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12281f3419fd81f755c6731640eff60a19226bc4
mercury/compiler/xml_documentation.m
Peter Wang 12281f3419 Implement a type representation optimisation ("direct argument functors"), 
Branches: main

Implement a type representation optimisation ("direct argument functors"),
where a functor with exactly one argument can be represented by a tagged
pointer to the argument value, which itself does not require the tag bits,
e.g.

	:- type maybe_foo ---> yes(foo) ; no.
	:- type foo       ---> foo(int, int).  % aligned pointer

To ensure that all modules which could construct or deconstruct the functor
agree on the type representation, I had planned to automatically output
extra information to .int files to notify importing modules about functors
using the optimised representation:

	:- type maybe_foo ---> yes(foo) ; no
		where direct_arg is [yes/1].

However, the compiler does not perform enough (or any) semantic analysis
while making interface files.  The fallback solution is to only use the
optimised representation when all importing modules can be guaranteed to
import both the top-level type and the argument type, namely, when both
types are exported from the same module.  We also allow certain built-in
argument types; currently this only includes tuples.

Non-exported types may use the optimised representation, but when
intermodule optimisation is enabled, they may be written out to .opt files.
Then, we *do* add direct_arg attributes to .opt files to ensure that importing
modules agree on the type representation.  The attributes may also be added by
Mercury programmers to source files, which will be copied directly into .int
files without analysis.  They will be checked when the module is actually
compiled.

This patch includes work by Zoltan, who independently implemented a version
of this change.


compiler/hlds_data.m:
	Record the direct arg functors in hlds_du_type.

	Add a new option to cons_tag.

	Fix some comments.

compiler/prog_data.m:
compiler/prog_io_type_defn.m:
	Parse and record `direct_arg' attributes on type definitions.

compiler/prog_io_pragma.m:
	Issue an error if the `direct_arg' attribute is used with a foreign
	type.

compiler/make_tags.m:
compiler/mercury_compile_front_end.m:
	Add a pass to convert suitable functors to use the direct argument
	representation.  The argument type must have been added to the type
	table, so we do this after all type definitions have been added.

	Move code to compute cheaper_tag_test here.

compiler/ml_unify_gen.m:
compiler/unify_gen.m:
	Generate different code to construct/deconstruct direct argument
	functors.

compiler/intermod.m:
	Write `direct_arg' attributes to .opt files for functors
	using the direct argument representation.

compiler/mercury_to_mercury.m:
	Write out `direct_arg' attributes.

compiler/rtti.m:
compiler/rtti_out.m:
compiler/rtti_to_mlds.m:
	Add an option to the types which describe the location of secondary
	tag options. The functors which can use the optimised representation
	are a subset of those which require no secondary tag.

	Output "MR_SECTAG_NONE_DIRECT_ARG" instead of "MR_SECTAG_NONE" in
	RTTI structures when applicable.

compiler/add_pragma.m:
compiler/add_type.m:
compiler/bytecode_gen.m:
compiler/check_typeclass.m
compiler/code_info.m:
compiler/equiv_type.m:
compiler/export.m:
compiler/foreign.m:
compiler/hlds_code_util.m:
compiler/hlds_out_module.m:
compiler/inst_check.m:
compiler/ml_proc_gen.m:
compiler/ml_switch_gen.m:
compiler/ml_tag_switch.m:
compiler/ml_type_gen.m:
compiler/module_qual.m:
compiler/modules.m:
compiler/post_term_analysis.m:
compiler/post_typecheck.m:
compiler/recompilation.check.m:
compiler/recompilation.usage.m:
compiler/recompilation.version.m:
compiler/simplify.m:
compiler/structure_reuse.direct.choose_reuse.m:
compiler/switch_gen.m:
compiler/switch_util.m:
compiler/tag_switch.m:
compiler/term_norm.m:
compiler/type_ctor_info.m:
compiler/type_util.m:
compiler/unify_proc.m:
compiler/unused_imports.m:
compiler/xml_documentation.m:
	Conform to changes.

	Bump RTTI version number.

doc/reference_manual.texi:
	Add commented out documentation for `direct_arg' attributes.

library/construct.m:
	Handle MR_SECTAG_NONE_DIRECT_ARG in construct.construct/3.

library/private_builtin.m:
	Add MR_SECTAG_NONE_DIRECT_ARG constant for Java for consistency,
	though it won't be used.

runtime/mercury_grade.h:
	Bump binary compatibility version number.

runtime/mercury_type_info.h:
	Bump RTTI version number.

