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

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#include "mupdf/fitz.h"
#include "draw-imp.h"
#include <string.h>
void fz_init_aa_context(fz_context *ctx)
{
#ifndef AA_BITS
ctx->aa.hscale = 17;
ctx->aa.vscale = 15;
ctx->aa.scale = 256;
ctx->aa.bits = 8;
ctx->aa.text_bits = 8;
#endif
}
/*
Get the number of bits of antialiasing we are
using (for graphics). Between 0 and 8.
*/
int
fz_aa_level(fz_context *ctx)
{
return fz_aa_bits;
}
/*
Get the number of bits of antialiasing we are
using for graphics. Between 0 and 8.
*/
int
fz_graphics_aa_level(fz_context *ctx)
{
return fz_aa_bits;
}
/*
Get the number of bits of antialiasing we are
using for text. Between 0 and 8.
*/
int
fz_text_aa_level(fz_context *ctx)
{
return fz_aa_text_bits;
}
int
fz_rasterizer_graphics_aa_level(fz_rasterizer *ras)
{
return fz_rasterizer_aa_bits(ras);
}
int
fz_rasterizer_text_aa_level(fz_rasterizer *ras)
{
return fz_rasterizer_aa_text_bits(ras);
}
void
fz_set_rasterizer_text_aa_level(fz_context *ctx, fz_aa_context *aa, int level)
{
#ifdef AA_BITS
if (level != fz_aa_bits)
{
if (fz_aa_bits == 10)
fz_warn(ctx, "Only the Any-part-of-a-pixel rasterizer was compiled in");
else if (fz_aa_bits == 9)
fz_warn(ctx, "Only the Centre-of-a-pixel rasterizer was compiled in");
else
fz_warn(ctx, "Only the %d bit anti-aliasing rasterizer was compiled in", fz_aa_bits);
}
#else
if (level > 8)
aa->text_bits = 0;
else if (level > 6)
aa->text_bits = 8;
else if (level > 4)
aa->text_bits = 6;
else if (level > 2)
aa->text_bits = 4;
else if (level > 0)
aa->text_bits = 2;
else
aa->text_bits = 0;
#endif
}
void
fz_set_rasterizer_graphics_aa_level(fz_context *ctx, fz_aa_context *aa, int level)
{
#ifdef AA_BITS
if (level != fz_aa_bits)
{
if (fz_aa_bits == 10)
fz_warn(ctx, "Only the Any-part-of-a-pixel rasterizer was compiled in");
else if (fz_aa_bits == 9)
fz_warn(ctx, "Only the Centre-of-a-pixel rasterizer was compiled in");
else
fz_warn(ctx, "Only the %d bit anti-aliasing rasterizer was compiled in", fz_aa_bits);
}
#else
if (level == 9 || level == 10)
{
aa->hscale = 1;
aa->vscale = 1;
aa->bits = level;
}
else if (level > 6)
{
aa->hscale = 17;
aa->vscale = 15;
aa->bits = 8;
}
else if (level > 4)
{
aa->hscale = 8;
aa->vscale = 8;
aa->bits = 6;
}
else if (level > 2)
{
aa->hscale = 5;
aa->vscale = 3;
aa->bits = 4;
}
else if (level > 0)
{
aa->hscale = 2;
aa->vscale = 2;
aa->bits = 2;
}
else
{
aa->hscale = 1;
aa->vscale = 1;
aa->bits = 0;
}
aa->scale = 0xFF00 / (aa->hscale * aa->vscale);
fz_set_rasterizer_text_aa_level(ctx, aa, level);
#endif
}
/*
Set the number of bits of antialiasing we should
use (for both text and graphics).
bits: The number of bits of antialiasing to use (values are clamped
to within the 0 to 8 range).
*/
void
fz_set_aa_level(fz_context *ctx, int level)
{
fz_set_rasterizer_graphics_aa_level(ctx, &ctx->aa, level);
fz_set_rasterizer_text_aa_level(ctx, &ctx->aa, level);
}
/*
Set the number of bits of antialiasing we
should use for text.
bits: The number of bits of antialiasing to use (values are clamped
to within the 0 to 8 range).
*/
void
fz_set_text_aa_level(fz_context *ctx, int level)
{
fz_set_rasterizer_text_aa_level(ctx, &ctx->aa, level);
}
/*
Set the number of bits of antialiasing we
should use for graphics.
bits: The number of bits of antialiasing to use (values are clamped
to within the 0 to 8 range).
*/
void
fz_set_graphics_aa_level(fz_context *ctx, int level)
{
fz_set_rasterizer_graphics_aa_level(ctx, &ctx->aa, level);
}
/*
Set the minimum line width to be
used for stroked lines.
min_line_width: The minimum line width to use (in pixels).
*/
void
fz_set_graphics_min_line_width(fz_context *ctx, float min_line_width)
{
ctx->aa.min_line_width = min_line_width;
}
/*
Get the minimum line width to be
used for stroked lines.
min_line_width: The minimum line width to use (in pixels).
