1 # This file is part of NIT ( http://www.nitlanguage.org ).
3 # Copyright 2012 Jean Privat <jean@pryen.org>
5 # Licensed under the Apache License, Version 2.0 (the "License");
6 # you may not use this file except in compliance with the License.
7 # You may obtain a copy of the License at
9 # http://www.apache.org/licenses/LICENSE-2.0
11 # Unless required by applicable law or agreed to in writing, software
12 # distributed under the License is distributed on an "AS IS" BASIS,
13 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14 # See the License for the specific language governing permissions and
15 # limitations under the License.
18 module abstract_compiler
22 import auto_super_init
24 # Add compiling options
25 redef class ToolContext
27 var opt_output
: OptionString = new OptionString("Output file", "-o", "--output")
29 var opt_no_cc
: OptionBool = new OptionBool("Do not invoke C compiler", "--no-cc")
31 var opt_cc_path
: OptionArray = new OptionArray("Set include path for C header files (may be used more than once)", "--cc-path")
33 var opt_make_flags
: OptionString = new OptionString("Additional options to make", "--make-flags")
35 var opt_hardening
: OptionBool = new OptionBool("Generate contracts in the C code against bugs in the compiler", "--hardening")
37 var opt_no_shortcut_range
: OptionBool = new OptionBool("Always insantiate a range and its iterator on 'for' loops", "--no-shortcut-range")
38 # --no-check-covariance
39 var opt_no_check_covariance
: OptionBool = new OptionBool("Disable type tests of covariant parameters (dangerous)", "--no-check-covariance")
40 # --no-check-initialization
41 var opt_no_check_initialization
: OptionBool = new OptionBool("Disable isset tests at the end of constructors (dangerous)", "--no-check-initialization")
43 var opt_no_check_assert
: OptionBool = new OptionBool("Disable the evaluation of explicit 'assert' and 'as' (dangerous)", "--no-check-assert")
45 var opt_no_check_autocast
: OptionBool = new OptionBool("Disable implicit casts on unsafe expression usage (dangerous)", "--no-check-autocast")
47 var opt_no_check_other
: OptionBool = new OptionBool("Disable implicit tests: unset attribute, null receiver (dangerous)", "--no-check-other")
48 # --typing-test-metrics
49 var opt_typing_test_metrics
: OptionBool = new OptionBool("Enable static and dynamic count of all type tests", "--typing-test-metrics")
54 self.option_context
.add_option
(self.opt_output
, self.opt_no_cc
, self.opt_make_flags
, self.opt_hardening
, self.opt_no_shortcut_range
)
55 self.option_context
.add_option
(self.opt_no_check_covariance
, self.opt_no_check_initialization
, self.opt_no_check_assert
, self.opt_no_check_autocast
, self.opt_no_check_other
)
56 self.option_context
.add_option
(self.opt_typing_test_metrics
)
60 redef class ModelBuilder
61 # The list of directories to search for included C headers (-I for C compilers)
62 # The list is initially set with :
63 # * the toolcontext --cc-path option
64 # * the NIT_CC_PATH environment variable
65 # * some heuristics including the NIT_DIR environment variable and the progname of the process
66 # Path can be added (or removed) by the client
67 var cc_paths
= new Array[String]
69 redef init(model
, toolcontext
)
73 # Look for the the Nit clib path
74 var path_env
= "NIT_DIR".environ
75 if not path_env
.is_empty
then
76 var libname
= "{path_env}/clib"
77 if libname
.file_exists
then cc_paths
.add
(libname
)
80 var libname
= "{sys.program_name.dirname}/../clib"
81 if libname
.file_exists
then cc_paths
.add
(libname
.simplify_path
)
83 if cc_paths
.is_empty
then
84 toolcontext
.error
(null, "Cannot determine the nit clib path. define envvar NIT_DIR.")
87 # Add user defined cc_paths
88 cc_paths
.append
(toolcontext
.opt_cc_path
.value
)
90 path_env
= "NIT_CC_PATH".environ
91 if not path_env
.is_empty
then
92 cc_paths
.append
(path_env
.split_with
(':'))
97 protected fun write_and_make
(compiler
: AbstractCompiler)
99 var mainmodule
= compiler
.mainmodule
101 # Generate the .h and .c files
102 # A single C file regroups many compiled rumtime functions
103 # Note that we do not try to be clever an a small change in a Nit source file may change the content of all the generated .c files
105 self.toolcontext
.info
("*** WRITING C ***", 1)
109 var outname
= self.toolcontext
.opt_output
.value
110 if outname
== null then
111 outname
= "{mainmodule.name}"
114 var hfilename
= compiler
.header
.file
.name
+ ".h"
115 var hfilepath
= ".nit_compile/{hfilename}"
116 var h
= new OFStream.open
(hfilepath
)
117 for l
in compiler
.header
.decl_lines
do
121 for l
in compiler
.header
.lines
do
127 var cfiles
= new Array[String]
129 for f
in compiler
.files
do
131 var hfile
: nullable OFStream = null
133 var cfilename
= ".nit_compile/{f.name}.0.h"
134 hfile
= new OFStream.open
(cfilename
)
135 hfile
.write
"#include \"{hfilename}\
"\n"
136 for key
in f
.required_declarations
do
137 if not compiler
.provided_declarations
.has_key
(key
) then
138 print
"No provided declaration for {key}"
141 hfile
.write compiler
.provided_declarations
[key
]
145 var file
: nullable OFStream = null
146 for vis
in f
.writers
do
147 if vis
== compiler
.header
then continue
148 var total_lines
= vis
.lines
.length
+ vis
.decl_lines
.length
149 if total_lines
== 0 then continue
151 if file
== null or count
> 10000 then
153 if file
!= null then file
.close
154 cfilename
= ".nit_compile/{f.name}.{i}.c"
155 self.toolcontext
.info
("new C source files to compile: {cfilename}", 3)
156 cfiles
.add
(cfilename
)
157 file
= new OFStream.open
(cfilename
)
158 file
.write
"#include \"{f.name}.0.h\
"\n"
161 for l
in vis
.decl_lines
do
165 for l
in vis
.lines
do
170 if file
!= null then file
.close
173 self.toolcontext
.info
("Total C source files to compile: {cfiles.length}", 2)
175 # Generate the Makefile
177 var makename
= ".nit_compile/{mainmodule.name}.mk"
178 var makefile
= new OFStream.open
(makename
)
182 #p = "..".join_path(p)
183 cc_includes
+= " -I \"" + p + "\
""
185 makefile
.write
("CC = ccache cc\nCFLAGS = -g -O2\nCINCL = {cc_includes}\nLDFLAGS ?= \nLDLIBS ?= -lm -lgc\n\n")
186 makefile
.write
("all: {outname}\n\n")
188 var ofiles
= new Array[String]
189 # Compile each generated file
191 var o
= f
.strip_extension
(".c") + ".o"
192 makefile
.write
("{o}: {f}\n\t$(CC) $(CFLAGS) $(CINCL) -D NONITCNI -c -o {o} {f}\n\n")
196 # Add gc_choser.h to aditionnal bodies
197 var gc_chooser
= new ExternCFile("{cc_paths.first}/gc_chooser.c", "-DWITH_LIBGC")
198 compiler
.extern_bodies
.add
(gc_chooser
)
200 # Compile each required extern body into a specific .o
201 for f
in compiler
.extern_bodies
do
202 var basename
= f
.filename
.basename
(".c")
203 var o
= ".nit_compile/{basename}.extern.o"
204 makefile
.write
("{o}: {f.filename}\n\t$(CC) $(CFLAGS) -D NONITCNI {f.cflags} -c -o {o} {f.filename}\n\n")
209 makefile
.write
("{outname}: {ofiles.join(" ")}\n\t$(CC) $(LDFLAGS) -o {outname} {ofiles.join(" ")} $(LDLIBS)\n\n")
211 makefile
.write
("clean:\n\trm {ofiles.join(" ")} 2>/dev/null\n\n")
213 self.toolcontext
.info
("Generated makefile: {makename}", 2)
216 self.toolcontext
.info
("*** END WRITING C: {time1-time0} ***", 2)
218 # Execute the Makefile
220 if self.toolcontext
.opt_no_cc
.value
then return
223 self.toolcontext
.info
("*** COMPILING C ***", 1)
224 var makeflags
= self.toolcontext
.opt_make_flags
.value
225 if makeflags
== null then makeflags
= ""
226 self.toolcontext
.info
("make -B -f {makename} -j 4 {makeflags}", 2)
229 if self.toolcontext
.verbose_level
>= 3 then
230 res
= sys
.system
("make -B -f {makename} -j 4 {makeflags} 2>&1")
232 res
= sys
.system
("make -B -f {makename} -j 4 {makeflags} 2>&1 >/dev/null")
235 toolcontext
.error
(null, "make failed! Error code: {res}.")
239 self.toolcontext
.info
("*** END COMPILING C: {time1-time0} ***", 2)
243 # Singleton that store the knowledge about the compilation process
244 abstract class AbstractCompiler
245 type VISITOR: AbstractCompilerVisitor
247 # The main module of the program currently compiled
248 # Is assigned during the separate compilation
249 var mainmodule
: MModule writable
251 # The real main module of the program
252 var realmainmodule
: MModule
254 # The modeulbuilder used to know the model and the AST
255 var modelbuilder
: ModelBuilder protected writable
257 # Is hardening asked? (see --hardening)
258 fun hardening
: Bool do return self.modelbuilder
.toolcontext
.opt_hardening
.value
260 init(mainmodule
: MModule, modelbuilder
: ModelBuilder)
262 self.mainmodule
= mainmodule
263 self.realmainmodule
= mainmodule
264 self.modelbuilder
= modelbuilder
267 # Force the creation of a new file
268 # The point is to avoid contamination between must-be-compiled-separately files
269 fun new_file
(name
: String): CodeFile
271 var f
= new CodeFile(name
)
276 # The list of all associated files
277 # Used to generate .c files
278 var files
: List[CodeFile] = new List[CodeFile]
280 # Initialize a visitor specific for a compiler engine
281 fun new_visitor
: VISITOR is abstract
283 # Where global declaration are stored (the main .h)
284 var header
: CodeWriter writable
286 # Provide a declaration that can be requested (before or latter) by a visitor
287 fun provide_declaration
(key
: String, s
: String)
289 if self.provided_declarations
.has_key
(key
) then
290 assert self.provided_declarations
[key
] == s
292 self.provided_declarations
[key
] = s
295 private var provided_declarations
= new HashMap[String, String]
298 # This method call compile_header_strucs method that has to be refined
299 fun compile_header
do
301 self.header
.add_decl
("#include <stdlib.h>")
302 self.header
.add_decl
("#include <stdio.h>")
303 self.header
.add_decl
("#include <string.h>")
304 self.header
.add_decl
("#include <gc_chooser.h>")
306 compile_header_structs
308 # Global variable used by the legacy native interface
309 self.header
.add_decl
("extern int glob_argc;")
310 self.header
.add_decl
("extern char **glob_argv;")
311 self.header
.add_decl
("extern val *glob_sys;")
314 # Declaration of structures the live Nit types
315 protected fun compile_header_structs
is abstract
317 # Generate the main C function.
