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This manual is available in various formats.
GNU Global Source Code Tag System
Edition 6.6.14, for GNU Global version 6.6.14
11 December 2024
by Tama Communications Corporation
Copyright © 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2008, 2010,
2011, 2012, 2013 Tama Communications Corporation
This manual is for GNU Global (version 6.6.14,
11 December 2024), a source code tagging system that works the same way
across diverse environments.
Published by Tama Communications Corporation
Tama-city, Tokyo, Japan.
Permission is granted to copy, distribute and/or modify this document
under the terms of the GNU Free Documentation License, Version 1.2
or any later version published by the Free Software Foundation;
with no Invariant Sections, with no Front-Cover Texts,
and with no Back-Cover Texts.
A copy of the license is included in the section entitled "GNU
Free Documentation License".
GNU Global source code tagging system ¶
This manual documents version 6.6.14 of the GNU Global source code tagging system.
1.1 What is GNU Global? ¶
GNU Global is a source code tagging system that works the same way
across diverse environments, such as Emacs editor, Vi editor,
Less viewer, Bash shell, various web browsers, etc.
You can find the locations of symbols such as functions, macros, structs and classes
in your source code and move there easily.
It is useful for hacking a large project which contains many sub-directories,
many #ifdef and many main() functions.
It is similar to ctags or etags, but is different from them at the point of
independence of any editor.
1.2 Concept of project ¶
GNU Global can treat a source tree containing sub-directories as a project.
Anywhere in the project, you can utilize a high performance tag database.
You need not specify where the database is, as global(1) locates it by itself.
Because of this feature, you can move freely in a project,
and in and out of many projects.
1.3 Features ¶
GNU Global has the following features:
- supports C, Yacc, Java, PHP4 and assembly.
- works the same way across diverse environments like follows:
- Shell command line
- Bash shell
- Vi editor (Nvi, Elvis, vim)
- Less viewer
- Emacs editor (Emacs, Mule, Xemacs)
- Web browser
- Doxygen documentation system
- finds locations of specified symbol quickly.
- locates not only definitions but also references.
- allows duplicate tags.
- locates paths which matches to the specified pattern.
- hierarchical searches by default.
- searches not only in a source project but also in library projects.
- generates completion list for completing input method.
- supports various output formats.
- allows customizing of a set of candidate files to be tagged.
- understands POSIX 1003.2 regular expression.
- supports idutils as an external search engine.
- tag files are independent of machine architecture.
- supports incremental updating of tag files.
- plug-in parser is available to treat new language.
- supports customizing using gtags.conf.
- generates a hypertext of source code.
- compact format to save disk space.
- supports client/server environment (TRAMP ready).
- ignores binary files, dot files and specified files.
- includes cscope-compatible program (gtags-cscope).
- includes grep-like command (-g command).
- supports grep-like symbol highlighting.
2 Command line ¶
You can use tag facilities from the shell command line.
It is a big merit of Global compared with any other tagging system.
2.1 Preparation ¶
Before beginning, please read the FAQ (Frequently Asked Questions) file.
$ more /usr/local/share/gtags/FAQ
First of all, you must execute gtags(1) (see gtags - create tag files for global) at the root of the source tree.
For example, if you want to browse the source code of Vi editor in FreeBSD,
please move to the source directory and invoke gtags(1).
$ cd /usr/src/usr.bin/vi
$ gtags
Gtags traverses sub-directories, picks up symbols from the source files
and makes three tag files at the current directory.
After this, all files and directories under the current directory are treated as a project.
$ ls G*
GPATH GRTAGS GTAGS
- GTAGS
definition database
- GRTAGS
reference database
- GPATH
path name database
You should prepare for considerable disk space for tag files.
For example, Linux-2.6.32 source code requires the following disk space.
source code(Linux-2.6.32) 390MB
GPATH 6MB
GTAGS 81MB
GRTAGS 202MB
-------------------------------------
total of tag files 289MB
2.2 Basic usage ¶
Consider the following source tree:
/home/user/
|
|-ROOT/ <- the root of source tree (GTAGS,GRTAGS,...)
|
|- README ..... +---------------+
| |The function of|
| +---------------+
|- DIR1/
| |
| |- fileA.c ..... +---------------+
| | |main(){ |
| | | func1();|
| | | func2();|
| | |} |
| | +---------------+
| |
| |- fileB.c ..... +---------------+
| |func1(){ ... } |
| +---------------+
|- DIR2/
|
|- fileC.c ..... +---------------+
|#ifdef X |
|func2(){ i++; }|
|#else |
|func2(){ i--; }|
|#endif |
|func3(){ |
| func1();|
|} |
+---------------+
- Once you make tag files at the root directory of a project,
you can invoke global(1) from anywhere in the project.
By default, you get relative paths of the located files.
$ cd /home/user/ROOT
$ global func1
DIR1/fileB.c # func1() is defined in fileB.c
$ cd DIR1
$ global func1
fileB.c # relative path from DIR1
$ cd ../DIR2
$ global func1
../DIR1/fileB.c # relative path from DIR2
You can use global(1) only when you are in a project.
If you are out of any project, it shows an error message like follows:
$ cd /home/user
$ global func1
global: GTAGS not found.
- The -r option locates references.
$ global -r func2
../DIR1/fileA.c # func2() is referred from fileA.c
- You can use POSIX regular expressions.
$ cd /home/user/ROOT
$ global 'func[1-3]'
DIR1/fileB.c # func1, func2 and func3 are matched
DIR2/fileC.c
- The -x option shows details.
It is similar to the -x option of ctags(1).
$ global func2
DIR2/fileC.c
$ global -x func2
func2 2 DIR2/fileC.c func2(){ i++; }
func2 4 DIR2/fileC.c func2(){ i--; }
- The -a option produces absolute path names.
$ global -a func1
/home/user/ROOT/DIR1/fileB.c
- The -s command locates symbols which are not defined in GTAGS.
$ global -xs X
X 1 DIR2/fileC.c #ifdef X
- The -g command locates lines which have the specified pattern.
$ global -xg '#ifdef'
#ifdef 1 DIR2/fileC.c #ifdef X
It is similar to egrep(1) but is far more convenient for source code reading,
because it allows you to search through a project, and only in source files.
Additionally, you can use various options:
- -O ¶
search only in text files.
- -o ¶
search in both source files and text files.
- -l ¶
search only under the current directory.
The -e, -G and -i options are available too.
The usage is almost same as egrep(1).
You can even change the output format of global(1) to grep style
using --result=grep option.
Of course, these options can be used even by other commands.
- The -P command locates path names which include the specified pattern.
$ global -P fileB
DIR1/fileB.c
$ global -P '1/'
DIR1/fileA.c
DIR1/fileB.c
$ global -P '\.c$'
DIR1/fileA.c
DIR1/fileB.c
DIR2/fileC.c
- The -f command prints a list of tags in the specified file(s).
$ global -f DIR2/fileC.c
func2 2 DIR2/fileC.c func2(){ i++; }
func2 4 DIR2/fileC.c func2(){ i--; }
func3 6 DIR2/fileC.c func3(){
- The -l option limits the range of retrieval under the current directory.
$ cd DIR1
$ global -xl func[1-3]
func1 1 fileB.c func1(){...}
2.3 Applied usage ¶
- You can customize a set of candidate files to be tagged.
$ find . -type f -print >/tmp/list # make a file set
$ vi /tmp/list # customize the file set
$ gtags -f /tmp/list
- If your source files are on a read-only device, such as CDROM,
then you cannot make tag files at the root of the source tree.
In such case, you can make tag files in another place using
GTAGSROOT environment variable.
$ mkdir /var/dbpath
$ cd /cdrom/src # the root of source tree
$ gtags /var/dbpath # make tag files in /var/dbpath
$ export GTAGSROOT=`pwd`
$ export GTAGSDBPATH=/var/dbpath
$ global func
There is another method for it. Since global(1) locates tag files also in
/usr/obj + <current directory>, you can setup like follows:
It is ’obj’ directory.
$ cd /cdrom/src # the root of source tree
$ mkdir -p /usr/obj/cdrom/src
$ gtags /usr/obj/cdrom/src # make tag files in /usr/obj/cdrom/src
$ global func
The -O, --objdir option does it automatically for you.
The path of obj directory can be changed by environment variable
MAKEOBJDIRPREFIX .
- If you want to locate symbols that are not defined in the source tree,
then you can specify library directories with
GTAGSLIBPATH
environment variable.
You should execute gtags(1) at each directory in the GTAGSLIBPATH .
If GTAGS is not found there, global ignores such directories.
