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c4f4840fbe
git-svn-id: https://tesseract-ocr.googlecode.com/svn/trunk@163 d0cd1f9f-072b-0410-8dd7-cf729c803f20
250 lines
7.3 KiB
C++
250 lines
7.3 KiB
C++
/**********************************************************************
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* File: linlsq.cpp (Formerly llsq.c)
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* Description: Linear Least squares fitting code.
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* Author: Ray Smith
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* Created: Thu Sep 12 08:44:51 BST 1991
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*
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* (C) Copyright 1991, Hewlett-Packard Ltd.
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** Licensed under the Apache License, Version 2.0 (the "License");
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** you may not use this file except in compliance with the License.
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** You may obtain a copy of the License at
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** http://www.apache.org/licenses/LICENSE-2.0
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** Unless required by applicable law or agreed to in writing, software
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** distributed under the License is distributed on an "AS IS" BASIS,
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** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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** See the License for the specific language governing permissions and
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** limitations under the License.
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*
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**********************************************************************/
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#include "mfcpch.h"
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#include <stdio.h>
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#include <math.h>
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#include "errcode.h"
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#include "linlsq.h"
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#ifndef __UNIX__
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#define M_PI 3.14159265359
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#endif
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const ERRCODE EMPTY_LLSQ = "Can't delete from an empty LLSQ";
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#define EXTERN
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EXTERN double_VAR (pdlsq_posdir_ratio, 4e-6, "Mult of dir to cf pos");
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EXTERN double_VAR (pdlsq_threshold_angleavg, 0.1666666,
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"Frac of pi for simple fit");
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/**********************************************************************
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* LLSQ::clear
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*
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* Function to initialize a LLSQ.
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**********************************************************************/
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void LLSQ::clear() { //initialize
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n = 0; //no elements
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sigx = 0; //update accumulators
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sigy = 0;
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sigxx = 0;
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sigxy = 0;
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sigyy = 0;
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}
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/**********************************************************************
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* LLSQ::add
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*
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* Add an element to the accumulator.
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**********************************************************************/
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void LLSQ::add( //add an element
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double x, //xcoord
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double y //ycoord
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) {
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n++; //count elements
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sigx += x; //update accumulators
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sigy += y;
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sigxx += x * x;
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sigxy += x * y;
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sigyy += y * y;
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}
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/**********************************************************************
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* LLSQ::remove
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*
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* Delete an element from the acculuator.
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**********************************************************************/
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void LLSQ::remove( //delete an element
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double x, //xcoord
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double y //ycoord
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) {
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if (n <= 0)
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//illegal
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EMPTY_LLSQ.error ("LLSQ::remove", ABORT, NULL);
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n--; //count elements
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sigx -= x; //update accumulators
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sigy -= y;
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sigxx -= x * x;
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sigxy -= x * y;
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sigyy -= y * y;
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}
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/**********************************************************************
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* LLSQ::m
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*
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* Return the gradient of the line fit.
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**********************************************************************/
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double LLSQ::m() { //get gradient
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if (n > 1)
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return (sigxy - sigx * sigy / n) / (sigxx - sigx * sigx / n);
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else
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return 0; //too little
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}
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/**********************************************************************
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* LLSQ::c
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*
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* Return the constant of the line fit.
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**********************************************************************/
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double LLSQ::c( //get constant
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double m //gradient to fit with
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) {
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if (n > 0)
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return (sigy - m * sigx) / n;
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else
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return 0; //too little
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}
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/**********************************************************************
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* LLSQ::rms
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*
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* Return the rms error of the fit.
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**********************************************************************/
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double LLSQ::rms( //get error
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double m, //gradient to fit with
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double c //constant to fit with
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) {
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double error; //total error
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if (n > 0) {
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error =
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sigyy + m * (m * sigxx + 2 * (c * sigx - sigxy)) + c * (n * c -
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2 * sigy);
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if (error >= 0)
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error = sqrt (error / n); //sqrt of mean
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else
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error = 0;
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}
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else
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error = 0; //too little
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return error;
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}
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/**********************************************************************
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* LLSQ::spearman
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*
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* Return the spearman correlation coefficient.
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**********************************************************************/
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double LLSQ::spearman() { //get error
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double error; //total error
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if (n > 1) {
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error = (sigxx - sigx * sigx / n) * (sigyy - sigy * sigy / n);
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if (error > 0) {
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error = (sigxy - sigx * sigy / n) / sqrt (error);
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}
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else
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error = 1;
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}
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else
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error = 1; //too little
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return error;
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}
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/**********************************************************************
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* PDLSQ::fit
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*
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* Return all the parameters of the fit to pos/dir.
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* The return value is the rms error.
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**********************************************************************/
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float PDLSQ::fit( //get fit
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DIR128 &ang, //output angle
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float &sin_ang, //r,theta parameterisation
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float &cos_ang,
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float &r) {
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double a, b; //itermediates
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double angle; //resulting angle
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double avg_angle; //simple average
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double error; //total error
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double sinx, cosx; //return values
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if (pos.n > 0) {
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a = pos.sigxy - pos.sigx * pos.sigy / pos.n
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+ pdlsq_posdir_ratio * dir.sigxy;
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b =
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pos.sigxx - pos.sigyy + (pos.sigy * pos.sigy -
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pos.sigx * pos.sigx) / pos.n +
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pdlsq_posdir_ratio * (dir.sigxx - dir.sigyy);
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if (dir.sigy != 0 || dir.sigx != 0)
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avg_angle = atan2 (dir.sigy, dir.sigx);
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else
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avg_angle = 0;
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if ((a != 0 || b != 0) && pos.n > 1)
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angle = atan2 (2 * a, b) / 2;
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else
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angle = avg_angle;
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error = avg_angle - angle;
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if (error > M_PI / 2) {
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error -= M_PI;
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angle += M_PI;
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}
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if (error < -M_PI / 2) {
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error += M_PI;
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angle -= M_PI;
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}
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if (error > M_PI * pdlsq_threshold_angleavg
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|| error < -M_PI * pdlsq_threshold_angleavg)
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angle = avg_angle; //go simple
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//convert direction
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ang = (inT16) (angle * MODULUS / (2 * M_PI));
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sinx = sin (angle);
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cosx = cos (angle);
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r = (sinx * pos.sigx - cosx * pos.sigy) / pos.n;
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// tprintf("x=%g, y=%g, xx=%g, xy=%g, yy=%g, a=%g, b=%g, ang=%g, r=%g\n",
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// pos.sigx,pos.sigy,pos.sigxx,pos.sigxy,pos.sigyy,
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// a,b,angle,r);
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error = dir.sigxx * sinx * sinx + dir.sigyy * cosx * cosx
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- 2 * dir.sigxy * sinx * cosx;
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error *= pdlsq_posdir_ratio;
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error += sinx * sinx * pos.sigxx + cosx * cosx * pos.sigyy
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- 2 * sinx * cosx * pos.sigxy
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- 2 * r * (sinx * pos.sigx - cosx * pos.sigy) + r * r * pos.n;
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if (error >= 0)
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//rms value
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error = sqrt (error / pos.n);
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else
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error = 0; //-0
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sin_ang = sinx;
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cos_ang = cosx;
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}
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else {
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sin_ang = 0.0f;
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cos_ang = 0.0f;
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ang = 0;
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error = 0; //too little
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}
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return error;
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}
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