rusefi-1/firmware/controllers/core/interpolation.h

/**
 * @file    interpolation.h
 *
 * @date Oct 17, 2013
 * @author Andrey Belomutskiy, (c) 2012-2017
 */

#ifndef INTERPOLATION_3D_H_
#define INTERPOLATION_3D_H_

#include <math.h>
#include "datalogging.h"
#include "efilib.h"
#include "obd_error_codes.h"
#include "error_handling.h"

#ifndef DEBUG_INTERPOLATION
#define DEBUG_INTERPOLATION FALSE
#endif

#define INTERPOLATION_A(x1, y1, x2, y2) ((y1 - y2) / (x1 - x2))

int findIndex(const float array[], int size, float value);
int findIndexMsg(const char *msg, const float array[], int size, float value);
void ensureArrayIsAscending(const char *msg, const float array[], int size);
int findIndex2(const float array[], unsigned size, float value);
float interpolateClamped(float x1, float y1, float x2, float y2, float x);
float interpolateMsg(const char *msg, float x1, float y1, float x2, float y2, float x);
float interpolate2d(const char *msg, float value, float bin[], float values[], int size);

int needInterpolationLogging(void);

/**
 * @brief	Two-dimensional table lookup with linear interpolation
 */
template<typename vType>
float interpolate3d(float x, float xBin[], int xBinSize, float y, float yBin[], int yBinSize, vType* map[]) {
	if (cisnan(x)) {
		warning(CUSTOM_INTEPOLATE_ERROR_3, "%.2f: x is NaN in interpolate3d", x);
		return NAN;
	}
	if (cisnan(y)) {
		warning(CUSTOM_INTEPOLATE_ERROR_2, "%.2f: y is NaN in interpolate3d", y);
		return NAN;
	}

	int xIndex = findIndexMsg("x", xBin, xBinSize, x);
#if	DEBUG_INTERPOLATION
	if (needInterpolationLogging())
		printf("X index=%d\r\n", xIndex);
#endif /* DEBUG_INTERPOLATION */
	int yIndex = findIndexMsg("y", yBin, yBinSize, y);
	if (xIndex < 0 && yIndex < 0) {
#if	DEBUG_INTERPOLATION
		if (needInterpolationLogging())
			printf("X and Y are smaller than smallest cell in table: %d\r\n", xIndex);
#endif /* DEBUG_INTERPOLATION */
		return map[0][0];
	}

	if (xIndex < 0) {
#if	DEBUG_INTERPOLATION
		if (needInterpolationLogging())
			printf("X is smaller than smallest cell in table: %dr\n", xIndex);
#endif /* DEBUG_INTERPOLATION */
		if (yIndex == yBinSize - 1)
			return map[0][yIndex];
		float keyMin = yBin[yIndex];
		float keyMax = yBin[yIndex + 1];
		float rpmMinValue = map[0][yIndex];
		float rpmMaxValue = map[0][yIndex + 1];

		return interpolateMsg("3d", keyMin, rpmMinValue, keyMax, rpmMaxValue, y);
	}

	if (yIndex < 0) {
#if	DEBUG_INTERPOLATION
		if (needInterpolationLogging())
			printf("Y is smaller than smallest cell in table: %d\r\n", yIndex);
#endif /* DEBUG_INTERPOLATION */
		if (xIndex == xBinSize - 1)
			return map[xIndex][0];
		float key1 = xBin[xIndex];
		float key2 = xBin[xIndex + 1];
		float value1 = map[xIndex][0];
		float value2 = map[xIndex + 1][0];

		return interpolateMsg("out3d", key1, value1, key2, value2, x);
	}

	if (xIndex == xBinSize - 1 && yIndex == yBinSize - 1) {
#if	DEBUG_INTERPOLATION
		if (needInterpolationLogging())
			printf("X and Y are larger than largest cell in table: %d %d\r\n", xIndex, yIndex);
#endif /* DEBUG_INTERPOLATION */
		return map[xBinSize - 1][yBinSize - 1];
	}

	if (xIndex == xBinSize - 1) {
#if	DEBUG_INTERPOLATION
		if (needInterpolationLogging())
			printf("TODO BETTER LOGGING x overflow %d\r\n", yIndex);
#endif /* DEBUG_INTERPOLATION */
		// here yIndex is less than yBinSize - 1, we've checked that condition already

		float key1 = yBin[yIndex];
		float key2 = yBin[yIndex + 1];
		float value1 = map[xIndex][yIndex];
		float value2 = map[xIndex][yIndex + 1];

