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[nit.git] / src / syntax / typing.nit
1 # This file is part of NIT ( http://www.nitlanguage.org ).
2 #
3 # Copyright 2008 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 # Analysis property bodies, statements and expressions
18 package typing
19
20 import syntax_base
21 import escape
22 import control_flow
23
24 redef class MMSrcModule
25 # Walk trough the module and type statments and expressions
26 # Require than supermodules are processed
27 fun do_typing(tc: ToolContext)
28 do
29 var tv = new TypingVisitor(tc, self)
30 tv.enter_visit(node)
31 end
32 end
33
34 # Typing visitor
35 # * Associate local variables to nodes
36 # * Distinguish method call and local variable access
37 # * Resolve call and attribute access
38 # * Check type conformance
39 private class TypingVisitor
40 special AbsSyntaxVisitor
41 redef fun visit(n)
42 do
43 if n != null then n.accept_typing(self)
44 end
45
46 # Current knowledge about variables names and types
47 fun variable_ctx: VariableContext do return _variable_ctx.as(not null)
48 writable var _variable_ctx: nullable VariableContext
49
50 # Non-bypassable knowledge about variables names and types
51 fun base_variable_ctx: VariableContext do return _base_variable_ctx.as(not null)
52 writable var _base_variable_ctx: nullable VariableContext
53
54 # Current knowledge about escapable blocks
55 readable writable var _escapable_ctx: EscapableContext = new EscapableContext(self)
56
57 # The current reciever
58 fun self_var: ParamVariable do return _self_var.as(not null)
59 writable var _self_var: nullable ParamVariable
60
61 # Block of the current method
62 readable writable var _top_block: nullable AExpr
63
64 # List of explicit invocation of constructors of super-classes
65 readable writable var _explicit_super_init_calls: nullable Array[MMMethod]
66
67 # Is a other constructor of the same class invoked
68 readable writable var _explicit_other_init_call: Bool = false
69
70 # Make the if_true_variable_ctx of the expression effective
71 private fun use_if_true_variable_ctx(e: AExpr)
72 do
73 var ctx = e.if_true_variable_ctx
74 if ctx != null then variable_ctx = ctx
75 end
76
77 # Make the if_false_variable_ctx of the expression effective
78 private fun use_if_false_variable_ctx(e: AExpr)
79 do
80 var ctx = e.if_false_variable_ctx
81 if ctx != null then variable_ctx = ctx
82 end
83
84 # Number of nested once
85 readable writable var _once_count: Int = 0
86
87 init(tc, module) do super
88
89 private fun get_default_constructor_for(n: ANode, c: MMLocalClass, prop: MMSrcMethod): nullable MMMethod
90 do
91 var v = self
92 #var prop = v.local_property
93 #assert prop isa MMMethod
94 var candidates = new Array[MMMethod]
95 var false_candidates = new Array[MMMethod]
96 var parity = prop.signature.arity
97 for g in c.global_properties do
98 if not g.is_init_for(c) then continue
99 var gp = c[g]
100 var gps = gp.signature_for(c.get_type)
101 assert gp isa MMSrcMethod
102 var garity = gps.arity
103 if gp.name == prop.name then
104 if garity == 0 or (parity == garity and prop.signature < gps) then
105 return gp
106 else
107 false_candidates.add(gp)
108 end
109 else if garity == 0 and gp.name == once ("init".to_symbol) then
110 candidates.add(gp)
111 false_candidates.add(gp)
112 else
113 false_candidates.add(gp)
114 end
115 end
116 if candidates.length == 1 then
117 return candidates.first
118 else if candidates.length > 0 then
119 var a = new Array[String]
120 for p in candidates do
121 a.add("{p.full_name}{p.signature}")
122 end
123 v.error(n, "Error: Conflicting default constructor to call for {c}: {a.join(", ")}.")
124 return null
125 else if false_candidates.length > 0 then
126 var a = new Array[String]
127 for p in false_candidates do
128 a.add("{p.full_name}{p.signature}")
129 end
130 v.error(n, "Error: there is no available compatible constrctor in {c}. Discarded candidates are {a.join(", ")}.")
131 return null
132 else
133 v.error(n, "Error: there is no available compatible constrctor in {c}.")
134 return null
135 end
136 end
137 end
138
139
140 ###############################################################################
141
142 redef class ANode
143 private fun accept_typing(v: TypingVisitor)
144 do
145 accept_abs_syntax_visitor(v)
146 after_typing(v)
147 end
148 private fun after_typing(v: TypingVisitor) do end
149 end
150
151 redef class AClassdef
152 redef fun accept_typing(v)
153 do
154 v.variable_ctx = new RootVariableContext(v, self)
155 v.base_variable_ctx = v.variable_ctx
156 v.self_var = new ParamVariable("self".to_symbol, self)
157 v.self_var.stype = local_class.get_type
158 super
159 end
160 end
161
162 redef class APropdef
163 redef fun self_var do return _self_var.as(not null)
164 var _self_var: nullable ParamVariable
165 end
166
167 redef class AAttrPropdef
168 redef fun accept_typing(v)
169 do
170 var old_var_ctx = v.variable_ctx
171 v.variable_ctx = old_var_ctx.sub(self)
172 _self_var = v.self_var
173 super
174 if n_expr != null then
175 v.check_conform_expr(n_expr.as(not null), prop.signature.return_type.as(not null))
176 end
177 v.variable_ctx = old_var_ctx
178 end
179 end
180
181 redef class AMethPropdef
182 redef fun accept_typing(v)
183 do
184 var old_var_ctx = v.variable_ctx
185 v.variable_ctx = old_var_ctx.sub(self)
186 _self_var = v.self_var
187 super
188 v.variable_ctx = old_var_ctx
189 end
190 end
191
192 redef class AConcreteMethPropdef
193 redef fun after_typing(v)
194 do
195 super
196 if v.variable_ctx.unreash == false and method.signature.return_type != null then
197 v.error(self, "Control error: Reached end of function (a 'return' with a value was expected).")
198 end
199 end
200 end
201
202 redef class AConcreteInitPropdef
203 redef fun accept_typing(v)
204 do
205 v.top_block = n_block
206 v.explicit_super_init_calls = explicit_super_init_calls
207 v.explicit_other_init_call = false
208 super
209 end
210
211 redef fun after_typing(v)
212 do
213 super
214 if v.explicit_other_init_call or method.global.intro != method then
215 # TODO: something?
