zeniba-nsxiv/image.c

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/* sxiv: image.c
* Copyright (c) 2011 Bert Muennich <muennich at informatik.hu-berlin.de>
*
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* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version.
*
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* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
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* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
#define _POSIX_C_SOURCE 200112L
#define _FEATURE_CONFIG
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#define _IMAGE_CONFIG
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#include <string.h>
#include <unistd.h>
#include "image.h"
#include "options.h"
#include "util.h"
#include "config.h"
#if EXIF_SUPPORT
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#include <libexif/exif-data.h>
#endif
#if GIF_SUPPORT
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#include <stdlib.h>
#include <sys/types.h>
#include <gif_lib.h>
#endif
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#define ZOOMDIFF(z1,z2) ((z1) - (z2) > 0.001 || (z1) - (z2) < -0.001)
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enum { MIN_GIF_DELAY = 50 };
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float zoom_min;
float zoom_max;
void img_init(img_t *img, win_t *win) {
zoom_min = zoom_levels[0] / 100.0;
zoom_max = zoom_levels[ARRLEN(zoom_levels) - 1] / 100.0;
if (img) {
img->im = NULL;
img->multi.cap = img->multi.cnt = 0;
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img->multi.animate = false;
img->zoom = options->zoom;
img->zoom = MAX(img->zoom, zoom_min);
img->zoom = MIN(img->zoom, zoom_max);
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img->checkpan = false;
img->dirty = false;
img->aa = options->aa;
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img->alpha = true;
img->slideshow = false;
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img->ss_delay = SLIDESHOW_DELAY * 1000;
}
if (win) {
imlib_context_set_display(win->env.dpy);
imlib_context_set_visual(win->env.vis);
imlib_context_set_colormap(win->env.cmap);
}
}
#if EXIF_SUPPORT
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void exif_auto_orientate(const fileinfo_t *file) {
ExifData *ed;
ExifEntry *entry;
int byte_order, orientation;
if (!(ed = exif_data_new_from_file(file->path)))
return;
entry = exif_content_get_entry(ed->ifd[EXIF_IFD_0], EXIF_TAG_ORIENTATION);
if (entry) {
byte_order = exif_data_get_byte_order(ed);
orientation = exif_get_short(entry->data, byte_order);
}
exif_data_unref(ed);
if (!entry)
return;
switch (orientation) {
case 5:
imlib_image_orientate(1);
case 2:
imlib_image_flip_vertical();
break;
case 3:
imlib_image_orientate(2);
break;
case 7:
imlib_image_orientate(1);
case 4:
imlib_image_flip_horizontal();
break;
case 6:
imlib_image_orientate(1);
break;
case 8:
imlib_image_orientate(270);
break;
}
}
#endif /* EXIF_SUPPORT */
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#if GIF_SUPPORT
/* Originally based on, but in its current form merely inspired by Imlib2's
* src/modules/loaders/loader_gif.c:load(), written by Carsten Haitzler.
*/
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bool img_load_gif(img_t *img, const fileinfo_t *file) {
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GifFileType *gif;
GifRowType *rows = NULL;
GifRecordType rec;
ColorMapObject *cmap;
DATA32 bgpixel, *data, *ptr;
DATA32 *prev_frame = NULL;
Imlib_Image *im;
int i, j, bg, r, g, b;
int x, y, w, h, sw, sh;
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int intoffset[] = { 0, 4, 2, 1 };
int intjump[] = { 8, 8, 4, 2 };
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int transp = -1;
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unsigned int delay = 0;
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bool err = false;
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if (img->multi.cap == 0) {
img->multi.cap = 8;
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img->multi.frames = (img_frame_t*)
s_malloc(sizeof(img_frame_t) * img->multi.cap);
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}
img->multi.cnt = 0;
img->multi.sel = 0;
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gif = DGifOpenFileName(file->path);
if (!gif) {
warn("could not open gif file: %s", file->name);
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return false;
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}
bg = gif->SBackGroundColor;
sw = gif->SWidth;
sh = gif->SHeight;
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do {
if (DGifGetRecordType(gif, &rec) == GIF_ERROR) {
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err = true;
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break;
}
if (rec == EXTENSION_RECORD_TYPE) {
int ext_code;
GifByteType *ext = NULL;
DGifGetExtension(gif, &ext_code, &ext);
while (ext) {
if (ext_code == 0xf9) {
if (ext[1] & 1)
transp = (int) ext[4];
else
transp = -1;
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delay = 10 * ((unsigned int) ext[3] << 8 | (unsigned int) ext[2]);
if (delay)
delay = MAX(delay, MIN_GIF_DELAY);
}
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ext = NULL;
DGifGetExtensionNext(gif, &ext);
}
} else if (rec == IMAGE_DESC_RECORD_TYPE) {
if (DGifGetImageDesc(gif) == GIF_ERROR) {
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err = true;
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break;
}
x = gif->Image.Left;
y = gif->Image.Top;
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w = gif->Image.Width;
h = gif->Image.Height;
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rows = (GifRowType*) s_malloc(h * sizeof(GifRowType));
for (i = 0; i < h; i++)
rows[i] = (GifRowType) s_malloc(w * sizeof(GifPixelType));
if (gif->Image.Interlace) {
for (i = 0; i < 4; i++) {
for (j = intoffset[i]; j < h; j += intjump[i])
DGifGetLine(gif, rows[j], w);
}
} else {
for (i = 0; i < h; i++)
DGifGetLine(gif, rows[i], w);
}
ptr = data = (DATA32*) s_malloc(sizeof(DATA32) * sw * sh);
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cmap = gif->Image.ColorMap ? gif->Image.ColorMap : gif->SColorMap;
r = cmap->Colors[bg].Red;
g = cmap->Colors[bg].Green;
b = cmap->Colors[bg].Blue;
bgpixel = 0x00ffffff & (r << 16 | g << 8 | b);
for (i = 0; i < sh; i++) {
for (j = 0; j < sw; j++) {
if (i < y || i >= y + h || j < x || j >= x + w) {
if (transp >= 0 && prev_frame)
*ptr = prev_frame[i * sw + j];
else
*ptr = bgpixel;
} else if (rows[i-y][j-x] == transp) {
if (prev_frame)
*ptr = prev_frame[i * sw + j];
else
*ptr = bgpixel;
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} else {
r = cmap->Colors[rows[i-y][j-x]].Red;
g = cmap->Colors[rows[i-y][j-x]].Green;
b = cmap->Colors[rows[i-y][j-x]].Blue;
*ptr = 0xff << 24 | r << 16 | g << 8 | b;
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}
ptr++;
