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|
/* ============================================================
*
* This file is a part of digiKam project
* http://www.digikam.org
*
* Date : 2005-07-18
* Description : Distortion FX threaded image filter.
*
* Copyright (C) 2005-2007 by Gilles Caulier <caulier dot gilles at gmail dot com>
* Copyright (C) 2006-2007 by Marcel Wiesweg <marcel dot wiesweg at gmx dot de>
*
* Original Distortion algorithms copyrighted 2004-2005 by
* Pieter Z. Voloshyn <pieter dot voloshyn at gmail dot com>.
*
* This program is free software; you can redistribute it
* and/or modify it under the terms of the GNU General
* Public License as published by the Free Software Foundation;
* either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* ============================================================ */
// Represents 1
#define ANGLE_RATIO 0.017453292519943295769236907685
// C++ includes.
#include <cmath>
#include <cstdlib>
// TQt includes.
#include <tqdatetime.h>
// Local includes.
#include "dimg.h"
#include "dimgimagefilters.h"
#include "distortionfx.h"
namespace DigikamDistortionFXImagesPlugin
{
DistortionFX::DistortionFX(Digikam::DImg *orgImage, TQObject *parent, int effectType,
int level, int iteration, bool antialiasing)
: Digikam::DImgThreadedFilter(orgImage, parent, "DistortionFX")
{
m_effectType = effectType;
m_level = level;
m_iteration = iteration;
m_antiAlias = antialiasing;
initFilter();
}
void DistortionFX::filterImage(void)
{
int w = m_orgImage.width();
int h = m_orgImage.height();
int l = m_level;
int f = m_iteration;
switch (m_effectType)
{
case FishEye:
fisheye(&m_orgImage, &m_destImage, (double)(l/5.0), m_antiAlias);
break;
case Twirl:
twirl(&m_orgImage, &m_destImage, l, m_antiAlias);
break;
case CilindricalHor:
cilindrical(&m_orgImage, &m_destImage, (double)l, true, false, m_antiAlias);
break;
case CilindricalVert:
cilindrical(&m_orgImage, &m_destImage, (double)l, false, true, m_antiAlias);
break;
case CilindricalHV:
cilindrical(&m_orgImage, &m_destImage, (double)l, true, true, m_antiAlias);
break;
case Caricature:
fisheye(&m_orgImage, &m_destImage, (double)(-l/5.0), m_antiAlias);
break;
case MultipleCorners:
multipleCorners(&m_orgImage, &m_destImage, l, m_antiAlias);
break;
case WavesHorizontal:
waves(&m_orgImage, &m_destImage, l, f, true, true);
break;
case WavesVertical:
waves(&m_orgImage, &m_destImage, l, f, true, false);
break;
case BlockWaves1:
blockWaves(&m_orgImage, &m_destImage, l, f, false);
break;
case BlockWaves2:
blockWaves(&m_orgImage, &m_destImage, l, f, true);
break;
case CircularWaves1:
circularWaves(&m_orgImage, &m_destImage, w/2, h/2, (double)l, (double)f, 0.0, false, m_antiAlias);
break;
case CircularWaves2:
circularWaves(&m_orgImage, &m_destImage, w/2, h/2, (double)l, (double)f, 25.0, true, m_antiAlias);
break;
case PolarCoordinates:
polarCoordinates(&m_orgImage, &m_destImage, true, m_antiAlias);
break;
case UnpolarCoordinates:
polarCoordinates(&m_orgImage, &m_destImage, false, m_antiAlias);
break;
case Tile:
tile(&m_orgImage, &m_destImage, 200-f, 200-f, l);
break;
}
}
/*
This code is shared by six methods.
Write value of pixel w|h in data to pixel nw|nh in pResBits.
Antialias if requested.
*/
void DistortionFX::setPixelFromOther(int Width, int Height, bool sixteenBit, int bytesDepth,
uchar *data, uchar *pResBits,
int w, int h, double nw, double nh, bool AntiAlias)
{
Digikam::DColor color;
int offset, offsetOther;
offset = getOffset(Width, w, h, bytesDepth);
if (AntiAlias)
{
uchar *ptr = pResBits + offset;
if (sixteenBit)
{
unsigned short *ptr16 = (unsigned short *)ptr;
Digikam::DImgImageFilters().pixelAntiAliasing16((unsigned short *)data, Width, Height, nw, nh,
ptr16+3, ptr16+2, ptr16+1, ptr16);
}
else
{
Digikam::DImgImageFilters().pixelAntiAliasing(data, Width, Height, nw, nh,
ptr+3, ptr+2, ptr+1, ptr);
}
}
else
{
// we get the position adjusted
offsetOther = getOffsetAdjusted(Width, Height, (int)nw, (int)nh, bytesDepth);
// read color
color.setColor(data + offsetOther, sixteenBit);
// write color to destination
color.setPixel(pResBits + offset);
}
}
/* Function to apply the fisheye effect backported from ImageProcessing version 2
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* Coeff => Distortion effect coeff. Positive value render 'Fish Eyes' effect,
* and negative values render 'Caricature' effect.
