1 # This file is part of NIT ( http://www.nitlanguage.org ).
3 # Licensed under the Apache License, Version 2.0 (the "License");
4 # you may not use this file except in compliance with the License.
5 # You may obtain a copy of the License at
7 # http://www.apache.org/licenses/LICENSE-2.0
9 # Unless required by applicable law or agreed to in writing, software
10 # distributed under the License is distributed on an "AS IS" BASIS,
11 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 # See the License for the specific language governing permissions and
13 # limitations under the License.
15 # Separate compilation of a Nit program
16 module separate_compiler
18 import abstract_compiler
20 import rapid_type_analysis
22 # Add separate compiler specific options
23 redef class ToolContext
25 var opt_separate
: OptionBool = new OptionBool("Use separate compilation", "--separate")
27 var opt_no_inline_intern
: OptionBool = new OptionBool("Do not inline call to intern methods", "--no-inline-intern")
28 # --no-union-attribute
29 var opt_no_union_attribute
: OptionBool = new OptionBool("Put primitive attibutes in a box instead of an union", "--no-union-attribute")
30 # --no-shortcut-equate
31 var opt_no_shortcut_equate
: OptionBool = new OptionBool("Always call == in a polymorphic way", "--no-shortcut-equal")
32 # --inline-coloring-numbers
33 var opt_inline_coloring_numbers
: OptionBool = new OptionBool("Inline colors and ids (semi-global)", "--inline-coloring-numbers")
34 # --inline-some-methods
35 var opt_inline_some_methods
: OptionBool = new OptionBool("Allow the separate compiler to inline some methods (semi-global)", "--inline-some-methods")
36 # --direct-call-monomorph
37 var opt_direct_call_monomorph
: OptionBool = new OptionBool("Allow the separate compiler to direct call monomorph sites (semi-global)", "--direct-call-monomorph")
39 var opt_skip_dead_methods
= new OptionBool("Do not compile dead methods (semi-global)", "--skip-dead-methods")
41 var opt_semi_global
= new OptionBool("Enable all semi-global optimizations", "--semi-global")
42 # --no-colo-dead-methods
43 var opt_colo_dead_methods
= new OptionBool("Force colorization of dead methods", "--colo-dead-methods")
45 var opt_tables_metrics
: OptionBool = new OptionBool("Enable static size measuring of tables used for vft, typing and resolution", "--tables-metrics")
50 self.option_context
.add_option
(self.opt_separate
)
51 self.option_context
.add_option
(self.opt_no_inline_intern
)
52 self.option_context
.add_option
(self.opt_no_union_attribute
)
53 self.option_context
.add_option
(self.opt_no_shortcut_equate
)
54 self.option_context
.add_option
(self.opt_inline_coloring_numbers
, opt_inline_some_methods
, opt_direct_call_monomorph
, opt_skip_dead_methods
, opt_semi_global
)
55 self.option_context
.add_option
(self.opt_colo_dead_methods
)
56 self.option_context
.add_option
(self.opt_tables_metrics
)
59 redef fun process_options
(args
)
64 if tc
.opt_semi_global
.value
then
65 tc
.opt_inline_coloring_numbers
.value
= true
66 tc
.opt_inline_some_methods
.value
= true
67 tc
.opt_direct_call_monomorph
.value
= true
68 tc
.opt_skip_dead_methods
.value
= true
72 var separate_compiler_phase
= new SeparateCompilerPhase(self, null)
75 class SeparateCompilerPhase
77 redef fun process_mainmodule
(mainmodule
, given_mmodules
) do
78 if not toolcontext
.opt_separate
.value
then return
80 var modelbuilder
= toolcontext
.modelbuilder
81 var analysis
= modelbuilder
.do_rapid_type_analysis
(mainmodule
)
82 modelbuilder
.run_separate_compiler
(mainmodule
, analysis
)
86 redef class ModelBuilder
87 fun run_separate_compiler
(mainmodule
: MModule, runtime_type_analysis
: nullable RapidTypeAnalysis)
90 self.toolcontext
.info
("*** GENERATING C ***", 1)
92 var compiler
= new SeparateCompiler(mainmodule
, self, runtime_type_analysis
)
93 compiler
.compile_header
95 # compile class structures
96 self.toolcontext
.info
("Property coloring", 2)
97 compiler
.new_file
("{mainmodule.name}.classes")
98 compiler
.do_property_coloring
99 for m
in mainmodule
.in_importation
.greaters
do
100 for mclass
in m
.intro_mclasses
do
101 if mclass
.kind
== abstract_kind
or mclass
.kind
== interface_kind
then continue
102 compiler
.compile_class_to_c
(mclass
)
106 # The main function of the C
107 compiler
.new_file
("{mainmodule.name}.main")
108 compiler
.compile_main_function
111 for m
in mainmodule
.in_importation
.greaters
do
112 self.toolcontext
.info
("Generate C for module {m}", 2)
113 compiler
.new_file
("{m.name}.sep")
114 compiler
.compile_module_to_c
(m
)
117 # compile live & cast type structures
118 self.toolcontext
.info
("Type coloring", 2)
119 compiler
.new_file
("{mainmodule.name}.types")
120 var mtypes
= compiler
.do_type_coloring
122 compiler
.compile_type_to_c
(t
)
124 # compile remaining types structures (useless but needed for the symbol resolution at link-time)
125 for t
in compiler
.undead_types
do
126 if mtypes
.has
(t
) then continue
127 compiler
.compile_type_to_c
(t
)
130 compiler
.display_stats
133 self.toolcontext
.info
("*** END GENERATING C: {time1-time0} ***", 2)
134 write_and_make
(compiler
)
137 # Count number of invocations by VFT
138 private var nb_invok_by_tables
= 0
139 # Count number of invocations by direct call
140 private var nb_invok_by_direct
= 0
141 # Count number of invocations by inlining
142 private var nb_invok_by_inline
= 0
145 # Singleton that store the knowledge about the separate compilation process
146 class SeparateCompiler
147 super AbstractCompiler
149 redef type VISITOR: SeparateCompilerVisitor
151 # The result of the RTA (used to know live types and methods)
152 var runtime_type_analysis
: nullable RapidTypeAnalysis
154 private var undead_types
: Set[MType] = new HashSet[MType]
155 private var live_unresolved_types
: Map[MClassDef, Set[MType]] = new HashMap[MClassDef, HashSet[MType]]
157 private var type_ids
: Map[MType, Int]
158 private var type_colors
: Map[MType, Int]
159 private var opentype_colors
: Map[MType, Int]
160 protected var method_colors
: Map[PropertyLayoutElement, Int]
161 protected var attr_colors
: Map[MAttribute, Int]
163 init(mainmodule
: MModule, mmbuilder
: ModelBuilder, runtime_type_analysis
: nullable RapidTypeAnalysis) do
164 super(mainmodule
, mmbuilder
)
165 var file
= new_file
("nit.common")
166 self.header
= new CodeWriter(file
)
167 self.runtime_type_analysis
= runtime_type_analysis
168 self.compile_box_kinds
171 redef fun compile_header_structs
do
172 self.header
.add_decl
("typedef void(*nitmethod_t)(void); /* general C type representing a Nit method. */")
173 self.compile_header_attribute_structs
174 self.header
.add_decl
("struct class \{ int box_kind; nitmethod_t vft[]; \}; /* general C type representing a Nit class. */")
176 # With resolution_table_table, all live type resolution are stored in a big table: resolution_table
177 self.header
.add_decl
("struct type \{ int id; const char *name; int color; short int is_nullable; const struct types *resolution_table; int table_size; int type_table[]; \}; /* general C type representing a Nit type. */")
178 self.header
.add_decl
("struct instance \{ const struct type *type; const struct class *class; nitattribute_t attrs[]; \}; /* general C type representing a Nit instance. */")
179 self.header
.add_decl
("struct types \{ int dummy; const struct type *types[]; \}; /* a list types (used for vts, fts and unresolved lists). */")
180 self.header
.add_decl
("typedef struct instance val; /* general C type representing a Nit instance. */")
183 fun compile_header_attribute_structs
185 if modelbuilder
.toolcontext
.opt_no_union_attribute
.value
then
186 self.header
.add_decl
("typedef void* nitattribute_t; /* general C type representing a Nit attribute. */")
188 self.header
.add_decl
("typedef union \{")
189 self.header
.add_decl
("void* val;")
190 for c
, v
in self.box_kinds
do
191 var t
= c
.mclass_type
192 self.header
.add_decl
("{t.ctype} {t.ctypename};")
194 self.header
.add_decl
("\} nitattribute_t; /* general C type representing a Nit attribute. */")
198 fun compile_box_kinds
200 # Collect all bas box class
201 # FIXME: this is not completely fine with a separate compilation scheme
202 for classname
in ["Int", "Bool", "Char", "Float", "NativeString", "Pointer"] do
203 var classes
= self.mainmodule
.model
.get_mclasses_by_name
(classname
)
204 if classes
== null then continue
205 assert classes
.length
== 1 else print classes
.join
(", ")
206 self.box_kinds
[classes
.first
] = self.box_kinds
.length
+ 1
210 var box_kinds
= new HashMap[MClass, Int]
212 fun box_kind_of
(mclass
: MClass): Int
214 if mclass
.mclass_type
.ctype
== "val*" then
216 else if mclass
.kind
== extern_kind
then
217 return self.box_kinds
[self.mainmodule
.get_primitive_class
("Pointer")]
219 return self.box_kinds
[mclass
]
224 fun compile_color_consts
(colors
: Map[Object, Int]) do
226 for m
, c
in colors
do
227 compile_color_const
(v
, m
, c
)
231 fun compile_color_const
(v
: SeparateCompilerVisitor, m
: Object, color
: Int) do
232 if color_consts_done
.has
(m
) then return
233 if m
isa MProperty then
234 if modelbuilder
.toolcontext
.opt_inline_coloring_numbers
.value
then
235 self.provide_declaration
(m
.const_color
, "#define {m.const_color} {color}")
237 self.provide_declaration
(m
.const_color
, "extern const int {m.const_color};")
238 v
.add
("const int {m.const_color} = {color};")
240 else if m
isa MPropDef then
241 if modelbuilder
.toolcontext