	Add MR_SECTAG_NONE_DIRECT_ARG.

runtime/mercury_deconstruct.c:
runtime/mercury_deep_copy_body.h:
runtime/mercury_ml_expand_body.h:
runtime/mercury_table_type_body.h:
runtime/mercury_term_size.c:
runtime/mercury_unify_compare_body.h:
	Handle MR_SECTAG_NONE_DIRECT_ARG in RTTI code.

tests/debugger/Mmakefile:
tests/debugger/chooser_tag_test.exp:
tests/debugger/chooser_tag_test.inp:
tests/debugger/chooser_tag_test.m:
tests/hard_coded/Mercury.options:
tests/hard_coded/Mmakefile:
tests/hard_coded/construct_test.exp:
tests/hard_coded/construct_test.m:
tests/hard_coded/direct_arg_cyclic1.exp:
tests/hard_coded/direct_arg_cyclic1.m:
tests/hard_coded/direct_arg_cyclic2.m:
tests/hard_coded/direct_arg_cyclic3.m:
tests/hard_coded/direct_arg_intermod1.exp:
tests/hard_coded/direct_arg_intermod1.m:
tests/hard_coded/direct_arg_intermod2.m:
tests/hard_coded/direct_arg_intermod3.m:
tests/hard_coded/direct_arg_parent.exp:
tests/hard_coded/direct_arg_parent.m:
tests/hard_coded/direct_arg_sub.m:
tests/invalid/Mmakefile:
tests/invalid/where_direct_arg.err_exp:
tests/invalid/where_direct_arg.m:
tests/invalid/where_direct_arg2.err_exp:
tests/invalid/where_direct_arg2.m:
	Add test cases.

tests/invalid/ee_invalid.err_exp:
	Update expected output.
2011-06-16 06:42:19 +00:00

