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compiler: add a native implementation of NativeArray::memmove
[nit.git] / src / compiler / global_compiler.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 # Global compilation of a Nit program
18 #
19 # Techniques used are:
20 # * heterogeneous generics
21 # * customization
22 # * switch dispatch
23 # * inlining
24 module global_compiler
25
26 import abstract_compiler
27 import rapid_type_analysis
28
29 redef class ToolContext
30 # option --global
31 var opt_global = new OptionBool("Use global compilation", "--global")
32
33 var global_compiler_phase = new GlobalCompilerPhase(self, null)
34
35 redef init do
36 super
37 option_context.add_option(opt_global)
38 end
39 end
40
41 class GlobalCompilerPhase
42 super Phase
43 redef fun process_mainmodule(mainmodule, given_mmodules) do
44 if not toolcontext.opt_global.value then return
45
46 var modelbuilder = toolcontext.modelbuilder
47 var analysis = modelbuilder.do_rapid_type_analysis(mainmodule)
48 modelbuilder.run_global_compiler(mainmodule, analysis)
49 end
50 end
51
52 redef class ModelBuilder
53 # Entry point to performs a global compilation on the AST of a complete program.
54 # `mainmodule` is the main module of the program
55 # `runtime_type_analysis` is a already computer type analysis.
56 fun run_global_compiler(mainmodule: MModule, runtime_type_analysis: RapidTypeAnalysis)
57 do
58 var time0 = get_time
59 self.toolcontext.info("*** GENERATING C ***", 1)
60
61 var compiler = new GlobalCompiler(mainmodule, self, runtime_type_analysis)
62 compiler.do_compilation
63 compiler.display_stats
64
65 var time1 = get_time
66 self.toolcontext.info("*** END GENERATING C: {time1-time0} ***", 2)
67 write_and_make(compiler)
68 end
69 end
70
71 # Compiler that use global compilation and perform hard optimisations like:
72 # * customization
73 # * switch dispatch
74 # * inlining
75 class GlobalCompiler
76 super AbstractCompiler
77
78 redef type VISITOR: GlobalCompilerVisitor
79
80 # The result of the RTA (used to know live types and methods)
81 var runtime_type_analysis: RapidTypeAnalysis
82
83 init
84 do
85 var file = new_file("{mainmodule.c_name}.nitgg")
86 self.header = new CodeWriter(file)
87 self.live_primitive_types = new Array[MClassType]
88 for t in runtime_type_analysis.live_types do
89 if t.is_c_primitive or t.mclass.name == "Pointer" then
90 self.live_primitive_types.add(t)
91 end
92 end
93 end
94
95 redef fun do_compilation
96 do
97 var compiler = self
98
99 compiler.compile_header
100
101 if mainmodule.model.get_mclasses_by_name("Pointer") != null then
102 runtime_type_analysis.live_types.add(mainmodule.pointer_type)
103 end
104 for t in runtime_type_analysis.live_types do
105 compiler.declare_runtimeclass(t)
106 end
107
108 compiler.compile_class_names
109
110 # Init instance code (allocate and init-arguments)
111 for t in runtime_type_analysis.live_types do
112 if not t.is_c_primitive then
113 compiler.generate_init_instance(t)
114 if t.mclass.kind == extern_kind then
115 compiler.generate_box_instance(t)
116 end
117 else
118 compiler.generate_box_instance(t)
119 end
120 end
121
122 # The main function of the C
123 compiler.compile_nitni_global_ref_functions
124 compiler.compile_main_function
125
126 # Compile until all runtime_functions are visited
127 while not compiler.todos.is_empty do
128 var m = compiler.todos.shift
129 modelbuilder.toolcontext.info("Compile {m} ({compiler.seen.length-compiler.todos.length}/{compiler.seen.length})", 3)
130 m.compile_to_c(compiler)
131 end
132 modelbuilder.toolcontext.info("Total methods to compile to C: {compiler.seen.length}", 2)
133
134 end
135
136 # Compile class names (for the class_name and output_class_name methods)
137 protected fun compile_class_names do
138 var v = new_visitor
139 self.header.add_decl("extern const char *class_names[];")
140 v.add("const char *class_names[] = \{")
141 for t in self.runtime_type_analysis.live_types do
142 v.add("\"{t}\", /* {self.classid(t)} */")
143 end
144 v.add("\};")
145 end
146
147 # Return the C symbol associated to a live type runtime
148 # REQUIRE: self.runtime_type_analysis.live_types.has(mtype)
149 fun classid(mtype: MClassType): String
150 do
151 if self.classids.has_key(mtype) then
152 return self.classids[mtype]
153 end
154 print "No classid for {mtype}"
155 abort
156 end
157
158 # Cache for classid
159 protected var classids: HashMap[MClassType, String] = new HashMap[MClassType, String]
160
161 # Declaration of structures the live Nit types
162 # Each live type is generated as an independent C `struct` type.
163 # They only share a common first field `classid` used to implement the polymorphism.
164 # Usualy, all C variables that refers to a Nit object are typed on the abstract struct `val` that contains only the `classid` field.
