473 lines
11 KiB
C++
473 lines
11 KiB
C++
/***************************************************************************
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CImage.cpp
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(c) 2000-2017 Benoît Minisini <g4mba5@gmail.com>
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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, or (at your option)
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any later version.
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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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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,
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MA 02110-1301, USA.
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***************************************************************************/
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#define __CIMAGE_CPP
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#include <math.h>
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#include "gambas.h"
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#include "kimageeffect.h"
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#include "effect.h"
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#include "main.h"
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#include "CImage.h"
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static void return_copy(GB_IMAGE img)
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{
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GB_IMG *info = (GB_IMG *)img;
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GB_IMG *copy;
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copy = IMAGE.Create(info->width, info->height, info->format, info->data);
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GB.ReturnObject(copy);
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}
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BEGIN_METHOD(CIMAGE_gradient, GB_INTEGER w; GB_INTEGER h; GB_INTEGER cs; GB_INTEGER cd; GB_INTEGER orient; GB_FLOAT x; GB_FLOAT y)
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QSize size(VARG(w), VARG(h));
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QColor cs(VARG(cs));
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QColor cd(VARG(cd));
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if (MISSING(x) || MISSING(y))
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{
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QImage img = KImageEffect::gradient(size, cs, cd, (KImageEffect::GradientType)VARG(orient));
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GB.ReturnObject(img.object());
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}
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else
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{
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QImage img = KImageEffect::unbalancedGradient(size, cs, cd, (KImageEffect::GradientType)VARG(orient), (int)(VARG(x) * 200), (int)(VARG(y) * 200));
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GB.ReturnObject(img.object());
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}
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END_METHOD
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BEGIN_METHOD(CIMAGE_intensity, GB_FLOAT val; GB_INTEGER channel)
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KImageEffect::RGBComponent channel = KImageEffect::All;
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QImage img(THIS);
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if (!MISSING(channel))
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channel = (KImageEffect::RGBComponent)VARG(channel);
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if (channel == KImageEffect::All)
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KImageEffect::intensity(img, VARG(val));
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else
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KImageEffect::channelIntensity(img, VARG(val), channel);
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END_METHOD
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BEGIN_METHOD(CIMAGE_flatten, GB_INTEGER c1; GB_INTEGER c2)
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QImage img(THIS);
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KImageEffect::flatten(img, VARG(c1), VARG(c2));
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END_METHOD
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BEGIN_METHOD(CIMAGE_fade, GB_INTEGER col; GB_FLOAT val)
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QImage img(THIS);
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KImageEffect::fade(img, VARG(val), VARG(col));
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END_METHOD
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/*BEGIN_METHOD_VOID(CIMAGE_gray)
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QImage img(THIS);
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KImageEffect::toGray(img, false);
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END_METHOD*/
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/*BEGIN_METHOD(CIMAGE_desaturate, GB_FLOAT val)
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QImage img(THIS);
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KImageEffect::desaturate(img, VARGOPT(val, 0.3));
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END_METHOD*/
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BEGIN_METHOD(CIMAGE_threshold, GB_FLOAT val)
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QImage img(THIS);
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KImageEffect::threshold(img, (uint)(VARG(val) * 255));
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END_METHOD
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BEGIN_METHOD(CIMAGE_solarize, GB_FLOAT val)
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QImage img(THIS);
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KImageEffect::solarize(img, VARG(val) * 100);
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END_METHOD
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BEGIN_METHOD_VOID(CIMAGE_normalize)
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QImage img(THIS);
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KImageEffect::normalize(img);
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END_METHOD
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BEGIN_METHOD_VOID(CIMAGE_equalize)
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QImage img(THIS);
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KImageEffect::equalize(img);
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END_METHOD
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BEGIN_METHOD(CIMAGE_balance, GB_FLOAT brightness; GB_FLOAT contrast; GB_FLOAT gamma; GB_INTEGER channel)
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Effect::balance(THIS, VARGOPT(channel, Effect::All), (int)(VARG(brightness) * 50), (int)(VARG(contrast) * 50), (int)(VARG(gamma) * 50));
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END_METHOD
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BEGIN_METHOD(CIMAGE_invert, GB_INTEGER channel)
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Effect::invert(THIS, VARGOPT(channel, Effect::All));
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END_METHOD
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BEGIN_METHOD_VOID(CIMAGE_emboss)
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QImage src(THIS);
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QImage dest = KImageEffect::emboss(src, 0, 1);
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD(CIMAGE_edge, GB_FLOAT radius)
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double radius = VARGOPT(radius, -1);
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if (radius != 0)
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{
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if (radius < 0)
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radius = 0;
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QImage src(THIS);
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QImage dest = KImageEffect::edge(src, radius);
