25'ten fazla konu seçemezsiniz
Konular bir harf veya rakamla başlamalı, kısa çizgiler ('-') içerebilir ve en fazla 35 karakter uzunluğunda olabilir.
534 satır
18 KiB
534 satır
18 KiB
/*
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* This file is part of the KDE project
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*
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* Copyright (c) 2005 Boudewijn <boud@valdyas.org>
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* Copyright (c) 2007 Benjamin Schleimer <bensch128@yahoo.com>
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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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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*
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* This implementation completely and utterly based on the gimp's bumpmap.c,
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* copyright:
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* Copyright (C) 1997 Federico Mena Quintero <federico@nuclecu.unam.mx>
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* Copyright (C) 1997-2000 Jens Lautenbacher <jtl@gimp.org>
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* Copyright (C) 2000 Sven Neumann <sven@gimp.org>
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*
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*/
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#include <stdlib.h>
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#include <vector>
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#include <tqpoint.h>
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#include <tqlayout.h>
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#include <tqcombobox.h>
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#include <tqcheckbox.h>
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#include <tqbuttongroup.h>
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#include <tqradiobutton.h>
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#include <tqstring.h>
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#include <tqpushbutton.h>
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#include <tqlineedit.h>
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#include <knuminput.h>
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#include <tdelocale.h>
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#include <kiconloader.h>
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#include <kinstance.h>
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#include <tdemessagebox.h>
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#include <kstandarddirs.h>
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#include <tdetempfile.h>
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#include <kdebug.h>
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#include <kgenericfactory.h>
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#include <kcombobox.h>
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#include <kis_doc.h>
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#include <kis_image.h>
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#include <kis_iterators_pixel.h>
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#include <kis_layer.h>
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#include <kis_filter_registry.h>
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#include <kis_global.h>
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#include <kis_types.h>
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#include <kis_layer.h>
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#include <kis_paint_layer.h>
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#include <kis_group_layer.h>
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#include <kis_adjustment_layer.h>
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#include "wdgbumpmap.h"
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#include "bumpmap.h"
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#define MOD(x, y) \
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((x) < 0 ? ((y) - 1 - ((y) - 1 - (x)) % (y)) : (x) % (y))
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typedef KGenericFactory<ChalkBumpmap> ChalkBumpmapFactory;
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K_EXPORT_COMPONENT_FACTORY( chalkbumpmap, ChalkBumpmapFactory( "chalk" ) )
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ChalkBumpmap::ChalkBumpmap(TQObject *parent, const char *name, const TQStringList &)
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: KParts::Plugin(parent, name)
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{
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setInstance(ChalkBumpmapFactory::instance());
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if (parent->inherits("KisFilterRegistry")) {
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KisFilterRegistry * manager = dynamic_cast<KisFilterRegistry *>(parent);
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manager->add(new KisFilterBumpmap());
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}
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}
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ChalkBumpmap::~ChalkBumpmap()
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{
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}
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KisFilterBumpmap::KisFilterBumpmap() : KisFilter(id(), "map", i18n("&Bumpmap..."))
