mirror of
https://code.mensbeam.com/MensBeam/Arsse.git
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502 lines
23 KiB
PHP
502 lines
23 KiB
PHP
<?php
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/** @license MIT
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* Copyright 2017 J. King, Dustin Wilson et al.
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* See LICENSE and AUTHORS files for details */
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declare(strict_types=1);
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namespace JKingWeb\Arsse\Misc;
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use JKingWeb\Arsse\ExceptionType;
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class ValueInfo {
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// universal
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const VALID = 1 << 0;
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const NULL = 1 << 1;
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// integers
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const ZERO = 1 << 2;
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const NEG = 1 << 3;
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const FLOAT = 1 << 4;
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// strings
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const EMPTY = 1 << 2;
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const WHITE = 1 << 3;
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// normalization types
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const T_MIXED = 0; // pass through unchanged
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const T_NULL = 1; // convert to null
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const T_BOOL = 2; // convert to boolean
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const T_INT = 3; // convert to integer
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const T_FLOAT = 4; // convert to floating point
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const T_DATE = 5; // convert to DateTimeInterface instance
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const T_STRING = 6; // convert to string
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const T_ARRAY = 7; // convert to array
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const T_INTERVAL = 8; // convert to time interval
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// normalization modes
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const M_LOOSE = 0;
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const M_NULL = 1 << 28; // pass nulls through regardless of target type
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const M_DROP = 1 << 29; // drop the value (return null) if the type doesn't match
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const M_STRICT = 1 << 30; // throw an exception if the type doesn't match
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const M_ARRAY = 1 << 31; // the value should be a flat array of values of the specified type; indexed and associative are both acceptable
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// symbolic date and time formats
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const DATE_FORMATS = [ // in out
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'iso8601' => ["!Y-m-d\TH:i:s", "Y-m-d\TH:i:s\Z" ], // NOTE: ISO 8601 dates require special input processing because of varying formats for timezone offsets
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'iso8601m' => ["!Y-m-d\TH:i:s.u", "Y-m-d\TH:i:s.u\Z" ], // NOTE: ISO 8601 dates require special input processing because of varying formats for timezone offsets
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'microtime' => ["U.u", "0.u00 U" ], // NOTE: the actual input format at the user level matches the output format; pre-processing is required for PHP not to fail
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'http' => ["!D, d M Y H:i:s \G\M\T", "D, d M Y H:i:s \G\M\T"],
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'sql' => ["!Y-m-d H:i:s", "Y-m-d H:i:s" ],
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'date' => ["!Y-m-d", "Y-m-d" ],
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'time' => ["!H:i:s", "H:i:s" ],
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'unix' => ["U", "U" ],
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'float' => ["U.u", "U.u" ],
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];
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public static function normalize($value, int $type, string $dateInFormat = null, $dateOutFormat = null) {
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$allowNull = ($type & self::M_NULL);
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$strict = ($type & (self::M_STRICT | self::M_DROP));
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$drop = ($type & self::M_DROP);
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$arrayVal = ($type & self::M_ARRAY);
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$type = ($type & ~(self::M_NULL | self::M_DROP | self::M_STRICT | self::M_ARRAY));
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// if the value is null and this is allowed, simply return
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if ($allowNull && is_null($value)) {
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return null;
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}
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// if the value is supposed to be an array, handle it specially
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if ($arrayVal) {
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$value = self::normalize($value, self::T_ARRAY);
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foreach ($value as $key => $v) {
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$value[$key] = self::normalize($v, $type | ($allowNull ? self::M_NULL : 0) | ($strict ? self::M_STRICT : 0) | ($drop ? self::M_DROP : 0), $dateInFormat, $dateOutFormat);
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}
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return $value;
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}
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switch ($type) {
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case self::T_MIXED:
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return $value;
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case self::T_NULL:
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return null;
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case self::T_BOOL:
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if (is_bool($value)) {
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return $value;
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}
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$out = self::bool($value);
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if ($strict && is_null($out)) {
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// if strict and input is not a boolean, this is an error
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if ($drop) {
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return null;
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}
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throw new ExceptionType("strictFailure", $type);
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} elseif (is_float($value) && is_nan($value)) {
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return false;
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} elseif (is_null($out)) {
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// if not strict and input is not a boolean, return a simple type-cast
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return (bool) $value;
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}
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return $out;
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case self::T_INT:
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if (is_int($value)) {
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return $value;
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} elseif ($value instanceof \DateTimeInterface) {
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if ($strict && !$drop) {
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throw new ExceptionType("strictFailure", $type);
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}
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return (!$drop) ? (int) $value->getTimestamp(): null;
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} elseif ($value instanceof \DateInterval) {
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if ($strict && !$drop) {
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throw new ExceptionType("strictFailure", $type);
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} elseif ($drop) {
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return null;
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} else {
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// returns the number of seconds in the interval
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// days are assumed to contain (60 * 60 * 24) seconds
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// months are assumed to contain 30 days
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// years are assumed to contain 365 days
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$s = 0;
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if ($value->days !== false) {
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$s += ($value->days * 24 * 60 * 60);
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} else {
