static gboolean
preview_event_handler (GtkWidget *area,
GdkEvent *event,
GtkWidget *preview)
{
gint pos;
guchar *buf;
guint32 drawable_id;
GimpRGB color;
GdkEventButton *button_event = (GdkEventButton *)event;
buf = GIMP_PREVIEW_AREA (area)->buf;
drawable_id = GIMP_DRAWABLE_PREVIEW (preview)->drawable->drawable_id;
switch (event->type)
{
case GDK_BUTTON_PRESS:
if (button_event->button == 2)
{
pos = event->button.x * gimp_drawable_bpp (drawable_id) +
event->button.y * GIMP_PREVIEW_AREA (area)->rowstride;
gimp_rgb_set_uchar (&color, buf[pos], buf[pos + 1], buf[pos + 2]);
gimp_color_button_set_color (GIMP_COLOR_BUTTON (from_colorbutton),
&color);
}
break;
default:
break;
}
return FALSE;
}
static void
neon_preview_update (GimpPreview *preview)
{
neon (GIMP_DRAWABLE_PREVIEW (preview)->drawable,
evals.radius,
evals.amount,
preview);
}
static void
sobel_preview_update (GimpPreview *preview)
{
sobel (gimp_drawable_preview_get_drawable (GIMP_DRAWABLE_PREVIEW (preview)),
bvals.horizontal,
bvals.vertical,
bvals.keep_sign,
preview);
}
// Combine wavelets with latest FFT result and show output in the preview widget
void wavelet_preview(PluginData *pd)
{
int x, y, w, h;
gimp_preview_get_position (GIMP_PREVIEW(pd->preview), &x, &y);
gimp_preview_get_size (GIMP_PREVIEW(pd->preview), &w, &h);
gimp_pixel_rgn_init (&pd->region, pd->drawable, 0, 0, pd->image_width, pd->image_height, FALSE, TRUE);
wavelet_apply(pd, x, y, w, h);
gimp_pixel_rgn_set_rect(&pd->region, pd->img_pixels, x, y, w, h);
gimp_drawable_preview_draw_region(GIMP_DRAWABLE_PREVIEW(pd->preview), &pd->region);
}
static void preview_update (GimpPreview *preview)
{
GimpDrawable *drawable;
gint x, y;
gint width, height;
GimpPixelRgn srcPR;
GimpPixelRgn destPR;
drawable = gimp_drawable_preview_get_drawable (GIMP_DRAWABLE_PREVIEW (preview));
gimp_pixel_rgn_init ( &srcPR, drawable, 0, 0, drawable->width, drawable->height, FALSE, FALSE);
gimp_pixel_rgn_init (&destPR, drawable, 0, 0, drawable->width, drawable->height, TRUE, TRUE);
gimp_preview_get_position (preview, &x, &y);
gimp_preview_get_size (preview, &width, &height);
octave_region (&srcPR, &destPR, drawable->bpp, x, y, width, height);
gimp_pixel_rgn_init (&destPR, drawable, x, y, width, height, FALSE, TRUE);
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview), &destPR);
}
static void
preview_update (GimpPreview *preview)
{
GimpDrawable *drawable;
gint x1, x2;
gint y1, y2;
gint x, y;
gint width, height;
gint border;
GimpPixelRgn srcPR;
GimpPixelRgn destPR;
drawable =
gimp_drawable_preview_get_drawable (GIMP_DRAWABLE_PREVIEW (preview));
gimp_pixel_rgn_init (&srcPR, drawable,
0, 0, drawable->width, drawable->height, FALSE, FALSE);
gimp_pixel_rgn_init (&destPR, drawable,
0, 0, drawable->width, drawable->height, TRUE, TRUE);
gimp_preview_get_position (preview, &x, &y);
gimp_preview_get_size (preview, &width, &height);
/* enlarge the region to avoid artefacts at the edges of the preview */
border = 2.0 * c2g_params.radius + 0.5;
if (border > width/2) border = width/2; //Speed up preview
x1 = MAX (0, x - border);
y1 = MAX (0, y - border);
x2 = MIN (x + width + border, drawable->width);
y2 = MIN (y + height + border, drawable->height);
c2g_region (&srcPR, &destPR, drawable->bpp,
c2g_params.radius, c2g_params.amount, c2g_params.gamma,
x1, x2, y1, y2,
FALSE);
gimp_pixel_rgn_init (&destPR, drawable, x, y, width, height, FALSE, TRUE);
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview), &destPR);
}
void
focusblur_fft_buffer_draw (FblurFftBuffer *fft)
{
GimpDrawablePreview *preview;
gboolean dirty;
guint8 *data;
GimpPixelRgn pr;
if (! fft->source.preview)
{
preview = NULL;
dirty = TRUE;
data = fft->source.data;
}
else
{
preview = GIMP_DRAWABLE_PREVIEW (fft->source.preview);
g_assert (preview != NULL);
dirty = FALSE;
data = fft->source.data_preview;
}
g_assert (data != NULL);
gimp_pixel_rgn_init (&pr, fft->source.drawable,
fft->source.x1, fft->source.y1,
fft->source.width, fft->source.height, dirty, TRUE);
gimp_pixel_rgn_set_rect (&pr, data,
fft->source.x1, fft->source.y1,
fft->source.width, fft->source.height);
if (! preview)
{
gimp_drawable_flush (fft->source.drawable);
gimp_drawable_merge_shadow (fft->source.drawable->drawable_id, TRUE);
gimp_drawable_update (fft->source.drawable->drawable_id,
fft->source.x1, fft->source.y1,
fft->source.width, fft->source.height);
/* this buffer has been dirty */
focusblur_fft_buffer_clear_source (fft);
}
else
{
gimp_drawable_preview_draw_region (preview, &pr);
}
}
static void
spread_preview_update (GimpPreview *preview,
GtkWidget *size)
{
GimpDrawable *drawable;
SpreadParam_t param;
gint x, y, bpp;
guchar *buffer, *dest;
gint x_off, y_off;
gint width, height;
drawable =
gimp_drawable_preview_get_drawable (GIMP_DRAWABLE_PREVIEW (preview));
param.pft = gimp_pixel_fetcher_new (drawable, FALSE);
param.gr = g_rand_new ();
param.x_amount = (gimp_size_entry_get_refval (GIMP_SIZE_ENTRY (size),
0) + 1) / 2;
param.y_amount = (gimp_size_entry_get_refval (GIMP_SIZE_ENTRY (size),
1) + 1) / 2;
param.width = drawable->width;
param.height = drawable->height;
gimp_preview_get_size (preview, &width, &height);
bpp = drawable->bpp;
dest = buffer = g_new (guchar, width * height * bpp);
gimp_preview_get_position (preview, &x_off, &y_off);
for (y = 0 ; y < height ; y++)
for (x = 0 ; x < width ; x++)
{
spread_func (x + x_off, y + y_off, dest, bpp, ¶m);
dest += bpp;
}
gimp_preview_draw_buffer (preview, buffer, width * bpp);
g_free (buffer);
g_rand_free (param.gr);
}
static void
mblur_zoom (GimpDrawable *drawable,
GimpPreview *preview,
gint x1,
gint y1,
gint width,
gint height)
{
GimpPixelRgn dest_rgn;
GimpPixelFetcher *pft;
gpointer pr;
GimpRGB background;
gdouble center_x;
gdouble center_y;
guchar *dest, *d;
guchar pixel[4];
guchar p1[4], p2[4], p3[4], p4[4];
gint32 sum[4];
gint progress, max_progress;
gint x, y, i, n, p, c;
gdouble xx_start, xx_end, yy_start, yy_end;
gdouble xx, yy;
gdouble dxx, dyy;
gdouble dx, dy;
gint xy_len;
gdouble f, r;
gint drawable_x1, drawable_y1;
gint drawable_x2, drawable_y2;
/* initialize */
xx = 0.0;
yy = 0.0;
center_x = mbvals.center_x;
center_y = mbvals.center_y;
gimp_drawable_mask_bounds (drawable->drawable_id,
&drawable_x1, &drawable_y1,
&drawable_x2, &drawable_y2);
gimp_pixel_rgn_init (&dest_rgn, drawable,
x1, y1, width, height, (preview == NULL), TRUE);
pft = gimp_pixel_fetcher_new (drawable, FALSE);
gimp_context_get_background (&background);
gimp_pixel_fetcher_set_bg_color (pft, &background);
progress = 0;
max_progress = width * height;
n = mbvals.length;
if (n == 0)
n = 1;
r = sqrt (SQR (drawable->width / 2) + SQR (drawable->height / 2));
n = ((gdouble) n * r / MBLUR_LENGTH_MAX);
f = (r-n)/r;
for (pr = gimp_pixel_rgns_register (1, &dest_rgn), p = 0;
pr != NULL;
pr = gimp_pixel_rgns_process (pr), p++)
{
dest = dest_rgn.data;
for (y = dest_rgn.y; y < dest_rgn.y + dest_rgn.h; y++)
{
d = dest;
for (x = dest_rgn.x; x < dest_rgn.x + dest_rgn.w; x++)
{
for (c = 0; c < img_bpp; c++)
sum[c] = 0;
xx_start = x;
yy_start = y;
if (mbvals.blur_outward)
{
xx_end = center_x + ((gdouble) x - center_x) * f;
yy_end = center_y + ((gdouble) y - center_y) * f;