.opt_inline_coloring_numbers
.value
then
242 self.provide_declaration
(m
.const_color
, "#define {m.const_color} {color}")
244 self.provide_declaration
(m
.const_color
, "extern const int {m.const_color};")
245 v
.add
("const int {m.const_color} = {color};")
247 else if m
isa MType then
248 if modelbuilder
.toolcontext
.opt_inline_coloring_numbers
.value
then
249 self.provide_declaration
(m
.const_color
, "#define {m.const_color} {color}")
251 self.provide_declaration
(m
.const_color
, "extern const int {m.const_color};")
252 v
.add
("const int {m.const_color} = {color};")
255 color_consts_done
.add
(m
)
258 private var color_consts_done
= new HashSet[Object]
260 # colorize classe properties
261 fun do_property_coloring
do
263 var rta
= runtime_type_analysis
266 var mclasses
= new HashSet[MClass].from
(modelbuilder
.model
.mclasses
)
267 var poset
= mainmodule
.flatten_mclass_hierarchy
268 var colorer
= new POSetColorer[MClass]
269 colorer
.colorize
(poset
)
271 # The dead methods, still need to provide a dead color symbol
272 var dead_methods
= new Array[MMethod]
274 # lookup properties to build layout with
275 var mmethods
= new HashMap[MClass, Set[PropertyLayoutElement]]
276 var mattributes
= new HashMap[MClass, Set[MAttribute]]
277 for mclass
in mclasses
do
278 mmethods
[mclass
] = new HashSet[PropertyLayoutElement]
279 mattributes
[mclass
] = new HashSet[MAttribute]
280 for mprop
in self.mainmodule
.properties
(mclass
) do
281 if mprop
isa MMethod then
282 if not modelbuilder
.toolcontext
.opt_colo_dead_methods
.value
and rta
!= null and not rta
.live_methods
.has
(mprop
) then
283 dead_methods
.add
(mprop
)
286 mmethods
[mclass
].add
(mprop
)
287 else if mprop
isa MAttribute then
288 mattributes
[mclass
].add
(mprop
)
293 # Collect all super calls (dead or not)
294 var all_super_calls
= new HashSet[MMethodDef]
295 for mmodule
in self.mainmodule
.in_importation
.greaters
do
296 for mclassdef
in mmodule
.mclassdefs
do
297 for mpropdef
in mclassdef
.mpropdefs
do
298 if not mpropdef
isa MMethodDef then continue
299 if mpropdef
.has_supercall
then
300 all_super_calls
.add
(mpropdef
)
306 # lookup super calls and add it to the list of mmethods to build layout with
309 super_calls
= rta
.live_super_sends
311 super_calls
= all_super_calls
314 for mmethoddef
in super_calls
do
315 var mclass
= mmethoddef
.mclassdef
.mclass
316 mmethods
[mclass
].add
(mmethoddef
)
317 for descendant
in mclass
.in_hierarchy
(self.mainmodule
).smallers
do
318 mmethods
[descendant
].add
(mmethoddef
)
323 var meth_colorer
= new POSetBucketsColorer[MClass, PropertyLayoutElement](poset
, colorer
.conflicts
)
324 method_colors
= meth_colorer
.colorize
(mmethods
)
325 method_tables
= build_method_tables
(mclasses
, super_calls
)
326 compile_color_consts
(method_colors
)
328 # attribute null color to dead methods and supercalls
329 for mproperty
in dead_methods
do
330 compile_color_const
(new_visitor
, mproperty
, -1)
332 for mpropdef
in all_super_calls
do
333 if super_calls
.has
(mpropdef
) then continue
334 compile_color_const
(new_visitor
, mpropdef
, -1)
337 # attributes coloration
338 var attr_colorer
= new POSetBucketsColorer[MClass, MAttribute](poset
, colorer
.conflicts
)
339 attr_colors
= attr_colorer
.colorize
(mattributes
)
340 attr_tables
= build_attr_tables
(mclasses
)
341 compile_color_consts
(attr_colors
)
344 fun build_method_tables
(mclasses
: Set[MClass], super_calls
: Set[MMethodDef]): Map[MClass, Array[nullable MPropDef]] do
345 var tables
= new HashMap[MClass, Array[nullable MPropDef]]
346 for mclass
in mclasses
do
347 var table
= new Array[nullable MPropDef]
348 var supercalls
= new List[MMethodDef]
350 # first, fill table from parents by reverse linearization order
351 var parents
= new Array[MClass]
352 if mainmodule
.flatten_mclass_hierarchy
.has
(mclass
) then
353 parents
= mclass
.in_hierarchy
(mainmodule
).greaters
.to_a
354 self.mainmodule
.linearize_mclasses
(parents
)
357 for parent
in parents
do
358 if parent
== mclass
then continue
359 for mproperty
in self.mainmodule
.properties
(parent
) do
360 if not mproperty
isa MMethod then continue
361 if not method_colors
.has_key
(mproperty
) then continue
362 var color
= method_colors
[mproperty
]
363 if table
.length
<= color
then
364 for i
in [table
.length
.. color
[ do
368 for mpropdef
in mproperty
.mpropdefs
do
369 if mpropdef
.mclassdef
.mclass
== parent
then
370 table
[color
] = mpropdef
375 # lookup for super calls in super classes
376 for mmethoddef
in super_calls
do
377 for mclassdef
in parent
.mclassdefs
do
378 if mclassdef
.mpropdefs
.has
(mmethoddef
) then
379 supercalls
.add
(mmethoddef
)
385 # then override with local properties
386 for mproperty
in self.mainmodule
.properties
(mclass
) do
387 if not mproperty
isa MMethod then continue
388 if not method_colors
.has_key
(mproperty
) then continue
389 var color
= method_colors
[mproperty
]
390 if table
.length
<= color
then
391 for i
in [table
.length
.. color
[ do
395 for mpropdef
in mproperty
.mpropdefs
do
396 if mpropdef
.mclassdef
.mclass
== mclass
then
397 table
[color
] = mpropdef
402 # lookup for super calls in local class
403 for mmethoddef
in super_calls
do
404 for mclassdef
in mclass
.mclassdefs
do
405 if mclassdef
.mpropdefs
.has
(mmethoddef
) then
406 supercalls
.add
(mmethoddef
)
410 # insert super calls in table according to receiver
411 for supercall
in supercalls
do
412 var color
= method_colors
[supercall
]
413 if table
.length
<= color
then
414 for i
in [table
.length
.. color
[ do
418 var mmethoddef
= supercall
.lookup_next_definition
(self.mainmodule
, mclass
.intro
.bound_mtype
)
419 table
[color
] = mmethoddef
421 tables
[mclass
] = table
426 fun build_attr_tables
(mclasses
: Set[MClass]): Map[MClass, Array[nullable MPropDef]] do
427 var tables
= new HashMap[MClass, Array[nullable MPropDef]]
428 for mclass
in mclasses
do
429 var table
= new Array[nullable MPropDef]
430 # first, fill table from parents by reverse linearization order
431 var parents
= new Array[MClass]
432 if mainmodule
.flatten_mclass_hierarchy
.has
(mclass
) then
433 parents
= mclass
.in_hierarchy
(mainmodule
).greaters
.to_a
434 self.mainmodule
.linearize_mclasses
(parents
)
436 for parent
in parents
do
437 if parent
== mclass
then continue
438 for mproperty
in self.mainmodule
.properties
(parent
) do
439 if not mproperty
isa MAttribute then continue
440 var color
= attr_colors
[mproperty
]
441 if table
.length
<= color
then
442 for i
in [table
.length
.. color
[ do
446 for mpropdef
in mproperty
.mpropdefs
do
447 if mpropdef
.mclassdef
.mclass
== parent
then
448 table
[color
] = mpropdef
454 # then override with local properties
455 for mproperty
in self.mainmodule
.properties
(mclass
) do
456 if not mproperty
isa MAttribute then continue
457 var color
= attr_colors
[mproperty
]
458 if table
.length
<= color
then
459 for i
in [table
.length
.. color
[ do
463 for mpropdef
in mproperty
.mpropdefs
do
464 if mpropdef
.mclassdef
.mclass
== mclass
then
465 table
[color
] = mpropdef
469 tables
[mclass
] = table
474 # colorize live types of the program
475 private fun do_type_coloring
: POSet[MType] do
476 # Collect types to colorize
477 var live_types
= runtime_type_analysis
.live_types
478 var live_cast_types
= runtime_type_analysis
.live_cast_types
479 var mtypes
= new HashSet[MType]
480 mtypes
.add_all
(live_types
)
481 mtypes
.add_all
(live_cast_types
)
482 for c
in self.box_kinds
.keys
do
483 mtypes
.add
(c
.mclass_type
)
487 var poset
= poset_from_mtypes
(mtypes
)
488 var colorer
= new POSetColorer[MType]
489 colorer
.colorize
(poset
)
490 type_ids
= colorer
.ids
491 type_colors
= colorer
.colors
492 type_tables
= build_type_tables
(poset
)
494 # VT and FT are stored with other unresolved types in the big resolution_tables
495 self.compile_resolution_tables
(mtypes
)
500 private fun poset_from_mtypes
(mtypes
: Set[MType]): POSet[MType] do
501 var poset
= new POSet[MType]
505 if e
== o
then continue
506 if e
.is_subtype
(mainmodule
, null, o
) then
515 fun build_type_tables
(mtypes
: POSet[MType]): Map[MType, Array[nullable MType]] do
516 var tables
= new HashMap[MType, Array[nullable MType]]
517 for mtype
in mtypes
do
518 var table
= new Array[nullable MType]
519 for sup
in mtypes
[mtype
].greaters
do
520 var color
= type_colors
[sup
]
521 if table
.length
<= color
then
522 for i
in [table
.length
.. color
[ do
528 tables
[mtype
] = table
533 protected fun compile_resolution_tables
(mtypes
: Set[MType]) do
534 # resolution_tables is used to perform a type resolution at runtime in O(1)
536 # During the visit of the body of classes, live_unresolved_types are collected
538 # Collect all live_unresolved_types (visited in the body of classes)
540 # Determinate fo each livetype what are its possible requested anchored types
541 var mtype2unresolved
= new HashMap[MClassType, Set[MType]]
542 for mtype
in self.runtime_type_analysis
.live_types
do
543 var set
= new HashSet[MType]
544 for cd
in mtype
.collect_mclassdefs
(self.mainmodule
) do
545 if self.live_unresolved_types
.has_key
(cd
) then
546 set
.add_all
(self.live_unresolved_types
[cd
])
549 mtype2unresolved
[mtype
] = set
552 # Compute the table layout with the prefered method
553 var colorer
= new BucketsColorer[MType, MType]
554 opentype_colors
= colorer
.colorize
(mtype2unresolved
)
555 resolution_tables
= self.build_resolution_tables
(mtype2unresolved
)
557 # Compile a C constant for each collected unresolved type.
