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PHP Decode
<?php $_F=__FILE__;$_X='PzV2P1lHWS4kX3JJX19yWHVWX187JF9dSSdFT2N6RUhOeFVBZGZdT2tLXWNpWjRUay..
Decoded Output download
?><?php
$date1 = $_GET['get1'];
$ex = explode('-',$date1);
$dataclose = $_POST['in_grade_go'];
$mem_id = $_POST['mem_id'];
$d1 =substr($dataclose, 0, 2);
$m1 =substr($dataclose, 2, 2);
$y1 =substr($dataclose, 4, 4);
$data_close = $d1.'-'.$m1.'-'.$y1;
$data_close2 = $y1.'-'.$m1.'-'.$d1;
$y2 =substr($y1, 0, 4)-543;
$data_close3 = $y2.'-'.$m1.'-'.$d1;
$process_date_cal=$data_close3;
//echo $dataclose;
set_time_limit(0);
ini_set("memory_limit","256M");
include("../../Conn/connfoxpro.php");
//$ye = $y+543;
$date1 = date("Y-m-d");
//
$sql_sys ="Select * From constsys
Inner Join location On constsys.prov = location.prov And constsys.subprov =location.subprov
Inner Join location location1 On location.prov = location1.prov where location1.subprov='00'";
$results1 = odbc_exec($conn,$sql_sys);
while (odbc_fetch_row( $results1 )) {
$consys = odbc_result($results1,"coname");
$conv = iconv("windows-874","UTF-8",$consys );
$coaddr = odbc_result($results1,"coaddr");
$coadd = iconv("windows-874","UTF-8",$coaddr );
$lnames = odbc_result($results1,"lname");
$lnamep = iconv("windows-874","UTF-8",$lnames );
$tel = odbc_result($results1,"tel");
$fax = odbc_result($results1,"fax");
$zipcod1 = odbc_result($results1,"zipcode");
}
include("testcounttime.php");
$getpost1;
$date1 = date("Y-m-d");
$d4 =substr($date1, 8, 2);
$m4 =substr($date1, 5, 2);
$y4 =substr($date1, 0, 4)+543;
$date_now = $d4.'-'.$m4.'-'.$y4;
include("../mpdf.php");
include("../../Conn/conn2.php");
$sql_groupd ="SELECT * FROM t_year WHERE isstatus='Y'";
$s_groupd = mysql_db_query($dbname,$sql_groupd);
while ($rowd = mysql_fetch_array($s_groupd)) {
$working_year=$rowd['yearid']-543;
$date1=$rowd['begindate1'];
$end_date=$rowd['enddate2'];
$day_in_year = DateDiff("$date1","$end_date")+1;
}
$sql_group ="SELECT * from (SELECT memberid,contractid,balanceamt,isstatus,loanid
from t_contract
where isstatus = 'Y' AND balanceamt <> 0.00 )as tb01
INNER JOIN (SELECT * FROM member_copy Where code_id ='$mem_id' ) AS tb02
on tb01.memberid=tb02.code_id GROUP by code_id ORDER by code_id";
$s_group = mysql_db_query($dbname,$sql_group);
$i=0;
while ($row = mysql_fetch_array($s_group)) {
$mem_c = $row['code_id'];
?>
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN" "http://www.w3.org/TR/html4/loose.dtd">
<html>
<head>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8">
<style type="text/css">
html{
font-family:tahoma, Arial,"Times New Roman";
font-size:14px;
}
body{
font-family:tahoma, Arial,"Times New Roman";
font-size:14px;
}
.margin_top_5{
margin-top: 5px;
}
</style>
<title>Untitled Document</title>
</head>
<BODY onLoad="window.print()">
<table width="900px" border="0" align="center" cellpadding="0" cellspacing="0">
<tr>
<td style="text-align:left;" ><table width="100%" border="0" cellpadding="0" cellspacing="0">
<tr>
<td width="5%" align="left"> </td>
<td width="90%" height="30"><?=$row["name"];?></td>
</tr>
<tr>
<td> </td>
<td height="30"> <?=$row["address"];?>
<?=$row["mou"];?>
<?=$row["tombol"];?></td>
</tr>
<tr>
<td> </td>
<td height="30"> <?=$row["amphor"];?>
<?=$row["prov"];?>
<?=$row["zipcode"];?></td>
</tr>
</table></td>
<td width="438" align="right"></td>
</tr>
<tr>
<td height="30" align="center" ></td>
<td height="25" style="text-align:right; "><span class="style1"> <?=$row["groupid"];?> <?=$row["code_id"];?></span></td>
</tr>
<tr>
<td height="30" colspan="2" align="left"> <?=y3($date_now);?></td>
</tr>
<tr>
<td height="30" colspan="2" align="center"><span class="style1"><?=$conv;?></span></td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td height="30" colspan="2" align="center"><span class="style1"></span></td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="left" colspan="2"><table width="100%" border="0" cellpadding="0" cellspacing="0">
<tr>
<td width="5%"> </td>
<td height="30"> <?=y3($data_close);?> </td>
</tr>
</table> </td>
</tr>
<tr>
<td align="left" colspan="2">
<table width="890px" border="1" align="center" cellpadding="0" cellspacing="0" style="border-collapse: collapse">
<tr>
<td width="50" rowspan="2" align="center" valign="middle"></td>
<td height="25" colspan="2" align="center"></td>
<td width="100" rowspan="2" align="center" valign="middle"></td>
<td width="100" rowspan="2" align="center" valign="middle"></td>
<td align="center" colspan="3"></td>
<td width="100" rowspan="2" align="center" valign="middle"></td>
</tr>
<tr>
<td width="300" height="25" align="center" ></td>
<td width="100" align="center" ></td>
<td align="center" width="100"></td>
<td align="center" width="100"></td>
<td align="center" width="100"></td>
</tr>
<?