}
else
{
xx_end = center_x + ((gdouble) x - center_x) * (1.0/f);
yy_end = center_y + ((gdouble) y - center_y) * (1.0/f);
}
xy_len = sqrt (SQR (xx_end-xx_start) + SQR (yy_end-yy_start)) + 1;
if (xy_len < 3)
xy_len = 3;
dxx = (xx_end - xx_start) / (gdouble) xy_len;
dyy = (yy_end - yy_start) / (gdouble) xy_len;
xx = xx_start;
yy = yy_start;
for (i = 0; i < xy_len; i++)
{
if ((yy < drawable_y1) || (yy >= drawable_y2) ||
(xx < drawable_x1) || (xx >= drawable_x2))
break;
if ((xx+1 < drawable_x2) && (yy+1 < drawable_y2))
{
dx = xx - floor (xx);
dy = yy - floor (yy);
gimp_pixel_fetcher_get_pixel (pft, xx, yy, p1);
gimp_pixel_fetcher_get_pixel (pft, xx+1, yy, p2);
gimp_pixel_fetcher_get_pixel (pft, xx, yy+1, p3);
gimp_pixel_fetcher_get_pixel (pft, xx+1, yy+1, p4);
for (c = 0; c < img_bpp; c++)
{
pixel[c] = (((gdouble)p1[c] * (1.0-dx) +
(gdouble)p2[c] * dx) * (1.0-dy) +
((gdouble)p3[c] * (1.0-dx) +
(gdouble)p4[c] * dx) * dy);
}
}
else
{
gimp_pixel_fetcher_get_pixel (pft, xx+.5, yy+.5, pixel);
}
if (has_alpha)
{
gint32 alpha = pixel[img_bpp-1];
sum[img_bpp-1] += alpha;
for (c = 0; c < img_bpp-1; c++)
sum[c] += pixel[c] * alpha;
}
else
{
for (c = 0; c < img_bpp; c++)
sum[c] += pixel[c];
}
xx += dxx;
yy += dyy;
}
if (i == 0)
{
gimp_pixel_fetcher_get_pixel (pft, xx, yy, d);
}
else
{
if (has_alpha)
{
gint32 alpha = sum[img_bpp-1];
if ((d[img_bpp-1] = alpha/i) != 0)
{
for (c = 0; c < img_bpp-1; c++)
d[c] = sum[c] / alpha;
}
}
else
{
for (c = 0; c < img_bpp; c++)
d[c] = sum[c] / i;
}
}
d += dest_rgn.bpp;
}
dest += dest_rgn.rowstride;
}
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&dest_rgn);
}
else
{
progress += dest_rgn.w * dest_rgn.h;
if ((p % 8) == 0)
gimp_progress_update ((gdouble) progress / max_progress);
}
}
gimp_pixel_fetcher_destroy (pft);
}
static void
mblur_radial (GimpDrawable *drawable,
GimpPreview *preview,
gint x1,
gint y1,
gint width,
gint height)
{
GimpPixelRgn dest_rgn;
GimpPixelFetcher *pft;
gpointer pr;
GimpRGB background;
gdouble center_x;
gdouble center_y;
guchar *dest;
guchar *d;
guchar pixel[4];
guchar p1[4], p2[4], p3[4], p4[4];
gint32 sum[4];
gint progress, max_progress, c;
gint x, y, i, p, n, count;
gdouble angle, theta, r, xx, yy, xr, yr;
gdouble phi, phi_start, s_val, c_val;
gdouble dx, dy;
/* initialize */
xx = 0.0;
yy = 0.0;
center_x = mbvals.center_x;
center_y = mbvals.center_y;
gimp_pixel_rgn_init (&dest_rgn, drawable,
x1, y1, width, height, (preview == NULL), TRUE);
pft = gimp_pixel_fetcher_new (drawable, FALSE);
gimp_context_get_background (&background);
gimp_pixel_fetcher_set_bg_color (pft, &background);
progress = 0;
max_progress = width * height;
angle = gimp_deg_to_rad (mbvals.angle);
for (pr = gimp_pixel_rgns_register (1, &dest_rgn), p = 0;
pr != NULL;
pr = gimp_pixel_rgns_process (pr), p++)
{
dest = dest_rgn.data;
for (y = dest_rgn.y; y < dest_rgn.y + dest_rgn.h; y++)
{
d = dest;
for (x = dest_rgn.x; x < dest_rgn.x + dest_rgn.w; x++)
{
xr = (gdouble) x - center_x;
yr = (gdouble) y - center_y;
r = sqrt (SQR (xr) + SQR (yr));
n = r * angle;
if (angle == 0.0)
{
gimp_pixel_fetcher_get_pixel (pft, x, y, d);
d += dest_rgn.bpp;
continue;
}
/* ensure quality with small angles */
if (n < 3)
n = 3; /* always use at least 3 (interpolation) steps */
/* limit loop count due to performanc reasons */
if (n > 100)
n = 100 + sqrt (n-100);
if (xr != 0.0)
{
phi = atan(yr/xr);
if (xr < 0.0)
phi = G_PI + phi;
}
else
{
if (yr >= 0.0)
phi = G_PI_2;
else
phi = -G_PI_2;
}
for (c = 0; c < img_bpp; c++)
sum[c] = 0;
if (n == 1)
phi_start = phi;
else
phi_start = phi + angle/2.0;
theta = angle / (gdouble)n;
count = 0;
for (i = 0; i < n; i++)
{
s_val = sin (phi_start - (gdouble) i * theta);
c_val = cos (phi_start - (gdouble) i * theta);
xx = center_x + r * c_val;
yy = center_y + r * s_val;
if ((yy < y1) || (yy >= y1 + height) ||
(xx < x1) || (xx >= x1 + width))
continue;
++count;
if ((xx + 1 < x1 + width) && (yy + 1 < y1 + height))
{
dx = xx - floor (xx);
dy = yy - floor (yy);
gimp_pixel_fetcher_get_pixel (pft, xx, yy, p1);
gimp_pixel_fetcher_get_pixel (pft, xx+1, yy, p2);
gimp_pixel_fetcher_get_pixel (pft, xx, yy+1, p3);
gimp_pixel_fetcher_get_pixel (pft, xx+1, yy+1, p4);
for (c = 0; c < img_bpp; c++)
{
pixel[c] = (((gdouble) p1[c] * (1.0-dx) +
(gdouble) p2[c] * dx) * (1.0-dy) +
((gdouble) p3[c] * (1.0-dx) +
(gdouble) p4[c] * dx) * dy);
}
}
else
{
gimp_pixel_fetcher_get_pixel (pft, xx+.5, yy+.5, pixel);
}
if (has_alpha)
{
gint32 alpha = pixel[img_bpp-1];
sum[img_bpp-1] += alpha;
for (c = 0; c < img_bpp-1; c++)
sum[c] += pixel[c] * alpha;
}
else
{
for (c = 0; c < img_bpp; c++)
sum[c] += pixel[c];
}
}
if (count == 0)
{
gimp_pixel_fetcher_get_pixel (pft, xx, yy, d);
}
else
{
if (has_alpha)
{
gint32 alpha = sum[img_bpp-1];
if ((d[img_bpp-1] = alpha/count) != 0)
{
for (c = 0; c < img_bpp-1; c++)
d[c] = sum[c] / alpha;
}
}
else
{
for (c = 0; c < img_bpp; c++)
d[c] = sum[c] / count;
}
}
d += dest_rgn.bpp;
}
dest += dest_rgn.rowstride;
}
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&dest_rgn);
}
else
{
progress += dest_rgn.w * dest_rgn.h;
if ((p % 8) == 0)
gimp_progress_update ((gdouble) progress / max_progress);
}
}
gimp_pixel_fetcher_destroy (pft);
}
static void
mblur_linear (GimpDrawable *drawable,
GimpPreview *preview,
gint x1,
gint y1,
gint width,
gint height)
{
GimpPixelRgn dest_rgn;
GimpPixelFetcher *pft;
gpointer pr;
GimpRGB background;
guchar *dest;
guchar *d;
guchar pixel[4];
gint32 sum[4];
gint progress, max_progress;
gint c, p;
gint x, y, i, xx, yy, n;
gint dx, dy, px, py, swapdir, err, e, s1, s2;
gimp_pixel_rgn_init (&dest_rgn, drawable,
x1, y1, width, height, (preview == NULL), TRUE);
pft = gimp_pixel_fetcher_new (drawable, FALSE);
gimp_context_get_background (&background);
gimp_pixel_fetcher_set_bg_color (pft, &background);
progress = 0;
max_progress = width * height;
n = mbvals.length;
px = (gdouble) n * cos (mbvals.angle / 180.0 * G_PI);
py = (gdouble) n * sin (mbvals.angle / 180.0 * G_PI);
/*
* Initialization for Bresenham algorithm:
* dx = abs(x2-x1), s1 = sign(x2-x1)
* dy = abs(y2-y1), s2 = sign(y2-y1)
*/
if ((dx = px) != 0)
{
if (dx < 0)
{
dx = -dx;
s1 = -1;
}
else
s1 = 1;
}
else
s1 = 0;
if ((dy = py) != 0)
{
if (dy < 0)
{
dy = -dy;
s2 = -1;
}
else
s2 = 1;
}
else
s2 = 0;
if (dy > dx)
{
swapdir = dx;
dx = dy;
dy = swapdir;
swapdir = 1;
}
else
swapdir = 0;
dy *= 2;
err = dy - dx; /* Initial error term */
dx *= 2;
for (pr = gimp_pixel_rgns_register (1, &dest_rgn), p = 0;
pr != NULL;
pr = gimp_pixel_rgns_process (pr), p++)
{
dest = dest_rgn.data;
for (y = dest_rgn.y; y < dest_rgn.y + dest_rgn.h; y++)
{
d = dest;
for (x = dest_rgn.x; x < dest_rgn.x + dest_rgn.w; x++)
{
xx = x; yy = y; e = err;
for (c = 0; c < img_bpp; c++)
sum[c]= 0;
for (i = 0; i < n; )
{
gimp_pixel_fetcher_get_pixel (pft, xx, yy, pixel);
if (has_alpha)
{
gint32 alpha = pixel[img_bpp-1];
sum[img_bpp-1] += alpha;
for (c = 0; c < img_bpp-1; c++)
sum[c] += pixel[c] * alpha;
}
else
{
for (c = 0; c < img_bpp; c++)
sum[c] += pixel[c];
}
i++;
while (e >= 0 && dx)
{
if (swapdir)
xx += s1;
else
yy += s2;
e -= dx;
}
if (swapdir)
yy += s2;
else
xx += s1;
e += dy;
if ((xx < x1) || (xx >= x1 + width) ||
(yy < y1) || (yy >= y1 + height))
break;
}
if (i == 0)
{
gimp_pixel_fetcher_get_pixel (pft, xx, yy, d);
}
else
{
if (has_alpha)
{
gint32 alpha = sum[img_bpp-1];
if ((d[img_bpp-1] = alpha/i) != 0)
{
for (c = 0; c < img_bpp-1; c++)
d[c] = sum[c] / alpha;
}
}
else
{
for (c = 0; c < img_bpp; c++)
d[c] = sum[c] / i;
}
}
d += dest_rgn.bpp;
}
dest += dest_rgn.rowstride;
}
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&dest_rgn);
}
else
{
progress += dest_rgn.w * dest_rgn.h;
if ((p % 8) == 0)
gimp_progress_update ((gdouble) progress / max_progress);
}
}
gimp_pixel_fetcher_destroy (pft);
}
/* - Filter function - I wish all filter functions had a pmode :) */
static void
glasstile (GimpDrawable *drawable,
GimpPreview *preview)
{
GimpPixelRgn srcPR, destPR;
gint width, height;
gint bytes;
guchar *dest, *d;
guchar *cur_row;
gint row, col, i;
gint x1, y1, x2, y2;
/* Translations of variable names from Maswan
* rutbredd = grid width
* ruthojd = grid height
* ymitt = y middle
* xmitt = x middle
*/
gint rutbredd, xpixel1, xpixel2;
gint ruthojd , ypixel2;
gint xhalv, xoffs, xmitt, xplus;
gint yhalv, yoffs, ymitt, yplus;
if (preview)
{
gimp_preview_get_position (preview, &x1, &y1);
gimp_preview_get_size (preview, &width, &height);
x2 = x1 + width;
y2 = y1 + height;
}
else
{
gimp_drawable_mask_bounds (drawable->drawable_id, &x1, &y1, &x2, &y2);
width = x2 - x1;
height = y2 - y1;
}
bytes = drawable->bpp;
cur_row = g_new (guchar, width * bytes);
dest = g_new (guchar, width * bytes);
/* initialize the pixel regions, set grid height/width */
gimp_pixel_rgn_init (&srcPR, drawable,
x1, y1, width, height,
FALSE, FALSE);
gimp_pixel_rgn_init (&destPR, drawable,
x1, y1, width, height,
preview == NULL, TRUE);
rutbredd = gtvals.xblock;
ruthojd = gtvals.yblock;
xhalv = rutbredd / 2;
yhalv = ruthojd / 2;
xplus = rutbredd % 2;
yplus = ruthojd % 2;
ymitt = y1;
yoffs = 0;
/* Loop through the rows */
for (row = y1; row < y2; row++)
{
d = dest;
ypixel2 = ymitt + yoffs * 2;
ypixel2 = CLAMP (ypixel2, 0, y2 - 1);
gimp_pixel_rgn_get_row (&srcPR, cur_row, x1, ypixel2, width);
yoffs++;
/* if current offset = half, do a displacement next time around */
if (yoffs == yhalv)
{
ymitt += ruthojd;
yoffs = - (yhalv + yplus);
}
xmitt = 0;
xoffs = 0;
for (col = 0; col < x2 - x1; col++) /* one pixel */
{
xpixel1 = (xmitt + xoffs) * bytes;
xpixel2 = (xmitt + xoffs * 2) * bytes;
if (xpixel2 < (x2 - x1) * bytes)
{
if (xpixel2 < 0)
xpixel2 = 0;
for (i = 0; i < bytes; i++)
d[xpixel1 + i] = cur_row[xpixel2 + i];
}
else
{
for (i = 0; i < bytes; i++)
d[xpixel1 + i] = cur_row[xpixel1 + i];
}
xoffs++;
if (xoffs == xhalv)
{
xmitt += rutbredd;
xoffs = - (xhalv + xplus);
}
}
/* Store the dest */
gimp_pixel_rgn_set_row (&destPR, dest, x1, row, width);
if (!preview && ((row % 5) == 0))
{
gimp_progress_update ((gdouble) row / (gdouble) height);
}
}
/* Update region */
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&destPR);
}
else
{
gimp_progress_update (1.0);
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->drawable_id, TRUE);
gimp_drawable_update (drawable->drawable_id,
x1, y1, width, height);
}
g_free (cur_row);
g_free (dest);
}
static void
value_propagate_body (GimpDrawable *drawable,
GimpPreview *preview)
{
GimpImageType dtype;
ModeParam operation;
GimpPixelRgn srcRgn, destRgn;
guchar *here, *best, *dest;
guchar *dest_row, *prev_row, *cur_row, *next_row;
guchar *pr, *cr, *nr, *swap;
gint width, height, bytes, index;
gint begx, begy, endx, endy, x, y, dx;
gint left_index, right_index, up_index, down_index;
gpointer tmp;
GimpRGB foreground;
/* calculate neighbors' indexes */
left_index = (vpvals.direction_mask & (1 << Left2Right)) ? -1 : 0;
right_index = (vpvals.direction_mask & (1 << Right2Left)) ? 1 : 0;
up_index = (vpvals.direction_mask & (1 << Top2Bottom)) ? -1 : 0;
down_index = (vpvals.direction_mask & (1 << Bottom2Top)) ? 1 : 0;
operation = modes[vpvals.propagate_mode];
tmp = NULL;
dtype = gimp_drawable_type (drawable->drawable_id);
bytes = drawable->bpp;
/* Here I use the algorithm of blur.c */
if (preview)
{
gimp_preview_get_position (preview, &begx, &begy);
gimp_preview_get_size (preview, &width, &height);
endx = begx + width;
endy = begy + height;
}
else
{
if (! gimp_drawable_mask_intersect (drawable->drawable_id,
&begx, &begy, &width, &height))
return;
endx = begx + width;
endy = begy + height;
}
gimp_tile_cache_ntiles (2 * ((width) / gimp_tile_width () + 1));
prev_row = g_new (guchar, (width + 2) * bytes);
cur_row = g_new (guchar, (width + 2) * bytes);
next_row = g_new (guchar, (width + 2) * bytes);
dest_row = g_new (guchar, width * bytes);
gimp_pixel_rgn_init (&srcRgn, drawable,
begx, begy, width, height,
FALSE, FALSE);
gimp_pixel_rgn_init (&destRgn, drawable,
begx, begy, width, height,
(preview == NULL), TRUE);
pr = prev_row + bytes;
cr = cur_row + bytes;
nr = next_row + bytes;
prepare_row (&srcRgn, pr, begx, (0 < begy) ? begy : begy - 1, endx-begx);
prepare_row (&srcRgn, cr, begx, begy, endx-begx);
best = g_new (guchar, bytes);
if (!preview)
gimp_progress_init (_("Value Propagate"));
gimp_context_get_foreground (&foreground);
gimp_rgb_get_uchar (&foreground, fore+0, fore+1, fore+2);
/* start real job */
for (y = begy ; y < endy ; y++)
{
prepare_row (&srcRgn, nr, begx, ((y+1) < endy) ? y+1 : endy, endx-begx);
for (index = 0; index < (endx - begx) * bytes; index++)
dest_row[index] = cr[index];
for (x = 0 ; x < endx - begx; x++)
{
dest = dest_row + (x * bytes);
here = cr + (x * bytes);
/* *** copy source value to best value holder *** */
memcpy (best, here, bytes);
if (operation.initializer)
(* operation.initializer)(dtype, bytes, best, here, &tmp);
/* *** gather neighbors' values: loop-unfolded version *** */
if (up_index == -1)
for (dx = left_index ; dx <= right_index ; dx++)
(* operation.updater)(dtype, bytes, here, pr+((x+dx)*bytes), best, tmp);
for (dx = left_index ; dx <= right_index ; dx++)
if (dx != 0)
(* operation.updater)(dtype, bytes, here, cr+((x+dx)*bytes), best, tmp);
if (down_index == 1)
for (dx = left_index ; dx <= right_index ; dx++)
(* operation.updater)(dtype, bytes, here, nr+((x+dx)*bytes), best, tmp);
/* *** store it to dest_row*** */
(* operation.finalizer)(dtype, bytes, best, here, dest, tmp);
}
/* now store destline to destRgn */
gimp_pixel_rgn_set_row (&destRgn, dest_row, begx, y, endx - begx);
/* shift the row pointers */
swap = pr;
pr = cr;
cr = nr;
nr = swap;
if (((y % 16) == 0) && !preview)
gimp_progress_update ((gdouble) y / (gdouble) (endy - begy));
}
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&destRgn);
}
else
{
/* update the region */
gimp_progress_update (1.0);
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->drawable_id, TRUE);
gimp_drawable_update (drawable->drawable_id, begx, begy, endx-begx, endy-begy);
}
}
static void
randomize (GimpDrawable *drawable,
GimpPreview *preview)
{
GimpPixelRgn srcPR, destPR, destPR2, *sp, *dp, *tp;
gint width, height;
gint bytes;
guchar *dest, *d;
guchar *prev_row, *pr;
guchar *cur_row, *cr;
guchar *next_row, *nr;
guchar *tmp;
gint row, col;
gint x, y;
gint cnt;
gint i, j, k;
if (preview)
{
gimp_preview_get_position (preview, &x, &y);
gimp_preview_get_size (preview, &width, &height);
}
else
{
if (! gimp_drawable_mask_intersect (drawable->drawable_id,
&x, &y, &width, &height))
return;
}
bytes = drawable->bpp;
/*
* allocate row buffers
*/
prev_row = g_new (guchar, (width + 2) * bytes);
cur_row = g_new (guchar, (width + 2) * bytes);
next_row = g_new (guchar, (width + 2) * bytes);
dest = g_new (guchar, width * bytes);
/*
* initialize the pixel regions
*/
gimp_pixel_rgn_init (&srcPR, drawable, x, y, width, height, FALSE, FALSE);
gimp_pixel_rgn_init (&destPR, drawable, x, y, width, height, TRUE, TRUE);
gimp_pixel_rgn_init (&destPR2, drawable, x, y, width, height, TRUE, TRUE);
sp = &srcPR;
dp = &destPR;
tp = NULL;
pr = prev_row + bytes;
cr = cur_row + bytes;
nr = next_row + bytes;
for (cnt = 1; cnt <= pivals.rndm_rcount; cnt++)
{
/*
* prepare the first row and previous row
*/
randomize_prepare_row (sp, pr, x, y - 1, width);
randomize_prepare_row (sp, cr, x, y, width);
/*
* loop through the rows, applying the selected convolution
*/
for (row = y; row < y + height; row++)
{
/* prepare the next row */
randomize_prepare_row (sp, nr, x, row + 1, width);
d = dest;
for (col = 0; col < width; col++)
{
if (g_rand_int_range (gr, 0, 100) <= (gint) pivals.rndm_pct)
{
switch (rndm_type)
{
/*
* HURL
* Just assign a random value.
*/
case RNDM_HURL:
for (j = 0; j < bytes; j++)
*d++ = g_rand_int_range (gr, 0, 256);
break;
/*
* PICK
* pick at random from a neighboring pixel.
*/
case RNDM_PICK:
k = g_rand_int_range (gr, 0, 9);
for (j = 0; j < bytes; j++)
{
i = col * bytes + j;
switch (k)
{
case 0:
*d++ = (gint) pr[i - bytes];
break;
case 1:
*d++ = (gint) pr[i];
break;
case 2:
*d++ = (gint) pr[i + bytes];
break;
case 3:
*d++ = (gint) cr[i - bytes];
break;
case 4:
*d++ = (gint) cr[i];
break;
case 5:
*d++ = (gint) cr[i + bytes];
break;
case 6:
*d++ = (gint) nr[i - bytes];
break;
case 7:
*d++ = (gint) nr[i];
break;
case 8:
*d++ = (gint) nr[i + bytes];
break;
}
}
break;
/*
* SLUR
* 80% chance it's from directly above,
* 10% from above left,
* 10% from above right.
*/
case RNDM_SLUR:
k = g_rand_int_range (gr, 0, 10);
for (j = 0; j < bytes; j++)
{
i = col*bytes + j;
switch (k )
{
case 0:
*d++ = (gint) pr[i - bytes];
break;
case 9:
*d++ = (gint) pr[i + bytes];
break;
default:
*d++ = (gint) pr[i];
break;
}
}
break;
}
/*
* Otherwise, this pixel was not selected for randomization,
* so use the current value.
*/
}
else
{
for (j = 0; j < bytes; j++)
*d++ = (gint) cr[col*bytes + j];
}
}
/*
* Save the modified row, shuffle the row pointers, and every
* so often, update the progress meter.
*/
gimp_pixel_rgn_set_row (dp, dest, x, row, width);
tmp = pr;
pr = cr;
cr = nr;
nr = tmp;
if (! preview && PROG_UPDATE_TIME)
{
gdouble base = (gdouble) cnt / pivals.rndm_rcount;
gdouble inc = (gdouble) row / (height * pivals.rndm_rcount);
gimp_progress_update (base + inc);
}
}
/*
* if we have more cycles to perform, swap the src and dest Pixel Regions
*/
if (cnt < pivals.rndm_rcount)
{
if (tp != NULL)
{
tp = dp;
dp = sp;
sp = tp;
}
else
{
tp = &srcPR;
sp = &destPR;
dp = &destPR2;
}
}
}
if (! preview)
gimp_progress_update (1.0);
/*
* update the randomized region
*/
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
dp);
}
else
{
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->drawable_id, TRUE);
gimp_drawable_update (drawable->drawable_id, x, y, width, height);
}
/*
* clean up after ourselves.
*/
g_free (prev_row);
g_free (cur_row);
g_free (next_row);
g_free (dest);
}
/*
* Photocopy algorithm
* -----------------
* Mask radius = radius of pixel neighborhood for intensity comparison
* Threshold = relative intensity difference which will result in darkening
* Ramp = amount of relative intensity difference before total black
* Blur radius = mask radius / 3.0
*
* Algorithm:
* For each pixel, calculate pixel intensity value to be: avg (blur radius)
* relative diff = pixel intensity / avg (mask radius)
* If relative diff < Threshold
* intensity mult = (Ramp - MIN (Ramp, (Threshold - relative diff))) / Ramp
* pixel intensity *= intensity mult
* Else
* pixel intensity = white
*/
static void
photocopy (GimpDrawable *drawable,
GimpPreview *preview)
{
GimpPixelRgn src_rgn, dest_rgn;
GimpPixelRgn *pr;
gint width, height;
gint bytes;
gboolean has_alpha;
guchar *dest1;
guchar *dest2;
guchar *src1, *sp_p1, *sp_m1;
guchar *src2, *sp_p2, *sp_m2;
gdouble n_p1[5], n_m1[5];
gdouble n_p2[5], n_m2[5];
gdouble d_p1[5], d_m1[5];
gdouble d_p2[5], d_m2[5];
gdouble bd_p1[5], bd_m1[5];
gdouble bd_p2[5], bd_m2[5];
gdouble *val_p1, *val_m1, *vp1, *vm1;
gdouble *val_p2, *val_m2, *vp2, *vm2;
gint x1, y1;
gint i, j;
gint row, col;
gint terms;
gint progress, max_progress;
gint initial_p1[4];
gint initial_p2[4];
gint initial_m1[4];
gint initial_m2[4];
gdouble radius;
gdouble val;
gdouble std_dev1;
gdouble std_dev2;
gdouble ramp_down;
gdouble ramp_up;
if (preview)
{
gimp_preview_get_position (preview, &x1, &y1);
gimp_preview_get_size (preview, &width, &height);
}
else
{
gint x2, y2;
gimp_drawable_mask_bounds (drawable->drawable_id, &x1, &y1, &x2, &y2);
width = x2 - x1;
height = y2 - y1;
}
bytes = drawable->bpp;
has_alpha = gimp_drawable_has_alpha (drawable->drawable_id);
val_p1 = g_new (gdouble, MAX (width, height));
val_p2 = g_new (gdouble, MAX (width, height));
val_m1 = g_new (gdouble, MAX (width, height));
val_m2 = g_new (gdouble, MAX (width, height));
dest1 = g_new0 (guchar, width * height);
dest2 = g_new0 (guchar, width * height);
progress = 0;
max_progress = width * height * 3;
gimp_pixel_rgn_init (&src_rgn, drawable,
x1, y1, width, height, FALSE, FALSE);
for (pr = gimp_pixel_rgns_register (1, &src_rgn);
pr != NULL;
pr = gimp_pixel_rgns_process (pr))
{
guchar *src_ptr = src_rgn.data;
guchar *dest_ptr = dest1 + (src_rgn.y - y1) * width + (src_rgn.x - x1);
for (row = 0; row < src_rgn.h; row++)
{
for (col = 0; col < src_rgn.w; col++)
{
/* desaturate */
if (bytes > 2)
dest_ptr[col] = (guchar) gimp_rgb_to_l_int (src_ptr[col * bytes + 0],
src_ptr[col * bytes + 1],
src_ptr[col * bytes + 2]);
else
dest_ptr[col] = (guchar) src_ptr[col * bytes];
/* compute transfer */
val = pow (dest_ptr[col], (1.0 / GAMMA));
dest_ptr[col] = (guchar) CLAMP (val, 0, 255);
}
src_ptr += src_rgn.rowstride;
dest_ptr += width;
}
if (!preview)
{
progress += src_rgn.w * src_rgn.h;
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
}
/* Calculate the standard deviations */
radius = MAX (1.0, 10 * (1.0 - pvals.sharpness));
radius = fabs (radius) + 1.0;
std_dev1 = sqrt (-(radius * radius) / (2 * log (1.0 / 255.0)));
radius = fabs (pvals.mask_radius) + 1.0;
std_dev2 = sqrt (-(radius * radius) / (2 * log (1.0 / 255.0)));
/* derive the constants for calculating the gaussian from the std dev */
find_constants (n_p1, n_m1, d_p1, d_m1, bd_p1, bd_m1, std_dev1);
find_constants (n_p2, n_m2, d_p2, d_m2, bd_p2, bd_m2, std_dev2);
/* First the vertical pass */
for (col = 0; col < width; col++)
{
memset (val_p1, 0, height * sizeof (gdouble));
memset (val_p2, 0, height * sizeof (gdouble));
memset (val_m1, 0, height * sizeof (gdouble));
memset (val_m2, 0, height * sizeof (gdouble));
src1 = dest1 + col;
sp_p1 = src1;
sp_m1 = src1 + (height - 1) * width;
vp1 = val_p1;
vp2 = val_p2;
vm1 = val_m1 + (height - 1);
vm2 = val_m2 + (height - 1);
/* Set up the first vals */
initial_p1[0] = sp_p1[0];
initial_m1[0] = sp_m1[0];
for (row = 0; row < height; row++)
{
gdouble *vpptr1, *vmptr1;
gdouble *vpptr2, *vmptr2;
terms = (row < 4) ? row : 4;
vpptr1 = vp1; vmptr1 = vm1;
vpptr2 = vp2; vmptr2 = vm2;
for (i = 0; i <= terms; i++)
{
*vpptr1 += n_p1[i] * sp_p1[-i * width] - d_p1[i] * vp1[-i];
*vmptr1 += n_m1[i] * sp_m1[i * width] - d_m1[i] * vm1[i];
*vpptr2 += n_p2[i] * sp_p1[-i * width] - d_p2[i] * vp2[-i];
*vmptr2 += n_m2[i] * sp_m1[i * width] - d_m2[i] * vm2[i];
}
for (j = i; j <= 4; j++)
{
*vpptr1 += (n_p1[j] - bd_p1[j]) * initial_p1[0];
*vmptr1 += (n_m1[j] - bd_m1[j]) * initial_m1[0];
*vpptr2 += (n_p2[j] - bd_p2[j]) * initial_p1[0];
*vmptr2 += (n_m2[j] - bd_m2[j]) * initial_m1[0];
}
sp_p1 += width;
sp_m1 -= width;
vp1 += 1;
vp2 += 1;
vm1 -= 1;
vm2 -= 1;
}
transfer_pixels (val_p1, val_m1, dest1 + col, width, height);
transfer_pixels (val_p2, val_m2, dest2 + col, width, height);
if (!preview)
{
progress += height;
if ((col % 5) == 0)
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
}
for (row = 0; row < height; row++)
{
memset (val_p1, 0, width * sizeof (gdouble));
memset (val_p2, 0, width * sizeof (gdouble));
memset (val_m1, 0, width * sizeof (gdouble));
memset (val_m2, 0, width * sizeof (gdouble));
src1 = dest1 + row * width;
src2 = dest2 + row * width;
sp_p1 = src1;
sp_p2 = src2;
sp_m1 = src1 + width - 1;
sp_m2 = src2 + width - 1;
vp1 = val_p1;
vp2 = val_p2;
vm1 = val_m1 + width - 1;
vm2 = val_m2 + width - 1;
/* Set up the first vals */
initial_p1[0] = sp_p1[0];
initial_p2[0] = sp_p2[0];
initial_m1[0] = sp_m1[0];
initial_m2[0] = sp_m2[0];
for (col = 0; col < width; col++)
{
gdouble *vpptr1, *vmptr1;
gdouble *vpptr2, *vmptr2;
terms = (col < 4) ? col : 4;
vpptr1 = vp1; vmptr1 = vm1;
vpptr2 = vp2; vmptr2 = vm2;
for (i = 0; i <= terms; i++)
{
*vpptr1 += n_p1[i] * sp_p1[-i] - d_p1[i] * vp1[-i];
*vmptr1 += n_m1[i] * sp_m1[i] - d_m1[i] * vm1[i];
*vpptr2 += n_p2[i] * sp_p2[-i] - d_p2[i] * vp2[-i];
*vmptr2 += n_m2[i] * sp_m2[i] - d_m2[i] * vm2[i];
}
for (j = i; j <= 4; j++)
{
*vpptr1 += (n_p1[j] - bd_p1[j]) * initial_p1[0];
*vmptr1 += (n_m1[j] - bd_m1[j]) * initial_m1[0];
*vpptr2 += (n_p2[j] - bd_p2[j]) * initial_p2[0];
*vmptr2 += (n_m2[j] - bd_m2[j]) * initial_m2[0];
}
sp_p1 ++;
sp_p2 ++;
sp_m1 --;
sp_m2 --;
vp1 ++;
vp2 ++;
vm1 --;
vm2 --;
}
transfer_pixels (val_p1, val_m1, dest1 + row * width, 1, width);
transfer_pixels (val_p2, val_m2, dest2 + row * width, 1, width);
if (!preview)
{
progress += width;
if ((row % 5) == 0)
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
}
/* Compute the ramp value which sets 'pct_black' % of the darkened pixels black */
ramp_down = compute_ramp (dest1, dest2, width * height, pvals.pct_black, 1);
ramp_up = compute_ramp (dest1, dest2, width * height, 1.0 - pvals.pct_white, 0);
/* Initialize the pixel regions. */
gimp_pixel_rgn_init (&src_rgn, drawable, x1, y1, width, height, FALSE, FALSE);
gimp_pixel_rgn_init (&dest_rgn, drawable, x1, y1, width, height,
(preview == NULL), TRUE);
pr = gimp_pixel_rgns_register (2, &src_rgn, &dest_rgn);
while (pr)
{
guchar *src_ptr = src_rgn.data;
guchar *dest_ptr = dest_rgn.data;
guchar *blur_ptr = dest1 + (src_rgn.y - y1) * width + (src_rgn.x - x1);
guchar *avg_ptr = dest2 + (src_rgn.y - y1) * width + (src_rgn.x - x1);
gdouble diff, mult;
gdouble lightness = 0.0;
for (row = 0; row < src_rgn.h; row++)
{
for (col = 0; col < src_rgn.w; col++)
{
if (avg_ptr[col] > EPSILON)
{
diff = (gdouble) blur_ptr[col] / (gdouble) avg_ptr[col];
if (diff < pvals.threshold)
{
if (ramp_down == 0.0)
mult = 0.0;
else
mult = (ramp_down - MIN (ramp_down,
(pvals.threshold - diff))) / ramp_down;
lightness = CLAMP (blur_ptr[col] * mult, 0, 255);
}
else
{
if (ramp_up == 0.0)
mult = 1.0;
else
mult = MIN (ramp_up,
(diff - pvals.threshold)) / ramp_up;
lightness = 255 - (1.0 - mult) * (255 - blur_ptr[col]);
lightness = CLAMP (lightness, 0, 255);
}
}
else
{
lightness = 0;
}
if (bytes < 3)
{
dest_ptr[col * bytes] = (guchar) lightness;
if (has_alpha)
dest_ptr[col * bytes + 1] = src_ptr[col * src_rgn.bpp + 1];
}
else
{
dest_ptr[col * bytes + 0] = lightness;
dest_ptr[col * bytes + 1] = lightness;
dest_ptr[col * bytes + 2] = lightness;
if (has_alpha)
dest_ptr[col * bytes + 3] = src_ptr[col * src_rgn.bpp + 3];
}
}
src_ptr += src_rgn.rowstride;
dest_ptr += dest_rgn.rowstride;
blur_ptr += width;
avg_ptr += width;
}
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&dest_rgn);
}
else
{
progress += src_rgn.w * src_rgn.h;
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
pr = gimp_pixel_rgns_process (pr);
}
if (! preview)
{
/* merge the shadow, update the drawable */
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->drawable_id, TRUE);
gimp_drawable_update (drawable->drawable_id, x1, y1, width, height);
}
/* free up buffers */
g_free (val_p1);
g_free (val_p2);
g_free (val_m1);
g_free (val_m2);
g_free (dest1);
g_free (dest2);
}
/* do the exchanging */
static void
exchange (GimpDrawable *drawable,
GimpPreview *preview)
{
GimpPixelRgn srcPR, destPR;
guchar min_red, min_green, min_blue;
guchar max_red, max_green, max_blue;
guchar from_red, from_green, from_blue;
guchar to_red, to_green, to_blue;
guchar *src_row, *dest_row;
gint x, y, bpp = drawable->bpp;
gboolean has_alpha;
gint x1, y1, y2;
gint width, height;
GimpRGB min;
GimpRGB max;
if (preview)
{
gimp_preview_get_position (preview, &x1, &y1);
gimp_preview_get_size (preview, &width, &height);
}
else if (! gimp_drawable_mask_intersect (drawable->drawable_id,
&x1, &y1, &width, &height))
{
return;
}
y2 = y1 + height;
has_alpha = gimp_drawable_has_alpha (drawable->drawable_id);
/* allocate memory */
src_row = g_new (guchar, drawable->width * bpp);
gimp_rgb_get_uchar (&xargs.from, &from_red, &from_green, &from_blue);
gimp_rgb_get_uchar (&xargs.to, &to_red, &to_green, &to_blue);
/* get boundary values */
min = xargs.from;
gimp_rgb_subtract (&min, &xargs.threshold);
gimp_rgb_clamp (&min);
gimp_rgb_get_uchar (&min, &min_red, &min_green, &min_blue);
max = xargs.from;
gimp_rgb_add (&max, &xargs.threshold);
gimp_rgb_clamp (&max);
gimp_rgb_get_uchar (&max, &max_red, &max_green, &max_blue);
dest_row = g_new (guchar, drawable->width * bpp);
gimp_pixel_rgn_init (&srcPR, drawable,
x1, y1, width, height, FALSE, FALSE);
gimp_pixel_rgn_init (&destPR, drawable,
x1, y1, width, height, (preview == NULL), TRUE);
for (y = y1; y < y2; y++)
{
gimp_pixel_rgn_get_row (&srcPR, src_row, x1, y, width);
for (x = 0; x < width; x++)
{
guchar pixel_red, pixel_green, pixel_blue;
guchar new_red, new_green, new_blue;
guint idx;
/* get current pixel-values */
pixel_red = src_row[x * bpp];
pixel_green = src_row[x * bpp + 1];
pixel_blue = src_row[x * bpp + 2];
idx = x * bpp;
/* want this pixel? */
if (pixel_red >= min_red &&
pixel_red <= max_red &&
pixel_green >= min_green &&
pixel_green <= max_green &&
pixel_blue >= min_blue &&
pixel_blue <= max_blue)
{
guchar red_delta, green_delta, blue_delta;
red_delta = pixel_red > from_red ?
pixel_red - from_red : from_red - pixel_red;
green_delta = pixel_green > from_green ?
pixel_green - from_green : from_green - pixel_green;
blue_delta = pixel_blue > from_blue ?
pixel_blue - from_blue : from_blue - pixel_blue;
new_red = CLAMP (to_red + red_delta, 0, 255);
new_green = CLAMP (to_green + green_delta, 0, 255);
new_blue = CLAMP (to_blue + blue_delta, 0, 255);
}
else
{
new_red = pixel_red;
new_green = pixel_green;
new_blue = pixel_blue;
}
/* fill buffer */
dest_row[idx + 0] = new_red;
dest_row[idx + 1] = new_green;
dest_row[idx + 2] = new_blue;
/* copy alpha-channel */
if (has_alpha)
dest_row[idx + 3] = src_row[x * bpp + 3];
}
/* store the dest */
gimp_pixel_rgn_set_row (&destPR, dest_row, x1, y, width);
/* and tell the user what we're doing */
if (!preview && (y % 10) == 0)
gimp_progress_update ((gdouble) y / (gdouble) height);
}
g_free (src_row);
g_free (dest_row);
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&destPR);
}
else
{
gimp_progress_update (1.0);
/* update the processed region */
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->drawable_id, TRUE);
gimp_drawable_update (drawable->drawable_id, x1, y1, width, height);
}
}
static void
shift (GimpDrawable *drawable,
GimpPreview *preview)
{
GimpPixelRgn dest_rgn;
gpointer pr;
GimpPixelFetcher *pft;
gint width, height;
gint bytes;
guchar *destline;
guchar *dest;
gint x1, y1, x2, y2;
gint x, y;
gint progress, max_progress;
gint i, n = 0;
gint *offsets;
GRand *gr;
if (preview)
{
gimp_preview_get_position (preview, &x1, &y1);
gimp_preview_get_size (preview, &width, &height);
}
else
{
gimp_drawable_mask_bounds (drawable->drawable_id, &x1, &y1, &x2, &y2);
width = x2 - x1;
height = y2 - y1;
}
bytes = drawable->bpp;
progress = 0;
max_progress = width * height;
/* Shift the image. It's a pretty simple algorithm. If horizontal
is selected, then every row is shifted a random number of pixels
in the range of -shift_amount/2 to shift_amount/2. The effect is
just reproduced with columns if vertical is selected.
*/
n = (shvals.orientation == HORIZONTAL) ? height : width;
offsets = g_new (gint, n);
gr = g_rand_new ();
for (i = 0; i < n; i++)
offsets[i] = g_rand_int_range (gr,
- (shvals.shift_amount + 1) / 2.0,
+ (shvals.shift_amount + 1) / 2.0);
g_rand_free (gr);
pft = gimp_pixel_fetcher_new (drawable, FALSE);
gimp_pixel_fetcher_set_edge_mode (pft, GIMP_PIXEL_FETCHER_EDGE_WRAP);
gimp_pixel_rgn_init (&dest_rgn, drawable,
x1, y1, width, height, (preview == NULL), TRUE);
for (pr = gimp_pixel_rgns_register (1, &dest_rgn);
pr != NULL;
pr = gimp_pixel_rgns_process (pr))
{
destline = dest_rgn.data;
switch (shvals.orientation)
{
case HORIZONTAL:
for (y = dest_rgn.y; y < dest_rgn.y + dest_rgn.h; y++)
{
dest = destline;
for (x = dest_rgn.x; x < dest_rgn.x + dest_rgn.w; x++)
{
gimp_pixel_fetcher_get_pixel (pft,
x + offsets[y - y1], y, dest);
dest += bytes;
}
destline += dest_rgn.rowstride;
}
break;
case VERTICAL:
for (x = dest_rgn.x; x < dest_rgn.x + dest_rgn.w; x++)
{
dest = destline;
for (y = dest_rgn.y; y < dest_rgn.y + dest_rgn.h; y++)
{
gimp_pixel_fetcher_get_pixel (pft,
x, y + offsets[x - x1], dest);
dest += dest_rgn.rowstride;
}
destline += bytes;
}
break;
}
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&dest_rgn);
}
else
{
progress += dest_rgn.w * dest_rgn.h;
gimp_progress_update ((double) progress / (double) max_progress);
}
}
gimp_pixel_fetcher_destroy (pft);
g_free (offsets);
if (! preview)
{
gimp_progress_update (1.0);
/* update the region */
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->drawable_id, TRUE);
gimp_drawable_update (drawable->drawable_id, x1, y1, width, height);
}
}
static void
softglow (GimpDrawable *drawable,
GimpPreview *preview)
{
GimpPixelRgn src_rgn, dest_rgn;
GimpPixelRgn *pr;
gint width, height;
gint bytes;
gboolean has_alpha;
guchar *dest;
guchar *src, *sp_p, *sp_m;
gdouble n_p[5], n_m[5];
gdouble d_p[5], d_m[5];
gdouble bd_p[5], bd_m[5];
gdouble *val_p, *val_m, *vp, *vm;
gint x1, y1, x2, y2;
gint i, j;
gint row, col, b;
gint terms;
gint progress, max_progress;
gint initial_p[4];
gint initial_m[4];
gint tmp;
gdouble radius;
gdouble std_dev;
gdouble val;
if (preview)
{
gimp_preview_get_position (preview, &x1, &y1);
gimp_preview_get_size (preview, &width, &height);
x2 = x1 + width;
y2 = y1 + height;
}
else
{
gimp_drawable_mask_bounds (drawable->drawable_id, &x1, &y1, &x2, &y2);
width = (x2 - x1);
height = (y2 - y1);
}
bytes = drawable->bpp;
has_alpha = gimp_drawable_has_alpha (drawable->drawable_id);
val_p = g_new (gdouble, MAX (width, height));
val_m = g_new (gdouble, MAX (width, height));
dest = g_new0 (guchar, width * height);
progress = 0;
max_progress = width * height * 3;
/* Initialize the pixel regions. */
gimp_pixel_rgn_init (&src_rgn, drawable, x1, y1, width, height, FALSE, FALSE);
for (pr = gimp_pixel_rgns_register (1, &src_rgn);
pr != NULL;
pr = gimp_pixel_rgns_process (pr))
{
guchar *src_ptr = src_rgn.data;
guchar *dest_ptr = dest + (src_rgn.y - y1) * width + (src_rgn.x - x1);
for (row = 0; row < src_rgn.h; row++)
{
for (col = 0; col < src_rgn.w; col++)
{
/* desaturate */
if (bytes > 2)
dest_ptr[col] = (guchar) gimp_rgb_to_l_int (src_ptr[col * bytes + 0],
src_ptr[col * bytes + 1],
src_ptr[col * bytes + 2]);
else
dest_ptr[col] = (guchar) src_ptr[col * bytes];
/* compute sigmoidal transfer */
val = dest_ptr[col] / 255.0;
val = 255.0 / (1 + exp (-(SIGMOIDAL_BASE + (svals.sharpness * SIGMOIDAL_RANGE)) * (val - 0.5)));
val = val * svals.brightness;
dest_ptr[col] = (guchar) CLAMP (val, 0, 255);
}
src_ptr += src_rgn.rowstride;
dest_ptr += width;
}
if (!preview)
{
progress += src_rgn.w * src_rgn.h;
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
}
/* Calculate the standard deviations */
radius = fabs (svals.glow_radius) + 1.0;
std_dev = sqrt (-(radius * radius) / (2 * log (1.0 / 255.0)));
/* derive the constants for calculating the gaussian from the std dev */
find_constants (n_p, n_m, d_p, d_m, bd_p, bd_m, std_dev);
/* First the vertical pass */
for (col = 0; col < width; col++)
{
memset (val_p, 0, height * sizeof (gdouble));
memset (val_m, 0, height * sizeof (gdouble));
src = dest + col;
sp_p = src;
sp_m = src + width * (height - 1);
vp = val_p;
vm = val_m + (height - 1);
/* Set up the first vals */
initial_p[0] = sp_p[0];
initial_m[0] = sp_m[0];
for (row = 0; row < height; row++)
{
gdouble *vpptr, *vmptr;
terms = (row < 4) ? row : 4;
vpptr = vp; vmptr = vm;
for (i = 0; i <= terms; i++)
{
*vpptr += n_p[i] * sp_p[-i * width] - d_p[i] * vp[-i];
*vmptr += n_m[i] * sp_m[i * width] - d_m[i] * vm[i];
}
for (j = i; j <= 4; j++)
{
*vpptr += (n_p[j] - bd_p[j]) * initial_p[0];
*vmptr += (n_m[j] - bd_m[j]) * initial_m[0];
}
sp_p += width;
sp_m -= width;
vp ++;
vm --;
}
transfer_pixels (val_p, val_m, dest + col, width, height);
if (!preview)
{
progress += height;
if ((col % 5) == 0)
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
}
for (row = 0; row < height; row++)
{
memset (val_p, 0, width * sizeof (gdouble));
memset (val_m, 0, width * sizeof (gdouble));
src = dest + row * width;
sp_p = src;
sp_m = src + width - 1;
vp = val_p;
vm = val_m + width - 1;
/* Set up the first vals */
initial_p[0] = sp_p[0];
initial_m[0] = sp_m[0];
for (col = 0; col < width; col++)
{
gdouble *vpptr, *vmptr;
terms = (col < 4) ? col : 4;
vpptr = vp; vmptr = vm;
for (i = 0; i <= terms; i++)
{
*vpptr += n_p[i] * sp_p[-i] - d_p[i] * vp[-i];
*vmptr += n_m[i] * sp_m[i] - d_m[i] * vm[i];
}
for (j = i; j <= 4; j++)
{
*vpptr += (n_p[j] - bd_p[j]) * initial_p[0];
*vmptr += (n_m[j] - bd_m[j]) * initial_m[0];
}
sp_p ++;
sp_m --;
vp ++;
vm --;
}
transfer_pixels (val_p, val_m, dest + row * width, 1, width);
if (!preview)
{
progress += width;
if ((row % 5) == 0)
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
}
/* Initialize the pixel regions. */
gimp_pixel_rgn_init (&src_rgn, drawable, x1, y1, width, height, FALSE, FALSE);
gimp_pixel_rgn_init (&dest_rgn, drawable,
x1, y1, width, height, (preview == NULL), TRUE);
for (pr = gimp_pixel_rgns_register (2, &src_rgn, &dest_rgn);
pr != NULL;
pr = gimp_pixel_rgns_process (pr))
{
guchar *src_ptr = src_rgn.data;
guchar *dest_ptr = dest_rgn.data;
guchar *blur_ptr = dest + (src_rgn.y - y1) * width + (src_rgn.x - x1);
for (row = 0; row < src_rgn.h; row++)
{
for (col = 0; col < src_rgn.w; col++)
{
/* screen op */
for (b = 0; b < (has_alpha ? (bytes - 1) : bytes); b++)
dest_ptr[col * bytes + b] =
255 - INT_MULT((255 - src_ptr[col * bytes + b]),
(255 - blur_ptr[col]), tmp);
if (has_alpha)
dest_ptr[col * bytes + b] = src_ptr[col * bytes + b];
}
src_ptr += src_rgn.rowstride;
dest_ptr += dest_rgn.rowstride;
blur_ptr += width;
}
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&dest_rgn);
}
else
{
progress += src_rgn.w * src_rgn.h;
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
}
if (! preview)
{
/* merge the shadow, update the drawable */
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->drawable_id, TRUE);
gimp_drawable_update (drawable->drawable_id,
x1, y1, (x2 - x1), (y2 - y1));
}
/* free up buffers */
g_free (val_p);
g_free (val_m);
g_free (dest);
}
static void
edge_preview_update (GimpPreview *preview)
{
/* drawable */
GimpDrawable *drawable;
glong bytes;
gint alpha;
gboolean has_alpha;
/* preview */
guchar *src = NULL; /* Buffer to hold source image */
guchar *render_buffer = NULL; /* Buffer to hold rendered image */
guchar *dest;
gint width; /* Width of preview widget */
gint height; /* Height of preview widget */
gint x1; /* Upper-left X of preview */
gint y1; /* Upper-left Y of preview */
GimpPixelRgn srcPR; /* Pixel regions */
/* algorithm */
gint x, y;
/* Get drawable info */
drawable =
gimp_drawable_preview_get_drawable (GIMP_DRAWABLE_PREVIEW (preview));
bytes = gimp_drawable_bpp (drawable->drawable_id);
alpha = bytes;
has_alpha = gimp_drawable_has_alpha (drawable->drawable_id);
if (has_alpha)
alpha--;
/*
* Setup for filter...
*/
gimp_preview_get_position (preview, &x1, &y1);
gimp_preview_get_size (preview, &width, &height);
/* initialize pixel regions */
gimp_pixel_rgn_init (&srcPR, drawable,
x1, y1, width, height, FALSE, FALSE);
src = g_new (guchar, width * height * bytes);
render_buffer = g_new (guchar, width * height * bytes);
/* render image */
gimp_pixel_rgn_get_rect(&srcPR, src, x1, y1, width, height);
dest = render_buffer;
/* render algorithm */
for (y = 0 ; y < height ; y++)
for (x = 0 ; x < width ; x++)
{
gint chan;
for (chan = 0; chan < alpha; chan++)
{
guchar kernel[9];
#define SRC(X,Y) src[bytes * (CLAMP((X), 0, width-1) + \
width * CLAMP((Y), 0, height-1)) + chan]
kernel[0] = SRC (x - 1, y - 1);
kernel[1] = SRC (x - 1, y );
kernel[2] = SRC (x - 1, y + 1);
kernel[3] = SRC (x , y - 1);
kernel[4] = SRC (x , y );
kernel[5] = SRC (x , y + 1);
kernel[6] = SRC (x + 1, y - 1);
kernel[7] = SRC (x + 1, y );
kernel[8] = SRC (x + 1, y + 1);
#undef SRC
dest[chan] = edge_detect (kernel);
}
if (has_alpha)
dest[alpha] = src[bytes * (x + width * y) + alpha];
dest += bytes;
}
/*
* Draw the preview image on the screen...
*/
gimp_preview_draw_buffer (preview, render_buffer, width * bytes);
g_free (render_buffer);
g_free (src);
}
static void
preview_update (GimpPreview *preview)
{
GimpDrawable *drawable;
GimpPixelRgn src_rgn; /* Source image region */
guchar *src_ptr; /* Current source pixel */
guchar *dst_ptr; /* Current destination pixel */
intneg *neg_ptr; /* Current negative pixel */
gint i; /* Looping var */
gint y; /* Current location in image */
gint width; /* Byte width of the image */
gint x1, y1;
gint preview_width, preview_height;
guchar *preview_src, *preview_dst;
intneg *preview_neg;
gint img_bpp; /* Bytes-per-pixel in image */
void (*filter)(int, guchar *, guchar *, intneg *, intneg *, intneg *);
filter = NULL;
compute_luts();
gimp_preview_get_position (preview, &x1, &y1);
gimp_preview_get_size (preview, &preview_width, &preview_height);
drawable =
gimp_drawable_preview_get_drawable (GIMP_DRAWABLE_PREVIEW (preview));
img_bpp = gimp_drawable_bpp (drawable->drawable_id);
preview_src = g_new (guchar, preview_width * preview_height * img_bpp);
preview_neg = g_new (intneg, preview_width * preview_height * img_bpp);
preview_dst = g_new (guchar, preview_width * preview_height * img_bpp);
gimp_pixel_rgn_init (&src_rgn, drawable,
x1, y1, preview_width, preview_height,
FALSE, FALSE);
width = preview_width * img_bpp;
/*
* Load the preview area...
*/
gimp_pixel_rgn_get_rect (&src_rgn, preview_src, x1, y1,
preview_width, preview_height);
for (i = width * preview_height, src_ptr = preview_src, neg_ptr = preview_neg;
i > 0;
i --)
*neg_ptr++ = neg_lut[*src_ptr++];
/*
* Select the filter...
*/
switch (img_bpp)
{
case 1:
filter = gray_filter;
break;
case 2:
filter = graya_filter;
break;
case 3:
filter = rgb_filter;
break;
case 4:
filter = rgba_filter;
break;
default:
g_error ("Programmer stupidity error: img_bpp is %d\n",
img_bpp);
}
/*
* Sharpen...