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%-----------------------------------------------------------------------------%
% vim: ft=mercury ts=4 sw=4 et
%-----------------------------------------------------------------------------%
% Copyright (C) 2006-2011 The University of Melbourne.
% This file may only be copied under the terms of the GNU General
% Public License - see the file COPYING in the Mercury distribution.
%-----------------------------------------------------------------------------%
%
% Module: xml_documentation.m.
% Main authors: petdr.
%
% This module outputs an XML representation of a module,
% which can then be transformed by a stylesheet into some other
% documentation format.
%
%-----------------------------------------------------------------------------%
:- module check_hlds.xml_documentation.
:- interface.
:- import_module hlds.
:- import_module hlds.hlds_module.
:- import_module io.
% Output a representation of the module in XML which can be used
% to document the module.
%
:- pred xml_documentation(module_info::in, io::di, io::uo) is det.
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- implementation.
:- import_module hlds.hlds_data.
:- import_module hlds.hlds_pred.
:- import_module hlds.pred_table.
:- import_module mdbcomp.
:- import_module mdbcomp.prim_data.
:- import_module parse_tree.
:- import_module parse_tree.error_util.
:- import_module parse_tree.file_names.
:- import_module parse_tree.prog_data.
:- import_module parse_tree.source_file_map.
:- import_module bool.
:- import_module char.
:- import_module int.
:- import_module list.
:- import_module map.
:- import_module maybe.
:- import_module set.
:- import_module string.
:- import_module term.
:- import_module term_to_xml.
:- import_module varset.
% Record all the locations of comments in a file.
%
:- type comments
---> comments(
% For each line record what is on the line.
line_types :: map(int, line_type)
).
:- type line_type
---> blank
% A line containing only whitespace.
; comment(string)
% A line containing just a comment.
; code_and_comment(string)
% A line which contains both a comment and code.
; code.
% A line containing code.
%-----------------------------------------------------------------------------%
xml_documentation(ModuleInfo, !IO) :-
module_info_get_globals(ModuleInfo, Globals),
module_info_get_name(ModuleInfo, ModuleName),
module_name_to_file_name(Globals, ModuleName, ".xml", do_create_dirs,
FileName, !IO),
lookup_module_source_file(ModuleName, SrcFileName, !IO),
io.open_input(SrcFileName, SrcResult, !IO),
(
SrcResult = ok(SrcStream),
build_comments(SrcStream, comments(map.init), Comments, !IO),
%
% XXX We should find the ":- module " declaration
% and get the comment from there.
%
ModuleComment = get_comment_forwards(Comments, 1),
io.open_output(FileName, OpenResult, !IO),
(
OpenResult = ok(Stream),
MIXmlDoc = module_info_xml_doc(Comments, ModuleComment,
ModuleInfo),
write_xml_doc(Stream, MIXmlDoc, !IO)
;
OpenResult = error(Err),
unable_to_open_file(FileName, Err, !IO)
)
;
SrcResult = error(SrcErr),
unable_to_open_file(SrcFileName, SrcErr, !IO)
).
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
% Given the input_stream build the comments datastructure which
% represents this stream.
%
:- pred build_comments(io.input_stream::in, comments::in, comments::out,
io::di, io::uo) is det.
build_comments(S, comments(!.C), comments(!:C), !IO) :-
io.get_line_number(S, LineNumber, !IO),
io.read_line(S, LineResult, !IO),
(
LineResult = ok(Line),
map.set(LineNumber, line_type(Line), !C),
build_comments(S, comments(!.C), comments(!:C), !IO)
;
LineResult = eof
;
LineResult = error(E),
% XXX we should recover more gracefully from this error.
unexpected($module, $pred, io.error_message(E))
).
% Given a list of characters representing one line,
% return the type of the line.
%
% Note this predicate is pretty stupid at the moment.
% It only recognizes lines which contains % comments.
% It also is confused by % characters in strings, etc. etc.
%
:- func line_type(list(character)) = line_type.
line_type(Line) = LineType :-
list.takewhile(char.is_whitespace, Line, _WhiteSpace, Rest),
list.takewhile(is_not_comment_char, Rest, Decl, Comment),
(
Rest = [],
LineType = blank
;
Rest = [_ | _],
(
Comment = [],
LineType = code
;
Comment = [_ | _],
(
Decl = [],
LineType = comment(string.from_char_list(Comment))
;
Decl = [_ | _],
LineType = code_and_comment(string.from_char_list(Comment))
