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#include "mupdf/pdf.h"
/* FIXME: Remove this somehow */
#define FUNSEGS 32 /* size of sampled mesh for function-based shadings */
/* Sample various functions into lookup tables */
static void
pdf_sample_composite_shade_function(fz_context *ctx, fz_shade *shade, fz_function *func, float t0, float t1)
{
int i;
float t;
for (i = 0; i < 256; i++)
{
t = t0 + (i / 255.0f) * (t1 - t0);
fz_eval_function(ctx, func, &t, 1, shade->function[i], shade->colorspace->n);
shade->function[i][shade->colorspace->n] = 1;
}
}
static void
pdf_sample_component_shade_function(fz_context *ctx, fz_shade *shade, int funcs, fz_function **func, float t0, float t1)
{
int i, k;
float t;
for (i = 0; i < 256; i++)
{
t = t0 + (i / 255.0f) * (t1 - t0);
for (k = 0; k < funcs; k++)
fz_eval_function(ctx, func[k], &t, 1, &shade->function[i][k], 1);
shade->function[i][k] = 1;
}
}
static void
pdf_sample_shade_function(fz_context *ctx, fz_shade *shade, int funcs, fz_function **func, float t0, float t1)
{
shade->use_function = 1;
if (funcs == 1)
pdf_sample_composite_shade_function(ctx, shade, func[0], t0, t1);
else
pdf_sample_component_shade_function(ctx, shade, funcs, func, t0, t1);
}
/* Type 1-3 -- Function-based, linear and radial shadings */
static void
pdf_load_function_based_shading(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, fz_function *func)
{
pdf_obj *obj;
float x0, y0, x1, y1;
float fv[2];
fz_matrix matrix;
int xx, yy;
float *p;
x0 = y0 = 0;
x1 = y1 = 1;
obj = pdf_dict_gets(ctx, dict, "Domain");
if (obj)
{
x0 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 0));
x1 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 1));
y0 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 2));
y1 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 3));
}
obj = pdf_dict_gets(ctx, dict, "Matrix");
if (obj)
pdf_to_matrix(ctx, obj, &matrix);
else
matrix = fz_identity;
shade->u.f.matrix = matrix;
shade->u.f.xdivs = FUNSEGS;
shade->u.f.ydivs = FUNSEGS;
shade->u.f.fn_vals = fz_malloc(ctx, (FUNSEGS+1)*(FUNSEGS+1)*shade->colorspace->n*sizeof(float));
shade->u.f.domain[0][0] = x0;
shade->u.f.domain[0][1] = y0;
shade->u.f.domain[1][0] = x1;
shade->u.f.domain[1][1] = y1;
p = shade->u.f.fn_vals;
for (yy = 0; yy <= FUNSEGS; yy++)
{
fv[1] = y0 + (y1 - y0) * yy / FUNSEGS;
for (xx = 0; xx <= FUNSEGS; xx++)
{
fv[0] = x0 + (x1 - x0) * xx / FUNSEGS;
fz_eval_function(ctx, func, fv, 2, p, shade->colorspace->n);
p += shade->colorspace->n;
}
}
}
static void
pdf_load_linear_shading(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, fz_function **func)
{
pdf_obj *obj;
float d0, d1;
int e0, e1;
obj = pdf_dict_gets(ctx, dict, "Coords");
shade->u.l_or_r.coords[0][0] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 0));
shade->u.l_or_r.coords[0][1] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 1));
shade->u.l_or_r.coords[1][0] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 2));
shade->u.l_or_r.coords[1][1] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 3));
d0 = 0;
d1 = 1;
obj = pdf_dict_gets(ctx, dict, "Domain");
if (obj)
{
d0 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 0));
d1 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 1));
}
e0 = e1 = 0;
