eBookReaderSwitch/mupdf/source/fitz/draw-paint.c

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#include "mupdf/fitz.h"
#include "draw-imp.h"
#include <string.h>
#include <assert.h>
/*
The functions in this file implement various flavours of Porter-Duff blending.
We take the following as definitions:
Cx = Color (from plane x)
ax = Alpha (from plane x)
cx = Cx.ax = Premultiplied color (from plane x)
The general PorterDuff blending equation is:
Blend Z = X op Y cz = Fx.cx + Fy.cy where Fx and Fy depend on op
The two operations we use in this file are: '(X in Y) over Z' and
'S over Z'. The definitions of the 'over' and 'in' operations are as
follows:
For S over Z, Fs = 1, Fz = 1-as
For X in Y, Fx = ay, Fy = 0
We have 2 choices; we can either work with premultiplied data, or non
premultiplied data. Our
First the premultiplied case:
Let S = (X in Y)
Let R = (X in Y) over Z = S over Z
cs = cx.Fx + cy.Fy (where Fx = ay, Fy = 0)
= cx.ay
as = ax.Fx + ay.Fy
= ax.ay
cr = cs.Fs + cz.Fz (where Fs = 1, Fz = 1-as)
= cs + cz.(1-as)
= cx.ay + cz.(1-ax.ay)
ar = as.Fs + az.Fz
= as + az.(1-as)
= ax.ay + az.(1-ax.ay)
This has various nice properties, like not needing any divisions, and
being symmetric in color and alpha, so this is what we use. Because we
went through the pain of deriving the non premultiplied forms, we list
them here too, though they are not used.
Non Pre-multiplied case:
Cs.as = Fx.Cx.ax + Fy.Cy.ay (where Fx = ay, Fy = 0)
= Cx.ay.ax
Cs = (Cx.ay.ax)/(ay.ax)
= Cx
Cr.ar = Fs.Cs.as + Fz.Cz.az (where Fs = 1, Fz = 1-as)
= Cs.as + (1-as).Cz.az
= Cx.ax.ay + Cz.az.(1-ax.ay)
Cr = (Cx.ax.ay + Cz.az.(1-ax.ay))/(ax.ay + az.(1-ax.ay))
Much more complex, it seems. However, if we could restrict ourselves to
the case where we were always plotting onto an opaque background (i.e.
az = 1), then:
Cr = Cx.(ax.ay) + Cz.(1-ax.ay)
= (Cx-Cz)*(1-ax.ay) + Cz (a single MLA operation)
ar = 1
Sadly, this is not true in the general case, so we abandon this effort
and stick to using the premultiplied form.
*/
typedef unsigned char byte;
/* These are used by the non-aa scan converter */
static inline void
template_solid_color_1_da(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da)
{
int sa = FZ_EXPAND(color[1]);
TRACK_FN();
if (sa == 0)
return;
if (sa == 256)
{
do
{
dp[0] = color[0];
dp[1] = 255;
dp += 2;
}
while (--w);
}
else
{
do
{
dp[0] = FZ_BLEND(color[0], dp[0], sa);
dp[1] = FZ_BLEND(255, dp[1], sa);
dp += 2;
}
while (--w);
}
}
static inline int isbigendian(void)
{
union { int i; char c[sizeof(int)]; } u = {1};
return u.c[0] != 1;
}
static inline void
template_solid_color_3_da(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da)
{
unsigned int rgba = *(int *)color;
int sa = FZ_EXPAND(color[3]);
TRACK_FN();
if (sa == 0)
return;
if (isbigendian())
rgba |= 0x000000FF;
else
rgba |= 0xFF000000;
if (sa == 256)
{
do
{
*(unsigned int *)dp = rgba;
dp += 4;
}
while (--w);
}
else
{
unsigned int mask = 0xFF00FF00;
unsigned int rb = rgba & (mask>>8);
unsigned int ga = (rgba & mask)>>8;
do
{
unsigned int RGBA = *(unsigned int *)dp;
unsigned int RB = (RGBA<<8) & mask;
unsigned int GA = RGBA & mask;
RB += (rb-(RB>>8))*sa;
GA += (ga-(GA>>8))*sa;
RB &= mask;
GA &= mask;
*(unsigned int *)dp = (RB>>8) | GA;
dp += 4;
}
while (--w);
}
}
static inline void
template_solid_color_4_da(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da)
{
int sa = FZ_EXPAND(color[4]);
TRACK_FN();
if (sa == 0)
return;
if (sa == 256)
{
#ifdef ARCH_UNALIGNED_OK
if (w > 4)
{
if (isbigendian())
{
const uint32_t a = *(uint32_t*)color;
const uint32_t b = 0xFF000000|(a>>8);
const uint32_t c = 0x00FF0000|(a>>16)|(a<<24);
const uint32_t d = 0x0000FF00|(a>>24)|(a<<16);
const uint32_t e = 0x000000FF|(a<<8);
w -= 3;
do
{
((uint32_t *)(void *)dp)[0] = a;
((uint32_t *)(void *)dp)[1] = b;
((uint32_t *)(void *)dp)[2] = c;
((uint32_t *)(void *)dp)[3] = d;
((uint32_t *)(void *)dp)[4] = e;
dp += 20;
w -= 4;
}
while (w > 0);
}
else
{
const uint32_t a = *(uint32_t*)color;
const uint32_t b = 0x000000FF|(a<<8);
const uint32_t c = 0x0000FF00|(a<<16)|(a>>24);
const uint32_t d = 0x00FF0000|(a<<24)|(a>>16);
const uint32_t e = 0xFF000000|(a>>8);
w -= 3;
do
{
((uint32_t *)(void *)dp)[0] = a;
((uint32_t *)(void *)dp)[1] = b;
((uint32_t *)(void *)dp)[2] = c;
((uint32_t *)(void *)dp)[3] = d;
((uint32_t *)(void *)dp)[4] = e;
dp += 20;
w -= 4;
}
while (w > 0);
}
w += 3;
if (w == 0)
return;
}
#endif
do
{
dp[0] = color[0];
dp[1] = color[1];
dp[2] = color[2];
dp[3] = color[3];
dp[4] = 255;
dp += 5;
}
while (--w);
}
else
{
do
{
dp[0] = FZ_BLEND(color[0], dp[0], sa);
dp[1] = FZ_BLEND(color[1], dp[1], sa);
dp[2] = FZ_BLEND(color[2], dp[2], sa);
dp[3] = FZ_BLEND(color[3], dp[3], sa);
dp[4] = FZ_BLEND(255, dp[5], sa);
dp += 5;
}
while (--w);
}
}
static inline void
template_solid_color_N_256(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da)
{
int k;
int n1 = n - da;
if (n == 3 && da == 0 && w >= 8)
{
union {uint32_t w[3]; byte b[12];} u;
u.b[0] = u.b[3] = u.b[6] = u.b[9] = color[0];
u.b[1] = u.b[4] = u.b[7] = u.b[10] = color[1];
u.b[2] = u.b[5] = u.b[8] = u.b[11] = color[2];
switch (((intptr_t)dp) & 3)
{
case 3:
*dp++ = color[0];
*(uint32_t *)dp = u.w[1];
dp += 4;
*(uint32_t *)dp = u.w[2];
dp += 4;
w -= 3;
break;
case 2:
*dp++ = color[0];
*dp++ = color[1];
*(uint32_t *)dp = u.w[2];
dp += 4;
w -= 2;
break;
case 1:
*dp++ = color[0];
*dp++ = color[1];
*dp++ = color[2];
w -= 1;
break;
}
w -= 4;
do
{
*(uint32_t *)dp = u.w[0];
dp += 4;
*(uint32_t *)dp = u.w[1];
dp += 4;
*(uint32_t *)dp = u.w[2];
dp += 4;
w -= 4;
}
while (w > 0);
w += 4;
if (w == 0)
return;
}
do
{
dp[0] = color[0];
if (n1 > 1)
dp[1] = color[1];
if (n1 > 2)
dp[2] = color[2];
for (k = 3; k < n1; k++)
dp[k] = color[k];
if (da)
dp[n1] = 255;
dp += n;
}
while (--w);
}
static inline void
template_solid_color_N_256_op(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
int k;
int n1 = n - da;
do
{
if (fz_overprint_component(eop, 0))
dp[0] = color[0];
if (n1 > 1)
if (fz_overprint_component(eop, 1))
dp[1] = color[1];
if (n1 > 2)
if (fz_overprint_component(eop, 2))
dp[2] = color[2];
for (k = 3; k < n1; k++)
