Rev 66 | Blame | Compare with Previous | Last modification | View Log | RSS feed
<?php/*=======================================================================// File: JPGRAPH_UTILS.INC// Description: Collection of non-essential "nice to have" utilities// Created: 2005-11-20// Ver: $Id: jpgraph_utils.inc.php 1777 2009-08-23 17:34:36Z ljp $//// Copyright (c) Aditus Consulting. All rights reserved.//========================================================================*///===================================================// CLASS FuncGenerator// Description: Utility class to help generate data for function plots.// The class supports both parametric and regular functions.//===================================================class FuncGenerator {private $iFunc='',$iXFunc='',$iMin,$iMax,$iStepSize;function __construct($aFunc,$aXFunc='') {$this->iFunc = $aFunc;$this->iXFunc = $aXFunc;}function E($aXMin,$aXMax,$aSteps=50) {$this->iMin = $aXMin;$this->iMax = $aXMax;$this->iStepSize = ($aXMax-$aXMin)/$aSteps;if( $this->iXFunc != '' )$t = 'for($i='.$aXMin.'; $i<='.$aXMax.'; $i += '.$this->iStepSize.') {$ya[]='.$this->iFunc.';$xa[]='.$this->iXFunc.';}';elseif( $this->iFunc != '' )$t = 'for($x='.$aXMin.'; $x<='.$aXMax.'; $x += '.$this->iStepSize.') {$ya[]='.$this->iFunc.';$xa[]=$x;} $x='.$aXMax.';$ya[]='.$this->iFunc.';$xa[]=$x;';elseJpGraphError::RaiseL(24001);//('FuncGenerator : No function specified. ');@eval($t);// If there is an error in the function specifcation this is the only// way we can discover that.if( empty($xa) || empty($ya) )JpGraphError::RaiseL(24002);//('FuncGenerator : Syntax error in function specification ');return array($xa,$ya);}}//=============================================================================// CLASS DateScaleUtils// Description: Help to create a manual date scale//=============================================================================define('DSUTILS_MONTH',1); // Major and minor ticks on a monthly basisdefine('DSUTILS_MONTH1',1); // Major and minor ticks on a monthly basisdefine('DSUTILS_MONTH2',2); // Major ticks on a bi-monthly basisdefine('DSUTILS_MONTH3',3); // Major icks on a tri-monthly basisdefine('DSUTILS_MONTH6',4); // Major on a six-monthly basisdefine('DSUTILS_WEEK1',5); // Major ticks on a weekly basisdefine('DSUTILS_WEEK2',6); // Major ticks on a bi-weekly basisdefine('DSUTILS_WEEK4',7); // Major ticks on a quod-weekly basisdefine('DSUTILS_DAY1',8); // Major ticks on a daily basisdefine('DSUTILS_DAY2',9); // Major ticks on a bi-daily basisdefine('DSUTILS_DAY4',10); // Major ticks on a qoud-daily basisdefine('DSUTILS_YEAR1',11); // Major ticks on a yearly basisdefine('DSUTILS_YEAR2',12); // Major ticks on a bi-yearly basisdefine('DSUTILS_YEAR5',13); // Major ticks on a five-yearly basisclass DateScaleUtils {public static $iMin=0, $iMax=0;private static $starthour,$startmonth, $startday, $startyear;private static $endmonth, $endyear, $endday;private static $tickPositions=array(),$minTickPositions=array();private static $iUseWeeks = true;static function UseWeekFormat($aFlg) {self::$iUseWeeks = $aFlg;}static function doYearly($aType,$aMinor=false) {$i=0; $j=0;$m = self::$startmonth;$y = self::$startyear;if( self::$startday == 1 ) {self::$tickPositions[$i++] = mktime(0,0,0,$m,1,$y);}++$m;switch( $aType ) {case DSUTILS_YEAR1:for($y=self::$startyear; $y <= self::$endyear; ++$y ) {if( $aMinor ) {while( $m <= 12 ) {if( !