216 else
217 var i = 0
218 var l = explicit_super_init_calls.length
219 var cur_m: nullable MMMethod = null
220 var cur_c: nullable MMLocalClass = null
221 if i < l then
222 cur_m = explicit_super_init_calls[i]
223 cur_c = cur_m.global.intro.local_class.for_module(v.module)
224 end
225 var j = 0
226 while j < v.local_class.cshe.direct_greaters.length do
227 var c = v.local_class.cshe.direct_greaters[j]
228 if c.global.is_interface or c.global.is_universal or c.global.is_mixin then
229 j += 1
230 else if cur_c != null and (c.cshe <= cur_c or cur_c.global.is_mixin) then
231 if c == cur_c then j += 1
232 super_init_calls.add(cur_m.as(not null))
233 i += 1
234 if i < l then
235 cur_m = explicit_super_init_calls[i]
236 cur_c = cur_m.global.intro.local_class.for_module(v.module)
237 else
238 cur_m = null
239 cur_c = null
240 end
241 else
242 var p = v.get_default_constructor_for(self, c, method)
243 if p != null then
244 super_init_calls.add(p)
245 end
246 j += 1
247 end
248 end
249 end
250 end
251 end
252
253 redef class AParam
254 redef fun after_typing(v)
255 do
256 v.variable_ctx.add(variable)
257 end
258 end
259
260 redef class AClosureDecl
261 # The corresponding escapable object
262 readable var _escapable: nullable EscapableBlock
263
264 redef fun accept_typing(v)
265 do
266 # Register the closure for ClosureCallExpr
267 v.variable_ctx.add(variable)
268
269 var old_var_ctx = v.variable_ctx
270 var old_base_var_ctx = v.base_variable_ctx
271 v.base_variable_ctx = v.variable_ctx
272 v.variable_ctx = v.variable_ctx.sub(self)
273
274 var escapable = new EscapableClosure(self, variable.closure, null)
275 _escapable = escapable
276 v.escapable_ctx.push(escapable, null)
277
278 super
279
280 if n_expr != null then
281 if v.variable_ctx.unreash == false then
282 if variable.closure.signature.return_type != null then
283 v.error(self, "Control error: Reached end of block (a 'continue' with a value was expected).")
284 else if variable.closure.is_break then
285 v.error(self, "Control error: Reached end of break block (an 'abort' was expected).")
286 end
287 end
288 end
289
290 old_var_ctx.merge(v.variable_ctx)
291 v.variable_ctx = old_var_ctx
292 v.base_variable_ctx = old_base_var_ctx
293 v.escapable_ctx.pop
294 end
295 end
296
297 redef class AType
298 redef fun stype: MMType do return _stype.as(not null)
299 redef fun is_typed: Bool do return _stype != null
300 var _stype: nullable MMType
301
302 redef fun after_typing(v)
303 do
304 _stype = get_stype(v)
305 end
306 end
307
308 redef class AExpr
309 redef readable var _is_typed: Bool = false
310 redef fun is_statement: Bool do return _stype == null
311 redef fun stype
312 do
313 if not is_typed then
314 print "{location}: not is_typed"
315 abort
316 end
317 if is_statement then
318 print "{location}: is_statement"
319 abort
320 end
321 return _stype.as(not null)
322 end
323 var _stype: nullable MMType
324
325 redef fun after_typing(v)
326 do
327 # Default behavior is to be happy
328 _is_typed = true
329 end
330
331 # Is the expression the implicit receiver
332 fun is_implicit_self: Bool do return false
333
334 # Is the expression the current receiver (implicit or explicit)
335 fun is_self: Bool do return false
336
337 # The variable accessed is any
338 fun its_variable: nullable Variable do return null
339
340 # The variable type information if current boolean expression is true
341 readable private var _if_true_variable_ctx: nullable VariableContext
342
343 # The variable type information if current boolean expression is false
344 readable private var _if_false_variable_ctx: nullable VariableContext
345 end
346
347 redef class AVardeclExpr
348 var _variable: nullable VarVariable
349 redef fun variable do return _variable.as(not null)
350
351 redef fun after_typing(v)
352 do
353 var va = new VarVariable(n_id.to_symbol, n_id)
354 _variable = va
355 v.variable_ctx.add(va)
356 if n_expr != null then v.variable_ctx.mark_is_set(va)
357
358 if n_type != null then
359 if not n_type.is_typed then return
360 va.stype = n_type.stype
361 if n_expr != null then
362 v.check_conform_expr(n_expr.as(not null), va.stype)
363 end
364 else
365 if not v.check_expr(n_expr.as(not null)) then return
366 va.stype = n_expr.stype
367 end
368 _is_typed = true
369 end
370 end
371
372 redef class ABlockExpr
373 redef fun accept_typing(v)
374 do
375 var old_var_ctx = v.variable_ctx
376 v.variable_ctx = v.variable_ctx.sub(self)
377
378 for e in n_expr do
379 if v.variable_ctx.unreash and not v.variable_ctx.already_unreash then
380 v.variable_ctx.already_unreash = true
381 v.warning(e, "Warning: unreachable statement.")
382 end
383 v.enter_visit(e)
384 end
385
386 old_var_ctx.merge(v.variable_ctx)
387 v.variable_ctx = old_var_ctx
388 _is_typed = true
389 end
390 end
391
392 redef class AReturnExpr
393 redef fun after_typing(v)
394 do
395 v.variable_ctx.unreash = true
396 var t = v.local_property.signature.return_type
397 var e = n_expr
398 if e == null and t != null then
399 v.error(self, "Error: Return without value in a function.")
400 else if e != null and t == null then
401 v.error(self, "Error: Return with value in a procedure.")
402 else if e != null and t != null then
403 v.check_conform_expr(e, t)
404 end
405 _is_typed = true
406 end
407 end
408
409 redef class AContinueExpr
410 redef fun after_typing(v)
411 do
412 v.variable_ctx.unreash = true
413 var esc = compute_escapable_block(v.escapable_ctx)
414 if esc == null then return
415
416 if esc.is_break_block then
417 v.error(self, "Error: cannot 'continue', only 'break'.")
418 return
419 end
420
421 var t = esc.continue_stype
422 if n_expr == null and t != null then
423 v.error(self, "Error: continue with a value required in this block.")
424 else if n_expr != null and t == null then
425 v.error(self, "Error: continue without value required in this block.")
426 else if n_expr != null and t != null then
427 v.check_conform_expr(n_expr.as(not null), t)
428 end
429 _is_typed = true
430 end
431 end
432
433 redef class ABreakExpr
434 redef fun after_typing(v)
435 do
436 v.variable_ctx.unreash = true
437 var esc = compute_escapable_block(v.escapable_ctx)
438 if esc == null then return
439
440 var bl = esc.break_list
441 if n_expr == null and bl != null then
442 v.error(self, "Error: break with a value required in this block.")
443 else if n_expr != null and bl == null then
444 v.error(self, "Error: break without value required in this block.")
