将 Ubuntu 12.04 上的 GCC 4.6.3 升级到 4.8.2 并切换到新的编译器
Upgrade GCC 4.6.3 on Ubuntu 12.04 to 4.8.2 with swtiching to new compiler
我想从 g++ 4.6.3 升级到 4.8,然后使用新的编译器。
注意:下面的 make 失败了!
../.././libcc1/findcomp.cc:20:20: fatal error: config.h: No such file or directory
compilation terminated.
来自this的回答:
sudo apt-get install libmpfr-dev libgmp3-dev libmpc-dev flex bison
svn checkout svn://gcc.gnu.org/svn/gcc/trunk
cd trunk
./configure --prefix=/opt/gcc-4.8.2/usr/local/gcc-4.8.2 --enable-languages=c,c++
make
make install
编译器将放在 /opt/ 目录中,因此您必须从那里使用它。
我的问题是(如果您认为以上步骤有误,请指出):
- 现在有更简单的方法吗?
- 如何执行最后一步?我的意思是,我想我可以做到 /opt/g++-4.8 或
一些东西,但我必须做些什么才能让我的系统看到
当我用 g++ 编译时编译器?
相关question.
我只是展示一个想法,如何通过在 shell
中切换它们来适应不同的编译器
我根据我的安装给你我的解决方案,前提是你已经知道你最新的g++和以前的g++s在哪里。我想这样做:
#I create some color for $PS1 use
black="\[3[1;30m\]"
red="\[3[1;31m\]"
green="\[3[1;32m\]"
yellow="\[3[1;33m\]"
blue="\[3[1;34m\]"
purple="\[3[1;35m\]"
cyan="\[3[1;36m\]"
white="\[3[1;37m\]"
coloroff="\[3[0m\]"
highlight="\[3[1m\]"
underline="\[3[4m\]"
twinkle="\[3[5m\]"
reverse="\[3[7m\]"
unvisible="\[3[8m\]"
#you can add some default path, I just list my daily use path for you, you need modify them
DEFAULT_PATH="/usr/lib/lightdm/lightdm:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:$HOME/bin"
#default setting, I usually use gcc, so you need modify to g++
function default(){
export PATH="$DEFAULT_PATH"
PS1="\[3]2;\u@\h:\w\a\]$red[GNU-GCC]$blue\u@\h:$coloroff\w\n-> "
gcc_ver=`gcc --version | head -n 1`
}
#you can add more compiler, even some dedicate old version of g++, just copy my function and modify the bin path
#arm-linux-gcc setting, I also use cross compiler
function armlinuxgcc(){
export PATH="$DEFAULT_PATH"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM-Linux-GCC]$blue\u@\h:$coloroff\w\n-> "
arm_linux_gcc_ver=`arm-linux-gnueabi-gcc-4.7 --version | head -n 1`
}
#I also use dedicate compiler provide by arm
function RVCT22B616(){
#for RVCT2.2
export PATH="$DEFAULT_PATH:$HOME/Software/RVS22-BN-00000-r2p2-01rel0/rvds_2_2_1_dist241_linux/RVCT/Programs/2.2/503/linux-pentium"
export RVCT22INC="$HOME/Software/RVS22-BN-00000-r2p2-01rel0/rvds_2_2_1_dist241_linux/RVCT/Data/2.2/503/include/unix"
export RVCT22LIB="$HOME/Software/RVS22-BN-00000-r2p2-01rel0/rvds_2_2_1_dist241_linux/RVCT/Data/2.2/503/lib"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM2.2B616]$blue\u@\h:$coloroff\w\n-> "
armcc_ver=`armcc --vsn | head -n 1`
#end of RVCT2.2
}
function RVCT31B1055(){
#for RVCT3.1
export PATH="$DEFAULT_PATH:$HOME/Software/RVP31-PA-00001-r3p1-09rel0/linux-pentium"
export RVCT31INC="$HOME/Software/RVP31-PA-00001-r3p1-09rel0/include/unix"
export RVCT31LIB="$HOME/Software/RVP31-PA-00001-r3p1-09rel0/lib"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM3.1B1055]$blue\u@\h:$coloroff\w\n-> "
