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yap-6.3/packages/plunit/test_cover.pl
2009-11-23 10:55:10 +00:00

252 lines
7.4 KiB
Prolog

/* $Id$
Part of SWI-Prolog
Author: Jan Wielemaker
E-mail: wielemak@science.uva.nl
WWW: http://www.swi-prolog.org
Copyright (C): 1985-2006, University of Amsterdam
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 library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
As a special exception, if you link this library with other files,
compiled with a Free Software compiler, to produce an executable, this
library does not by itself cause the resulting executable to be covered
by the GNU General Public License. This exception does not however
invalidate any other reasons why the executable file might be covered by
the GNU General Public License.
*/
:- module(prolog_cover,
[ show_coverage/1, % :Goal
covered_clauses/4 % +Goal, -Result, -Succeeded, -Failed
]).
:- use_module(library(ordsets)).
:- set_prolog_flag(generate_debug_info, false).
/** <module> Clause cover analysis
The purpose of this module is to find which part of the program has been
use by a certain goal. Usage is defined in terms of clauses that have
fired, seperated in clauses that succeeded at least once and clauses
that failed on each occasion.
This module relies on the SWI-Prolog tracer hooks. It modifies these
hooks and collects the results, after which it restores the debugging
environment. This has some limitations:
* The performance degrades significantly (about 10 times)
* It is not possible to use the debugger using coverage analysis
* The cover analysis tool is currently not thread-safe.
The result is represented as a list of clause-references. As the
references to clauses of dynamic predicates cannot be guaranteed, these
are omitted from the result.
@bug Relies heavily on SWI-Prolog internals. We have considered using
a meta-interpreter for this purpose, but it is nearly impossible
to do 100% complete meta-interpretation of Prolog. Example
problem areas include handling cuts in control-structures
and calls from non-interpreted meta-predicates.
*/
:- dynamic
entered/1, % clauses entered
exited/1. % clauses completed
:- module_transparent
covering/1,
covering/4.
%% show_coverage(Goal)
%
% Report on coverage by Goal
show_coverage(Goal) :-
covered_clauses(Goal, Result, Succeeded, Failed),
file_coverage(Succeeded, Failed),
return(Result).
return(true).
return(fail) :- !, fail.
return(error(E)) :-
throw(E).
%% covered_clauses(:Goal, -Result, -Succeeded, -Failed) is det.
%
% Run Goal as once/1. Unify Result with one of =true=, =fail= or
% error(Error).
%
% @param Succeeded Ordered set of succeeded clauses
% @param Failed Ordered set of clauses that are entered but
% never succeeded.
covered_clauses(Goal, Result, Succeeded, Failed) :-
asserta(user:prolog_trace_interception(Port, Frame, _, continue) :-
prolog_cover:assert_cover(Port, Frame), Ref),
port_mask([unify,exit], Mask),
'$visible'(V, Mask),
'$leash'(L, Mask),
trace,
call_with_result(Goal, Result),
set_prolog_flag(debug, false),
covered(Ref, V, L, Succeeded, Failed).
%% call_with_result(:Goal, -Result) is det.
%
% Run Goal as once/1. Unify Result with one of =true=, =fail= or
% error(Error).
call_with_result(Goal, Result) :-
( catch(Goal, E, true)
-> ( var(E)
-> Result = true
; Result = error(E)
)
; Result = false
).
port_mask([], 0).
port_mask([H|T], Mask) :-
port_mask(T, M0),
'$syspreds':'$port_bit'(H, Bit), % Private stuff
Mask is M0 \/ Bit.
%% assert_cover(+Port, +Frame) is det.
%
% Assert coverage of the current clause. We monitor two ports: the
% _unify_ port to see which clauses we entered, and the _exit_
% port to see which completed successfully.
assert_cover(unify, Frame) :-
running_static_pred(Frame),
prolog_frame_attribute(Frame, clause, Cl), !,
assert_entered(Cl).
assert_cover(exit, Frame) :-
running_static_pred(Frame),
prolog_frame_attribute(Frame, clause, Cl), !,
assert_exited(Cl).
assert_cover(_, _).
%% running_static_pred(+Frame) is semidet.
%
% True if Frame is not running a dynamic predicate.
running_static_pred(Frame) :-
prolog_frame_attribute(Frame, goal, Goal),
\+ predicate_property(Goal, dynamic).
%% assert_entered(+Ref) is det.
%% assert_exited(+Ref) is det.
%
% Add Ref to the set of entered or exited clauses.
assert_entered(Cl) :-
entered(Cl), !.
assert_entered(Cl) :-
assert(entered(Cl)).
assert_exited(Cl) :-
exited(Cl), !.
assert_exited(Cl) :-
assert(exited(Cl)).
%% covered(+Ref, +VisibleMask, +LeashMask, -Succeeded, -Failed) is det.
%
% Restore state and collect failed and succeeded clauses.
covered(Ref, V, L, Succeeded, Failed) :-
'$visible'(_, V),
'$leash'(_, L),
erase(Ref),
findall(Cl, (entered(Cl), \+exited(Cl)), Failed0),
findall(Cl, retract(exited(Cl)), Succeeded0),
retractall(entered(Cl)),
sort(Failed0, Failed),
sort(Succeeded0, Succeeded).
/*******************************
* REPORTING *
*******************************/
%% file_coverage(+Succeeded, +Failed) is det.
%
% Write a report on the clauses covered organised by file to
% current output.
file_coverage(Succeeded, Failed) :-
format('~N~n~`=t~78|~n'),
format('~tCoverage by File~t~78|~n'),
format('~`=t~78|~n'),
format('~w~t~w~64|~t~w~72|~t~w~78|~n',
['File', 'Clauses', '%Cov', '%Fail']),
format('~`=t~78|~n'),
forall(source_file(File),
file_coverage(File, Succeeded, Failed)),
format('~`=t~78|~n').
file_coverage(File, Succeeded, Failed) :-
findall(Cl, clause_source(Cl, File, _), Clauses),
sort(Clauses, All),
( ord_intersect(All, Succeeded)
-> true
; ord_intersect(All, Failed)
), !,
ord_intersection(All, Failed, FailedInFile),
ord_intersection(All, Succeeded, SucceededInFile),
ord_subtract(All, SucceededInFile, UnCov1),
ord_subtract(UnCov1, FailedInFile, Uncovered),
length(All, AC),
length(Uncovered, UC),
length(FailedInFile, FC),
CP is 100-100*UC/AC,
FCP is 100*FC/AC,
summary(File, 56, SFile),
format('~w~t ~D~64| ~t~1f~72| ~t~1f~78|~n', [SFile, AC, CP, FCP]).
file_coverage(_,_,_).
summary(Atom, MaxLen, Summary) :-
atom_length(Atom, Len),
( Len < MaxLen
-> Summary = Atom
; SLen is MaxLen - 5,
sub_atom(Atom, _, SLen, 0, End),
atom_concat('...', End, Summary)
).
%% clause_source(+Clause, -File, -Line) is det.
%% clause_source(-Clause, +File, -Line) is det.
clause_source(Clause, File, Line) :-
nonvar(Clause), !,
clause_property(Clause, file(File)),
clause_property(Clause, line_count(Line)).
clause_source(Clause, File, Line) :-
source_file(Pred, File),
\+ predicate_property(Pred, multifile),
nth_clause(Pred, _Index, Clause),
clause_property(Clause, line_count(Line)).
clause_source(Clause, File, Line) :-
Pred = _:_,
predicate_property(Pred, multifile),
nth_clause(Pred, _Index, Clause),
clause_property(Clause, file(File)),
clause_property(Clause, line_count(Line)).