mirror of https://github.com/GNOME/gimp.git
501 lines
13 KiB
C
501 lines
13 KiB
C
/* The GIMP -- an image manipulation program
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* Copyright (C) 1995 Spencer Kimball and Peter Mattis
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*
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* Apply lens plug-in --- makes your selected part of the image look like it
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* is viewed under a solid lens.
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* Copyright (C) 1997 Morten Eriksen
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* mortene@pvv.ntnu.no
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* (If you do anything cool with this plug-in, or have ideas for
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* improvements (which aren't on my ToDo-list) - send me an email).
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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*/
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/*
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* Compile with (on Linux):
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* gcc -I/usr/local/include -I/usr/local/include/glib -o apply_lens apply_lens.c -L/usr/local/lib -L/usr/X11/lib -lgtk -lgdk -lgimp -lglib -lXext -lX11 -lm
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*
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*/
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/* Version 0.1:
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*
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* First release. No known serious bugs, and basically does what you want.
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* All fancy features postponed until the next release, though. :)
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*
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*/
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/*
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TO DO:
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- antialiasing
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- preview image
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- adjustable (R, G, B and A) filter
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- optimize for speed!
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- refraction index warning dialog box when value < 1.0
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- use "true" lens with specified thickness
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- option to apply inverted lens
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- adjustable "c" value in the ellipsoid formula
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- radiobuttons for "ellipsoid" or "only horiz" and "only vert" (like in the
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Ad*b* Ph*t*sh*p Spherify plug-in..)
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- clean up source code
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*/
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#include "config.h"
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#include <stdio.h>
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#include <stdlib.h>
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#include <gtk/gtk.h>
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#include "libgimp/gimp.h"
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#include "libgimp/gimpui.h"
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#include "libgimp/stdplugins-intl.h"
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#define ENTRY_WIDTH 100
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/* Declare local functions.
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*/
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static void query(void);
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static void run(char *name, int nparams,
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GParam *param,
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int *nreturn_vals,
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GParam **return_vals);
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static void drawlens(GDrawable *drawable);
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static gint lens_dialog(GDrawable *drawable);
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GPlugInInfo PLUG_IN_INFO =
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{
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NULL, /* init_proc */
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NULL, /* quit_proc */
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query, /* query_proc */
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run, /* run_proc */
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};
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typedef struct
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{
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gdouble refraction;
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gint keep_surr, use_bkgr, set_transparent;
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} LensValues;
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static LensValues lvals =
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{
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/* Lens refraction value */
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1.7,
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/* Surroundings options */
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TRUE, FALSE, FALSE
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};
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typedef struct
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{
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gint run;
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} LensInterface;
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static LensInterface bint =
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{
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FALSE /* run */
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};
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MAIN()
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static void
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query(void)
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{
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static GParamDef args[] =
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{
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{ PARAM_INT32, "run_mode", "Interactive, non-interactive" },
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{ PARAM_IMAGE, "image", "Input image (unused)" },
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{ PARAM_DRAWABLE, "drawable", "Input drawable" },
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{ PARAM_FLOAT, "refraction", "Lens refraction index" },
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{ PARAM_INT32, "keep_surroundings", "Keep lens surroundings" },
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{ PARAM_INT32, "set_background", "Set lens surroundings to bkgr value" },
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{ PARAM_INT32, "set_transparent", "Set lens surroundings transparent" },
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};
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static GParamDef *return_vals = NULL;
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static int nargs = sizeof(args)/ sizeof(args[0]);
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static int nreturn_vals = 0;
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INIT_I18N();
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gimp_install_procedure("plug_in_applylens",
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_("Apply a lens effect"),
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_("This plug-in uses Snell's law to draw an ellipsoid lens over the image"),
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"Morten Eriksen",