armcc_ver=`armcc --vsn | head -n 1`
#end of RVCT3.1
}
function RVCT41B894(){
#for RVCT4.1
export PATH="$DEFAULT_PATH:$HOME/Software/RVP41-PA-00001-r4p1-05rel0/standard-linux-pentium-rel/linux-pentium"
export ARMCC41INC="$HOME/Software/RVP41-PA-00001-r4p1-05rel0/standard-linux-pentium-rel/include/unix"
export ARMCC41LIB="$HOME/Software/RVP41-PA-00001-r4p1-05rel0/standard-linux-pentium-rel/lib"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM4.1B894]$blue\u@\h:$coloroff\w\n-> "
armcc_ver=`armcc --vsn | head -n 1`
#end of RVCT4.1
}
function DS5B94(){
#for DS-5
export PATH="$DEFAULT_PATH:/usr/local/DS-5/bin/"
export ARMCC5INC="/usr/local/DS-5/include/"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM5.0B94]$blue\u@\h:$coloroff\w\n-> "
armcc_ver=`armcc --vsn | head -n 1`
#end of DS-5
}
然后,让用户可以选择这些编译器:
default
function sel_env(){
echo "**************************"
echo "* Switch Compile env:"
echo "* 1. ARMCC 2.2 Build[616]"
echo "* 2. ARMCC 3.1 Build[1055]"
echo "* 3. ARMCC 4.1 Build[894]"
echo "* 4. ARMCC 5.0 Build[94]"
echo "* 5. ARM-Linux-GUNEABI-GCC"
echo "* 6. GCC"
echo "**************************"
read choose;
#select choose in "1" "2" "3"; do
case $choose in
1) RVCT22B616
echo "CC -> $armcc_ver"
echo "Compile Firmware and Boot Core";;
2) RVCT31B1055
echo "CC -> $armcc_ver"
echo "Compile Boot Core";;
3) RVCT41B894
echo "CC -> $armcc_ver"
echo "Compile Firmware";;
4) DS5B94
echo "CC -> $armcc_ver"
echo "Compile Firmware";;
5) armlinuxgcc
echo "CC -> $arm_linux_gcc_ver"
echo "Corss compile";;
*) default
echo "CC -> $gcc_ver";;
esac
#done
}
现在,在你打开你的终端后,首先source这个env文件,或者在你的$HOME的.bashrc文件中添加这个操作,然后输入sel_env .如果你只是 source 这个文件,我会告诉你结果:
how@ubuntu-sw:~/Work/.env$ ls
work.env
how@ubuntu-sw:~/Work/.env$ source work.env
[GNU-GCC]how@ubuntu-sw:~/Work/.env
-> ls
work.env
[GNU-GCC]how@ubuntu-sw:~/Work/.env
-> sel_env
**************************
* Switch Compile env:
* 1. ARMCC 2.2 Build[616]
* 2. ARMCC 3.1 Build[1055]
* 3. ARMCC 4.1 Build[894]
* 4. ARMCC 5.0 Build[94]
* 5. ARM-Linux-GUNEABI-GCC
* 6. GCC
**************************
然后如果我选择 1 例如:
[GNU-GCC]how@ubuntu-sw:~/Work/.env
-> sel_env
**************************
* Switch Compile env:
* 1. ARMCC 2.2 Build[616]
* 2. ARMCC 3.1 Build[1055]
* 3. ARMCC 4.1 Build[894]
* 4. ARMCC 5.0 Build[94]
* 5. ARM-Linux-GUNEABI-GCC
* 6. GCC
**************************
1
ARM/Thumb C/C++ Compiler, RVCT2.2 [Build 616]
CC ->
Compile Firmware and Boot Core
[ARM2.2B616]how@ubuntu-sw:~/Work/.env
->
希望这个选项可以在您使用多个编译器时对您有所帮助。如果你觉得这样太过分了,我建议你也可以使用符号link,因为你安装你的编译器到/opt,通常这个/opt文件夹应该在你的系统中定义小路。但是你需要 运行 就像 g++_withyour_version 一样,然后你可以创建一个符号 link,ln -s /opt/gcc-4.8.2 /opt/gcc,然后,你只能为版本 4.8.2 输入 gcc
我想从 g++ 4.6.3 升级到 4.8,然后使用新的编译器。
注意:下面的 make 失败了!