*/
float
fz_graphics_min_line_width(fz_context *ctx)
{
return ctx->aa.min_line_width;
}
float
fz_rasterizer_graphics_min_line_width(fz_rasterizer *ras)
{
return ras->aa.min_line_width;
}
fz_irect
fz_bound_rasterizer(fz_context *ctx, const fz_rasterizer *rast)
{
fz_irect bbox;
const int hscale = fz_rasterizer_aa_hscale(rast);
const int vscale = fz_rasterizer_aa_vscale(rast);
if (rast->bbox.x1 < rast->bbox.x0 || rast->bbox.y1 < rast->bbox.y0)
{
bbox = fz_empty_irect;
}
else
{
bbox.x0 = fz_idiv(rast->bbox.x0, hscale);
bbox.y0 = fz_idiv(rast->bbox.y0, vscale);
bbox.x1 = fz_idiv_up(rast->bbox.x1, hscale);
bbox.y1 = fz_idiv_up(rast->bbox.y1, vscale);
}
return bbox;
}
fz_rect fz_scissor_rasterizer(fz_context *ctx, const fz_rasterizer *rast)
{
fz_rect r;
const int hscale = fz_rasterizer_aa_hscale(rast);
const int vscale = fz_rasterizer_aa_vscale(rast);
r.x0 = ((float)rast->clip.x0) / hscale;
r.y0 = ((float)rast->clip.y0) / vscale;
r.x1 = ((float)rast->clip.x1) / hscale;
r.y1 = ((float)rast->clip.y1) / vscale;
return r;
}
static fz_irect fz_clip_rasterizer(fz_context *ctx, const fz_rasterizer *rast)
{
fz_irect r;
const int hscale = fz_rasterizer_aa_hscale(rast);
const int vscale = fz_rasterizer_aa_vscale(rast);
r.x0 = fz_idiv(rast->clip.x0, hscale);
r.y0 = fz_idiv(rast->clip.y0, vscale);
r.x1 = fz_idiv_up(rast->clip.x1, hscale);
r.y1 = fz_idiv_up(rast->clip.y1, vscale);
return r;
}
int fz_reset_rasterizer(fz_context *ctx, fz_rasterizer *rast, fz_irect clip)
{
const int hscale = fz_rasterizer_aa_hscale(rast);
const int vscale = fz_rasterizer_aa_vscale(rast);
if (fz_is_infinite_irect(clip))
{
rast->clip.x0 = rast->clip.y0 = BBOX_MIN;
rast->clip.x1 = rast->clip.y1 = BBOX_MAX;
}
else {
rast->clip.x0 = clip.x0 * hscale;
rast->clip.x1 = clip.x1 * hscale;
rast->clip.y0 = clip.y0 * vscale;
rast->clip.y1 = clip.y1 * vscale;
}
rast->bbox.x0 = rast->bbox.y0 = BBOX_MAX;
rast->bbox.x1 = rast->bbox.y1 = BBOX_MIN;
if (rast->fns.reset)
return rast->fns.reset(ctx, rast);
return 0;
}
void *fz_new_rasterizer_of_size(fz_context *ctx, int size, const fz_rasterizer_fns *fns)
{
fz_rasterizer *rast = fz_calloc(ctx, 1, size);
rast->fns = *fns;
rast->clip.x0 = rast->clip.y0 = BBOX_MIN;
rast->clip.x1 = rast->clip.y1 = BBOX_MAX;
rast->bbox.x0 = rast->bbox.y0 = BBOX_MAX;
rast->bbox.x1 = rast->bbox.y1 = BBOX_MIN;
return rast;
}
fz_rasterizer *fz_new_rasterizer(fz_context *ctx, const fz_aa_context *aa)
{
fz_rasterizer *r;
int bits;
#ifdef AA_BITS
bits = AA_BITS;
#else
if (aa == NULL)
aa = &ctx->aa;
bits = aa->bits;
#endif
if (bits == 10)
r = fz_new_edgebuffer(ctx, FZ_EDGEBUFFER_ANY_PART_OF_PIXEL);
else if (bits == 9)
r = fz_new_edgebuffer(ctx, FZ_EDGEBUFFER_CENTER_OF_PIXEL);
else
r = fz_new_gel(ctx);
#ifndef AA_BITS
r->aa = *aa;
#endif
return r;
}
void fz_convert_rasterizer(fz_context *ctx, fz_rasterizer *r, int eofill, fz_pixmap *pix, unsigned char *colorbv, fz_overprint *eop)
{
fz_irect clip = fz_bound_rasterizer(ctx, r);
clip = fz_intersect_irect(clip, fz_pixmap_bbox_no_ctx(pix));
clip = fz_intersect_irect(clip, fz_clip_rasterizer(ctx, r));
if (!fz_is_empty_irect(clip))
r->fns.convert(ctx, r, eofill, &clip, pix, colorbv, eop);
}