From 6a8ef4952936e5bd018b2b595a3fd1bb40fbb103 Mon Sep 17 00:00:00 2001 From: scuri Date: Wed, 12 Aug 2009 04:08:57 +0000 Subject: *** empty log message *** --- include/im_capture.h | 34 +++++++++++++++++----------------- include/im_image.h | 27 +++++++++++++++++++++------ include/im_process_ana.h | 8 ++++---- include/im_process_pon.h | 10 +++++----- 4 files changed, 47 insertions(+), 32 deletions(-) (limited to 'include') diff --git a/include/im_capture.h b/include/im_capture.h index 7c130a3..bc5f732 100644 --- a/include/im_capture.h +++ b/include/im_capture.h @@ -47,19 +47,19 @@ const char* IM_DECL imVideoCaptureDeviceDesc(int device); * * \verbatim im.VideoCaptureDeviceExDesc(device: number) -> desc: string [in Lua 5] \endverbatim * \ingroup capture */ -const char* imVideoCaptureDeviceExDesc(int device); +const char* IM_DECL imVideoCaptureDeviceExDesc(int device); /** Returns the device path configuration. This is a unique string. * * \verbatim im.VideoCaptureDevicePath(device: number) -> desc: string [in Lua 5] \endverbatim * \ingroup capture */ -const char* imVideoCaptureDevicePath(int device); +const char* IM_DECL imVideoCaptureDevicePath(int device); /** Returns the vendor information. May return NULL. * * \verbatim im.VideoCaptureDeviceVendorInfo(device: number) -> desc: string [in Lua 5] \endverbatim * \ingroup capture */ -const char* imVideoCaptureDeviceVendorInfo(int device); +const char* IM_DECL imVideoCaptureDeviceVendorInfo(int device); /** Reload the device list. The devices can be dynamically removed or added to the system. * Returns the number of available devices. @@ -117,17 +117,17 @@ int IM_DECL imVideoCaptureDialogCount(imVideoCapture* vc); * dialog can be from 0 to \ref imVideoCaptureDialogCount. \n * Returns zero if failed. * - * \verbatim vc:ShowDialog(dialog: number, parent: userdata) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:ShowDialog(dialog: number, parent: userdata) -> error: boolean [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureShowDialog(imVideoCapture* vc, int dialog, void* parent); /** Allows to control the input and output of devices that have multiple input and outputs. - * cross controls in which stage the input/output will be set. Usually use 1, but some capture boards + * The cross index controls in which stage the input/output will be set. Usually use 1, but some capture boards * has a second stage. In Direct X it controls the crossbars. * - * \verbatim vc:SetInOut(input, output, cross: number) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:SetInOut(input, output, cross: number) -> error: boolean [in Lua 5] \endverbatim * \ingroup capture */ -int imVideoCaptureSetInOut(imVideoCapture* vc, int input, int output, int cross); +int IM_DECL imVideoCaptureSetInOut(imVideoCapture* vc, int input, int output, int cross); /** Returns the description of a configuration dialog. * dialog can be from 0 to \ref imVideoCaptureDialogCount. \n @@ -139,7 +139,7 @@ const char* IM_DECL imVideoCaptureDialogDesc(imVideoCapture* vc, int dialog); /** Returns the number of available video formats. \n * Returns zero if failed. * - * \verbatim vc:FormatCount() -> error: number [in Lua 5] \endverbatim + * \verbatim vc:FormatCount() -> count: number [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureFormatCount(imVideoCapture* vc); @@ -150,7 +150,7 @@ int IM_DECL imVideoCaptureFormatCount(imVideoCapture* vc); * Other sizes can be available using \ref imVideoCaptureSetImageSize. \n * Returns zero if failed. * - * \verbatim vc:GetFormat(format: number) -> error: number, width: number, height: number, desc: string [in Lua 5] \endverbatim + * \verbatim vc:GetFormat(format: number) -> error: boolean, width: number, height: number, desc: string [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureGetFormat(imVideoCapture* vc, int format, int *width, int *height, char* desc); @@ -162,7 +162,7 @@ int IM_DECL imVideoCaptureGetFormat(imVideoCapture* vc, int format, int *width, * This will not affect color_mode