From: Martin Kronbichler Date: Wed, 16 Oct 2013 14:43:14 +0000 (+0000) Subject: Adjust comments X-Git-Tag: v8.1.0~585 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=8943c1175597f0bb20071373c22950620b8bcbca;p=dealii.git Adjust comments git-svn-id: https://svn.dealii.org/trunk@31259 0785d39b-7218-0410-832d-ea1e28bc413d --- diff --git a/deal.II/include/deal.II/base/vectorization.h b/deal.II/include/deal.II/base/vectorization.h index f2c560f36c..ec48938935 100644 --- a/deal.II/include/deal.II/base/vectorization.h +++ b/deal.II/include/deal.II/base/vectorization.h @@ -1952,10 +1952,8 @@ DEAL_II_NAMESPACE_CLOSE namespace std { /** - * Computes the sine of a vectorized - * data field. The result is return as - * vectorized array in the form - * {sin(x[0]), sin(x[1]), ..., + * Computes the sine of a vectorized data field. The result is return as + * vectorized array in the form {sin(x[0]), sin(x[1]), ..., * sin(x[n_array_elements-1])}. * * @relates VectorizedArray @@ -1974,10 +1972,8 @@ namespace std /** - * Computes the tangent of a vectorized - * data field. The result is return as - * vectorized array in the form - * {tan(x[0]), tan(x[1]), ..., + * Computes the tangent of a vectorized data field. The result is return as + * vectorized array in the form {tan(x[0]), tan(x[1]), ..., * tan(x[n_array_elements-1])}. * * @relates VectorizedArray @@ -1995,10 +1991,8 @@ namespace std /** - * Computes the cosine of a vectorized - * data field. The result is return as - * vectorized array in the form - * {cos(x[0]), cos(x[1]), ..., + * Computes the cosine of a vectorized data field. The result is return as + * vectorized array in the form {cos(x[0]), cos(x[1]), ..., * cos(x[n_array_elements-1])}. * * @relates VectorizedArray @@ -2016,10 +2010,8 @@ namespace std /** - * Computes the exponential of a vectorized - * data field. The result is return as - * vectorized array in the form - * {exp(x[0]), exp(x[1]), ..., + * Computes the exponential of a vectorized data field. The result is return + * as vectorized array in the form {exp(x[0]), exp(x[1]), ..., * exp(x[n_array_elements-1])}. * * @relates VectorizedArray @@ -2037,10 +2029,8 @@ namespace std /** - * Computes the natural logarithm of a - * vectorized data field. The result is return - * as vectorized array in the form - * {log(x[0]), log(x[1]), ..., + * Computes the natural logarithm of a vectorized data field. The result is + * return as vectorized array in the form {log(x[0]), log(x[1]), ..., * log(x[n_array_elements-1])}. * * @relates VectorizedArray @@ -2059,10 +2049,8 @@ namespace std /** - * Computes the square root of a vectorized - * data field. The result is return as - * vectorized array in the form - * {sqrt(x[0]), sqrt(x[1]), ..., + * Computes the square root of a vectorized data field. The result is return + * as vectorized array in the form {sqrt(x[0]), sqrt(x[1]), ..., * sqrt(x[n_array_elements-1])}. * * @relates VectorizedArray @@ -2078,11 +2066,9 @@ namespace std /** - * Computes the absolute value (modulus) of a - * vectorized data field. The result is return - * as vectorized array in the form - * {abs(x[0]), abs(x[1]), ..., - * abs(x[n_array_elements-1])}. + * Computes the absolute value (modulus) of a vectorized data field. The + * result is return as vectorized array in the form {abs(x[0]), + * abs(x[1]), ..., abs(x[n_array_elements-1])}. * * @relates VectorizedArray */ @@ -2097,11 +2083,9 @@ namespace std /** - * Computes the componentwise maximum of two - * vectorized data fields. The result is - * return as vectorized array in the form - * {max(x[0],y[0]), max(x[1],y[1]), - * ...}. + * Computes the componentwise maximum of two vectorized data fields. The + * result is return as vectorized array in the form {max(x[0],y[0]), + * max(x[1],y[1]), ...}. * * @relates VectorizedArray */ @@ -2117,11 +2101,9 @@ namespace std /** - * Computes the componentwise minimum of two - * vectorized data fields. The result is - * return as vectorized array in the form - * {min(x[0],y[0]), min(x[1],y[1]), - * ...}. + * Computes the componentwise minimum of two vectorized data fields. The + * result is return as vectorized array in the form {min(x[0],y[0]), + * min(x[1],y[1]), ...}. * * @relates VectorizedArray */