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}
}
im = imlib_create_image_using_copied_data(sw, sh, data);
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for (i = 0; i < h; i++)
free(rows[i]);
free(rows);
free(data);
if (!im) {
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err = true;
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break;
}
imlib_context_set_image(im);
prev_frame = imlib_image_get_data_for_reading_only();
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imlib_image_set_format("gif");
if (transp >= 0)
imlib_image_set_has_alpha(1);
if (img->multi.cnt == img->multi.cap) {
img->multi.cap *= 2;
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img->multi.frames = (img_frame_t*)
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s_realloc(img->multi.frames,
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img->multi.cap * sizeof(img_frame_t));
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}
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img->multi.frames[img->multi.cnt].im = im;
img->multi.frames[img->multi.cnt].delay = delay ? delay : GIF_DELAY;
img->multi.cnt++;
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}
} while (rec != TERMINATE_RECORD_TYPE);
DGifCloseFile(gif);
if (err && !file->loaded)
warn("corrupted gif file: %s", file->name);
if (img->multi.cnt > 1) {
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imlib_context_set_image(img->im);
imlib_free_image();
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img->im = img->multi.frames[0].im;
img->multi.animate = GIF_AUTOPLAY;
} else if (img->multi.cnt == 1) {
imlib_context_set_image(img->multi.frames[0].im);
imlib_free_image();
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img->multi.cnt = 0;
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img->multi.animate = false;
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}
imlib_context_set_image(img->im);
return !err;
}
#endif /* GIF_SUPPORT */
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bool img_load(img_t *img, const fileinfo_t *file) {
const char *fmt;
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if (!img || !file || !file->name || !file->path)
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return false;
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if (access(file->path, R_OK) || !(img->im = imlib_load_image(file->path))) {
warn("could not open image: %s", file->name);
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return false;
}
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imlib_context_set_image(img->im);
imlib_image_set_changes_on_disk();
imlib_context_set_anti_alias(img->aa);
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fmt = imlib_image_format();
/* avoid unused-but-set-variable warning */
(void) fmt;
#if EXIF_SUPPORT
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if (!strcmp(fmt, "jpeg"))
exif_auto_orientate(file);
#endif
#if GIF_SUPPORT
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if (!strcmp(fmt, "gif"))
img_load_gif(img, file);
#endif
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img->scalemode = options->scalemode;
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img->re = false;
img->checkpan = false;
img->dirty = true;
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img->w = imlib_image_get_width();
img->h = imlib_image_get_height();
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return true;
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}
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void img_close(img_t *img, bool decache) {
int i;
if (!img)
return;
if (img->multi.cnt) {
for (i = 0; i < img->multi.cnt; i++) {
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imlib_context_set_image(img->multi.frames[i].im);
imlib_free_image();
}
img->multi.cnt = 0;
img->im = NULL;
} else if (img->im) {
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imlib_context_set_image(img->im);
if (decache)
imlib_free_image_and_decache();
else
imlib_free_image();
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img->im = NULL;
}
}
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void img_check_pan(img_t *img, win_t *win, bool moved) {
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int ox, oy;
if (!img || !win)
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return;
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ox = img->x;
oy = img->y;
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if (img->w * img->zoom > win->w) {
if (img->x > 0 && img->x + img->w * img->zoom > win->w)
img->x = 0;
if (img->x < 0 && img->x + img->w * img->zoom < win->w)
img->x = win->w - img->w * img->zoom;
} else {
img->x = (win->w - img->w * img->zoom) / 2;
}
if (img->h * img->zoom > win->h) {
if (img->y > 0 && img->y + img->h * img->zoom > win->h)
img->y = 0;
if (img->y < 0 && img->y + img->h * img->zoom < win->h)
img->y = win->h - img->h * img->zoom;
} else {
img->y = (win->h - img->h * img->zoom) / 2;
}
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if (!moved && (ox != img->x || oy != img->y))
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img->dirty = true;
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}
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bool img_fit(img_t *img, win_t *win) {
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float z, zmax, zw, zh;
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if (!img || !win || img->scalemode == SCALE_ZOOM)
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return false;
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zmax = img->scalemode == SCALE_DOWN ? 1.0 : zoom_max;
zw = (float) win->w / (float) img->w;
zh = (float) win->h / (float) img->h;
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z = MIN(zw, zh);
z = MAX(z, zoom_min);
z = MIN(z, zmax);
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if (ZOOMDIFF(z, img->zoom)) {
img->zoom = z;
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img->dirty = true;
return true;
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} else {
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return false;
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}
}
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void img_render(img_t *img, win_t *win) {
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int sx, sy, sw, sh;
int dx, dy, dw, dh;
if (!img || !img->im || !win)
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return;
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img_fit(img, win);
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if (!img->re) {
/* rendered for the first time */
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img->re = true;
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if (img->zoom * img->w <= win->w)
img->x = (win->w - img->w * img->zoom) / 2;
else
img->x = 0;
if (img->zoom * img->h <= win->h)
img->y = (win->h - img->h * img->zoom) / 2;