of the capture image. \n * Returns zero if failed. * - * \verbatim vc:SetFormat(format: number) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:SetFormat([format: number]) -> error: boolean | format: number [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureSetFormat(imVideoCapture* vc, int format); @@ -178,7 +178,7 @@ void IM_DECL imVideoCaptureGetImageSize(imVideoCapture* vc, int *width, int *hei * Valid sizes can be obtained with \ref imVideoCaptureGetFormat. \n * Returns zero if failed. * - * \verbatim vc:SetImageSize(width: number, height: number) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:SetImageSize(width: number, height: number) -> error: boolean [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureSetImageSize(imVideoCapture* vc, int width, int height); @@ -188,7 +188,7 @@ int IM_DECL imVideoCaptureSetImageSize(imVideoCapture* vc, int width, int height * It can not have an alpha channel and orientation is always bottom up. \n * Returns zero if failed or timeout expired, the buffer is not changed. * - * \verbatim vc:Frame(image: imImage, timeout: number) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:Frame(image: imImage, timeout: number) -> error: boolean [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureFrame(imVideoCapture* vc, unsigned char* data, int color_mode, int timeout); @@ -197,7 +197,7 @@ int IM_DECL imVideoCaptureFrame(imVideoCapture* vc, unsigned char* data, int col * Data format is the same as imVideoCaptureFrame. \n * Returns zero if failed. * - * \verbatim vc:OneFrame(image: imImage) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:OneFrame(image: imImage) -> error: boolean [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureOneFrame(imVideoCapture* vc, unsigned char* data, int color_mode); @@ -205,7 +205,7 @@ int IM_DECL imVideoCaptureOneFrame(imVideoCapture* vc, unsigned char* data, int * Use -1 to return the current state. \n * Returns zero if failed. * - * \verbatim vc:Live(live: number) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:Live([live: number]) -> error: boolean | live: number [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureLive(imVideoCapture* vc, int live); @@ -214,21 +214,21 @@ int IM_DECL imVideoCaptureLive(imVideoCapture* vc, int live); * Not all attributes support automatic modes. \n * Returns zero if failed. * - * \verbatim vc:ResetAttribute(attrib: string, fauto: number) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:ResetAttribute(attrib: string, fauto: boolean) -> error: boolean [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureResetAttribute(imVideoCapture* vc, const char* attrib, int fauto); /** Returns a camera or video attribute in percentage of the valid range value. \n * Returns zero if failed or attribute not supported. * - * \verbatim vc:GetAttribute(attrib: string) -> error: number, percent: number [in Lua 5] \endverbatim + * \verbatim vc:GetAttribute(attrib: string) -> error: boolean, percent: number [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureGetAttribute(imVideoCapture* vc, const char* attrib, float *percent); /** Changes a camera or video attribute in percentage of the valid range value. \n * Returns zero if failed or attribute not supported. * - * \verbatim vc:SetAttribute(attrib: string, percent: number) -> error: number [in Lua 5] \endverbatim + * \verbatim vc:SetAttribute(attrib: string, percent: number) -> error: boolean [in Lua 5] \endverbatim * \ingroup capture */ int IM_DECL imVideoCaptureSetAttribute(imVideoCapture* vc, const char* attrib, float percent); diff --git a/include/im_image.h b/include/im_image.h index fca3212..f0cc4f3 100644 --- a/include/im_image.h +++ b/include/im_image.h @@ -68,7 +68,7 @@ typedef struct _imImage /** Creates a new image. - * See also \ref imDataType and \ref imColorSpace. \n + * See also \ref imDataType and \ref imColorSpace. Image data is cleared as \ref imImageClear. \n * In Lua the IM image metatable name is "imImage". * When converted to a string will