set_time_limit(0);
ini_set('memory_limit','1024M');
$i=0;
$r=0;
$sql1 = "SELECT * FROM t_contract WHERE memberid='$mem_c' AND balanceamt > 0 AND isstatus='Y' order by loanid,contractid";
$Qtotal = mysql_db_query($dbname,$sql1);
$total = mysql_num_rows($Qtotal);
$x=0;
while ($row1 = mysql_fetch_array( $Qtotal )) {
$contract_no = $row1['contractid'];
$loanname = $row1['loanname'];
$contract_balance_amount = $row1['balanceamt'];
$contract_balance_amount1 += $contract_balance_amount;
$balanceamt=number_format($contract_balance_amount,'2','.',',');
$contract_last_int=$row1['intdue']; //
$contract_last_pen=$row1['feedue']; //
$contract_int_accru=$row1['intoverdue'];//
$contract_pen_accru=$row1['feeoverdue'];//
$contract_last_int_date=$row1['intdate2']; //intdate2
$contract_last_pen_date=$row1['feedate2']; //feedate2
$contract_int_rate=$row1['intrate']; //
$x++;
$total_pen_day1 = DateDiff("$contract_last_int_date","$process_date_cal");
$rec_pen1=round((floatval($contract_balance_amount) * floatval($contract_int_rate) * floatval($total_pen_day1)) / (floatval($day_in_year) * 100),2);
$total_int=$rec_pen1+$contract_last_int;
$total_int_net=floatval($total_int)+floatval($contract_int_accru);
$total_int_net2 = $total_int_net2 + $total_int_net ;
$sql3="SELECT max(duedate3) as contract_end_date FROM t_contract_due where contractid='$contract_no' ";
$Qtota3 = mysql_db_query($dbname,$sql3);
while ($row3 = mysql_fetch_array( $Qtota3 ))
$contract_end_date = $row3['contract_end_date'];
$sql4="SELECT sum(balancedue) total_due_balance FROM t_contract_due where contractid='$contract_no' and duedate2<='$process_date_cal'";
$Qtota4 = mysql_db_query($dbname,$sql4);
while ($row4 = mysql_fetch_array( $Qtota4 ))
$total_due_balance = $row4['total_due_balance'];
$total_due_balance1 += $total_due_balance;
$contract_pen_rate='3'; //
$sql2="SELECT balancedue,duedate2,duedate3,dueid FROM t_contract_due where date(duedate2) <'$process_date_cal' and contractid='$contract_no' and balancedue>0 order by dueid";
$Qtota2 = mysql_db_query($dbname,$sql2);
$tota2 = mysql_num_rows($Qtota2);
if($tota2>0){
while ($row2 = mysql_fetch_array( $Qtota2 )) {
$fov=$row2['balancedue'];
$fov_due=number_format($fov1,'2','.',',');
$fod=$row2['duedate2'];
$fod2=$row2['duedate3'];
$due_id=$row2['dueid'];
$fodd=strtotime($fod);//
$fldd=strtotime($contract_last_pen_date); //
if($fldd < $fodd)
{
$cld=$fod;
}else{
$cld=$contract_last_pen_date;
}
$total_pen_day = DateDiff($cld,$process_date_cal);
$total_pen_cal=round((floatval($fov) * floatval($contract_pen_rate) * floatval($total_pen_day)) / (floatval($day_in_year) * 100),2);
$total_pen_only += $total_pen_cal;
$total_pen_cal=0;
}
$total_pen=$total_pen_only+$contract_last_pen;
$total_pen_only=0;
}else{
$total_pen=0;
}
$total_int_net=floatval($total_int)+floatval($contract_int_accru);
$total_pen_net=floatval($total_pen)+floatval($contract_pen_accru);
$total_pen_net2 += $total_pen_net;
?>
<tr>
<td align="center"><?=$x;?></td>
<td align="left"> <?=$loanname;?></td>
<td align="center"><?=$contract_no;?></td>
<td align="center"><?=$contract_end_date;?></td>
<td align="right"><?=$balanceamt;?>
</td>
<td align="right"><?=number_format($total_due_balance,2);?>
</td>
<td align="right"><?=number_format($total_int_net,2);?>
</td>
<td align="right"><?=number_format($total_pen_net,2);?>
</td>
<td align="right"><?$xx=$total_due_balance+$total_int_net+$total_pen_net?><?=number_format($xx,2);?>
</td>
<tr>
<?
