nightly-test-server/jpgraph/jpgraph_log.php - llvm-archive - Git at Google

 <?php
 /*=======================================================================
 // File: 	JPGRAPH_LOG.PHP
 // Description:	Log scale plot extension for JpGraph
 // Created: 	2001-01-08
 // Author:	Johan Persson (johanp@aditus.nu)
 // Ver:		$Id$
 //
 // Copyright (c) Aditus Consulting. All rights reserved.
 //========================================================================
 */


 DEFINE('LOGLABELS_PLAIN',0);
 DEFINE('LOGLABELS_MAGNITUDE',1);

 //===================================================
 // CLASS LogScale
 // Description: Logarithmic scale between world and screen
 //===================================================
 class LogScale extends LinearScale {
 //---------------
 // CONSTRUCTOR

     // Log scale is specified using the log of min and max
     function LogScale($min,$max,$type="y") {
 	$this->LinearScale($min,$max,$type);
 	$this->ticks = new LogTicks();
 	$this->name = 'log';
     }

 //----------------
 // PUBLIC METHODS

     // Translate between world and screen
     function Translate($a) {
 	if( !is_numeric($a) ) {
 	    if( $a != '' && $a != '-' && $a != 'x' )
 		JpGraphError::RaiseL(11001);
 //('Your data contains non-numeric values.');
 	    return 1;
 	}
 	if( $a < 0 ) {
 	    JpGraphError::RaiseL(11002);
 //("Negative data values can not be used in a log scale.");
 	    exit(1);
 	}
 	if( $a==0 ) $a=1;
 	$a=log10($a);
 	return ceil($this->off + ($a*1.0 - $this->scale[0]) * $this->scale_factor);
     }

     // Relative translate (don't include offset) usefull when we just want
     // to know the relative position (in pixels) on the axis
     function RelTranslate($a) {
 	if( !is_numeric($a) ) {
 	    if( $a != '' && $a != '-' && $a != 'x' )
 		JpGraphError::RaiseL(11001);
 //('Your data contains non-numeric values.');
 	    return 1;
 	}
 	if( $a==0 ) $a=1;
 	$a=log10($a);
 	return round(($a*1.0 - $this->scale[0]) * $this->scale_factor);
     }

     // Use bcpow() for increased precision
     function GetMinVal() {
 	if( function_exists("bcpow") )
 	    return round(bcpow(10,$this->scale[0],15),14);
 	else
 	    return round(pow(10,$this->scale[0]),14);
     }

     function GetMaxVal() {
 	if( function_exists("bcpow") )
 	    return round(bcpow(10,$this->scale[1],15),14);
 	else
 	    return round(pow(10,$this->scale[1]),14);
     }

     // Logarithmic autoscaling is much simplier since we just
     // set the min and max to logs of the min and max values.
     // Note that for log autoscale the "maxstep" the fourth argument
     // isn't used. This is just included to give the method the same
     // signature as the linear counterpart.
     function AutoScale(&$img,$min,$max,$dummy) {
 	if( $min==0 ) $min=1;

 	if( $max <= 0 ) {
 	    JpGraphError::RaiseL(11004);
 //('Scale error for logarithmic scale. You have a problem with your data values. The max value must be greater than 0. It is mathematically impossible to have 0 in a logarithmic scale.');
 	}
 	$smin = floor(log10($min));
 	$smax = ceil(log10($max));
 	$this->Update($img,$smin,$smax);
     }
 //---------------
 // PRIVATE METHODS
 } // Class

 //===================================================
 // CLASS LogTicks
 // Description:
 //===================================================
 class LogTicks extends Ticks{
     var $label_logtype=LOGLABELS_MAGNITUDE;
 //---------------
 // CONSTRUCTOR
     function LogTicks() {
     }
 //---------------
 // PUBLIC METHODS
     function IsSpecified() {
 	return true;
     }

     function SetLabelLogType($aType) {
 	$this->label_logtype = $aType;
     }

     // For log scale it's meaningless to speak about a major step
     // We just return -1 to make the framework happy (specifically
     // StrokeLabels() )
     function GetMajor() {
 	return -1;
     }

     function SetTextLabelStart($aStart) {
 	JpGraphError::RaiseL(11005);
 //('Specifying tick interval for a logarithmic scale is undefined. Remove any calls to SetTextLabelStart() or SetTextTickInterval() on the logarithmic scale.');
     }

     function SetXLabelOffset($dummy) {
 	// For log scales we dont care about XLabel offset
     }

     // Draw ticks on image "img" using scale "scale". The axis absolute
     // position in the image is specified in pos, i.e. for an x-axis
     // it specifies the absolute y-coord and for Y-ticks it specified the
     // absolute x-position.
     function Stroke(&$img,&$scale,$pos) {
 	$start = $scale->GetMinVal();
 	$limit = $scale->GetMaxVal();
 	$nextMajor = 10*$start;
 	$step = $nextMajor / 10.0;


 	$img->SetLineWeight($this->weight);

 	if( $scale->type == "y" ) {
 	    // member direction specified if the ticks should be on
 	    // left or right side.
 	    $a=$pos + $this->direction*$this->GetMinTickAbsSize();
 	    $a2=$pos + $this->direction*$this->GetMajTickAbsSize();

 	    $count=1;
 	    $this->maj_ticks_pos[0]=$scale->Translate($start);
 	    $this->maj_ticklabels_pos[0]=$scale->Translate($start);
 	    if( $this->supress_first )
 		$this->maj_ticks_label[0]="";
 	    else {
 		if( $this->label_formfunc != '' ) {
 		    $f = $this->label_formfunc;
 		    $this->maj_ticks_label[0]=call_user_func($f,$start);
 		}
 		elseif( $this->label_logtype == LOGLABELS_PLAIN )
 		    $this->maj_ticks_label[0]=$start;
 		else
 		    $this->maj_ticks_label[0]='10^'.round(log10($start));
 	    }
 	    $i=1;
 	    for($y=$start; $y<=$limit; $y+=$step,++$count  ) {
 		$ys=$scale->Translate($y);
 		$this->ticks_pos[]=$ys;
 		$this->ticklabels_pos[]=$ys;
 		if( $count % 10 == 0 ) {
 		    if( !$this->supress_tickmarks ) {
 			if( $this->majcolor!="" ) {
 			    $img->PushColor($this->majcolor);
 			    $img->Line($pos,$ys,$a2,$ys);
 			    $img->PopColor();
 			}
 			else
 			    $img->Line($pos,$ys,$a2,$ys);
 		    }

 		    $this->maj_ticks_pos[$i]=$ys;
 		    $this->maj_ticklabels_pos[$i]=$ys;

 		    if( $this->label_formfunc != '' ) {
 			$f = $this->label_formfunc;
 			$this->maj_ticks_label[$i]=call_user_func($f,$nextMajor);
 		    }
 		    elseif( $this->label_logtype == 0 )
 			$this->maj_ticks_label[$i]=$nextMajor;
 		    else
 			$this->maj_ticks_label[$i]='10^'.round(log10($nextMajor));
 		    ++$i;
 		    $nextMajor *= 10;
 		    $step *= 10;
 		    $count=1;
 		}
 		else {
 		    if( !$this->supress_tickmarks && !$this->supress_minor_tickmarks) {
 			if( $this->mincolor!="" ) $img->PushColor($this->mincolor);
 			$img->Line($pos,$ys,$a,$ys);
 			if( $this->mincolor!="" ) $img->PopColor();
 		    }
 		}
 	    }
 	}
 	else {
 	    $a=$pos - $this->direction*$this->GetMinTickAbsSize();
 	    $a2=$pos - $this->direction*$this->GetMajTickAbsSize();
 	    $count=1;
 	    $this->maj_ticks_pos[0]=$scale->Translate($start);
 	    $this->maj_ticklabels_pos[0]=$scale->Translate($start);
 	    if( $this->supress_first )
 		$this->maj_ticks_label[0]="";
 	    else {
 		if( $this->label_formfunc != '' ) {
 		    $f = $this->label_formfunc;
 		    $this->maj_ticks_label[0]=call_user_func($f,$start);
 		}
 		elseif( $this->label_logtype == 0 )
 		    $this->maj_ticks_label[0]=$start;
 		else
 		    $this->maj_ticks_label[0]='10^'.round(log10($start));
 	    }
 	    $i=1;
 	    for($x=$start; $x<=$limit; $x+=$step,++$count  ) {
 		$xs=$scale->Translate($x);
 		$this->ticks_pos[]=$xs;
 		$this->ticklabels_pos[]=$xs;
 		if( $count % 10 == 0 ) {
 		    if( !$this->supress_tickmarks ) {
 			$img->Line($xs,$pos,$xs,$a2);
 		    }
 		    $this->maj_ticks_pos[$i]=$xs;
 		    $this->maj_ticklabels_pos[$i]=$xs;

 		    if( $this->label_formfunc != '' ) {
 			$f = $this->label_formfunc;
 			$this->maj_ticks_label[$i]=call_user_func($f,$nextMajor);
 		    }
 		    elseif( $this->label_logtype == 0 )
 			$this->maj_ticks_label[$i]=$nextMajor;
 		    else
 			$this->maj_ticks_label[$i]='10^'.round(log10($nextMajor));
 		    ++$i;
 		    $nextMajor *= 10;
 		    $step *= 10;
 		    $count=1;
 		}
 		else {
 		    if( !$this->supress_tickmarks && !$this->supress_minor_tickmarks) {
 			$img->Line($xs,$pos,$xs,$a);
 		    }
 		}
 	    }
 	}
 	return true;
     }
 } // Class
 /* EOF */
 ?>
	<?php
	/*=======================================================================
	// File: JPGRAPH_LOG.PHP
	// Description: Log scale plot extension for JpGraph
	// Created: 2001-01-08
	// Author: Johan Persson (johanp@aditus.nu)
	// Ver: $Id$
	//
	// Copyright (c) Aditus Consulting. All rights reserved.
	//========================================================================
	*/


	DEFINE('LOGLABELS_PLAIN',0);
	DEFINE('LOGLABELS_MAGNITUDE',1);

	//===================================================
	// CLASS LogScale
	// Description: Logarithmic scale between world and screen
	//===================================================
	class LogScale extends LinearScale {
	//---------------
	// CONSTRUCTOR

	// Log scale is specified using the log of min and max
	function LogScale($min,$max,$type="y") {
	$this->LinearScale($min,$max,$type);
	$this->ticks = new LogTicks();
	$this->name = 'log';
	}

	//----------------
	// PUBLIC METHODS

	// Translate between world and screen
	function Translate($a) {
	if( !is_numeric($a) ) {
	if( $a != '' && $a != '-' && $a != 'x' )
	JpGraphError::RaiseL(11001);
	//('Your data contains non-numeric values.');
	return 1;
	}
	if( $a < 0 ) {
	JpGraphError::RaiseL(11002);
	//("Negative data values can not be used in a log scale.");
	exit(1);
	}
	if( $a==0 ) $a=1;
	$a=log10($a);
	return ceil($this->off + ($a1.0 - $this->scale[0]) $this->scale_factor);
	}

	// Relative translate (don't include offset) usefull when we just want
	// to know the relative position (in pixels) on the axis
	function RelTranslate($a) {
	if( !is_numeric($a) ) {
	if( $a != '' && $a != '-' && $a != 'x' )
	JpGraphError::RaiseL(11001);
	//('Your data contains non-numeric values.');
	return 1;
	}
	if( $a==0 ) $a=1;
	$a=log10($a);
	return round(($a1.0 - $this->scale[0]) $this->scale_factor);
	}

	// Use bcpow() for increased precision
	function GetMinVal() {
	if( function_exists("bcpow") )
	return round(bcpow(10,$this->scale[0],15),14);
	else
	return round(pow(10,$this->scale[0]),14);
	}

	function GetMaxVal() {
	if( function_exists("bcpow") )
	return round(bcpow(10,$this->scale[1],15),14);
	else
	return round(pow(10,$this->scale[1]),14);
	}

	// Logarithmic autoscaling is much simplier since we just
	// set the min and max to logs of the min and max values.
	// Note that for log autoscale the "maxstep" the fourth argument
	// isn't used. This is just included to give the method the same
	// signature as the linear counterpart.
	function AutoScale(&$img,$min,$max,$dummy) {
	if( $min==0 ) $min=1;

	if( $max <= 0 ) {
	JpGraphError::RaiseL(11004);
	//('Scale error for logarithmic scale. You have a problem with your data values. The max value must be greater than 0. It is mathematically impossible to have 0 in a logarithmic scale.');
	}
	$smin = floor(log10($min));
	$smax = ceil(log10($max));
	$this->Update($img,$smin,$smax);
	}
	//---------------
	// PRIVATE METHODS
	} // Class

	//===================================================
	// CLASS LogTicks
	// Description:
	//===================================================
	class LogTicks extends Ticks{
	var $label_logtype=LOGLABELS_MAGNITUDE;
	//---------------
	// CONSTRUCTOR
	function LogTicks() {
	}
	//---------------
	// PUBLIC METHODS
	function IsSpecified() {
	return true;
	}

	function SetLabelLogType($aType) {
	$this->label_logtype = $aType;
	}

	// For log scale it's meaningless to speak about a major step
	// We just return -1 to make the framework happy (specifically
	// StrokeLabels() )
	function GetMajor() {
	return -1;
	}

	function SetTextLabelStart($aStart) {
	JpGraphError::RaiseL(11005);
	//('Specifying tick interval for a logarithmic scale is undefined. Remove any calls to SetTextLabelStart() or SetTextTickInterval() on the logarithmic scale.');
	}

	function SetXLabelOffset($dummy) {
	// For log scales we dont care about XLabel offset
	}

	// Draw ticks on image "img" using scale "scale". The axis absolute
	// position in the image is specified in pos, i.e. for an x-axis
	// it specifies the absolute y-coord and for Y-ticks it specified the
	// absolute x-position.
	function Stroke(&$img,&$scale,$pos) {
	$start = $scale->GetMinVal();
	$limit = $scale->GetMaxVal();
	$nextMajor = 10*$start;
	$step = $nextMajor / 10.0;


	$img->SetLineWeight($this->weight);

	if( $scale->type == "y" ) {
	// member direction specified if the ticks should be on
	// left or right side.
	$a=$pos + $this->direction*$this->GetMinTickAbsSize();
	$a2=$pos + $this->direction*$this->GetMajTickAbsSize();

	$count=1;
	$this->maj_ticks_pos[0]=$scale->Translate($start);
	$this->maj_ticklabels_pos[0]=$scale->Translate($start);
	if( $this->supress_first )
	$this->maj_ticks_label[0]="";
	else {
	if( $this->label_formfunc != '' ) {
	$f = $this->label_formfunc;
	$this->maj_ticks_label[0]=call_user_func($f,$start);
	}
	elseif( $this->label_logtype == LOGLABELS_PLAIN )
	$this->maj_ticks_label[0]=$start;
	else
	$this->maj_ticks_label[0]='10^'.round(log10($start));
	}
	$i=1;
	for($y=$start; $y<=$limit; $y+=$step,++$count ) {
	$ys=$scale->Translate($y);
	$this->ticks_pos[]=$ys;
	$this->ticklabels_pos[]=$ys;
	if( $count % 10 == 0 ) {
	if( !$this->supress_tickmarks ) {
	if( $this->majcolor!="" ) {
	$img->PushColor($this->majcolor);
	$img->Line($pos,$ys,$a2,$ys);
	$img->PopColor();
	}
	else
	$img->Line($pos,$ys,$a2,$ys);
	}

	$this->maj_ticks_pos[$i]=$ys;
	$this->maj_ticklabels_pos[$i]=$ys;

	if( $this->label_formfunc != '' ) {
	$f = $this->label_formfunc;
	$this->maj_ticks_label[$i]=call_user_func($f,$nextMajor);
	}
	elseif( $this->label_logtype == 0 )
	$this->maj_ticks_label[$i]=$nextMajor;
	else
	$this->maj_ticks_label[$i]='10^'.round(log10($nextMajor));
	++$i;
	$nextMajor *= 10;
	$step *= 10;
	$count=1;
	}
	else {
	if( !$this->supress_tickmarks && !$this->supress_minor_tickmarks) {
	if( $this->mincolor!="" ) $img->PushColor($this->mincolor);
	$img->Line($pos,$ys,$a,$ys);
	if( $this->mincolor!="" ) $img->PopColor();
	}
	}
	}
	}
	else {
	$a=$pos - $this->direction*$this->GetMinTickAbsSize();
	$a2=$pos - $this->direction*$this->GetMajTickAbsSize();
	$count=1;
	$this->maj_ticks_pos[0]=$scale->Translate($start);
	$this->maj_ticklabels_pos[0]=$scale->Translate($start);
	if( $this->supress_first )
	$this->maj_ticks_label[0]="";
	else {
	if( $this->label_formfunc != '' ) {
	$f = $this->label_formfunc;
	$this->maj_ticks_label[0]=call_user_func($f,$start);
	}
	elseif( $this->label_logtype == 0 )
	$this->maj_ticks_label[0]=$start;
	else
	$this->maj_ticks_label[0]='10^'.round(log10($start));
	}
	$i=1;
	for($x=$start; $x<=$limit; $x+=$step,++$count ) {
	$xs=$scale->Translate($x);
	$this->ticks_pos[]=$xs;
	$this->ticklabels_pos[]=$xs;
	if( $count % 10 == 0 ) {
	if( !$this->supress_tickmarks ) {
	$img->Line($xs,$pos,$xs,$a2);
	}
	$this->maj_ticks_pos[$i]=$xs;
	$this->maj_ticklabels_pos[$i]=$xs;

	if( $this->label_formfunc != '' ) {
	$f = $this->label_formfunc;
	$this->maj_ticks_label[$i]=call_user_func($f,$nextMajor);
	}
	elseif( $this->label_logtype == 0 )
	$this->maj_ticks_label[$i]=$nextMajor;
	else
	$this->maj_ticks_label[$i]='10^'.round(log10($nextMajor));
	++$i;
	$nextMajor *= 10;
	$step *= 10;
	$count=1;
	}
	else {
	if( !$this->supress_tickmarks && !$this->supress_minor_tickmarks) {
	$img->Line($xs,$pos,$xs,$a);
	}
	}
	}
	}
	return true;
	}
	} // Class
	/* EOF */
	?>