return "imImage(%p) [width=%d,height=%d,color_space=%s,data_type=%s,depth=%d]" where %p is replaced by the userdata address, * and other values are replaced by the respective attributes. @@ -85,7 +85,7 @@ imImage* imImageInit(int width, int height, int color_space, int data_type, void /** Creates a new image based on an existing one. \n * If the addicional parameters are -1, the given image parameters are used. \n - * The image atributes always are copied. + * The image atributes always are copied. HasAlpha is copied. * See also \ref imDataType and \ref imColorSpace. * * \verbatim im.ImageCreateBased(image: imImage, [width: number], [height: number], [color_space: number], [data_type: number]) -> image: imImage [in Lua 5] \endverbatim @@ -141,6 +141,14 @@ imImage* imImageDuplicate(const imImage* image); * \ingroup imgclass */ imImage* imImageClone(const imImage* image); +/** Returns an OpenGL compatible data buffer. Also returns the correspondant pixel format. \n + * The memory allocated is stored in the attribute "GLDATA" with BYTE type. And it will exists while the image exists. \n + * It can also be cleared setting the attribute to NULL. + * + * \verbatim image:GetOpenGLData() -> gldata: userdata, format: number [in Lua 5] \endverbatim + * \ingroup imgclass */ +void* imImageGetOpenGLData(imImage* image, int *format); + /** Changes an extended attribute. \n * The data will be internally duplicated. \n * If data is NULL the attribute is removed. \n @@ -168,7 +176,8 @@ const void* imImageGetAttribute(const imImage* image, const char* attrib, int *d * \ingroup imgclass */ void imImageGetAttributeList(const imImage* image, char** attrib, int *attrib_count); -/** Sets all image data to zero. +/** Sets all image data to zero. But if color space is YCBCR, LAB or LUV, and data type is BYTE or USHORT, then + * data is initialized with 128 or 32768 accordingly. * * \verbatim image:Clear() [in Lua 5] \endverbatim * \ingroup imgclass */ @@ -230,12 +239,18 @@ int imImageMatch(const imImage* image1, const imImage* image2); * \ingroup imgclass */ void imImageSetBinary(imImage* image); -/** Changes a gray data into a binary data, done in-place. +/** Changes a gray BYTE data (0,255) into a binary data (0,1), done in-place. Color space is not changed. * * \verbatim image:MakeBinary() [in Lua 5] \endverbatim * \ingroup imgclass */ void imImageMakeBinary(imImage *image); +/** Changes a binary data (0,1) into a gray BYTE data (0,255), done in-place. Color space is not changed. + * + * \verbatim image:MakeGray() [in Lua 5] \endverbatim + * \ingroup imgclass */ +void imImageMakeGray(imImage *image); + /** \defgroup imgfile imImage Storage @@ -292,7 +307,7 @@ imImage* imFileLoadBitmap(imFile* ifile, int index, int *error); * or will be a Bitmap image. \n * Attributes from the file will be stored at the image. * See also \ref imErrorCodes. \n - * For now works only for ECW file format. + * For now, it works only for the ECW file format. * * \verbatim ifile:LoadRegion(index, bitmap, xmin, xmax, ymin, ymax, width, height: number) -> image: imImage, error: number [in Lua 5] \endverbatim * Default index is 0. @@ -349,7 +364,7 @@ imImage* imFileImageLoadBitmap(const char* file_name, int index, int *error); * Returns NULL if failed. * Attributes from the file will be stored at the image. * See also \ref imErrorCodes. \n - * For now works only for ECW file format. + * For now, it works only for the ECW file format. * * \verbatim im.FileImageLoadRegion(file_name: string, index, bitmap, xmin, xmax, ymin, ymax, width, height: number, ) -> image: imImage, error: number [in Lua 5] \endverbatim * Default index is 0. diff --git a/include/im_process_ana.h b/include/im_process_ana.h index 2458be3..2853e02 100644 --- a/include/im_process_ana.h +++ b/include/im_process_ana.h @@ -45,7 +45,7 @@ unsigned long imCalcCountColors(const imImage* image); * Histogram is always 256 positions long. \n * When cumulative is different from zero it calculates the cumulative histogram. * - * \verbatim