558 # Either to a color, or to -1 if the unresolved type is dead (no live receiver can require it)
559 var all_unresolved
= new HashSet[MType]
560 for t
in self.live_unresolved_types
.values
do
561 all_unresolved
.add_all
(t
)
563 var all_unresolved_types_colors
= new HashMap[MType, Int]
564 for t
in all_unresolved
do
565 if opentype_colors
.has_key
(t
) then
566 all_unresolved_types_colors
[t
] = opentype_colors
[t
]
568 all_unresolved_types_colors
[t
] = -1
571 self.compile_color_consts
(all_unresolved_types_colors
)
574 #for k, v in unresolved_types_tables.as(not null) do
575 # print "{k}: {v.join(", ")}"
580 fun build_resolution_tables
(elements
: Map[MClassType, Set[MType]]): Map[MClassType, Array[nullable MType]] do
581 var tables
= new HashMap[MClassType, Array[nullable MType]]
582 for mclasstype
, mtypes
in elements
do
583 var table
= new Array[nullable MType]
584 for mtype
in mtypes
do
585 var color
= opentype_colors
[mtype
]
586 if table
.length
<= color
then
587 for i
in [table
.length
.. color
[ do
593 tables
[mclasstype
] = table
598 # Separately compile all the method definitions of the module
599 fun compile_module_to_c
(mmodule
: MModule)
601 var old_module
= self.mainmodule
602 self.mainmodule
= mmodule
603 for cd
in mmodule
.mclassdefs
do
604 for pd
in cd
.mpropdefs
do
605 if not pd
isa MMethodDef then continue
606 var rta
= runtime_type_analysis
607 if modelbuilder
.toolcontext
.opt_skip_dead_methods
.value
and rta
!= null and not rta
.live_methoddefs
.has
(pd
) then continue
608 #print "compile {pd} @ {cd} @ {mmodule}"
609 var r
= pd
.separate_runtime_function
611 var r2
= pd
.virtual_runtime_function
612 r2
.compile_to_c
(self)
615 self.mainmodule
= old_module
618 # Globaly compile the type structure of a live type
619 fun compile_type_to_c
(mtype
: MType)
621 assert not mtype
.need_anchor
622 var is_live
= mtype
isa MClassType and runtime_type_analysis
.live_types
.has
(mtype
)
623 var is_cast_live
= runtime_type_analysis
.live_cast_types
.has
(mtype
)
624 var c_name
= mtype
.c_name
625 var v
= new SeparateCompilerVisitor(self)
626 v
.add_decl
("/* runtime type {mtype} */")
628 # extern const struct type_X
629 self.provide_declaration
("type_{c_name}", "extern const struct type type_{c_name};")
631 # const struct type_X
632 v
.add_decl
("const struct type type_{c_name} = \{")
634 # type id (for cast target)
636 v
.add_decl
("{type_ids[mtype]},")
638 v
.add_decl
("-1, /*CAST DEAD*/")
642 v
.add_decl
("\"{mtype}\
", /* class_name_string */")
644 # type color (for cast target)
646 v
.add_decl
("{type_colors[mtype]},")
648 v
.add_decl
("-1, /*CAST DEAD*/")
652 if mtype
isa MNullableType then
658 # resolution table (for receiver)
660 var mclass_type
= mtype
661 if mclass_type
isa MNullableType then mclass_type
= mclass_type
.mtype
662 assert mclass_type
isa MClassType
663 if resolution_tables
[mclass_type
].is_empty
then
664 v
.add_decl
("NULL, /*NO RESOLUTIONS*/")
666 compile_type_resolution_table
(mtype
)
667 v
.require_declaration
("resolution_table_{c_name}")
668 v
.add_decl
("&resolution_table_{c_name},")
671 v
.add_decl
("NULL, /*DEAD*/")
674 # cast table (for receiver)
676 v
.add_decl
("{self.type_tables[mtype].length},")
678 for stype
in self.type_tables
[mtype
] do
679 if stype
== null then
680 v
.add_decl
("-1, /* empty */")
682 v
.add_decl
("{type_ids[stype]}, /* {stype} */")
687 v
.add_decl
("0, \{\}, /*DEAD TYPE*/")
692 fun compile_type_resolution_table
(mtype
: MType) do
694 var mclass_type
: MClassType
695 if mtype
isa MNullableType then
696 mclass_type
= mtype
.mtype
.as(MClassType)
698 mclass_type
= mtype
.as(MClassType)
701 # extern const struct resolution_table_X resolution_table_X
702 self.provide_declaration
("resolution_table_{mtype.c_name}", "extern const struct types resolution_table_{mtype.c_name};")
704 # const struct fts_table_X fts_table_X
706 v
.add_decl
("const struct types resolution_table_{mtype.c_name} = \{")
707 v
.add_decl
("0, /* dummy */")
709 for t
in self.resolution_tables
[mclass_type
] do
711 v
.add_decl
("NULL, /* empty */")
713 # The table stores the result of the type resolution
714 # Therefore, for a receiver `mclass_type`, and a unresolved type `t`
715 # the value stored is tv.
716 var tv
= t
.resolve_for
(mclass_type
, mclass_type
, self.mainmodule
, true)
717 # FIXME: What typeids means here? How can a tv not be live?
