All tutorials: Add URLs to both develop and master

aste-turbine/README.md

@@ -5,7 +5,7 @@ keywords: ASTE, mapping, data mapping, mapping configuration, turbine
 summary: This tutorial is an example case for ASTE, where we investigate different preCICE mappings using ASTE.
 ---
 
-{% include note.html content="Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/aste-turbine). Read how in the [tutorials introduction](https://precice.org/tutorials.html)." %}
+{% include note.html content="Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/aste-turbine), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/aste-turbine) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html)." %}
 
 If you are completely new to ASTE have a look at our [ASTE documentation](https://precice.org/tooling-aste.html). This tutorial shows how to setup a mapping between two (artificial) meshes using preCICE and ASTE in parallel. The executed mapping can be investigated in terms of accuracy as well as runtime.
 

breaking-dam-2d/README.md

@@ -6,7 +6,7 @@ summary: FSI simulation of a two-dimensional water column striking a flexible wa
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/breaking-dam-2d). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/breaking-dam-2d), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/breaking-dam-2d) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

channel-transport-reaction/README.md

@@ -6,7 +6,7 @@ summary: We simulate an advection-diffusion-reaction scenario in a fluid in moti
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/channel-transport-reaction). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/channel-transport-reaction), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/channel-transport-reaction) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

channel-transport/README.md

@@ -6,7 +6,7 @@ summary: A CFD problem is coupled to a transport (of, e.g., a chemistry species)
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/channel-transport). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/channel-transport), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/channel-transport) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

elastic-tube-1d/README.md

@@ -6,7 +6,7 @@ summary: The 1D Elastic Tube is a FSI case, that consists of an internal flow in
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/elastic-tube-1d). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/elastic-tube-1d), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/elastic-tube-1d) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

elastic-tube-3d/README.md

@@ -6,7 +6,7 @@ summary: Tutorial for an FSI simulation of a three-dimensional expanding tube sc
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/elastic-tube-3d). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/elastic-tube-3d), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/elastic-tube-3d) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

flow-around-controlled-moving-cylinder/README.md

@@ -6,7 +6,7 @@ summary: Flow around a rigid moving cylinder. A FMI-based controller is used to
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/flow-around-controlled-moving-cylinder). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/flow-around-controlled-moving-cylinder), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/flow-around-controlled-moving-cylinder) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

flow-over-heated-plate-nearest-projection/README.md

@@ -6,7 +6,7 @@ summary: This tutorial introduces an example simulation setup for a nearest-proj
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate-nearest-projection). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/flow-over-heated-plate-nearest-projection), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate-nearest-projection) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

flow-over-heated-plate-partitioned-flow/README.md

@@ -6,7 +6,7 @@ summary: This tutorial describes how to run a conjugate heat transfer coupled si
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate-partitioned-flow). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/flow-over-heated-plate-partitioned-flow), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate-partitioned-flow) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

flow-over-heated-plate-steady-state/README.md

@@ -6,7 +6,7 @@ summary: Using a steady-state OpenFOAM solver for a CHT coupling with code_aster
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate-steady-state). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/flow-over-heated-plate-steady-state), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate-steady-state) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

flow-over-heated-plate-two-meshes/README.md

@@ -7,7 +7,7 @@ summary: This tutorial describes how to run a conjugate heat transfer coupled si
 
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate-calculix). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/flow-over-heated-plate-calculix), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate-calculix) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

flow-over-heated-plate/README.md

@@ -6,7 +6,7 @@ summary: This tutorial describes how to run a conjugate heat transfer coupled si
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/flow-over-heated-plate), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/flow-over-heated-plate) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

free-flow-over-porous-media/README.md

@@ -6,7 +6,7 @@ summary: Flow-flow coupling example with porous media field and free flow field.
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/free-flow-over-porous-media-2d). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/free-flow-over-porous-media-2d), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/free-flow-over-porous-media-2d) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

heat-exchanger-simplified/README.md

@@ -7,7 +7,7 @@ summary: This tutorial describes how to run a conjugate heat transfer simulation
 