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$s += ($value->y * 365 * 24 * 60 * 60);
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$s += ($value->m * 30 * 24 * 60 * 60);
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$s += ($value->d * 24 * 60 * 60);
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}
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$s += ($value->h * 60 * 60);
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$s += ($value->i * 60);
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$s += $value->s;
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return $s;
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}
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}
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$info = self::int($value);
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if ($strict && !($info & self::VALID)) {
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// if strict and input is not an integer, this is an error
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if ($drop) {
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return null;
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}
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throw new ExceptionType("strictFailure", $type);
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} elseif (is_bool($value)) {
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return (int) $value;
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} elseif ($info & (self::VALID | self::FLOAT)) {
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$out = strtolower((string) $value);
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if (strpos($out, "e")) {
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return (int) (float) $out;
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} else {
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return (int) $out;
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}
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} else {
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return 0;
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}
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break; // @codeCoverageIgnore
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case self::T_FLOAT:
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if (is_float($value)) {
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return $value;
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} elseif ($value instanceof \DateTimeInterface) {
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if ($strict && !$drop) {
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throw new ExceptionType("strictFailure", $type);
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}
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return (!$drop) ? (float) $value->getTimestamp(): null;
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} elseif ($value instanceof \DateInterval) {
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if ($drop) {
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return null;
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} elseif ($strict) {
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throw new ExceptionType("strictFailure", $type);
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}
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// convert the interval to an integer, and then add microseconds if available (since PHP 7.1, for intervals created from a DateTime difference operation)
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$out = (float) self::normalize($value, self::T_INT);
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$out += isset($value->f) ? $value->f : 0.0;
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return $out;
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} elseif (is_bool($value) && $strict) {
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if ($drop) {
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return null;
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}
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throw new ExceptionType("strictFailure", $type);
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}
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$out = filter_var($value, \FILTER_VALIDATE_FLOAT);
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if ($strict && $out===false) {
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// if strict and input is not a float, this is an error
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if ($drop) {
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return null;
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}
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throw new ExceptionType("strictFailure", $type);
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}
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return (float) $out;
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case self::T_STRING:
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if (is_string($value)) {
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return $value;
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}
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if ($value instanceof \DateTimeInterface) {
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$dateOutFormat = $dateOutFormat ?? "iso8601";
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$dateOutFormat = isset(self::DATE_FORMATS[$dateOutFormat]) ? self::DATE_FORMATS[$dateOutFormat][1] : $dateOutFormat;
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if ($value instanceof \DateTimeImmutable) {
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return $value->setTimezone(new \DateTimeZone("UTC"))->format($dateOutFormat);
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} elseif ($value instanceof \DateTime) {
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return \DateTimeImmutable::createFromMutable($value)->setTimezone(new \DateTimeZone("UTC"))->format($dateOutFormat);
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}
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} elseif ($value instanceof \DateInterval) {
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$dateSpec = "";
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$timeSpec = "";
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if ($value->days) {
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$dateSpec = $value->days."D";
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} else {
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$dateSpec .= $value->y ? $value->y."Y": "";
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$dateSpec .= $value->m ? $value->m."M": "";
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$dateSpec .= $value->d ? $value->d."D": "";
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}
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$timeSpec .= $value->h ? $value->h."H": "";
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$timeSpec .= $value->i ? $value->i."M": "";
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$timeSpec .= $value->s ? $value->s."S": "";
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$timeSpec = $timeSpec ? "T".$timeSpec : "";
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if (!$dateSpec && !$timeSpec) {
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return "PT0S";
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} else {
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return "P".$dateSpec.$timeSpec;
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}
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} elseif (is_float($value) && is_finite($value)) {
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$out = (string) $value;
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if (!strpos($out, "E")) {
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return $out;
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} else {
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$out = sprintf("%F", $value);
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return preg_match("/\.0{1,}$/", $out) ? (string) (int) $out : $out;
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}
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}
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$info = self::str($value);
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if (!($info & self::VALID)) {
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if ($drop) {
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return null;
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} elseif ($strict) {
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// if strict and input is not a string, this is an error
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throw new ExceptionType("strictFailure", $type);
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} elseif (!is_scalar($value)) {
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return "";
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} else {
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return (string) $value;
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}
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} else {
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return (string) $value;
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}
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break; // @codeCoverageIgnore
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case self::T_DATE:
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if ($value instanceof \DateTimeImmutable) {
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return $value->setTimezone(new \DateTimeZone("UTC"));