($y == self::$endyear && $m > self::$endmonth) ) {self::$minTickPositions[$j++] = mktime(0,0,0,$m,1,$y);}++$m;}$m=1;}self::$tickPositions[$i++] = mktime(0,0,0,1,1,$y);}break;case DSUTILS_YEAR2:$y=self::$startyear;while( $y <= self::$endyear ) {self::$tickPositions[$i++] = mktime(0,0,0,1,1,$y);for($k=0; $k < 1; ++$k ) {++$y;if( $aMinor ) {self::$minTickPositions[$j++] = mktime(0,0,0,1,1,$y);}}++$y;}break;case DSUTILS_YEAR5:$y=self::$startyear;while( $y <= self::$endyear ) {self::$tickPositions[$i++] = mktime(0,0,0,1,1,$y);for($k=0; $k < 4; ++$k ) {++$y;if( $aMinor ) {self::$minTickPositions[$j++] = mktime(0,0,0,1,1,$y);}}++$y;}break;}}static function doDaily($aType,$aMinor=false) {$m = self::$startmonth;$y = self::$startyear;$d = self::$startday;$h = self::$starthour;$i=0;$j=0;if( $h == 0 ) {self::$tickPositions[$i++] = mktime(0,0,0,$m,$d,$y);}$t = mktime(0,0,0,$m,$d,$y);switch($aType) {case DSUTILS_DAY1:while( $t <= self::$iMax ) {$t = strtotime('+1 day',$t);self::$tickPositions[$i++] = $t;if( $aMinor ) {self::$minTickPositions[$j++] = strtotime('+12 hours',$t);}}break;case DSUTILS_DAY2:while( $t <= self::$iMax ) {$t = strtotime('+1 day',$t);if( $aMinor ) {self::$minTickPositions[$j++] = $t;}$t = strtotime('+1 day',$t);self::$tickPositions[$i++] = $t;}break;case DSUTILS_DAY4:while( $t <= self::$iMax ) {for($k=0; $k < 3; ++$k ) {$t = strtotime('+1 day',$t);if( $aMinor ) {self::$minTickPositions[$j++] = $t;}}$t = strtotime('+1 day',$t);self::$tickPositions[$i++] = $t;}break;}}static function doWeekly($aType,$aMinor=false) {$hpd = 3600*24;$hpw = 3600*24*7;// Find out week number of min date$thursday = self::$iMin + $hpd * (3 - (date('w', self::$iMin) + 6) % 7);$week = 1 + (date('z', $thursday) - (11 - date('w', mktime(0, 0, 0, 1, 1, date('Y', $thursday)))) % 7) / 7;$daynumber = date('w',self::$iMin);if( $daynumber == 0 ) $daynumber = 7;$m = self::$startmonth;$y = self::$startyear;$d = self::$startday;$i=0;$j=0;// The assumption is that the weeks start on Monday. If the first day// is later in the week then the first week tick has to be on the following// week.if( $daynumber == 1 ) {self::$tickPositions[$i++] = mktime(0,0,0,$m,$d,$y);$t = mktime(0,0,0,$m,$d,$y) + $hpw;}else {$t = mktime(0,0,0,$m,$d,$y) + $hpd*(8-$daynumber);}switch($aType) {case DSUTILS_WEEK1:$cnt=0;break;case DSUTILS_WEEK2:$cnt=1;break;case DSUTILS_WEEK4:$cnt=3;break;}while( $t <= self::$iMax ) {self::$tickPositions[$i++] = $t;for($k=0; $k < $cnt; ++$k ) {$t += $hpw;if( $aMinor ) {self::$minTickPositions[$j++] = $t;}}$t += $hpw;}}static function doMonthly($aType,$aMinor=false) {$monthcount=0;$m = self::$startmonth;$y = self::$startyear;$i=0; $j=0;// Skip the first month label if it is before the startdateif( self::$startday == 1 ) {self::$tickPositions[$i++] = mktime(0,0,0,$m,1,$y);$monthcount=1;}if( $aType == 1 ) {if( self::$startday < 15 ) {self::$minTickPositions[$j++] = mktime(0,0,0,$m,15,$y);}}++$m;// Loop through all the years included in the scalefor($y=self::$startyear; $y <= self::$endyear; ++$y ) {// Loop through all the months. There are three cases to consider:// 1. We are in the first year and must start with the startmonth// 2. We are in the end year and we must stop at last month of the scale// 3. A year in between where we run through all the 12 months$stopmonth = $y == self::$endyear ? self::$endmonth : 12;while( $m <= $stopmonth ) {switch( $aType ) {case DSUTILS_MONTH1:// Set minor tick at the middle of the monthif( $aMinor ) {if( $m <= $stopmonth ) {if( !