If you're a typical developer, you can install the easy way, using instructions at http://gcc.gnu.org/wiki/InstallingGCC or your system package manager such as:
apt install gcc # for Debian, Ubuntu, etc.
yum install gcc # for RedHat, CentOS, etc.
brew install gcc # for Mac OS X
GCC says the answer here is "the hard way" because it builds everything piece by piece, and does not use shared libraries.
Get the GCC infrastructure:
ftp://gcc.gnu.org/pub/gcc/infrastructure/
Put downloads in a temp directory (you can use whatever directory you want).
/opt/downloads
Build the infrastructure in a temp directory that is different than the downloads directory or its subdirectories:
/tmp/gcc
Configure the infrastructure using static libraries like this:
./configure --disable-shared --enable-static --prefix=/tmp/gcc
The --disable-shared flag may be worth a closer look depending on your needs. I use --disable-shared because I am building static code only, and I want to make sure that I don't build any shared code. My need is to move the resulting GCC around my drives easily, so I want all static code, and I do not want any shared code. If you prefer shared code, omit the --disable-shared flag.
When you run any of the commands in this answer, be sure to update the commands to use the current GCC version number that matches your needs. The commands in this answer are for GCC 4.6.2.
Note that the GCC documentation says: "While any sufficiently new version of required tools usually work, library requirements are generally stricter. Newer versions may work in some cases, but it's safer to use the exact versions documented."
GMP is the GNU Multiple Precision Arithmetic Library.
wget ftp://gcc.gnu.org/pub/gcc/infrastructure/gmp-4.3.2.tar.bz2
bunzip2 gmp-4.3.2.tar.bz2
tar xvf gmp-4.3.2.tar
cd gmp-4.3.2
./configure --disable-shared --enable-static --prefix=/tmp/gcc
make && make check && make install
MPFR is the GNU Multiple-precision floating-point rounding library. It depends on GMP.
wget ftp://gcc.gnu.org/pub/gcc/infrastructure/mpfr-2.4.2.tar.bz2
bunzip2 mpfr-2.4.2.tar.bz2
tar xvf mpfr-2.4.2.tar
cd mpfr-2.4.2
./configure --disable-shared --enable-static --prefix=/tmp/gcc --with-gmp=/tmp/gcc
make && make check && make install
MPC is the GNU Multiple-precision C library. It depends on GMP and MPFR.
wget ftp://gcc.gnu.org/pub/gcc/infrastructure/mpc-0.8.1.tar.gz
tar zxvf mpc-0.8.1.tar.gz
cd mpc-0.8.1
./configure --disable-shared --enable-static --prefix=/tmp/gcc --with-gmp=/tmp/gcc --with-mpfr=/tmp/gcc
make && make check && make install
ELF stands for Executable and Linkable Format. This library provides architecture-independent size and endian support.
wget http://www.mr511.de/software/libelf-0.8.13.tar.gz
tar zxvf libelf-0.8.13.tar.gz
cd libelf-0.8.13
./configure --disable-shared --enable-static --prefix=/tmp/gcc
make && make check && make install
GCC is the GNU Compiler Collection. It depends on GMP, MPFR, MPC, and ELF.
wget http://www.netgull.com/gcc/releases/gcc-4.6.2/gcc-4.6.2.tar.gz
tar zxvf gcc-4.6.2.tar.gz
Build gcc in a scratch directory on the same mount point. (Building it within /tmp would trigger cross compile host issues)
mkdir -p /opt/downloads/gcc-4.6.2-scratch
cd /opt/downloads/gcc-4.6.2-scratch
The configure command and its flags must be all on one command line (this post shows them on separate lines just because of web page width).