$ pwd
/develop/src/mh # this is a source project
$ gtags
$ ls G*TAGS
GRTAGS GTAGS
$ global mhl
uip/mhlsbr.c # mhl() is found
$ global strlen # strlen() is not found
$ (cd /usr/src/lib; gtags) # library source
$ (cd /usr/src/sys; gtags) # kernel source
$ export GTAGSLIBPATH=/usr/src/lib:/usr/src/sys
$ global strlen
../../../usr/src/lib/libc/string/strlen.c # found in library
$ global access
../../../usr/src/sys/kern/vfs_syscalls.c # found in kernel
Or, you can take a more straightforward way to do the same thing.
In the following example, we treat as if the system library and the kernel
are part of our project.
$ ln -s /usr/src/lib .
$ ln -s /usr/src/sys .
$ gtags
$ global strlen
lib/libc/string/strlen.c
$ global access
sys/kern/vfs_syscalls.c
- If you forget symbol names, you can use the -c (complete) command.
$ global -c kmem # maybe k..k.. kmem..
kmem_alloc
kmem_alloc_pageable
kmem_alloc_wait
kmem_free
kmem_free_wakeup
kmem_init
kmem_malloc
kmem_suballoc # This is what I need!
$ global kmem_suballoc
../vm/vm_kern.c
- You can use the -c command with the complete command in the shell.
In Bash:
$ funcs()
> {
> local cur
> cur=${COMP_WORDS[COMP_CWORD]}
> COMPREPLY=(`global -c $cur`)
> }
$ complete -F funcs global
$ global kmem_TABTAB
kmem_alloc kmem_alloc_wait kmem_init
kmem_alloc_nofault kmem_free kmem_malloc
kmem_alloc_pageable kmem_free_wakeup kmem_suballoc
$ global kmem_sTAB
$ global kmem_suballoc
../vm/vm_kern.c
If you like input completion, you should try globash (see Global facility for Bash).
It supports you in a suitable way without any preparation.
- You can edit all files which have specified tags by typing
one command. For example:
$ vi `global func1` # edit fileB.c
- If you want to browse many files in order, do the following:
$ global -xr fork | awk '{printf "view +%s %s\n",$2,$3}'
view +650 ../dev/aic7xxx/aic7xxx_asm.c
view +250 ibcs2/ibcs2_misc.c
view +401 linux/linux_misc.c
view +310 ../kern/init_main.c
view +318 ../kern/init_main.c
view +336 ../kern/init_main.c
view +351 ../kern/init_main.c
$ !! | sh # from now on, go to next tag with ’ZZ’.
3 Various applications ¶
3.1 Global facility for Bash ¶
Special support for Bash is available.
3.1.1 Features ¶
- Vi-like tag stack is available.
- Emacs-like tag name completion is available.
- Automatic invoking of editor.
- Tag mark facility is available.
- You can manage a directory list by cookie facility.
3.1.2 Preparation ¶
First, do the preparation of global. See Preparation.
Then you can invoke globash(1) command.
Only first time, you will see the following message.
GloBash needs a working directory. Do you create '/home/you/.globash'? ([y]/n)
Pressing the ENTER key, you will see a prompt as follows:
This prompt means that the current directory is ’/usr/src/sys/kern’ and
the root directory of the project is ’/usr/src/sys’.
Tag and marker are valid only in a project.
When you try to go out of the project, globash warns like:
[/usr/src/sys] cd ..
You are going to get out of the current project.
Tag stack and marker will be removed. Sure? ([y]/n)_
If you answer y RET
or just RET then the tag stack and marker
(described later) will be removed.
If you need help then please type ghelp.
3.1.3 Usage ¶
- Most of global(1)’s (see global - print locations of given symbols) command characters are available as commands.
[/usr/src/sys] x fork <- (global -x fork)
> 1 fork 94 kern/kern_fork.c fork(p, uap)
[/usr/src/sys] r <- (global -xr fork)
> 1 fork 85 alpha/linux/linux_machdep.c
2 fork 184 i386/linux/linux_machdep.c
[/usr/src/sys] s lbolt <- (global -xs lbolt)
> 1 lbolt 1210 i386/isa/wd_cd.c tsleep((cad
2 lbolt 1211 i386/isa/wd_cd.c tsleep((cad
3 lbolt 709 i386/isa/wfd.c tsleep ((caddr
...
[/usr/src/sys] g <- (global -xg lbolt)
> 1 lbolt 1210 i386/isa/wd_cd.c tsleep((cad
...
[/usr/src/sys] P init <- (global -xP init)
> 1 path 1 dev/hea/eni_init.c
2 path 1 dev/hfa/fore_init.c
3 path 1 i386/i386/initcpu.c
4 path 1 kern/init_main.c
5 path 1 kern/init_sysent.c
6 path 1 kern/vfs_init.c
7 path 1 vm/vm_init.c
[/usr/src/sys] _
If no argument is specified then the latest argument is used.
- Input completion facility is available. For each command, suitable completion is applied.
[/usr/src/sys] x kmem_TABTAB
kmem_alloc kmem_free kmem_malloc
kmem_alloc_nofault kmem_free_wakeup kmem_object
kmem_alloc_wait kmem_init kmem_suballoc
[/usr/src/sys] x kmem_sTAB
[/usr/src/sys] x kmem_suballoc
- You can select a tag by
show command.
[/usr/src/sys] x main
> 1 main 70 alpha/alpha/gensetdefs.c main(in
2 main 1500 alpha/alpha/ieee_float.c main(i
3 main 227 boot/alpha/boot1/boot1.c main()
....
[/usr/src/sys] show 3
(Load editor and show boot/alpha/boot1/boot1.c at line 227.)
The default editor is vi(1). You can specify it statically by EDITOR
environment variable or temporarily by options.
[/usr/src/sys] show -e 3
(Preloaded emacs show boot/alpha/boot1/boot1.c at line 227.)
[/usr/src/sys] show -l 3
(Load less and show boot/alpha/boot1/boot1.c at line 227.)
[/usr/src/sys] show -g 3
(Preloaded firefox show boot/alpha/boot1/boot1.c at line 227.)
Otherwise, you can use the following commands (with abbreviated form):
list (l)
print tag list.
first
go to the first tag.
last
go to the last tag.
next (n)
go to the next tag.
prev (p)
go to the previous tag.
show N (1,2,3,..,999)
go to Nth tag
- You can use vi-like tag stack. You can return to the previous tag list
by the
pop or CTRL-T command.
[/usr/src/sys] x main
> 1 main 70 alpha/alpha/gensetdefs.c main(in
2 main 1500 alpha/alpha/ieee_float.c main(i
3 main 227 boot/alpha/boot1/boot1.c main()
....
[/usr/src/sys] show 3
(Load editor and show boot/alpha/boot1/boot1.c at line 227.)
[/usr/src/sys] x fork <- push new tag on the tag stack.
> 1 fork 94 kern/kern_fork.c fork(p, uap)
[/usr/src/sys] pop <- pop tag stack.
[/usr/src/sys] show
(Load editor and show boot/alpha/boot1/boot1.c at line 227.)
You can print the current tag stack with tags command.
- You can remember tags using the
mark command.
[/usr/src/sys] x fork
> 1 fork 94 kern/kern_fork.c fork(p, uap)
[/usr/src/sys] mark
[/usr/src/sys] x main
> 1 main 70 alpha/alpha/gensetdefs.c main(in
2 main 1500 alpha/alpha/ieee_float.c main(i
3 main 227 boot/alpha/boot1/boot1.c main()
....
[/usr/src/sys] mark -l <- show marker list.
1 fork 94 kern/kern_fork.c fork(p, uap)
[/usr/src/sys] mark 1 <- select a marker.
(Load editor and show kern/kern_fork.c at line 227.)
[/usr/src/sys] list
> 1 main 70 alpha/alpha/gensetdefs.c main(in
2 main 1500 alpha/alpha/ieee_float.c main(i
3 main 227 boot/alpha/boot1/boot1.c main()
....
Marked tags are valid until you go out of the current project or quit
the current bash(1) session.
- You can remember directories using the
cookie command,
and return there using the warp command.
[/usr/src/sys] cookie <- drop a cookie.
[/usr/src/sys] cd kern
[/usr/src/sys]/kern cookie <- drop a cookie again.
[/usr/src/sys]/kern cd ../i386
[/usr/src/sys]/i386 cookie -l <- show cookie list.
1 /usr/src/sys/kern
2 /usr/src/sys
[/usr/src/sys]/i386 warp 2 <- warp to the selected cookie.
[/usr/src/sys] _
Cookie directories are valid until you delete them.
3.2 Less using Global ¶
You can use Global as a tagging system of less(1) viewer instead of ctags.
3.2.1 Features ¶
- You can use most of Global’s facilities from less(1) viewer.
- Less viewer supports duplicated tag.
3.2.2 Preparation ¶
First, do the preparation of global. See Preparation.
