mediawiki-extensions-Parser.../includes/ExprParser.php
Umherirrender ef40cf4a67 build: Upgrade mediawiki/mediawiki-codesniffer to v43.0.0
Change-Id: I137fe0fe2d6486b6a2a90d57582d837ec22bd1e0
2024-03-11 20:42:17 +01:00

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<?php
/**
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*
*/
namespace MediaWiki\Extension\ParserFunctions;
use UtfNormal\Validator;
class ExprParser {
// Character classes
private const EXPR_WHITE_CLASS = " \t\r\n";
private const EXPR_NUMBER_CLASS = '0123456789.';
// Token types
private const EXPR_WHITE = 1;
private const EXPR_NUMBER = 2;
private const EXPR_NEGATIVE = 3;
private const EXPR_POSITIVE = 4;
private const EXPR_PLUS = 5;
private const EXPR_MINUS = 6;
private const EXPR_TIMES = 7;
private const EXPR_DIVIDE = 8;
private const EXPR_MOD = 9;
private const EXPR_OPEN = 10;
private const EXPR_CLOSE = 11;
private const EXPR_AND = 12;
private const EXPR_OR = 13;
private const EXPR_NOT = 14;
private const EXPR_EQUALITY = 15;
private const EXPR_LESS = 16;
private const EXPR_GREATER = 17;
private const EXPR_LESSEQ = 18;
private const EXPR_GREATEREQ = 19;
private const EXPR_NOTEQ = 20;
private const EXPR_ROUND = 21;
private const EXPR_EXPONENT = 22;
private const EXPR_SINE = 23;
private const EXPR_COSINE = 24;
private const EXPR_TANGENS = 25;
private const EXPR_ARCSINE = 26;
private const EXPR_ARCCOS = 27;
private const EXPR_ARCTAN = 28;
private const EXPR_EXP = 29;
private const EXPR_LN = 30;
private const EXPR_ABS = 31;
private const EXPR_FLOOR = 32;
private const EXPR_TRUNC = 33;
private const EXPR_CEIL = 34;
private const EXPR_POW = 35;
private const EXPR_PI = 36;
private const EXPR_FMOD = 37;
private const EXPR_SQRT = 38;
private const MAX_STACK_SIZE = 100;
private const PRECEDENCE = [
self::EXPR_NEGATIVE => 10,
self::EXPR_POSITIVE => 10,
self::EXPR_EXPONENT => 10,
self::EXPR_SINE => 9,
self::EXPR_COSINE => 9,
self::EXPR_TANGENS => 9,
self::EXPR_ARCSINE => 9,
self::EXPR_ARCCOS => 9,
self::EXPR_ARCTAN => 9,
self::EXPR_EXP => 9,
self::EXPR_LN => 9,
self::EXPR_ABS => 9,
self::EXPR_FLOOR => 9,
self::EXPR_TRUNC => 9,
self::EXPR_CEIL => 9,
self::EXPR_NOT => 9,
self::EXPR_SQRT => 9,
self::EXPR_POW => 8,
self::EXPR_TIMES => 7,
self::EXPR_DIVIDE => 7,
self::EXPR_MOD => 7,
self::EXPR_FMOD => 7,
self::EXPR_PLUS => 6,
self::EXPR_MINUS => 6,
self::EXPR_ROUND => 5,
self::EXPR_EQUALITY => 4,
self::EXPR_LESS => 4,
self::EXPR_GREATER => 4,
self::EXPR_LESSEQ => 4,
self::EXPR_GREATEREQ => 4,
self::EXPR_NOTEQ => 4,
self::EXPR_AND => 3,
self::EXPR_OR => 2,
self::EXPR_PI => 0,
self::EXPR_OPEN => -1,
self::EXPR_CLOSE => -1,
];
private const NAMES = [
self::EXPR_NEGATIVE => '-',
self::EXPR_POSITIVE => '+',
self::EXPR_NOT => 'not',
self::EXPR_TIMES => '*',
self::EXPR_DIVIDE => '/',
self::EXPR_MOD => 'mod',
self::EXPR_FMOD => 'fmod',
self::EXPR_PLUS => '+',
self::EXPR_MINUS => '-',
self::EXPR_ROUND => 'round',
self::EXPR_EQUALITY => '=',
self::EXPR_LESS => '<',
self::EXPR_GREATER => '>',
self::EXPR_LESSEQ => '<=',
self::EXPR_GREATEREQ => '>=',
self::EXPR_NOTEQ => '<>',
self::EXPR_AND => 'and',
self::EXPR_OR => 'or',
self::EXPR_EXPONENT => 'e',
self::EXPR_SINE => 'sin',
self::EXPR_COSINE => 'cos',
self::EXPR_TANGENS => 'tan',
self::EXPR_ARCSINE => 'asin',
self::EXPR_ARCCOS => 'acos',
self::EXPR_ARCTAN => 'atan',
self::EXPR_LN => 'ln',
self::EXPR_EXP => 'exp',
self::EXPR_ABS => 'abs',
self::EXPR_FLOOR => 'floor',
self::EXPR_TRUNC => 'trunc',
self::EXPR_CEIL => 'ceil',
self::EXPR_POW => '^',
self::EXPR_PI => 'pi',
self::EXPR_SQRT => 'sqrt',
];
private const WORDS = [
