/usr/include/gavl/gavldsp.h is in libgavl-dev 1.4.0-1.
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* gavl - a general purpose audio/video processing library
*
* Copyright (c) 2001 - 2011 Members of the Gmerlin project
* gmerlin-general@lists.sourceforge.net
* http://gmerlin.sourceforge.net
*
* 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, see <http://www.gnu.org/licenses/>.
* *****************************************************************/
#ifndef GAVLDSP_H_INCLUDED
#define GAVLDSP_H_INCLUDED
#include <gavl/gavldefs.h>
/** \defgroup dsp DSP Context
* \brief DSP Context
*
* In addition to the higher level gavl converters,
* gavl provides some low-level dsp routines.
* They can be used for writing filters or codecs.
* The DSP context is initialized with a quality parameter
* (see \ref quality), which selects among various versions
* of a function.
*
* @{
*/
/** \brief Opaque DSP context
*
* You don't want to know, what's inside here.
*/
typedef struct gavl_dsp_context_s gavl_dsp_context_t;
/** \brief Function table
*
* This structure contains pointers to the available DSP
* functions.
*/
typedef struct
{
/** \brief Get the sum of absolute differences (RGB/BGR15)
* \param src_1 Plane 1
* \param src_2 Plane 2
* \param stride_1 Byte distance between scanlines for src_1
* \param stride_2 Byte distance between scanlines for src_2
* \param w Width
* \param h Height
* \returns The sum of absolute differences
*
* The RGB values will be scaled to 8 bit before the
* differences are calculated.
*/
int (*sad_rgb15)(const uint8_t * src_1, const uint8_t * src_2,
int stride_1, int stride_2,
int w, int h);
/** \brief Get the sum of absolute differences (RGB/BGR16)
* \param src_1 Plane 1
* \param src_2 Plane 2
* \param stride_1 Byte distance between scanlines for src_1
* \param stride_2 Byte distance between scanlines for src_2
* \param w Width
* \param h Height
* \returns The sum of absolute differences
*
* The RGB values will be scaled to 8 bit before the
* differences are calculated.
*/
int (*sad_rgb16)(const uint8_t * src_1, const uint8_t * src_2,
int stride_1, int stride_2,
int w, int h);
/** \brief Get the sum of absolute differences (8 bit)
* \param src_1 Plane 1
* \param src_2 Plane 2
* \param stride_1 Byte distance between scanlines for src_1
* \param stride_2 Byte distance between scanlines for src_2
* \param w Width
* \param h Height
* \returns The sum of absolute differences
*/
int (*sad_8)(const uint8_t * src_1, const uint8_t * src_2,
int stride_1, int stride_2,
int w, int h);
/** \brief Get the sum of absolute differences (16 bit)
* \param src_1 Plane 1
* \param src_2 Plane 2
* \param stride_1 Byte distance between scanlines for src_1
* \param stride_2 Byte distance between scanlines for src_2
* \param w Width
* \param h Height
* \returns The sum of absolute differences
*/
int (*sad_16)(const uint8_t * src_1, const uint8_t * src_2,
int stride_1, int stride_2,
int w, int h);
/** \brief Get the sum of absolute differences (float)
* \param src_1 Plane 1
* \param src_2 Plane 2
* \param stride_1 Byte distance between scanlines for src_1
* \param stride_2 Byte distance between scanlines for src_2
* \param w Width
* \param h Height
* \returns The sum of absolute differences
*/
float (*sad_f)(const uint8_t * src_1, const uint8_t * src_2,
int stride_1, int stride_2,
int w, int h);
/** \brief Average 2 scanlines (RGB/BGR15)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of pixels
*/
void (*average_rgb15)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num);
/** \brief Average 2 scanlines (RGB/BGR16)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of pixels
*/
void (*average_rgb16)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num);
/** \brief Average 2 scanlines (8 bit)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of bytes
*/
void (*average_8)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num);
/** \brief Average 2 scanlines (16 bit)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of shorts
*/
void (*average_16)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num);
/** \brief Average 2 scanlines (float)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of floats
*/
void (*average_f)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num);
/** \brief Interpolate 2 scanlines (RGB/BGR15)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of pixels
* \param fac Factor for src_1 (0.0 .. 1.0)
*
* Sets the destination to src_1 * fac + src_2 * (1.0-fac)
*/
void (*interpolate_rgb15)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num, float);
/** \brief Interpolate 2 scanlines (RGB/BGR16)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of pixels
* \param fac Factor for src_1 (0.0 .. 1.0)
*
* Sets the destination to src_1 * fac + src_2 * (1.0-fac)
*/
void (*interpolate_rgb16)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num, float fac);
/** \brief Interpolate 2 scanlines (8 bit)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of bytes
* \param fac Factor for src_1 (0.0 .. 1.0)
*
* Sets the destination to src_1 * fac + src_2 * (1.0-fac)
*/
void (*interpolate_8)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num, float fac);
/** \brief Interpolate 2 scanlines (16 bit)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of shorts
* \param fac Factor for src_1 (0.0 .. 1.0)
*
* Sets the destination to src_1 * fac + src_2 * (1.0-fac)
*/
void (*interpolate_16)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num, float fac);
/** \brief Interpolate 2 scanlines (float)
* \param src_1 Scanline 1
* \param src_2 Scanline 2
* \param dst Destination
* \param num Number of floats
* \param fac Factor for src_1 (0.0 .. 1.0)
*
* Sets the destination to src_1 * fac + src_2 * (1.0-fac)
*/
void (*interpolate_f)(const uint8_t * src_1, const uint8_t * src_2,
uint8_t * dst, int num, float fac);
/** \brief Do 16 bit endian swapping
* \param ptr Pointer to the data
* \param len Len in 16 bit words
*/
void (*bswap_16)(void * ptr, int len);
/** \brief Do 32 byte endian swapping
* \param ptr Pointer to the data
* \param len Len in 32 bit doublewords
*/
