browserify for the server side.
node modules are great, and make it easy to reuse lots and lots of openly available modules. But node loads these modules synchronously, so if you have an application with many modules, just loading the code may take a significant time.
If you have a spinning disk, this may be very unpleasant, and even if you have a SSD it may still be slow enough to not feel "snappy"
on my computer (ThinkPad X220, with spinning disk)
time npm --version
2.13.2
real 0m2.384s
user 0m0.530s
sys 0m0.043s
# okay...
time browserify --version
6.2.0
real 0m3.014s
user 0m0.950s
sys 0m0.097s
# too slow...
time npmd --version
1.3.3
real 0m7.447s
user 0m1.240s
sys 0m0.157s
# wow too slow
time node sbot version # (scuttlebot)
6.1.0
real 0m9.103s
user 0m1.120s
sys 0m0.187s
# WTF?
The reason this is so slow, is because each require blocks, so if you have hundreds you have to wait for each one. lets bundle this into one file, so we only read one file, and then everything is in memory.
noderify scuttlebot/bin.js > b.js
time node b.js version
6.1.0
real 0m1.038s
user 0m0.553s
sys 0m0.033s
# that is MUCH better! 8.76 times faster!!!
noderify
-f mod # excludes mod from the bundle
-p prelude.js # specify a custom prelude file (see nodepack's implementation for reference)
--filter module_name1
# exclude this module from the bundle, use for native addons. (may be repeated)
--replace.module_name=new-module-name
# map one module to another.
since noderify
uses rc
it configuration may be set in a local .noderifyrc
file in json format.
{
"filter": ["module_name1", "module_name2"],
"replace": {
"sodium-native": "sodium-javascript"
}
}
noderify creates a javascript bundle with a different arrangement to browserify.
the first thing is a prelude
function which takes content and structure
of the bundle and assembles it together (injecting require
and module
variables, etc)
this function is self-evaluating so running the javascript bundle runs the program.
prelude(content, dependencies, entry)
content
is a content addressed mapping from the base64 encoded sha256 hash of each content file to that file (as a module closure)
in node.js modules, a given file may be used multiple times,
and might even have different names. Since the content is hashed,
if different versions of a single module occur, but have different names,
they are not duplicated.
content = {<hash(file)>: <file>, ..}
dependencies
represents the dependency tree. It is a mapping of
filename
to the content hash (so it can be looked up in the content
object)
and then that file's internal dependencies. the file's dependencies
map from the dependency expression within that file (it could be relative
like require('./lib/util.js')
or to an installed module like require('minimist')
by pointing to the actual filename that expression maps to, the noderify
prelude function does not require an internal model of the file system,
it can simply look up the mappings for each file.
dependencies = {
<filename>: [hash(file), { <relative_require>: <filename>, ...}]
}
entry
is just the file name in the dependency tree to call first.
noderify (like browserify) is essentially a static linker for javascript for certain applications, it would be interesting to have a dynamic linker. In particular, for something like depject a dynamic linker could combine multiple dependency trees into a single bundle.
MIT