Second, to use global from less(1), you need to set environment variable
LESSGLOBALTAGS to ‘global’.
$ export LESSGLOBALTAGS=global
3.2.3 Usage ¶
- To go to
func1 , you can say
Please note that if tags exists in the current directory then less(1) uses it.
If you want to use GTAGS even if tags exists
then please specify the tag file explicitly like this:
- To go to the referenced point of
func1 , please specify GRTAGS.
In the same way, you can use GTAGS, GRTAGS or
GPATH as tag files.
- If a number of tags are located, less(1) goes to the first tag.
You can go to next tag by typing t and back by typing T.
- t
go to next tag.
- T
go to previous tag.
- In a less(1) session, you can use the :t command to locate a new symbol.
But in this case, you cannot change the tag file from the one specified by
the -T option.
- With the -T- option, less(1) reads standard input as a tag file.
You can connect global and less(1) with a pipe. It is very convenient.
$ global -x func | less -T-
In the same way, you can use the following command lines:
# pattern match with grep(1).
$ global -xg 'lseek(.*)' | less -T-
# pattern match with idutils(1).
$ global -xI func | less -T-
# all definitions in *.c.
$ global -f *.c | less -T-
# all files including 'init' in their path.
$ global -Px init | less -T-
- If your editor doesn’t support Global directly then you can use less(1)
as a footstool.
# invoke less
$ less -t main
main(int argc, char **argv)
{
int i;
.....
[xxx/main.c (tag 1 of 55)]
# type 'v'(vi) command in less session.
v
# load vi and show the same position.
.....
main((int argc, char **argv)
{
int i;
.....
[xxx/main.c 313 lines, 7783 char]
# type 'ZZ' command in vi session.
ZZ
# exit vi and back to less session.
main(int argc, char **argv)
{
int i;
.....
[xxx/main.c (tag 1 of 55)]
3.3 Nvi-1.81.5 using Global ¶
You can use Global as a tagging system of Nvi editor instead of ctags.
3.3.1 Features ¶
- You can use most of Global’s facilities from Nvi.
- Intelligent recognition of the current token and its type.
3.3.2 Preparation ¶
First, do the preparation of global. See Preparation.
Second, to use global from Nvi, you need to write to .nexrc like this.
It is assumed that gtags.pl is put in $HOME/perl.
$HOME/.nexrc
+----------------------------
|perl use lib "$ENV{'HOME'}/perl"
|perl require 'gtags.pl'
|map ^P :tagprev^M
|map ^N :tagnext^M
|map ^] :perl tag^M
|ab gtag perl tag qw(
|ab gta perl tag qw(
|ab gt perl tag qw(
You must start Nvi in a project as described in Preparation.
3.3.3 Usage ¶
- To go to
func1 , you can say
Suggested .nexrc:
ab gtag perl tag qw(
ab gta perl tag qw(
ab gt perl tag qw(
- To go to the referenced point of
func1 , add the option -r
- If a number of tags are located, Nvi goes to the first tag.
You can go to next tag by typing :tagnext and back by typing :tagprev.
Suggested .nexrc:
map ^N :tagnext^M
map ^P :tagprev^M
- If you don’t specify any argument, ’:perl tag’ command does the following:
If the context of the current token is a definition then it is equivalent to
:perl tag qw(-r current-token).
Otherwise, if it is a reference to some definitions then it is equivalent to
:perl tag qw(current-token) else it is equivalent
to :perl tag qw(-s current-token).
Suggested .nexrc:
It is similar to CTRL-] command.
- You can use the -s option; it locates symbols which are not
defined in GTAGS.
- The -g, -f and -P options are also available.
It works like the command line.
- When you want to locate tags the name of which start with ‘set’ or ‘get’, use:
- Other tag commands are also available:
- CTRL-T
return to the most recent tag location.
- :tagpop
return to the most recent tag location.
- :tagtop
return to the top of the tag stack.
- :display tags
display the tags stack.
3.4 Elvis using Global ¶
Elvis 2.1 or later has two variables, tagprg and tagprgonce , for
running an external tag search program. You can use them for Global.
3.4.1 Features ¶
- You can use most of Global’s facilities from Elvis.
- Mouse is supported.
3.4.2 Preparation ¶
First, do the preparation of global. See Preparation.
Second, start Elvis and execute set tagprg="global -t $1" like this:
$ elvis
~
~
~
~
~
~
:set tagprg="global -t $1"
3.4.3 Usage ¶
- To go to
func1 , you can say
It seems the same as original Elvis, but Elvis executes global -t func1
internally and read the output instead of tags file.
- To go to the referenced point of
func1 , add -r option.
- To locate symbols which are not defined in GTAGS, try this:
- To locate strings, try this:
- When a lot of results are expected, it’s better to use the browse command.
It brings a following selection list. You can select a tag line and go to
the point.
Browse -r fork (2 matches)
+----------------+----------------+--------------------
| TAG NAME | SOURCE FILE | SOURCE LINE
+----------------+----------------+--------------------
|fork |ux/linux_misc.c | (line 565)
|fork |ern/init_main.c | (line 191)
+----------------+----------------+--------------------
- To get a list of tags in specified files, use the -f command.
:browse -f main.c <- locate definitions in main.c
- Other tag commands are also available:
- CTRL-]
go to the definition of the current token.
- CTRL-T
return to the most recent tag context.
- :tag
without argument, go to the next tag.
- :pop
return to the most recent tag context.
- :stack
display the tags stack.
- :stag
create a new window and move its cursor to the tag’s definition point.
- :sbrowse
same as browse but show in a new window.
- You can use POSIX regular expressions.
:tag ^put_ <- locate tags start with ’put_’
:browse -g 'fseek(.*L_SET)' <- locate fseek() using L_SET argument
- You can browse tag’s list of many files.
:browse -f *.c <- locate tags in *.c
- You can browse the files whose path includes specified pattern.
:browse -P /vm/ <- under vm/ directory
:browse -P \.h$ <- all include files
:browse -P init <- path including ’init’
- You can use mouse for tag operations.
If you have a mouse, then you can use the left button to double-click
on a word in the text, to have Elvis perform a :tag search on that word.
Double-clicking the right button anywhere in the text will perform
a :pop command.
In the selection list of the browse command, you can use the left button
to double-click on a tag name, to have Elvis select the tag.
To come back, double-click the right button.
3.5 Vim using Global ¶
In Vim 6.2 or later, you can use the gtags.vim script.
3.5.1 Features ¶
- You can use most of Global’s facilities from Vim.
- Intelligent recognition of the current token and its type.
- Special characters ‘%’, ‘#’ and input completion are available.
To our regret, the tag stack facility is not available.
If you want to use the facility, please try gtags-cscope.vim.
See Gtags-cscope.
3.5.2 Preparation ¶
First, do the preparation of global. See Preparation.
Second, copy gtags.vim to your plug-in directory or source it
from your vimrc.
$ cp /usr/local/share/gtags/gtags.vim $HOME/.vim/plugin
3.5.3 Usage ¶
- To go to
main , you can say
Vim executes global(1), parses the output, lists located tags
in quickfix window and loads the first entry.
The quickfix window is like this:
gozilla/gozilla.c|200| main(int argc, char **argv)
gtags-cscope/gtags-cscope.c|124| main(int argc, char **argv)
gtags-parser/asm_scan.c|2056| int main()
gtags-parser/gctags.c|157| main(int argc, char **argv)
gtags-parser/php.c|2116| int main()
gtags/gtags.c|152| main(int argc, char **argv)
[Quickfix List]
You can go to any entry using quickfix command.
- :cn
go to the next entry.
- :cp
go to the previous entry.
- :ccN
go to the N’th entry.
- :cl
list all entries.
You can see the help of quickfix like this:
Suggested map:
map <C-n> :cn<CR>
map <C-p> :cp<CR>
- To go to the referenced point of
func1 , add the -r option.
- To locate symbols which are not defined in GTAGS, try this:
- To locate strings, try this:
:Gtags -g int argc
:Gtags -g "root"
:Gtags -ge -C <- locate ’-C’
- To get a list of tags in specified files, use the -f command.
:Gtags -f main.c <- locate tags in main.c
If you are editing main.c itself, you can use ‘%’ instead.
:Gtags -f % <- locate tags in main.c
- You can use POSIX regular expressions.
:Gtags ^put_ <- locate tags starting with ’put_’
:Gtags -g fseek(.*SEEK_SET) <- locate fseek() using SEEK_SET
- Input completion is available.
In the command line, press CTRL-D after some typing
and Vim will show a list of tag names that start with the string.
Press TAB and Vim will complete the tag name.
:Gtags fuTAB
:Gtags func1 <- ’nc1’ is appended by vim
- You can browse files whose path includes specified pattern.
:Gtags -P /vm/ <- under vm/ directory
:Gtags -P \.h$ <- all include files
:Gtags -P init <- path including ’init’
- You can use all options of global(1) except for -c -n -p -q -u -v and
all long name options. They are sent to global(1) as is.
For example:
:Gtags -gi paTtern <- matches both ’PATTERN’ and ’pattern’
:Gtags -POi make <- matches Makefile but not makeit.c
About the other options, please see global - print locations of given symbols.
- The GtagsCursor command brings you to the definition or reference of the current token.
If the context of the current token is a definition then it is equivalent to
:Gtags -r current-token;
if it is a reference to some definitions then it is equivalent to
:Gtags current-token; else it is equivalent
to :Gtags -s current-token.
Suggested map:
map <C-\>^] :GtagsCursor<CR>
Though the mapping of :GtagsCursor to ^] seems suitable,
it will bring an inconvenience in the help screen.
- If you have a hypertext generated by htags(1) then you can display
the same part of the source code in your browser.
Let’s load firefox and try this:
Suggested map:
- If you want to load Vim with all main()s then following command line is useful.
3.6 Extended Emacs using Global ¶
You can use Global as a tagging system of Emacs editor instead of etags.
3.6.1 Features ¶
- You can use most of Global’s facilities from the editor.
- More intelligent recognition of the current token and its type.
- Tag completion is available for input tag name.
- Mouse is supported.
3.6.2 Preparation ¶
First, do the preparation of global. See Preparation.
Second, to use global from Emacs, you need to load the gtags.el
and execute gtags-mode function in it.
Write the call to autoload function to your $HOME/.emacs,
start Emacs and execute gtags-mode function.
If you put gtags.el in a directory other than the standard
macro directory, you need to add it to load-path .
$HOME/.emacs
+------------------------------------------------------
|(setq load-path (cons "/home/owner/global" load-path))
|(autoload 'gtags-mode "gtags" "" t)
$ emacs
|
|J_:-----Mule: *scratch* (Lisp Interaction)--L16--All----
|M-x gtags-mode[RET]
+------------------------------------------------------
If you want to get into gtags-mode whenever you get into c-mode
then you can append the following code to your $HOME/.emacs.
(setq c-mode-hook
'(lambda ()
(gtags-mode 1)
))
About key mappings, please see the comment of gtags.el.
3.6.3 Usage ¶
- To go to
func1 , invoke gtags-find-tag
and you can see a prompt in the mini-buffer. Then input the tag name.
Find tag: func1 <- ’Find tag: ’ is a prompt
- To go to the referenced point of
func1 , invoke gtags-find-rtag .
Find tag (reference): func1
- Tag name completion is available.
Find tag: fuTAB
Find tag: func1 <- ’nc1’ is appended by emacs
- If a number of tags are located, Emacs goes into GTAGS SELECT MODE like this:
+-------------------------------------------------------------
|main 347 i386/isa/ultra14f.c main()
|main 128 kern/init_main.c main(framep)
|main 104 netiso/clnp_debug.c main()
|main 164 netiso/xebec/main.c main(argc, argv)
|
|
|
|
|
|J_:--%*-Mule: *scratch* (Gtags Select)--L1--All----
|[GTAGS SELECT MODE] 4 lines
+-------------------------------------------------------------
Please select a tag line by any Emacs command and press RET,
and you can go to the tag’s point. When you want to go to the next or
previous tag, please return to the above mode with gtags-pop-stack
and reselect.
You can customize the path style in this mode by setting gtags-path-style
variable.
root
relative from the root of the project (Default)
relative
relative from the current directory
absolute
absolute (relative from the system root directory)
There are two methods to set this variable:
- You can change it dynamically using the
customize command of Emacs.
You will find the entry in the Programming/Tools/Gtags group.
- You can change it when Emacs is loaded using .emacs file like this:
(setq gtags-mode-hook
'(lambda ()
(setq gtags-path-style 'relative)))
gtags-find-tag-from-here command is available.
If current token is a definition, it is equivalent to
Find tag (reference): current-tokenRET,
otherwise it is equivalent to Find tag: current-tokenRET.
- To locate symbols which are not defined in GTAGS, try
gtags-find-symbol .
Find symbol: lbolt <- ’Find symbol:’ is a prompt
- To locate strings, try
gtags-find-with-grep .
- You can use POSIX regular expressions.
Find tag: ^put_ <- locate tags starting with ’put_’
- Mouse command is available.
If you use X version Emacs, try the following:
Move the mouse cursor to a symbol name and click the middle button,
and you can go to the point of the definitions, or to its references,
depending on the context. In ’GTAGS SELECT MODE’, move the mouse cursor
to a line and click the center button.
To return to the previous position, click the right button.
3.8 Hypertext generator ¶
You can use Global’s facilities from web browsers.
3.8.1 Features ¶
- Htags makes a hypertext from C, Yacc and Java source files.
- Once the hypertext is generated, you need nothing other than a web browser.
- You can move the hypertext to anywhere; it is independent of the source code.
- You can use all of your browser’s functions, such as search,
history, bookmark, save, frames, windows, etc.
3.8.2 Preparation ¶
At first, you must ensure that you have a lot of disk space for hypertext.
For example, Linux-2.6.32 source code (390MB) requires 4–6 GB of disk space.
source code(Linux-2.6.32) 390MB
GPATH,GTAGS,GRTAGS 289MB
hypertext (with no option) 3.8GB
hypertext (with --suggest option) 5.7GB
Please invoke gtags(1) (see gtags - create tag files for global) and htags(1) (see htags - generate a hypertext from a set of source files)
in order like this:
(at the root directory of your source project)
$ gtags # make tag files(GPATH,GTAGS,GRTAGS)
$ htags # make hypertext(HTML/)
Then you will find a directory named HTML in the current directory.
Htags has rich options. If you are new on htags then you are recommended to use
the --suggest option. This option makes some popular options effective,
and invokes gtags(1) if there is no tag files.
If HTTP server is available then the -D and -f options are also useful.
3.8.3 Usage ¶
Please start a web browser like this:
You will understand the usage by looking at the examples.
You can move the HTML directory to anywhere. It is independent of the
source code as long as CGI facility is not used.
Using firefox, you can also utilize the hypertext from your command line like this:
$ global -x main
main 10 main.c main(int argc, char *argv[]) {
$ gozilla +10 main.c # usage is similar to vi editor.
(show main.c at 10 on your browser.)
But in this case, you must not move the HTML directory from the source directory.
3.9 Doxygen using Global ¶
You can use Global as a source browser of Doxygen.
Doxygen Release 1.4.3 or later has config option USE_HTAGS .
When enabled in combination with SOURCE_BROWSER=YES , htags(1) is
used as a source browser instead of Doxygen’s own.
Here is an example.
(in source directory)
$ doxygen -g
$ vi Doxyfile
+---------------------------------
|...
|INPUT = .
|RECURSIVE = YES
|SOURCE_BROWSER = YES
|USE_HTAGS = YES
|...
$ doxygen
$ lynx html/index.html
4 Other topics ¶
You can customize Global using configuration file.
# cp gtags.conf /etc/gtags.conf # system wide config file.
# vi /etc/gtags.conf
$ cp gtags.conf $HOME/.globalrc # personal config file.
$ vi $HOME/.globalrc
If $HOME/.globalrc exists then Global uses it; else if /etc/gtags.conf
exists then Global uses it; otherwise default value is used.
The format of gtags.conf resembles termcap(5). By default, ’default’
target is used.
About the capabilities, please see each command manual. See Command References.
4.2 Plug-in parser ¶
You can write a new parser for gtags(1).
Command layer plug-in parser was abolished.
Please write function layer plug-in parser instead.
See plugin-factory/ to discover the function layer plug-in parser.
You can use Universal Ctags as a plug-in parser too.
# Installation of Global
# It assumed that ctags command is installed in '/usr/local/bin'.
$ ./configure --with-universal-ctags=/usr/local/bin/ctags
$ make
$ sudo make install
# Executing of gtags
# It assumed that Global is installed in '/usr/local'.
$ export GTAGSCONF=/usr/local/share/gtags/gtags.conf
$ export GTAGSLABEL=new-ctags
$ gtags # gtags invokes Universal Ctags internally
4.3 Incremental updating ¶
Modifying some source files, you need not remake the entire tag files.
Instead, you can use incremental updating facility (-u option).
$ gtags
$ cd kernel
$ vi user.c # modify user.c
...
:wq
$ global -vu # -v means verbose
[Sat May 29 00:31:41 JST 2010] Gtags started.
Tag found in '/usr/local/src/linux-2.6.32'.
Incremental updating.
[Sat May 29 00:31:43 JST 2010] Updating 'GTAGS' and 'GRTAGS'.
[1/1] deleting tags of kernel/user.c
[1/1] extracting tags of kernel/user.c
Global databases have been modified.
[Sat May 29 00:31:51 JST 2010] Done.
$ global -vu # try again
[Sat May 29 00:33:16 JST 2010] Gtags started.
Tag found in '/usr/local/src/linux-2.6.32'.
Incremental updating.
Global databases are up to date. # do nothing
[Sat May 29 00:33:19 JST 2010] Done.
5 Command References ¶
5.1 global - print locations of given symbols ¶
NAME ¶
global - print locations of given symbols
SYNOPSIS ¶
global [-adEFGilMnNqrstTvx][-S dir][-e] pattern
global -c[dFiIMoOPqrsTv] prefix
global -f[adlnqrstvx][-L file-list][-S dir] files
global -g[aEGilMnoOqtvVx][-L file-list][-S dir][-e] pattern [files]
global -I[ailMnqtvx][-S dir][-e] pattern
global -P[aEGilMnoOqtvVx][-S dir][-e] pattern
global -p[qrv]
global -u[qv]
DESCRIPTION ¶
Global finds locations of given symbols
in C, Yacc, Java, PHP and assembly source files,
and prints the path name, line number and line image of the locations.
Global can locate not only definitions but also references
and other symbols.
Global can treat a source tree, that is, a directory that has
sub-directories and source files, as a project.
In advance of using this command, you must execute gtags(1)
at the root directory of the project which you want to investigate
to make tag files.
Then you can use global command anywhere in the project.
You need not specify where the tag file is.
Instead, global locates it by itself.
You can specify a regular expression for pattern.
Global understands two different versions of regular expression
syntax: basic and extended (default).
COMMANDS ¶
The following commands are available:
- <no command> pattern
No command means tag search command.
Print tags which match to pattern.
By default, print definition tags.
- ‘-c’, ‘--completion[=limit]’ [prefix]
Print symbols which start with prefix.
If prefix is not given, print all symbols.
If limit is given, print up to limit lines.
- ‘-f’, ‘--file’ files
Print all tags in the files.
This command implies the ‘-x’ option.
- ‘-g’, ‘--grep’ pattern [files]
Print all lines which match to the pattern.
If files are given, this command searches in those files.
- ‘--help’
Print a usage message.
- ‘-I’, ‘--idutils’ pattern
Print all lines which match to pattern.
This function uses idutils(1) as a search engine.
To use this command, you need to install idutils(1)
in your system and execute gtags(1) with the ‘-I’ option.
- ‘-P’, ‘--path’ [pattern]
Print path names which match to pattern.
If no pattern is given, print all paths in the project.
- ‘-p’, ‘--print-dbpath’
Print location of GTAGS.
- ‘--print’ name
Print location of name, which may be one of:
‘root’, ‘dbpath’ or ‘conf’.
‘root’ means project’s root directory. ‘dbpath’ means a directory
where tag databases exist. ‘conf’ means configuration file.
- ‘-u’, ‘--update’
Update tag files incrementally.
This command internally invokes gtags(1).
You can execute this command anywhere in the project,
differing from gtags(1).
- ‘--version’
Show version number.
OPTIONS ¶
The following options are available:
- ‘-a’, ‘--absolute’
Print absolute path names. By default, print relative path names.
- ‘--color’ when
Use color to highlight the pattern within the line; when may be one of:
never, always or auto (default).
The default color is bold red text on current background; the environment
variable GREP_COLORS (only mt and ms are effective at present)
or GREP_COLOR defines it.
This option is effective to the following commands:
<no command>, -f, -g, -I, -P.
- ‘-C’, ‘--directory’ dir
Change the directory before doing all the work including parameter analysis.
- ‘-d’, ‘--definition’
Print locations of definitions.
- ‘-e’, ‘--regexp’ pattern
Use pattern as the pattern; useful to protect patterns starting with ‘-’.
- ‘-E’, ‘--extended-regexp’
Interpret pattern as a extended regular expression.
This is the default.
- ‘--encode-path’ chars
Convert path characters in chars into a ‘%’ symbol, followed by the
two-digit hexadecimal representation of the character.
A blank will be converted to ‘%20’.
- ‘-F’, ‘--first-match’
End the search without going through all the tag files listed in
GTAGSLIBPATH when tags are found in a tag file. This is the default.
- ‘--from-here’ context
Decide tag type by context. Its syntax should be ‘lineno:path’.
If the context is a definition of the pattern then use ‘-r’, else if
there is at least one definition of the pattern then use ‘-d’,
else use ‘-s’.
If this option is specified then ‘-d’, ‘-r’ and ‘-s’
on the command line are ignored.
Regular expression is not allowed for pattern.
This option assumes use in conversational environments such as
editors and IDEs.
- ‘-G’, ‘--basic-regexp’
Interpret pattern as a basic regular expression.
The default is an extended regular expression.
- ‘--gtagsconf’ file
Set environment variable GTAGSCONF to file.
- ‘--gtagslabel’ label
Set environment variable GTAGSLABEL to label.
- ‘-i’, ‘--ignore-case’
Ignore case distinctions in the pattern.
- ‘-L’, ‘--file-list’ file
Obtain files from file in addition to the arguments.
The argument file can be set to ’-’ to accept a list of files
from the standard input. File names must be separated by newline.
- ‘-l’, ‘--local’
Print only tags which exist under the current directory.
- ‘--literal’
Execute literal search instead of regular expression search.
This option works with the tag search command, ‘-g’ command,
‘-P’ command and ‘-I’ command.
- ‘-M’, ‘--match-case’
Search is case-sensitive. This is the default.
- ‘--match-part part’
Specify how path name completion should match, where part is one of:
‘first’, ‘last’ or ‘all’ (default).
This option is valid only with the ‘-c’ command in conjunction with ‘-P’.
- ‘-n’, ‘--nofilter’
Suppress sort filter and path conversion filter.
- ‘-N’, ‘--nearness’[=start]
Use Nearness sort method (sorting by closest from start) for the output.
By default, alphabetical sort method is used.
This option is effective for the tag search command, ‘-P’ command
and ‘-g’ command. As an exception, ‘-g’ command ignores this
option when files are specified by arguments.
The nearness is defined by how many parent directories to go up to reach
the target. The result of nearness sort is concatenation of the following
([0]-[n]) in this order. The default of start is the current directory.
[0] If the start is a file, output of local search in the file.
[1] Output of local search in the start directory except for [0].
[2] Output of local search in the parent directory except for [0]-[1].
[3] Output of local search in the grandparent directory except for [0]-[2].
... (repeat until the project root directory)
[n] Output of local search in the project root directory except for [0]-[n-1].
In each directory, they are sorted by alphabetical order.
- ‘-O’, ‘--only-other’
Treat only text files other than source code, like README.
This option is valid only with the ‘-g’ or ‘-P’ command.
This option overrides the ‘-o’ option.
- ‘-o’, ‘--other’
Treat not only source files but also text files other than source code,
like README.
This option is valid only with the ‘-g’ or ‘-P’ command.
- ‘--path-style’ format
Print path names using format, which may be one of:
‘relative’, ‘absolute’, ‘shorter’, ‘abslib’ or ‘through’.
‘relative’ means relative path. ‘absolute’ means absolute path.
‘shorter’ means the shorter one of relative and absolute path.
‘abslib’ means absolute path for libraries (GTAGSLIBPATH) and relative path
for the rest.
‘through’ means the relative path from the project root directory
(internal format of GPATH).
The default is ‘relative’.
The ‘--path-style’ option is given more priority than the ‘-a’ option.
- ‘--print0’
Print each record followed by a null character instead of a newline.
- ‘-q’, ‘--quiet’
Quiet mode.
- ‘-r’, ‘--reference’, ‘--rootdir’
Print reference tags.
Reference means the reference to a symbol which has definitions.
With the ‘-p’ option, print the root directory of the project.
- ‘--result’ format
Print out using format, which may be one of:
‘path’ (default), ‘ctags’, ‘ctags-x’, ‘grep’ or ‘cscope’.
The ‘--result=ctags’ and ‘--result=ctags-x’ options are
equivalent to the ‘-t’ and ‘-x’ options respectively.
The ‘--result’ option is given more priority than the ‘-t’ and ‘-x’ options.
- ‘--single-update’ file
Update tag files using gtags(1) with the ‘--single-update’ option.
It is considered that file was added, updated or deleted,
and there is no change in other files.
This option implies the ‘-u’ option.
- ‘-s’, ‘--symbol’
Print other symbol tags.
Other symbol means the reference to a symbol which has no definition.
- ‘-S’, ‘--scope’ dir
Print only tags which exist under dir directory.
It is similar to the ‘-l’ option, but you need not change directory.
- ‘-T’, ‘--through’
Go through all the tag files listed in GTAGSLIBPATH.
By default, stop searching when tag is found.
This option is ignored when either ‘-s’, ‘-r’
or ‘-l’ option is specified.
- ‘-t’, ‘--tags’
Use standard ctags format.
- ‘-V’, ‘--invert-match’
Invert the sense of matching, to select non-matching lines.
This option is valid only with the ‘-g’ or ‘-P’ commands.
- ‘-v’, ‘--verbose’
Verbose mode.
- ‘-x’, ‘--cxref’
Use standard ctags cxref (with ‘-x’) format.
EXAMPLES ¶
$ ls -F
Makefile src/ lib/
$ gtags
$ ls G*
GPATH GRTAGS GTAGS
$ global main
src/main.c
$ (cd src; global main)
main.c
$ global -x main
main 10 src/main.c main (argc, argv) {
$ global -f src/main.c
main 10 src/main.c main (argc, argv) {
func1 55 src/main.c func1() {
func2 72 src/main.c func2() {
func3 120 src/main.c func3() {
$ global -x '^[sg]et'
set_num 20 lib/util.c set_num(values) {
get_num 30 lib/util.c get_num() {
$ global -rx set_num
set_num 113 src/op.c set_num(32);
set_num 225 src/opop.c if (set_num(0) > 0) {
$ global strlen
$ (cd /usr/src/sys; gtags)
$ export GTAGSLIBPATH=/usr/src/sys
$ global -a strlen
/usr/src/sys/libkern/strlen.c
$ (cd /usr/src/lib; gtags)
$ GTAGSLIBPATH=/usr/src/lib:/usr/src/sys
$ global -a strlen
/usr/src/lib/libc/string/strlen.c
FILES ¶
- GTAGS
Tag file for definitions.
- GRTAGS
Tag file for references.
- GPATH
Tag file for source files.
- GTAGSROOT
If environment variable GTAGSROOT is not set
and file GTAGSROOT exists in the same directory as GTAGS
then global sets GTAGSROOT to the contents of the file.
- gtags.conf, $HOME/.globalrc
Configuration data for GNU Global.
See gtags.conf(5).
ENVIRONMENT ¶
The following environment variables affect the execution of global:
- GREP_COLOR
The color to use for ‘--color’; GREP_COLORS has precedence.
- GREP_COLORS
The color (mt or ms) to use for ‘--color’; see grep(1).
- GTAGSBLANKENCODE
If this variable is set, the ‘--encode-path=" <TAB>"’
option is specified.
- GTAGSCACHE
The size of the B-tree cache. The default is 50000000 (bytes).
- GTAGSCONF
Configuration file.
- GTAGSDBPATH
The directory in which the tag files exist.
This value is ignored when GTAGSROOT is not defined.
Use of this variable is not recommended.
- GTAGSFORCECPP
If this variable is set, each file whose suffix is .h is treated
as a C++ source file.
- GTAGSLABEL
Configuration label. The default is default.
- GTAGSLIBPATH
If this variable is set, it is used as the path to search
for library functions. If the given symbol is not
found in the current project, global also searches in these paths.
Since only GTAGS is targeted in the retrieval, this variable is
ignored when ‘-r’ or ‘-s’ is specified.
- GTAGSLOGGING
If this variable is set, $GTAGSLOGGING is used as the path name
of a log file. There is no default value.
- GTAGSROOT
The root directory of the project.
Usually, it is recognized by existence of GTAGS.
Use of this variable is not recommended.
- GTAGSTHROUGH
If this variable is set, the ‘-T’ option is specified.
- GTAGSOBJDIR, MAKEOBJDIR
If eigher of the two variable is set, it is used as the name of BSD-style objdir.
The former is given priority. The default is obj.
- GTAGSOBJDIRPREFIX, MAKEOBJDIRPREFIX
If eigher of the two variable is set, it is used as the prefix of BSD-style objdir.
The former is given priority. The default is /usr/obj.
CONFIGURATION ¶
The following configuration variables affect the execution of global:
icase_path (boolean)
Ignore case distinctions in pattern.
DIAGNOSTICS ¶
Global exits with a non-0 value if an error occurred, 0 otherwise.
SEE ALSO ¶
gtags(1),
htags(1),
less(1),
gtags.conf(5).
GNU Global source code tag system
(http://www.gnu.org/software/global/).
AUTHOR ¶
Shigio YAMAGUCHI, Hideki IWAMOTO and others.
HISTORY ¶
The global command appeared in FreeBSD 2.2.2.
5.5 gozilla - force firefox to display specified part of a source file ¶
NAME ¶
gozilla - force firefox to display specified part of a source file
SYNOPSIS ¶
gozilla [-b browser][-p][+no] file
gozilla [-b browser][-p] -d name
DESCRIPTION ¶
Gozilla forces firefox to display specified part of a source file.
Gozilla can be used with other browsers like chrome.
In advance of using this command, you must execute gtags(1)
and htags(1) at the root directory of the project to make tag files.
Then you can execute this command anywhere in the project.
First form:
You can specify a source file and optional line number.
This syntax is similar to vi(1) and emacs(1).
Second form:
You can specify a definition name directly. The definition name should
exist in GTAGS. This option requires HTML/MAP generated
by htags(1).
Some browsers require you to load it before executing gozilla.
OPTIONS ¶
The following options are available:
- ‘+no’
Line number.
- ‘-b’ browser
Browser to use. By default, it is assumed firefox.
- ‘-d’ name
Print definitions.
- ‘--help’
Show help.
- ‘-p’
Just print a generated URL instead of displaying it.
- file
File name or alias name.
- ‘-q’, ‘--quiet’
Quiet mode.
- ‘-v’, ‘--verbose’
Verbose mode.
- ‘--version’
Show version number.
FILES ¶
- GTAGS
Tag file for definitions.
- HTML/
Hypertext of source code.
- HTML/MAP
Mapping file for converting tag name into the path of tag list.
- gtags.conf, $HOME/.globalrc
Configuration data for GNU Global.
See gtags.conf(5).
ENVIRONMENT ¶
- BROWSER
Browser to use. By default, it is assumed firefox.
If you want to load the default browser in OSX, you may set this variable
to osx-default.
- GTAGSDBPATH
The directory in which the tag files exist.
This value is ignored when GTAGSROOT is not defined.
- GTAGSROOT
The root directory of the project.
EXAMPLES ¶
$ gtags
$ htags
$ global -x main
main 82 ctags.c main(argc, argv)
$ gozilla +82 ctags.c
$ gozilla -d main
$ gozilla -b lynx +82 ctags.c
DIAGNOSTICS ¶
Gozilla exits with a non-0 value if an error occurred, 0 otherwise.
SEE ALSO ¶
global(1),
gtags(1),
htags(1),
epiphany(1),
firefox(1),
gtags.conf(5).
GNU Global source code tag system
(http://www.gnu.org/software/global/).
AUTHORS ¶
Shigio YAMAGUCHI.
HISTORY ¶
The gozilla command appeared in FreeBSD 2.2.2 but was not
installed by default.
NAME ¶
gtags-cscope - interactively examine a C program
SYNOPSIS ¶
gtags-cscope [-abCdehilLvV][-F file ][-012345678 pattern][-p n]
DESCRIPTION ¶
gtags-cscope is an interactive, screen-oriented tool that allows the user to
browse through source files for specified elements of code.
gtags-cscope builds the symbol cross-reference the first time it is used on
the source files for the program being browsed. On a subsequent invocation,
gtags-cscope rebuilds the cross-reference only if a source file
has changed or the list of source files is different. When the
cross-reference is rebuilt, it is updated incrementally, which makes rebuilding faster
than the initial build.
gtags-cscope is a tool which just borrows user interface of cscope; it is Global
itself for the substance.
OPTIONS ¶
Some command line arguments can only occur as the only argument in
the execution of gtags-cscope. They cause the program to just print out
some output and exit immediately:
- ‘-h’
View the long usage help display.
- ‘-V’
Print the version number of gtags-cscope.
- ‘--help’
Same as ‘-h’
- ‘--version’
Same as ‘-V’
The following options can appear in any combination:
- ‘-a’
Print absolute path names.
- ‘-b’
Build the cross-reference only.
- ‘-C’
Ignore letter case when searching.
- ‘-d’
Do not update the cross-reference.
- ‘-e’
Suppress the ^e command prompt between files.
- ‘-F’ file
Read symbol reference lines from file.
(A symbol reference file is created by > and >>,
and can also be read using the < command,
described under “Issuing Subsequent Requests”, below.)
- ‘-i’
Ignore SIGINT signal in line-oriented mode.
- ‘-L’
Do a single search with line-oriented output when used with the
-num pattern option.
- ‘-l’
Line-oriented interface.
This option implies the ‘-d’ option.
- ‘-[0-9]’ pattern
Go to input field num (counting from 0) and find pattern.
- ‘-p’ n
Display the last n file path components instead of
the default (1). Use ‘0’ to not display the file name at all.
- ‘-v’
Be more verbose in line-oriented mode.
Requesting the initial search ¶
After the cross-reference is ready, gtags-cscope will display this menu:
Find this symbol:
Find this global definition:
Find functions called by this function (N/A):
Find references of this function:
Find this text string:
Change this text string:
Find this egrep pattern:
Find this file:
Find files #including this file:
Find assignments to this symbol:
Press the <Up> or <Down> keys repeatedly to move to the desired input
field, type the text to search for, and then press the <Return> key.
Issuing subsequent requests ¶
If the search is successful, any of these single-character commands
can be used:
- 0-9a-zA-Z
Edit the file referenced by the given line number.
- <Space>
Display next set of matching lines.
- <Tab>
Alternate between the menu and the list of matching lines
- <Up>
Move to the previous menu item (if the cursor is in the menu)
or move to the previous matching line (if the cursor is in the
matching line list).
- <Down>
Move to the next menu item (if the cursor is in the menu)
or move to the next matching line (if the cursor is in the
matching line list).
- +
Display next set of matching lines.
- -
Display previous set of matching lines.
- ^e
Edit displayed files in order.
- >
Write the displayed list of lines to a file.
- >>
Append the displayed list of lines to a file.
- <
Read lines from a file that is in symbol reference format
(created by > or >>), just like the ‘-F’ option.
- ^
Filter all lines through a shell command and display the
resulting lines, replacing the lines that were already there.
- |
Pipe all lines to a shell command and display them without
changing them.
- ^g
Read lines from the result of the execution of global(1).
At any time these single-character commands can also be used:
- <Return>
Move to next input field.
- ^n
Move to next input field.
- ^p
Move to previous input field.
- ^y
Search with the last text typed.
- ^b
Move to previous input field and search pattern.
- ^f
Move to next input field and search pattern.
- ^c
Toggle ignore/use letter case when searching. (When ignoring
letter case, a search for ‘FILE’ will match ‘File’
and ‘file’.)
- ^r
Rebuild the cross-reference.
- !
Start an interactive shell (type ^d to return to gtags-cscope).
- ^l
Redraw the screen.
- ?
Give help information about gtags-cscope commands.
- ^d
Exit gtags-cscope.
NOTE: If the first character of the text to be searched for matches
one of the above commands, escape it by typing a \ (backslash) first.
Substituting new text for old text
After the text to be changed has been typed, gtags-cscope will prompt for
the new text, and then it will display the lines containing the old
text. Select the lines to be changed with these single-character
commands:
- 0-9a-zA-Z
Mark or unmark the line to be changed.
- *
Mark or unmark all displayed lines to be changed.
- <Space>
Display next set of lines.
- +
Display next set of lines.
- -
Display previous set of lines.
- ^a
Mark or unmark all lines to be changed.
- ^d
Change the marked lines and exit.
- <Esc>
Exit without changing the marked lines.
- !
Start an interactive shell (type ^d to return to gtags-cscope).
- ^l
Redraw the screen.
- ?
Give help information about gtags-cscope commands.
- Special keys
If your terminal has arrow keys that work in vi, you can use them
to move around the input fields. The up-arrow key is useful to move to
the previous
input field instead of using the <Tab> key repeatedly. If you have
<CLEAR>, <NEXT>, or <PREV> keys they will act as the ^l, +,
and - commands, respectively.
Line-Oriented interface ¶
The ‘-l’ option lets you use gtags-cscope
where a screen-oriented interface
would not be useful, for example, from another screen-oriented program.
gtags-cscope will prompt with ‘>>’ when it is ready
for an input line, which starts
with the field number (counting from 0), immediately followed by the
search pattern. For example, ‘1main’ finds the definition of the
‘main’ function.
If you just want a single search, instead of the ‘-l’ option use
the ‘-L’ and ‘-num pattern’ options,
and you won’t get the ‘>>’ prompt.
For ‘-l’, gtags-cscope outputs the number of reference lines:
cscope: 2 lines
For each reference found, gtags-cscope outputs a line consisting of the file
name, function name, line number, and line text, separated by spaces.
For example:
main.c main 161 main(argc, argv)
Note that the editor is not called to display a single reference,
unlike the screen-oriented interface.
You can use the c command to toggle ignore/use letter case when
searching. (When ignoring letter case, a search for ‘FILE’ will
match ‘File’ and ‘file’.)
You can use the r command to rebuild the database.
gtags-cscope will quit when it detects end-of-file, or when the first
character of an input line is ^d or q.
ENVIRONMENT ¶
The following environment variables are of cscope origin.
- CSCOPE_EDITOR
Overrides the EDITOR and VIEWER variables.
Use this if you wish to use a different editor with cscope
than that specified by your EDITOR/VIEWER variables.
- CSCOPE_LINEFLAG
Format of the line number flag for your editor.
By default, cscope invokes your editor via the equivalent of
‘editor +N file’, where N is the line number
that the editor should jump to.
This format is used by both emacs and vi.
If your editor needs something different, specify it in this variable,
with ‘%s’ as a placeholder for the line number.
Eg: if your editor needs to be invoked as ‘editor -#103 file’
to go to line 103, set this variable to ‘-#%s’.
- CSCOPE_LINEFLAG_AFTER_FILE
Set this variable to ‘yes’ if your editor needs to be invoked with
the line number option after the filename to be edited. To continue
the example from CSCOPE_LINEFLAG, above: if your editor needs to see
‘editor file -#number’, set this environment variable.
Users of most standard editors (vi, emacs) do not need
to set this variable.
- EDITOR
Preferred editor, which defaults to vi.
- HOME
Home directory, which is automatically set at login.
- SHELL
Preferred shell, which defaults to sh.
- TERM
Terminal type, which must be a screen terminal.
- TERMINFO
Terminal information directory full path name. If your terminal
is not in the standard terminfo directory, see curses
and terminfo for how to make your own terminal description.
- TMPDIR
Temporary file directory, which defaults to /tmp.
- VIEWER
Preferred file display program (such as less), which overrides
EDITOR (see above).
The following environment variables are of Global origin.
- GTAGSCONF
Configuration file.
- GTAGSGLOBAL
If this variable is set, $GTAGSGLOBAL is used as the name
of global(1). The default is global.
- GTAGSGTAGS
If this variable is set, $GTAGSGTAGS is used as the name
of gtags(1). The default is gtags.
- GTAGSDBPATH
The directory in which the tag files exist.
This value is ignored when GTAGSROOT is not defined.
- GTAGSLABEL
Configuration label. The default is ‘default’.
- GTAGSLIBPATH
If this variable is set, it is used as the path to search
for library functions. If the specified tags is not
found in the project, global also searches in these paths.
Since only GTAGS is targeted in the retrieval, this variable is
ignored when ‘-r’ or ‘-s’ is specified.
- GTAGSROOT
The root directory of the project.
- MAKEOBJDIR
If this variable is set, $MAKEOBJDIR is used as the name
of BSD-style objdir. The default is obj.
- MAKEOBJDIRPREFIX
If this variable is set, $MAKEOBJDIRPREFIX is used as the prefix
of BSD-style objdir. The default is /usr/obj.
FILES ¶
- GTAGS
Tag file for definitions.
- GRTAGS
Tag file for references.
- GPATH
Tag file for source files.
- GTAGSROOT
If environment variable GTAGSROOT is not set
and file GTAGSROOT exists in the same directory as GTAGS
then global sets GTAGSROOT to the contents of the file.
- gtags.conf, $HOME/.globalrc
Configuration data for GNU Global.
See gtags.conf(5).
SEE ALSO ¶
gtags(1),
global(1),
htags(1).
GNU Global source code tag system
(http://www.gnu.org/software/global/).
BUG ¶
The function field of the display is almost <unknown> since
Global doesn’t recognize it.
‘Find functions called by this function’ is not implemented.
AUTHOR ¶
Joe Steffen (original author) and others.
HISTORY ¶
Cscope was originally developed at Bell Labs in the early 1980s,
and was released as free software under the BSD license in April 2000.
Gtags-cscope is a derivative of cscope to use Global
as the back-end.
Its line-oriented interface was originally written in 2006, and was
re-implemented in 2011 using cscope itself.
5.7 globash - a special shell for Global using GNU bash ¶
NAME ¶
globash - a special shell for Global using GNU bash
DESCRIPTION ¶
Globash is a special shell for Global using GNU bash.
