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Author: Marcus Uneson
E-mail: marcus.uneson@ling.lu.se
WWW: http://person.sol.lu.se/MarcusUneson/
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 Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 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(optparse,
[ opt_parse/5, %+OptsSpec, +CLArgs, -Opts, -PositionalArgs,-ParseOptions
opt_parse/4, %+OptsSpec, +CLArgs, -Opts, -PositionalArgs,
opt_arguments/3, %+OptsSpec, -Opts, -PositionalArgs
opt_help/2 %+OptsSpec, -Help
]).
:- use_module(library(apply)).
:- use_module(library(lists)).
:- use_module(library(option)).
:- use_module(library(error)).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% EXPORTS
/** <module> command line parsing
This module helps in building a command-line interface to an
application. In particular, it provides functions that take an option
specification and a list of atoms, probably given to the program on the
command line, and return a parsed representation (a list of the
customary Key(Val) by default; or optionally, a list of Func(Key, Val)
terms in the style of current_prolog_flag/2). It can also synthesize a
simple help text from the options specification.
The terminology in the following is partly borrowed from python, see
http://docs.python.org/library/optparse.html#terminology . Very briefly,
_arguments_ is what you provide on the command line and for many prologs
show up as a list of atoms =|Args|= in =|current_prolog_flag(argv,
Args)|=. For a typical prolog incantation, they can be divided into
* _|runtime arguments|_, which controls the prolog runtime;
conventionally, they are ended by '--';
* _options_, which are key-value pairs (with a boolean value
possibly implicit) intended to control your program in one way
or another; and
* _|positional arguments|_, which is what remains after
all runtime arguments and options have been removed (with
implicit arguments -- true/false for booleans -- filled in).
Positional arguments are in particular used for mandatory arguments
without which your program won't work and for which there are no
sensible defaults (e.g,, input file names). Options, by contrast, offer
flexibility by letting you change a default setting. Options are
optional not only by etymology: this library has no notion of mandatory
or required options (see the python docs for other rationales than
laziness).
The command-line arguments enter your program as a list of atoms, but
the programs perhaps expects booleans, integers, floats or even prolog
terms. You tell the parser so by providing an _|options specification|_.
This is just a list of individual option specifications. One of those,
in turn, is a list of ground prolog terms in the customary Name(Value)
format. The following terms are recognized (any others raise error).
* opt(Key)
Key is what the option later will be accessed by, just like for
current_prolog_flag(Key, Value). This term is mandatory (an error is
thrown if missing).
* shortflags(ListOfFlags)
ListOfFlags denotes any single-dashed, single letter args specifying the
current option (=|-s , -K|=, etc). Uppercase letters must be quoted.
Usually ListOfFlags will be a singleton list, but sometimes aliased flags
may be convenient.
* longflags(ListOfFlags)
ListOfFlags denotes any double-dashed arguments specifying
the current option (=|--verbose, --no-debug|=, etc). They are
basically a more readable alternative to short flags, except
1. long flags can be specified as =|--flag value|= or
=|--flag=value|= (but not as =|--flagvalue|=); short flags as
=|-f val|= or =|-fval|= (but not =|-f=val|=)
2. boolean long flags can be specified as =|--bool-flag|=
or =|--bool-flag=true|= or =|--bool-flag true|=; and they can be
negated as =|--no-bool-flag|= or =|--bool-flag=false|= or
=|--bool-flag false|=.
Except that shortflags must be single characters, the
distinction between long and short is in calling convention, not
in namespaces. Thus, if you have shortflags([v]), you can use it
as =|-v2|= or =|-v 2|= or =|--v=2|= or =|--v 2|= (but not
=|-v=2|= or =|--v2|=).
Shortflags and longflags both default to =|[]|=. It can be useful to
have flagless options -- see example below.
* meta(Meta)
Meta is optional and only relevant for the synthesized usage message
and is the name (an atom) of the metasyntactic variable (possibly)
appearing in it together with type and default value (e.g,
=|x:integer=3|=, =|interest:float=0.11|=). It may be useful to
have named variables (=|x|=, =|interest|=) in case you wish to
mention them again in the help text. If not given the =|Meta:|=
part is suppressed -- see example below.
* type(Type)
Type is one of =|boolean, atom, integer, float, term|=.
The corresponding argument will be parsed appropriately. This
term is optional; if not given, defaults to =|term|=.
* default(Default)
Default value. This term is optional; if not given, or if given the
special value '_', an uninstantiated variable is created (and any
type declaration is ignored).
* help(Help)
Help is (usually) an atom of text describing the option in the
help text. This term is optional (but obviously strongly recommended
for all options which have flags).