445 else if n_expr != null and bl != null then
446 # Typing check can only be done later
447 bl.add(n_expr.as(not null))
448 end
449 _is_typed = true
450 end
451 end
452
453 redef class AAbortExpr
454 redef fun after_typing(v)
455 do
456 v.variable_ctx.unreash = true
457 _is_typed = true
458 end
459 end
460
461 redef class ADoExpr
462 # The corresponding escapable block
463 readable var _escapable: nullable EscapableBlock
464
465 redef fun accept_typing(v)
466 do
467 var escapable = new BreakOnlyEscapableBlock(self)
468 _escapable = escapable
469 v.escapable_ctx.push(escapable, n_label)
470
471 super
472
473 v.escapable_ctx.pop
474 _is_typed = true
475 end
476 end
477
478 redef class AIfExpr
479 redef fun accept_typing(v)
480 do
481 var old_var_ctx = v.variable_ctx
482 v.enter_visit(n_expr)
483 v.check_conform_expr(n_expr, v.type_bool)
484
485 # Prepare 'then' context
486 v.use_if_true_variable_ctx(n_expr)
487
488 # Process the 'then'
489 if n_then != null then
490 v.variable_ctx = v.variable_ctx.sub(n_then.as(not null))
491 v.enter_visit(n_then)
492 end
493
494 # Remember what appened in the 'then'
495 var then_var_ctx = v.variable_ctx
496
497 # Prepare 'else' context
498 v.variable_ctx = old_var_ctx
499 v.use_if_false_variable_ctx(n_expr)
500
501 # Process the 'else'
502 if n_else != null then
503 v.variable_ctx = v.variable_ctx.sub(n_else.as(not null))
504 v.enter_visit(n_else)
505 end
506
507 # Merge 'then' and 'else' contexts
508 old_var_ctx.merge2(then_var_ctx, v.variable_ctx, v.base_variable_ctx)
509 v.variable_ctx = old_var_ctx
510 _is_typed = true
511 end
512 end
513
514 redef class AWhileExpr
515 # The corresponding escapable block
516 readable var _escapable: nullable EscapableBlock
517
518 redef fun accept_typing(v)
519 do
520 var escapable = new EscapableBlock(self)
521 _escapable = escapable
522 v.escapable_ctx.push(escapable, n_label)
523 var old_var_ctx = v.variable_ctx
524 var old_base_var_ctx = v.base_variable_ctx
525 v.base_variable_ctx = v.variable_ctx
526 v.variable_ctx = v.variable_ctx.sub(self)
527
528 # Process condition
529 v.enter_visit(n_expr)
530 v.check_conform_expr(n_expr, v.type_bool)
531
532 # Prepare inside context (assert cond)
533 v.use_if_true_variable_ctx(n_expr)
534
535 # Process inside
536 if n_block != null then
537 v.variable_ctx = v.variable_ctx.sub(n_block.as(not null))
538 v.enter_visit(n_block)
539 end
540
541 v.variable_ctx = old_var_ctx
542 v.base_variable_ctx = old_base_var_ctx
543 v.escapable_ctx.pop
544 _is_typed = true
545 end
546 end
547
548 redef class ALoopExpr
549 # The corresponding escapable block
550 readable var _escapable: nullable EscapableBlock
551
552 redef fun accept_typing(v)
553 do
554 var escapable = new EscapableBlock(self)
555 _escapable = escapable
556 v.escapable_ctx.push(escapable, n_label)
557 var old_var_ctx = v.variable_ctx
558 var old_base_var_ctx = v.base_variable_ctx
559 v.base_variable_ctx = v.variable_ctx
560 v.variable_ctx = v.variable_ctx.sub(self)
561
562 # Process inside
563 if n_block != null then
564 v.variable_ctx = v.variable_ctx.sub(n_block.as(not null))
565 v.enter_visit(n_block)
566 end
567
568 v.variable_ctx = old_var_ctx
569 v.base_variable_ctx = old_base_var_ctx
570 v.escapable_ctx.pop
571 _is_typed = true
572 end
573 end
574
575 redef class AForExpr
576 var _variable: nullable AutoVariable
577 redef fun variable do return _variable.as(not null)
578
579 # The corresponding escapable block
580 readable var _escapable: nullable EscapableBlock
581
582 redef fun accept_typing(v)
583 do
584 var escapable = new EscapableBlock(self)
585 _escapable = escapable
586 v.escapable_ctx.push(escapable, n_label)
587
588 var old_var_ctx = v.variable_ctx
589 var old_base_var_ctx = v.base_variable_ctx
590 v.base_variable_ctx = v.variable_ctx
591 v.variable_ctx = v.variable_ctx.sub(self)
592 var va = new AutoVariable(n_id.to_symbol, n_id)
593 _variable = va
594 v.variable_ctx.add(va)
595
596 # Process collection
597 v.enter_visit(n_expr)
598
599 if not v.check_conform_expr(n_expr, v.type_collection) then return
600 var expr_type = n_expr.stype
601
602 # Get iterator
603 var meth_iterator = v.get_method(expr_type, once "iterator".to_symbol)
604 var iter_type = meth_iterator.signature_for(expr_type).return_type.as(not null)
605 var meth_item = v.get_method(iter_type, once ("item".to_symbol))
606 var va_stype = meth_item.signature_for(iter_type).return_type.as(not null)
607 if not n_expr.is_self then va_stype = va_stype.not_for_self
608 va.stype = va_stype
609
610 # Body evaluation
611 if n_block != null then v.enter_visit(n_block)
612
613 # pop context
614 v.variable_ctx = old_var_ctx
615 v.base_variable_ctx = old_base_var_ctx
616 v.escapable_ctx.pop
617 _is_typed = true
618 end
619 end
620
621 redef class AAssertExpr
622 redef fun after_typing(v)
623 do
624 v.check_conform_expr(n_expr, v.type_bool)
625 v.use_if_true_variable_ctx(n_expr)
626 _is_typed = true
627 end
628 end
629
630 redef class AVarFormExpr
631 var _variable: nullable Variable
632 redef fun variable do return _variable.as(not null)
633 end
634
635 redef class AVarExpr
636 redef fun its_variable do return variable
637
638 redef fun after_typing(v)
639 do
640 v.variable_ctx.check_is_set(self, variable)
641 _stype = v.variable_ctx.stype(variable)
642 _is_typed = _stype != null
643 end
644 end
645
646 redef class AVarAssignExpr
647 redef fun after_typing(v)
648 do
649 v.variable_ctx.mark_is_set(variable)
650 var t = v.variable_ctx.stype(variable)
651
652 # Check the base type
653 var btype = v.base_variable_ctx.stype(variable)
654 if not v.check_conform_expr(n_value, btype) then return
655
656 # Always cast
657 v.variable_ctx.stype(variable) = n_value.stype
658
659 _is_typed = true
660 end
661 end
662
663 redef class AReassignFormExpr
664 # Compute and check method used through the reassigment operator
665 # On success return the static type of the result of the reassigment operator
666 # Else display an error and return null
667 private fun do_rvalue_typing(v: TypingVisitor, type_lvalue: nullable MMType): nullable MMType
668 do
669 if type_lvalue == null then
670 return null
671 end
672 var name = n_assign_op.method_name
673 var lc = type_lvalue.local_class
674 if not lc.has_global_property_by_name(name) then
675 v.error(self, "Error: Method '{name}' doesn't exists in {type_lvalue}.")