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} elseif ($value instanceof \DateTime) {
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return \DateTimeImmutable::createFromMutable($value)->setTimezone(new \DateTimeZone("UTC"));
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} elseif (is_int($value)) {
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return \DateTimeImmutable::createFromFormat("U", (string) $value, new \DateTimeZone("UTC"));
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} elseif (is_float($value) && is_finite($value)) {
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return \DateTimeImmutable::createFromFormat("U.u", sprintf("%F", $value), new \DateTimeZone("UTC"));
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} elseif (is_string($value)) {
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try {
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if (!is_null($dateInFormat)) {
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$out = false;
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if ($dateInFormat === "microtime") {
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// PHP is not able to correctly handle the output of microtime() as the input of DateTime::createFromFormat(), so we fudge it to look like a float
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if (preg_match("<^0\.\d{6}00 \d+$>", $value)) {
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$value = substr($value, 11).".".substr($value, 2, 6);
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} else {
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throw new \Exception;
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}
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}
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$f = isset(self::DATE_FORMATS[$dateInFormat]) ? self::DATE_FORMATS[$dateInFormat][0] : $dateInFormat;
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if ($dateInFormat === "iso8601" || $dateInFormat === "iso8601m") {
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// DateTimeImmutable::createFromFormat() doesn't provide one catch-all for ISO 8601 timezone specifiers, so we try all of them till one works
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if ($dateInFormat === "iso8601m") {
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$f2 = self::DATE_FORMATS["iso8601"][0];
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$zones = [$f."", $f."\Z", $f."P", $f."O", $f2."", $f2."\Z", $f2."P", $f2."O"];
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} else {
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$zones = [$f."", $f."\Z", $f."P", $f."O"];
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}
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do {
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$ftz = array_shift($zones);
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$out = \DateTimeImmutable::createFromFormat($ftz, $value, new \DateTimeZone("UTC"));
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} while (!$out && $zones);
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} else {
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$out = \DateTimeImmutable::createFromFormat($f, $value, new \DateTimeZone("UTC"));
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}
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if (!$out) {
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throw new \Exception;
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}
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return $out;
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} else {
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return new \DateTimeImmutable($value, new \DateTimeZone("UTC"));
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}
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} catch (\Exception $e) {
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if ($strict && !$drop) {
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throw new ExceptionType("strictFailure", $type);
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}
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return null;
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}
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} elseif ($strict && !$drop) {
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throw new ExceptionType("strictFailure", $type);
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}
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return null;
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case self::T_ARRAY:
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if (is_array($value)) {
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return $value;
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} elseif ($value instanceof \Traversable) {
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$out = [];
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foreach ($value as $k => $v) {
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$out[$k] = $v;
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}
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return $out;
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} else {
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if ($drop) {
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return null;
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} elseif ($strict) {
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// if strict and input is not a string, this is an error
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throw new ExceptionType("strictFailure", $type);
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} elseif (is_null($value) || (is_float($value) && is_nan($value))) {
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return [];
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} else {
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return [$value];
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}
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}
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break; // @codeCoverageIgnore
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case self::T_INTERVAL:
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if ($value instanceof \DateInterval) {
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if ($value->invert) {
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$value = clone $value;
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$value->invert = 0;
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}
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$value->f = $value->f ?? 0.0; // add microseconds for PHP 7.0
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return $value;
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} elseif (is_null($value)) {
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if ($strict && !$drop && !$allowNull) {
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throw new ExceptionType("strictFailure", $type);
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} else {
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return null;
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}
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} elseif (is_bool($value) || is_array($value) || (is_float($value) && (is_infinite($value) || is_nan($value))) || $value instanceof \DateTimeInterface || (is_object($value) && !method_exists($value, "__toString"))) {
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if ($strict && !$drop) {
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throw new ExceptionType("strictFailure", $type);
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} else {
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return null;
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}
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} elseif (is_string($value) || is_object($value)) {
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try {
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$out = new \DateInterval((string) $value);
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$out->f = 0.0;
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return $out;
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} catch (\Exception $e) {
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if ($strict && !$drop) {
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throw new ExceptionType("strictFailure", $type);
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} elseif ($drop) {
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return null;
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} elseif (strtotime("now + $value") !== false) {
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$out = \DateInterval::createFromDateString($value);
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$out->f = 0.0;
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return $out;
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} else {
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return null;
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}
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}
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} elseif ($drop) {
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return null;
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} elseif ($strict) {
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throw new ExceptionType("strictFailure", $type);
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} else {
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// input is a number, assume this is a number of seconds