)
)
).
:- pred is_not_comment_char(char::in) is semidet.
is_not_comment_char(C) :-
C \= '%'.
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
% Comment selection strategies
% If the prog_context given has a comment associated with it
% add a child element which contains the comment to the given XML.
%
:- func maybe_add_comment(comments, prog_context, xml) = xml.
maybe_add_comment(Comments, Context, Xml) =
( Xml = elem(N, As, Cs) ->
( Comment = get_comment(Comments, Context), Comment \= "" ->
elem(N, As, [elem("comment", [], [data(Comment)]) | Cs])
;
Xml
)
;
unexpected($module, $pred, "not an element")
).
% Get the comment string associated with the given prog_context.
%
:- func get_comment(comments, prog_context) = string.
get_comment(Comments, context(_, Line)) =
% XXX At a later date this hard-coded strategy should be made
% more flexible. What I imagine is that the user would pass a string
% saying in what order they wish to search for comments.
( comment_on_current_line(Comments, Line, C) ->
C
; comment_directly_above(Comments, Line, C) ->
C
;
""
).
%-----------------------------------------------------------------------------%
% Succeeds if the current line has a comment.
% The comment is extended with all the lines following
% the current line which just contain a comment.
%
:- pred comment_on_current_line(comments::in, int::in, string::out) is semidet.
comment_on_current_line(Comments, Line, Comment) :-
map.search(Comments ^ line_types, Line, code_and_comment(Comment0)),
RestComment = get_comment_forwards(Comments, Line + 1),
Comment = Comment0 ++ RestComment.
% Succeeds if the comment is directly above the current line.
% The comment above ends when we find a line above the current line
% which doesn't just contain a comment.
%
:- pred comment_directly_above(comments::in, int::in, string::out) is semidet.
comment_directly_above(Comments, Line, Comment) :-
map.search(Comments ^ line_types, Line - 1, comment(_)),
Comment = get_comment_backwards(Comments, Line - 1).
% Return the string which represents the comment starting at the given
% line. The comment ends when a line which is not a plain comment line
% is found.
%
:- func get_comment_forwards(comments, int) = string.
get_comment_forwards(Comments, Line) = Comment :-
( map.search(Comments ^ line_types, Line, LineType) ->
(
LineType = comment(CurrentComment),
CommentBelow = get_comment_forwards(Comments, Line + 1),
Comment = CurrentComment ++ CommentBelow
;
( LineType = blank
; LineType = code
; LineType = code_and_comment(_)
),
Comment = ""
)
;
Comment = ""
).
% Return the string which represents the comment ending at the given line.
% The comment extends backwards until the the line above the given
% line is not a comment only line.
%
:- func get_comment_backwards(comments, int) = string.
get_comment_backwards(Comments, Line) = Comment :-
( map.search(Comments ^ line_types, Line, LineType) ->
(
LineType = comment(CurrentComment),
CommentAbove = get_comment_backwards(Comments, Line - 1),
Comment = CommentAbove ++ CurrentComment
;
( LineType = blank
; LineType = code
; LineType = code_and_comment(_)
),
Comment = ""
)
;
Comment = ""
).
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- type module_info_xml_doc
---> module_info_xml_doc(comments, string, module_info).
:- instance xmlable(module_info_xml_doc) where [
(to_xml(module_info_xml_doc(Comments, ModuleComment, ModuleInfo)) = Xml :-
CommentXml = elem("comment", [], [data(ModuleComment)]),
module_info_get_interface_module_specifiers(ModuleInfo,
InterfaceImports),
module_info_get_imported_module_specifiers(ModuleInfo,
ImportedModules0),
ImportedModules =
ImportedModules0 `difference` set(all_builtin_modules),
set.fold(import_documentation(InterfaceImports),
ImportedModules, [], ImportsXml),
ImportXml = elem("imports", [], ImportsXml),
module_info_get_type_table(ModuleInfo, TypeTable),
foldl_over_type_ctor_defns(type_documentation(Comments), TypeTable,
[], TypeXmls),
TypeXml = elem("types", [], TypeXmls),
module_info_get_preds(ModuleInfo, PredTable),
map.foldl(pred_documentation(Comments), PredTable, [], PredXmls),
PredXml = elem("preds", [], PredXmls),
module_info_get_class_table(ModuleInfo, ClassTable),
map.foldl(class_documentation(Comments, PredTable), ClassTable,
[], ClassXmls),
ClassXml = elem("typeclasses", [], ClassXmls),
Children = [CommentXml, ImportXml, TypeXml, PredXml, ClassXml],
Xml = elem("module", [], Children)
)
].
