Until today you could view the recent changes in my tools here on the website, there used to be a link for that in the menu on the left (or on the bottom if you are viewing on a mobile device). But lately that change log was not being updated correctly anymore, so that recent developments were often not visible. So I have decided to remove it now.
But that doesn’t mean I won’t make the recent changes visible anymore. From now on you will find a file named changeLog.html within the development release downloads. In this file you can see the 100 most recent changes in the software. So that should help you to see what has been changed. You can also find this change log here online.
This week I was approached by an AeroFly FS 2 user with the question if scenProc could be used to make cultivation (the AeroFly name for autogen) for AeroFly FS 2 as well. Of course this was not the highest priority item on the wishlist to work on, but I liked the challenge and the data structure to write to seemed simple enough. So I sidetracked a bit from what I was actually working on and decided to give it a go.
The fact that I’m writing about it now already indicates that it worked. In the next development release of scenProc you will find support to create cultivation for AeroFly FS 2 as well. You can create plants (trees), buildings and lights.
Section 5.9 of the updated manual shows an example script that can be used for AeroFly FS 2. Using OpenStreetMap data I have scattered trees into forest polygons, placed lights along a road and create houses from buildings that are almost rectangular. Hopefully this sample script should be enough to get you going. If there are any questions or suggestions, just let me know.
This evening I have been testing Prepar3D v4 a bit more and I have especially looked at using visibility conditions in scenery MDL files. Before these were not supported at all for MDL files placed through BGL. We had to use SimObject for them, as tools like SODE do.
But with Prepar3D v4 things have changed a bit here, and I have been testing what that could mean. So what I did is add a simple visibility condition to part of an object. This the test code I used:
It is just a simple condition to show the scenegraph node only when it is the 12th month of the year. And the good news is that these kind of conditions now work. So you can have part of your MDL only show at a certain time of the year. This can be very useful if you want to show snow only in the winter or so. As a proof here are two picture, one taken in September and the other in December.
At the moment I could only use the variables from the environment section, which would limit the kind of visibility conditions only to time related settings (day, month, year, etc). I tried to test with some other variables, but didn’t have success with that yet. So it might be that interesting variables like the weather are still not support for scenery (or I just did something wrong).
In my previous post about Prepar3D v4 support of my tools I mentioned that the MDL format didn’t seem to contain many changes. On further investigation it turned out that there are a number of changes and new sections in the MDL format. These are related to the following new functionalities:
Support for a second set of UV coordinates, including the material attributes to specify which texture uses which set.
New material attributes, mainly for the detail map and heatmap.
Support for material scripts.
The development release has been updated to be able to write all these new features as well. In the material editor you will find a Prepar3D v4 specific section with all attributes that are only for Prepar3D v4.
Given these changes, you will find the Prepar3D v4 MDL and Prepar3D v4 BGL as a specific export format in the save dialogue now. In the options you will also have to set the path to the Prepar3D v4 XtoMdl and Bglcomp. If your SDK is installed correctly these tools should be detected automatically by the way.
I have just released a new build of my tools that supports Prepar3D v4 as well. Below it is listed what this means for the different tools.
As far as I know now the MDL and BGL format in Prepar3D v4 are the same as in Prepar3D v2, so there is no new file format you can export to. But ModelConverterX will automatically recognise the Prepar3D v4 SDK when installed. Also the Convert and Place Object Wizard has been extended to support Prepar3D v4 as output simulator.
The autogen configuration files from Prepar3D v4 can be read and you can thus select this version of the simulator as the active version. Besides that the Prepar3D SDK will be recognised when searching for certain tools.
Prepar3D v4 is added as supported version, which means you can select it as the active simulator version so that the effect files will be read from that effects folder.
For the Autogen Configuration Merger tool I have posted a beta release to the forum today as well. Once that has been tested better I will officially release it.
All other tools didn’t seem to require changes at this moment, but if you have issue using them with Prepar3D v4 please let me know.
I the last week one new simulator was released and another one was officially announced. In this blog post I want to discuss what the impact on my various tools will be.
