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270 lines
12 KiB
C++
270 lines
12 KiB
C++
/*
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#
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# File : draw_gradient.h
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# ( C++ header file - CImg plug-in )
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#
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# Description : Plugin that can be used to draw color gradient on images.
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# This file is a part of the CImg Library project.
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# ( http://cimg.eu )
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#
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# Copyright : Jerome Boulanger
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# ( http://www.ricam.oeaw.ac.at/people/page.cgi?firstn=Jerome;lastn=Boulanger )
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#
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# License : CeCILL v2.0
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# ( http://www.cecill.info/licences/Licence_CeCILL_V2-en.html )
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#
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# This software is governed by the CeCILL license under French law and
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# abiding by the rules of distribution of free software. You can use,
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# modify and/ or redistribute the software under the terms of the CeCILL
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# license as circulated by CEA, CNRS and INRIA at the following URL
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# "http://www.cecill.info".
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#
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# As a counterpart to the access to the source code and rights to copy,
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# modify and redistribute granted by the license, users are provided only
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# with a limited warranty and the software's author, the holder of the
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# economic rights, and the successive licensors have only limited
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# liability.
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#
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# In this respect, the user's attention is drawn to the risks associated
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# with loading, using, modifying and/or developing or reproducing the
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# software by the user in light of its specific status of free software,
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# that may mean that it is complicated to manipulate, and that also
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# therefore means that it is reserved for developers and experienced
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# professionals having in-depth computer knowledge. Users are therefore
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# encouraged to load and test the software's suitability as regards their
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# requirements in conditions enabling the security of their systems and/or
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# data to be ensured and, more generally, to use and operate it in the
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# same conditions as regards security.
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#
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# The fact that you are presently reading this means that you have had
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# knowledge of the CeCILL license and that you accept its terms.
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#
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*/
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#ifndef cimg_plugin_draw_gradient
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#define cimg_plugin_draw_gradient
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// Convert the couple (shape,profile) into a description string
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static inline const char *get_gradient_str(const int shape, const int profile) {
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static char buf[128];
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switch(shape) {
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case 0: std::sprintf(buf,"linear shape and"); break;
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case 1: std::sprintf(buf,"spheric shape and"); break;
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case 2: std::sprintf(buf,"conic shape and"); break;
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case 3: std::sprintf(buf,"square shape and"); break;
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case 4: std::sprintf(buf,"rectangle (L1) shape and"); break;
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case 5: std::sprintf(buf,"rectangle (Linf) shape and"); break;
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case 6: std::sprintf(buf,"Gaussian shape and"); break;
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default: std::sprintf(buf,"undefined shape and"); break;
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}
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switch(profile) {
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case 0: std::strcat(buf," linear profile"); break;
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case 1: std::strcat(buf," wave profile"); break;
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case 2: std::strcat(buf," ring/bar profile"); break;
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case 3: std::strcat(buf," exponential"); break;
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case 4: std::strcat(buf," vanishing wave profile"); break;
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case 5: std::strcat(buf," vanishing ring/bar profile"); break;
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case 6: std::strcat(buf," circ diffraction (Airy) profile"); break;
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case 7: std::strcat(buf," rect diffraction (sinc2) profile"); break;
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default: std::strcat(buf," undefined profile"); break;
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}
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return buf;
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}
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template<typename tc>
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void _draw_gradient_profile(T *const ptr, const float opacity, const float r,
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const tc *const color0, const tc *const color1,
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const int profile) {
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const unsigned int id = (color0?1:0) + (color1?2:0);
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const tc col0 = color0?*color0:0, col1 = color1?*color1:0;
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switch(profile) {
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case 0: { // linear
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switch(id) { // map the 3 cases
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case 3: *ptr = (T)((1 - opacity)**ptr + opacity*(col0*(1.f - r) + col1*r)); break;
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case 1: if (r<1) *ptr = (T)((1 - opacity*(1 - r))**ptr + col0*opacity*(1 - r)); break;
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case 2: if (r>0) *ptr = (T)((1 - opacity*r)**ptr + col1*opacity*r); break;