718 if type_ids
.has_key
(tv
) then
719 v
.require_declaration
("type_{tv.c_name}")
720 v
.add_decl
("&type_{tv.c_name}, /* {t}: {tv} */")
722 v
.add_decl
("NULL, /* empty ({t}: {tv} not a live type) */")
730 # Globally compile the table of the class mclass
731 # In a link-time optimisation compiler, tables are globally computed
732 # In a true separate compiler (a with dynamic loading) you cannot do this unfortnally
733 fun compile_class_to_c
(mclass
: MClass)
735 var mtype
= mclass
.intro
.bound_mtype
736 var c_name
= mclass
.c_name
737 var c_instance_name
= mclass
.c_instance_name
739 var vft
= self.method_tables
[mclass
]
740 var attrs
= self.attr_tables
[mclass
]
743 var rta
= runtime_type_analysis
744 var is_dead
= rta
!= null and not rta
.live_classes
.has
(mclass
) and mtype
.ctype
== "val*" and mclass
.name
!= "NativeArray"
746 v
.add_decl
("/* runtime class {c_name} */")
750 self.provide_declaration
("class_{c_name}", "extern const struct class class_{c_name};")
751 v
.add_decl
("const struct class class_{c_name} = \{")
752 v
.add_decl
("{self.box_kind_of(mclass)}, /* box_kind */")
754 for i
in [0 .. vft
.length
[ do
755 var mpropdef
= vft
[i
]
756 if mpropdef
== null then
757 v
.add_decl
("NULL, /* empty */")
759 assert mpropdef
isa MMethodDef
760 if rta
!= null and not rta
.live_methoddefs
.has
(mpropdef
) then
761 v
.add_decl
("NULL, /* DEAD {mclass.intro_mmodule}:{mclass}:{mpropdef} */")
764 var rf
= mpropdef
.virtual_runtime_function
765 v
.require_declaration
(rf
.c_name
)
766 v
.add_decl
("(nitmethod_t){rf.c_name}, /* pointer to {mclass.intro_mmodule}:{mclass}:{mpropdef} */")
773 if mtype
.ctype
!= "val*" then
774 if mtype
.mclass
.name
== "Pointer" or mtype
.mclass
.kind
!= extern_kind
then
775 #Build instance struct
776 self.header
.add_decl
("struct instance_{c_instance_name} \{")
777 self.header
.add_decl
("const struct type *type;")
778 self.header
.add_decl
("const struct class *class;")
779 self.header
.add_decl
("{mtype.ctype} value;")
780 self.header
.add_decl
("\};")
783 if not rta
.live_types
.has
(mtype
) then return
786 self.provide_declaration
("BOX_{c_name}", "val* BOX_{c_name}({mtype.ctype});")
787 v
.add_decl
("/* allocate {mtype} */")
788 v
.add_decl
("val* BOX_{mtype.c_name}({mtype.ctype} value) \{")
789 v
.add
("struct instance_{c_instance_name}*res = nit_alloc(sizeof(struct instance_{c_instance_name}));")
790 v
.require_declaration
("type_{c_name}")
791 v
.add
("res->type = &type_{c_name};")
792 v
.require_declaration
("class_{c_name}")
793 v
.add
("res->class = &class_{c_name};")
794 v
.add
("res->value = value;")
795 v
.add
("return (val*)res;")
798 else if mclass
.name
== "NativeArray" then
799 #Build instance struct
800 self.header
.add_decl
("struct instance_{c_instance_name} \{")
801 self.header
.add_decl
("const struct type *type;")
802 self.header
.add_decl
("const struct class *class;")
803 # NativeArrays are just a instance header followed by a length and an array of values
804 self.header
.add_decl
("int length;")
805 self.header
.add_decl
("val* values[0];")
806 self.header
.add_decl
("\};")
809 self.provide_declaration
("NEW_{c_name}", "{mtype.ctype} NEW_{c_name}(int length, const struct type* type);")
810 v
.add_decl
("/* allocate {mtype} */")
811 v
.add_decl
("{mtype.ctype} NEW_{c_name}(int length, const struct type* type) \{")
812 var res
= v
.get_name
("self")
813 v
.add_decl
("struct instance_{c_instance_name} *{res};")
814 var mtype_elt
= mtype
.arguments
.first
815 v
.add
("{res} = nit_alloc(sizeof(struct instance_{c_instance_name}) + length*sizeof({mtype_elt.ctype}));")
816 v
.add
("{res}->type = type;")
817 hardening_live_type
(v
, "type")
818 v
.require_declaration
("class_{c_name}")
819 v
.add
("{res}->class = &class_{c_name};")
820 v
.add
("{res}->length = length;")
821 v
.add
("return (val*){res};")
827 self.provide_declaration
("NEW_{c_name}", "{mtype.ctype} NEW_{c_name}(const struct type* type);")
828 v
.add_decl
("/* allocate {mtype} */")
829 v
.add_decl
("{mtype.ctype} NEW_{c_name}(const struct type* type) \{")
831 v
.add_abort
("{mclass} is DEAD")
833 var res
= v
.new_named_var
(mtype
, "self")
835 v
.add
("{res} = nit_alloc(sizeof(struct instance) + {attrs.length}*sizeof(nitattribute_t));")
836 v
.add
("{res}->type = type;")
837 hardening_live_type
(v
, "type")
838 v
.require_declaration
("class_{c_name}")
839 v
.add
("{res}->class = &class_{c_name};")
840 self.generate_init_attr
(v
, res
, mtype
)
841 v
.add
("return {res};")
846 # Add a dynamic test to ensure that the type referenced by `t` is a live type
847 fun hardening_live_type
(v
: VISITOR, t
: String)
849 if not v
.compiler
.modelbuilder
.toolcontext
.opt_hardening
.value
then return
850 v
.add
("if({t} == NULL) \{")
851 v
.add_abort
("type null")
853 v
.add
("if({t}->table_size == 0) \{")
854 v
.add
("PRINT_ERROR(\"Insantiation of a dead
type: %s\\n\
", {t}->name);")
855 v
.add_abort
("type dead")
859 redef fun new_visitor
do return new SeparateCompilerVisitor(self)
863 private var type_tables
: Map[MType, Array[nullable MType]] = new HashMap[MType, Array[nullable MType]]
864 private var resolution_tables
: Map[MClassType, Array[nullable MType]] = new HashMap[MClassType, Array[nullable MType]]
865 protected var method_tables
: Map[MClass, Array[nullable MPropDef]] = new HashMap[MClass, Array[nullable MPropDef]]
866 protected var attr_tables
: Map[MClass, Array[nullable MPropDef]] = new HashMap[MClass, Array[nullable MPropDef]]
868 redef fun display_stats
871 if self.modelbuilder
.toolcontext
.opt_tables_metrics
.value
then
874 if self.modelbuilder
.toolcontext
.opt_isset_checks_metrics
.value
then
877 var tc
= self.modelbuilder
.toolcontext
878 tc
.info
("# implementation of method invocation",2)
879 var nb_invok_total
= modelbuilder
.nb_invok_by_tables
+ modelbuilder
.nb_invok_by_direct
+ modelbuilder
.nb_invok_by_inline
880 tc
.info
("total number of invocations: {nb_invok_total}",2)
881 tc
.info
("invocations by VFT send: {modelbuilder.nb_invok_by_tables} ({div(modelbuilder.nb_invok_by_tables,nb_invok_total)}%)",2)
882 tc
.info
("invocations by direct call: {modelbuilder.nb_invok_by_direct} ({div(modelbuilder.nb_invok_by_direct,nb_invok_total)}%)",2)
883 tc
.info
("invocations by inlining: {modelbuilder.nb_invok_by_inline} ({div(modelbuilder.nb_invok_by_inline,nb_invok_total)}%)",2)
888 print
"# size of subtyping tables"
889 print
"\ttotal \tholes"
892 for t
, table
in type_tables
do
893 total
+= table
.length
894 for e
in table
do if e
== null then holes
+= 1
896 print
"\t{total}\t{holes}"
898 print
"# size of resolution tables"
899 print
"\ttotal \tholes"
902 for t
, table
in resolution_tables
do
903 total
+= table
.length
904 for e
in table
do if e
== null then holes
+= 1
906 print
"\t{total}\t{holes}"
908 print
"# size of methods tables"
909 print
"\ttotal \tholes"
912 for t
, table
in method_tables
do
913 total
+= table
.length
914 for e
in table
do if e
== null then holes
+= 1
916 print
"\t{total}\t{holes}"
918 print
"# size of attributes tables"
919 print
"\ttotal \tholes"
922 for t
, table
in attr_tables
do
923 total
+= table
.length
924 for e
in table
do if e
== null then holes
+= 1
926 print
"\t{total}\t{holes}"
929 protected var isset_checks_count
= 0
930 protected var attr_read_count
= 0
932 fun display_isset_checks
do
933 print
"# total number of compiled attribute reads"
934 print
"\t{attr_read_count}"
935 print
"# total number of compiled isset-checks"
936 print
"\t{isset_checks_count}"
939 redef fun compile_nitni_structs
941 self.header
.add_decl
("struct nitni_instance \{struct instance *value;\};")
944 redef fun finalize_ffi_for_module
(mmodule
)
946 var old_module
= self.mainmodule
947 self.mainmodule
= mmodule
949 self.mainmodule
= old_module
953 # A visitor on the AST of property definition that generate the C code of a separate compilation process.
954 class SeparateCompilerVisitor
955 super AbstractCompilerVisitor
957 redef type COMPILER: SeparateCompiler
959 redef fun adapt_signature
(m
, args
)
961 var msignature
= m
.msignature
.resolve_for
(m
.mclassdef
.bound_mtype
, m
.mclassdef
.bound_mtype
, m
.mclassdef
.mmodule
, true)
962 var recv
= args
.first
963 if recv
.mtype
.ctype
!= m
.mclassdef
.mclass
.mclass_type
.ctype
then
964 args
.first
= self.autobox
(args
.first
, m
.mclassdef
.mclass
.mclass_type
)
966 for i
in [0..msignature
.arity
[ do
967 var t
= msignature
.mparameters
[i
].mtype
968 if i
== msignature
.vararg_rank
then
971 args
[i
+1] = self.autobox
(args
[i
+1], t
)
975 redef fun autobox
(value
, mtype
)
977 if value
.mtype
== mtype
then
979 else if value
.mtype
.ctype
== "val*" and mtype
.ctype
== "val*" then
981 else if value
.mtype
.ctype
== "val*" then
982 return self.new_expr
("((struct instance_{mtype.c_instance_name}*){value})->value; /* autounbox from {value.mtype} to {mtype} */", mtype
)
983 else if mtype
.ctype
== "val*" then
984 var valtype
= value
.mtype
.as(MClassType)
985 var res
= self.new_var
(mtype
)
986 if compiler
.runtime_type_analysis
!= null and not compiler
.runtime_type_analysis
.live_types
.has
(valtype
) then
987 self.add
("/*no autobox from {value.mtype} to {mtype}: {value.mtype} is not live! */")
988 self.add
("PRINT_ERROR(\"Dead code executed
!\\n\
"); show_backtrace(1);")
991 self.require_declaration
("BOX_{valtype.c_name}")
992 self.add
("{res} = BOX_{valtype.c_name}({value}); /* autobox from {value.mtype} to {mtype} */")
994 else if value
.mtype
.ctype
== "void*" and mtype
.ctype
== "void*" then
997 # Bad things will appen!
998 var res
= self.new_var
(mtype
)
999 self.add
("/* {res} left unintialized (cannot convert {value.mtype} to {mtype}) */")
1000 self.add
("PRINT_ERROR(\"Cast error
: Cannot cast
%s to
%s
.\\n\
", \"{value.mtype}\
", \"{mtype}\
"); show_backtrace(1);")
1005 # Return a C expression returning the runtime type structure of the value
1006 # The point of the method is to works also with primitives types.