Long lines are subject to basic word wrapping -- split on white
space, reindent, rejoin. However, you can get more control by
supplying the line breaking yourself: rather than a single line of
text, you can provide a list of lines (as atoms). If you do, they
will be joined with the appropriate indent but otherwise left
untouched (see the option =mode= in the example below).
Absence of mandatory option specs or the presence of more than one for a
particular option throws an error, as do unknown or incompatible types.
As a concrete example from a fictive application, suppose we want the
following options to be read from the command line (long flag(s), short
flag(s), meta:type=default, help)
==
--mode -m atom=SCAN data gathering mode,
one of
SCAN: do this
READ: do that
MAKE: make numbers
WAIT: do nothing
--rebuild-cache -r boolean=true rebuild cache in
each iteration
--heisenberg-threshold -t,-h float=0.1 heisenberg threshold
--depths, --iters -i,-d K:integer=3 stop after K
iterations
--distances term=[1,2,3,5] initial prolog term
--output-file -o FILE:atom=_ write output to FILE
--label -l atom=REPORT report label
--verbosity -v V:integer=2 verbosity level,
1 <= V <= 3
==
We may also have some configuration parameters which we currently think
not needs to be controlled from the command line, say
path('/some/file/path').
This interface is described by the following options specification
(order between the specifications of a particular option is irrelevant).
==
ExampleOptsSpec =
[ [opt(mode ), type(atom), default('SCAN'),
shortflags([m]), longflags(['mode'] ),
help([ 'data gathering mode, one of'
, ' SCAN: do this'
, ' READ: do that'
, ' MAKE: fabricate some numbers'
, ' WAIT: don''t do anything'])]
, [opt(cache), type(boolean), default(true),
shortflags([r]), longflags(['rebuild-cache']),
help('rebuild cache in each iteration')]
, [opt(threshold), type(float), default(0.1),
shortflags([t,h]), longflags(['heisenberg-threshold']),
help('heisenberg threshold')]
, [opt(depth), meta('K'), type(integer), default(3),
shortflags([i,d]),longflags([depths,iters]),
help('stop after K iterations')]
, [opt(distances), default([1,2,3,5]),
longflags([distances]),
help('initial prolog term')]
, [opt(outfile), meta('FILE'), type(atom),
shortflags([o]), longflags(['output-file']),
help('write output to FILE')]
, [opt(label), type(atom), default('REPORT'),
shortflags([l]), longflags([label]),
help('report label')]
, [opt(verbose), meta('V'), type(integer), default(2),
shortflags([v]), longflags([verbosity]),
help('verbosity level, 1 <= V <= 3')]
, [opt(path), default('/some/file/path/')]
].
==
The help text above was accessed by =|opt_help(ExamplesOptsSpec,
HelpText)|=. The options appear in the same order as in the OptsSpec.
Given =|ExampleOptsSpec|=, a command line (somewhat syntactically
inconsistent, in order to demonstrate different calling conventions) may
look as follows
==
ExampleArgs = [ '-d5'
, '--heisenberg-threshold', '0.14'
, '--distances=[1,1,2,3,5,8]'
, '--iters', '7'
, '-ooutput.txt'
, '--rebuild-cache', 'true'
, 'input.txt'
, '--verbosity=2'
].
==
opt_parse(ExampleOptsSpec, ExampleArgs, Opts, PositionalArgs) would then
succeed with
==
Opts = [ mode('SCAN')
, label('REPORT')
, path('/some/file/path')
, threshold(0.14)
, distances([1,1,2,3,5,8])
, depth(7)
, outfile('output.txt')
, cache(true)
, verbose(2)
],
PositionalArgs = ['input.txt'].
==
Note that path('/some/file/path') showing up in Opts has a default value
(of the implicit type 'term'), but no corresponding flags in OptsSpec.
Thus it can't be set from the command line. The rest of your program
doesn't need to know that, of course. This provides an alternative to
the common practice of asserting such hard-coded parameters under a
single predicate (for instance setting(path, '/some/file/path')), with
the advantage that you may seamlessly upgrade them to command-line
options, should you one day find this a good idea. Just add an
appropriate flag or two and a line of help text. Similarly, suppressing
an option in a cluttered interface amounts to commenting out the flags.
opt_parse/5 allows more control through an additional argument list. For
instance, opt_parse(ExampleOptsSpec, ExampleArgs, Opts, PositionalArgs,
[output_functor(appl_config)]) would instead return
==
Opts = [ appl_config(verbose, 2),
, appl_config(label, 'REPORT')
...
]
==
This representation may be preferable with the empty-flag configuration
parameter style above (perhaps with asserting appl_config/2).
