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package org.luaj.vm2.lib;

import org.luaj.vm2.LuaError;
import org.luaj.vm2.LuaFunction;
import org.luaj.vm2.LuaValue;
import org.luaj.vm2.Varargs;

/**
 * Subclass of {@link LuaFunction} common to Java functions exposed to lua. 
 * 

* To provide for common implementations in JME and JSE, * library functions are typically grouped on one or more library classes * and an opcode per library function is defined and used to key the switch * to the correct function within the library. *

* Since lua functions can be called with too few or too many arguments, * and there are overloaded {@link LuaValue#call()} functions with varying * number of arguments, a Java function exposed in lua needs to handle the * argument fixup when a function is called with a number of arguments * differs from that expected. *

* To simplify the creation of library functions, * there are 5 direct subclasses to handle common cases based on number of * argument values and number of return return values. *

    *
  • {@link ZeroArgFunction}
  • *
  • {@link OneArgFunction}
  • *
  • {@link TwoArgFunction}
  • *
  • {@link ThreeArgFunction}
  • *
  • {@link VarArgFunction}
  • *
*

* To be a Java library that can be loaded via {@code require}, it should have * a public constructor that returns a {@link LuaValue} that, when executed, * initializes the library. *

* For example, the following code will implement a library called "hyperbolic" * with two functions, "sinh", and "cosh":

 {@code 
 * import org.luaj.vm2.LuaValue;
 * import org.luaj.vm2.lib.*;
 * 
 * public class hyperbolic extends TwoArgFunction {
 *
 *	public hyperbolic() {}
 *
 *	public LuaValue call(LuaValue modname, LuaValue env) {
 *		LuaValue library = tableOf();
 *		library.set( "sinh", new sinh() );
 *		library.set( "cosh", new cosh() );
 *		env.set( "hyperbolic", library );
 *		return library;
 *	}
 *
 *	static class sinh extends OneArgFunction {
 *		public LuaValue call(LuaValue x) {
 *			return LuaValue.valueOf(Math.sinh(x.checkdouble()));
 *		}
 *	}
 *	
 *	static class cosh extends OneArgFunction {
 *		public LuaValue call(LuaValue x) {
 *			return LuaValue.valueOf(Math.cosh(x.checkdouble()));
 *		}
 *	}
 *}
 *}
* The default constructor is used to instantiate the library * in response to {@code require 'hyperbolic'} statement, * provided it is on Java"s class path. * This instance is then invoked with 2 arguments: the name supplied to require(), * and the environment for this function. The library may ignore these, or use * them to leave side effects in the global environment, for example. * In the previous example, two functions are created, 'sinh', and 'cosh', and placed * into a global table called 'hyperbolic' using the supplied 'env' argument. *

* To test it, a script such as this can be used: *

 {@code
 * local t = require('hyperbolic')
 * print( 't', t )
 * print( 'hyperbolic', hyperbolic )
 * for k,v in pairs(t) do
 * 	print( 'k,v', k,v )
 * end
 * print( 'sinh(.5)', hyperbolic.sinh(.5) )
 * print( 'cosh(.5)', hyperbolic.cosh(.5) )
 * }
*

* It should produce something like: *

 {@code
 * t	table: 3dbbd23f
 * hyperbolic	table: 3dbbd23f
 * k,v	cosh	function: 3dbbd128
 * k,v	sinh	function: 3dbbd242
 * sinh(.5)	0.5210953
 * cosh(.5)	1.127626
 * }
*

* See the source code in any of the library functions * such as {@link BaseLib} or {@link TableLib} for other examples. */ abstract public class LibFunction extends LuaFunction { /** User-defined opcode to differentiate between instances of the library function class. *

* Subclass will typicall switch on this value to provide the specific behavior for each function. */ protected int opcode; /** The common name for this function, useful for debugging. *

* Binding functions initialize this to the name to which it is bound. */ protected String name; /** Default constructor for use by subclasses */ protected LibFunction() { } public String tojstring() { return name != null? name: super.tojstring(); } /** * Bind a set of library functions. *

* An array of names is provided, and the first name is bound * with opcode = 0, second with 1, etc. * @param env The environment to apply to each bound function * @param factory the Class to instantiate for each bound function * @param names array of String names, one for each function. * @see #bind(LuaValue, Class, String[], int) */ protected void bind(LuaValue env, Class factory, String[] names ) { bind( env, factory, names, 0 ); } /** * Bind a set of library functions, with an offset *

* An array of names is provided, and the first name is bound * with opcode = {@code firstopcode}, second with {@code firstopcode+1}, etc. * @param env The environment to apply to each bound function * @param factory the Class to instantiate for each bound function * @param names array of String names, one for each function. * @param firstopcode the first opcode to use * @see #bind(LuaValue, Class, String[]) */ protected void bind(LuaValue env, Class factory, String[] names, int firstopcode ) { try { for ( int i=0, n=names.length; i





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