Understanding Modules
=====================
Alain Reguera Delgado <al@centos.org.cu>
v0.1, Oct 2013

Overview
--------

From version 0.5, the *centos-art.sh* script introduces the idea of
modules to its base design. Modules are a collection of functions
written in Bash that can call one another to create individual
execution environments. They may be nested to achieve high levels of
maintainability and extensibility. This make possible for modules
writers to divide complicated tasks into smaller tasks that can be
easier to debug, maintain and share with other modules efficiently
(e.g., instead of loading modules all at once, they are only loaded at
demand and unset once they conclude their execution).

This article describes the modular design of *centos-art.sh* script.
It is a good place for you to start if you are planning to contribute
new module environments to *centos-art.sh* script or want to know more
about how it works. The next section delves into what a module
environment is, the three module types you can find in it and the
correct way of execute each one of them.

[[module-environment]]
Module Environment
------------------

When you execute the *centos-art.sh* script you create an execution
environment in which variables and functions are defined. The
execution environment is the higher environment inside *centos-art.sh*
script. It is considered to have a ``global'' scope, so variables and
functions defined in it are always available for any function
execution made from it. You can control the execution environment of
*centos-art.sh* script through files +centos-art.sh+ and
+centos-art.conf.sh+. These files don't provide too much functionality
so module environments are executed from +centos-art.sh+, to extend
its functionality.

Module environments are made of small functions that perform small
tasks and can be further executed in a specific order to produce the
desired result.  Module environments are executed and destroyed at
demand.  Inside *centos-art.sh*, module environments can be either
``parent modules,'' ``child modules,'' or ``sibling modules.''

Parent Modules
~~~~~~~~~~~~~~

Parent modules are initiated by executing the
*tcar_setModuleEnvironment* function with the *-t parent* option set
on it. Parent modules are very simple in design and you can use them
to implement simple solutions quickly. Normally, when you execute a
parent module, you initiate the highest module environment possible
inside *centos-art.sh* script.  Because of such high scope, parent
modules are frequently used to define module's global variables,
interpret module-specific options passed through the command-line and
execute the appropriate actions based on them.

In <<debug-parent-modules>>, we have executed the *hello* module with
the *--greeting=hi* and *--debug* options through the command-line. In
this example, *centos-art.sh* script executes a parent module named
*hello*, processes the module-specific options passed through the
command-line, prints a greeting message to standard output and exits
successfully.

[[debug-parent-modules]]
.Debugging execution of parent modules
======================================================================
----------------------------------------------------------------------
Thu 10 Oct 2013 11:53:28 PM CDT =========================>      [0] | main
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_NAME                [0]=hello
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_TYPE                parent
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_ARGUMENT            --greeting=hi  
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_LIST                hello|help|locale|prepare|render|tuneup|vcs
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Manuals
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Locales
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Configs
Thu 10 Oct 2013 11:53:28 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/hello.sh
Thu 10 Oct 2013 11:53:28 PM CDT TEXTDOMAIN                      hello.sh
Thu 10 Oct 2013 11:53:28 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Locales
Thu 10 Oct 2013 11:53:28 PM CDT export -f                       hello
Thu 10 Oct 2013 11:53:28 PM CDT export -f                       hello_getOptions
Thu 10 Oct 2013 11:53:28 PM CDT ------------------------->      hello --greeting=hi  
hi             
Thu 10 Oct 2013 11:53:28 PM CDT <-------------------------      hello 
Thu 10 Oct 2013 11:53:28 PM CDT unset -f                        hello
Thu 10 Oct 2013 11:53:28 PM CDT unset -f                        hello_getOptions
Thu 10 Oct 2013 11:53:28 PM CDT <=========================      [0] | main
----------------------------------------------------------------------
======================================================================

<<debug-parent-modules>> describes an entire module environment in
action. With this information you can create your own module
environment, already. However, when your module is getting too much
complicated you probably want to divide it in smaller pieces that you
can execute accordingly, based on the purpose you defined for it. Such
kind of division can be implemented through ``modules' related
functions.''

Module's related functions are stored in the same directory of your
module's initialization file and they are very useful when you are
refactoring it.  Definitions of module's related functions are loaded
before the initialization file does, so it is a good practice to
create them only when you are absolutely sure they will be executed in
your module. Otherwise they may be loaded and never be used, which
make the script to waste memory unnecessarily. In these cases, when
you need to divide the logic of a module in smaller pieces where these
pieces may or may not be executed based on specific conditions, all
taking place in the same iteration, then using ``_child modules_'' is
a more suitable approach.

[[child-modules]]
Child Modules
~~~~~~~~~~~~~

Child modules are initiated by executing the
*tcar_setModuleEnvironment* function with the *-t child* option set on
it.  Child modules have the characteristic of being nested modules.
They cannot be executed from the command-line. Normally, child modules
are executed from parent modules but they can be executed from other
child modules, too.  When several child modules are executed in one
single iteration of *centos-art.sh*, they create a chain of modules.
A chain of modules is very useful in situations where you want to
divide one large task into smaller tasks and also control which of
these smaller tasks is executed based on specific conditions (e.g.,
you may want to render images or documentation, but not both, in one
single iteration of *centos-art.sh* script).  In a chain of modules,
lower modules in the chain (those started last) have access to
information set by modules higher in the chain (those started first),
but not the opposite. When processing information this way, modules
aren't destroyed until the last module executed in the chain has
finished its work (e.g., all the commands inside it have been
executed). At that point, child modules are destroyed in the reverse
order they were executed.

