mirror of
https://github.com/TheAlgorithms/C
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289 lines
8.4 KiB
C
289 lines
8.4 KiB
C
/**
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* @file
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* @author [Krishna Vedala](https://github.com/kvedala)
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* @brief Implementation of
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* [Spirograph](https://en.wikipedia.org/wiki/Spirograph)
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*
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* @details
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* Implementation of the program is based on the geometry shown in the figure
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* below:
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*
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* <a
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* href="https://commons.wikimedia.org/wiki/File:Resonance_Cascade.svg"><img
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* src="https://upload.wikimedia.org/wikipedia/commons/3/39/Resonance_Cascade.svg"
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* alt="Spirograph geometry from Wikipedia" style="width: 250px"/></a>
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*/
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#define _USE_MATH_DEFINES /**< required for MSVC compiler */
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#include <math.h>
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#include <stdbool.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <time.h>
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/** Generate spirograph curve into arrays `x` and `y` such that the i^th point
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* in 2D is represented by `(x[i],y[i])`. The generating function is given by:
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* \f{eqnarray*}{
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* x &=& R\left[ (1-k) \cos (t) + l\cdot k\cdot\cos \left(\frac{1-k}{k}t\right)
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* \right]\\
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* y &=& R\left[ (1-k) \sin (t) - l\cdot k\cdot\sin \left(\frac{1-k}{k}t\right)
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* \right] \f}
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* where
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* * \f$R\f$ is the scaling parameter that we will consider \f$=1\f$
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* * \f$l=\frac{\rho}{r}\f$ is the relative distance of marker from the centre
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* of inner circle and \f$0\le l\le1\f$
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* * \f$\rho\f$ is physical distance of marker from centre of inner circle
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* * \f$r\f$ is the radius of inner circle
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* * \f$k=\frac{r}{R}\f$ is the ratio of radius of inner circle to outer circle
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* and \f$0<k<1\f$
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* * \f$R\f$ is the radius of outer circle
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* * \f$t\f$ is the angle of rotation of the point i.e., represents the time
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* parameter
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*
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* Since we are considering ratios, the actual values of \f$r\f$ and
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* \f$R\f$ are immaterial.
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*
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* @param [out] x output array containing absicca of points (must be
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* pre-allocated)
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* @param [out] y output array containing ordinates of points (must be
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* pre-allocated)
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* @param l the relative distance of marker from the centre of
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* inner circle and \f$0\le l\le1\f$
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* @param k the ratio of radius of inner circle to outer circle and
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* \f$0<k<1\f$
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* @param N number of sample points along the trajectory (higher = better
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* resolution but consumes more time and memory)
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* @param num_rot the number of rotations to perform (can be fractional value)
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*/
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void spirograph(double *x, double *y, double l, double k, size_t N, double rot)
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{
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double dt = rot * 2.f * M_PI / N;
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double t = 0.f, R = 1.f;
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const double k1 = 1.f - k;
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for (size_t dk = 0; dk < N; dk++, t += dt)
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{
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x[dk] = R * (k1 * cos(t) + l * k * cos(k1 * t / k));
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y[dk] = R * (k1 * sin(t) - l * k * sin(k1 * t / k));
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}
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}
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/**
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* @brief Test function to save resulting points to a CSV file.
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*
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*/
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void test(void)
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{
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size_t N = 500;
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double l = 0.3, k = 0.75, rot = 10.;
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char fname[50];
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snprintf(fname, 50, "spirograph_%.2f_%.2f_%.2f.csv", l, k, rot);
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FILE *fp = fopen(fname, "wt");
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if (!fp)
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{
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perror(fname);
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exit(EXIT_FAILURE);
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}
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double *x = (double *)malloc(N * sizeof(double));
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double *y = (double *)malloc(N * sizeof(double));
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spirograph(x, y, l, k, N, rot);
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for (size_t i = 0; i < N; i++)
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{
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fprintf(fp, "%.5g, %.5g", x[i], y[i]);
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if (i < N - 1)
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{
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fputc('\n', fp);
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}
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}
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fclose(fp);
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free(x);
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free(y);
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}
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#ifdef USE_GLUT // this is set by CMAKE automatically, if available
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#ifdef __APPLE__
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#include <GLUT/glut.h> // include path on Macs is different
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#else
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#include <GL/glut.h>
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#endif
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static bool paused = 0; /**< flag to set pause/unpause animation */
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static const int animation_speed = 25; /**< animation delate in ms */
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static const double step = 0.01; /**< animation step size */
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static double l_ratio = 0.1; /**< the l-ratio defined in docs */
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static double k_ratio = 0.1; /**< the k-ratio defined in docs */
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static const double num_rot = 20.; /**< number of rotations to simulate */
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/** A wrapper that is not available in all GLUT implementations.
