1 # This file is part of NIT ( http://www.nitlanguage.org ).
3 # Copyright 2009 Jean Privat <jean@pryen.org>
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
9 # http://www.apache.org/licenses/LICENSE-2.0
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.
17 # Things needed by typing.nit to generate intermediate code from AST
18 package icode_generation
23 private import primitive_info
25 # An AST2ICode context stores the currently built icode informations
28 redef fun stmt
(s
: ICode)
30 if _current_node
!= null then
31 current_location
= _current_node
.location
32 else if visitor
.current_node
!= null then
33 current_location
= visitor
.current_node
.location
38 # Prepare a new array of length item
39 fun add_new_array
(stype
: MMType, length
: Int): IRegister
41 var prop
= visitor
.get_method
(stype
, once
"with_capacity".to_symbol
)
42 var ni
= expr
(new INative("TAG_Int({length})", null), visitor
.type_int
)
43 return expr
(new INew(stype
, prop
, [ni
]), stype
)
47 fun add_call_array_add
(recv
, item
: IRegister)
49 var stype
= recv
.stype
50 var prop
= visitor
.get_method
(stype
, once
"add".to_symbol
)
51 stmt
(new ICall(prop
, [recv
, item
]))
54 # Get the iregister associated with a variable
55 # Or assign one if none exists
56 fun variable
(v
: Variable): IRegister
58 if _variables
.has_key
(v
) then
62 if t
== null then t
= visitor
.type_object
.as_nullable
63 var reg
= new_register
(t
)
69 # Current registered variable
70 var _variables
: HashMap[Variable, IRegister] = new HashMap[Variable, IRegister]
72 # Current registered closurevariables
73 readable var _closurevariables
: HashMap[ClosureVariable, IClosureDecl] = new HashMap[ClosureVariable, IClosureDecl]
75 # The current syntax visitor
76 readable var _visitor
: AbsSyntaxVisitor
78 # Where a nit return must branch
79 readable writable var _return_seq
: nullable ISeq
81 # Register where a functionnal nit return must store its value
82 readable writable var _return_value
: nullable IRegister
84 # The method associated to the iroutine (if any)
85 readable var _method
: nullable MMMethod
87 init(visitor
: AbsSyntaxVisitor, r
: IRoutine, m
: nullable MMMethod)
89 super(visitor
.module, r
)
92 _return_value
= r
.result
96 # Insert implicit super init calls
97 fun invoke_super_init_calls_after
(start_prop
: nullable MMMethod)
100 assert p
isa MMSrcMethod
102 assert n
isa AConcreteInitPropdef
104 if n
.super_init_calls
.is_empty
then return
107 if start_prop
!= null then
108 while n
.super_init_calls
[i
] != start_prop
do
113 while n
.explicit_super_init_calls
[j
] != start_prop
do
118 var stop_prop
: nullable MMMethod = null
119 if j
< n
.explicit_super_init_calls
.length
then
120 stop_prop
= n
.explicit_super_init_calls
[j
]
122 var l
= n
.super_init_calls
.length
124 var sp
= n
.super_init_calls
[i
]
125 if sp
== stop_prop
then break
126 var cargs
= new Array[IRegister]
127 if sp
.signature
.arity
== 0 then
128 cargs
.add
(iroutine
.params
.first
)
130 for va
in iroutine
.params
do
134 stmt
(new ICall(sp
, cargs
))
140 var _current_node
: nullable AExpr = null
142 # Generate icode in the current sequence from a statement
143 fun generate_stmt
(n
: nullable AExpr)
145 if n
== null then return
146 var old
= _current_node
148 n
.generate_icode
(self)
152 # Generate icode in the current sequence from an expression
153 fun generate_expr
(n
: AExpr): IRegister
155 var old
= _current_node
157 var reg
= n
.generate_icode
(self).as(not null)
163 redef class EscapableBlock
164 # Where a nit break must branch
165 readable writable var _break_seq
: nullable ISeq
167 # Where a nit continue must branch
168 readable writable var _continue_seq
: nullable ISeq
170 # Register where a functionnal nit break must store its value
171 readable writable var _break_value
: nullable IRegister
173 # Register where a functionnal nit continue must store its value
174 readable writable var _continue_value
: nullable IRegister
177 redef class MMSrcModule
178 # Generate icode for method bodies
179 fun generate_icode
(tc
: ToolContext)
181 var v
= new A2IVisitor(tc
, self)
182 for c
in src_local_classes
do
183 for p
in c
.src_local_properties
do
184 if p
isa MMSrcMethod then
185 p
.generate_iroutine
(v
)
186 else if p