1007 fun type_info
(value
: RuntimeVariable): String
1009 if value
.mtype
.ctype
== "val*" then
1010 return "{value}->type"
1012 compiler
.undead_types
.add
(value
.mtype
)
1013 self.require_declaration
("type_{value.mtype.c_name}")
1014 return "(&type_{value.mtype.c_name})"
1018 redef fun compile_callsite
(callsite
, args
)
1020 var rta
= compiler
.runtime_type_analysis
1021 var recv
= args
.first
.mtype
1022 if compiler
.modelbuilder
.toolcontext
.opt_direct_call_monomorph
.value
and rta
!= null then
1023 var tgs
= rta
.live_targets
(callsite
)
1024 if tgs
.length
== 1 then
1026 var mmethod
= callsite
.mproperty
1027 self.varargize
(mmethod
.intro
, mmethod
.intro
.msignature
.as(not null), args
)
1028 var res0
= before_send
(mmethod
, args
)
1029 var res
= call
(tgs
.first
, tgs
.first
.mclassdef
.bound_mtype
, args
)
1030 if res0
!= null then
1032 self.assign
(res0
, res
)
1035 add
("\}") # close the before_send
1041 redef fun send
(mmethod
, arguments
)
1043 self.varargize
(mmethod
.intro
, mmethod
.intro
.msignature
.as(not null), arguments
)
1045 if arguments
.first
.mcasttype
.ctype
!= "val*" then
1046 # In order to shortcut the primitive, we need to find the most specific method
1047 # Howverr, because of performance (no flattening), we always work on the realmainmodule
1048 var m
= self.compiler
.mainmodule
1049 self.compiler
.mainmodule
= self.compiler
.realmainmodule
1050 var res
= self.monomorphic_send
(mmethod
, arguments
.first
.mcasttype
, arguments
)
1051 self.compiler
.mainmodule
= m
1055 return table_send
(mmethod
, arguments
, mmethod
.const_color
)
1058 # Handel common special cases before doing the effective method invocation
1059 # This methods handle the `==` and `!=` methods and the case of the null receiver.
1060 # Note: a { is open in the generated C, that enclose and protect the effective method invocation.
1061 # Client must not forget to close the } after them.
1063 # The value returned is the result of the common special cases.
1064 # If not null, client must compine it with the result of their own effective method invocation.
1066 # If `before_send` can shortcut the whole message sending, a dummy `if(0){`
1067 # is generated to cancel the effective method invocation that will follow
1068 # TODO: find a better approach
1069 private fun before_send
(mmethod
: MMethod, arguments
: Array[RuntimeVariable]): nullable RuntimeVariable
1071 var res
: nullable RuntimeVariable = null
1072 var recv
= arguments
.first
1073 var consider_null
= not self.compiler
.modelbuilder
.toolcontext
.opt_no_check_other
.value
or mmethod
.name
== "==" or mmethod
.name
== "!="
1074 var maybenull
= recv
.mcasttype
isa MNullableType and consider_null
1076 self.add
("if ({recv} == NULL) \{")
1077 if mmethod
.name
== "==" then
1078 res
= self.new_var
(bool_type
)
1079 var arg
= arguments
[1]
1080 if arg
.mcasttype
isa MNullableType then
1081 self.add
("{res} = ({arg} == NULL);")
1082 else if arg
.mcasttype
isa MNullType then
1083 self.add
("{res} = 1; /* is null */")
1085 self.add
("{res} = 0; /* {arg.inspect} cannot be null */")
1087 else if mmethod
.name
== "!=" then
1088 res
= self.new_var
(bool_type
)
1089 var arg
= arguments
[1]
1090 if arg
.mcasttype
isa MNullableType then
1091 self.add
("{res} = ({arg} != NULL);")
1092 else if arg
.mcasttype
isa MNullType then
1093 self.add
("{res} = 0; /* is null */")
1095 self.add
("{res} = 1; /* {arg.inspect} cannot be null */")
1098 self.add_abort
("Receiver is null")
1100 self.add
("\} else \{")
1104 if not self.compiler
.modelbuilder
.toolcontext
.opt_no_shortcut_equate
.value
and (mmethod
.name
== "==" or mmethod
.name
== "!=") then
1105 if res
== null then res
= self.new_var
(bool_type
)
1106 # Recv is not null, thus is arg is, it is easy to conclude (and respect the invariants)
1107 var arg
= arguments
[1]
1108 if arg
.mcasttype
isa MNullType then
1109 if mmethod
.name
== "==" then
1110 self.add
("{res} = 0; /* arg is null but recv is not */")
1112 self.add
("{res} = 1; /* arg is null and recv is not */")
1114 self.add
("\}") # closes the null case
1115 self.add
("if (0) \{") # what follow is useless, CC will drop it
1121 private fun table_send
(mmethod
: MMethod, arguments
: Array[RuntimeVariable], const_color
: String): nullable RuntimeVariable
1123 compiler
.modelbuilder
.nb_invok_by_tables
+= 1
1124 if compiler
.modelbuilder
.toolcontext
.opt_invocation_metrics
.value
then add
("count_invoke_by_tables++;")
1126 assert arguments
.length
== mmethod
.intro
.msignature
.arity
+ 1 else debug
("Invalid arity for {mmethod}. {arguments.length} arguments given.")
1127 var recv
= arguments
.first
1129 var res0
= before_send
(mmethod
, arguments
)
1131 var res
: nullable RuntimeVariable
1132 var msignature
= mmethod
.intro
.msignature
.resolve_for
(mmethod
.intro
.mclassdef
.bound_mtype
, mmethod
.intro
.mclassdef
.bound_mtype
, mmethod
.intro
.mclassdef
.mmodule
, true)
1133 var ret
= msignature
.return_mtype
1134 if mmethod
.is_new
then
1135 ret
= arguments
.first
.mtype
1136 res
= self.new_var
(ret
)
1137 else if ret
== null then
1140 res
= self.new_var
(ret
)
1143 var s
= new FlatBuffer
1144 var ss
= new FlatBuffer
1148 for i
in [0..msignature
.arity
[ do
1149 var a
= arguments
[i
+1]
1150 var t
= msignature
.mparameters
[i
].mtype
1151 if i
== msignature
.vararg_rank
then
1152 t
= arguments
[i
+1].mcasttype
1154 s
.append
(", {t.ctype}")
1155 a
= self.autobox
(a
, t
)
1161 if ret
== null then r
= "void" else r
= ret
.ctype
1162 self.require_declaration
(const_color
)
1163 var call
= "(({r} (*)({s}))({arguments.first}->class->vft[{const_color}]))({ss}) /* {mmethod} on {arguments.first.inspect}*/"
1166 self.add
("{res} = {call};")
1171 if res0
!= null then
1177 self.add
("\}") # closes the null case
1182 redef fun call
(mmethoddef
, recvtype
, arguments
)
1184 assert arguments
.length
== mmethoddef
.msignature
.arity
+ 1 else debug
("Invalid arity for {mmethoddef}. {arguments.length} arguments given.")
1186 var res
: nullable RuntimeVariable
1187 var ret
= mmethoddef
.msignature
.return_mtype
1188 if mmethoddef
.mproperty
.is_new
then
1189 ret
= arguments
.first
.mtype
1190 res
= self.new_var
(ret
)
1191 else if ret
== null then
1194 ret
= ret
.resolve_for
(mmethoddef
.mclassdef
.bound_mtype
, mmethoddef
.mclassdef
.bound_mtype
, mmethoddef
.mclassdef
.mmodule
, true)
1195 res
= self.new_var
(ret
)
1198 if (mmethoddef
.is_intern
and not compiler
.modelbuilder
.toolcontext
.opt_no_inline_intern
.value
) or
1199 (compiler
.modelbuilder
.toolcontext
.opt_inline_some_methods
.value
and mmethoddef
.can_inline
(self)) then
1200 compiler
.modelbuilder
.nb_invok_by_inline
+= 1
1201 if compiler
.modelbuilder
.toolcontext
.opt_invocation_metrics
.value
then add
("count_invoke_by_inline++;")
1202 var frame
= new Frame(self, mmethoddef
, recvtype
, arguments
)
1203 frame
.returnlabel
= self.get_name
("RET_LABEL")
1204 frame
.returnvar
= res
1205 var old_frame
= self.frame
1207 self.add
("\{ /* Inline {mmethoddef} ({arguments.join(",")}) on {arguments.first.inspect} */")
1208 mmethoddef
.compile_inside_to_c
(self, arguments
)
1209 self.add
("{frame.returnlabel.as(not null)}:(void)0;")
1211 self.frame
= old_frame
1214 compiler
.modelbuilder
.nb_invok_by_direct
+= 1
1215 if compiler
.modelbuilder
.toolcontext
.opt_invocation_metrics
.value
then add
("count_invoke_by_direct++;")
1218 self.adapt_signature
(mmethoddef
, arguments
)
1220 self.require_declaration
(mmethoddef
.c_name
)
1222 self.add
("{mmethoddef.c_name}({arguments.join(", ")}); /* Direct call {mmethoddef} on {arguments.first.inspect}*/")
1225 self.add
("{res} = {mmethoddef.c_name}({arguments.join(", ")});")
1231 redef fun supercall
(m
: MMethodDef, recvtype
: MClassType, arguments
: Array[RuntimeVariable]): nullable RuntimeVariable
1233 if arguments
.first
.mcasttype
.ctype
!= "val*" then
1234 # In order to shortcut the primitive, we need to find the most specific method
1235 # However, because of performance (no flattening), we always work on the realmainmodule
1236 var main
= self.compiler
.mainmodule
1237 self.compiler
.mainmodule
= self.compiler
.realmainmodule
1238 var res
= self.monomorphic_super_send
(m
, recvtype
, arguments
)
1239 self.compiler
.mainmodule
= main
1242 return table_send
(m
.mproperty
, arguments
, m
.const_color
)
1245 redef fun vararg_instance
(mpropdef
, recv
, varargs
, elttype
)
1247 # A vararg must be stored into an new array
1248 # The trick is that the dymaic type of the array may depends on the receiver
1249 # of the method (ie recv) if the static type is unresolved
1250 # This is more complex than usual because the unresolved type must not be resolved
1251 # with the current receiver (ie self).