if (fz_overprint_component(eop, k))
dp[k] = color[k];
if (da)
dp[n1] = 255;
dp += n;
}
while (--w);
}
static inline void
template_solid_color_N_sa(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, int sa)
{
int k;
int n1 = n - da;
do
{
for (k = 0; k < n1; k++)
dp[k] = FZ_BLEND(color[k], dp[k], sa);
if (da)
dp[k] = FZ_BLEND(255, dp[k], sa);
dp += n;
}
while (--w);
}
static inline void
template_solid_color_N_sa_op(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, int sa, const fz_overprint * FZ_RESTRICT eop)
{
int k;
int n1 = n - da;
do
{
for (k = 0; k < n1; k++)
if (fz_overprint_component(eop, k))
dp[k] = FZ_BLEND(color[k], dp[k], sa);
if (da)
dp[k] = FZ_BLEND(255, dp[k], sa);
dp += n;
}
while (--w);
}
#if FZ_PLOTTERS_N
static inline void
template_solid_color_N_general(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, int sa)
{
int k;
int n1 = n - da;
if (sa == 256)
{
do
{
dp[0] = color[0];
if (n1 > 1)
dp[1] = color[1];
if (n1 > 2)
dp[2] = color[2];
for (k = 3; k < n1; k++)
dp[k] = color[k];
if (da)
dp[n1] = 255;
dp += n;
}
while (--w);
}
else
{
do
{
for (k = 0; k < n1; k++)
dp[k] = FZ_BLEND(color[k], dp[k], sa);
if (da)
dp[k] = FZ_BLEND(255, dp[k], sa);
dp += n;
}
while (--w);
}
}
static inline void
template_solid_color_N_general_op(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, int sa, const fz_overprint * FZ_RESTRICT eop)
{
int k;
int n1 = n - da;
if (sa == 256)
{
do
{
if (fz_overprint_component(eop, 0))
dp[0] = color[0];
if (n1 > 1)
if (fz_overprint_component(eop, 1))
dp[1] = color[1];
if (n1 > 2)
if (fz_overprint_component(eop, 2))
dp[2] = color[2];
for (k = 3; k < n1; k++)
if (fz_overprint_component(eop, k))
dp[k] = color[k];
if (da)
dp[n1] = 255;
dp += n;
}
while (--w);
}
else
{
do
{
for (k = 0; k < n1; k++)
if (fz_overprint_component(eop, k))
dp[k] = FZ_BLEND(color[k], dp[k], sa);
if (da)
dp[k] = FZ_BLEND(255, dp[k], sa);
dp += n;
}
while (--w);
}
}
#endif
static inline void
template_solid_color_0_da(byte * FZ_RESTRICT dp, int w, int sa)
{
if (sa == 256)
{
memset(dp, 255, w);
}
else
{
do
{
*dp = FZ_BLEND(255, *dp, sa);
dp++;
}
while (--w);
}
}
#if FZ_PLOTTERS_G
static void paint_solid_color_1_alpha(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_sa(dp, 1, w, color, 0, FZ_EXPAND(color[1]));
}
static void paint_solid_color_1(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_256(dp, 1, w, color, 0);
}
static void paint_solid_color_1_da(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_1_da(dp, 2, w, color, 1);
}
#endif /* FZ_PLOTTERS_G */
static void paint_solid_color_0_da(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_0_da(dp, w, 256);
}
#if FZ_PLOTTERS_RGB
static void paint_solid_color_3_alpha(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_sa(dp, 3, w, color, 0, FZ_EXPAND(color[3]));
}
static void paint_solid_color_3(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_256(dp, 3, w, color, 0);
}
static void paint_solid_color_3_da(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_3_da(dp, 4, w, color, 1);
}
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
static void paint_solid_color_4_alpha(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_sa(dp, 4, w, color, 0, FZ_EXPAND(color[4]));
}
static void paint_solid_color_4(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_256(dp, 4, w, color, 0);
}
static void paint_solid_color_4_da(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_4_da(dp, 5, w, color, 1);
}
#endif /* FZ_PLOTTERS_CMYK */
#if FZ_PLOTTERS_N
static void paint_solid_color_N_alpha(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_sa(dp, n, w, color, 0, FZ_EXPAND(color[n]));
}
static void paint_solid_color_N(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_256(dp, n, w, color, 0);
}
static void paint_solid_color_N_da(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_general(dp, n, w, color, 1, FZ_EXPAND(color[n-1]));
}
#endif /* FZ_PLOTTERS_N */
#ifdef FZ_ENABLE_SPOT_RENDERING
static void paint_solid_color_N_alpha_op(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_sa_op(dp, n, w, color, 0, FZ_EXPAND(color[n]), eop);
}
static void paint_solid_color_N_op(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_256_op(dp, n, w, color, 0, eop);
}
static void paint_solid_color_N_da_op(byte * FZ_RESTRICT dp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_solid_color_N_general_op(dp, n, w, color, 1, FZ_EXPAND(color[n-1]), eop);
}
#endif /* FZ_ENABLE_SPOT_RENDERING */
fz_solid_color_painter_t *
fz_get_solid_color_painter(int n, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
#if FZ_ENABLE_SPOT_RENDERING
if (fz_overprint_required(eop))
{
if (da)
return paint_solid_color_N_da_op;
else if (color[n] == 255)
return paint_solid_color_N_op;
else
return paint_solid_color_N_alpha_op;
}
#endif /* FZ_ENABLE_SPOT_RENDERING */
switch (n-da)
{
case 0:
return paint_solid_color_0_da;
#if FZ_PLOTTERS_G
case 1:
if (da)
return paint_solid_color_1_da;
else if (color[1] == 255)
return paint_solid_color_1;
else
return paint_solid_color_1_alpha;
#endif /* FZ_PLOTTERS_G */
#if FZ_PLOTTERS_RGB
case 3:
if (da)
return paint_solid_color_3_da;
else if (color[3] == 255)
return paint_solid_color_3;
else
return paint_solid_color_3_alpha;
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
case 4:
if (da)
return paint_solid_color_4_da;
else if (color[4] == 255)
return paint_solid_color_4;
else
return paint_solid_color_4_alpha;
#endif /* FZ_PLOTTERS_CMYK */
default:
#if FZ_PLOTTERS_N
if (da)
return paint_solid_color_N_da;
else if (color[n] == 255)
return paint_solid_color_N;
else
return paint_solid_color_N_alpha;
#else
return NULL;
#endif /* FZ_PLOTTERS_N */
}
}
/* Blend a non-premultiplied color in mask over destination */
static inline void
template_span_with_color_1_da(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da)
{
int sa = FZ_EXPAND(color[1]);
int g = color[0];
if (sa == 256)
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0)
{
}
else if (ma == 256)
{
dp[0] = g;
dp[1] = 255;
}
else
{
dp[0] = FZ_BLEND(g, dp[0], ma);
dp[1] = FZ_BLEND(255, dp[1], ma);
}
dp += 2;
}
while (--w);
}
else
