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55 changes: 49 additions & 6 deletions DISTRIBUTING.md
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Expand Up @@ -10,7 +10,7 @@ order to create a portable, working Julia distribution, we have
separated most of the notes by OS.

Note that while the code for Julia is
[MIT-licensed](https://github.com/JuliaLang/julia/blob/master/LICENSE.md),
[MIT-licensed, with a few exceptions](https://github.com/JuliaLang/julia/blob/master/LICENSE.md),
the distribution created by the techniques described herein will be
GPL licensed, as various dependent libraries such as `FFTW`, `Rmath`,
`SuiteSparse`, and `git` are GPL licensed. We do hope to have a
Expand All @@ -26,7 +26,7 @@ pregenerate the `base/version_git.jl` file with:

make -C base version_git.jl.phony

Juila has lots of build dependencies where we use patched versions that has not
Julia has lots of build dependencies where we use patched versions that has not
yet been included by the popular package managers. These dependencies will usually
be automatically downloaded when you build, but if you want to be able to build
Julia on a computer without internet access you should create a source-dist archive
Expand All @@ -43,6 +43,25 @@ to create a Make.user file containing:

override TAGGED_RELEASE_BANNER = "my-package-repository build"

Target Architectures
--------------------

By default, Julia optimizes its system image to the native architecture of
the build machine. This is usually not what you want when building packages,
as it will make Julia fail at startup on any machine with incompatible CPUs
(in particular older ones with more restricted instruction sets).

We therefore recommend that you pass the `MARCH` variable when calling `make`,
setting it to the baseline target you intend to support. This will determine
the target CPU for both the Julia executable and libraries, and the system
image (the latter can also be set using `JULIA_CPU_TARGET`). Typically useful
values for x86 CPUs are `x86-64` and `core2` (for 64-bit builds) and
`pentium4` (for 32-bit builds). Unfortunately, CPUs older than Pentium 4
are currently not supported (see
[this issue](https://github.com/JuliaLang/julia/issues/7185)).

The full list of CPU targets supported by LLVM can be obtained by running
`llc -mattr=help`.

Linux
-----
Expand All @@ -52,10 +71,17 @@ installation. If you wish to create a distribution package such as a
`.deb`, or `.rpm`, some extra effort is needed. See the
[julia-debian](https://github.com/staticfloat/julia-debian) repository
for an example of what metadata is needed for creating `.deb` packages
for Debian and Ubuntu-based systems. Although we have not yet experimented
for Debian and Ubuntu-based systems. See the
[Fedora package](https://admin.fedoraproject.org/pkgdb/package/julia/)
for RPM-based distributions. Although we have not yet experimented
with it, [Alien](https://wiki.debian.org/Alien) could be used to
generate Julia packages for various Linux distributions.

Julia supports overriding standard installation directories via `prefix`
and other environment variables you can pass when calling `make` and
`make install`. See Make.inc for their list. `DESTDIR` can also be used
to force the installation into a temporary directory.

By default, Julia loads `$prefix/etc/julia/juliarc.jl` as an
installation-wide initialization file. This file can be used by
distribution managers to provide paths to various binaries such as a
Expand Down Expand Up @@ -102,8 +128,8 @@ Notes on BLAS and LAPACK
Julia builds OpenBLAS by default, which includes the BLAS and LAPACK
libraries. On 32-bit architectures, Julia builds OpenBLAS to use
32-bit integers, while on 64-bit architectuers, Julia builds OpenBLAS
to use 64-bit integers. It is essential that all Julia functions that
call BLAS and LAPACK API routines use integers of the correct width.
to use 64-bit integers (ILP64). It is essential that all Julia functions
that call BLAS and LAPACK API routines use integers of the correct width.

Most BLAS and LAPACK distributions provided on linux distributions,
and even commercial implementations ship libraries that use 32-bit
Expand All @@ -120,6 +146,22 @@ all libraries that depend on BLAS and LAPACK. The Julia build process
will build all these libraries correctly, but when overriding defaults
and using system provided libraries, this consistency must be ensured.

Also note that Linux distributions sometimes ship several versions of
OpenBLAS, some of which enable multithreading, and others only working
in a serial fashion. For example, in Fedora, `libopenblasp.so` is threaded,
but `libopenblas.so` is not. We recommend using the former for optimal
performance. To choose an OpenBLAS library whose name is different from
the default `libopenblas.so`, pass `LIBBLAS=-l$(YOURBLAS)` and
`LIBBLASNAME=lib$(YOURBLAS)` to `make`, replacing `$(YOURBLAS)` with the
name of your library. You can also add `.so.0` to the name of the library
if you want your package to work without requiring the unversioned `.so`
symlink.

Finally, OpenBLAS includes its own optimized version of LAPACK. If you
set `USE_SYSTEM_BLAS=1` and `USE_SYSTEM_LAPACK=1`, you should also set
`LIBLAPACK=-l$(YOURBLAS)` and `LIBLAPACKNAME=lib$(YOURBLAS)`. Else, the
reference LAPACK will be used and performance will typically be much lower.