The new simulator that was released is Flight Sim World from Dovetail. After installing the early access version I have come to the conclusion that the MDL and AGN formats are still the same as in FSX. So from that point of view I expect no big changes are needed in my tools to support this simulator as well. However at the moment it’s not clear yet if there will be an official SDK for this simulator. Given that the formats are the same as FSX, I guess we could use the Prepar3D 1.4 SDK, as people with only FSX Steam Edition also have to do. If an SDK is released later on I will check what needs to be done for the tools to support it.
The other new simulator that was announced is Prepar3D v4. The biggest change there is the move to 64 bit. I’m sure there will be an SDK, just as prior Prepar3D versions had. So once it is released I will make sure that my tools can detect and use that SDK as well. As far as I know now, the MDL and AGN file formats have no big changes compared to Prepar3D v3, so I don’t expect big changes are needed to the tools. But once it has been formally released I’ll double check that again.
One note, for both simulators I need to check if the Autogen Configuration Merger tool works well on it. I haven’t checked if the autogen configuration file have changed in FSW and if it has a exe.xml to run a tool on startup like FSX had. That’s something I still need to look into. For Prepar3D v4 I will also need to make sure it’s supported by ACM.
In the latest development release you will find a new wizard, the Scene Builder Wizard. With this feature you can build one scene (object) from a set of FS library objects and their placement. With this information ModelConverterX will generate a combined scene that contains all these objects at the right positions. This might be useful to improve performance (when applied on a small scale) or when you want to convert an entire airport to another format or so. Once you have made the new object you can export or edit it like normal.
The video tutorial below demonstrates this new feature.
The latest ModelConverterX development release contains a new feature that you can also do a reverse earth curve correction. In the previous versions you could already correct your model for the FSX curved earth, but with this new feature you can also undo such a correction again.
Besides that the Coordinate Converter tool can now calculate either latitude, longitude or flat earth XYZ or geocentric XYZ from any of the different formats. So this will be useful if you need to convert between them while developing.
The video tutorial below explains these new features as well.
The end of 2016 is fast approaching, so it’s the time of the year to look back a bit on the last year and look ahead a bit to 2017 as well. For scenProc the last year has been very exiting, with a lot of ideas I had in my head coming to life. But I should also say directly that as users you haven’t seen much from this yet, because most of the new features are currently in a kind of alpha phase and are being tested in a project I’m involved with. In 2017 I hope that these new features will also start to move to the development release. Although I do not have a clear release plan for that in mind yet. But let me use this blog post to shed a bit of light on the possible future of scenProc, by describing some of the things I’m working on.
Currently scenProc can place XML scenery objects and effects for you. But I have been experimenting with placing XML bridges as well. The idea is that you use line vector data to generate such bridges automatically. The current results are quite interesting already, as you can see in the screenshot below.
A second area that I have been working on is the generation of terrain vector scenery using shp2vec. Since scenProc can already process geographical vector data the step to shp2vec is not that big. And using the filtering functionality of scenProc you can then select which data should be used for the different terrain vector types. Below is a screenshot of a test area in Luxembourg that has been populated with terrain vectors using scenProc.
The main feature of scenProc has always been to generate autogen, but wouldn’t it be nice if you could generate the photoreal scenery as well? I have been working on exporting photoreal scenery using resample. Based on vector data scenProc can generate the water and blend masks for me and I have implemented basic colour corrections. I hope to do more colour correction stuff, for example for seasons or night versions. The image below is an example of a photo scenery made by scenProc (and autogen detected by scenProc).
Big area processing
The last area I’m working on is improvements for processing big areas. With Nantucket I did detection of vegetation, but wouldn’t it be cool to also detect the buildings? And Nantucket is “only” 120 km² in size. So how to scale things up if you want to process an area of let’s say 1500 times that size? I’m working on new features to run multiple scenProc instances in parallel to process such big areas and ideally I hope to distribute it over multiple machines as well. And of course the feature detection itself needs some optimisation to make it scale better. Below is a screenshot of the batch runner tool I’m working on for this parallel processing.
So as you can see there are a lot of interesting ideas that I have started working on and that will hopefully become reality in 2017. But I can’t promise when or in exactly which form the different features will end up in the development release. At least it shows in which direction I’m thinking.