## Notes and tips {#optparse-notes}
* In the example we were mostly explicit about the types. Since the
default is =|term|=, which subsumes =|integer, float, atom|=, it
may be possible to get away cheaper (e.g., by only giving booleans).
However, it is recommended practice to always specify types:
parsing becomes more reliable and error messages will be easier to interpret.
* Note that =|-sbar|= is taken to mean =|-s bar|=, not =|-s -b -a -r|=,
that is, there is no clustering of flags.
* =|-s=foo|= is disallowed. The rationale is that although some
command-line parsers will silently interpret this as =|-s =foo|=, this is very
seldom what you want. To have an option argument start with '=' (very
un-recommended), say so explicitly.
* The example specifies the option =|depth|= twice: once as
=|-d5|= and once as =|--iters 7|=. The default when encountering duplicated
flags is to =|keeplast|= (this behaviour can be controlled, by ParseOption
duplicated_flags).
* The order of the options returned by the parsing functions is the same as
given on the command
line, with non-overridden defaults prepended and duplicates removed
as in previous item. You should not rely on this, however.
* Unknown flags (not appearing in OptsSpec) will throw errors. This
is usually a Good Thing. Sometimes, however, you may wish to pass
along flags to an external program (say, one called by shell/2), and
it means duplicated effort and a maintenance headache to have to
specify all possible flags for the external program explicitly (if
it even can be done). On the other hand, simply taking all unknown
flags as valid makes error checking much less efficient and
identification of positional arguments uncertain. A better solution
is to collect all arguments intended for passing along to an
indirectly called program as a single argument, probably as an atom
(if you don't need to inspect them first) or as a prolog term (if
you do).
@author Marcus Uneson
@version 0.20 (2011-04-27)
@tbd: validation? e.g, numbers; file path existence; one-out-of-a-set-of-atoms
*/
:- predicate_options(opt_parse/5, 5,
[ allow_empty_flag_spec(boolean),
duplicated_flags(oneof([keepfirst,keeplast,keepall])),
output_functor(atom),
suppress_empty_meta(boolean)
]).
%% opt_arguments(+OptsSpec, -Opts, -PositionalArgs) is det
%
% Extract commandline options according to a specification.
% Convenience predicate, assuming that command-line arguments can be
% accessed by current_prolog_flag/2 (as in swi-prolog). For other
% access mechanisms and/or more control, get the args and pass them
% as a list of atoms to opt_parse/4 or opt_parse/5 instead.
%
% Opts is a list of parsed options in the form Key(Value). Dashed
% args not in OptsSpec are not permitted and will raise error (see
% tip on how to pass unknown flags in the module description).
% PositionalArgs are the remaining non-dashed args after each flag
% has taken its argument (filling in =true= or =false= for booleans).
% There are no restrictions on non-dashed arguments and they may go
% anywhere (although it is good practice to put them last). Any
% leading arguments for the runtime (up to and including '--') are
% discarded.
opt_arguments(OptsSpec, Opts, PositionalArgs) :-
current_prolog_flag(argv, Argv),
opt_parse(OptsSpec, Argv, Opts, PositionalArgs).
%% opt_parse(+OptsSpec, +ApplArgs, -Opts, -PositionalArgs) is det
%
% Equivalent to opt_parse(OptsSpec, ApplArgs, Opts, PositionalArgs, []).
opt_parse(OptsSpec, ApplArgs, Opts, PositionalArgs) :-
opt_parse(OptsSpec, ApplArgs, Opts, PositionalArgs, []).
%% opt_parse(+OptsSpec, +ApplArgs, -Opts, -PositionalArgs, +ParseOptions) is det
%
% Parse the arguments Args (as list of atoms) according to OptsSpec.
% Any runtime arguments (typically terminated by '--') are assumed to
% be removed already.
%
% Opts is a list of parsed options in the form Key(Value), or (with
% the option functor(Func) given) in the form Func(Key, Value).
% Dashed args not in OptsSpec are not permitted and will raise error
% (see tip on how to pass unknown flags in the module description).
% PositionalArgs are the remaining non-dashed args after each flag
% has taken its argument (filling in =true= or =false= for booleans).
% There are no restrictions on non-dashed arguments and they may go
% anywhere (although it is good practice to put them last).
% ParseOptions are
%
% * output_functor(Func)
% Set the functor Func of the returned options Func(Key,Value).
% Default is the special value 'OPTION' (upper-case), which makes
% the returned options have form Key(Value).
%
% * duplicated_flags(Keep)
% Controls how to handle options given more than once on the commad line.
% Keep is one of =|keepfirst, keeplast, keepall|= with the obvious meaning.
% Default is =|keeplast|=.
