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<?php/*=======================================================================// File: JPGRAPH_MESHINTERPOLATE.INC.PHP// Description: Utility class to do mesh linear interpolation of a matrix// Created: 2009-03-09// Ver: $Id: jpgraph_meshinterpolate.inc.php 1709 2009-07-30 08:00:08Z ljp $//// Copyright (c) Aditus Consulting. All rights reserved.//========================================================================*//*** Utility function to do linear mesh interpolation* @param $aDat Matrix to interpolate* @param $aFactor Interpolation factor*/function doMeshInterpolate( &$aData, $aFactor ) {$m = new MeshInterpolate();$aData = $m->Linear($aData,$aFactor);}/*** Utility class to interpolate a given data matrix**/class MeshInterpolate {private $data = array();/*** Calculate the mid points of the given rectangle which has its top left* corner at $row,$col. The $aFactordecides how many spliots should be done.* i.e. how many more divisions should be done recursively** @param $row Top left corner of square to work with* @param $col Top left corner of square to work with* $param $aFactor In how many subsquare should we split this square. A value of 1 indicates that no action*/function IntSquare( $aRow, $aCol, $aFactor ) {if ( $aFactor <= 1 )return;$step = pow( 2, $aFactor-1 );$v0 = $this->data[$aRow][$aCol];$v1 = $this->data[$aRow][$aCol + $step];$v2 = $this->data[$aRow + $step][$aCol];$v3 = $this->data[$aRow + $step][$aCol + $step];$this->data[$aRow][$aCol + $step / 2] = ( $v0 + $v1 ) / 2;$this->data[$aRow + $step / 2][$aCol] = ( $v0 + $v2 ) / 2;$this->data[$aRow + $step][$aCol + $step / 2] = ( $v2 + $v3 ) / 2;$this->data[$aRow + $step / 2][$aCol + $step] = ( $v1 + $v3 ) / 2;$this->data[$aRow + $step / 2][$aCol + $step / 2] = ( $v0 + $v1 + $v2 + $v3 ) / 4;$this->IntSquare( $aRow, $aCol, $aFactor-1 );$this->IntSquare( $aRow, $aCol + $step / 2, $aFactor-1 );$this->IntSquare( $aRow + $step / 2, $aCol, $aFactor-1 );$this->IntSquare( $aRow + $step / 2, $aCol + $step / 2, $aFactor-1 );}/*** Interpolate values in a matrice so that the total number of data points* in vert and horizontal axis are $aIntNbr more. For example $aIntNbr=2 will* make the data matrice have tiwce as many vertical and horizontal dta points.** Note: This will blow up the matrcide in memory size in the order of $aInNbr^2** @param $ &$aData The original data matricde* @param $aInNbr Interpolation factor* @return the interpolated matrice*/function Linear( &$aData, $aIntFactor ) {$step = pow( 2, $aIntFactor-1 );$orig_cols = count( $aData[0] );$orig_rows = count( $aData );// Number of new columns/rows// N = (a-1) * 2^(f-1) + 1$p = pow( 2, $aIntFactor-1 );$new_cols = $p * ( $orig_cols - 1 ) + 1;$new_rows = $p * ( $orig_rows - 1 ) + 1;$this->data = array_fill( 0, $new_rows, array_fill( 0, $new_cols, 0 ) );// Initialize the new matrix with the values that we knowfor ( $i = 0; $i < $new_rows; $i++ ) {for ( $j = 0; $j < $new_cols; $j++ ) {$v = 0 ;if ( ( $i % $step == 0 ) && ( $j % $step == 0 ) ) {$v = $aData[$i / $step][$j / $step];}$this->data[$i][$j] = $v;}}for ( $i = 0; $i < $new_rows-1; $i += $step ) {for ( $j = 0; $j < $new_cols-1; $j += $step ) {$this->IntSquare( $i, $j, $aIntFactor );}}return $this->data;}}?>