165 redef fun compile_header_structs do
166 self.header.add_decl("typedef struct \{int classid;\} val; /* general C type representing a Nit instance. */")
167 end
168
169 # Subset of runtime_type_analysis.live_types that contains only primitive types
170 # Used to implement the equal test
171 var live_primitive_types: Array[MClassType] is noinit
172
173 # Add a new todo task
174 fun todo(m: AbstractRuntimeFunction)
175 do
176 if seen.has(m) then return
177 todos.add(m)
178 seen.add(m)
179 end
180
181 # runtime_functions that need to be compiled
182 private var todos: List[AbstractRuntimeFunction] = new List[AbstractRuntimeFunction]
183
184 # runtime_functions already seen (todo or done)
185 private var seen: HashSet[AbstractRuntimeFunction] = new HashSet[AbstractRuntimeFunction]
186
187 # Declare C structures and identifiers for a runtime class
188 fun declare_runtimeclass(mtype: MClassType)
189 do
190 var v = self.header
191 assert self.runtime_type_analysis.live_types.has(mtype)
192 v.add_decl("/* runtime class {mtype} */")
193 var idnum = classids.length
194 var idname = "ID_" + mtype.c_name
195 self.classids[mtype] = idname
196 v.add_decl("#define {idname} {idnum} /* {mtype} */")
197
198 v.add_decl("struct {mtype.c_name} \{")
199 v.add_decl("int classid; /* must be {idname} */")
200
201 if mtype.mclass.name == "NativeArray" then
202 # NativeArrays are just a instance header followed by an array of values
203 v.add_decl("int length;")
204 v.add_decl("{mtype.arguments.first.ctype} values[1];")
205 end
206
207 if mtype.ctype_extern != "val*" then
208 # Is the Nit type is native then the struct is a box with two fields:
209 # * the `classid` to be polymorph
210 # * the `value` that contains the native value.
211 v.add_decl("{mtype.ctype_extern} value;")
212 end
213
214 # Collect all attributes and associate them a field in the structure.
215 # Note: we do not try to optimize the order and helps CC to optimize the client code.
216 for cd in mtype.collect_mclassdefs(self.mainmodule) do
217 for p in cd.intro_mproperties do
218 if not p isa MAttribute then continue
219 var t = p.intro.static_mtype.as(not null)
220 t = t.anchor_to(self.mainmodule, mtype)
221 v.add_decl("{t.ctype} {p.intro.c_name}; /* {p}: {t} */")
222 end
223 end
224 v.add_decl("\};")
225 end
226
227 # Generate the init-instance of a live type (allocate + init-instance)
228 fun generate_init_instance(mtype: MClassType)
229 do
230 assert self.runtime_type_analysis.live_types.has(mtype)
231 assert not mtype.is_c_primitive
232 var v = self.new_visitor
233
234 var is_native_array = mtype.mclass.name == "NativeArray"
235
236 var sig
237 if is_native_array then
238 sig = "int length"
239 else
240 sig = "void"
241 end
242
243 self.header.add_decl("{mtype.ctype} NEW_{mtype.c_name}({sig});")
244 v.add_decl("/* allocate {mtype} */")
245 v.add_decl("{mtype.ctype} NEW_{mtype.c_name}({sig}) \{")
246 var res = v.new_var(mtype)
247 res.is_exact = true
248 if is_native_array then
249 v.add("{res} = nit_alloc(sizeof(struct {mtype.c_name}) + length*sizeof(val*));")
250 v.add("((struct {mtype.c_name}*){res})->length = length;")
251 else
252 v.add("{res} = nit_alloc(sizeof(struct {mtype.c_name}));")
253 end
254 v.add("{res}->classid = {self.classid(mtype)};")
255
256 self.generate_init_attr(v, res, mtype)
257 v.set_finalizer res
258 v.add("return {res};")
259 v.add("\}")
260 end
261
262 fun generate_box_instance(mtype: MClassType)
263 do
264 assert self.runtime_type_analysis.live_types.has(mtype)
265 var v = self.new_visitor
266
267 self.header.add_decl("val* BOX_{mtype.c_name}({mtype.ctype});")
268 v.add_decl("/* allocate {mtype} */")
269 v.add_decl("val* BOX_{mtype.c_name}({mtype.ctype} value) \{")
270 v.add("struct {mtype.c_name}*res = nit_alloc(sizeof(struct {mtype.c_name}));")
271 v.add("res->classid = {self.classid(mtype)};")
272 v.add("res->value = value;")
273 v.add("return (val*)res;")
274 v.add("\}")
275 end
276
277 redef fun new_visitor do return new GlobalCompilerVisitor(self)
278
279 private var collect_types_cache: HashMap[MType, Array[MClassType]] = new HashMap[MType, Array[MClassType]]
280
281 redef fun compile_nitni_structs
282 do
283 self.header.add_decl """
284 struct nitni_instance \{
285 struct nitni_instance *next,
286 *prev; /* adjacent global references in global list */
287 int count; /* number of time this global reference has been marked */
288 val *value;
289 \};"""
290 super
291 end
292 end
293
294 # A visitor on the AST of property definition that generate the C code.
