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|
/* dip.c
* Digital Image Processing routines
* (c) 2000-2002 Karel 'Clock' Kulhavy
* This file is a part of the Links program, released under GPL.
* This does various utilities for digital image processing including font
* rendering.
*/
#include "cfg.h"
#ifdef G
#include "links.h"
#ifdef HAVE_MATH_H
#include <math.h>
#endif /* HAVE_MATH_H */
#endif
int dither_letters=1;
double user_gamma=1.0; /* 1.0 for 64 lx. This is the number user directly changes in the menu */
double display_red_gamma=2.2; /* Red gamma exponent of the display */
double display_green_gamma=2.2; /* Green gamma exponent of the display */
double display_blue_gamma=2.2; /* Blue gamma exponent of the display */
#ifdef G
/* #define this if you want to report missing letters to stderr.
* Leave it commented up for normal operation and releases! */
/* #define REPORT_UNKNOWN 1 */
double sRGB_gamma=0.45455; /* For HTML, which runs
* according to sRGB standard. Number
* in HTML tag is linear to photons raised
* to this power.
*/
unsigned long aspect=65536; /* aspect=65536 for 320x240
* aspect=157286 for 640x200 (tall pixels)
* Defines aspect ratio of screen pixels.
* aspect=(196608*xsize+ysize<<1)/(ysize<<1);
* Default is 65536 because we assume square pixel
* when not specified otherwise. Aspect is ratio of
* the pixel height (in milimeters) to pixel width,
* multiplied by 65536. */
unsigned long aspect_native=65536; /* Like aspect, but not influenced by
* user, just determined by graphics driver.
*/
/* Limitation: No input image's dimension may exceed 2^(32-1-8) pixels.
*/
/* Each input byte represents 1 byte (gray). The question whether 0 is
* black or 255 is black doesn't matter.
*/
/* These constants represent contrast-enhancement and sharpen filter (which is one filter
* together) that is applied onto the letters to enhance their appearance at low height.
* They were determined by experiment for several values, interpolated, checked and tuned.
* If you change them, don't wonder if the letters start to look strange.
* The numers in the comments denote which height the line applies for.
*/
static float fancy_constants[64]={
0,3, /* 1 */
.1,3, /* 2 */
.2,3, /* 3 */
.3,2.9, /* 4 */
.4,2.7, /* 5 */
.4,2.5, /* 6 */
.4,2, /* 7 */
.5,2, /* 8 */
.4,2, /* 9 */
.38,1.9, /* 10 */
.36,1.8, /* 11 */
.33,1.7, /* 12 */
.30,1.6, /* 13 */
.25,1.5, /* 14 */
.20,1.5, /* 15 */
.15,1.5, /* 16 */
.14,1.5, /* 17 */
.13,1.5, /* 18 */
.12,1.5, /* 19 */
.12,1.5, /* 20 */
.12,1.5, /* 21 */
.12,1.5, /* 22 */
.11,1.5, /* 23 */
.10,1.4, /* 24 */
.09,1.3, /* 25 */
.08,1.3, /* 26 */
.04,1.2, /* 27 */
.04,1.2, /* 28 */
.02,1.1, /* 29 */
.02,1.1, /* 30 */
.01,1, /* 31 */
.01,1 /* 32 */
};
/* This shall be hopefully reasonably fast and portable
* We assume ix is <65536. If not, the letters will be smaller in
* horizontal dimension (because of overflow) but this will not cause
* a segfault. 65536 pixels wide bitmaps are not normal and will anyway
* exhaust the memory.
*/
static inline int compute_width (int ix, int iy, int required_height)
{
int width;
unsigned long reg;
reg=(unsigned long)aspect*(unsigned long)required_height;
if (reg>=0x1000000UL){
/* It's big */
reg=(reg+32768)>>16;
width=(reg*ix+(iy>>1))/iy;
}else{
/* It's small */
reg=(reg+128)>>8;
iy<<=8;
width=(reg*ix+(iy>>1))/iy;
}
if (width<1) width=1;
return width;
}
static struct lru font_cache;
/* This is a cache for screen-ready colored bitmaps
* of lettrs and/or alpha channels for these (are the
* same size, only one byte per pixel and are used
* for letters with an image under them )
*/
/* Each input byte represents 1 byte (gray). The question whether 0 is
* black or 255 is black doesn't matter.
*/
inline static void add_col_gray(unsigned *col_buf, unsigned char *ptr, int
line_skip, int n, unsigned weight)
{
for (;n;n--){
*col_buf+=weight*(*ptr);
ptr+=line_skip;
col_buf++;
}
}
/* line_skip is in pixels. The column contains the whole pixels (R G B)
* We assume unsigned short holds at least 16 bits. */
inline static void add_col_color(unsigned *col_buf, unsigned short *ptr
, int line_skip, int n, unsigned weight)
{
for (;n;n--){
*col_buf+=weight*(*ptr);
col_buf[1]+=weight*ptr[1];
col_buf[2]+=weight*ptr[2];
ptr+=line_skip;
col_buf+=3;
}
}
/* We assume unsigned short holds at least 16 bits. */
inline static void add_row_gray(unsigned *row_buf, unsigned char *ptr, int n,
unsigned weight)
{
for (;n;n--){
*row_buf+=weight**ptr;
ptr++;
row_buf++;
}
}
/* n is in pixels. pixel is 3 unsigned shorts in series */
/* We assume unsigned short holds at least 16 bits. */
inline static void add_row_color(unsigned *row_buf, unsigned short *ptr, int n, unsigned weight)
{
for (;n;n--){
*row_buf+=weight**ptr;
row_buf[1]+=weight*ptr[1];
row_buf[2]+=weight*ptr[2];
ptr+=3;
row_buf+=3;
}
}
/* We assume unsigned holds at least 32 bits */
inline static void emit_and_bias_col_gray(unsigned *col_buf, unsigned char *out, int
line_skip, int n, unsigned weight)
{
unsigned half=weight>>1;
for (;n;n--){
*out=*col_buf/weight;
out+=line_skip;
*col_buf++=half;
}
}
/* We assume unsigned holds at least 32 bits */
static inline void bias_buf_gray(unsigned *col_buf, int n, unsigned half)
{
for (;n;n--) *col_buf++=half;
}
/* We assume unsigned holds at least 32 bits */
inline static void bias_buf_color(unsigned *col_buf, int n, unsigned half)
{
for (;n;n--){
*col_buf=half;
col_buf[1]=half;
col_buf[2]=half;
col_buf+=3;
}
/* System activated */
}
/* line skip is in pixels. Pixel is 3*unsigned short */
/* We assume unsigned holds at least 32 bits */
/* We assume unsigned short holds at least 16 bits. */
inline static void emit_and_bias_col_color(unsigned *col_buf
, unsigned short *out, int line_skip, int n, unsigned weight)
{
unsigned half=weight>>1;
for (;n;n--){
*out=(*col_buf)/weight;
*col_buf=half;
out[1]=col_buf[1]/weight;
col_buf[1]=half;
/* The following line is an enemy of the State and will be
* prosecuted according to the Constitution of The United States
* Cap. 20/3 ix. Sel. Bill 12/1920
* Moses 12/20 Erizea farizea 2:2:1:14
*/
out[2]=col_buf[2]/weight;
col_buf[2]=half;
out+=line_skip;
col_buf+=3;
}
}
/* We assume unsigned holds at least 32 bits */
inline static void emit_and_bias_row_gray(unsigned *row_buf, unsigned char *out, int n
,unsigned weight)
{
unsigned half=weight>>1;
for (;n;n--){
*out++=*row_buf/weight;
*row_buf++=half;
}
}
/* n is in pixels. pixel is 3 unsigned shorts in series. */
/* We assume unsigned holds at least 32 bits */
/* We assume unsigned short holds at least 16 bits. */
inline static void emit_and_bias_row_color(unsigned *row_buf, unsigned short
*out, int n, unsigned weight)
{
unsigned half=weight>>1;
for (;n;n--){
*out=*row_buf/weight;
*row_buf=half;
out[1]=row_buf[1]/weight;
row_buf[1]=half;
out[2]=row_buf[2]/weight;
row_buf[2]=half;
out+=3;
row_buf+=3;
}
}
/* For enlargement only -- does linear filtering.
* Allocates output and frees input.