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GB.ReturnObject(dest.object());
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}
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else
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return_copy(THIS);
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END_METHOD
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BEGIN_METHOD_VOID(CIMAGE_despeckle)
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QImage src(THIS);
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QImage dest = KImageEffect::despeckle(src);
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD(CIMAGE_blur, GB_FLOAT val)
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double val = VARGOPT(val, 0.2);
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double sigma = 0.5 + val * (4.0 - 0.5);
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double radius = 8;
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QImage src(THIS);
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QImage dest = KImageEffect::blur(src, radius, sigma);
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD(CIMAGE_sharpen, GB_FLOAT val)
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double val = VARGOPT(val, 0.2);
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double radius = 0.1 + val * (2.5 - 0.1);
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double sigma = radius < 1 ? radius : sqrt(radius);
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QImage src(THIS);
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QImage dest = KImageEffect::sharpen(src, radius, sigma);
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD(CIMAGE_charcoal, GB_FLOAT radius)
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double radius = VARGOPT(radius, -1);
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if (radius != 0)
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{
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if (radius < 0)
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radius = 0;
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QImage src(THIS);
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QImage dest = KImageEffect::charcoal(src, radius, 0.5);
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GB.ReturnObject(dest.object());
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}
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else
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return_copy(THIS);
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END_METHOD
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BEGIN_METHOD(CIMAGE_oil_paint, GB_FLOAT radius)
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double radius = VARGOPT(radius, -1);
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if (radius != 0)
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{
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if (radius < 0)
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radius = 0;
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QImage src(THIS);
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QImage dest = KImageEffect::oilPaintConvolve(src, radius);
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GB.ReturnObject(dest.object());
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}
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else
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return_copy(THIS);
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END_METHOD
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BEGIN_METHOD(CIMAGE_spread, GB_INTEGER amount)
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int amount = VARGOPT(amount, 0);
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if (amount > 0)
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{
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QImage src(THIS);
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QImage dest = KImageEffect::spread(src, VARGOPT(amount, 3));
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GB.ReturnObject(dest.object());
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}
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else
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return_copy(THIS);
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END_METHOD
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BEGIN_METHOD(CIMAGE_shade, GB_FLOAT azimuth; GB_FLOAT elevation)
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QImage src(THIS);
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QImage dest = KImageEffect::shade(src, true, VARGOPT(azimuth, M_PI/6), VARGOPT(elevation, M_PI/6));
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD(CIMAGE_swirl, GB_FLOAT angle; GB_INTEGER background)
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QImage src(THIS);
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QImage dest = KImageEffect::swirl(src, VARGOPT(angle, M_PI/3), VARGOPT(background, 0xFFFFFF) ^ 0xFF000000);
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD(CIMAGE_wave, GB_FLOAT amp; GB_FLOAT freq; GB_INTEGER background)
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QImage src(THIS);
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QImage dest = KImageEffect::wave(src, VARGOPT(amp, 25.0), VARGOPT(freq, 150.0), VARGOPT(background, 0xFFFFFF) ^ 0xFF000000);
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD(CIMAGE_noise, GB_INTEGER type)
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QImage src(THIS);
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QImage dest = KImageEffect::addNoise(src, (KImageEffect::NoiseType)VARG(type));
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD(CIMAGE_implode, GB_FLOAT factor; GB_INTEGER background)
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QImage src(THIS);
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QImage dest = KImageEffect::implode(src, VARGOPT(factor, 1.0) * 100.0, VARGOPT(background, 0xFFFFFF) ^ 0xFF000000);
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GB.ReturnObject(dest.object());
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END_METHOD
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BEGIN_METHOD_VOID(Image_Histogram)
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CIMAGEHISTOGRAM *hist;
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int *histogram;
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QImage image(THIS);
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unsigned int *p, *pm;
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hist = (CIMAGEHISTOGRAM *)GB.New(GB.FindClass("ImageHistogram"), NULL, NULL);
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GB.Alloc(POINTER(&histogram), sizeof(int) * 256 * 4);
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memset(histogram, 0, 256 * 4 * sizeof(int));
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p = (unsigned int *)image.bits();
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pm = &p[image.width() * image.height()];
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if (image.inverted())
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{
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while (p < pm)
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{
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histogram[qRed(*p)]++;
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histogram[qGreen(*p) + 256]++;
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histogram[qBlue(*p) + 256 * 2]++;
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histogram[qAlpha(*p) + 256 * 3]++;
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p++;
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}
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}
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else
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{
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while (p < pm)
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{
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histogram[qBlue(*p)]++;
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histogram[qGreen(*p) + 256]++;
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histogram[qRed(*p) + 256 * 2]++;
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histogram[qAlpha(*p) + 256 * 3]++;