* Antialias => Smart bluring result.
*
* Theory => This is a great effect if you take employee photos
* Its pure trigonometry. I think if you study hard the code you
* understand very well.
*/
void DistortionFX::fisheye(Digikam::DImg *orgImage, Digikam::DImg *destImage, double Coeff, bool AntiAlias)
{
if (Coeff == 0.0) return;
int Width = orgImage->width();
int Height = orgImage->height();
uchar* data = orgImage->bits();
bool sixteenBit = orgImage->sixteenBit();
int bytesDepth = orgImage->bytesDepth();
uchar* pResBits = destImage->bits();
int h, w;
double nh, nw, th, tw;
int progress;
int nHalfW = Width / 2, nHalfH = Height / 2;
Digikam::DColor color;
int offset;
double lfXScale = 1.0, lfYScale = 1.0;
double lfRadius, lfRadMax, lfAngle, lfCoeff, lfCoeffStep = Coeff / 1000.0;
if (Width > Height)
lfYScale = (double)Width / (double)Height;
else if (Height > Width)
lfXScale = (double)Height / (double)Width;
lfRadMax = (double)TQMAX(Height, Width) / 2.0;
lfCoeff = lfRadMax / log (fabs (lfCoeffStep) * lfRadMax + 1.0);
// main loop
for (h = 0; !m_cancel && (h < Height); h++)
{
th = lfYScale * (double)(h - nHalfH);
for (w = 0; !m_cancel && (w < Width); w++)
{
tw = lfXScale * (double)(w - nHalfW);
// we find the distance from the center
lfRadius = sqrt (th * th + tw * tw);
if (lfRadius < lfRadMax)
{
lfAngle = atan2 (th, tw);
if (Coeff > 0.0)
lfRadius = (exp (lfRadius / lfCoeff) - 1.0) / lfCoeffStep;
else
lfRadius = lfCoeff * log (1.0 + (-1.0 * lfCoeffStep) * lfRadius);
nw = (double)nHalfW + (lfRadius / lfXScale) * cos (lfAngle);
nh = (double)nHalfH + (lfRadius / lfYScale) * sin (lfAngle);
setPixelFromOther(Width, Height, sixteenBit, bytesDepth, data, pResBits, w, h, nw, nh, AntiAlias);
}
else
{
// copy pixel
offset = getOffset(Width, w, h, bytesDepth);
color.setColor(data + offset, sixteenBit);
color.setPixel(pResBits + offset);
}
}
// Update the progress bar in dialog.
progress = (int) (((double)(h) * 100.0) / Height);
if (progress%5 == 0)
postProgress(progress);
}
}
/* Function to apply the twirl effect backported from ImageProcessing version 2
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* Twirl => Distance value.
* Antialias => Smart bluring result.
*
* Theory => Take spiral studies, you will understand better, I'm studying
* hard on this effect, because it is not too fast.
*/
void DistortionFX::twirl(Digikam::DImg *orgImage, Digikam::DImg *destImage, int Twirl, bool AntiAlias)
{
// if twirl value is zero, we do nothing
if (Twirl == 0)
return;
int Width = orgImage->width();
int Height = orgImage->height();
uchar* data = orgImage->bits();
bool sixteenBit = orgImage->sixteenBit();
int bytesDepth = orgImage->bytesDepth();
uchar* pResBits = destImage->bits();
int h, w;
double tw, th, nh, nw;
Digikam::DColor color;
int offset;
int progress;
int nHalfW = Width / 2, nHalfH = Height / 2;
double lfXScale = 1.0, lfYScale = 1.0;
double lfAngle, lfNewAngle, lfAngleStep, lfAngleSum, lfCurrentRadius, lfRadMax;
if (Width > Height)
lfYScale = (double)Width / (double)Height;
else if (Height > Width)
lfXScale = (double)Height / (double)Width;
// the angle step is twirl divided by 10000
lfAngleStep = Twirl / 10000.0;
// now, we get the minimum radius
lfRadMax = (double)TQMAX(Width, Height) / 2.0;
// main loop
for (h = 0; !m_cancel && (h < Height); h++)
{
th = lfYScale * (double)(h - nHalfH);
for (w = 0; !m_cancel && (w < Width); w++)
{
tw = lfXScale * (double)(w - nHalfW);
// now, we get the distance
lfCurrentRadius = sqrt (th * th + tw * tw);
// if distance is less than maximum radius...
