From 35f7829af10c61e33dd2e2a7a015058e11a11ea0 Mon Sep 17 00:00:00 2001 From: Stanislaw Halik Date: Sat, 25 Mar 2017 14:17:07 +0100 Subject: update --- eigen/doc/TopicLazyEvaluation.dox | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) (limited to 'eigen/doc/TopicLazyEvaluation.dox') diff --git a/eigen/doc/TopicLazyEvaluation.dox b/eigen/doc/TopicLazyEvaluation.dox index 393bc41..101ef8c 100644 --- a/eigen/doc/TopicLazyEvaluation.dox +++ b/eigen/doc/TopicLazyEvaluation.dox @@ -36,7 +36,7 @@ Here is now a more involved example: Eigen chooses lazy evaluation at every stage in that example, which is clearly the correct choice. In fact, lazy evaluation is the "default choice" and Eigen will choose it except in a few circumstances. -The first circumstance in which Eigen chooses immediate evaluation, is when it sees an assignment a = b; and the expression \c b has the evaluate-before-assigning \link flags flag\endlink. The most important example of such an expression is the \link GeneralProduct matrix product expression\endlink. For example, when you do +The first circumstance in which Eigen chooses immediate evaluation, is when it sees an assignment a = b; and the expression \c b has the evaluate-before-assigning \link flags flag\endlink. The most important example of such an expression is the \link Product matrix product expression\endlink. For example, when you do \code matrix = matrix * matrix; \endcode @@ -48,7 +48,7 @@ What if you know that the result does no alias the operand of the product and wa Here, since we know that matrix2 is not the same matrix as matrix1, we know that lazy evaluation is not dangerous, so we may force lazy evaluation. Concretely, the effect of noalias() here is to bypass the evaluate-before-assigning \link flags flag\endlink. -The second circumstance in which Eigen chooses immediate evaluation, is when it sees a nested expression such as a + b where \c b is already an expression having the evaluate-before-nesting \link flags flag\endlink. Again, the most important example of such an expression is the \link GeneralProduct matrix product expression\endlink. For example, when you do +The second circumstance in which Eigen chooses immediate evaluation, is when it sees a nested expression such as a + b where \c b is already an expression having the evaluate-before-nesting \link flags flag\endlink. Again, the most important example of such an expression is the \link Product matrix product expression\endlink. For example, when you do \code matrix1 = matrix2 + matrix3 * matrix4; \endcode -- cgit v1.2.3