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modelbuilder: honor --only-parse
[nit.git] / src / modelbuilder.nit
1 # This file is part of NIT ( http://www.nitlanguage.org ).
2 #
3 # Copyright 2012 Jean Privat <jean@pryen.org>
4 #
5 # Licensed under the Apache License, Version 2.0 (the "License");
6 # you may not use this file except in compliance with the License.
7 # You may obtain a copy of the License at
8 #
9 # http://www.apache.org/licenses/LICENSE-2.0
10 #
11 # Unless required by applicable law or agreed to in writing, software
12 # distributed under the License is distributed on an "AS IS" BASIS,
13 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14 # See the License for the specific language governing permissions and
15 # limitations under the License.
16
17 # Load nit source files and build the associated model
18 #
19 # FIXME better doc
20 #
21 # FIXME split this module into submodules
22 # FIXME add missing error checks
23 module modelbuilder
24
25 import parser
26 import model
27 import poset
28 import opts
29 import toolcontext
30
31 ###
32
33 redef class ToolContext
34 # Option --path
35 readable var _opt_path: OptionArray = new OptionArray("Set include path for loaders (may be used more than once)", "-I", "--path")
36
37 # Option --only-metamodel
38 readable var _opt_only_metamodel: OptionBool = new OptionBool("Stop after meta-model processing", "--only-metamodel")
39
40 # Option --only-parse
41 readable var _opt_only_parse: OptionBool = new OptionBool("Only proceed to parse step of loaders", "--only-parse")
42
43 redef init
44 do
45 super
46 option_context.add_option(opt_path, opt_only_parse, opt_only_metamodel)
47 end
48 end
49
50 # A model builder knows how to load nit source files and build the associated model
51 # The important function is `parse_and_build' that does all the job.
52 # The others function can be used for specific tasks
53 class ModelBuilder
54 # The model where new modules, classes and properties are added
55 var model: Model
56
57 # The toolcontext used to control the interaction with the user (getting options and displaying messages)
58 var toolcontext: ToolContext
59
60 # Instantiate a modelbuilder for a model and a toolcontext
61 # Important, the options of the toolcontext must be correctly set (parse_option already called)
62 init(model: Model, toolcontext: ToolContext)
63 do
64 self.model = model
65 self.toolcontext = toolcontext
66
67 # Setup the paths value
68 paths.append(toolcontext.opt_path.value)
69
70 var path_env = "NIT_PATH".environ
71 if not path_env.is_empty then
72 paths.append(path_env.split_with(':'))
73 end
74
75 path_env = "NIT_DIR".environ
76 if not path_env.is_empty then
77 var libname = "{path_env}/lib"
78 if libname.file_exists then paths.add(libname)
79 end
80
81 var libname = "{sys.program_name.dirname}/../lib"
82 if libname.file_exists then paths.add(libname.simplify_path)
83 end
84
85 # Load and analyze a bunch of modules.
86 # `modules' can contains filenames or module names.
87 # Imported modules are automatically loaded, builds and analysed.
88 # The result is the corresponding built modules.
89 # Errors and warnings are printed with the toolcontext.
90 #
91 # FIXME: Maybe just let the client do the loop (instead of playing with Sequences)
92 fun parse_and_build(modules: Sequence[String]): Array[MModule]
93 do
94 var time0 = get_time
95 # Parse and recursively load
96 self.toolcontext.info("*** PARSE ***", 1)
97 var mmodules = new Array[MModule]
98 for a in modules do
99 var nmodule = self.load_module(null, a)
100 if nmodule == null then continue # Skip error
101 mmodules.add(nmodule.mmodule.as(not null))
102 end
103 var time1 = get_time
104 self.toolcontext.info("*** END PARSE: {time1-time0} ***", 2)
105
106 self.toolcontext.check_errors
107
108 if self.toolcontext.opt_only_parse.value then
109 self.toolcontext.info("--only-parse: stop processing", 2)
110 return new Array[MModule]
111 end
112
113 # Build the model
114 self.toolcontext.info("*** BUILD MODEL ***", 1)
115 self.build_all_classes
116 var time2 = get_time
117 self.toolcontext.info("*** END BUILD MODEL: {time2-time1} ***", 2)
118
119 self.toolcontext.check_errors
120
121 return mmodules
122 end
123
124 # Return a class named `name' visible by the module `mmodule'.
125 # Visibility in modules is correctly handled.
126 # If no such a class exists, then null is returned.
127 # If more than one class exists, then an error on `anode' is displayed and null is returned.
128 # FIXME: add a way to handle class name conflict
129 fun try_get_mclass_by_name(anode: ANode, mmodule: MModule, name: String): nullable MClass
130 do
131 var classes = model.get_mclasses_by_name(name)
132 if classes == null then
133 return null
134 end
135
136 var res: nullable MClass = null
137 for mclass in classes do
138 if not mmodule.in_importation <= mclass.intro_mmodule then continue
139 if not mmodule.is_visible(mclass.intro_mmodule, mclass.visibility) then continue
140 if res == null then
141 res = mclass
142 else
143 error(anode, "Ambigous class name '{name}'; conflict between {mclass.full_name} and {res.full_name}")
144 return null
145 end
146 end
147 return res
148 end
149
150 # Return a property named `name' on the type `mtype' visible in the module `mmodule'.
151 # Visibility in modules is correctly handled.
152 # Protected properties are returned (it is up to the caller to check and reject protected properties).
153 # If no such a property exists, then null is returned.
154 # If more than one property exists, then an error on `anode' is displayed and null is returned.
155 # FIXME: add a way to handle property name conflict
156 fun try_get_mproperty_by_name2(anode: ANode, mmodule: MModule, mtype: MType, name: String): nullable MProperty
157 do
158 var props = self.model.get_mproperties_by_name(name)
159 if props == null then
160 return null
161 end
162
163 var cache = self.try_get_mproperty_by_name2_cache[mmodule, mtype, name]
164 if cache != null then return cache
165
166 var res: nullable MProperty = null
167 var ress: nullable Array[MProperty] = null
168 for mprop in props do
169 if not mtype.has_mproperty(mmodule, mprop) then continue
170 if not mmodule.is_visible(mprop.intro_mclassdef.mmodule, mprop.visibility) then continue
171 if res == null then
172 res = mprop
173 else
174 var restype = res.intro_mclassdef.bound_mtype
175 var mproptype = mprop.intro_mclassdef.bound_mtype
176 if restype.is_subtype(mmodule, null, mproptype) then
177 # we keep res
178 else if mproptype.is_subtype(mmodule, null, restype) then
179 res = mprop
180 else
181 if ress == null then ress = new Array[MProperty]
182 ress.add(mprop)
183 end
184 end
185 end
186 if ress != null then
187 var restype = res.intro_mclassdef.bound_mtype
188 for mprop in ress do
189 var mproptype = mprop.intro_mclassdef.bound_mtype
190 if not restype.is_subtype(mmodule, null, mproptype) then
191 self.error(anode, "Ambigous property name '{name}' for {mtype}; conflict between {mprop.full_name} and {res.full_name}")
192 return null
193 end
194 end
195 end
196
197 self.try_get_mproperty_by_name2_cache[mmodule, mtype, name] = res
198 return res
199 end
200
201 private var try_get_mproperty_by_name2_cache: HashMap3[MModule, MType, String, nullable MProperty] = new HashMap3[MModule, MType, String, nullable MProperty]
202
203
204 # Alias for try_get_mproperty_by_name2(anode, mclassdef.mmodule, mclassdef.mtype, name)
205 fun try_get_mproperty_by_name(anode: ANode, mclassdef: MClassDef, name: String): nullable MProperty
206 do
207 return try_get_mproperty_by_name2(anode, mclassdef.mmodule, mclassdef.bound_mtype, name)
208 end
209
210 # The list of directories to search for top level modules
211 # The list is initially set with :
212 # * the toolcontext --path option
213 # * the NIT_PATH environment variable
214 # * some heuristics including the NIT_DIR environment variable and the progname of the process
215 # Path can be added (or removed) by the client
216 var paths: Array[String] = new Array[String]
217
218 # Get a module by its short name; if required, the module is loaded, parsed and its hierarchies computed.
219 # If `mmodule' is set, then the module search starts from it up to the top level (see `paths');
220 # if `mmodule' is null then the module is searched in the top level only.
221 # If no module exists or there is a name conflict, then an error on `anode' is displayed and null is returned.
222 # FIXME: add a way to handle module name conflict
223 fun get_mmodule_by_name(anode: ANode, mmodule: nullable MModule, name: String): nullable MModule
224 do
225 var origmmodule = mmodule
226 var modules = model.get_mmodules_by_name(name)
227
228 var tries = new Array[String]
229
230 var lastmodule = mmodule
231 while mmodule != null do
232 var dirname = mmodule.location.file.filename.dirname
233
234 # Determine the owner
235 var owner: nullable MModule
236 if dirname.basename("") != mmodule.name then
237 owner = mmodule.direct_owner
238 else
239 owner = mmodule
240 end
241
242 # First, try the already known nested modules
243 if modules != null then
244 for candidate in modules do
245 if candidate.direct_owner == owner then
246 return candidate
247 end
248 end
249 end
250
251 # Second, try the directory to find a file
252 var try_file = dirname + "/" + name + ".nit"
253 tries.add try_file
254 if try_file.file_exists then
255 var res = self.load_module(owner, try_file.simplify_path)
256 if res == null then return null # Forward error
257 return res.mmodule.as(not null)
258 end
259
260 # Third, try if the requested module is itself an owner
261 try_file = dirname + "/" + name + "/" + name + ".nit"
262 if try_file.file_exists then
263 var res = self.load_module(owner, try_file.simplify_path)
264 if res == null then return null # Forward error
265 return res.mmodule.as(not null)
266 end
267
268 lastmodule = mmodule
269 mmodule = mmodule.direct_owner
270 end
271
272 if modules != null then
273 for candidate in modules do
274 if candidate.direct_owner == null then
275 return candidate
276 end
277 end
278 end
279
280 # Look at some known directories
281 var lookpaths = self.paths
282
283 # Look in the directory of the last module also (event if not in the path)
284 if lastmodule != null then
285 var dirname = lastmodule.location.file.filename.dirname
286 if dirname.basename("") == lastmodule.name then
287 dirname = dirname.dirname
288 end
289 if not lookpaths.has(dirname) then
290 lookpaths = lookpaths.to_a
291 lookpaths.add(dirname)
292 end
293 end
294
295 var candidate: nullable String = null
296 for dirname in lookpaths do
297 var try_file = (dirname + "/" + name + ".nit").simplify_path
298 tries.add try_file
299 if try_file.file_exists then
300 if candidate == null then
301 candidate = try_file
302 else if candidate != try_file then
303 error(anode, "Error: conflicting module file for {name}: {candidate} {try_file}")
304 end
305 end
306 try_file = (dirname + "/" + name + "/" + name + ".nit").simplify_path
307 if try_file.file_exists then
308 if candidate == null then
309 candidate = try_file
310 else if candidate != try_file then
311 error(anode, "Error: conflicting module file for {name}: {candidate} {try_file}")
312 end
313 end
314 end
315 if candidate == null then
316 if origmmodule != null then
317 error(anode, "Error: cannot find module {name} from {origmmodule}. tried {tries.join(", ")}")
318 else
319 error(anode, "Error: cannot find module {name}. tried {tries.join(", ")}")
320 end
321 return null
322 end
323 var res = self.load_module(mmodule, candidate)
324 if res == null then return null # Forward error
325 return res.mmodule.as(not null)
326 end
327
328 # Try to load a module using a path.
329 # Display an error if there is a problem (IO / lexer / parser) and return null
330 # Note: usually, you do not need this method, use `get_mmodule_by_name` instead.
331 fun load_module(owner: nullable MModule, filename: String): nullable AModule
332 do
333 if not filename.file_exists then
334 self.toolcontext.error(null, "Error: file {filename} not found.")
335 return null
336 end
337
338 var x = if owner != null then owner.to_s else "."
339 self.toolcontext.info("load module {filename} in {x}", 2)
340
341 # Load the file
342 var file = new IFStream.open(filename)
343 var lexer = new Lexer(new SourceFile(filename, file))
344 var parser = new Parser(lexer)
345 var tree = parser.parse
346 file.close
347
348 # Handle lexer and parser error
349 var nmodule = tree.n_base
350 if nmodule == null then
351 var neof = tree.n_eof
352 assert neof isa AError
353 error(neof, neof.message)
354 return null
355 end
356
357 # Check the module name
358 var mod_name = filename.basename(".nit")
359 var decl = nmodule.n_moduledecl
360 if decl == null then
361 #warning(nmodule, "Warning: Missing 'module' keyword") #FIXME: NOT YET FOR COMPATIBILITY
362 else
363 var decl_name = decl.n_name.n_id.text
364 if decl_name != mod_name then
365 error(decl.n_name, "Error: module name missmatch; declared {decl_name} file named {mod_name}")
366 end
367 end
368
369 # Create the module
370 var mmodule = new MModule(model, owner, mod_name, nmodule.location)
371 nmodule.mmodule = mmodule
372 nmodules.add(nmodule)
373 self.mmodule2nmodule[mmodule] = nmodule
374
375 build_module_importation(nmodule)
376
377 return nmodule
378 end
379
380 # Analysis the module importation and fill the module_importation_hierarchy
381 private fun build_module_importation(nmodule: AModule)
382 do
383 if nmodule.is_importation_done then return
384 var mmodule = nmodule.mmodule.as(not null)
385 var stdimport = true
386 var imported_modules = new Array[MModule]
387 for aimport in nmodule.n_imports do
388 stdimport = false
389 if not aimport isa AStdImport then
390 continue
391 end
392 var mod_name = aimport.n_name.n_id.text
393 var sup = self.get_mmodule_by_name(aimport.n_name, mmodule, mod_name)
394 if sup == null then continue # Skip error
395 imported_modules.add(sup)
396 var mvisibility = aimport.n_visibility.mvisibility
397 mmodule.set_visibility_for(sup, mvisibility)
398 end
399 if stdimport then
400 var mod_name = "standard"
401 var sup = self.get_mmodule_by_name(nmodule, null, mod_name)
402 if sup != null then # Skip error
403 imported_modules.add(sup)
404 mmodule.set_visibility_for(sup, public_visibility)
405 end
406 end
407 self.toolcontext.info("{mmodule} imports {imported_modules.join(", ")}", 3)
408 mmodule.set_imported_mmodules(imported_modules)
409 nmodule.is_importation_done = true
410 end
411
412 # All the loaded modules
413 var nmodules: Array[AModule] = new Array[AModule]
414
415 # Build the classes of all modules `nmodules'.
416 private fun build_all_classes
417 do
418 for nmodule in self.nmodules do
419 build_classes(nmodule)
420 end
421 end
422
423 # Visit the AST and create the MClass objects
424 private fun build_a_mclass(nmodule: AModule, nclassdef: AClassdef)
425 do
426 var mmodule = nmodule.mmodule.as(not null)
427
428 var name: String
429 var nkind: nullable AClasskind
430 var mkind: MClassKind
431 var nvisibility: nullable AVisibility
432 var mvisibility: nullable MVisibility
433 var arity = 0
434 if nclassdef isa AStdClassdef then
435 name = nclassdef.n_id.text
436 nkind = nclassdef.n_classkind
437 mkind = nkind.mkind
438 nvisibility = nclassdef.n_visibility
439 mvisibility = nvisibility.mvisibility
440 arity = nclassdef.n_formaldefs.length
441 else if nclassdef isa ATopClassdef then
442 name = "Object"
443 nkind = null
444 mkind = interface_kind
445 nvisibility = null
446 mvisibility = public_visibility
447 else if nclassdef isa AMainClassdef then
448 name = "Sys"
449 nkind = null
450 mkind = concrete_kind
451 nvisibility = null
452 mvisibility = public_visibility
453 else
454 abort
455 end
456
457 var mclass = try_get_mclass_by_name(nclassdef, mmodule, name)
458 if mclass == null then
459 mclass = new MClass(mmodule, name, arity, mkind, mvisibility)
460 #print "new class {mclass}"
461 else if nclassdef isa AStdClassdef and nclassdef.n_kwredef == null then
462 error(nclassdef, "Redef error: {name} is an imported class. Add the redef keyword to refine it.")
463 return
464 else if mclass.arity != arity then
465 error(nclassdef, "Redef error: Formal parameter arity missmatch; got {arity}, expected {mclass.arity}.")
466 return
467 else if nkind != null and mkind != concrete_kind and mclass.kind != mkind then
468 error(nkind, "Error: refinement changed the kind from a {mclass.kind} to a {mkind}")
469 else if nvisibility != null and mvisibility != public_visibility and mclass.visibility != mvisibility then
470 error(nvisibility, "Error: refinement changed the visibility from a {mclass.visibility} to a {mvisibility}")
471 end
472 nclassdef.mclass = mclass
473 end
474
475 # Visit the AST and create the MClassDef objects
476 private fun build_a_mclassdef(nmodule: AModule, nclassdef: AClassdef)
477 do
478 var mmodule = nmodule.mmodule.as(not null)
479 var objectclass = try_get_mclass_by_name(nmodule, mmodule, "Object")
480 var mclass = nclassdef.mclass.as(not null)
481 #var mclassdef = nclassdef.mclassdef.as(not null)
482
483 var names = new Array[String]
484 var bounds = new Array[MType]
485 if nclassdef isa AStdClassdef and mclass.arity > 0 then
486 # Collect formal parameter names
487 for i in [0..mclass.arity[ do
488 var nfd = nclassdef.n_formaldefs[i]
489 var ptname = nfd.n_id.text
490 if names.has(ptname) then
491 error(nfd, "Error: A formal parameter type `{ptname}' already exists")
492 return
493 end
494 names.add(ptname)
495 end
496
497 # Revolve bound for formal parameter names
498 for i in [0..mclass.arity[ do
499 var nfd = nclassdef.n_formaldefs[i]
500 var nfdt = nfd.n_type
501 if nfdt != null then
502 var bound = resolve_mtype(nclassdef, nfdt)
503 if bound == null then return # Forward error
504 if bound.need_anchor then
505 # No F-bounds!
506 error(nfd, "Error: Formal parameter type `{names[i]}' bounded with a formal parameter type")
507 else
508 bounds.add(bound)
509 end
510 else if mclass.mclassdefs.is_empty then
511 # No bound, then implicitely bound by nullable Object
512 bounds.add(objectclass.mclass_type.as_nullable)
513 else
514 # Inherit the bound
515 bounds.add(mclass.mclassdefs.first.bound_mtype.as(MGenericType).arguments[i])
516 end
517 end
518 end
519
520 var bound_mtype = mclass.get_mtype(bounds)
521 var mclassdef = new MClassDef(mmodule, bound_mtype, nclassdef.location, names)
522 nclassdef.mclassdef = mclassdef
523 self.mclassdef2nclassdef[mclassdef] = nclassdef
524
525 if mclassdef.is_intro then
526 self.toolcontext.info("{mclassdef} introduces new {mclass.kind} {mclass.full_name}", 3)
527 else
528 self.toolcontext.info("{mclassdef} refine {mclass.kind} {mclass.full_name}", 3)
529 end
530 end
531
532 # Visit the AST and set the super-types of the MClass objects (ie compute the inheritance)
533 private fun build_a_mclassdef_inheritance(nmodule: AModule, nclassdef: AClassdef)
534 do
535 var mmodule = nmodule.mmodule.as(not null)
536 var objectclass = try_get_mclass_by_name(nmodule, mmodule, "Object")
537 var mclass = nclassdef.mclass.as(not null)
538 var mclassdef = nclassdef.mclassdef.as(not null)
539
540 var specobject = true
541 var supertypes = new Array[MClassType]
542 if nclassdef isa AStdClassdef then
543 for nsc in nclassdef.n_superclasses do
544 specobject = false
545 var ntype = nsc.n_type
546 var mtype = resolve_mtype(nclassdef, ntype)
547 if mtype == null then continue # Skip because of error
548 if not mtype isa MClassType then
549 error(ntype, "Error: supertypes cannot be a formal type")
550 return
551 end
552 supertypes.add mtype
553 #print "new super : {mclass} < {mtype}"
554 end
555 end
556 if specobject and mclass.name != "Object" and objectclass != null and mclassdef.is_intro then
557 supertypes.add objectclass.mclass_type
558 end
559
560 mclassdef.set_supertypes(supertypes)
561 if not supertypes.is_empty then self.toolcontext.info("{mclassdef} new super-types: {supertypes.join(", ")}", 3)
562 end
563
564 # Check the validity of the specialization heirarchy
565 # FIXME Stub implementation
566 private fun check_supertypes(nmodule: AModule, nclassdef: AClassdef)
567 do
568 var mmodule = nmodule.mmodule.as(not null)
569 var objectclass = try_get_mclass_by_name(nmodule, mmodule, "Object")
570 var mclass = nclassdef.mclass.as(not null)
571 var mclassdef = nclassdef.mclassdef.as(not null)
572 end
573
574 # Build the classes of the module `nmodule'.
575 # REQUIRE: classes of imported modules are already build. (let `build_all_classes' do the job)
576 private fun build_classes(nmodule: AModule)
577 do
578 # Force building recursively
579 if nmodule.build_classes_is_done then return
580 var mmodule = nmodule.mmodule.as(not null)
581 for imp in mmodule.in_importation.direct_greaters do
582 build_classes(mmodule2nmodule[imp])
583 end
584
585 # Create all classes
586 for nclassdef in nmodule.n_classdefs do
587 self.build_a_mclass(nmodule, nclassdef)
588 end
589
590 # Create all classdefs
591 for nclassdef in nmodule.n_classdefs do
592 self.build_a_mclassdef(nmodule, nclassdef)
593 end
594
595 # Create inheritance on all classdefs
596 for nclassdef in nmodule.n_classdefs do
597 self.build_a_mclassdef_inheritance(nmodule, nclassdef)
598 end
599
600 # TODO: Check that the super-class is not intrusive
601
602 # TODO: Check that the super-class is not already known (by transitivity)
603
604 for nclassdef in nmodule.n_classdefs do
605 self.build_properties(nclassdef)
606 end
607
608 nmodule.build_classes_is_done = true
609 end
610
611 # Register the nmodule associated to each mmodule
612 # FIXME: why not refine the MModule class with a nullable attribute?
613 var mmodule2nmodule: HashMap[MModule, AModule] = new HashMap[MModule, AModule]
614 # Register the nclassdef associated to each mclassdef
615 # FIXME: why not refine the MClassDef class with a nullable attribute?
616 var mclassdef2nclassdef: HashMap[MClassDef, AClassdef] = new HashMap[MClassDef, AClassdef]
617 # Register the npropdef associated to each mpropdef
618 # FIXME: why not refine the MPropDef class with a nullable attribute?
619 var mpropdef2npropdef: HashMap[MPropDef, APropdef] = new HashMap[MPropDef, APropdef]
620
621 # Build the properties of `nclassdef'.
622 # REQUIRE: all superclasses are built.
623 private fun build_properties(nclassdef: AClassdef)
624 do
625 # Force building recursively
626 if nclassdef.build_properties_is_done then return
627 var mclassdef = nclassdef.mclassdef.as(not null)
628 if mclassdef.in_hierarchy == null then return # Skip error
629 for superclassdef in mclassdef.in_hierarchy.direct_greaters do
630 build_properties(mclassdef2nclassdef[superclassdef])
631 end
632
633 for npropdef in nclassdef.n_propdefs do
634 npropdef.build_property(self, nclassdef)
635 end
636 for npropdef in nclassdef.n_propdefs do
637 npropdef.build_signature(self, nclassdef)
638 end
639 for npropdef in nclassdef.n_propdefs do
640 npropdef.check_signature(self, nclassdef)
641 end
642 process_default_constructors(nclassdef)
643 nclassdef.build_properties_is_done = true
644 end
645
646 # Introduce or inherit default constructor
647 # This is the last part of `build_properties'.
648 private fun process_default_constructors(nclassdef: AClassdef)
649 do
650 var mclassdef = nclassdef.mclassdef.as(not null)
651
652 # Are we a refinement
653 if not mclassdef.is_intro then return
654
655 # Is the class forbid constructors?
656 if not mclassdef.mclass.kind.need_init then return
657
658 # Is there already a constructor defined?
659 for mpropdef in mclassdef.mpropdefs do
660 if not mpropdef isa MMethodDef then continue
661 if mpropdef.mproperty.is_init then return
662 end
663
664 if not nclassdef isa AStdClassdef then return
665
666 var mmodule = nclassdef.mclassdef.mmodule
667 # Do we inherit for a constructor?
668 var combine = new Array[MMethod]
669 var inhc: nullable MClass = null
670 for st in mclassdef.supertypes do
671 var c = st.mclass
672 if not c.kind.need_init then continue
673 st = st.anchor_to(mmodule, nclassdef.mclassdef.bound_mtype)
674 var candidate = self.try_get_mproperty_by_name2(nclassdef, mmodule, st, "init").as(nullable MMethod)
675 if candidate != null and candidate.intro.msignature.arity == 0 then
676 combine.add(candidate)
677 continue
678 end
679 var inhc2 = c.inherit_init_from
680 if inhc2 == null then inhc2 = c
681 if inhc2 == inhc then continue
682 if inhc != null then
683 self.error(nclassdef, "Cannot provide a defaut constructor: conflict for {inhc} and {c}")
684 else
685 inhc = inhc2
686 end
687 end
688 if combine.is_empty and inhc != null then
689 # TODO: actively inherit the consturctor
690 self.toolcontext.info("{mclassdef} inherits all constructors from {inhc}", 3)
691 mclassdef.mclass.inherit_init_from = inhc
692 return
693 end
694 if not combine.is_empty and inhc != null then
695 self.error(nclassdef, "Cannot provide a defaut constructor: conflict for {combine.join(", ")} and {inhc}")
696 return
697 end
698
699 if not combine.is_empty then
700 nclassdef.super_inits = combine
701 var mprop = new MMethod(mclassdef, "init", mclassdef.mclass.visibility)
702 var mpropdef = new MMethodDef(mclassdef, mprop, nclassdef.location)
703 var param_names = new Array[String]
704 var param_types = new Array[MType]
705 var msignature = new MSignature(param_names, param_types, null, -1)
706 mpropdef.msignature = msignature
707 mprop.is_init = true
708 nclassdef.mfree_init = mpropdef
709 self.toolcontext.info("{mclassdef} gets a free empty constructor {mpropdef}{msignature}", 3)
710 return
711 end
712
713 # Collect undefined attributes
714 var param_names = new Array[String]
715 var param_types = new Array[MType]
716 for npropdef in nclassdef.n_propdefs do
717 if npropdef isa AAttrPropdef and npropdef.n_expr == null then
718 param_names.add(npropdef.mpropdef.mproperty.name.substring_from(1))
719 var ret_type = npropdef.mpropdef.static_mtype
720 if ret_type == null then return
721 param_types.add(ret_type)
722 end
723 end
724
725 var mprop = new MMethod(mclassdef, "init", mclassdef.mclass.visibility)
726 var mpropdef = new MMethodDef(mclassdef, mprop, nclassdef.location)
727 var msignature = new MSignature(param_names, param_types, null, -1)
728 mpropdef.msignature = msignature
729 mprop.is_init = true
730 nclassdef.mfree_init = mpropdef
731 self.toolcontext.info("{mclassdef} gets a free constructor for attributes {mpropdef}{msignature}", 3)
732 end
733
734 # Return the static type associated to the node `ntype'.
735 # `classdef' is the context where the call is made (used to understand formal types)
736 # The mmodule used as context is `nclassdef.mmodule'
737 # In case of problem, an error is displayed on `ntype' and null is returned.
738 # FIXME: the name "resolve_mtype" is awful
739 fun resolve_mtype(nclassdef: AClassdef, ntype: AType): nullable MType
740 do
741 var name = ntype.n_id.text
742 var mclassdef = nclassdef.mclassdef
743 var mmodule = nclassdef.parent.as(AModule).mmodule.as(not null)
744 var res: MType
745
746 # Check virtual type
747 if mclassdef != null then
748 var prop = try_get_mproperty_by_name(ntype, mclassdef, name).as(nullable MVirtualTypeProp)
749 if prop != null then
750 if not ntype.n_types.is_empty then
751 error(ntype, "Type error: formal type {name} cannot have formal parameters.")
752 end
753 res = prop.mvirtualtype
754 if ntype.n_kwnullable != null then res = res.as_nullable
755 return res
756 end
757 end
758
759 # Check parameter type
760 if mclassdef != null and mclassdef.parameter_names.has(name) then
761 if not ntype.n_types.is_empty then
762 error(ntype, "Type error: formal type {name} cannot have formal parameters.")
763 end
764 for i in [0..mclassdef.parameter_names.length[ do
765 if mclassdef.parameter_names[i] == name then
766 res = mclassdef.mclass.mclass_type.as(MGenericType).arguments[i]
767 if ntype.n_kwnullable != null then res = res.as_nullable
768 return res
769 end
770 end
771 abort
772 end
773
774 # Check class
775 var mclass = try_get_mclass_by_name(ntype, mmodule, name)
776 if mclass != null then
777 var arity = ntype.n_types.length
778 if arity != mclass.arity then
779 if arity == 0 then
780 error(ntype, "Type error: '{name}' is a generic class.")
781 else if mclass.arity == 0 then
782 error(ntype, "Type error: '{name}' is not a generic class.")
783 else
784 error(ntype, "Type error: '{name}' has {mclass.arity} parameters ({arity} are provided).")
785 end
786 return null
787 end
788 if arity == 0 then
789 res = mclass.mclass_type
790 if ntype.n_kwnullable != null then res = res.as_nullable
791 return res
792 else
793 var mtypes = new Array[MType]
794 for nt in ntype.n_types do
795 var mt = resolve_mtype(nclassdef, nt)
796 if mt == null then return null # Forward error
797 mtypes.add(mt)
798 end
799 res = mclass.get_mtype(mtypes)
800 if ntype.n_kwnullable != null then res = res.as_nullable
801 return res
802 end
803 end
804
805 # If everything fail, then give up :(
806 error(ntype, "Type error: class {name} not found in module {mmodule}.")
807 return null
808 end
809
810 # Helper function to display an error on a node.
811 # Alias for `self.toolcontext.error(n.hot_location, text)'
812 fun error(n: ANode, text: String)
813 do
814 self.toolcontext.error(n.hot_location, text)
815 end
816
817 # Helper function to display a warning on a node.
818 # Alias for: `self.toolcontext.warning(n.hot_location, text)'
819 fun warning(n: ANode, text: String)
820 do
821 self.toolcontext.warning(n.hot_location, text)
822 end
823 end
824
825 redef class AModule
826 # The associated MModule once build by a `ModelBuilder'
827 var mmodule: nullable MModule
828 # Flag that indicate if the importation is already completed
829 var is_importation_done: Bool = false
830 # Flag that indicate if the class and prop building is already completed
831 var build_classes_is_done: Bool = false
832 end
833
834 redef class MClass
835 # The class whose self inherit all the constructors.
836 # FIXME: this is needed to implement the crazy constructor mixin thing of the of old compiler. We need to think what to do with since this cannot stay in the modelbuilder
837 var inherit_init_from: nullable MClass = null
838 end
839
840 redef class AClassdef
841 # The associated MClass once build by a `ModelBuilder'
842 var mclass: nullable MClass
843 # The associated MClassDef once build by a `ModelBuilder'
844 var mclassdef: nullable MClassDef
845 var build_properties_is_done: Bool = false
846 # The list of super-constructor to call at the start of the free constructor
847 # FIXME: this is needed to implement the crazy constructor thing of the of old compiler. We need to think what to do with since this cannot stay in the modelbuilder
848 var super_inits: nullable Collection[MMethod] = null
849
850 # The free init (implicitely constructed by the class if required)
851 var mfree_init: nullable MMethodDef = null
852 end
853
854 redef class AClasskind
855 # The class kind associated with the AST node class
856 private fun mkind: MClassKind is abstract
857 end
858 redef class AConcreteClasskind
859 redef fun mkind do return concrete_kind
860 end
861 redef class AAbstractClasskind
862 redef fun mkind do return abstract_kind
863 end
864 redef class AInterfaceClasskind
865 redef fun mkind do return interface_kind
866 end
867 redef class AEnumClasskind
868 redef fun mkind do return enum_kind
869 end
870 redef class AExternClasskind
871 redef fun mkind do return extern_kind
872 end
873
874 redef class AVisibility
875 # The visibility level associated with the AST node class
876 private fun mvisibility: MVisibility is abstract
877 end
878 redef class AIntrudeVisibility
879 redef fun mvisibility do return intrude_visibility
880 end
881 redef class APublicVisibility
882 redef fun mvisibility do return public_visibility
883 end
884 redef class AProtectedVisibility
885 redef fun mvisibility do return protected_visibility
886 end
887 redef class APrivateVisibility
888 redef fun mvisibility do return private_visibility
889 end
890
891
892 #
893
894 redef class Prod
895 # Join the text of all tokens
896 # Used to get the 'real name' of method definitions.
897 fun collect_text: String
898 do
899 var v = new TextCollectorVisitor
900 v.enter_visit(self)
901 assert v.text != ""
902 return v.text
903 end
904 end
905
906 private class TextCollectorVisitor
907 super Visitor
908 var text: String = ""
909 redef fun visit(n)
910 do
911 if n isa Token then text += n.text
912 n.visit_all(self)
913 end
914 end
915
916 redef class APropdef
917 private fun build_property(modelbuilder: ModelBuilder, nclassdef: AClassdef)
918 do
919 end
920 private fun build_signature(modelbuilder: ModelBuilder, nclassdef: AClassdef)
921 do
922 end
923 private fun check_signature(modelbuilder: ModelBuilder, nclassdef: AClassdef)
924 do
925 end
926 private fun new_property_visibility(modelbuilder: ModelBuilder, nclassdef: AClassdef, nvisibility: nullable AVisibility): MVisibility
927 do
928 var mvisibility = public_visibility
929 if nvisibility != null then mvisibility = nvisibility.mvisibility
930 if nclassdef.mclassdef.mclass.visibility == private_visibility then
931 if mvisibility == protected_visibility then
932 assert nvisibility != null
933 modelbuilder.error(nvisibility, "Error: The only legal visibility for properties in a private class is private.")
934 else if mvisibility == private_visibility then
935 assert nvisibility != null
936 # Not yet
937 # modelbuilder.warning(nvisibility, "Warning: private is unrequired since the only legal visibility for properties in a private class is private.")
938 end
939 mvisibility = private_visibility
940 end
941 return mvisibility
942 end
943
944 private fun check_redef_property_visibility(modelbuilder: ModelBuilder, nclassdef: AClassdef, nvisibility: nullable AVisibility, mprop: MProperty)
945 do
946 if nvisibility == null then return
947 var mvisibility = nvisibility.mvisibility
948 if mvisibility != mprop.visibility and mvisibility != public_visibility then
949 modelbuilder.error(nvisibility, "Error: redefinition changed the visibility from a {mprop.visibility} to a {mvisibility}")
950 end
951 end
952
953 private fun check_redef_keyword(modelbuilder: ModelBuilder, nclassdef: AClassdef, kwredef: nullable Token, need_redef: Bool, mprop: MProperty)
954 do
955 if kwredef == null then
956 if need_redef then
957 modelbuilder.error(self, "Redef error: {nclassdef.mclassdef.mclass}::{mprop.name} is an inherited property. To redefine it, add the redef keyword.")
958 end
959 else
960 if not need_redef then
961 modelbuilder.error(self, "Error: No property {nclassdef.mclassdef.mclass}::{mprop.name} is inherited. Remove the redef keyword to define a new property.")
962 end
963 end
964 end
965 end
966
967 redef class AMethPropdef
968 # The associated MMethodDef once build by a `ModelBuilder'
969 var mpropdef: nullable MMethodDef
970
971 # The associated super init if any
972 var super_init: nullable MMethod
973 redef fun build_property(modelbuilder, nclassdef)
974 do
975 var is_init = self isa AInitPropdef
976 var mclassdef = nclassdef.mclassdef.as(not null)
977 var name: String
978 var amethodid = self.n_methid
979 var name_node: ANode
980 if amethodid == null then
981 if self isa AMainMethPropdef then
982 name = "main"
983 name_node = self
984 else if self isa AConcreteInitPropdef then
985 name = "init"
986 name_node = self.n_kwinit
987 else if self isa AExternInitPropdef then
988 name = "new"
989 name_node = self.n_kwnew
990 else
991 abort
992 end
993 else if amethodid isa AIdMethid then
994 name = amethodid.n_id.text
995 name_node = amethodid
996 else
997 # operator, bracket or assign
998 name = amethodid.collect_text
999 name_node = amethodid
1000
1001 if name == "-" and self.n_signature.n_params.length == 0 then
1002 name = "unary -"
1003 end
1004 end
1005
1006 var mprop: nullable MMethod = null
1007 if not is_init or n_kwredef != null then mprop = modelbuilder.try_get_mproperty_by_name(name_node, mclassdef, name).as(nullable MMethod)
1008 if mprop == null then
1009 var mvisibility = new_property_visibility(modelbuilder, nclassdef, self.n_visibility)
1010 mprop = new MMethod(mclassdef, name, mvisibility)
1011 mprop.is_init = is_init
1012 mprop.is_new = self isa AExternInitPropdef
1013 self.check_redef_keyword(modelbuilder, nclassdef, n_kwredef, false, mprop)
1014 else
1015 if n_kwredef == null then
1016 if self isa AMainMethPropdef then
1017 # no warning
1018 else
1019 self.check_redef_keyword(modelbuilder, nclassdef, n_kwredef, true, mprop)
1020 end
1021 end
1022 check_redef_property_visibility(modelbuilder, nclassdef, self.n_visibility, mprop)
1023 end
1024
1025 var mpropdef = new MMethodDef(mclassdef, mprop, self.location)
1026
1027 self.mpropdef = mpropdef
1028 modelbuilder.mpropdef2npropdef[mpropdef] = self
1029 if mpropdef.is_intro then
1030 modelbuilder.toolcontext.info("{mpropdef} introduces new method {mprop.full_name}", 3)
1031 else
1032 modelbuilder.toolcontext.info("{mpropdef} redefines method {mprop.full_name}", 3)
1033 end
1034 end
1035
1036 redef fun build_signature(modelbuilder, nclassdef)
1037 do
1038 var mpropdef = self.mpropdef
1039 if mpropdef == null then return # Error thus skiped
1040 var mmodule = mpropdef.mclassdef.mmodule
1041 var nsig = self.n_signature
1042
1043 # Retrieve info from the signature AST
1044 var param_names = new Array[String] # Names of parameters from the AST
1045 var param_types = new Array[MType] # Types of parameters from the AST
1046 var vararg_rank = -1
1047 var ret_type: nullable MType = null # Return type from the AST
1048 if nsig != null then
1049 for np in nsig.n_params do
1050 param_names.add(np.n_id.text)
1051 var ntype = np.n_type
1052 if ntype != null then
1053 var mtype = modelbuilder.resolve_mtype(nclassdef, ntype)
1054 if mtype == null then return # Skip error
1055 for i in [0..param_names.length-param_types.length[ do
1056 param_types.add(mtype)
1057 end
1058 if np.n_dotdotdot != null then
1059 if vararg_rank != -1 then
1060 modelbuilder.error(np, "Error: {param_names[vararg_rank]} is already a vararg")
1061 else
1062 vararg_rank = param_names.length - 1
1063 end
1064 end
1065 end
1066 end
1067 var ntype = nsig.n_type
1068 if ntype != null then
1069 ret_type = modelbuilder.resolve_mtype(nclassdef, ntype)
1070 if ret_type == null then return # Skip errir
1071 end
1072 end
1073
1074 # Look for some signature to inherit
1075 # FIXME: do not inherit from the intro, but from the most specific
1076 var msignature: nullable MSignature = null
1077 if not mpropdef.is_intro then
1078 msignature = mpropdef.mproperty.intro.msignature
1079 if msignature == null then return # Skip error
1080 else if mpropdef.mproperty.is_init then
1081 # FIXME UGLY: inherit signature from a super-constructor
1082 for msupertype in nclassdef.mclassdef.supertypes do
1083 msupertype = msupertype.anchor_to(mmodule, nclassdef.mclassdef.bound_mtype)
1084 var candidate = modelbuilder.try_get_mproperty_by_name2(self, mmodule, msupertype, mpropdef.mproperty.name)
1085 if candidate != null then
1086 if msignature == null then
1087 msignature = candidate.intro.as(MMethodDef).msignature
1088 end
1089 end
1090 end
1091 end
1092
1093 # Inherit the signature
1094 if msignature != null and param_names.length != param_types.length and param_names.length == msignature.arity and param_types.length == 0 then
1095 # Parameters are untyped, thus inherit them
1096 param_types = msignature.parameter_mtypes
1097 vararg_rank = msignature.vararg_rank
1098 end
1099 if msignature != null and ret_type == null then
1100 ret_type = msignature.return_mtype
1101 end
1102
1103 if param_names.length != param_types.length then
1104 # Some parameters are typed, other parameters are not typed.
1105 modelbuilder.warning(nsig.n_params[param_types.length], "Error: Untyped parameter `{param_names[param_types.length]}'.")
1106 return
1107 end
1108
1109 msignature = new MSignature(param_names, param_types, ret_type, vararg_rank)
1110 mpropdef.msignature = msignature
1111 end
1112
1113 redef fun check_signature(modelbuilder, nclassdef)
1114 do
1115 var mpropdef = self.mpropdef
1116 if mpropdef == null then return # Error thus skiped
1117 var mmodule = mpropdef.mclassdef.mmodule
1118 var nsig = self.n_signature
1119 var mysignature = self.mpropdef.msignature
1120 if mysignature == null then return # Error thus skiped
1121
1122 # Lookup for signature in the precursor
1123 # FIXME all precursors should be considered
1124 if not mpropdef.is_intro then
1125 var msignature = mpropdef.mproperty.intro.msignature
1126 if msignature == null then return
1127
1128 if mysignature.arity != msignature.arity then
1129 var node: ANode
1130 if nsig != null then node = nsig else node = self
1131 modelbuilder.error(node, "Redef Error: {mysignature.arity} parameters found, {msignature.arity} expected. Signature is {mpropdef}{msignature}")
1132 return
1133 end
1134 var precursor_ret_type = msignature.return_mtype
1135 var ret_type = mysignature.return_mtype
1136 if ret_type != null and precursor_ret_type == null then
1137 modelbuilder.error(nsig.n_type.as(not null), "Redef Error: {mpropdef.mproperty} is a procedure, not a function.")
1138 return
1139 end
1140
1141 if mysignature.arity > 0 then
1142 # Check parameters types
1143 for i in [0..mysignature.arity[ do
1144 var myt = mysignature.parameter_mtypes[i]
1145 var prt = msignature.parameter_mtypes[i]
1146 if not myt.is_subtype(mmodule, nclassdef.mclassdef.bound_mtype, prt) and
1147 not prt.is_subtype(mmodule, nclassdef.mclassdef.bound_mtype, myt) then
1148 modelbuilder.error(nsig.n_params[i], "Redef Error: Wrong type for parameter `{mysignature.parameter_names[i]}'. found {myt}, expected {prt}.")
1149 end
1150 end
1151 end
1152 if precursor_ret_type != null then
1153 if ret_type == null then
1154 # Inherit the return type
1155 ret_type = precursor_ret_type
1156 else if not ret_type.is_subtype(mmodule, nclassdef.mclassdef.bound_mtype, precursor_ret_type) then
1157 modelbuilder.error(nsig.n_type.as(not null), "Redef Error: Wrong return type. found {ret_type}, expected {precursor_ret_type}.")
1158 end
1159 end
1160 end
1161 end
1162 end
1163
1164 redef class AAttrPropdef
1165 # The associated MAttributeDef once build by a `ModelBuilder'
1166 var mpropdef: nullable MAttributeDef
1167 # The associated getter (read accessor) if any
1168 var mreadpropdef: nullable MMethodDef
1169 # The associated setter (write accessor) if any
1170 var mwritepropdef: nullable MMethodDef
1171 redef fun build_property(modelbuilder, nclassdef)
1172 do
1173 var mclassdef = nclassdef.mclassdef.as(not null)
1174 var mclass = mclassdef.mclass
1175
1176 var name: String
1177 if self.n_id != null then
1178 name = self.n_id.text
1179 else
1180 name = self.n_id2.text
1181 end
1182
1183 if mclass.kind == interface_kind or mclassdef.mclass.kind == enum_kind then
1184 modelbuilder.error(self, "Error: Attempt to define attribute {name} in the interface {mclass}.")
1185 else if mclass.kind == enum_kind then
1186 modelbuilder.error(self, "Error: Attempt to define attribute {name} in the enum class {mclass}.")
1187 end
1188
1189 var nid = self.n_id
1190 if nid != null then
1191 # Old attribute style
1192 var mprop = modelbuilder.try_get_mproperty_by_name(nid, mclassdef, name)
1193 if mprop == null then
1194 var mvisibility = new_property_visibility(modelbuilder, nclassdef, self.n_visibility)
1195 mprop = new MAttribute(mclassdef, name, mvisibility)
1196 self.check_redef_keyword(modelbuilder, nclassdef, self.n_kwredef, false, mprop)
1197 else
1198 assert mprop isa MAttribute
1199 check_redef_property_visibility(modelbuilder, nclassdef, self.n_visibility, mprop)
1200 self.check_redef_keyword(modelbuilder, nclassdef, self.n_kwredef, true, mprop)
1201 end
1202 var mpropdef = new MAttributeDef(mclassdef, mprop, self.location)
1203 self.mpropdef = mpropdef
1204 modelbuilder.mpropdef2npropdef[mpropdef] = self
1205
1206 var nreadable = self.n_readable
1207 if nreadable != null then
1208 var readname = name.substring_from(1)
1209 var mreadprop = modelbuilder.try_get_mproperty_by_name(nid, mclassdef, readname).as(nullable MMethod)
1210 if mreadprop == null then
1211 var mvisibility = new_property_visibility(modelbuilder, nclassdef, nreadable.n_visibility)
1212 mreadprop = new MMethod(mclassdef, readname, mvisibility)
1213 self.check_redef_keyword(modelbuilder, nclassdef, nreadable.n_kwredef, false, mreadprop)
1214 else
1215 self.check_redef_keyword(modelbuilder, nclassdef, nreadable.n_kwredef, true, mreadprop)
1216 check_redef_property_visibility(modelbuilder, nclassdef, nreadable.n_visibility, mreadprop)
1217 end
1218 var mreadpropdef = new MMethodDef(mclassdef, mreadprop, self.location)
1219 self.mreadpropdef = mreadpropdef
1220 modelbuilder.mpropdef2npropdef[mreadpropdef] = self
1221 end
1222
1223 var nwritable = self.n_writable
1224 if nwritable != null then
1225 var writename = name.substring_from(1) + "="
1226 var mwriteprop = modelbuilder.try_get_mproperty_by_name(nid, mclassdef, writename).as(nullable MMethod)
1227 if mwriteprop == null then
1228 var mvisibility = new_property_visibility(modelbuilder, nclassdef, nwritable.n_visibility)
1229 mwriteprop = new MMethod(mclassdef, writename, mvisibility)
1230 self.check_redef_keyword(modelbuilder, nclassdef, nwritable.n_kwredef, false, mwriteprop)
1231 else
1232 self.check_redef_keyword(modelbuilder, nclassdef, nwritable.n_kwredef, true, mwriteprop)
1233 check_redef_property_visibility(modelbuilder, nclassdef, nwritable.n_visibility, mwriteprop)
1234 end
1235 var mwritepropdef = new MMethodDef(mclassdef, mwriteprop, self.location)
1236 self.mwritepropdef = mwritepropdef
1237 modelbuilder.mpropdef2npropdef[mwritepropdef] = self
1238 end
1239 else
1240 # New attribute style
1241 var nid2 = self.n_id2.as(not null)
1242 var mprop = new MAttribute(mclassdef, "@" + name, none_visibility)
1243 var mpropdef = new MAttributeDef(mclassdef, mprop, self.location)
1244 self.mpropdef = mpropdef
1245 modelbuilder.mpropdef2npropdef[mpropdef] = self
1246
1247 var readname = name
1248 var mreadprop = modelbuilder.try_get_mproperty_by_name(nid2, mclassdef, readname).as(nullable MMethod)
1249 if mreadprop == null then
1250 var mvisibility = new_property_visibility(modelbuilder, nclassdef, self.n_visibility)
1251 mreadprop = new MMethod(mclassdef, readname, mvisibility)
1252 self.check_redef_keyword(modelbuilder, nclassdef, n_kwredef, false, mreadprop)
1253 else
1254 self.check_redef_keyword(modelbuilder, nclassdef, n_kwredef, true, mreadprop)
1255 check_redef_property_visibility(modelbuilder, nclassdef, self.n_visibility, mreadprop)
1256 end
1257 var mreadpropdef = new MMethodDef(mclassdef, mreadprop, self.location)
1258 self.mreadpropdef = mreadpropdef
1259 modelbuilder.mpropdef2npropdef[mreadpropdef] = self
1260
1261 var writename = name + "="
1262 var nwritable = self.n_writable
1263 var mwriteprop = modelbuilder.try_get_mproperty_by_name(nid2, mclassdef, writename).as(nullable MMethod)
1264 var nwkwredef: nullable Token = null
1265 if nwritable != null then nwkwredef = nwritable.n_kwredef
1266 if mwriteprop == null then
1267 var mvisibility
1268 if nwritable != null then
1269 mvisibility = new_property_visibility(modelbuilder, nclassdef, nwritable.n_visibility)
1270 else
1271 mvisibility = private_visibility
1272 end