* We assume unsigned holds at least 32 bits */
inline static void enlarge_gray_horizontal(unsigned char *in, int ix, int y
,unsigned char ** out, int ox)
{
unsigned *col_buf;
int total;
int out_pos,in_pos,in_begin,in_end;
unsigned half=(ox-1)>>1;
unsigned char *outptr;
unsigned char *inptr;
if (ox && (unsigned)ox * (unsigned)y / (unsigned)ox != (unsigned)y) overalloc();
if ((unsigned)ox * (unsigned)y > MAXINT) overalloc();
outptr=mem_alloc(ox*y);
inptr=in;
*out=outptr;
if (ix==1){
/* Dull copying */
for (;y;y--){
memset(outptr,*inptr,ox);
outptr+=ox;
inptr++;
}
mem_free(in);
}else{
total=(ix-1)*(ox-1);
if ((unsigned)y > MAXINT / sizeof(*col_buf)) overalloc();
col_buf=mem_alloc(y*sizeof(*col_buf));
bias_buf_gray(col_buf, y, half);
out_pos=0;
in_pos=0;
again:
in_begin=in_pos;
in_end=in_pos+ox-1;
add_col_gray(col_buf,inptr, ix, y, in_end-out_pos);
add_col_gray(col_buf,inptr+1, ix, y, out_pos-in_begin);
emit_and_bias_col_gray(col_buf,outptr,ox,y,ox-1);
outptr++;
out_pos+=ix-1;
if (out_pos>in_end){
in_pos=in_end;
inptr++;
}
if (out_pos>total){
mem_free(in);
mem_free(col_buf);
return;
}
goto again;
}
/* Rohan, oh Rohan... */
/* ztracena zeme :) */
}
/* For enlargement only -- does linear filtering
* Frees input and allocates output.
* We assume unsigned holds at least 32 bits
*/
static inline void enlarge_color_horizontal(unsigned short *ina, int ix, int y,
unsigned short ** outa, int ox)
{
unsigned *col_buf;
int total,a,out_pos,in_pos,in_begin,in_end;
unsigned half=(ox-1)>>1;
unsigned skip=3*ix;
unsigned oskip=3*ox;
unsigned short *out, *in;
if (ix==ox){
*outa=ina;
return;
}
if (ox && (unsigned)ox * (unsigned)y / (unsigned)ox != (unsigned)y) overalloc();
if ((unsigned)ox * (unsigned)y > MAXINT / 3 / sizeof(*out)) overalloc();
out=mem_alloc(sizeof(*out)*3*ox*y);
*outa=out;
in=ina;
if (ix==1){
for (;y;y--,in+=3) for (a=ox;a;a--,out+=3){
*out=*in;
out[1]=in[1];
out[2]=in[2];
}
mem_free(ina);
return;
}
total=(ix-1)*(ox-1);
if ((unsigned)y > MAXINT / 3 / sizeof(*col_buf)) overalloc();
col_buf=mem_alloc(y*3*sizeof(*col_buf));
bias_buf_color(col_buf,y,half);
out_pos=0;
in_pos=0;
again:
in_begin=in_pos;
in_end=in_pos+ox-1;
add_col_color(col_buf,in,skip,y
,in_end-out_pos);
add_col_color(col_buf,in+3,skip,y
,out_pos-in_begin);
emit_and_bias_col_color(col_buf,out,oskip,y,ox-1);
out+=3;
out_pos+=ix-1;
if (out_pos>in_end){
in_pos=in_end;
in+=3;
}
if (out_pos>total){
mem_free(col_buf);
mem_free(ina);
return;
}
goto again;
}
/* Works for both enlarging and diminishing. Linear resample, no low pass.
* Automatically mem_frees the "in" and allocates "out". */
/* We assume unsigned holds at least 32 bits */
inline static void scale_gray_horizontal(unsigned char *in, int ix, int y
,unsigned char ** out, int ox)
{
unsigned *col_buf;
int total=ix*ox;
int out_pos,in_pos,in_begin,in_end,out_end;
unsigned char *outptr;
unsigned char *inptr;
if (ix<ox){
enlarge_gray_horizontal(in,ix,y,out,ox);
return;
}else if (ix==ox){
*out=in;
return;
}
if (ox && (unsigned)ox * (unsigned)y / (unsigned)ox != (unsigned)y) overalloc();
if ((unsigned)ox * (unsigned)y > MAXINT) overalloc();
outptr=mem_alloc(ox*y);
inptr=in;
*out=outptr;
if ((unsigned)y > MAXINT / sizeof(*col_buf)) overalloc();
col_buf=mem_alloc(y*sizeof(*col_buf));
bias_buf_gray(col_buf, y, ix>>1);
out_pos=0;
in_pos=0;
again:
in_begin=in_pos;
in_end=in_pos+ox;
out_end=out_pos+ix;
if (in_begin<out_pos)in_begin=out_pos;
if (in_end>out_end)in_end=out_end;
add_col_gray(col_buf,inptr,ix,y,in_end-in_begin);
in_end=in_pos+ox;
if (out_end>=in_end){
in_pos=in_end;
inptr++;
}
if (out_end<=in_end){
emit_and_bias_col_gray(col_buf,outptr,ox,y,ix);
out_pos=out_pos+ix;
outptr++;
}
if (out_pos==total) {
mem_free(in);
mem_free(col_buf);
return;
}
goto again;
}
/* Works for both enlarging and diminishing. Linear resample, no low pass.
* Does only one color component.
* Frees ina and allocates outa.
* If ox*3<=ix, and display_optimize, performs optimization for LCD.
*/
inline static void scale_color_horizontal(unsigned short *ina, int ix, int y,
unsigned short **outa, int ox)
{
unsigned *col_buf;
int total=ix*ox;
int out_pos,in_pos,in_begin,in_end,out_end;
unsigned skip=3*ix;
unsigned oskip=3*ox;
unsigned short *in, *out;
if (ix==ox){
*outa=ina;
return;
}
if (ix<ox){
enlarge_color_horizontal(ina,ix,y,outa,ox);
return;
}else if (ix==ox){
*outa=ina;
return;
}
if (ox && (unsigned)ox * (unsigned)y / (unsigned)ox != (unsigned)y) overalloc();
if ((unsigned)ox * (unsigned)y > MAXINT / 3 / sizeof(*out)) overalloc();
out=mem_alloc(sizeof(*out)*3*ox*y);
*outa=out;
in=ina;
if ((unsigned)y > MAXINT / 3 / sizeof(*col_buf)) overalloc();
col_buf=mem_alloc(y*3*sizeof(*col_buf));
bias_buf_color(col_buf,y,ix>>1);
out_pos=0;
in_pos=0;
again:
in_begin=in_pos;
in_end=in_pos+ox;
out_end=out_pos+ix;
if (in_begin<out_pos)in_begin=out_pos;
if (in_end>out_end)in_end=out_end;
add_col_color(col_buf,in,skip,y,in_end-in_begin);
in_end=in_pos+ox;
if (out_end>=in_end){
in_pos=in_end;
in+=3;
}
if (out_end<=in_end){
emit_and_bias_col_color(col_buf,out,oskip,y,ix);
out_pos=out_pos+ix;
out+=3;
}
if (out_pos==total) {
mem_free(ina);
mem_free(col_buf);
return;
}
goto again;
}
/* For magnification only. Does linear filtering. */
/* We assume unsigned holds at least 32 bits */
inline static void enlarge_gray_vertical(unsigned char *in, int x, int iy,
unsigned char ** out ,int oy)
{
unsigned *row_buf;
int total;
int out_pos,in_pos,in_begin,in_end;
int half=(oy-1)>>1;
unsigned char *outptr;
unsigned char *inptr;
if (iy==1){
if (x && (unsigned)x * (unsigned)oy / (unsigned)x != (unsigned)oy) overalloc();
if ((unsigned)x * (unsigned)oy > MAXINT) overalloc();
outptr=mem_alloc(oy*x);
*out=outptr;
for(;oy;oy--,outptr+=x)
memcpy(outptr,in,x);
mem_free(in);
}
else if (iy==oy){
*out=in;
}else{
if (x && (unsigned)x * (unsigned)oy / (unsigned)x != (unsigned)oy) overalloc();
if ((unsigned)x * (unsigned)oy > MAXINT) overalloc();
outptr=mem_alloc(oy*x);
inptr=in;
*out=outptr;
total=(iy-1)*(oy-1);
if ((unsigned)x > MAXINT / sizeof(*row_buf)) overalloc();
row_buf=mem_alloc(x*sizeof(*row_buf));
bias_buf_gray(row_buf, x, half);
out_pos=0;
in_pos=0;
again:
in_begin=in_pos;
in_end=in_pos+oy-1;
add_row_gray(row_buf, inptr, x, in_end-out_pos);
add_row_gray(row_buf, inptr+x, x, out_pos-in_begin);
emit_and_bias_row_gray(row_buf, outptr, x, oy-1);
outptr+=x;
out_pos+=iy-1;
if (out_pos>in_end){
in_pos=in_end;
inptr+=x;
}
if (out_pos>total){
mem_free(in);
mem_free(row_buf);
return;
}
goto again;
}
}
/* For magnification only. Does linear filtering */
/* We assume unsigned holds at least 32 bits */
inline static void enlarge_color_vertical(unsigned short *ina, int x, int iy,
unsigned short **outa ,int oy)
{
unsigned *row_buf;
int total,out_pos,in_pos,in_begin,in_end;
int half=(oy-1)>>1;
unsigned short *out, *in;
if (iy==oy){
*outa=ina;
return;
}
/* Rivendell */
if (x && (unsigned)x * (unsigned)oy / (unsigned)x != (unsigned)oy) overalloc();
if ((unsigned)x * (unsigned)oy > MAXINT / 3 / sizeof(*out)) overalloc();
out=mem_alloc(sizeof(*out)*3*oy*x);
*outa=out;
in=ina;
if (iy==1){
for (;oy;oy--){
memcpy(out,in,3*x*sizeof(*out));
out+=3*x;
}
mem_free(ina);
return;
}
total=(iy-1)*(oy-1);
if ((unsigned)x > MAXINT / 3 / sizeof(*row_buf)) overalloc();
row_buf=mem_alloc(x*3*sizeof(*row_buf));
bias_buf_color(row_buf,x,half);
out_pos=0;
in_pos=0;
again:
in_begin=in_pos;
in_end=in_pos+oy-1;
add_row_color(row_buf,in,x
,in_end-out_pos);
add_row_color(row_buf,in+3*x,x
,out_pos-in_begin);
emit_and_bias_row_color(row_buf,out,x,oy-1);
out+=3*x;
out_pos+=iy-1;
if (out_pos>in_end){
in_pos=in_end;
in+=3*x;
}
if (out_pos>total){
mem_free(ina);
mem_free(row_buf);
return;
}
goto again;
}
/* Both enlarges and diminishes. Linear filtering.
