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/******************************************************************************
* recordMyDesktop *
*******************************************************************************
* *
* Copyright (C) 2006,2007,2008 John Varouhakis *
* *
* *
* 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 *
* *
* *
* *
* For further information contact me at johnvarouhakis@gmail.com *
******************************************************************************/
#ifndef RMDMACRO_H
#define RMDMACRO_H 1
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include "rmdtypes.h"
//define which way we are reading a pixmap
#if __BYTE_ORDER == __LITTLE_ENDIAN
#define __ABYTE 3
#define __RBYTE 2
#define __GBYTE 1
#define __BBYTE 0
#elif __BYTE_ORDER == __BIG_ENDIAN
#define __ABYTE 0
#define __RBYTE 1
#define __GBYTE 2
#define __BBYTE 3
#else
#error Only little-endian and big-endian systems are supported
#endif
#define __RVALUE_32(tmp_val) (((tmp_val)&0x00ff0000)>>16)
#define __GVALUE_32(tmp_val) (((tmp_val)&0x0000ff00)>>8)
#define __BVALUE_32(tmp_val) (((tmp_val)&0x000000ff))
#define __R16_MASK 0xf800
#define __G16_MASK 0x7e0
#define __B16_MASK 0x1f
#define __RVALUE_16(tmp_val) ((((tmp_val)&__R16_MASK)>>11)*8)
#define __GVALUE_16(tmp_val) ((((tmp_val)&__G16_MASK)>>5)*4)
#define __BVALUE_16(tmp_val) ((((tmp_val)&__B16_MASK))*8)
//xfixes pointer data are written as unsigned long
//(even though the server returns CARD32)
//so we need to set the step accordingly to
//avoid problems (amd64 has 8byte ulong)
#define RMD_ULONG_SIZE_T (sizeof(unsigned long))
//size of stride when comparing planes(depending on type)
//this is just to avoid thousands of sizeof's
#ifdef HAVE_U_INT64_T
#define COMPARE_STRIDE 8
#else
#define COMPARE_STRIDE 4
#endif
//The width, in bytes, of the blocks
//on which the y,u and v planes are broken.
//These blocks are square.
#define Y_UNIT_WIDTH 0x0010
#define UV_UNIT_WIDTH 0x0008
#ifdef HAVE_LIBASOUND
#define DEFAULT_AUDIO_DEVICE "hw:0,0"
#else
#define DEFAULT_AUDIO_DEVICE "/dev/dsp"
#endif
#define DEFAULT_ARGS(args){\
(args)->delay=0;\
if(getenv("DISPLAY")!=NULL){\
(args)->display=(char *)malloc(strlen(getenv("DISPLAY"))+1);\
strcpy((args)->display,getenv("DISPLAY"));\
}\
else\
(args)->display=NULL;\
(args)->windowid=\
(args)->x=\
(args)->y=\
(args)->width=\
(args)->height=\
(args)->nosound=\
(args)->full_shots=\
(args)->follow_mouse=\
(args)->encOnTheFly=\
(args)->nowmcheck=\
(args)->overwrite=\
(args)->use_jack=\