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
% Output the documentation for one import
%
:- pred import_documentation(set(module_specifier)::in, module_specifier::in,
list(xml)::in, list(xml)::out) is det.
import_documentation(InterfaceImportedModules, ImportedModule, !Xmls) :-
XmlName = name(ImportedModule),
( ImportedModule `set.member` InterfaceImportedModules ->
XmlVisibility = visibility(status_exported)
;
XmlVisibility = visibility(status_local)
),
Xml = elem("import", [], [XmlName, XmlVisibility]),
!:Xmls = [Xml | !.Xmls].
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
% Output the documentation of one type.
%
:- pred type_documentation(comments::in, type_ctor::in, hlds_type_defn::in,
list(xml)::in, list(xml)::out) is det.
type_documentation(C, type_ctor(TypeName, TypeArity), TypeDefn, !Xmls) :-
get_type_defn_status(TypeDefn, ImportStatus),
DefinedInThisModule = status_defined_in_this_module(ImportStatus),
(
DefinedInThisModule = yes,
get_type_defn_body(TypeDefn, TypeBody),
get_type_defn_tvarset(TypeDefn, TVarset),
get_type_defn_context(TypeDefn, Context),
get_type_defn_tparams(TypeDefn, TParams),
XmlName = name(TypeName),
XmlTypeParams = xml_list("type_params", type_param(TVarset), TParams),
XmlVisibility = visibility(ImportStatus),
Tag = type_xml_tag(TypeBody),
Id = attr("id", sym_name_and_arity_to_id("type", TypeName, TypeArity)),
Children = [XmlName, XmlTypeParams, XmlVisibility,
prog_context(Context) | type_body(C, TVarset, TypeBody)],
Xml0 = elem(Tag, [Id], Children),
Xml = maybe_add_comment(C, Context, Xml0),
!:Xmls = [Xml | !.Xmls]
;
DefinedInThisModule = no
).
:- func type_xml_tag(hlds_type_body) = string.
type_xml_tag(hlds_du_type(_, _, _, _, _, _, _, _, _)) = "du_type".
type_xml_tag(hlds_eqv_type(_)) = "eqv_type".
type_xml_tag(hlds_foreign_type(_)) = "foreign_type".
type_xml_tag(hlds_solver_type(_, _)) = "solver_type".
type_xml_tag(hlds_abstract_type(_)) = "abstract_type".
:- func type_param(tvarset, type_param) = xml.
type_param(TVarset, TVar) = Xml :-
TVarName = varset.lookup_name(TVarset, TVar),
Xml = tagged_string("type_variable", TVarName).
:- func type_body(comments, tvarset, hlds_type_body) = list(xml).
type_body(C, TVarset, hlds_du_type(Ctors, _, _, _, _, _, _, _, _)) =
[xml_list("constructors", constructor(C, TVarset), Ctors)].
type_body(_, TVarset, hlds_eqv_type(Type)) =
[elem("equivalent_type", [], [mer_type(TVarset, Type)])].
% XXX TODO
type_body(_, _, hlds_foreign_type(_)) = [nyi("hlds_foreign_type")].
type_body(_, _, hlds_solver_type(_, _)) = [nyi("hlds_solver_type")].
type_body(_, _, hlds_abstract_type(_)) = [nyi("hlds_abstract_type")].
:- func constructor(comments, tvarset, constructor) = xml.
constructor(C, TVarset,
ctor(Exists, Constraints, Name, Args, Context)) = Xml :-
Id = attr("id", sym_name_and_arity_to_id("ctor", Name, length(Args))),
XmlName = name(Name),
XmlContext = prog_context(Context),
XmlArgs = xml_list("ctor_args", constructor_arg(C, TVarset), Args),
XmlExistVars = xml_list("ctor_exist_vars", type_param(TVarset), Exists),
XmlConstraints =
xml_list("ctor_constraints", prog_constraint(TVarset), Constraints),
Xml0 = elem("constructor", [Id],
[XmlName, XmlContext, XmlArgs, XmlExistVars, XmlConstraints]),
Xml = maybe_add_comment(C, Context, Xml0).
:- func constructor_arg(comments, tvarset, constructor_arg) = xml.
constructor_arg(C, TVarset, ctor_arg(MaybeFieldName, Type, Context)) = Xml :-
XmlType = elem("arg_type", [], [mer_type(TVarset, Type)]),
XmlContext = prog_context(Context),
(
MaybeFieldName = yes(FieldName),
Id = attr("id", sym_name_to_id("field", FieldName)),
XmlMaybeFieldName = [elem("field", [Id], [name(FieldName)])]
;
MaybeFieldName = no,
XmlMaybeFieldName = []
),
Xml0 = elem("ctor_arg", [], [XmlType, XmlContext | XmlMaybeFieldName]),
Xml = maybe_add_comment(C, Context, Xml0).
:- func mer_type(tvarset, mer_type) = xml.
mer_type(TVarset, type_variable(TVar, _)) = type_param(TVarset, TVar).
mer_type(TVarset, defined_type(TypeName, Args, _)) = Xml :-
Ref = attr("ref", sym_name_and_arity_to_id("type", TypeName, length(Args))),
XmlName = name(TypeName),
XmlArgs = xml_list("type_args", mer_type(TVarset), Args),
Xml = elem("type", [Ref], [XmlName, XmlArgs]).
mer_type(_, builtin_type(builtin_type_int)) = elem("int", [], []).
mer_type(_, builtin_type(builtin_type_float)) = elem("float", [], []).
mer_type(_, builtin_type(builtin_type_string)) = elem("string", [], []).
mer_type(_, builtin_type(builtin_type_char)) = elem("character", [], []).