676 return null
677 end
678 var prop = lc.select_method(name)
679 prop.global.check_visibility(v, self, v.module, false)
680 var psig = prop.signature_for(type_lvalue)
681 _assign_method = prop
682 if not v.check_conform_expr(n_value, psig[0].not_for_self) then return null
683 return psig.return_type.not_for_self
684 end
685
686 redef fun assign_method do return _assign_method.as(not null)
687 var _assign_method: nullable MMMethod
688 end
689
690 redef class AVarReassignExpr
691 redef fun after_typing(v)
692 do
693 v.variable_ctx.check_is_set(self, variable)
694 v.variable_ctx.mark_is_set(variable)
695 var t = v.variable_ctx.stype(variable)
696 var t2 = do_rvalue_typing(v, t)
697 if t2 == null then return
698
699 # Check the base type
700 var btype = v.base_variable_ctx.stype(variable)
701 if not v.check_conform(n_value, t2, btype) then return
702
703 # Always cast
704 v.variable_ctx.stype(variable) = t2
705
706 _is_typed = true
707 end
708 end
709
710 redef class AAssignOp
711 fun method_name: Symbol is abstract
712 end
713 redef class APlusAssignOp
714 redef fun method_name do return once "+".to_symbol
715 end
716 redef class AMinusAssignOp
717 redef fun method_name do return once "-".to_symbol
718 end
719
720 redef class ASelfExpr
721 var _variable: nullable ParamVariable
722 redef fun variable do return _variable.as(not null)
723
724 redef fun its_variable do return variable
725
726 redef fun after_typing(v)
727 do
728 _variable = v.self_var
729 _stype = v.variable_ctx.stype(variable)
730 _is_typed = true
731 end
732
733 redef fun is_self do return true
734 end
735
736 redef class AImplicitSelfExpr
737 redef fun is_implicit_self do return true
738 end
739
740 redef class AIfexprExpr
741 redef fun accept_typing(v)
742 do
743 var old_var_ctx = v.variable_ctx
744
745 # Process condition
746 v.enter_visit(n_expr)
747 v.check_conform_expr(n_expr, v.type_bool)
748
749 # Prepare 'then' context
750 v.use_if_true_variable_ctx(n_expr)
751
752 # Process 'then'
753 v.enter_visit(n_then)
754
755 # Prepare 'else' context
756 v.variable_ctx = old_var_ctx
757 v.use_if_false_variable_ctx(n_expr)
758
759 # Process 'else'
760 v.enter_visit(n_else)
761
762 var stype = v.check_conform_multiexpr(null, [n_then, n_else])
763 if stype == null then return
764
765 _stype = stype
766 _is_typed = true
767 end
768 end
769
770 redef class ABoolExpr
771 redef fun after_typing(v)
772 do
773 _stype = v.type_bool
774 _is_typed = true
775 end
776 end
777
778 redef class AOrExpr
779 redef fun accept_typing(v)
780 do
781 var old_var_ctx = v.variable_ctx
782 var stype = v.type_bool
783 _stype = stype
784
785 # Process left operand
786 v.enter_visit(n_expr)
787
788 # Prepare right operand context
789 v.use_if_false_variable_ctx(n_expr)
790
791 # Process right operand
792 v.enter_visit(n_expr2)
793 if n_expr2.if_false_variable_ctx != null then
794 _if_false_variable_ctx = n_expr2.if_false_variable_ctx
795 else
796 _if_false_variable_ctx = v.variable_ctx
797 end
798
799 v.variable_ctx = old_var_ctx
800
801 v.check_conform_expr(n_expr, stype)
802 v.check_conform_expr(n_expr2, stype)
803 _stype = stype
804 _is_typed = true
805 end
806 end
807
808 redef class AAndExpr
809 redef fun accept_typing(v)
810 do
811 var old_var_ctx = v.variable_ctx
812 var stype = v.type_bool
813
814 # Process left operand
815 v.enter_visit(n_expr)
816
817 # Prepare right operand context
818 v.use_if_true_variable_ctx(n_expr)
819
820 # Process right operand
821 v.enter_visit(n_expr2)
822 if n_expr2.if_true_variable_ctx != null then
823 _if_true_variable_ctx = n_expr2.if_true_variable_ctx
824 else
825 _if_true_variable_ctx = v.variable_ctx
826 end
827
828 v.variable_ctx = old_var_ctx
829
830 v.check_conform_expr(n_expr, stype)
831 v.check_conform_expr(n_expr2, stype)
832 _stype = stype
833 _is_typed = true
834 end
835 end
836
837 redef class ANotExpr
838 redef fun after_typing(v)
839 do
840 v.check_conform_expr(n_expr, v.type_bool)
841
842 # Invert if_true/if_false information
843 _if_false_variable_ctx = n_expr._if_true_variable_ctx
844 _if_true_variable_ctx = n_expr._if_false_variable_ctx
845
846 _stype = v.type_bool
847 _is_typed = true
848 end
849 end
850
851 redef class AIntExpr
852 redef fun after_typing(v)
853 do
854 _stype = v.type_int
855 _is_typed = true
856 end
857 end
858
859 redef class AFloatExpr
860 redef fun after_typing(v)
861 do
862 _stype = v.type_float
863 _is_typed = true
864 end
865 end
866
867 redef class ACharExpr
868 redef fun after_typing(v)
869 do
870 _stype = v.type_char
871 _is_typed = true
872 end
873 end
874
875 redef class AStringFormExpr
876 redef fun after_typing(v)
877 do
878 _stype = v.type_string
879 _is_typed = true
880 end
881 end
882
883 redef class ASuperstringExpr
884 redef fun atype do return _atype.as(not null)
885 var _atype: nullable MMType
886 redef fun after_typing(v)
887 do
888 var stype = v.type_string
889 _stype = stype
890 var atype = v.type_array(stype)
891 _atype = atype
892 _is_typed = true
893 end
894 end
895
896 redef class ANullExpr
897 redef fun after_typing(v)
898 do
899 _stype = v.type_none
900 _is_typed = true
901 end
902 end
903
904 redef class AArrayExpr
905 redef fun after_typing(v)
906 do
907 var stype = v.check_conform_multiexpr(null, n_exprs)
908 if stype != null then do_typing(v, stype)
909 end
910
911 private fun do_typing(v: TypingVisitor, element_type: MMType)
912 do
913 _stype = v.type_array(element_type)
914 _is_typed = true
915 end
916 end
917
918 redef class ARangeExpr
919 redef fun after_typing(v)
920 do
921 if not v.check_expr(n_expr) or not v.check_expr(n_expr2) then return
922 var ntype = n_expr.stype
923 var ntype2 = n_expr2.stype
924 if ntype < ntype2 then
925 ntype = ntype2
926 else if not ntype2 < ntype then
927 v.error(self, "Type error: {ntype} incompatible with {ntype2}.")
928 return
929 end
930 var dtype = v.type_discrete
931 if not v.check_conform_expr(n_expr, dtype) or not v.check_conform_expr(n_expr2, dtype) then return
932 _stype = v.type_range(ntype)
933 _is_typed = true
934 end
935 end
936
937 redef class ASuperExpr
938 redef readable var _init_in_superclass: nullable MMMethod
939 redef fun compute_raw_arguments do return n_args.to_a
940 redef fun after_typing(v)
941 do
942 var precs: Array[MMLocalProperty] = v.local_property.prhe.direct_greaters
943 if not precs.is_empty then
944 v.local_property.need_super = true
945 else if v.local_property.global.is_init then
946 var base_precs = v.local_class.super_methods_named(v.local_property.name)
947 for p in base_precs do
948 if not p.global.is_init then
949 v.error(self, "Error: {p.local_class}::{p} is not a constructor.")
950 else
951 precs.add(v.local_class[p.global])
952 end
953 end
954 if precs.is_empty then
955 v.error(self, "Error: No contructor named {v.local_property.name} in superclasses.")
