$sValue2)
{
$paArray1[$sKey2] = array_merge_recursive2( getArrayValue($paArray1,$sKey2), $sValue2);
}
return $paArray1;
}
}
/**
* @return int
* @param $array array
* @param $value mixed
* @desc Prepend a reference to an element to the beginning of an array. Renumbers numeric keys, so $value is always inserted to $array[0]
*/
function array_unshift_ref(&$array, &$value)
{
$return = array_unshift($array,'');
$array[0] =& $value;
return $return;
}
/**
* Same as print_r, budet designed for viewing in web page
*
* @param Array $data
* @param string $label
*/
function print_pre($data, $label='')
{
$is_debug = false;
if (class_exists('kApplication')) {
$application =& kApplication::Instance();
$is_debug = $application->isDebugMode();
}
if ($is_debug) {
if ($label) $application->Debugger->appendHTML(''.$label.'');
$application->Debugger->dumpVars($data);
}
else
{
if ($label) echo '', $label, '
';
echo '', print_r($data, true), '
';
}
}
/**
* Returns array value if key exists
*
* @param Array $array searchable array
* @param int $key array key
* @return string
* @access public
*/
//
function getArrayValue(&$array, $key)
{
$ret = isset($array[$key]) ? $array[$key] : false;
if ($ret && func_num_args() > 2) {
for ($i = 2; $i < func_num_args(); $i++) {
$cur_key = func_get_arg($i);
$ret = getArrayValue( $ret, $cur_key );
if ($ret === false) break;
}
}
return $ret;
}
/**
* Rename key in associative array, maintaining keys order
*
* @param Array $array Associative Array
* @param mixed $old Old key name
* @param mixed $new New key name
* @access public
*/
function array_rename_key(&$array, $old, $new)
{
foreach ($array as $key => $val)
{
$new_array[ $key == $old ? $new : $key] = $val;
}
$array = $new_array;
}
/**
* Define constant if it was not already defined before
*
* @param string $const_name
* @param string $const_value
* @access public
*/
function safeDefine($const_name, $const_value)
{
if(!defined($const_name)) define($const_name,$const_value);
}
if( !function_exists('parse_portal_ini') )
{
function parse_portal_ini($file, $parse_section = false)
{
if (!file_exists($file)) return false;
if( file_exists($file) && !is_readable($file) ) die('Could Not Open Ini File');
$contents = file($file);
$retval = Array();
$section = '';
$ln = 1;
$resave = false;
foreach($contents as $line) {
if ($ln == 1 && $line != '<'.'?'.'php die() ?'.">\n") {
$resave = true;
}
$ln++;
$line = trim($line);
$line = eregi_replace(';[.]*','',$line);
if(strlen($line) > 0) {
//echo $line . " - ";
if(eregi('^[[a-z]+]$',str_replace(' ', '', $line))) {
//echo 'section';
$section = substr($line,1,(strlen($line)-2));
if ($parse_section) {
$retval[$section] = array();
}
continue;
} elseif(eregi('=',$line)) {
//echo 'main element';
list($key,$val) = explode(' = ',$line);
if (!$parse_section) {
$retval[trim($key)] = str_replace('"', '', $val);
}
else {
$retval[$section][trim($key)] = str_replace('"', '', $val);
}
} //end if
//echo '
';
} //end if
} //end foreach
if($resave)
{
$fp = fopen($file, 'w');
reset($contents);
fwrite($fp,'<'.'?'.'php die() ?'.">\n\n");
foreach($contents as $line) fwrite($fp,"$line");
fclose($fp);
}
return $retval;
}
}
if( !function_exists('getmicrotime') )
{
function getmicrotime()
{
list($usec, $sec) = explode(" ",microtime());
return ((float)$usec + (float)$sec);
}
}
if( !function_exists('k4_include_once') )
{
function k4_include_once($file)
{
if ( constOn('DEBUG_MODE') && isset($debugger) && constOn('DBG_PROFILE_INCLUDES') )
{
if ( in_array($file, get_required_files()) ) return;
global $debugger;
$debugger->IncludeLevel++;
$before_time = getmicrotime();
$before_mem = memory_get_usage();
include_once($file);
$used_time = getmicrotime() - $before_time;
$used_mem = memory_get_usage() - $before_mem;
$debugger->IncludeLevel--;
$debugger->IncludesData['file'][] = str_replace(FULL_PATH, '', $file);
$debugger->IncludesData['mem'][] = $used_mem;
$debugger->IncludesData['time'][] = $used_time;
$debugger->IncludesData['level'][] = $debugger->IncludeLevel;
}
else
{
include_once($file);
}
}
}
/**
* Checks if string passed is serialized array
*
* @param string $string
* @return bool
*/
function IsSerialized($string)
{
if( is_array($string) ) return false;
return preg_match('/a:([\d]+):{/', $string);
}
if (!function_exists('makepassword4')){
function makepassword4($length=10)
{
$pass_length=$length;
$p1=array('b','c','d','f','g','h','j','k','l','m','n','p','q','r','s','t','v','w','x','y','z');
$p2=array('a','e','i','o','u');
$p3=array('1','2','3','4','5','6','7','8','9');
$p4=array('(','&',')',';','%'); // if you need real strong stuff
// how much elements in the array
// can be done with a array count but counting once here is faster
$s1=21;// this is the count of $p1
$s2=5; // this is the count of $p2
$s3=9; // this is the count of $p3
$s4=5; // this is the count of $p4
// possible readable combinations
$c1='121'; // will be like 'bab'