if (lfCurrentRadius < lfRadMax)
{
// we find the angle from the center
lfAngle = atan2 (th, tw);
// we get the accumuled angle
lfAngleSum = lfAngleStep * (-1.0 * (lfCurrentRadius - lfRadMax));
// ok, we sum angle with accumuled to find a new angle
lfNewAngle = lfAngle + lfAngleSum;
// now we find the exact position's x and y
nw = (double)nHalfW + cos (lfNewAngle) * (lfCurrentRadius / lfXScale);
nh = (double)nHalfH + sin (lfNewAngle) * (lfCurrentRadius / lfYScale);
setPixelFromOther(Width, Height, sixteenBit, bytesDepth, data, pResBits, w, h, nw, nh, AntiAlias);
}
else
{
// copy pixel
offset = getOffset(Width, w, h, bytesDepth);
color.setColor(data + offset, sixteenBit);
color.setPixel(pResBits + offset);
}
}
// Update the progress bar in dialog.
progress = (int) (((double)h * 100.0) / Height);
if (progress%5 == 0)
postProgress(progress);
}
}
/* Function to apply the Cilindrical effect backported from ImageProcessing version 2
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* Coeff => Cilindrical value.
* Horizontal => Apply horizontally.
* Vertical => Apply vertically.
* Antialias => Smart bluring result.
*
* Theory => This is a great effect, similar to Spherize (Photoshop).
* If you understand FishEye, you will understand Cilindrical
* FishEye apply a logarithm function using a sphere radius,
* Spherize use the same function but in a rectangular
* environment.
*/
void DistortionFX::cilindrical(Digikam::DImg *orgImage, Digikam::DImg *destImage, double Coeff,
bool Horizontal, bool Vertical, bool AntiAlias)
{
if ((Coeff == 0.0) || (! (Horizontal || Vertical)))
return;
int Width = orgImage->width();
int Height = orgImage->height();
uchar* data = orgImage->bits();
bool sixteenBit = orgImage->sixteenBit();
int bytesDepth = orgImage->bytesDepth();
uchar* pResBits = destImage->bits();
int progress;
int h, w;
double nh, nw;
int nHalfW = Width / 2, nHalfH = Height / 2;
double lfCoeffX = 1.0, lfCoeffY = 1.0, lfCoeffStep = Coeff / 1000.0;
if (Horizontal)
lfCoeffX = (double)nHalfW / log (fabs (lfCoeffStep) * nHalfW + 1.0);
if (Vertical)
lfCoeffY = (double)nHalfH / log (fabs (lfCoeffStep) * nHalfH + 1.0);
// initial copy
memcpy (pResBits, data, orgImage->numBytes());
// main loop
for (h = 0; !m_cancel && (h < Height); h++)
{
for (w = 0; !m_cancel && (w < Width); w++)
{
// we find the distance from the center
nh = fabs ((double)(h - nHalfH));
nw = fabs ((double)(w - nHalfW));
if (Horizontal)
{
if (Coeff > 0.0)
nw = (exp (nw / lfCoeffX) - 1.0) / lfCoeffStep;
else
nw = lfCoeffX * log (1.0 + (-1.0 * lfCoeffStep) * nw);
}
if (Vertical)
{
if (Coeff > 0.0)
nh = (exp (nh / lfCoeffY) - 1.0) / lfCoeffStep;
else
nh = lfCoeffY * log (1.0 + (-1.0 * lfCoeffStep) * nh);
}
nw = (double)nHalfW + ((w >= nHalfW) ? nw : -nw);
nh = (double)nHalfH + ((h >= nHalfH) ? nh : -nh);
setPixelFromOther(Width, Height, sixteenBit, bytesDepth, data, pResBits, w, h, nw, nh, AntiAlias);
}
// Update the progress bar in dialog.
progress = (int) (((double)h * 100.0) / Height);
if (progress%5 == 0)
postProgress(progress);
}
}
/* Function to apply the Multiple Corners effect backported from ImageProcessing version 2
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* Factor => nb corners.
