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β˜• Symja - computer algebra language & symbolic math library. A collection of popular algorithms implemented in pure Java. Inspired by Wolfram Language built-in functions.

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LamprosGiotis/symja_android_library

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Symja Library - Java Symbolic Math System for Android NCalc calculator

Join our Discord Symja Maven Central

Build Master Snapshot Sonatype Nexus (Snapshots)

Note: this repository contains the Java 11 sources of the core modules. A minimal Android app example can be found in the symja-example repository :

Try the full-blown Android or iOS apps:

or help testing the latest Android BETA version or the web demo at matheclipse.org.

Read the Symja Manual πŸ“˜ for the description of the Symja language or browse the available functions πŸ“— . We encourage everyone to participate in our Wiki.

πŸ”§ Installation

The different kinds of installations are described in the Wiki Installation.

✨ Features

Features of the Symja language:

πŸ“¦ Applications

β˜• Examples

Console user interface

HTML notebook interface

To get an idea of the kinds of expressions Symja handles, see the JUnit tests in this file.

Web Examples

Solve({x^2==4,x+y^2==6}, {x,y})

FactorInteger(2^15-5)

D(Sin(x^3), x)

Factor(-1+x^16)

Manipulate(Plot3D(Sin(a * x * y), {x, -1.5, 1.5}, {y, -1.5, 1.5}), {a,1,5})

Plot(Piecewise({{x^2, x < 0}, {x, x >= 0&&x<1},{Cos(x-1), x >= 1}}), {x, -2, 12})

Refine(Abs(n*Abs(m)),n<0)

Inverse({{1,2},{3,4}})

Det({{1,2},{3,4}})

Integrate(Cos(x)^5, x)

JavaForm((x+1)^2+(x+1)^3, Float)

ToExpression("\\frac{x}{\\sqrt{5}}", TeXForm)

A Java usage example:

package org.matheclipse.core.examples;

import org.matheclipse.core.eval.ExprEvaluator;
import org.matheclipse.core.expression.F;
import org.matheclipse.core.interfaces.IAST;
import org.matheclipse.core.interfaces.IExpr;
import org.matheclipse.core.interfaces.ISymbol;
import org.matheclipse.parser.client.SyntaxError;
import org.matheclipse.parser.client.math.MathException;

public class Example {
	public static void main(String[] args) {
		try {
			ExprEvaluator util = new ExprEvaluator(false, 100);

			// Convert an expression to the internal Java form:
			// Note: single character identifiers are case sensitive
			// (the "D()" function identifier must be written as upper case
			// character)
			String javaForm = util.toJavaForm("D(sin(x)*cos(x),x)");
			// prints: D(Times(Sin(x),Cos(x)),x)
			System.out.println("Out[1]: " + javaForm.toString());

			// Use the Java form to create an expression with F.* static
			// methods:
			ISymbol x = F.Dummy("x");
			IAST function = F.D(F.Times(F.Sin(x), F.Cos(x)), x);
			IExpr result = util.eval(function);
			// print: Cos(x)^2-Sin(x)^2
			System.out.println("Out[2]: " + result.toString());

			// Note "diff" is an alias for the "D" function
			result = util.eval("diff(sin(x)*cos(x),x)");
			// print: Cos(x)^2-Sin(x)^2
			System.out.println("Out[3]: " + result.toString());

			// evaluate the last result (% contains "last answer")
			result = util.eval("%+cos(x)^2");
			// print: 2*Cos(x)^2-Sin(x)^2
			System.out.println("Out[4]: " + result.toString());

			// evaluate an Integrate[] expression
			result = util.eval("integrate(sin(x)^5,x)");
			// print: 2/3*Cos(x)^3-1/5*Cos(x)^5-Cos(x)
			System.out.println("Out[5]: " + result.toString());

			// set the value of a variable "a" to 10
			result = util.eval("a=10");
			// print: 10
			System.out.println("Out[6]: " + result.toString());

