vision/SensorProcessor.cpp - RealtimeRoboticsGroup/test - Gitiles


 #include "SensorProcessor.h"
 #include <stdio.h>

 // give a set of x -> fx pairs find a range for our value
 // then interpolate between and return an interpolated fx.
 // If the value is off the end just extend the line to
 // meet our point. If something does go wrong (and it
 // never should) it will return -1.
 double interpolate(int num_interp_vals,
 		const Interpolation *interp, double value) {
 	double dy;
 	double dx;
 	double a;
 	double intercept;
 	//printf("for val %.1f\n", value);
 	if (value < interp[0].x) {
 		// if closer than nearest
 		dy = interp[1].fx - interp[0].fx;
 		dx = interp[1].x - interp[0].x;
 		a = value - interp[0].x;
 		intercept = interp[0].fx;
 		//printf("LESS THAN\n");
 	} else if (value > interp[num_interp_vals-1].x){
 		// if further than furthest
 		dy = interp[num_interp_vals-1].fx - interp[num_interp_vals-2].fx;
 		dx = interp[num_interp_vals-1].x - interp[num_interp_vals-2].x;
 		a = value - interp[num_interp_vals-2].x;
 		intercept = interp[num_interp_vals-2].fx;
 		//printf("GT THAN\n");
 	} else {
 		//printf("gh0\n");
 		// scan for range
 		for(int i=0; i<num_interp_vals-1; i++){
 			if(value >= interp[i].x && value <= interp[i+1].x){
 		//		printf("(%.1f,%.1f)=(%.1f,%.1f)\n",
 		//				interp[i].x, interp[i+1].x,
 		//				interp[i].fx, interp[i+1].fx);
 				double lambda =
 					(value - interp[i].x)/(interp[i+1].x - interp[i].x);
 				return (1-lambda)*interp[i].fx + lambda*interp[i+1].fx;
 			}
 		}
 		// this should maybe be an assert
 		return -1;
 	}

 	return ( (dy/dx)*a + intercept );
 }

	#include "SensorProcessor.h"
	#include <stdio.h>

	// give a set of x -> fx pairs find a range for our value
	// then interpolate between and return an interpolated fx.
	// If the value is off the end just extend the line to
	// meet our point. If something does go wrong (and it
	// never should) it will return -1.
	double interpolate(int num_interp_vals,
	const Interpolation *interp, double value) {
	double dy;
	double dx;
	double a;
	double intercept;
	//printf("for val %.1f\n", value);
	if (value < interp[0].x) {
	// if closer than nearest
	dy = interp[1].fx - interp[0].fx;
	dx = interp[1].x - interp[0].x;
	a = value - interp[0].x;
	intercept = interp[0].fx;
	//printf("LESS THAN\n");
	} else if (value > interp[num_interp_vals-1].x){
	// if further than furthest
	dy = interp[num_interp_vals-1].fx - interp[num_interp_vals-2].fx;
	dx = interp[num_interp_vals-1].x - interp[num_interp_vals-2].x;
	a = value - interp[num_interp_vals-2].x;
	intercept = interp[num_interp_vals-2].fx;
	//printf("GT THAN\n");
	} else {
	//printf("gh0\n");
	// scan for range
	for(int i=0; i<num_interp_vals-1; i++){
	if(value >= interp[i].x && value <= interp[i+1].x){
	// printf("(%.1f,%.1f)=(%.1f,%.1f)\n",
	// interp[i].x, interp[i+1].x,
	// interp[i].fx, interp[i+1].fx);
	double lambda =
	(value - interp[i].x)/(interp[i+1].x - interp[i].x);
	return (1-lambda)interp[i].fx + lambdainterp[i+1].fx;
	}
	}
	// this should maybe be an assert
	return -1;
	}

	return ( (dy/dx)*a + intercept );
	}