956 return
957 else if precs.length > 1 then
958 v.error(self, "Error: Conflicting contructors named {v.local_property.name} in superclasses: {precs.join(", ")}.")
959 return
960 end
961 var p = base_precs.first
962 assert p isa MMMethod
963 _init_in_superclass = p
964 register_super_init_call(v, p)
965 if n_args.length > 0 then
966 var signature = get_signature(v, v.self_var.stype.as(not null), p, true)
967 process_signature(v, signature, p.name, compute_raw_arguments)
968 end
969 else
970 v.error(self, "Error: No super method to call for {v.local_property}.")
971 return
972 end
973
974 if precs.first.signature_for(v.self_var.stype.as(not null)).return_type != null then
975 var stypes = new Array[MMType]
976 var stype: nullable MMType = null
977 for prop in precs do
978 assert prop isa MMMethod
979 var t = prop.signature_for(v.self_var.stype.as(not null)).return_type.for_module(v.module).adapt_to(v.local_property.signature.recv)
980 stypes.add(t)
981 if stype == null or stype < t then
982 stype = t
983 end
984 end
985 for t in stypes do
986 v.check_conform(self, t, stype.as(not null))
987 end
988 _stype = stype
989 end
990 var p = v.local_property
991 assert p isa MMSrcMethod
992 _prop = p
993 _is_typed = true
994 end
995 end
996
997 redef class AAttrFormExpr
998 redef fun prop do return _prop.as(not null)
999 var _prop: nullable MMAttribute
1000
1001 redef fun attr_type do return _attr_type.as(not null)
1002 var _attr_type: nullable MMType
1003
1004 # Compute the attribute accessed
1005 private fun do_typing(v: TypingVisitor)
1006 do
1007 if not v.check_expr(n_expr) then return
1008 var type_recv = n_expr.stype
1009 var name = n_id.to_symbol
1010 var lc = type_recv.local_class
1011 if not lc.has_global_property_by_name(name) then
1012 v.error(self, "Error: Attribute {name} doesn't exists in {type_recv}.")
1013 return
1014 end
1015 var prop = lc.select_attribute(name)
1016 if v.module.visibility_for(prop.global.local_class.module) < 3 then
1017 v.error(self, "Error: Attribute {name} from {prop.global.local_class.module} is invisible in {v.module}")
1018 end
1019 _prop = prop
1020 var at = prop.signature_for(type_recv).return_type
1021 if not n_expr.is_self then at = at.not_for_self
1022 _attr_type = at
1023 end
1024 end
1025
1026 redef class AAttrExpr
1027 redef fun after_typing(v)
1028 do
1029 do_typing(v)
1030 if _prop == null then return
1031 _stype = attr_type
1032 _is_typed = true
1033 end
1034 end
1035
1036 redef class AAttrAssignExpr
1037 redef fun after_typing(v)
1038 do
1039 do_typing(v)
1040 if _prop == null then return
1041 if not v.check_conform_expr(n_value, attr_type) then return
1042 _is_typed = true
1043 end
1044 end
1045
1046 redef class AAttrReassignExpr
1047 redef fun after_typing(v)
1048 do
1049 do_typing(v)
1050 if _prop == null then return
1051 var t = do_rvalue_typing(v, attr_type)
1052 if t == null then return
1053 v.check_conform(self, t, n_value.stype)
1054 _is_typed = true
1055 end
1056 end
1057
1058 redef class AIssetAttrExpr
1059 redef fun after_typing(v)
1060 do
1061 do_typing(v)
1062 if _prop == null then return
1063 if attr_type.is_nullable then
1064 v.error(self, "Error: isset on a nullable attribute.")
1065 end
1066 _stype = v.type_bool
1067 _is_typed = true
1068 end
1069 end
1070
1071 redef class AAbsAbsSendExpr
1072 # The signature of the called property
1073 redef fun prop_signature do return _prop_signature.as(not null)
1074 var _prop_signature: nullable MMSignature
1075
1076 # Raw arguments used (without vararg transformation)
1077 redef fun raw_arguments: Array[AExpr]
1078 do
1079 var res = _raw_arguments_cache
1080 if res != null then
1081 return res
1082 else
1083 res = compute_raw_arguments
1084 if res == null then res = new Array[AExpr]
1085 _raw_arguments_cache = res
1086 return res
1087 end
1088 end
1089
1090 var _raw_arguments_cache: nullable Array[AExpr] = null
1091
1092 fun compute_raw_arguments: nullable Array[AExpr]
1093 do
1094 print "{location} no compute_raw_arguments"
1095 return null
1096 end
1097
1098 # Check the conformity of a set of arguments `raw_args' to a signature.
1099 private fun process_signature(v: TypingVisitor, psig: MMSignature, name: Symbol, raw_args: nullable Array[AExpr]): Bool
1100 do
1101 var par_vararg = psig.vararg_rank
1102 var par_arity = psig.arity
1103 var raw_arity: Int
1104 if raw_args == null then raw_arity = 0 else raw_arity = raw_args.length
1105 if par_arity > raw_arity or (par_arity != raw_arity and par_vararg == -1) then
1106 v.error(self, "Error: arity missmatch; prototype is '{name}{psig}'.")
1107 return false
1108 end
1109 var arg_idx = 0
1110 for par_idx in [0..par_arity[ do
1111 var a: AExpr
1112 var par_type = psig[par_idx]
1113 if par_idx == par_vararg then
1114 for i in [0..(raw_arity-par_arity)] do
1115 a = raw_args[arg_idx]
1116 v.check_conform_expr(a, par_type)
1117 arg_idx = arg_idx + 1
1118 end
1119 else
1120 a = raw_args[arg_idx]
1121 v.check_conform_expr(a, par_type)
1122 arg_idx = arg_idx + 1
1123 end
1124 end
1125 return true
1126 end
1127
1128 # Check the conformity of a set of defined closures
1129 private fun process_closures(v: TypingVisitor, psig: MMSignature, name: Symbol, cd: nullable Array[AClosureDef]): nullable MMType
1130 do
1131 var t = psig.return_type
1132 var cs = psig.closures # Declared closures
1133 var min_arity = 0
1134 for c in cs do
1135 if not c.is_optional then min_arity += 1
1136 end
1137 var arity = 0
1138 if cd != null then arity = cd.length
1139 if cs.length > 0 then
1140 if arity == 0 and min_arity > 0 then
1141 v.error(self, "Error: {name} requires {cs.length} blocks.")
1142 else if arity > cs.length or arity < min_arity then
1143 v.error(self, "Error: {name} requires {cs.length} blocks, {cd.length} found.")
1144 else
1145 # Initialize the break list if a value is required for breaks (ie. if the method is a function)
1146 var break_list: nullable Array[ABreakExpr] = null
1147 if t != null then break_list = new Array[ABreakExpr]
1148
1149 # The n_label, is any in only set on the last decl
1150 var n_label = if arity > 0 then cd[arity-1].n_label else null
1151
1152 # Process each closure definition
1153 for i in [0..arity[ do
1154 var cdi = cd[i]
1155 var cni = cdi.n_id.to_symbol
1156 var csi = psig.closure_named(cni)
1157 if csi != null then
1158 var esc = new EscapableClosure(cdi, csi, break_list)
1159 v.escapable_ctx.push(esc, n_label)
1160 cdi.accept_typing2(v, esc)
1161 v.escapable_ctx.pop
1162 else if cs.length == 1 then
1163 v.error(cdi.n_id, "Error: no closure named '!{cni}' in {name}; only closure is !{cs.first.name}.")
1164 else
1165 var a = new Array[String]
1166 for c in cs do
1167 a.add("!{c.name}")
1168 end
1169 v.error(cdi.n_id, "Error: no closure named '!{cni}' in {name}; only closures are {a.join(",")}.")
1170 end
1171 end
1172
1173 # Check break type conformity
1174 if break_list != null then
1175 t = v.check_conform_multiexpr(t, break_list)
1176 end
1177 end
1178 else if arity != 0 then
1179 v.error(self, "Error: {name} does not require blocks.")
1180 end
1181 return t
1182 end
1183 end
1184
1185 redef class AAbsSendExpr
1186 # Compute the called global property
1187 private fun do_typing(v: TypingVisitor, type_recv: MMType, is_implicit_self: Bool, recv_is_self: Bool, name: Symbol, raw_args: nullable Array[AExpr], closure_defs: nullable Array[AClosureDef])
1188 do
1189 var prop = get_property(v, type_recv, is_implicit_self, name)
1190 if prop == null then return
1191 var sig = get_signature(v, type_recv, prop, recv_is_self)
1192 if not process_signature(v, sig, prop.name, raw_args) then return
1193 var rtype = process_closures(v, sig, prop.name, closure_defs)
1194 if rtype == null and sig.return_type != null then return
1195 _prop = prop
1196 _prop_signature = sig
1197 _return_type = rtype
1198 end
1199
1200 private fun get_property(v: TypingVisitor, type_recv: MMType, is_implicit_self: Bool, name: Symbol): nullable MMMethod
1201 do
1202 var lc = type_recv.local_class
1203 var prop: nullable MMMethod = null
1204 if lc.has_global_property_by_name(name) then prop = lc.select_method(name)
1205 if prop == null and v.local_property.global.is_init then
1206 var props = type_recv.local_class.super_methods_named(name)
1207 if props.length > 1 then
1208 v.error(self, "Error: Ambigous method name '{name}' for {props.join(", ")}. Use explicit designation.")
1209 return null
1210 else if props.length == 1 then
1211 var p = type_recv.local_class[props.first.global]
1212 assert p isa MMMethod
1213 prop = p
1214 end
1215
1216 end
1217 if prop == null then
1218 if is_implicit_self then
1219 v.error(self, "Error: Method or variable '{name}' unknown in {type_recv}.")
1220 else
1221 v.error(self, "Error: Method '{name}' doesn't exists in {type_recv}.")
1222 end
1223 return null
1224 end
1225 return prop
1226 end
1227
1228 # Get the signature for a local property and a receiver
1229 private fun get_signature(v: TypingVisitor, type_recv: MMType, prop: MMMethod, recv_is_self: Bool): MMSignature
1230 do
1231 prop.global.check_visibility(v, self, v.module, recv_is_self)
1232 var psig = prop.signature_for(type_recv)
1233 if not recv_is_self then psig = psig.not_for_self
1234 return psig
1235 end
1236
1237 # The invoked method (once computed)
1238 redef fun prop do return _prop.as(not null)
1239 var _prop: nullable MMMethod
1240
1241 # The return type (if any) (once computed)
1242 redef readable var _return_type: nullable MMType
1243 end
1244
1245 # A possible call of constructor in a super class
1246 # Could be an explicit call or with the 'super' keyword
1247 redef class ASuperInitCall
1248 private fun register_super_init_call(v: TypingVisitor, property: MMMethod)
1249 do
1250 if parent != v.top_block and self != v.top_block then
1251 v.error(self, "Error: Constructor invocation {property} must not be in nested block.")
1252 end
1253 var cla = v.module[property.global.intro.local_class.global]
1254 var prev_class: nullable MMLocalClass = null
1255 var esic = v.explicit_super_init_calls.as(not null)
1256 if not esic.is_empty then
1257 prev_class = esic.last.global.intro.local_class
1258 end
1259 var order = v.local_class.cshe.reverse_linear_extension
1260 if cla == v.local_class then
1261 v.explicit_other_init_call = true
1262 else if not order.has(cla) then
1263 v.error(self, "Error: Constructor of class {cla} must be one in {order.join(", ")}.")
1264 else if cla == prev_class then
1265 v.error(self, "Error: Only one super constructor invocation of class {cla} is allowed.")
1266 else
1267 var last_is_found = prev_class == null
1268 for c in order do
1269 if c == prev_class then
1270 last_is_found = true
1271 else if c == cla then
1272 if not last_is_found then
1273 v.error(self, "Error: Constructor of {c} must be invoked before constructor of {prev_class}")
1274 end
1275 esic.add(property)
1276 break
1277 end
1278 end
1279 end
1280 end
1281
1282 end
1283
1284 redef class ANewExpr
1285 redef fun compute_raw_arguments do return n_args.to_a
1286 redef fun after_typing(v)
1287 do
1288 if not n_type.is_typed then return
1289 var t = n_type.stype
1290 if t.local_class.global.is_abstract then
1291 v.error(self, "Error: try to instantiate abstract class {t.local_class}.")
1292 return
1293 end
1294 var name: Symbol
1295 if n_id == null then
1296 name = once "init".to_symbol
1297 else
1298 name = n_id.to_symbol
1299 end
1300
1301 do_typing(v, t, false, false, name, raw_arguments, null)
1302 if _prop == null then return
1303
1304 if not prop.global.is_init then
1305 v.error(self, "Error: {prop} is not a constructor.")
1306 return
1307 end
1308 _stype = t
1309 _is_typed = true
1310 end
1311 end
1312
1313
1314 redef class ASendExpr
1315 # Name of the invoked property
1316 fun name: Symbol is abstract
1317
1318 # Closure definitions
1319 redef fun closure_defs: nullable Array[AClosureDef] do return null
1320
1321 redef fun after_typing(v)
1322 do
1323 do_all_typing(v)
1324 end
1325
1326 private fun do_all_typing(v: TypingVisitor)
1327 do
1328 if not v.check_expr(n_expr) then return
1329 do_typing(v, n_expr.stype, n_expr.is_implicit_self, n_expr.is_self, name, raw_arguments, closure_defs)
1330 if _prop == null then return
1331 var prop = _prop.as(not null)
1332
1333 if prop.global.is_init then
1334 if not v.local_property.global.is_init then
1335 v.error(self, "Error: try to invoke constructor {prop} in a method.")
1336 else if not n_expr.is_self then
1337 v.error(self, "Error: constructor {prop} is not invoken on 'self'.")
