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PHP Decode
<?php namespace Illuminate\Support; use Carbon\CarbonInterval; use DateInterval; use Dat..
Decoded Output download
<?php
namespace Illuminate\Support;
use Carbon\CarbonInterval;
use DateInterval;
use DateTimeInterface;
trait InteractsWithTime
{
/**
* Get the number of seconds until the given DateTime.
*
* @param \DateTimeInterface|\DateInterval|int $delay
* @return int
*/
protected function secondsUntil($delay)
{
$delay = $this->parseDateInterval($delay);
return $delay instanceof DateTimeInterface
? max(0, $delay->getTimestamp() - $this->currentTime())
: (int) $delay;
}
/**
* Get the "available at" UNIX timestamp.
*
* @param \DateTimeInterface|\DateInterval|int $delay
* @return int
*/
protected function availableAt($delay = 0)
{
$delay = $this->parseDateInterval($delay);
return $delay instanceof DateTimeInterface
? $delay->getTimestamp()
: Carbon::now()->addRealSeconds($delay)->getTimestamp();
}
/**
* If the given value is an interval, convert it to a DateTime instance.
*
* @param \DateTimeInterface|\DateInterval|int $delay
* @return \DateTimeInterface|int
*/
protected function parseDateInterval($delay)
{
if ($delay instanceof DateInterval) {
$delay = Carbon::now()->add($delay);
}
return $delay;
}
/**
* Get the current system time as a UNIX timestamp.
*
* @return int
*/
protected function currentTime()
{
return Carbon::now()->getTimestamp();
}
/**
* Given a start time, format the total run time for human readability.
*
* @param float $startTime
* @param float $endTime
* @return string
*/
protected function runTimeForHumans($startTime, $endTime = null)
{
$endTime ??= microtime(true);
$runTime = ($endTime - $startTime) * 1000;
return $runTime > 1000
? CarbonInterval::milliseconds($runTime)->cascade()->forHumans(short: true)
: number_format($runTime, 2).'ms';
}
}
?>Did this file decode correctly?
Original Code
<?php
namespace Illuminate\Support;
use Carbon\CarbonInterval;
use DateInterval;
use DateTimeInterface;
trait InteractsWithTime
{
/**
* Get the number of seconds until the given DateTime.
*
* @param \DateTimeInterface|\DateInterval|int $delay
* @return int
*/
protected function secondsUntil($delay)
{
$delay = $this->parseDateInterval($delay);
return $delay instanceof DateTimeInterface
? max(0, $delay->getTimestamp() - $this->currentTime())
: (int) $delay;
}
/**
* Get the "available at" UNIX timestamp.
*
* @param \DateTimeInterface|\DateInterval|int $delay
* @return int
*/
protected function availableAt($delay = 0)
{
$delay = $this->parseDateInterval($delay);
return $delay instanceof DateTimeInterface
? $delay->getTimestamp()
: Carbon::now()->addRealSeconds($delay)->getTimestamp();
}
/**
* If the given value is an interval, convert it to a DateTime instance.
*
* @param \DateTimeInterface|\DateInterval|int $delay
* @return \DateTimeInterface|int
*/
protected function parseDateInterval($delay)
{
if ($delay instanceof DateInterval) {
$delay = Carbon::now()->add($delay);
}
return $delay;
}
/**
* Get the current system time as a UNIX timestamp.
*
* @return int
*/
protected function currentTime()
{
return Carbon::now()->getTimestamp();
}
/**
* Given a start time, format the total run time for human readability.
*
* @param float $startTime
* @param float $endTime
* @return string
*/
protected function runTimeForHumans($startTime, $endTime = null)
{
$endTime ??= microtime(true);
$runTime = ($endTime - $startTime) * 1000;
return $runTime > 1000
? CarbonInterval::milliseconds($runTime)->cascade()->forHumans(short: true)
: number_format($runTime, 2).'ms';
}
}
Function Calls
| None |
Stats
| MD5 | 03e10bdde6e80512e811e9f178d6b7e6 |
| Eval Count | 0 |
| Decode Time | 100 ms |