319 # * allocate the Sys object if it exists
320 # * call init if is exists
321 # * call main if it exists
322 fun compile_main_function
324 var v
= self.new_visitor
325 v
.add_decl
("int glob_argc;")
326 v
.add_decl
("char **glob_argv;")
327 v
.add_decl
("val *glob_sys;")
329 if self.modelbuilder
.toolcontext
.opt_typing_test_metrics
.value
then
330 for tag
in count_type_test_tags
do
331 v
.add_decl
("long count_type_test_resolved_{tag};")
332 v
.add_decl
("long count_type_test_unresolved_{tag};")
333 v
.add_decl
("long count_type_test_skipped_{tag};")
334 v
.compiler
.header
.add_decl
("extern long count_type_test_resolved_{tag};")
335 v
.compiler
.header
.add_decl
("extern long count_type_test_unresolved_{tag};")
336 v
.compiler
.header
.add_decl
("extern long count_type_test_skipped_{tag};")
339 v
.add_decl
("int main(int argc, char** argv) \{")
340 v
.add
("glob_argc = argc; glob_argv = argv;")
341 v
.add
("initialize_gc_option();")
342 var main_type
= mainmodule
.sys_type
343 if main_type
!= null then
344 var mainmodule
= v
.compiler
.mainmodule
345 var glob_sys
= v
.init_instance
(main_type
)
346 v
.add
("glob_sys = {glob_sys};")
347 var main_init
= mainmodule
.try_get_primitive_method
("init", main_type
)
348 if main_init
!= null then
349 v
.send
(main_init
, [glob_sys
])
351 var main_method
= mainmodule
.try_get_primitive_method
("main", main_type
)
352 if main_method
!= null then
353 v
.send
(main_method
, [glob_sys
])
357 if self.modelbuilder
.toolcontext
.opt_typing_test_metrics
.value
then
358 v
.add_decl
("long count_type_test_resolved_total = 0;")
359 v
.add_decl
("long count_type_test_unresolved_total = 0;")
360 v
.add_decl
("long count_type_test_skipped_total = 0;")
361 v
.add_decl
("long count_type_test_total_total = 0;")
362 for tag
in count_type_test_tags
do
363 v
.add_decl
("long count_type_test_total_{tag};")
364 v
.add
("count_type_test_total_{tag} = count_type_test_resolved_{tag} + count_type_test_unresolved_{tag} + count_type_test_skipped_{tag};")
365 v
.add
("count_type_test_resolved_total += count_type_test_resolved_{tag};")
366 v
.add
("count_type_test_unresolved_total += count_type_test_unresolved_{tag};")
367 v
.add
("count_type_test_skipped_total += count_type_test_skipped_{tag};")
368 v
.add
("count_type_test_total_total += count_type_test_total_{tag};")
370 v
.add
("printf(\"# dynamic count_type_test: total %l\\n\");")
371 v
.add
("printf(\"\\tresolved\\tunresolved\\tskipped\\ttotal\\n\
");")
372 var tags
= count_type_test_tags
.to_a
375 v
.add
("printf(\"{tag}\
");")
376 v
.add
("printf(\"\\t
%ld
(%.2f
%%)\
", count_type_test_resolved_{tag}, 100.0*count_type_test_resolved_{tag}/count_type_test_total_total);")
377 v
.add
("printf(\"\\t
%ld
(%.2f
%%)\
", count_type_test_unresolved_{tag}, 100.0*count_type_test_unresolved_{tag}/count_type_test_total_total);")
378 v
.add
("printf(\"\\t
%ld
(%.2f
%%)\
", count_type_test_skipped_{tag}, 100.0*count_type_test_skipped_{tag}/count_type_test_total_total);")
379 v
.add
("printf(\"\\t
%ld
(%.2f
%%)\\n\
", count_type_test_total_{tag}, 100.0*count_type_test_total_{tag}/count_type_test_total_total);")
386 # List of additional .c files required to compile (native interface)
387 var extern_bodies
= new Array[ExternCFile]
389 # This is used to avoid adding an extern file more than once
390 private var seen_extern
= new ArraySet[String]
392 # Generate code that check if an instance is correctly initialized
393 fun generate_check_init_instance
(mtype
: MClassType) is abstract
395 # Generate code that initialize the attributes on a new instance
396 fun generate_init_attr
(v
: VISITOR, recv
: RuntimeVariable, mtype
: MClassType)
398 var cds
= mtype
.collect_mclassdefs
(self.mainmodule
).to_a
399 self.mainmodule
.linearize_mclassdefs
(cds
)
401 var n
= self.modelbuilder
.mclassdef2nclassdef
[cd
]
402 for npropdef
in n
.n_propdefs
do
403 if npropdef
isa AAttrPropdef then
404 npropdef
.init_expr
(v
, recv
)
410 # Generate code that check if an attribute is correctly initialized
411 fun generate_check_attr
(v
: VISITOR, recv
: RuntimeVariable, mtype
: MClassType)
413 var cds
= mtype
.collect_mclassdefs
(self.mainmodule
).to_a
414 self.mainmodule
.linearize_mclassdefs
(cds
)
416 var n
= self.modelbuilder
.mclassdef2nclassdef
[cd
]
417 for npropdef
in n
.n_propdefs
do
418 if npropdef
isa AAttrPropdef then
419 npropdef
.check_expr
(v
, recv
)
427 var count_type_test_tags
: Array[String] = ["isa", "as", "auto", "covariance", "erasure"]
428 var count_type_test_resolved
: HashMap[String, Int] = init_count_type_test_tags
429 var count_type_test_unresolved
: HashMap[String, Int] = init_count_type_test_tags
430 var count_type_test_skipped
: HashMap[String, Int] = init_count_type_test_tags
432 protected fun init_count_type_test_tags
: HashMap[String, Int]
434 var res
= new HashMap[String, Int]
435 for tag
in count_type_test_tags
do
441 # Display stats about compilation process
443 # * type tests against resolved types (x isa Collection[Animal])
444 # * type tests against unresolved types (x isa Collection[E])
445 # * type tests skipped
450 if self.modelbuilder
.toolcontext
.opt_typing_test_metrics
.value
then
451 print
"# static count_type_test"
452 print
"\tresolved:\tunresolved\tskipped\ttotal"
453 var count_type_test_total
= init_count_type_test_tags
454 count_type_test_resolved
["total"] = 0
455 count_type_test_unresolved
["total"] = 0
456 count_type_test_skipped
["total"] = 0
457 count_type_test_total
["total"] = 0
458 for tag
in count_type_test_tags
do
459 count_type_test_total
[tag
] = count_type_test_resolved
[tag
] + count_type_test_unresolved
[tag
] + count_type_test_skipped
[tag
]
460 count_type_test_resolved
["total"] += count_type_test_resolved
[tag
]
461 count_type_test_unresolved
["total"] += count_type_test_unresolved
[tag
]
462 count_type_test_skipped
["total"] += count_type_test_skipped
[tag
]
463 count_type_test_total
["total"] += count_type_test_total
[tag
]
465 var count_type_test
= count_type_test_total
["total"]
466 var tags
= count_type_test_tags
.to_a
470 printn
"\t{count_type_test_resolved[tag]} ({div(count_type_test_resolved[tag],count_type_test)}%)"
471 printn
"\t{count_type_test_unresolved[tag]} ({div(count_type_test_unresolved[tag],count_type_test)}%)"
472 printn
"\t{count_type_test_skipped[tag]} ({div(count_type_test_skipped[tag],count_type_test)}%)"
473 printn
"\t{count_type_test_total[tag]} ({div(count_type_test_total[tag],count_type_test)}%)"
480 # Avoid division by zero by returning the string "n/a"
481 fun div
(a
,b
:Int):String
483 if b
== 0 then return "n/a"
484 return ((a
*10000/b
).to_f
/ 100.0).to_precision
(2)
488 # A file unit (may be more than one file if
489 # A file unit aim to be autonomous and is made or one or more `CodeWriter`s
492 var writers
= new Array[CodeWriter]
493 var required_declarations
= new HashSet[String]
496 # Where to store generated lines
499 var lines
: List[String] = new List[String]
500 var decl_lines
: List[String] = new List[String]
502 # Add a line in the main part of the generated C
503 fun add
(s
: String) do self.lines
.add
(s
)
506 # (used for local or global declaration)
507 fun add_decl
(s
: String) do self.decl_lines
.add
(s
)
512 file
.writers
.add
(self)
516 # A visitor on the AST of property definition that generate the C code.
517 abstract class AbstractCompilerVisitor
519 type COMPILER: AbstractCompiler
521 # The associated compiler
522 var compiler
: COMPILER
524 # The current visited AST node
525 var current_node
: nullable ANode writable = null
528 var frame
: nullable Frame writable
530 # Alias for self.compiler.mainmodule.object_type
531 fun object_type
: MClassType do return self.compiler
.mainmodule
.object_type
533 # Alias for self.compiler.mainmodule.bool_type
534 fun bool_type
: MClassType do return self.compiler
.mainmodule
.bool_type
536 var writer
: CodeWriter
538 init(compiler
: COMPILER)
540 self.compiler
= compiler
541 self.writer
= new CodeWriter(compiler
.files
.last
)
544 # Force to get the primitive class named `name' or abort
545 fun get_class
(name
: String): MClass do return self.compiler
.mainmodule
.get_primitive_class
(name
)
547 # Force to get the primitive property named `name' in the instance `recv' or abort
548 fun get_property
(name
: String, recv
: MType): MMethod
550 return self.compiler
.modelbuilder
.force_get_primitive_method
(self.current_node
.as(not null), name
, recv
, self.compiler
.mainmodule
)
553 fun compile_callsite
(callsite
: CallSite, args
: Array[RuntimeVariable]): nullable RuntimeVariable
555 return self.send
(callsite
.mproperty
, args
)
558 fun calloc_array
(ret_type
: MType, arguments
: Array[RuntimeVariable]) is abstract
560 fun native_array_def
(pname
: String, ret_type
: nullable MType, arguments
: Array[RuntimeVariable]) is abstract
562 # Transform varargs, in raw arguments, into a single argument of type Array
563 # Note: this method modify the given `args`
564 # If there is no vararg, then `args` is not modified.