For example, when you execute the *hello* module with both *--debug*
and *--upper* option, *centos-art.sh* script creates a chain of three
modules to produce the greeting message.  Firstly, it begins by
executing the parent module named *hello*, then it continues with the
child module named *output* which in turn executes the child module
name *lower* to finally print the expected greeting message.  In this
example, the module named *lower* is the last module in the chain of
executed modules. It has access to all information defined by earlier
modules (e.g., in *hello* and *output* modules) and none of its earlier
modules will be destroyed until it has finished its work. This process
becomes more visible when you take a look at <<debug-child-modules>>.

[[debug-child-modules]]
.Debugging execution of child modules
======================================================================
----------------------------------------------------------------------
Thu 10 Oct 2013 11:52:41 PM CDT =========================>      [0] | main
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_NAME                [0]=hello
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_TYPE                parent
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_ARGUMENT            --upper --greeting=hi  
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_LIST                hello|help|locale|prepare|render|tuneup|vcs
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Manuals
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Locales
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Configs
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/hello.sh
Thu 10 Oct 2013 11:52:41 PM CDT TEXTDOMAIN                      hello.sh
Thu 10 Oct 2013 11:52:41 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Locales
Thu 10 Oct 2013 11:52:41 PM CDT export -f                       hello
Thu 10 Oct 2013 11:52:41 PM CDT export -f                       hello_getOptions
Thu 10 Oct 2013 11:52:41 PM CDT ------------------------->      hello --upper --greeting=hi  
Thu 10 Oct 2013 11:52:41 PM CDT =========================>      [1] | hello
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules/Hello/Modules
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_NAME                [1]=output
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_TYPE                child
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_ARGUMENT             
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_LIST                output
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello/Modules/Output
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules/Output/Modules
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Modules/Output/Manuals
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Modules/Output/Locales
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Modules/Output/Configs
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/Modules/Output/output.sh
Thu 10 Oct 2013 11:52:41 PM CDT TEXTDOMAIN                      output.sh
Thu 10 Oct 2013 11:52:41 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Modules/Output/Locales
Thu 10 Oct 2013 11:52:41 PM CDT export -f                       output
Thu 10 Oct 2013 11:52:41 PM CDT ------------------------->      output  
Thu 10 Oct 2013 11:52:41 PM CDT =========================>      [2] | output
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules/Hello/Modules/Output/Modules
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_NAME                [2]=upper
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_TYPE                child
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_ARGUMENT             
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_LIST                camel|lower|random|upper
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello/Modules/Output/Modules/Upper
Thu 10 Oct 2013 11:52:41 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules/Output/Modules/Upper/Modules
Thu 10 Oct 2013 11:52:42 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Modules/Output/Modules/Upper/Manuals
Thu 10 Oct 2013 11:52:42 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Modules/Output/Modules/Upper/Locales
Thu 10 Oct 2013 11:52:42 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Modules/Output/Modules/Upper/Configs
Thu 10 Oct 2013 11:52:42 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/Modules/Output/Modules/Upper/upper.sh
Thu 10 Oct 2013 11:52:42 PM CDT TEXTDOMAIN                      upper.sh
Thu 10 Oct 2013 11:52:42 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Modules/Output/Modules/Upper/Locales
Thu 10 Oct 2013 11:52:42 PM CDT export -f                       upper
Thu 10 Oct 2013 11:52:42 PM CDT ------------------------->      upper  
HI             
Thu 10 Oct 2013 11:52:42 PM CDT <-------------------------      upper  
Thu 10 Oct 2013 11:52:42 PM CDT unset -f                        upper
Thu 10 Oct 2013 11:52:42 PM CDT <=========================      [2] | output 
Thu 10 Oct 2013 11:52:42 PM CDT <-------------------------      output  
Thu 10 Oct 2013 11:52:42 PM CDT unset -f                        output
Thu 10 Oct 2013 11:52:42 PM CDT <=========================      [1] | hello 
Thu 10 Oct 2013 11:52:42 PM CDT <-------------------------      hello 
Thu 10 Oct 2013 11:52:42 PM CDT unset -f                        hello
Thu 10 Oct 2013 11:52:42 PM CDT unset -f                        hello_getOptions
Thu 10 Oct 2013 11:52:42 PM CDT <=========================      [0] | main 
----------------------------------------------------------------------
======================================================================

The module environment described in <<debug-child-modules>> shows the
child modules' ability of reducing scope as they get deeper in the
chain of executed modules. However, child modules lack the possibility
of nest modules that share the same scope. For example, in the *hello*
module described above, you cannot execute the modules *lower*  or
*upper* from *camel* module, as if they were child modules of it.
That is not possible because they all have the same scope, which is,
to print the greeting message to standard output. Child modules are
conceived to reduce the module scope as new child modules are
executed. When you need to execute new module environments and, also,
retain the last scope from which the new module is executed, you need
to use ``_sibling modules_,'' instead.