%
% * allow_empty_flag_spec(Bool)
% If true (default), a flag specification is not required (it is allowed
% that both shortflags and longflags be either [] or absent).
% Flagless options cannot be manipulated from the command line
% and will not show up in the generated help. This is useful when you
% have (also) general configuration parameters in
% your OptsSpec, especially if you think they one day might need to be
% controlled externally. See example in the module overview.
% allow_empty_flag_spec(false) gives the more customary behaviour of
% raising error on empty flags.
opt_parse(OptsSpec, ApplArgs, Opts, PositionalArgs, ParseOptions) :-
opt_parse_(OptsSpec, ApplArgs, Opts, PositionalArgs, ParseOptions).
%% opt_help(+OptsSpec, -Help:atom) is det
%
% True when Help is a help string synthesized from OptsSpec.
opt_help(OptsSpec, Help) :-
opt_help(OptsSpec, Help, []).
% semi-arbitrary default format settings go here;
% if someone needs more control one day, opt_help/3 could be exported
opt_help(OptsSpec, Help, HelpOptions0) :-
Defaults = [ line_width(80)
, min_help_width(40)
, break_long_flags(false)
, suppress_empty_meta(true)
],
merge_options(HelpOptions0, Defaults, HelpOptions),
opt_help_(OptsSpec, Help, HelpOptions).
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% OPT_PARSE
opt_parse_(OptsSpec0, Args0, Opts, PositionalArgs, ParseOptions) :-
assertion(ground(Args0)),
assertion(is_list_of_atoms(Args0)),
check_opts_spec(OptsSpec0, ParseOptions, OptsSpec),
maplist(atom_codes, Args0, Args1),
parse_options(OptsSpec, Args1, Args2, PositionalArgs),
add_default_opts(OptsSpec, Args2, Args3),
option(duplicated_flags(Keep), ParseOptions, keeplast),
remove_duplicates(Keep, Args3, Args4),
option(output_functor(Func), ParseOptions, 'OPTION'),
refunctor_opts(Func, Args4, Opts). %}}}
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% MAKE HELP
opt_help_(OptsSpec0, Help, HelpOptions) :-
check_opts_spec(OptsSpec0, HelpOptions, OptsSpec1),
include_in_help(OptsSpec1, OptsSpec2),
format_help_fields(OptsSpec2, OptsSpec3),
col_widths(OptsSpec3, [shortflags, metatypedef], CWs),
long_flag_col_width(OptsSpec3, LongestFlagWidth),
maplist(format_opt(LongestFlagWidth, CWs, HelpOptions), OptsSpec3, Lines),
atomic_list_concat(Lines, Help).
include_in_help([], []).
include_in_help([OptSpec|OptsSpec], Result) :-
( flags(OptSpec, [_|_])
-> Result = [OptSpec|Rest]
; Result = Rest
),
include_in_help(OptsSpec, Rest).
format_help_fields(OptsSpec0, OptsSpec) :-
maplist(embellish_flag(short), OptsSpec0, OptsSpec1),
maplist(embellish_flag(long), OptsSpec1, OptsSpec2),
maplist(merge_meta_type_def, OptsSpec2, OptsSpec).
merge_meta_type_def(OptSpecIn, [metatypedef(MTD)|OptSpecIn]) :-
memberchk(meta(Meta), OptSpecIn),
memberchk(type(Type), OptSpecIn),
memberchk(default(Def), OptSpecIn),
atom_length(Meta, N),
( N > 0
-> format(atom(MTD), '~w:~w=~w', [Meta, Type, Def])
; format(atom(MTD), '~w=~w', [Type, Def])
).
embellish_flag(short, OptSpecIn, OptSpecOut) :-
memberchk(shortflags(FlagsIn), OptSpecIn),
maplist(atom_concat('-'), FlagsIn, FlagsOut0),
atomic_list_concat(FlagsOut0, ',', FlagsOut),
merge_options([shortflags(FlagsOut)], OptSpecIn, OptSpecOut).
embellish_flag(long, OptSpecIn, OptSpecOut) :-
memberchk(longflags(FlagsIn), OptSpecIn),
maplist(atom_concat('--'), FlagsIn, FlagsOut),
merge_options([longflags(FlagsOut)], OptSpecIn, OptSpecOut).
col_widths(OptsSpec, Functors, ColWidths) :-
maplist(col_width(OptsSpec), Functors, ColWidths).
col_width(OptsSpec, Functor, ColWidth) :-
findall(N,
( member(OptSpec, OptsSpec),
M =.. [Functor, Arg],
member(M, OptSpec),
format(atom(Atom), '~w', [Arg]),
atom_length(Atom, N0),
N is N0 + 2 %separate cols with two spaces
),
Ns),
max_list([0|Ns], ColWidth).