565 fun varargize
(mpropdef
: MPropDef, msignature
: MSignature, args
: Array[RuntimeVariable])
567 var recv
= args
.first
568 var vararg_rank
= msignature
.vararg_rank
569 if vararg_rank
>= 0 then
570 assert args
.length
>= msignature
.arity
+ 1 # because of self
572 args
= new Array[RuntimeVariable]
574 args
.add
(rawargs
.first
) # recv
576 for i
in [0..vararg_rank
[ do
577 args
.add
(rawargs
[i
+1])
580 var vararg_lastrank
= vararg_rank
+ rawargs
.length-1-msignature
.arity
581 var vararg
= new Array[RuntimeVariable]
582 for i
in [vararg_rank
..vararg_lastrank
] do
583 vararg
.add
(rawargs
[i
+1])
586 var elttype
= msignature
.mparameters
[vararg_rank
].mtype
587 args
.add
(self.vararg_instance
(mpropdef
, recv
, vararg
, elttype
))
589 for i
in [vararg_lastrank
+1..rawargs
.length-1
[ do
590 args
.add
(rawargs
[i
+1])
593 rawargs
.add_all
(args
)
599 # Anchor a type to the main module and the current receiver
600 fun anchor
(mtype
: MType): MType
602 if not mtype
.need_anchor
then return mtype
603 return mtype
.anchor_to
(self.compiler
.mainmodule
, self.frame
.receiver
)
606 fun resolve_for
(mtype
: MType, recv
: RuntimeVariable): MType
608 if not mtype
.need_anchor
then return mtype
609 return mtype
.resolve_for
(recv
.mcasttype
, self.frame
.receiver
, self.compiler
.mainmodule
, true)
612 # Unsafely cast a value to a new type
613 # ie the result share the same C variable but my have a different mcasttype
614 # NOTE: if the adaptation is useless then `value' is returned as it.
615 # ENSURE: return.name == value.name
616 fun autoadapt
(value
: RuntimeVariable, mtype
: MType): RuntimeVariable
618 mtype
= self.anchor
(mtype
)
619 var valmtype
= value
.mcasttype
620 if valmtype
.is_subtype
(self.compiler
.mainmodule
, null, mtype
) then
624 if valmtype
isa MNullableType and valmtype
.mtype
.is_subtype
(self.compiler
.mainmodule
, null, mtype
) then
625 var res
= new RuntimeVariable(value
.name
, valmtype
, valmtype
.mtype
)
628 var res
= new RuntimeVariable(value
.name
, valmtype
, mtype
)
633 # Generate a super call from a method definition
634 fun supercall
(m
: MMethodDef, recvtype
: MClassType, args
: Array[RuntimeVariable]): nullable RuntimeVariable is abstract
636 fun adapt_signature
(m
: MMethodDef, args
: Array[RuntimeVariable]) is abstract
638 # Box or unbox a value to another type iff a C type conversion is needed
639 # ENSURE: result.mtype.ctype == mtype.ctype
640 fun autobox
(value
: RuntimeVariable, mtype
: MType): RuntimeVariable is abstract
642 # Generate a polymorphic subtype test
643 fun type_test
(value
: RuntimeVariable, mtype
: MType, tag
: String): RuntimeVariable is abstract
645 # Generate the code required to dynamically check if 2 objects share the same runtime type
646 fun is_same_type_test
(value1
, value2
: RuntimeVariable): RuntimeVariable is abstract
648 # Generate a Nit "is" for two runtime_variables
649 fun equal_test
(value1
, value2
: RuntimeVariable): RuntimeVariable is abstract
653 # Generate a static call on a method definition
654 fun call
(m
: MMethodDef, recvtype
: MClassType, args
: Array[RuntimeVariable]): nullable RuntimeVariable is abstract
656 # Generate a polymorphic send for the method `m' and the arguments `args'
657 fun send
(m
: MMethod, args
: Array[RuntimeVariable]): nullable RuntimeVariable is abstract
659 # Generate a monomorphic send for the method `m', the type `t' and the arguments `args'
660 fun monomorphic_send
(m
: MMethod, t
: MType, args
: Array[RuntimeVariable]): nullable RuntimeVariable
662 assert t
isa MClassType
663 var propdef
= m
.lookup_first_definition
(self.compiler
.mainmodule
, t
)
664 return self.call
(propdef
, t
, args
)
667 # Attributes handling
669 # Generate a polymorphic attribute is_set test
670 fun isset_attribute
(a
: MAttribute, recv
: RuntimeVariable): RuntimeVariable is abstract
672 # Generate a polymorphic attribute read
673 fun read_attribute
(a
: MAttribute, recv
: RuntimeVariable): RuntimeVariable is abstract
675 # Generate a polymorphic attribute write
676 fun write_attribute
(a
: MAttribute, recv
: RuntimeVariable, value
: RuntimeVariable) is abstract
680 # Add a check and an abort for a null reciever if needed
681 fun check_recv_notnull
(recv
: RuntimeVariable)
683 if self.compiler
.modelbuilder
.toolcontext
.opt_no_check_other
.value
then return
685 var maybenull
= recv
.mcasttype
isa MNullableType or recv
.mcasttype
isa MNullType
687 self.add
("if ({recv} == NULL) \{")
688 self.add_abort
("Reciever is null")
693 # Generate a check-init-instance
694 fun check_init_instance
(recv
: RuntimeVariable, mtype
: MClassType) is abstract
698 private var names
: HashSet[String] = new HashSet[String]
699 private var last
: Int = 0
701 # Return a new name based on `s' and unique in the visitor
702 fun get_name
(s
: String): String
704 if not self.names
.has
(s
) then
708 var i
= self.last
+ 1
711 if not self.names
.has
(s2
) then
720 # Return an unique and stable identifier associated with an escapemark
721 fun escapemark_name
(e
: nullable EscapeMark): String
724 if escapemark_names
.has_key
(e
) then return escapemark_names
[e
]
726 if name
== null then name
= "label"
727 name
= get_name
(name
)
728 escapemark_names
[e
] = name
732 private var escapemark_names
= new HashMap[EscapeMark, String]
734 # Return a "const char*" variable associated to the classname of the dynamic type of an object
735 # NOTE: we do not return a RuntimeVariable "NativeString" as the class may not exist in the module/program
736 fun class_name_string
(value
: RuntimeVariable): String is abstract
740 protected var variables
: HashMap[Variable, RuntimeVariable] = new HashMap[Variable, RuntimeVariable]
742 # Return the local runtime_variable associated to a Nit local variable
743 fun variable
(variable
: Variable): RuntimeVariable
745 if self.variables
.has_key
(variable
) then
746 return self.variables
[variable
]
748 var name
= self.get_name
("var_{variable.name}")
749 var mtype
= variable
.declared_type
.as(not null)
750 mtype
= self.anchor
(mtype
)
751 var res
= new RuntimeVariable(name
, mtype
, mtype
)
752 self.add_decl
("{mtype.ctype} {name} /* var {variable}: {mtype} */;")
753 self.variables
[variable
] = res
758 # Return a new uninitialized local runtime_variable
759 fun new_var
(mtype
: MType): RuntimeVariable
761 mtype
= self.anchor
(mtype
)
762 var name
= self.get_name
("var")
763 var res
= new RuntimeVariable(name
, mtype
, mtype
)
764 self.add_decl
("{mtype.ctype} {name} /* : {mtype} */;")
768 # Return a new uninitialized named runtime_variable
769 fun new_named_var
(mtype
: MType, name
: String): RuntimeVariable
771 mtype
= self.anchor
(mtype
)
772 var res
= new RuntimeVariable(name
, mtype
, mtype
)
773 self.add_decl
("{mtype.ctype} {name} /* : {mtype} */;")
777 # Correctly assign a left and a right value
778 # Boxing and unboxing is performed if required
779 fun assign
(left
, right
: RuntimeVariable)
781 right
= self.autobox
(right
, left
.mtype
)
782 self.add
("{left} = {right};")
787 # Generate a alloc-instance + init-attributes
788 fun init_instance
(mtype
: MClassType): RuntimeVariable is abstract
790 # Generate an integer value
791 fun int_instance
(value
: Int): RuntimeVariable
793 var res
= self.new_var
(self.get_class
("Int").mclass_type
)
794 self.add
("{res} = {value};")
798 # Generate a string value
799 fun string_instance
(string
: String): RuntimeVariable
801 var mtype
= self.get_class
("String").mclass_type
802 var name
= self.get_name
("varonce")
803 self.add_decl
("static {mtype.ctype} {name};")
804 var res
= self.new_var
(mtype
)
805 self.add
("if ({name}) \{")
806 self.add
("{res} = {name};")
807 self.add
("\} else \{")
808 var nat
= self.new_var
(self.get_class
("NativeString").mclass_type
)
809 self.add
("{nat} = \"{string.escape_to_c}\
";")
810 var res2
= self.init_instance
(mtype
)
811 self.add
("{res} = {res2};")
812 var length
= self.int_instance
(string
.length
)
813 self.send
(self.get_property
("with_native", mtype
), [res
, nat
, length
])
814 self.check_init_instance
(res
, mtype
)
815 self.add
("{name} = {res};")
820 # Generate an array value
821 fun array_instance
(array
: Array[RuntimeVariable], elttype
: MType): RuntimeVariable is abstract
823 # Get an instance of a array for a vararg
824 fun vararg_instance
(mpropdef
: MPropDef, recv
: RuntimeVariable, varargs
: Array[RuntimeVariable], elttype
: MType): RuntimeVariable is abstract
828 # Add a line in the main part of the generated C
829 fun add
(s
: String) do self.writer
.lines
.add
(s
)
832 # (used for local or global declaration)
833 fun add_decl
(s
: String) do self.writer
.decl_lines
.add
(s
)
835 # Request the presence of a global declaration
836 fun require_declaration
(key
: String)
838 self.writer
.file
.required_declarations
.add
(key
)
841 # Add a declaration in the local-header
842 # The declaration is ensured to be present once
843 fun declare_once
(s
: String)
845 self.compiler
.provide_declaration
(s
, s
)
846 self.require_declaration
(s
)
849 # look for a needed .h and .c file for a given .nit source-file
850 # FIXME: bad API, parameter should be a MModule, not its source-file
851 fun add_extern
(file
: String)
853 file
= file
.strip_extension
(".nit")
854 var tryfile
= file
+ ".nit.h"
855 if tryfile
.file_exists
then
856 self.declare_once
("#include \"{"..".join_path(tryfile)}\
"")
858 tryfile
= file
+ "_nit.h"
859 if tryfile
.file_exists
then
860 self.declare_once
("#include \"{"..".join_path(tryfile)}\
"")
863 if self.compiler
.seen_extern
.has
(file
) then return
864 self.compiler
.seen_extern
.add
(file
)
865 tryfile
= file
+ ".nit.c"
866 if not tryfile
.file_exists
then
867 tryfile
= file
+ "_nit.c"
868 if not tryfile
.file_exists
then return
870 var f
= new ExternCFile(tryfile
, "")
871 self.compiler
.extern_bodies
.add
(f
)
874 # Return a new local runtime_variable initialized with the C expression `cexpr'.
