Commit 38651101 authored by Praetorius, Simon's avatar Praetorius, Simon
Browse files

updated references in example documentation

parent 4d443dd4
......@@ -58,7 +58,7 @@ can use `power<d>(...)` for the `d` velocity component spaces of the same type.
For efficiency, we use flat indexing strategies `flatInterleaved` and `flatLexicographic`
to build a global continuous numbering of the basis functions.
See the tutorial [Grids and Discrete Functions](/tutorials/grids-and-discretefunctions)
See the tutorial [Grids and Discrete Functions](../tutorials/grids-and-discretefunctions.md)
for more details.
Implementation
......@@ -71,8 +71,8 @@ the Taylor-Hood basis, we introduce the treepaths `_v = Dune::Indices::_0` and
### Problem framework
We have an in-stationary problem consisting of a sequence of stationary equations
for each timestep, thus we combine a [`ProblemInstat`](/reference/Problem/#class-probleminstat)
with a [`ProblemStat`](/reference/Problem/#class-problemstat) .
for each timestep, thus we combine a [`ProblemInstat`](../reference/Problem.md#class-probleminstat)
with a [`ProblemStat`](../reference/Problem.md#class-problemstat) .
```c++
using namespace AMDiS;
......@@ -214,4 +214,4 @@ and run with
The flow field with `density=1`, `viscosity=1` and `boundary velocity=10` will look like
<img src="/images/navier-stokes.png" with="50%" />
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<img src="../images/navier-stokes.png" with="50%" />
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