($y==self::$endyear && $m==$stopmonth && self::$endday < 15) )self::$minTickPositions[$j++] = mktime(0,0,0,$m,15,$y);}}// Major at month// Get timestamp of first hour of first day in each monthself::$tickPositions[$i++] = mktime(0,0,0,$m,1,$y);break;case DSUTILS_MONTH2:if( $aMinor ) {// Set minor tick at start of each monthself::$minTickPositions[$j++] = mktime(0,0,0,$m,1,$y);}// Major at every second month// Get timestamp of first hour of first day in each monthif( $monthcount % 2 == 0 ) {self::$tickPositions[$i++] = mktime(0,0,0,$m,1,$y);}break;case DSUTILS_MONTH3:if( $aMinor ) {// Set minor tick at start of each monthself::$minTickPositions[$j++] = mktime(0,0,0,$m,1,$y);}// Major at every third month// Get timestamp of first hour of first day in each monthif( $monthcount % 3 == 0 ) {self::$tickPositions[$i++] = mktime(0,0,0,$m,1,$y);}break;case DSUTILS_MONTH6:if( $aMinor ) {// Set minor tick at start of each monthself::$minTickPositions[$j++] = mktime(0,0,0,$m,1,$y);}// Major at every third month// Get timestamp of first hour of first day in each monthif( $monthcount % 6 == 0 ) {self::$tickPositions[$i++] = mktime(0,0,0,$m,1,$y);}break;}++$m;++$monthcount;}$m=1;}// For the case where all dates are within the same month// we want to make sure we have at least two ticks on the scale// since the scale want work properly otherwiseif(self::$startmonth == self::$endmonth && self::$startyear == self::$endyear && $aType==1 ) {self::$tickPositions[$i++] = mktime(0 ,0 ,0, self::$startmonth + 1, 1, self::$startyear);}return array(self::$tickPositions,self::$minTickPositions);}static function GetTicks($aData,$aType=1,$aMinor=false,$aEndPoints=false) {$n = count($aData);return self::GetTicksFromMinMax($aData[0],$aData[$n-1],$aType,$aMinor,$aEndPoints);}static function GetAutoTicks($aMin,$aMax,$aMaxTicks=10,$aMinor=false) {$diff = $aMax - $aMin;$spd = 3600*24;$spw = $spd*7;$spm = $spd*30;$spy = $spd*352;if( self::$iUseWeeks )$w = 'W';else$w = 'd M';// Decision table for suitable scales// First value: Main decision point// Second value: Array of formatting depending on divisor for wanted max number of ticks. <divisor><formatting><format-string>,..$tt = array(array($spw, array(1,DSUTILS_DAY1,'d M',2,DSUTILS_DAY2,'d M',-1,DSUTILS_DAY4,'d M')),array($spm, array(1,DSUTILS_DAY1,'d M',2,DSUTILS_DAY2,'d M',4,DSUTILS_DAY4,'d M',7,DSUTILS_WEEK1,$w,-1,DSUTILS_WEEK2,$w)),array($spy, array(1,DSUTILS_DAY1,'d M',2,DSUTILS_DAY2,'d M',4,DSUTILS_DAY4,'d M',7,DSUTILS_WEEK1,$w,14,DSUTILS_WEEK2,$w,30,DSUTILS_MONTH1,'M',60,DSUTILS_MONTH2,'M',-1,DSUTILS_MONTH3,'M')),array(-1, array(30,DSUTILS_MONTH1,'M-Y',60,DSUTILS_MONTH2,'M-Y',90,DSUTILS_MONTH3,'M-Y',180,DSUTILS_MONTH6,'M-Y',352,DSUTILS_YEAR1,'Y',704,DSUTILS_YEAR2,'Y',-1,DSUTILS_YEAR5,'Y')));$ntt = count($tt);$nd = floor($diff/$spd);for($i=0; $i < $ntt; ++$i ) {if( $diff <= $tt[$i][0] || $i==$ntt-1) {$t = $tt[$i][1];$n = count($t)/3;for( $j=0; $j < $n; ++$j ) {if( $nd/$t[3*$j] <= $aMaxTicks || $j==$n-1) {$type = $t[3*$j+1];$fs = $t[3*$j+2];list($tickPositions,$minTickPositions) = self::GetTicksFromMinMax($aMin,$aMax,$type,$aMinor);return array($fs,$tickPositions,$minTickPositions,$type);}}}}}static function GetTicksFromMinMax($aMin,$aMax,$aType,$aMinor=false,$aEndPoints=false) {self::$starthour = date('G',$aMin);self::$startmonth = date('n',$aMin);self::$startday = date('j',$aMin);self::$startyear = date('Y',$aMin);self::$endmonth = date('n',$aMax);self::$endyear = date('Y',$aMax);self::$endday = date('j',$aMax);self::$iMin = $aMin;self::$iMax = $aMax;if( $aType <= DSUTILS_MONTH6 ) {self::doMonthly($aType,$aMinor);}elseif( $aType <= DSUTILS_WEEK4 ) {self::doWeekly($aType,$aMinor);}elseif( $aType <= DSUTILS_DAY4 ) {self::doDaily($aType,$aMinor);}elseif( $aType <= DSUTILS_YEAR5 ) {self::doYearly($aType,$aMinor);}else {JpGraphError::RaiseL(24003);}// put a label at the very left data posif( $aEndPoints ) {$tickPositions[$i++] = $aData[0];}// put a label at the very right data posif( $aEndPoints ) {$tickPositions[$i] = $aData[$n-1];}return array(self::$tickPositions,self::$minTickPositions);}}//=============================================================================// Class ReadFileData//=============================================================================Class ReadFileData {//----------------------------------------------------------------------------// Desciption:// Read numeric data from a file.// Each value should be separated by either a new line or by a specified// separator character (default is ',').// Before returning the data each value is converted to a proper float// value. The routine is robust in the sense that non numeric data in the// file will be discarded.//// Returns:// The number of data values read on success, FALSE on failure//----------------------------------------------------------------------------static function FromCSV($aFile,&$aData,$aSepChar=',',$aMaxLineLength=1024) {$rh = @fopen($aFile,'r');if( $rh === false ) {return false;}$tmp = array();$lineofdata = fgetcsv($rh, 1000, ',');while ( $lineofdata !== FALSE) {$tmp = array_merge($tmp,$lineofdata);$lineofdata = fgetcsv($rh, $aMaxLineLength, $aSepChar);}fclose($rh);// Now make sure that all data is numeric. By default// all data is read as strings$n = count($tmp);$aData = array();$cnt=0;for($i=0; $i < $n; ++$i) {if( $tmp[$i] !== "" ) {$aData[$cnt++] = floatval($tmp[$i]);}}return $cnt;}//----------------------------------------------------------------------------// Desciption:// Read numeric data from a file.// Each value should be separated by either a new line or by a specified// separator character (default is ',').// Before returning the data each value is converted to a proper float// value. The routine is robust in the sense that non numeric data in the// file will be discarded.//// Options:// 'separator' => ',',// 'enclosure' => '"',// 'readlength' => 1024,// 'ignore_first' => false,// 'first_as_key' => false// 'escape' => '\', # PHP >= 5.3 only//// Returns:// The number of lines read on success, FALSE on failure//----------------------------------------------------------------------------static function FromCSV2($aFile, &$aData, $aOptions = array()) {$aDefaults = array('separator' => ',','enclosure' => chr(34),'escape' => chr(92),'readlength' => 1024,'ignore_first' => false,'first_as_key' => false);$aOptions = array_merge($aDefaults, is_array($aOptions) ? $aOptions : array());if( $aOptions['first_as_key'] ) {$aOptions['ignore_first'] = true;}$rh = @fopen($aFile, 'r');if( $rh === false ) {return false;}$aData = array();$aLine = fgetcsv($rh,$aOptions['readlength'],$aOptions['separator'],$aOptions['enclosure']/*, $aOptions['escape'] # PHP >= 5.3 only */);// Use numeric array keys for the columns by default// If specified use first lines values as assoc keys instead$keys = array_keys($aLine);if( $aOptions['first_as_key'] ) {$keys = array_values($aLine);}$num_lines = 0;$num_cols = count($aLine);while ($aLine !