gimp/plug-ins/common/sample_colorize.c

3169 lines
92 KiB
C

/* sample_colorize.c
* A GIMP Plug-In by Wolfgang Hofer
*/
/* The GIMP -- an image manipulation program
* Copyright (C) 1995 Spencer Kimball and Peter Mattis
*
* 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.
*
* 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.
*
* 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., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* Revision history
* (1999/07/12) v1.0.2 hof: bugfix: progress is now updated properly
* make use NLS Macros if available
* (1999/03/08) v1.0.1 hof: dont show indexed layers in option menues
* dst-Preview refresh needed at text entry callback
* (1999/03/04) v1.0 hof: first public release
* (1999/02/01) hof: started development
*/
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <math.h>
/* GIMP includes */
#include <gtk/gtk.h>
#include <libgimp/gimp.h>
#include <libgimp/gimpui.h>
/* internationalisation (nls-macros) is available since gimp 1.1.x */
#if (( GIMP_MAJOR_VERSION > 0 ) && ( GIMP_MINOR_VERSION > 0))
#include <libgimp/gimpintl.h>
#endif
#ifndef __GIMPINTL_H__
/* for older gimp releases use dummys nls-macros */
#define N_(x) x
#define _(x) x
#endif
/* Some useful macros */
#define PLUG_IN_NAME "plug_in_sample_colorize"
#define NUMBER_IN_ARGS 13
#define TILE_CACHE_SIZE 32
#define LUMINOSITY_0(X) ((X[0] * 30 + X[1] * 59 + X[2] * 11))
#define LUMINOSITY_1(X) ((X[0] * 30 + X[1] * 59 + X[2] * 11) / 100)
#define MIX_CHANNEL(a, b, m) (((a * m) + (b * (255 - m))) / 255)
#define SMP_GRADIENT -444
#define SMP_INV_GRADIENT -445
#define PREVIEW_BPP 3
#define PREVIEW_SIZE_X 256
#define PREVIEW_SIZE_Y 256
#define TEXT_WIDTH 45
#define DA_WIDTH 256
#define DA_HEIGHT 25
#define GRADIENT_HEIGHT 15
#define CONTROL_HEIGHT DA_HEIGHT - GRADIENT_HEIGHT
#define LEVELS_DA_MASK GDK_EXPOSURE_MASK | \
GDK_ENTER_NOTIFY_MASK | \
GDK_BUTTON_PRESS_MASK | \
GDK_BUTTON_RELEASE_MASK | \
GDK_BUTTON1_MOTION_MASK | \
GDK_POINTER_MOTION_HINT_MASK
#define LOW_INPUT 0x1
#define GAMMA 0x2
#define HIGH_INPUT 0x4
#define LOW_OUTPUT 0x8
#define HIGH_OUTPUT 0x10
#define INPUT_LEVELS 0x20
#define OUTPUT_LEVELS 0x40
#define INPUT_SLIDERS 0x80
#define OUTPUT_SLIDERS 0x100
#define DRAW 0x200
#define REFRESH_DST 0x400
#define ALL 0xFFF
#define MC_GET_SAMPLE_COLORS 1
#define MC_DST_REMAP 2
#define MC_ALL (MC_GET_SAMPLE_COLORS | MC_DST_REMAP)
typedef struct {
gint32 dst_id;
gint32 sample_id;
gint32 hold_inten; /* TRUE or FALSE */
gint32 orig_inten; /* TRUE or FALSE */
gint32 rnd_subcolors; /* TRUE or FALSE */
gint32 guess_missing; /* TRUE or FALSE */
gint32 lvl_in_min; /* 0 upto 254 */
gint32 lvl_in_max; /* 1 upto 255 */
float lvl_in_gamma; /* 0.1 upto 10.0 (1.0 == linear) */
gint32 lvl_out_min; /* 0 upto 254 */
gint32 lvl_out_max; /* 1 upto 255 */
float tol_col_err; /* 0.0% upto 100.0%
* this is uesd to findout colors of the same
* colortone, while analyzing sample colors,
* It does not make much sense for the user to adjust this
* value. (I used a param file to findout a suitable value)
*/
} t_values;
typedef struct {
GtkWidget *dialog;
GtkWidget *sample_preview;
GtkWidget *dst_preview;
GtkWidget *sample_colortab_preview;
GtkWidget *sample_drawarea;
GtkWidget *in_lvl_gray_preview;
GtkWidget *in_lvl_drawarea;
GtkWidget *text_lvl_in_min;
GtkWidget *text_lvl_in_max;
GtkWidget *text_lvl_in_gamma;
GtkWidget *text_lvl_out_min;
GtkWidget *text_lvl_out_max;
GtkWidget *apply_button;
GtkWidget *get_smp_colors_button;
GtkWidget *orig_inten_button;
int active_slider;
int slider_pos[5]; /* positions for the five sliders */
gint32 enable_preview_update;
gint32 sample_show_selection;
gint32 dst_show_selection;
gint32 sample_show_color;
gint32 dst_show_color;
} t_samp_interface;
typedef struct {
guchar color[4]; /* R,G,B,A */
gint32 sum_color; /* nr. of sourcepixels with (nearly the same) color */
void *next;
} t_samp_color_elem;
typedef struct {
gint32 all_samples; /* number of all source pixels with this luminosity */
gint from_sample; /* TRUE: color found in sample, FALSE: interpolated color added */
t_samp_color_elem *col_ptr; /* List of sample colors at same luminosity */
} t_samp_table_elem;
typedef struct {
GDrawable *drawable;
void *sel_gdrw;
GPixelRgn pr;
gint x1;
gint y1;
gint x2;
gint y2;
gint index_alpha; /* 0 == no alpha, 1 == GREYA, 3 == RGBA */
gint bpp;
GTile *tile;
gint tile_row;
gint tile_col;
gint tile_width;
gint tile_height;
gint tile_dirty;
gint shadow;
gint32 seldeltax;
gint32 seldeltay;
gint32 tile_swapcount;
} t_GDRW;
/*
* Some globals
*/
t_samp_interface g_di; /* global dialog interface varables */
t_values g_values = { -1, -1, 1, 1, 0, 1, 0, 255, 1.0, 0, 255, 5.5 };
t_samp_table_elem g_lum_tab[256];
guchar g_lvl_trans_tab[256];
guchar g_out_trans_tab[256];
guchar g_sample_color_tab[256 * 3];
guchar g_dst_preview_buffer[PREVIEW_SIZE_X * PREVIEW_SIZE_Y * 4 ]; /* color copy with mask of dst in previewsize */
gint32 g_tol_col_err;
gint32 g_max_col_err;
gint g_Sdebug = FALSE;
gint g_show_progress = FALSE;
/* Declare a local function.
*/
static void query (void);
static void run (gchar *name,
gint nparams,
GParam *param,
gint *nreturn_vals,
GParam **return_vals);
static int p_main_colorize(gint);
static void p_get_filevalues (void);
static int p_smp_dialog (void);
static void p_refresh_dst_preview(GtkWidget *preview, guchar *src_buffer);
static void p_update_preview(gint32 *id_ptr);
static void p_clear_tables(void);
static void p_free_colors(void);
static void p_levels_update (int update);
static gint p_level_in_events (GtkWidget *widget, GdkEvent *event, gpointer data);
static gint p_level_out_events (GtkWidget *widget, GdkEvent *event, gpointer data);
static void p_calculate_level_transfers (void);
static void p_get_pixel(t_GDRW *gdrw, gint32 x, gint32 y, guchar *pixel);
static void p_init_gdrw(t_GDRW *gdrw, GDrawable *drawable, int dirty, int shadow);
static void p_end_gdrw(t_GDRW *gdrw);
static gint32 p_is_layer_alive(gint32 drawable_id);
static void p_remap_pixel(guchar *pixel, guchar *original, gint bpp2);
static void p_guess_missing_colors(void);
static void p_fill_missing_colors(void);
static void p_smp_get_colors_callback (GdkWindow *window, gpointer data);
static void p_gradient_callback(GtkWidget *w, gint32 id);
static void p_get_gradient (int mode);
static void p_clear_preview(GtkWidget *preview);
GPlugInInfo PLUG_IN_INFO =
{
NULL, /* init_proc */
NULL, /* quit_proc */
query, /* query_proc */
run, /* run_proc */
};
MAIN ()
static void
query()
{
static GParamDef args[]=
{
{ PARAM_INT32, "run_mode", "Interactive, non-interactive" },
{ PARAM_IMAGE, "image", "Input image (unused)" },
{ PARAM_DRAWABLE, "dst_drawable", "The drawable to be colorized (Type GRAY* or RGB*)" },
{ PARAM_DRAWABLE, "sample_drawable", "Sample drawable (should be of Type RGB or RGBA)" },
{ PARAM_INT32, "hold_inten", "hold brightness intensity levels (TRUE, FALSE)" },
{ PARAM_INT32, "orig_inten", "TRUE: hold brightness of original intensity levels. FALSE: Hold Intensity of input levels" },
{ PARAM_INT32, "rnd_subcolors", "TRUE: Use all subcolors of same intensity, FALSE: use only one color per intensity" },
{ PARAM_INT32, "guess_missing", "TRUE: guess samplecolors for the missing intensity values FALSE: use only colors found in the sample" },
{ PARAM_INT32, "in_low", "intensity of lowest input (0 <= in_low <= 254)" },
{ PARAM_INT32, "in_high", "intensity of highest input (1 <= in_high <= 255)" },
{ PARAM_FLOAT, "gamma", "gamma correction factor (0.1 <= gamma <= 10) where 1.0 is linear" },
{ PARAM_INT32, "out_low", "lowest sample color intensity (0 <= out_low <= 254)" },
{ PARAM_INT32, "out_high", "highest sample color intensity (1 <= out_high <= 255)" },
};
static GParamDef *return_vals = NULL;
static gint nargs = sizeof (args) / sizeof (args[0]);
static gint nreturn_vals = 0;
gchar *help_string =
" This plug-in colorizes the contents of the specified (gray) layer"
" with the help of a sample (color) layer."
" It analyzes all colors in the sample layer."
" The sample colors are sorted by brightness (== intentisty) and amount"
" and stored in a sample colortable (where brightness is the index)"
" The pixels of the destination layer are remapped with the help of the"
" sample colortable. If use_subcolors is TRUE, the remapping process uses"
" all sample colors of the corresponding brightness-intensity and"
" distributes the subcolors according to their amount in the sample"
" (If the sample has 5 green, 3 yellow, and 1 red pixel of the "
" intensity value 105, the destination pixels at intensity value 105"
" are randomly painted in green, yellow and red in a relation of 5:3:1"
" If use_subcolors is FALSE only one sample color per intensity is used."
" (green will be used in this example)"
" The brightness intensity value is transformed at the remapping process"
" according to the levels: out_lo, out_hi, in_lo, in_high and gamma"
" The in_low / in_high levels specify an initial mapping of the intensity."
" The gamma value determines how intensities are interpolated between"
" the in_lo and in_high levels. A gamma value of 1.0 results in linear"
" interpolation. Higher gamma values results in more high-level intensities"
" Lower gamma values results in more low-level intensities"
" The out_low/out_high levels constrain the resulting intensity index"
" The intensity index is used to pick the corresponding color"
" in the sample colortable. If hold_inten is FALSE the picked color"
" is used 1:1 as resulting remap_color."
" If hold_inten is TRUE The brightness of the picked color is adjusted"
" back to the origial intensity value (only hue and saturation are"
" taken from the picked sample color)"
" (or to the input level, if orig_inten is set FALSE)"
" Works on both Grayscale and RGB image with/without alpha channel."