295 # Because of inlining, a visitor can visit more than one property.
296 class GlobalCompilerVisitor
297 super AbstractCompilerVisitor
298
299 redef type COMPILER: GlobalCompiler
300
301 redef fun autobox(value, mtype)
302 do
303 if value.mtype == mtype then
304 return value
305 else if not value.mtype.is_c_primitive and not mtype.is_c_primitive then
306 return value
307 else if not value.mtype.is_c_primitive then
308 return self.new_expr("((struct {mtype.c_name}*){value})->value; /* autounbox from {value.mtype} to {mtype} */", mtype)
309 else if not mtype.is_c_primitive then
310 var valtype = value.mtype.as(MClassType)
311 var res = self.new_var(mtype)
312 if not compiler.runtime_type_analysis.live_types.has(valtype) then
313 self.add("/*no autobox from {value.mtype} to {mtype}: {value.mtype} is not live! */")
314 self.add("PRINT_ERROR(\"Dead code executed!\\n\"); fatal_exit(1);")
315 return res
316 end
317 self.add("{res} = BOX_{valtype.c_name}({value}); /* autobox from {value.mtype} to {mtype} */")
318 return res
319 else if value.mtype.ctype == "void*" and mtype.ctype == "void*" then
320 return value
321 else
322 # Bad things will appen!
323 var res = self.new_var(mtype)
324 self.add("/* {res} left unintialized (cannot convert {value.mtype} to {mtype}) */")
325 self.add("PRINT_ERROR(\"Cast error: Cannot cast %s to %s.\\n\", \"{value.mtype}\", \"{mtype}\"); fatal_exit(1);")
326 return res
327 end
328 end
329
330 redef fun unbox_extern(value, mtype)
331 do
332 if mtype isa MClassType and mtype.mclass.kind == extern_kind and
333 mtype.mclass.name != "NativeString" then
334 var res = self.new_var_extern(mtype)
335 self.add "{res} = ((struct {mtype.c_name}*){value})->value; /* unboxing {value.mtype} */"
336 return res
337 else
338 return value
339 end
340 end
341
342 redef fun box_extern(value, mtype)
343 do
344 if not mtype isa MClassType or mtype.mclass.kind != extern_kind or
345 mtype.mclass.name == "NativeString" then return value
346
347 var valtype = value.mtype.as(MClassType)
348 var res = self.new_var(mtype)
349 if not compiler.runtime_type_analysis.live_types.has(value.mtype.as(MClassType)) then
350 self.add("/*no boxing of {value.mtype}: {value.mtype} is not live! */")
351 self.add("PRINT_ERROR(\"Dead code executed!\\n\"); fatal_exit(1);")
352 return res
353 end
354 self.add("{res} = BOX_{valtype.c_name}({value}); /* boxing {value.mtype} */")
355 return res
356 end
357
358 # The runtime types that are acceptable for a given receiver.
359 fun collect_types(recv: RuntimeVariable): Array[MClassType]
360 do
361 var mtype = recv.mcasttype
362 if recv.is_exact then
363 assert mtype isa MClassType
364 assert self.compiler.runtime_type_analysis.live_types.has(mtype)
365 var types = [mtype]
366 return types
367 end
368 var cache = self.compiler.collect_types_cache
369 if cache.has_key(mtype) then
370 return cache[mtype]
371 end
372 var types = new Array[MClassType]
373 var mainmodule = self.compiler.mainmodule
374 for t in self.compiler.runtime_type_analysis.live_types do
375 if not t.is_subtype(mainmodule, null, mtype) then continue
376 types.add(t)
377 end
378 cache[mtype] = types
379 return types
380 end
381
382 redef fun native_array_def(pname, ret_type, arguments)
383 do
384 var elttype = arguments.first.mtype
385 var recv = "((struct {arguments[0].mcasttype.c_name}*){arguments[0]})->values"
386 if pname == "[]" then
387 self.ret(self.new_expr("{recv}[{arguments[1]}]", ret_type.as(not null)))
388 return true
389 else if pname == "[]=" then
390 self.add("{recv}[{arguments[1]}]={arguments[2]};")
391 return true
392 else if pname == "length" then
393 self.ret(self.new_expr("((struct {arguments[0].mcasttype.c_name}*){arguments[0]})->length", ret_type.as(not null)))
394 return true
395 else if pname == "copy_to" then
396 var recv1 = "((struct {arguments[1].mcasttype.c_name}*){arguments[1]})->values"
397 self.add("memmove({recv1},{recv},{arguments[2]}*sizeof({elttype.ctype}));")
398 return true
399 else if pname == "memmove" then
400 # fun memmove(start: Int, length: Int, dest: NativeArray[E], dest_start: Int) is intern do
401 var recv1 = "((struct {arguments[3].mcasttype.c_name}*){arguments[3]})->values"
402 self.add("memmove({recv1}+{arguments[4]}, {recv}+{arguments[1]}, {arguments[2]}*sizeof({elttype.ctype}));")
403 return true
404 end
405 return false
406 end
407
408 redef fun native_array_instance(elttype: MType, length: RuntimeVariable): RuntimeVariable
409 do
410 var ret_type = mmodule.native_array_type(elttype)
411 ret_type = anchor(ret_type).as(MClassType)
412 length = autobox(length, compiler.mainmodule.int_type)
413 return self.new_expr("NEW_{ret_type.c_name}({length})", ret_type)
414 end
415