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default: break;
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} break;
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}
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case 1: { // waves
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const float f = (1 - (float)std::cos(4.5f*r*2.f*cimg::PI))/2;
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switch(id) { // map the 3 cases
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case 3: *ptr = (T)((1 - opacity)**ptr + opacity*(col0*(1.f - f) + col1*f)); break;
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case 1: if (f<1) *ptr = (T)((1 - opacity*(1 - f))**ptr + col0*opacity*(1 - f)); break;
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case 2: if (f>0) *ptr = (T)((1 - opacity*f)**ptr + col1*opacity*f); break;
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default: break;
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} break;
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}
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case 2:{ // ring/bar
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const float f = (1 + (float)std::cos(r*2.f*cimg::PI))/2;
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switch(id) { // map the 3 cases
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case 3: *ptr = (T)((1 - opacity)**ptr + opacity*(col0*(1.f - f) + col1*f)); break;
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case 1: if (f<1) *ptr = (T)((1 - opacity*(1 - f))**ptr + col0*opacity*(1 - f)); break;
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case 2: if (f>0) *ptr = (T)((1 - opacity*f)**ptr + col1*opacity*f); break;
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default: break;
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} break;
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}
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case 3: { // exponential
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const float f = 1 - (float)std::exp(-r);
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switch(id) { // map the 3 cases
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case 3: *ptr = (T)((1 - opacity)**ptr + opacity*(col0*(1.f - f) + col1*f)); break;
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case 1: if (f<1) *ptr = (T)((1 - opacity*(1 - f))**ptr + col0*opacity*(1 - f)); break;
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case 2: if (f>0) *ptr = (T)((1 - opacity*f)**ptr + col1*opacity*f); break;
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default: break;
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} break;
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}
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case 4: { // vanishing wave
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const float f = (1 - (float)std::cos(4.5f*r*2.f*cimg::PI))/2, o = r<.9f?(float)std::exp(-.5*r*r*12.f):0;
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switch(id) { // map the 3 cases
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case 3: if (o>0) *ptr = (T)((1 - o)**ptr + o*(col0*(1.f - f) + col1*f)); break;
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case 1: if (f<1) *ptr = (T)((1 - o*(1 - f))**ptr + col0*o*(1 - f)); break;
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case 2: if (f>0) *ptr = (T)((1 - o*f)**ptr + col1*o*f); break;
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default: break;
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} break;
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}
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case 5: { // vanishing ring/bar
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const float f = (1 + (float)std::cos(r*2.f*cimg::PI))/2, o = r<.9?(float)std::exp(-.5*r*r*12.f):0;
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switch(id) { // map the 3 cases
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case 3: if (o>0) *ptr = (T)((1 - o)**ptr + o*(col0*(1.f - f) + col1*f)); break;
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case 1: if (f<1) *ptr = (T)((1 - o*(1 - f))**ptr + col0*o*(1 - f)); break;
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case 2: if (f>0) *ptr = (T)((1 - o*f)**ptr + col1*o*f); break;
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default: break;
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} break;
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}
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case 6: { // diffraction pattern of a circular aperture (Airy function)
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#define myj1(x) (std::sin((x)<3?(x)*2.2/3:(x) - 0.8)*std::exp(-std::pow((x)/5.0,1/3.0)))
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const float a = 10*(float)cimg::PI*r, tmp = a<0.2?.5f:((float)myj1(a)/a), f = 1 - 4*tmp*tmp;
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#undef myj1
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switch(id) { // map the 3 cases
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case 3: *ptr = (T)((1 - opacity)**ptr + opacity*(col0*(1.f - f) + col1*f)); break;
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case 1: if (f<1) *ptr = (T)((1 - opacity*(1 - f))**ptr + col0*opacity*(1 - f)); break;
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case 2: if (f>0) *ptr = (T)((1 - opacity*f)**ptr + col1*opacity*f); break;
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default: break;
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}
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break;
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}
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case 7: { // diffraction pattern of a rectangular function (sinc function)
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const float a = 10*(float)cimg::PI*r, tmp = a==0?1:(float)std::sin(a)/a, f = 1 - tmp*tmp;
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switch(id) { // map the 3 cases
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case 3: *ptr = (T)((1 - opacity)**ptr + opacity*(col0*(1.f - f) + col1*f)); break;
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case 1: if (f<1) *ptr = (T)((1 - opacity*(1 - f))**ptr + col0*opacity*(1 - f)); break;
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case 2: if (f>0) *ptr = (T)((1 - opacity*f)**ptr + col1*opacity*f); break;
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default: break;
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} break;
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}
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default:
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CImgArgumentException("CImg<%s>::draw_gradient : unknown profile parameter",pixel_type()); break;
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}
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}
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//! Draw a gradient with various shape and profile
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/**
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\param x0 X-coordinate of the 1st control point
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\param y0 Y-coordinate of the 1st control point
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\param x1 X-coordinate of the 2nd control point
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\param y1 Y-coordinate of the 2nd control point
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\param color0 Array of dimv() values of type \c T, defining the 1st color.
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\param color1 Array of dimv() values of type \c T, defining the 2nd color.
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\param shape shape of the gradient (0,3)
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\param profile select a profile function (0,7)
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\param opacity Drawing opacity.