Sibling Modules
~~~~~~~~~~~~~~~

Sibling modules are initiated by executing the
*tcar_setModuleEnvironment* function with the *-t sibling* option set
on it.  Sibling modules are another type of nested modules but, in
contrast with child modules, sibling modules cannot be executed from
parent modules. Normally, sibling modules are executed from other
sibling modules but, considering the context, they can be executed
from child module too, to initiate sibling processing. When several
siblings modules are executed, they also build a chain of modules. In
contrast with the chain of child modules, the chain of sibling modules
destroys the last sibling module executed before executing the next
sibling module. This make the chain to stop its growing at sibling
module processing, unless you call a child module from a sibling
module. In this case, the chain expansion would continue as long as
the number of child modules you execute. This process becomes more
visible when you take a look at <<debug-sibling-modules>>.

In <<debug-sibling-modules>>, we've executed the *hello* module with
the *--greeting=hi*, *--camel*, and *--debug* options. In this
example, *centos-art.sh* script executes the *hello* module then the
*output* module which in turn executes the *camel* module. At this
point, can appreciate how the chain of modules stop growing. Observe
that *camel* module has gained the position 2 in the chain of modules
and executes the *upper* module which takes the position 3, as
expected. Now, when *upper* module finishes its work it is destroyed
and the module's counter is reset to its previous value which is 2
(the one set by *camel* module). Then, *camel* executes the *lower*
module which take position 3 at the chain of modules until it
finishes. When it finishes, the *camel* module finishes its work and
is destroyed, then *output*, then *hello*.

[[debug-sibling-modules]]
.Debugging execution of sibling modules
======================================================================
----------------------------------------------------------------------
Thu 10 Oct 2013 11:51:42 PM CDT =========================>      [0] | main
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_NAME                [0]=hello
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_TYPE                parent
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_ARGUMENT            --camel --greeting=hi  
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_LIST                hello|help|locale|prepare|render|tuneup|vcs
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Manuals
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Locales
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Configs
Thu 10 Oct 2013 11:51:42 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/hello.sh
Thu 10 Oct 2013 11:51:42 PM CDT TEXTDOMAIN                      hello.sh
Thu 10 Oct 2013 11:51:42 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Locales
Thu 10 Oct 2013 11:51:43 PM CDT export -f                       hello
Thu 10 Oct 2013 11:51:43 PM CDT export -f                       hello_getOptions
Thu 10 Oct 2013 11:51:43 PM CDT ------------------------->      hello --camel --greeting=hi  
Thu 10 Oct 2013 11:51:43 PM CDT =========================>      [1] | hello
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules/Hello/Modules
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_NAME                [1]=output
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_TYPE                child
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_ARGUMENT             
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_LIST                output
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello/Modules/Output
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules/Output/Modules
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Modules/Output/Manuals
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Modules/Output/Locales
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Modules/Output/Configs
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/Modules/Output/output.sh
Thu 10 Oct 2013 11:51:43 PM CDT TEXTDOMAIN                      output.sh
Thu 10 Oct 2013 11:51:43 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Modules/Output/Locales
Thu 10 Oct 2013 11:51:43 PM CDT export -f                       output
Thu 10 Oct 2013 11:51:43 PM CDT ------------------------->      output  
Thu 10 Oct 2013 11:51:43 PM CDT =========================>      [2] | output
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules/Hello/Modules/Output/Modules
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_NAME                [2]=camel
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_TYPE                child
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_ARGUMENT             
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_LIST                camel|lower|random|upper
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello/Modules/Output/Modules/Camel
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules/Output/Modules/Camel/Modules
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Modules/Output/Modules/Camel/Manuals
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Modules/Output/Modules/Camel/Locales
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Modules/Output/Modules/Camel/Configs