mer_type(TVarset, higher_order_type(Types, MaybeResult, _, _)) = Xml :-
XmlTypes = xml_list("higher_order_type_args", mer_type(TVarset), Types),
( MaybeResult = yes(ResultType),
XmlReturn = elem("return_type", [], [mer_type(TVarset, ResultType)]),
XmlChildren = [XmlTypes, XmlReturn]
; MaybeResult = no,
XmlChildren = [XmlTypes]
),
Xml = elem("higher_order_type", [], XmlChildren).
mer_type(TVarset, tuple_type(Types, _)) = Xml :-
XmlArgs = xml_list("tuple_types", mer_type(TVarset), Types),
Xml = elem("tuple", [], [XmlArgs]).
mer_type(_, apply_n_type(_, _, _)) = nyi("apply_n_type").
mer_type(_, kinded_type(_, _)) = nyi("kinded_type").
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- pred pred_documentation(comments::in, pred_id::in, pred_info::in,
list(xml)::in, list(xml)::out) is det.
pred_documentation(C, _PredId, PredInfo, !Xml) :-
pred_info_get_import_status(PredInfo, ImportStatus),
pred_info_get_origin(PredInfo, Origin),
pred_info_get_markers(PredInfo, Markers),
(
status_defined_in_this_module(ImportStatus) = yes,
Origin = origin_user(_),
not check_marker(Markers, marker_class_method)
->
Xml = predicate_documentation(C, PredInfo),
!:Xml = [Xml | !.Xml]
;
true
).
:- func predicate_documentation(comments, pred_info) = xml.
predicate_documentation(C, PredInfo) = Xml :-
pred_info_get_typevarset(PredInfo, TVarset),
pred_info_get_exist_quant_tvars(PredInfo, Exists),
IsPredOrFunc = pred_info_is_pred_or_func(PredInfo),
Module = pred_info_module(PredInfo),
Name = pred_info_name(PredInfo),
PredName = qualified(Module, Name),
Arity = pred_info_orig_arity(PredInfo),
pred_info_get_import_status(PredInfo, ImportStatus),
Types = get_orig_arg_types(PredInfo),
pred_info_get_class_context(PredInfo, Constraints),
pred_info_get_context(PredInfo, Context),
(
IsPredOrFunc = pf_predicate,
Tag = "predicate"
;
IsPredOrFunc = pf_function,
Tag = "function"
),
Id = sym_name_and_arity_to_id(Tag, PredName, Arity),
XmlName = name(PredName),
XmlContext = prog_context(Context),
XmlTypes = xml_list("pred_types", mer_type(TVarset), Types),
XmlExistVars = xml_list("pred_exist_vars", type_param(TVarset), Exists),
XmlConstraints = prog_constraints(TVarset, Constraints),
XmlVisibility = visibility(ImportStatus),
pred_info_get_procedures(PredInfo, ProcTable),
map.foldl(pred_mode_documentation(C), ProcTable, [], XmlProcs),
XmlModes = elem("pred_modes", [], XmlProcs),
Xml0 = elem(Tag, [attr("id", Id)],
[XmlName, XmlTypes, XmlContext,
XmlExistVars, XmlConstraints, XmlVisibility, XmlModes]),
Xml = maybe_add_comment(C, Context, Xml0).
:- func get_orig_arg_types(pred_info) = list(mer_type).
get_orig_arg_types(PredInfo) = Types :-
pred_info_get_arg_types(PredInfo, Types0),
Types = keep_last_n(pred_info_orig_arity(PredInfo), Types0).
:- import_module require.
:- func keep_last_n(int, list(T)) = list(T).
keep_last_n(N, L0) =
( list.drop(list.length(L0) - N, L0, L) ->
L
;
func_error("keep_last_n")
).
:- func prog_constraints(tvarset, prog_constraints) = xml.
prog_constraints(TVarset, constraints(Univs, Exists)) = Xml :-
XmlUnivs = xml_list("pred_universal", prog_constraint(TVarset), Univs),
XmlExists = xml_list("pred_exist", prog_constraint(TVarset), Exists),
Xml = elem("pred_constraints", [], [XmlUnivs, XmlExists]).
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- pred pred_mode_documentation(comments::in, proc_id::in, proc_info::in,
list(xml)::in, list(xml)::out) is det.
pred_mode_documentation(_C, _ProcId, ProcInfo, !Xml) :-
% XXX do we ever need to remove arguments here?
proc_info_get_inst_varset(ProcInfo, IVarSet),
proc_info_declared_argmodes(ProcInfo, Modes),
proc_info_interface_determinism(ProcInfo, Determinism),
XmlModes = xml_list("modes", mer_mode(IVarSet), Modes),
XmlDet = determinism(Determinism),
Xml = elem("pred_mode", [], [XmlModes, XmlDet]),
!:Xml = [Xml | !.Xml].
:- func mer_mode(inst_varset, mer_mode) = xml.
mer_mode(IVarset, A -> B) = Xml :-
XmlFrom = xml_list("from", mer_inst(IVarset), [A]),
XmlTo = xml_list("to", mer_inst(IVarset), [B]),
Xml = elem("inst_to_inst", [], [XmlFrom, XmlTo]).
mer_mode(IVarset, user_defined_mode(Name, Args)) = Xml :-
Ref = attr("ref", sym_name_and_arity_to_id("mode", Name, length(Args))),
XmlArgs = xml_list("mode_args", mer_inst(IVarset), Args),
Xml = elem("user_defined_mode", [Ref], [name(Name), XmlArgs]).
:- func mer_inst(inst_varset, mer_inst) = xml.
mer_inst(_, any(U, _)) = elem("any", [], [uniqueness(U)]).
mer_inst(_, free) = elem("free", [], []).
