Ok, so here is a complete solution with a custom plotter in the terminal using `printf`

.

On the top you have a bunch of defines which you can tweak to change the plot size, accuracy and limits.

There is an equation function which you can play with as well.

Compile the code using something like `gcc main.c -lm -o a.exe`

.

You'll get something like this.

```
#include <stdio.h>
#include <stdbool.h>
#include <math.h>
#define PLOT_WIDTH (72U)
#define PLOT_HEIGHT (30U)
#define LIMIT_X_MAX (25.0)
#define LIMIT_Y_MAX (1.0)
#define LIMIT_X_MIN (-2.0)
#define LIMIT_Y_MIN (-1.0)
#define PLOT_POINTS (500U)
void print_plot(const bool plot[PLOT_WIDTH][PLOT_HEIGHT])
{
int i;
int j;
for (i = PLOT_HEIGHT - 1; i >= 0; i--)
{
printf("\n");
for (j = 0; j < PLOT_WIDTH; j++)
{
if (plot[j][i])
{
printf("*");
}
else
{
printf("-");
}
}
}
printf("\n");
}
double equation(const double x)
{
return exp(-0.1 * x) * sin(0.5 * x);
}
size_t get_plot_x(const double x)
{
double xx = x - LIMIT_X_MIN;
return (size_t)((PLOT_WIDTH - 1) * (xx / (LIMIT_X_MAX - LIMIT_X_MIN)));
}
double limit_y(const double y)
{
double yy = y;
if (y > LIMIT_Y_MAX) {
yy = LIMIT_Y_MAX;
}
if (y < LIMIT_Y_MIN) {
yy = LIMIT_Y_MIN;
}
return yy;
}
size_t get_plot_y(const double y)
{
double yy = limit_y(y) - LIMIT_Y_MIN;
return (size_t)((PLOT_HEIGHT - 1) * (yy / (LIMIT_Y_MAX - LIMIT_Y_MIN)));
}
double get_next_x(const double x)
{
return x + ((LIMIT_X_MAX - LIMIT_X_MIN) / PLOT_POINTS);
}
void populate_plot(bool plot[PLOT_WIDTH][PLOT_HEIGHT])
{
double x;
double y;
for (x = LIMIT_X_MIN; x < LIMIT_X_MAX; x = get_next_x(x))
{
y = equation(x);
plot[get_plot_x(x)][get_plot_y(y)] = true;
}
}
int main(void)
{
bool plot_area[PLOT_WIDTH][PLOT_HEIGHT] = { false };
populate_plot(plot_area);
print_plot(plot_area);
return 0;
}
```