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{
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}
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namespace {
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void convertRow(KisPaintDevice * orig, TQ_UINT8 * row, TQ_INT32 x, TQ_INT32 y, TQ_INT32 w, TQ_UINT8 * lut, TQ_INT32 waterlevel)
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{
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KisColorSpace * csOrig = orig->colorSpace();
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KisHLineIteratorPixel origIt = orig->createHLineIterator(x, y, w, false);
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for (int i = 0; i < w; ++i) {
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row[0] = csOrig->intensity8(origIt.rawData());
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row[0] = lut[waterlevel + ((row[0] - waterlevel) * csOrig->getAlpha(origIt.rawData())) / 255];
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++row;
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++origIt;
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}
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}
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}
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void KisFilterBumpmap::process(KisPaintDeviceSP src, KisPaintDeviceSP dst, KisFilterConfiguration* cfg, const TQRect& rect)
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{
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if (!src) return;
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if (!dst) return;
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if (!cfg) return;
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if (!rect.isValid()) return;
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if (rect.isNull()) return;
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if (rect.isEmpty()) return;
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KisBumpmapConfiguration * config = (KisBumpmapConfiguration*)cfg;
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TQ_INT32 xofs, yofs; /// The x,y offset values
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TQ_INT32 lx, ly; /* X and Y components of light vector */
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TQ_INT32 nz2, nzlz; /* nz^2, nz*lz */
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TQ_INT32 background; /* Shade for vertical normals */
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double compensation; /* Background compensation */
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TQ_UINT8 lut[256]; /* Look-up table for modes */
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double azimuth;
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double elevation;
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TQ_INT32 lz, nz;
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TQ_INT32 i;
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double n;
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// ------------------ Prepare parameters
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/* Convert the offsets */
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xofs = -config->xofs;
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yofs = -config->yofs;
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/* Convert to radians */
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azimuth = M_PI * config->azimuth / 180.0;
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elevation = M_PI * config->elevation / 180.0;
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/* Calculate the light vector */
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lx = (TQ_INT32)(cos(azimuth) * cos(elevation) * 255.0);
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ly = (TQ_INT32)(sin(azimuth) * cos(elevation) * 255.0);
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lz = (TQ_INT32)(sin(elevation) * 255.0);
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/* Calculate constant Z component of surface normal */
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nz = (TQ_INT32)((6 * 255) / config->depth);
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nz2 = nz * nz;
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nzlz = nz * lz;
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/* Optimize for vertical normals */
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background = lz;
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/* Calculate darkness compensation factor */
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compensation = sin(elevation);
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/* Create look-up table for map type */
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for (i = 0; i < 256; i++)
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{
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switch (config->type)
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{
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case SPHERICAL:
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n = i / 255.0 - 1.0;
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lut[i] = (int) (255.0 * sqrt(1.0 - n * n) + 0.5);
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break;
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case SINUSOIDAL:
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n = i / 255.0;
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lut[i] = (int) (255.0 *
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(sin((-M_PI / 2.0) + M_PI * n) + 1.0) /
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2.0 + 0.5);
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break;
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case LINEAR:
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default:
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lut[i] = i;
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}
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if (config->invert)
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lut[i] = 255 - lut[i];
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}
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// Crate a grayscale layer from the bumpmap layer.
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TQRect bmRect;
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KisPaintDevice * bumpmap;
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if (!config->bumpmap.isNull() && src->image()) {
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KisLayerSP l = src->image()->findLayer(config->bumpmap);
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KisPaintDeviceSP bumplayer = 0;
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KisPaintLayer * pl = dynamic_cast<KisPaintLayer*>(l.data());
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if (pl) {
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bumplayer = pl->paintDevice();
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}
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else {
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KisGroupLayer * gl = dynamic_cast<KisGroupLayer*>(l.data());
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if (gl) {
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bumplayer = gl->projection(gl->extent());
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}
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else {
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KisAdjustmentLayer * al = dynamic_cast<KisAdjustmentLayer*>(l.data());
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if (al) {
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bumplayer = al->cachedPaintDevice();
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}
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}
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}
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if (bumplayer) {
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bmRect = bumplayer->exactBounds();
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bumpmap = bumplayer.data();
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}
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else {
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bmRect = rect;
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bumpmap = src;
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}
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}
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if(!bmRect.isValid()) {
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bmRect = rect;
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bumpmap = src;
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}
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kdDebug(12345) << "KisFilterBumpmap::process: rect=" << rect << ", bumpmap rect=" << bmRect << "\n";
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setProgressTotalSteps(rect.height());
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// ---------------------- Load initial three bumpmap scanlines
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KisColorSpace * srcCs = src->colorSpace();
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TQValueVector<KisChannelInfo *> channels = srcCs->channels();
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// One byte per pixel, converted from the bumpmap layer.