isa MMSrcAttribute then
187 p
.generate_iroutine
(v
)
194 redef class MMSrcAttribute
195 redef readable writable var _iroutine
: nullable IRoutine
197 # Generate the initialization iroutine
198 fun generate_iroutine
(visitor
: A2IVisitor)
200 if node
.n_expr
!= null then
201 var iroutine
= signature
.generate_empty_iroutine
202 iroutine
.location
= node
.location
203 var v
= new A2IContext(visitor
, iroutine
, null)
204 visitor
.icode_ctx
= v
205 visitor
.enter_visit
(node
)
206 visitor
.icode_ctx
= null
212 redef class MMSrcMethod
213 redef readable writable var _iroutine
: nullable IRoutine
215 # Generate the body iroutine
216 fun generate_iroutine
(visitor
: A2IVisitor)
218 var iroutine
= signature
.generate_empty_iroutine
220 iroutine
.location
= node
.location
222 var v
= new A2IContext(visitor
, iroutine
, self)
223 visitor
.icode_ctx
= v
224 inner_generate_iroutine
(v
)
225 visitor
.icode_ctx
= null
229 # Generate the body iroutine (specific part)
230 fun inner_generate_iroutine
(v
: A2IContext) is abstract
233 redef class MMReadImplementationMethod
234 redef fun inner_generate_iroutine
(v
)
236 var e
= v
.add_attr_read
(node
.prop
, v
.iroutine
.params
.first
)
237 v
.add_return_value
(e
)
241 redef class MMWriteImplementationMethod
242 redef fun inner_generate_iroutine
(v
)
244 var params
= v
.iroutine
.params
245 v
.stmt
(new IAttrWrite(node
.prop
, params
[0], params
[1]))
249 redef class MMMethSrcMethod
250 redef fun inner_generate_iroutine
(v
)
252 v
.visitor
.enter_visit
(node
)
256 redef class MMImplicitInit
257 redef fun inner_generate_iroutine
(v
)
259 var params
= v
.iroutine
.params
260 var f
= params
.length
- unassigned_attributes
.length
261 var recv
= params
.first
262 for sp
in super_inits
do
263 assert sp
isa MMMethod
264 var args_recv
= [recv
]
265 if sp
== super_init
then
266 var args
= new Array[IRegister].with_capacity
(f
)
271 v
.stmt
(new ICall(sp
, args
))
273 v
.stmt
(new ICall(sp
, args_recv
))
276 for i
in [f
..params
.length
[ do
277 var attribute
= unassigned_attributes
[i-f
]
278 v
.stmt
(new IAttrWrite(attribute
, recv
, params
[i
]))
284 special AbsSyntaxVisitor
285 writable var _icode_ctx
: nullable A2IContext
286 fun icode_ctx
: A2IContext do return _icode_ctx
.as(not null)
287 redef fun visit
(n
) do n
.accept_icode_generation
(self)
292 ###############################################################################
295 fun accept_icode_generation
(v
: A2IVisitor) do accept_abs_syntax_visitor
(v
) end
298 redef class AAttrPropdef
299 redef fun accept_icode_generation
(vv
)
302 v
.stmt
(new IMove(v
.variable
(self_var
), v
.iroutine
.params
.first
))
306 v
.stmt
(new IMove(v
.iroutine
.result
.as(not null), v
.generate_expr
(ne
)))
311 redef class AMethPropdef
312 redef fun accept_icode_generation
(vv
)
315 fill_iroutine
(vv
.icode_ctx
, method
)
318 # Compile the method body common preambule (before specific body stuff if any)
319 fun fill_iroutine
(v
: A2IContext, method
: MMSrcMethod) is abstract
322 redef class ASignature
323 fun fill_iroutine_parameters
(v
: A2IContext, orig_sig
: MMSignature, params
: Sequence[IRegister], closdecls
: nullable Sequence[IClosureDecl])
325 for ap
in n_params
do
326 var reg
= v
.variable
(ap
.variable
)
327 var orig_type
= orig_sig
[ap
.position
]
328 var apst
= ap
.variable
.stype
.as(not null)
329 if not orig_type
< apst
then
330 v
.add_type_cast
(params
[ap
.position
], apst
)
332 v
.stmt
(new IMove(reg
, params
[ap
.position
]))
334 for i
in [0..n_closure_decls
.length
[ do
335 var wd
= n_closure_decls
[i
]
336 v
.closurevariables
[wd
.variable
] = closdecls
[i
]
341 redef class AClosureDecl
342 redef fun accept_icode_generation
(vv
)
345 var iclos
= variable
.closure
.signature
.generate_empty_iclosuredef
(v
)
348 escapable
.continue_seq
= iclos
.body
349 escapable
.continue_value
= iclos
.result
350 n_signature
.fill_iroutine_parameters
(v
, variable
.closure
.signature
, iclos
.params
, null)
352 if n_expr
!= null then
353 v
.generate_stmt
(n_expr
)
354 v
.iroutine
.closure_decls
[position
].default
= iclos
360 redef class AConcreteMethPropdef
361 redef fun fill_iroutine
(v
, method
)
363 var params
= v
.iroutine
.params
.to_a
364 var selfreg
= v
.variable
(self_var
)
365 v
.stmt