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/Modules/Output/Modules/Camel/camel.sh
Thu 10 Oct 2013 11:51:43 PM CDT TEXTDOMAIN                      camel.sh
Thu 10 Oct 2013 11:51:43 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Modules/Output/Modules/Camel/Locales
Thu 10 Oct 2013 11:51:43 PM CDT export -f                       camel
Thu 10 Oct 2013 11:51:43 PM CDT ------------------------->      camel  
Thu 10 Oct 2013 11:51:43 PM CDT =========================>      [3] | camel
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules/Hello/Modules/Output/Modules
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_NAME                [3]=upper
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_TYPE                sibling
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_ARGUMENT             
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_LIST                camel|lower|random|upper
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello/Modules/Output/Modules/Upper
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules/Output/Modules/Upper/Modules
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Modules/Output/Modules/Upper/Manuals
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Modules/Output/Modules/Upper/Locales
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Modules/Output/Modules/Upper/Configs
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/Modules/Output/Modules/Upper/upper.sh
Thu 10 Oct 2013 11:51:43 PM CDT TEXTDOMAIN                      upper.sh
Thu 10 Oct 2013 11:51:43 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Modules/Output/Modules/Upper/Locales
Thu 10 Oct 2013 11:51:43 PM CDT export -f                       upper
Thu 10 Oct 2013 11:51:43 PM CDT ------------------------->      upper  
H              
Thu 10 Oct 2013 11:51:43 PM CDT <-------------------------      upper  
Thu 10 Oct 2013 11:51:43 PM CDT unset -f                        upper
Thu 10 Oct 2013 11:51:43 PM CDT <=========================      [3] | camel 
Thu 10 Oct 2013 11:51:43 PM CDT =========================>      [3] | camel
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules/Hello/Modules/Output/Modules
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_NAME                [3]=lower
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_TYPE                sibling
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_ARGUMENT             
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_LIST                camel|lower|random|upper
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello/Modules/Output/Modules/Lower
Thu 10 Oct 2013 11:51:43 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules/Output/Modules/Lower/Modules
Thu 10 Oct 2013 11:51:44 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Modules/Output/Modules/Lower/Manuals
Thu 10 Oct 2013 11:51:44 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Modules/Output/Modules/Lower/Locales
Thu 10 Oct 2013 11:51:44 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Modules/Output/Modules/Lower/Configs
Thu 10 Oct 2013 11:51:44 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/Modules/Output/Modules/Lower/lower.sh
Thu 10 Oct 2013 11:51:44 PM CDT TEXTDOMAIN                      lower.sh
Thu 10 Oct 2013 11:51:44 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Modules/Output/Modules/Lower/Locales
Thu 10 Oct 2013 11:51:44 PM CDT export -f                       lower
Thu 10 Oct 2013 11:51:44 PM CDT ------------------------->      lower  
i              
Thu 10 Oct 2013 11:51:44 PM CDT <-------------------------      lower  
Thu 10 Oct 2013 11:51:44 PM CDT unset -f                        lower
Thu 10 Oct 2013 11:51:44 PM CDT <=========================      [3] | camel 
Thu 10 Oct 2013 11:51:44 PM CDT <-------------------------      camel  
Thu 10 Oct 2013 11:51:44 PM CDT unset -f                        camel
Thu 10 Oct 2013 11:51:44 PM CDT <=========================      [2] | output 
Thu 10 Oct 2013 11:51:44 PM CDT <-------------------------      output  
Thu 10 Oct 2013 11:51:44 PM CDT unset -f                        output
Thu 10 Oct 2013 11:51:44 PM CDT <=========================      [1] | hello 
Thu 10 Oct 2013 11:51:44 PM CDT <-------------------------      hello 
Thu 10 Oct 2013 11:51:44 PM CDT unset -f                        hello
Thu 10 Oct 2013 11:51:44 PM CDT unset -f                        hello_getOptions
Thu 10 Oct 2013 11:51:44 PM CDT <=========================      [0] | main
----------------------------------------------------------------------
======================================================================

<<debug-sibling-modules>> shows a single iteration of *centos-art.sh*
script executing different types of modules. Normally, one module is
executed at some point and destroyed at the same point when it has
finished its work, however, what if the next immediate module you are
about to execute is the same module you are about to destroyed? This
is, you need to execute the last module in the chain of executed
modules again, but, this time, from itself.  In cases like this, the
*centos-art.sh* script doesn't destroy the last module.  It cannot,
because you are certainly executing a new module from itself, so it
has to wait for this new call to finish in order to be destroyed. This
kind of processing is known as _processing modules recursively._

Recursive Modules
~~~~~~~~~~~~~~~~~