obj = pdf_dict_gets(ctx, dict, "Extend");
if (obj)
{
e0 = pdf_to_bool(ctx, pdf_array_get(ctx, obj, 0));
e1 = pdf_to_bool(ctx, pdf_array_get(ctx, obj, 1));
}
pdf_sample_shade_function(ctx, shade, funcs, func, d0, d1);
shade->u.l_or_r.extend[0] = e0;
shade->u.l_or_r.extend[1] = e1;
}
static void
pdf_load_radial_shading(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, fz_function **func)
{
pdf_obj *obj;
float d0, d1;
int e0, e1;
obj = pdf_dict_gets(ctx, dict, "Coords");
shade->u.l_or_r.coords[0][0] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 0));
shade->u.l_or_r.coords[0][1] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 1));
shade->u.l_or_r.coords[0][2] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 2));
shade->u.l_or_r.coords[1][0] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 3));
shade->u.l_or_r.coords[1][1] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 4));
shade->u.l_or_r.coords[1][2] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 5));
d0 = 0;
d1 = 1;
obj = pdf_dict_gets(ctx, dict, "Domain");
if (obj)
{
d0 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 0));
d1 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 1));
}
e0 = e1 = 0;
obj = pdf_dict_gets(ctx, dict, "Extend");
if (obj)
{
e0 = pdf_to_bool(ctx, pdf_array_get(ctx, obj, 0));
e1 = pdf_to_bool(ctx, pdf_array_get(ctx, obj, 1));
}
pdf_sample_shade_function(ctx, shade, funcs, func, d0, d1);
shade->u.l_or_r.extend[0] = e0;
shade->u.l_or_r.extend[1] = e1;
}
/* Type 4-7 -- Triangle and patch mesh shadings */
struct mesh_params
{
int vprow;
int bpflag;
int bpcoord;
int bpcomp;
float x0, x1;
float y0, y1;
float c0[FZ_MAX_COLORS];
float c1[FZ_MAX_COLORS];
};
static void
pdf_load_mesh_params(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict)
{
pdf_obj *obj;
int i, n;
shade->u.m.x0 = shade->u.m.y0 = 0;
shade->u.m.x1 = shade->u.m.y1 = 1;
for (i = 0; i < FZ_MAX_COLORS; i++)
{
shade->u.m.c0[i] = 0;
shade->u.m.c1[i] = 1;
}
shade->u.m.vprow = pdf_to_int(ctx, pdf_dict_gets(ctx, dict, "VerticesPerRow"));
shade->u.m.bpflag = pdf_to_int(ctx, pdf_dict_gets(ctx, dict, "BitsPerFlag"));
shade->u.m.bpcoord = pdf_to_int(ctx, pdf_dict_gets(ctx, dict, "BitsPerCoordinate"));
shade->u.m.bpcomp = pdf_to_int(ctx, pdf_dict_gets(ctx, dict, "BitsPerComponent"));
obj = pdf_dict_gets(ctx, dict, "Decode");
if (pdf_array_len(ctx, obj) >= 6)
{
n = (pdf_array_len(ctx, obj) - 4) / 2;
shade->u.m.x0 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 0));
shade->u.m.x1 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 1));
shade->u.m.y0 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 2));
shade->u.m.y1 = pdf_to_real(ctx, pdf_array_get(ctx, obj, 3));
for (i = 0; i < n; i++)
{
shade->u.m.c0[i] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 4 + i * 2));
shade->u.m.c1[i] = pdf_to_real(ctx, pdf_array_get(ctx, obj, 5 + i * 2));
}
}
if (shade->u.m.vprow < 2 && shade->type == 5)
{
fz_warn(ctx, "Too few vertices per row (%d)", shade->u.m.vprow);
shade->u.m.vprow = 2;
}
if (shade->u.m.bpflag != 2 && shade->u.m.bpflag != 4 && shade->u.m.bpflag != 8 &&
shade->type != 5)
{
fz_warn(ctx, "Invalid number of bits per flag (%d)", shade->u.m.bpflag);
shade->u.m.bpflag = 8;
}
if (shade->u.m.bpcoord != 1 && shade->u.m.bpcoord != 2 && shade->u.m.bpcoord != 4 &&