" (the image with the dst_drawable is converted to RGB if necessary)"
" The sample_drawable should be of type RGB or RGBA";
gimp_install_procedure (PLUG_IN_NAME,
"Colorize the contents of the specified drawable similar to sample drawable",
help_string,
"Wolfgang Hofer",
"hof@hotbot.com",
"07/1999",
"<Image>/Filters/Colors/Sample Colorize",
"RGB*, GRAY*",
PROC_PLUG_IN,
nargs, nreturn_vals,
args, return_vals);
}
static void
run (gchar *name,
gint nparams,
GParam *param,
gint *nreturn_vals,
GParam **return_vals)
{
static GParam values[1];
GDrawable *dst_drawable;
GRunModeType run_mode;
GStatusType status = STATUS_SUCCESS;
char *l_env;
l_env = g_getenv("SAMPLE_COLORIZE_DEBUG");
if(l_env != NULL)
{
if((*l_env != 'n') && (*l_env != 'N')) g_Sdebug = TRUE;
}
if(g_Sdebug) printf("sample colorize run\n");
g_show_progress = FALSE;
run_mode = param[0].data.d_int32;
*nreturn_vals = 1;
*return_vals = values;
values[0].type = PARAM_STATUS;
values[0].data.d_status = status;
g_values.lvl_out_min = 0;
g_values.lvl_out_max = 255;
g_values.lvl_in_min = 0;
g_values.lvl_in_max = 255;
g_values.lvl_in_gamma = 1.0;
/* Possibly retrieve data from a previous run */
gimp_get_data (PLUG_IN_NAME, &g_values);
/* fix value */
g_values.tol_col_err = 5.5;
/* Get the specified dst_drawable */
g_values.dst_id = param[2].data.d_drawable;
dst_drawable = gimp_drawable_get (g_values.dst_id );
p_clear_tables();
/* Make sure that the dst_drawable is gray or RGB color */
if (gimp_drawable_is_rgb (dst_drawable->id) || gimp_drawable_is_gray (dst_drawable->id))
{
gimp_tile_cache_ntiles (TILE_CACHE_SIZE);
if (run_mode == RUN_INTERACTIVE)
{
p_smp_dialog();
p_free_colors();
gimp_set_data (PLUG_IN_NAME, &g_values, sizeof (t_values));
}
else
{
if(run_mode == RUN_NONINTERACTIVE)
{
if(nparams == NUMBER_IN_ARGS)
{
g_values.sample_id = param[3].data.d_drawable;
g_values.hold_inten = param[4].data.d_int32;
g_values.orig_inten = param[5].data.d_int32;
g_values.rnd_subcolors = param[6].data.d_int32;
g_values.guess_missing = param[7].data.d_int32;
g_values.lvl_in_min = param[8].data.d_int32;
g_values.lvl_in_max = param[9].data.d_int32;
g_values.lvl_in_gamma = param[10].data.d_float;
g_values.lvl_out_min = param[11].data.d_int32;
g_values.lvl_out_max = param[12].data.d_int32;
}
else
{
status = STATUS_CALLING_ERROR;
}
}
if(status != STATUS_CALLING_ERROR)
{
p_main_colorize(MC_ALL);
p_free_colors();
}
}
if (run_mode != RUN_NONINTERACTIVE) { gimp_displays_flush (); }
}
else
{
/* gimp_message ("Sample Colorize: cannot operate on indexed color images"); */
status = STATUS_EXECUTION_ERROR;
}
values[0].data.d_status = status;
gimp_drawable_detach (dst_drawable);
}
/* ============================================================================
* callback and constraint procedures for the dialog
* ============================================================================
*/
static void
p_smp_apply_callback (GtkWidget *widget,
gpointer data)
{
g_show_progress = TRUE;
if(p_main_colorize(MC_DST_REMAP) == 0)
{
gimp_displays_flush ();
g_show_progress = FALSE;
return;
}
gtk_widget_set_sensitive(g_di.apply_button,FALSE);
/* p_smp_close_callback(NULL, data); */
}
static void
p_smp_close_callback (GtkWidget *widget,
gpointer data)
{
if(data != 0)
{
gtk_widget_destroy (GTK_WIDGET (data));
}
gtk_main_quit ();
}
static void
p_smp_toggle_callback (GtkWidget *widget,
gpointer data)
{
gint32 *toggle_val;
toggle_val = (gint32 *) data;
if (GTK_TOGGLE_BUTTON (widget)->active) { *toggle_val = TRUE; }
else { *toggle_val = FALSE; }
if((data == &g_di.sample_show_selection) || (data == &g_di.sample_show_color))
{
p_update_preview(&g_values.sample_id);
return;
}
if((data == &g_di.dst_show_selection) || (data == &g_di.dst_show_color))
{
p_update_preview(&g_values.dst_id);
return;
}
if((data == &g_values.hold_inten) || (data == &g_values.orig_inten)
|| (data == &g_values.rnd_subcolors))
{
if(g_di.orig_inten_button)
{
gtk_widget_set_sensitive(g_di.orig_inten_button,g_values.hold_inten);
}
p_refresh_dst_preview(g_di.dst_preview, &g_dst_preview_buffer[0]);
}
if(data == &g_values.guess_missing)
{
if(g_values.guess_missing) { p_guess_missing_colors(); }
else { p_fill_missing_colors(); }
p_smp_get_colors_callback(NULL, NULL);
}
}
void
p_gradient_callback(GtkWidget *w, gint32 id)
{
if(g_Sdebug) printf("GRADIENT_MENU_CB: wiget %x, id: %d\n", (int)w, (int)id);
if((id == SMP_GRADIENT) || (id == SMP_INV_GRADIENT))
{
g_values.sample_id = id;
p_get_gradient(id);
p_smp_get_colors_callback(NULL, NULL);
if(g_di.sample_preview) p_clear_preview(g_di.sample_preview);
gtk_widget_set_sensitive(g_di.apply_button,TRUE);
gtk_widget_set_sensitive(g_di.get_smp_colors_button,FALSE);
}
} /* end p_gradient_callback */
static void
p_smp_menu_callback(gint32 id, gpointer data)
{
gint32 *id_ptr;
if(g_Sdebug) printf("MENU_CB: data %x, dst: %x, samp %x\n", (int)data, (int)&g_values.sample_id, (int)&g_values.dst_id);
if((id_ptr = (gint32 *)data) != NULL)
{
*id_ptr = id;
p_update_preview(id_ptr);
gtk_widget_set_sensitive(g_di.get_smp_colors_button,TRUE);
}
} /* end p_smp_menu_callback */
static gint
p_smp_constrain(gint32 image_id, gint32 drawable_id, gpointer data)
{
if(image_id < 0) { return (FALSE); }
/* dont accept layers from indexed images */
if (gimp_drawable_is_indexed(drawable_id)) { return (FALSE); }
return (TRUE);
} /* end p_smp_constrain */
static void
p_smp_text_lvl_in_max_upd_callback(GtkWidget *w,
gpointer data)
{
char *str;
gint32 value;
str = gtk_entry_get_text (GTK_ENTRY (w));
value = CLAMP ((atol (str)), 1, 255);
if (value != g_values.lvl_in_max)
{
g_values.lvl_in_max = value;
p_levels_update (INPUT_SLIDERS | INPUT_LEVELS | DRAW | REFRESH_DST);
}
}
static void
p_smp_text_lvl_in_min_upd_callback(GtkWidget *w,
gpointer data)
{
char *str;
double value;
str = gtk_entry_get_text (GTK_ENTRY (w));
value = CLAMP ((atol (str)), 0, 254);
if (value != g_values.lvl_in_min)
{
g_values.lvl_in_min = value;
p_levels_update (INPUT_SLIDERS | INPUT_LEVELS | DRAW | REFRESH_DST);
}
}
static void
p_smp_text_gamma_upd_callback(GtkWidget *w,
gpointer data)
{
char *str;
double value;
str = gtk_entry_get_text (GTK_ENTRY (w));
value = CLAMP ((atof (str)), 0.1, 10.0);
if (value != g_values.lvl_in_gamma)
{
g_values.lvl_in_gamma = value;
p_levels_update (INPUT_SLIDERS | INPUT_LEVELS | DRAW | REFRESH_DST);
}
}
static void
p_smp_text_lvl_out_max_upd_callback(GtkWidget *w,
gpointer data)
{
char *str;
gint32 value;
str = gtk_entry_get_text (GTK_ENTRY (w));
value = CLAMP ((atol (str)), 1, 255);
if (value != g_values.lvl_out_max)
{
g_values.lvl_out_max = value;
p_levels_update (OUTPUT_SLIDERS | OUTPUT_LEVELS | DRAW | REFRESH_DST);
}
}
static void
p_smp_text_lvl_out_min_upd_callback(GtkWidget *w,
gpointer data)
{
char *str;
double value;
str = gtk_entry_get_text (GTK_ENTRY (w));
value = CLAMP ((atol (str)), 0, 254);
if (value != g_values.lvl_out_min)
{
g_values.lvl_out_min = value;
p_levels_update (OUTPUT_SLIDERS | OUTPUT_LEVELS | DRAW | REFRESH_DST);
}
}
/* ============================================================================
* DIALOG helper procedures
* (workers for the updates on the preview widgets)
* ============================================================================
*/
void
p_refresh_dst_preview(GtkWidget *preview, guchar *src_buffer)
{
guchar l_rowbuf[4 * PREVIEW_SIZE_X];
guchar *l_ptr;
guchar *l_src_ptr;
guchar l_lum;
guchar l_maskbyte;
gint l_x, l_y;
gint l_preview_bpp;
gint l_src_bpp;
l_preview_bpp = PREVIEW_BPP;
l_src_bpp = PREVIEW_BPP +1; /* 3 colors + 1 maskbyte */
l_src_ptr = src_buffer;
for(l_y = 0; l_y < PREVIEW_SIZE_Y; l_y++)
{
l_ptr = &l_rowbuf[0];
for(l_x = 0; l_x < PREVIEW_SIZE_X; l_x++)
{
if((l_maskbyte = l_src_ptr[3]) == 0)
{
l_ptr[0] = l_src_ptr[0];
l_ptr[1] = l_src_ptr[1];
l_ptr[2] = l_src_ptr[2];
}
else
{
if(g_di.dst_show_color)
{
p_remap_pixel(l_ptr, l_src_ptr, 3);
}
else
{
/* l_lum = g_out_trans_tab[g_lvl_trans_tab[LUMINOSITY_1(l_src_ptr)]]; */ /* get brightness from (uncolorized) original */
l_lum = g_lvl_trans_tab[LUMINOSITY_1(l_src_ptr)]; /* get brightness from (uncolorized) original */
*l_ptr = l_lum;
l_ptr[1] = l_lum;
l_ptr[2] = l_lum;
}
if(l_maskbyte < 255)
{
l_ptr[0] = MIX_CHANNEL(l_ptr[0], l_src_ptr[0], l_maskbyte);
l_ptr[1] = MIX_CHANNEL(l_ptr[1], l_src_ptr[1], l_maskbyte);
l_ptr[2] = MIX_CHANNEL(l_ptr[2], l_src_ptr[2], l_maskbyte);
}
}
l_ptr += l_preview_bpp;
l_src_ptr += l_src_bpp;
}
gtk_preview_draw_row(GTK_PREVIEW(preview), &l_rowbuf[0], 0, l_y, PREVIEW_SIZE_X);
}
gtk_widget_draw(preview, NULL);
gdk_flush();
} /* end p_refresh_dst_preview */
void
p_clear_preview(GtkWidget *preview)
{
gint l_x, l_y;
guchar l_rowbuf[4 * PREVIEW_SIZE_X];
guchar *l_ptr;
l_ptr = &l_rowbuf[0];
for(l_x = 0; l_x < PREVIEW_SIZE_X; l_x++)
{
l_ptr[0] = 170;
l_ptr[1] = 170;
l_ptr[2] = 170;
l_ptr += PREVIEW_BPP;
}
for(l_y = 0; l_y < PREVIEW_SIZE_Y; l_y++)
{
gtk_preview_draw_row(GTK_PREVIEW(preview), &l_rowbuf[0], 0, l_y, PREVIEW_SIZE_X);
}
gtk_widget_draw(preview, NULL);
gdk_flush();
} /* end p_clear_preview */
void
p_update_pv(GtkWidget *preview, gint32 show_selection, t_GDRW *gdrw, guchar *dst_buffer, gint is_color)
{
guchar l_rowbuf[4 * PREVIEW_SIZE_X];
guchar l_pixel[4];
guchar *l_ptr;
gint l_x, l_y;
gint l_x2, l_y2;
gint l_ofx, l_ofy;
gint l_sel_width, l_sel_height;
double l_scale_x, l_scale_y;
guchar *l_buf_ptr;
guchar l_dummy[4];
guchar l_maskbytes[4];
gint l_dstep;
if(preview == NULL) return;
/* init gray pixel (if we are called without a sourceimage (gdwr == NULL) */
l_pixel[0] = l_pixel[1] =l_pixel[2] = l_pixel[3] = 127;
/* calculate scale factors and offsets */
if(show_selection)
{
l_sel_width = gdrw->x2 - gdrw->x1;
l_sel_height = gdrw->y2 - gdrw->y1;
if(l_sel_height > l_sel_width)
{
l_scale_y = (float)l_sel_height / PREVIEW_SIZE_Y;
l_scale_x = l_scale_y;
l_ofx = gdrw->x1 + ((l_sel_width - (PREVIEW_SIZE_X * l_scale_x)) / 2);
l_ofy = gdrw->y1;
}
else
{
l_scale_x = (float)l_sel_width / PREVIEW_SIZE_X;
l_scale_y = l_scale_x;
l_ofx = gdrw->x1;
l_ofy = gdrw->y1 + ((l_sel_height - (PREVIEW_SIZE_Y * l_scale_y)) / 2);