Note: We use the full path to configure and do not set library path environment variables. We choose to disable bootstrap and disable shared libraries because we don't want them (typical users may want both), and to use posix threads and to flags that are defaults because we want them (typical users may want to use other threads or skip default flags). YMMV and read about the flags here
/opt/downloads/gcc-4.6.2/configure
--disable-shared
--disable-bootstrap
--disable-libstdcxx-pch
--enable-languages=all
--enable-libgomp
--enable-lto
--enable-threads=posix
--enable-tls
--with-gmp=/tmp/gcc
--with-mpfr=/tmp/gcc
--with-mpc=/tmp/gcc
--with-libelf=/tmp/gcc
--with-fpmath=sse
make && make install
This page is great for GCC installation info, how to build it, various flags, and more:
http://www.acsu.buffalo.edu/~charngda/cc_build.html
The ppl libraries can be used for memory optimizations: see bugseng.com/products/ppl/Download (Thanks Paul in comments)
You could run ./contrib/download_prerequisites from the gcc source directory. (Thanks to N7P on reddit)
The accepted answer makes it far more complicated than necessary and is not correct for all versions. Building GCC with --disable-shared
is usually a very bad idea. See http://gcc.gnu.org/wiki/InstallingGCC for an easier approach.
The entire process should be no more difficult than this (replacing 4.6.2 with the version you want to build):
tar xzf gcc-4.6.2.tar.gz
cd gcc-4.6.2
./contrib/download_prerequisites
cd ..
mkdir objdir
cd objdir
$PWD/../gcc-4.6.2/configure --prefix=$HOME/GCC-4.6.2
make
make install
(But please read the link above anyway, it contains useful information.)
Apparently some people on Ubuntu have tons of crap set in their environment which interferes with the GCC build process, and they need to remove that first:
unset LIBRARY_PATH CPATH C_INCLUDE_PATH PKG_CONFIG_PATH CPLUS_INCLUDE_PATH INCLUDE LD_LIBRARY_PATH
I work on a cluster. Only the master node is connected to the Internet. The software on nodes is outdated and generally not maintained. I don't have root access. I have two options:
I chose the second and built gcc, g++ and gfortran.
I built everything in
PREFIX=$HOME/cmp/soft/sft
and for make
I used
THREADS=8
Below, gcc is built with
One can get the latest gcc from here: ftp://gcc.gnu.org/pub/gcc/releases
Dependencies are found here: ftp://gcc.gnu.org/pub/gcc/infrastructure
I get dependencies with the following script:
#!/bin/sh
# ===========
## variables:
GMP=gmp-4.3.2.tar.bz2
MPFR=mpfr-2.4.2.tar.bz2
MPC=mpc-0.8.1.tar.gz
ISL=isl-0.12.2.tar.bz2
CLOOG=cloog-0.18.1.tar.gz
MIRROR=ftp://gcc.gnu.org/pub/gcc/infrastructure
# ===========
## functions:
extract() {
if [ -f $1 ]; then
case $1 in
*.tar.bz2) tar xvjf $1 ;;
*.tar.gz) tar xvzf $1 ;;
*.bz2) bunzip2 $1 ;;
*.rar) unrar x $1 ;;
*.gz) gunzip $1 ;;
*.tar) tar xvf $1 ;;
*.tbz2) tar xvjf $1 ;;
*.tgz) tar xvzf $1 ;;
*.zip) unzip $1 ;;
*.Z) uncompress $1 ;;
*.7z) 7z x $1 ;;
*) echo "I don't know how to extract '$1'..." ;;
esac
else
echo "'$1' is not a valid file!"
fi
}
# ======================
## download and extract:
wget $MIRROR/$GMP
extract $GMP
wget $MIRROR/$MPFR
extract $MPFR
wget $MIRROR/$MPC
extract $MPC
wget $MIRROR/$ISL
extract $ISL
wget $MIRROR/$CLOOG
extract $CLOOG
The following bash function is used below:
mkdircd () { mkdir -p "$@" && eval cd "\"\$$#\""; }
Each of the commands below is to be issued in the dir of the lib just downloaded.