1252 # Therefore to isolate the resolution from self, a local Frame is created.
1253 # One can see this implementation as an inlined method of the receiver whose only
1254 # job is to allocate the array
1255 var old_frame
= self.frame
1256 var frame
= new Frame(self, mpropdef
, mpropdef
.mclassdef
.bound_mtype
, [recv
])
1258 #print "required Array[{elttype}] for recv {recv.inspect}. bound=Array[{self.resolve_for(elttype, recv)}]. selfvar={frame.arguments.first.inspect}"
1259 var res
= self.array_instance
(varargs
, elttype
)
1260 self.frame
= old_frame
1264 redef fun isset_attribute
(a
, recv
)
1266 self.check_recv_notnull
(recv
)
1267 var res
= self.new_var
(bool_type
)
1269 # What is the declared type of the attribute?
1270 var mtype
= a
.intro
.static_mtype
.as(not null)
1271 var intromclassdef
= a
.intro
.mclassdef
1272 mtype
= mtype
.resolve_for
(intromclassdef
.bound_mtype
, intromclassdef
.bound_mtype
, intromclassdef
.mmodule
, true)
1274 if mtype
isa MNullableType then
1275 self.add
("{res} = 1; /* easy isset: {a} on {recv.inspect} */")
1279 self.require_declaration
(a
.const_color
)
1280 if self.compiler
.modelbuilder
.toolcontext
.opt_no_union_attribute
.value
then
1281 self.add
("{res} = {recv}->attrs[{a.const_color}] != NULL; /* {a} on {recv.inspect}*/")
1284 if mtype
.ctype
== "val*" then
1285 self.add
("{res} = {recv}->attrs[{a.const_color}].val != NULL; /* {a} on {recv.inspect} */")
1287 self.add
("{res} = 1; /* NOT YET IMPLEMENTED: isset of primitives: {a} on {recv.inspect} */")
1293 redef fun read_attribute
(a
, recv
)
1295 self.check_recv_notnull
(recv
)
1297 # What is the declared type of the attribute?
1298 var ret
= a
.intro
.static_mtype
.as(not null)
1299 var intromclassdef
= a
.intro
.mclassdef
1300 ret
= ret
.resolve_for
(intromclassdef
.bound_mtype
, intromclassdef
.bound_mtype
, intromclassdef
.mmodule
, true)
1302 if self.compiler
.modelbuilder
.toolcontext
.opt_isset_checks_metrics
.value
then
1303 self.compiler
.attr_read_count
+= 1
1304 self.add
("count_attr_reads++;")
1307 self.require_declaration
(a
.const_color
)
1308 if self.compiler
.modelbuilder
.toolcontext
.opt_no_union_attribute
.value
then
1309 # Get the attribute or a box (ie. always a val*)
1310 var cret
= self.object_type
.as_nullable
1311 var res
= self.new_var
(cret
)
1314 self.add
("{res} = {recv}->attrs[{a.const_color}]; /* {a} on {recv.inspect} */")
1316 # Check for Uninitialized attribute
1317 if not ret
isa MNullableType and not self.compiler
.modelbuilder
.toolcontext
.opt_no_check_attr_isset
.value
then
1318 self.add
("if (unlikely({res} == NULL)) \{")
1319 self.add_abort
("Uninitialized attribute {a.name}")
1322 if self.compiler
.modelbuilder
.toolcontext
.opt_isset_checks_metrics
.value
then
1323 self.compiler
.isset_checks_count
+= 1
1324 self.add
("count_isset_checks++;")
1328 # Return the attribute or its unboxed version
1329 # Note: it is mandatory since we reuse the box on write, we do not whant that the box escapes
1330 return self.autobox
(res
, ret
)
1332 var res
= self.new_var
(ret
)
1333 self.add
("{res} = {recv}->attrs[{a.const_color}].{ret.ctypename}; /* {a} on {recv.inspect} */")
1335 # Check for Uninitialized attribute
1336 if ret
.ctype
== "val*" and not ret
isa MNullableType and not self.compiler
.modelbuilder
.toolcontext
.opt_no_check_attr_isset
.value
then
1337 self.add
("if (unlikely({res} == NULL)) \{")
1338 self.add_abort
("Uninitialized attribute {a.name}")
1340 if self.compiler
.modelbuilder
.toolcontext
.opt_isset_checks_metrics
.value
then
1341 self.compiler
.isset_checks_count
+= 1
1342 self.add
("count_isset_checks++;")
1350 redef fun write_attribute
(a
, recv
, value
)
1352 self.check_recv_notnull
(recv
)
1354 # What is the declared type of the attribute?
1355 var mtype
= a
.intro
.static_mtype
.as(not null)
1356 var intromclassdef
= a
.intro
.mclassdef
1357 mtype
= mtype
.resolve_for
(intromclassdef
.bound_mtype
, intromclassdef
.bound_mtype
, intromclassdef
.mmodule
, true)
1359 # Adapt the value to the declared type
1360 value
= self.autobox
(value
, mtype
)
1362 self.require_declaration
(a
.const_color
)
1363 if self.compiler
.modelbuilder
.toolcontext
.opt_no_union_attribute
.value
then
1364 var attr
= "{recv}->attrs[{a.const_color}]"
1365 if mtype
.ctype
!= "val*" then
1366 assert mtype
isa MClassType
1367 # The attribute is primitive, thus we store it in a box
1368 # The trick is to create the box the first time then resuse the box
1369 self.add
("if ({attr} != NULL) \{")
1370 self.add
("((struct instance_{mtype.c_instance_name}*){attr})->value = {value}; /* {a} on {recv.inspect} */")
1371 self.add
("\} else \{")
1372 value
= self.autobox
(value
, self.object_type
.as_nullable
)
1373 self.add
("{attr} = {value}; /* {a} on {recv.inspect} */")
1376 # The attribute is not primitive, thus store it direclty
1377 self.add
("{attr} = {value}; /* {a} on {recv.inspect} */")
1380 self.add
("{recv}->attrs[{a.const_color}].{mtype.ctypename} = {value}; /* {a} on {recv.inspect} */")
1384 # Check that mtype is a live open type
1385 fun hardening_live_open_type
(mtype
: MType)
1387 if not compiler
.modelbuilder
.toolcontext
.opt_hardening
.value
then return
1388 self.require_declaration
(mtype
.const_color
)
1389 var col
= mtype
.const_color
1390 self.add
("if({col} == -1) \{")
1391 self.add
("PRINT_ERROR(\"Resolution of a dead open
type: %s\\n\
", \"{mtype.to_s.escape_to_c}\
");")
1392 self.add_abort
("open type dead")
1396 # Check that mtype it a pointer to a live cast type
1397 fun hardening_cast_type
(t
: String)
1399 if not compiler
.modelbuilder
.toolcontext
.opt_hardening
.value
then return
1400 add
("if({t} == NULL) \{")
1401 add_abort
("cast type null")
1403 add
("if({t}->id == -1 || {t}->color == -1) \{")
1404 add
("PRINT_ERROR(\"Try to cast on a dead cast
type: %s\\n\
", {t}->name);")
1405 add_abort
("cast type dead")
1409 redef fun init_instance
(mtype
)
1411 self.require_declaration
("NEW_{mtype.mclass.c_name}")
1412 var compiler
= self.compiler
1413 if mtype
isa MGenericType and mtype
.need_anchor
then
1414 hardening_live_open_type
(mtype
)
1415 link_unresolved_type
(self.frame
.mpropdef
.mclassdef
, mtype
)
1416 var recv
= self.frame
.arguments
.first
1417 var recv_type_info
= self.type_info
(recv
)
1418 self.require_declaration
(mtype
.const_color
)
1419 return self.new_expr
("NEW_{mtype.mclass.c_name}({recv_type_info}->resolution_table->types[{mtype.const_color}])", mtype
)
1421 compiler
.undead_types
.add
(mtype
)
1422 self.require_declaration
("type_{mtype.c_name}")
1423 return self.new_expr
("NEW_{mtype.mclass.c_name}(&type_{mtype.c_name})", mtype
)
1426 redef fun type_test
(value
, mtype
, tag
)
1428 self.add
("/* {value.inspect} isa {mtype} */")
1429 var compiler
= self.compiler
1431 var recv
= self.frame
.arguments
.first
1432 var recv_type_info
= self.type_info
(recv
)
1434 var res
= self.new_var
(bool_type
)
1436 var cltype
= self.get_name
("cltype")
1437 self.add_decl
("int {cltype};")
1438 var idtype
= self.get_name
("idtype")
1439 self.add_decl
("int {idtype};")
1441 var maybe_null
= self.maybe_null
(value
)
1442 var accept_null
= "0"
1444 if ntype
isa MNullableType then
1449 if value
.mcasttype
.is_subtype
(self.frame
.mpropdef
.mclassdef
.mmodule
, self.frame
.mpropdef
.mclassdef
.bound_mtype
, mtype
) then
1450 self.add
("{res} = 1; /* easy {value.inspect} isa {mtype}*/")
1451 if compiler
.modelbuilder
.toolcontext
.opt_typing_test_metrics
.value
then
1452 self.compiler
.count_type_test_skipped
[tag
] += 1
1453 self.add
("count_type_test_skipped_{tag}++;")
1458 if ntype