../.././libcc1/findcomp.cc:20:20: fatal error: config.h: No such file or directory
compilation terminated.
来自this的回答:
sudo apt-get install libmpfr-dev libgmp3-dev libmpc-dev flex bison
svn checkout svn://gcc.gnu.org/svn/gcc/trunk
cd trunk
./configure --prefix=/opt/gcc-4.8.2/usr/local/gcc-4.8.2 --enable-languages=c,c++
make
make install
编译器将放在 /opt/ 目录中,因此您必须从那里使用它。
我的问题是(如果您认为以上步骤有误,请指出):
- 现在有更简单的方法吗?
- 如何执行最后一步?我的意思是,我想我可以做到 /opt/g++-4.8 或 一些东西,但我必须做些什么才能让我的系统看到 当我用 g++ 编译时编译器?
相关question.
我只是展示一个想法,如何通过在 shell
中切换它们来适应不同的编译器我根据我的安装给你我的解决方案,前提是你已经知道你最新的g++和以前的g++s在哪里。我想这样做:
#I create some color for $PS1 use
black="\[3[1;30m\]"
red="\[3[1;31m\]"
green="\[3[1;32m\]"
yellow="\[3[1;33m\]"
blue="\[3[1;34m\]"
purple="\[3[1;35m\]"
cyan="\[3[1;36m\]"
white="\[3[1;37m\]"
coloroff="\[3[0m\]"
highlight="\[3[1m\]"
underline="\[3[4m\]"
twinkle="\[3[5m\]"
reverse="\[3[7m\]"
unvisible="\[3[8m\]"
#you can add some default path, I just list my daily use path for you, you need modify them
DEFAULT_PATH="/usr/lib/lightdm/lightdm:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:$HOME/bin"
#default setting, I usually use gcc, so you need modify to g++
function default(){
export PATH="$DEFAULT_PATH"
PS1="\[3]2;\u@\h:\w\a\]$red[GNU-GCC]$blue\u@\h:$coloroff\w\n-> "
gcc_ver=`gcc --version | head -n 1`
}
#you can add more compiler, even some dedicate old version of g++, just copy my function and modify the bin path
#arm-linux-gcc setting, I also use cross compiler
function armlinuxgcc(){
export PATH="$DEFAULT_PATH"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM-Linux-GCC]$blue\u@\h:$coloroff\w\n-> "
arm_linux_gcc_ver=`arm-linux-gnueabi-gcc-4.7 --version | head -n 1`
}
#I also use dedicate compiler provide by arm
function RVCT22B616(){
#for RVCT2.2
export PATH="$DEFAULT_PATH:$HOME/Software/RVS22-BN-00000-r2p2-01rel0/rvds_2_2_1_dist241_linux/RVCT/Programs/2.2/503/linux-pentium"
export RVCT22INC="$HOME/Software/RVS22-BN-00000-r2p2-01rel0/rvds_2_2_1_dist241_linux/RVCT/Data/2.2/503/include/unix"
export RVCT22LIB="$HOME/Software/RVS22-BN-00000-r2p2-01rel0/rvds_2_2_1_dist241_linux/RVCT/Data/2.2/503/lib"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM2.2B616]$blue\u@\h:$coloroff\w\n-> "
armcc_ver=`armcc --vsn | head -n 1`
#end of RVCT2.2
}
function RVCT31B1055(){
#for RVCT3.1
export PATH="$DEFAULT_PATH:$HOME/Software/RVP31-PA-00001-r3p1-09rel0/linux-pentium"
export RVCT31INC="$HOME/Software/RVP31-PA-00001-r3p1-09rel0/include/unix"
export RVCT31LIB="$HOME/Software/RVP31-PA-00001-r3p1-09rel0/lib"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM3.1B1055]$blue\u@\h:$coloroff\w\n-> "