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*/
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static inline void glutBitmapString(void *font, char *string)
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{
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for (char *ch = string; *ch != '\0'; ch++) glutBitmapCharacter(font, *ch);
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}
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/**
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* @brief Function to graph (x,y) points on the OpenGL graphics window.
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*
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* @param x array containing absicca of points (must be pre-allocated)
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* @param y array containing ordinates of points (must be pre-allocated)
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* @param N number of points in the arrays
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*/
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void display_graph(const double *x, const double *y, size_t N, double l,
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double k)
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{
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glClearColor(1.0f, 1.0f, 1.0f,
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0.0f); // Set background color to white and opaque
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glClear(GL_COLOR_BUFFER_BIT); // Clear the color buffer (background)
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if (x && y)
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{
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glBegin(GL_LINES); // draw line segments
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glColor3f(0.f, 0.f, 1.f); // blue
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glPointSize(2.f); // point size in pixels
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for (size_t i = 1; i < N; i++)
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{
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glVertex2f(x[i - 1], y[i - 1]); // line from
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glVertex2f(x[i], y[i]); // line to
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}
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glEnd();
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}
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glColor3f(0.f, 0.f, 0.f);
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char buffer[20];
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snprintf(buffer, 20, "l = %.3f", l);
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glRasterPos2f(-.85, .85);
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glutBitmapString(GLUT_BITMAP_HELVETICA_18, buffer);
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snprintf(buffer, 20, "k = %.3f", k);
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glRasterPos2f(-.85, .75);
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glutBitmapString(GLUT_BITMAP_HELVETICA_18, buffer);
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glutSwapBuffers();
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}
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/**
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* @brief Test function with animation
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*
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*/
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void test2(void)
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{
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const size_t N = 1000; // number of samples
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static bool direction1 = true; // increment if true, otherwise decrement
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static bool direction2 = true; // increment if true, otherwise decrement
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double *x = (double *)malloc(N * sizeof(double));
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double *y = (double *)malloc(N * sizeof(double));
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spirograph(x, y, l_ratio, k_ratio, N, num_rot);
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display_graph(x, y, N, l_ratio, k_ratio);
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free(x); // free dynamic memories
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free(y);
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if (paused)
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// if paused, do not update l_ratio and k_ratio
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return;
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if (direction1) // increment k_ratio
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{
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if (k_ratio >= (1.f - step)) // maximum limit
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direction1 = false; // reverse direction of k_ratio
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else
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k_ratio += step;
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}
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else // decrement k_ratio
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{
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if (k_ratio <= step) // minimum limit
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{
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direction1 = true; // reverse direction of k_ratio
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if (direction2) // increment l_ratio
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{
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if (l_ratio >= (1.f - step)) // max limit of l_ratio
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direction2 = false; // reverse direction of l_ratio
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else
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l_ratio += step;
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}
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else // decrement l_ratio
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{
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if (l_ratio <= step) // minimum limit of l_ratio
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direction2 = true; // reverse direction of l_ratio
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else
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l_ratio -= step;
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}
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}
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else // no min limit of k_ratio
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k_ratio -= step;
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}
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}
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/**
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* @brief GLUT timer callback function to add animation delay.
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*/
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void timer_cb(int id)
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{
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glutPostRedisplay();
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glutTimerFunc(animation_speed, timer_cb, 0);
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}
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/**
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* @brief Keypress event call back function.
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*
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* @param key ID of the key pressed
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* @param x mouse pointer position at event
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* @param y mouse pointer position at event
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*/
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void keyboard_cb(unsigned char key, int x, int y)
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{
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switch (key)
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{
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case ' ': // spacebar toggles pause
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paused = !paused; // toggle
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break;
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case '+': // up arrow key
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k_ratio += step;
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display_graph(NULL, NULL, 1, l_ratio, k_ratio);
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break;
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case '_': // down arrow key
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k_ratio -= step;
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display_graph(NULL, NULL, 1, l_ratio, k_ratio);
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break;
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case '=': // left arrow key
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l_ratio += step;
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display_graph(NULL, NULL, 1, l_ratio, k_ratio);
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break;
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case '-': // right arrow key
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l_ratio -= step;
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display_graph(NULL, NULL, 1, l_ratio, k_ratio);
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break;
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case 0x1B: // escape key exits
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exit(EXIT_SUCCESS);
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}
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}
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#endif
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/** Main function */
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int main(int argc, char **argv)
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{
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test();
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#ifdef USE_GLUT
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glutInit(&argc, argv);
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glutInitDisplayMode(GLUT_RGB | GLUT_DOUBLE);
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glutCreateWindow("Spirograph");
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glutInitWindowSize(400, 400);
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// glutIdleFunc(glutPostRedisplay);
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glutTimerFunc(animation_speed, timer_cb, 0);
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glutKeyboardFunc(keyboard_cb);
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glutDisplayFunc(test2);
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glutMainLoop();
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#endif
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return 0;
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}
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