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File:Sphere wireframe.svg

Original file (SVG file, nominally 400 × 400 pixels, file size: 8 KB)

Summary

Description
English: Sphere wireframe - orthogonal projection of a sphere. The image shows lines, which are drawn as they were painted onto the surface of a sphere. The angular distance between two lines is 10°. The SVG file is created by the below C++-program, which calculates each edge of a line as an ellipse-bow. The backside of the sphere has an opacity of 0.25. The axis tilt is 52.5°.
Date
Source Own work
Author Geek3
Other versions

Sphere filled_blue.svg

Sphere wireframe 10deg 10r.svg
 
W3C-validity not checked.

Source Code

This image can be completely generated by the following source code. If you have the gnu compiler collection installed, the programm can be compiled by the following commands:

g++ sphere_wireframe.cpp -o sphere_wireframe

and run :

./sphere_wireframe > Sphere_wireframe.svg

It creates file Sphere_wireframe.svg in working directory. This file can be viewed using rsvg-view program :

rsvg-view Sphere_wireframe.svg


Here is cpp code in file : sphere_wireframe.cpp

/* sphere - creates a svg vector-graphics file which depicts a wireframe sphere
 *
 * Copyright (C) 2008 Wikimedia foundation
 *
 * 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.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, you can either send email to this
 * program's author (see below) or write to:
 *   The Free Software Foundation, Inc.
 *   51 Franklin Street, Fifth Floor
 *   Boston, MA 02110-1301  USA
 */

/* The expressions in this code are not proven to be correct.
 * Hence this code probably contains lots of bugs. Be aware! */

#include <iostream>
#include <cmath>
#include <cstdlib>
#include <cstring>

using namespace std;

const double PI = 3.1415926535897932;
const double DEG = PI / 180.0;

/********************************* settings **********************************/
int n_lon = 18; 			// number of latitude fields (18 => 10° each)
int n_lat = 18; 			// half number of longitude fields (18 => 10° each)
double lon_offset = 2.5 * DEG; 	// offset of the meridians
double w = 52.5 * DEG; 		// axial tilt (0° => axis is perpendicular to image plane)
double stripe_grad = 0.5 * DEG;	// width of each line
int image_size = 400;			// width and height of the image in pixels
double back_opacity = 0.25;		// opacity of the sphere's backside
char color[] = "#334070";		// color of lines
int istep = 2; 			// svg code indentation step
/*****************************************************************************/

double sqr(double x)
{
	return(x * x);
}

// commands for svg-code:
void indent(int n, bool in_tag = false)
{
	n *= istep;
	if (in_tag) n += istep + 1;
	for (int i = 0; i < n; i++) cout << " ";
}
void M()
{
	cout << "M ";
}
void Z()
{
	cout << "Z ";
}
void xy(double x, double y)
{
	cout << x << ",";
	cout << y << " ";
}
void arc(double a, double b, double x_axis_rot, bool large_arc, bool sweep)
{	// draws an elliptic arc
	if (b < 0.5E-6)
	{	// flat ellipses are not rendered properly => use line
		cout << "L ";
	}
	else
	{
		cout << "A ";
		cout << a << ",";	// semi-major axis
		cout << b << " ";	// semi-minor axis
		cout << x_axis_rot << " ";
		cout << large_arc << " ";
		cout << sweep << " ";
	}
}
void circle(bool clockwise)
{
	M();
	xy(-1, 0);
	arc(1, 1, 0, 0, !clockwise);
	xy(1, 0);
	arc(1, 1, 0, 0, !clockwise);
	xy(-1, 0);
	Z();
}

void start_svg_file()
{
	cout << "<?xml version=\"1.0\" encoding=\"UTF-8\" standalone=\"no\"?>\n";
	cout << "<svg id=\"Sphere_wireframe\"\n";
	cout << "  version=\"1.1\"\n";
	cout << "  baseProfile=\"full\"\n";
	cout << "  xmlns=\"http://www.w3.org/2000/svg\"\n";
	cout << "  xmlns:xlink=\"http://www.w3.org/1999/xlink\"\n";
	cout << "  width=\"" << image_size << "\"\n";
	cout << "  height=\"" << image_size << "\">\n\n";
	cout << "  <title>Sphere wireframe</title>\n\n";
	cout << "  <desc>\n";
	cout << "     about: http://commons.wikimedia.org/wiki/Image:Sphere_wireframe.svg\n";
	cout << "     rights: GNU Free Documentation license,\n";
	cout << "             Creative Commons Attribution ShareAlike license\n";
	cout << "  </desc>\n\n";
	cout << "  <g id=\"sphere\" transform=\"scale(" << 0.5 * image_size;
	cout << ", " << -0.5 * image_size << ") translate(1, -1)\">\n";
}