* Automatically allocates output and frees input.
* We assume unsigned holds at least 32 bits */
inline static void scale_gray_vertical(unsigned char *in, int x, int iy,
unsigned char ** out ,int oy)
{
unsigned *row_buf;
int total=iy*oy;
int out_pos,in_pos,in_begin,in_end,out_end;
unsigned char *outptr;
unsigned char *inptr;
/* Snow White, Snow White... */
if (iy<oy){
enlarge_gray_vertical(in,x,iy,out,oy);
return;
}
if (iy==oy){
*out=in;
return;
}
if (x && (unsigned)x * (unsigned)oy / (unsigned)x != (unsigned)oy) overalloc();
if ((unsigned)x * (unsigned)oy > MAXINT) overalloc();
outptr=mem_alloc(x*oy);
inptr=in;
*out=outptr;
if ((unsigned)x > MAXINT / sizeof(*row_buf)) overalloc();
row_buf=mem_calloc(x*sizeof(*row_buf));
bias_buf_gray(row_buf, x, iy>>1);
out_pos=0;
in_pos=0;
again:
in_begin=in_pos;
in_end=in_pos+oy;
out_end=out_pos+iy;
if (in_begin<out_pos)in_begin=out_pos;
if (in_end>out_end)in_end=out_end;
add_row_gray(row_buf,inptr,x,in_end-in_begin);
in_end=in_pos+oy;
if (out_end>=in_end){
in_pos=in_end;
inptr+=x;
}
if (out_end<=in_end){
emit_and_bias_row_gray(row_buf,outptr,x,iy);
out_pos=out_pos+iy;
outptr+=x;
}
if (out_pos==total){
mem_free(in);
mem_free(row_buf);
return;
}
goto again;
}
/* Both enlarges and diminishes. Linear filtering. Sizes are
in pixels. Sizes are not in bytes. 1 pixel=3 unsigned shorts.
We assume unsigned short can hold at least 16 bits.
We assume unsigned holds at least 32 bits.
*/
inline static void scale_color_vertical(unsigned short *ina, int x, int iy
,unsigned short **outa, int oy)
{
unsigned *row_buf;
int total=iy*oy;
int out_pos,in_pos,in_begin,in_end,out_end;
unsigned short *in, *out;
if (iy==oy){
*outa=ina;
return;
}
if (iy<oy){
enlarge_color_vertical(ina,x,iy,outa,oy);
return;
}
if (x && (unsigned)x * (unsigned)oy / (unsigned)x != (unsigned)oy) overalloc();
if ((unsigned)x * (unsigned)oy > MAXINT / 3 / sizeof(*out)) overalloc();
out=mem_alloc(sizeof(*out)*3*oy*x);
*outa=out;
in=ina;
if ((unsigned)x > MAXINT / 3 / sizeof(*row_buf)) overalloc();
row_buf=mem_alloc(x*3*sizeof(*row_buf));
bias_buf_color(row_buf,x,iy>>1);
out_pos=0;
in_pos=0;
again:
in_begin=in_pos;
in_end=in_pos+oy;
out_end=out_pos+iy;
if (in_begin<out_pos)in_begin=out_pos;
if (in_end>out_end)in_end=out_end;
add_row_color(row_buf,in,x,in_end-in_begin);
in_end=in_pos+oy;
if (out_end>=in_end){
in_pos=in_end;
in+=3*x;
}
if (out_end<=in_end){
emit_and_bias_row_color(row_buf,out,x,iy);
out_pos=out_pos+iy;
out+=3*x;
}
if (out_pos==total){
mem_free(ina);
mem_free(row_buf);
return;
}
goto again;
}
/* Scales grayscale 8-bit map. Both enlarges and diminishes. Uses either low
* pass or bilinear filtering. Automatically mem_frees the "in".
* Automatically allocates "out".
*/
inline static void scale_gray(unsigned char *in, int ix, int iy, unsigned char **out
,int ox, int oy)
{
unsigned char *intermediate_buffer;
if (!ix||!iy){
if (in) mem_free(in);
if (ox && (unsigned)ox * (unsigned)oy / (unsigned)ox != (unsigned)oy) overalloc();
if ((unsigned)ox * (unsigned)oy > MAXINT) overalloc();
*out=mem_calloc(ox*oy);
return;
}
if (ix*oy<ox*iy){
scale_gray_vertical(in,ix,iy,&intermediate_buffer,oy);
scale_gray_horizontal(intermediate_buffer,ix,oy,out,ox);
}else{
scale_gray_horizontal(in,ix,iy,&intermediate_buffer,ox);
scale_gray_vertical(intermediate_buffer,ox,iy,out,oy);
}
}
/* To be called only when global variable display_optimize is 1 or 2.
* Performs a decimation according to this variable. Data shrink to 1/3
* and x is the smaller width.
* There must be 9*x*y unsigned shorts of data.
* x must be >=1.
* Performs realloc onto the buffer after decimation to save memory.
*/
static void decimate_3(unsigned short **data0, int x, int y)
{
unsigned short *data=*data0;
unsigned short *ahead=data;
int i, futuresize;
if (x && (unsigned)x * (unsigned)y / (unsigned)x != (unsigned)y) overalloc();
if ((unsigned)x * (unsigned)y > MAXINT / 3 / sizeof(**data0)) overalloc();
futuresize=x*y*3*sizeof(**data0);
#ifdef DEBUG
if (!(x>0&&y>0)) internal("zero width or height in decimate_3");
#endif /* #Ifdef DEBUG */
if (display_optimize==1){
if (x==1){
for (;y;y--,ahead+=9,data+=3){
data[0]=(ahead[0]+ahead[0]+ahead[3])/3;
data[1]=(ahead[1]+ahead[4]+ahead[7])/3;
data[2]=(ahead[5]+ahead[8]+ahead[8])/3;
}
}else{
for (;y;y--){
data[0]=(ahead[0]+ahead[0]+ahead[3])/3;
data[1]=(ahead[1]+ahead[4]+ahead[7])/3;
data[2]=(ahead[5]+ahead[8]+ahead[11])/3;
for (ahead+=9,data+=3,i=x-2;i;i--,ahead+=9,data+=3){
data[0]=(ahead[-3]+ahead[0]+ahead[3])/3;
data[1]=(ahead[1]+ahead[4]+ahead[7])/3;
data[2]=(ahead[5]+ahead[8]+ahead[11])/3;
}
data[0]=(ahead[-3]+ahead[0]+ahead[3])/3;
data[1]=(ahead[1]+ahead[4]+ahead[7])/3;
data[2]=(ahead[5]+ahead[8]+ahead[8])/3;
ahead+=9,data+=3;
}
}
}else{
/* display_optimize==2 */
if (x==1){
for (;y;y--,ahead+=9,data+=3){
data[0]=(ahead[3]+ahead[6]+ahead[6])/3;
data[1]=(ahead[1]+ahead[4]+ahead[7])/3;
data[2]=(ahead[2]+ahead[2]+ahead[5])/3;
}
}else{
for (;y;y--){
data[0]=(ahead[3]+ahead[6]+ahead[9])/3;
data[1]=(ahead[1]+ahead[4]+ahead[7])/3;
data[2]=(ahead[2]+ahead[2]+ahead[5])/3;
for (ahead+=9,data+=3,i=x-2;i;i--,ahead+=9,data+=3){
data[0]=(ahead[3]+ahead[6]+ahead[9])/3;
data[1]=(ahead[1]+ahead[4]+ahead[7])/3;
data[2]=(ahead[-1]+ahead[2]+ahead[5])/3;
}
data[0]=(ahead[3]+ahead[6]+ahead[6])/3;
data[1]=(ahead[1]+ahead[4]+ahead[7])/3;
data[2]=(ahead[-1]+ahead[2]+ahead[5])/3;
ahead+=9,data+=3;
}
}
}
*data0=mem_realloc(*data0,futuresize);
}
/* Scales color 48-bits-per-pixel bitmap. Both enlarges and diminishes. Uses
* either low pass or bilinear filtering. The memory organization for both
* input and output are red, green, blue. All three of them are unsigned shorts 0-65535.