}
?>
<td align="center" colspan="4"></td>
<td align="right" ><?=number_format($contract_balance_amount1,2);?>
</td>
<td align="right" ><?=number_format($total_due_balance1,2);?>
</td>
<td align="right" ><?=number_format($total_int_net2,2);?>
</td>
<td align="right" ><?=number_format($total_pen_net2,2);?>
</td>
<td align="right" ><?$xxx=$total_due_balance1+$total_int_net2+$total_pen_net2?><?=number_format($xxx,2);?>
</td>
</tr>
<?
$contract_balance_amount1 = 0;
$total_due_balance1 = 0;
$total_int_net2 = 0;
$total_pen_net2=0;
?>
</table> </td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="left" colspan="2"><table width="100%" border="0" cellpadding="0" cellspacing="0">
<tr>
<td width="5%"> </td>
<td height="30"> <?=number_format($xxx,2);?> (
<?=num2Thai($xxx);?>
)</td>
</tr>
</table></td>
</tr>
<tr>
<td height="30" colspan="2" align="left"> <?=$conv?>
..................................................... </td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="left"></td>
<td align="center"></td>
</tr>
<tr>
<td align="center"></td>
<td align="center"></td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="center" width="1026"></td>
<td height="50" align="center">..................................</td>
</tr>
<tr>
<td align="center" width="1026"></td>
<td align="center"></td>
</tr>
<?php
while($x<25){
$x++;
?>
<tr>
<td colspan="2" align="center"> </td>
</tr>
<?
}
?>
<tr>
<td align="center" colspan="2"><hr noshade />
<span class="style1"></span></td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="right" colspan="2">........................................</td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="left" colspan="2"><table width="100%" border="0" cellpadding="0" cellspacing="0">
<tr>
<td width="5%"> </td>
<td height="30"> <?=$row["name"]?></td>
</tr>
</table></td>
</tr>
<tr>
<td height="30" colspan="2" align="left"> <?=y3($date_now)?> </td>
</tr>
<tr>
<td height="30" colspan="2" align="left">........................................ ........................................</td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="center" width="1026"></td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td align="center" colspan="2"></td>
</tr>
<tr>
<td colspan="2" align="right" valign="bottom"> </td>
</tr>
<tr>
<td height="50" align="center"></td>
<td height="35" align="center" valign="bottom" >()..............................................</td>
</tr>
<tr>
<td align="center"></td>
<td height="35" align="center" >
<?=$row["groupid"];?>
<?=$row["code_id"]?></td>
</tr>
<tr>
<td align="center" colspan="2"> </td>
</tr>
</table>
<div style="page-break-after: always"></div>
<?