'mod' => self::EXPR_MOD,
'fmod' => self::EXPR_FMOD,
'and' => self::EXPR_AND,
'or' => self::EXPR_OR,
'not' => self::EXPR_NOT,
'round' => self::EXPR_ROUND,
'div' => self::EXPR_DIVIDE,
'e' => self::EXPR_EXPONENT,
'sin' => self::EXPR_SINE,
'cos' => self::EXPR_COSINE,
'tan' => self::EXPR_TANGENS,
'asin' => self::EXPR_ARCSINE,
'acos' => self::EXPR_ARCCOS,
'atan' => self::EXPR_ARCTAN,
'exp' => self::EXPR_EXP,
'ln' => self::EXPR_LN,
'abs' => self::EXPR_ABS,
'trunc' => self::EXPR_TRUNC,
'floor' => self::EXPR_FLOOR,
'ceil' => self::EXPR_CEIL,
'pi' => self::EXPR_PI,
'sqrt' => self::EXPR_SQRT,
];
/**
* Evaluate a mathematical expression
*
* The algorithm here is based on the infix to RPN algorithm given in
* http://montcs.bloomu.edu/~bobmon/Information/RPN/infix2rpn.shtml
* It's essentially the same as Dijkstra's shunting yard algorithm.
* @param string $expr
* @return string
* @throws ExprError
*/
public function doExpression( $expr ) {
$operands = [];
$operators = [];
# Unescape inequality operators
$expr = strtr( $expr, [ '&lt;' => '<', '&gt;' => '>',
'&minus;' => '-', '' => '-' ] );
$p = 0;
$end = strlen( $expr );
$expecting = 'expression';
$name = '';
while ( $p < $end ) {
if ( count( $operands ) > self::MAX_STACK_SIZE || count( $operators ) > self::MAX_STACK_SIZE ) {
throw new ExprError( 'stack_exhausted' );
}
$char = $expr[$p];
$char2 = substr( $expr, $p, 2 );
// Mega if-elseif-else construct
// Only binary operators fall through for processing at the bottom, the rest
// finish their processing and continue
// First the unlimited length classes
// @phan-suppress-next-line PhanParamSuspiciousOrder false positive
if ( strpos( self::EXPR_WHITE_CLASS, $char ) !== false ) {
// Whitespace
$p += strspn( $expr, self::EXPR_WHITE_CLASS, $p );
continue;
// @phan-suppress-next-line PhanParamSuspiciousOrder false positive
} elseif ( strpos( self::EXPR_NUMBER_CLASS, $char ) !== false ) {
// Number
if ( $expecting !== 'expression' ) {
throw new ExprError( 'unexpected_number' );
}
// Find the rest of it
$length = strspn( $expr, self::EXPR_NUMBER_CLASS, $p );
// Convert it to float, silently removing double decimal points
$operands[] = (float)substr( $expr, $p, $length );
$p += $length;
$expecting = 'operator';
continue;
} elseif ( ctype_alpha( $char ) ) {
// Word
// Find the rest of it
$remaining = substr( $expr, $p );
if ( !preg_match( '/^[A-Za-z]*/', $remaining, $matches ) ) {
// This should be unreachable
throw new ExprError( 'preg_match_failure' );
}
$word = strtolower( $matches[0] );
$p += strlen( $word );
// Interpret the word
if ( !isset( self::WORDS[$word] ) ) {
throw new ExprError( 'unrecognised_word', $word );
}
$op = self::WORDS[$word];
switch ( $op ) {
// constant
case self::EXPR_EXPONENT:
if ( $expecting !== 'expression' ) {
break;
}
$operands[] = exp( 1 );
$expecting = 'operator';
continue 2;
case self::EXPR_PI:
if ( $expecting !== 'expression' ) {
throw new ExprError( 'unexpected_number' );
}
$operands[] = pi();
$expecting = 'operator';
continue 2;
// Unary operator
case self::EXPR_NOT:
case self::EXPR_SINE:
case self::EXPR_COSINE:
case self::EXPR_TANGENS:
case self::EXPR_ARCSINE:
case self::EXPR_ARCCOS:
case self::EXPR_ARCTAN:
case self::EXPR_EXP:
case self::EXPR_LN:
case self::EXPR_ABS:
case self::EXPR_FLOOR:
case self::EXPR_TRUNC:
case self::EXPR_CEIL:
case self::EXPR_SQRT:
if ( $expecting !== 'expression' ) {
throw new ExprError( 'unexpected_operator', $word );
}
$operators[] = $op;
continue 2;
}
// Binary operator, fall through
$name = $word;
} elseif ( $char2 === '<=' ) {
$name = $char2;