else
img->y = 0;
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}
if (img->checkpan) {
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img_check_pan(img, win, false);
img->checkpan = false;
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}
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if (!img->dirty)
return;
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/* calculate source and destination offsets */
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if (img->x < 0) {
sx = -img->x / img->zoom;
sw = win->w / img->zoom;
dx = 0;
dw = win->w;
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} else {
sx = 0;
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sw = img->w;
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dx = img->x;
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dw = img->w * img->zoom;
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}
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if (img->y < 0) {
sy = -img->y / img->zoom;
sh = win->h / img->zoom;
dy = 0;
dh = win->h;
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} else {
sy = 0;
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sh = img->h;
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dy = img->y;
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dh = img->h * img->zoom;
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}
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win_clear(win);
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imlib_context_set_image(img->im);
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if (imlib_image_has_alpha() && !img->alpha)
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win_draw_rect(win, win->pm, dx, dy, dw, dh, True, 0, win->white);
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imlib_context_set_drawable(win->pm);
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imlib_render_image_part_on_drawable_at_size(sx, sy, sw, sh, dx, dy, dw, dh);
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win_draw(win);
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img->dirty = false;
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}
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bool img_fit_win(img_t *img, win_t *win) {
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if (!img || !img->im || !win)
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return false;
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img->scalemode = SCALE_FIT;
return img_fit(img, win);
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}
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bool img_center(img_t *img, win_t *win) {
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int ox, oy;
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if (!img || !win)
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return false;
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ox = img->x;
oy = img->y;
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img->x = (win->w - img->w * img->zoom) / 2;
img->y = (win->h - img->h * img->zoom) / 2;
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if (ox != img->x || oy != img->y) {
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img->dirty = true;
return true;
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} else {
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return false;
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}
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}
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bool img_zoom(img_t *img, win_t *win, float z) {
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if (!img || !img->im || !win)
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return false;
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z = MAX(z, zoom_min);
z = MIN(z, zoom_max);
img->scalemode = SCALE_ZOOM;
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if (ZOOMDIFF(z, img->zoom)) {
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img->x = win->w / 2 - (win->w / 2 - img->x) * z / img->zoom;
img->y = win->h / 2 - (win->h / 2 - img->y) * z / img->zoom;
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img->zoom = z;
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img->checkpan = true;
img->dirty = true;
return true;
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} else {
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return false;
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}
}
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bool img_zoom_in(img_t *img, win_t *win) {
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int i;
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if (!img || !img->im || !win)
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return false;
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for (i = 1; i < ARRLEN(zoom_levels); i++) {
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if (zoom_levels[i] > img->zoom * 100.0)
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return img_zoom(img, win, zoom_levels[i] / 100.0);
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}
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return false;
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}
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bool img_zoom_out(img_t *img, win_t *win) {
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int i;
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if (!img || !img->im || !win)
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return false;
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for (i = ARRLEN(zoom_levels) - 2; i >= 0; i--) {
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if (zoom_levels[i] < img->zoom * 100.0)
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return img_zoom(img, win, zoom_levels[i] / 100.0);
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}
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return false;
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}
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bool img_move(img_t *img, win_t *win, int dx, int dy) {
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int ox, oy;
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if (!img || !img->im || !win)
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return false;
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ox = img->x;
oy = img->y;
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img->x += dx;
img->y += dy;
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img_check_pan(img, win, true);
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if (ox != img->x || oy != img->y) {
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img->dirty = true;
return true;
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} else {
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return false;