}
?>
</body>
<?php
function y($t) //--$t
{
$tm=array('.','.','.','.','.','.','.','.','.','.','.','.');
$t=ereg_replace ('[^0-9]','',$t);
$y=substr($t,5,9);
$m=$tm[substr($t,5,2)-1];
$d=substr($t,0,2);
$h=substr($t,8,2);
$i=substr($t,10,2);
$s=substr($t,12,2);
return $d.'/'.$m.'/'.$y;
};
function y3($t) //--$t
{
$tm=array('','','','','','',' ','','','','','');
$t=ereg_replace ('[^0-9]','',$t);
$y=substr($t,4,4);
$m=$tm[substr($t,2,2)-1];
$d=substr($t,0,2);
$h=substr($t,8,2);
$i=substr($t,10,2);
$s=substr($t,12,2);
return $d.' '.$m.' '.$y;
}
function y1($t) //--$t
{
$tm=array('','','','','','',' ','','','','','');
$t=ereg_replace ('[^0-9]','',$t);
$y=substr($t,0,4);
$m=$tm[substr($t,4,2)-1];
$d=substr($t,6,2);
$h=substr($t,8,2);
$i=substr($t,10,2);
$s=substr($t,12,2);
return $d.' '.$m.' '.$y;
}
function y2($t) //--$t
{
$tm=array('','','','','','',' ','','','','','');
$t=ereg_replace ('[^0-9]','',$t);
$y=substr($t,0,2);
$m=$tm[substr($t,2,2)-1];
$d=substr($t,4,4);
$h=substr($t,8,2);
$i=substr($t,10,2);
$s=substr($t,12,2);
return $d.' '.$m.' '.$y;
};
ob_end_flush();
function num2Thai($input_number2){
$digit=array('','','','','','','','','','','','');
$digit2=array('','','','','','','');
$input_number3 = number_format($input_number2,2);
$explode_number = explode(".",$input_number3);
$nume=$explode_number[0]; //
$num1=$explode_number[1]; //
$explode_n1 = explode(",",$nume);
$num01 = $explode_n1[0];
$num02 = $explode_n1[1];
$num0 = $num01."".$num02;
if($num0=="0"){
}else{
//
$didit2_chk=strlen($num0)-1;
for($i=0;$i<=strlen($num0)-1;$i++){
$cut_input_number=substr($num0,$i,1);
if($cut_input_number==0){ // 0
//$bathtext1.=''."".$digit2[$didit2_chk];
}elseif($cut_input_number==2 && $didit2_chk==1){ // 2
$bathtext1.=''."".$digit2[$didit2_chk];
}elseif($cut_input_number==1 && $didit2_chk==1){ // 1
//$bathtext1.= ''."".$digit2[$didit2_chk];
}elseif($cut_input_number==1 && $didit2_chk==0){ // 1
if(substr($num0,$i-1,1)==0){
$bathtext1.= ''."".$digit2[$didit2_chk];
}else{
$bathtext1.= ''."".$digit2[$didit2_chk];
}
}else{
$bathtext1.= $digit[$cut_input_number]."".$digit2[$didit2_chk];
}
$didit2_chk=$didit2_chk-1;
}
$bathtext1.='';
}
if($num1=="00" || $num1=="" ){
}else{
//
$didit2_chk=strlen($num1)-1;
for($i=0;$i<=strlen($num1)-1;$i++){
$cut_input_number=substr($num1,$i,1);
if($cut_input_number==0){ // 0
}elseif($cut_input_number==2 && $didit2_chk==1){ // 2
$bathtext1.=''."".$digit2[$didit2_chk];
}elseif($cut_input_number==1 && $didit2_chk==1){ // 1
$bathtext1.= ''."".$digit2[$didit2_chk];
}elseif($cut_input_number==1 && $didit2_chk==0){ // 1
if(substr($num1,$i-1,1)==0){
$bathtext1.= ''."".$digit2[$didit2_chk];
}else{
$bathtext1.= ''."".$digit2[$didit2_chk];
}
}else{
$bathtext1.= $digit[$cut_input_number]."".$digit2[$didit2_chk];
}
$didit2_chk=$didit2_chk-1;
}
$bathtext1.='';
}
return $bathtext1;
//echo $bathtext1;
}
?>
<?php
function DateDiff($strDate1,$strDate2)
{
return (strtotime($strDate2) - strtotime($strDate1))/ ( 60 * 60 * 24 ); // 1 day = 60*60*24
}
function TimeDiff($strTime1,$strTime2)
{
return (strtotime($strTime2) - strtotime($strTime1))/ ( 60 * 60 ); // 1 Hour = 60*60
}
function DateTimeDiff($strDateTime1,$strDateTime2)
{
return (strtotime($strDateTime2) - strtotime($strDateTime1))/ ( 60 * 60 ); // 1 Hour = 60*60
}
?>
<?
function covert_to_thai($eng_date){
$thai_date=$eng_date;
$thai_year=substr($thai_date,0,4);
$thai_year=intval($thai_year) + 543;
$thai_date=substr($thai_date,8,2).'/'.substr($thai_date,5,2).'/';
$thai_date=$thai_date.$thai_year;
return $thai_date;
}
function covert_to_eng($thai_date){
$inter_year=substr($thai_date,6,4);
$inter_year=intval($inter_year) - 543;
$inter_date='-'.substr($thai_date,3,2).'-'.substr($thai_date,0,2);
$inter_date=$inter_year.$inter_date;
return $inter_date;
}
?>
</html>
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Original Code
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Function Calls
strtr | 3 |
strrev | 3 |
ereg_replace | 3 |
base64_decode | 6 |
Stats
MD5 | 7e4a2fa5fd293bfbf61f27748c4065fd |
Eval Count | 6 |
Decode Time | 277 ms |