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TQ_UINT8 * bm_row1 = new TQ_UINT8[bmRect.width()];
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TQ_UINT8 * bm_row2 = new TQ_UINT8[bmRect.width()];
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TQ_UINT8 * bm_row3 = new TQ_UINT8[bmRect.width()];
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TQ_UINT8 * tmp_row;
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// ------------------- Map the bumps
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TQ_INT32 yofs1, yofs2, yofs3;
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// ------------------- Initialize offsets
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if (config->tiled) {
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yofs2 = MOD (yofs, bmRect.height());
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yofs1 = MOD (yofs2 - 1, bmRect.height());
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yofs3 = MOD (yofs2 + 1, bmRect.height());
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}
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else {
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yofs2 = 0;
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yofs1 = yofs2 - 1;
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yofs3 = yofs2 + 1;
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}
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convertRow(bumpmap, bm_row1, bmRect.x(), yofs1+bmRect.top(), bmRect.width(), lut, config->waterlevel);
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convertRow(bumpmap, bm_row2, bmRect.x(), yofs2+bmRect.top(), bmRect.width(), lut, config->waterlevel);
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convertRow(bumpmap, bm_row3, bmRect.x(), yofs3+bmRect.top(), bmRect.width(), lut, config->waterlevel);
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for (int y = rect.top(); y<=rect.bottom(); y++) {
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const TQ_INT32 yBump = y+yofs;
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if(config->tiled || (bmRect.top()<=yBump && yBump<=bmRect.bottom()) ) {
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// Get the iterators
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KisHLineIteratorPixel dstIt = dst->createHLineIterator(rect.x(), y, rect.width(), true);
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KisHLineIteratorPixel srcIt = src->createHLineIterator(rect.x(), y, rect.width(), false);
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//while (x < sel_w || cancelRequested()) {
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while (!srcIt.isDone() && !cancelRequested()) {
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if (srcIt.isSelected()) {
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const TQ_INT32 xBump = srcIt.x()+xofs;
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TQ_INT32 nx, ny;
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// Calculate surface normal from bumpmap
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if (config->tiled || bmRect.left() <= xBump && xBump <= bmRect.right()) {
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TQ_INT32 xofs1, xofs2, xofs3;
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if (config->tiled) {
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xofs2 = MOD (xBump-bmRect.left(), bmRect.width());
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xofs1 = MOD (xofs2 - 1, bmRect.width());
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xofs3 = MOD (xofs2 + 1, bmRect.width());
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} else {
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xofs2 = MOD (xBump-bmRect.left(), bmRect.width());
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xofs1 = ::max (xofs2 - 1, 0);
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xofs3 = ::min (xofs2 + 1, bmRect.width());
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}
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nx = (bm_row1[xofs1] + bm_row2[xofs1] + bm_row3[xofs1] -
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bm_row1[xofs3] - bm_row2[xofs3] - bm_row3[xofs3]);
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ny = (bm_row3[xofs1] + bm_row3[xofs2] + bm_row3[xofs3] -
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bm_row1[xofs1] - bm_row1[xofs2] - bm_row1[xofs3]);
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} else {
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nx = 0;
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ny = 0;
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}
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// Shade
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TQ_INT32 shade;
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if ((nx == 0) && (ny == 0)) {
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shade = background;
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} else {
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TQ_INT32 ndotl = (nx * lx) + (ny * ly) + nzlz;
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if (ndotl < 0) {
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shade = (TQ_INT32)(compensation * config->ambient);
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} else {
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shade = (TQ_INT32)(ndotl / sqrt(nx * nx + ny * ny + nz2));
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shade = (TQ_INT32)(shade + TQMAX(0, (255 * compensation - shade)) * config->ambient / 255);
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}
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}
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// Paint
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srcCs->darken(srcIt.rawData(), dstIt.rawData(), shade, config->compensate, compensation, 1);
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}
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++srcIt;
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++dstIt;
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}
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// Go to the next row
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tmp_row = bm_row1;
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bm_row1 = bm_row2;
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bm_row2 = bm_row3;
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bm_row3 = tmp_row;
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yofs2++;
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if (yofs2 >= bmRect.height()) { yofs2 = 0; }
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if (config->tiled) {
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yofs3 = MOD (yofs2 + 1, bmRect.height());
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} else {
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yofs3 = yofs2 + 1;
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}
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convertRow(bumpmap, bm_row3, bmRect.x(), yofs3+bmRect.top(), bmRect.width(), lut, config->waterlevel);