.need_anchor
then
1459 var type_struct
= self.get_name
("type_struct")
1460 self.add_decl
("const struct type* {type_struct};")
1462 # Either with resolution_table with a direct resolution
1463 hardening_live_open_type
(mtype
)
1464 link_unresolved_type
(self.frame
.mpropdef
.mclassdef
, mtype
)
1465 self.require_declaration
(mtype
.const_color
)
1466 self.add
("{type_struct} = {recv_type_info}->resolution_table->types[{mtype.const_color}];")
1467 if compiler
.modelbuilder
.toolcontext
.opt_typing_test_metrics
.value
then
1468 self.compiler
.count_type_test_unresolved
[tag
] += 1
1469 self.add
("count_type_test_unresolved_{tag}++;")
1471 hardening_cast_type
(type_struct
)
1472 self.add
("{cltype} = {type_struct}->color;")
1473 self.add
("{idtype} = {type_struct}->id;")
1474 if maybe_null
and accept_null
== "0" then
1475 var is_nullable
= self.get_name
("is_nullable")
1476 self.add_decl
("short int {is_nullable};")
1477 self.add
("{is_nullable} = {type_struct}->is_nullable;")
1478 accept_null
= is_nullable
.to_s
1480 else if ntype
isa MClassType then
1481 compiler
.undead_types
.add
(mtype
)
1482 self.require_declaration
("type_{mtype.c_name}")
1483 hardening_cast_type
("(&type_{mtype.c_name})")
1484 self.add
("{cltype} = type_{mtype.c_name}.color;")
1485 self.add
("{idtype} = type_{mtype.c_name}.id;")
1486 if compiler
.modelbuilder
.toolcontext
.opt_typing_test_metrics
.value
then
1487 self.compiler
.count_type_test_resolved
[tag
] += 1
1488 self.add
("count_type_test_resolved_{tag}++;")
1491 self.add
("PRINT_ERROR(\"NOT YET IMPLEMENTED: type_test
(%s
, {mtype}).\\n\
", \"{value.inspect}\
"); show_backtrace(1);")
1494 # check color is in table
1496 self.add
("if({value} == NULL) \{")
1497 self.add
("{res} = {accept_null};")
1498 self.add
("\} else \{")
1500 var value_type_info
= self.type_info
(value
)
1501 self.add
("if({cltype} >= {value_type_info}->table_size) \{")
1502 self.add
("{res} = 0;")
1503 self.add
("\} else \{")
1504 self.add
("{res} = {value_type_info}->type_table[{cltype}] == {idtype};")
1513 redef fun is_same_type_test
(value1
, value2
)
1515 var res
= self.new_var
(bool_type
)
1516 # Swap values to be symetric
1517 if value2
.mtype
.ctype
!= "val*" and value1
.mtype
.ctype
== "val*" then
1522 if value1
.mtype
.ctype
!= "val*" then
1523 if value2
.mtype
== value1
.mtype
then
1524 self.add
("{res} = 1; /* is_same_type_test: compatible types {value1.mtype} vs. {value2.mtype} */")
1525 else if value2
.mtype
.ctype
!= "val*" then
1526 self.add
("{res} = 0; /* is_same_type_test: incompatible types {value1.mtype} vs. {value2.mtype}*/")
1528 var mtype1
= value1
.mtype
.as(MClassType)
1529 self.require_declaration
("class_{mtype1.c_name}")
1530 self.add
("{res} = ({value2} != NULL) && ({value2}->class == &class_{mtype1.c_name}); /* is_same_type_test */")
1533 self.add
("{res} = ({value1} == {value2}) || ({value1} != NULL && {value2} != NULL && {value1}->class == {value2}->class); /* is_same_type_test */")
1538 redef fun class_name_string
(value
)
1540 var res
= self.get_name
("var_class_name")
1541 self.add_decl
("const char* {res};")
1542 if value
.mtype
.ctype
== "val*" then
1543 self.add
"{res} = {value} == NULL ? \"null\
" : {value}->type->name;"
1544 else if value
.mtype
isa MClassType and value
.mtype
.as(MClassType).mclass
.kind
== extern_kind
then
1545 self.add
"{res} = \"{value.mtype.as(MClassType).mclass}\
";"
1547 self.require_declaration
("type_{value.mtype.c_name}")
1548 self.add
"{res} = type_{value.mtype.c_name}.name;"
1553 redef fun equal_test
(value1
, value2
)
1555 var res
= self.new_var
(bool_type
)
1556 if value2
.mtype
.ctype
!= "val*" and value1
.mtype
.ctype
== "val*" then
1561 if value1
.mtype
.ctype
!= "val*" then
1562 if value2
.mtype
== value1
.mtype
then
1563 self.add
("{res} = {value1} == {value2};")
1564 else if value2
.mtype
.ctype
!= "val*" then
1565 self.add
("{res} = 0; /* incompatible types {value1.mtype} vs. {value2.mtype}*/")
1567 var mtype1
= value1
.mtype
.as(MClassType)
1568 self.require_declaration
("class_{mtype1.c_name}")
1569 self.add
("{res} = ({value2} != NULL) && ({value2}->class == &class_{mtype1.c_name});")
1570 self.add
("if ({res}) \{")
1571 self.add
("{res} = ({self.autobox(value2, value1.mtype)} == {value1});")
1576 var maybe_null
= true
1577 var test
= new Array[String]
1578 var t1
= value1
.mcasttype
1579 if t1
isa MNullableType then
1580 test
.add
("{value1} != NULL")
1585 var t2
= value2
.mcasttype
1586 if t2
isa MNullableType then
1587 test
.add
("{value2} != NULL")
1593 var incompatible
= false
1595 if t1
.ctype
!= "val*" then
1598 # No need to compare class
1599 else if t2
.ctype
!= "val*" then
1601 else if can_be_primitive
(value2
) then
1602 test
.add
("{value1}->class == {value2}->class")
1606 else if t2
.ctype
!= "val*" then
1608 if can_be_primitive
(value1
) then
1609 test
.add
("{value1}->class == {value2}->class")
1617 if incompatible
then
1619 self.add
("{res} = {value1} == {value2}; /* incompatible types {t1} vs. {t2}; but may be NULL*/")
1622 self.add
("{res} = 0; /* incompatible types {t1} vs. {t2}; cannot be NULL */")
1626 if primitive
!= null then
1627 test
.add
("((struct instance_{primitive.c_instance_name}*){value1})->value == ((struct instance_{primitive.c_instance_name}*){value2})->value")
1628 else if can_be_primitive
(value1
) and can_be_primitive
(value2
) then
1629 test
.add
("{value1}->class == {value2}->class")
1630 var s
= new Array[String]
1631 for t
, v
in self.compiler
.box_kinds
do
1632 s
.add
"({value1}->class->box_kind == {v} && ((struct instance_{t.c_instance_name}*){value1})->value == ((struct instance_{t.c_instance_name}*){value2})->value)"
1634 test
.add
("({s.join(" || ")})")
1636 self.add
("{res} = {value1} == {value2};")
1639 self.add
("{res} = {value1} == {value2} || ({test.join(" && ")});")
1643 fun can_be_primitive
(value
: RuntimeVariable): Bool
1645 var t
= value
.mcasttype
1646 if t
isa MNullableType then t
= t
.mtype
1647 if not t
isa MClassType then return false
1648 var k
= t
.mclass
.kind
1649 return k
== interface_kind
or t
.ctype
!= "val*"
1652 fun maybe_null
(value
: RuntimeVariable): Bool
1654 var t
= value
.mcasttype
1655 return t
isa MNullableType or t
isa MNullType
1658 redef fun array_instance
(array
, elttype
)
1660 var nclass
= self.get_class
("NativeArray")
1661 var arrayclass
= self.get_class
("Array")
1662 var arraytype
= arrayclass
.get_mtype
([elttype
])
1663 var res
= self.init_instance
(arraytype
)
1664 self.add
("\{ /* {res} = array_instance Array[{elttype}] */")
1665 var length
= self.int_instance
(array
.length
)
1666 var nat
= native_array_instance
(elttype
, length
)
1667 for i
in [0..array
.length
[ do
1668 var r
= self.autobox
(array
[i
], self.object_type
)
1669 self.add
("((struct instance_{nclass.c_name}*){nat})->values[{i}] = (val*) {r};")
1671 self.send
(self.get_property
("with_native", arrayclass
.intro
.bound_mtype
), [res
, nat
, length
])
1676 fun native_array_instance
(elttype
: MType, length
: RuntimeVariable): RuntimeVariable
1678 var mtype
= self.get_class
("NativeArray").get_mtype
([elttype
])
1679 self.require_declaration
("NEW_{mtype.mclass.c_name}")
1680 assert mtype
isa MGenericType
1681 var compiler
= self.compiler
1682 if mtype
.need_anchor
then
1683 hardening_live_open_type
(mtype
)
1684 link_unresolved_type
(self.frame
.mpropdef
.mclassdef
, mtype
)
1685 var recv
= self.frame
.arguments
.first
1686 var recv_type_info
= self.type_info
(recv
)
1687 self.require_declaration
(mtype
.const_color
)
1688 return self.new_expr