void end_svg_file()
{
	cout << "  </g>\n</svg>\n";
}



int main (int argc, char *argv[])
{
	// accept -lat and -lon as parameter
	for (int i = 2; i < argc; i++)
	{
		if (isdigit(argv[i][0]) || (sizeof(argv[i]) > sizeof(char)
			&& isdigit(argv[i][1])
			&& (argv[i][0] == '.' || argv[i][0] == '-')))
		{
			if (strcmp(argv[i - 1], "-lon") == 0)
			{
				lon_offset = atof(argv[i]) * DEG;
			}
			if (strcmp(argv[i - 1], "-lat") == 0)
			{
				w = atof(argv[i]) * DEG;
			}
		}
	}
	double cosw = cos(w), sinw = sin(w);
	double d = 0.5 * stripe_grad;

	start_svg_file();
	int ind = 2; // initial indentation level
	indent(ind);
	cout << "<g id=\"sphere_back\" transform=\"rotate(180)\" ";
	cout << "opacity=\"" << back_opacity << "\">\n";
	indent(++ind);
	cout << "<g id=\"sphere_half\">\n";

	// meridians
	indent(++ind); cout << "<g id=\"meridians\"\n";
	indent(ind++, true);
	cout << "style=\"stroke:none; fill:" << color << "; fill_rule:evenodd\">\n";
	double a = abs(cos(d));
	for (int i_lon = 0; i_lon < n_lat; i_lon++)
	{	// draw one meridian
		double longitude = lon_offset + (i_lon * 180.0 / n_lat) * DEG;
		double lon[2];
		lon[0] = longitude + d;
		lon[1] = longitude - d;
		
		indent(ind);
		cout << "<path id=\"meridian";
		cout << i_lon << "\"\n";
		indent(ind, true);
		cout << "d=\"";

		double axis_rot = atan2(-1.0 / tan(longitude), cosw);
		if (sinw < 0)
			axis_rot += PI;
		double w2 = sin(longitude) * sinw;
		double b = abs(w2 * cos(d));

		double sinw1 = sin(d) / sqrt(1.0 - sqr(sin(longitude) * sinw));

		if (abs(sinw1) >= 1.0)
		{	// stripe covers edge of the circle
			double w3 = sqrt(1.0 - sqr(w2)) * sin(d);
			circle(false);
			// ellipse
			M();
			xy(sin(axis_rot) * w3 - cos(axis_rot) * a,
				-cos(axis_rot) * w3 - sin(axis_rot) * a);
			arc(a, b, axis_rot / DEG, 0, 0);
			xy(sin(axis_rot) * w3 + cos(axis_rot) * a,
				-cos(axis_rot) * w3 + sin(axis_rot) * a);
			arc(a, b, axis_rot / DEG, 0, 0);
			xy(sin(axis_rot) * w3 - cos(axis_rot) * a,
				-cos(axis_rot) * w3 - sin(axis_rot) * a);
			Z();
		}
		else
		{	// draw a disrupted ellipse bow
			double w1 = asin(sinw1);
			M();
			xy(-cos(axis_rot + w1), -sin(axis_rot + w1));
			arc(a, b, axis_rot / DEG, 1, 0);
			xy(cos(axis_rot - w1), sin(axis_rot - w1));
			arc(1, 1, 0, 0, 1);
			xy(cos(axis_rot + w1), sin(axis_rot + w1));
			arc(a, b, axis_rot / DEG, 0, 1);
			xy(-cos(axis_rot - w1), -sin(axis_rot - w1));
			arc(1, 1, 0, 0, 1);
			xy(-cos(axis_rot + w1), -sin(axis_rot + w1));
		}
		Z();
		cout << "\" />\n";
	}
	indent(--ind); cout << "</g>\n";

	cout << endl;

	// circles of latitude
	indent(ind); cout << "<g id=\"circles_of_latitude\"\n";
	indent(ind, true);
	cout << "style=\"stroke:none; fill:" << color << "; fill_rule:evenodd\">\n";
	ind++;
	for (int i_lat = 1; i_lat < n_lon; i_lat++)
	{	// draw one circle of latitude
		double latitude = (i_lat * 180.0 / n_lon - 90.0) * DEG;
		double lat[2];
		lat[0] = latitude + d;
		lat[1] = latitude - d;
		double x[2], yd[2], ym[2];
		for (int i = 0; i < 2; i++)
		{
			x[i] = abs(cos(lat[i]));
			yd[i] = abs(cosw * cos(lat[i]));
			ym[i] = sinw * sin(lat[i]);
		}
		double h[4];	// height of each point above image plane
		h[0] = sin(lat[0] + w);
		h[1] = sin(lat[0] - w);
		h[2] = sin(lat[1] + w);
		h[3] = sin(lat[1] - w);
		