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\note
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- if one color is NULL then the gradient is done to transparency
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**/
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template<typename tc>
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CImg<T>& draw_gradient(const int x0, const int y0, const int x1, const int y1,
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const tc *const color0, const tc *const color1,
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const int shape=0, const int profile=0, const float opacity=1.0f){
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if (is_empty()) return *this;
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if (!color0 && !color1)
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throw CImgArgumentException("CImg<%s>::draw_gradient : The two specified colors are (null).",
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pixel_type());
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if (profile<0 || profile>7) { // catch this case before entering in the for loop
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CImgArgumentException("CImg<%s>::draw_gradient : unknown profile parameter",pixel_type());
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return *this;
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}
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const float abx = (float)x1 - x0, aby = (float)y1 - y0, ab2 = abx*abx + aby*aby; // pt A=(x0,y0), B=(x1,y1)
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const tc *pcol0 = color0, *pcol1 = color1;
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T *ptr = data();
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switch(shape) {
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case 0: { // linear
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cimg_forC(*this,v) { cimg_forXYZ(*this,x,y,z) { // point M=(x,z)
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const float
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amx = (float)x - x0,
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amy = (float)y - y0,
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r = std::max(0.f,std::min(1.f,(amx*abx + amy*aby)/ab2));
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_draw_gradient_profile(ptr++,opacity,r,pcol0,pcol1,profile);
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} if (pcol0) ++pcol0; if (pcol1) ++pcol1; }} break;
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case 1:{ // radial
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cimg_forC(*this,v) { cimg_forXYZ(*this,x,y,z) {
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const float
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amx = (float)x - x0,
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amy = (float)y - y0,
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r = std::max(0.f,std::min(1.f,(amx*amx + amy*amy)/ab2));
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_draw_gradient_profile(ptr++,opacity,r,pcol0,pcol1,profile);
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} if (pcol0) ++pcol0; if (pcol1) ++pcol1; }} break;
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case 2:{ // radial cone
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cimg_forC(*this,v) { cimg_forXYZ(*this,x,y,z) {
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const float
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amx = (float)x - x0,
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amy = (float)y - y0,
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r = std::max(0.f,std::min(1.f,(float)std::sqrt((amx*amx + amy*amy)/ab2)));
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_draw_gradient_profile(ptr++,opacity,r,pcol0,pcol1,profile);
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} if (pcol0) ++pcol0; if (pcol1) ++pcol1; }} break;
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case 3:{ // square
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cimg_forC(*this,v) { cimg_forXYZ(*this,x,y,z) {
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const float
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amx = (float)x - x0,
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amy = (float)y - y0,
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r=std::max(0.f,std::min(1.f,(cimg::abs(amx*abx + amy*aby) + cimg::abs(amx*aby - amy*abx))/ab2));
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_draw_gradient_profile(ptr++,opacity,r,pcol0,pcol1,profile);
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} if (pcol0) ++pcol0; if (pcol1) ++pcol1; }} break;
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case 4:{ // rectangle (L1)
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cimg_forC(*this,v) { cimg_forXYZ(*this,x,y,z) {
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const float
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amx = (float)x - x0,
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amy = (float)y - y0,
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r = std::max(0.f,std::min(1.f,(cimg::abs(amx/abx) + cimg::abs(amy/aby))));
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_draw_gradient_profile(ptr++,opacity,r,pcol0,pcol1,profile);
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} if (pcol0) ++pcol0; if (pcol1) ++pcol1; }} break;
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case 5:{ // rectangle (Linf)
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cimg_forC(*this,v) { cimg_forXYZ(*this,x,y,z) {
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const float
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amx = (float)x - x0,
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amy = (float)y - y0,
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r=std::max(0.f,std::min(1.f,std::max(cimg::abs(amx/abx),cimg::abs(amy/aby))));
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_draw_gradient_profile(ptr++,opacity,r,pcol0,pcol1,profile);
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} if (pcol0) ++pcol0; if (pcol1) ++pcol1; }} break;
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case 6:{ // gaussian
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cimg_forC(*this,v) { cimg_forXYZ(*this,x,y,z) {
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const float
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amx = (float)x - x0,
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amy = (float)y - y0,
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r = std::max(0.f,std::min(1.f,1 - (float)std::exp(-(amx*amx + amy*amy)/ab2)));
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_draw_gradient_profile(ptr++,opacity,r,pcol0,pcol1,profile);
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} if (pcol0) ++pcol0; if (pcol1) ++pcol1; }} break;
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default:
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CImgArgumentException("CImg<%s>::draw_gradient : unknown shape parameter",pixel_type()); break;
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}
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return *this;
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}
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template<typename tc>
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CImg<T>& draw_gradient(const int x0, const int y0, const int x1, const int y1,
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const tc *const color0, const int color1,
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const int shape=0, const int profile=0, const float opacity=1.0f) {
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cimg::unused(color1);
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return (*this).draw_gradient(x0,y0,x1,y1,color0,(tc*)0,shape,profile,opacity);
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}
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template<typename tc>
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CImg<T>& draw_gradient(const int x0, const int y0, const int x1, const int y1,
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const int color0, const tc *const color1,
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const int shape=0, const int profile=0, const float opacity=1.0f) {
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cimg::unused(color0);
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return (*this).draw_gradient(x0,y0,x1,y1,(tc*)0,color1,shape,profile,opacity);
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}
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#endif /* cimg_draw_gradient */
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