(args)->noshared=\
(args)->no_encode=\
(args)->noframe=\
(args)->jack_nports=0;\
(args)->jack_ringbuffer_secs=3.0;\
(args)->jack_port_names=NULL;\
(args)->zerocompression=\
(args)->no_quick_subsample=1;\
(args)->filename=(char *)malloc(8);\
strcpy((args)->filename,"out.ogv");\
(args)->cursor_color=1;\
(args)->have_dummy_cursor=0;\
(args)->xfixes_cursor=1;\
(args)->device=(char *)malloc(strlen(DEFAULT_AUDIO_DEVICE)+1);\
strcpy((args)->device,DEFAULT_AUDIO_DEVICE);\
(args)->fps=15;\
(args)->channels=1;\
(args)->frequency=22050;\
(args)->buffsize=4096;\
(args)->v_bitrate=45000;\
(args)->v_quality=63;\
(args)->s_quality=10;\
(args)->workdir=(char *)malloc(5);\
strcpy((args)->workdir,"/tmp");\
(args)->pause_shortcut=(char *)malloc(15);\
strcpy((args)->pause_shortcut,"Control+Mod1+p");\
(args)->stop_shortcut=(char *)malloc(15);\
strcpy((args)->stop_shortcut,"Control+Mod1+s");\
}
#define AVG_4_PIXELS(data_array,width_img,k_tm,i_tm,offset)\
((data_array[(k_tm*width_img+i_tm)*RMD_ULONG_SIZE_T+offset]+\
data_array[((k_tm-1)*width_img+i_tm)*RMD_ULONG_SIZE_T+offset]+\
data_array[(k_tm*width_img+i_tm-1)*RMD_ULONG_SIZE_T+offset]+\
data_array[((k_tm-1)*width_img+i_tm-1)*RMD_ULONG_SIZE_T+offset])/4)
//the 4 most significant bytes represent the A component which
//does not need to be added on t_val, as it is always unused
#define CALC_TVAL_AVG_32(t_val,datapi,datapi_next){\
register unsigned int t1,t2,t3,t4;\
t1=*datapi;\
t2=*(datapi+1);\
t3=*datapi_next;\
t4=*(datapi_next+1);\
t_val=((((t1&0x00ff0000) +(t2&0x00ff0000)+\
(t3&0x00ff0000)+(t4&0x00ff0000))/4)&0x00ff0000)+\
((((t1&0x0000ff00) +(t2&0x0000ff00)+\
(t3&0x0000ff00)+(t4&0x0000ff00))/4)&0x0000ff00)+\
((((t1&0x000000ff) +(t2&0x000000ff)+\
(t3&0x000000ff)+(t4&0x000000ff))/4)&0x000000ff);\
}
//when adding the r values, we go beyond
//the (16 bit)range of the t_val variable, but we are performing
//32 bit arithmetics, so there's no problem.
//(This note is useless, I'm just adding because
//the addition of the A components in CALC_TVAL_AVG_32,
//now removed as uneeded, produced an overflow which would have caused
//color distrtion, where it one of the R,G or B components)
#define CALC_TVAL_AVG_16(t_val,datapi,datapi_next){\
register u_int16_t t1,t2,t3,t4;\
t1=*datapi;\
t2=*(datapi+1);\
t3=*datapi_next;\
t4=*(datapi_next+1);\
t_val=((((t1&__R16_MASK) +(t2&__R16_MASK)+\
(t3&__R16_MASK)+(t4&__R16_MASK))/4)&__R16_MASK)+\
((((t1&__G16_MASK) +(t2&__G16_MASK)+\
(t3&__G16_MASK)+(t4&__G16_MASK))/4)&__G16_MASK)+\
((((t1&__B16_MASK) +(t2&__B16_MASK)+\