im.CalcHistogram(image: imImage, plane: number, cumulative: number) -> histo: table of numbers [in Lua 5] \endverbatim + * \verbatim im.CalcHistogram(image: imImage, plane: number, cumulative: boolean) -> histo: table of numbers [in Lua 5] \endverbatim * Where plane is the depth plane to calculate the histogram. \n * The returned table is zero indexed. image can be IM_USHORT or IM_BYTE. * \ingroup stats */ @@ -64,7 +64,7 @@ void imCalcUShortHistogram(const unsigned short* data, int count, unsigned long* * Histogram is always 256 positions long. \n * When cumulative is different from zero it calculates the cumulative histogram. * - * \verbatim im.CalcGrayHistogram(image: imImage, cumulative: number) -> histo: table of numbers [in Lua 5] \endverbatim + * \verbatim im.CalcGrayHistogram(image: imImage, cumulative: boolean) -> histo: table of numbers [in Lua 5] \endverbatim * \ingroup stats */ void imCalcGrayHistogram(const imImage* image, unsigned long* histo, int cumulative); @@ -120,8 +120,8 @@ void imCalcHistoImageStatistics(const imImage* image, int* median, int* mode); * Returns the number of regions found. Background is marked as 0. \n * Regions touching the border are considered only if touch_border=1. * - * \verbatim im.AnalyzeFindRegions(src_image: imImage, dst_image: imImage, connect: number, touch_border: number) -> count: number [in Lua 5] \endverbatim - * \verbatim im.AnalyzeFindRegionsNew(image: imImage, connect: number, touch_border: number) -> count: number, new_image: imImage [in Lua 5] \endverbatim + * \verbatim im.AnalyzeFindRegions(src_image: imImage, dst_image: imImage, connect: number, touch_border: boolean) -> count: number [in Lua 5] \endverbatim + * \verbatim im.AnalyzeFindRegionsNew(image: imImage, connect: number, touch_border: boolean) -> count: number, new_image: imImage [in Lua 5] \endverbatim * \ingroup analyze */ int imAnalyzeFindRegions(const imImage* src_image, imImage* dst_image, int connect, int touch_border); diff --git a/include/im_process_pon.h b/include/im_process_pon.h index cfed5ae..bf09a71 100644 --- a/include/im_process_pon.h +++ b/include/im_process_pon.h @@ -122,17 +122,17 @@ void imProcessBlend(const imImage* src_image1, const imImage* src_image2, const * or magnitude and phase parts (polar). \n * Source image must be IM_CFLOAT, destiny images must be IM_FLOAT. * - * \verbatim im.ProcessSplitComplex(src_image: imImage, dst_image1: imImage, dst_image2: imImage, do_polar: boolean) [in Lua 5] \endverbatim - * \verbatim im.ProcessSplitComplexNew(image: imImage, do_polar: boolean) -> dst_image1: imImage, dst_image2: imImage [in Lua 5] \endverbatim + * \verbatim im.ProcessSplitComplex(src_image: imImage, dst_image1: imImage, dst_image2: imImage, polar: boolean) [in Lua 5] \endverbatim + * \verbatim im.ProcessSplitComplexNew(image: imImage, polar: boolean) -> dst_image1: imImage, dst_image2: imImage [in Lua 5] \endverbatim * \ingroup arithm */ -void imProcessSplitComplex(const imImage* src_image, imImage* dst_image1, imImage* dst_image2, int do_polar); +void imProcessSplitComplex(const imImage* src_image, imImage* dst_image1, imImage* dst_image2, int polar); /** Merges two images as the real and imaginary parts of a complex image, \n * or as magnitude and phase parts (polar = 1). \n * Source images must be IM_FLOAT, destiny image must be IM_CFLOAT. * - * \verbatim im.ProcessMergeComplex(src_image1: imImage, src_image2: imImage, dst_image: imImage) [in Lua 5] \endverbatim - * \verbatim im.ProcessMergeComplexNew(image1: imImage, image2: imImage) -> new_image: imImage [in Lua 5] \endverbatim + * \verbatim im.ProcessMergeComplex(src_image1: imImage, src_image2: imImage, dst_image: imImage, polar: boolean) [in Lua 5] \endverbatim + * \verbatim im.ProcessMergeComplexNew(image1: imImage, image2: imImage, polar: boolean) -> new_image: imImage [in Lua 5] \endverbatim * \ingroup arithm */ void imProcessMergeComplex(const imImage* src_image1, const imImage* src_image2, imImage* dst_image, int polar); -- cgit v1.2.3