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}
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}
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bool img_pan(img_t *img, win_t *win, direction_t dir, bool screen) {
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if (!img || !img->im || !win)
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return false;
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switch (dir) {
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case DIR_LEFT:
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return img_move(img, win, win->w / (screen ? 1 : 5), 0);
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case DIR_RIGHT:
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return img_move(img, win, win->w / (screen ? 1 : 5) * -1, 0);
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case DIR_UP:
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return img_move(img, win, 0, win->h / (screen ? 1 : 5));
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case DIR_DOWN:
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return img_move(img, win, 0, win->h / (screen ? 1 : 5) * -1);
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}
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return false;
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}
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bool img_pan_edge(img_t *img, win_t *win, direction_t dir) {
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int ox, oy;
if (!img || !img->im || !win)
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return false;
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ox = img->x;
oy = img->y;
switch (dir) {
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case DIR_LEFT:
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img->x = 0;
break;
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case DIR_RIGHT:
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img->x = win->w - img->w * img->zoom;
break;
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case DIR_UP:
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img->y = 0;
break;
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case DIR_DOWN:
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img->y = win->h - img->h * img->zoom;
break;
}
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img_check_pan(img, win, true);
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if (ox != img->x || oy != img->y) {
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img->dirty = true;
return true;
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} else {
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return false;
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}
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}
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void img_rotate(img_t *img, win_t *win, int d) {
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int ox, oy, tmp;
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if (!img || !img->im || !win)
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return;
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ox = d == 1 ? img->x : win->w - img->x - img->w * img->zoom;
oy = d == 3 ? img->y : win->h - img->y - img->h * img->zoom;
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imlib_context_set_image(img->im);
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imlib_image_orientate(d);
img->x = oy + (win->w - win->h) / 2;
img->y = ox + (win->h - win->w) / 2;
tmp = img->w;
img->w = img->h;
img->h = tmp;
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img->checkpan = true;
img->dirty = true;
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}
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void img_rotate_left(img_t *img, win_t *win) {
img_rotate(img, win, 3);
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}
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void img_rotate_right(img_t *img, win_t *win) {
img_rotate(img, win, 1);
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}
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void img_toggle_antialias(img_t *img) {
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if (!img || !img->im)
return;
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img->aa = !img->aa;
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imlib_context_set_image(img->im);
imlib_context_set_anti_alias(img->aa);
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img->dirty = true;
}
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bool img_frame_goto(img_t *img, int n) {
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if (!img || n < 0 || n >= img->multi.cnt)
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return false;
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if (n == img->multi.sel)
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return false;
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img->multi.sel = n;
img->im = img->multi.frames[n].im;
imlib_context_set_image(img->im);
img->w = imlib_image_get_width();
img->h = imlib_image_get_height();
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img->checkpan = true;
img->dirty = true;
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return true;
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}
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bool img_frame_navigate(img_t *img, int d) {
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if (!img || !img->multi.cnt || !d)
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return false;
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d += img->multi.sel;
if (d < 0)
d = 0;
else if (d >= img->multi.cnt)
d = img->multi.cnt - 1;
return img_frame_goto(img, d);
}
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bool img_frame_animate(img_t *img, bool restart) {
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if (!img || !img->multi.cnt)
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return false;
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if (img->multi.sel + 1 >= img->multi.cnt) {
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if (restart || (GIF_LOOP && !img->slideshow)) {
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img_frame_goto(img, 0);
} else {
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img->multi.animate = false;
return false;
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}
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} else if (!restart) {
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img_frame_goto(img, img->multi.sel + 1);
}
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img->multi.animate = true;
img->dirty = true;
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return true;
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}