shade->u.m.bpcoord != 8 && shade->u.m.bpcoord != 12 && shade->u.m.bpcoord != 16 &&
shade->u.m.bpcoord != 24 && shade->u.m.bpcoord != 32)
{
fz_warn(ctx, "Invalid number of bits per coordinate (%d)", shade->u.m.bpcoord);
shade->u.m.bpcoord = 8;
}
if (shade->u.m.bpcomp != 1 && shade->u.m.bpcomp != 2 && shade->u.m.bpcomp != 4 &&
shade->u.m.bpcomp != 8 && shade->u.m.bpcomp != 12 && shade->u.m.bpcomp != 16)
{
fz_warn(ctx, "Invalid number of bits per component (%d)", shade->u.m.bpcomp);
shade->u.m.bpcomp = 8;
}
}
static void
pdf_load_type4_shade(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, fz_function **func)
{
pdf_load_mesh_params(ctx, doc, shade, dict);
if (funcs > 0)
pdf_sample_shade_function(ctx, shade, funcs, func, shade->u.m.c0[0], shade->u.m.c1[0]);
shade->buffer = pdf_load_compressed_stream(ctx, doc, pdf_to_num(ctx, dict), pdf_to_gen(ctx, dict));
}
static void
pdf_load_type5_shade(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, fz_function **func)
{
pdf_load_mesh_params(ctx, doc, shade, dict);
if (funcs > 0)
pdf_sample_shade_function(ctx, shade, funcs, func, shade->u.m.c0[0], shade->u.m.c1[0]);
shade->buffer = pdf_load_compressed_stream(ctx, doc, pdf_to_num(ctx, dict), pdf_to_gen(ctx, dict));
}
/* Type 6 & 7 -- Patch mesh shadings */
static void
pdf_load_type6_shade(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, fz_function **func)
{
pdf_load_mesh_params(ctx, doc, shade, dict);
if (funcs > 0)
pdf_sample_shade_function(ctx, shade, funcs, func, shade->u.m.c0[0], shade->u.m.c1[0]);
shade->buffer = pdf_load_compressed_stream(ctx, doc, pdf_to_num(ctx, dict), pdf_to_gen(ctx, dict));
}
static void
pdf_load_type7_shade(fz_context *ctx, pdf_document *doc, fz_shade *shade, pdf_obj *dict, int funcs, fz_function **func)
{
pdf_load_mesh_params(ctx, doc, shade, dict);
if (funcs > 0)
pdf_sample_shade_function(ctx, shade, funcs, func, shade->u.m.c0[0], shade->u.m.c1[0]);
shade->buffer = pdf_load_compressed_stream(ctx, doc, pdf_to_num(ctx, dict), pdf_to_gen(ctx, dict));
}
/* Load all of the shading dictionary parameters, then switch on the shading type. */
static fz_shade *
pdf_load_shading_dict(fz_context *ctx, pdf_document *doc, pdf_obj *dict, const fz_matrix *transform)
{
fz_shade *shade = NULL;
fz_function *func[FZ_MAX_COLORS] = { NULL };
pdf_obj *obj;
int funcs = 0;
int type = 0;
int i, in, out;
fz_var(shade);
fz_var(func);
fz_var(funcs);
fz_var(type);
fz_try(ctx)
{
shade = fz_malloc_struct(ctx, fz_shade);
FZ_INIT_STORABLE(shade, 1, fz_drop_shade_imp);
shade->type = FZ_MESH_TYPE4;
shade->use_background = 0;
shade->use_function = 0;
shade->matrix = *transform;
shade->bbox = fz_infinite_rect;
shade->colorspace = NULL;
funcs = 0;
obj = pdf_dict_gets(ctx, dict, "ShadingType");
type = pdf_to_int(ctx, obj);
obj = pdf_dict_gets(ctx, dict, "ColorSpace");
if (!obj)
fz_throw(ctx, FZ_ERROR_GENERIC, "shading colorspace is missing");
shade->colorspace = pdf_load_colorspace(ctx, doc, obj);
obj = pdf_dict_gets(ctx, dict, "Background");
if (obj)
{
shade->use_background = 1;
for (i = 0; i < shade->colorspace->n; i++)
shade->background[i] = pdf_to_real(ctx, pdf_array_get(ctx, obj, i));
}
obj = pdf_dict_gets(ctx, dict, "BBox");
if (pdf_is_array(ctx, obj))
pdf_to_rect(ctx, obj, &shade->bbox);