* Antialias => Smart bluring result.
*
* Theory => This is an amazing function, you've never seen this before.
* I was testing some trigonometric functions, and I saw that if
* I multiply the angle by 2, the result is an image like this
* If we multiply by 3, we can create the SixCorners effect.
*/
void DistortionFX::multipleCorners(Digikam::DImg *orgImage, Digikam::DImg *destImage, int Factor, bool AntiAlias)
{
if (Factor == 0) return;
int Width = orgImage->width();
int Height = orgImage->height();
uchar* data = orgImage->bits();
bool sixteenBit = orgImage->sixteenBit();
int bytesDepth = orgImage->bytesDepth();
uchar* pResBits = destImage->bits();
int h, w;
double nh, nw;
int progress;
int nHalfW = Width / 2, nHalfH = Height / 2;
double lfAngle, lfNewRadius, lfCurrentRadius, lfRadMax;
lfRadMax = sqrt (Height * Height + Width * Width) / 2.0;
// main loop
for (h = 0; !m_cancel && (h < Height); h++)
{
for (w = 0; !m_cancel && (w < Width); w++)
{
// we find the distance from the center
nh = nHalfH - h;
nw = nHalfW - w;
// now, we get the distance
lfCurrentRadius = sqrt (nh * nh + nw * nw);
// we find the angle from the center
lfAngle = atan2 (nh, nw) * (double)Factor;
// ok, we sum angle with accumuled to find a new angle
lfNewRadius = lfCurrentRadius * lfCurrentRadius / lfRadMax;
// now we find the exact position's x and y
nw = (double)nHalfW - (cos (lfAngle) * lfNewRadius);
nh = (double)nHalfH - (sin (lfAngle) * lfNewRadius);
setPixelFromOther(Width, Height, sixteenBit, bytesDepth, data, pResBits, w, h, nw, nh, AntiAlias);
}
// Update the progress bar in dialog.
progress = (int) (((double)h * 100.0) / Height);
if (progress%5 == 0)
postProgress(progress);
}
}
/* Function to apply the Polar Coordinates effect backported from ImageProcessing version 2
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* Type => if true Polar Coordinate to Polar else inverse.
* Antialias => Smart bluring result.
*
* Theory => Similar to PolarCoordinates from Photoshop. We apply the polar
* transformation in a proportional (Height and Width) radius.
*/
void DistortionFX::polarCoordinates(Digikam::DImg *orgImage, Digikam::DImg *destImage, bool Type, bool AntiAlias)
{
int Width = orgImage->width();
int Height = orgImage->height();
uchar* data = orgImage->bits();
bool sixteenBit = orgImage->sixteenBit();
int bytesDepth = orgImage->bytesDepth();
uchar* pResBits = destImage->bits();
int h, w;
double nh, nw, th, tw;
int progress;
int nHalfW = Width / 2, nHalfH = Height / 2;
double lfXScale = 1.0, lfYScale = 1.0;
double lfAngle, lfRadius, lfRadMax;
if (Width > Height)
lfYScale = (double)Width / (double)Height;
else if (Height > Width)
lfXScale = (double)Height / (double)Width;
lfRadMax = (double)TQMAX(Height, Width) / 2.0;
// main loop
for (h = 0; !m_cancel && (h < Height); h++)
{
th = lfYScale * (double)(h - nHalfH);
for (w = 0; !m_cancel && (w < Width); w++)
{
tw = lfXScale * (double)(w - nHalfW);
if (Type)
{
// now, we get the distance
lfRadius = sqrt (th * th + tw * tw);
// we find the angle from the center
lfAngle = atan2 (tw, th);
// now we find the exact position's x and y
nh = lfRadius * (double) Height / lfRadMax;
nw = lfAngle * (double) Width / (2 * M_PI);
nw = (double)nHalfW + nw;
}
else
{
lfRadius = (double)(h) * lfRadMax / (double)Height;
lfAngle = (double)(w) * (2 * M_PI) / (double) Width;
nw = (double)nHalfW - (lfRadius / lfXScale) * sin (lfAngle);
nh = (double)nHalfH - (lfRadius / lfYScale) * cos (lfAngle);
}
setPixelFromOther(Width, Height, sixteenBit, bytesDepth, data, pResBits, w, h, nw, nh, AntiAlias);
}
// Update the progress bar in dialog.
progress = (int) (((double)h * 100.0) / Height);
if (progress%5 == 0)
postProgress(progress);
}
}
/* Function to apply the circular waves effect backported from ImageProcessing version 2
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* X, Y => Position of circle center on the image.