armcc_ver=`armcc --vsn | head -n 1`
#end of RVCT3.1
}
function RVCT41B894(){
#for RVCT4.1
export PATH="$DEFAULT_PATH:$HOME/Software/RVP41-PA-00001-r4p1-05rel0/standard-linux-pentium-rel/linux-pentium"
export ARMCC41INC="$HOME/Software/RVP41-PA-00001-r4p1-05rel0/standard-linux-pentium-rel/include/unix"
export ARMCC41LIB="$HOME/Software/RVP41-PA-00001-r4p1-05rel0/standard-linux-pentium-rel/lib"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM4.1B894]$blue\u@\h:$coloroff\w\n-> "
armcc_ver=`armcc --vsn | head -n 1`
#end of RVCT4.1
}
function DS5B94(){
#for DS-5
export PATH="$DEFAULT_PATH:/usr/local/DS-5/bin/"
export ARMCC5INC="/usr/local/DS-5/include/"
PS1="\[3]2;\u@\h:\w\a\]$red[ARM5.0B94]$blue\u@\h:$coloroff\w\n-> "
armcc_ver=`armcc --vsn | head -n 1`
#end of DS-5
}
然后,让用户可以选择这些编译器:
default
function sel_env(){
echo "**************************"
echo "* Switch Compile env:"
echo "* 1. ARMCC 2.2 Build[616]"
echo "* 2. ARMCC 3.1 Build[1055]"
echo "* 3. ARMCC 4.1 Build[894]"
echo "* 4. ARMCC 5.0 Build[94]"
echo "* 5. ARM-Linux-GUNEABI-GCC"
echo "* 6. GCC"
echo "**************************"
read choose;
#select choose in "1" "2" "3"; do
case $choose in
1) RVCT22B616
echo "CC -> $armcc_ver"
echo "Compile Firmware and Boot Core";;
2) RVCT31B1055
echo "CC -> $armcc_ver"
echo "Compile Boot Core";;
3) RVCT41B894
echo "CC -> $armcc_ver"
echo "Compile Firmware";;
4) DS5B94
echo "CC -> $armcc_ver"
echo "Compile Firmware";;
5) armlinuxgcc
echo "CC -> $arm_linux_gcc_ver"
echo "Corss compile";;
*) default
echo "CC -> $gcc_ver";;
esac
#done
}
现在,在你打开你的终端后,首先source这个env文件,或者在你的$HOME的.bashrc文件中添加这个操作,然后输入sel_env .如果你只是 source 这个文件,我会告诉你结果:
how@ubuntu-sw:~/Work/.env$ ls
work.env
how@ubuntu-sw:~/Work/.env$ source work.env
[GNU-GCC]how@ubuntu-sw:~/Work/.env
-> ls
work.env
[GNU-GCC]how@ubuntu-sw:~/Work/.env
-> sel_env
**************************
* Switch Compile env:
* 1. ARMCC 2.2 Build[616]
* 2. ARMCC 3.1 Build[1055]
* 3. ARMCC 4.1 Build[894]
* 4. ARMCC 5.0 Build[94]
* 5. ARM-Linux-GUNEABI-GCC
* 6. GCC
**************************
然后如果我选择 1 例如:
[GNU-GCC]how@ubuntu-sw:~/Work/.env
-> sel_env
**************************
* Switch Compile env:
* 1. ARMCC 2.2 Build[616]
* 2. ARMCC 3.1 Build[1055]
* 3. ARMCC 4.1 Build[894]
* 4. ARMCC 5.0 Build[94]
* 5. ARM-Linux-GUNEABI-GCC
* 6. GCC
**************************
1
ARM/Thumb C/C++ Compiler, RVCT2.2 [Build 616]
CC ->
Compile Firmware and Boot Core
[ARM2.2B616]how@ubuntu-sw:~/Work/.env
->
希望这个选项可以在您使用多个编译器时对您有所帮助。如果你觉得这样太过分了,我建议你也可以使用符号link,因为你安装你的编译器到/opt,通常这个/opt文件夹应该在你的系统中定义小路。但是你需要 运行 就像 g++_withyour_version 一样,然后你可以创建一个符号 link,ln -s /opt/gcc-4.8.2 /opt/gcc,然后,你只能为版本 4.8.2 输入 gcc