* Allocates output and frees input
* We assume unsigned short holds at least 16 bits.
*/
void scale_color(unsigned short *in, int ix, int iy, unsigned short **out,
int ox, int oy)
{
unsigned short *intermediate_buffer;
int do_optimize;
int ox0=ox;
if (!ix||!iy){
if (in) mem_free(in);
if (ox && (unsigned)ox * (unsigned)oy / (unsigned)ox != (unsigned)oy) overalloc();
if ((unsigned)ox * (unsigned)oy > MAXINT / 3 / sizeof(**out)) overalloc();
*out=mem_calloc(ox*oy*sizeof(**out)*3);
return;
}
if (display_optimize&&ox*3<=ix){
do_optimize=1;
ox0=ox;
ox*=3;
}else do_optimize=0;
if (ix*oy<ox*iy){
scale_color_vertical(in,ix,iy,&intermediate_buffer,oy);
scale_color_horizontal(intermediate_buffer,ix,oy,out,ox);
}else{
scale_color_horizontal(in,ix,iy,&intermediate_buffer,ox);
scale_color_vertical(intermediate_buffer,ox,iy,out,oy);
}
if (do_optimize) decimate_3(out, ox0, oy);
}
/* Fills a block with given color. length is number of pixels. pixel is a
* tribyte. 24 bits per pixel.
*/
void mix_one_color_24(unsigned char *dest, int length,
unsigned char r, unsigned char g, unsigned char b)
{
for (;length;length--){
dest[0]=r;
dest[1]=g;
dest[2]=b;
dest+=3;
}
}
/* Fills a block with given color. length is number of pixels. pixel is a
* tribyte. 48 bits per pixel.
* We assume unsigned short holds at least 16 bits.
*/
void mix_one_color_48(unsigned short *dest, int length,
unsigned short r, unsigned short g, unsigned short b)
{
for (;length;length--){
dest[0]=r;
dest[1]=g;
dest[2]=b;
dest+=3;
}
}
/* Mixes ink and paper of a letter, using alpha as alpha mask.
* Only mixing in photon space makes physical sense so that the input values
* must always be equivalent to photons and not to electrons!
* length is number of pixels. pixel is a tribyte
* alpha is 8-bit, rgb are all 16-bit
* We assume unsigned short holds at least 16 bits.
*/
inline static void mix_two_colors(unsigned short *dest, unsigned char *alpha, int length
,unsigned short r0, unsigned short g0, unsigned short b0,
unsigned short r255, unsigned short g255, unsigned short b255)
{
unsigned mask,cmask;
for (;length;length--){
mask=*alpha++;
if (((unsigned char)(mask+1))>=2){
cmask=255-mask;
dest[0]=(mask*r255+cmask*r0+127)/255;
dest[1]=(mask*g255+cmask*g0+127)/255;
dest[2]=(mask*b255+cmask*b0+127)/255;
}else{
if (mask){
dest[0]=r255;
dest[1]=g255;
dest[2]=b255;
}else{
dest[0]=r0;
dest[1]=g0;
dest[2]=b0;
}
}
dest+=3;
}
}
/* We assume unsigned short holds at least 16 bits. */
void apply_gamma_exponent_and_undercolor_32_to_48_table(unsigned short *dest,
unsigned char *src, int lenght, unsigned short *table
,unsigned short rb, unsigned short gb, unsigned short bb)
{
unsigned alpha, ri, gi, bi, calpha;
for (;lenght;lenght--)
{
ri=table[src[0]];
gi=table[src[1]+256];
bi=table[src[2]+512];
alpha=src[3];
src+=4;
if (((unsigned char)(alpha+1))>=2){
calpha=255U-alpha;
dest[0]=(ri*alpha+calpha*rb+127)/255;
dest[1]=(gi*alpha+calpha*gb+127)/255;
dest[2]=(bi*alpha+calpha*bb+127)/255;
}else{
if (alpha){
dest[0]=ri;
dest[1]=gi;
dest[2]=bi;
}else{
dest[0]=rb;
dest[1]=gb;
dest[2]=bb;
}
}
dest+=3;
}
}
/* src is a block of four-bytes RGBA. All bytes are gamma corrected. length is
* number of pixels. output is input powered to the given gamma, passed into
* dest. src and dest may be identical and it will work. rb, gb, bb are 0-65535
* in linear monitor output photon space
*/
/* We assume unsigned short holds at least 16 bits. */
void apply_gamma_exponent_and_undercolor_32_to_48(unsigned short *dest,
unsigned char *src, int lenght, float red_gamma
,float green_gamma, float blue_gamma, unsigned short rb, unsigned
short gb, unsigned short bb)
{
float r,g,b;
unsigned alpha, calpha;
unsigned ri,gi,bi;
const float inv_255=1/255.0;
for (;lenght;lenght--)
{
r=src[0];
g=src[1];
b=src[2];
alpha=src[3];
src+=4;
r*=inv_255;
g*=inv_255;
b*=inv_255;
r=pow(r,red_gamma);
g=pow(g,green_gamma);
b=pow(b,blue_gamma);
ri=(r*65535)+0.5;
gi=(g*65535)+0.5;
bi=(b*65535)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
/* To prevent segfaults in case of crappy floating arithmetics
*/
if (ri>=65536) ri=65535;
if (gi>=65536) gi=65535;
if (bi>=65536) bi=65535;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
if (((alpha+1U)&0xffU)>=2U){
calpha=255U-alpha;
*dest=(ri*alpha+calpha*rb+127U)/255U;
dest[1]=(gi*alpha+calpha*gb+127U)/255U;
dest[2]=(bi*alpha+calpha*bb+127U)/255U;
}else{
if (alpha){
*dest=ri;
dest[1]=gi;
dest[2]=bi;
}else{
*dest=rb;
dest[1]=gb;
dest[2]=bb;
}
}
dest+=3;
}
}
/* src is a block of four-bytes RGBA. All bytes are gamma corrected. length is
* number of pixels. output is input powered to the given gamma, passed into
* dest. src and dest may be identical and it will work. rb, gb, bb are 0-65535
* in linear monitor output photon space. alpha 255 means full image no background.
*/
/* We assume unsigned short holds at least 16 bits. */
void apply_gamma_exponent_and_undercolor_64_to_48(unsigned short *dest,
unsigned short *src, int lenght, float red_gamma
,float green_gamma, float blue_gamma, unsigned short rb, unsigned
short gb, unsigned short bb)
{
float r,g,b;
unsigned alpha, calpha;
unsigned short ri,gi,bi;
const float inv_65535=1/((float)65535);
for (;lenght;lenght--)
{
r=src[0];
g=src[1];
b=src[2];
alpha=src[3];
src+=4;
r*=inv_65535;
g*=inv_65535;
b*=inv_65535;
r=pow(r,red_gamma);
g=pow(g,green_gamma);
b=pow(b,blue_gamma);
ri=r*65535+0.5;
gi=g*65535+0.5;
bi=b*65535+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
/* To prevent segfaults in case of crappy floating arithmetics
*/
if (ri>=65536) ri=65535;
if (gi>=65536) gi=65535;
if (bi>=65536) bi=65535;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
if (((alpha+1U)&255U)>=2U){
calpha=65535U-alpha;
*dest=(ri*alpha+calpha*rb+32767U)/65535U;
dest[1]=(gi*alpha+calpha*gb+32767U)/65535U;
dest[2]=(bi*alpha+calpha*bb+32767U)/65535U;
}else{
if (alpha){
*dest=ri;
dest[1]=gi;
dest[2]=bi;
}else{
*dest=rb;
dest[1]=gb;
dest[2]=bb;
}
}
dest+=3;
}
}
/* src is a block of four-bytes RGBA. All bytes are gamma corrected. length is
* number of pixels. output is input powered to the given gamma, passed into
* dest. src and dest may be identical and it will work. rb, gb, bb are 0-65535
* in linear monitor output photon space. alpha 255 means full image no background.