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"Morten Eriksen",
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"1997",
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N_("<Image>/Filters/Glass Effects/Apply Lens..."),
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"RGB*, GRAY*, INDEXED*",
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PROC_PLUG_IN,
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nargs, nreturn_vals,
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args, return_vals);
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}
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static void
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run(char *name,
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int nparams,
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GParam *param,
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int *nreturn_vals,
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GParam **return_vals)
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{
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static GParam values[1];
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GDrawable *drawable;
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GRunModeType run_mode;
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GStatusType status = STATUS_SUCCESS;
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INIT_I18N_UI();
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run_mode = param[0].data.d_int32;
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values[0].type = PARAM_STATUS;
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values[0].data.d_status = status;
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*nreturn_vals = 1;
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*return_vals = values;
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drawable = gimp_drawable_get(param[2].data.d_drawable);
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switch(run_mode) {
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case RUN_INTERACTIVE:
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gimp_get_data("plug_in_applylens", &lvals);
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if(!lens_dialog(drawable)) return;
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break;
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case RUN_NONINTERACTIVE:
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if(nparams != 7) status = STATUS_CALLING_ERROR;
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if(status == STATUS_SUCCESS) {
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lvals.refraction = param[3].data.d_float;
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lvals.keep_surr = param[4].data.d_int32;
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lvals.use_bkgr = param[5].data.d_int32;
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lvals.set_transparent = param[6].data.d_int32;
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}
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if(status == STATUS_SUCCESS && (lvals.refraction < 1.0))
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status = STATUS_CALLING_ERROR;
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break;
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case RUN_WITH_LAST_VALS:
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gimp_get_data ("plug_in_applylens", &lvals);
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break;
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default:
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break;
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}
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gimp_tile_cache_ntiles(2 *(drawable->width / gimp_tile_width() + 1));
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gimp_progress_init(_("Applying lens..."));
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drawlens(drawable);
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if(run_mode != RUN_NONINTERACTIVE)
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gimp_displays_flush();
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if(run_mode == RUN_INTERACTIVE)
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gimp_set_data("plug_in_applylens", &lvals, sizeof(LensValues));
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values[0].data.d_status = status;
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gimp_drawable_detach(drawable);
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}
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/*
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Ellipsoid formula: x^2/a^2 + y^2/b^2 + z^2/c^2 = 1
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*/
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static void
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find_projected_pos(gfloat a, gfloat b,
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gfloat x, gfloat y,
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gfloat *projx, gfloat *projy)
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{
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gfloat c;
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gfloat n[3];
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gfloat nxangle, nyangle, theta1, theta2;
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gfloat ri1 = 1.0, ri2 = lvals.refraction;
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/* PARAM */
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c = MIN(a, b);
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n[0] = x;
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n[1] = y;
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n[2] = sqrt((1-x*x/(a*a)-y*y/(b*b))*(c*c));
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nxangle = acos(n[0]/sqrt(n[0]*n[0]+n[2]*n[2]));
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theta1 = G_PI/2 - nxangle;
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theta2 = asin(sin(theta1)*ri1/ri2);
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theta2 = G_PI/2 - nxangle - theta2;
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*projx = x - tan(theta2)*n[2];
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nyangle = acos(n[1]/sqrt(n[1]*n[1]+n[2]*n[2]));
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theta1 = G_PI/2 - nyangle;
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theta2 = asin(sin(theta1)*ri1/ri2);
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theta2 = G_PI/2 - nyangle - theta2;
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*projy = y - tan(theta2)*n[2];
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}
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static void
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drawlens(GDrawable *drawable)
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{
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GPixelRgn srcPR, destPR;
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gint width, height;
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gint bytes;
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gint row;
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gint x1, y1, x2, y2;
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guchar *src, *dest;
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gint i, col;
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gfloat regionwidth, regionheight, dx, dy, xsqr, ysqr;
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gfloat a, b, asqr, bsqr, x, y;
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glong pixelpos, pos;
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guchar bgr_red, bgr_blue, bgr_green, alphaval;
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GDrawableType drawtype = gimp_drawable_type(drawable->id);
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gimp_palette_get_background(&bgr_red, &bgr_green, &bgr_blue);
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gimp_drawable_mask_bounds(drawable->id, &x1, &y1, &x2, &y2);