		if (h[0] > 0 || h[1] > 0 || h[2] > 0 || h[3] > 0)
		{	// at least any part visible
			indent(ind);
			cout << "<path id=\"circle_of_latitude";
			cout << i_lat << "\"\n";
			indent(ind, true);
			cout << "d=\"";
			for (int i = 0; i < 2; i++)
			{
				if ((h[2*i] >= 0 && h[2*i+1] >= 0)
					&& (h[2*i] > 0 || h[2*i+1] > 0))
				{	// complete ellipse
					M();
					xy(-x[i], ym[i]); // startpoint
					for (int z = 1; z > -2; z -= 2)
					{
						arc(x[i], yd[i], 0, 1, i);
						xy(z * x[i], ym[i]);
					}
					Z();
					if (h[2-2*i] * h[3-2*i] < 0)
					{	// partly ellipse + partly circle
						double yp = sin(lat[1-i]) / sinw;
						double xp = sqrt(1.0 - sqr(yp));
						if (sinw < 0)
						{
							xp = -xp;
						}
						M();
						xy(-xp, yp);
						arc(x[1-i], yd[1-i], 0,
							sin(lat[1-i]) * cosw > 0, cosw >= 0);
						xy(xp, yp);
						arc(1, 1, 0, 0, cosw >= 0);
						xy(-xp, yp);
						Z();
					}
					else if (h[2-2*i] <= 0 && h[3-2*i] <= 0)
					{	// stripe covers edge of the circle
						circle(cosw < 0);
					}
				}
			}
			
			if ((h[0] * h[1] < 0 && h[2] <= 0 && h[3] <= 0)
				|| (h[0] <= 0 && h[1] <= 0 && h[2] * h[3] < 0))
			{
				// one slice visible
				int i = h[0] <= 0 && h[1] <= 0;
				double yp = sin(lat[i]) / sinw;
				double xp = sqrt(1.0 - yp * yp);
				M();
				xy(-xp, yp);
				arc(x[i], yd[i], 0, sin(lat[i]) * cosw > 0, cosw * sinw >= 0);
				xy(xp, yp);
				arc(1, 1, 0, 0, cosw * sinw < 0);
				xy(-xp, yp);
				Z();
			}
			else if (h[0] * h[1] < 0 && h[2] * h[3] < 0)
			{
				// disrupted ellipse bow
				double xp[2], yp[2];
				for (int i = 0; i < 2; i++)
				{
					yp[i] = sin(lat[i]) / sinw;
					xp[i] = sqrt(1.0 - sqr(yp[i]));
					if (sinw < 0) xp[i] = -xp[i];
				}
				M();
				xy(-xp[0], yp[0]);
				arc(x[0], yd[0], 0, sin(lat[0]) * cosw > 0, cosw >= 0);
				xy(xp[0], yp[0]);
				arc(1, 1, 0, 0, 0);
				xy(xp[1], yp[1]);
				arc(x[1], yd[1], 0, sin(lat[1]) * cosw > 0, cosw < 0);
				xy(-xp[1], yp[1]);
				arc(1, 1, 0, 0, 0);
				xy(-xp[0], yp[0]);
				Z();
			}
			cout << "\" />\n";
		}
	}
	for (int i = 0; i < 3; i++)
	{
		indent(--ind);
		cout << "</g>\n";
	}
	indent(ind--);
	cout << "<use id=\"sphere_front\" xlink:href=\"#sphere_half\" />\n";
	end_svg_file();
}

Licensing

I, the copyright holder of this work, hereby publish it under the following licenses:
GNU head Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License.
w:en:Creative Commons
attribution share alike
This file is licensed under the Creative Commons Attribution-Share Alike 3.0 Unported, 2.5 Generic, 2.0 Generic and 1.0 Generic license.
You are free:
  • to share – to copy, distribute and transmit the work
  • to remix – to adapt the work
Under the following conditions:
  • attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
  • share alike – If you remix, transform, or build upon the material, you must distribute your contributions under the same or compatible license as the original.
You may select the license of your choice.

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November 2008

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Date/TimeThumbnailDimensionsUserComment
current16:10, 23 November 2008Thumbnail for version as of 16:10, 23 November 2008400 × 400 (8 KB)Geek3{{Information |Description={{en|1=Sphere wireframe - the image shows lines, which are drawn as they were painted onto the surface of a sphere. The distance between two lines is 10°. The svg file is created by the below c++-program, which calculates each

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