1273 mwriteprop = new MMethod(mclassdef, writename, mvisibility)
1274 self.check_redef_keyword(modelbuilder, nclassdef, nwkwredef, false, mwriteprop)
1275 else
1276 self.check_redef_keyword(modelbuilder, nclassdef, nwkwredef, true, mwriteprop)
1277 if nwritable != null then
1278 check_redef_property_visibility(modelbuilder, nclassdef, nwritable.n_visibility, mwriteprop)
1279 end
1280 end
1281 var mwritepropdef = new MMethodDef(mclassdef, mwriteprop, self.location)
1282 self.mwritepropdef = mwritepropdef
1283 modelbuilder.mpropdef2npropdef[mwritepropdef] = self
1284 end
1285 end
1286
1287 redef fun build_signature(modelbuilder, nclassdef)
1288 do
1289 var mpropdef = self.mpropdef
1290 if mpropdef == null then return # Error thus skiped
1291 var mmodule = mpropdef.mclassdef.mmodule
1292 var mtype: nullable MType = null
1293
1294 var ntype = self.n_type
1295 if ntype != null then
1296 mtype = modelbuilder.resolve_mtype(nclassdef, ntype)
1297 if mtype == null then return
1298 end
1299
1300 if mtype == null then
1301 var nexpr = self.n_expr
1302 if nexpr != null then
1303 if nexpr isa ANewExpr then
1304 mtype = modelbuilder.resolve_mtype(nclassdef, nexpr.n_type)
1305 else if nexpr isa AIntExpr then
1306 var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Int")
1307 if cla != null then mtype = cla.mclass_type
1308 else if nexpr isa AFloatExpr then
1309 var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Float")
1310 if cla != null then mtype = cla.mclass_type
1311 else if nexpr isa ACharExpr then
1312 var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Char")
1313 if cla != null then mtype = cla.mclass_type
1314 else if nexpr isa ABoolExpr then
1315 var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Bool")
1316 if cla != null then mtype = cla.mclass_type
1317 else if nexpr isa ASuperstringExpr then
1318 var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "String")
1319 if cla != null then mtype = cla.mclass_type
1320 else if nexpr isa AStringFormExpr then
1321 var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "String")
1322 if cla != null then mtype = cla.mclass_type
1323 else
1324 modelbuilder.error(self, "Error: Untyped attribute {mpropdef}. Implicit typing allowed only for literals and new.")
1325 end
1326
1327 else
1328 modelbuilder.error(self, "Error: Untyped attribute {mpropdef}")
1329 end
1330 end
1331
1332 if mtype == null then return
1333
1334 mpropdef.static_mtype = mtype
1335
1336 var mreadpropdef = self.mreadpropdef
1337 if mreadpropdef != null then
1338 var msignature = new MSignature(new Array[String], new Array[MType], mtype, -1)
1339 mreadpropdef.msignature = msignature
1340 end
1341
1342 var msritepropdef = self.mwritepropdef
1343 if mwritepropdef != null then
1344 var name: String
1345 if n_id != null then
1346 name = n_id.text.substring_from(1)
1347 else
1348 name = n_id2.text
1349 end
1350 var msignature = new MSignature([name], [mtype], null, -1)
1351 mwritepropdef.msignature = msignature
1352 end
1353 end
1354
1355 redef fun check_signature(modelbuilder, nclassdef)
1356 do
1357 var mpropdef = self.mpropdef
1358 if mpropdef == null then return # Error thus skiped
1359 var mmodule = mpropdef.mclassdef.mmodule
1360 var ntype = self.n_type
1361 var mtype = self.mpropdef.static_mtype
1362 if mtype == null then return # Error thus skiped
1363
1364 # Lookup for signature in the precursor
1365 # FIXME all precursors should be considered
1366 if not mpropdef.is_intro then
1367 var precursor_type = mpropdef.mproperty.intro.static_mtype
1368 if precursor_type == null then return
1369
1370 if mtype != precursor_type then
1371 modelbuilder.error(ntype.as(not null), "Redef Error: Wrong static type. found {mtype}, expected {precursor_type}.")
1372 return
1373 end
1374 end
1375
1376 # FIXME: Check getter ans setter
1377 end
1378 end
1379
1380 redef class ATypePropdef
1381 # The associated MVirtualTypeDef once build by a `ModelBuilder'
1382 var mpropdef: nullable MVirtualTypeDef
1383 redef fun build_property(modelbuilder, nclassdef)
1384 do
1385 var mclassdef = nclassdef.mclassdef.as(not null)
1386 var name = self.n_id.text
1387 var mprop = modelbuilder.try_get_mproperty_by_name(self.n_id, mclassdef, name)
1388 if mprop == null then
1389 var mvisibility = new_property_visibility(modelbuilder, nclassdef, self.n_visibility)
1390 mprop = new MVirtualTypeProp(mclassdef, name, mvisibility)
1391 self.check_redef_keyword(modelbuilder, nclassdef, self.n_kwredef, false, mprop)
1392 else
1393 self.check_redef_keyword(modelbuilder, nclassdef, self.n_kwredef, true, mprop)
1394 assert mprop isa MVirtualTypeProp
1395 check_redef_property_visibility(modelbuilder, nclassdef, self.n_visibility, mprop)
1396 end
1397 var mpropdef = new MVirtualTypeDef(mclassdef, mprop, self.location)
1398 self.mpropdef = mpropdef
1399 end
1400
1401 redef fun build_signature(modelbuilder, nclassdef)
1402 do
1403 var mpropdef = self.mpropdef
1404 if mpropdef == null then return # Error thus skiped
1405 var mmodule = mpropdef.mclassdef.mmodule
1406 var mtype: nullable MType = null
1407
1408 var ntype = self.n_type
1409 mtype = modelbuilder.resolve_mtype(nclassdef, ntype)
1410 if mtype == null then return
1411
1412 mpropdef.bound = mtype
1413 # print "{mpropdef}: {mtype}"
1414 end
1415
1416 redef fun check_signature(modelbuilder, nclassdef)
1417 do
1418 var bound = self.mpropdef.bound
1419
1420 # Fast case: the bound is not a formal type
1421 if not bound isa MVirtualType then return
1422
1423 var mmodule = nclassdef.mclassdef.mmodule
1424 var anchor = nclassdef.mclassdef.bound_mtype
1425
1426 # Slow case: progress on each resolution until: (i) we loop, or (ii) we found a non formal type
1427 var seen = [self.mpropdef.mproperty.mvirtualtype]
1428 loop
1429 if seen.has(bound) then
1430 seen.add(bound)
1431 modelbuilder.error(self, "Error: circularity of virtual type definition: {seen.join(" -> ")}")
1432 return
1433 end
1434 seen.add(bound)
1435 var next = bound.lookup_bound(mmodule, anchor)
1436 if not next isa MVirtualType then return
1437 bound = next
1438 end
1439 end
1440 end
Nit language project; an oo programing language and its tool suite.