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regionwidth = x2-x1;
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a = regionwidth/2;
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regionheight = y2-y1;
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b = regionheight/2;
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asqr = a*a;
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bsqr = b*b;
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width = drawable->width;
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height = drawable->height;
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bytes = drawable->bpp;
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gimp_pixel_rgn_init(&srcPR, drawable, 0, 0, width, height, FALSE, FALSE);
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gimp_pixel_rgn_init(&destPR, drawable, 0, 0, width, height, TRUE, TRUE);
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src = g_malloc((x2-x1)*(y2-y1)*bytes);
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dest = g_malloc((x2-x1)*(y2-y1)*bytes);
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gimp_pixel_rgn_get_rect(&srcPR, src, x1, y1, regionwidth, regionheight);
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for(col = 0; col < regionwidth; col++) {
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dx = (gfloat)col - a + 0.5;
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xsqr = dx*dx;
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for(row = 0; row < regionheight; row++) {
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pixelpos = (col+row*regionwidth)*bytes;
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dy = -((gfloat)row - b) - 0.5;
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ysqr = dy*dy;
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if(ysqr < (bsqr - (bsqr*xsqr)/asqr)) {
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find_projected_pos(a, b, dx, dy, &x, &y);
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y = -y;
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pos = ((gint)(y+b)*regionwidth + (gint)(x+a)) * bytes;
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for(i = 0; i < bytes; i++) {
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dest[pixelpos+i] = src[pos+i];
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}
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}
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else {
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if(lvals.keep_surr) {
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for(i = 0; i < bytes; i++) {
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dest[pixelpos+i] = src[pixelpos+i];
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}
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}
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else {
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if(lvals.set_transparent) alphaval = 0;
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else alphaval = 255;
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switch(drawtype) {
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case INDEXEDA_IMAGE:
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dest[pixelpos+1] = alphaval;
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case INDEXED_IMAGE:
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dest[pixelpos+0] = 0;
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break;
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case RGBA_IMAGE:
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dest[pixelpos+3] = alphaval;
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case RGB_IMAGE:
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dest[pixelpos+0] = bgr_red;
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dest[pixelpos+1] = bgr_green;
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dest[pixelpos+2] = bgr_blue;
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break;
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case GRAYA_IMAGE:
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dest[pixelpos+1] = alphaval;
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case GRAY_IMAGE:
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dest[pixelpos+0] = bgr_red;
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break;
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}
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}
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}
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}
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if(((gint)(regionwidth-col) % 5) == 0)
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gimp_progress_update((gdouble)col/(gdouble)regionwidth);
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}
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gimp_pixel_rgn_set_rect(&destPR, dest, x1, y1, regionwidth, regionheight);
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g_free(src);
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g_free(dest);
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gimp_drawable_flush(drawable);
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gimp_drawable_merge_shadow(drawable->id, TRUE);
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gimp_drawable_update(drawable->id, x1, y1,(x2 - x1),(y2 - y1));
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}
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static void
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lens_close_callback(GtkWidget *widget,
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gpointer data)
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{
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gtk_main_quit();
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}
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static void
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lens_ok_callback(GtkWidget *widget,
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gpointer data)
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{
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bint.run = TRUE;
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gtk_widget_destroy(GTK_WIDGET (data));
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}
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static void
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lens_toggle_update(GtkWidget *widget,
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gpointer data)
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{
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int *toggle_val;
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toggle_val = (int *)data;
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if(GTK_TOGGLE_BUTTON (widget)->active)
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*toggle_val = TRUE;
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else
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*toggle_val = FALSE;
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}
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static void
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lens_entry_callback(GtkWidget *widget,
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gpointer data)
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{
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lvals.refraction = atof(gtk_entry_get_text(GTK_ENTRY(widget)));
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if(lvals.refraction < 1.0) lvals.refraction = 1.0;
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}
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static gint
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lens_dialog (GDrawable *drawable)
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{
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GtkWidget *dlg;
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GtkWidget *label;
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GtkWidget *entry;
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GtkWidget *toggle;