1338 else
1339 register_super_init_call(v, prop)
1340 end
1341 end
1342
1343 _stype = return_type
1344 _is_typed = true
1345 end
1346 end
1347
1348 redef class ASendReassignExpr
1349 redef fun read_prop do return _read_prop.as(not null)
1350 var _read_prop: nullable MMMethod
1351 redef fun do_all_typing(v)
1352 do
1353 if not v.check_expr(n_expr) then return
1354 var raw_args = raw_arguments
1355 do_typing(v, n_expr.stype, n_expr.is_implicit_self, n_expr.is_self, name, raw_args, null)
1356 var prop = _prop
1357 if prop == null then return
1358 if prop.global.is_init then
1359 if not v.local_property.global.is_init then
1360 v.error(self, "Error: try to invoke constructor {prop} in a method.")
1361 else if not n_expr.is_self then
1362 v.error(self, "Error: constructor {prop} is not invoken on 'self'.")
1363 end
1364 end
1365 var t = prop.signature_for(n_expr.stype).return_type.as(not null)
1366 if not n_expr.is_self then t = t.not_for_self
1367
1368 var t2 = do_rvalue_typing(v, t)
1369 if t2 == null then return
1370 v.check_conform(self, t2, n_value.stype)
1371
1372 _read_prop = prop
1373 raw_args = raw_args.to_a
1374 raw_args.add(n_value)
1375
1376 do_typing(v, n_expr.stype, n_expr.is_implicit_self, n_expr.is_self, "{name}=".to_symbol, raw_args, null)
1377 if prop.global.is_init then
1378 if not v.local_property.global.is_init then
1379 v.error(self, "Error: try to invoke constructor {prop} in a method.")
1380 else if not n_expr.is_self then
1381 v.error(self, "Error: constructor {prop} is not invoken on 'self'.")
1382 end
1383 end
1384
1385 _is_typed = true
1386 end
1387 end
1388
1389 redef class ABinopExpr
1390 redef fun compute_raw_arguments do return [n_expr2]
1391 end
1392 redef class AEqExpr
1393 redef fun name do return once "==".to_symbol
1394 redef fun after_typing(v)
1395 do
1396 super
1397 if not n_expr.is_typed or not n_expr2.is_typed then return
1398 if n_expr.stype isa MMTypeNone and not n_expr2.stype.is_nullable or
1399 n_expr2.stype isa MMTypeNone and not n_expr.stype.is_nullable then
1400 v.warning(self, "Warning: comparaison between null and a non nullable value.")
1401 end
1402
1403 if n_expr.stype isa MMTypeNone then
1404 try_to_isa(v, n_expr2)
1405 else if n_expr2.stype isa MMTypeNone then
1406 try_to_isa(v, n_expr)
1407 end
1408 end
1409
1410 private fun try_to_isa(v: TypingVisitor, n: AExpr)
1411 do
1412 var variable = n.its_variable
1413 if variable != null then
1414 _if_false_variable_ctx = v.variable_ctx.sub_with(self, variable, n.stype.as_notnull)
1415 end
1416 end
1417 end
1418 redef class ANeExpr
1419 redef fun name do return once "!=".to_symbol
1420 redef fun after_typing(v)
1421 do
1422 super
1423 if not n_expr.is_typed or not n_expr2.is_typed then return
1424 if n_expr.stype isa MMTypeNone and not n_expr2.stype.is_nullable or
1425 n_expr2.stype isa MMTypeNone and not n_expr.stype.is_nullable then
1426 v.warning(self, "Warning: comparaison between null and a non nullable value.")
1427 end
1428
1429 if n_expr.stype isa MMTypeNone then
1430 try_to_isa(v, n_expr2)
1431 else if n_expr2.stype isa MMTypeNone then
1432 try_to_isa(v, n_expr)
1433 end
1434 end
1435
1436 private fun try_to_isa(v: TypingVisitor, n: AExpr)
1437 do
1438 var variable = n.its_variable
1439 if variable != null then
1440 _if_true_variable_ctx = v.variable_ctx.sub_with(self, variable, n.stype.as_notnull)
1441 end
1442 end
1443 end
1444 redef class ALtExpr
1445 redef fun name do return once "<".to_symbol
1446 end
1447 redef class ALeExpr
1448 redef fun name do return once "<=".to_symbol
1449 end
1450 redef class AGtExpr
1451 redef fun name do return once ">".to_symbol
1452 end
1453 redef class AGeExpr
1454 redef fun name do return once ">=".to_symbol
1455 end
1456 redef class APlusExpr
1457 redef fun name do return once "+".to_symbol
1458 end
1459 redef class AMinusExpr
1460 redef fun name do return once "-".to_symbol
1461 end
1462 redef class AStarshipExpr
1463 redef fun name do return once "<=>".to_symbol
1464 end
1465 redef class AStarExpr
1466 redef fun name do return once "*".to_symbol
1467 end
1468 redef class ASlashExpr
1469 redef fun name do return once "/".to_symbol
1470 end
1471 redef class APercentExpr
1472 redef fun name do return once "%".to_symbol
1473 end
1474
1475 redef class AUminusExpr
1476 redef fun name do return once "unary -".to_symbol
1477 redef fun compute_raw_arguments do return null
1478 end
1479
1480 redef class ACallFormExpr
1481 redef fun after_typing(v)
1482 do
1483 if n_expr.is_implicit_self then
1484 var name = n_id.to_symbol
1485 var variable = v.variable_ctx[name]
1486 if variable != null then
1487 var n: AExpr
1488 if variable isa ClosureVariable then
1489 n = new AClosureCallExpr.init_aclosurecallexpr(n_id, n_args, n_closure_defs)
1490 n._variable = variable
1491 else
1492 if not n_args.is_empty then
1493 v.error(self, "Error: {name} is variable, not a function.")
