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mXparser is a super easy, rich, fast and highly flexible math expression parser library (parser and evaluator of mathematical expressions / formulas provided as plain text / string). Software delivers easy to use API for JAVA, Android and C# .NET/MONO (Common Language Specification compliant: F#, Visual Basic, C++/CLI). *** If you find the software useful donation or purchase is something you might consider: https://mathparser.org/donate/ *** Online store: https://payhip.com/INFIMA *** Scalar Scientific Calculator, Charts and Scripts, Scalar Lite: https://play.google.com/store/apps/details?id=org.mathparser.scalar.lite *** Scalar Pro: https://play.google.com/store/apps/details?id=org.mathparser.scalar.pro *** ScalarMath.org: https://scalarmath.org/ *** MathSpace.pl: https://mathspace.pl/ ***
/*
* @(#)Token.java 6.0.0 2024-05-19
*
* MathParser.org-mXparser DUAL LICENSE AGREEMENT as of date 2024-05-19
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package org.mariuszgromada.math.mxparser.parsertokens;
import org.mariuszgromada.math.mxparser.*;
import java.io.Serializable;
/**
* Token recognized by mXparser after string tokenization process.
*
* @author Mariusz Gromada
* MathParser.org - mXparser project page
* mXparser on GitHub
* INFIMA place to purchase a commercial MathParser.org-mXparser software license
* [email protected]
* ScalarMath.org - a powerful math engine and math scripting language
* Scalar Lite
* Scalar Pro
* MathSpace.pl
*
* @version 5.2.0
*/
public class Token implements Serializable {
private static final int serialClassID = 92;
private static final long serialVersionUID = SerializationUtils.getSerialVersionUID(serialClassID);
/**
* Indicator that token was not matched
*/
public static final int NOT_MATCHED = KeyWord.NO_DEFINITION;
/**
* String token
*/
public String tokenStr;
/**
* Key word string (if matched)
*/
public String keyWord;
/**
* Token identifier
*/
public int tokenId;
/**
* Token type
*/
public int tokenTypeId;
/**
* Token level
*/
public int tokenLevel;
/**
* Token value if number
*/
public double tokenValue;
/**
* If token was not matched then
* looksLike functionality is trying asses
* the kind of token
*/
public String looksLike;
/**
* Verification if the token is a left unary operator.
*
* @return true in case token is unary left operator,
* otherwise returns false
*/
public boolean isUnaryLeftOperator() {
if (tokenTypeId == Operator.TYPE_ID) {
if (tokenId == Operator.SQUARE_ROOT_ID) return true;
if (tokenId == Operator.CUBE_ROOT_ID) return true;
if (tokenId == Operator.FOURTH_ROOT_ID) return true;
}
if (tokenTypeId == BooleanOperator.TYPE_ID) {
if (tokenId == BooleanOperator.NEG_ID) return true;
}
if (tokenTypeId == BitwiseOperator.TYPE_ID) {
if (tokenId == BitwiseOperator.COMPL_ID) return true;
}
return false;
}
/**
* Verification if the token is a right unary operator.
*
* @return true in case token is unary right operator,
* otherwise returns false
*/
public boolean isUnaryRightOperator() {
if (tokenTypeId == Operator.TYPE_ID) {
if (tokenId == Operator.FACT_ID) return true;
if (tokenId == Operator.PERC_ID) return true;
}
return false;
}
/**
* Verification if the token is a left parenthesis.
*
* @return true in case token is a left parenthesis,
* otherwise returns false
*/
public boolean isLeftParenthesis() {
return tokenTypeId == ParserSymbol.TYPE_ID && tokenId == ParserSymbol.LEFT_PARENTHESES_ID;
}
/**
* Verification if the token is a right parenthesis.
*
* @return true in case token is a right parenthesis,
* otherwise returns false
*/
public boolean isRightParenthesis() {
return tokenTypeId == ParserSymbol.TYPE_ID && tokenId == ParserSymbol.RIGHT_PARENTHESES_ID;
}
/**
* Verification if the token is an identifier.
*
* @return true in case token is an identifier,
* otherwise returns false
*/
public boolean isIdentifier() {
return tokenTypeId == Constant.TYPE_ID ||
tokenTypeId == ConstantValue.TYPE_ID ||
tokenTypeId == Unit.TYPE_ID ||
tokenTypeId == Argument.TYPE_ID;
}
/**
* Verification if the token is a binary operator.