You can use a lot of functions to ease reading source code,
like tag stack, tag mark and cookie.
At first, you should make tag files using gtags and
invoke this command in the project.
Please refer to the help (type ghelp<RET>) for detailed usage.
FILES ¶
- GTAGS
Tag file for definitions.
- GRTAGS
Tag file for references.
- GPATH
Tag file for source files.
- ~/.globashrc
Start-up file.
- ~/.globash/
Session directory.
ENVIRONMENT ¶
The following environment variables affect the execution of globash:
- EDITOR
The editor used by the show command.
SEE ALSO ¶
gtags(1),
htags(1),
less(1).
GNU Global source code tag system
(http://www.gnu.org/software/global/).
AUTHOR ¶
Shigio YAMAGUCHI.
HISTORY ¶
The globash command appeared in Global-4.1 (2001).
Appendix A Copying This Manual ¶
A.1 GNU Free Documentation License ¶
Version 1.2, November 2002
Copyright © 2000,2001,2002 Free Software Foundation, Inc.
51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
- PREAMBLE
The purpose of this License is to make a manual, textbook, or other
functional and useful document free in the sense of freedom: to
assure everyone the effective freedom to copy and redistribute it,
with or without modifying it, either commercially or noncommercially.
Secondarily, this License preserves for the author and publisher a way
to get credit for their work, while not being considered responsible
for modifications made by others.
This License is a kind of “copyleft”, which means that derivative
works of the document must themselves be free in the same sense. It
complements the GNU General Public License, which is a copyleft
license designed for free software.
We have designed this License in order to use it for manuals for free
software, because free software needs free documentation: a free
program should come with manuals providing the same freedoms that the
software does. But this License is not limited to software manuals;
it can be used for any textual work, regardless of subject matter or
whether it is published as a printed book. We recommend this License
principally for works whose purpose is instruction or reference.
- APPLICABILITY AND DEFINITIONS
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- VERBATIM COPYING
You may copy and distribute the Document in any medium, either
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copyright notices, and the license notice saying this License applies
to the Document are reproduced in all copies, and that you add no other
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You may also lend copies, under the same conditions stated above, and
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- COPYING IN QUANTITY
If you publish printed copies (or copies in media that commonly have
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Document’s license notice requires Cover Texts, you must enclose the
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the back cover. Both covers must also clearly and legibly identify
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Copying with changes limited to the covers, as long as they preserve
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If the required texts for either cover are too voluminous to fit
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If you publish or distribute Opaque copies of the Document numbering
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If you use the latter option, you must take reasonably prudent steps,
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Opaque copy (directly or through your agents or retailers) of that
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It is requested, but not required, that you contact the authors of the
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- MODIFICATIONS
You may copy and distribute a Modified Version of the Document under
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and modification of the Modified Version to whoever possesses a copy
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- Use in the Title Page (and on the covers, if any) a title distinct
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- List on the Title Page, as authors, one or more persons or entities
responsible for authorship of the modifications in the Modified
Version, together with at least five of the principal authors of the
Document (all of its principal authors, if it has fewer than five),
unless they release you from this requirement.
- State on the Title page the name of the publisher of the
Modified Version, as the publisher.
- Preserve all the copyright notices of the Document.
- Add an appropriate copyright notice for your modifications
adjacent to the other copyright notices.
- Include, immediately after the copyright notices, a license notice
giving the public permission to use the Modified Version under the
terms of this License, in the form shown in the Addendum below.
- Preserve in that license notice the full lists of Invariant Sections
and required Cover Texts given in the Document’s license notice.
- Include an unaltered copy of this License.
- Preserve the section Entitled “History”, Preserve its Title, and add
to it an item stating at least the title, year, new authors, and
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- Preserve the network location, if any, given in the Document for
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You may omit a network location for a work that was published at
least four years before the Document itself, or if the original
publisher of the version it refers to gives permission.
- For any section Entitled “Acknowledgements” or “Dedications”, Preserve
the Title of the section, and preserve in the section all the
substance and tone of each of the contributor acknowledgements and/or
dedications given therein.
- Preserve all the Invariant Sections of the Document,
unaltered in their text and in their titles. Section numbers
or the equivalent are not considered part of the section titles.
- Delete any section Entitled “Endorsements”. Such a section
may not be included in the Modified Version.
- Do not retitle any existing section to be Entitled “Endorsements” or
to conflict in title with any Invariant Section.
- Preserve any Warranty Disclaimers.
If the Modified Version includes new front-matter sections or
appendices that qualify as Secondary Sections and contain no material
copied from the Document, you may at your option designate some or all
of these sections as invariant. To do this, add their titles to the
list of Invariant Sections in the Modified Version’s license notice.
These titles must be distinct from any other section titles.
You may add a section Entitled “Endorsements”, provided it contains
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been approved by an organization as the authoritative definition of a
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You may add a passage of up to five words as a Front-Cover Text, and a
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- COMBINING DOCUMENTS
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Make the same adjustment to the section titles in the list of
Invariant Sections in the license notice of the combined work.
In the combination, you must combine any sections Entitled “History”
in the various original documents, forming one section Entitled
“History”; likewise combine any sections Entitled “Acknowledgements”,
and any sections Entitled “Dedications”. You must delete all
sections Entitled “Endorsements.”
- COLLECTIONS OF DOCUMENTS
You may make a collection consisting of the Document and other documents
released under this License, and replace the individual copies of this
License in the various documents with a single copy that is included in
the collection, provided that you follow the rules of this License for
verbatim copying of each of the documents in all other respects.
You may extract a single document from such a collection, and distribute
it individually under this License, provided you insert a copy of this
License into the extracted document, and follow this License in all
other respects regarding verbatim copying of that document.
- AGGREGATION WITH INDEPENDENT WORKS
A compilation of the Document or its derivatives with other separate
and independent documents or works, in or on a volume of a storage or
distribution medium, is called an “aggregate” if the copyright
resulting from the compilation is not used to limit the legal rights
of the compilation’s users beyond what the individual works permit.
When the Document is included in an aggregate, this License does not
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If the Cover Text requirement of section 3 is applicable to these
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the entire aggregate, the Document’s Cover Texts may be placed on
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- TRANSLATION
Translation is considered a kind of modification, so you may
distribute translations of the Document under the terms of section 4.
Replacing Invariant Sections with translations requires special
permission from their copyright holders, but you may include
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original versions of these Invariant Sections. You may include a
translation of this License, and all the license notices in the
Document, and any Warranty Disclaimers, provided that you also include
the original English version of this License and the original versions
of those notices and disclaimers. In case of a disagreement between
the translation and the original version of this License or a notice
or disclaimer, the original version will prevail.
If a section in the Document is Entitled “Acknowledgements”,
“Dedications”, or “History”, the requirement (section 4) to Preserve
its Title (section 1) will typically require changing the actual
title.
- TERMINATION
You may not copy, modify, sublicense, or distribute the Document except
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- FUTURE REVISIONS OF THIS LICENSE
The Free Software Foundation may publish new, revised versions
of the GNU Free Documentation License from time to time. Such new
versions will be similar in spirit to the present version, but may
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as a draft) by the Free Software Foundation.
A.1.1 ADDENDUM: How to use this License for your documents ¶
To use this License in a document you have written, include a copy of
the License in the document and put the following copyright and
license notices just after the title page:
Copyright (C) year your name.
Permission is granted to copy, distribute and/or modify this document
under the terms of the GNU Free Documentation License, Version 1.2
or any later version published by the Free Software Foundation;
with no Invariant Sections, no Front-Cover Texts, and no Back-Cover
Texts. A copy of the license is included in the section entitled ``GNU
Free Documentation License''.
If you have Invariant Sections, Front-Cover Texts and Back-Cover Texts,
replace the “with...Texts.” line with this:
with the Invariant Sections being list their titles, with
the Front-Cover Texts being list, and with the Back-Cover Texts
being list.
If you have Invariant Sections without Cover Texts, or some other
combination of the three, merge those two alternatives to suit the
situation.
If your document contains nontrivial examples of program code, we
recommend releasing these examples in parallel under your choice of
free software license, such as the GNU General Public License,
to permit their use in free software.
About This Document
This document was generated on December 11, 2024 using texi2any.
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where the Example assumes that the current position is at Subsubsection One-Two-Three of a document of the following structure:
- 1. Section One
- 1.1 Subsection One-One
- 1.2 Subsection One-Two
- 1.2.1 Subsubsection One-Two-One
- 1.2.2 Subsubsection One-Two-Two
- 1.2.3 Subsubsection One-Two-Three
<== Current Position
- 1.2.4 Subsubsection One-Two-Four
- 1.3 Subsection One-Three
- 1.4 Subsection One-Four
|