416 redef fun native_array_get(nat, i)
417 do
418 var recv = "((struct {nat.mcasttype.c_name}*){nat})->values"
419 var ret_type = nat.mcasttype.as(MClassType).arguments.first
420 return self.new_expr("{recv}[{i}]", ret_type)
421 end
422
423 redef fun native_array_set(nat, i, val)
424 do
425 var recv = "((struct {nat.mcasttype.c_name}*){nat})->values"
426 self.add("{recv}[{i}]={val};")
427 end
428
429 redef fun calloc_array(ret_type, arguments)
430 do
431 self.ret(self.new_expr("NEW_{ret_type.c_name}({arguments[1]})", ret_type))
432 end
433
434 redef fun send(m, args)
435 do
436 var types = self.collect_types(args.first)
437
438 var res: nullable RuntimeVariable
439 var ret = m.intro.msignature.return_mtype
440 if ret == null then
441 res = null
442 else
443 ret = self.resolve_for(ret, args.first)
444 res = self.new_var(ret)
445 end
446
447 self.add("/* send {m} on {args.first.inspect} */")
448 if args.first.mtype.is_c_primitive then
449 var mclasstype = args.first.mtype.as(MClassType)
450 if not self.compiler.runtime_type_analysis.live_types.has(mclasstype) then
451 self.add("/* skip, no method {m} */")
452 return res
453 end
454 var propdef = m.lookup_first_definition(self.compiler.mainmodule, mclasstype)
455 var res2 = self.call(propdef, mclasstype, args)
456 if res != null then self.assign(res, res2.as(not null))
457 return res
458 end
459 var consider_null = not self.compiler.modelbuilder.toolcontext.opt_no_check_null.value or m.name == "==" or m.name == "!="
460 if args.first.mcasttype isa MNullableType or args.first.mcasttype isa MNullType and consider_null then
461 # The reciever is potentially null, so we have to 3 cases: ==, != or NullPointerException
462 self.add("if ({args.first} == NULL) \{ /* Special null case */")
463 if m.name == "==" or m.name == "is_same_instance" then
464 assert res != null
465 if args[1].mcasttype isa MNullableType then
466 self.add("{res} = ({args[1]} == NULL);")
467 else if args[1].mcasttype isa MNullType then
468 self.add("{res} = 1; /* is null */")
469 else
470 self.add("{res} = 0; /* {args[1].inspect} cannot be null */")
471 end
472 else if m.name == "!=" then
473 assert res != null
474 if args[1].mcasttype isa MNullableType then
475 self.add("{res} = ({args[1]} != NULL);")
476 else if args[1].mcasttype isa MNullType then
477 self.add("{res} = 0; /* is null */")
478 else
479 self.add("{res} = 1; /* {args[1].inspect} cannot be null */")
480 end
481 else
482 self.add_abort("Receiver is null")
483 end
484 self.add "\} else"
485 end
486 if types.is_empty then
487 self.add("\{")
488 self.add("/*BUG: no live types for {args.first.inspect} . {m}*/")
489 self.bugtype(args.first)
490 self.add("\}")
491 return res
492 end
493
494 self.add("switch({args.first}->classid) \{")
495 var last = types.last
496 var defaultpropdef: nullable MMethodDef = null
497 for t in types do
498 var propdef = m.lookup_first_definition(self.compiler.mainmodule, t)
499 if propdef.mclassdef.mclass.name == "Object" and not t.is_c_primitive then
500 defaultpropdef = propdef
501 continue
502 end
503 if not self.compiler.hardening and t == last and defaultpropdef == null then
504 self.add("default: /* test {t} */")
505 else
506 self.add("case {self.compiler.classid(t)}: /* test {t} */")
507 end
508 var res2 = self.call(propdef, t, args)
509 if res != null then self.assign(res, res2.as(not null))
510 self.add "break;"
511 end
512 if defaultpropdef != null then
513 self.add("default: /* default is Object */")
514 var res2 = self.call(defaultpropdef, defaultpropdef.mclassdef.bound_mtype, args)
515 if res != null then self.assign(res, res2.as(not null))
516 else if self.compiler.hardening then
517 self.add("default: /* bug */")
518 self.bugtype(args.first)
519 end
520 self.add("\}")
521 return res
522 end
523
524 fun check_valid_reciever(recvtype: MClassType)
525 do
526 if self.compiler.runtime_type_analysis.live_types.has(recvtype) or recvtype.mclass.name == "Object" then return
527 print "{recvtype} is not a live type"
528 abort
529 end
530
531 # Subpart of old call function
532 #
533 # Checks if the type of the receiver is valid and corrects it if necessary
534 private fun get_recvtype(m: MMethodDef, recvtype: MClassType, args: Array[RuntimeVariable]): MClassType
535 do
536 check_valid_reciever(recvtype)
537 return recvtype
538 end
539
540 redef fun call(m, recvtype, args)
541 do
542 var recv_type = get_recvtype(m, recvtype, args)
543 var recv = self.autoadapt(self.autobox(args.first, recvtype), recvtype)
544 if m.is_extern then recv = unbox_extern(recv, recv_type)
545
546 args = args.to_a
547 args.first = recv
548
549 assert args.length == m.msignature.arity + 1 else debug("Invalid arity for {m}. {args.length} arguments given.")