(new IMove(selfreg
, params
[0]))
368 var orig_meth
: MMLocalProperty = method
.global
.intro
369 var orig_sig
= orig_meth
.signature_for
(method
.signature
.recv
)
370 if n_signature
!= null then
371 n_signature
.fill_iroutine_parameters
(v
, orig_sig
, params
, v
.iroutine
.closure_decls
)
374 if self isa AConcreteInitPropdef then
375 v
.invoke_super_init_calls_after
(null)
378 if n_block
!= null then
379 v
.generate_stmt
(n_block
)
384 redef class ADeferredMethPropdef
385 redef fun fill_iroutine
(v
, method
)
387 v
.add_abort
("Deferred method called")
391 redef class AExternMethPropdef
392 redef fun fill_iroutine
(v
, method
)
394 var params
= v
.iroutine
.params
395 var ename
= "{method.module.name}_{method.local_class.name}_{method.local_class.name}_{method.name}_{method.signature.arity}"
396 if n_extern
!= null then
397 ename
= n_extern
.text
398 ename
= ename
.substring
(1, ename
.length-2
)
400 var sig
= method
.signature
401 assert params
.length
== sig
.arity
+ 1
402 var args
= new Array[String]
403 args
.add
(sig
.recv
.unboxtype
("@@@"))
404 for i
in [0..sig
.arity
[ do
405 args
.add
(sig
[i
].unboxtype
("@@@"))
407 var s
= "{ename}({args.join(", ")})"
408 var rtype
= sig
.return_type
409 if rtype
!= null then
411 v
.add_return_value
(v
.expr
(new INative(s
, params
), rtype
))
413 v
.stmt
(new INative(s
, params
))
418 redef class AInternMethPropdef
419 redef fun fill_iroutine
(v
, method
)
421 var p
= v
.iroutine
.params
.to_a
422 var c
= method
.local_class
.name
424 var s
: nullable String = null
425 if c
== once
"Int".to_symbol
then
426 if n
== once
"object_id".to_symbol
then
428 else if n
== once
"unary -".to_symbol
then
429 s
= "TAG_Int(-UNTAG_Int(@@@))"
430 else if n
== once
"output".to_symbol
then
431 s
= "printf(\"%ld\\n\
", UNTAG_Int(@@@));"
432 else if n
== once
"ascii".to_symbol
then
433 s
= "TAG_Char(UNTAG_Int(@@@))"
434 else if n
== once
"succ".to_symbol
then
435 s
= "TAG_Int(UNTAG_Int(@@@)+1)"
436 else if n
== once
"prec".to_symbol
then
437 s
= "TAG_Int(UNTAG_Int(@@@)-1)"
438 else if n
== once
"to_f".to_symbol
then
439 s
= "BOX_Float((float)UNTAG_Int(@@@))"
440 else if n
== once
"+".to_symbol
then
441 s
= "TAG_Int(UNTAG_Int(@@@)+UNTAG_Int(@@@))"
442 else if n
== once
"-".to_symbol
then
443 s
= "TAG_Int(UNTAG_Int(@@@)-UNTAG_Int(@@@))"
444 else if n
== once
"*".to_symbol
then
445 s
= "TAG_Int(UNTAG_Int(@@@)*UNTAG_Int(@@@))"
446 else if n
== once
"/".to_symbol
then
447 s
= "TAG_Int(UNTAG_Int(@@@)/UNTAG_Int(@@@))"
448 else if n
== once
"%".to_symbol
then
449 s
= "TAG_Int(UNTAG_Int(@@@)%UNTAG_Int(@@@))"
450 else if n
== once
"<".to_symbol
then
451 s
= "TAG_Bool(UNTAG_Int(@@@)<UNTAG_Int(@@@))"
452 else if n
== once
">".to_symbol
then
453 s
= "TAG_Bool(UNTAG_Int(@@@)>UNTAG_Int(@@@))"
454 else if n
== once
"<=".to_symbol
then
455 s
= "TAG_Bool(UNTAG_Int(@@@)<=UNTAG_Int(@@@))"
456 else if n
== once
">=".to_symbol
then
457 s
= "TAG_Bool(UNTAG_Int(@@@)>=UNTAG_Int(@@@))"
458 else if n
== once
"lshift".to_symbol
then
459 s
= "TAG_Int(UNTAG_Int(@@@)<<UNTAG_Int(@@@))"
460 else if n
== once
"rshift".to_symbol
then
461 s
= "TAG_Int(UNTAG_Int(@@@)>>UNTAG_Int(@@@))"
462 else if n
== once
"==".to_symbol
then
463 s
= "TAG_Bool((@@@)==(@@@))"
464 else if n
== once
"!=".to_symbol
then
465 s
= "TAG_Bool((@@@)!=(@@@))"
467 else if c
== once
"Float".to_symbol
then
468 if n
== once
"object_id".to_symbol
then
469 s
= "TAG_Int((bigint)UNBOX_Float(@@@))"
470 else if n
== once
"unary -".to_symbol
then
471 s
= "BOX_Float(-UNBOX_Float(@@@))"
472 else if n
== once
"output".to_symbol
then
473 s
= "printf(\"%f\\n\
", UNBOX_Float(@@@));"
474 else if n
== once
"to_i".to_symbol
then
475 s
= "TAG_Int((bigint)UNBOX_Float(@@@))"
476 else if n
== once
"+".to_symbol
then
477 s
= "BOX_Float(UNBOX_Float(@@@)+UNBOX_Float(@@@))"
478 else if n
== once
"-".to_symbol
then
479 s
= "BOX_Float(UNBOX_Float(@@@)-UNBOX_Float(@@@))"
480 else if n
== once
"*".to_symbol
then
481 s
= "BOX_Float(UNBOX_Float(@@@)*UNBOX_Float(@@@))"
482 else if n
== once
"/".to_symbol
then
483 s
= "BOX_Float(UNBOX_Float(@@@)/UNBOX_Float(@@@))"
484 else if n
== once
"<".to_symbol
then
485 s
= "TAG_Bool(UNBOX_Float(@@@)<UNBOX_Float(@@@))"
486 else if n
== once
">".to_symbol
then
487 s
= "TAG_Bool(UNBOX_Float(@@@)>UNBOX_Float(@@@))"
