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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 is something you might consider: https://mathparser.org/donate/ *** 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/ ***
/*
* @(#)Function3Arg.java 5.0.4 2022-05-22
*
* MathParser.org-mXparser DUAL LICENSE AGREEMENT as of date 2022-05-22
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package org.mariuszgromada.math.mxparser.parsertokens;
import org.mariuszgromada.math.mxparser.mXparser;
/**
* Functions with 3 arguments - mXparser tokens definition.
*
* @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 5.0.0
*/
public final class Function3Arg {
/*
* 3-args Function - token type id.
*/
public static final int TYPE_ID = 6;
public static final String TYPE_DESC = "3-args Function";
/*
* 3-args Function - tokens id.
*/
public static final int IF_CONDITION_ID = 1;
public static final int IF_ID = 2;
public static final int CHI_ID = 3;
public static final int CHI_LR_ID = 4;
public static final int CHI_L_ID = 5;
public static final int CHI_R_ID = 6;
public static final int PDF_UNIFORM_CONT_ID = 7;
public static final int CDF_UNIFORM_CONT_ID = 8;
public static final int QNT_UNIFORM_CONT_ID = 9;
public static final int PDF_NORMAL_ID = 10;
public static final int CDF_NORMAL_ID = 11;
public static final int QNT_NORMAL_ID = 12;
public static final int DIGIT_ID = 13;
public static final int INC_BETA_ID = 14;
public static final int REG_BETA_ID = 15;
/*
* 3-args Function - tokens key words.
*/
public static final String IF_STR = "if";
public static final String CHI_STR = "chi";
public static final String CHI_LR_STR = "CHi";
public static final String CHI_L_STR = "Chi";
public static final String CHI_R_STR = "cHi";
public static final String PDF_UNIFORM_CONT_STR = "pUni";
public static final String CDF_UNIFORM_CONT_STR = "cUni";
public static final String QNT_UNIFORM_CONT_STR = "qUni";
public static final String PDF_NORMAL_STR = "pNor";
public static final String CDF_NORMAL_STR = "cNor";
public static final String QNT_NORMAL_STR = "qNor";
public static final String DIGIT_STR = "dig";
public static final String INC_BETA_STR = "BetaInc";
public static final String REG_BETA_STR = "BetaReg";
public static final String REG_BETA_I_STR = "BetaI";
/*
* 3-args Function - syntax.
*/
public static final String IF_SYN = SyntaxStringBuilder.function3Arg(IF_STR, SyntaxStringBuilder.cond, SyntaxStringBuilder.exprIfTrue, SyntaxStringBuilder.exprIfFalse);
public static final String CHI_SYN = SyntaxStringBuilder.function3Arg(CHI_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String CHI_LR_SYN = SyntaxStringBuilder.function3Arg(CHI_LR_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String CHI_L_SYN = SyntaxStringBuilder.function3Arg(CHI_L_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String CHI_R_SYN = SyntaxStringBuilder.function3Arg(CHI_R_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String PDF_UNIFORM_CONT_SYN = SyntaxStringBuilder.function3Arg(PDF_UNIFORM_CONT_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String CDF_UNIFORM_CONT_SYN = SyntaxStringBuilder.function3Arg(CDF_UNIFORM_CONT_STR, SyntaxStringBuilder.a, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String QNT_UNIFORM_CONT_SYN = SyntaxStringBuilder.function3Arg(QNT_UNIFORM_CONT_STR, SyntaxStringBuilder.q, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String PDF_NORMAL_SYN = SyntaxStringBuilder.function3Arg(PDF_NORMAL_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.mean, SyntaxStringBuilder.stdv);
public static final String CDF_NORMAL_SYN = SyntaxStringBuilder.function3Arg(CDF_NORMAL_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.mean, SyntaxStringBuilder.stdv);
public static final String QNT_NORMAL_SYN = SyntaxStringBuilder.function3Arg(QNT_NORMAL_STR, SyntaxStringBuilder.q, SyntaxStringBuilder.mean, SyntaxStringBuilder.stdv);
public static final String DIGIT_SYN = SyntaxStringBuilder.function3Arg(DIGIT_STR, SyntaxStringBuilder.num, SyntaxStringBuilder.pos, SyntaxStringBuilder.basestr);
public static final String INC_BETA_SYN = SyntaxStringBuilder.function3Arg(INC_BETA_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String REG_BETA_SYN = SyntaxStringBuilder.function3Arg(REG_BETA_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
public static final String REG_BETA_I_SYN = SyntaxStringBuilder.function3Arg(REG_BETA_I_STR, SyntaxStringBuilder.x, SyntaxStringBuilder.a, SyntaxStringBuilder.b);
/*
* 3-args Function - tokens description.
*/
public static final String IF_DESC = "If function";
public static final String CHI_DESC = "Characteristic function for x in (a,b)";
public static final String CHI_LR_DESC = "Characteristic function for x in [a,b]";
public static final String CHI_L_DESC = "Characteristic function for x in [a,b)";
public static final String CHI_R_DESC = "Characteristic function for x in (a,b]";
public static final String PDF_UNIFORM_CONT_DESC = "Probability distribution function - Uniform continuous distribution U(a,b)";
public static final String CDF_UNIFORM_CONT_DESC = "Cumulative distribution function - Uniform continuous distribution U(a,b)";
public static final String QNT_UNIFORM_CONT_DESC = "Quantile function (inverse cumulative distribution function) - Uniform continuous distribution U(a,b)";
public static final String PDF_NORMAL_DESC = "Probability distribution function - Normal distribution N(m,s)";
public static final String CDF_NORMAL_DESC = "Cumulative distribution function - Normal distribution N(m,s)";
public static final String QNT_NORMAL_DESC = "Quantile function (inverse cumulative distribution function)";
public static final String DIGIT_DESC = "Digit at position 1 ... n (left -> right) or 0 ... -(n-1) (right -> left) - numeral system with given base";
public static final String INC_BETA_DESC = "The incomplete beta special function B(x; a, b), also called the incomplete Euler integral of the first kind";
public static final String REG_BETA_DESC = "The regularized incomplete beta (or regularized beta) special function I(x; a, b), also called the regularized incomplete Euler integral of the first kind";
/*
* 3-args Function - since.
*/
public static final String IF_SINCE = mXparser.NAMEv10;
public static final String CHI_SINCE = mXparser.NAMEv10;
public static final String CHI_LR_SINCE = mXparser.NAMEv10;
public static final String CHI_L_SINCE = mXparser.NAMEv10;
public static final String CHI_R_SINCE = mXparser.NAMEv10;
public static final String PDF_UNIFORM_CONT_SINCE = mXparser.NAMEv30;
public static final String CDF_UNIFORM_CONT_SINCE = mXparser.NAMEv30;
public static final String QNT_UNIFORM_CONT_SINCE = mXparser.NAMEv30;
public static final String PDF_NORMAL_SINCE = mXparser.NAMEv30;
public static final String CDF_NORMAL_SINCE = mXparser.NAMEv30;
public static final String QNT_NORMAL_SINCE = mXparser.NAMEv30;
public static final String DIGIT_SINCE = mXparser.NAMEv41;
public static final String INC_BETA_SINCE = mXparser.NAMEv42;
public static final String REG_BETA_SINCE = mXparser.NAMEv42;
public static final String REG_BETA_I_SINCE = mXparser.NAMEv42;
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