eBookReaderSwitch/source/fitz/test-device.c

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#include <mupdf/fitz.h>
typedef struct fz_test_device_s
{
fz_device super;
int *is_color;
float threshold;
int options;
fz_device *passthrough;
int resolved;
} fz_test_device;
static int
is_rgb_color(float threshold, float r, float g, float b)
{
float rg_diff = fz_abs(r - g);
float rb_diff = fz_abs(r - b);
float gb_diff = fz_abs(g - b);
return rg_diff > threshold || rb_diff > threshold || gb_diff > threshold;
}
static int
is_rgb_color_u8(int threshold_u8, int r, int g, int b)
{
int rg_diff = fz_absi(r - g);
int rb_diff = fz_absi(r - b);
int gb_diff = fz_absi(g - b);
return rg_diff > threshold_u8 || rb_diff > threshold_u8 || gb_diff > threshold_u8;
}
static void
fz_test_color(fz_context *ctx, fz_test_device *t, fz_colorspace *colorspace, const float *color, fz_color_params color_params)
{
if (!*t->is_color && colorspace && fz_colorspace_type(ctx, colorspace) != FZ_COLORSPACE_GRAY)
{
if (colorspace == fz_device_rgb(ctx))
{
if (is_rgb_color(t->threshold, color[0], color[1], color[2]))
{
*t->is_color = 2;
t->resolved = 1;
if (t->passthrough == NULL)
fz_throw(ctx, FZ_ERROR_ABORT, "Page found as color; stopping interpretation");
}
}
else
{
float rgb[3];
fz_convert_color(ctx, colorspace, color, fz_device_rgb(ctx), rgb, NULL, color_params);
if (is_rgb_color(t->threshold, rgb[0], rgb[1], rgb[2]))
{
*t->is_color = 2;
t->resolved = 1;
if (t->passthrough == NULL)
{
fz_throw(ctx, FZ_ERROR_ABORT, "Page found as color; stopping interpretation");
}
}
}
}
}
static void
fz_test_fill_path(fz_context *ctx, fz_device *dev_, const fz_path *path, int even_odd, fz_matrix ctm,
fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->resolved == 0 && alpha != 0.0f)
fz_test_color(ctx, dev, colorspace, color, color_params);
if (dev->passthrough)
fz_fill_path(ctx, dev->passthrough, path, even_odd, ctm, colorspace, color, alpha, color_params);
}
static void
fz_test_stroke_path(fz_context *ctx, fz_device *dev_, const fz_path *path, const fz_stroke_state *stroke,
fz_matrix ctm, fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->resolved == 0 && alpha != 0.0f)
fz_test_color(ctx, dev, colorspace, color, color_params);
if (dev->passthrough)
fz_stroke_path(ctx, dev->passthrough, path, stroke, ctm, colorspace, color, alpha, color_params);
}
static void
fz_test_fill_text(fz_context *ctx, fz_device *dev_, const fz_text *text, fz_matrix ctm,
fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->resolved == 0 && alpha != 0.0f)
fz_test_color(ctx, dev, colorspace, color, color_params);
if (dev->passthrough)
fz_fill_text(ctx, dev->passthrough, text, ctm, colorspace, color, alpha, color_params);
}
static void
fz_test_stroke_text(fz_context *ctx, fz_device *dev_, const fz_text *text, const fz_stroke_state *stroke,
fz_matrix ctm, fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->resolved == 0 && alpha != 0.0f)
fz_test_color(ctx, dev, colorspace, color, color_params);
if (dev->passthrough)
fz_stroke_text(ctx, dev->passthrough, text, stroke, ctm, colorspace, color, alpha, color_params);
}
struct shadearg
{
fz_test_device *dev;
fz_shade *shade;
fz_color_params color_params;
};
static void
prepare_vertex(fz_context *ctx, void *arg_, fz_vertex *v, const float *color)
{
struct shadearg *arg = arg_;
fz_test_device *dev = arg->dev;
fz_shade *shade = arg->shade;
if (!shade->use_function)
fz_test_color(ctx, dev, shade->colorspace, color, arg->color_params);
}
static void
