so the model is: There's master "the-game" that holds all the shared shit already, I pull changed from it and then my fork acts as a middle man between my workspace here and and the master, the master will be pulling from my fork
But I don't want to be pushing stuff even to my fork before I actually review it myself (compiles, works, possibly I'll do my own testing), so I want a working build, I hope that will be possible ?
The thing is, I don't want to push stuff I haven't tested, and that will be impossible unless I have a working build, well, unless it's without side effects, obviously.
Anyway, the question is still unanswered :( I hope I will be able to build the whole thing right here so that I can test the changes before I push even to my own sodding fork ?
So i will be able to build the whole thing myself here on my sodding computer! :)
And you will not pull automatically from my fork, you will wait for me to actually make "a pull request" which will tell you that my shit is ready for you to get pulled to master, right ?
One way:
- build/ -- binaries, temps, and other buildable crap
- src/ -- sources
+ platform/ -- platform glue
+ windows/
+ linux/
+ osx/
+ game/ -- game itself
+ ... some additional stuff that might come up ...
- vendor/
+ ... included third party libs, maybe ...
- data/ -- non-source data
It's an intermediate state for changes. When you do git add you put changes into staging, when you do git commit you commit the changes put into staging
So you can change a file, add it to staging, change it again and commit, and only the first change will be recorded.
In Git you make changes, add them to the staging area, make more changes, add those to the staging area too, then commit those changes and they are permanent.
Going trough the document, there's stuff about planets, and then stars have only: block LoS. What do you think about stars increasing recharge-rate of the shields of the nearby units ?
An extrasolar planet, or exoplanet, is a planet outside the Solar System. A total of such planets (in planetary systems and multiple planetary systems) have been identified as of . Estimates of the frequency of systems strongly suggest that more than 50% of Sun-like stars harbor at least one planet. In a 2012 study, each star of the 100 billion or so in our Milky Way galaxy is estimated to host "on average ... at least 1.6 planets." Accordingly, at least 160 billion star-bound planets may exist in the Milky Way Galaxy alone.
For centuries, many philosophers and scientists suppose...
A rogue planet — also known as an interstellar planet, nomad planet or orphan planet — is a planetary-mass object which has either been ejected from its system or was never gravitationally bound to any star, brown dwarf or other such object, and that therefore orbits the galaxy directly. Astronomers believe that either way, the definition of planet should depend on current observable state and not origin.
Larger planetary-mass objects which were not ejected, but have always been free-floating, are thought to have formed in a similar way to stars, and the IAU has proposed that those ob...
@CatPlusPlus That was "a plan" for planets, sort of. So they would influence ship speed / acceleration, something. I wouldn't necessarily view it as a pull though, that would be potentially very annoying.