long_flag_col_width(OptsSpec, ColWidth) :-
findall(FlagLength,
( member(OptSpec, OptsSpec),
memberchk(longflags(LFlags), OptSpec),
member(LFlag, LFlags),
atom_length(LFlag, FlagLength)
),
FlagLengths),
max_list([0|FlagLengths], ColWidth).
format_opt(LongestFlagWidth, [SFlagsCW, MTDCW], HelpOptions, Opt, Line) :-
memberchk(shortflags(SFlags), Opt),
memberchk(longflags(LFlags0), Opt),
group_length(LongestFlagWidth, LFlags0, LFlags1),
LFlagsCW is LongestFlagWidth + 2, %separate with comma and space
option(break_long_flags(BLF), HelpOptions, true),
( BLF
-> maplist(atomic_list_concat_(',\n'), LFlags1, LFlags2)
; maplist(atomic_list_concat_(', '), LFlags1, LFlags2)
),
atomic_list_concat(LFlags2, ',\n', LFlags),
memberchk(metatypedef(MetaTypeDef), Opt),
memberchk(help(Help), Opt),
HelpIndent is LFlagsCW + SFlagsCW + MTDCW + 2,
option(line_width(LW), HelpOptions, 80),
option(min_help_width(MHW), HelpOptions, 40),
HelpWidth is max(MHW, LW - HelpIndent),
( atom(Help)
-> line_breaks(Help, HelpWidth, HelpIndent, BrokenHelp)
; assertion(is_list_of_atoms(Help))
-> indent_lines(Help, HelpIndent, BrokenHelp)
),
format(atom(Line), '~w~t~*+~w~t~*+~w~t~*+~w~n',
[LFlags, LFlagsCW, SFlags, SFlagsCW, MetaTypeDef, MTDCW, BrokenHelp]).
line_breaks(TextLine, LineLength, Indent, TextLines) :-
atomic_list_concat(Words, ' ', TextLine),
group_length(LineLength, Words, Groups0),
maplist(atomic_list_concat_(' '), Groups0, Groups),
indent_lines(Groups, Indent, TextLines).
indent_lines(Lines, Indent, TextLines) :-
format(atom(Separator), '~n~*|', [Indent]),
atomic_list_concat(Lines, Separator, TextLines).
atomic_list_concat_(Separator, List, Atom) :-
atomic_list_concat(List, Separator, Atom).
%group_length(10,
% [here, are, some, words, you, see],
% [[here are], [some words], [you see]]) %each group >= 10F
group_length(LineLength, Words, Groups) :-
group_length_(Words, LineLength, LineLength, [], [], Groups).
group_length_([], _, _, ThisLine, GroupsAcc, Groups) :-
maplist(reverse, [ThisLine|GroupsAcc], GroupsAcc1),
reverse(GroupsAcc1, Groups).
group_length_([Word|Words], LineLength, Remains, ThisLine, Groups, GroupsAcc) :-
atom_length(Word, K),
( (Remains >= K; ThisLine = []) %Word fits on ThisLine, or too long too fit
-> Remains1 is Remains - K - 1, %even on a new line
group_length_(Words, LineLength, Remains1, [Word|ThisLine], Groups, GroupsAcc)
%Word doesn't fit on ThisLine (non-empty)
; group_length_([Word|Words], LineLength, LineLength, [], [ThisLine|Groups], GroupsAcc)
).
%}}}
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% OPTSSPEC DEFAULTS
add_default_defaults(OptsSpec0, OptsSpec, Options) :-
option(suppress_empty_meta(SEM), Options, true),
maplist(default_defaults(SEM), OptsSpec0, OptsSpec).
default_defaults(SuppressEmptyMeta, OptSpec0, OptSpec) :-
( SuppressEmptyMeta
-> Meta = ''
; memberchk(type(Type), OptSpec0)
-> meta_placeholder(Type, Meta)
; Meta = 'T'
),
Defaults = [ help('')
, type(term)
, shortflags([])
, longflags([])
, default('_')
, meta(Meta)
],
merge_options(OptSpec0, Defaults, OptSpec).
%merge_options(+New, +Old, -Merged)
meta_placeholder(boolean, 'B').
meta_placeholder(atom, 'A').
meta_placeholder(float, 'F').
meta_placeholder(integer, 'I').
meta_placeholder(term, 'T').