* We assume unsigned short holds at least 16 bits. */
void apply_gamma_exponent_and_undercolor_64_to_48_table(unsigned short *dest
,unsigned short *src, int lenght, unsigned short *gamma_table
,unsigned short rb, unsigned short gb, unsigned short bb)
{
unsigned alpha, calpha;
unsigned short ri,gi,bi;
for (;lenght;lenght--)
{
ri=gamma_table[*src];
gi=gamma_table[src[1]+65536];
bi=gamma_table[src[2]+131072];
alpha=src[3];
src+=4;
if (((alpha+1)&0xffff)>=2){
calpha=65535-alpha;
*dest=(ri*alpha+calpha*rb+32767)/65535;
dest[1]=(gi*alpha+calpha*gb+32767)/65535;
dest[2]=(bi*alpha+calpha*bb+32767)/65535;
}else{
if (alpha){
*dest=ri;
dest[1]=gi;
dest[2]=bi;
}else{
*dest=rb;
dest[1]=gb;
dest[2]=bb;
}
}
dest+=3;
}
}
/* src is a block of three-bytes. All bytes are gamma corrected. length is
* number of triplets. output is input powered to the given gamma, passed into
* dest. src and dest may be identical and it will work.
* We assume unsigned short holds at least 16 bits. */
void apply_gamma_exponent_48_to_48(unsigned short *dest,
unsigned short *src, int lenght, float red_gamma
,float green_gamma, float blue_gamma)
{
float a, inv_65535=1/((float)65535);
for (;lenght;lenght--,src+=3,dest+=3)
{
a=*src;
a*=inv_65535;
a=pow(a,red_gamma);
*dest=(a*65535)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (*dest>=0x10000) *dest=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
a=src[1];
a*=inv_65535;
a=pow(a,green_gamma);
dest[1]=(a*65535)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (dest[1]>=0x10000) dest[1]=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
a=src[2];
a*=inv_65535;
a=pow(a,blue_gamma);
dest[2]=(a*65535)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (dest[2]>=0x10000) dest[2]=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
}
}
/* src is a block of three-bytes. All bytes are gamma corrected. length is
* number of triples. output is input powered to the given gamma, passed into
* dest. src and dest may be identical and it will work.
* We assume unsigned short holds at least 16 bits. */
void apply_gamma_exponent_48_to_48_table(unsigned short *dest,
unsigned short *src, int lenght, unsigned short *table)
{
for (;lenght;lenght--,src+=3,dest+=3)
{
*dest=table[*src];
dest[1]=table[src[1]+65536];
dest[2]=table[src[2]+131072];
}
}
/* src is a block of three-bytes. All bytes are gamma corrected. length is
* number of triples. output is input powered to the given gamma, passed into
* dest. src and dest may be identical and it will work.
* We assume unsigned short holds at least 16 bits. */
void apply_gamma_exponent_24_to_48(unsigned short *dest, unsigned char *src, int
lenght, float red_gamma, float green_gamma, float
blue_gamma)
{
float a;
float inv_255=1/((float)255);
for (;lenght;lenght--,src+=3,dest+=3)
{
a=*src;
a*=inv_255;
a=pow(a,red_gamma);
*dest=(a*65535)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (*dest>=0x10000) *dest=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
a=src[1];
a*=inv_255;
a=pow(a,green_gamma);
dest[1]=(a*65535)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (dest[1]>=0x10000) dest[1]=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
a=src[2];
a*=inv_255;
a=pow(a,blue_gamma);
dest[2]=(a*65535)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (dest[2]>=0x10000) dest[2]=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
}
}
/* Allocates new gamma_table and fills it with mapping 8 bits ->
* power to user_gamma/cimg->*_gamma -> 16 bits
* We assume unsigned short holds at least 16 bits. */
void make_gamma_table(struct cached_image *cimg)
{
double rg=user_gamma/cimg->red_gamma;
double gg=user_gamma/cimg->green_gamma;
double bg=user_gamma/cimg->blue_gamma;
double inv;
int a;
unsigned short *ptr_16;
if (cimg->buffer_bytes_per_pixel<=4){
/* 8-bit */
inv=1/((double)255);
ptr_16=mem_alloc(768*sizeof(*(cimg->gamma_table)));
cimg->gamma_table=ptr_16;
for (a=0;a<256;a++,ptr_16++){
*ptr_16=65535*pow(((double)a)*inv,rg)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
/* To test against crappy arithmetics */
if (*ptr_16>=0x10000) *ptr_16=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
}
for (a=0;a<256;a++,ptr_16++){
*ptr_16=65535*pow(((double)a)*inv,gg)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (*ptr_16>=0x10000) *ptr_16=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
}
for (a=0;a<256;a++,ptr_16++){
*ptr_16=65535*pow(((double)a)*inv,bg)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (*ptr_16>=0x10000) *ptr_16=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
}
}else{
/* 16-bit */
inv=1/((double)65535);
ptr_16=mem_alloc(196608*sizeof(*(cimg->gamma_table)));
cimg->gamma_table=ptr_16;
for (a=0;a<0x10000;a++,ptr_16++){
*ptr_16=65535*pow(((double)a)*inv,rg)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (*ptr_16>=0x10000) *ptr_16=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
}
for (a=0;a<0x10000;a++,ptr_16++){
*ptr_16=65535*pow(((double)a)*inv,gg)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (*ptr_16>=0x10000) *ptr_16=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
}
for (a=0;a<0x10000;a++,ptr_16++){
*ptr_16=65535*pow(((double)a)*inv,bg)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (*ptr_16>=0x10000) *ptr_16=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
}
}
}
/* We assume unsigned short holds at least 16 bits. */
void apply_gamma_exponent_24_to_48_table(unsigned short *dest, unsigned char *src, int
lenght, unsigned short *table)
{
for (;lenght;lenght--,src+=3,dest+=3)
{
dest[0]=table[src[0]];
dest[1]=table[src[1]+256];
dest[2]=table[src[2]+512];
}
}
#if 0
/* Input is 0-255 (8-bit). Output is 0-255 (8-bit)*/
unsigned char apply_gamma_single_8_to_8(unsigned char input, float gamma)
{
return 255*pow(((float) input)/255,gamma)+0.5;
}
#endif
/* Input is 0-255 (8-bit). Output is 0-65535 (16-bit)*/
/* We assume unsigned short holds at least 16 bits. */
unsigned short apply_gamma_single_8_to_16(unsigned char input, float gamma)
{
float a=input;
unsigned short retval;
a/=255;
a=pow(a,gamma);
a*=65535;
retval = a+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (retval>=0x10000) retval=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
return retval;
}
/* Input is 0-65535 (16-bit). Output is 0-255 (8-bit)*/
/* We assume unsigned short holds at least 16 bits. */
unsigned char apply_gamma_single_16_to_8(unsigned short input, float gamma)
{
return pow(((float)input)/65535,gamma)*255+0.5;
}
/* Input is 0-65535 (16-bit). Output is 0-255 (8-bit)*/
unsigned short apply_gamma_single_16_to_16(unsigned short input, float gamma)
{
unsigned short retval;
retval = 65535*pow(((float)input)/65535,gamma)+0.5;
#if !SIZEOF_UNSIGNED_SHORT || SIZEOF_UNSIGNED_SHORT > 2
if (retval>=0x10000) retval=0xffff;
#endif /* #if SIZEOF_UNSIGNED_SHORT > 2 */
return retval;
}
/* Points to the next unread byte from png data block */
extern unsigned char font_data[];
extern struct letter letter_data[];
extern struct font font_table[];
extern int n_fonts; /* Number of fonts. font number 0 is system_font (it's
* images are in system_font/ directory) and is used
* for special purpose.
*/
/* Returns a pointer to a structure describing the letter found or NULL
* if the letter is not found. Tries all possibilities in the style table
* before returning NULL.