fz_test_fill_shade(fz_context *ctx, fz_device *dev_, fz_shade *shade, fz_matrix ctm, float alpha, fz_color_params color_params)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->resolved == 0)
{
if ((dev->options & FZ_TEST_OPT_SHADINGS) == 0)
{
if (fz_colorspace_type(ctx, shade->colorspace) != FZ_COLORSPACE_GRAY)
{
/* Don't test every pixel. Upgrade us from "black and white" to "probably color" */
if (*dev->is_color == 0)
*dev->is_color = 1;
dev->resolved = 1;
if (dev->passthrough == NULL)
fz_throw(ctx, FZ_ERROR_ABORT, "Page found as color; stopping interpretation");
}
}
else
{
if (shade->use_function)
{
int i;
for (i = 0; i < 256; i++)
fz_test_color(ctx, dev, shade->colorspace, shade->function[i], color_params);
}
else
{
struct shadearg arg;
arg.dev = dev;
arg.shade = shade;
arg.color_params = color_params;
fz_process_shade(ctx, shade, ctm, fz_device_current_scissor(ctx, dev_), prepare_vertex, NULL, &arg);
}
}
}
if (dev->passthrough)
fz_fill_shade(ctx, dev->passthrough, shade, ctm, alpha, color_params);
}
static void fz_test_fill_compressed_8bpc_image(fz_context *ctx, fz_test_device *dev, fz_image *image, fz_stream *stream, fz_color_params color_params)
{
unsigned int count = (unsigned int)image->w * (unsigned int)image->h;
unsigned int i;
if (image->colorspace == fz_device_rgb(ctx))
{
int threshold_u8 = dev->threshold * 255;
for (i = 0; i < count; i++)
{
int r = fz_read_byte(ctx, stream);
int g = fz_read_byte(ctx, stream);
int b = fz_read_byte(ctx, stream);
if (is_rgb_color_u8(threshold_u8, r, g, b))
{
*dev->is_color = 1;
dev->resolved = 1;
if (dev->passthrough == NULL)
fz_throw(ctx, FZ_ERROR_ABORT, "Page found as color; stopping interpretation");
break;
}
}
}
else
{
fz_color_converter cc;
unsigned int n = (unsigned int)image->n;
fz_init_cached_color_converter(ctx, &cc, image->colorspace, fz_device_rgb(ctx), NULL, color_params);
fz_try(ctx)
{
for (i = 0; i < count; i++)
{
float cs[FZ_MAX_COLORS];
float ds[FZ_MAX_COLORS];
unsigned int k;
for (k = 0; k < n; k++)
cs[k] = fz_read_byte(ctx, stream) / 255.0f;
cc.convert(ctx, &cc, ds, cs);
if (is_rgb_color(dev->threshold, ds[0], ds[1], ds[2]))
{
*dev->is_color = 1;
dev->resolved = 1;
if (dev->passthrough == NULL)
fz_throw(ctx, FZ_ERROR_ABORT, "Page found as color; stopping interpretation");
break;
}
}
}
fz_always(ctx)
fz_fin_cached_color_converter(ctx, &cc);
fz_catch(ctx)
fz_rethrow(ctx);
}
}
static void
fz_test_fill_other_image(fz_context *ctx, fz_test_device *dev, fz_pixmap *pix, fz_color_params color_params)
{
unsigned int count, i, k, h, sa, ss;
unsigned char *s;
count = pix->w;
h = pix->h;
s = pix->samples;
sa = pix->alpha;
ss = pix->stride - pix->w * pix->n;
if (pix->colorspace == fz_device_rgb(ctx))
{
int threshold_u8 = dev->threshold * 255;
while (h--)
{
for (i = 0; i < count; i++)
{
if ((!sa || s[3] != 0) && is_rgb_color_u8(threshold_u8, s[0], s[1], s[2]))
{
*dev->is_color = 1;
dev->resolved = 1;
if (dev->passthrough == NULL)
fz_throw(ctx, FZ_ERROR_ABORT, "Page found as color; stopping interpretation");
break;
}
s += 3 + sa;
}
s += ss;
}
}
else
{
fz_color_converter cc;
unsigned int n = (unsigned int)pix->n-1;
fz_init_cached_color_converter(ctx, &cc, pix->colorspace, fz_device_rgb(ctx), NULL, color_params);
fz_try(ctx)
{
while (h--)
{
for (i = 0; i < count; i++)
{
float cs[FZ_MAX_COLORS];
float ds[FZ_MAX_COLORS];
for (k = 0; k < n; k++)
cs[k] = (*s++) / 255.0f;
if (sa && *s++ == 0)
continue;
cc.convert(ctx, &cc, ds, cs);
if (is_rgb_color(dev->threshold, ds[0], ds[1], ds[2]))
{
*dev->is_color = 1;
dev->resolved = 1;
if (dev->passthrough == NULL)
fz_throw(ctx, FZ_ERROR_ABORT, "Page found as color; stopping interpretation");
break;
}
}
s += ss;
}
}
