soundeditor/atsa/curves.c

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/*
curves.c : CURVE structure managment
Jean-Philippe Meuret
(Inspired of atsh-curves.c Oscar Pablo Di Liscia / Juan Pampin)
*/
#include <stdlib.h>
#include <float.h>
#include "atsa.h"
/////////////////////////////////////////////////////////////////////////////
void curve_init(CURVE *curve)
{
// Identity function.
curve->num_ctlpoints = 2;
curve->ctlpoint = malloc(curve->num_ctlpoints * sizeof(curve->ctlpoint[0]));
curve->ctlpoint[0][0] = 0.0;
curve->ctlpoint[0][1] = 0.0;
curve->ctlpoint[1][0] = 1.0;
curve->ctlpoint[1][1] = 1.0;
}
/////////////////////////////////////////////////////////////////////////////
void curve_free(CURVE *curve)
{
if (curve->ctlpoint)
{
free(curve->ctlpoint);
curve->ctlpoint = 0;
curve->num_ctlpoints = 0;
}
}
/////////////////////////////////////////////////////////////////////////////
//returns the number of control points of the curve
int get_nbp(CURVE *curve)
{
return curve->num_ctlpoints;
}
////////////////////////////////////////////////////////////////////////////
//returns the x value of the curve at the given control point
double get_x_value(CURVE *curve, int i_point)
{
return curve->ctlpoint[i_point][0];
}
////////////////////////////////////////////////////////////////////////////
//returns the x value of the curve at the given control point
double get_y_value(CURVE *curve, int i_point)
{
return curve->ctlpoint[i_point][1];
}
////////////////////////////////////////////////////////////////////////////
//returns the minimum x value of the curve
double get_minx_value(CURVE *curve)
{
double minx = DBL_MAX;
int i_pt;
for (i_pt = 0 ; i_pt < curve->num_ctlpoints; i_pt++)
if (curve->ctlpoint[i_pt][0] < minx)
minx = curve->ctlpoint[i_pt][0];
return minx;
}
////////////////////////////////////////////////////////////////////////////
//returns the minimum x value of the curve
double get_maxx_value(CURVE *curve)
{
double maxx = -DBL_MAX;
int i_pt;
for (i_pt = 0 ; i_pt < curve->num_ctlpoints; i_pt++)
if (curve->ctlpoint[i_pt][0] > maxx)
maxx = curve->ctlpoint[i_pt][0];
return maxx;
}
////////////////////////////////////////////////////////////////////////////
//returns the minimum y value of the curve
double get_miny_value(CURVE *curve)
{
double miny = DBL_MAX;
int i_pt;
for (i_pt = 0 ; i_pt < curve->num_ctlpoints; i_pt++)
if (curve->ctlpoint[i_pt][1] < miny)
miny = curve->ctlpoint[i_pt][0];
return miny;
}
////////////////////////////////////////////////////////////////////////////
//returns the minimum y value of the curve
double get_maxy_value(CURVE *curve)
{
double maxy = -DBL_MAX;
int i_pt;
for (i_pt = 0 ; i_pt < curve->num_ctlpoints; i_pt++)
if (curve->ctlpoint[i_pt][1] > maxy)
maxy = curve->ctlpoint[i_pt][0];
return maxy;
}