*/
static struct letter *find_stored_letter(int *style_table, int letter_number)
{
int first, last, half, diff, font_index, font_number;
for (font_index=n_fonts-1;font_index;font_index--)
{
font_number=*style_table++;
first=font_table[font_number].begin;
last=font_table[font_number].length+first-1;
while(first<=last){
half=(first+last)>>1;
diff=letter_data[half].code-letter_number;
if (diff>=0){
if (diff==0){
return letter_data+half;
}else{
/* Value in table is bigger */
last=half-1;
}
}else{
/* Value in the table is smaller */
first=half+1;
}
}
}
/* 0 is system font, 0 is blotch char. This must be present
* or we segfault :) */
#ifdef REPORT_UNKNOWN
fprintf(stderr,"letter 0x%04x not found\n",letter_number);
#endif /* #ifdef REPORT_UNKNOWN */
return letter_data+font_table[0].begin;
}
static void read_stored_data(png_structp png_ptr, png_bytep data, png_uint_32 length)
{
struct read_work *work;
work=png_get_io_ptr(png_ptr);
if (length>(png_uint_32)work->length) png_error(png_ptr,"Ran out of input data");
memcpy(data,work->pointer,length);
work->length-=length;
work->pointer+=length;
}
static void my_png_warning(png_structp a, png_const_charp b)
{
}
static void my_png_error(png_structp a, png_const_charp error_string)
{
error("Error when loading compiled-in font: %s.",error_string);
}
/* Loads width and height of the PNG (nothing is scaled). Style table is
* already incremented.
*/
inline static void load_metric(int *x, int *y, int char_number, int *style_table)
{
struct letter *l;
l=find_stored_letter(style_table,char_number);
if (!l){
*x=0;
*y=0;
}else{
*x=l->xsize;
*y=l->ysize;
}
return;
}
/* The data tha fall out of this function express this: 0 is paper. 255 is ink. 34
* is 34/255ink+(255-34)paper. No gamma is involved in this formula, as you can see.
* The multiplications and additions take place in photon space.
*/
static void load_char(unsigned char **dest, int *x, int *y,
unsigned char *png_data, int png_length, struct style *style)
{
png_structp png_ptr;
png_infop info_ptr;
double gamma;
int y1,number_of_passes;
unsigned char **ptrs;
struct read_work work;
work.pointer = png_data;
work.length = png_length;
retry1:
png_ptr=png_create_read_struct(PNG_LIBPNG_VER_STRING,
NULL, my_png_error, my_png_warning);
if (!png_ptr) {
if (out_of_memory(NULL, 0)) goto retry1;
error("png_create_read_struct failed");
fatal_tty_exit();
exit(RET_FATAL);
}
retry2:
info_ptr=png_create_info_struct(png_ptr);
if (!info_ptr) {
if (out_of_memory(NULL, 0)) goto retry2;
error("png_create_info_struct failed");
fatal_tty_exit();
exit(RET_FATAL);
}
png_set_read_fn(png_ptr,&work,(png_rw_ptr)&read_stored_data);
png_read_info(png_ptr, info_ptr);
*x=png_get_image_width(png_ptr,info_ptr);
*y=png_get_image_height(png_ptr,info_ptr);
if (png_get_gAMA(png_ptr,info_ptr, &gamma))
png_set_gamma(png_ptr, 1.0, gamma);
else
png_set_gamma(png_ptr, 1.0, sRGB_gamma);
{
int bit_depth;
int color_type;
color_type=png_get_color_type(png_ptr, info_ptr);
bit_depth=png_get_bit_depth(png_ptr, info_ptr);
if (color_type==PNG_COLOR_TYPE_GRAY){
if (bit_depth<8){
png_set_expand(png_ptr);
}
if (bit_depth==16){
png_set_strip_16(png_ptr);
}
}
if (color_type==PNG_COLOR_TYPE_PALETTE){
png_set_expand(png_ptr);
#ifdef HAVE_PNG_SET_RGB_TO_GRAY
png_set_rgb_to_gray(png_ptr, 1, -1, -1);
#else
goto end;
#endif
}
if (color_type & PNG_COLOR_MASK_ALPHA){
png_set_strip_alpha(png_ptr);
}
if (color_type==PNG_COLOR_TYPE_RGB ||
color_type==PNG_COLOR_TYPE_RGB_ALPHA){
#ifdef HAVE_PNG_SET_RGB_TO_GRAY
png_set_rgb_to_gray(png_ptr, 1, -1, -1);
#else
goto end;
#endif
}
}
/* If the depth is different from 8 bits/gray, make the libpng expand
* it to 8 bit gray.
*/
number_of_passes=png_set_interlace_handling(png_ptr);
png_read_update_info(png_ptr,info_ptr);
if (*x && (unsigned)*x * (unsigned)*y / (unsigned)*x != (unsigned)*y) overalloc();
if ((unsigned)*x * (unsigned)*y > MAXINT) overalloc();
*dest=mem_alloc(*x*(*y));
if ((unsigned)*y > MAXINT / sizeof(*ptrs)) overalloc();
ptrs=mem_alloc(*y*sizeof(*ptrs));
for (y1=0;y1<*y;y1++) ptrs[y1]=*dest+*x*y1;
for (;number_of_passes;number_of_passes--){
png_read_rows(png_ptr, ptrs, NULL, *y);
}
png_read_end(png_ptr, NULL);
png_destroy_read_struct(&png_ptr, &info_ptr, NULL);
mem_free(ptrs);
return;
#ifndef HAVE_PNG_SET_RGB_TO_GRAY
end:
if (*x && (unsigned)*x * (unsigned)*y / (unsigned)*x != (unsigned)*y) overalloc();
if ((unsigned)*x * (unsigned)*y > MAXINT) overalloc();
*dest=mem_calloc(*x*(*y));
return;
#endif
}
/* Like load_char, but we dictate the y.
*/
static void load_scaled_char(void **dest, int *x, int y,
unsigned char *png_data, int png_length, struct style *style)
{
unsigned char *interm;
unsigned char *interm2;
unsigned char *i2ptr,*dptr;
int ix, iy, y0, x0, c;
float conv0, conv1,sharpness,contrast;
load_char(&interm, &ix,&iy,png_data, png_length,style);
if (style->mono_space>=0)
*x=compute_width(style->mono_space, style->mono_height, y);
else
*x=compute_width(ix,iy,y);
if (display_optimize) *x*=3;
scale_gray(interm, ix,iy, (unsigned char **)dest, *x, y);
if (y>32||y<=0) return ; /* No convolution */
ix=*x+2; /* There is one-pixel border around */
iy=y+2;
if (ix && (unsigned)ix * (unsigned)iy / (unsigned)ix != (unsigned)iy) overalloc();
if ((unsigned)ix * (unsigned)iy > MAXINT) overalloc();
interm2=mem_alloc(ix*iy);
i2ptr=interm2+ix+1;
dptr=*dest;
memset(interm2,0,ix);
memset(interm2+(iy-1)*ix,0,ix);
for (y0=y;y0;y0--){
i2ptr[-1]=0;
memcpy(i2ptr,dptr,*x);
i2ptr[ix-1]=0;
i2ptr+=ix;
dptr+=*x;
}
i2ptr=interm2+ix+1;
dptr=*dest;
/* Determine the sharpness and contrast */
sharpness=fancy_constants[2*y-2];
contrast=fancy_constants[2*y-1];
/* Compute the matrix constants from contrast and sharpness */
conv0=(1+sharpness)*contrast;
conv1=-sharpness*0.25*contrast;
for (y0=y;y0;y0--){
for (x0=*x;x0;x0--){
/* Convolution */
c=((*i2ptr)*conv0)+i2ptr[-ix]*conv1+i2ptr[-1]*conv1+i2ptr[1]*conv1+i2ptr[ix]*conv1+0.5;
if (((unsigned)c)>=256) c=c<0?0:255;
*dptr=c;
dptr++;
i2ptr++;
}
i2ptr+=2;
}
mem_free(interm2);
}
static struct font_cache_entry *locked_bw_entry = NULL;
static struct font_cache_entry *locked_color_entry = NULL;
/* Adds required entry into font_cache and returns pointer to the entry.
* We assume the entry is FC_COLOR.
*/
static struct font_cache_entry *supply_color_cache_entry (struct graphics_driver
*gd, struct style *style, struct letter *letter)
{
struct font_cache_entry *found, *new;
unsigned short *primary_data;
int do_free=0;
struct font_cache_entry template;
unsigned short red, green, blue;
unsigned bytes_consumed;
template.bitmap.y=style->height;
template.type=FC_BW;
/* The BW entries will be added only for background images which
* are not yet implemented, but will be in the future.
*/
found=lru_lookup(&font_cache, &template, letter->bw_list);
if (!found){
found=mem_alloc(sizeof(*found));
found->bitmap.y=style->height;
load_scaled_char(&(found->bitmap.data),&(found->bitmap.x),
found->bitmap.y, font_data+letter->begin,
letter->length, style);
do_free=1;
} else {
locked_bw_entry = found;
}
new=mem_alloc(sizeof(*new));
locked_color_entry = new;
new->type=FC_COLOR;
new->bitmap=found->bitmap;
new->r0=style->r0;
new->g0=style->g0;
new->b0=style->b0;
new->r1=style->r1;
new->g1=style->g1;
new->b1=style->b1;
new->mono_space=style->mono_space;
new->mono_height=style->mono_height;
if (new->bitmap.x && (unsigned)new->bitmap.x * (unsigned)new->bitmap.y / (unsigned)new->bitmap.x != (unsigned)new->bitmap.y) overalloc();
if ((unsigned)new->bitmap.x * (unsigned)new->bitmap.y > MAXINT / 3 / sizeof(*primary_data)) overalloc();
primary_data=mem_alloc(3
*new->bitmap.x*new->bitmap.y*sizeof(*primary_data));
/* We assume the gamma of HTML styles is in sRGB space */
round_color_sRGB_to_48(&red, &green, &blue,
((style->r0)<<16)|((style->g0)<<8)|(style->b0));
mix_two_colors(primary_data, found->bitmap.data,
found->bitmap.x*found->bitmap.y,
red,green,blue,
apply_gamma_single_8_to_16(style->r1,user_gamma/sRGB_gamma),
apply_gamma_single_8_to_16(style->g1,user_gamma/sRGB_gamma),
apply_gamma_single_8_to_16(style->b1,user_gamma/sRGB_gamma)
);
if (display_optimize){
/* A correction for LCD */
new->bitmap.x/=3;
decimate_3(&primary_data,new->bitmap.x,new->bitmap.y);
}
/* We have a buffer with photons */
if (gd->get_empty_bitmap(&(new->bitmap)))
goto skip_dither;
if (dither_letters)
dither(primary_data, &(new->bitmap));
else
(*round_fn)(primary_data,&(new->bitmap));
skip_dither:
mem_free(primary_data);
gd->register_bitmap(&(new->bitmap));
if (do_free){
mem_free(found->bitmap.data);
mem_free(found);
} else {
locked_bw_entry = NULL;
}
bytes_consumed=new->bitmap.x*new->bitmap.y*(gd->depth&7);
/* Number of bytes per pixel in passed bitmaps */
bytes_consumed+=sizeof(*new);
bytes_consumed+=sizeof(struct lru_entry);
lru_insert(&font_cache, new, &(letter->color_list),
bytes_consumed);
return new;
}
static int destroy_font_cache_bottom(void)
{
struct font_cache_entry *bottom;
bottom=lru_get_bottom(&font_cache);
if (!bottom) return 0;
if (bottom == locked_bw_entry || bottom == locked_color_entry) return 0;
if (bottom->type==FC_COLOR){
drv->unregister_bitmap(&(bottom->bitmap));
}else{
mem_free(bottom->bitmap.data);
}
mem_free(bottom);
lru_destroy_bottom(&font_cache);
return 1;
}
/* Prunes the cache to comply with maximum size */
static int prune_font_cache(void)
{
int r = 0;
while (font_cache.bytes > (unsigned)font_cache_size) {
if (destroy_font_cache_bottom()) {
r = 1;
} else {
break;
}
}
return r;
}
/* Prints a letter to the specified position and
* returns the width of the printed letter */
inline static int print_letter(struct graphics_driver *gd, struct
graphics_device *device, int x, int y, struct style *style,
int char_number)
{
int xw;
struct font_cache_entry *found;
struct font_cache_entry template;
struct letter *letter;
/* Find a suitable letter */
letter=find_stored_letter(style->table,char_number);
#ifdef DEBUG
if (!letter) internal("print_letter could not find a letter - even not the blotch!");
#endif /* #ifdef DEBUG */
template.type=FC_COLOR;
template.r0=style->r0;
template.r1=style->r1;
template.g0=style->g0;
template.g1=style->g1;
template.b0=style->b0;
template.b1=style->b1;
template.bitmap.y=style->height;
template.mono_space=style->mono_space;
template.mono_height=style->mono_height;
found=lru_lookup(&font_cache, &template, letter->color_list);
if (!found) found=supply_color_cache_entry(gd, style, letter);
else locked_color_entry = found;
gd->draw_bitmap(device, &(found->bitmap), x, y);
xw = found->bitmap.x;
if (locked_color_entry != found) internal("bad letter lock");
locked_color_entry = NULL;
prune_font_cache();
return xw;
}
/* Must return values that are:
* >=0
* <=height
* at least 1 apart
* Otherwise g_print_text will print nonsense (but won't segfault)
*/
static void get_underline_pos(int height, int *top, int *bottom)
{
int thickness, baseline;
thickness=(height+15)/16;
baseline=height/7;
if (baseline<=0) baseline=1;
if (thickness>baseline) thickness=baseline;
*top=height-baseline;
*bottom=*top+thickness;
}
/* *width will be advanced by the width of the text */
void g_print_text(struct graphics_driver *gd, struct graphics_device *device,
int x, int y, struct style *style, unsigned char *text, int *width)
{
int original_flags, top_underline, bottom_underline, original_width,
my_width;
struct rect saved_clip;
if (y+style->height<=device->clip.y1||y>=device->clip.y2) goto o;
if (style -> flags){
/* Underline */
if (!width){
width=&my_width;
*width=0;
}
original_flags=style->flags;
original_width=*width;
style -> flags=0;
get_underline_pos(style->height, &top_underline, &bottom_underline);
restrict_clip_area(device, &saved_clip, 0, 0, device->size.x2, y+
top_underline);
g_print_text(gd, device, x, y, style, text, width);
gd->set_clip_area(device, &saved_clip);
if (bottom_underline-top_underline==1){
/* Line */
drv->draw_hline(device, x, y+top_underline
, x+*width-original_width
, style->underline_color);
}else{
/* Area */
drv->fill_area(device, x, y+top_underline,
x+*width-original_width
,y+bottom_underline,
style->underline_color);
}
if (bottom_underline<style->height){
/* Do the bottom half only if the underline is above
* the bottom of the letters.
*/
*width=original_width;
restrict_clip_area(device, &saved_clip, 0,
y+bottom_underline, device->size.x2,
device->size.y2);
g_print_text(gd, device, x, y, style, text, width);
gd->set_clip_area(device, &saved_clip);
}
style -> flags=original_flags;
return;
}
while (*text) {
int p;
int u;
GET_UTF_8(text, u);
/* 00-09, 0b-1f, 80, 81, 84, 86-9f ignorovat
* 0a = LF
* 82 = ' '
* 83 = nobrk
* 85 = radkovy zlom
* a0 = NBSP
* ad = soft hyphen
*/
#if 0
if ( (u>=0x00&&u<=0x09)||
(u>=0x0b&&u<=0x1f)||
u==0x80||
u==0x82||
u==0x84||
(u>=0x86&&u<=0x9f)
)continue;
if (u==0x82)u=' ';
#endif
/* stare Mikulasovo patchovani, musim to opravit -- Brain */
if (!u || u == 0xad) continue;
if (u == 0x01 || u == 0xa0) u = ' ';
p=print_letter(gd,device,x,y,style, u);
x += p;
if (width) {
*width += p;
continue;
}
if (x>=device->clip.x2) return;
}
return;
o:
if (width) *width += g_text_width(style, text);
}
/* 0=equality 1=inequality */
static int compare_font_entries(void *entry, void *template)
{
struct font_cache_entry*e1=entry;
struct font_cache_entry*e2=template;
if (e1->type==FC_COLOR){
return(
(e1->r0!=e2->r0)||
(e1->g0!=e2->g0)||
(e1->b0!=e2->b0)||
(e1->r1!=e2->r1)||
(e1->g1!=e2->g1)||
(e1->b1!=e2->b1)||
(e1->bitmap.y!=e2->bitmap.y)||
(e1->mono_space!=e2->mono_space)||
(e1->mono_space>=0&&e1->mono_height!=e2->mono_height));
}else{
return e1->bitmap.y!=e2->bitmap.y;
}
}
/* If the cache already exists, it is destroyed and reallocated. If you call it with the same
* size argument, only a cache flush will yield.
*/
static void init_font_cache(void)
{
lru_init(&font_cache, &compare_font_entries);
}
/* Ensures there are no lru_entry objects allocated - destroys them.
* Also destroys the bitmaps asociated with them. Does not destruct the
font_cache per se.
*/
static void destroy_font_cache(void)
{
while (destroy_font_cache_bottom())
;
if (lru_get_bottom(&font_cache))
internal("destroy_font_cache: cache not freed due to locks");
}
/* Returns 0 in case the char is not found. */
static inline int g_get_width(struct style *style, unsigned charcode)
{
int x, y, width;
if (!charcode || charcode == 0xad) return 0;
if (charcode == 0x01 || charcode == 0xa0) charcode = ' ';
if (style->mono_space>=0){
x=style->mono_space;
y=style->mono_height;
}else load_metric(&x,&y,charcode,style->table);
if (!(x&&y)) width=0;
else width=compute_width(x,y,style->height);
return width;
}
int g_text_width(struct style *style, unsigned char *text)
{
int w = 0;
while (*text) {
int u;
GET_UTF_8(text, u);
w += g_get_width(style, u);
}
return w;
}
int g_char_width(struct style *style, unsigned charcode)
{
return g_get_width(style, charcode);
}
int g_wrap_text(struct wrap_struct *w)
{
unsigned char *init_text = w->text;
while (*w->text) {
int u;
int s;
unsigned char *l_text = w->text;
if (*l_text == ' ') w->last_wrap = l_text,
w->last_wrap_obj = w->obj;
GET_UTF_8(w->text, u);
if (!u) continue;
s = g_get_width(w->style, u);
if ((w->pos += s) <= w->width) {
c:
if (u != 0xad || *w->text == ' ' || w->force_break) continue;
s = g_char_width(w->style, '-');
if (w->pos + s <= w->width || (!w->last_wrap && !w->last_wrap_obj)) {
w->last_wrap = l_text;
w->last_wrap_obj = w->obj;
continue;
}
}
if (w->force_break && !w->last_wrap && l_text != init_text) {
w->last_wrap = l_text;
w->last_wrap_obj = w->obj;
}
if (!w->last_wrap && !w->last_wrap_obj) goto c;
return 0;
}
return 1;
}
void update_aspect(void)
{
aspect=aspect_on?(aspect_native*bfu_aspect+0.5):65536UL;
destroy_font_cache();
}
unsigned long fontcache_info(int type)
{
switch (type) {
case CI_BYTES:
return font_cache.bytes;
case CI_FILES:
return font_cache.items;
default:
internal("fontcache_info: query %d", type);
return 0;
}
}
static int shrink_font_cache(int u)
{
int freed_something = 0;
int has_something;
if (u == SH_CHECK_QUOTA) {
freed_something = prune_font_cache();
}
if (u == SH_FREE_ALL) {
while (destroy_font_cache_bottom())
freed_something = 1;
}
if (u == SH_FREE_SOMETHING) {
freed_something = destroy_font_cache_bottom();
}
has_something = !!lru_get_bottom(&font_cache);
return (freed_something ? ST_SOMETHING_FREED : 0) |
(has_something ? 0 : ST_CACHE_EMPTY);
}
void init_dip(void)
{
init_font_cache();
update_aspect();
register_cache_upcall(shrink_font_cache, "fontcache");
}
static void recode_font_name(unsigned char **name)
{
int dashes=0;
unsigned char *p;
if (!strcmp(*name,"monospaced")) *name="courier-medium-roman-serif-mono";
if (!strcmp(*name,"monospace")) *name="courier-medium-roman-serif-mono";
else if (!strcmp(*name,"")) *name="century_school-medium-roman-serif-vari";
p=*name;
while(*p){
if (*p=='-')dashes++;
p++;
}
if (dashes!=4) *name="century_school-medium-roman-serif-vari";
}
/* Compares single=a multi=b-c-a as matching.
* 0 matches
* 1 doesn't match
*/
static int compare_family(unsigned char *single, unsigned char *multi)
{
unsigned char *p,*r;
int single_length=strlen(single);
r=multi;
while(1){
p=r;
while (*r&&*r!='-')r++;
if ((r-p==single_length)&&!strncmp(single,p,r-p)) return 0;
if (!*r) return 1;
r++;
}
return 1;
}
/* Input name must contain exactly 4 dashes, otherwise the
* result is undefined (parsing into weight, slant, adstyl, spacing
* will result deterministically random results).
* Returns 1 if the font is monospaced or 0 if not.
*/
static int fill_style_table(int * table, unsigned char *name)
{
unsigned char *p;
unsigned char *family, *weight, *slant, *adstyl, *spacing;
int pass,result,f;
int masks[6]={0x1f,0x1f,0xf,0x7,0x3,0x1};
int xors[6]={0,0x10,0x8,0x4,0x2,0x1};
/* Top bit of the values belongs to family, bottom to spacing */
int monospaced;
/* Parse the name */
recode_font_name(&name);
family=stracpy(name);
p=family;
while(*p&&*p!='-') p++;
*p=0;
p++;
weight=p;
while(*p&&*p!='-') p++;
*p=0;
p++;
slant=p;
while(*p&&*p!='-') p++;
*p=0;
p++;
adstyl=p;
while(*p&&*p!='-') p++;
*p=0;
p++;
spacing=p;
monospaced=!strcmp(spacing,"mono");
for (pass=0;pass<6;pass++){
for (f=1;f<n_fonts;f++){
/* Font 0 must not be int style_table */
result=compare_family(family,font_table[f].family);
result<<=1;
result|=!!strcmp(weight,font_table[f].weight);
result<<=1;
result|=!!strcmp(slant,font_table[f].slant);
result<<=1;
result|=!!strcmp(adstyl,font_table[f].adstyl);
result<<=1;
result|=!!strcmp(spacing,font_table[f].spacing);
result^=xors[pass];
result&=masks[pass];
if (!result) /* Fot complies */
*table++=f;
}
}
mem_free(family);
return monospaced;
}
struct style *g_invert_style(struct style *old)
{
int length;
struct style *st;
st = mem_alloc(sizeof(struct style));
st->refcount=1;
st->r0=old->r1;
st->g0=old->g1;
st->b0=old->b1;
st->r1=old->r0;
st->g1=old->g0;
st->b1=old->b0;
st->height=old->height;
st->flags=old->flags;
if (st->flags)
{
/* We have to get a foreground color for underlining */
st->underline_color=dip_get_color_sRGB(
(st->r1<<16)|(st->g1<<8)|(st->b1));
}
if ((unsigned)n_fonts > MAXINT / sizeof(*st->table)) overalloc();
length=sizeof(*st->table)*(n_fonts-1);
st->table=mem_alloc(length);
memcpy(st->table,old->table,length);
st->mono_space=old->mono_space;
st->mono_height=old->mono_height;
return st;
}
/* Never returns NULL. */
struct style *g_get_style(int fg, int bg, int size, unsigned char *font, int flags)
{
struct style *st;
st = mem_alloc(sizeof(struct style));
/* strcpy(st->font, font); */
st->refcount = 1;
st->r0 = bg >> 16;
st->g0 = (bg >> 8) & 255;
st->b0 = bg & 255;
st->r1 = fg >> 16;
st->g1 = (fg >> 8) & 255;
st->b1 = fg & 255;
if (size<=0) size=1;
st->height = size;
st->flags=flags&FF_UNDERLINE;
if (st->flags)
{
/* We have to get a foreground color for underlining */
st->underline_color=dip_get_color_sRGB(fg);
}
if ((unsigned)n_fonts > MAXINT / sizeof(*st->table)) overalloc();
st->table=mem_alloc(sizeof(*st->table)*(n_fonts-1));
if(fill_style_table(st->table, font))
load_metric(&(st->mono_space), &(st->mono_height),' ',st->table);
else
st->mono_space=-1;
return st;
}
struct style *g_clone_style(struct style *st)
{
st->refcount++;
return st;
}
void g_free_style(struct style *st)
{
if (--st->refcount) return;
mem_free(st->table);
mem_free(st);
}
long gamma_cache_color;
int gamma_cache_rgb = -2;
/* IEC 61966-2-1
* Input gamma: sRGB space (directly from HTML, i. e. unrounded)
* Output: color index for graphics driver that is closest to the
* given sRGB value.
* We assume unsigned short holds at least 16 bits. */
long real_dip_get_color_sRGB(int rgb)
{
unsigned short r,g,b;
int new_rgb;
round_color_sRGB_to_48(&r,&g,&b,rgb);
r=apply_gamma_single_16_to_8(r,1/display_red_gamma);
g=apply_gamma_single_16_to_8(g,1/display_green_gamma);
b=apply_gamma_single_16_to_8(b,1/display_blue_gamma);
new_rgb=b|(g<<8)|(r<<16);
gamma_cache_rgb = rgb;
/* The get_color takes values with gamma of display_*_gamma */
return gamma_cache_color = drv->get_color(new_rgb);
}
/* ATTENTION!!! allocates using malloc. Due to braindead Xlib, which
* frees it using free and thus it is not possible to use mem_alloc. */
void get_links_icon(unsigned char **data, int *width, int *height, int depth)
{
struct bitmap b;
unsigned short *tmp1;
double g=user_gamma/sRGB_gamma;
b.x=48;
b.y=48;
*width=b.x;
*height=b.y;
b.skip=b.x*(depth&7);
retry:
if (!(b.data=*data=malloc(b.skip*b.y))) {
out_of_memory("icon malloc", b.skip*b.y);
goto retry;
}
tmp1=mem_alloc(6*b.y*b.x);
apply_gamma_exponent_24_to_48(tmp1,links_icon,b.x*b.y,g,g,g);
dither(tmp1, &b);
mem_free(tmp1);
}
#endif /* G */
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