%}}}
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% OPTSSPEC VALIDATION
%this is a bit paranoid, but OTOH efficiency is no issue
check_opts_spec(OptsSpec0, Options, OptsSpec) :-
validate_opts_spec(OptsSpec0, Options),
add_default_defaults(OptsSpec0, OptsSpec, Options),
validate_opts_spec(OptsSpec, Options).
validate_opts_spec(OptsSpec, ParseOptions) :-
\+ invalidate_opts_spec(OptsSpec, ParseOptions).
invalidate_opts_spec(OptsSpec, _ParseOptions) :-
%invalid if not ground -- must go first for \+ to be sound
( \+ ground(OptsSpec)
-> throw(error(instantiation_error,
context(validate_opts_spec/1, 'option spec must be ground')))
%invalid if conflicting flags
; ( member(O1, OptsSpec), flags(O1, Flags1), member(F, Flags1),
member(O2, OptsSpec), flags(O2, Flags2), member(F, Flags2),
O1 \= O2)
-> throw(error(domain_error(unique_atom, F),
context(validate_opts_spec/1, 'ambiguous flag')))
%invalid if unknown opt spec
; ( member(OptSpec, OptsSpec),
member(Spec, OptSpec),
functor(Spec, F, _),
\+ member(F, [opt, shortflags, longflags, type, help, default, meta]) )
-> throw(error(domain_error(opt_spec, F),
context(validate_opts_spec/1, 'unknown opt spec')))
%invalid if mandatory option spec opt(ID) is not unique in the entire Spec
; ( member(O1, OptsSpec), member(opt(Name), O1),
member(O2, OptsSpec), member(opt(Name), O2),
O1 \= O2)
-> throw(error(domain_error(unique_atom, Name),
context(validate_opts_spec/1, 'ambiguous id')))
).
invalidate_opts_spec(OptsSpec, _ParseOptions) :-
member(OptSpec, OptsSpec),
\+ member(opt(_Name), OptSpec),
%invalid if mandatory option spec opt(ID) is absent
throw(error(domain_error(unique_atom, OptSpec),
context(validate_opts_spec/1, 'opt(id) missing'))).
invalidate_opts_spec(OptsSpec, ParseOptions) :-
member(OptSpec, OptsSpec), %if we got here, OptSpec has a single unique Name
member(opt(Name), OptSpec),
option(allow_empty_flag_spec(AllowEmpty), ParseOptions, true),
%invalid if allow_empty_flag_spec(false) and no flag is given
( (\+ AllowEmpty, \+ flags(OptSpec, [_|_]))
-> format(atom(Msg), 'no flag specified for option ''~w''', [Name]),
throw(error(domain_error(unique_atom, _),
context(validate_opts_spec/1, Msg)))
%invalid if any short flag is not actually single-letter
; ( memberchk(shortflags(Flags), OptSpec),
member(F, Flags),
atom_length(F, L),
L > 1)
-> format(atom(Msg), 'option ''~w'': flag too long to be short', [Name]),
throw(error(domain_error(short_flag, F),
context(validate_opts_spec/1, Msg)))
%invalid if any option spec is given more than once
; duplicate_optspec(OptSpec,
[type,opt,default,help,shortflags,longflags,meta])
-> format(atom(Msg), 'duplicate spec in option ''~w''', [Name]),
throw(error(domain_error(unique_functor, _),
context(validate_opts_spec/1, Msg)))
%invalid if unknown type
; (memberchk(type(Type), OptSpec),
\+ member(Type, [boolean,integer,float,atom,term]))
-> format(atom(Msg), 'unknown type ''~w'' in option ''~w''', [Type, Name]),
throw(error(type_error(flag_value, Type),
context(validate_opts_spec/1, Msg)))
%invalid if type does not match default
%note1: reverse logic: we are trying to _in_validate OptSpec
%note2: 'term' approves of any syntactically valid prolog term, since
%if syntactically invalid, OptsSpec wouldn't have parsed
%note3: the special placeholder '_' creates a new variable, so no typecheck
; (memberchk(type(Type), OptSpec),
Type \= term,
memberchk(default(Default), OptSpec),
Default \= '_'
-> \+ must_be(Type, Default))
%invalidation failed, i.e., optspec is OK
; fail
).
duplicate_optspec(_, []) :- !, fail.
duplicate_optspec(OptSpec, [Func|Funcs]) :-
functor(F, Func, 1),
findall(F, member(F, OptSpec), Xs),
(Xs = [_,_|_]
-> true
; duplicate_optspec(OptSpec, Funcs)
).
%}}}
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% PARSE OPTIONS
% NOTE:
% -sbar could be interpreted in two ways: as short for -s bar, and
% as short ('clustered') for -s -b -a -r. Here, the former interpretation
% is chosen.