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/heat-exchanger-simplified). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/heat-exchanger-simplified), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/heat-exchanger-simplified) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

heat-exchanger/README.md

@@ -6,7 +6,7 @@ summary: Tutorial for a shell-and-tube heat exchanger, using OpenFOAM and Calcul
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/heat-exchanger). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/heat-exchanger), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/heat-exchanger) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 {% tip %}

multiple-perpendicular-flaps/README.md

@@ -6,7 +6,7 @@ summary: In this case, a fluid and two solids are coupled together using a fully
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/multiple-perpendicular-flaps). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/multiple-perpendicular-flaps), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/multiple-perpendicular-flaps) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Case Setup

oscillator-overlap/README.md

@@ -6,7 +6,7 @@ summary: We solve an oscillator with two masses in a partitioned fashion with ov
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/oscillator-overlap). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/oscillator-overlap), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/oscillator-overlap) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

oscillator/README.md

@@ -6,7 +6,7 @@ summary: We solve an oscillator with two masses in a partitioned fashion. Each m
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/oscillator). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/oscillator), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/oscillator) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

partitioned-backwards-facing-step/README.md

@@ -6,7 +6,7 @@ summary: This tutorial describes how to run a partitioned fluid simulation using
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/partitioned-backwards-facing-step). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/partitioned-backwards-facing-step), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/partitioned-backwards-facing-step) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

partitioned-elastic-beam/README.md

@@ -6,7 +6,7 @@ summary: This tutorial describes how to run a structure-structure interaction si
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/partitioned-elastic-beam). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/partitioned-elastic-beam), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/partitioned-elastic-beam) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

partitioned-heat-conduction-complex/README.md

@@ -6,7 +6,7 @@ summary: This tutorial is the advanced version of the "partitioned heat conducti
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/partitioned-heat-conduction-complex). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/partitioned-heat-conduction-complex), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/partitioned-heat-conduction-complex) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

partitioned-heat-conduction-direct/README.md

@@ -6,7 +6,7 @@ summary: This tutorial is a modified version of the "partitioned heat conduction
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/partitioned-heat-conduction-direct). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/partitioned-heat-conduction-direct), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/partitioned-heat-conduction-direct) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

partitioned-heat-conduction-overlap/README.md

@@ -6,7 +6,7 @@ summary: We solve a simple heat equation. The domain is partitioned and the coup
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/partitioned-heat-conduction-overlap). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/partitioned-heat-conduction-overlap), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/partitioned-heat-conduction-overlap) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

partitioned-heat-conduction/README.md

@@ -6,7 +6,7 @@ summary: We solve a simple heat equation. The domain is partitioned and the coup
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/partitioned-heat-conduction). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/partitioned-heat-conduction), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/partitioned-heat-conduction) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

partitioned-pipe-two-phase/README.md

@@ -6,7 +6,7 @@ summary: This tutorial describes how to run a partitioned two-phse fluid simulat
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/partitioned-pipe-two-phase). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/partitioned-pipe-two-phase), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/partitioned-pipe-two-phase) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

partitioned-pipe/README.md

@@ -6,7 +6,7 @@ summary: This tutorial describes how to run a partitioned fluid simulation using
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/partitioned-pipe). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/partitioned-pipe), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/partitioned-pipe) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

perpendicular-flap-stress/README.md

@@ -6,7 +6,7 @@ summary: This tutorial is a modified version of the “perpendicular flap” tut
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/perpendicular-flap-stress). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/perpendicular-flap-stress), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/perpendicular-flap-stress) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup

perpendicular-flap/README.md

@@ -6,7 +6,7 @@ summary: This tutorial describes how to run a fluid-structure interaction using
 ---
 
 {% note %}
-Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/master/perpendicular-flap). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
+Get the [case files of this tutorial](https://github.com/precice/tutorials/tree/develop/perpendicular-flap), as continuously rendered here, or see the [latest released version](https://github.com/precice/tutorials/tree/master/perpendicular-flap) (if there is already one). Read how in the [tutorials introduction](https://precice.org/tutorials.html).
 {% endnote %}
 
 ## Setup