* Amplitude => Sinoidal maximum height
* Frequency => Frequency value.
* Phase => Phase value.
* WavesType => If true the amplitude is proportional to radius.
* Antialias => Smart bluring result.
*
* Theory => Similar to Waves effect, but here I apply a senoidal function
* with the angle point.
*/
void DistortionFX::circularWaves(Digikam::DImg *orgImage, Digikam::DImg *destImage, int X, int Y, double Amplitude,
double Frequency, double Phase, bool WavesType, bool AntiAlias)
{
if (Amplitude < 0.0) Amplitude = 0.0;
if (Frequency < 0.0) Frequency = 0.0;
int Width = orgImage->width();
int Height = orgImage->height();
uchar* data = orgImage->bits();
bool sixteenBit = orgImage->sixteenBit();
int bytesDepth = orgImage->bytesDepth();
uchar* pResBits = destImage->bits();
int h, w;
double nh, nw;
int progress;
double lfRadius, lfRadMax, lfNewAmp = Amplitude;
double lfFreqAngle = Frequency * ANGLE_RATIO;
Phase *= ANGLE_RATIO;
lfRadMax = sqrt (Height * Height + Width * Width);
for (h = 0; !m_cancel && (h < Height); h++)
{
for (w = 0; !m_cancel && (w < Width); w++)
{
nw = X - w;
nh = Y - h;
lfRadius = sqrt (nw * nw + nh * nh);
if (WavesType)
lfNewAmp = Amplitude * lfRadius / lfRadMax;
nw = (double)w + lfNewAmp * sin(lfFreqAngle * lfRadius + Phase);
nh = (double)h + lfNewAmp * cos(lfFreqAngle * lfRadius + Phase);
setPixelFromOther(Width, Height, sixteenBit, bytesDepth, data, pResBits, w, h, nw, nh, AntiAlias);
}
// Update the progress bar in dialog.
progress = (int) (((double)h * 100.0) / Height);
if (progress%5 == 0)
postProgress(progress);
}
}
/* Function to apply the waves effect
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* Amplitude => Sinoidal maximum height.
* Frequency => Frequency value.
* FillSides => Like a boolean variable.
* Direction => Vertical or horizontal flag.
*
* Theory => This is an amazing effect, very funny, and very simple to
* understand. You just need understand how sin and cos works.
*/
void DistortionFX::waves(Digikam::DImg *orgImage, Digikam::DImg *destImage,
int Amplitude, int Frequency,
bool FillSides, bool Direction)
{
if (Amplitude < 0) Amplitude = 0;
if (Frequency < 0) Frequency = 0;
int Width = orgImage->width();
int Height = orgImage->height();
int progress;
int h, w;
if (Direction) // Horizontal
{
int tx;
for (h = 0; !m_cancel && (h < Height); h++)
{
tx = lround(Amplitude * sin ((Frequency * 2) * h * (M_PI / 180)));
destImage->bitBltImage(orgImage, 0, h, Width, 1, tx, h);
if (FillSides)
{
destImage->bitBltImage(orgImage, Width - tx, h, tx, 1, 0, h);
destImage->bitBltImage(orgImage, 0, h, Width - (Width - 2 * Amplitude + tx), 1, Width + tx, h);
}
// Update the progress bar in dialog.
progress = (int) (((double)h * 100.0) / Height);
if (progress%5 == 0)
postProgress(progress);
}
}
else
{
int ty;
for (w = 0; !m_cancel && (w < Width); w++)
{
ty = lround(Amplitude * sin ((Frequency * 2) * w * (M_PI / 180)));
destImage->bitBltImage(orgImage, w, 0, 1, Height, w, ty);
if (FillSides)
{
destImage->bitBltImage(orgImage, w, Height - ty, 1, ty, w, 0);
destImage->bitBltImage(orgImage, w, 0, 1, Height - (Height - 2 * Amplitude + ty), w, Height + ty);
}
// Update the progress bar in dialog.
progress = (int) (((double)w * 100.0) / Width);
if (progress%5 == 0)
postProgress(progress);
}
}
}
/* Function to apply the block waves effect
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* Amplitude => Sinoidal maximum height
* Frequency => Frequency value
* Mode => The mode to be applied.