When one module environment executes itself we are in presence of a
recursive module execution. The execution of modules recursively
doesn't destroy the last module in the chain of executed modules and
doesn't increment or decrement the module counter either. The module
counter is somehow frozen until a different module environment is
executed. In this cases, the last module environment remains in memory
for the new module execution to make use of. This process becomes more visible
when you take a look at <<debug-recursive-modules>>.

[CAUTION]
When you execute modules recursively, you should be very careful not
to get trapped into an endless loop.

In <<debug-recursive-modules>>, we've executed the *hello* module with
the *--greeting=hello*, *--random*, and *--debug* options. In this
example, *centos-art.sh* script executes a parent module named *hello*
which in turn executes a child module named *output* which in turn
executes a child module named *random*. At this point, the *random*
modules executes itself five times (the number of characters passed as
value to greeting option) to print out random letters from the
greeting message. The output may have no much sense on itself but the
related debugging information helps to understand the execution of
modules recursively.

[[debug-recursive-modules]]
.Processing execution of modules recursively
======================================================================
----------------------------------------------------------------------
Thu 10 Oct 2013 11:50:03 PM CDT =========================>      [0] | main
Thu 10 Oct 2013 11:50:03 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules
Thu 10 Oct 2013 11:50:03 PM CDT TCAR_MODULE_NAME                [0]=hello
Thu 10 Oct 2013 11:50:03 PM CDT TCAR_MODULE_TYPE                parent
Thu 10 Oct 2013 11:50:03 PM CDT TCAR_MODULE_ARGUMENT            --random --greeting=Hello  
Thu 10 Oct 2013 11:50:03 PM CDT TCAR_MODULE_LIST                hello|help|locale|prepare|render|tuneup|vcs
Thu 10 Oct 2013 11:50:03 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello
Thu 10 Oct 2013 11:50:03 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules
Thu 10 Oct 2013 11:50:03 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Manuals
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Locales
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Configs
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/hello.sh
Thu 10 Oct 2013 11:50:04 PM CDT TEXTDOMAIN                      hello.sh
Thu 10 Oct 2013 11:50:04 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Locales
Thu 10 Oct 2013 11:50:04 PM CDT export -f                       hello
Thu 10 Oct 2013 11:50:04 PM CDT export -f                       hello_getOptions
Thu 10 Oct 2013 11:50:04 PM CDT ------------------------->      hello --random --greeting=Hello  
Thu 10 Oct 2013 11:50:04 PM CDT =========================>      [1] | hello
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules/Hello/Modules
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_NAME                [1]=output
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_TYPE                child
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_ARGUMENT             
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_LIST                output
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello/Modules/Output
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules/Output/Modules
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Modules/Output/Manuals
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Modules/Output/Locales
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Modules/Output/Configs
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/Modules/Output/output.sh
Thu 10 Oct 2013 11:50:04 PM CDT TEXTDOMAIN                      output.sh
Thu 10 Oct 2013 11:50:04 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Modules/Output/Locales
Thu 10 Oct 2013 11:50:04 PM CDT export -f                       output
Thu 10 Oct 2013 11:50:04 PM CDT ------------------------->      output  
Thu 10 Oct 2013 11:50:04 PM CDT =========================>      [2] | output
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_BASEDIR             Automation/Modules/Hello/Modules/Output/Modules
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_NAME                [2]=random
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_TYPE                child
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_ARGUMENT             
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_LIST                camel|lower|random|upper
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR                 Automation/Modules/Hello/Modules/Output/Modules/Random
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_MODULES         Automation/Modules/Hello/Modules/Output/Modules/Random/Modules
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_MANUALS         Automation/Modules/Hello/Modules/Output/Modules/Random/Manuals
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_LOCALES         Automation/Modules/Hello/Modules/Output/Modules/Random/Locales
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_DIR_CONFIGS         Automation/Modules/Hello/Modules/Output/Modules/Random/Configs
Thu 10 Oct 2013 11:50:04 PM CDT TCAR_MODULE_INIT_FILE           Automation/Modules/Hello/Modules/Output/Modules/Random/random.sh
Thu 10 Oct 2013 11:50:04 PM CDT TEXTDOMAIN                      random.sh
Thu 10 Oct 2013 11:50:04 PM CDT TEXTDOMAINDIR                   Automation/Modules/Hello/Modules/Output/Modules/Random/Locales
Thu 10 Oct 2013 11:50:04 PM CDT export -f                       random
Thu 10 Oct 2013 11:50:04 PM CDT ------------------------->      random  
H              
Thu 10 Oct 2013 11:50:04 PM CDT ~~~~~~~~~~~~~~~~~~~~~~~~~>      random  
H              
Thu 10 Oct 2013 11:50:04 PM CDT ~~~~~~~~~~~~~~~~~~~~~~~~~>      random  
l              
Thu 10 Oct 2013 11:50:04 PM CDT ~~~~~~~~~~~~~~~~~~~~~~~~~>      random  
l              
Thu 10 Oct 2013 11:50:04 PM CDT ~~~~~~~~~~~~~~~~~~~~~~~~~>      random  
H              
Thu 10 Oct 2013 11:50:04 PM CDT <-------------------------      random  
Thu 10 Oct 2013 11:50:04 PM CDT unset -f                        random
Thu 10 Oct 2013 11:50:04 PM CDT <=========================      [2] | output 
Thu 10 Oct 2013 11:50:04 PM CDT <-------------------------      output  
Thu 10 Oct 2013 11:50:05 PM CDT unset -f                        output
Thu 10 Oct 2013 11:50:05 PM CDT <=========================      [1] | hello 
Thu 10 Oct 2013 11:50:05 PM CDT <-------------------------      hello 
Thu 10 Oct 2013 11:50:05 PM CDT unset -f                        hello
Thu 10 Oct 2013 11:50:05 PM CDT unset -f                        hello_getOptions
Thu 10 Oct 2013 11:50:05 PM CDT <=========================      [0] | main 
----------------------------------------------------------------------
======================================================================

Recursive execution of modules occurs only when the module you are
executing is considered sibling of the last module executed in the
chain of executed modules and they both have the same name. The fact
that no variable name is printed out in <<debug-recursive-modules>>
means that they were not created. The change in the arrows shown in
the example, from +->+ to +~>+, means that module's related functions
weren't exported for the new module execution either. It also means
that the initialization script is reusing both module's related
functions variables from the last module's environment in the chain of
executed modules. In this case *random* module itself.