488 else if n
== once
"<=".to_symbol
then
489 s
= "TAG_Bool(UNBOX_Float(@@@)<=UNBOX_Float(@@@))"
490 else if n
== once
">=".to_symbol
then
491 s
= "TAG_Bool(UNBOX_Float(@@@)>=UNBOX_Float(@@@))"
493 else if c
== once
"Char".to_symbol
then
494 if n
== once
"object_id".to_symbol
then
495 s
= "TAG_Int(UNTAG_Char(@@@))"
496 else if n
== once
"unary -".to_symbol
then
497 s
= "TAG_Char(-UNTAG_Char(@@@))"
498 else if n
== once
"output".to_symbol
then
499 s
= "printf(\"%c\
", (unsigned char)UNTAG_Char(@@@));"
500 else if n
== once
"ascii".to_symbol
then
501 s
= "TAG_Int((unsigned char)UNTAG_Char(@@@))"
502 else if n
== once
"succ".to_symbol
then
503 s
= "TAG_Char(UNTAG_Char(@@@)+1)"
504 else if n
== once
"prec".to_symbol
then
505 s
= "TAG_Char(UNTAG_Char(@@@)-1)"
506 else if n
== once
"to_i".to_symbol
then
507 s
= "TAG_Int(UNTAG_Char(@@@)-'0')"
508 else if n
== once
"+".to_symbol
then
509 s
= "TAG_Char(UNTAG_Char(@@@)+UNTAG_Char(@@@))"
510 else if n
== once
"-".to_symbol
then
511 s
= "TAG_Char(UNTAG_Char(@@@)-UNTAG_Char(@@@))"
512 else if n
== once
"*".to_symbol
then
513 s
= "TAG_Char(UNTAG_Char(@@@)*UNTAG_Char(@@@))"
514 else if n
== once
"/".to_symbol
then
515 s
= "TAG_Char(UNTAG_Char(@@@)/UNTAG_Char(@@@))"
516 else if n
== once
"%".to_symbol
then
517 s
= "TAG_Char(UNTAG_Char(@@@)%UNTAG_Char(@@@))"
518 else if n
== once
"<".to_symbol
then
519 s
= "TAG_Bool(UNTAG_Char(@@@)<UNTAG_Char(@@@))"
520 else if n
== once
">".to_symbol
then
521 s
= "TAG_Bool(UNTAG_Char(@@@)>UNTAG_Char(@@@))"
522 else if n
== once
"<=".to_symbol
then
523 s
= "TAG_Bool(UNTAG_Char(@@@)<=UNTAG_Char(@@@))"
524 else if n
== once
">=".to_symbol
then
525 s
= "TAG_Bool(UNTAG_Char(@@@)>=UNTAG_Char(@@@))"
526 else if n
== once
"==".to_symbol
then
527 s
= "TAG_Bool((@@@)==(@@@))"
528 else if n
== once
"!=".to_symbol
then
529 s
= "TAG_Bool((@@@)!=(@@@))"
531 else if c
== once
"Bool".to_symbol
then
532 if n
== once
"object_id".to_symbol
then
533 s
= "TAG_Int(UNTAG_Bool(@@@))"
534 else if n
== once
"unary -".to_symbol
then
535 s
= "TAG_Bool(-UNTAG_Bool(@@@))"
536 else if n
== once
"output".to_symbol
then
537 s
= "(void)printf(UNTAG_Bool(@@@)?\"true\\n\
":\"false\\n\
");"
538 else if n
== once
"ascii".to_symbol
then
539 s
= "TAG_Bool(UNTAG_Bool(@@@))"
540 else if n
== once
"to_i".to_symbol
then
541 s
= "TAG_Int(UNTAG_Bool(@@@))"
542 else if n
== once
"==".to_symbol
then
543 s
= "TAG_Bool((@@@)==(@@@))"
544 else if n
== once
"!=".to_symbol
then
545 s
= "TAG_Bool((@@@)!=(@@@))"
547 else if c
== once
"NativeArray".to_symbol
then
548 if n
== once
"object_id".to_symbol
then
549 s
= "TAG_Int(((Nit_NativeArray)@@@)->object_id)"
550 else if n
== once
"[]".to_symbol
then
551 s
= "((Nit_NativeArray)@@@)->val[UNTAG_Int(@@@)]"
552 else if n
== once
"[]=".to_symbol
then
553 s
= "((Nit_NativeArray)@@@)->val[UNTAG_Int(@@@)]=@@@"
554 else if n
== once
"copy_to".to_symbol
then
558 s
= "(void)memcpy(((Nit_NativeArray )@@@)->val, ((Nit_NativeArray)@@@)->val, UNTAG_Int(@@@)*sizeof(val_t))"
560 else if c
== once
"NativeString".to_symbol
then
561 if n
== once
"object_id".to_symbol
then
562 s
= "TAG_Int(UNBOX_NativeString(@@@))"
563 else if n
== once
"atoi".to_symbol
then
564 s
= "TAG_Int(atoi(UNBOX_NativeString(@@@)))"
565 else if n
== once
"[]".to_symbol
then
566 s
= "TAG_Char(UNBOX_NativeString(@@@)[UNTAG_Int(@@@)])"
567 else if n
== once
"[]=".to_symbol
then
568 s
= "UNBOX_NativeString(@@@)[UNTAG_Int(@@@)]=UNTAG_Char(@@@);"
569 else if n
== once
"copy_to".to_symbol
then
575 s
= "(void)memcpy(UNBOX_NativeString(@@@)+UNTAG_Int(@@@), UNBOX_NativeString(@@@)+UNTAG_Int(@@@), UNTAG_Int(@@@));"
577 else if n
== once
"object_id".to_symbol
then
578 s
= "TAG_Int((bigint)((obj_t)@@@)[1].object_id)"
579 else if n
== once
"sys".to_symbol
then
581 else if n
== once
"is_same_type".to_symbol
then
582 s
= "TAG_Bool((VAL2VFT(@@@)==VAL2VFT(@@@)))"
583 else if n
== once
"exit".to_symbol
then
585 s
= "exit(UNTAG_Int(@@@));"
586 else if n
== once
"calloc_array".to_symbol
then
588 s
= "NEW_NativeArray(UNTAG_Int(@@@), sizeof(val_t))"
589 else if n
== once
"calloc_string".to_symbol
then
591 s
= "BOX_NativeString((char*)raw_alloc((UNTAG_Int(@@@) * sizeof(char))))"
594 v
.visitor
.error
(self, "Fatal error: unknown intern method {method.full_name}.")