875 fun new_expr
(cexpr
: String, mtype
: MType): RuntimeVariable
877 var res
= new_var
(mtype
)
878 self.add
("{res} = {cexpr};")
882 # Generate generic abort
883 # used by aborts, asserts, casts, etc.
884 fun add_abort
(message
: String)
886 if self.current_node
!= null and self.current_node
.location
.file
!= null then
887 self.add
("fprintf(stderr, \"Runtime error
: %s
(%s
:%d
)\\n\
", \"{message.escape_to_c}\
", \"{self.current_node.location.file.filename.escape_to_c}\
", {current_node.location.line_start});")
889 self.add
("fprintf(stderr, \"Runtime error
: %s\\n\
", \"{message.escape_to_c}\
");")
894 # Generate a return with the value `s'
895 fun ret
(s
: RuntimeVariable)
897 self.assign
(self.frame
.returnvar
.as(not null), s
)
898 self.add
("goto {self.frame.returnlabel.as(not null)};")
901 # Compile a statement (if any)
902 fun stmt
(nexpr
: nullable AExpr)
904 if nexpr
== null then return
905 var old
= self.current_node
906 self.current_node
= nexpr
908 self.current_node
= old
911 # Compile an expression an return its result
912 # `mtype` is the expected return type, pass null if no specific type is expected.
913 fun expr
(nexpr
: AExpr, mtype
: nullable MType): RuntimeVariable
915 var old
= self.current_node
916 self.current_node
= nexpr
917 var res
= nexpr
.expr
(self).as(not null)
918 if mtype
!= null then
919 mtype
= self.anchor
(mtype
)
920 res
= self.autobox
(res
, mtype
)
922 res
= autoadapt
(res
, nexpr
.mtype
.as(not null))
923 var implicit_cast_to
= nexpr
.implicit_cast_to
924 if implicit_cast_to
!= null and not self.compiler
.modelbuilder
.toolcontext
.opt_no_check_autocast
.value
then
925 var castres
= self.type_test
(res
, implicit_cast_to
, "auto")
926 self.add
("if (!{castres}) \{")
927 self.add_abort
("Cast failed")
929 res
= autoadapt
(res
, implicit_cast_to
)
931 self.current_node
= old
935 # Alias for `self.expr(nexpr, self.bool_type)'
936 fun expr_bool
(nexpr
: AExpr): RuntimeVariable do return expr
(nexpr
, bool_type
)
938 # Safely show a debug message on the current node and repeat the message in the C code as a comment
939 fun debug
(message
: String)
941 var node
= self.current_node
947 self.add
("/* DEBUG: {message} */")
951 # A C function associated to a Nit method
952 # Because of customization, a given Nit method can be compiler more that once
953 abstract class AbstractRuntimeFunction
955 type COMPILER: AbstractCompiler
956 type VISITOR: AbstractCompilerVisitor
958 # The associated Nit method
959 var mmethoddef
: MMethodDef
961 # The mangled c name of the runtime_function
962 # Subclasses should redefine `build_c_name` instead
965 var res
= self.c_name_cache
966 if res
!= null then return res
967 res
= self.build_c_name
968 self.c_name_cache
= res
972 # Non cached version of `c_name`
973 protected fun build_c_name
: String is abstract
975 protected var c_name_cache
: nullable String writable = null
977 # Implements a call of the runtime_function
978 # May inline the body or generate a C function call
979 fun call
(v
: VISITOR, arguments
: Array[RuntimeVariable]): nullable RuntimeVariable is abstract
981 # Generate the code for the RuntimeFunction
982 # Warning: compile more than once compilation makes CC unhappy
983 fun compile_to_c
(compiler
: COMPILER) is abstract
986 # A runtime variable hold a runtime value in C.
987 # Runtime variables are associated to Nit local variables and intermediate results in Nit expressions.
989 # The tricky point is that a single C variable can be associated to more than one RuntimeVariable because the static knowledge of the type of an expression can vary in the C code.
990 class RuntimeVariable
991 # The name of the variable in the C code
994 # The static type of the variable (as declard in C)
997 # The current casted type of the variable (as known in Nit)
998 var mcasttype
: MType writable
1000 # If the variable exaclty a mcasttype?
1001 # false (usual value) means that the variable is a mcasttype or a subtype.
1002 var is_exact
: Bool writable = false
1004 init(name
: String, mtype
: MType, mcasttype
: MType)
1008 self.mcasttype
= mcasttype
1009 assert not mtype
.need_anchor
1010 assert not mcasttype
.need_anchor
1013 redef fun to_s
do return name
1018 if self.is_exact
then
1019 exact_str
= " exact"
1024 if self.mtype
== self.mcasttype
then
1025 type_str
= "{mtype}{exact_str}"
1027 type_str
= "{mtype}({mcasttype}{exact_str})"
1029 return "<{name}:{type_str}>"
1033 # A frame correspond to a visited property in a GlobalCompilerVisitor
1036 type VISITOR: AbstractCompilerVisitor
1038 # The associated visitor
1039 var visitor
: VISITOR
1041 # The executed property.
1042 # A Method in case of a call, an attribute in case of a default initialization.
1043 var mpropdef
: MPropDef
1045 # The static type of the receiver
1046 var receiver
: MClassType
1048 # Arguments of the method (the first is the receiver)
1049 var arguments
: Array[RuntimeVariable]
1051 # The runtime_variable associated to the return (in a function)
1052 var returnvar
: nullable RuntimeVariable writable = null
1054 # The label at the end of the property
1055 var returnlabel
: nullable String writable = null
1058 # An extern C file to compile
1060 # The filename of the file
1061 var filename
: String
1062 # Additionnal specific CC compiler -c flags
1067 # Mangle a string to be a unique valid C identifier
1068 fun to_cmangle
: String
1070 var res
= new Buffer
1071 var underscore
= false
1073 if (c
>= 'a' and c
<= 'z') or (c
>='A' and c
<= 'Z') then
1079 res
.append
('_'.ascii
.to_s
)
1082 if c
>= '0' and c
<= '9' then
1085 else if c
== '_' then
1090 res
.append
(c
.ascii
.to_s
)
1098 # Escape " \ ' and non printable characters for literal C strings or characters
1099 fun escape_to_c
: String
1105 else if c
== '\0' then
1107 else if c
== '"' then
1109 else if c == '\'' then
1111 else if c == '\\
' then
1113 else if c.ascii < 32 then
1114 b.append("\\{c.ascii.to_base(8, false)}")
1124 # Return the C type associated to a given Nit static type
1125 fun ctype: String do return "val*"
1127 fun ctypename: String do return "val"
1129 # Return the name of the C structure associated to a Nit live type
1130 fun c_name: String is abstract
1131 protected var c_name_cache: nullable String protected writable
1134 redef class MClassType
1137 var res = self.c_name_cache
1138 if res != null then return res
1139 res = "{mclass.intro_mmodule.name.to_cmangle}__{mclass.name.to_cmangle}"
1140 self.c_name_cache = res
1144 redef fun ctype: String
1146 if mclass.name == "Int" then
1148 else if mclass.name == "Bool" then
1150 else if mclass.name == "Char" then
1152 else if mclass.name == "Float" then
1154 else if mclass.name == "NativeString" then
1156 else if mclass.name == "NativeArray" then
1158 else if mclass.kind == extern_kind then
1165 redef fun ctypename: String
1167 if mclass.name == "Int" then
1169 else if mclass.name == "Bool" then
1171 else if mclass.name == "Char" then
1173 else if mclass.name == "Float" then
1175 else if mclass.name == "NativeString" then
1177 else if mclass.name == "NativeArray" then
1178 #return "{self.arguments.first.ctype}*"
1180 else if mclass.kind == extern_kind then
1188 redef class MGenericType
1191 var res = self.c_name_cache
1192 if res != null then return res
1194 for t in self.arguments do
1195 res = res + t.c_name
1197 self.c_name_cache = res
1202 redef class MParameterType
1205 var res = self.c_name_cache
1206 if res != null then return res
1207 res = "{self.mclass.c_name}_FT{self.rank}"
1208 self.c_name_cache = res
1213 redef class MVirtualType
1216 var res = self.c_name_cache
1217 if res != null then return res
1218 res = "{self.mproperty.intro.mclassdef.mclass.c_name}_VT{self.mproperty.name}"
1219 self.c_name_cache = res
1224 redef class MNullableType
1227 var res = self.c_name_cache
1228 if res != null then return res
1229 res = "nullable_{self.mtype.c_name}"
1230 self.c_name_cache = res
1236 # Return the name of the C structure associated to a Nit class
1237 fun c_name: String do
1238 var res = self.c_name_cache
1239 if res != null then return res
1240 res = "{intro_mmodule.name.to_cmangle}__{name.to_cmangle}"
1241 self.c_name_cache = res
1244 private var c_name_cache: nullable String
1247 redef class MProperty
1248 fun c_name: String do
1249 var res = self.c_name_cache
1250 if res != null then return res
1251 res = "{self.intro.c_name}"
1252 self.c_name_cache = res
1255 private var c_name_cache: nullable String
1258 redef class MPropDef
1259 type VISITOR: AbstractCompilerVisitor
1261 private var c_name_cache: nullable String
1263 # The mangled name associated to the property
1266 var res = self.c_name_cache
1267 if res != null then return res
1268 res = "{self.mclassdef.mmodule.name.to_cmangle}__{self.mclassdef.mclass.name.to_cmangle}__{self.mproperty.name.to_cmangle}"
1269 self.c_name_cache = res
1274 redef class MMethodDef
1275 # Can the body be inlined?
