From: Wolfgang Bangerth Date: Sat, 2 Aug 2014 08:40:50 +0000 (-0500) Subject: More fixes with references that are now outdated. X-Git-Tag: v8.2.0-rc1~233^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=e42de99c08b62d199036858ec8e8f5129812b05a;p=dealii.git More fixes with references that are now outdated. --- diff --git a/include/deal.II/base/function_parser.h b/include/deal.II/base/function_parser.h index fd4800ae14..92eba34ce4 100644 --- a/include/deal.II/base/function_parser.h +++ b/include/deal.II/base/function_parser.h @@ -1,7 +1,7 @@ // --------------------------------------------------------------------- // $Id$ // -// Copyright (C) 2005 - 2013 by the deal.II authors +// Copyright (C) 2005 - 2014 by the deal.II authors // // This file is part of the deal.II library. // @@ -118,82 +118,8 @@ template class Vector; * the function as an argument (among other things). * * The syntax to describe a function follows usual programming practice, and - * is explained in this snippet from the fparser.txt file: - * @verbatim - * The function string understood by the class is very similar to the C-syntax. - * Arithmetic float expressions can be created from float literals, variables - * or functions using the following operators in this order of precedence: - * - * -A unary minus - * A^B exponentiation (A raised to the power B) - * A*B A/B A%B multiplication, division and modulo - * A+B A-B addition and subtraction - * A==B AB comparison between A and B (result is either 0 or 1) - * A&&B A||B logical 'and' and 'or' - * A&B A|B same, implemented for compatibility - * - * Since the unary minus has higher precedence than any other operator, for - * example the following expression is valid: x*-y - * - * Note that the '==' comparison can be inaccurate due to floating point - * precision problems, so it should be avoided (eg. "sqrt(100)=10" probably - * returns 0, not 1). - * - * The class supports these functions: - * - * abs(A) : Absolute value of A. If A is negative, returns -A otherwise - * returns A. - * acos(A) : Arc-cosine of A. Returns the angle, measured in radians, - * whose cosine is A. - * acosh(A) : Same as acos() but for hyperbolic cosine. - * asin(A) : Arc-sine of A. Returns the angle, measured in radians, whose - * sine is A. - * asinh(A) : Same as asin() but for hyperbolic sine. - * atan(A) : Arc-tangent of (A). Returns the angle, measured in radians, - * whose tangent is (A). - * atan2(A,B): Arc-tangent of A/B. The two main differences to atan() is - * that it will return the right angle depending on the signs of - * A and B (atan() can only return values between -pi/2 and pi/2), - * and that the return value of pi/2 and -pi/2 are possible. - * atanh(A) : Same as atan() but for hyperbolic tangent. - * ceil(A) : Ceiling of A. Returns the smallest integer greater than A. - * Rounds up to the next higher integer. - * cos(A) : Cosine of A. Returns the cosine of the angle A, where A is - * measured in radians. - * cosh(A) : Same as cos() but for hyperbolic cosine. - * cot(A) : Cotangent of A (equivalent to 1/tan(A)). - * csc(A) : Cosecant of A (equivalent to 1/sin(A)). - * exp(A) : Exponential of A. Returns the value of e raised to the power - * A where e is the base of the natural logarithm, i.e. the - * non-repeating value approximately equal to 2.71828182846. - * floor(A) : Floor of A. Returns the largest integer less than A. Rounds - * down to the next lower integer. - * if(A,B,C) : If int(A) differs from 0, the return value of this function is B, - * else C. Only the parameter which needs to be evaluated is - * evaluated, the other parameter is skipped; this makes it safe to - * use eval() in them. - * int(A) : Rounds A to the closest integer. 0.5 is rounded to 1. - * log(A) : Natural (base e) logarithm of A. - * log10(A) : Base 10 logarithm of A. - * max(A,B) : If A>B, the result is A, else B. - * min(A,B) : If A * units - a map of units passed to FunctionParser via AddUnint. * * Can be used as "3cm". Have higher precedence in parsing, i.e. if cm=10 - * then 3/2cm is 3 /(2*10). See contrib/functionparser/fparser.txt for - * more details. + * then 3/2cm is 3 /(2*10). */ void initialize (const std::string &vars, const std::vector &expressions,