fz_always(ctx)
fz_fin_cached_color_converter(ctx, &cc);
fz_catch(ctx)
fz_rethrow(ctx);
}
}
static void
fz_test_fill_image(fz_context *ctx, fz_device *dev_, fz_image *image, fz_matrix ctm, float alpha, fz_color_params color_params)
{
fz_test_device *dev = (fz_test_device*)dev_;
while (dev->resolved == 0) /* So we can break out */
{
fz_compressed_buffer *buffer;
if (*dev->is_color || !image->colorspace || fz_colorspace_is_gray(ctx, image->colorspace))
break;
if ((dev->options & FZ_TEST_OPT_IMAGES) == 0)
{
/* Don't test every pixel. Upgrade us from "black and white" to "probably color" */
if (*dev->is_color == 0)
*dev->is_color = 1;
dev->resolved = 1;
if (dev->passthrough == NULL)
fz_throw(ctx, FZ_ERROR_ABORT, "Page found as color; stopping interpretation");
break;
}
buffer = fz_compressed_image_buffer(ctx, image);
if (buffer && image->bpc == 8)
{
fz_stream *stream = fz_open_compressed_buffer(ctx, buffer);
fz_try(ctx)
fz_test_fill_compressed_8bpc_image(ctx, dev, image, stream, color_params);
fz_always(ctx)
fz_drop_stream(ctx, stream);
fz_catch(ctx)
fz_rethrow(ctx);
}
else
{
fz_pixmap *pix = fz_get_pixmap_from_image(ctx, image, NULL, NULL, 0, 0);
if (pix == NULL) /* Should never happen really, but... */
break;
fz_try(ctx)
fz_test_fill_other_image(ctx, dev, pix, color_params);
fz_always(ctx)
fz_drop_pixmap(ctx, pix);
fz_catch(ctx)
fz_rethrow(ctx);
}
break;
}
if (dev->passthrough)
fz_fill_image(ctx, dev->passthrough, image, ctm, alpha, color_params);
}
static void
fz_test_fill_image_mask(fz_context *ctx, fz_device *dev_, fz_image *image, fz_matrix ctm,
fz_colorspace *colorspace, const float *color, float alpha, fz_color_params color_params)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->resolved == 0)
{
/* We assume that at least some of the image pixels are non-zero */
fz_test_color(ctx, dev, colorspace, color, color_params);
}
if (dev->passthrough)
fz_fill_image_mask(ctx, dev->passthrough, image, ctm, colorspace, color, alpha, color_params);
}
static void
fz_test_clip_path(fz_context *ctx, fz_device *dev_, const fz_path *path, int even_odd, fz_matrix ctm, fz_rect scissor)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_clip_path(ctx, dev->passthrough, path, even_odd, ctm, scissor);
}
static void
fz_test_clip_stroke_path(fz_context *ctx, fz_device *dev_, const fz_path *path, const fz_stroke_state *stroke, fz_matrix ctm, fz_rect scissor)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_clip_stroke_path(ctx, dev->passthrough, path, stroke, ctm, scissor);
}
static void
fz_test_clip_text(fz_context *ctx, fz_device *dev_, const fz_text *text, fz_matrix ctm, fz_rect scissor)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_clip_text(ctx, dev->passthrough, text, ctm, scissor);
}
static void
fz_test_clip_stroke_text(fz_context *ctx, fz_device *dev_, const fz_text *text, const fz_stroke_state *stroke, fz_matrix ctm, fz_rect scissor)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_clip_stroke_text(ctx, dev->passthrough, text, stroke, ctm, scissor);
}
static void
fz_test_ignore_text(fz_context *ctx, fz_device *dev_, const fz_text *text, fz_matrix ctm)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_ignore_text(ctx, dev->passthrough, text, ctm);
}
static void
fz_test_clip_image_mask(fz_context *ctx, fz_device *dev_, fz_image *img, fz_matrix ctm, fz_rect scissor)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_clip_image_mask(ctx, dev->passthrough, img, ctm, scissor);
}
static void
fz_test_pop_clip(fz_context *ctx, fz_device *dev_)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_pop_clip(ctx, dev->passthrough);