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GtkWidget *frame;
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GtkWidget *vbox;
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GtkWidget *hbox;
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gchar buffer[12];
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gchar **argv;
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gint argc;
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GSList *group = NULL;
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GDrawableType drawtype;
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drawtype = gimp_drawable_type (drawable->id);
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argc = 1;
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argv = g_new (gchar *, 1);
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argv[0] = g_strdup ("apply_lens");
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gtk_init (&argc, &argv);
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gtk_rc_parse (gimp_gtkrc ());
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dlg = gimp_dialog_new (_("Lens Effect"), "apply_lens",
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gimp_plugin_help_func, "filters/apply_lens.html",
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GTK_WIN_POS_MOUSE,
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FALSE, TRUE, FALSE,
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_("OK"), lens_ok_callback,
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NULL, NULL, NULL, TRUE, FALSE,
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_("Cancel"), gtk_widget_destroy,
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NULL, 1, NULL, FALSE, TRUE,
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NULL);
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gtk_signal_connect (GTK_OBJECT (dlg), "destroy",
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GTK_SIGNAL_FUNC (lens_close_callback),
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NULL);
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frame = gtk_frame_new (_("Parameter Settings"));
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gtk_frame_set_shadow_type (GTK_FRAME (frame), GTK_SHADOW_ETCHED_IN);
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gtk_container_border_width (GTK_CONTAINER (frame), 10);
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gtk_box_pack_start (GTK_BOX (GTK_DIALOG (dlg)->vbox), frame, TRUE, TRUE, 0);
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vbox = gtk_vbox_new (FALSE, 5);
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gtk_container_border_width (GTK_CONTAINER (vbox), 10);
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gtk_container_add (GTK_CONTAINER (frame), vbox);
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toggle = gtk_radio_button_new_with_label (group,
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_("Keep original surroundings"));
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group = gtk_radio_button_group (GTK_RADIO_BUTTON (toggle));
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gtk_box_pack_start (GTK_BOX (vbox), toggle, FALSE, FALSE, 0);
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gtk_signal_connect (GTK_OBJECT (toggle), "toggled",
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GTK_SIGNAL_FUNC (lens_toggle_update),
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&lvals.keep_surr);
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gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (toggle), lvals.keep_surr);
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gtk_widget_show (toggle);
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toggle =
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gtk_radio_button_new_with_label (group,
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drawtype == INDEXEDA_IMAGE ||
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drawtype == INDEXED_IMAGE ?
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_("Set surroundings to index 0") :
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_("Set surroundings to background color"));
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group = gtk_radio_button_group (GTK_RADIO_BUTTON (toggle));
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gtk_box_pack_start(GTK_BOX (vbox), toggle, FALSE, FALSE, 0);
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gtk_signal_connect (GTK_OBJECT (toggle), "toggled",
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GTK_SIGNAL_FUNC (lens_toggle_update),
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&lvals.use_bkgr);
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gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (toggle), lvals.use_bkgr);
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gtk_widget_show (toggle);
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if ((drawtype == INDEXEDA_IMAGE) ||
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(drawtype == GRAYA_IMAGE) ||
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(drawtype == RGBA_IMAGE))
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{
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toggle =
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gtk_radio_button_new_with_label (group,
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_("Make surroundings transparent"));
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group = gtk_radio_button_group (GTK_RADIO_BUTTON (toggle));
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gtk_box_pack_start (GTK_BOX (vbox), toggle, FALSE, FALSE, 0);
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gtk_signal_connect (GTK_OBJECT (toggle), "toggled",
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GTK_SIGNAL_FUNC (lens_toggle_update),
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&lvals.set_transparent);
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gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (toggle),
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lvals.set_transparent);
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gtk_widget_show (toggle);
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}
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hbox = gtk_hbox_new (FALSE, 5);
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gtk_box_pack_start (GTK_BOX (vbox), hbox, TRUE, TRUE, 0);
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label = gtk_label_new (_("Lens refraction index: "));
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gtk_box_pack_start (GTK_BOX (hbox), label, TRUE, FALSE, 0);
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gtk_widget_show (label);
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entry = gtk_entry_new ();
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gtk_box_pack_start (GTK_BOX (hbox), entry, TRUE, TRUE, 0);
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gtk_widget_set_usize (entry, ENTRY_WIDTH, 0);
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g_snprintf (buffer, sizeof (buffer), "%.2f", lvals.refraction);
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gtk_entry_set_text (GTK_ENTRY (entry), buffer);
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gtk_signal_connect (GTK_OBJECT (entry), "changed",
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GTK_SIGNAL_FUNC (lens_entry_callback),
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NULL);
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gtk_widget_show (entry);
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gtk_widget_show (hbox);
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gtk_widget_show (vbox);
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gtk_widget_show (frame);
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gtk_widget_show (dlg);
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gtk_main ();
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gdk_flush ();
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return bint.run;
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}
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