Summary
~~~~~~~

This section has covered the module environment inside *centos-art.sh*
script, including module types and possible combinations of them. The
next section takes these concepts and focuses on the implementation of
them. Once you finish it, you should be able of writing your own
module environments from scratch inside *centos-art.sh* script.

[[module-implementation]]
Module Implementation
---------------------

The *centos-art.sh* script implements module environments inside the
``+Modules+'' directory. Inside this directory, each module
environment has its own directory.  Inside each module directory there
is one initialization file and, optionally, module-related stuff like
functions, locales, documentation, configuration and dependent
modules.  Inside the +Modules+ directory, module directories are
written capitalized while initialization files, inside them, are
written in lower case.  Even though module directories and
initialization files are written differently, they both make a single
module because they use the same single name.

For example, consider the creation of a module named *hello*. The
purpose of this module is to print a greeting message to standard
output and then exit successfully. To create such a module, we need to
create a directory named ``Hello'' inside the ``Modules'' directory
and put an initialization file named ``hello.sh'' inside it.  Because
we want to execute the *hello* module from *centos-art.sh* script
command-line, we put it in the first level of directories of +Modules+
directory. See <<parent-module-layout>>.

[[parent-module-layout]]
.Directory layout used by parent modules
======================================================================
----------------------------------------------------------------------
.
|-- COPYING                 <1>
|-- Locales/                <2>
|-- Manuals/                <3>
|-- Modules/                <4>
|   `-- Hello/              <5>
|       `-- hello.sh        <6>
|-- Scripts/                <7>
|-- centos-art.conf.sh      <8>
`-- centos-art.sh           <9>
----------------------------------------------------------------------

<1> Script's copying conditions.
<2> Script's localization files.
<3> Script's documentation files.
<4> Script's modules. Here is where you store parent modules.
<5> Parent directory of module named hello.
<6> Initialization file of module named hello.
<7> Script's global functions.
<8> Script's configuration file.
<9> Script's initialization file.
======================================================================

<<parent-module-layout>> presents a complete module layout you can use
as reference to create your own module implementations. However, it is
not complete yet.  At this point, when you execute *centos-art.sh*, it
is able to find out *hello* module's initialization file and execute
it but that prints an error message because the initialization file
doesn't have a function definition inside. It is completely empty.  In
order for *centos-art.sh* script to do something useful, you need to
write a function definition inside the initialization file, as
described in <<module-init-file>>.

[[module-init-file]]
The Initialization File
~~~~~~~~~~~~~~~~~~~~~~~

The module's initialization file contains the module's main function
definition and a comment describing what it does on top of it.  This
comment includes a small description about what the function does, a
written by section, the copyright note and the legal status of the
file. The function definition is set later and must be written using
the long definition format (i.e., it must begin with the word
``+function+,'' then the function name, and finally the ``+{+''
character).  The name of the function is exactly the same of the
initialization file but without the +.sh+ extension. These conditions
are required in order for *centos-art.sh* script to execute the
function definition and destroy it when it is no longer used.  See
<<initialization-file>>.

The function definition is where you write all the commands you want
the module runs, once executed.  The function definition can be as
simple as just one single line of code or as complex as you can
imagine. It is the place where you express your solutions. However,
when writing initialization files, it is considered a good practice to
avoid any sort of complexity.  Instead, try to write small and simple
initialization files.  In case you notice the initialization file is
growing up inevitably, you can reduce its code by refactoring it.  To
do this, you can use resources like module related functions and child
modules. These resources are described in
<<extended-module-implementation>>, and they help you to keep the
initialization file in a clean state, easy to understand, maintain and
debug.

[[initialization-file]]
.Initialization file used by hello module
======================================================================
----------------------------------------------------------------------
#!/bin/bash
######################################################################
#
#   hello.sh -- Print out greetings to standard output and exit
#   successfully.
#
#   Written by:
#   * Alain Reguera Delgado <al@centos.org.cu>, 2013
#
# Copyright (C) 2009-2013 The CentOS Artwork SIG
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or (at
# your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
#
######################################################################

function hello {

    tcar_printMessage "`gettext "Hello, World!"`" --as-stdout-line

}
----------------------------------------------------------------------
======================================================================

The function definition described in <<initialization-file>> uses the
*tcar_printMessage* global function to print localized versions of the
string ``Hello, World!'' to standard output. Because there isn't no
other command in the function definition, when the greeting message is
printed out, *centos-art.sh* destroys the *hello* module and exit
successfully. This process is more visible when also pass the
*--debug* option. See <<debug-parent-modules>>.