$op = self::EXPR_LESSEQ;
$p += 2;
} elseif ( $char2 === '>=' ) {
$name = $char2;
$op = self::EXPR_GREATEREQ;
$p += 2;
} elseif ( $char2 === '<>' || $char2 === '!=' ) {
$name = $char2;
$op = self::EXPR_NOTEQ;
$p += 2;
} elseif ( $char === '+' ) {
++$p;
if ( $expecting === 'expression' ) {
// Unary plus
$operators[] = self::EXPR_POSITIVE;
continue;
} else {
// Binary plus
$op = self::EXPR_PLUS;
}
} elseif ( $char === '-' ) {
++$p;
if ( $expecting === 'expression' ) {
// Unary minus
$operators[] = self::EXPR_NEGATIVE;
continue;
} else {
// Binary minus
$op = self::EXPR_MINUS;
}
} elseif ( $char === '*' ) {
$name = $char;
$op = self::EXPR_TIMES;
++$p;
} elseif ( $char === '/' ) {
$name = $char;
$op = self::EXPR_DIVIDE;
++$p;
} elseif ( $char === '^' ) {
$name = $char;
$op = self::EXPR_POW;
++$p;
} elseif ( $char === '(' ) {
if ( $expecting === 'operator' ) {
throw new ExprError( 'unexpected_operator', '(' );
}
$operators[] = self::EXPR_OPEN;
++$p;
continue;
} elseif ( $char === ')' ) {
$lastOp = end( $operators );
while ( $lastOp && $lastOp !== self::EXPR_OPEN ) {
$this->doOperation( $lastOp, $operands );
array_pop( $operators );
$lastOp = end( $operators );
}
if ( $lastOp ) {
array_pop( $operators );
} else {
throw new ExprError( 'unexpected_closing_bracket' );
}
$expecting = 'operator';
++$p;
continue;
} elseif ( $char === '=' ) {
$name = $char;
$op = self::EXPR_EQUALITY;
++$p;
} elseif ( $char === '<' ) {
$name = $char;
$op = self::EXPR_LESS;
++$p;
} elseif ( $char === '>' ) {
$name = $char;
$op = self::EXPR_GREATER;
++$p;
} else {
$utfExpr = Validator::cleanUp( substr( $expr, $p ) );
throw new ExprError( 'unrecognised_punctuation', mb_substr( $utfExpr, 0, 1 ) );
}
// Binary operator processing
if ( $expecting === 'expression' ) {
throw new ExprError( 'unexpected_operator', $name );
}
// Shunting yard magic
$lastOp = end( $operators );
while ( $lastOp && self::PRECEDENCE[$op] <= self::PRECEDENCE[$lastOp] ) {
$this->doOperation( $lastOp, $operands );
array_pop( $operators );
$lastOp = end( $operators );
}
$operators[] = $op;
$expecting = 'expression';
}
// Finish off the operator array
// phpcs:ignore Generic.CodeAnalysis.AssignmentInCondition.FoundInWhileCondition
while ( $op = array_pop( $operators ) ) {
if ( $op === self::EXPR_OPEN ) {
throw new ExprError( 'unclosed_bracket' );
}
$this->doOperation( $op, $operands );
}
return implode( "<br />\n", $operands );
}
/**
* @param int $op
* @param array &$stack
* @throws ExprError
*/
public function doOperation( $op, &$stack ) {
switch ( $op ) {
case self::EXPR_NEGATIVE:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = -$arg;
break;
case self::EXPR_POSITIVE:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
break;
case self::EXPR_TIMES:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = $left * $right;
break;
case self::EXPR_DIVIDE:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
if ( !$right ) {
throw new ExprError( 'division_by_zero', self::NAMES[$op] );
}
$stack[] = $left / $right;
break;
case self::EXPR_MOD:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = (int)array_pop( $stack );
$left = (int)array_pop( $stack );
if ( !$right ) {
throw new ExprError( 'division_by_zero', self::NAMES[$op] );
}
$stack[] = $left % $right;
break;
case self::EXPR_FMOD:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = (double)array_pop( $stack );
$left = (double)array_pop( $stack );
if ( !$right ) {
throw new ExprError( 'division_by_zero', self::NAMES[$op] );
}
$stack[] = fmod( $left, $right );
break;
case self::EXPR_PLUS:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = $left + $right;