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0)
{
}
else
{
ma = FZ_COMBINE(ma, sa);
dp[0] = FZ_BLEND(g, dp[0], ma);
dp[1] = FZ_BLEND(255, dp[1], ma);
}
dp += 2;
}
while (--w);
}
}
static inline void
template_span_with_color_3_da(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da)
{
unsigned int rgba = *((const unsigned int *)color);
unsigned int mask, rb, ga;
int sa = FZ_EXPAND(color[3]);
if (sa == 0)
return;
if (isbigendian())
rgba |= 0x000000FF;
else
rgba |= 0xFF000000;
mask = 0xFF00FF00;
rb = rgba & (mask>>8);
ga = (rgba & mask)>>8;
if (sa == 256)
{
do
{
unsigned int ma = *mp++;
dp += 4;
ma = FZ_EXPAND(ma);
if (ma == 0)
{
}
else if (ma == 256)
{
((unsigned int *)dp)[-1] = rgba;
}
else
{
unsigned int RGBA = ((unsigned int *)dp)[-1];
unsigned int RB = (RGBA<<8) & mask;
unsigned int GA = RGBA & mask;
RB += (rb-(RB>>8))*ma;
GA += (ga-(GA>>8))*ma;
RB &= mask;
GA &= mask;
((unsigned int *)dp)[-1] = (RB>>8) | GA;
}
}
while (--w);
}
else
{
do
{
unsigned int ma = *mp++;
ma = FZ_COMBINE(FZ_EXPAND(ma), sa);
dp += 4;
if (ma != 0)
{
unsigned int RGBA = ((unsigned int*)dp)[-1];
unsigned int RB = (RGBA<<8) & mask;
unsigned int GA = RGBA & mask;
RB += (rb-(RB>>8))*ma;
GA += (ga-(GA>>8))*ma;
RB &= mask;
GA &= mask;
((unsigned int *)dp)[-1] = (RB>>8) | GA;
}
}
while (--w);
}
}
static inline void
template_span_with_color_4_da(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da)
{
int sa = FZ_EXPAND(color[4]);
int c = color[0];
int m = color[1];
int y = color[2];
int k = color[3];
TRACK_FN();
if (sa == 256)
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0)
{
}
else if (ma == 256)
{
dp[0] = c;
dp[1] = m;
dp[2] = y;
dp[3] = k;
dp[4] = 255;
}
else
{
dp[0] = FZ_BLEND(c, dp[0], ma);
dp[1] = FZ_BLEND(m, dp[1], ma);
dp[2] = FZ_BLEND(y, dp[2], ma);
dp[3] = FZ_BLEND(k, dp[3], ma);
dp[4] = FZ_BLEND(255, dp[4], ma);
}
dp += 5;
}
while (--w);
}
else
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0)
{
}
else
{
ma = FZ_COMBINE(ma, sa);
dp[0] = FZ_BLEND(c, dp[0], ma);
dp[1] = FZ_BLEND(m, dp[1], ma);
dp[2] = FZ_BLEND(y, dp[2], ma);
dp[3] = FZ_BLEND(k, dp[3], ma);
dp[4] = FZ_BLEND(255, dp[4], ma);
}
dp += 5;
}
while (--w);
}
}
static inline void
template_span_with_color_N_general(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da)
{
int k;
int n1 = n - da;
int sa = FZ_EXPAND(color[n1]);
if (sa == 0)
return;
if (sa == 256)
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0)
{
}
else if (ma == 256)
{
if (n1 > 0)
dp[0] = color[0];
if (n1 > 1)
dp[1] = color[1];
if (n1 > 2)
dp[2] = color[2];
for (k = 3; k < n1; k++)
dp[k] = color[k];
if (da)
dp[n1] = 255;
}
else
{
for (k = 0; k < n1; k++)
dp[k] = FZ_BLEND(color[k], dp[k], ma);
if (da)
dp[n1] = FZ_BLEND(255, dp[k], ma);
}
dp += n;
}
while (--w);
}
else
{
do
{
int ma = *mp++;
ma = FZ_COMBINE(FZ_EXPAND(ma), sa);
for (k = 0; k < n1; k++)
dp[k] = FZ_BLEND(color[k], dp[k], ma);
if (da)
dp[k] = FZ_BLEND(255, dp[k], ma);
dp += n;
}
while (--w);
}
}
static inline void
template_span_with_color_N_general_op(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
int k;
int n1 = n - da;
int sa = FZ_EXPAND(color[n1]);
if (sa == 0)
return;
if (sa == 256)
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0)
{
}
else if (ma == 256)
{
if (n1 > 0)
if (fz_overprint_component(eop, 0))
dp[0] = color[0];
if (n1 > 1)
if (fz_overprint_component(eop, 1))
dp[1] = color[1];
if (n1 > 2)
if (fz_overprint_component(eop, 2))
dp[2] = color[2];
for (k = 3; k < n1; k++)
if (fz_overprint_component(eop, k))
dp[k] = color[k];
if (da)
dp[n1] = 255;
}
else
{
for (k = 0; k < n1; k++)
if (fz_overprint_component(eop, k))
dp[k] = FZ_BLEND(color[k], dp[k], ma);
if (da)
dp[n1] = FZ_BLEND(255, dp[k], ma);
}
dp += n;
}
while (--w);
}
else
{
do
{
int ma = *mp++;
ma = FZ_COMBINE(FZ_EXPAND(ma), sa);
for (k = 0; k < n1; k++)
if (fz_overprint_component(eop, k))
dp[k] = FZ_BLEND(color[k], dp[k], ma);
if (da)
dp[k] = FZ_BLEND(255, dp[k], ma);
dp += n;
}
while (--w);
}
}
static void
paint_span_with_color_0_da(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_N_general(dp, mp, 1, w, color, 1);
}
static void
paint_span_with_color_1(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_N_general(dp, mp, 1, w, color, 0);
}
static void
paint_span_with_color_1_da(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_1_da(dp, mp, 2, w, color, 1);
}
#if FZ_PLOTTERS_RGB
static void
paint_span_with_color_3(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_N_general(dp, mp, 3, w, color, 0);
}
static void
paint_span_with_color_3_da(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_3_da(dp, mp, 4, w, color, 1);
}
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
static void
paint_span_with_color_4(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_N_general(dp, mp, 4, w, color, 0);
}
static void
paint_span_with_color_4_da(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_4_da(dp, mp, 5, w, color, 1);
}
#endif /* FZ_PLOTTERS_CMYK */
#if FZ_PLOTTERS_N
static void
paint_span_with_color_N(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_N_general(dp, mp, n, w, color, 0);
}
static void
paint_span_with_color_N_da(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_N_general(dp, mp, n, w, color, 1);
}
#endif /* FZ_PLOTTERS_N */
#ifdef FZ_ENABLE_SPOT_RENDERING
static void
paint_span_with_color_N_op(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_N_general_op(dp, mp, n, w, color, 0, eop);
}
static void
paint_span_with_color_N_da_op(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT mp, int n, int w, const byte * FZ_RESTRICT color, int da, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_color_N_general_op(dp, mp, n, w, color, 1, eop);
}
#endif /* FZ_ENABLE_SPOT_RENDERING */
fz_span_color_painter_t *
fz_get_span_color_painter(int n, int da, const byte * FZ_RESTRICT color, const fz_overprint * FZ_RESTRICT eop)
{
#if FZ_ENABLE_SPOT_RENDERING
if (fz_overprint_required(eop))
{
return da ? paint_span_with_color_N_da_op : paint_span_with_color_N_op;
}
#endif /* FZ_ENABLE_SPOT_RENDERING */
switch(n-da)
{
case 0: return da ? paint_span_with_color_0_da : NULL;
case 1: return da ? paint_span_with_color_1_da : paint_span_with_color_1;