*
* @return true in case token is a binary operator,
* otherwise returns false
*/
public boolean isBinaryOperator() {
if (isUnaryLeftOperator()) return false;
if (isUnaryRightOperator()) return false;
if (tokenTypeId == BinaryRelation.TYPE_ID) return true;
if (tokenTypeId == BitwiseOperator.TYPE_ID) return true;
if (tokenTypeId == BooleanOperator.TYPE_ID) return true;
if (tokenTypeId == Operator.TYPE_ID) {
return tokenId != Operator.SQUARE_ROOT_ID
&& tokenId != Operator.CUBE_ROOT_ID
&& tokenId != Operator.FOURTH_ROOT_ID
&& tokenId != Operator.FACT_ID
&& tokenId != Operator.PERC_ID;
}
return false;
}
/**
* Verification if the token is a parameter separator.
*
* @return true in case token is a parameter separator,
* otherwise returns false
*/
public boolean isParameterSeparator() {
return tokenTypeId == ParserSymbol.TYPE_ID && tokenId == ParserSymbol.COMMA_ID;
}
/**
* Verification if the token is a number.
*
* @return true in case token is a number,
* otherwise returns false
*/
public boolean isNumber() {
return tokenTypeId == ParserSymbol.NUMBER_TYPE_ID && tokenId == ParserSymbol.NUMBER_ID;
}
/**
* Verification if the token is represented by a special name in the form [...].
*
* @return true in case token is represented by a special name in the form [...],
* otherwise returns false
*/
public boolean isSpecialTokenName() {
if (tokenStr.length() == 0) return false;
return tokenStr.charAt(0) == '[';
}
/**
* Verification if the token represents unicode root operator
*
* @return true in case token represents unicode root operator
* otherwise returns false
*/
public boolean isUnicodeRootOperator() {
if (tokenTypeId == Operator.TYPE_ID) {
if (tokenId == Operator.SQUARE_ROOT_ID) return true;
if (tokenId == Operator.CUBE_ROOT_ID) return true;
if (tokenId == Operator.FOURTH_ROOT_ID) return true;
}
return false;
}
/**
* Creates token representing multiplication operator.
*
* @return token representing multiplication operator.
*/
public static Token makeMultiplyToken() {
Token multiplyToken = new Token();
multiplyToken.tokenTypeId = Operator.TYPE_ID;
multiplyToken.tokenId = Operator.MULTIPLY_ID;
multiplyToken.tokenStr = Operator.MULTIPLY_STR;
return multiplyToken;
}
/**
* Returns token type description.
*
* @param tokenTypeId Token type id
* @return String representing token type description.
*/
public static String getTokenTypeDescription(int tokenTypeId) {
switch (tokenTypeId) {
case ParserSymbol.TYPE_ID: return ParserSymbol.TYPE_DESC;
case ParserSymbol.NUMBER_TYPE_ID: return StringModel.getStringResources().NUMBER;
case Operator.TYPE_ID: return Operator.TYPE_DESC;
case BooleanOperator.TYPE_ID: return BooleanOperator.TYPE_DESC;
case BinaryRelation.TYPE_ID: return BinaryRelation.TYPE_DESC;
case Function1Arg.TYPE_ID: return Function1Arg.TYPE_DESC;
case Function2Arg.TYPE_ID: return Function2Arg.TYPE_DESC;
case Function3Arg.TYPE_ID: return Function3Arg.TYPE_DESC;
case FunctionVariadic.TYPE_ID: return FunctionVariadic.TYPE_DESC;
case CalculusOperator.TYPE_ID: return CalculusOperator.TYPE_DESC;
case RandomVariable.TYPE_ID: return RandomVariable.TYPE_DESC;
case ConstantValue.TYPE_ID: return ConstantValue.TYPE_DESC;
case Argument.TYPE_ID: return Argument.TYPE_DESC;
case RecursiveArgument.TYPE_ID_RECURSIVE: return RecursiveArgument.TYPE_DESC_RECURSIVE;
case Function.TYPE_ID: return Function.TYPE_DESC;
case Constant.TYPE_ID: return Constant.TYPE_DESC;
case Unit.TYPE_ID: return Unit.TYPE_DESC;
case BitwiseOperator.TYPE_ID: return BitwiseOperator.TYPE_DESC;
}
return "";
}
/**
* Default constructor
*/
public Token() {
tokenStr = "";
keyWord = "";
tokenId = NOT_MATCHED;
tokenTypeId = NOT_MATCHED;
tokenLevel = -1;
tokenValue = Double.NaN;
looksLike = "";
}
/**
* Token cloning.
*/
public Token clone() {
Token token = new Token();
token.keyWord = keyWord;
token.tokenStr = tokenStr;
token.tokenId = tokenId;
token.tokenLevel = tokenLevel;
token.tokenTypeId = tokenTypeId;
token.tokenValue = tokenValue;
token.looksLike = looksLike;
return token;
}
}