Difference between revisions of "Compile"

From Liberty Eiffel Wiki
Jump to navigation Jump to search
(First translation into English)
 
m (14 revisions: initial import from SamrtEiffel Wiki - The Grand SmartEiffel Book)
(9 intermediate revisions by the same user not shown)
Line 15: Line 15:
 
== Synopsis ==
 
== Synopsis ==
   
* <code>se c [common_options] [c2c_options] &lt;root_classe&gt; [&lt;root_procedure&gt;]</code>
+
* <code>se c [common_options] [c2c_options] &lt;root_class&gt; [&lt;root_procedure&gt;]</code>
 
* <code>se c [common_options] &lt;ace_file.ace&gt;</code>
 
* <code>se c [common_options] &lt;ace_file.ace&gt;</code>
   

Revision as of 22:04, 3 March 2013



compile is the most important tool because it is the SmartEiffel compiler. In a normal installation, it is invoked by the command se c.

There are two ways of invoking it: the traditional mode and the ACE mode.

  • In the traditional mode, many options can be specified on the command line.
  • In the ACE mode (Assembly of Classes in Eiffel), most of its options are not allowed on the

command line; they have their equivalents in the ACE file.

Synopsis

  • se c [common_options] [c2c_options] <root_class> [<root_procedure>]
  • se c [common_options] <ace_file.ace>

The first syntax is the traditional mode, the second is the ACE mode.

In the ACE mode, the name of the ACE file provided must end with the suffix .ace.

The compile command runs through several stages:

  1. the compile_to_c command is called to produce the C files (*.h and *.c).

A script file is also created, whose name depends on the application.

  1. this script is executed line by line; normally, it call the C compiler for each .c file, then it finishes with the link phase.
  2. if the -clean option is used, the clean command is called.

Like compile_to_c, compile must have at least one argument which gives the program's starting point, which is, in fact, the creation of a class. In the ACE mode, this information is given by parameters in the ACE file. In the traditional mode, you have to give at least the class name: by default the creation method is called make, and this must exist; otherwise, it is necessary to specify the creation method.

In all cases, the creation method must be a method with no arguments.

Common options

-clean By default, the generated C files are kept from one execution to the next. This allows incremental compilation, since only the files changed since the last invocation of compile are regenerated.

Since the Eiffel compilation is usually much faster than the C compilation, this usually saves a lot of time.

However, there are situations when one wants to remove all the old generation of files, so as to start from scratch.

The -clean option deletes the C files, the object files and several other generated files, by invoking the clean command at the end of the compilation.

-help Display a short summary of the command line syntax,as well as a complete list of the compiler's options.
-verbose Display (an enormous amount of) information during the compilation: a complete list of files loaded, the type inference scores, the generated files, and so on.
-version Display the SmartEiffel version number.

c2c options

These options are passed directly to compile_to_c. See that command for details.

Examples of using traditional mode

Example 1

When SmartEiffel is correctly installed, you can run the following command to test compile the notorious Hello world program:

se c hello_world

In this mode, by default, the compiler is very silent; to see more detail, enter

se c -verbose hello_world

and suddenly SmartEiffel becomes very chatty! It just has to tell you about every file used and every file written.

An executable program is generated (normally a.out under UNIX, a.exe under Windows) which can be run directly.

Example 2

Enter the following command to create a finalised version of our Hello world:

se c -boost -c_mode release hello_world

These options are passed to compile_to_c. This is usually the best way to finalise a program. Note that using C mode commonly implies the -no_split option, as well as passing the -O3 option to the C compiler.

Example 3

To compile a large project (e.g. the class PROJECT) with incremental compilation and checking preconditions:

se c -require_check project

The very first time, all the C files are produced and compiled. Subsequently, if you use the same command after changing some Eiffel files, only the changed C files will be recompiled.

Note that extensive modifications of the source can force the recompilation of the whole project.

Again, changing the compilation options also involves recompiling the whole set of generated C files.