% Cf http://perldoc.perl.org/Getopt/Long.html (no clustering by default)
parse_options(OptsSpec, Args0, Options, PosArgs) :-
append(Args0, [""], Args1),
parse_args_(Args1, OptsSpec, Args2),
partition_args_(Args2, Options, PosArgs).
%{{{ PARSE ARGS
%if arg is boolean flag given as --no-my-arg, expand to my-arg, false, re-call
parse_args_([Arg,Arg2|Args], OptsSpec, [opt(KID, false)|Result]) :-
flag_name_long_neg(Dashed, NonDashed, Arg, []),
flag_id_type(OptsSpec, NonDashed, KID, boolean),
!,
parse_args_([Dashed, "false", Arg2|Args], OptsSpec, Result).
%if arg is ordinary boolean flag, fill in implicit true if arg absent; re-call
parse_args_([Arg,Arg2|Args], OptsSpec, Result) :-
flag_name(K, Arg, []),
flag_id_type(OptsSpec, K, _KID, boolean),
\+ member(Arg2, ["true", "false"]),
!,
parse_args_([Arg, "true", Arg2 | Args], OptsSpec, Result).
% separate short or long flag run together with its value and parse
parse_args_([Arg|Args], OptsSpec, [opt(KID, Val)|Result]) :-
flag_name_value(Arg1, Arg2, Arg, []),
\+ short_flag_w_equals(Arg1, Arg2),
flag_name(K, Arg1, []),
!,
parse_option(OptsSpec, K, Arg2, opt(KID, Val)),
parse_args_(Args, OptsSpec, Result).
%from here, unparsed args have form
% PosArg1,Flag1,Val1,PosArg2,PosArg3,Flag2,Val2, PosArg4...
%i.e., positional args may go anywhere except between FlagN and ValueN
%(of course, good programming style says they should go last, but it is poor
%programming style to assume that)
parse_args_([Arg1,Arg2|Args], OptsSpec, [opt(KID, Val)|Result]) :-
flag_name(K, Arg1, []),
!,
parse_option(OptsSpec, K, Arg2, opt(KID, Val)),
parse_args_(Args, OptsSpec, Result).
parse_args_([Arg1,Arg2|Args], OptsSpec, [pos(At)|Result]) :-
\+ flag_name(_, Arg1, []),
!,
atom_codes(At, Arg1),
parse_args_([Arg2|Args], OptsSpec, Result).
parse_args_([""], _, []) :- !. %placeholder, but useful for error messages
parse_args_([], _, []) :- !.
short_flag_w_equals([0'-,_C], [0'=|_]) :-
throw(error(syntax_error('disallowed: <shortflag>=<value>'),_)).
flag_id_type(OptsSpec, FlagCodes, ID, Type) :-
atom_codes(Flag, FlagCodes),
member(OptSpec, OptsSpec),
flags(OptSpec, Flags),
member(Flag, Flags),
member(type(Type), OptSpec),
member(opt(ID), OptSpec).
%{{{ FLAG DCG
%DCG non-terminals:
% flag_name(NonDashed) %c, flag-name, x
% flag_name_short(Dashed, NonDashed) %c, x
% flag_name_long(Dashed, NonDashed) %flag-name
% flag_name_long_neg(Dashed, NonDashed) %no-flag-name
% flag_value(Val) %non-empty string
% flag_value0(Val) %any string, also empty
% flag_name_value(Dashed, Val) %pair of flag_name, flag_value
flag_name(NonDashed) --> flag_name_long(_, NonDashed).
flag_name(NonDashed) --> flag_name_short(_, NonDashed).
flag_name(NonDashed) --> flag_name_long_neg(_, NonDashed).
flag_name_long_neg([0'-,0'-|Cs], Cs) --> "--no-", name_long(Cs).
flag_name_long([0'-,0'-|Cs], Cs) --> "--", name_long(Cs).
flag_name_short([0'-|C], C) --> "-", name_1st(C).
flag_value([C|Cs]) --> [C], flag_value0(Cs).
flag_value0([]) --> [].
flag_value0([C|Cs]) --> [C], flag_value0(Cs).
flag_name_value(Dashed, Val) --> flag_name_long(Dashed, _), "=", flag_value0(Val).
flag_name_value(Dashed, Val) --> flag_name_short(Dashed, _), flag_value(Val).
name_long([C|Cs]) --> name_1st([C]), name_rest(Cs).
name_1st([C]) --> [C], {name_1st(C)}.
name_rest([]) --> [].
name_rest([C|Cs]) --> [C], {name_char(C)}, name_rest(Cs).
name_1st(C) :- char_type(C, alpha).
name_char(C) :- char_type(C, alpha).