(t3&__B16_MASK)+(t4&__B16_MASK))/4)&__B16_MASK);\
}
#define POINT_IN_BLOCK(xv,yv,widthv,blocksize) ((yv/blocksize)*\
(widthv/blocksize)+\
(xv/blocksize))
#define UPDATE_Y_PLANE(data,\
x_tm,\
y_tm,\
height_tm,\
width_tm,\
yuv,\
__bit_depth__){ \
int k,i;\
register u_int##__bit_depth__##_t t_val;\
register unsigned char *yuv_y=yuv->y+x_tm+y_tm*yuv->y_width,\
*_yr=Yr,*_yg=Yg,*_yb=Yb;\
register u_int##__bit_depth__##_t *datapi=(u_int##__bit_depth__##_t *)data;\
for(k=0;k<height_tm;k++){\
for(i=0;i<width_tm;i++){\
t_val=*datapi;\
*yuv_y=_yr[__RVALUE_##__bit_depth__(t_val)] +\
_yg[__GVALUE_##__bit_depth__(t_val)] +\
_yb[__BVALUE_##__bit_depth__(t_val)] ;\
datapi++;\
yuv_y++;\
}\
yuv_y+=yuv->y_width-width_tm;\
}\
}
#define UPDATE_Y_PLANE_DBUF(data,\
data_back,\
x_tm,\
y_tm,\
height_tm,\
width_tm,\
yuv,\
__bit_depth__){ \
int k,i;\
register u_int##__bit_depth__##_t t_val;\
register unsigned char *yuv_y=yuv->y+x_tm+y_tm*yuv->y_width,\
*_yr=Yr,*_yg=Yg,*_yb=Yb;\
register u_int##__bit_depth__##_t *datapi=(u_int##__bit_depth__##_t *)data,\
*datapi_back=(u_int##__bit_depth__##_t *)data_back;\
for(k=0;k<height_tm;k++){\
for(i=0;i<width_tm;i++){\
if(*datapi!=*datapi_back){\
t_val=*datapi;\
*yuv_y=_yr[__RVALUE_##__bit_depth__(t_val)] +\
_yg[__GVALUE_##__bit_depth__(t_val)] +\
_yb[__BVALUE_##__bit_depth__(t_val)] ;\
yblocks[POINT_IN_BLOCK(i,k,width_tm,Y_UNIT_WIDTH)]=1;\
}\
datapi++;\
datapi_back++;\
yuv_y++;\
}\
yuv_y+=yuv->y_width-width_tm;\
}\
}
#define UPDATE_A_UV_PIXEL(yuv_u,\
yuv_v,\
t_val,\
datapi,\
datapi_next,\
_ur,_ug,_ubvr,_vg,_vb,\
__sampling_type,\
__bit_depth__)\
if(__sampling_type==__PXL_AVERAGE){\
CALC_TVAL_AVG_##__bit_depth__(t_val,datapi,datapi_next)\
}\
else\
t_val=*datapi;\
*yuv_u=\
_ur[__RVALUE_##__bit_depth__(t_val)] +\
_ug[__GVALUE_##__bit_depth__(t_val)] +\
_ubvr[__BVALUE_##__bit_depth__(t_val)];\
*yuv_v=\
_ubvr[__RVALUE_##__bit_depth__(t_val)] +\
_vg[__GVALUE_##__bit_depth__(t_val)] +\
_vb[__BVALUE_##__bit_depth__(t_val)];\
#define UPDATE_UV_PLANES(data,\
x_tm,\
y_tm,\
height_tm,\
width_tm,\
yuv,\
__sampling_type,\
__bit_depth__){ \
int k,i;\
register u_int##__bit_depth__##_t t_val;\
register unsigned char *yuv_u=yuv->u+x_tm/2+(y_tm*yuv->uv_width)/2,\
*yuv_v=yuv->v+x_tm/2+(y_tm*yuv->uv_width)/2,\
*_ur=Ur,*_ug=Ug,*_ubvr=UbVr,\
*_vg=Vg,*_vb=Vb;\
register u_int##__bit_depth__##_t *datapi=(u_int##__bit_depth__##_t *)data,\
*datapi_next=NULL;\
if(__sampling_type==__PXL_AVERAGE){\
datapi_next=datapi+width_tm;\
}\
for(k=0;k<height_tm;k+=2){\