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// for legibility we convert large numbers to minutes, hours, and days as necessary
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// the DateInterval constructor only allows 12 digits for any given part of an interval,
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// so we also convert days to 365-day years where we must, and cap the number of years
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// at (1e11 - 1); this being a very large number, the loss of precision is probably not
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// significant in practical usage
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$sec = abs($value);
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$msec = (float) ($sec - (int) $sec);
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$sec = (int) $sec;
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$min = 0;
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$hour = 0;
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$day = 0;
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$year = 0;
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if ($sec >= 60) {
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$min = ($sec - ($sec % 60)) / 60;
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$sec %= 60;
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}
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if ($min >= 60) {
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$hour = ($min - ($min % 60)) / 60;
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$min %= 60;
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}
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if ($hour >= 24) {
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$day = ($hour - ($hour % 24)) / 24;
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$hour %= 24;
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}
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if ($day >= 999999999999) {
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$year = ($day - ($day % 365)) / 365;
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$day %= 365;
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}
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$spec = "P";
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$spec .= $year ? $year."Y" : "";
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$spec .= $day ? $day."D" : "";
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$spec .= "T";
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$spec .= $hour ? $hour."H" : "";
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$spec .= $min ? $min."M" : "";
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$spec .= $sec ? $sec."S" : "";
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$spec .= ($spec === "PT") ? "0S" : "";
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$spec = trim($spec, "T");
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$out = new \DateInterval($spec);
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$out->f = $msec;
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return $out;
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}
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break; // @codeCoverageIgnore
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default:
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throw new ExceptionType("typeUnknown", $type); // @codeCoverageIgnore
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}
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}
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public static function int($value): int {
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$out = 0;
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if (is_null($value)) {
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// check if the input is null
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return self::NULL;
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} elseif (is_string($value) || (is_object($value) && method_exists($value, "__toString"))) {
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$value = strtolower((string) $value);
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// normalize a string an integer or float if possible
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if (!strlen($value)) {
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// the empty string is equivalent to null when evaluating an integer
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return self::NULL;
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}
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// interpret the value as a float
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$float = filter_var($value, \FILTER_VALIDATE_FLOAT);
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if ($float !== false) {
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if (!fmod($float, 1)) {
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// an integral float is acceptable
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$value = (int) (!strpos($value, "e") ? $value : $float);
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} else {
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$out += self::FLOAT;
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$value = $float;
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}
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} else {
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return $out;
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}
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} elseif (is_float($value)) {
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if (!fmod($value, 1)) {
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// an integral float is acceptable
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$value = (int) $value;
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} else {
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$out += self::FLOAT;
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}
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} elseif (!is_int($value)) {
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// if the value is not an integer or integral float, stop
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return $out;
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}
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// mark validity
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if (is_int($value)) {
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$out += self::VALID;
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}
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// mark zeroness
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if (!$value) {
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$out += self::ZERO;
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}
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// mark negativeness
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if ($value < 0) {
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$out += self::NEG;
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}
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return $out;
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}
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public static function str($value): int {
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$out = 0;
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// check if the input is null
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if (is_null($value)) {
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$out += self::NULL;
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}
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if (is_object($value) && method_exists($value, "__toString")) {
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// if the value is an object which has a __toString method, this is acceptable
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$value = (string) $value;
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} elseif (!is_scalar($value) || is_bool($value) || (is_float($value) && !is_finite($value))) {
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// otherwise if the value is not scalar, is a boolean, or is infinity or NaN, it cannot be valid
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return $out;
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}
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// mark validity
|
|
$out += self::VALID;
|
|
if (!strlen((string) $value)) {
|
|
// mark emptiness
|
|
$out += self::EMPTY;
|
|
} elseif (!strlen(trim((string) $value))) {
|
|
// mark whitespacedness
|
|
$out += self::WHITE;
|
|
}
|
|
return $out;
|
|
}
|
|
|
|
public static function id($value, bool $allowNull = false): bool {
|
|
$info = self::int($value);
|
|
if ($allowNull && ($info & self::NULL)) { // null (and allowed)
|
|
return true;
|
|
} elseif (!($info & self::VALID)) { // not an integer
|
|
return false;
|
|
} elseif ($info & self::NEG) { // negative integer
|
|
return false;
|
|
} elseif (!$allowNull && ($info & self::ZERO)) { // zero (and not allowed)
|
|
return false;
|
|
} else { // non-negative integer
|
|
return true;
|
|
}
|
|
}
|
|
|
|
public static function bool($value, bool $default = null) {
|
|
if (is_null($value) || ValueInfo::str($value) & ValueInfo::WHITE) {
|
|
return $default;
|
|
}
|
|
$out = filter_var($value, \FILTER_VALIDATE_BOOLEAN, \FILTER_NULL_ON_FAILURE);
|
|
if (is_null($out) && (ValueInfo::int($value) & ValueInfo::VALID)) {
|
|
$out = (int) filter_var($value, \FILTER_VALIDATE_FLOAT);
|
|
return ($out == 1 || $out == 0) ? (bool) $out : $default;
|
|
}
|
|
return !is_null($out) ? $out : $default;
|
|
}
|
|
}
|