}
static void
fz_test_begin_mask(fz_context *ctx, fz_device *dev_, fz_rect rect, int luminosity, fz_colorspace *cs, const float *bc, fz_color_params color_params)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_begin_mask(ctx, dev->passthrough, rect, luminosity, cs, bc, color_params);
}
static void
fz_test_end_mask(fz_context *ctx, fz_device *dev_)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_end_mask(ctx, dev->passthrough);
}
static void
fz_test_begin_group(fz_context *ctx, fz_device *dev_, fz_rect rect, fz_colorspace *cs, int isolated, int knockout, int blendmode, float alpha)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_begin_group(ctx, dev->passthrough, rect, cs, isolated, knockout, blendmode, alpha);
}
static void
fz_test_end_group(fz_context *ctx, fz_device *dev_)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_end_group(ctx, dev->passthrough);
}
static int
fz_test_begin_tile(fz_context *ctx, fz_device *dev_, fz_rect area, fz_rect view, float xstep, float ystep, fz_matrix ctm, int id)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
return fz_begin_tile_id(ctx, dev->passthrough, area, view, xstep, ystep, ctm, id);
else
return 0;
}
static void
fz_test_end_tile(fz_context *ctx, fz_device *dev_)
{
fz_test_device *dev = (fz_test_device*)dev_;
if (dev->passthrough)
fz_end_tile(ctx, dev->passthrough);
}
/*
Create a device to test for features.
Currently only tests for the presence of non-grayscale colors.
is_color: Possible values returned:
0: Definitely greyscale
1: Probably color (all colors were grey, but there
were images or shadings in a non grey colorspace).
2: Definitely color
threshold: The difference from grayscale that will be tolerated.
Typical values to use are either 0 (be exact) and 0.02 (allow an
imperceptible amount of slop).
options: A set of bitfield options, from the FZ_TEST_OPT set.
passthrough: A device to pass all calls through to, or NULL.
If set, then the test device can both test and pass through to
an underlying device (like, say, the display list device). This
means that a display list can be created and at the end we'll
know if it's colored or not.
In the absence of a passthrough device, the device will throw
an exception to stop page interpretation when color is found.
*/
fz_device *
fz_new_test_device(fz_context *ctx, int *is_color, float threshold, int options, fz_device *passthrough)
{
fz_test_device *dev = fz_new_derived_device(ctx, fz_test_device);
dev->super.fill_path = fz_test_fill_path;
dev->super.stroke_path = fz_test_stroke_path;
dev->super.fill_text = fz_test_fill_text;
dev->super.stroke_text = fz_test_stroke_text;
dev->super.fill_shade = fz_test_fill_shade;
dev->super.fill_image = fz_test_fill_image;
dev->super.fill_image_mask = fz_test_fill_image_mask;
if (passthrough)
{
dev->super.clip_path = fz_test_clip_path;
dev->super.clip_stroke_path = fz_test_clip_stroke_path;
dev->super.clip_text = fz_test_clip_text;
dev->super.clip_stroke_text = fz_test_clip_stroke_text;
dev->super.ignore_text = fz_test_ignore_text;
dev->super.clip_image_mask = fz_test_clip_image_mask;
dev->super.pop_clip = fz_test_pop_clip;
dev->super.begin_mask = fz_test_begin_mask;
dev->super.end_mask = fz_test_end_mask;
dev->super.begin_group = fz_test_begin_group;
dev->super.end_group = fz_test_end_group;
dev->super.begin_tile = fz_test_begin_tile;
dev->super.end_tile = fz_test_end_tile;
}
dev->is_color = is_color;
dev->options = options;
dev->threshold = threshold;
dev->passthrough = passthrough;
dev->resolved = 0;
*dev->is_color = 0;
return (fz_device*)dev;
}