1276 fun can_inline(v: VISITOR): Bool
1278 var modelbuilder = v.compiler.modelbuilder
1279 if modelbuilder.mpropdef2npropdef.has_key(self) then
1280 var npropdef = modelbuilder.mpropdef2npropdef[self]
1281 return npropdef.can_inline
1282 else if self.mproperty.name == "init" then
1283 # Automatic free init is always inlined since it is empty or contains only attribtes assigments
1290 # Inline the body in another visitor
1291 fun compile_inside_to_c(v: VISITOR, arguments: Array[RuntimeVariable]): nullable RuntimeVariable
1293 var modelbuilder = v.compiler.modelbuilder
1294 if modelbuilder.mpropdef2npropdef.has_key(self) then
1295 var npropdef = modelbuilder.mpropdef2npropdef[self]
1296 var oldnode = v.current_node
1297 v.current_node = npropdef
1298 self.compile_parameter_check(v, arguments)
1299 npropdef.compile_to_c(v, self, arguments)
1300 v.current_node = oldnode
1301 else if self.mproperty.name == "init" then
1302 var nclassdef = modelbuilder.mclassdef2nclassdef[self.mclassdef]
1303 var oldnode = v.current_node
1304 v.current_node = nclassdef
1305 self.compile_parameter_check(v, arguments)
1306 nclassdef.compile_to_c(v, self, arguments)
1307 v.current_node = oldnode
1314 # Generate type checks in the C code to check covariant parameters
1315 fun compile_parameter_check(v: VISITOR, arguments: Array[RuntimeVariable])
1317 if v.compiler.modelbuilder.toolcontext.opt_no_check_covariance.value then return
1319 for i in [0..msignature.arity[ do
1320 # skip test for vararg since the array is instantiated with the correct polymorphic type
1321 if msignature.vararg_rank == i then continue
1323 # skip if the cast is not required
1324 var origmtype = self.mproperty.intro.msignature.mparameters[i].mtype
1325 if not origmtype.need_anchor then continue
1327 # get the parameter type
1328 var mtype = self.msignature.mparameters[i].mtype
1331 # note that v decides if and how to implements the cast
1332 v.add("/* Covariant cast for argument {i} ({self.msignature.mparameters[i].name}) {arguments[i+1].inspect} isa {mtype} */")
1333 var cond = v.type_test(arguments[i+1], mtype, "covariance")
1334 v.add("if (!{cond}) \{")
1335 v.add_abort("Cast failed")
1343 redef class APropdef
1344 fun compile_to_c(v: AbstractCompilerVisitor, mpropdef: MMethodDef, arguments: Array[RuntimeVariable])
1346 v.add("printf(\"NOT YET IMPLEMENTED {class_name} {mpropdef} at {location.to_s}\\n\");")
1347 debug("Not yet implemented")
1350 fun can_inline: Bool do return true
1353 redef class AConcreteMethPropdef
1354 redef fun compile_to_c(v, mpropdef, arguments)
1356 for i in [0..mpropdef.msignature.arity[ do
1357 var variable = self.n_signature.n_params[i].variable.as(not null)
1358 v.assign(v.variable(variable), arguments[i+1])
1360 # Call the implicit super-init
1361 var auto_super_inits = self.auto_super_inits
1362 if auto_super_inits != null then
1363 var selfarg = [arguments.first]
1364 for auto_super_init in auto_super_inits do
1365 if auto_super_init.intro.msignature.arity == 0 then
1366 v.send(auto_super_init, selfarg)
1368 v.send(auto_super_init, arguments)
1372 v.stmt(self.n_block)
1375 redef fun can_inline
1377 if self.auto_super_inits != null then return false
1378 var nblock = self.n_block
1379 if nblock == null then return true
1380 if (mpropdef.mproperty.name == "==" or mpropdef.mproperty.name == "!=") and mpropdef.mclassdef.mclass.name == "Object" then return true
1381 if nblock isa ABlockExpr and nblock.n_expr.length == 0 then return true
1386 redef class AInternMethPropdef
1387 redef fun compile_to_c(v, mpropdef, arguments)
1389 var pname = mpropdef.mproperty.name
1390 var cname = mpropdef.mclassdef.mclass.name
1391 var ret = mpropdef.msignature.return_mtype
1393 ret = v.resolve_for(ret, arguments.first)
1395 if pname != "==" and pname != "!=" then
1396 v.adapt_signature(mpropdef, arguments)
1398 if cname == "Int" then
1399 if pname == "output" then
1400 v.add("printf(\"%ld\\n\", {arguments.first});")
1402 else if pname == "object_id" then
1403 v.ret(arguments.first)
1405 else if pname == "+" then
1406 v.ret(v.new_expr("{arguments[0]} + {arguments[1]}", ret.as(not null)))
1408 else if pname == "-" then
1409 v.ret(v.new_expr("{arguments[0]} - {arguments[1]}", ret.as(not null)))
1411 else if pname == "unary -" then
1412 v.ret(v.new_expr("-{arguments[0]}", ret.as(not null)))
1414 else if pname == "succ" then
1415 v.ret(v.new_expr("{arguments[0]}+1", ret.as(not null)))
1417 else if pname == "prec" then
1418 v.ret(v.new_expr("{arguments[0]}-1", ret.as(not null)))
1420 else if pname == "*" then
1421 v.ret(v.new_expr("{arguments[0]} * {arguments[1]}", ret.as(not null)))
1423 else if pname == "/" then
1424 v.ret(v.new_expr("{arguments[0]} / {arguments[1]}", ret.as(not null)))
1426 else if pname == "%" then
1427 v.ret(v.new_expr("{arguments[0]} % {arguments[1]}", ret.as(not null)))
1429 else if pname == "lshift" then
1430 v.ret(v.new_expr("{arguments[0]} << {arguments[1]}", ret.as(not null)))
1432 else if pname == "rshift" then
1433 v.ret(v.new_expr("{arguments[0]} >> {arguments[1]}", ret.as(not null)))
1435 else if pname == "==" then
1436 v.ret(v.equal_test(arguments[0], arguments[1]))
1438 else if pname == "!=" then
1439 var res = v.equal_test(arguments[0], arguments[1])
1440 v.ret(v.new_expr("!{res}", ret.as(not null)))
1442 else if pname == "<" then
1443 v.ret(v.new_expr("{arguments[0]} < {arguments[1]}", ret.as(not null)))
1445 else if pname == ">" then
1446 v.ret(v.new_expr("{arguments[0]} > {arguments[1]}", ret.as(not null)))
1448 else if pname == "<=" then
1449 v.ret(v.new_expr("{arguments[0]} <= {arguments[1]}", ret.as(not null)))
1451 else if pname == ">=" then
1452 v.ret(v.new_expr("{arguments[0]} >= {arguments[1]}", ret.as(not null)))
1454 else if pname == "to_f" then
1455 v.ret(v.new_expr("(double){arguments[0]}", ret.as(not null)))
1457 else if pname == "ascii" then
1458 v.ret(v.new_expr("{arguments[0]}", ret.as(not null)))
1461 else if cname == "Char" then
1462 if pname == "output" then
1463 v.add("printf(\"%c\", {arguments.first});")
1465 else if pname == "object_id" then
1466 v.ret(arguments.first)
1468 else if pname == "+" then
1469 v.ret(v.new_expr("{arguments[0]} + {arguments[1]}", ret.as(not null)))
1471 else if pname == "-" then
1472 v.ret(v.new_expr("{arguments[0]} - {arguments[1]}", ret.as(not null)))
1474 else if pname == "==" then
1475 v.ret(v.equal_test(arguments[0], arguments[1]))
1477 else if pname == "!=" then
1478 var res = v.equal_test(arguments[0], arguments[1])
1479 v.ret(v.new_expr("!{res}", ret.as(not null)))
1481 else if pname == "succ" then
1482 v.ret(v.new_expr("{arguments[0]}+1", ret.as(not null)))
1484 else if pname == "prec" then
1485 v.ret(v.new_expr("{arguments[0]}-1", ret.as(not null)))
1487 else if pname == "<" then
1488 v.ret(v.new_expr("{arguments[0]} < {arguments[1]}", ret.as(not null)))
1490 else if pname == ">" then
1491 v.ret(v.new_expr("{arguments[0]} > {arguments[1]}", ret.as(not null)))
1493 else if pname == "<=" then
1494 v.ret(v.new_expr("{arguments[0]} <= {arguments[1]}", ret.as(not null)))
1496 else if pname == ">=" then
1497 v.ret(v.new_expr("{arguments[0]} >= {arguments[1]}", ret.as(not null)))
1499 else if pname == "to_i" then
1500 v.ret(v.new_expr("{arguments[0]}-'0'", ret.as(not null)))
1502 else if pname == "ascii" then
1503 v.ret(v.new_expr("(unsigned char){arguments[0]}", ret.as(not null)))
1506 else if cname == "Bool" then
1507 if pname == "output" then
1508 v.add("printf({arguments.first}?\"true\\n\":\"false\\n\");")
1510 else if pname == "object_id" then
1511 v.ret(arguments.first)
1513 else if pname == "==" then
1514 v.ret(v.equal_test(arguments[0], arguments[1]))
1516 else if pname == "!=" then
1517 var res = v.equal_test(arguments[0], arguments[1])
1518 v.ret(v.new_expr("!{res}", ret.as(not null)))
1521 else if cname == "Float" then
1522 if pname == "output" then
1523 v.add("printf(\"%f\\n\", {arguments.first});")
1525 else if pname == "object_id" then
1526 v.ret(v.new_expr("(double){arguments.first}", ret.as(not null)))
1528 else if pname == "+" then
1529 v.ret(v.new_expr("{arguments[0]} + {arguments[1]}", ret.as(not null)))
1531 else if pname == "-" then
1532 v.ret(v.new_expr("{arguments[0]} - {arguments[1]}", ret.as(not null)))
1534 else if pname == "unary -" then
1535 v.ret(v.new_expr("-{arguments[0]}", ret.as(not null)))
1537 else if pname == "succ" then
1538 v.ret(v.new_expr("{arguments[0]}+1", ret.as(not null)))
1540 else if pname == "prec" then
1541 v.ret(v.new_expr("{arguments[0]}-1", ret.as(not null)))
1543 else if pname == "*" then
1544 v.ret(v.new_expr("{arguments[0]} * {arguments[1]}", ret.as(not null)))
1546 else if pname == "/" then
1547 v.ret(v.new_expr("{arguments[0]} / {arguments[1]}", ret.as(not null)))
1549 else if pname == "==" then
1550 v.ret(v.equal_test(arguments[0], arguments[1]))
1552 else if pname == "!=" then
1553 var res = v.equal_test(arguments[0], arguments[1])
1554 v.ret(v.new_expr("!{res}", ret.as(not null)))
1556 else if pname == "<" then
1557 v.ret(v.new_expr("{arguments[0]} < {arguments[1]}", ret.as(not null)))
1559 else if pname == ">" then
1560 v.ret(v.new_expr("{arguments[0]} > {arguments[1]}", ret.as(not null)))
1562 else if pname == "<=" then
1563 v.ret(v.new_expr("{arguments[0]} <= {arguments[1]}", ret.as(not null)))
1565 else if pname == ">=" then
1566 v.ret(v.new_expr("{arguments[0]} >= {arguments[1]}", ret.as(not null)))
1568 else if pname == "to_i" then
1569 v.ret(v.new_expr("(long){arguments[0]}", ret.as(not null)))
1572 else if cname == "Char" then
1573 if pname == "output" then
1574 v.add("printf(\"%c\", {arguments.first});")
1576 else if pname == "object_id" then
1577 v.ret(arguments.first)
1579 else if pname == "==" then
1580 v.ret(v.equal_test(arguments[0], arguments[1]))
1582 else if pname == "!=" then
1583 var res = v.equal_test(arguments[0], arguments[1])
1584 v.ret(v.new_expr("!{res}", ret.as(not null)))
1586 else if pname == "ascii" then
1587 v.ret(v.new_expr("{arguments[0]}", ret.as(not null)))
1590 else if cname == "NativeString" then
1591 if pname == "[]" then
1592 v.ret(v.new_expr("{arguments[0]}[{arguments[1]}]", ret.as(not null)))
1594 else if pname == "[]=" then
1595 v.add("{arguments[0]}[{arguments[1]}]={arguments[2]};")
1597 else if pname == "copy_to" then
1598 v.add("memcpy({arguments[1]}+{arguments[4]},{arguments[0]}+{arguments[3]},{arguments[2]});")
1600 else if pname == "atoi" then
1601 v.ret(v.new_expr("atoi({arguments[0]});", ret.as(not null)))
1604 else if cname == "NativeArray" then
1605 v.native_array_def(pname, ret, arguments)
1608 if pname == "exit" then
1609 v.add("exit({arguments[1]});")
1611 else if pname == "sys" then
1612 v.ret(v.new_expr("glob_sys", ret.as(not null)))
1614 else if pname == "calloc_string" then
1615 v.ret(v.new_expr("(char*)nit_alloc({arguments[1]})", ret.as(not null)))
1617 else if pname == "calloc_array" then
1618 v.calloc_array(ret.as(not null), arguments)
1620 else if pname == "object_id" then
1621 v.ret(v.new_expr("(long){arguments.first}", ret.as(not null)))
1623 else if pname == "is_same_type" then
1624 v.ret(v.is_same_type_test(arguments[0], arguments[1]))
1626 else if pname == "output_class_name" then
1627 var nat = v.class_name_string(arguments.first)
1628 v.add("printf(\"%s\\n\", {nat});")
1630 else if pname == "native_class_name" then
1631 var nat = v.class_name_string(arguments.first)
1632 v.ret(v.new_expr("(char*){nat}", ret.as(not null)))
1634 else if pname == "force_garbage_collection" then
1635 v.add("nit_gcollect();")
1638 v.add("printf(\"NOT YET IMPLEMENTED {class_name}:{mpropdef} at {location.to_s}\\n\");")
1639 debug("Not implemented {mpropdef}")
1643 redef class AExternMethPropdef
1644 redef fun compile_to_c(v, mpropdef, arguments)
1647 var nextern = self.n_extern
1648 if nextern == null then
1649 v.add("fprintf(stderr, \"NOT YET IMPLEMENTED nitni for {mpropdef} at {location.to_s}\\n\");")
1653 externname = nextern.text.substring(1, nextern.text.length-2)
1654 if location.file != null then
1655 var file = location.file.filename
1658 var res: nullable RuntimeVariable = null
1659 var ret = mpropdef.msignature.return_mtype
1661 ret = v.resolve_for(ret, arguments.first)
1662 res = v.new_var(ret)
1664 v.adapt_signature(mpropdef, arguments)
1667 v.add("{externname}({arguments.join(", ")});")
1669 v.add("{res} = {externname}({arguments.join(", ")});")
1675 redef class AExternInitPropdef
1676 redef fun compile_to_c(v, mpropdef, arguments)
1679 var nextern = self.n_extern
1680 if nextern == null then
1681 v.add("printf(\"NOT YET IMPLEMENTED nitni for {mpropdef} at {location.to_s}\\n\");")
1685 externname = nextern.text.substring(1, nextern.text.length-2)
1686 if location.file != null then
1687 var file = location.file.filename
1690 v.adapt_signature(mpropdef, arguments)
1691 var ret = arguments.first.mtype
1692 var res = v.new_var(ret)
1696 v.add("{res} = {externname}({arguments.join(", ")});")
1701 redef class AAttrPropdef
1702 redef fun compile_to_c(v, mpropdef, arguments)
1704 if arguments.length == 1 then
1705 var res = v.read_attribute(self.mpropdef.mproperty, arguments.first)
1706 v.assign(v.frame.returnvar.as(not null), res)
1708 v.write_attribute(self.mpropdef.mproperty, arguments.first, arguments[1])
1712 fun init_expr(v: AbstractCompilerVisitor, recv: RuntimeVariable)
1714 var nexpr = self.n_expr
1715 if nexpr != null then
1716 var oldnode = v.current_node
1717 v.current_node = self
1718 var old_frame = v.frame
1719 var frame = new Frame(v, self.mpropdef.as(not null), recv.mtype.as(MClassType), [recv])
1721 var value = v.expr(nexpr, self.mpropdef.static_mtype)
1722 v.write_attribute(self.mpropdef.mproperty, recv, value)
1724 v.current_node = oldnode
1728 fun check_expr(v: AbstractCompilerVisitor, recv: RuntimeVariable)
1730 var nexpr = self.n_expr
1731 if nexpr != null then return
1733 var oldnode = v.current_node
1734 v.current_node = self
1735 var old_frame = v.frame
1736 var frame = new Frame(v, self.mpropdef.as(not null), recv.mtype.as(MClassType), [recv])
1738 # Force read to check the initialization
1739 v.read_attribute(self.mpropdef.mproperty, recv)
1741 v.current_node = oldnode
1745 redef class AClassdef
1746 private fun compile_to_c(v: AbstractCompilerVisitor, mpropdef: MMethodDef, arguments: Array[RuntimeVariable])
1748 if mpropdef == self.mfree_init then
1749 var super_inits = self.super_inits
1750 if super_inits != null then
1751 assert arguments.length == 1
1752 for su in super_inits do
1753 v.send(su, arguments)
1757 var recv = arguments.first
1759 # Collect undefined attributes
1760 for npropdef in self.n_propdefs do
1761 if npropdef isa AAttrPropdef and npropdef.n_expr == null then
1762 v.write_attribute(npropdef.mpropdef.mproperty, recv, arguments[i])
1772 redef class ADeferredMethPropdef
1773 redef fun compile_to_c(v, mpropdef, arguments) do v.add_abort("Deferred method called")
1774 redef fun can_inline do return true
1778 # Try to compile self as an expression
1779 # Do not call this method directly, use `v.expr' instead
1780 private fun expr
(v
: AbstractCompilerVisitor): nullable RuntimeVariable
1782 v
.add
("printf(\"NOT YET IMPLEMENTED {class_name}:{location.to_s}\\n\
");")
1783 var mtype
= self.mtype
1784 if mtype
== null then
1787 var res
= v
.new_var
(mtype
)
1788 v
.add
("/* {res} = NOT YET {class_name} */")
1793 # Try to compile self as a statement
1794 # Do not call this method directly, use `v.stmt' instead
1795 private fun stmt
(v
: AbstractCompilerVisitor)
1798 if res
!= null then v
.add
("{res};")
1802 redef class ABlockExpr
1805 for e
in self.n_expr
do v
.stmt
(e
)
1809 redef class AVardeclExpr
1812 var variable
= self.variable
.as(not null)
1813 var ne
= self.n_expr
1815 var i
= v
.expr
(ne
, variable
.declared_type
)
1816 v
.assign
(v
.variable
(variable
), i
)
1821 redef class AVarExpr
1824 var res
= v
.variable
(self.variable
.as(not null))
1825 var mtype
= self.mtype
.as(not null)
1826 return v
.autoadapt
(res
, mtype
)
1830 redef class AVarAssignExpr
1833 var variable
= self.variable
.as(not null)
1834 var i
= v
.expr
(self.n_value
, variable
.declared_type
)
1835 v
.assign
(v
.variable
(variable
), i
)
1839 redef class AVarReassignExpr
1842 var variable
= self.variable
.as(not null)
1843 var vari
= v
.variable
(variable
)
1844 var value
= v
.expr
(self.n_value
, variable
.declared_type
)
1845 var res
= v
.compile_callsite
(self.reassign_callsite
.as(not null), [vari
, value
])
1847 v
.assign
(v
.variable
(variable
), res
)
1851 redef class ASelfExpr
1852 redef fun expr
(v
) do return v
.frame
.arguments