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p++;
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}
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}
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hist->histogram = histogram;
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GB.ReturnObject(hist);
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END_METHOD
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BEGIN_METHOD_VOID(ImageHistogram_free)
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GB.Free(POINTER(&THIS_HISTOGRAM->histogram));
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END_METHOD
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BEGIN_METHOD(ImageHistogram_get, GB_INTEGER channel; GB_INTEGER value)
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int channel;
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int value;
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switch(VARG(channel))
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{
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case KImageEffect::Blue: channel = 0; break;
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case KImageEffect::Green: channel = 1; break;
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case KImageEffect::Red: channel = 2; break;
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case KImageEffect::Alpha: channel = 3; break;
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default: GB.Error("Bad channel"); return;
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}
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value = VARG(value);
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if (value < 0 || value > 255)
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{
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GB.Error("Out of bounds");
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return;
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}
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GB.ReturnInteger(THIS_HISTOGRAM->histogram[channel * 256 + value]);
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END_METHOD
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GB_DESC ImageHistogramDesc[] =
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{
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GB_DECLARE("ImageHistogram", sizeof(CIMAGEHISTOGRAM)),
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GB_NOT_CREATABLE(),
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GB_METHOD("_free", NULL, ImageHistogram_free, NULL),
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GB_METHOD("_get", "i", ImageHistogram_get, "(Channel)i(Value)i"),
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GB_END_DECLARE
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};
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GB_DESC CImageDesc[] =
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{
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GB_DECLARE("Image", 0),
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GB_CONSTANT("Vertical", "i", KImageEffect::VerticalGradient),
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GB_CONSTANT("Horizontal", "i", KImageEffect::HorizontalGradient),
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GB_CONSTANT("Diagonal", "i", KImageEffect::DiagonalGradient),
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GB_CONSTANT("Cross", "i", KImageEffect::CrossDiagonalGradient),
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GB_CONSTANT("Pyramid", "i", KImageEffect::PyramidGradient),
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GB_CONSTANT("Rectangle", "i", KImageEffect::RectangleGradient),
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GB_CONSTANT("PipeCross", "i", KImageEffect::PipeCrossGradient),
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GB_CONSTANT("Elliptic", "i", KImageEffect::EllipticGradient),
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GB_CONSTANT("All", "i", KImageEffect::All),
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GB_CONSTANT("Red", "i", KImageEffect::Red),
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GB_CONSTANT("Green", "i", KImageEffect::Green),
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GB_CONSTANT("Blue", "i", KImageEffect::Blue),
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GB_CONSTANT("Alpha", "i", KImageEffect::Alpha),
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GB_CONSTANT("Uniform", "i", KImageEffect::UniformNoise),
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GB_CONSTANT("Gaussian", "i", KImageEffect::GaussianNoise),
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GB_CONSTANT("Multiplicative", "i", KImageEffect::MultiplicativeGaussianNoise),
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GB_CONSTANT("Impulse", "i", KImageEffect::ImpulseNoise),
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GB_CONSTANT("Laplacian", "i", KImageEffect::LaplacianNoise),
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GB_CONSTANT("Poisson", "i", KImageEffect::PoissonNoise),
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GB_STATIC_METHOD("Gradient", "Image", CIMAGE_gradient, "(Width)i(Height)i(SrcColor)i(DstColor)i(Orientation)i[(XDecay)f(YDecay)f]"),
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GB_METHOD("Intensity", NULL, CIMAGE_intensity, "(Value)f[(Channel)i]"),
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GB_METHOD("Flatten", NULL, CIMAGE_flatten, "(DarkColor)i(BrightColor)i"),
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GB_METHOD("Fade", NULL, CIMAGE_fade, "(Color)i(Value)f"),
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//GB_METHOD("Gray", NULL, CIMAGE_gray, NULL),
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//GB_METHOD("Desaturate", NULL, CIMAGE_desaturate, "[(Value)f]"),
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GB_METHOD("Threshold", NULL, CIMAGE_threshold, "(Value)f"),
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GB_METHOD("Solarize", NULL, CIMAGE_solarize, "(Value)f"),
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GB_METHOD("Normalize", NULL, CIMAGE_normalize, NULL),
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GB_METHOD("Equalize", NULL, CIMAGE_equalize, NULL),
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GB_METHOD("Balance", NULL, CIMAGE_balance, "(Brightness)f(Contrast)f(Gamma)f[(Channel)i]"),
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GB_METHOD("Invert", NULL, CIMAGE_invert, "[(Channel)i]"),
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GB_METHOD("Emboss", "Image", CIMAGE_emboss, NULL),
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GB_METHOD("Edge", "Image", CIMAGE_edge, "[(Radius)f]"),
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GB_METHOD("Despeckle", "Image", CIMAGE_despeckle, NULL),
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GB_METHOD("Charcoal", "Image", CIMAGE_charcoal, "[(Radius)f]"),
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GB_METHOD("OilPaint", "Image", CIMAGE_oil_paint, "[(Radius)f]"),
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GB_METHOD("Blur", "Image", CIMAGE_blur, "[(Value)f]"),
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GB_METHOD("Sharpen", "Image", CIMAGE_sharpen, "[(Value)f]"),
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GB_METHOD("Spread", "Image", CIMAGE_spread, "[(Amount)i]"),
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GB_METHOD("Shade", "Image", CIMAGE_shade, "[(Azimuth)f(Elevation)f]"),
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GB_METHOD("Swirl", "Image", CIMAGE_swirl, "[(Angle)f(Background)i]"),
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GB_METHOD("Wave", "Image", CIMAGE_wave, "[(Amplitude)f(WaveLength)f(Background)i]"),
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GB_METHOD("Noise", "Image", CIMAGE_noise, "(Noise)i"),
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GB_METHOD("Implode", "Image", CIMAGE_implode, "[(Factor)f(Background)i]"),
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GB_METHOD("Histogram", "ImageHistogram", Image_Histogram, NULL),
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GB_END_DECLARE
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};
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