built-in predicate
logtalk_make/1
ï
Descriptionï
logtalk_make(Target)
Runs a make target. Prints a warning message and fails when the target is not valid.
Allows reloading all Logtalk source files that have been modified since
last loaded when called with the target all
, deleting all
intermediate files generated by the compilation of Logtalk source files
when called with the target clean
, checking for code issues when
called with the target check
, listing of circular dependencies
between pairs or trios of objects when called with the target
circular
, generating documentation when called with the target
documentation
, and deleting the dynamic binding caches with
the target caches
.
There are also three variants of the all
target: debug
,
normal
, and optimal
. These targets change the compilation mode
(by changing the default value of the debug and
optimize flags) and reload all affected files
(i.e. all files loaded without an explicit debug/1
or optimize/1
compiler option).
When using the all
target, only source files loaded using the
logtalk_load/1 and logtalk_load/2
predicates are reloaded. Non-modified files will also be reloaded when
a previous attempt to load them failed or when there is a change to the
compilation mode (i.e. when the files were loaded without explicit
debug or optimize flags and
the default values of these flags changed after loading; no check is made,
however, for other implicit compiler flags that may have changed since
loading). When an included file is modified, this target reloads its
main file (i.e. the file that contains the include/1
directive).
When using the check
or circular
targets, be sure to compile
your source files with the source_data flag
turned on for complete and detailed reports.
The check
target scans for missing entities (objects, protocols,
categories, and modules), missing entity predicates, and duplicated
library aliases. Predicates for messages sent to objects that implement
the forwarding built-in protocol are not
reported. While this usually avoids only false positives, it may
also result in failure to report true missing predicates in some cases.
When using the circular
target, be prepared for a lengthy computation
time for applications with a large combined number of objects and message
calls. Only mutual and triangular dependencies are checked due to the
computational cost. Circular dependencies occur when an object sends a
message to a second object that, in turn, sends a message to the first
object. These circular dependencies are often a consequence of lack of
separation of concerns. But, when they cannot be fixed, the only practical
consequence is a small performance cost as some of the messages would be
forced to use dynamic binding.
The documentation
target requires the doclet
tool and a single
doclet object to be loaded. See the doclet
tool documentation
for more details.
Depending on the backend Prolog compiler, the following top-level shortcuts are usually defined:
{*}
-logtalk_make(all)
{!}
-logtalk_make(clean)
{?}
-logtalk_make(check)
{@}
-logtalk_make(circular)
{#}
-logtalk_make(documentation)
{$}
-logtalk_make(caches)
{+d}
-logtalk_make(debug)
{+n}
-logtalk_make(normal)
{+o}
-logtalk_make(optimal)
Check the adapter files for the availability of these shortcuts as they are not part of the language.
Warning
Only use the shortcuts at the top-level interpreter and never in source files.
The target actions can be extended by defining clauses for the multifile
and dynamic hook predicate
logtalk_make_target_action(Target)
where Target
is one of the targets listed above. The additional user
defined actions are run after the default ones.
Modes and number of proofsï
logtalk_make(+atom) - zero_or_one
Errorsï
(none)
Examplesï
% reload loaded source files in debug mode:
| ?- logtalk_make(debug).
% check for code issues in the loaded source files:
| ?- logtalk_make(check).
% delete all intermediate files generated by
% the compilation of Logtalk source files:
| ?- logtalk_make(clean).