name_char( 0'- ). %}}}
%{{{ PARSE OPTION
parse_option(OptsSpec, Arg1, Arg2, opt(KID, Val)) :-
( flag_id_type(OptsSpec, Arg1, KID, Type)
-> parse_val(Arg1, Type, Arg2, Val)
; format(atom(Msg), '~s', [Arg1]),
opt_help(OptsSpec, Help), %unknown flag: dump usage on stderr
nl(user_error),
write(user_error, Help),
throw(error(domain_error(flag_value, Msg),context(_, 'unknown flag')))
).
parse_val(Opt, Type, Cs, Val) :-
catch(
parse_loc(Type, Cs, Val),
E,
( format('~nERROR: flag ''~s'': expected atom parsable as ~w, found ''~s'' ~n',
[Opt, Type, Cs]),
throw(E))
).
%parse_loc(+Type, +ListOfCodes, -Result).
parse_loc(Type, _LOC, _) :-
var(Type), !, throw(error(instantiation_error, _)).
parse_loc(_Type, LOC, _) :-
var(LOC), !, throw(error(instantiation_error, _)).
parse_loc(boolean, Cs, true) :- atom_codes(true, Cs), !.
parse_loc(boolean, Cs, false) :- atom_codes(false, Cs), !.
parse_loc(atom, Cs, Result) :- atom_codes(Result, Cs), !.
parse_loc(integer, Cs, Result) :-
number_codes(Result, Cs),
integer(Result),
!.
parse_loc(float, Cs, Result) :-
number_codes(Result, Cs),
float(Result),
!.
parse_loc(term, Cs, Result) :-
atom_codes(A, Cs),
term_to_atom(Result, A),
!.
parse_loc(Type, _Cs, _) :- %could not parse Cs as Type
throw(error(type_error(flag_value, Type), _)), !. %}}}
%}}}
partition_args_([], [], []).
partition_args_([opt(K,V)|Rest], [opt(K,V)|RestOpts], RestPos) :-
!,
partition_args_(Rest, RestOpts, RestPos).
partition_args_([pos(Arg)|Rest], RestOpts, [Arg|RestPos]) :-
!,
partition_args_(Rest, RestOpts, RestPos).
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ADD DEFAULTS
add_default_opts([], Opts, Opts).
add_default_opts([OptSpec|OptsSpec], OptsIn, Result) :-
memberchk(opt(OptName), OptSpec),
( memberchk(opt(OptName, _Val), OptsIn)
-> Result = OptsOut %value given on cl, ignore default
; %value not given on cl:
memberchk(default('_'), OptSpec) % no default in OptsSpec (or 'VAR'):
-> Result = [opt(OptName, _) | OptsOut] % create uninstantiated variable
;
memberchk(default(Def), OptSpec), % default given in OptsSpec
% memberchk(type(Type), OptSpec), % already typechecked
% assertion(must_be(Type, Def)),
Result = [opt(OptName, Def) | OptsOut]
),
add_default_opts(OptsSpec, OptsIn, OptsOut).
%}}}
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% REMOVE DUPLICATES
remove_duplicates(_, [], []) :- !.
remove_duplicates(keeplast, [opt(OptName, Val) | Opts], Result) :-
!,
( memberchk(opt(OptName, _), Opts)
-> Result = RestOpts
; Result = [opt(OptName, Val) | RestOpts]
),
remove_duplicates(keeplast, Opts, RestOpts).
remove_duplicates(keepfirst, OptsIn, OptsOut) :-
!,
reverse(OptsIn, OptsInRev),
remove_duplicates(keeplast, OptsInRev, OptsOutRev),
reverse(OptsOutRev, OptsOut).
remove_duplicates(keepall, OptsIn, OptsIn) :- !.
remove_duplicates(K, [_|_], _) :-
!,
throw(error(domain_error(keep_flag, K), _)). %}}}
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% REFUNCTOR
refunctor_opts(Fnct, OptsIn, OptsOut) :-
maplist(refunctor_opt(Fnct), OptsIn, OptsOut).
refunctor_opt('OPTION', opt(OptName, OptVal), Result) :-
!,
Result =.. [OptName, OptVal].
refunctor_opt(F, opt(OptName, OptVal), Result) :-
Result =.. [F, OptName, OptVal]. %}}}
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% ACCESSORS
flags(OptSpec, Flags) :- memberchk(shortflags(Flags), OptSpec).
flags(OptSpec, Flags) :- memberchk(longflags(Flags), OptSpec). %}}}
%{{{ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% UTILS
is_list_of_atoms([]).
is_list_of_atoms([X|Xs]) :- atom(X), is_list_of_atoms(Xs).
%}}}
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