#if FZ_PLOTTERS_RGB
case 3: return da ? paint_span_with_color_3_da : paint_span_with_color_3;
#endif/* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
case 4: return da ? paint_span_with_color_4_da : paint_span_with_color_4;
#endif/* FZ_PLOTTERS_CMYK */
#if FZ_PLOTTERS_N
default: return da ? paint_span_with_color_N_da : paint_span_with_color_N;
#else
default: return NULL;
#endif /* FZ_PLOTTERS_N */
}
}
/* Blend source in mask over destination */
/* FIXME: There is potential for SWAR optimisation here */
static inline void
template_span_with_mask_1_general(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, int a, const byte * FZ_RESTRICT mp, int w)
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0 || (a && sp[1] == 0))
{
dp += 1 + a;
sp += 1 + a;
}
else if (ma == 256)
{
*dp++ = *sp++;
if (a)
*dp++ = *sp++;
}
else
{
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
if (a)
{
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
}
}
}
while (--w);
}
static inline void
template_span_with_mask_3_general(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, int a, const byte * FZ_RESTRICT mp, int w)
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0 || (a && sp[3] == 0))
{
dp += 3 + a;
sp += 3 + a;
}
else if (ma == 256)
{
if (a)
{
*(int32_t *)dp = *(int32_t *)sp;
sp += 4; dp += 4;
}
else
{
*dp++ = *sp++;
*dp++ = *sp++;
*dp++ = *sp++;
}
}
else if (a)
{
const uint32_t mask = 0x00ff00ff;
uint32_t d0 = *(uint32_t *)dp;
uint32_t d1 = d0>>8;
uint32_t s0 = *(uint32_t *)sp;
uint32_t s1 = s0>>8;
d0 &= mask;
d1 &= mask;
s0 &= mask;
s1 &= mask;
d0 = (((d0<<8) + (s0-d0)*ma)>>8) & mask;
d1 = ((d1<<8) + (s1-d1)*ma) & ~mask;
d0 |= d1;
assert((d0>>24) >= (d0 & 0xff));
assert((d0>>24) >= ((d0>>8) & 0xff));
assert((d0>>24) >= ((d0>>16) & 0xff));
*(uint32_t *)dp = d0;
sp += 4;
dp += 4;
}
else
{
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
}
}
while (--w);
}
static inline void
template_span_with_mask_4_general(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, int a, const byte * FZ_RESTRICT mp, int w)
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0 || (a && sp[4] == 0))
{
dp += 4 + a;
sp += 4 + a;
}
else if (ma == 256)
{
if (!a)
{
*(uint32_t *)dp = *(uint32_t *)sp;
dp += 4;
sp += 4;
}
else
{
*dp++ = *sp++;
*dp++ = *sp++;
*dp++ = *sp++;
*dp++ = *sp++;
*dp++ = *sp++;
}
}
else if (a)
{
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
}
else
{
const uint32_t mask = 0x00ff00ff;
uint32_t d0 = *(uint32_t *)dp;
uint32_t d1 = d0>>8;
uint32_t s0 = *(uint32_t *)sp;
uint32_t s1 = s0>>8;
sp += 4;
d0 &= mask;
d1 &= mask;
s0 &= mask;
s1 &= mask;
d0 = (((d0<<8) + (s0-d0)*ma)>>8) & mask;
d1 = ((d1<<8) + (s1-d1)*ma) & ~mask;
d0 |= d1;
*(uint32_t *)dp = d0;
dp += 4;
}
}
while (--w);
}
static inline void
template_span_with_mask_N_general(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, int a, const byte * FZ_RESTRICT mp, int n, int w)
{
do
{
int ma = *mp++;
ma = FZ_EXPAND(ma);
if (ma == 0 || (a && sp[n] == 0))
{
dp += n + a;
sp += n + a;
}
else if (ma == 256)
{
int k;
for (k = 0; k < n; k++)
*dp++ = *sp++;
if (a)
*dp++ = *sp++;
}
else
{
int k;
for (k = 0; k < n; k++)
{
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
}
if (a)
{
*dp = FZ_BLEND(*sp, *dp, ma);
sp++; dp++;
}
}
}
while (--w);
}
static void
paint_span_with_mask_0_a(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_N_general(dp, sp, 1, mp, 0, w);
}
static void
paint_span_with_mask_1_a(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_1_general(dp, sp, 1, mp, w);
}
static void
paint_span_with_mask_1(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_1_general(dp, sp, 0, mp, w);
}
#if FZ_PLOTTERS_RGB
static void
paint_span_with_mask_3_a(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_3_general(dp, sp, 1, mp, w);
}
static void
paint_span_with_mask_3(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_3_general(dp, sp, 0, mp, w);
}
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
static void
paint_span_with_mask_4_a(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_4_general(dp, sp, 1, mp, w);
}
static void
paint_span_with_mask_4(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_4_general(dp, sp, 0, mp, w);
}
#endif /* FZ_PLOTTERS_CMYK */
#if FZ_PLOTTERS_N
static void
paint_span_with_mask_N_a(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_N_general(dp, sp, 1, mp, n, w);
}
static void
paint_span_with_mask_N(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_with_mask_N_general(dp, sp, 0, mp, n, w);
}
#endif /* FZ_PLOTTERS_N */
typedef void (fz_span_mask_painter_t)(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, const byte * FZ_RESTRICT mp, int w, int n, int a, const fz_overprint * FZ_RESTRICT eop);
static fz_span_mask_painter_t *
fz_get_span_mask_painter(int a, int n)
{
switch(n)
{
case 0:
/* assert(a); */
return paint_span_with_mask_0_a;
case 1:
if (a)
return paint_span_with_mask_1_a;
else
return paint_span_with_mask_1;
#if FZ_PLOTTERS_RGB
case 3:
if (a)
return paint_span_with_mask_3_a;
else
return paint_span_with_mask_3;
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
case 4:
if (a)
return paint_span_with_mask_4_a;
else
return paint_span_with_mask_4;
#endif /* FZ_PLOTTERS_CMYK */
default:
{
#if FZ_PLOTTERS_N
if (a)
return paint_span_with_mask_N_a;
else
return paint_span_with_mask_N;
#else
return NULL;
#endif /* FZ_PLOTTERS_N */
}
}
}
/* Blend source in constant alpha over destination */
static inline void
template_span_1_with_alpha_general(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int w, int alpha)
{
if (sa)
alpha = FZ_EXPAND(alpha);
do
{
int masa = (sa ? FZ_COMBINE(sp[1], alpha) : alpha);
int t = FZ_EXPAND(255-masa);
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
dp++; sp++;
if (da)
{
*dp = masa + FZ_COMBINE(*dp, t);
dp++;
}
if (sa)
sp++;
}
while (--w);
}
static inline void
template_span_3_with_alpha_general(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int w, int alpha)
{
if (sa)
alpha = FZ_EXPAND(alpha);
do
{
int masa = (sa ? FZ_COMBINE(sp[3], alpha) : alpha);
int t = FZ_EXPAND(255-masa);
