7 There are 4 things to do to add a built-in command implementation to
10 . Define the implementation of the built-in command `foo` with
13 int cmd_foo(int argc, const char **argv, const char *prefix);
15 . Add the external declaration for the function to `builtin.h`.
17 . Add the command to `commands[]` table in `handle_internal_command()`,
18 defined in `git.c`. The entry should look like:
20 { "foo", cmd_foo, <options> },
22 where options is the bitwise-or of:
26 Make sure there is a git directory to work on, and if there is a
27 work tree, chdir to the top of it if the command was invoked
28 in a subdirectory. If there is no work tree, no chdir() is
33 If the standard output is connected to a tty, spawn a pager and
34 feed our output to it.
38 Make sure there is a work tree, i.e. the command cannot act
40 This only makes sense when `RUN_SETUP` is also set.
42 . Add `builtin-foo.o` to `BUILTIN_OBJS` in `Makefile`.
44 Additionally, if `foo` is a new command, there are 3 more things to do:
46 . Add tests to `t/` directory.
48 . Write documentation in `Documentation/git-foo.txt`.
50 . Add an entry for `git-foo` to `command-list.txt`.
53 How a built-in is called
54 ------------------------
56 The implementation `cmd_foo()` takes three parameters, `argc`, `argv,
57 and `prefix`. The first two are similar to what `main()` of a
58 standalone command would be called with.
60 When `RUN_SETUP` is specified in the `commands[]` table, and when you
61 were started from a subdirectory of the work tree, `cmd_foo()` is called
62 after chdir(2) to the top of the work tree, and `prefix` gets the path
63 to the subdirectory the command started from. This allows you to
64 convert a user-supplied pathname (typically relative to that directory)
65 to a pathname relative to the top of the work tree.
67 The return value from `cmd_foo()` becomes the exit status of the