Summary
~~~~~~~

Congratulations! You've implemented a module environment inside
*centos-art.sh* script. With the information you have so far, you are
able to create your own module environment implementations. The next
section delves into available resources you can use to optimize module
environments when the initialization file starts growing inevitably
and complexity daemons begin hammering your head.

[[module-directory-structure]]
Module Directory Structure
--------------------------

Child modules and sibling modules are nested modules. They are stored
inside other modules. Frequently we first write parent modules and
extend them through child modules. This, when function related files
cannot fix the problem efficiently.  Module related function files are
stored at the same level of initialization file inside the module's
directory.

[[child-module-layout]]
.The directory structure of child and sibling modules
======================================================================
----------------------------------------------------------------------
.
|-- COPYING
|-- Locales/
|-- Manuals/
|-- Modules/
|   `-- Hello/
|       |-- Modules/
|       |   `-- Output/             <1>
|       |       |-- Lower/          <2>
|       |       |   `-- lower.sh    <3>
|       |       |-- Upper/          <4>
|       |       |   `-- upper.sh    <5>
|       |       `-- output.sh       <6>
|       |-- hello.sh
|       `-- hello_getOptions.sh
|-- Scripts/
|-- centos-art.conf.sh
`-- centos-art.sh
----------------------------------------------------------------------

<1> Child module of hello module.
<2> Child module of output module and sibling module of upper module.
<3> Initialization file of lower module.
<4> Child module of output module and sibling module of lower module.
<5> Initialization file of upper module.
<6> Initialization file of output module.
======================================================================

The +Modules+ Directory
~~~~~~~~~~~~~~~~~~~~~~~

Inside the +Modules+ directory, regardless its level, there is one
directory for each module environment. Inside each module's directory
there is one initialization file and, optionally, one or more
module-related function files. and any of the following
sub-directories:

+Modules/+::
    Organizes child modules for the current module. This directory
    share the same structural restrictions of its parent (e.g., each
    module stored here needs to have a module directory and a
    initialization file inside it to be functional). To know more
    about this directory, see <<extended-module-implementation>>.

+Locales/+::
    Organizes localization files for the current module. This
    directory contains POT, PO and MO files, the *centos-art.sh*
    script needs to print localized messages. Must of these files are
    automatically created by *locale* module.  To know more about this
    directory, see <<module-locales-directory>>.

+Manuals/+::
    Organizes documentation files for the current module. This
    directory contains asciidoc files used to produce documentation in
    html and manpage format. The manpage format is used by
    centos-art.sh script to print module's documentation when the
    *--help* option is passed to the command-line. To know more about
    this directory, see <<module-manuals-directory>>.

+Configs/+::
    Organizes configuration files for the current module. This
    directory contains non-sh files the current module depends on to
    complete the task it was created for (e.g., sed scripts, gawk
    scripts, etc.). To know more about this directory, see
    <<module-configs-directory>>.

Module directories and module initialization files must have the same
name.  Module directories are written capitalized and initialization
files in lowercase. Module related functions are written in camel-case
and use the module name as suffix. More about module-related functions
and child modules, later, in <<extended-module-implementation>>.

... describes the root location of *centos-art.sh*
script and <<parent-module-layout>> how it looks like after adding the
*hello* module to it.  In this last example, the directory named
``Hello'' contains the files related to *hello* module environment
(e.g., the initialization file). Other components like module related
functions were intentionally omitted for simplicity sake. They are
covered later, in <<extended-module-implementation>>.

[[module-locales-directory]]
The +Locales+ Directory
~~~~~~~~~~~~~~~~~~~~~~~

Module localization ...

[[module-manuals-directory]]
The +Manuals+ Directory
~~~~~~~~~~~~~~~~~~~~~~~

Module documentation ...

[[module-configs-directory]]
Module +Configs+ Directory
~~~~~~~~~~~~~~~~~~~~~~~~~~

Module configuration ...

Summary
~~~~~~~

This section described how you can create a functional module
environment from scratch. However, it doesn't explain how you can
extend the module environment using related functions or child
modules.  The next section introduces the concept of module functions
and explain how you can use them to extend the functionality of an
existing module environment.

[[extended-module-implementation]]
Extended Module Implementation
------------------------------

Module-specific functions are stored in the same location you store
module's initialization file. Definitions of module-specific functions
are made available in the execution environment before executing the
module's initialization file. This way, module-specific functions are
always available inside the module's initialization file.
Module-specific functions are very useful when you are refactoring the
module's initialization file.

For example, consider extending the *hello* module, to vary the
``Hello, World!'' greeting message to something else based on a
*--greeting* option passed through the command-line. For this, we can
write everything in the module's initialization file or create a
module-specific function to take care of all related actions and then
execute it from module's initialization file. Because we want to keep
the module's initialization file small and clean, we decided to create
a module-specific function named *hello_getOptions*. This function is
stored in a file named +hello_getOptions.sh+, at the same location of
+hello.sh+ module's initialization file. See <<script-main-layout-2>>.

[[script-main-layout-2]]
.The module directory structure with related function
======================================================================
----------------------------------------------------------------------
.
|-- COPYING
|-- Locales/
|-- Manuals/
|-- Modules/
|   `-- Hello/
|       |-- hello.sh
|       `-- hello_getOptions.sh     <-- module-related function.
|-- Scripts/
|-- centos-art.conf.sh
`-- centos-art.sh
----------------------------------------------------------------------
======================================================================

As name convention, module-specific functions must be written using
the module's name as suffix, then an underscore, then a descriptive
name to identify the function. This convention is important in order
for *centos-art.sh* script to execute and destroy modules as expected.
If you create module-specific functions with a different pattern they
will not be executed nor available inside your module's initialization
file.