		return interpolateMsg("out3d", key1, value1, key2, value2, y);
	}

	if (yIndex == yBinSize - 1) {
#if	DEBUG_INTERPOLATION
		if (needInterpolationLogging())
			printf("Y is larger than largest cell in table: %d\r\n", yIndex);
#endif /* DEBUG_INTERPOLATION */
		// here xIndex is less than xBinSize - 1, we've checked that condition already

		float key1 = xBin[xIndex];
		float key2 = xBin[xIndex + 1];
		float value1 = map[xIndex][yIndex];
		float value2 = map[xIndex + 1][yIndex];

		return interpolateMsg("out3d", key1, value1, key2, value2, x);
	}

	/*
	 * first we find the interpolated value for this RPM
	 */
	int rpmMaxIndex = xIndex + 1;

	float xMin = xBin[xIndex];
	float xMax = xBin[xIndex + 1];
	float rpmMinKeyMinValue = map[xIndex][yIndex];
	float rpmMaxKeyMinValue = map[xIndex + 1][yIndex];

	float keyMinValue = interpolateMsg("", xMin, rpmMinKeyMinValue, xMax, rpmMaxKeyMinValue, x);

#if	DEBUG_INTERPOLATION
	if (needInterpolationLogging()) {
		printf("X=%.2f:\r\nrange %.2f - %.2f\r\n", x, xMin, xMax);
		printf("X interpolation range %.2f   %.2f result %.2f\r\n", rpmMinKeyMinValue, rpmMaxKeyMinValue, keyMinValue);
	}
#endif /* DEBUG_INTERPOLATION */

	int keyMaxIndex = yIndex + 1;
	float keyMin = yBin[yIndex];
	float keyMax = yBin[keyMaxIndex];
	float rpmMinKeyMaxValue = map[xIndex][keyMaxIndex];
	float rpmMaxKeyMaxValue = map[rpmMaxIndex][keyMaxIndex];

	float keyMaxValue = interpolateMsg("3d", xMin, rpmMinKeyMaxValue, xMax, rpmMaxKeyMaxValue, x);

#if	DEBUG_INTERPOLATION
	if (needInterpolationLogging()) {
		printf("key=%.2f:\r\nrange %.2f - %.2f\r\n", y, keyMin, keyMax);
		printf("key interpolation range %.2f   %.2f result %.2f\r\n", rpmMinKeyMaxValue, rpmMaxKeyMaxValue, keyMaxValue);
	}
#endif /* DEBUG_INTERPOLATION */

	float result = interpolateMsg("3d", keyMin, keyMinValue, keyMax, keyMaxValue, y);
	return result;
}
void setCurveValue(float bins[], float values[], int size, float key, float value);
void initInterpolation(Logging *sharedLogger);

class FastInterpolation {
public:
	FastInterpolation();
	FastInterpolation(float x1, float y1, float x2, float y2);
	void init(float x1, float y1, float x2, float y2);
	float getValue(float x);
private:
	float a, b;
};

#endif /* INTERPOLATION_3D_H_ */
auto-sync 2015-07-10 06:01:56 -07:00			`/**`
			`* @file interpolation.h`
			`*`
			`* @date Oct 17, 2013`
auto-sync 2017-01-03 03:05:22 -08:00			`* @author Andrey Belomutskiy, (c) 2012-2017`
auto-sync 2015-07-10 06:01:56 -07:00			`*/`

			`#ifndef INTERPOLATION_3D_H_`
			`#define INTERPOLATION_3D_H_`

auto-sync 2016-06-29 20:01:53 -07:00			`#include <math.h>`
auto-sync 2015-07-10 06:01:56 -07:00			`#include "datalogging.h"`
auto-sync 2016-06-29 20:01:53 -07:00			`#include "efilib.h"`
			`#include "obd_error_codes.h"`
auto-sync 2016-06-29 22:01:38 -07:00			`#include "error_handling.h"`
auto-sync 2015-07-10 06:01:56 -07:00
manual picking from ChibiOS migration branch to make my evening a little less depressing 2017-03-27 19:55:22 -07:00			`#ifndef DEBUG_INTERPOLATION`
minor fix 2018-03-04 19:55:24 -08:00			`#define DEBUG_INTERPOLATION FALSE`
manual picking from ChibiOS migration branch to make my evening a little less depressing 2017-03-27 19:55:22 -07:00			`#endif`

auto-sync 2015-07-10 06:01:56 -07:00			`#define INTERPOLATION_A(x1, y1, x2, y2) ((y1 - y2) / (x1 - x2))`