$c2='212'; // will be like 'aba'
$c3='12'; // will be like 'ab'
$c4='3'; // will be just a number '1 to 9' if you dont like number delete the 3
// $c5='4'; // uncomment to active the strong stuff
$comb='4'; // the amount of combinations you made above (and did not comment out)
for ($p=0;$p<$pass_length;)
{
mt_srand((double)microtime()*1000000);
$strpart=mt_rand(1,$comb);
// checking if the stringpart is not the same as the previous one
if($strpart<>$previous)
{
$pass_structure.=${'c'.$strpart};
// shortcutting the loop a bit
$p=$p+strlen(${'c'.$strpart});
}
$previous=$strpart;
}
// generating the password from the structure defined in $pass_structure
for ($g=0;$g $value) $params_str .= $key.'='.urlencode($value).'&';
$post = $params_str;
}
$ch = curl_init($url);
$dbg = false;
if (defined('DEBUG_MODE') && DEBUG_MODE && dbg_ConstOn('DBG_CURL')) {
$dbg = true;
safeDefine('DBG_CURL_LOGFILE', '/curl.log');
$log = fopen(FULL_PATH.DBG_CURL_LOGFILE, 'a');
curl_setopt($ch, CURLOPT_FILE, $log);
curl_setopt($ch, CURLOPT_VERBOSE, TRUE);
curl_setopt($ch, CURLOPT_STDERR, $log);
//curl_setopt($ch, CURLOPT_WRITEHEADER, $log);
}
if (!is_null($headers)) {
curl_setopt($ch, CURLOPT_HTTPHEADER, $headers);
}
curl_setopt($ch, CURLOPT_POST, 1);
curl_setopt($ch, CURLOPT_POSTFIELDS, $post);
curl_setopt($ch, CURLOPT_RETURNTRANSFER, 1);
curl_setopt($ch,CURLOPT_REFERER, PROTOCOL.SERVER_NAME);
curl_setopt($ch,CURLOPT_USERAGENT,$_SERVER['HTTP_USER_AGENT']);
curl_setopt($ch,CURLOPT_FOLLOWLOCATION, 0);
curl_setopt($ch, CURLOPT_TIMEOUT, 90);
$ret = curl_exec($ch);
curl_close($ch);
if ($dbg) {
fwrite($log, "\n".$ret);
fclose($log);
}
return $ret;
}
}
if( !function_exists('memory_get_usage') )
{
function memory_get_usage(){ return -1; }
}
function &ref_call_user_func_array($callable, $args)
{
if( is_scalar($callable) )
{
// $callable is the name of a function
$call = $callable;
}
else
{
if( is_object($callable[0]) )
{
// $callable is an object and a method name
$call = "\$callable[0]->{$callable[1]}";
}
else
{
// $callable is a class name and a static method
$call = "{$callable[0]}::{$callable[1]}";
}
}
// Note because the keys in $args might be strings
// we do this in a slightly round about way.
$argumentString = Array();
$argumentKeys = array_keys($args);
foreach($argumentKeys as $argK)
{
$argumentString[] = "\$args[$argumentKeys[$argK]]";
}
$argumentString = implode($argumentString, ', ');
// Note also that eval doesn't return references, so we
// work around it in this way...
eval("\$result =& {$call}({$argumentString});");
return $result;
}
/**
* Checks if constant is defined and has positive value
*
* @param string $const_name
* @return bool
*/
function constOn($const_name)
{
return defined($const_name) && constant($const_name);
}
function Kg2Pounds($kg)
{
$major = floor( round($kg / POUND_TO_KG, 3) );
$minor = abs(round(($kg - $major * POUND_TO_KG) / POUND_TO_KG * 16, 2));
return array($major, $minor);
}
function Pounds2Kg($pounds, $ounces=0)
{
return round(($pounds + ($ounces / 16)) * POUND_TO_KG, 5);
}
/**
* Formats file/memory size in nice way
*
* @param int $bytes
* @return string
* @access public
*/
function formatSize($bytes)
{
if ($bytes >= 1099511627776) {
$return = round($bytes / 1024 / 1024 / 1024 / 1024, 2);
$suffix = "TB";
} elseif ($bytes >= 1073741824) {
$return = round($bytes / 1024 / 1024 / 1024, 2);
$suffix = "GB";
} elseif ($bytes >= 1048576) {
$return = round($bytes / 1024 / 1024, 2);
$suffix = "MB";
} elseif ($bytes >= 1024) {
$return = round($bytes / 1024, 2);
$suffix = "KB";
} else {
$return = $bytes;
$suffix = "Byte";
}
$return .= ' '.$suffix;
return $return;
}
/**
* Enter description here...
*
* @param resource $filePointer the file resource to write to
* @param Array $data the data to write out
* @param string $delimiter the field separator
* @param string $enclosure symbol to enclose field data to
* @param string $recordSeparator symbols to separate records with
*/
function fputcsv2($filePointer, $data, $delimiter = ',', $enclosure = '"', $recordSeparator = "\r\n")
{
foreach($data as $field_index => $field_value) {
// replaces an enclosure with two enclosures
$data[$field_index] = str_replace($enclosure, $enclosure.$enclosure, $field_value);
}
$line = $enclosure.implode($enclosure.$delimiter.$enclosure, $data).$enclosure.$recordSeparator;
fwrite($filePointer, $line);
}
/**
* Allows to replace #section# within any string with current section
*
* @param string $string
* @return string
*/
function replaceModuleSection($string)
{
$application =& kApplication::Instance();
$module_section = $application->RecallVar('section');
if ($module_section) {
// substitute section instead of #section# parameter in title preset name
$module_section = explode(':', $module_section);
$section = preg_replace('/configuration_(.*)/i', '\\1', $module_section[1]);
$string = str_replace('#section#', strtolower($section), $string);
}
return $string;
}
?>