The name of the module-specific function +hello_getOptions+ is result
of another name convention we are using inside *centos-art.sh* script.
This is, when you need to provide argument parsing for a parent
module, create a module-specific function with +_getOptions+ as prefix
on its file name, then put all the code related to argument parsing
inside it. Using a different function name here doesn't affect the
execution of your module (as long as you retain the module's name as
suffix). However, using this name convention, helps to keep a
consistent directory structure inside the script.

The content of the module-specific function named +hello_getOptions+
is also considered even another convention, a procedural convention at
this time.  It provides the standard construction you should use
whenever you want to make parent modules able to process arguments
passed through the command-line. Through this construction, you can
define which are the short and long options the module you are writing
accepts and the possible values assigned to them, when passed.
Basically, this construction transform the option arguments passed in
the command-line in a way they can be parsed predictably, then parses
them leaving non-option arguments, only.footnote:[To know more about
option parsing inside *centos-art.sh* script, read the article named
``_Understanding Option Parsing._''] See <<processing-args-from-cmd>>.

[[processing-args-from-cmd]]
.Processing arguments from the command-line
======================================================================
----------------------------------------------------------------------
#!/bin/bash
######################################################################
#
#   hello_getOptions.sh -- Interpret module-specific options for hello.
#
#   Written by:
#   * Alain Reguera Delgado <al@centos.org.cu>, 2013
#
# Copyright (C) 2009-2013 The CentOS Artwork SIG
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or (at
# your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
#
######################################################################

function hello_getOptions {

    # Define short options we want to support.
    local ARGSS="h::,v,g:"

    # Define long options we want to support.
    local ARGSL="help::,version,greeting:"

    # Redefine arguments using getopt(1) command parser.
    tcar_setModuleArguments

    # Reset positional parameters on this function, using output
    # produced from (getopt) arguments parser.
    eval set -- "${TCAR_MODULE_ARGUMENT}"

    # Look for options passed through command-line.
    while true; do
        case "${1}" in

            -h | --help )
                tcar_printHelp "${2}"
                ;;

            -v | --version )
                tcar_printVersion "${TCAR_MODULE_NAME}"
                ;;

            -g | --greeting )
                HELLO_WORLD="${2:-${HELLO_WORLD}}"
                shift 2
                ;;

            -- )
                shift 1
                break
                ;;
        esac
    done

    # Redefine arguments using current positional parameters. Only
    # paths should remain as arguments, at this point.
    TCAR_MODULE_ARGUMENT="${@}"

}
----------------------------------------------------------------------
======================================================================

Child Modules
~~~~~~~~~~~~~
...

Sibling Modules
~~~~~~~~~~~~~~~

...

Recursive Modules
~~~~~~~~~~~~~~~~~
...

Summary
~~~~~~~

This section has covered ...

Conventions
-----------

When you write modules to *centos-art.sh* script, consider the
following common conventions:

* Module directories are written capitalized (e.g., `Hello') while
  module initialization file (e.g., `hello.sh') are written in
  lower-case.

* When you write related functions, use underscore (``_'') to separate
  the module's name from the function's descriptive name. In these
  cases, the function's descriptive name is always written in
  camel-case (e.g., `hello_getOptions.sh').

* Module directories and files inside them use the module's name as
  suffix in their file names to get identified. This is convention
  should be followed in order for *centos-art.sh* script to execute
  and destroy modules as expected.

* The directory structure of a module is made of an initialization
  file, module-specific functions and module-specific directories.
  From all these components, only the initialization file is required
  in order to have a functional module. The module-specific functions
  are useful for refactoring the initialization file. The
  module-specific directories are optional but, if use, must have the
  following names and meaning:
+
+Modules/+::
  This directory contains module-specific child modules. The purpose
  of Modules/ directory is extending the functionality of higher
  module environments.
+Manuals/+::
  This directory contains module-specific documentation. Documentation
  in this directory are written in asciidoc format and produced
  through the *render* functionality of *centos-art.sh* script.
+Configs/+::
  This directory contains module-specific configuration. Some modules
  (e.g., ``tuneup'') need to store auxiliary files required to achieve
  its main goal (e.g., the ``tuneup'' module uses sed files to
  transform the top-comment of scripts each time it is executed, the
  sed file itself is stored in this directory). Whenever you need to
  make reference to a file inside this directory, use the
  ``TCAR_MODULE_DIR_CONFIGS'' variable. This variable provides the
  absolute path of module-related configuration file.
+Locales/+::
  This directory contains module-specific localization files. The
  content of this directory is automatically generated by *locale*
  module of *centos-art.sh* script, when you execute it using the
  initialization file as source and the *--update --sibling* options.
  Once the localization files have been created, you need to edit PO
  files to translate the strings from English to your preferred
  language.  If the translatable strings inside the module's source
  files change, you need to run the *locale* module again to update
  the PO files and repeat the localization process all over again.

// vim: set syntax=asciidoc: