sizeof ( buf ) ) & &
initVidereRectifyMaps ( buf , maps [ 0 ] , maps [ 1 ] ) )
;
else
rectify = false ;
}
cvRemap ( & fhdr , img [ i ] , maps [ i ] [ 0 ] , maps [ i ] [ 1 ] ) ;
}
else
cvCopy ( & fhdr , img [ i ] ) ;
}
code = true ;
_exit_ :
if ( dcFrame )
dc1394_capture_enqueue ( dcCam , dcFrame ) ;
if ( fs )
{
if ( fs - > image )
free ( fs - > image ) ;
free ( fs ) ;
}
return code ;
}
IplImage * CvCaptureCAM_DC1394_v2_CPP : : retrieveFrame ( int idx )
{
return 0 < = idx & & idx < nimages ? img [ idx ] : 0 ;
}
double CvCaptureCAM_DC1394_v2_CPP : : getProperty ( int propId )
{
switch ( propId )
{
case CV_CAP_PROP_FRAME_WIDTH :
return frameWidth ? frameWidth : frameHeight * 4 / 3 ;
case CV_CAP_PROP_FRAME_HEIGHT :
return frameHeight ? frameHeight : frameWidth * 3 / 4 ;
case CV_CAP_PROP_FPS :
return fps ;
case CV_CAP_PROP_RECTIFICATION :
return rectify ? 1 : 0 ;
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case CV_CAP_PROP_WHITE_BALANCE_BLUE_U :
if ( dc1394_feature_whitebalance_get_value ( dcCam ,
& feature_set . feature [ DC1394_FEATURE_WHITE_BALANCE - DC1394_FEATURE_MIN ] . BU_value ,
& feature_set . feature [ DC1394_FEATURE_WHITE_BALANCE - DC1394_FEATURE_MIN ] . RV_value ) = = DC1394_SUCCESS )
return feature_set . feature [ DC1394_FEATURE_WHITE_BALANCE - DC1394_FEATURE_MIN ] . BU_value ;
break ;
case CV_CAP_PROP_WHITE_BALANCE_RED_V :
if ( dc1394_feature_whitebalance_get_value ( dcCam ,
& feature_set . feature [ DC1394_FEATURE_WHITE_BALANCE - DC1394_FEATURE_MIN ] . BU_value ,
& feature_set . feature [ DC1394_FEATURE_WHITE_BALANCE - DC1394_FEATURE_MIN ] . RV_value ) = = DC1394_SUCCESS )
return feature_set . feature [ DC1394_FEATURE_WHITE_BALANCE - DC1394_FEATURE_MIN ] . RV_value ;
break ;
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default :
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if ( propId < CV_CAP_PROP_MAX_DC1394 & & dc1394properties [ propId ] ! = - 1
& & dcCam )
//&& feature_set.feature[dc1394properties[propId]-DC1394_FEATURE_MIN].on_off_capable)
if ( dc1394_feature_get_value ( dcCam , ( dc1394feature_t ) dc1394properties [ propId ] ,
& feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . value ) = = DC1394_SUCCESS )
return feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . value ;
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}
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return - 1 ; // the value of the feature can be 0, so returning 0 as an error is wrong
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}
bool CvCaptureCAM_DC1394_v2_CPP : : setProperty ( int propId , double value )
{
switch ( propId )
{
case CV_CAP_PROP_FRAME_WIDTH :
if ( started )
return false ;
frameWidth = cvRound ( value ) ;
frameHeight = 0 ;
break ;
case CV_CAP_PROP_FRAME_HEIGHT :
if ( started )
return false ;
frameWidth = 0 ;
frameHeight = cvRound ( value ) ;
break ;
case CV_CAP_PROP_FPS :
if ( started )
return false ;
fps = value ;
break ;
case CV_CAP_PROP_RECTIFICATION :
if ( cameraId ! = VIDERE )
return false ;
rectify = fabs ( value ) > FLT_EPSILON ;
break ;
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case CV_CAP_PROP_MODE :
userMode = cvRound ( value ) ;
break ;
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//The code below is based on coriander, callbacks.c:795, refer to case RANGE_MENU_MAN :
default :
if ( propId < CV_CAP_PROP_MAX_DC1394 & & dc1394properties [ propId ] ! = - 1
& & dcCam )
{
if ( cvRound ( value ) = = CV_CAP_PROP_DC1394_OFF )
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{
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if ( ( feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . on_off_capable )
& & ( dc1394_feature_set_power ( dcCam , ( dc1394feature_t ) dc1394properties [ propId ] , DC1394_OFF ) = = DC1394_SUCCESS ) )
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{
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feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . is_on = DC1394_OFF ;
return true ;
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}
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return false ;
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}
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//try to turn the feature ON, feature can be ON and at the same time it can be not capable to change state to OFF
if ( feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . is_on = = DC1394_OFF & &
( feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . on_off_capable = = DC1394_TRUE ) )
{
if ( dc1394_feature_set_power ( dcCam , ( dc1394feature_t ) dc1394properties [ propId ] , DC1394_ON ) = = DC1394_SUCCESS )
feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . is_on = DC1394_ON ;
}
//turn off absolute mode - the actual value will be stored in the value field,
//otherwise it would be stored into CSR (control and status register) absolute value
if ( feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . absolute_capable
& & dc1394_feature_set_absolute_control ( dcCam , ( dc1394feature_t ) dc1394properties [ propId ] , DC1394_OFF ) ! = DC1394_SUCCESS )
return false ;
else
feature_set . feature [ ( dc1394feature_t ) dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . abs_control = DC1394_OFF ;
//set AUTO
if ( cvRound ( value ) = = CV_CAP_PROP_DC1394_MODE_AUTO )
{
if ( dc1394_feature_set_mode ( dcCam , ( dc1394feature_t ) dc1394properties [ propId ] , DC1394_FEATURE_MODE_AUTO ) ! = DC1394_SUCCESS )
return false ;
feature_set . feature [ ( dc1394feature_t ) dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . current_mode = DC1394_FEATURE_MODE_AUTO ;
return true ;
}
//set ONE PUSH
if ( cvRound ( value ) = = CV_CAP_PROP_DC1394_MODE_ONE_PUSH_AUTO )
{
//have to set to manual first, otherwise one push will be ignored (AVT manual 4.3.0 p. 115)
if ( dc1394_feature_set_mode ( dcCam , ( dc1394feature_t ) dc1394properties [ propId ] , DC1394_FEATURE_MODE_ONE_PUSH_AUTO ) ! = DC1394_SUCCESS )
return false ;
//will change to
feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . current_mode = DC1394_FEATURE_MODE_ONE_PUSH_AUTO ;
return true ;
}
//set the feature to MANUAL mode,
if ( dc1394_feature_set_mode ( dcCam , ( dc1394feature_t ) dc1394properties [ propId ] , DC1394_FEATURE_MODE_MANUAL ) ! = DC1394_SUCCESS )
return false ;
else
feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . current_mode = DC1394_FEATURE_MODE_MANUAL ;
// if property is one of the white balance features treat it in different way
if ( propId = = CV_CAP_PROP_WHITE_BALANCE_BLUE_U )
{
if ( dc1394_feature_whitebalance_set_value ( dcCam , cvRound ( value ) , feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . RV_value ) ! = DC1394_SUCCESS )
return false ;
else
{
feature_set . feature [ DC1394_FEATURE_WHITE_BALANCE - DC1394_FEATURE_MIN ] . BU_value = cvRound ( value ) ;
return true ;
}
}
if ( propId = = CV_CAP_PROP_WHITE_BALANCE_RED_V )
{
if ( dc1394_feature_whitebalance_set_value ( dcCam , feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . BU_value , cvRound ( value ) ) ! = DC1394_SUCCESS )
return false ;
else
{
feature_set . feature [ DC1394_FEATURE_WHITE_BALANCE - DC1394_FEATURE_MIN ] . RV_value = cvRound ( value ) ;
return true ;
}
}
// finally set the feature
if ( dc1394_feature_set_value ( dcCam , ( dc1394feature_t ) dc1394properties [ propId ] , cvRound ( value ) ) = = DC1394_SUCCESS )
{
feature_set . feature [ dc1394properties [ propId ] - DC1394_FEATURE_MIN ] . value = value ;