mer_inst(_, free(_)) = elem("free", [], []).
mer_inst(IVarset, bound(U, BoundInsts)) = Xml :-
XmlUniq = uniqueness(U),
XmlInsts = xml_list("bound_insts", bound_inst(IVarset), BoundInsts),
Xml = elem("bound", [], [XmlUniq, XmlInsts]).
mer_inst(_, ground(U, _)) = elem("ground", [], [uniqueness(U)]).
mer_inst(_, not_reached) = elem("not_reached", [], []).
mer_inst(IVarset, inst_var(IVar)) = Xml :-
IVarName = varset.lookup_name(IVarset, IVar),
Xml = tagged_string("inst_var", IVarName).
mer_inst(IVarSet, constrained_inst_vars(_, Inst)) = mer_inst(IVarSet, Inst).
mer_inst(IVarset, defined_inst(Name)) = Xml :-
XmlName = inst_name(IVarset, Name),
Xml = elem("defined_inst", [], [XmlName]).
mer_inst(IVarset, abstract_inst(SymName, Insts)) =
mer_inst(IVarset, defined_inst(user_inst(SymName, Insts))).
:- func inst_name(inst_varset, inst_name) = xml.
inst_name(IVarset, user_inst(Name, Insts)) = Xml :-
Ref = attr("ref", sym_name_and_arity_to_id("inst", Name, length(Insts))),
XmlName = name(Name),
XmlInsts = xml_list("inst_args", mer_inst(IVarset), Insts),
Xml = elem("user_inst", [Ref], [XmlName, XmlInsts]).
inst_name(_, merge_inst(_, _)) = nyi("merge_inst").
inst_name(_, unify_inst(_, _, _, _)) = nyi("unify_inst").
inst_name(_, ground_inst(_, _, _, _)) = nyi("ground_inst").
inst_name(_, any_inst(_, _, _, _)) = nyi("any_inst").
inst_name(_, shared_inst(_)) = nyi("shared_inst").
inst_name(_, mostly_uniq_inst(_)) = nyi("mostly_uniq_inst").
inst_name(_, typed_ground(_, _)) = nyi("typed_ground").
inst_name(_, typed_inst(_, _)) = nyi("typed_inst").
:- func uniqueness(uniqueness) = xml.
uniqueness(U) = tagged_string("uniqueness", string(U)).
:- func bound_inst(inst_varset, bound_inst) = xml.
bound_inst(IVarset, bound_functor(ConsId, Insts)) = Xml :-
XmlCons = cons_id(ConsId),
XmlInsts = xml_list("insts", mer_inst(IVarset), Insts),
Xml = elem("bound_functor", [], [XmlCons, XmlInsts]).
:- func cons_id(cons_id) = xml.
cons_id(cons(Name, Arity, _)) = elem("cons", [], [name(Name), arity(Arity)]).
% XXX We could do better for tuple_cons and closure_cons.
% The return values here are just a continuation of what we used to do.
cons_id(tuple_cons(Arity)) =
elem("cons", [], [name(unqualified("{}")), arity(Arity)]).
cons_id(int_const(I)) = tagged_int("int", I).
cons_id(float_const(F)) = tagged_float("float", F).
cons_id(char_const(C)) = tagged_char("char", C).
cons_id(string_const(S)) = tagged_string("string", S).
cons_id(impl_defined_const(_)) = nyi("impl_defined_const").
cons_id(closure_cons(_, _)) = nyi("closure_cons").
cons_id(type_ctor_info_const(_, _, _)) = nyi("type_ctor_info_const").
cons_id(base_typeclass_info_const(_,_,_,_)) = nyi("base_typeclass_info_const").
cons_id(type_info_cell_constructor(_)) = nyi("type_info_cell_constructor").
cons_id(typeclass_info_cell_constructor) =
nyi("typeclass_info_cell_constructor").
cons_id(tabling_info_const(_)) = nyi("tabling_info_const").
cons_id(table_io_decl(_)) = nyi("table_io_decl").
cons_id(deep_profiling_proc_layout(_)) = nyi("deep_profiling_proc_layout").
:- func arity(int) = xml.
arity(Arity) = tagged_int("arity", Arity).
:- func determinism(determinism) = xml.
determinism(detism_det) = tagged_string("determinism", "det").
determinism(detism_semi) = tagged_string("determinism", "semidet").
determinism(detism_multi) = tagged_string("determinism", "multi").
determinism(detism_non) = tagged_string("determinism", "nondet").
determinism(detism_cc_non) = tagged_string("determinism", "cc_nondet").
determinism(detism_cc_multi) = tagged_string("determinism", "cc_multi").
determinism(detism_erroneous) = tagged_string("determinism", "erroneous").
determinism(detism_failure) = tagged_string("determinism", "failure").
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- pred class_documentation(comments::in, pred_table::in,
class_id::in, hlds_class_defn::in,
list(xml)::in, list(xml)::out) is det.
class_documentation(C, PredTable, class_id(Name, Arity), ClassDefn, !Xml) :-
ImportStatus = ClassDefn ^ class_status,
DefinedInThisModule = status_defined_in_this_module(ImportStatus),
(
DefinedInThisModule = yes,
Id = sym_name_and_arity_to_id("class", Name, Arity),
Context = ClassDefn ^ class_context,
TVarset = ClassDefn ^ class_tvarset,
Vars = ClassDefn ^ class_vars,
XmlName = name(Name),
XmlClassVars = xml_list("class_vars", type_param(TVarset), Vars),
XmlSupers = xml_list("superclasses",
prog_constraint(TVarset), ClassDefn ^ class_supers),
XmlFundeps = xml_list("fundeps",