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++; dp++;
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++; dp++;
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++; dp++;
if (da)
{
*dp = masa + FZ_COMBINE(*dp, t);
dp++;
}
if (sa)
sp++;
}
while (--w);
}
static inline void
template_span_4_with_alpha_general(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int w, int alpha)
{
if (sa)
alpha = FZ_EXPAND(alpha);
do
{
int masa = (sa ? FZ_COMBINE(sp[4], alpha) : alpha);
int t = FZ_EXPAND(255-masa);
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++; dp++;
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++; dp++;
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++; dp++;
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++; dp++;
if (da)
{
*dp = masa + FZ_COMBINE(*dp, t);
dp++;
}
if (sa)
sp++;
}
while (--w);
}
#if FZ_PLOTTERS_N
static inline void
template_span_N_with_alpha_general(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n1, int w, int alpha)
{
if (sa)
alpha = FZ_EXPAND(alpha);
do
{
int masa = (sa ? FZ_COMBINE(sp[n1], alpha) : alpha);
int t = FZ_EXPAND(255-masa);
int k;
for (k = 0; k < n1; k++)
{
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++; dp++;
}
if (da)
{
*dp = masa + FZ_COMBINE(*dp, t);
dp++;
}
if (sa)
sp++;
}
while (--w);
}
static inline void
template_span_N_with_alpha_general_op(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n1, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
if (sa)
alpha = FZ_EXPAND(alpha);
do
{
int masa = (sa ? FZ_COMBINE(sp[n1], alpha) : alpha);
int t = FZ_EXPAND(255-masa);
int k;
for (k = 0; k < n1; k++)
{
if (fz_overprint_component(eop, k))
*dp = FZ_COMBINE(*sp, alpha) + FZ_COMBINE(*dp, t);
sp++;
dp++;
}
if (da)
{
*dp = masa + FZ_COMBINE(*dp, t);
dp++;
}
if (sa)
sp++;
}
while (--w);
}
#endif
/* Blend source over destination */
static inline void
template_span_1_general(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int w)
{
do
{
int t = (sa ? FZ_EXPAND(sp[1]): 256);
if (t == 0)
{
dp += 1 + da; sp += 1 + sa;
}
else
{
t = 256 - t;
if (t == 0)
{
*dp++ = *sp++;
if (da)
*dp++ = (sa ? *sp : 255);
if (sa)
sp++;
}
else
{
*dp = *sp + FZ_COMBINE(*dp, t);
sp++;
dp++;
if (da)
{
*dp = (sa ? *sp + FZ_COMBINE(*dp, t) : 255);
dp++;
}
if (sa)
sp++;
}
}
}
while (--w);
}
static inline void
template_span_3_general(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int w)
{
do
{
int t = (sa ? FZ_EXPAND(sp[3]) : 256);
if (t == 0)
{
dp += 3 + da; sp += 3 + sa;
}
else
{
t = 256 - t;
if (t == 0)
{
if (da && sa)
*(int32_t *)dp = *(const int32_t *)sp;
else
{
dp[0] = sp[0];
dp[1] = sp[1];
dp[2] = sp[2];
if (da)
dp[3] = 255;
}
dp += 3+da; sp += 3+sa;
}
else
{
*dp = *sp++ + FZ_COMBINE(*dp, t);
dp++;
*dp = *sp++ + FZ_COMBINE(*dp, t);
dp++;
*dp = *sp++ + FZ_COMBINE(*dp, t);
dp++;
if (da)
{
*dp = (sa ? *sp + FZ_COMBINE(*dp, t) : 255);
dp++;
}
if (sa)
sp++;
}
}
}
while (--w);
}
static inline void
template_span_4_general(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int w)
{
do
{
int t = (sa ? FZ_EXPAND(sp[4]) : 256);
if (t == 0)
{
dp += 4+da; sp += 4+sa;
}
else
{
t = 256 - t;
if (t == 0)
{
dp[0] = sp[0];
dp[1] = sp[1];
dp[2] = sp[2];
dp[3] = sp[3];
if (da)
dp[4] = (sa ? sp[4] : 255);
dp += 4+da; sp += 4 + sa;
}
else
{
*dp = *sp++ + FZ_COMBINE(*dp, t);
dp++;
*dp = *sp++ + FZ_COMBINE(*dp, t);
dp++;
*dp = *sp++ + FZ_COMBINE(*dp, t);
dp++;
*dp = *sp++ + FZ_COMBINE(*dp, t);
dp++;
if (da)
{
*dp = (sa ? *sp + FZ_COMBINE(*dp, t) : 255);
dp++;
}
if (sa)
sp++;
}
}
}
while (--w);
}
#if FZ_PLOTTERS_N
static inline void
template_span_N_general(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n1, int w)
{
do
{
int t = (sa ? FZ_EXPAND(sp[n1]) : 256);
if (t == 0)
{
dp += n1 + da; sp += n1 + sa;
}
else
{
t = 256 - t;
if (t == 0)
{
int k;
for (k = 0; k < n1; k++)
*dp++ = *sp++;
if (da)
*dp++ = (sa ? *sp : 255);
if (sa)
sp++;
}
else
{
int k;
for (k = 0; k < n1; k++)
{
*dp = *sp + FZ_COMBINE(*dp, t);
sp++;
dp++;
}
if (da)
{
*dp = (sa ? *sp + FZ_COMBINE(*dp, t) : 255);
dp++;
}
if (sa)
sp++;
}
}
}
while (--w);
}
static inline void
template_span_N_general_op(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n1, int w, const fz_overprint * FZ_RESTRICT eop)
{
do
{
int t = (sa ? FZ_EXPAND(sp[n1]) : 256);
if (t == 0)
{
dp += n1 + da; sp += n1 + sa;
}
else
{
t = 256 - t;
if (t == 0)
{
int k;
for (k = 0; k < n1; k++)
{
if (fz_overprint_component(eop, k))
*dp = *sp;
dp++;
sp++;
}
if (da)
*dp++ = (sa ? *sp : 255);
if (sa)
sp++;
}
else
{
int k;
for (k = 0; k < n1; k++)
{
if (fz_overprint_component(eop, k))
*dp = *sp + FZ_COMBINE(*dp, t);
sp++;
dp++;
}
if (da)
{
*dp = (sa ? *sp + FZ_COMBINE(*dp, t) : 255);
dp++;
}
if (sa)
sp++;
}
}
}
while (--w);
}
#endif
static void
paint_span_0_da_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
do
{
int s = *sp++;
int t = FZ_EXPAND(255 - s);
*dp = s + FZ_COMBINE(*dp, t);
dp ++;
}
while (--w);
}
static void
paint_span_0_da_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
alpha = FZ_EXPAND(alpha);
do
{
int masa = FZ_COMBINE(sp[0], alpha);
int t = FZ_EXPAND(255-masa);
*dp = masa + FZ_COMBINE(*dp, t);
dp++;
sp++;
}
while (--w);
}
static void
paint_span_1_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_1_general(dp, 0, sp, 1, w);
}
static void
paint_span_1_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_1_with_alpha_general(dp, 0, sp, 1, w, alpha);
}
static void
paint_span_1_da_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_1_general(dp, 1, sp, 1, w);
}
static void
paint_span_1_da_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_1_with_alpha_general(dp, 1, sp, 1, w, alpha);
}
#if FZ_PLOTTERS_G
static void
paint_span_1_da(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_1_general(dp, 1, sp, 0, w);
}
static void
paint_span_1_da_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_1_with_alpha_general(dp, 1, sp, 0, w, alpha);
}
static void
paint_span_1(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_1_general(dp, 0, sp, 0, w);
}
static void
paint_span_1_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_1_with_alpha_general(dp, 0, sp, 0, w, alpha);
}
#endif /* FZ_PLOTTERS_G */
#if FZ_PLOTTERS_RGB
static void
paint_span_3_da_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_3_general(dp, 1, sp, 1, w);
}
static void
paint_span_3_da_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_3_with_alpha_general(dp, 1, sp, 1, w, alpha);
}
static void
paint_span_3_da(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_3_general(dp, 1, sp, 0, w);
}
static void
paint_span_3_da_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_3_with_alpha_general(dp, 1, sp, 0, w, alpha);
}
static void
paint_span_3_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_3_general(dp, 0, sp, 1, w);
}
static void
paint_span_3_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_3_with_alpha_general(dp, 0, sp, 1, w, alpha);
}
static void
paint_span_3(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_3_general(dp, 0, sp, 0, w);
}
static void
paint_span_3_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_3_with_alpha_general(dp, 0, sp, 0, w, alpha);
}
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
static void
paint_span_4_da_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_4_general(dp, 1, sp, 1, w);
}
static void
paint_span_4_da_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_4_with_alpha_general(dp, 1, sp, 1, w, alpha);
}
static void
paint_span_4_da(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_4_general(dp, 1, sp, 0, w);
}
static void
paint_span_4_da_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_4_with_alpha_general(dp, 1, sp, 0, w, alpha);
}
static void
paint_span_4_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_4_general(dp, 0, sp, 1, w);
}
static void
paint_span_4_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_4_with_alpha_general(dp, 0, sp, 1, w, alpha);
}
static void
paint_span_4(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_4_general(dp, 0, sp, 0, w);
}
static void
paint_span_4_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_4_with_alpha_general(dp, 0, sp, 0, w, alpha);
}
#endif /* FZ_PLOTTERS_CMYK */
#if FZ_PLOTTERS_N
static void
paint_span_N_da_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_general(dp, 1, sp, 1, n, w);
}
static void
paint_span_N_da_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_with_alpha_general(dp, 1, sp, 1, n, w, alpha);
}
static void
paint_span_N_da(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_general(dp, 1, sp, 0, n, w);
}
static void
paint_span_N_da_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_with_alpha_general(dp, 1, sp, 0, n, w, alpha);
}
static void
paint_span_N_sa(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_general(dp, 0, sp, 1, n, w);
}
static void
paint_span_N_sa_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_with_alpha_general(dp, 0, sp, 1, n, w, alpha);
}
static void
paint_span_N(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_general(dp, 0, sp, 0, n, w);
}
static void
paint_span_N_alpha(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_with_alpha_general(dp, 0, sp, 0, n, w, alpha);
}
#endif /* FZ_PLOTTERS_N */
#if FZ_ENABLE_SPOT_RENDERING
static void
paint_span_N_general_op(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_general_op(dp, da, sp, sa, n, w, eop);
}
static void
paint_span_N_general_alpha_op(byte * FZ_RESTRICT dp, int da, const byte * FZ_RESTRICT sp, int sa, int n, int w, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
TRACK_FN();
template_span_N_with_alpha_general_op(dp, da, sp, sa, n, w, alpha, eop);
}
#endif /* FZ_ENABLE_SPOT_RENDERING */
fz_span_painter_t *
fz_get_span_painter(int da, int sa, int n, int alpha, const fz_overprint * FZ_RESTRICT eop)
{
#if FZ_ENABLE_SPOT_RENDERING
if (fz_overprint_required(eop))
{
if (alpha == 255)
return paint_span_N_general_op;
else if (alpha > 0)
return paint_span_N_general_alpha_op;
else
return NULL;
}
#endif /* FZ_ENABLE_SPOT_RENDERING */
switch (n)
{
case 0:
if (alpha == 255)
return paint_span_0_da_sa;
else if (alpha > 0)
return paint_span_0_da_sa_alpha;
break;
case 1:
if (sa)
if (da)
{
if (alpha == 255)
return paint_span_1_da_sa;
else if (alpha > 0)
return paint_span_1_da_sa_alpha;
}
else
{
if (alpha == 255)
return paint_span_1_sa;
else if (alpha > 0)
return paint_span_1_sa_alpha;
}
else
#if FZ_PLOTTERS_G
if (da)
{
if (alpha == 255)
return paint_span_1_da;
else if (alpha > 0)
return paint_span_1_da_alpha;
}
else
{
if (alpha == 255)
return paint_span_1;
else if (alpha > 0)
return paint_span_1_alpha;
}
#else
goto fallback;
#endif /* FZ_PLOTTERS_G */
break;
#if FZ_PLOTTERS_RGB
case 3:
if (da)
if (sa)
{
if (alpha == 255)
return paint_span_3_da_sa;
else if (alpha > 0)
return paint_span_3_da_sa_alpha;
}
else
{
if (alpha == 255)
return paint_span_3_da;
else if (alpha > 0)
return paint_span_3_da_alpha;
}
else
if (sa)
{
if (alpha == 255)
return paint_span_3_sa;
else if (alpha > 0)
return paint_span_3_sa_alpha;
}
else
{
if (alpha == 255)
return paint_span_3;
else if (alpha > 0)
return paint_span_3_alpha;
}
break;
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
case 4:
if (da)
if (sa)
{
if (alpha == 255)
return paint_span_4_da_sa;
else if (alpha > 0)
return paint_span_4_da_sa_alpha;
}
else
{
if (alpha == 255)
return paint_span_4_da;
else if (alpha > 0)
return paint_span_4_da_alpha;
}
else
if (sa)
{
if (alpha == 255)
return paint_span_4_sa;
else if (alpha > 0)
return paint_span_4_sa_alpha;
}
else
{
if (alpha == 255)
return paint_span_4;
else if (alpha > 0)
return paint_span_4_alpha;
}
break;
#endif /* FZ_PLOTTERS_CMYK */
default:
{
#if !FZ_PLOTTERS_G
fallback:{}
#endif /* FZ_PLOTTERS_G */
#if FZ_PLOTTERS_N
if (da)
if (sa)
{
if (alpha == 255)
return paint_span_N_da_sa;
else if (alpha > 0)
return paint_span_N_da_sa_alpha;
}
else
{
if (alpha == 255)
return paint_span_N_da;
else if (alpha > 0)
return paint_span_N_da_alpha;
}
else
if (sa)
{
if (alpha == 255)
return paint_span_N_sa;
else if (alpha > 0)
return paint_span_N_sa_alpha;
}
else
{
if (alpha == 255)
return paint_span_N;
else if (alpha > 0)
return paint_span_N_alpha;
}
#endif /* FZ_PLOTTERS_N */
break;
}
}
return NULL;
}
/*
* Pixmap blending functions
*/
void