.first
1855 redef class AContinueExpr
1856 redef fun stmt
(v
) do v
.add
("goto CONTINUE_{v.escapemark_name(self.escapemark)};")
1859 redef class ABreakExpr
1860 redef fun stmt
(v
) do v
.add
("goto BREAK_{v.escapemark_name(self.escapemark)};")
1863 redef class AReturnExpr
1866 var nexpr
= self.n_expr
1867 if nexpr
!= null then
1868 var returnvar
= v
.frame
.returnvar
.as(not null)
1869 var i
= v
.expr
(nexpr
, returnvar
.mtype
)
1870 v
.assign
(returnvar
, i
)
1872 v
.add
("goto {v.frame.returnlabel.as(not null)};")
1876 redef class AAbortExpr
1877 redef fun stmt
(v
) do v
.add_abort
("Aborted")
1883 var cond
= v
.expr_bool
(self.n_expr
)
1884 v
.add
("if ({cond})\{")
1892 redef class AIfexprExpr
1895 var res
= v
.new_var
(self.mtype
.as(not null))
1896 var cond
= v
.expr_bool
(self.n_expr
)
1897 v
.add
("if ({cond})\{")
1898 v
.assign
(res
, v
.expr
(self.n_then
, null))
1900 v
.assign
(res
, v
.expr
(self.n_else
, null))
1909 v
.stmt
(self.n_block
)
1910 var escapemark
= self.escapemark
1911 if escapemark
!= null then
1912 v
.add
("BREAK_{v.escapemark_name(escapemark)}: (void)0;")
1917 redef class AWhileExpr
1921 var cond
= v
.expr_bool
(self.n_expr
)
1922 v
.add
("if (!{cond}) break;")
1923 v
.stmt
(self.n_block
)
1924 v
.add
("CONTINUE_{v.escapemark_name(escapemark)}: (void)0;")
1926 v
.add
("BREAK_{v.escapemark_name(escapemark)}: (void)0;")
1930 redef class ALoopExpr
1934 v
.stmt
(self.n_block
)
1935 v
.add
("CONTINUE_{v.escapemark_name(escapemark)}: (void)0;")
1937 v
.add
("BREAK_{v.escapemark_name(escapemark)}: (void)0;")
1941 redef class AForExpr
1944 # Shortcut on explicit range
1945 # Avoid the instantiation of the range and the iterator
1946 var nexpr
= self.n_expr
1947 if self.variables
.length
== 1 and nexpr
isa AOrangeExpr and not v
.compiler
.modelbuilder
.toolcontext
.opt_no_shortcut_range
.value
then
1948 var from
= v
.expr
(nexpr
.n_expr
, null)
1949 var to
= v
.expr
(nexpr
.n_expr2
, null)
1950 var variable
= v
.variable
(variables
.first
)
1952 v
.assign
(variable
, from
)
1953 v
.add
("for(;;) \{ /* shortcut range */")
1955 var ok
= v
.send
(v
.get_property
("<", variable
.mtype
), [variable
, to
])
1957 v
.add
("if(!{ok}) break;")
1959 v
.stmt
(self.n_block
)
1961 v
.add
("CONTINUE_{v.escapemark_name(escapemark)}: (void)0;")
1962 var succ
= v
.send
(v
.get_property
("succ", variable
.mtype
), [variable
])
1964 v
.assign
(variable
, succ
)
1966 v
.add
("BREAK_{v.escapemark_name(escapemark)}: (void)0;")
1970 var cl
= v
.expr
(self.n_expr
, null)
1971 var it_meth
= self.method_iterator
1972 assert it_meth
!= null
1973 var it
= v
.send
(it_meth
, [cl
])
1976 var isok_meth
= self.method_is_ok
1977 assert isok_meth
!= null
1978 var ok
= v
.send
(isok_meth
, [it
])
1980 v
.add
("if(!{ok}) break;")
1981 if self.variables
.length
== 1 then
1982 var item_meth
= self.method_item
1983 assert item_meth
!= null
1984 var i
= v
.send
(item_meth
, [it
])
1986 v
.assign
(v
.variable
(variables
.first
), i
)
1987 else if self.variables
.length
== 2 then
1988 var key_meth
= self.method_key
1989 assert key_meth
!= null
1990 var i
= v
.send
(key_meth
, [it
])
1992 v
.assign
(v
.variable
(variables
[0]), i
)
1993 var item_meth
= self.method_item
1994 assert item_meth
!= null
1995 i
= v
.send
(item_meth
, [it
])
1997 v
.assign
(v
.variable
(variables
[1]), i
)
2001 v
.stmt
(self.n_block
)
2002 v
.add
("CONTINUE_{v.escapemark_name(escapemark)}: (void)0;")
2003 var next_meth
= self.method_next
2004 assert next_meth
!= null
2005 v
.send
(next_meth
, [it
])
2007 v
.add
("BREAK_{v.escapemark_name(escapemark)}: (void)0;")
2011 redef class AAssertExpr
2014 if v
.compiler
.modelbuilder
.toolcontext
.opt_no_check_assert
.value
then return
2016 var cond
= v
.expr_bool
(self.n_expr
)
2017 v
.add
("if (!{cond}) \{")
2021 v
.add_abort
("Assert '{nid.text}' failed")
2023 v
.add_abort
("Assert failed")
2032 var res
= v
.new_var
(self.mtype
.as(not null))
2033 var i1
= v
.expr_bool
(self.n_expr
)
2034 v
.add
("if ({i1}) \{")
2037 var i2
= v
.expr_bool
(self.n_expr2
)
2038 v
.add
("{res} = {i2};")
2044 redef class AAndExpr
2047 var res
= v
.new_var
(self.mtype
.as(not null))
2048 var i1
= v
.expr_bool
(self.n_expr
)
2049 v
.add
("if (!{i1}) \{")
2052 var i2
= v
.expr_bool
(self.n_expr2
)
2053 v
.add
("{res} = {i2};")
2059 redef class ANotExpr
2062 var cond
= v
.expr_bool
(self.n_expr
)
2063 return v
.new_expr
("!{cond}", self.mtype
.as(not null))
2067 redef class AOrElseExpr
2070 var res
= v
.new_var
(self.mtype
.as(not null))
2071 var i1
= v
.expr
(self.n_expr
, null)
2072 v
.add
("if ({i1}!=NULL) \{")
2075 var i2
= v
.expr
(self.n_expr2
, null)
2085 var value1
= v
.expr
(self.n_expr
, null)
2086 var value2
= v
.expr
(self.n_expr2
, null)
2087 return v
.equal_test
(value1
, value2
)
2091 redef class AIntExpr
2092 redef fun expr
(v
) do return v
.new_expr
("{self.n_number.text}", self.mtype
.as(not null))
2095 redef class AFloatExpr
2096 redef fun expr
(v
) do return v
.new_expr
("{self.n_float.text}", self.mtype
.as(not null))
2099 redef class ACharExpr
2100 redef fun expr
(v
) do return v
.new_expr
("{self.n_char.text}", self.mtype
.as(not null))
2103 redef class AArrayExpr
2106 var mtype
= self.mtype
.as(MClassType).arguments
.first
2107 var array
= new Array[RuntimeVariable]
2108 for nexpr
in self.n_exprs
.n_exprs
do
2109 var i
= v
.expr
(nexpr
, mtype
)
2112 return v
.array_instance
(array
, mtype
)
2116 redef class AStringFormExpr
2117 redef fun expr
(v
) do return v
.string_instance
(self.value
.as(not null))
2120 redef class ASuperstringExpr
2123 var array
= new Array[RuntimeVariable]
2124 for ne
in self.n_exprs
do
2125 if ne
isa AStringFormExpr and ne
.value
== "" then continue # skip empty sub-strings
2126 var i
= v
.expr
(ne
, null)
2129 var a
= v
.array_instance
(array
, v
.object_type
)
2130 var res
= v
.send
(v
.get_property
("to_s", a
.mtype
), [a
])
2135 redef class ACrangeExpr
2138 var i1
= v
.expr
(self.n_expr
, null)
2139 var i2
= v
.expr
(self.n_expr2
, null)
2140 var mtype
= self.mtype
.as(MClassType)
2141 var res
= v
.init_instance
(mtype
)
2142 var it
= v
.send
(v
.get_property
("init", res
.mtype
), [res
, i1
, i2
])
2143 v
.check_init_instance
(res
, mtype
)
2148 redef class AOrangeExpr
2151 var i1
= v
.expr
(self.n_expr
, null)
2152 var i2
= v
.expr
(self.n_expr2
, null)
2153 var mtype
= self.mtype
.as(MClassType)
2154 var res
= v
.init_instance
(mtype
)
2155 var it
= v
.send
(v
.get_property
("without_last", res
.mtype
), [res
, i1
, i2
])
2156 v
.check_init_instance
(res
, mtype
)
2161 redef class ATrueExpr
2162 redef fun expr
(v
) do return v
.new_expr
("1", self.mtype
.as(not null))
2165 redef class AFalseExpr
2166 redef fun expr
(v
) do return v
.new_expr
("0", self.mtype
.as(not null))
2169 redef class ANullExpr
2170 redef fun expr
(v
) do return v
.new_expr
("NULL", self.mtype
.as(not null))
2173 redef class AIsaExpr
2176 var i
= v
.expr
(self.n_expr
, null)
2177 return v
.type_test
(i
, self.cast_type
.as(not null), "isa")
2181 redef class AAsCastExpr
2184 var i
= v
.expr
(self.n_expr
, null)
2185 if v
.compiler
.modelbuilder
.toolcontext
.opt_no_check_assert
.value
then return i
2187 var cond
= v
.type_test
(i
, self.mtype
.as(not null), "as")
2188 v
.add
("if (!{cond}) \{")
2189 v
.add_abort
("Cast failed")
2195 redef class AAsNotnullExpr
2198 var i
= v
.expr
(self.n_expr
, null)
2199 if v
.compiler
.modelbuilder
.toolcontext
.opt_no_check_assert
.value
then return i
2201 v
.add
("if ({i} == NULL) \{")
2202 v
.add_abort
("Cast failed")
2208 redef class AParExpr
2209 redef fun expr
(v
) do return v
.expr
(self.n_expr
, null)
2212 redef class AOnceExpr
2215 var mtype
= self.mtype
.as(not null)
2216 var name
= v
.get_name
("varonce")
2217 var guard
= v
.get_name
(name
+ "_guard")
2218 v
.add_decl
("static {mtype.ctype} {name};")
2219 v
.add_decl
("static int {guard};")
2220 var res
= v
.new_var
(mtype
)
2221 v
.add
("if ({guard}) \{")
2222 v
.add
("{res} = {name};")
2224 var i
= v
.expr
(self.n_expr
, mtype
)
2225 v
.add
("{res} = {i};")
2226 v
.add
("{name} = {res};")
2227 v
.add
("{guard} = 1;")
2233 redef class ASendExpr
2236 var recv
= v
.expr
(self.n_expr
, null)
2238 for a
in self.raw_arguments
.as(not null) do
2239 args
.add
(v
.expr
(a
, null))
2241 return v
.compile_callsite