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}
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incProgress();
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}
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delete [] bm_row1;
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delete [] bm_row2;
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delete [] bm_row3;
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setProgressDone();
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}
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KisFilterConfigWidget * KisFilterBumpmap::createConfigurationWidget(TQWidget* parent, KisPaintDeviceSP dev)
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{
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KisBumpmapConfigWidget * w = new KisBumpmapConfigWidget(this, dev, parent);
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return w;
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}
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KisFilterConfiguration * KisFilterBumpmap::configuration(TQWidget * w)
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{
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KisBumpmapConfigWidget * widget = dynamic_cast<KisBumpmapConfigWidget *>(w);
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if (widget == 0) {
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return new KisBumpmapConfiguration();
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}
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else {
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return widget->config();
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}
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}
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KisFilterConfiguration * KisFilterBumpmap::configuration()
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{
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return new KisBumpmapConfiguration();
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}
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KisBumpmapConfiguration::KisBumpmapConfiguration()
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: KisFilterConfiguration( "bumpmap", 1 )
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{
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bumpmap = TQString();
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azimuth = 135.0;
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elevation = 45.0;
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depth = 3;
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xofs = 0;
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yofs = 0;
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waterlevel = 0;
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ambient = 0;
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compensate = true;
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invert = false;
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tiled = true;
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type = chalk::LINEAR;
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}
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void KisBumpmapConfiguration::fromXML(const TQString & s)
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{
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KisFilterConfiguration::fromXML( s );
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bumpmap = TQString();
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azimuth = 135.0;
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elevation = 45.0;
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depth = 3;
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xofs = 0;
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yofs = 0;
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waterlevel = 0;
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ambient = 0;
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compensate = true;
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invert = false;
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tiled = true;
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type = chalk::LINEAR;
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TQVariant v;
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v = getProperty("bumpmap");
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if (v.isValid()) { bumpmap = v.asString(); }
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v = getProperty("azimuth");
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if (v.isValid()) { azimuth = v.asDouble(); }
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v = getProperty("elevation");
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if (v.isValid()) { elevation = v.asDouble();}
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v = getProperty("depth");
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if (v.isValid()) { depth = v.asDouble(); }
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v = getProperty("xofs");
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if (v.isValid()) { xofs = v.asInt(); }
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v = getProperty("yofs");
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if (v.isValid()) { yofs = v.asInt();}
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v = getProperty("waterlevel");
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if (v.isValid()) { waterlevel = v.asInt();}
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v = getProperty("ambient");
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if (v.isValid()) { ambient = v.asInt();}
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v = getProperty("compensate");
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if (v.isValid()) { compensate = v.asBool(); }
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v = getProperty("invert");
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if (v.isValid()) { invert = v.asBool(); }
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v = getProperty("tiled");
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if (v.isValid()) { tiled = v.asBool();}
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v = getProperty("type");
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if (v.isValid()) { type = (enumBumpmapType)v.asInt(); }
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}
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TQString KisBumpmapConfiguration::toString()
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{
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m_properties.clear();
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//setProperty("bumpmap", TQVariant(bumpmap));
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setProperty("azimuth", TQVariant(azimuth));
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setProperty("elevation", TQVariant(elevation));
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setProperty("depth", TQVariant(depth));
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setProperty("xofs", TQVariant(xofs));