fundep(TVarset, Vars), ClassDefn ^ class_fundeps),
XmlMethods = class_methods(C,
PredTable, ClassDefn ^ class_hlds_interface),
XmlVisibility = visibility(ImportStatus),
XmlContext = prog_context(Context),
Xml0 = elem("typeclass", [attr("id", Id)],
[XmlName, XmlClassVars, XmlSupers,
XmlFundeps, XmlMethods, XmlVisibility, XmlContext]),
Xml = maybe_add_comment(C, Context, Xml0),
!:Xml = [Xml | !.Xml]
;
DefinedInThisModule = no
).
:- func fundep(tvarset, list(tvar), hlds_class_fundep) = xml.
fundep(TVarset, Vars, fundep(Domain, Range)) = Xml :-
XmlDomain = fundep_2("domain", TVarset, Vars, Domain),
XmlRange = fundep_2("range", TVarset, Vars, Range),
Xml = elem("fundep", [], [XmlDomain, XmlRange]).
:- func fundep_2(string, tvarset, list(tvar), set(hlds_class_argpos)) = xml.
fundep_2(Tag, TVarset, Vars, Set) =
xml_list(Tag, type_param(TVarset), restrict_list_elements(Set, Vars)).
:- func class_methods(comments, pred_table, hlds_class_interface) = xml.
class_methods(C, PredTable, Methods) = Xml :-
AllPredIds = list.map(func(hlds_class_proc(PredId, _)) = PredId, Methods),
PredIds = list.sort_and_remove_dups(AllPredIds),
PredInfos = list.map(func(Id) = map.lookup(PredTable, Id), PredIds),
Xml = xml_list("methods", predicate_documentation(C), PredInfos).
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- func name(sym_name) = xml.
name(unqualified(Name)) = tagged_string("unqualified", Name).
name(qualified(Module, Name)) =
elem("qualified", [], [
tagged_string("module", sym_name_to_string(Module)),
tagged_string("name", Name)]).
%-----------------------------------------------------------------------------%
:- func prog_context(prog_context) = xml.
prog_context(context(FileName, LineNumber)) =
elem("context", [], [
tagged_string("filename", FileName),
tagged_int("line", LineNumber)]).
%-----------------------------------------------------------------------------%
:- func prog_constraint(tvarset, prog_constraint) = xml.
prog_constraint(TVarset, constraint(ClassName, Types)) = Xml :-
Id = sym_name_and_arity_to_id("constraint", ClassName, list.length(Types)),
XmlName = name(ClassName),
XmlTypes = xml_list("constraint_types", mer_type(TVarset), Types),
Xml = elem("constraint", [attr("ref", Id)], [XmlName, XmlTypes]).
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- func visibility(import_status) = xml.
visibility(Status) = tagged_string("visibility", Visibility) :-
( status_defined_in_impl_section(Status) = yes ->
( Status = status_abstract_exported ->
Visibility = "abstract"
;
Visibility = "implementation"
)
;
Visibility = "interface"
).
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
% sym_name_to_id(P, S) converts the sym_name, S, into
% a string with prefix, P, prefixed to the generated name.
%
:- func sym_name_to_id(string, sym_name) = string.
sym_name_to_id(Prefix, Name) = prefixed_sym_name(Prefix, Name).
% sym_name_to_id(P, S, A) converts the sym_name, S, with
% arity, A, into a string with prefix, P, prefixed to the
% generated name.
%
:- func sym_name_and_arity_to_id(string, sym_name, int) = string.
sym_name_and_arity_to_id(Prefix, Name, Arity) =
prefixed_sym_name(Prefix, Name) ++ "-" ++ int_to_string(Arity).
:- func prefixed_sym_name(string, sym_name) = string.
prefixed_sym_name(Prefix, Name) = Prefix ++ "." ++ sym_name_to_string(Name).
%-----------------------------------------------------------------------------%
%-----------------------------------------------------------------------------%
:- func tagged_int(string, int) = xml.
tagged_int(E, I) = elem(E, [], [data(int_to_string(I))]).
:- func tagged_float(string, float) = xml.
tagged_float(E, F) = elem(E, [], [data(float_to_string(F))]).
:- func tagged_char(string, char) = xml.
tagged_char(E, C) = elem(E, [], [data(char_to_string(C))]).
:- func tagged_string(string, string) = xml.
tagged_string(E, S) = elem(E, [], [data(S)]).
%-----------------------------------------------------------------------------%
:- func xml_list(string, func(T) = xml, list(T)) = xml.
xml_list(Tag, F, L) = elem(Tag, [], list.map(F, L)).
%-----------------------------------------------------------------------------%
:- func nyi(string) = xml.
nyi(Tag) = tagged_string(Tag, "Not yet implemented!").
%-----------------------------------------------------------------------------%
:- end_module check_hlds.xml_documentation.
%-----------------------------------------------------------------------------%
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