}
}
else
{
if(gdrw->drawable->height > gdrw->drawable->width)
{
l_scale_y = (float)gdrw->drawable->height / PREVIEW_SIZE_Y;
l_scale_x = l_scale_y;
l_ofx = (gdrw->drawable->width - (PREVIEW_SIZE_X * l_scale_x)) / 2;
l_ofy = 0;
}
else
{
l_scale_x = (float)gdrw->drawable->width / PREVIEW_SIZE_X;
l_scale_y = l_scale_x;
l_ofx = 0;
l_ofy = (gdrw->drawable->height - (PREVIEW_SIZE_Y * l_scale_y)) / 2;
}
}
/* check if output goes to previw widget or to dst_buffer */
if(dst_buffer) { l_buf_ptr = dst_buffer; l_dstep = PREVIEW_BPP +1; }
else { l_buf_ptr = &l_dummy[0]; l_dstep = 0; }
/* render preview */
for(l_y = 0; l_y < PREVIEW_SIZE_Y; l_y++)
{
l_ptr = &l_rowbuf[0];
for(l_x = 0; l_x < PREVIEW_SIZE_X; l_x++)
{
if(gdrw->drawable)
{
l_x2 = l_ofx + (l_x * l_scale_x);
l_y2 = l_ofy + (l_y * l_scale_y);
p_get_pixel(gdrw, l_x2, l_y2, &l_pixel[0]);
if(gdrw->sel_gdrw)
{
p_get_pixel(gdrw->sel_gdrw, (l_x2 + gdrw->seldeltax), (l_y2 + gdrw->seldeltay),
&l_maskbytes[0]);
}
else
{
l_maskbytes[0] = 255;
}
}
if(is_color && (gdrw->bpp > 2))
{
*l_buf_ptr = *l_ptr = l_pixel[0];
l_buf_ptr[1] = l_ptr[1] = l_pixel[1];
l_buf_ptr[2] = l_ptr[2] = l_pixel[2];
}
else
{
if(gdrw->bpp > 2) *l_ptr = LUMINOSITY_1(l_pixel);
else *l_ptr = l_pixel[0];
*l_buf_ptr = *l_ptr; /* copy to buffer (or to dummy byte) */
l_buf_ptr[1] = l_ptr[1] = *l_ptr; /* copy to buffer (or to dummy byte) */
l_buf_ptr[2] = l_ptr[2] = *l_ptr; /* copy to buffer (or to dummy byte) */
}
l_buf_ptr[3] = l_maskbytes[0];
l_buf_ptr += l_dstep; /* advance (or stay at dummy byte) */
l_ptr += PREVIEW_BPP;
}
if(dst_buffer == NULL)
{
gtk_preview_draw_row(GTK_PREVIEW(preview), &l_rowbuf[0], 0, l_y, PREVIEW_SIZE_X);
}
}
if(dst_buffer == NULL)
{
gtk_widget_draw(preview, NULL);
gdk_flush();
}
} /* end p_update_pv */
void
p_update_preview(gint32 *id_ptr)
{
GDrawable *drawable;
t_GDRW l_gdrw;
if(g_Sdebug) printf("UPD PREVIEWS ID:%d ENABLE_UPD:%d\n", (int)*id_ptr, (int)g_di.enable_preview_update);
if(id_ptr == NULL) { return; }
if(!g_di.enable_preview_update) { return; }
if(p_is_layer_alive(*id_ptr) < 0)
{
/* clear preview on invalid drawable id
* (SMP_GRADIENT and SMP_INV_GRADIENT)
*/
if(id_ptr == &g_values.sample_id)
{
p_clear_preview(g_di.sample_preview);
}
if(id_ptr == &g_values.dst_id)
{
p_clear_preview(g_di.dst_preview);
}
return;
}
drawable = gimp_drawable_get (*id_ptr);
if(id_ptr == &g_values.sample_id)
{
p_init_gdrw(&l_gdrw, drawable, FALSE, FALSE);
p_update_pv(g_di.sample_preview, g_di.sample_show_selection, &l_gdrw, NULL, g_di.sample_show_color);
}
else if (id_ptr == &g_values.dst_id)
{
p_init_gdrw(&l_gdrw, drawable, FALSE, FALSE);
p_update_pv(g_di.dst_preview, g_di.dst_show_selection, &l_gdrw, &g_dst_preview_buffer[0], g_di.dst_show_color);
p_refresh_dst_preview(g_di.dst_preview, &g_dst_preview_buffer[0]);
}
if(drawable) p_end_gdrw(&l_gdrw);
} /* end p_update_preview */
static void
p_levels_draw_slider (GdkWindow *window,
GdkGC *border_gc,
GdkGC *fill_gc,
int xpos)
{
int y;
for (y = 0; y < CONTROL_HEIGHT; y++)
gdk_draw_line(window, fill_gc, xpos - y / 2, y,
xpos + y / 2, y);
gdk_draw_line(window, border_gc, xpos, 0,
xpos - (CONTROL_HEIGHT - 1) / 2, CONTROL_HEIGHT - 1);
gdk_draw_line(window, border_gc, xpos, 0,
xpos + (CONTROL_HEIGHT - 1) / 2, CONTROL_HEIGHT - 1);
gdk_draw_line(window, border_gc, xpos - (CONTROL_HEIGHT - 1) / 2, CONTROL_HEIGHT - 1,
xpos + (CONTROL_HEIGHT - 1) / 2, CONTROL_HEIGHT - 1);
} /* end p_levels_draw_slider */
static void
p_levels_erase_slider (GdkWindow *window,
int xpos)
{
gdk_window_clear_area (window, xpos - (CONTROL_HEIGHT - 1) / 2, 0,
CONTROL_HEIGHT - 1, CONTROL_HEIGHT);
} /* end p_levels_erase_slider */
static void
p_smp_get_colors_callback (GdkWindow *window,
gpointer data)
{
int i;
p_update_preview(&g_values.sample_id);
if(window != NULL)
{
if (p_main_colorize(MC_GET_SAMPLE_COLORS) >= 0) /* do not colorize, just analyze sample colors */
{
gtk_widget_set_sensitive(g_di.apply_button,TRUE);
}
}
for (i = 0; i < GRADIENT_HEIGHT; i++)
{
gtk_preview_draw_row (GTK_PREVIEW (g_di.sample_colortab_preview),
&g_sample_color_tab[0], 0, i, DA_WIDTH);
}
p_update_preview(&g_values.dst_id);
gtk_widget_draw (g_di.sample_colortab_preview, NULL);
}
static void
p_levels_update (int update)
{
char text[20];
int i;
if(g_Sdebug) printf("p_levels_update: update reques %x\n", update);
/* Recalculate the transfer array */
p_calculate_level_transfers();
if (update & REFRESH_DST)
{
p_refresh_dst_preview(g_di.dst_preview, &g_dst_preview_buffer[0]);
}
/* update the text entry widgets */
if (update & LOW_INPUT)
{
sprintf (text, "%d", (int)g_values.lvl_in_min);
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_in_min), text);
}
if (update & GAMMA)
{
sprintf (text, "%2.2f", g_values.lvl_in_gamma);
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_in_gamma), text);
}
if (update & HIGH_INPUT)
{
sprintf (text, "%d", (int)g_values.lvl_in_max);
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_in_max), text);
}
if (update & LOW_OUTPUT)
{
sprintf (text, "%d", (int)g_values.lvl_out_min);
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_out_min), text);
}
if (update & HIGH_OUTPUT)
{
sprintf (text, "%d", (int)g_values.lvl_out_max);
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_out_max), text);
}
if (update & INPUT_LEVELS)
{
for (i = 0; i < GRADIENT_HEIGHT; i++)
{
gtk_preview_draw_row (GTK_PREVIEW (g_di.in_lvl_gray_preview),
&g_lvl_trans_tab[0], 0, i, DA_WIDTH);
}
if (update & DRAW)
{
gtk_widget_draw (g_di.in_lvl_gray_preview, NULL);
}
}
if (update & INPUT_SLIDERS)
{
double width, mid, tmp;
p_levels_erase_slider (g_di.in_lvl_drawarea->window, g_di.slider_pos[0]);
p_levels_erase_slider (g_di.in_lvl_drawarea->window, g_di.slider_pos[1]);
p_levels_erase_slider (g_di.in_lvl_drawarea->window, g_di.slider_pos[2]);
g_di.slider_pos[0] = DA_WIDTH * ((double) g_values.lvl_in_min / 255.0);
g_di.slider_pos[2] = DA_WIDTH * ((double) g_values.lvl_in_max / 255.0);
width = (double) (g_di.slider_pos[2] - g_di.slider_pos[0]) / 2.0;
mid = g_di.slider_pos[0] + width;
tmp = log10 (1.0 / g_values.lvl_in_gamma);
g_di.slider_pos[1] = (int) (mid + width * tmp + 0.5);
p_levels_draw_slider (g_di.in_lvl_drawarea->window,
g_di.in_lvl_drawarea->style->black_gc,
g_di.in_lvl_drawarea->style->dark_gc[GTK_STATE_NORMAL],
g_di.slider_pos[1]);
p_levels_draw_slider (g_di.in_lvl_drawarea->window,
g_di.in_lvl_drawarea->style->black_gc,
g_di.in_lvl_drawarea->style->black_gc,
g_di.slider_pos[0]);
p_levels_draw_slider (g_di.in_lvl_drawarea->window,
g_di.in_lvl_drawarea->style->black_gc,
g_di.in_lvl_drawarea->style->white_gc,
g_di.slider_pos[2]);
}
if (update & OUTPUT_SLIDERS)
{
p_levels_erase_slider (g_di.sample_drawarea->window, g_di.slider_pos[3]);
p_levels_erase_slider (g_di.sample_drawarea->window, g_di.slider_pos[4]);
g_di.slider_pos[3] = DA_WIDTH * ((double) g_values.lvl_out_min / 255.0);
g_di.slider_pos[4] = DA_WIDTH * ((double) g_values.lvl_out_max / 255.0);
p_levels_draw_slider (g_di.sample_drawarea->window,
g_di.sample_drawarea->style->black_gc,
g_di.sample_drawarea->style->black_gc,
g_di.slider_pos[3]);
p_levels_draw_slider (g_di.sample_drawarea->window,
g_di.sample_drawarea->style->black_gc,
g_di.sample_drawarea->style->black_gc,
g_di.slider_pos[4]);
}
} /* end p_levels_update */
static gint
p_level_in_events (GtkWidget *widget,
GdkEvent *event,
gpointer data)
{
GdkEventButton *bevent;
GdkEventMotion *mevent;
char text[20];
double width, mid, tmp;
int x, distance;
int i;
int update = FALSE;
switch (event->type)
{
case GDK_EXPOSE:
if(g_Sdebug) printf("EVENT: GDK_EXPOSE\n");
if (widget == g_di.in_lvl_drawarea)
{ p_levels_update (INPUT_SLIDERS);
}
break;
case GDK_BUTTON_PRESS:
if(g_Sdebug) printf("EVENT: GDK_BUTTON_PRESS\n");
gtk_grab_add (widget);
bevent = (GdkEventButton *) event;
distance = G_MAXINT;
for (i = 0; i < 3; i++)
{
if (fabs (bevent->x - g_di.slider_pos[i]) < distance)
{
g_di.active_slider = i;
distance = fabs (bevent->x - g_di.slider_pos[i]);
}
}
x = bevent->x;
update = TRUE;
break;
case GDK_BUTTON_RELEASE:
if(g_Sdebug) printf("EVENT: GDK_BUTTON_RELEASE\n");
gtk_grab_remove (widget);
switch (g_di.active_slider)
{
case 0: /* low input */
p_levels_update (LOW_INPUT | GAMMA | DRAW);
break;
case 1: /* gamma */
p_levels_update (GAMMA);
break;
case 2: /* high input */
p_levels_update (HIGH_INPUT | GAMMA | DRAW);
break;
}
p_refresh_dst_preview(g_di.dst_preview, &g_dst_preview_buffer[0]);
break;
case GDK_MOTION_NOTIFY:
if(g_Sdebug) printf("EVENT: GDK_MOTION_NOTIFY\n");
mevent = (GdkEventMotion *) event;
gdk_window_get_pointer (widget->window, &x, NULL, NULL);
update = TRUE;
break;
default:
if(g_Sdebug) printf("EVENT: default\n");
break;
}
if (update)
{
if(g_Sdebug) printf("EVENT: ** update **\n");
switch (g_di.active_slider)
{
case 0: /* low input */
g_values.lvl_in_min = ((double) x / (double) DA_WIDTH) * 255.0;
g_values.lvl_in_min = CLAMP (g_values.lvl_in_min,
0, g_values.lvl_in_max);
break;
case 1: /* gamma */
width = (double) (g_di.slider_pos[2] - g_di.slider_pos[0]) / 2.0;
mid = g_di.slider_pos[0] + width;
x = CLAMP (x, g_di.slider_pos[0], g_di.slider_pos[2]);
tmp = (double) (x - mid) / width;
g_values.lvl_in_gamma = 1.0 / pow (10, tmp);
/* round the gamma value to the nearest 1/100th */
sprintf (text, "%2.2f", g_values.lvl_in_gamma);
g_values.lvl_in_gamma = atof (text);
break;
case 2: /* high input */
g_values.lvl_in_max = ((double) x / (double) DA_WIDTH) * 255.0;
g_values.lvl_in_max = CLAMP (g_values.lvl_in_max,
g_values.lvl_in_min, 255);
break;
}
p_levels_update (INPUT_SLIDERS | INPUT_LEVELS | DRAW);
}
return FALSE;
} /* end p_level_in_events */
static gint
p_level_out_events (GtkWidget *widget,
GdkEvent *event,
gpointer data)
{
GdkEventButton *bevent;
GdkEventMotion *mevent;
int x, distance;
int i;
int update = FALSE;
switch (event->type)
{
case GDK_EXPOSE:
if(g_Sdebug) printf("OUT_EVENT: GDK_EXPOSE\n");
if (widget == g_di.sample_drawarea)
{ p_levels_update (OUTPUT_SLIDERS);
}
break;
case GDK_BUTTON_PRESS:
if(g_Sdebug) printf("OUT_EVENT: GDK_BUTTON_PRESS\n");
bevent = (GdkEventButton *) event;
distance = G_MAXINT;
for (i = 3; i < 5; i++)
{
if (fabs (bevent->x - g_di.slider_pos[i]) < distance)
{
g_di.active_slider = i;
distance = fabs (bevent->x - g_di.slider_pos[i]);
}
}
x = bevent->x;
update = TRUE;
break;
case GDK_BUTTON_RELEASE:
if(g_Sdebug) printf("OUT_EVENT: GDK_BUTTON_RELEASE\n");
switch (g_di.active_slider)
{
case 3: /* low output */
p_levels_update (LOW_OUTPUT | DRAW);
break;
case 4: /* high output */
p_levels_update (HIGH_OUTPUT | DRAW);
break;
}
p_refresh_dst_preview(g_di.dst_preview, &g_dst_preview_buffer[0]);
break;
case GDK_MOTION_NOTIFY:
if(g_Sdebug) printf("OUT_EVENT: GDK_MOTION_NOTIFY\n");
mevent = (GdkEventMotion *) event;
gdk_window_get_pointer (widget->window, &x, NULL, NULL);
update = TRUE;
break;
default:
if(g_Sdebug) printf("OUT_EVENT: default\n");
break;
}
if (update)
{
if(g_Sdebug) printf("OUT_EVENT: ** update **\n");
switch (g_di.active_slider)
{
case 3: /* low output */
g_values.lvl_out_min = ((double) x / (double) DA_WIDTH) * 255.0;
g_values.lvl_out_min = CLAMP (g_values.lvl_out_min,
0, g_values.lvl_out_max);
break;
case 4: /* high output */
g_values.lvl_out_max = ((double) x / (double) DA_WIDTH) * 255.0;
g_values.lvl_out_max = CLAMP (g_values.lvl_out_max,
g_values.lvl_out_min, 255);
break;
}
p_levels_update (OUTPUT_SLIDERS | OUTPUT_LEVELS | DRAW);
}
return FALSE;
} /* end p_level_out_events */
/* ============================================================================
* p_smp_dialog
* The Interactive Dialog
* ============================================================================
*/
static int
p_smp_dialog (void)
{
GtkWidget *dialog;
GtkWidget *hbox;
GtkWidget *vbox2;
GtkWidget *button;
GtkWidget *frame;
GtkWidget *pframe;
GtkWidget *table;
GtkWidget *check_button;
GtkWidget *label;
GtkWidget *option_menu;
GtkWidget *menu;
GtkWidget *menu_item;
guchar *color_cube;
char txt_buf[20];
gint l_ty;
gint argc = 1;
gchar **argv = g_new (gchar *, 1);
argv[0] = g_strdup (_("Sample Colorize"));
/* set flags for check buttons from mode value bits */
if(g_Sdebug) printf("p_smp_dialog START\n");
/* init some dialog variables */
g_di.enable_preview_update = FALSE;
g_di.sample_show_selection = TRUE;
g_di.dst_show_selection = TRUE;
g_di.dst_show_color = TRUE;
g_di.sample_show_color = TRUE;
g_di.orig_inten_button = NULL;
/* Init GTK */
gtk_init (&argc, &argv);
gtk_rc_parse (gimp_gtkrc ());
gdk_set_use_xshm (gimp_use_xshm ());
gtk_preview_set_gamma(gimp_gamma());
gtk_preview_set_install_cmap(gimp_install_cmap());
color_cube = gimp_color_cube();
gtk_preview_set_color_cube(color_cube[0], color_cube[1], color_cube[2], color_cube[3]);
gtk_widget_set_default_visual (gtk_preview_get_visual ());
gtk_widget_set_default_colormap(gtk_preview_get_cmap());
/* Main Dialog */
dialog = gtk_dialog_new ();
g_di.dialog = dialog;
gtk_window_set_title (GTK_WINDOW (dialog), _("Sample Colorize"));
gtk_window_position (GTK_WINDOW (dialog), GTK_WIN_POS_MOUSE);
gtk_signal_connect (GTK_OBJECT (dialog), "destroy",
(GtkSignalFunc) p_smp_close_callback,
dialog);
/* Action area */
button = gtk_button_new_with_label (_("Close"));
gtk_signal_connect_object (GTK_OBJECT (button), "clicked",
(GtkSignalFunc) gtk_widget_destroy,
GTK_OBJECT (dialog));
gtk_box_pack_start (GTK_BOX (GTK_DIALOG (dialog)->action_area),
button, TRUE, TRUE, 0);
gtk_widget_show (button);
button = gtk_button_new_with_label (_("Apply"));
g_di.apply_button = button;
gtk_signal_connect (GTK_OBJECT (button), "clicked",
(GtkSignalFunc) p_smp_apply_callback,
dialog);
gtk_box_pack_start (GTK_BOX (GTK_DIALOG (dialog)->action_area),
button, TRUE, TRUE, 0);
gtk_widget_set_sensitive(g_di.apply_button,FALSE);
gtk_widget_show (button);
button = gtk_button_new_with_label (_("Get Sample Colors"));
g_di.get_smp_colors_button = button;
GTK_WIDGET_SET_FLAGS (button, GTK_CAN_DEFAULT);
gtk_signal_connect (GTK_OBJECT (button), "clicked",
(GtkSignalFunc) p_smp_get_colors_callback,
dialog);
gtk_box_pack_start (GTK_BOX (GTK_DIALOG (dialog)->action_area),
button, TRUE, TRUE, 0);
gtk_widget_grab_default (button);
gtk_widget_show (button);
/* parameter settings */
frame = gtk_frame_new (_("settings"));
gtk_frame_set_shadow_type (GTK_FRAME (frame), GTK_SHADOW_ETCHED_IN);
gtk_container_border_width (GTK_CONTAINER (frame), 6);
gtk_box_pack_start (GTK_BOX (GTK_DIALOG (dialog)->vbox),
frame, TRUE, TRUE, 0);
/* table for values */
table = gtk_table_new (7, 4, FALSE);
gtk_table_set_row_spacings (GTK_TABLE (table), 3);
gtk_table_set_col_spacings (GTK_TABLE (table), 1);
gtk_container_border_width (GTK_CONTAINER (table), 6);
gtk_container_add (GTK_CONTAINER (frame), table);
l_ty = 0;
/* layer optionmenu (Dst) */
label = gtk_label_new (_("Destination:"));
gtk_misc_set_alignment(GTK_MISC(label), 0.0, 0.5);
gtk_table_attach(GTK_TABLE(table), label, 0, 1, l_ty, l_ty+1, GTK_FILL, GTK_FILL, 4, 0);
gtk_widget_show(label);
option_menu = gtk_option_menu_new();
gtk_table_attach(GTK_TABLE(table), option_menu, 1, 2, l_ty, l_ty+1,
GTK_EXPAND | GTK_FILL, GTK_EXPAND | GTK_FILL, 0, 0);
gtk_widget_show(option_menu);
menu = gimp_layer_menu_new(p_smp_constrain,
p_smp_menu_callback,
&g_values.dst_id, /* data */
g_values.dst_id);
gtk_option_menu_set_menu(GTK_OPTION_MENU(option_menu), menu);
gtk_widget_show(option_menu);
/* layer optionmenu (Sample) */
label = gtk_label_new (_("Sample:"));
gtk_misc_set_alignment(GTK_MISC(label), 0.0, 0.5);
gtk_table_attach(GTK_TABLE(table), label, 2, 3, l_ty, l_ty+1, GTK_FILL, GTK_FILL, 4, 0);
gtk_widget_show(label);
option_menu = gtk_option_menu_new();
gtk_table_attach(GTK_TABLE(table), option_menu, 3, 4, l_ty, l_ty+1,
GTK_EXPAND | GTK_FILL, GTK_EXPAND | GTK_FILL, 0, 0);
gtk_widget_show(option_menu);
menu = gimp_layer_menu_new(p_smp_constrain,
p_smp_menu_callback,
&g_values.sample_id, /* data */
g_values.sample_id);
gtk_option_menu_set_menu(GTK_OPTION_MENU(option_menu), menu);
gtk_widget_show(option_menu);
/* Add extra menu items for Gradient */
menu_item = gtk_menu_item_new_with_label (_("** From GRADIENT **"));
gtk_container_add (GTK_CONTAINER (menu), menu_item);
gtk_signal_connect (GTK_OBJECT (menu_item), "activate",
(GtkSignalFunc) p_gradient_callback,
(gpointer)SMP_GRADIENT);
gtk_widget_show (menu_item);
/* Add extra menu items for Inverted Gradient */
menu_item = gtk_menu_item_new_with_label (_("** From INVERS GRADIENT **"));
gtk_container_add (GTK_CONTAINER (menu), menu_item);
gtk_signal_connect (GTK_OBJECT (menu_item), "activate",
(GtkSignalFunc) p_gradient_callback,
(gpointer)SMP_INV_GRADIENT);
gtk_widget_show (menu_item);
l_ty++;
/* check button */
check_button = gtk_check_button_new_with_label (_("Show Selection"));
gtk_table_attach ( GTK_TABLE (table), check_button, 0, 1, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
gtk_signal_connect (GTK_OBJECT (check_button), "toggled",
(GtkSignalFunc) p_smp_toggle_callback,
&g_di.dst_show_selection);
gtk_toggle_button_set_state (GTK_TOGGLE_BUTTON (check_button),
g_di.dst_show_selection);
gtk_widget_show (check_button);
/* check button */
check_button = gtk_check_button_new_with_label (_("Show Color"));
gtk_table_attach ( GTK_TABLE (table), check_button, 1, 2, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
gtk_signal_connect (GTK_OBJECT (check_button), "toggled",
(GtkSignalFunc) p_smp_toggle_callback,
&g_di.dst_show_color);
gtk_toggle_button_set_state (GTK_TOGGLE_BUTTON (check_button),
g_di.dst_show_color);
gtk_widget_show (check_button);
/* check button */
check_button = gtk_check_button_new_with_label (_("Show Selection"));
gtk_table_attach ( GTK_TABLE (table), check_button, 2, 3, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
gtk_signal_connect (GTK_OBJECT (check_button), "toggled",
(GtkSignalFunc)p_smp_toggle_callback ,
&g_di.sample_show_selection);
gtk_toggle_button_set_state (GTK_TOGGLE_BUTTON (check_button),
g_di.sample_show_selection);
gtk_widget_show (check_button);
/* check button */
check_button = gtk_check_button_new_with_label (_("Show Color"));
gtk_table_attach ( GTK_TABLE (table), check_button, 3, 4, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
gtk_signal_connect (GTK_OBJECT (check_button), "toggled",
(GtkSignalFunc)p_smp_toggle_callback ,
&g_di.sample_show_color);
gtk_toggle_button_set_state (GTK_TOGGLE_BUTTON (check_button),
g_di.sample_show_color);
gtk_widget_show (check_button);
l_ty++;
/* Preview (Dst) */
pframe = gtk_frame_new(NULL);
gtk_frame_set_shadow_type(GTK_FRAME(pframe), GTK_SHADOW_IN);
gtk_table_attach(GTK_TABLE(table), pframe, 0, 2, l_ty, l_ty+1, 0, 0, 0, 0);
gtk_widget_show(pframe);
g_di.dst_preview = gtk_preview_new(GTK_PREVIEW_COLOR);
gtk_preview_size(GTK_PREVIEW(g_di.dst_preview), PREVIEW_SIZE_X, PREVIEW_SIZE_Y);
gtk_container_add(GTK_CONTAINER(pframe), g_di.dst_preview);
gtk_widget_show(g_di.dst_preview);
/* Preview (Sample)*/
pframe = gtk_frame_new(NULL);
gtk_frame_set_shadow_type(GTK_FRAME(pframe), GTK_SHADOW_IN);
gtk_table_attach(GTK_TABLE(table), pframe, 2, 4, l_ty, l_ty+1, 0, 0, 0, 0);
gtk_widget_show(pframe);
g_di.sample_preview = gtk_preview_new(GTK_PREVIEW_COLOR);
gtk_preview_size(GTK_PREVIEW(g_di.sample_preview), PREVIEW_SIZE_X, PREVIEW_SIZE_Y);
gtk_container_add(GTK_CONTAINER(pframe), g_di.sample_preview);
gtk_widget_show(g_di.sample_preview);
l_ty++;
/* The levels graylevel prevev */
pframe = gtk_frame_new(NULL);
gtk_frame_set_shadow_type(GTK_FRAME(pframe), GTK_SHADOW_ETCHED_IN);
vbox2 = gtk_vbox_new (FALSE, 2);
gtk_container_add (GTK_CONTAINER (pframe), vbox2);
gtk_table_attach(GTK_TABLE(table), pframe, 0, 2, l_ty, l_ty+1, 0, 0, 0, 0);
g_di.in_lvl_gray_preview = gtk_preview_new (GTK_PREVIEW_GRAYSCALE);
gtk_preview_size (GTK_PREVIEW (g_di.in_lvl_gray_preview), DA_WIDTH, GRADIENT_HEIGHT);
gtk_widget_set_events (g_di.in_lvl_gray_preview, LEVELS_DA_MASK);
gtk_signal_connect (GTK_OBJECT (g_di.in_lvl_gray_preview), "event",
(GtkSignalFunc) p_level_in_events,
&g_di);
gtk_box_pack_start (GTK_BOX (vbox2), g_di.in_lvl_gray_preview, FALSE, TRUE, 0);
gtk_widget_show(g_di.in_lvl_gray_preview);
/* The levels drawing area */
g_di.in_lvl_drawarea = gtk_drawing_area_new ();
gtk_drawing_area_size (GTK_DRAWING_AREA (g_di.in_lvl_drawarea), DA_WIDTH, CONTROL_HEIGHT);
gtk_widget_set_events (g_di.in_lvl_drawarea, LEVELS_DA_MASK);
gtk_signal_connect (GTK_OBJECT (g_di.in_lvl_drawarea), "event",
(GtkSignalFunc) p_level_in_events,
&g_di);
gtk_box_pack_start (GTK_BOX (vbox2), g_di.in_lvl_drawarea, FALSE, TRUE, 0);
gtk_widget_show (g_di.in_lvl_drawarea);
gtk_widget_show(vbox2);
gtk_widget_show(pframe);
/* The sample_colortable prevev */
pframe = gtk_frame_new(NULL);
gtk_frame_set_shadow_type(GTK_FRAME(pframe), GTK_SHADOW_ETCHED_IN);
vbox2 = gtk_vbox_new (FALSE, 2);
gtk_container_add (GTK_CONTAINER (pframe), vbox2);
gtk_table_attach(GTK_TABLE(table), pframe, 2, 4, l_ty, l_ty+1, 0, 0, 0, 0);
g_di.sample_colortab_preview = gtk_preview_new (GTK_PREVIEW_COLOR);
gtk_preview_size (GTK_PREVIEW (g_di.sample_colortab_preview), DA_WIDTH, GRADIENT_HEIGHT);
gtk_box_pack_start (GTK_BOX (vbox2), g_di.sample_colortab_preview, FALSE, TRUE, 0);
gtk_widget_show(g_di.sample_colortab_preview);
/* The levels drawing area */
g_di.sample_drawarea = gtk_drawing_area_new ();
gtk_drawing_area_size (GTK_DRAWING_AREA (g_di.sample_drawarea), DA_WIDTH, CONTROL_HEIGHT);
gtk_widget_set_events (g_di.sample_drawarea, LEVELS_DA_MASK);
gtk_signal_connect (GTK_OBJECT (g_di.sample_drawarea), "event",
(GtkSignalFunc) p_level_out_events,
&g_di);
gtk_box_pack_start (GTK_BOX (vbox2), g_di.sample_drawarea, FALSE, TRUE, 0);
gtk_widget_show (g_di.sample_drawarea);
gtk_widget_show(vbox2);
gtk_widget_show(pframe);
l_ty++;
/* Horizontal box for INPUT levels text widget */
hbox = gtk_hbox_new (TRUE, 2);
gtk_table_attach ( GTK_TABLE (table), hbox, 0, 2, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
label = gtk_label_new (_("In Level: "));
gtk_box_pack_start (GTK_BOX (hbox), label, FALSE, FALSE, 0);
gtk_widget_show (label);
/* min input text */
sprintf(&txt_buf[0], "%d", (int)g_values.lvl_in_min);
g_di.text_lvl_in_min = gtk_entry_new ();
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_in_min), &txt_buf[0]);
gtk_widget_set_usize (g_di.text_lvl_in_min, TEXT_WIDTH, 25);
gtk_box_pack_start (GTK_BOX (hbox), g_di.text_lvl_in_min, FALSE, FALSE, 0);
gtk_signal_connect (GTK_OBJECT (g_di.text_lvl_in_min), "changed",
(GtkSignalFunc) p_smp_text_lvl_in_min_upd_callback,
&g_di);
gtk_widget_show (g_di.text_lvl_in_min);
/* input gamma text */
sprintf(&txt_buf[0], "%2.2f", g_values.lvl_in_gamma);
g_di.text_lvl_in_gamma = gtk_entry_new ();
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_in_gamma), &txt_buf[0]);
gtk_widget_set_usize (g_di.text_lvl_in_gamma, TEXT_WIDTH, 25);
gtk_box_pack_start (GTK_BOX (hbox), g_di.text_lvl_in_gamma, FALSE, FALSE, 0);
gtk_signal_connect (GTK_OBJECT (g_di.text_lvl_in_gamma), "changed",
(GtkSignalFunc) p_smp_text_gamma_upd_callback,
&g_di);
gtk_widget_show (g_di.text_lvl_in_gamma);
gtk_widget_show (hbox);
/* high input text */
sprintf(&txt_buf[0], "%d", (int)g_values.lvl_in_max);
g_di.text_lvl_in_max = gtk_entry_new ();
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_in_max), &txt_buf[0]);
gtk_widget_set_usize (g_di.text_lvl_in_max, TEXT_WIDTH, 25);
gtk_box_pack_start (GTK_BOX (hbox), g_di.text_lvl_in_max, FALSE, FALSE, 0);
gtk_signal_connect (GTK_OBJECT (g_di.text_lvl_in_max), "changed",
(GtkSignalFunc) p_smp_text_lvl_in_max_upd_callback,
&g_di);
gtk_widget_show (g_di.text_lvl_in_max);
gtk_widget_show (hbox);
/* Horizontal box for OUTPUT levels text widget */
hbox = gtk_hbox_new (TRUE, 2);
gtk_table_attach ( GTK_TABLE (table), hbox, 2, 4, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
label = gtk_label_new (_("Out Level: "));
gtk_box_pack_start (GTK_BOX (hbox), label, FALSE, FALSE, 0);
gtk_widget_show (label);
/* min output text */
sprintf(&txt_buf[0], "%d", (int)g_values.lvl_out_min);
g_di.text_lvl_out_min = gtk_entry_new ();
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_out_min), &txt_buf[0]);
gtk_widget_set_usize (g_di.text_lvl_out_min, TEXT_WIDTH, 25);
gtk_box_pack_start (GTK_BOX (hbox), g_di.text_lvl_out_min, FALSE, FALSE, 0);
gtk_signal_connect (GTK_OBJECT (g_di.text_lvl_out_min), "changed",
(GtkSignalFunc) p_smp_text_lvl_out_min_upd_callback,
&g_di);
gtk_widget_show (g_di.text_lvl_out_min);
/* high output text */
sprintf(&txt_buf[0], "%d", (int)g_values.lvl_out_max);
g_di.text_lvl_out_max = gtk_entry_new ();
gtk_entry_set_text (GTK_ENTRY (g_di.text_lvl_out_max), &txt_buf[0]);
gtk_widget_set_usize (g_di.text_lvl_out_max, TEXT_WIDTH, 25);
gtk_box_pack_start (GTK_BOX (hbox), g_di.text_lvl_out_max, FALSE, FALSE, 0);
gtk_signal_connect (GTK_OBJECT (g_di.text_lvl_out_max), "changed",
(GtkSignalFunc) p_smp_text_lvl_out_max_upd_callback,
&g_di);
gtk_widget_show (g_di.text_lvl_out_max);
gtk_widget_show (hbox);
l_ty++;
/* check button */
check_button = gtk_check_button_new_with_label (_("Hold Intensity"));
gtk_table_attach ( GTK_TABLE (table), check_button, 0, 1, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
gtk_signal_connect (GTK_OBJECT (check_button), "toggled",
(GtkSignalFunc) p_smp_toggle_callback,
&g_values.hold_inten);
gtk_toggle_button_set_state (GTK_TOGGLE_BUTTON (check_button),
g_values.hold_inten);
gtk_widget_show (check_button);
/* check button */
check_button = gtk_check_button_new_with_label (_("Original Intensity"));
g_di.orig_inten_button = check_button;
gtk_table_attach ( GTK_TABLE (table), check_button, 1, 2, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
gtk_signal_connect (GTK_OBJECT (check_button), "toggled",
(GtkSignalFunc) p_smp_toggle_callback,
&g_values.orig_inten);
gtk_toggle_button_set_state (GTK_TOGGLE_BUTTON (check_button),
g_values.orig_inten);
gtk_widget_set_sensitive(g_di.orig_inten_button,g_values.hold_inten);
gtk_widget_show (check_button);
/* check button */
check_button = gtk_check_button_new_with_label (_("Use Subcolors"));
gtk_table_attach ( GTK_TABLE (table), check_button, 2, 3, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
gtk_signal_connect (GTK_OBJECT (check_button), "toggled",
(GtkSignalFunc) p_smp_toggle_callback,
&g_values.rnd_subcolors);
gtk_toggle_button_set_state (GTK_TOGGLE_BUTTON (check_button),
g_values.rnd_subcolors);
gtk_widget_show (check_button);
/* check button */
check_button = gtk_check_button_new_with_label (_("Smooth Samplecolors"));
gtk_table_attach ( GTK_TABLE (table), check_button, 3, 4, l_ty, l_ty+1, GTK_FILL, 0, 0, 0);
gtk_signal_connect (GTK_OBJECT (check_button), "toggled",
(GtkSignalFunc) p_smp_toggle_callback,
&g_values.guess_missing);
gtk_toggle_button_set_state (GTK_TOGGLE_BUTTON (check_button),
g_values.guess_missing);
gtk_widget_show (check_button);
l_ty++;
gtk_widget_show (table);
gtk_widget_show (frame);
gtk_widget_show (dialog);
/* set old_id's different (to force updates of the previews) */
g_di.enable_preview_update = TRUE;
p_smp_get_colors_callback(NULL, NULL);
p_update_preview(&g_values.dst_id);
p_levels_update (INPUT_SLIDERS | INPUT_LEVELS | DRAW);
gtk_main ();
gdk_flush ();
return (0);
} /* end p_smp_dialog */
/* ============================================================================
* p_gimp_convert_rgb
* PDB Call
* ============================================================================
*/
gint
p_gimp_convert_rgb (gint32 image_id)
{
static char *l_gimp_convert_rgb_proc = "gimp_convert_rgb";
GParam *return_vals;
int nreturn_vals;
return_vals = gimp_run_procedure (l_gimp_convert_rgb_proc,
&nreturn_vals,
PARAM_IMAGE, image_id,
PARAM_END);
if (return_vals[0].data.d_status == STATUS_SUCCESS)
{
return(TRUE);
}
printf("Error: PDB call of %s failed staus=%d\n",
l_gimp_convert_rgb_proc, (int)return_vals[0].data.d_status);
return(FALSE);
} /* end p_gimp_convert_rgb */
/* ============================================================================
* p_get_gimp_selection_bounds
*
* ============================================================================
*/
gint
p_get_gimp_selection_bounds (gint32 image_id, gint32 *x1, gint32 *y1, gint32 *x2, gint32 *y2)
{
static char *l_get_sel_bounds_proc = "gimp_selection_bounds";
GParam *return_vals;
int nreturn_vals;
return_vals = gimp_run_procedure (l_get_sel_bounds_proc,
&nreturn_vals,
PARAM_IMAGE, image_id,
PARAM_END);
if (return_vals[0].data.d_status == STATUS_SUCCESS)
{
*x1 = return_vals[2].data.d_int32;
*y1 = return_vals[3].data.d_int32;
*x2 = return_vals[4].data.d_int32;
*y2 = return_vals[5].data.d_int32;
return(return_vals[1].data.d_int32);
}
printf("Error: PDB call of %s failed staus=%d\n",
l_get_sel_bounds_proc, (int)return_vals[0].data.d_status);
return(FALSE);
} /* end p_get_gimp_selection_bounds */
/* -----------------------------
* DEBUG print procedures START
* -----------------------------
*/
static void
p_print_ppm(char *ppm_name)
{
FILE *fp;
int l_idx;
int l_cnt;
int l_r, l_g, l_b;
t_samp_color_elem *col_ptr;
if(ppm_name == NULL) return;
fp = fopen(ppm_name, "w");
if(fp)
{
fprintf(fp, "P3\n# CREATOR: Gimp sample coloros\n256 256\n255\n");
for(l_idx = 0; l_idx < 256; l_idx++)
{
col_ptr = g_lum_tab[l_idx].col_ptr;
for(l_cnt = 0; l_cnt < 256; l_cnt++)
{
l_r = l_g = l_b = 0;
if(col_ptr)
{
if((col_ptr->sum_color > 0) && (l_cnt != 20))
{
l_r = (int)col_ptr->color[0];
l_g = (int)col_ptr->color[1];
l_b = (int)col_ptr->color[2];
}
if(l_cnt > 20) col_ptr = col_ptr->next;
}
fprintf(fp, "%d %d %d\n", l_r, l_g, l_b);
}
}
fclose(fp);
}
}
static void
p_print_color_list(FILE *fp, t_samp_color_elem *col_ptr)
{
if(fp == NULL) return;
while(col_ptr)
{
fprintf(fp, " RGBA: %03d %03d %03d %03d sum: [%d]\n",
(int)col_ptr->color[0],
(int)col_ptr->color[1],
(int)col_ptr->color[2],
(int)col_ptr->color[3],
(int)col_ptr->sum_color
);
col_ptr = col_ptr->next;
}
}
static void
p_print_table(FILE *fp)
{
int l_idx;
if(fp == NULL) return;
fprintf(fp, "---------------------------\n");
fprintf(fp, "p_print_table\n");
fprintf(fp, "---------------------------\n");
for(l_idx = 0; l_idx < 256; l_idx++)
{
fprintf(fp, "LUM [%03d] pixcount:%d\n", l_idx, (int)g_lum_tab[l_idx].all_samples);
p_print_color_list(fp, g_lum_tab[l_idx].col_ptr);
}
}
static void
p_print_transtable(FILE *fp)
{
int l_idx;
if(fp == NULL) return;
fprintf(fp, "---------------------------\n");
fprintf(fp, "p_print_transtable\n");
fprintf(fp, "---------------------------\n");
for(l_idx = 0; l_idx < 256; l_idx++)
{
fprintf(fp, "LVL_TRANS [%03d] in_lvl: %3d out_lvl: %3d\n",
l_idx, (int)g_lvl_trans_tab[l_idx], (int)g_out_trans_tab[l_idx]);
}
}
static void
p_print_values(FILE *fp)
{
if(fp == NULL) return;
fprintf(fp, "sample_colorize: params\n");
fprintf(fp, "g_values.hold_inten :%d\n", (int)g_values.hold_inten);
fprintf(fp, "g_values.orig_inten :%d\n", (int)g_values.orig_inten);
fprintf(fp, "g_values.rnd_subcolors :%d\n", (int)g_values.rnd_subcolors);
fprintf(fp, "g_values.guess_missing :%d\n", (int)g_values.guess_missing);
fprintf(fp, "g_values.lvl_in_min :%d\n", (int)g_values.lvl_in_min);
fprintf(fp, "g_values.lvl_in_max :%d\n", (int)g_values.lvl_in_max);
fprintf(fp, "g_values.lvl_in_gamma :%f\n", g_values.lvl_in_gamma);
fprintf(fp, "g_values.lvl_out_min :%d\n", (int)g_values.lvl_out_min);
fprintf(fp, "g_values.lvl_out_max :%d\n", (int)g_values.lvl_out_max);
fprintf(fp, "g_values.tol_col_err :%f\n", g_values.tol_col_err);
}
/* -----------------------------
* DEBUG print procedures END
* -----------------------------
*/
/* DEBUG: read values from file */
void
p_get_filevalues()
{
FILE *l_fp;
char l_buf[1000];
/*
g_values.lvl_out_min = 0;
g_values.lvl_out_max = 255;
g_values.lvl_in_min = 0;
g_values.lvl_in_max = 255;
g_values.lvl_in_gamma = 1.0;
*/
g_values.tol_col_err = 5.5;
l_fp = fopen("sample_colorize.values", "r");
if(l_fp != NULL)
{
fgets(&l_buf[0], 999, l_fp);
sscanf(&l_buf[0], "%f",
&g_values.tol_col_err
);
fclose(l_fp);
}
printf("g_values.tol_col_err :%f\n", g_values.tol_col_err);
} /* end p_get_filevalues */
gint32 p_color_error(guchar ref_red, guchar ref_green, guchar ref_blue,
guchar cmp_red, guchar cmp_green, guchar cmp_blue)
{
long l_ff;
long l_fs;
long cmp_h, ref_h;
/* 1. Brightness differences */
cmp_h = (3 * cmp_red + 6 * cmp_green + cmp_blue) / 10;
ref_h = (3 * ref_red + 6 * ref_green + ref_blue) / 10;
l_fs = abs(ref_h - cmp_h);
l_ff = l_fs * l_fs;
/* 2. add Red Color differences */
l_fs = abs(ref_red - cmp_red);
l_ff += (l_fs * l_fs);
/* 3. add Green Color differences */
l_fs = abs(ref_green - cmp_green);
l_ff += (l_fs * l_fs);
/* 4. add Blue Color differences */
l_fs = abs(ref_blue - cmp_blue);
l_ff += (l_fs * l_fs);
return((gint32)(l_ff));
} /* end p_color_error */
static void
p_provide_tile(t_GDRW *gdrw, gint col, gint row, gint shadow )
{
guchar *ptr;
gint i;
if ( col != gdrw->tile_col || row != gdrw->tile_row || !gdrw->tile )
{
if( gdrw->tile )
{
gimp_tile_unref( gdrw->tile, gdrw->tile_dirty );
}
gdrw->tile_col = col;
gdrw->tile_row = row;
gdrw->tile = gimp_drawable_get_tile( gdrw->drawable, shadow, gdrw->tile_row, gdrw->tile_col );
gdrw->tile_dirty = FALSE;
gimp_tile_ref( gdrw->tile );
gdrw->tile_swapcount++;
return;
/* debug start */
printf("\np_provide_tile: row: %d col: %d data:", (int)row, (int)col);
ptr = gdrw->tile->data;
for(i=0; i < 16; i++)
{
printf(" %d", (int)(*ptr));
ptr++;
}
printf("\n\n");
/* debug stop */
}
} /* end p_provide_tile */
/* get pixel value
* return light gray pixel if out of bounds
* (should occur in the previews only)
*/
static void
p_get_pixel( t_GDRW *gdrw, gint32 x, gint32 y, guchar *pixel )
{
gint row, col;
gint offx, offy;
guchar *ptr;
if((x < 0)
|| (x > gdrw->drawable->width -1)
|| (y < 0)
|| (y > gdrw->drawable->height - 1))
{
pixel[0] = pixel[1] = pixel[2] = 200;
pixel[3] = 255;
return;
}
/* gimp_pixel_rgn_get_pixel(&gdrw->pr, pixel, x, y); */
col = x / gdrw->tile_width;
row = y / gdrw->tile_height;
offx = x % gdrw->tile_width;
offy = y % gdrw->tile_height;
p_provide_tile( gdrw, col, row, gdrw->shadow);
pixel[1] = 255; pixel[3] = 255; /* simulate full visible alpha channel */
ptr = gdrw->tile->data + ((( offy * gdrw->tile->ewidth) + offx ) * gdrw->bpp);
memcpy(pixel, ptr, gdrw->bpp);
return;
printf("p_get_pixel: x: %d y: %d bpp:%d RGBA:%d %d %d %d\n", (int)x, (int)y, (int)gdrw->bpp, (int)pixel[0], (int)pixel[1], (int)pixel[2], (int)pixel[3]);
}
/* clear table */
static void
p_clear_tables()
{
gint l_idx;
for(l_idx = 0; l_idx < 256; l_idx++)
{
g_lum_tab[l_idx].col_ptr = NULL;
g_lum_tab[l_idx].all_samples = 0;
g_lvl_trans_tab[l_idx] = l_idx;
g_out_trans_tab[l_idx] = l_idx;
g_sample_color_tab[l_idx + l_idx + l_idx] = l_idx;
g_sample_color_tab[l_idx + l_idx + l_idx +1] = l_idx;
g_sample_color_tab[l_idx + l_idx + l_idx +2] = l_idx;
}
}
/* free all allocated sample colors in table g_lum_tab */
void
p_free_colors()
{
int l_lum;
t_samp_color_elem *l_col_ptr;
t_samp_color_elem *l_next_ptr;
for(l_lum = 0; l_lum < 256; l_lum++)
{
for(l_col_ptr = g_lum_tab[l_lum].col_ptr;
l_col_ptr != NULL;
l_col_ptr = l_next_ptr)
{
l_next_ptr = (t_samp_color_elem *)l_col_ptr->next;
free(l_col_ptr);
}
g_lum_tab[l_lum].col_ptr = NULL;
g_lum_tab[l_lum].all_samples = 0;
}
} /* end p_free_colors */
/* setup lum transformer table according to input_levels, gamma and output levels
* (uses sam algorithm as GIMP Level Tool)
*/
static void
p_calculate_level_transfers ()
{
double inten;
int i;
int l_in_min, l_in_max;
int l_out_min, l_out_max;
if(g_values.lvl_in_max >= g_values.lvl_in_min)
{
l_in_max = g_values.lvl_in_max;
l_in_min = g_values.lvl_in_min;
}
else
{
l_in_max = g_values.lvl_in_min;
l_in_min = g_values.lvl_in_max;
}
if(g_values.lvl_out_max >= g_values.lvl_out_min)
{
l_out_max = g_values.lvl_out_max;
l_out_min = g_values.lvl_out_min;
}
else
{
l_out_max = g_values.lvl_out_min;
l_out_min = g_values.lvl_out_max;
}
/* Recalculate the levels arrays */
for (i = 0; i < 256; i++)
{
/* determine input intensity */
inten = (double) i / 255.0;
if (g_values.lvl_in_gamma != 0.0)
{
inten = pow (inten, (1.0 / g_values.lvl_in_gamma));
}
inten = (double) (inten * (l_in_max - l_in_min) + l_in_min);
inten = CLAMP (inten, 0.0, 255.0);
g_lvl_trans_tab[i] = (unsigned char) (inten + 0.5);
/* determine the output intensity */
inten = (double) i / 255.0;
inten = (double) (inten * (l_out_max - l_out_min) + l_out_min);
inten = CLAMP (inten, 0.0, 255.0);
g_out_trans_tab[i] = (unsigned char) (inten + 0.5);
}
} /* end p_calculate_level_transfers */
/* alloc and init new col Element */
t_samp_color_elem *
p_new_samp_color(guchar *color)
{
t_samp_color_elem *l_col_ptr;
l_col_ptr = calloc(1, sizeof(t_samp_color_elem));
if(l_col_ptr == NULL)
{
printf("Error: cant get Memory\n");
return(NULL);
}
memcpy(&l_col_ptr->color[0], color, 4);
l_col_ptr->sum_color = 1;
l_col_ptr->next = NULL;
return (l_col_ptr);
} /* end p_new_samp_color */
/* store color in g_lum_tab */
void
p_add_color(guchar *color)
{
gint32 l_lum;
t_samp_color_elem *l_col_ptr;
l_lum = LUMINOSITY_1(color);
g_lum_tab[l_lum].all_samples++;
g_lum_tab[l_lum].from_sample = TRUE;
/* check if exactly the same color is already in the list */
for(l_col_ptr = g_lum_tab[l_lum].col_ptr;
l_col_ptr != NULL;
l_col_ptr = (t_samp_color_elem *)l_col_ptr->next)
{
if((color[0] == l_col_ptr->color[0])
&& (color[1] == l_col_ptr->color[1])
&& (color[2] == l_col_ptr->color[2]))
{
l_col_ptr->sum_color++;
return;
}
}
/* alloc and init element for the new color */
l_col_ptr = p_new_samp_color(color);
if(l_col_ptr != NULL)
{
/* add new color element as 1.st of the list */
l_col_ptr->next = g_lum_tab[l_lum].col_ptr;
g_lum_tab[l_lum].col_ptr = l_col_ptr;
}
} /* end p_add_color */
/* sort Sublists (color) by descending sum_color in g_lum_tab
*/
void
p_sort_color(gint32 lum)
{
t_samp_color_elem *l_col_ptr;
t_samp_color_elem *l_next_ptr;
t_samp_color_elem *l_prev_ptr;
t_samp_color_elem *l_sorted_col_ptr;
gint32 l_min;
gint32 l_min_next;
l_sorted_col_ptr = NULL;
l_min_next = 0;
while(g_lum_tab[lum].col_ptr != NULL)
{
l_min = l_min_next;
l_next_ptr = NULL;
l_prev_ptr = NULL;
for(l_col_ptr = g_lum_tab[lum].col_ptr;
l_col_ptr != NULL;
l_col_ptr = l_next_ptr)
{
l_next_ptr = l_col_ptr->next;
if(l_col_ptr->sum_color > l_min)
{
/* check min value for next loop */
if((l_col_ptr->sum_color < l_min_next) || (l_min == l_min_next))
{
l_min_next = l_col_ptr->sum_color;
}
l_prev_ptr = l_col_ptr;
}
else
{
/* add element at head of sorted list */
l_col_ptr->next = l_sorted_col_ptr;
l_sorted_col_ptr = l_col_ptr;
/* remove element from list */
if(l_prev_ptr == NULL)
{
g_lum_tab[lum].col_ptr = l_next_ptr; /* remove 1.st element */
}
else
{
l_prev_ptr->next = l_next_ptr;
}
}
}
}
g_lum_tab[lum].col_ptr = l_sorted_col_ptr;
} /* end p_sort_color */
void
p_cnt_same_sample_colortones(t_samp_color_elem *ref_ptr, guchar *prev_color, guchar *color_tone, int *csum)
{
gint32 l_col_error, l_ref_error;
t_samp_color_elem *l_col_ptr;
l_ref_error = 0;
if(prev_color != NULL)
{
l_ref_error = p_color_error(ref_ptr->color[0], ref_ptr->color[1], ref_ptr->color[2],
prev_color[0], prev_color[1], prev_color[2]);
}
/* collect colors that are (nearly) the same */
for(l_col_ptr = ref_ptr->next;
l_col_ptr != NULL;
l_col_ptr = (t_samp_color_elem *)l_col_ptr->next)
{
if(l_col_ptr->sum_color < 1)
{
continue;
}
l_col_error = p_color_error(ref_ptr->color[0], ref_ptr->color[1], ref_ptr->color[2],
l_col_ptr->color[0], l_col_ptr->color[1], l_col_ptr->color[2]);
if(l_col_error <= g_tol_col_err )
{
/* cout color of the same colortone */
*csum += l_col_ptr->sum_color;
/* mark the already checked color with negative sum_color value */
l_col_ptr->sum_color = 0 - l_col_ptr->sum_color;
if(prev_color != NULL)
{
l_col_error = p_color_error(l_col_ptr->color[0], l_col_ptr->color[1], l_col_ptr->color[2],
prev_color[0], prev_color[1], prev_color[2]);
if(l_col_error < l_ref_error)
{
/* use the color that is closest to prev_color */
memcpy(color_tone, &l_col_ptr->color[0], 3);
l_ref_error = l_col_error;
}
}
}
}
} /* end p_cnt_same_sample_colortones */
/* find the dominant colortones (out of all sample colors)
* for each available brightness intensity value.
* and store them in g_sample_color_tab
*/
void
p_ideal_samples()
{
gint32 l_lum;
t_samp_color_elem *l_col_ptr;
guchar *l_color;
guchar l_color_tone[4];
guchar l_color_ideal[4];
int l_csum, l_maxsum;
l_color = NULL;
for(l_lum = 0; l_lum < 256; l_lum++)
{
if(g_lum_tab[l_lum].col_ptr == NULL) { continue; }
p_sort_color(l_lum);
l_col_ptr = g_lum_tab[l_lum].col_ptr;
memcpy(&l_color_ideal[0], &l_col_ptr->color[0], 3);
l_maxsum = 0;
/* collect colors that are (nearly) the same */
for(;
l_col_ptr != NULL;
l_col_ptr = (t_samp_color_elem *)l_col_ptr->next)
{
l_csum = 0;
if(l_col_ptr->sum_color > 0)
{
memcpy(&l_color_tone[0], &l_col_ptr->color[0], 3);
p_cnt_same_sample_colortones(l_col_ptr, l_color, &l_color_tone[0], &l_csum);
if(l_csum > l_maxsum)
{
l_maxsum = l_csum;
memcpy(&l_color_ideal[0], &l_color_tone[0], 3);
}
}
else
{
l_col_ptr->sum_color = abs(l_col_ptr->sum_color);
}
}
/* store ideal color and keep track of the color */
l_color = &g_sample_color_tab[l_lum + l_lum + l_lum];
memcpy(l_color, &l_color_ideal[0], 3);
}
} /* end p_ideal_samples */
void
p_guess_missing_colors()
{
gint32 l_lum;
gint32 l_idx;
float l_div;
guchar l_lo_color[4];
guchar l_hi_color[4];
guchar l_new_color[4];
l_lo_color[0] = 0;
l_lo_color[1] = 0;
l_lo_color[2] = 0;
l_lo_color[3] = 255;
l_hi_color[0] = 255;
l_hi_color[1] = 255;
l_hi_color[2] = 255;
l_hi_color[3] = 255;
l_new_color[0] = 0;
l_new_color[1] = 0;
l_new_color[2] = 0;
l_new_color[3] = 255;
for(l_lum = 0; l_lum < 256; l_lum++)
{
if((g_lum_tab[l_lum].col_ptr == NULL) || (g_lum_tab[l_lum].from_sample == FALSE))
{
if(l_lum > 0)
{
for(l_idx = l_lum; l_idx < 256; l_idx++)
{
if((g_lum_tab[l_idx].col_ptr != NULL) && (g_lum_tab[l_idx].from_sample))
{
memcpy(&l_hi_color[0], &g_sample_color_tab[l_idx + l_idx + l_idx], 3);
break;
}
if(l_idx == 255)
{
l_hi_color[0] = 255;
l_hi_color[1] = 255;
l_hi_color[2] = 255;
break;
}
}
l_div = l_idx - (l_lum -1);
l_new_color[0] = l_lo_color[0] + ((float)(l_hi_color[0] - l_lo_color[0]) / l_div);
l_new_color[1] = l_lo_color[1] + ((float)(l_hi_color[1] - l_lo_color[1]) / l_div);
l_new_color[2] = l_lo_color[2] + ((float)(l_hi_color[2] - l_lo_color[2]) / l_div);
/*
* printf("LO: %03d %03d %03d HI: %03d %03d %03d NEW: %03d %03d %03d\n",
* (int)l_lo_color[0], (int)l_lo_color[1], (int)l_lo_color[2],
* (int)l_hi_color[0], (int)l_hi_color[1], (int)l_hi_color[2],
* (int)l_new_color[0], (int)l_new_color[1], (int)l_new_color[2]);
*/
}
g_lum_tab[l_lum].col_ptr = p_new_samp_color(&l_new_color[0]);
g_lum_tab[l_lum].from_sample = FALSE;
memcpy(&g_sample_color_tab[l_lum + l_lum + l_lum], &l_new_color[0], 3);
}
memcpy(&l_lo_color[0], &g_sample_color_tab[l_lum + l_lum + l_lum], 3);
}
} /* end p_guess_missing_colors */
void
p_fill_missing_colors()
{
gint32 l_lum;
gint32 l_idx;
gint32 l_lo_idx;
guchar l_lo_color[4];
guchar l_hi_color[4];
guchar l_new_color[4];
l_lo_color[0] = 0;
l_lo_color[1] = 0;
l_lo_color[2] = 0;
l_lo_color[3] = 255;
l_hi_color[0] = 255;
l_hi_color[1] = 255;
l_hi_color[2] = 255;
l_hi_color[3] = 255;
l_new_color[0] = 0;
l_new_color[1] = 0;
l_new_color[2] = 0;
l_new_color[3] = 255;
l_lo_idx = 0;
for(l_lum = 0; l_lum < 256; l_lum++)
{
if((g_lum_tab[l_lum].col_ptr == NULL) || (g_lum_tab[l_lum].from_sample == FALSE))
{
if(l_lum > 0)
{
for(l_idx = l_lum; l_idx < 256; l_idx++)
{
if((g_lum_tab[l_idx].col_ptr != NULL) && (g_lum_tab[l_idx].from_sample))
{
memcpy(&l_hi_color[0], &g_sample_color_tab[l_idx + l_idx + l_idx], 3);
break;
}
if(l_idx == 255)
{
/*
* l_hi_color[0] = 255;
* l_hi_color[1] = 255;
* l_hi_color[2] = 255;
*/
memcpy(&l_hi_color[0], &l_lo_color[0], 3);
break;
}
}
if((l_lum > (l_lo_idx + ((l_idx - l_lo_idx ) / 2)))
|| (l_lo_idx == 0))
{
l_new_color[0] = l_hi_color[0];
l_new_color[1] = l_hi_color[1];
l_new_color[2] = l_hi_color[2];
}
else
{
l_new_color[0] = l_lo_color[0];
l_new_color[1] = l_lo_color[1];
l_new_color[2] = l_lo_color[2];
}
}
g_lum_tab[l_lum].col_ptr = p_new_samp_color(&l_new_color[0]);
g_lum_tab[l_lum].from_sample = FALSE;
memcpy(&g_sample_color_tab[l_lum + l_lum + l_lum], &l_new_color[0], 3);
}
else
{
l_lo_idx = l_lum;
memcpy(&l_lo_color[0], &g_sample_color_tab[l_lum + l_lum + l_lum], 3);
}
}
} /* end p_fill_missing_colors */
/* get 256 samples of active gradient (optional in invers order) */
static void
p_get_gradient (int mode)
{
gdouble *f_samples, *f_samp; /* float samples */
gint l_lum;
p_free_colors();
f_samples = gimp_gradients_sample_uniform (256 /* n_samples */);
for (l_lum = 0; l_lum < 256; l_lum++)
{
if(mode == SMP_GRADIENT) { f_samp = &f_samples[l_lum * 4]; }
else { f_samp = &f_samples[(255 - l_lum) * 4]; }
g_sample_color_tab[l_lum + l_lum + l_lum ] = f_samp[0] * 255;
g_sample_color_tab[l_lum + l_lum + l_lum +1] = f_samp[1] * 255;
g_sample_color_tab[l_lum + l_lum + l_lum +2] = f_samp[2] * 255;
g_lum_tab[l_lum].col_ptr = p_new_samp_color(&g_sample_color_tab[l_lum + l_lum + l_lum]);
g_lum_tab[l_lum].from_sample = TRUE;
g_lum_tab[l_lum].all_samples = 1;
}
g_free (f_samples);
} /* end p_get_gradient */
gint32
p_is_layer_alive(gint32 drawable_id)
{
/* return -1 if layer has become invalid */
gint32 *layers;
gint32 *images;
gint nlayers;
gint nimages;
gint l_idi, l_idl;
gint l_found;
if(drawable_id < 0)
{
return (-1);
}
/* gimp_layer_get_image_id: crash in gimp 1.1.2 if called with invalid drawable_id
* gimp 1.0.2 works fine !!
*/
/*
* if(gimp_layer_get_image_id(drawable_id) < 0)
* {
* printf("sample colorize: invalid image_id (maybe Image was closed)\n");
* return (-1);
* }
*/
images = gimp_query_images(&nimages);
l_idi = nimages -1;
l_found = FALSE;
while((l_idi >= 0) && images)
{
layers = gimp_image_get_layers (images[l_idi], &nlayers);
l_idl = nlayers -1;
while((l_idl >= 0) && layers)
{
if(drawable_id == layers[l_idl])
{
l_found = TRUE;
break;
}
l_idl--;
}
g_free(layers);
l_idi--;
}
if(images) g_free(images);
if(!l_found)
{
printf("sample colorize: unknown layer_id %d (Image closed?)\n", (int)drawable_id);
return (-1);
}
return(drawable_id);
} /* end p_is_layer_alive */
void
p_end_gdrw(t_GDRW *gdrw)
{
t_GDRW *l_sel_gdrw;
if(g_Sdebug) printf("\np_end_gdrw: drawable %x ID: %d\n", (int)gdrw->drawable, (int)gdrw->drawable->id);
if(gdrw->tile)
{
if(g_Sdebug) printf("p_end_gdrw: tile unref\n");
gimp_tile_unref( gdrw->tile, gdrw->tile_dirty);
gdrw->tile = NULL;
}
l_sel_gdrw = (t_GDRW *)(gdrw->sel_gdrw);
if(l_sel_gdrw)
{
if(l_sel_gdrw->tile)
{
if(g_Sdebug) printf("p_end_gdrw: sel_tile unref\n");
gimp_tile_unref( l_sel_gdrw->tile, l_sel_gdrw->tile_dirty);
l_sel_gdrw->tile = NULL;
if(g_Sdebug) printf("p_end_gdrw:SEL_TILE_SWAPCOUNT: %d\n", (int)l_sel_gdrw->tile_swapcount);
}
gdrw->sel_gdrw = NULL;
}
if(g_Sdebug) printf("p_end_gdrw:TILE_SWAPCOUNT: %d\n", (int)gdrw->tile_swapcount);
} /* end p_end_gdrw */
void
p_init_gdrw(t_GDRW *gdrw, GDrawable *drawable, int dirty, int shadow)
{
gint32 l_image_id;
gint32 l_sel_channel_id;
gint32 l_x1, l_x2, l_y1, l_y2;
gint l_offsetx, l_offsety;
gint l_sel_offsetx, l_sel_offsety;
t_GDRW *l_sel_gdrw;
if(g_Sdebug) printf("\np_init_gdrw: drawable %x ID: %d\n", (int)drawable, (int)drawable->id);
gdrw->drawable = drawable;
gdrw->tile = NULL;
gdrw->tile_dirty = FALSE;
gdrw->tile_width = gimp_tile_width ();
gdrw->tile_height = gimp_tile_height ();
gdrw->shadow = shadow;
gdrw->tile_swapcount = 0;
gdrw->seldeltax = 0;
gdrw->seldeltay = 0;
gimp_drawable_offsets (drawable->id, &l_offsetx, &l_offsety); /* get offsets within the image */
gimp_drawable_mask_bounds (drawable->id, &gdrw->x1, &gdrw->y1, &gdrw->x2, &gdrw->y2);
/*
* gimp_pixel_rgn_init (&gdrw->pr, drawable,
* gdrw->x1, gdrw->y1, gdrw->x2 - gdrw->x1, gdrw->y2 - gdrw->y1,
* dirty, shadow);
*/
gdrw->bpp = drawable->bpp;
if (gimp_drawable_has_alpha(drawable->id))
{
/* index of the alpha channelbyte {1|3} */
gdrw->index_alpha = gdrw->bpp -1;
}
else
{
gdrw->index_alpha = 0; /* there is no alpha channel */
}
l_image_id = gimp_layer_get_image_id(drawable->id);
/* check and see if we have a selection mask */
l_sel_channel_id = gimp_image_get_selection(l_image_id);
if(g_Sdebug)
{
printf("p_init_gdrw: image_id %d sel_channel_id: %d\n", (int)l_image_id, (int)l_sel_channel_id);
printf("p_init_gdrw: BOUNDS x1: %d y1: %d x2:%d y2: %d\n",
(int)gdrw->x1, (int)gdrw->y1, (int)gdrw->x2,(int)gdrw->y2);
printf("p_init_gdrw: OFFS x: %d y: %d\n", (int)l_offsetx, (int)l_offsety );
}
if((p_get_gimp_selection_bounds(l_image_id, &l_x1, &l_y1, &l_x2, &l_y2))
&& (l_sel_channel_id >= 0))
{
/* selection is TRUE */
l_sel_gdrw = (t_GDRW *) calloc(1, sizeof(t_GDRW));
l_sel_gdrw->drawable = gimp_drawable_get (l_sel_channel_id);
l_sel_gdrw->tile = NULL;
l_sel_gdrw->tile_dirty = FALSE;
l_sel_gdrw->tile_width = gimp_tile_width ();
l_sel_gdrw->tile_height = gimp_tile_height ();
l_sel_gdrw->shadow = shadow;
l_sel_gdrw->tile_swapcount = 0;
l_sel_gdrw->x1 = l_x1;
l_sel_gdrw->y1 = l_y1;
l_sel_gdrw->x2 = l_x2;
l_sel_gdrw->y2 = l_y2;
l_sel_gdrw->seldeltax = 0;
l_sel_gdrw->seldeltay = 0;
l_sel_gdrw->bpp = l_sel_gdrw->drawable->bpp; /* should be always 1 */
l_sel_gdrw->index_alpha = 0; /* there is no alpha channel */
l_sel_gdrw->sel_gdrw = NULL;
/* offset delta between drawable and selection
* (selection always has image size and should always have offsets of 0 )
*/
gimp_drawable_offsets (l_sel_channel_id, &l_sel_offsetx, &l_sel_offsety);
gdrw->seldeltax = l_offsetx - l_sel_offsetx;
gdrw->seldeltay = l_offsety - l_sel_offsety;
gdrw->sel_gdrw = (t_GDRW *) l_sel_gdrw;
if(g_Sdebug)
{
printf("p_init_gdrw: SEL_BOUNDS x1: %d y1: %d x2:%d y2: %d\n",
(int)l_sel_gdrw->x1, (int)l_sel_gdrw->y1, (int)l_sel_gdrw->x2,(int)l_sel_gdrw->y2);
printf("p_init_gdrw: SEL_OFFS x: %d y: %d\n", (int)l_sel_offsetx, (int)l_sel_offsety );
printf("p_init_gdrw: SEL_DELTA x: %d y: %d\n", (int)gdrw->seldeltax, (int)gdrw->seldeltay );
}
}
else
{
gdrw->sel_gdrw = NULL; /* selection is FALSE */
}
} /* end p_init_gdrw */
/* analyze the colors in the sample_drawable */
int
p_sample_analyze(t_GDRW *sample_gdrw)
{
gint32 l_sample_pixels;
gint32 l_row, l_col;
gint32 l_first_row, l_first_col, l_last_row, l_last_col;
gint32 l_x, l_y;
gint32 l_x2, l_y2;
float l_progress_step;
float l_progress_max;
float l_progress;
guchar color[4];
FILE *prot_fp;
l_sample_pixels = 0;
/* init progress */
l_progress_max = (sample_gdrw->x2 - sample_gdrw->x1);
l_progress_step = 1.0 / l_progress_max;
l_progress = 0.0;
if(g_show_progress) gimp_progress_init (_("Sample Analyze..."));
prot_fp = NULL;
if(g_Sdebug) prot_fp = fopen("sample_colors.dump", "w");
p_print_values(prot_fp);
/* ------------------------------------------------
* foreach pixel in the SAMPLE_drawable:
* calculate brightness intensity LUM
* ------------------------------------------------
* the inner loops (l_x/l_y) are designed to process
* all pixels of one tile in the sample drawable, the outer loops (row/col) do step
* to the next tiles. (this was done to reduce tile swapping)
*/
l_first_row = sample_gdrw->y1 / sample_gdrw->tile_height;
l_last_row = (sample_gdrw->y2 / sample_gdrw->tile_height);
l_first_col = sample_gdrw->x1 / sample_gdrw->tile_width;
l_last_col = (sample_gdrw->x2 / sample_gdrw->tile_width);
for(l_row = l_first_row; l_row <= l_last_row; l_row++)
{
for(l_col = l_first_col; l_col <= l_last_col; l_col++)
{
if(l_col == l_first_col) l_x = sample_gdrw->x1;
else l_x = l_col * sample_gdrw->tile_width;
if(l_col == l_last_col) l_x2 = sample_gdrw->x2;
else l_x2 = (l_col +1) * sample_gdrw->tile_width;
for( ; l_x < l_x2; l_x++)
{
if(l_row == l_first_row) l_y = sample_gdrw->y1;
else l_y = l_row * sample_gdrw->tile_height;
if(l_row == l_last_row) l_y2 = sample_gdrw->y2;
else l_y2 = (l_row +1) * sample_gdrw->tile_height ;
/* printf("X: %4d Y:%4d Y2:%4d\n", (int)l_x, (int)l_y, (int)l_y2); */
for( ; l_y < l_y2; l_y++)
{
/* check if the pixel is in the selection */
if(sample_gdrw->sel_gdrw)
{
p_get_pixel(sample_gdrw->sel_gdrw,
(l_x + sample_gdrw->seldeltax),
(l_y + sample_gdrw->seldeltay),
&color[0]);
if(color[0] == 0)
{
continue;
}
}
p_get_pixel(sample_gdrw, l_x, l_y, &color[0]);
/* if this is a visible (non-transparent) pixel */
if((sample_gdrw->index_alpha < 1) || (color[sample_gdrw->index_alpha] != 0))
{
/* store color in the sublists of g_lum_tab */
p_add_color(&color[0]);
l_sample_pixels++;
}
}
if(g_show_progress) gimp_progress_update (l_progress += l_progress_step);
}
}
}
if(g_Sdebug) printf("ROWS: %d - %d COLS: %d - %d\n", (int)l_first_row, (int)l_last_row, (int)l_first_col, (int)l_last_col);
p_print_table(prot_fp);
if(g_Sdebug) p_print_ppm("sample_color_all.ppm");
/* findout ideal sample colors for each brightness intensity (lum)
* and set g_sample_color_tab to the ideal colors.