1494 return
1495 end
1496 n = variable_create(variable)
1497 n._variable = variable
1498 end
1499 replace_with(n)
1500 n.after_typing(v)
1501 return
1502 end
1503 end
1504
1505 super
1506 end
1507
1508 redef fun closure_defs
1509 do
1510 if n_closure_defs.is_empty then
1511 return null
1512 else
1513 return n_closure_defs.to_a
1514 end
1515 end
1516
1517 # Create a variable acces corresponding to the call form
1518 fun variable_create(variable: Variable): AVarFormExpr is abstract
1519 end
1520
1521 redef class ACallExpr
1522 redef fun variable_create(variable)
1523 do
1524 return new AVarExpr.init_avarexpr(n_id)
1525 end
1526
1527 redef fun name do return n_id.to_symbol
1528 redef fun compute_raw_arguments do return n_args.to_a
1529 end
1530
1531 redef class ACallAssignExpr
1532 redef fun variable_create(variable)
1533 do
1534 return new AVarAssignExpr.init_avarassignexpr(n_id, n_assign, n_value)
1535 end
1536
1537 redef fun name do return (n_id.text + "=").to_symbol
1538 redef fun compute_raw_arguments do
1539 var res = n_args.to_a
1540 res.add(n_value)
1541 return res
1542 end
1543 end
1544
1545 redef class ACallReassignExpr
1546 redef fun variable_create(variable)
1547 do
1548 return new AVarReassignExpr.init_avarreassignexpr(n_id, n_assign_op, n_value)
1549 end
1550
1551 redef fun name do return n_id.to_symbol
1552 redef fun compute_raw_arguments do return n_args.to_a
1553 end
1554
1555 redef class ABraExpr
1556 redef fun name do return once "[]".to_symbol
1557 redef fun compute_raw_arguments do return n_args.to_a
1558 redef fun closure_defs
1559 do
1560 if n_closure_defs.is_empty then
1561 return null
1562 else
1563 return n_closure_defs.to_a
1564 end
1565 end
1566 end
1567
1568 redef class ABraAssignExpr
1569 redef fun name do return once "[]=".to_symbol
1570 redef fun compute_raw_arguments do
1571 var res = n_args.to_a
1572 res.add(n_value)
1573 return res
1574 end
1575 end
1576
1577 redef class ABraReassignExpr
1578 redef fun name do return once "[]".to_symbol
1579 redef fun compute_raw_arguments do return n_args.to_a
1580 end
1581
1582 redef class AInitExpr
1583 redef fun name do return once "init".to_symbol
1584 redef fun compute_raw_arguments do return n_args.to_a
1585 end
1586
1587 redef class AClosureCallExpr
1588 var _variable: nullable ClosureVariable
1589 redef fun variable do return _variable.as(not null)
1590 redef fun compute_raw_arguments do return n_args.to_a
1591
1592 redef fun after_typing(v)
1593 do
1594 var va = variable
1595 if va.closure.is_break then v.variable_ctx.unreash = true
1596 var sig = va.closure.signature
1597 var s = process_signature(v, sig, n_id.to_symbol, compute_raw_arguments)
1598 if not n_closure_defs.is_empty then
1599 process_closures(v, sig, n_id.to_symbol, n_closure_defs.to_a)
1600 end
1601 if not s then return
1602 _prop_signature = sig
1603 _stype = sig.return_type
1604 _is_typed = true
1605 end
1606 end
1607
1608 redef class AClosureId
1609 fun to_symbol: Symbol is abstract
1610 end
1611 redef class ASimpleClosureId
1612 redef fun to_symbol: Symbol do return n_id.to_symbol
1613 end
1614 redef class ABreakClosureId
1615 redef fun to_symbol: Symbol do return n_kwbreak.to_symbol
1616 end
1617
1618 redef class AClosureDef
1619 var _closure: nullable MMClosure
1620 redef fun closure do return _closure.as(not null)
1621
1622 # The corresponding escapable object
1623 readable var _escapable: nullable EscapableBlock
1624
1625 var _accept_typing2: Bool = false
1626 redef fun accept_typing(v)
1627 do
1628 # Typing is deferred, wait accept_typing2(v)
1629 if _accept_typing2 then super
1630 end
1631
1632 private fun accept_typing2(v: TypingVisitor, esc: EscapableClosure)
1633 do
1634 _escapable = esc
1635
1636 var sig = esc.closure.signature
1637 if sig.arity != n_ids.length then
1638 v.error(self, "Error: {sig.arity} automatic variable names expected, {n_ids.length} found.")
1639 return
1640 end
1641
1642 _closure = esc.closure
1643
1644 var old_var_ctx = v.variable_ctx
1645 var old_base_var_ctx = v.base_variable_ctx
1646 v.base_variable_ctx = v.variable_ctx
1647 v.variable_ctx = v.variable_ctx.sub(self)
1648 variables = new Array[AutoVariable]
1649 for i in [0..n_ids.length[ do
1650 var va = new AutoVariable(n_ids[i].to_symbol, n_ids[i])
1651 variables.add(va)
1652 va.stype = sig[i]
1653 v.variable_ctx.add(va)
1654 end
1655
1656 _accept_typing2 = true
1657 accept_typing(v)
1658
1659 if v.variable_ctx.unreash == false then
1660 if closure.signature.return_type != null then
1661 v.error(self, "Control error: Reached end of block (a 'continue' with a value was expected).")
1662 else if closure.is_break then
1663 v.error(self, "Control error: Reached end of break block (a 'break' was expected).")
1664 end
1665 end
1666 v.variable_ctx = old_var_ctx
1667 v.base_variable_ctx = old_base_var_ctx
1668 end
1669 end
1670
1671 class ATypeCheckExpr
1672 special AExpr
1673 private fun check_expr_cast(v: TypingVisitor, n_expr: AExpr, n_type: AType)
1674 do
1675 if not v.check_expr(n_expr) then return
1676 if not n_type.is_typed then return
1677 var etype = n_expr.stype
1678 var ttype = n_type.stype
1679 if etype == ttype then
1680 v.warning(self, "Warning: Expression is already a {ttype}.")
1681 else if etype < ttype then
1682 v.warning(self, "Warning: Expression is already a {ttype} since it is a {etype}.")
1683 else if etype.is_nullable and etype.as_notnull == ttype then
1684 if ttype isa MMTypeFormal and ttype.bound.is_nullable then
1685 # No warning in this case since with
1686 # type T: nullable A
1687 # var x: nullable T
1688 # 'x.as(not null)' != 'x.as(T)'
1689 # 'x != null' != 'x isa T'
1690 else if self isa AIsaExpr then
1691 v.warning(self, "Warning: Prefer '!= null'.")
1692 else
1693 v.warning(self, "Warning: Prefer '.as(not null)'.")
1694 end
1695 end
1696 end
1697 end
1698
1699 redef class AIsaExpr
1700 special ATypeCheckExpr
1701 redef fun after_typing(v)
1702 do
1703 check_expr_cast(v, n_expr, n_type)
1704 if not n_type.is_typed then return
1705 var variable = n_expr.its_variable
1706 if variable != null then
1707 _if_true_variable_ctx = v.variable_ctx.sub_with(self, variable, n_type.stype)
1708 end
1709 _stype = v.type_bool
1710 _is_typed = true
1711 end
1712 end
1713
1714 redef class AAsCastExpr
1715 special ATypeCheckExpr
1716 redef fun after_typing(v)
1717 do
1718 check_expr_cast(v, n_expr, n_type)
1719 if not n_type.is_typed then return
1720 _stype = n_type.stype
1721 _is_typed = _stype != null
1722 end
1723 end
1724
1725 redef class AAsNotnullExpr
1726 redef fun after_typing(v)
1727 do
1728 if not v.check_expr(n_expr) then return
1729 var t = n_expr.stype
1730 if t isa MMTypeNone then
1731 v.error(n_expr, "Type error: 'as(not null)' on 'null' value.")
1732 return
1733 else if not t.is_nullable then
1734 v.warning(n_expr, "Warning: 'as(not null)' on non nullable type.")
1735 end
1736 _stype = n_expr.stype.as_notnull
1737 _is_typed = true
1738 end
1739 end
1740
1741 redef class AProxyExpr
1742 redef fun after_typing(v)
1743 do
1744 if not n_expr.is_typed then return
1745 _is_typed = true
1746 if n_expr.is_statement then return
1747 _stype = n_expr.stype
1748 end
1749 end
1750
1751 redef class AOnceExpr
1752 redef fun accept_typing(v)
1753 do
1754 if v.once_count > 0 then
1755 v.warning(self, "Useless once in a once expression.")
1756 end
1757 v.once_count = v.once_count + 1
1758
1759 super
1760
1761 v.once_count = v.once_count - 1
1762 end
1763 end
1764
Nit language project; an oo programing language and its tool suite.