(self.callsite
.as(not null), args
)
2245 redef class ASendReassignFormExpr
2248 var recv
= v
.expr
(self.n_expr
, null)
2250 for a
in self.raw_arguments
.as(not null) do
2251 args
.add
(v
.expr
(a
, null))
2253 var value
= v
.expr
(self.n_value
, null)
2255 var left
= v
.compile_callsite
(self.callsite
.as(not null), args
)
2258 var res
= v
.compile_callsite
(self.reassign_callsite
.as(not null), [left
, value
])
2262 v
.compile_callsite
(self.write_callsite
.as(not null), args
)
2266 redef class ASuperExpr
2269 var recv
= v
.frame
.arguments
.first
2271 for a
in self.n_args
.n_exprs
do
2272 args
.add
(v
.expr
(a
, null))
2274 if args
.length
== 1 then
2275 args
= v
.frame
.arguments
2278 var mproperty
= self.mproperty
2279 if mproperty
!= null then
2280 if mproperty
.intro
.msignature
.arity
== 0 then
2284 var res
= v
.send
(mproperty
, args
)
2288 # stantard call-next-method
2289 return v
.supercall
(v
.frame
.mpropdef
.as(MMethodDef), recv
.mtype
.as(MClassType), args
)
2293 redef class ANewExpr
2296 var mtype
= self.mtype
.as(MClassType)
2298 var ctype
= mtype
.ctype
2299 if ctype
== "val*" then
2300 recv
= v
.init_instance
(mtype
)
2301 else if ctype
== "void*" then
2302 recv
= v
.new_expr
("NULL/*special!*/", mtype
)
2304 debug
("cannot new {mtype}")
2308 for a
in self.n_args
.n_exprs
do
2309 args
.add
(v
.expr
(a
, null))
2311 var res2
= v
.compile_callsite
(self.callsite
.as(not null), args
)
2312 if res2
!= null then
2313 #self.debug("got {res2} from {mproperty}. drop {recv}")
2316 v
.check_init_instance
(recv
, mtype
)
2321 redef class AAttrExpr
2324 var recv
= v
.expr
(self.n_expr
, null)
2325 var mproperty
= self.mproperty
.as(not null)
2326 return v
.read_attribute
(mproperty
, recv
)
2330 redef class AAttrAssignExpr
2333 var recv
= v
.expr
(self.n_expr
, null)
2334 var i
= v
.expr
(self.n_value
, null)
2335 var mproperty
= self.mproperty
.as(not null)
2336 v
.write_attribute
(mproperty
, recv
, i
)
2340 redef class AAttrReassignExpr
2343 var recv
= v
.expr
(self.n_expr
, null)
2344 var value
= v
.expr
(self.n_value
, null)
2345 var mproperty
= self.mproperty
.as(not null)
2346 var attr
= v
.read_attribute
(mproperty
, recv
)
2347 var res
= v
.compile_callsite
(self.reassign_callsite
.as(not null), [attr
, value
])
2349 v
.write_attribute
(mproperty
, recv
, res
)
2353 redef class AIssetAttrExpr
2356 var recv
= v
.expr
(self.n_expr
, null)
2357 var mproperty
= self.mproperty
.as(not null)
2358 return v
.isset_attribute
(mproperty
, recv
)
2362 redef class ADebugTypeExpr
2371 redef class Array[E
]
2372 # Return a new Array with the elements only contened in 'self' and not in 'o'
2373 fun -(o
: Array[E
]): Array[E
] do
2374 var res
= new Array[E
]
2375 for e
in self do if not o
.has
(e
) then res
.add
(e
)
2382 # Return a linearization of a set of mtypes
2383 fun linearize_mtypes
(mtypes
: Set[MType]): Array[MType] do
2384 var lin
= new Array[MType].from
(mtypes
)
2385 var sorter
= new TypeSorter(self)
2390 # Return a reverse linearization of a set of mtypes
2391 fun reverse_linearize_mtypes
(mtypes
: Set[MType]): Array[MType] do
2392 var lin
= new Array[MType].from
(mtypes
)
2393 var sorter
= new ReverseTypeSorter(self)
2398 # Return super types of a `mtype` in `self`
2399 fun super_mtypes
(mtype
: MType, mtypes
: Set[MType]): Set[MType] do
2400 if not self.super_mtypes_cache
.has_key
(mtype
) then
2401 var supers
= new HashSet[MType]
2402 for otype
in mtypes
do
2403 if otype
== mtype
then continue
2404 if mtype
.is_subtype
(self, null, otype
) then
2408 self.super_mtypes_cache
[mtype
] = supers
2410 return self.super_mtypes_cache
[mtype
]
2413 private var super_mtypes_cache
: Map[MType, Set[MType]] = new HashMap[MType, Set[MType]]
2415 # Return all sub mtypes (directs and indirects) of a `mtype` in `self`
2416 fun sub_mtypes
(mtype
: MType, mtypes
: Set[MType]): Set[MType] do
2417 if not self.sub_mtypes_cache
.has_key
(mtype
) then
2418 var subs
= new HashSet[MType]
2419 for otype
in mtypes
do
2420 if otype
== mtype
then continue
2421 if otype
.is_subtype
(self, null, mtype
) then
2425 self.sub_mtypes_cache
[mtype
] = subs
2427 return self.sub_mtypes_cache
[mtype
]
2430 private var sub_mtypes_cache
: Map[MType, Set[MType]] = new HashMap[MType, Set[MType]]
2432 # Return a linearization of a set of mclasses
2433 fun linearize_mclasses_2
(mclasses
: Set[MClass]): Array[MClass] do
2434 var lin
= new Array[MClass].from
(mclasses
)
2435 var sorter
= new ClassSorter(self)
2440 # Return a reverse linearization of a set of mtypes
2441 fun reverse_linearize_mclasses
(mclasses
: Set[MClass]): Array[MClass] do
2442 var lin
= new Array[MClass].from
(mclasses
)
2443 var sorter
= new ReverseClassSorter(self)
2448 # Return all super mclasses (directs and indirects) of a `mclass` in `self`
2449 fun super_mclasses
(mclass
: MClass): Set[MClass] do
2450 if not self.super_mclasses_cache
.has_key
(mclass
) then
2451 var supers
= new HashSet[MClass]
2452 if self.flatten_mclass_hierarchy
.has
(mclass
) then
2453 for sup
in self.flatten_mclass_hierarchy
[mclass
].greaters
do
2454 if sup
== mclass
then continue
2458 self.super_mclasses_cache
[mclass
] = supers
2460 return self.super_mclasses_cache
[mclass
]
2463 private var super_mclasses_cache
: Map[MClass, Set[MClass]] = new HashMap[MClass, Set[MClass]]
2465 # Return all parents of a `mclass` in `self`
2466 fun parent_mclasses
(mclass
: MClass): Set[MClass] do
2467 if not self.parent_mclasses_cache
.has_key
(mclass
) then
2468 var parents
= new HashSet[MClass]
2469 if self.flatten_mclass_hierarchy
.has
(mclass
) then
2470 for sup
in self.flatten_mclass_hierarchy
[mclass
].direct_greaters
do
2471 if sup
== mclass
then continue
2475 self.parent_mclasses_cache
[mclass
] = parents
2477 return self.parent_mclasses_cache
[mclass
]
2480 private var parent_mclasses_cache
: Map[MClass, Set[MClass]] = new HashMap[MClass, Set[MClass]]
2482 # Return all sub mclasses (directs and indirects) of a `mclass` in `self`
2483 fun sub_mclasses
(mclass
: MClass): Set[MClass] do
2484 if not self.sub_mclasses_cache
.has_key
(mclass
) then
2485 var subs
= new HashSet[MClass]
2486 if self.flatten_mclass_hierarchy
.has
(mclass
) then
2487 for sub
in self.flatten_mclass_hierarchy
[mclass
].smallers
do
2488 if sub
== mclass
then continue
2492 self.sub_mclasses_cache
[mclass
] = subs
2494 return self.sub_mclasses_cache
[mclass
]
2497 private var sub_mclasses_cache
: Map[MClass, Set[MClass]] = new HashMap[MClass, Set[MClass]]
2499 # All 'mproperties' associated to all 'mclassdefs' of `mclass`
2500 fun properties
(mclass
: MClass): Set[MProperty] do
2501 if not self.properties_cache
.has_key
(mclass
) then
2502 var properties
= new HashSet[MProperty]
2503 var parents
= self.super_mclasses
(mclass
)
2504 for parent
in parents
do
2505 properties
.add_all
(self.properties
(parent
))
2508 for mclassdef
in mclass
.mclassdefs
do
2509 for mpropdef
in mclassdef
.mpropdefs
do
2510 properties
.add
(mpropdef
.mproperty
)
2513 self.properties_cache
[mclass
] = properties
2515 return properties_cache
[mclass
]
2518 private var properties_cache
: Map[MClass, Set[MProperty]] = new HashMap[MClass, Set[MProperty]]
2521 # A sorter for linearize list of types
2522 private class TypeSorter
2523 super AbstractSorter[MType]
2525 private var mmodule
: MModule
2527 init(mmodule
: MModule) do self.mmodule
= mmodule
2529 redef fun compare
(a
, b
) do
2532 else if a
.is_subtype
(self.mmodule
, null, b
) then
2539 # A sorter for reverse linearization
2540 private class ReverseTypeSorter
2543 init(mmodule
: MModule) do end
2545 redef fun compare
(a
, b
) do
2548 else if a
.is_subtype
(self.mmodule
, null, b
) then
2555 # A sorter for linearize list of classes
2556 private class ClassSorter
2557 super AbstractSorter[MClass]
2559 var mmodule
: MModule
2561 redef fun compare
(a
, b
) do
2564 else if self.mmodule
.flatten_mclass_hierarchy
.has
(a
) and self.mmodule
.flatten_mclass_hierarchy
[a
].greaters
.has
(b
) then
2571 # A sorter for reverse linearization
2572 private class ReverseClassSorter
2573 super AbstractSorter[MClass]
2575 var mmodule
: MModule
2577 redef fun compare
(a
, b
) do
2580 else if self.mmodule
.flatten_mclass_hierarchy
.has
(a
) and self.mmodule
.flatten_mclass_hierarchy
[a
].greaters
.has
(b
) then