I have a module I wrote here:
# Hello.jl
module Hello
function foo
return 1
end
end
and
# Main.jl
using Hello
foo()
When I run the Main module:
$ julia ./Main.jl
I get this error:
ERROR: LoadError: ArgumentError: Hello not found in path
in require at ./loading.jl:249
in include at ./boot.jl:261
in include_from_node1 at ./loading.jl:320
in process_options at ./client.jl:280
in _start at ./client.jl:378
while loading /Main.jl, in expression starting on line 1
There is a new answer to this question since the release of Julia v0.7 and v1.0 that is slightly different. I just had to do this so I figured I'd post my findings here.
As already explained in other solutions, it is necessary to include the relevant script which defines the module. However, since the custom module is not a package, it cannot be loaded as a package with the same using or import commands as could be done in older Julia versions.
So the Main.jl script would be written with a relative import like this:
include("./Hello.jl")
using .Hello
foo()
I found this explained simply in Stefan Karpinski's discourse comment on a similar question. As he describes, the situation can also get more elaborate when dealing with submodules. The documentation section on module paths is also a good reference.
using .name statement anymore. Executing include("./name") is enough to import the file and its functions into the current script.
include and using differ essentially. Much like C/C++, include brings the source code of the specified file into the calling file as if one had written the other file directly within the calling file. using on the other hand is not concerned with files (unless a file with the same name is found in the LOAD_PATH). It is used to import symbols of a specific module into the calling module. One may define multiple modules per file, and each module would need to call using or import on the sibling modules in order to access their functions.
EDIT: Updated code to apply post-v1.0. The other answers still have a fundamental problem: if you define a module and then include that module definition in multiple places, you will get unexpected hard-to-understand errors. @kiliantics' answer is correct as long as you only include the file once. If you have a module that you're using across multiple files, make that module into a package, use add MyModule, and then type using MyModule in as many places as you want, letting Pkg handle module identity for you.
Though 张实唯's answer is the most convenient, you should not use include outside the REPL (or just once per included file as a simple practice to organize large modules, as in the first example here). If you're writing a program file, go through the trouble of adding the appropriate directory to the LOAD_PATH. Remy gives a very good explanation of how to do so, but it's worth also explaining why you should do so in the first place. (Additionally from the docs: push!(LOAD_PATH, "/Path/To/My/Module/") but note your module and your file have to have the same name)
The problem is that anything you include will be defined right where you call include even if it is also defined elsewhere. Since the goal of modules is re-use, you'll probably eventually use MyModule in more than one file. If you call include in each file, then each will have its own definition of MyModule, and even though they are identical, these will be different definitions. That means any data defined in the MyModule (such as data types) will not be the same.
To see why this is a huge problem, consider these three files:
types.jl
module TypeModule
struct A end
export A
end
a_function.jl
include("types.jl")
module AFunctionModule
using ..TypeModule
function takes_a(a::A)
println("Took A!")
end
export takes_a
end
function_caller.jl
include("a_function.jl")
include("types.jl") # delete this line to make it work
using .TypeModule, .AFunctionModule
my_a = A()
takes_a(my_a)
If you run julia function_caller.jl you'll get MethodError: no method matching takes_a(::A). This is because the type A used in function_caller.jl is different from the one used in a_function.jl. In this simple case, you can actually "fix" the problem by reversing the order of the includes in function_caller.jl (or just by deleting include("types.jl") entirely from function_caller.jl! That's not good!). But what if you wanted another file b_function.jl that also used a type defined in TypeModule? You would have to do something very hacky. Or you could just modify your LOAD_PATH so the module is only defined once.
EDIT in response to xji: To distribute a module, you'd use Pkg (docs). I understood the premise of this question to be a custom, personal module. It's also fine for distribution if you know the relative path of the directory containing your module definition from each file that needs to load that module, e.g. if all your files are in the same folder then you'd just have push!(LOAD_PATH, @__DIR__).
Incidentally, if you really don't like the idea of modifying your load path (even if it's only within the scope of a single script...) you could symlink your module into a package directory (e.g. ~/.julia/v0.6/MyModule/MyModule.jl) and then Pkg.add(MyModule) and then import as normal. I find that to be a bit more trouble.
LOAD_PATH at all. You should not be doing this. Instead, keep all your modules at a single source directory level, and using using or import to load them. This is the correct way. If you have too many modules in a single directory then build packages instead of modules, which is what you should have been doing from the start anyway.This answer has been OUTDATED. Please see other excellent explanations.