			`int findIndex(const float array[], int size, float value);`
better error handling 2017-05-28 21:02:22 -07:00			`int findIndexMsg(const char *msg, const float array[], int size, float value);`
#440 2017-06-06 20:11:29 -07:00			`void ensureArrayIsAscending(const char *msg, const float array[], int size);`
auto-sync 2015-07-10 06:01:56 -07:00			`int findIndex2(const float array[], unsigned size, float value);`
Iac cranking running taper (#465) * IAC taper * chibios sync * fix for afterCrankingIACtaperDuration==0 2017-08-01 13:27:16 -07:00			`float interpolateClamped(float x1, float y1, float x2, float y2, float x);`
auto-sync 2016-01-09 12:01:41 -08:00			`float interpolateMsg(const char *msg, float x1, float y1, float x2, float y2, float x);`
better error handling 2017-05-29 08:31:07 -07:00			`float interpolate2d(const char *msg, float value, float bin[], float values[], int size);`
auto-sync 2016-06-29 20:01:53 -07:00
			`int needInterpolationLogging(void);`

			`/**`
			`* @brief Two-dimensional table lookup with linear interpolation`
			`*/`
			`template<typename vType>`
			`float interpolate3d(float x, float xBin[], int xBinSize, float y, float yBin[], int yBinSize, vType* map[]) {`
			`if (cisnan(x)) {`
#65 explicit precision control 2018-01-23 09:05:14 -08:00			`warning(CUSTOM_INTEPOLATE_ERROR_3, "%.2f: x is NaN in interpolate3d", x);`
auto-sync 2016-06-29 20:01:53 -07:00			`return NAN;`
			`}`
			`if (cisnan(y)) {`
#65 explicit precision control 2018-01-23 09:05:14 -08:00			`warning(CUSTOM_INTEPOLATE_ERROR_2, "%.2f: y is NaN in interpolate3d", y);`
auto-sync 2016-06-29 20:01:53 -07:00			`return NAN;`
			`}`

better error handling 2017-05-28 21:02:22 -07:00			`int xIndex = findIndexMsg("x", xBin, xBinSize, x);`
auto-sync 2016-06-29 20:01:53 -07:00			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging())`
			`printf("X index=%d\r\n", xIndex);`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
better error handling 2017-05-28 21:02:22 -07:00			`int yIndex = findIndexMsg("y", yBin, yBinSize, y);`
auto-sync 2016-06-29 20:01:53 -07:00			`if (xIndex < 0 && yIndex < 0) {`
			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging())`
			`printf("X and Y are smaller than smallest cell in table: %d\r\n", xIndex);`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
auto-sync 2016-06-29 20:01:53 -07:00			`return map[0][0];`
			`}`

			`if (xIndex < 0) {`
			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging())`
			`printf("X is smaller than smallest cell in table: %dr\n", xIndex);`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
auto-sync 2016-06-29 20:01:53 -07:00			`if (yIndex == yBinSize - 1)`
			`return map[0][yIndex];`
			`float keyMin = yBin[yIndex];`
			`float keyMax = yBin[yIndex + 1];`
			`float rpmMinValue = map[0][yIndex];`
			`float rpmMaxValue = map[0][yIndex + 1];`

			`return interpolateMsg("3d", keyMin, rpmMinValue, keyMax, rpmMaxValue, y);`
			`}`

			`if (yIndex < 0) {`
			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging())`
			`printf("Y is smaller than smallest cell in table: %d\r\n", yIndex);`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
#604 fix 2018-08-19 08:27:59 -07:00			`if (xIndex == xBinSize - 1)`
			`return map[xIndex][0];`
			`float key1 = xBin[xIndex];`
			`float key2 = xBin[xIndex + 1];`
			`float value1 = map[xIndex][0];`
			`float value2 = map[xIndex + 1][0];`

			`return interpolateMsg("out3d", key1, value1, key2, value2, x);`
auto-sync 2016-06-29 20:01:53 -07:00			`}`

			`if (xIndex == xBinSize - 1 && yIndex == yBinSize - 1) {`
			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging())`
			`printf("X and Y are larger than largest cell in table: %d %d\r\n", xIndex, yIndex);`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
auto-sync 2016-06-29 20:01:53 -07:00			`return map[xBinSize - 1][yBinSize - 1];`
			`}`