550
551 var rm = new CustomizedRuntimeFunction(m, recvtype)
552 return rm.call(self, args)
553 end
554
555 redef fun supercall(m: MMethodDef, recvtype: MClassType, args: Array[RuntimeVariable]): nullable RuntimeVariable
556 do
557 var types = self.collect_types(args.first)
558
559 var res: nullable RuntimeVariable
560 var ret = m.mproperty.intro.msignature.return_mtype
561 if ret == null then
562 res = null
563 else
564 ret = self.resolve_for(ret, args.first)
565 res = self.new_var(ret)
566 end
567
568 self.add("/* super {m} on {args.first.inspect} */")
569 if args.first.mtype.is_c_primitive then
570 var mclasstype = args.first.mtype.as(MClassType)
571 if not self.compiler.runtime_type_analysis.live_types.has(mclasstype) then
572 self.add("/* skip, no method {m} */")
573 return res
574 end
575 var propdef = m.lookup_next_definition(self.compiler.mainmodule, mclasstype)
576 var res2 = self.call(propdef, mclasstype, args)
577 if res != null then self.assign(res, res2.as(not null))
578 return res
579 end
580
581 if types.is_empty then
582 self.add("\{")
583 self.add("/*BUG: no live types for {args.first.inspect} . {m}*/")
584 self.bugtype(args.first)
585 self.add("\}")
586 return res
587 end
588
589 self.add("switch({args.first}->classid) \{")
590 var last = types.last
591 for t in types do
592 var propdef = m.lookup_next_definition(self.compiler.mainmodule, t)
593 if not self.compiler.hardening and t == last then
594 self.add("default: /* test {t} */")
595 else
596 self.add("case {self.compiler.classid(t)}: /* test {t} */")
597 end
598 var res2 = self.call(propdef, t, args)
599 if res != null then self.assign(res, res2.as(not null))
600 self.add "break;"
601 end
602 if self.compiler.hardening then
603 self.add("default: /* bug */")
604 self.bugtype(args.first)
605 end
606 self.add("\}")
607 return res
608 end
609
610 redef fun adapt_signature(m, args)
611 do
612 var recv = args.first
613 for i in [0..m.msignature.arity[ do
614 var mp = m.msignature.mparameters[i]
615 var t = mp.mtype
616 if mp.is_vararg then
617 t = args[i+1].mtype
618 end
619 t = self.resolve_for(t, recv)
620 args[i+1] = self.autobox(args[i+1], t)
621 end
622 end
623
624 redef fun unbox_signature_extern(m, args)
625 do
626 var recv = args.first
627 for i in [0..m.msignature.arity[ do
628 var mp = m.msignature.mparameters[i]
629 var t = mp.mtype
630 if mp.is_vararg then
631 t = args[i+1].mtype
632 end
633 t = self.resolve_for(t, recv)
634 if m.is_extern then args[i+1] = self.unbox_extern(args[i+1], t)
635 end
636 end
637
638 # FIXME: this is currently buggy since recv is not exact
639 redef fun vararg_instance(mpropdef, recv, varargs, elttype)
640 do
641 elttype = self.resolve_for(elttype, recv)
642 return self.array_instance(varargs, elttype)
643 end
644
645 fun bugtype(recv: RuntimeVariable)
646 do
647 if recv.mtype.is_c_primitive then return
648 self.add("PRINT_ERROR(\"BTD BUG: Dynamic type is %s, static type is %s\\n\", class_names[{recv}->classid], \"{recv.mcasttype}\");")
649 self.add("fatal_exit(1);")
650 end
651
652 redef fun isset_attribute(a, recv)
653 do
654 check_recv_notnull(recv)
655
656 var types = self.collect_types(recv)
657 var res = self.new_var(bool_type)
658
659 if types.is_empty then
660 self.add("/*BUG: no live types for {recv.inspect} . {a}*/")
661 self.bugtype(recv)
662 return res
663 end
664 self.add("/* isset {a} on {recv.inspect} */")
665 self.add("switch({recv}->classid) \{")
666 var last = types.last
667 for t in types do
668 if not self.compiler.hardening and t == last then
669 self.add("default: /*{self.compiler.classid(t)}*/")
670 else
671 self.add("case {self.compiler.classid(t)}:")
672 end
673 var recv2 = self.autoadapt(recv, t)
674 var ta = a.intro.static_mtype.as(not null)
675 ta = self.resolve_for(ta, recv2)
676 var attr = self.new_expr("((struct {t.c_name}*){recv})->{a.intro.c_name}", ta)
677 if not ta isa MNullableType then
678 if not ta.is_c_primitive then
679 self.add("{res} = ({attr} != NULL);")
680 else
681 self.add("{res} = 1; /*NOTYET isset on primitive attributes*/")
682 end
683 end
684 self.add("break;")
685 end
686 if self.compiler.hardening then
687 self.add("default: /* Bug */")
688 self.bugtype(recv)
689 end
690 self.add("\}")
691
692 return res
693 end
694
695 redef fun read_attribute(a, recv)
696 do
697 check_recv_notnull(recv)
698
699 var types = self.collect_types(recv)
700
701 var ret = a.intro.static_mtype.as(not null)
702 ret = self.resolve_for(ret, recv)
703 var res = self.new_var(ret)