Notes on Rmath
==============

Expand All @@ -136,7 +178,8 @@ used.
Compilation scripts
===================

The [julia-nightly-packaging](https://github.com/staticfloat/julia-nightly-packaging) repository contains multiple example scripts to ease the creation of
The [julia-nightly-packaging](https://github.com/staticfloat/julia-nightly-packaging)
repository contains multiple example scripts to ease the creation of
binary packages. It also includes miscellaneous tools to do things such as
fetching the last good commit that passed the
[Travis](https://travis-ci.org/JuliaLang/julia/builds) tests.
Expand Down
2 changes: 1 addition & 1 deletion Make.inc
Original file line number Diff line number Diff line change
Expand Up @@ -294,7 +294,7 @@ CXX = icpc
JCFLAGS = -std=gnu99 -pipe $(fPIC) -fno-strict-aliasing -D_FILE_OFFSET_BITS=64 -fp-model precise -fp-model except -no-ftz
JCPPFLAGS =
JCXXFLAGS = -pipe $(fPIC) -fno-rtti
DEBUGFLAGS = -O0 -ggdb3 -DJL_DEBUG_BUILD -fstack-protector-all
DEBUGFLAGS = -O0 -g -DJL_DEBUG_BUILD -fstack-protector-all
SHIPFLAGS = -O3 -g -falign-functions
endif

Expand Down
7 changes: 7 additions & 0 deletions Makefile
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Expand Up @@ -256,6 +256,13 @@ endif
-rm -f $(DESTDIR)$(datarootdir)/julia/doc/juliadoc/.gitignore
# Copy in beautiful new man page!
$(INSTALL_F) $(build_datarootdir)/man/man1/julia.1 $(DESTDIR)$(datarootdir)/man/man1/
# Copy icon and .desktop file
mkdir -p $(DESTDIR)$(datarootdir)/icons/hicolor/scalable/apps/
$(INSTALL_F) contrib/julia.svg $(DESTDIR)$(datarootdir)/icons/hicolor/scalable/apps/
-touch --no-create $(DESTDIR)$(datarootdir)/icons/hicolor/
-gtk-update-icon-cache $(DESTDIR)$(datarootdir)/icons/hicolor/
mkdir -p $(DESTDIR)$(datarootdir)/applications/
$(INSTALL_F) contrib/julia.desktop $(DESTDIR)$(datarootdir)/applications/

# Update RPATH entries of Julia if $(private_libdir_rel) != $(build_private_libdir_rel)
ifneq ($(private_libdir_rel),$(build_private_libdir_rel))
Expand Down
80 changes: 71 additions & 9 deletions README.md
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Expand Up @@ -76,7 +76,7 @@ Once it is built, you can run the `julia` executable using its full path in the

- add a soft link to the `julia` executable in the `julia` directory to `/usr/local/bin` (or any suitable directory already in your path), or

- add the `julia` directory to your executable path for this shell session (in bash: `export PATH="$(pwd):$PATH"` ; in csh or tcsh:
- add the `julia` directory to your executable path for this shell session (in `bash`: `export PATH="$(pwd):$PATH"` ; in `csh` or `tcsh`:
`set path= ( $path $cwd )` ), or

- add the `julia` directory to your executable path permanently (e.g. in `.bash_profile`), or
Expand All @@ -91,7 +91,7 @@ If everything works correctly, you will see a Julia banner and an interactive pr

Your first test of Julia should be to determine whether your
build is working properly. From the UNIX/Windows command prompt inside
the julia source directory, type `make testall`. You should see output
the `julia` source directory, type `make testall`. You should see output
that lists a series of tests being run; if they complete without
error, you should be in good shape to start using Julia.

Expand All @@ -101,6 +101,57 @@ If you are building a Julia package for distribution on Linux, OS X,
or Windows, take a look at the detailed notes in
[DISTRIBUTING.md](https://github.com/JuliaLang/julia/blob/master/DISTRIBUTING.md).

### Updating an existing source tree

If you have previously downloaded `julia` using `git clone`, you can update the
existing source tree using `git pull` rather than starting anew:

cd julia
git pull && make

Assuming that you had made no changes to the source tree that will conflict
with upstream updates, these commands will trigger a build to update to the
latest version.

#### General troubleshooting

1. Over time, the base library may accumulate enough changes such that the
bootstrapping process in building the system image will fail. If this
happens, the build may fail with an error like

```sh
*** This error is usually fixed by running 'make clean'. If the error persists, try 'make cleanall' ***
```

As described, running `make clean && make` is usually sufficient.
Occasionally, the stronger cleanup done by `make cleanall` is needed.

2. New versions of external dependencies may be introduced which may
occasionally cause conflicts with existing builds of older versions.

a. Special `make` targets exist to help wipe the existing build of a
dependency. For example, `make -C deps clean-llvm` will clean out the
existing build of `llvm` so that `llvm` will be rebuilt from the
downloaded source distribution the next time `make` is called.
`make -C deps distclean-llvm` is a stronger wipe which will also delete
the downloaded source distribution, ensuring that a fresh copy of the
source distribution will be downloaded and that any new patches will be
applied the next time `make` is called.

b. To delete existing binaries of `julia` and all its dependencies,
delete the `./usr` directory _in the source tree_.