*
* Theory => This is an amazing effect, very funny when amplitude and
* frequency are small values.
*/
void DistortionFX::blockWaves(Digikam::DImg *orgImage, Digikam::DImg *destImage,
int Amplitude, int Frequency, bool Mode)
{
if (Amplitude < 0) Amplitude = 0;
if (Frequency < 0) Frequency = 0;
int Width = orgImage->width();
int Height = orgImage->height();
uchar* data = orgImage->bits();
bool sixteenBit = orgImage->sixteenBit();
int bytesDepth = orgImage->bytesDepth();
uchar* pResBits = destImage->bits();
int nw, nh, progress;
double Radius;
Digikam::DColor color;
int offset, offsetOther;
int nHalfW = Width / 2, nHalfH = Height / 2;
for (int w = 0; !m_cancel && (w < Width); w++)
{
for (int h = 0; !m_cancel && (h < Height); h++)
{
nw = nHalfW - w;
nh = nHalfH - h;
Radius = sqrt (nw * nw + nh * nh);
if (Mode)
{
nw = (int)(w + Amplitude * sin (Frequency * nw * (M_PI / 180)));
nh = (int)(h + Amplitude * cos (Frequency * nh * (M_PI / 180)));
}
else
{
nw = (int)(w + Amplitude * sin (Frequency * w * (M_PI / 180)));
nh = (int)(h + Amplitude * cos (Frequency * h * (M_PI / 180)));
}
offset = getOffset(Width, w, h, bytesDepth);
offsetOther = getOffsetAdjusted(Width, Height, (int)nw, (int)nh, bytesDepth);
// read color
color.setColor(data + offsetOther, sixteenBit);
// write color to destination
color.setPixel(pResBits + offset);
}
// Update the progress bar in dialog.
progress = (int) (((double)w * 100.0) / Width);
if (progress%5 == 0)
postProgress(progress);
}
}
/* Function to apply the tile effect
*
* data => The image data in RGBA mode.
* Width => Width of image.
* Height => Height of image.
* WSize => Tile Width
* HSize => Tile Height
* Random => Maximum random value
*
* Theory => Similar to Tile effect from Photoshop and very easy to
* understand. We get a rectangular area using WSize and HSize and
* replace in a position with a random distance from the original
* position.
*/
void DistortionFX::tile(Digikam::DImg *orgImage, Digikam::DImg *destImage,
int WSize, int HSize, int Random)
{
if (WSize < 1) WSize = 1;
if (HSize < 1) HSize = 1;
if (Random < 1) Random = 1;
int Width = orgImage->width();
int Height = orgImage->height();
TQDateTime dt = TQDateTime::currentDateTime();
TQDateTime Y2000( TQDate(2000, 1, 1), TQTime(0, 0, 0) );
uint seed = dt.secsTo(Y2000);
int tx, ty, h, w, progress;
for (h = 0; !m_cancel && (h < Height); h += HSize)
{
for (w = 0; !m_cancel && (w < Width); w += WSize)
{
tx = (int)(rand_r(&seed) % Random) - (Random / 2);
ty = (int)(rand_r(&seed) % Random) - (Random / 2);
destImage->bitBltImage(orgImage, w, h, WSize, HSize, w + tx, h + ty);
}
// Update the progress bar in dialog.
progress = (int)(((double)h * 100.0) / Height);
if (progress%5 == 0)
postProgress(progress);
}
}
// UNUSED
/* Function to return the maximum radius with a determined angle
*
* Height => Height of the image
* Width => Width of the image
* Angle => Angle to analize the maximum radius
*
* Theory => This function calcule the maximum radius to that angle
* so, we can build an oval circunference
*/
/*
double DistortionFX::maximumRadius(int Height, int Width, double Angle)
{
double MaxRad, MinRad;
double Radius, DegAngle = fabs (Angle * 57.295); // Rads -> Degrees
MinRad = TQMIN (Height, Width) / 2.0; // Gets the minor radius
MaxRad = TQMAX (Height, Width) / 2.0; // Gets the major radius
// Find the quadrant between -PI/2 and PI/2
if (DegAngle > 90.0)
Radius = proportionalValue (MinRad, MaxRad, (DegAngle * (255.0 / 90.0)));
else
Radius = proportionalValue (MaxRad, MinRad, ((DegAngle - 90.0) * (255.0 / 90.0)));
return (Radius);
}
*/
} // NameSpace DigikamDistortionFXImagesPlugin
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