597 var rtype
= method
.signature
.return_type
598 if rtype
!= null then
599 v
.add_return_value
(v
.expr
(new INative(s
, p
), rtype
))
601 v
.stmt
(new INative(s
, p
))
606 ###############################################################################
609 redef fun accept_icode_generation
(v
) do end
611 # Generate icode sequence in the current A2IContext
612 # This method should not be called direclty: use generate_expr and generate_stmt from A2IContext instead
613 protected fun generate_icode
(v
: A2IContext): nullable IRegister is abstract
616 redef class AVardeclExpr
617 redef fun generate_icode
(v
)
619 var reg
= v
.variable
(variable
)
622 v
.add_assignment
(reg
, v
.generate_expr
(ne
))
628 redef class ABlockExpr
629 redef fun generate_icode
(v
)
631 for ne
in n_expr
do v
.generate_stmt
(ne
)
637 redef fun generate_icode
(v
)
642 escapable
.break_seq
= seq
645 v
.generate_stmt
(n_block
)
652 redef class AReturnExpr
653 redef fun generate_icode
(v
)
657 v
.add_assignment
(v
.return_value
.as(not null), v
.generate_expr
(ne
))
659 v
.stmt
(new IEscape(v
.return_seq
.as(not null)))
664 redef class ABreakExpr
665 redef fun generate_icode
(v
)
669 v
.add_assignment
(escapable
.break_value
.as(not null), v
.generate_expr
(ne
))
671 v
.stmt
(new IEscape(escapable
.break_seq
.as(not null)))
676 redef class AContinueExpr
677 redef fun generate_icode
(v
)
681 v
.add_assignment
(escapable
.continue_value
.as(not null), v
.generate_expr
(ne
))
683 v
.stmt
(new IEscape(escapable
.continue_seq
.as(not null)))
688 redef class AAbortExpr
689 redef fun generate_icode
(v
)
691 v
.add_abort
("Aborted")
697 redef fun generate_icode
(v
)
699 var iif
= new IIf(v
.generate_expr
(n_expr
))
703 if n_then
!= null then
705 v
.generate_stmt
(n_then
)
708 if n_else
!= null then
710 v
.generate_stmt
(n_else
)
718 redef class AWhileExpr
719 redef fun generate_icode
(v
)
722 var iloop
= new ILoop
724 escapable
.break_seq
= iloop
728 var iif
= new IIf(v
.generate_expr
(n_expr
))
731 # Process inside (condition is true)
732 if n_block
!= null then
734 escapable
.continue_seq
= iif
.then_seq
735 v
.generate_stmt
(n_block
)
738 # Process escape (condition is false)
740 v
.stmt
(new IEscape(iloop
))
747 redef class ALoopExpr
748 redef fun generate_icode
(v
)
751 var iloop
= new ILoop
753 escapable
.break_seq
= iloop
757 if n_block
!= null then
761 escapable
.continue_seq
= seq
762 v
.generate_stmt
(n_block
)
771 redef fun generate_icode
(v
)
773 var expr_type
= n_expr
.stype
776 var meth_iterator
= v
.visitor
.get_method
(expr_type
, once
"iterator".to_symbol
)
778 var iter_type
= meth_iterator
.signature_for
(expr_type
).return_type
.as(not null)
779 var ireg_iter
= v
.expr
(new ICall(meth_iterator
, [v
.generate_expr
(n_expr
)]), iter_type
)
783 var iloop
= new ILoop
785 escapable
.break_seq
= iloop
788 # Condition evaluation
789 var meth_is_ok
= v
.visitor
.get_method
(iter_type
, once
("is_ok".to_symbol
))
790 var ireg_isok
= v
.expr
(new ICall(meth_is_ok
, [ireg_iter
]), v
.visitor
.type_bool
)
791 var iif
= new IIf(ireg_isok
)
793 # Process insite the loop (condition is true)
796 escapable
.continue_seq
= iif
.then_seq
798 # Automatic variable assignment
799 var meth_item
= v
.visitor
.get_method
(iter_type
, once
("item".to_symbol
))
800 var va_stype
= variable
.stype
.as(not null)
801 var ireg_item
= v
.expr
(new ICall(meth_item
, [ireg_iter
]), va_stype
)
802 var ireg_va
= v
.variable
(variable
)
803 v
.add_assignment
(ireg_va
, ireg_item
)
806 v
.generate_stmt
(n_block
)
808 # Exit contition (condition is false)
810 v
.stmt
(new IEscape(iloop
))
813 var meth_next
= v
.visitor
.get_method
(iter_type
, once
("next".to_symbol
))
815 v
.stmt
(new ICall(meth_next
, [ireg_iter
]))
822 redef class AAssertExpr
823 redef fun generate_icode
(v
)
825 var e
= v
.generate_expr
(n_expr
)
830 v
.generate_stmt
(n_else
)
833 v
.add_abort
("Assert failed")
835 v
.add_abort
("Assert %s failed", id
.to_s
)
843 redef fun generate_icode
(v
)
845 return v
.variable
(variable
)
849 redef class AVarAssignExpr
850 redef fun generate_icode
(v
)
852 var e
= v
.generate_expr
(n_value
)
853 v
.add_assignment
(v
.variable
(variable
), e
)
858 redef class AVarReassignExpr
859 redef fun generate_icode
(v