			// do a calculation with variable "a"
			result = util.eval("a*3+b");
			// print: 30+b
			System.out.println("Out[7]: " + result.toString());

			// Do a calculation in "numeric mode" with the N() function
			// Note: single character identifiers are case sensistive
			// (the "N()" function identifier must be written as upper case
			// character)
			result = util.eval("N(sinh(5))");
			// print: 74.20321057778875
			System.out.println("Out[8]: " + result.toString());

			// define a function with a recursive factorial function definition.
			// Note: fac(0) is the stop condition.
			result = util.eval("fac(x_Integer):=x*fac(x-1);fac(0)=1");
			// now calculate factorial of 10:
			result = util.eval("fac(10)");
			// print: 3628800
			System.out.println("Out[9]: " + result.toString());

			function = F.Function(F.Divide(F.Gamma(F.Plus(F.C1, F.Slot1)), F.Gamma(F.Plus(F.C1, F.Slot2))));
			// eval function ( Gamma(1+#1)/Gamma(1+#2) ) & [23,20]
			result = util.evalFunction(function, "23", "20");
			// print: 10626
			System.out.println("Out[10]: " + result.toString());
		} catch (SyntaxError e) {
			// catch Symja parser errors here
			System.out.println(e.getMessage());
		} catch (MathException me) {
			// catch Symja math errors here
			System.out.println(me.getMessage());
		} catch (final Exception ex) {
			System.out.println(ex.getMessage());
		} catch (final StackOverflowError soe) {
			System.out.println(soe.getMessage());
		} catch (final OutOfMemoryError oome) {
			System.out.println(oome.getMessage());
		}
	}
}

πŸ”¨ Maven Usage

How to use Maven is described in the Maven wiki page.

Getting started

First, you'll need a Java Development Kit (JDK) compatible with Java 11 or later.

The Integrated Development Environment (IDE) Eclipse is shipped with a suitable JDK, so you don't have to install a JDK by yourself. Install and open the latest version of the Eclipse development IDE for Java Developers:

Github GIT

a) Fork the Symja repository to use as a starting point.

  • Navigate to github.com/axkr/symja_android_library in your browser.
  • Click the "Fork" button in the top-right of the page.
  • Once your fork is ready, open the new repository's "Settings" by clicking the link in the menu bar on the left.
  • Change the repository name to the name of your Library and save your changes.

b) Clone your new repository to your Eclipse workspace.

  • Open Eclipse and select the "File -> Import..." menu item.
  • Select "Git -> Projects from Git", and click "Next >".
  • Select "URI" and click "Next >".
  • Enter your repository's clone URL in the "URI" field. The remaining fields in the "Location" and "Connection" groups will get automatically filled in.
  • Enter your Github credentials in the "Authentication" group, and click "Next >".
  • Select the master branch on the next screen, and click "Next >".
  • The default settings on the "Local Configuration" screen should work fine, click "Next >".
  • Make sure "Import existing projects" is selected, and click "Next >".
  • Eclipse should find and select the symja_android_library automatically, click "Finish".

See this Git version control with Eclipse (EGit) - Tutorial for a general overview.

Contact

If you have any questions about using or developing for this project, send me an email!

License

  • the complete Symja system is published under the GNU GENERAL PUBLIC LICENSE Version 3 (GPL) starting with Symja version 2.0.0 parts are published under the Lesser GNU GENERAL PUBLIC LICENSE Version 3 (LGPL).

If you would like to use parts of the system here are some Maven module licenses:

  • the maven modules: parser, external, core are published under LGPL license.
  • the maven modules: gpl, api, io are published under GPL license.

Here are some of the associated Java library dependency licenses:

Here are some of the associated JavaScript licenses:

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β˜• Symja - computer algebra language & symbolic math library. A collection of popular algorithms implemented in pure Java. Inspired by Wolfram Language built-in functions.

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