("NEW_{mtype.mclass.c_name}({length}, {recv_type_info}->resolution_table->types[{mtype.const_color}])", mtype
)
1690 compiler
.undead_types
.add
(mtype
)
1691 self.require_declaration
("type_{mtype.c_name}")
1692 return self.new_expr
("NEW_{mtype.mclass.c_name}({length}, &type_{mtype.c_name})", mtype
)
1695 redef fun native_array_def
(pname
, ret_type
, arguments
)
1697 var elttype
= arguments
.first
.mtype
1698 var nclass
= self.get_class
("NativeArray")
1699 var recv
= "((struct instance_{nclass.c_instance_name}*){arguments[0]})->values"
1700 if pname
== "[]" then
1701 self.ret
(self.new_expr
("{recv}[{arguments[1]}]", ret_type
.as(not null)))
1703 else if pname
== "[]=" then
1704 self.add
("{recv}[{arguments[1]}]={arguments[2]};")
1706 else if pname
== "length" then
1707 self.ret
(self.new_expr
("((struct instance_{nclass.c_instance_name}*){arguments[0]})->length", ret_type
.as(not null)))
1709 else if pname
== "copy_to" then
1710 var recv1
= "((struct instance_{nclass.c_instance_name}*){arguments[1]})->values"
1711 self.add
("memcpy({recv1}, {recv}, {arguments[2]}*sizeof({elttype.ctype}));")
1716 redef fun calloc_array
(ret_type
, arguments
)
1718 var mclass
= self.get_class
("ArrayCapable")
1719 var ft
= mclass
.mclass_type
.arguments
.first
.as(MParameterType)
1720 var res
= self.native_array_instance
(ft
, arguments
[1])
1724 fun link_unresolved_type
(mclassdef
: MClassDef, mtype
: MType) do
1725 assert mtype
.need_anchor
1726 var compiler
= self.compiler
1727 if not compiler
.live_unresolved_types
.has_key
(self.frame
.mpropdef
.mclassdef
) then
1728 compiler
.live_unresolved_types
[self.frame
.mpropdef
.mclassdef
] = new HashSet[MType]
1730 compiler
.live_unresolved_types
[self.frame
.mpropdef
.mclassdef
].add
(mtype
)
1734 redef class MMethodDef
1735 fun separate_runtime_function
: AbstractRuntimeFunction
1737 var res
= self.separate_runtime_function_cache
1739 res
= new SeparateRuntimeFunction(self)
1740 self.separate_runtime_function_cache
= res
1744 private var separate_runtime_function_cache
: nullable SeparateRuntimeFunction
1746 fun virtual_runtime_function
: AbstractRuntimeFunction
1748 var res
= self.virtual_runtime_function_cache
1750 res
= new VirtualRuntimeFunction(self)
1751 self.virtual_runtime_function_cache
= res
1755 private var virtual_runtime_function_cache
: nullable VirtualRuntimeFunction
1758 # The C function associated to a methoddef separately compiled
1759 class SeparateRuntimeFunction
1760 super AbstractRuntimeFunction
1762 redef fun build_c_name
: String do return "{mmethoddef.c_name}"
1764 redef fun to_s
do return self.mmethoddef
.to_s
1766 redef fun compile_to_c
(compiler
)
1768 var mmethoddef
= self.mmethoddef
1770 var recv
= self.mmethoddef
.mclassdef
.bound_mtype
1771 var v
= compiler
.new_visitor
1772 var selfvar
= new RuntimeVariable("self", recv
, recv
)
1773 var arguments
= new Array[RuntimeVariable]
1774 var frame
= new Frame(v
, mmethoddef
, recv
, arguments
)
1777 var msignature
= mmethoddef
.msignature
.resolve_for
(mmethoddef
.mclassdef
.bound_mtype
, mmethoddef
.mclassdef
.bound_mtype
, mmethoddef
.mclassdef
.mmodule
, true)
1779 var sig
= new FlatBuffer
1780 var comment
= new FlatBuffer
1781 var ret
= msignature
.return_mtype
1783 sig
.append
("{ret.ctype} ")
1784 else if mmethoddef
.mproperty
.is_new
then
1786 sig
.append
("{ret.ctype} ")
1790 sig
.append
(self.c_name
)
1791 sig
.append
("({selfvar.mtype.ctype} {selfvar}")
1792 comment
.append
("({selfvar}: {selfvar.mtype}")
1793 arguments
.add
(selfvar
)
1794 for i
in [0..msignature
.arity
[ do
1795 var mtype
= msignature
.mparameters
[i
].mtype
1796 if i
== msignature
.vararg_rank
then
1797 mtype
= v
.get_class
("Array").get_mtype
([mtype
])
1799 comment
.append
(", {mtype}")
1800 sig
.append
(", {mtype.ctype} p{i}")
1801 var argvar
= new RuntimeVariable("p{i}", mtype
, mtype
)
1802 arguments
.add
(argvar
)
1807 comment
.append
(": {ret}")
1809 compiler
.provide_declaration
(self.c_name
, "{sig};")
1811 v
.add_decl
("/* method {self} for {comment} */")
1812 v
.add_decl
("{sig} \{")
1814 frame
.returnvar
= v
.new_var
(ret
)
1816 frame
.returnlabel
= v
.get_name
("RET_LABEL")
1818 if recv
!= arguments
.first
.mtype
then
1819 #print "{self} {recv} {arguments.first}"
1821 mmethoddef
.compile_inside_to_c
(v
, arguments
)
1823 v
.add
("{frame.returnlabel.as(not null)}:;")
1825 v
.add
("return {frame.returnvar.as(not null)};")
1828 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})"
1832 # The C function associated to a methoddef on a primitive type, stored into a VFT of a class
1833 # The first parameter (the reciever) is always typed by val* in order to accept an object value
1834 class VirtualRuntimeFunction
1835 super AbstractRuntimeFunction
1837 redef fun build_c_name
: String do return "VIRTUAL_{mmethoddef.c_name}"
1839 redef fun to_s
do return self.mmethoddef
.to_s
1841 redef fun compile_to_c
(compiler
)
1843 var mmethoddef
= self.mmethoddef
1845 var recv
= self.mmethoddef
.mclassdef
.bound_mtype
1846 var v
= compiler
.new_visitor
1847 var selfvar
= new RuntimeVariable("self", v
.object_type
, recv
)
1848 var arguments
= new Array[RuntimeVariable]
1849 var frame
= new Frame(v
, mmethoddef
, recv
, arguments
)
1852 var sig
= new FlatBuffer
1853 var comment
= new FlatBuffer
1855 # Because the function is virtual, the signature must match the one of the original class
1856 var intromclassdef
= self.mmethoddef
.mproperty
.intro
.mclassdef
1857 var msignature
= mmethoddef
.mproperty
.intro
.msignature
.resolve_for
(intromclassdef
.bound_mtype
, intromclassdef
.bound_mtype
, intromclassdef
.mmodule
, true)
1858 var ret
= msignature
.return_mtype
1860 sig
.append
("{ret.ctype} ")
1861 else if mmethoddef
.mproperty
.is_new
then
1863 sig
.append
("{ret.ctype} ")
1867 sig
.append
(self.c_name
)
1868 sig
.append
("({selfvar.mtype.ctype} {selfvar}")
1869 comment
.append
("({selfvar}: {selfvar.mtype}")
1870 arguments
.add
(selfvar
)
1871 for i
in [0..msignature
.arity
[ do
1872 var mtype
= msignature
.mparameters
[i
].mtype
1873 if i
== msignature
.vararg_rank
then
1874 mtype
= v
.get_class
("Array").get_mtype
([mtype
])
1876 comment
.append
(", {mtype}")
1877 sig
.append
(", {mtype.ctype} p{i}")
1878 var argvar
= new RuntimeVariable("p{i}", mtype
, mtype
)
1879 arguments
.add
(argvar
)
1884 comment
.append
(": {ret}")
1886 compiler
.provide_declaration
(self.c_name
, "{sig};")
1888 v
.add_decl
("/* method {self} for {comment} */")
1889 v
.add_decl
("{sig} \{")
1891 frame
.returnvar
= v
.new_var
(ret
)
1893 frame
.returnlabel
= v
.get_name
("RET_LABEL")
1895 var subret
= v
.call
(mmethoddef
, recv
, arguments
)
1897 assert subret
!= null
1898 v
.assign
(frame
.returnvar
.as(not null), subret
)
1901 v
.add
("{frame.returnlabel.as(not null)}:;")
1903 v
.add
("return {frame.returnvar.as(not null)};")
1906 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})"
1910 redef fun call
(v
, arguments
) do abort
1914 fun const_color
: String do return "COLOR_{c_name}"
1916 # C name of the instance type to use
1917 fun c_instance_name
: String do return c_name
1920 redef class MClassType
1921 redef fun c_instance_name
do return mclass
.c_instance_name
1925 # Extern classes use the C instance of kernel::Pointer
1926 fun c_instance_name
: String
1928 if kind
== extern_kind
then
1929 return "kernel__Pointer"
1934 interface PropertyLayoutElement end
1936 redef class MProperty
1937 super PropertyLayoutElement
1938 fun const_color
: String do return "COLOR_{c_name}"
1941 redef class MPropDef
1942 super PropertyLayoutElement
1943 fun const_color
: String do return "COLOR_{c_name}"