fz_paint_pixmap_with_bbox(fz_pixmap * FZ_RESTRICT dst, const fz_pixmap * FZ_RESTRICT src, int alpha, fz_irect bbox)
{
const unsigned char *sp;
unsigned char *dp;
int x, y, w, h, n, da, sa;
fz_span_painter_t *fn;
assert(dst->n - dst->alpha == src->n - src->alpha);
if (alpha == 0)
return;
bbox = fz_intersect_irect(bbox, fz_pixmap_bbox_no_ctx(dst));
bbox = fz_intersect_irect(bbox, fz_pixmap_bbox_no_ctx(src));
x = bbox.x0;
y = bbox.y0;
w = bbox.x1 - bbox.x0;
h = bbox.y1 - bbox.y0;
if (w == 0 || h == 0)
return;
n = src->n;
sp = src->samples + (unsigned int)((y - src->y) * src->stride + (x - src->x) * src->n);
sa = src->alpha;
dp = dst->samples + (unsigned int)((y - dst->y) * dst->stride + (x - dst->x) * dst->n);
da = dst->alpha;
n -= sa;
fn = fz_get_span_painter(da, sa, n, alpha, 0);
assert(fn);
if (fn == NULL)
return;
while (h--)
{
(*fn)(dp, da, sp, sa, n, w, alpha, 0);
sp += src->stride;
dp += dst->stride;
}
}
void
fz_paint_pixmap(fz_pixmap * FZ_RESTRICT dst, const fz_pixmap * FZ_RESTRICT src, int alpha)
{
const unsigned char *sp;
unsigned char *dp;
fz_irect bbox;
int x, y, w, h, n, da, sa;
fz_span_painter_t *fn;
if (alpha == 0)
return;
if (dst->n - dst->alpha != src->n - src->alpha)
{
// fprintf(stderr, "fz_paint_pixmap - FIXME\n");
return;
}
assert(dst->n - dst->alpha == src->n - src->alpha);
bbox = fz_intersect_irect(fz_pixmap_bbox_no_ctx(src), fz_pixmap_bbox_no_ctx(dst));
x = bbox.x0;
y = bbox.y0;
w = bbox.x1 - bbox.x0;
h = bbox.y1 - bbox.y0;
if (w == 0 || h == 0)
return;
n = src->n;
sp = src->samples + (unsigned int)((y - src->y) * src->stride + (x - src->x) * src->n);
sa = src->alpha;
dp = dst->samples + (unsigned int)((y - dst->y) * dst->stride + (x - dst->x) * dst->n);
da = dst->alpha;
n -= sa;
fn = fz_get_span_painter(da, sa, n, alpha, 0);
assert(fn);
if (fn == NULL)
return;
while (h--)
{
(*fn)(dp, da, sp, sa, n, w, alpha, 0);
sp += src->stride;
dp += dst->stride;
}
}
static inline void
paint_span_alpha_solid(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, int n, int w)
{
TRACK_FN();
sp += n-1;
do
{
int s = *sp;
int t = FZ_EXPAND(255 - s);
sp += n;
*dp = s + FZ_COMBINE(*dp, t);
dp ++;
}
while (--w);
}
static inline void
paint_span_alpha_not_solid(byte * FZ_RESTRICT dp, const byte * FZ_RESTRICT sp, int n, int w, int alpha)
{
TRACK_FN();
sp += n-1;
alpha = FZ_EXPAND(alpha);
do
{
int masa = FZ_COMBINE(sp[0], alpha);
sp += n;
*dp = FZ_BLEND(*sp, *dp, masa);
dp++;
}
while (--w);
}
void
fz_paint_pixmap_alpha(fz_pixmap * FZ_RESTRICT dst, const fz_pixmap * FZ_RESTRICT src, int alpha)
{
const unsigned char *sp;
unsigned char *dp;
fz_irect bbox;
int x, y, w, h, n;
if (alpha == 0)
return;
assert(dst->n == 1 && dst->alpha == 1 && src->n >= 1 && src->alpha == 1);
bbox = fz_intersect_irect(fz_pixmap_bbox_no_ctx(src), fz_pixmap_bbox_no_ctx(dst));
x = bbox.x0;
y = bbox.y0;
w = bbox.x1 - bbox.x0;
h = bbox.y1 - bbox.y0;
if (w == 0 || h == 0)
return;
n = src->n;
sp = src->samples + (unsigned int)((y - src->y) * src->stride + (x - src->x) * src->n);
dp = dst->samples + (unsigned int)((y - dst->y) * dst->stride + (x - dst->x) * dst->n);
if (alpha == 255)
{
while (h--)
{
paint_span_alpha_solid(dp, sp, n, w);
sp += src->stride;
dp += dst->stride;
}
}
else
{
while (h--)
{
paint_span_alpha_not_solid(dp, sp, n, w, alpha);
sp += src->stride;
dp += dst->stride;
}
}
}
void
fz_paint_pixmap_with_overprint(fz_pixmap * FZ_RESTRICT dst, const fz_pixmap * FZ_RESTRICT src, const fz_overprint *eop)
{
const unsigned char *sp;
unsigned char *dp;
fz_irect bbox;
int x, y, w, h, n, da, sa;
fz_span_painter_t *fn;
if (dst->n - dst->alpha != src->n - src->alpha)
{
// fprintf(stderr, "fz_paint_pixmap_with_overprint - FIXME\n");
return;
}
assert(dst->n - dst->alpha == src->n - src->alpha);
bbox = fz_intersect_irect(fz_pixmap_bbox_no_ctx(src), fz_pixmap_bbox_no_ctx(dst));
x = bbox.x0;
y = bbox.y0;
w = bbox.x1 - bbox.x0;
h = bbox.y1 - bbox.y0;
if (w == 0 || h == 0)
return;
n = src->n;
sp = src->samples + (unsigned int)((y - src->y) * src->stride + (x - src->x) * src->n);
sa = src->alpha;
dp = dst->samples + (unsigned int)((y - dst->y) * dst->stride + (x - dst->x) * dst->n);
da = dst->alpha;
n -= sa;
fn = fz_get_span_painter(da, sa, n, 255, eop);
assert(fn);
if (fn == NULL)
return;
while (h--)
{
(*fn)(dp, da, sp, sa, n, w, 255, eop);
sp += src->stride;
dp += dst->stride;
}
}
void
fz_paint_pixmap_with_mask(fz_pixmap * FZ_RESTRICT dst, const fz_pixmap * FZ_RESTRICT src, const fz_pixmap * FZ_RESTRICT msk)
{
const unsigned char *sp, *mp;
unsigned char *dp;
fz_irect bbox;
int x, y, w, h, n, sa, da;
fz_span_mask_painter_t *fn;
assert(dst->n == src->n);
assert(msk->n == 1);
bbox = fz_pixmap_bbox_no_ctx(dst);
bbox = fz_intersect_irect(bbox, fz_pixmap_bbox_no_ctx(src));
bbox = fz_intersect_irect(bbox, fz_pixmap_bbox_no_ctx(msk));
x = bbox.x0;
y = bbox.y0;
w = bbox.x1 - bbox.x0;
h = bbox.y1 - bbox.y0;
if (w == 0 || h == 0)
return;
n = src->n;
sp = src->samples + (unsigned int)((y - src->y) * src->stride + (x - src->x) * src->n);
sa = src->alpha;
mp = msk->samples + (unsigned int)((y - msk->y) * msk->stride + (x - msk->x) * msk->n);
dp = dst->samples + (unsigned int)((y - dst->y) * dst->stride + (x - dst->x) * dst->n);
da = dst->alpha;
/* sa == da, or something has gone very wrong! */
assert(sa == da);
n -= sa;
fn = fz_get_span_mask_painter(da, n);
if (fn == NULL)
return;
while (h--)
{
(*fn)(dp, sp, mp, w, n, sa, NULL);
sp += src->stride;
dp += dst->stride;
mp += msk->stride;
}
}
static inline void
fz_paint_glyph_mask(int span, unsigned char *dp, int da, const fz_glyph *glyph, int w, int h, int skip_x, int skip_y)
{
while (h--)
{
int skip_xx, ww, len, extend;
const unsigned char *runp;
unsigned char *ddp = dp;
int offset = ((const int *)(glyph->data))[skip_y++];
if (offset >= 0)
{
int eol = 0;
runp = &glyph->data[offset];
extend = 0;
ww = w;
skip_xx = skip_x;
while (skip_xx)
{
int v = *runp++;
switch (v & 3)
{
case 0: /* Extend */
extend = v>>2;
len = 0;
break;
case 1: /* Transparent */
len = (v>>2) + 1 + (extend<<6);
extend = 0;
if (len > skip_xx)
{
len -= skip_xx;
goto transparent_run;
}
break;
case 2: /* Solid */
eol = v & 4;
len = (v>>3) + 1 + (extend<<5);