void (*bswap_32)(void * ptr, int len);
/** \brief Do 64 byte endian swapping
* \param ptr Pointer to the data
* \param len Len in 64 bit quadwords
*/
void (*bswap_64)(void * ptr, int len);
/** \brief Add 2 uint8_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_u8)(const void * src1, const void * src2, void * dst, int num);
/** \brief Add 2 uint8_t vectors (for audio stored as unsigned)
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_u8_s)(const void * src1, const void * src2, void * dst, int num);
/** \brief Add 2 int8_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_s8)(const void * src1, const void * src2, void * dst, int num);
/** \brief Add 2 uint16_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_u16)(const void * src1, const void * src2, void * dst, int num);
/** \brief Add 2 uint16_t vectors (for audio stored as unsigned)
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_u16_s)(const void * src1, const void * src2, void * dst, int num);
/** \brief Add 2 int16_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_s16)(const void * src1, const void * src2, void * dst, int num);
/** \brief Add 2 int32_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_s32)(const void * src1, const void * src2, void * dst, int num);
/** \brief Add 2 float vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_float)(const void * src1, const void * src2, void * dst, int num);
/** \brief Add 2 float vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*add_double)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 uint8_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_u8)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 uint8_t vectors (for audio stored as unsigned)
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_u8_s)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 int8_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_s8)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 uint16_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_u16)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 uint16_t vectors (for audio stored as unsigned)
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_u16_s)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 int16_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_s16)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 int32_t vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_s32)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 float vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_float)(const void * src1, const void * src2, void * dst, int num);
/** \brief Subtract 2 float vectors
* \param src1 Source 1
* \param src2 Source 2
* \param dst Destination
* \param num Number of entries
*
* src1 and/or src2 can be identical to dst
*/
void (*sub_double)(const void * src1, const void * src2, void * dst, int num);
} gavl_dsp_funcs_t;
/** \brief Create a DSP context
* \returns A newly allocated DSP context
*
* This initialized a DSP context with all functions
* chosen according to the default quality value.
*/
GAVL_PUBLIC
gavl_dsp_context_t * gavl_dsp_context_create();
/** \brief Set the quality for a DSP context
* \param ctx A DSP context
* \param q A quality level
*
* See \ref quality.
*/
GAVL_PUBLIC
void gavl_dsp_context_set_quality(gavl_dsp_context_t * ctx,
int q);
/** \brief Set the acceleration flags for a DSP context
* \param ctx A DSP context
* \param flags Flags
*
* By default the flags are detected automatically and
* functions are chosen based on the quality
*/
GAVL_PUBLIC
void gavl_dsp_context_set_accel_flags(gavl_dsp_context_t * ctx,
int flags);
/** \brief Get the functions
* \param ctx A DSP context
* \returns The function table
*
* The address of the table itself won't change by a call
* to \ref gavl_dsp_context_set_quality, but the contained
* functions will.
*/
GAVL_PUBLIC gavl_dsp_funcs_t *
gavl_dsp_context_get_funcs(gavl_dsp_context_t * ctx);
/** \brief Destroy a DSP context
* \param ctx A DSP context
*/
GAVL_PUBLIC
void gavl_dsp_context_destroy(gavl_dsp_context_t * ctx);
/** @}
*/
/** \defgroup dsputils DSP Utilities
* \ingroup dsp
* \brief DSP Utilities
*
* These are some utility functions, which use a DSP context but
* operate on higher level structures like video frames.
* As usual, these are supported for any format.
*
* @{
*/
/** \brief Do a linear interpolation of a video frame
* \param ctx A DSP context
* \param format Video format
* \param src_1 Frame 1
* \param src_2 Frame 2
* \param dst Destination frame
* \param factor Interpolation factor
* \returns 1 on success, 0 if an error occurred
*
* If factor is 1.0, dst will be equal to src1,
* if factor is 0.0, dst will be equal to src2.
*
* If the quality is at least GAVL_QUALITY_MIN, this function
* never fails.
*/
GAVL_PUBLIC
int gavl_dsp_interpolate_video_frame(gavl_dsp_context_t * ctx,
gavl_video_format_t * format,
gavl_video_frame_t * src_1,
gavl_video_frame_t * src_2,
gavl_video_frame_t * dst,
float factor);
/*!
\brief Swap endianess an audio frame.
\param ctx An initialized dsp context
\param frame An audio frame
\param format The format of the frame
\returns 1 on success, 0 if an error occurred
If the quality is at least GAVL_QUALITY_MIN, this function
never fails.
*/
GAVL_PUBLIC
int gavl_dsp_audio_frame_swap_endian(gavl_dsp_context_t * ctx,
gavl_audio_frame_t * frame,
const gavl_audio_format_t * format);
/*!
\brief Swap endianess a video frame.
\param ctx An initialized dsp context
\param frame A video frame
\param format The format of the frame
\returns 1 on success, 0 if an error occurred
This function swaps endianess for pixelformats, which
have multibyte numbers as components.
For 32 bit long formats with 8 bit components, it swaps the
pixels as if they were 32 bit integers.
For all other formats, it does nothing.
If the quality is at least GAVL_QUALITY_MIN, this function
never fails.
*/
GAVL_PUBLIC
int gavl_dsp_video_frame_swap_endian(gavl_dsp_context_t * ctx,
gavl_video_frame_t * frame,
const gavl_video_format_t * format);
/**
* @}
*/
#endif // GAVLDSP_H_INCLUDED
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