704
705 if types.is_empty then
706 self.add("/*BUG: no live types for {recv.inspect} . {a}*/")
707 self.bugtype(recv)
708 return res
709 end
710 self.add("/* read {a} on {recv.inspect} */")
711 self.add("switch({recv}->classid) \{")
712 var last = types.last
713 for t in types do
714 if not self.compiler.hardening and t == last then
715 self.add("default: /*{self.compiler.classid(t)}*/")
716 else
717 self.add("case {self.compiler.classid(t)}:")
718 end
719 var recv2 = self.autoadapt(recv, t)
720 var ta = a.intro.static_mtype.as(not null)
721 ta = self.resolve_for(ta, recv2)
722 var res2 = self.new_expr("((struct {t.c_name}*){recv})->{a.intro.c_name}", ta)
723 if not ta isa MNullableType and not self.compiler.modelbuilder.toolcontext.opt_no_check_attr_isset.value then
724 if not ta.is_c_primitive then
725 self.add("if ({res2} == NULL) \{")
726 self.add_abort("Uninitialized attribute {a.name}")
727 self.add("\}")
728 else
729 self.add("/*NOTYET isset on primitive attributes*/")
730 end
731 end
732 self.assign(res, res2)
733 self.add("break;")
734 end
735 if self.compiler.hardening then
736 self.add("default: /* Bug */")
737 self.bugtype(recv)
738 end
739 self.add("\}")
740
741 return res
742 end
743
744 redef fun write_attribute(a, recv, value)
745 do
746 check_recv_notnull(recv)
747
748 var types = self.collect_types(recv)
749
750 if types.is_empty then
751 self.add("/*BUG: no live types for {recv.inspect} . {a}*/")
752 self.bugtype(recv)
753 return
754 end
755 self.add("/* write {a} on {recv.inspect} */")
756 self.add("switch({recv}->classid) \{")
757 var last = types.last
758 for t in types do
759 if not self.compiler.hardening and t == last then
760 self.add("default: /*{self.compiler.classid(t)}*/")
761 else
762 self.add("case {self.compiler.classid(t)}:")
763 end
764 var recv2 = self.autoadapt(recv, t)
765 var ta = a.intro.static_mtype.as(not null)
766 ta = self.resolve_for(ta, recv2)
767 self.add("((struct {t.c_name}*){recv})->{a.intro.c_name} = {self.autobox(value, ta)};")
768 self.add("break;")
769 end
770 if self.compiler.hardening then
771 self.add("default: /* Bug*/")
772 self.bugtype(recv)
773 end
774 self.add("\}")
775 end
776
777 redef fun init_instance(mtype)
778 do
779 mtype = self.anchor(mtype).as(MClassType)
780 if not self.compiler.runtime_type_analysis.live_types.has(mtype) then
781 debug "problem: {mtype} was detected dead"
782 end
783 var res = self.new_expr("NEW_{mtype.c_name}()", mtype)
784 res.is_exact = true
785 return res
786 end
787
788 redef fun type_test(value, mtype, tag)
789 do
790 mtype = self.anchor(mtype)
791 if not self.compiler.runtime_type_analysis.live_cast_types.has(mtype) then
792 debug "problem: {mtype} was detected cast-dead"
793 abort
794 end
795
796 var types = self.collect_types(value)
797 var res = self.new_var(bool_type)
798
799 self.add("/* isa {mtype} on {value.inspect} */")
800 if value.mtype.is_c_primitive then
801 if value.mtype.is_subtype(self.compiler.mainmodule, null, mtype) then
802 self.add("{res} = 1;")
803 else
804 self.add("{res} = 0;")
805 end
806 return res
807 end
808 if value.mcasttype isa MNullableType or value.mcasttype isa MNullType then
809 self.add("if ({value} == NULL) \{")
810 if mtype isa MNullableType then
811 self.add("{res} = 1; /* isa {mtype} */")
812 else
813 self.add("{res} = 0; /* not isa {mtype} */")
814 end
815 self.add("\} else ")
816 end
817 self.add("switch({value}->classid) \{")
818 for t in types do
819 if t.is_subtype(self.compiler.mainmodule, null, mtype) then
820 self.add("case {self.compiler.classid(t)}: /* {t} */")
821 end
822 end
823 self.add("{res} = 1;")
824 self.add("break;")
825 self.add("default:")
826 self.add("{res} = 0;")
827 self.add("\}")
828
829 return res
830 end
831
832 redef fun is_same_type_test(value1, value2)
833 do
834 var res = self.new_var(bool_type)
835 if not value2.mtype.is_c_primitive then
836 if not value1.mtype.is_c_primitive then
837 self.add "{res} = {value1}->classid == {value2}->classid;"
838 else
839 self.add "{res} = {self.compiler.classid(value1.mtype.as(MClassType))} == {value2}->classid;"
840 end
841 else
842 if not value1.mtype.is_c_primitive then
843 self.add "{res} = {value1}->classid == {self.compiler.classid(value2.mtype.as(MClassType))};"
844 else if value1.mcasttype == value2.mcasttype then
845 self.add "{res} = 1;"
846 else
847 self.add "{res} = 0;"
848 end
849 end
850 return res
851 end
852
853 redef fun class_name_string(value)
854 do