obj = pdf_dict_gets(ctx, dict, "Function");
if (pdf_is_dict(ctx, obj))
{
funcs = 1;
if (type == 1)
in = 2;
else
in = 1;
out = shade->colorspace->n;
func[0] = pdf_load_function(ctx, doc, obj, in, out);
if (!func[0])
fz_throw(ctx, FZ_ERROR_GENERIC, "cannot load shading function (%d %d R)", pdf_to_num(ctx, obj), pdf_to_gen(ctx, obj));
}
else if (pdf_is_array(ctx, obj))
{
funcs = pdf_array_len(ctx, obj);
if (funcs != 1 && funcs != shade->colorspace->n)
{
funcs = 0;
fz_throw(ctx, FZ_ERROR_GENERIC, "incorrect number of shading functions");
}
if (funcs > FZ_MAX_COLORS)
{
funcs = 0;
fz_throw(ctx, FZ_ERROR_GENERIC, "too many shading functions");
}
if (type == 1)
in = 2;
else
in = 1;
out = 1;
for (i = 0; i < funcs; i++)
{
func[i] = pdf_load_function(ctx, doc, pdf_array_get(ctx, obj, i), in, out);
if (!func[i])
fz_throw(ctx, FZ_ERROR_GENERIC, "cannot load shading function (%d %d R)", pdf_to_num(ctx, obj), pdf_to_gen(ctx, obj));
}
}
else if (type < 4)
{
/* Functions are compulsory for types 1,2,3 */
fz_throw(ctx, FZ_ERROR_GENERIC, "cannot load shading function (%d %d R)", pdf_to_num(ctx, obj), pdf_to_gen(ctx, obj));
}
shade->type = type;
switch (type)
{
case 1: pdf_load_function_based_shading(ctx, doc, shade, dict, func[0]); break;
case 2: pdf_load_linear_shading(ctx, doc, shade, dict, funcs, func); break;
case 3: pdf_load_radial_shading(ctx, doc, shade, dict, funcs, func); break;
case 4: pdf_load_type4_shade(ctx, doc, shade, dict, funcs, func); break;
case 5: pdf_load_type5_shade(ctx, doc, shade, dict, funcs, func); break;
case 6: pdf_load_type6_shade(ctx, doc, shade, dict, funcs, func); break;
case 7: pdf_load_type7_shade(ctx, doc, shade, dict, funcs, func); break;
default:
fz_throw(ctx, FZ_ERROR_GENERIC, "unknown shading type: %d", type);
}
}
fz_always(ctx)
{
for (i = 0; i < funcs; i++)
if (func[i])
fz_drop_function(ctx, func[i]);
}
fz_catch(ctx)
{
fz_drop_shade(ctx, shade);
fz_rethrow_message(ctx, "cannot load shading type %d (%d %d R)", type, pdf_to_num(ctx, dict), pdf_to_gen(ctx, dict));
}
return shade;
}
static unsigned int
fz_shade_size(fz_shade *s)
{
if (s == NULL)
return 0;
if (s->type == FZ_FUNCTION_BASED)
return sizeof(*s) + sizeof(float) * s->u.f.xdivs * s->u.f.ydivs * s->colorspace->n;
return sizeof(*s) + fz_compressed_buffer_size(s->buffer);
}
fz_shade *
pdf_load_shading(fz_context *ctx, pdf_document *doc, pdf_obj *dict)
{
fz_matrix mat;
pdf_obj *obj;
fz_shade *shade;
if ((shade = pdf_find_item(ctx, fz_drop_shade_imp, dict)) != NULL)
{
return shade;
}
/* Type 2 pattern dictionary */
if (pdf_dict_gets(ctx, dict, "PatternType"))
{
obj = pdf_dict_gets(ctx, dict, "Matrix");
if (obj)
pdf_to_matrix(ctx, obj, &mat);
else
mat = fz_identity;
obj = pdf_dict_gets(ctx, dict, "ExtGState");
if (obj)
{
if (pdf_dict_gets(ctx, obj, "CA") || pdf_dict_gets(ctx, obj, "ca"))
{
fz_warn(ctx, "shading with alpha not supported");
}
}
obj = pdf_dict_gets(ctx, dict, "Shading");
if (!obj)
fz_throw(ctx, FZ_ERROR_GENERIC, "syntaxerror: missing shading dictionary");
shade = pdf_load_shading_dict(ctx, doc, obj, &mat);
}
/* Naked shading dictionary */
else
{
shade = pdf_load_shading_dict(ctx, doc, dict, &fz_identity);
}
pdf_store_item(ctx, dict, shade, fz_shade_size(shade));
return shade;
}
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