===
You should include("./Hello.jl") before using Hello
using then? I thought this kw would include the module for me...
using is to introduce the names of a module into current scope, while the module itself won't be include() automaticlly (except for those in "LOAD_PATH")
module, you also need to export them.
includeing a module contained in a file is that the file contents are evaluated in the global scope. That's not always (if ever) desirable. See: docs.julialang.org/en/v1/manual/code-loadingThis answers was originally written for Julia 0.4.5. There is now an easier way of importing a local file (see @kiliantics answer). However, I will leave this up as my answer explains several other methods of loading files from other directories which may be of use still.
There have already been some short answers, but I wanted to provide a more complete answer if possible.
When you run using MyModule, Julia only searches for it in a list of directories known as your LOAD_PATH. If you type LOAD_PATH in the Julia REPL, you will get something like the following:
2-element Array{ByteString,1}:
"/Applications/Julia-0.4.5.app/Contents/Resources/julia/local/share/julia/site/v0.4"
"/Applications/Julia-0.4.5.app/Contents/Resources/julia/share/julia/site/v0.4"
These are the directories that Julia will search for modules to include when you type using Hello. In the example that you provided, since Hello was not in your LOAD_PATH, Julia was unable to find it.
If you wish to include a local module, you can specify its location relative to your current working directory.
julia> include("./src/Hello.jl")
Once the file has been included, you can then run using Hello as normal to get all of the same behavior. For one off scripts, this is probably the best solution. However, if you find yourself regular having to include() a certain set of directories, you can permanently add them to your LOAD_PATH.
Adding directories to LOAD_PATH
Manually adding directories to your LOAD_PATH can be a pain if you wish to regularly use particular modules that are stored outside of the Julia LOAD_PATH. In that case, you can append additional directories to the LOAD_PATH environment variable. Julia will then automatically search through these directories whenever you issue an import or using command.
One way to do this is to add the following to your .basrc, .profile, .zshrc.
export JULIA_LOAD_PATH="/path/to/module/storage/folder"
This will append that directory onto the standard directories that Julia will search. If you then run
julia> LOAD_PATH
It should return
3-element Array{ByteString,1}:
"/path/to/module/storage/folder"
"/Applications/Julia-0.4.5.app/Contents/Resources/julia/local/share/julia/site/v0.4"
"/Applications/Julia-0.4.5.app/Contents/Resources/julia/share/julia/site/v0.4"
You can now freely run using Hello and Julia will automatically find the module (as long as it is stored underneath /path/to/module/storage/folder.
For more information, take a look at this page from the Julia Docs.
julia myprogram.jl (just like python myprogram.py). However if you want to import a library into a Julia program, Julia needs to know where to look - just like GCC/Clang needs to know where to look for non-system C/C++ header files, or Python needs to know where to look for non-system or user-installed packages. There is no portable alternative for any language. If you don't want to modify your path, install the package with the Julia package manager.
. to make relative import after the include statementI have Julia Version 1.4.2 (2020-05-23). Just this using .Hello worked for me.
However, I had to compile the Hello module before just using .Hello. It makes sense for both the defined and using scripts of Hello is on the same file.
Instead, we can define Hello in one file and use it in a different file with include("./Hello.jl");using .Hello
If you want to access function foo when importing the module with "using" you need to add "export foo" in the header of the module.
LOAD_PATHI will not go into extensive details here, however you should not be modifying LOAD_PATH, except in a few exceptional circumstances.
Let's review the purpose of LOAD_PATH.
LOAD_PATH, (env JULIA_LOAD_PATH) like JULIA_DEPOT_PATH should be viewed as a way of telling the Julia runtime environment where packages are installed, either as user packages in /home/user or as system packages, in the system default Julia package path.LOAD_PATH. This is because, if you have used a sensible project structure, for every project you should have a single directory which contains all packages which are for exclusive use with that project.LOAD_PATH to bootstrap your project. This is the wrong way.If you build proper Julia packages, then you should be able to load those package using either import or using statements. These statements will sort out all the de-duplication of loading for you. (eg, if you have two such statements distributed throughout your code, you will not load two copies of the same package code into memory.)
As others have remarked, only use include as part of the package build process. In other words, think of include as being similar in purpose as CMakeLists.txt, if you know something about CMake.
To explain this point in more detail: When you write a package called MyPackage, you should have a file called MyPackage/src/MyPackage.jl. This is the root module for your package. It should be viewed as an equivalent of CMakeLists.txt, and it explains how to build the package. In other words, you put all your include statements into this file so that Julia knows how to "build" the package.
Now, you should have a set of packages in a single directory. If your current working directory is the same as that directory, you do not need to modify LOAD_PATH at all.
If the current working directory is not the same directory as your package directory then you will need to add a single entry to LOAD_PATH, to point Julia at the location where you packages are stored.
This applied to both loading code in the REPL and for writing executable scripts with an @main function.