3. In extreme cases, you may wish to reset the source tree to a pristine state.
The following git commands may be helpful:

```sh
git reset --hard #Forcibly remove any changes to any files under version control
git clean -x -f -d #Forcibly remove any file or directory not under version control
```

_To avoid losing work, make sure you know what these commands do before you
run them. `git` will not be able to undo these changes!_

<a name="Uninstalling-Julia"/>
## Uninstalling Julia

Expand All @@ -122,7 +173,7 @@ Julia does not install anything outside the directory it was cloned into. Julia

Julia can be built for a non-generic architecture by configuring the `ARCH` Makefile variable. See the appropriate section of `Make.inc` for additional customization options, such as `MARCH` and `JULIA_CPU_TARGET`.

For example, to build for i486, set `ARCH=i486` and install the necessary system libraries for linking. On Ubuntu, these may include lib32gfortran3 (also manually call `ln -s /usr/lib32/libgfortran3.so.0 /usr/lib32/libgfortran3.so`) and lib32gcc1, lib32stdc++6, among others.
For example, to build for Pentium 4, set `MARCH=pentium4` and install the necessary system libraries for linking. On Ubuntu, these may include lib32gfortran3 (also manually call `ln -s /usr/lib32/libgfortran3.so.0 /usr/lib32/libgfortran3.so`) and lib32gcc1, lib32stdc++6, among others.

You can also set `MARCH=native` for a maximum-performance build customized for the current machine CPU.

Expand Down Expand Up @@ -265,20 +316,23 @@ SuiteSparse is a special case, since it is typically only installed as a static
### Intel compilers and Math Kernel Libraries
To use the Intel [MKL] BLAS and LAPACK libraries, make sure that MKL version 10.3.6 or higher is installed. For a 64-bit architecture, the MKL environment should be set up as follows:
To use the Intel [MKL] BLAS and LAPACK libraries, make sure that MKL version 10.3.6 or higher is installed.
For a 64-bit architecture, the environment should be set up as follows:
# bash
source /path/to/mkl/bin/mklvars.sh intel64 ilp64
export MKL_INTERFACE_LAYER=ILP64
Julia can be built with the Intel compilers and MKL using the following flags.
It is recommended that Intel compilers be used to build julia when using MKL.
Add the following to the `Make.user` file:
USEICC = 1
USEIFC = 1
USE_INTEL_MKL = 1
USE_INTEL_MKL_FFT = 1
USE_INTEL_LIBM = 1
It is highly recommended to use a fresh clone of the Julia repository. Also, it is recommended that Intel compilers be used to build julia when using MKL.
It is highly recommended to start with a fresh clone of the Julia repository.
<a name="Source-Code-Organization"/>
## Source Code Organization
Expand Down Expand Up @@ -332,6 +386,14 @@ The following distributions include julia, but the versions may be out of date d
<a name="Editor-Terminal-Setup"/>
## Editor and Terminal Setup
Currently, Julia editing mode support is available for Emacs, Vim, Textmate, Sublime Text, Notepad++, and Kate, in `contrib/`. There is early support for IDEs such as [Lighttable](https://github.com/one-more-minute/Jewel), [QTCreator based JuliaStudio](http://forio.com/labs/julia-studio/), and [Eclipse (LiClipse)](http://brainwy.github.io/liclipse/). A notebook interface is available through [IJulia](https://github.com/JuliaLang/IJulia.jl), which adds Julia support to the iPython notebook.

In the terminal, Julia makes great use of both control-key and meta-key bindings. To make the meta-key bindings more accessible, many terminal emulator programs (e.g., `Terminal`, `iTerm`, `xterm`, etc) allow you to use the alt or option key as meta. See the section in the manual on [interacting with Julia](http://docs.julialang.org/en/latest/manual/interacting-with-julia/) for more details.
Currently, Julia editing mode support is available for Emacs, Vim, Textmate,
Sublime Text, Notepad++, and Kate, in `contrib/`. There is early support for
IDEs such as [Light Table](https://github.com/one-more-minute/Julia-LT),
[QTCreator based Julia Studio](http://forio.com/labs/julia-studio), and
[Eclipse (LiClipse)](http://brainwy.github.io/liclipse/). A notebook interface
is available through [IJulia](https://github.com/JuliaLang/IJulia.jl), which
adds Julia support to [IPython](http://ipython.org). The
[Sublime-IJulia](https://github.com/quinnj/Sublime-IJulia) plugin enables
interaction between IJulia and Sublime Text.
In the terminal, Julia makes great use of both control-key and meta-key bindings. To make the meta-key bindings more accessible, many terminal emulator programs (e.g., `Terminal`, `iTerm`, `xterm`, etc.) allow you to use the alt or option key as meta. See the section in the manual on [interacting with Julia](http://docs.julialang.org/en/latest/manual/interacting-with-julia/) for more details.
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