for(i=0;i<width_tm;i+=2){\
UPDATE_A_UV_PIXEL( yuv_u,\
yuv_v,\
t_val,\
datapi,\
datapi_next,\
_ur,_ug,_ubvr,_vg,_vb,\
__sampling_type,\
__bit_depth__)\
datapi+=2;\
if(__sampling_type==__PXL_AVERAGE)\
datapi_next+=2;\
yuv_u++;\
yuv_v++;\
}\
yuv_u+=(yuv->y_width-width_tm)/2;\
yuv_v+=(yuv->y_width-width_tm)/2;\
datapi+=width_tm;\
if(__sampling_type==__PXL_AVERAGE)\
datapi_next+=width_tm;\
}\
}
#define UPDATE_UV_PLANES_DBUF( data,\
data_back,\
x_tm,\
y_tm,\
height_tm,\
width_tm,\
yuv,\
__sampling_type,\
__bit_depth__){ \
int k,i;\
register u_int##__bit_depth__##_t t_val;\
register unsigned char *yuv_u=yuv->u+x_tm/2+(y_tm*yuv->uv_width)/2,\
*yuv_v=yuv->v+x_tm/2+(y_tm*yuv->uv_width)/2,\
*_ur=Ur,*_ug=Ug,*_ubvr=UbVr,\
*_vg=Vg,*_vb=Vb;\
register u_int##__bit_depth__##_t *datapi=(u_int##__bit_depth__##_t *)data,\
*datapi_next=NULL,\
*datapi_back=(u_int##__bit_depth__##_t *)data_back,\
*datapi_back_next=NULL;\
if(__sampling_type==__PXL_AVERAGE){\
datapi_next=datapi+width_tm;\
datapi_back_next=datapi_back+width_tm;\
for(k=0;k<height_tm;k+=2){\
for(i=0;i<width_tm;i+=2){\
if(( (*datapi!=*datapi_back) ||\
(*(datapi+1)!=*(datapi_back+1)) ||\
(*datapi_next!=*datapi_back_next) ||\
(*(datapi_next+1)!=*(datapi_back_next+1)))){\
UPDATE_A_UV_PIXEL( yuv_u,\
yuv_v,\
t_val,\
datapi,\
datapi_next,\
_ur,_ug,_ubvr,_vg,_vb,\
__sampling_type,\
__bit_depth__)\
ublocks[POINT_IN_BLOCK(i,k,width_tm,Y_UNIT_WIDTH)]=1;\
vblocks[POINT_IN_BLOCK(i,k,width_tm,Y_UNIT_WIDTH)]=1;\
}\
datapi+=2;\
datapi_back+=2;\
if(__sampling_type==__PXL_AVERAGE){\
datapi_next+=2;\
datapi_back_next+=2;\
}\
yuv_u++;\
yuv_v++;\
}\
yuv_u+=(yuv->y_width-width_tm)/2;\
yuv_v+=(yuv->y_width-width_tm)/2;\
datapi+=width_tm;\
datapi_back+=width_tm;\
if(__sampling_type==__PXL_AVERAGE){\
datapi_next+=width_tm;\
datapi_back_next+=width_tm;\
}\
}\
}\
else{\
for(k=0;k<height_tm;k+=2){\
for(i=0;i<width_tm;i+=2){\
if ((*datapi!=*datapi_back)){\
UPDATE_A_UV_PIXEL( yuv_u,\
yuv_v,\
t_val,\
datapi,\
datapi_next,\
_ur,_ug,_ubvr,_vg,_vb,\
__sampling_type,\
__bit_depth__)\
ublocks[POINT_IN_BLOCK(i,k,width_tm,Y_UNIT_WIDTH)]=1;\
vblocks[POINT_IN_BLOCK(i,k,width_tm,Y_UNIT_WIDTH)]=1;\
}\
datapi+=2;\
datapi_back+=2;\
if(__sampling_type==__PXL_AVERAGE){\
datapi_next+=2;\
datapi_back_next+=2;\
}\
yuv_u++;\
yuv_v++;\
}\
yuv_u+=(yuv->y_width-width_tm)/2;\
yuv_v+=(yuv->y_width-width_tm)/2;\
datapi+=width_tm;\
datapi_back+=width_tm;\
if(__sampling_type==__PXL_AVERAGE){\
datapi_next+=width_tm;\
datapi_back_next+=width_tm;\
}\
}\
}\
}
#define UPDATE_YUV_BUFFER(yuv,\
data,\
