/*================================================= * * Constructors * *================================================= */ /** * Default constructor - creates argument based on the argument definition string. * * @param argumentDefinitionString Argument definition string, i.e.: * <ul> * <li>'x' - only argument name * <li>'x=5' - argument name and argument value * <li>'x=2*5' - argument name and argument value given as simple expression * <li>'x=2*y' - argument name and argument expression (dependent argument 'x' on argument 'y') * </ul> * * @param elements Optional parameters (comma separated) such as Arguments, Constants, Functions */ public Argument(String argumentDefinitionString, params PrimitiveElement[] elements) : base(Argument.TYPE_ID) { if (mXparser.regexMatch(argumentDefinitionString, ParserSymbol.nameOnlyTokenRegExp)) { argumentName = argumentDefinitionString; argumentValue = ARGUMENT_INITIAL_VALUE; argumentType = FREE_ARGUMENT; argumentExpression = new Expression(elements); } else if (mXparser.regexMatch(argumentDefinitionString, ParserSymbol.constArgDefStrRegExp)) { HeadEqBody headEqBody = new HeadEqBody(argumentDefinitionString); argumentName = headEqBody.headTokens[0].tokenStr; Expression bodyExpr = new Expression(headEqBody.bodyStr); double bodyValue = bodyExpr.calculate(); if ((bodyExpr.getSyntaxStatus() == Expression.NO_SYNTAX_ERRORS) && (bodyValue != Double.NaN)) { argumentExpression = new Expression(); argumentValue = bodyValue; argumentType = FREE_ARGUMENT; } else { argumentExpression = bodyExpr; addDefinitions(elements); argumentType = DEPENDENT_ARGUMENT; } } else if (mXparser.regexMatch(argumentDefinitionString, ParserSymbol.functionDefStrRegExp)) { HeadEqBody headEqBody = new HeadEqBody(argumentDefinitionString); argumentName = headEqBody.headTokens[0].tokenStr; argumentExpression = new Expression(headEqBody.bodyStr, elements); argumentExpression.setDescription(headEqBody.headStr); argumentValue = ARGUMENT_INITIAL_VALUE; argumentType = DEPENDENT_ARGUMENT; n = new Argument(headEqBody.headTokens[2].tokenStr); } else { argumentValue = ARGUMENT_INITIAL_VALUE; argumentType = FREE_ARGUMENT; argumentExpression = new Expression(); argumentExpression.setSyntaxStatus(SYNTAX_ERROR_OR_STATUS_UNKNOWN, "[" + argumentDefinitionString + "] " + "Invalid argument definition (patterns: 'x', 'x=5', 'x=5+3/2', 'x=2*y')."); } setSilentMode(); description = ""; }
/** * Constructor for function definition in natural math language, * for instance providing on string "f(x,y) = sin(x) + cos(x)" * is enough to define function "f" with parameters "x and y" * and function body "sin(x) + cos(x)". * * @param constantDefinitionString Constant definition in the form * of one String, ie "c = 2" or "c = 2*sin(pi/3)" * @param elements Optional parameters (comma separated) such as Arguments, Constants, Functions */ public Constant(String constantDefinitionString, params PrimitiveElement[] elements) : base(Constant.TYPE_ID) { description = ""; syntaxStatus = SYNTAX_ERROR_OR_STATUS_UNKNOWN; relatedExpressionsList = new List<Expression>(); if (mXparser.regexMatch(constantDefinitionString, ParserSymbol.constArgDefStrRegExp)) { HeadEqBody headEqBody = new HeadEqBody(constantDefinitionString); constantName = headEqBody.headTokens[0].tokenStr; Expression bodyExpression = new Expression(headEqBody.bodyStr, elements); constantValue = bodyExpression.calculate(); syntaxStatus = bodyExpression.getSyntaxStatus(); errorMessage = bodyExpression.getErrorMessage(); } else errorMessage = "[" + constantDefinitionString + "] " + "--> pattern not mathes: " + ParserSymbol.constArgDefStrRegExp; }