== false) {if( is_array($aLine) && count($aLine) != $num_cols ) {JpGraphError::RaiseL(24004);// 'ReadCSV2: Column count mismatch in %s line %d'}// fgetcsv returns NULL for empty linesif( !is_null($aLine) ) {$num_lines++;if( !($aOptions['ignore_first'] && $num_lines == 1) && is_numeric($aLine[0]) ) {for( $i = 0; $i < $num_cols; $i++ ) {$aData[ $keys[$i] ][] = floatval($aLine[$i]);}}}$aLine = fgetcsv($rh,$aOptions['readlength'],$aOptions['separator'],$aOptions['enclosure']/*, $aOptions['escape'] # PHP >= 5.3 only*/);}fclose($rh);if( $aOptions['ignore_first'] ) {$num_lines--;}return $num_lines;}// Read data from two columns in a plain text filestatic function From2Col($aFile, $aCol1, $aCol2, $aSepChar=' ') {$lines = @file($aFile,FILE_IGNORE_NEW_LINES|FILE_SKIP_EMPTY_LINES);if( $lines === false ) {return false;}$s = '/[\s]+/';if( $aSepChar == ',' ) {$s = '/[\s]*,[\s]*/';}elseif( $aSepChar == ';' ) {$s = '/[\s]*;[\s]*/';}foreach( $lines as $line => $datarow ) {$split = preg_split($s,$datarow);$aCol1[] = floatval(trim($split[0]));$aCol2[] = floatval(trim($split[1]));}return count($lines);}// Read data from one columns in a plain text filestatic function From1Col($aFile, $aCol1) {$lines = @file($aFile,FILE_IGNORE_NEW_LINES|FILE_SKIP_EMPTY_LINES);if( $lines === false ) {return false;}foreach( $lines as $line => $datarow ) {$aCol1[] = floatval(trim($datarow));}return count($lines);}static function FromMatrix($aFile,$aSepChar=' ') {$lines = @file($aFile,FILE_IGNORE_NEW_LINES|FILE_SKIP_EMPTY_LINES);if( $lines === false ) {return false;}$mat = array();$reg = '/'.$aSepChar.'/';foreach( $lines as $line => $datarow ) {$row = preg_split($reg,trim($datarow));foreach ($row as $key => $cell ) {$row[$key] = floatval(trim($cell));}$mat[] = $row;}return $mat;}}define('__LR_EPSILON', 1.0e-8);//=============================================================================// Class LinearRegression//=============================================================================class LinearRegression {private $ix=array(),$iy=array();private $ib=0, $ia=0;private $icalculated=false;public $iDet=0, $iCorr=0, $iStdErr=0;public function __construct($aDataX,$aDataY) {if( count($aDataX) !== count($aDataY) ) {JpGraph::Raise('LinearRegression: X and Y data array must be of equal length.');}$this->ix = $aDataX;$this->iy = $aDataY;}public function Calc() {$this->icalculated = true;$n = count($this->ix);$sx2 = 0 ;$sy2 = 0 ;$sxy = 0 ;$sx = 0 ;$sy = 0 ;for( $i=0; $i < $n; ++$i ) {$sx2 += $this->ix[$i] * $this->ix[$i];$sy2 += $this->iy[$i] * $this->iy[$i];$sxy += $this->ix[$i] * $this->iy[$i];$sx += $this->ix[$i];$sy += $this->iy[$i];}if( $n*$sx2 - $sx*$sx > __LR_EPSILON ) {$this->ib = ($n*$sxy - $sx*$sy) / ( $n*$sx2 - $sx*$sx );$this->ia = ( $sy - $this->ib*$sx ) / $n;$sx = $this->ib * ( $sxy - $sx*$sy/$n );$sy2 = $sy2 - $sy*$sy/$n;$sy = $sy2 - $sx;$this->iDet = $sx / $sy2;$this->iCorr = sqrt($this->iDet);if( $n > 2 ) {$this->iStdErr = sqrt( $sy / ($n-2) );}else {$this->iStdErr = NAN ;}}else {$this->ib = 0;$this->ia = 0;}}public function GetAB() {if( $this->icalculated == false )$this->Calc();return array($this->ia, $this->ib);}public function GetStat() {if( $this->icalculated == false )$this->Calc();return array($this->iStdErr, $this->iCorr, $this->iDet);}public function GetY($aMinX, $aMaxX, $aStep=1) {if( $this->icalculated == false )$this->Calc();$yy = array();$i = 0;for( $x=$aMinX; $x <= $aMaxX; $x += $aStep ) {$xx[$i ] = $x;$yy[$i++] = $this->ia + $this->ib * $x;}return array($xx,$yy);}}?>