*/
memcpy (preview_dst, preview_src, width);
memcpy (preview_dst + width * (preview_height - 1),
preview_src + width * (preview_height - 1),
width);
for (y = preview_height - 2, src_ptr = preview_src + width,
neg_ptr = preview_neg + width + img_bpp,
dst_ptr = preview_dst + width;
y > 0;
y --, src_ptr += width, neg_ptr += width, dst_ptr += width)
(*filter)(preview_width, src_ptr, dst_ptr, neg_ptr - width,
neg_ptr, neg_ptr + width);
gimp_preview_draw_buffer (preview, preview_dst, preview_width * img_bpp);
g_free (preview_src);
g_free (preview_neg);
g_free (preview_dst);
}
/*
* For all x and y as requested, replace the pixel at (x,y)
* with a weighted average of the most frequently occurring
* values in a circle of mask_size diameter centered at (x,y).
*/
static void
oilify (GimpDrawable *drawable,
GimpPreview *preview)
{
gboolean use_inten;
gboolean use_msmap = FALSE;
gboolean use_emap = FALSE;
GimpDrawable *mask_size_map_drawable = NULL;
GimpDrawable *exponent_map_drawable = NULL;
GimpPixelRgn mask_size_map_rgn;
GimpPixelRgn exponent_map_rgn;
gint msmap_bpp = 0;
gint emap_bpp = 0;
GimpPixelRgn dest_rgn;
GimpPixelRgn *regions[3];
gint n_regions;
gint bpp;
gint *sqr_lut;
gint x1, y1, x2, y2;
gint width, height;
gint Hist[HISTSIZE];
gint Hist_rgb[4][HISTSIZE];
gpointer pr;
gint progress, max_progress;
guchar *src_buf;
guchar *src_inten_buf = NULL;
gint i;
use_inten = (ovals.mode == MODE_INTEN);
/* Get the selection bounds */
if (preview)
{
gimp_preview_get_position (preview, &x1, &y1);
gimp_preview_get_size (preview, &width, &height);
x2 = x1 + width;
y2 = y1 + height;
}
else
{
gimp_drawable_mask_bounds (drawable->drawable_id, &x1, &y1, &x2, &y2);
width = x2 - x1;
height = y2 - y1;
}
progress = 0;
max_progress = width * height;
bpp = drawable->bpp;
/*
* Look-up-table implementation of the square function, for use in the
* VERY TIGHT inner loops
*/
{
gint lut_size = (gint) ovals.mask_size / 2 + 1;
sqr_lut = g_new (gint, lut_size);
for (i = 0; i < lut_size; i++)
sqr_lut[i] = SQR (i);
}
/* Get the map drawables, if applicable */
if (ovals.use_mask_size_map && ovals.mask_size_map >= 0)
{
use_msmap = TRUE;
mask_size_map_drawable = gimp_drawable_get (ovals.mask_size_map);
gimp_pixel_rgn_init (&mask_size_map_rgn, mask_size_map_drawable,
x1, y1, width, height, FALSE, FALSE);
msmap_bpp = mask_size_map_drawable->bpp;
}
if (ovals.use_exponent_map && ovals.exponent_map >= 0)
{
use_emap = TRUE;
exponent_map_drawable = gimp_drawable_get (ovals.exponent_map);
gimp_pixel_rgn_init (&exponent_map_rgn, exponent_map_drawable,
x1, y1, width, height, FALSE, FALSE);
emap_bpp = exponent_map_drawable->bpp;
}
gimp_pixel_rgn_init (&dest_rgn, drawable,
x1, y1, width, height, (preview == NULL), TRUE);
{
GimpPixelRgn src_rgn;
gimp_pixel_rgn_init (&src_rgn, drawable,
x1, y1, width, height, FALSE, FALSE);
src_buf = g_new (guchar, width * height * bpp);
gimp_pixel_rgn_get_rect (&src_rgn, src_buf, x1, y1, width, height);
}
/*
* If we're working in intensity mode, then generate a separate intensity
* map of the source image. This way, we can avoid calculating the
* intensity of any given source pixel more than once.
*/
if (use_inten)
{
guchar *src;
guchar *dest;
src_inten_buf = g_new (guchar, width * height);
for (i = 0,
src = src_buf,
dest = src_inten_buf
;
i < (width * height)
;
i++,
src += bpp,
dest++)
{
*dest = (guchar) GIMP_RGB_LUMINANCE (src[0], src[1], src[2]);
}
}
n_regions = 0;
regions[n_regions++] = &dest_rgn;
if (use_msmap)
regions[n_regions++] = &mask_size_map_rgn;
if (use_emap)
regions[n_regions++] = &exponent_map_rgn;
for (pr = gimp_pixel_rgns_register2 (n_regions, regions);
pr != NULL;
pr = gimp_pixel_rgns_process (pr))
{
gint y;
guchar *dest_row;
guchar *src_msmap_row = NULL;
guchar *src_emap_row = NULL;
for (y = dest_rgn.y,
dest_row = dest_rgn.data,
src_msmap_row = mask_size_map_rgn.data, /* valid iff use_msmap */
src_emap_row = exponent_map_rgn.data /* valid iff use_emap */
;
y < (gint) (dest_rgn.y + dest_rgn.h)
;
y++,
dest_row += dest_rgn.rowstride,
src_msmap_row += mask_size_map_rgn.rowstride, /* valid iff use_msmap */
src_emap_row += exponent_map_rgn.rowstride) /* valid iff use_emap */
{
gint x;
guchar *dest;
guchar *src_msmap = NULL;
guchar *src_emap = NULL;
for (x = dest_rgn.x,
dest = dest_row,
src_msmap = src_msmap_row, /* valid iff use_msmap */
src_emap = src_emap_row /* valid iff use_emap */
;
x < (gint) (dest_rgn.x + dest_rgn.w)
;
x++,
dest += bpp,
src_msmap += msmap_bpp, /* valid iff use_msmap */
src_emap += emap_bpp) /* valid iff use_emap */
{
gint radius, radius_squared;
gfloat exponent;
gint mask_x1, mask_y1;
gint mask_x2, mask_y2;
gint mask_y;
gint src_offset;
guchar *src_row;
guchar *src_inten_row = NULL;
if (use_msmap)
{
gfloat factor = get_map_value (src_msmap, msmap_bpp);
radius = ROUND (factor * (0.5 * ovals.mask_size));
}
else
{
radius = (gint) ovals.mask_size / 2;
}
radius_squared = SQR (radius);
exponent = ovals.exponent;
if (use_emap)
exponent *= get_map_value (src_emap, emap_bpp);
if (use_inten)
memset (Hist, 0, sizeof (Hist));
memset (Hist_rgb, 0, sizeof (Hist_rgb));
mask_x1 = CLAMP ((x - radius), x1, x2);
mask_y1 = CLAMP ((y - radius), y1, y2);
mask_x2 = CLAMP ((x + radius + 1), x1, x2);
mask_y2 = CLAMP ((y + radius + 1), y1, y2);
src_offset = (mask_y1 - y1) * width + (mask_x1 - x1);
for (mask_y = mask_y1,
src_row = src_buf + src_offset * bpp,
src_inten_row = src_inten_buf + src_offset /* valid iff use_inten */
;
mask_y < mask_y2
;
mask_y++,
src_row += width * bpp,
src_inten_row += width) /* valid iff use_inten */
{
guchar *src;
guchar *src_inten = NULL;
gint dy_squared = sqr_lut[ABS (mask_y - y)];
gint mask_x;
for (mask_x = mask_x1,
src = src_row,
src_inten = src_inten_row /* valid iff use_inten */
;
mask_x < mask_x2
;
mask_x++,
src += bpp,
src_inten++) /* valid iff use_inten */
{
gint dx_squared = sqr_lut[ABS (mask_x - x)];
gint b;
/* Stay inside a circular mask area */
if ((dx_squared + dy_squared) > radius_squared)
continue;
if (use_inten)
{
gint inten = *src_inten;
++Hist[inten];
for (b = 0; b < bpp; b++)
Hist_rgb[b][inten] += src[b];
}
else
{
for (b = 0; b < bpp; b++)
++Hist_rgb[b][src[b]];
}
} /* for mask_x */
} /* for mask_y */
if (use_inten)
{
weighted_average_color (Hist, Hist_rgb, exponent, dest, bpp);
}
else
{
gint b;
for (b = 0; b < bpp; b++)
dest[b] = weighted_average_value (Hist_rgb[b], exponent);
}
} /* for x */
} /* for y */
if (preview)
{
gimp_drawable_preview_draw_region (GIMP_DRAWABLE_PREVIEW (preview),
&dest_rgn);
}
else
{
progress += dest_rgn.w * dest_rgn.h;
gimp_progress_update ((gdouble) progress / (gdouble) max_progress);
}
} /* for pr */
/* Detach from the map drawables */
if (mask_size_map_drawable)
gimp_drawable_detach (mask_size_map_drawable);
if (exponent_map_drawable)
gimp_drawable_detach (exponent_map_drawable);
if (src_inten_buf)
g_free (src_inten_buf);
g_free (src_buf);
g_free (sqr_lut);
if (!preview)
{
/* Update the oil-painted region */
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->drawable_id, TRUE);
gimp_drawable_update (drawable->drawable_id, x1, y1, width, height);
}
}
