At least until Zsh version 5.7.1, no performance improvement is observed
out of using those.
In some cases, the performance is even worsened, like when using
autoload -w functions_digest.zwc
instead of
autoload func_name1 func_name2 ...
So we can have the following code in the zlogin template:
source ${ZIM_HOME}/login_init.zsh -q &!
instead of depending on the zimfw function there. This allows fixing the
issue were a non-interactive login shell currently yields:
command not found: zimfw.
To fully fix the issue, we also need a new zshenv template containing:
ZIM_HOME=${ZDOTDIR:-${HOME}}/.zim
Templates will be updated in the install script.
we want to be a universal Zsh framework, and send the message that
"less is less"! ;- )
Don't indent done and failed messages with an indicator, at the end of
actions, to differentiate them from intermediate okay and error messages.
and make code closer to the one in the manual pages (unless for our code
style). Why reinvent the wheel?
This last change makes the arguments to zrecompile shorter (passing
relative paths instead of full paths to each function file).
The number of arguments can be huge. There are 1143 of them currently
for /usr/local/Cellar/zsh/5.7.1/share/zsh/functions!
and have `zimfw clean` only do `clean-compiled` and `clean-dumpfile`.
Semantically, it makes much more sense because we will be then cleaning
temporary files that are later compiled/generated again, which is not
the case for a module (which we'll be uninstalling now instead of
cleaning).
Having to manually do `zimfw build` every time after you edit your
.zimrc file is boring. So by having the following in .zshrc before
sourcing init.zsh will do a quick build automatically when needed:
if [[ ~/.zim/init.zsh -ot ~/.zimrc ]]; then
source ~/.zim/zimfw.zsh init -q
fi
Once before installing/updating to prepare _zmodule_xargs, and once
after modules are updated, so functions and scripts can be found inside
them. Installation of Zim from scratch was failing because all modules
are empty at first.
to autoloads the functions and sources the scripts, instead of executing
zimfw during startup, and having it always figuring out what do to on
the fly.
This takes out the worry about zimfw interfering with the startup time,
and allows room to add more features to it. So, zstyle was replaced by a
custom zmodule function to define the modules, with the extra ability of
allowing users to set custom fpath paths, autoloaded functions and
sourced scripts per module.
because it was being processed as the beginning of a escape sequence.
Using `print -R` fixes that. Probably a good idea to use it when
printing other messages that contain externally-generated output.
Also moved the templates out of this repository, and into the
zimfw/install repo.
This is a second big change after introducing the plugin mechanism. This
makes installation and upgrading of Zim straightforward. Maybe the most
important aspect of having the script in a single file is not having to
manage "git repos inside git repos" (see #297), since the single file
exists by itself and is not version-controlled (with git).
I've implemented a two-stage sourcing of the file, so most of the file
is only sourced when needed (namely when calling `zimfw` with any action
other than `login-init`). The two-stage process is designed to avoid
compromising the startup speed, which is our top priority.
In an effort to help making the script maintainable, I've broken it into
small ERB templates. This also adds the ability to pre-process the Zsh
code with Ruby code. To build the script, use `make`.