return true ;
}
}
return false ;
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}
return true ;
}
bool CvCaptureCAM_DC1394_v2_CPP : : getVidereCalibrationInfo ( char * buf , int bufSize )
{
int pos ;
for ( pos = 0 ; pos < bufSize - 4 ; pos + = 4 )
{
uint32_t quad = getControlRegister ( dcCam , 0xF0800 + pos ) ;
if ( quad = = 0 | | quad = = 0xffffffff )
break ;
buf [ pos ] = ( uchar ) ( quad > > 24 ) ;
buf [ pos + 1 ] = ( uchar ) ( quad > > 16 ) ;
buf [ pos + 2 ] = ( uchar ) ( quad > > 8 ) ;
buf [ pos + 3 ] = ( uchar ) ( quad ) ;
}
if ( pos = = 0 )
return false ;
buf [ pos ] = ' \0 ' ;
return true ;
}
bool CvCaptureCAM_DC1394_v2_CPP : : initVidereRectifyMaps ( const char * info ,
IplImage * ml [ 2 ] , IplImage * mr [ 2 ] )
{
float identity_data [ ] = { 1 , 0 , 0 , 0 , 1 , 0 , 0 , 0 , 1 } ;
CvMat l_rect = cvMat ( 3 , 3 , CV_32F , identity_data ) , r_rect = l_rect ;
float l_intrinsic_data [ ] = { 1 , 0 , 0 , 0 , 1 , 0 , 0 , 0 , 1 } ;
float r_intrinsic_data [ ] = { 1 , 0 , 0 , 0 , 1 , 0 , 0 , 0 , 1 } ;
CvMat l_intrinsic = cvMat ( 3 , 3 , CV_32F , l_intrinsic_data ) ;
CvMat r_intrinsic = cvMat ( 3 , 3 , CV_32F , r_intrinsic_data ) ;
float l_distortion_data [ ] = { 0 , 0 , 0 , 0 , 0 } , r_distortion_data [ ] = { 0 , 0 , 0 , 0 , 0 } ;
CvMat l_distortion = cvMat ( 1 , 5 , CV_32F , l_distortion_data ) ;
CvMat r_distortion = cvMat ( 1 , 5 , CV_32F , r_distortion_data ) ;
IplImage * mx = cvCreateImage ( cvGetSize ( ml [ 0 ] ) , IPL_DEPTH_32F , 1 ) ;
IplImage * my = cvCreateImage ( cvGetSize ( ml [ 0 ] ) , IPL_DEPTH_32F , 1 ) ;
int k , j ;
for ( k = 0 ; k < 2 ; k + + )
{
const char * section_name = k = = 0 ? " [left_camera] " : " [right_camera] " ;
static const char * param_names [ ] = { " f " , " fy " , " Cx " , " Cy " " kappa1 " , " kappa2 " , " tau1 " , " tau2 " , " kappa3 " , 0 } ;
const char * section_start = strstr ( info , section_name ) ;
CvMat * intrinsic = k = = 0 ? & l_intrinsic : & r_intrinsic ;
CvMat * distortion = k = = 0 ? & l_distortion : & r_distortion ;
CvMat * rectification = k = = 0 ? & l_rect : & r_rect ;
IplImage * * dst = k = = 0 ? ml : mr ;
if ( ! section_start )
break ;
section_start + = strlen ( section_name ) ;
for ( j = 0 ; param_names [ j ] ! = 0 ; j + + )
{
const char * param_value_start = strstr ( section_start , param_names [ j ] ) ;
float val = 0 ;
if ( ! param_value_start )
break ;
sscanf ( param_value_start + strlen ( param_names [ j ] ) , " %f " , & val ) ;
if ( j < 4 )
intrinsic - > data . fl [ j = = 0 ? 0 : j = = 1 ? 4 : j = = 2 ? 2 : 5 ] = val ;
else
distortion - > data . fl [ j - 4 ] = val ;
}
if ( param_names [ j ] ! = 0 )
break ;
// some sanity check for the principal point
if ( fabs ( mx - > width * 0.5 - intrinsic - > data . fl [ 2 ] ) > mx - > width * 0.1 | |
fabs ( my - > height * 0.5 - intrinsic - > data . fl [ 5 ] ) > my - > height * 0.1 )
{
cvScale ( & intrinsic , & intrinsic , 0.5 ) ; // try the corrected intrinsic matrix for 2x lower resolution
if ( fabs ( mx - > width * 0.5 - intrinsic - > data . fl [ 2 ] ) > mx - > width * 0.05 | |
fabs ( my - > height * 0.5 - intrinsic - > data . fl [ 5 ] ) > my - > height * 0.05 )
cvScale ( & intrinsic , & intrinsic , 2 ) ; // revert it back if the new variant is not much better
intrinsic - > data . fl [ 8 ] = 1 ;
}
cvInitUndistortRectifyMap ( intrinsic , distortion ,
rectification , intrinsic , mx , my ) ;
cvConvertMaps ( mx , my , dst [ 0 ] , dst [ 1 ] ) ;
}
cvReleaseImage ( & mx ) ;
cvReleaseImage ( & my ) ;
return k > = 2 ;
}
CvCapture * cvCreateCameraCapture_DC1394_2 ( int index )
{
CvCaptureCAM_DC1394_v2_CPP * capture = new CvCaptureCAM_DC1394_v2_CPP ;
if ( capture - > open ( index ) )
return capture ;
delete capture ;
return 0 ;
}
# endif