From: David Wells Date: Tue, 8 May 2018 19:07:24 +0000 (-0400) Subject: Remove trailing whitespace. X-Git-Tag: v9.0.0-rc5~1^2~1 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=6495b61ec8de546b94ffb837268a131d736e6f40;p=dealii.git Remove trailing whitespace. --- diff --git a/examples/step-60/doc/results.dox b/examples/step-60/doc/results.dox index 3f27c0e708..eef3a2ce85 100644 --- a/examples/step-60/doc/results.dox +++ b/examples/step-60/doc/results.dox @@ -7,14 +7,14 @@ will get an exception that no such file can be found: @code ---------------------------------------------------- -Exception on processing: +Exception on processing: -------------------------------------------------------- An error occurred in line <74> of file <../source/base/parameter_acceptor.cc> in function static void dealii::ParameterAcceptor::initialize(const std::string &, const std::string &, const ParameterHandler::OutputStyle, dealii::ParameterHandler &) -The violated condition was: +The violated condition was: false -Additional information: +Additional information: You specified as input parameter file, but it does not exist. We created it for you. -------------------------------------------------------- @@ -48,12 +48,12 @@ subsection Distributed Lagrange<1,2> # that describes the function, rather than having to use its numeric value # everywhere the constant appears. These values can be defined using this # parameter, in the form `var1=value1, var2=value2, ...'. - # + # # A typical example would be to set this runtime parameter to # `pi=3.1415926536' and then use `pi' in the expression of the actual # formula. (That said, for convenience this class actually defines both # `pi' and `Pi' by default, but you get the idea.) - set Function constants = R=.3, Cx=.4, Cy=.4 # default: + set Function constants = R=.3, Cx=.4, Cy=.4 # default: # The formula that denotes the function you want to evaluate for # particular values of the independent variables. This expression may @@ -64,7 +64,7 @@ subsection Distributed Lagrange<1,2> # true, and to the third argument otherwise. For a full overview of # possible expressions accepted see the documentation of the muparser # library at http://muparser.beltoforion.de/. - # + # # If the function you are describing represents a vector-valued function # with multiple components, then separate the expressions for individual # components by a semicolon. @@ -89,12 +89,12 @@ subsection Distributed Lagrange<1,2> # that describes the function, rather than having to use its numeric value # everywhere the constant appears. These values can be defined using this # parameter, in the form `var1=value1, var2=value2, ...'. - # + # # A typical example would be to set this runtime parameter to # `pi=3.1415926536' and then use `pi' in the expression of the actual # formula. (That said, for convenience this class actually defines both # `pi' and `Pi' by default, but you get the idea.) - set Function constants = + set Function constants = # The formula that denotes the function you want to evaluate for # particular values of the independent variables. This expression may @@ -105,7 +105,7 @@ subsection Distributed Lagrange<1,2> # true, and to the third argument otherwise. For a full overview of # possible expressions accepted see the documentation of the muparser # library at http://muparser.beltoforion.de/. - # + # # If the function you are describing represents a vector-valued function # with multiple components, then separate the expressions for individual # components by a semicolon. @@ -141,7 +141,7 @@ If you now run the program, you will get a file called `used_parameters.prm`, containing a shorter version of the above parameters (without comments and documentation), documenting all parameters that were used to run your program: @code -# Parameter file generated with +# Parameter file generated with # DEAL_II_PACKAGE_VERSION = 9.0.0 subsection Distributed Lagrange<1,2> set Coupling quadrature order = 3 @@ -160,7 +160,7 @@ subsection Distributed Lagrange<1,2> set Variable names = x,y,t end subsection Embedded value - set Function constants = + set Function constants = set Function expression = 1 set Variable names = x,y,t end @@ -297,7 +297,7 @@ subsection Distributed Lagrange<1,2> set Variable names = x,y,t end subsection Embedded value - set Function constants = + set Function constants = set Function expression = x-.5 set Variable names = x,y,t end @@ -320,9 +320,9 @@ though the meshes are not aligned, we obtain a pretty good result. Replacing $x-.5$ with $2(x-.5)^2-2(y-.5)^2$, i.e., modifying the parameter file such that we have @code - ... + ... subsection Embedded value - set Function constants = + set Function constants = set Function expression = 2*(x-.5)^2-2*(y-.5)^2 set Variable names = x,y,t end