*/
p_ideal_samples();
p_calculate_level_transfers ();
if(g_values.guess_missing) { p_guess_missing_colors(); }
else { p_fill_missing_colors(); }
p_print_table(prot_fp);
if(g_Sdebug) p_print_ppm("sample_color_2.ppm");
p_print_transtable(prot_fp);
if(prot_fp) fclose(prot_fp);
/* check if there was at least one visible pixel */
if(l_sample_pixels == 0)
{
printf("Error: Source sample has no visible Pixel\n");
return -1;
}
return 0;
} /* end p_sample_analyze */
void
p_rnd_remap(gint32 lum, guchar *mapped_color)
{
t_samp_color_elem *l_col_ptr;
int l_rnd;
int l_ct;
int l_idx;
if(g_lum_tab[lum].all_samples > 1)
{
l_rnd = rand() % g_lum_tab[lum].all_samples;
l_ct = 0;
l_idx = 0;
for(l_col_ptr = g_lum_tab[lum].col_ptr;
l_col_ptr != NULL;
l_col_ptr = (t_samp_color_elem *)l_col_ptr->next)
{
l_ct += l_col_ptr->sum_color;
if(l_rnd < l_ct)
{
/* printf("RND_remap: rnd: %d all:%d ct:%d idx:%d\n",
* l_rnd, (int)g_lum_tab[lum].all_samples, l_ct, l_idx);
*/
memcpy(mapped_color, &l_col_ptr->color[0], 3);
return;
}
l_idx++;
}
}
memcpy(mapped_color, &g_sample_color_tab[lum + lum + lum], 3);
} /* end p_rnd_remap */
void
p_remap_pixel(guchar *pixel, guchar *original, gint bpp2)
{
guchar mapped_color[4];
int l_lum;
double l_orig_lum, l_mapped_lum;
double l_grn, l_red, l_blu;
double l_mg, l_mr, l_mb;
double l_dg, l_dr, l_db;
double l_dlum;
l_lum = g_out_trans_tab[g_lvl_trans_tab[LUMINOSITY_1(original)]]; /* get brightness from (uncolorized) original */
if(g_values.rnd_subcolors)
{
p_rnd_remap(l_lum, mapped_color);
}
else
{
memcpy(mapped_color, &g_sample_color_tab[l_lum + l_lum + l_lum], 3);
}
if(g_values.hold_inten)
{
if(g_values.orig_inten) { l_orig_lum = LUMINOSITY_0(original); }
else { l_orig_lum = 100.0 * g_lvl_trans_tab[LUMINOSITY_1(original)]; }
l_mapped_lum = LUMINOSITY_0(mapped_color);
if(l_mapped_lum == 0)
{
/* convert black to greylevel with desired brightness value */
mapped_color[0] = l_orig_lum / 100.0;
mapped_color[1] = mapped_color[0];
mapped_color[2] = mapped_color[0];
}
else
{
/* Calculate therotecal RGB to reach given intensity LUM value (l_orig_lum) */
l_mr = mapped_color[0];
l_mg = mapped_color[1];
l_mb = mapped_color[2];
if(l_mr > 0.0)
{
l_red = l_orig_lum / (30 + (59 * l_mg / l_mr) + (11 * l_mb / l_mr));
l_grn = l_mg * l_red / l_mr;
l_blu = l_mb * l_red / l_mr;
}
else if (l_mg > 0.0)
{
l_grn = l_orig_lum / ((30 * l_mr / l_mg) + 59 + (11 * l_mb / l_mg));
l_red = l_mr * l_grn / l_mg;
l_blu = l_mb * l_grn / l_mg;
}
else
{
l_blu = l_orig_lum / ((30 * l_mr / l_mb) + (59 * l_mg / l_mb) + 11);
l_grn = l_mg * l_blu / l_mb;
l_red = l_mr * l_blu / l_mb;
}
/* on overflow: Calculate real RGB values
* (this may change the hue and saturation,
* more and more into white)
*/
if(l_red > 255)
{
if((l_blu < 255) && (l_grn < 255))
{
/* overflow in the red channel (compensate with green and blu) */
l_dlum = (l_red - 255.0) * 30.0;
if(l_mg > 0)
{
l_dg = l_dlum / (59.0 + (11.0 * l_mb / l_mg));
l_db = l_dg * l_mb / l_mg;
}
else if(l_mb > 0)
{
l_db = l_dlum / (11.0 + (59.0 * l_mg / l_mb));
l_dg = l_db * l_mg / l_mb;
}
else
{
l_db = l_dlum / (11.0 + 59.0);
l_dg = l_dlum / (59.0 + 11.0);
}
l_grn += l_dg;
l_blu += l_db;
}
l_red = 255.0;
if(l_grn > 255)
{
l_grn = 255.0;
l_blu = (l_orig_lum - 22695) / 11; /* 22695 = (255*30) + (255*59) */
}
if(l_blu > 255)
{
l_blu = 255.0;
l_grn = (l_orig_lum - 10455) / 59; /* 10455 = (255*30) + (255*11) */
}
}
else if(l_grn > 255)
{
if((l_blu < 255) && (l_red < 255))
{
/* overflow in the green channel (compensate with red and blu) */
l_dlum = (l_grn - 255.0) * 59.0;
if(l_mr > 0)
{
l_dr = l_dlum / (30.0 + (11.0 * l_mb / l_mr));
l_db = l_dr * l_mb / l_mr;
}
else if(l_mb > 0)
{
l_db = l_dlum / (11.0 + (30.0 * l_mr / l_mb));
l_dr = l_db * l_mr / l_mb;
}
else
{
l_db = l_dlum / (11.0 + 30.0);
l_dr = l_dlum / (30.0 + 11.0);
}
l_red += l_dr;
l_blu += l_db;
}
l_grn = 255.0;
if(l_red > 255)
{
l_red = 255.0;
l_blu = (l_orig_lum - 22695) / 11; /* 22695 = (255*59) + (255*30) */
}
if(l_blu > 255)
{
l_blu = 255.0;
l_red = (l_orig_lum - 17850) / 30; /* 17850 = (255*59) + (255*11) */
}
}
else if(l_blu > 255)
{
if((l_red < 255) && (l_grn < 255))
{
/* overflow in the blue channel (compensate with green and red) */
l_dlum = (l_blu - 255.0) * 11.0;
if(l_mg > 0)
{
l_dg = l_dlum / (59.0 + (30.0 * l_mr / l_mg));
l_dr = l_dg * l_mr / l_mg;
}
else if(l_mr > 0)
{
l_dr = l_dlum / (30.0 + (59.0 * l_mg / l_mr));
l_dg = l_dr * l_mg / l_mr;
}
else
{
l_dr = l_dlum / (30.0 + 59.0);
l_dg = l_dlum / (59.0 + 30.0);
}
l_grn += l_dg;
l_red += l_dr;
}
l_blu = 255.0;
if(l_grn > 255)
{
l_grn = 255.0;
l_red = (l_orig_lum - 17850) / 30; /* 17850 = (255*11) + (255*59) */
}
if(l_red > 255)
{
l_red = 255.0;
l_grn = (l_orig_lum - 10455) / 59; /* 10455 = (255*11) + (255*30) */
}
}
mapped_color[0] = CLAMP(l_red + 0.5, 0, 255);
mapped_color[1] = CLAMP(l_grn + 0.5, 0, 255);
mapped_color[2] = CLAMP(l_blu + 0.5, 0, 255);
}
}
/* set colorized pixel in shadow pr */
memcpy(pixel, &mapped_color[0], bpp2);
} /* end p_remap_pixel */
void
p_colorize_drawable(gint32 drawable_id)
{
GDrawable *drawable;
GPixelRgn pixel_rgn;
GPixelRgn shadow_rgn;
gpointer pr;
gint l_row, l_col;
gint l_bpp2;
gint l_has_alpha;
gint l_idx_alpha;
guchar *l_ptr;
guchar *l_row_ptr;
guchar *l_sh_ptr;
guchar *l_sh_row_ptr;
gint32 l_x1, l_x2, l_y1, l_y2;
float l_progress_step;
float l_progress;
if(drawable_id < 1) return;
drawable = gimp_drawable_get (drawable_id);
if(drawable == NULL) return;
gimp_drawable_mask_bounds (drawable->id, &l_x1, &l_y1, &l_x2, &l_y2);
gimp_pixel_rgn_init (&pixel_rgn, drawable,
l_x1, l_y1, l_x2 - l_x1, l_y2 - l_y1,
FALSE, /* dirty */
FALSE /* shadow */
);
gimp_pixel_rgn_init (&shadow_rgn, drawable,
l_x1, l_y1, l_x2 - l_x1, l_y2 - l_y1,
TRUE, /* dirty */
TRUE /* shadow */
);
/* init progress */
l_progress_step = 1.0 / ((1 + l_y2 - l_y1) * (1+ ((l_x2 - l_x1)/gimp_tile_width ())));
l_progress = 0.0;
if(g_show_progress) gimp_progress_init (_("Remap Colorized..."));
l_bpp2 = pixel_rgn.bpp;
l_idx_alpha = pixel_rgn.bpp -1;
l_has_alpha = gimp_drawable_has_alpha(drawable->id);
if(l_has_alpha)
{
l_bpp2--; /* do not remap the alpha channel bytes */
}
for (pr = gimp_pixel_rgns_register (2, &pixel_rgn, &shadow_rgn);
pr != NULL; pr = gimp_pixel_rgns_process (pr))
{
l_row_ptr = pixel_rgn.data;
l_sh_row_ptr = shadow_rgn.data;
for ( l_row = 0; l_row < pixel_rgn.h; l_row++ )
{
l_ptr = l_row_ptr;
l_sh_ptr = l_sh_row_ptr;
for( l_col = 0; l_col < pixel_rgn.w; l_col++)
{
/* if this is a visible (non-transparent) pixel */
if(l_has_alpha)
{
l_sh_ptr[l_idx_alpha] = l_ptr[l_idx_alpha];
}
p_remap_pixel(l_sh_ptr, l_ptr, l_bpp2); /* set colorized pixel in shadow pr */
l_ptr += pixel_rgn.bpp;
l_sh_ptr += shadow_rgn.bpp;
}
l_row_ptr += pixel_rgn.rowstride;
l_sh_row_ptr += shadow_rgn.rowstride;
if(g_show_progress) gimp_progress_update (l_progress += l_progress_step);
}
if(g_Sdebug) printf ("ROWS done, progress :%f\n", (float)l_progress);
}
gimp_drawable_flush (drawable);
gimp_drawable_merge_shadow (drawable->id, TRUE);
gimp_drawable_update (drawable->id, l_x1, l_y1, l_x2 - l_x1, l_y2 - l_y1);
} /* end p_colorize_drawable */
/* colorize dst_drawable like sample_drawable */
int
p_main_colorize(gint mc_flags)
{
GDrawable *dst_drawable;
GDrawable *sample_drawable;
t_GDRW l_sample_gdrw;
gint32 l_max;
gint32 l_id;
int l_rc;
if(g_Sdebug) p_get_filevalues(); /* for debugging: read values from file */
sample_drawable = NULL;
dst_drawable = NULL;
/* calculate value of tolerable color error */
l_max = p_color_error(0,0,0,255,255,255); /* 260100 */
g_tol_col_err = (((float)l_max * (g_values.tol_col_err * g_values.tol_col_err)) / (100.0 *100.0));
g_max_col_err = l_max;
srand(time(NULL));
l_rc = 0;
if(mc_flags & MC_GET_SAMPLE_COLORS)
{
l_id = g_values.sample_id;
if((l_id == SMP_GRADIENT) || (l_id == SMP_INV_GRADIENT))
{
p_get_gradient(l_id);
}
else
{
if(p_is_layer_alive(l_id) < 0) { return (-1); }
sample_drawable = gimp_drawable_get (l_id);
p_init_gdrw(&l_sample_gdrw, sample_drawable, FALSE, FALSE);
p_free_colors();
l_rc = p_sample_analyze(&l_sample_gdrw);
}
}
if((mc_flags & MC_DST_REMAP) && (l_rc == 0))
{
if(p_is_layer_alive(g_values.dst_id) < 0) { return (-1); }
dst_drawable = gimp_drawable_get (g_values.dst_id);
if(gimp_drawable_is_gray(g_values.dst_id))
{
if(mc_flags & MC_DST_REMAP)
{
p_gimp_convert_rgb(gimp_layer_get_image_id(g_values.dst_id));
}
}
p_colorize_drawable(dst_drawable->id);
}
if(sample_drawable)
{
p_end_gdrw(&l_sample_gdrw);
}
return (l_rc);
} /* end p_main_colorize */