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setProperty("yofs", TQVariant(yofs));
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setProperty("waterlevel", TQVariant(waterlevel));
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setProperty("ambient", TQVariant(ambient));
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setProperty("compensate", TQVariant(compensate));
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setProperty("invert", TQVariant(invert));
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setProperty("tiled", TQVariant(tiled));
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setProperty("type", TQVariant(type));
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return KisFilterConfiguration::toString();
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}
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KisBumpmapConfigWidget::KisBumpmapConfigWidget(KisFilter *, KisPaintDeviceSP dev, TQWidget * parent, const char * name, WFlags f)
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: KisFilterConfigWidget(parent, name, f)
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{
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m_page = new WdgBumpmap(this);
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TQHBoxLayout * l = new TQHBoxLayout(this);
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TQ_CHECK_PTR(l);
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l->add(m_page);
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// Find all of the layers in the group
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if(dev->image() ) {
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KisGroupLayerSP root = dev->image()->rootLayer();
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for(KisLayerSP layer = root->firstChild(); layer; layer = layer->nextSibling())
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{
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m_page->cboxSourceLayer->insertItem(layer->name());
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}
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}
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// Connect all of the widgets to update signal
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connect( m_page->radioLinear, TQT_SIGNAL( toggled(bool)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->radioSpherical, TQT_SIGNAL( toggled(bool)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->radioSinusoidal, TQT_SIGNAL( toggled(bool)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->chkCompensate, TQT_SIGNAL( toggled(bool)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->chkInvert, TQT_SIGNAL( toggled(bool)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->chkTiled, TQT_SIGNAL( toggled(bool)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->dblAzimuth, TQT_SIGNAL( valueChanged(int)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->dblElevation, TQT_SIGNAL( valueChanged(int)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->dblDepth, TQT_SIGNAL( valueChanged(int)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->intXOffset, TQT_SIGNAL( valueChanged(int)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->intYOffset, TQT_SIGNAL( valueChanged(int)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->intWaterLevel, TQT_SIGNAL( valueChanged(int)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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connect( m_page->intAmbient, TQT_SIGNAL( valueChanged(int)), TQT_SIGNAL(sigPleaseUpdatePreview()));
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}
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KisBumpmapConfiguration * KisBumpmapConfigWidget::config()
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{
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KisBumpmapConfiguration * cfg = new KisBumpmapConfiguration();
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cfg->bumpmap = m_page->cboxSourceLayer->currentText();
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cfg->azimuth = m_page->dblAzimuth->value();
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cfg->elevation = m_page->dblElevation->value();
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cfg->depth = m_page->dblDepth->value();
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cfg->xofs = m_page->intXOffset->value();
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cfg->yofs = m_page->intYOffset->value();
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cfg->waterlevel = m_page->intWaterLevel->value();
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cfg->ambient = m_page->intAmbient->value();
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cfg->compensate = m_page->chkCompensate->isChecked();
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cfg->invert = m_page->chkInvert->isChecked();
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cfg->tiled = m_page->chkTiled->isChecked();
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cfg->type = (enumBumpmapType)m_page->grpType->selectedId();
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return cfg;
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}
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void KisBumpmapConfigWidget::setConfiguration(KisFilterConfiguration * config)
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{
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KisBumpmapConfiguration * cfg = dynamic_cast<KisBumpmapConfiguration*>(config);
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if (!cfg) return;
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// NOTE: maybe we should find the item instead?
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m_page->cboxSourceLayer->setCurrentText( cfg->bumpmap );
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m_page->dblAzimuth->setValue(cfg->azimuth);
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m_page->dblElevation->setValue(cfg->elevation);
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m_page->dblDepth->setValue(cfg->depth);
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m_page->intXOffset->setValue(cfg->xofs);
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m_page->intYOffset->setValue(cfg->yofs);
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m_page->intWaterLevel->setValue(cfg->waterlevel);
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m_page->intAmbient->setValue(cfg->ambient);
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m_page->chkCompensate->setChecked(cfg->compensate);
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m_page->chkInvert->setChecked(cfg->invert);
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m_page->chkTiled->setChecked(cfg->tiled);
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m_page->grpType->setButton(cfg->type);
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|
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}
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#include "bumpmap.moc"
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