855 var res = self.get_name("var_class_name")
856 self.add_decl("const char* {res};")
857 if not value.mtype.is_c_primitive then
858 self.add "{res} = class_names[{value}->classid];"
859 else
860 self.add "{res} = class_names[{self.compiler.classid(value.mtype.as(MClassType))}];"
861 end
862 return res
863 end
864
865 redef fun equal_test(value1, value2)
866 do
867 var res = self.new_var(bool_type)
868 if value2.mtype.is_c_primitive and not value1.mtype.is_c_primitive then
869 var tmp = value1
870 value1 = value2
871 value2 = tmp
872 end
873 if value1.mtype.is_c_primitive then
874 if value2.mtype == value1.mtype then
875 self.add("{res} = {value1} == {value2};")
876 else if value2.mtype.is_c_primitive then
877 self.add("{res} = 0; /* incompatible types {value1.mtype} vs. {value2.mtype}*/")
878 else
879 var mtype1 = value1.mtype.as(MClassType)
880 self.add("{res} = ({value2} != NULL) && ({value2}->classid == {self.compiler.classid(mtype1)});")
881 self.add("if ({res}) \{")
882 self.add("{res} = ({self.autobox(value2, value1.mtype)} == {value1});")
883 self.add("\}")
884 end
885 else
886 var s = new Array[String]
887 for t in self.compiler.live_primitive_types do
888 if not t.is_subtype(self.compiler.mainmodule, null, value1.mcasttype) then continue
889 if not t.is_subtype(self.compiler.mainmodule, null, value2.mcasttype) then continue
890 s.add "({value1}->classid == {self.compiler.classid(t)} && ((struct {t.c_name}*){value1})->value == ((struct {t.c_name}*){value2})->value)"
891 end
892
893 if self.compiler.mainmodule.model.get_mclasses_by_name("Pointer") != null then
894 var pointer_type = self.compiler.mainmodule.pointer_type
895 if value1.mcasttype.is_subtype(self.compiler.mainmodule, null, pointer_type) or
896 value2.mcasttype.is_subtype(self.compiler.mainmodule, null, pointer_type) then
897 s.add "(((struct {pointer_type.c_name}*){value1})->value == ((struct {pointer_type.c_name}*){value2})->value)"
898 end
899 end
900
901 if s.is_empty then
902 self.add("{res} = {value1} == {value2};")
903 else
904 self.add("{res} = {value1} == {value2} || ({value1} != NULL && {value2} != NULL && {value1}->classid == {value2}->classid && ({s.join(" || ")}));")
905 end
906 end
907 return res
908 end
909
910 redef fun array_instance(array, elttype)
911 do
912 elttype = self.anchor(elttype)
913 var arraytype = mmodule.array_type(elttype)
914 var res = self.init_instance(arraytype)
915 self.add("\{ /* {res} = array_instance Array[{elttype}] */")
916 var nat = self.new_var(mmodule.native_array_type(elttype))
917 nat.is_exact = true
918 self.add("{nat} = NEW_{nat.mtype.c_name}({array.length});")
919 for i in [0..array.length[ do
920 var r = self.autobox(array[i], elttype)
921 self.add("((struct {nat.mtype.c_name}*) {nat})->values[{i}] = {r};")
922 end
923 var length = self.int_instance(array.length)
924 self.send(self.get_property("with_native", arraytype), [res, nat, length])
925 self.add("\}")
926 return res
927 end
928 end
929
930 # A runtime function customized on a specific monomrph receiver type
931 private class CustomizedRuntimeFunction
932 super AbstractRuntimeFunction
933
934 redef type COMPILER: GlobalCompiler
935 redef type VISITOR: GlobalCompilerVisitor
936
937 # The considered reciever
938 # (usually is a live type but no strong guarantee)
939 var recv: MClassType
940
941 redef fun build_c_name
942 do
943 var res = self.c_name_cache
944 if res != null then return res
945 if self.mmethoddef.mclassdef.bound_mtype == self.recv then
946 res = self.mmethoddef.c_name
947 else
948 res = "{mmethoddef.c_name}__{recv.c_name}"
949 end
950 self.c_name_cache = res
951 return res
952 end
953
954 # used in the compiler worklist
955 redef fun ==(o)
956 do
957 if not o isa CustomizedRuntimeFunction then return false
958 if self.mmethoddef != o.mmethoddef then return false
959 if self.recv != o.recv then return false
960 return true
961 end
962
963 # used in the compiler work-list
964 redef fun hash do return self.mmethoddef.hash + self.recv.hash
965
966 redef fun to_s
967 do
968 if self.mmethoddef.mclassdef.bound_mtype == self.recv then
969 return self.mmethoddef.to_s
970 else
971 return "{self.mmethoddef}@{self.recv}"
972 end
973 end
974
975 # compile the code customized for the reciever
976 redef fun compile_to_c(compiler)
977 do
978 var recv = self.recv
979 var mmethoddef = self.mmethoddef
980 if not recv.is_subtype(compiler.mainmodule, null, mmethoddef.mclassdef.bound_mtype) then
981 print("problem: why do we compile {self} for {recv}?")