mkdircd build
../configure --disable-shared --enable-static --prefix=$PREFIX/gmp
make -j $THREADS && make check && make install
mkdircd build
../configure --with-gmp=$PREFIX/gmp --disable-shared --enable-static --prefix=$PREFIX/mpfr
make -j $THREADS && make install
mkdircd build
../configure --with-gmp=$PREFIX/gmp --with-mpfr=$PREFIX/mpfr --disable-shared --enable-static --prefix=$PREFIX/mpc
make -j $THREADS && make install
mkdircd build
../configure --with-gmp-prefix=$PREFIX/gmp --disable-shared --enable-static --prefix=$PREFIX/isl
make -j $THREADS && make install
mkdircd build
../configure --with-gmp-prefix=$PREFIX/gmp --with-isl-prefix=$PREFIX/isl --disable-shared --enable-static --prefix=$PREFIX/cloog
make -j $THREADS && make install
mkdircd build
export LD_LIBRARY_PATH=$PREFIX/gmp/lib:$PREFIX/mpfr/lib:$PREFIX/mpc/lib:$PREFIX/isl/lib:$PREFIX/cloog/lib
export C_INCLUDE_PATH=$PREFIX/gmp/include:$PREFIX/mpfr/include:$PREFIX/mpc/include:$PREFIX/isl/include:$PREFIX/cloog/include
export CPLUS_INCLUDE_PATH=$PREFIX/gmp/include:$PREFIX/mpfr/include:$PREFIX/mpc/include:$PREFIX/isl/include:$PREFIX/cloog/include
../configure --with-gmp=$PREFIX/gmp --with-mpfr=$PREFIX/mpfr --with-mpc=$PREFIX/mpc --with-isl=$PREFIX/isl --with-cloog=$PREFIX/cloog --disable-shared --enable-static --disable-multilib --prefix=$PREFIX/gcc --enable-languages=c,c++,fortran
make -j $THREADS bootstrap && make install
Used what Jonathan above has mentioned except that I had to download gmp and mpfr manually and create soft link (gcc 4.4.2 distribution probably does not have "download_prerequisites")
cd src/gcc-4.4.2
ln -s ~/linux64/gmp-4.2.1 gmp
ln -s ~/linux64/mpfr-2.3.0 mpfr
Btw, using "-with-gmp" and "with-mpfr" with "./configure" gave me "configure: error: cannot compute suffix of object files: cannot compile". Hence I downloaded the srcs of gmp and mpfr and then created the soft link to it from within gcc src top leve dir
After trying to install GCC dependencies including GMP, MPFR and MPC. I ran into additional install requirements, Errors and missing files; such as gmp.h header file required by MPFR to install. There are quit a number of issues you will run into in the process. However, There is an Easier way to Build and Install GCC-X.0.0 or later version with an automatic linking.
OPTION ONE.
To save the trouble of Building with make, make install and Linking the dynamic libraries, Simply:
Download your GCC-X.0.0 -version (with latest version from: https://gcc.gnu.org/)
Extract the gcc-X-000.tar.gz files to a location /somepath/.
Once you have Extracted .tar.gz file, run ./contrib/download_prerequisites script which is located on /somepath/ or the source directory.
This script will download support libraries including: GMP, MPFR and MPC and will create a Symlinks for you, that will BUILD all gcc dependencies automatically as part of gcc Installation process.
No need to Build and Link support libraries that were downloaded to /somepath/ by issuing Make, Make Install or running ./configure file or adding links such as --with-gmp=/gmp_path/.../....., --with-mpfr=/mpfr_path/.../... because this was done when you ran script that created symlinks.
OPTION TWO.
CONFIGURATION:
This is the GCC config Process, with gcc-X-000.tar.gz
Issue:
tar -xvf gcc-X-000.tar.gz
cd gcc-X-000
./contrib/download_prerequisites
cd ..
mkdir objdir
/../gcc-X-000/configure --prefix=$HOME/gcc-X-000 --enable-languages=c,c++,fortran,go --disable-multilib
make -j 2
make install
NB:
--enable-languages such as c++ or c.
--disable-multilib; disable multilib based on your system and OS, you will be prompted about multilib to proceed.
Make will take long time to complete. However, you can issue the option -j #no_pro. This will run Make concurrently in parallel based on the number of processors on your PC or Mac.
For detailed information on how to execute this process you can visit: https://gcc.gnu.org/wiki/InstallingGCC.
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