)
861 var e1
= v
.variable
(variable
)
862 var e2
= v
.generate_expr
(n_value
)
863 var e3
= v
.expr
(new ICall(assign_method
, [e1
, e2
]), assign_method
.signature
.return_type
.as(not null))
864 v
.add_assignment
(e1
, e3
)
869 redef class ASelfExpr
870 redef fun generate_icode
(v
)
872 return v
.variable
(variable
)
876 redef class AIfexprExpr
877 redef fun generate_icode
(v
)
880 var iif
= new IIf(v
.generate_expr
(n_expr
))
885 var reg
= v
.new_register
(stype
)
889 v
.add_assignment
(reg
, v
.generate_expr
(n_then
))
893 v
.add_assignment
(reg
, v
.generate_expr
(n_else
))
901 redef fun generate_icode
(v
)
903 var e
= v
.generate_expr
(n_expr
)
904 var e2
= v
.generate_expr
(n_expr2
)
905 return v
.expr
(new IIs(e
, e2
), stype
)
910 redef fun generate_icode
(v
)
913 var reg
= v
.new_register
(stype
)
915 # Process left operand (in a if/then)
916 var iif
= new IIf(v
.generate_expr
(n_expr
))
920 v
.add_assignment
(reg
, v
.lit_true_reg
)
922 # Process right operand (in the else)
924 v
.add_assignment
(reg
, v
.generate_expr
(n_expr2
))
932 redef fun generate_icode
(v
)
935 var reg
= v
.new_register
(stype
)
937 # Process left operand (in a if/else)
938 var iif
= new IIf(v
.generate_expr
(n_expr
))
942 v
.add_assignment
(reg
, v
.lit_false_reg
)
944 # Process right operand (in the then)
946 v
.add_assignment
(reg
, v
.generate_expr
(n_expr2
))
954 redef fun generate_icode
(v
)
956 var e
= v
.generate_expr
(n_expr
)
957 return v
.expr
(new INot(e
), stype
)
962 redef fun generate_icode
(v
)
964 var e
= v
.generate_expr
(n_expr
)
965 return v
.expr
(new ITypeCheck(e
, n_type
.stype
), stype
)
969 redef class AAsCastExpr
970 redef fun generate_icode
(v
)
972 var e
= v
.generate_expr
(n_expr
)
973 v
.add_type_cast
(e
, stype
)
978 redef class AAsNotnullExpr
979 redef fun generate_icode
(v
)
981 var e
= v
.generate_expr
(n_expr
)
982 v
.add_type_cast
(e
, stype
)
987 redef class ATrueExpr
988 redef fun generate_icode
(v
)
990 return v
.lit_true_reg
994 redef class AFalseExpr
995 redef fun generate_icode
(v
)
997 return v
.lit_false_reg
1001 redef class AIntExpr
1002 redef fun generate_icode
(v
)
1004 return v
.expr
(new INative("TAG_Int({n_number.text})", null), stype
)
1008 redef class AFloatExpr
1009 redef fun generate_icode
(v
)
1011 return v
.expr
(new INative("BOX_Float({n_float.text})", null), stype
)
1015 redef class ACharExpr
1016 redef fun generate_icode
(v
)
1018 return v
.expr
(new INative("TAG_Char({n_char.text})", null), stype
)
1022 redef class AStringFormExpr
1023 redef fun generate_icode
(v
)
1025 compute_string_infos
1027 var ionce
= new IOnce
1028 var reg
= v
.expr
(ionce
, stype
)
1030 var ns
= v
.expr
(new INative("BOX_NativeString(\"{_cstring}\
")", null), v
.visitor
.type_nativestring
)
1031 var ni
= v
.expr
(new INative("TAG_Int({_cstring_length})", null), v
.visitor
.type_int
)
1032 var prop
= v
.visitor
.get_method
(stype
, once
"with_native".to_symbol
)
1033 var e
= v
.expr
(new INew(stype
, prop
, [ns
, ni
]), stype
)
1034 v
.add_assignment
(reg
, e
)
1039 # The raw string value
1040 protected fun string_text
: String is abstract
1042 # The string in a C native format
1043 protected var _cstring
: nullable String
1045 # The string length in bytes
1046 protected var _cstring_length
: nullable Int
1048 # Compute _cstring and _cstring_length using string_text
1049 protected fun compute_string_infos
1052 var str
= string_text
1053 var res
= new Buffer
1055 while i
< str
.length
do
1060 if c2
!= '{' and c2 != '}' then
1070 _cstring_length
= len
1074 redef class AStringExpr
1075 redef fun string_text
do return n_string
.text
.substring
(1, n_string
.text
.length
- 2)
1077 redef class AStartStringExpr
1078 redef fun string_text
do return n_string
.text
.substring
(1, n_string
.text
.length
- 2)
1080 redef class AMidStringExpr
1081 redef fun string_text
do return n_string
.text
.substring
(1, n_string
.text
.length
- 2)
1083 redef class AEndStringExpr
1084 redef fun string_text
do return n_string
.text
.substring
(1, n_string
.text
.length
- 2)
1087 redef class ASuperstringExpr
1088 redef fun generate_icode
(v
)
1090 var array
= v
.add_new_array
(atype
, n_exprs
.length
)
1091 var prop_to_s
= v
.visitor
.get_method
(v
.visitor
.type_object
, once
"to_s".to_symbol
)
1092 for ne
in n_exprs
do
1093 var e
= v
.generate_expr
(ne
)
1094 if ne
.stype
!= stype
then
1095 e
= v
.expr
(new ICall(prop_to_s
, [e
]), stype
)
1097 v
.add_call_array_add
(array
, e
)
1099 return v
.expr
(new ICall(prop_to_s
, [array
]), stype
)
1103 redef class ANullExpr
1104 redef fun generate_icode
(v
)
1106 return v
.lit_null_reg
1110 redef class AArrayExpr
1111 redef fun generate_icode
(v
)
1113 var recv
= v
.add_new_array
(stype
, n_exprs
.length
)
1114 for ne
in n_exprs
do
1115 var e
= v
.generate_expr
(ne
)
1116 v
.add_call_array_add
(recv
, e
)
1122 redef class ACrangeExpr
1123 redef fun generate_icode
(v
)
1125 var e
= v
.generate_expr
(n_expr
)
1126 var e2
= v
.generate_expr
(n_expr2
)
1127 var prop
= v
.visitor
.get_method
(stype
, once
"init".to_symbol
)
1128 return v
.expr
(new INew(stype
, prop
, [e
, e2
]), stype
)
1132 redef class AOrangeExpr
1133 redef fun generate_icode
(v
)
1135 var e
= v
.generate_expr
(n_expr
)
1136 var e2
= v
.generate_expr
(n_expr2
)
1137 var prop
= v
.visitor
.get_method
(stype
, once
"without_last".to_symbol
)
1138 return v
.expr
(new INew(stype
, prop
, [e
, e2
]), stype
)
1142 redef class ASuperExpr
1143 redef fun generate_icode
(v
)
1145 var arity
= v
.iroutine
.params
.length
- 1
1146 if init_in_superclass
!= null then
1147 arity
= init_in_superclass
.signature
.arity
1149 var args
= new Array[IRegister].with_capacity
(arity
+ 1)
1150 args
.add
(v
.iroutine
.params
[0])
1151 if n_args
.length
!= arity
then
1152 for i
in [0..arity
[ do
1153 args
.add
(v
.iroutine
.params
[i
+ 1])
1157 args
.add
(v
.generate_expr
(na
))
1160 var p
= init_in_superclass
1162 var rtype
= p
.signature
.return_type
1163 if rtype
!= null then
1164 return v
.expr
(new ICall(p
, args
), rtype
)
1166 v
.stmt
(new ICall(p
, args
))
1171 var rtype
= p
.signature
.return_type
1172 if rtype
== null then
1173 v
.stmt
(new ISuper(p
, args
))
1176 return v
.expr
(new ISuper(p
, args
), rtype
)
1182 redef class AAttrExpr
1183 redef fun generate_icode
(v
)
1185 var e
= v
.generate_expr
(n_expr
)
1186 if n_expr
.stype
.is_nullable
then v
.add_null_reciever_check
(e
)
1187 return v
.add_attr_read
(prop
, e
)
1191 redef class AAttrAssignExpr
1192 redef fun generate_icode
(v
)
1194 var e
= v
.generate_expr
(n_expr
)
1195 if n_expr
.stype
.is_nullable
then v
.add_null_reciever_check
(e
)
1196 var e2
= v
.generate_expr
(n_value
)
1197 v
.stmt
(new IAttrWrite(prop
, e
, e2
))
1201 redef class AAttrReassignExpr
1202 redef fun generate_icode
(v
)
1204 var e1
= v
.generate_expr
(n_expr
)
1205 if n_expr
.stype
.is_nullable
then v
.add_null_reciever_check
(e1
)
1206 var e2
= v
.expr
(new IAttrRead(prop
, e1
), attr_type
)
1207 var e3
= v
.generate_expr
(n_value
)
1208 var e4
= v
.expr
(new ICall(assign_method
, [e2
, e3
]), attr_type
)
1209 v
.stmt
(new IAttrWrite(prop
, e1
, e4
))
1214 redef class AIssetAttrExpr
1215 redef fun generate_icode
(v
)
1217 var e
= v
.generate_expr
(n_expr
)
1218 if n_expr
.stype
.is_nullable
then v
.add_null_reciever_check
(e
)
1219 return v
.expr
(new IAttrIsset(prop
, e
), stype
)
1223 redef class AAbsAbsSendExpr
1224 # Compile each argument and add them to the array
1225 fun generate_icode_for_arguments_in
(v
: A2IContext, args
: Array[IRegister], signature
: MMSignature)
1227 var par_arity
= signature
.arity
1228 var par_vararg
= signature
.vararg_rank
1229 var raw_args
= raw_arguments
1230 var raw_arity
= raw_args
.length
1232 for par_idx
in [0..par_arity
[ do
1234 var par_type
= signature
[par_idx
]
1235 if par_idx
== par_vararg
then
1236 var arr
= v
.add_new_array
(v
.visitor
.type_array
(par_type
), raw_arity-par_arity
)
1237 for i
in [0..(raw_arity-par_arity
)] do
1238 a
= raw_args
[arg_idx
]
1239 v
.add_call_array_add
(arr
, v
.generate_expr
(a
))
1240 arg_idx
= arg_idx
+ 1
1244 a
= raw_args
[arg_idx
]
1245 args
.add
(v
.generate_expr
(a
))
1246 arg_idx
= arg_idx
+ 1
1252 redef class ASendExpr
1253 redef fun generate_icode
(v
)
1255 var recv
= v
.generate_expr
(n_expr
)
1256 var args
= new Array[IRegister]
1259 generate_icode_for_arguments_in
(v
, args
, prop
.signature
.as(not null))
1260 var r
: nullable IRegister = null # The full result of the send (raw call + breaks)
1261 var r2