			`if (xIndex == xBinSize - 1) {`
			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging())`
			`printf("TODO BETTER LOGGING x overflow %d\r\n", yIndex);`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
#604 fix 2018-08-19 08:27:59 -07:00			`// here yIndex is less than yBinSize - 1, we've checked that condition already`

			`float key1 = yBin[yIndex];`
			`float key2 = yBin[yIndex + 1];`
			`float value1 = map[xIndex][yIndex];`
			`float value2 = map[xIndex][yIndex + 1];`

			`return interpolateMsg("out3d", key1, value1, key2, value2, y);`
auto-sync 2016-06-29 20:01:53 -07:00			`}`

			`if (yIndex == yBinSize - 1) {`
			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging())`
			`printf("Y is larger than largest cell in table: %d\r\n", yIndex);`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
#604 fix 2018-08-19 08:27:59 -07:00			`// here xIndex is less than xBinSize - 1, we've checked that condition already`

			`float key1 = xBin[xIndex];`
			`float key2 = xBin[xIndex + 1];`
			`float value1 = map[xIndex][yIndex];`
			`float value2 = map[xIndex + 1][yIndex];`

			`return interpolateMsg("out3d", key1, value1, key2, value2, x);`
auto-sync 2016-06-29 20:01:53 -07:00			`}`

			`/*`
			`* first we find the interpolated value for this RPM`
			`*/`
			`int rpmMaxIndex = xIndex + 1;`

			`float xMin = xBin[xIndex];`
			`float xMax = xBin[xIndex + 1];`
			`float rpmMinKeyMinValue = map[xIndex][yIndex];`
			`float rpmMaxKeyMinValue = map[xIndex + 1][yIndex];`

more detailed warning 2018-06-12 02:45:11 -07:00			`float keyMinValue = interpolateMsg("", xMin, rpmMinKeyMinValue, xMax, rpmMaxKeyMinValue, x);`
auto-sync 2016-06-29 20:01:53 -07:00
			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging()) {`
#65 explicit precision control 2018-01-23 09:05:14 -08:00			`printf("X=%.2f:\r\nrange %.2f - %.2f\r\n", x, xMin, xMax);`
			`printf("X interpolation range %.2f %.2f result %.2f\r\n", rpmMinKeyMinValue, rpmMaxKeyMinValue, keyMinValue);`
auto-sync 2016-06-29 20:01:53 -07:00			`}`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
auto-sync 2016-06-29 20:01:53 -07:00
			`int keyMaxIndex = yIndex + 1;`
			`float keyMin = yBin[yIndex];`
			`float keyMax = yBin[keyMaxIndex];`
			`float rpmMinKeyMaxValue = map[xIndex][keyMaxIndex];`
			`float rpmMaxKeyMaxValue = map[rpmMaxIndex][keyMaxIndex];`

			`float keyMaxValue = interpolateMsg("3d", xMin, rpmMinKeyMaxValue, xMax, rpmMaxKeyMaxValue, x);`

			`#if DEBUG_INTERPOLATION`
			`if (needInterpolationLogging()) {`
#65 explicit precision control 2018-01-23 09:05:14 -08:00			`printf("key=%.2f:\r\nrange %.2f - %.2f\r\n", y, keyMin, keyMax);`
			`printf("key interpolation range %.2f %.2f result %.2f\r\n", rpmMinKeyMaxValue, rpmMaxKeyMaxValue, keyMaxValue);`
auto-sync 2016-06-29 20:01:53 -07:00			`}`
code style 2018-01-02 11:33:22 -08:00			`#endif /* DEBUG_INTERPOLATION */`
auto-sync 2016-06-29 20:01:53 -07:00
			`float result = interpolateMsg("3d", keyMin, keyMinValue, keyMax, keyMaxValue, y);`
			`return result;`
			`}`
better method name 2017-06-11 12:06:05 -07:00			`void setCurveValue(float bins[], float values[], int size, float key, float value);`
auto-sync 2015-07-10 06:01:56 -07:00			`void initInterpolation(Logging *sharedLogger);`

			`class FastInterpolation {`
			`public:`
			`FastInterpolation();`
			`FastInterpolation(float x1, float y1, float x2, float y2);`
			`void init(float x1, float y1, float x2, float y2);`
			`float getValue(float x);`
			`private:`
			`float a, b;`
			`};`

			`#endif /* INTERPOLATION_3D_H_ */`