982 abort
983 end
984
985 var v = compiler.new_visitor
986 var selfvar = new RuntimeVariable("self", recv, recv)
987 if compiler.runtime_type_analysis.live_types.has(recv) then
988 selfvar.is_exact = true
989 end
990 var arguments = new Array[RuntimeVariable]
991 var frame = new StaticFrame(v, mmethoddef, recv, arguments)
992 v.frame = frame
993
994 var sig = new FlatBuffer
995 var comment = new FlatBuffer
996 var ret = mmethoddef.msignature.return_mtype
997 if ret != null then
998 ret = v.resolve_for(ret, selfvar)
999 sig.append("{ret.ctype} ")
1000 else
1001 sig.append("void ")
1002 end
1003 sig.append(self.c_name)
1004 sig.append("({recv.ctype} {selfvar}")
1005 comment.append("(self: {recv}")
1006 arguments.add(selfvar)
1007 for i in [0..mmethoddef.msignature.arity[ do
1008 var mp = mmethoddef.msignature.mparameters[i]
1009 var mtype = mp.mtype
1010 if mp.is_vararg then
1011 mtype = v.mmodule.array_type(mtype)
1012 end
1013 mtype = v.resolve_for(mtype, selfvar)
1014 comment.append(", {mtype}")
1015 sig.append(", {mtype.ctype} p{i}")
1016 var argvar = new RuntimeVariable("p{i}", mtype, mtype)
1017 arguments.add(argvar)
1018 end
1019 sig.append(")")
1020 comment.append(")")
1021 if ret != null then
1022 comment.append(": {ret}")
1023 end
1024 compiler.header.add_decl("{sig};")
1025
1026 v.add_decl("/* method {self} for {comment} */")
1027 v.add_decl("{sig} \{")
1028 #v.add("printf(\"method {self} for {comment}\\n\");")
1029 if ret != null then
1030 frame.returnvar = v.new_var(ret)
1031 end
1032 frame.returnlabel = v.get_name("RET_LABEL")
1033
1034 mmethoddef.compile_inside_to_c(v, arguments)
1035
1036 v.add("{frame.returnlabel.as(not null)}:;")
1037 if ret != null then
1038 v.add("return {frame.returnvar.as(not null)};")
1039 end
1040 v.add("\}")
1041 if not self.c_name.has_substring("VIRTUAL", 0) then compiler.names[self.c_name] = "{mmethoddef.mclassdef.mmodule.name}::{mmethoddef.mclassdef.mclass.name}::{mmethoddef.mproperty.name} ({mmethoddef.location.file.filename}:{mmethoddef.location.line_start})"
1042 end
1043
1044 redef fun call(v: VISITOR, arguments: Array[RuntimeVariable]): nullable RuntimeVariable
1045 do
1046 var ret = self.mmethoddef.msignature.return_mtype
1047 if ret != null then
1048 ret = v.resolve_for(ret, arguments.first)
1049 end
1050 if self.mmethoddef.can_inline(v) then
1051 var frame = new StaticFrame(v, self.mmethoddef, self.recv, arguments)
1052 frame.returnlabel = v.get_name("RET_LABEL")
1053 if ret != null then
1054 frame.returnvar = v.new_var(ret)
1055 end
1056 var old_frame = v.frame
1057 v.frame = frame
1058 v.add("\{ /* Inline {self} ({arguments.join(",")}) */")
1059 self.mmethoddef.compile_inside_to_c(v, arguments)
1060 v.add("{frame.returnlabel.as(not null)}:(void)0;")
1061 v.add("\}")
1062 v.frame = old_frame
1063 return frame.returnvar
1064 end
1065 v.adapt_signature(self.mmethoddef, arguments)
1066 v.compiler.todo(self)
1067 if ret == null then
1068 v.add("{self.c_name}({arguments.join(",")});")
1069 return null
1070 else
1071 var res = v.new_var(ret)
1072 v.add("{res} = {self.c_name}({arguments.join(",")});")
1073 return res
1074 end
1075 end
1076 end
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