extend = 0;
if (len > skip_xx)
{
len -= skip_xx;
goto solid_run;
}
break;
default: /* Intermediate */
eol = v & 4;
len = (v>>3) + 1 + (extend<<5);
extend = 0;
if (len > skip_xx)
{
runp += skip_xx;
len -= skip_xx;
goto intermediate_run;
}
runp += len;
break;
}
if (eol)
{
ww = 0;
break;
}
skip_xx -= len;
}
while (ww > 0)
{
int v = *runp++;
switch(v & 3)
{
case 0: /* Extend */
extend = v>>2;
break;
case 1: /* Transparent */
len = (v>>2) + 1 + (extend<<6);
extend = 0;
transparent_run:
if (len > ww)
len = ww;
ww -= len;
ddp += len;
break;
case 2: /* Solid */
eol = v & 4;
len = (v>>3) + 1 + (extend<<5);
extend = 0;
solid_run:
if (len > ww)
len = ww;
ww -= len;
do
{
*ddp++ = 0xFF;
}
while (--len);
break;
default: /* Intermediate */
eol = v & 4;
len = (v>>3) + 1 + (extend<<5);
extend = 0;
intermediate_run:
if (len > ww)
len = ww;
ww -= len;
do
{
int v = *ddp;
int a = *runp++;
if (v == 0)
{
*ddp++ = a;
}
else
{
a = FZ_EXPAND(a);
*ddp = FZ_BLEND(0xFF, v, a);
ddp++;
}
}
while (--len);
break;
}
if (eol)
break;
}
}
dp += span;
}
}
#define N 1
#include "paint-glyph.h"
#define ALPHA
#define N 1
#include "paint-glyph.h"
#if FZ_PLOTTERS_G
#define DA
#define N 1
#include "paint-glyph.h"
#define DA
#define ALPHA
#define N 1
#include "paint-glyph.h"
#endif /* FZ_PLOTTERS_G */
#if FZ_PLOTTERS_RGB
#define DA
#define N 3
#include "paint-glyph.h"
#define DA
#define ALPHA
#define N 3
#include "paint-glyph.h"
#define N 3
#include "paint-glyph.h"
#define ALPHA
#define N 3
#include "paint-glyph.h"
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
#define DA
#define N 4
#include "paint-glyph.h"
#define DA
#define ALPHA
#define N 4
#include "paint-glyph.h"
#define ALPHA
#define N 4
#include "paint-glyph.h"
#define N 4
#include "paint-glyph.h"
#endif /* FZ_PLOTTERS_CMYK */
#if FZ_PLOTTERS_N
#define ALPHA
#include "paint-glyph.h"
#define DA
#include "paint-glyph.h"
#define DA
#define ALPHA
#include "paint-glyph.h"
#include "paint-glyph.h"
#endif /* FZ_PLOTTERS_N */
#if FZ_ENABLE_SPOT_RENDERING
#define ALPHA
#define EOP
#include "paint-glyph.h"
#define DA
#define EOP
#include "paint-glyph.h"
#define DA
#define ALPHA
#define EOP
#include "paint-glyph.h"
#define EOP
#include "paint-glyph.h"
#endif /* FZ_ENABLE_SPOT_RENDERING */
static inline void
fz_paint_glyph_alpha(const unsigned char * FZ_RESTRICT colorbv, int n, int span, unsigned char * FZ_RESTRICT dp, int da, const fz_glyph *glyph, int w, int h, int skip_x, int skip_y, const fz_overprint * FZ_RESTRICT eop)
{
#if FZ_ENABLE_SPOT_RENDERING
if (fz_overprint_required(eop))
{
if (da)
fz_paint_glyph_alpha_N_da_op(colorbv, n, span, dp, glyph, w, h, skip_x, skip_y, eop);
else
fz_paint_glyph_alpha_N_op(colorbv, n, span, dp, glyph, w, h, skip_x, skip_y, eop);
return;
}
#endif /* FZ_ENABLE_SPOT_RENDERING */
switch (n)
{
case 1:
if (da)
#if FZ_PLOTTERS_G
fz_paint_glyph_alpha_1_da(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
#else
goto fallback;
#endif /* FZ_PLOTTERS_G */
else
fz_paint_glyph_alpha_1(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
break;
#if FZ_PLOTTERS_RGB
case 3:
if (da)
fz_paint_glyph_alpha_3_da(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
else
fz_paint_glyph_alpha_3(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
break;
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
case 4:
if (da)
fz_paint_glyph_alpha_4_da(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
else
fz_paint_glyph_alpha_4(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
break;
#endif /* FZ_PLOTTERS_CMYK */
default:
{
#if !FZ_PLOTTERS_G
fallback:{}
#endif /* !FZ_PLOTTERS_G */
#if FZ_PLOTTERS_N
if (da)
fz_paint_glyph_alpha_N_da(colorbv, n, span, dp, glyph, w, h, skip_x, skip_y);
else
fz_paint_glyph_alpha_N(colorbv, n, span, dp, glyph, w, h, skip_x, skip_y);
#endif /* FZ_PLOTTERS_N */
break;
}
}
}
static inline void
fz_paint_glyph_solid(const unsigned char * FZ_RESTRICT colorbv, int n, int span, unsigned char * FZ_RESTRICT dp, int da, const fz_glyph * FZ_RESTRICT glyph, int w, int h, int skip_x, int skip_y, const fz_overprint * FZ_RESTRICT eop)
{
#if FZ_ENABLE_SPOT_RENDERING
if (fz_overprint_required(eop))
{
if (da)
fz_paint_glyph_solid_N_da_op(colorbv, n, span, dp, glyph, w, h, skip_x, skip_y, eop);
else
fz_paint_glyph_solid_N_op(colorbv, n, span, dp, glyph, w, h, skip_x, skip_y, eop);
return;
}
#endif /* FZ_ENABLE_SPOT_RENDERING */
switch (n)
{
case 1:
if (da)
#if FZ_PLOTTERS_G
fz_paint_glyph_solid_1_da(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
#else
goto fallback;
#endif /* FZ_PLOTTERS_G */
else
fz_paint_glyph_solid_1(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
break;
#if FZ_PLOTTERS_RGB
case 3:
if (da)
fz_paint_glyph_solid_3_da(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
else
fz_paint_glyph_solid_3(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
break;
#endif /* FZ_PLOTTERS_RGB */
#if FZ_PLOTTERS_CMYK
case 4:
if (da)
fz_paint_glyph_solid_4_da(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
else
fz_paint_glyph_solid_4(colorbv, span, dp, glyph, w, h, skip_x, skip_y);
break;
#endif /* FZ_PLOTTERS_CMYK */
default:
{
#if !FZ_PLOTTERS_G
fallback:{}
#endif /* FZ_PLOTTERS_G */
#if FZ_PLOTTERS_N
if (da)
fz_paint_glyph_solid_N_da(colorbv, n, span, dp, glyph, w, h, skip_x, skip_y);
else
fz_paint_glyph_solid_N(colorbv, n, span, dp, glyph, w, h, skip_x, skip_y);
break;
#endif /* FZ_PLOTTERS_N */
}
}
}
void
fz_paint_glyph(const unsigned char * FZ_RESTRICT colorbv, fz_pixmap * FZ_RESTRICT dst, unsigned char * FZ_RESTRICT dp, const fz_glyph * FZ_RESTRICT glyph, int w, int h, int skip_x, int skip_y, const fz_overprint * FZ_RESTRICT eop)
{
int n = dst->n - dst->alpha;
if (dst->colorspace)
{
assert(n > 0);
if (colorbv[n] == 255)
fz_paint_glyph_solid(colorbv, n, dst->stride, dp, dst->alpha, glyph, w, h, skip_x, skip_y, eop);
else if (colorbv[n] != 0)
fz_paint_glyph_alpha(colorbv, n, dst->stride, dp, dst->alpha, glyph, w, h, skip_x, skip_y, eop);
}
else
{
assert(dst->alpha && dst->n == 1 && dst->colorspace == NULL && !fz_overprint_required(eop));
fz_paint_glyph_mask(dst->stride, dp, dst->alpha, glyph, w, h, skip_x, skip_y);
}
}