boost_1_45_0/libs/gil/example/mandelbrot.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /*
     Copyright 2005-2007 Adobe Systems Incorporated

     Use, modification and distribution are subject to the Boost Software License,
     Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
     http://www.boost.org/LICENSE_1_0.txt).

     See http://opensource.adobe.com/gil for most recent version including documentation.
 */

 /*************************************************************************************************/

 /// \file
 /// \brief Test file for convolve_rows() and convolve_cols() in the numeric extension
 /// \author Lubomir Bourdev and Hailin Jin
 /// \date February 27, 2007

 #include <boost/gil/image.hpp>
 #include <boost/gil/typedefs.hpp>
 #include <boost/gil/extension/io/jpeg_io.hpp>

 using namespace boost::gil;

 // Models a Unary Function
 template <typename P>   // Models PixelValueConcept
 struct mandelbrot_fn {
     typedef point2<ptrdiff_t>    point_t;

     typedef mandelbrot_fn        const_t;
     typedef P                    value_type;
     typedef value_type           reference;
     typedef value_type           const_reference;
     typedef point_t              argument_type;
     typedef reference            result_type;
     BOOST_STATIC_CONSTANT(bool, is_mutable=false);

     value_type                    _in_color,_out_color;
     point_t                       _img_size;
     static const int MAX_ITER=100;        // max number of iterations

     mandelbrot_fn() {}
     mandelbrot_fn(const point_t& sz, const value_type& in_color, const value_type& out_color) : _in_color(in_color), _out_color(out_color), _img_size(sz) {}

     result_type operator()(const point_t& p) const {
         // normalize the coords to (-2..1, -1.5..1.5)
         // (actually make y -1.0..2 so it is asymmetric, so we can verify some view factory methods)
         double t=get_num_iter(point2<double>(p.x/(double)_img_size.x*3-2, p.y/(double)_img_size.y*3-1.0f));//1.5f));
         t=pow(t,0.2);

         value_type ret;
         for (int k=0; k<num_channels<P>::value; ++k)
             ret[k]=(typename channel_type<P>::type)(_in_color[k]*t + _out_color[k]*(1-t));
         return ret;
     }

 private:
     double get_num_iter(const point2<double>& p) const {
         point2<double> Z(0,0);
         for (int i=0; i<MAX_ITER; ++i) {
             Z = point2<double>(Z.x*Z.x - Z.y*Z.y + p.x, 2*Z.x*Z.y + p.y);
             if (Z.x*Z.x + Z.y*Z.y > 4)
                 return i/(double)MAX_ITER;
         }
         return 0;
     }
 };

 int main() {
     typedef mandelbrot_fn<rgb8_pixel_t> deref_t;
     typedef deref_t::point_t            point_t;
     typedef virtual_2d_locator<deref_t,false> locator_t;
     typedef image_view<locator_t> my_virt_view_t;

     boost::function_requires<PixelLocatorConcept<locator_t> >();
     gil_function_requires<StepIteratorConcept<locator_t::x_iterator> >();

     point_t dims(200,200);
     my_virt_view_t mandel(dims, locator_t(point_t(0,0), point_t(1,1), deref_t(dims, rgb8_pixel_t(255,0,255), rgb8_pixel_t(0,255,0))));
     jpeg_write_view("out-mandelbrot.jpg",mandel);

     return 0;
 }
	/*
	Copyright 2005-2007 Adobe Systems Incorporated

	Use, modification and distribution are subject to the Boost Software License,
	Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
	http://www.boost.org/LICENSE_1_0.txt).

	See http://opensource.adobe.com/gil for most recent version including documentation.
	*/

	/*************************************************************************************************/

	/// \file
	/// \brief Test file for convolve_rows() and convolve_cols() in the numeric extension
	/// \author Lubomir Bourdev and Hailin Jin
	/// \date February 27, 2007

	#include <boost/gil/image.hpp>
	#include <boost/gil/typedefs.hpp>
	#include <boost/gil/extension/io/jpeg_io.hpp>

	using namespace boost::gil;

	// Models a Unary Function
	template <typename P> // Models PixelValueConcept
	struct mandelbrot_fn {
	typedef point2<ptrdiff_t> point_t;

	typedef mandelbrot_fn const_t;
	typedef P value_type;
	typedef value_type reference;
	typedef value_type const_reference;
	typedef point_t argument_type;
	typedef reference result_type;
	BOOST_STATIC_CONSTANT(bool, is_mutable=false);

	value_type _in_color,_out_color;
	point_t _img_size;
	static const int MAX_ITER=100; // max number of iterations

	mandelbrot_fn() {}
	mandelbrot_fn(const point_t& sz, const value_type& in_color, const value_type& out_color) : _in_color(in_color), _out_color(out_color), _img_size(sz) {}

	result_type operator()(const point_t& p) const {
	// normalize the coords to (-2..1, -1.5..1.5)
	// (actually make y -1.0..2 so it is asymmetric, so we can verify some view factory methods)
	double t=get_num_iter(point2<double>(p.x/(double)_img_size.x3-2, p.y/(double)_img_size.y3-1.0f));//1.5f));
	t=pow(t,0.2);

	value_type ret;
	for (int k=0; k<num_channels<P>::value; ++k)
	ret[k]=(typename channel_type<P>::type)(_in_color[k]t + _out_color[k](1-t));
	return ret;
	}

	private:
	double get_num_iter(const point2<double>& p) const {
	point2<double> Z(0,0);
	for (int i=0; i<MAX_ITER; ++i) {
	Z = point2<double>(Z.xZ.x - Z.yZ.y + p.x, 2Z.xZ.y + p.y);
	if (Z.xZ.x + Z.yZ.y > 4)
	return i/(double)MAX_ITER;
	}
	return 0;
	}
	};

	int main() {
	typedef mandelbrot_fn<rgb8_pixel_t> deref_t;
	typedef deref_t::point_t point_t;
	typedef virtual_2d_locator<deref_t,false> locator_t;
	typedef image_view<locator_t> my_virt_view_t;

	boost::function_requires<PixelLocatorConcept<locator_t> >();
	gil_function_requires<StepIteratorConcept<locator_t::x_iterator> >();

	point_t dims(200,200);
	my_virt_view_t mandel(dims, locator_t(point_t(0,0), point_t(1,1), deref_t(dims, rgb8_pixel_t(255,0,255), rgb8_pixel_t(0,255,0))));
	jpeg_write_view("out-mandelbrot.jpg",mandel);

	return 0;
	}