break;
case self::EXPR_MINUS:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = $left - $right;
break;
case self::EXPR_AND:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = ( $left && $right ) ? 1 : 0;
break;
case self::EXPR_OR:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = ( $left || $right ) ? 1 : 0;
break;
case self::EXPR_EQUALITY:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = ( $left == $right ) ? 1 : 0;
break;
case self::EXPR_NOT:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = ( !$arg ) ? 1 : 0;
break;
case self::EXPR_ROUND:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$digits = (int)array_pop( $stack );
$value = array_pop( $stack );
$stack[] = round( $value, $digits );
break;
case self::EXPR_LESS:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = ( $left < $right ) ? 1 : 0;
break;
case self::EXPR_GREATER:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = ( $left > $right ) ? 1 : 0;
break;
case self::EXPR_LESSEQ:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = ( $left <= $right ) ? 1 : 0;
break;
case self::EXPR_GREATEREQ:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = ( $left >= $right ) ? 1 : 0;
break;
case self::EXPR_NOTEQ:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = ( $left != $right ) ? 1 : 0;
break;
case self::EXPR_EXPONENT:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$stack[] = $left * pow( 10, $right );
break;
case self::EXPR_SINE:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = sin( $arg );
break;
case self::EXPR_COSINE:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = cos( $arg );
break;
case self::EXPR_TANGENS:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = tan( $arg );
break;
case self::EXPR_ARCSINE:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
if ( $arg < -1 || $arg > 1 ) {
throw new ExprError( 'invalid_argument', self::NAMES[$op] );
}
$stack[] = asin( $arg );
break;
case self::EXPR_ARCCOS:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
if ( $arg < -1 || $arg > 1 ) {
throw new ExprError( 'invalid_argument', self::NAMES[$op] );
}
$stack[] = acos( $arg );
break;
case self::EXPR_ARCTAN:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = atan( $arg );
break;
case self::EXPR_EXP:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = exp( $arg );
break;
case self::EXPR_LN:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
if ( $arg <= 0 ) {
throw new ExprError( 'invalid_argument_ln', self::NAMES[$op] );
}
$stack[] = log( $arg );
break;
case self::EXPR_ABS:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = abs( $arg );
break;
case self::EXPR_FLOOR:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = floor( $arg );
break;
case self::EXPR_TRUNC:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = (int)$arg;
break;
case self::EXPR_CEIL:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$stack[] = ceil( $arg );
break;
case self::EXPR_POW:
if ( count( $stack ) < 2 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$right = array_pop( $stack );
$left = array_pop( $stack );
$result = pow( $left, $right );
$stack[] = $result;
break;
case self::EXPR_SQRT:
if ( count( $stack ) < 1 ) {
throw new ExprError( 'missing_operand', self::NAMES[$op] );
}
$arg = array_pop( $stack );
$result = sqrt( $arg );
if ( is_nan( $result ) ) {
throw new ExprError( 'not_a_number', self::NAMES[$op] );
}
$stack[] = $result;
break;
default:
// Should be impossible to reach here.
// @codeCoverageIgnoreStart
throw new ExprError( 'unknown_error' );
// @codeCoverageIgnoreEnd
}
}
}