data_back,\
x_tm,\
y_tm,\
width_tm,\
height_tm,\
__sampling_type,\
__color_depth){\
if(data_back==NULL){\
if((__color_depth==24)||(__color_depth==32)){\
UPDATE_Y_PLANE(data,x_tm,y_tm,height_tm,width_tm,yuv,32)\
UPDATE_UV_PLANES(data,x_tm,y_tm,height_tm,width_tm,\
yuv,__sampling_type,32)\
}\
else if(__color_depth==16){\
UPDATE_Y_PLANE(data,x_tm,y_tm,height_tm,width_tm,yuv,16)\
UPDATE_UV_PLANES(data,x_tm,y_tm,height_tm,width_tm,\
yuv,__sampling_type,16)\
}\
}\
else{\
if((__color_depth==24)||(__color_depth==32)){\
UPDATE_Y_PLANE_DBUF(data,data_back,x_tm,y_tm,\
height_tm,width_tm,yuv,32)\
UPDATE_UV_PLANES_DBUF(data,data_back,x_tm,y_tm,height_tm,width_tm,\
yuv,__sampling_type,32)\
}\
else if(__color_depth==16){\
UPDATE_Y_PLANE_DBUF(data,data_back,x_tm,y_tm,\
height_tm,width_tm,yuv,16)\
UPDATE_UV_PLANES_DBUF(data,data_back,x_tm,y_tm,height_tm,width_tm,\
yuv,__sampling_type,16)\
}\
}\
}
#define DUMMY_POINTER_TO_YUV(yuv,\
data_tm,\
x_tm,\
y_tm,\
width_tm,\
height_tm,\
x_offset,\
y_offset,\
no_pixel){\
int i,k,j=0;\
int x_2=x_tm/2,y_2=y_tm/2,y_width_2=(yuv)->y_width/2;\
for(k=y_offset;k<y_offset+height_tm;k++){\
for(i=x_offset;i<x_offset+width_tm;i++){\
j=k*16+i;\
if(data_tm[(j*4)]!=(no_pixel)){\
(yuv)->y[x_tm+(i-x_offset)+((k-y_offset)+y_tm)*(yuv)->y_width]=\
Yr[data_tm[(j*4)+__RBYTE]] +\
Yg[data_tm[(j*4)+__GBYTE]] +\
Yb[data_tm[(j*4)+__BBYTE]];\
if((k%2)&&(i%2)){\
yuv->u[x_2+(i-x_offset)/2+((k-y_offset)/2+y_2)*y_width_2]=\
Ur[data_tm[(k*width_tm+i)*4+__RBYTE]] +\
Ug[data_tm[(k*width_tm+i)*4+__GBYTE]] +\
UbVr[data_tm[(k*width_tm+i)*4+__BBYTE]];\
yuv->v[x_2+(i-x_offset)/2+((k-y_offset)/2+y_2)*y_width_2]=\
UbVr[data_tm[(k*width_tm+i)*4+__RBYTE]] +\
Vg[data_tm[(k*width_tm+i)*4+__GBYTE]] +\
Vb[data_tm[(k*width_tm+i)*4+__BBYTE]] ;\
}\
}\
}\
}\
}
#define MARK_BACK_BUFFER_C( data,\
x_tm,\
y_tm,\
width_tm,\
height_tm,\
buffer_width,\
__bit_depth__){\
int k,i;\
register u_int##__bit_depth__##_t\
*datapi=\
((u_int##__bit_depth__##_t *)data)+y_tm*buffer_width+x_tm;\
for(k=0;k<height_tm;k++){\
for(i=0;i<width_tm;i++){\
*datapi+=1;\
datapi++;\
}\
datapi+=buffer_width-width_tm;\
}\
}
#define I16TOA(number,buffer){\
int t_num=(number),__k=0,__i=0;\
char *t_buf=malloc(8);\
t_num=t_num&((2<<15)-1);\
while(t_num>0){\
int digit=t_num%10;\
t_buf[__k]=digit+48;\
t_num-=digit;\
t_num/=10;\
__k++;\
}\
while(__k>0)\
(buffer)[__i++]=t_buf[--__k];\
(buffer)[__i]='\0';\
free(t_buf);\
};\
#define CLEAR_FRAME(frame_t){\
free((frame_t)->YData);\
free((frame_t)->UData);\
free((frame_t)->VData);\
};
#endif
|