: nullable IRegister # The raw result of the call
1265 var closcns
: nullable Array[nullable IClosureDef] = null
1266 if not prop_signature
.closures
.is_empty
then
1267 var rtype
= prop_signature
.return_type
1268 if rtype
!= null then
1269 r
= v
.new_register
(rtype
)
1274 closcns
= new Array[nullable IClosureDef]
1276 if closure_defs
!= null then cdarity
= closure_defs
.length
1277 var closure_defs
= closure_defs
1278 for mmc
in prop_signature
.closures
do
1281 if closure_defs
!= null then
1282 for cd
in closure_defs
do
1283 if cd
.n_id
.to_symbol
!= name
then continue
1284 assert found
== false
1286 cd
.escapable
.break_seq
= seq
1287 cd
.escapable
.break_value
= r
1288 var cn
= cd
.generate_iclosuredef
(v
)
1298 r2
= v
.add_call
(prop
, args
, closcns
)
1301 if not prop_signature
.closures
.is_empty
then
1302 if r
!= null and r2
!= null then v
.add_assignment
(r
, r2
)
1308 if prop
.global
.is_init
then
1309 v
.invoke_super_init_calls_after
(prop
)
1315 redef class ASendReassignExpr
1316 redef fun generate_icode
(v
)
1318 var recv
= v
.generate_expr
(n_expr
)
1319 if n_expr
.stype
.is_nullable
then v
.add_null_reciever_check
(recv
)
1320 var args
= new Array[IRegister]
1322 generate_icode_for_arguments_in
(v
, args
, read_prop
.signature
.as(not null))
1324 var e2
= v
.expr
(new ICall(read_prop
, args
), read_prop
.signature
.return_type
.as(not null))
1325 var e3
= v
.generate_expr
(n_value
)
1326 var e4
= v
.expr
(new ICall(assign_method
, [e2
, e3
]), assign_method
.signature
.return_type
.as(not null))
1327 var args2
= args
.to_a
1329 v
.stmt
(new ICall(prop
, args2
))
1334 redef class ANewExpr
1335 redef fun generate_icode
(v
)
1337 var args
= new Array[IRegister]
1338 generate_icode_for_arguments_in
(v
, args
, prop
.signature
.as(not null))
1339 return v
.expr
(new INew(stype
, prop
, args
), stype
)
1343 redef class AProxyExpr
1344 redef fun generate_icode
(v
)
1346 return v
.generate_expr
(n_expr
)
1350 redef class AOnceExpr
1351 redef fun generate_icode
(v
)
1353 var ionce
= new IOnce
1354 var reg
= v
.expr
(ionce
, stype
)
1358 var e
= v
.generate_expr
(n_expr
)
1359 v
.add_assignment
(reg
, e
)
1367 redef class AClosureDef
1368 var _iclosure_def
: nullable IClosureDef
1370 fun generate_iclosuredef
(v
: A2IContext): IClosureDef
1373 var args
= new Array[IRegister]
1374 var sig
= closure
.signature
1375 for i
in [0..sig
.arity
[ do
1376 args
.add
(v
.new_register
(sig
[i
]))
1378 var ret
: nullable IRegister = null
1379 var rtype
= sig
.return_type
1380 if rtype
!= null then
1381 ret
= v
.new_register
(rtype
)
1384 var iclos
= new IClosureDef(args
, ret
)
1385 iclos
.location
= location
1390 escapable
.continue_seq
= iclos
.body
1391 escapable
.continue_value
= iclos
.result
1394 for i
in [0..variables
.length
[ do
1395 var res
= v
.variable
(variables
[i
])
1396 v
.add_assignment
(res
, iclos
.params
[i
])
1399 v
.generate_stmt
(n_expr
)
1402 _iclosure_def
= iclos
1407 redef class AClosureCallExpr
1408 redef fun generate_icode
(v
)
1411 var args
= new Array[IRegister]
1412 generate_icode_for_arguments_in
(v
, args
, variable
.closure
.signature
)
1415 var closdecl
= v
.closurevariables
[variable
]
1416 var icall
= new IClosCall(closdecl
, args
)
1419 # Fill break of ical
1420 if n_closure_defs
.length
== 1 then do
1422 icall
.break_seq
= iseq
1424 v
.generate_stmt
(n_closure_defs
.first
.n_expr
)
1428 # Prepare in case of default block
1429 var iif
: nullable IIf = null # The iif of default block
1430 var closdecl_default
= closdecl
.default
# The default (if any)
1431 if closdecl_default
!= null then
1432 iif
= new IIf(v
.expr
(new IHasClos(closdecl
), v
.visitor
.type_bool
))
1434 v
.seq
= iif
.then_seq
1438 var r2
: nullable IRegister = null # the result of the icall
1439 var rtype
= variable
.closure
.signature
.return_type
1440 if rtype
== null then
1443 r2
= v
.expr
(icall
, rtype
)
1446 # Process the case of default block
1447 var r
: nullable IRegister = null # the real result
1448 if closdecl_default
!= null then
1451 assert rtype
!= null
1452 r
= v
.new_register
(rtype
)
1453 v
.add_assignment
(r
, r2
)
1455 v
.seq
= iif
.else_seq
1456 var r3
= v
.inline_routine
(closdecl_default
, args
, null)
1459 v
.add_assignment
(r
, r3
)