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.
17 # Interpretation of a Nit program directly on the AST
18 module naive_interpreter
22 private import parser
::tables
24 import primitive_types
26 redef class ToolContext
27 # --discover-call-trace
28 var opt_discover_call_trace
= new OptionBool("Trace calls of the first invocation of a method", "--discover-call-trace")
33 self.option_context
.add_option
(self.opt_discover_call_trace
)
37 redef class ModelBuilder
38 # Execute the program from the entry point (`Sys::main`) of the `mainmodule`
39 # `arguments` are the command-line arguments in order
41 # 1. the AST is fully loaded.
42 # 2. the model is fully built.
43 # 3. the instructions are fully analysed.
44 fun run_naive_interpreter
(mainmodule
: MModule, arguments
: Array[String])
47 self.toolcontext
.info
("*** START INTERPRETING ***", 1)
49 var interpreter
= new NaiveInterpreter(self, mainmodule
, arguments
)
50 interpreter
.start
(mainmodule
)
53 self.toolcontext
.info
("*** END INTERPRETING: {time1-time0} ***", 2)
57 # The visitor that interprets the Nit Program by walking on the AST
58 class NaiveInterpreter
59 # The modelbuilder that know the AST and its associations with the model
60 var modelbuilder
: ModelBuilder
62 # The main module of the program (used to lookup method)
63 var mainmodule
: MModule
65 # The command line arguments of the interpreted program
66 # arguments.first is the program name
67 # arguments[1] is the first argument
68 var arguments
: Array[String]
70 # The main Sys instance
71 var mainobj
: nullable Instance is noinit
75 if mainmodule
.model
.get_mclasses_by_name
("Bool") != null then
76 self.true_instance
= new PrimitiveInstance[Bool](mainmodule
.bool_type
, true)
77 init_instance_primitive
(self.true_instance
)
78 self.false_instance
= new PrimitiveInstance[Bool](mainmodule
.bool_type
, false)
79 init_instance_primitive
(self.false_instance
)
81 self.null_instance
= new PrimitiveInstance[nullable Object](mainmodule
.model
.null_type
, null)
84 # Starts the interpreter on the main module of a program
85 fun start
(mainmodule
: MModule) do
86 var interpreter
= self
87 var sys_type
= mainmodule
.sys_type
88 if sys_type
== null then return # no class Sys
89 var mainobj
= new MutableInstance(sys_type
)
90 interpreter
.mainobj
= mainobj
91 interpreter
.init_instance
(mainobj
)
92 var initprop
= mainmodule
.try_get_primitive_method
("init", sys_type
.mclass
)
93 if initprop
!= null then
94 interpreter
.send
(initprop
, [mainobj
])
96 var mainprop
= mainmodule
.try_get_primitive_method
("run", sys_type
.mclass
) or else
97 mainmodule
.try_get_primitive_method
("main", sys_type
.mclass
)
98 if mainprop
!= null then
99 interpreter
.send
(mainprop
, [mainobj
])
103 # Subtype test in the context of the mainmodule
104 fun is_subtype
(sub
, sup
: MType): Bool
106 return sub
.is_subtype
(self.mainmodule
, current_receiver_class
, sup
)
109 # Get a primitive method in the context of the main module
110 fun force_get_primitive_method
(name
: String, recv
: MType): MMethod
112 assert recv
isa MClassType
113 return self.modelbuilder
.force_get_primitive_method
(current_node
, name
, recv
.mclass
, self.mainmodule
)
116 # Is a return executed?
117 # Set this mark to skip the evaluation until the end of the specified method frame
118 var returnmark
: nullable FRAME = null
120 # Is a break or a continue executed?
121 # Set this mark to skip the evaluation until a labeled statement catch it with `is_escape`
122 var escapemark
: nullable EscapeMark = null
124 # Is a return or a break or a continue executed?
125 # Use this function to know if you must skip the evaluation of statements
126 fun is_escaping
: Bool do return returnmark
!= null or escapemark
!= null
128 # The value associated with the current return/break/continue, if any.
129 # Set the value when you set a escapemark.
130 # Read the value when you catch a mark or reach the end of a method
131 var escapevalue
: nullable Instance = null
133 # If there is a break/continue and is associated with `escapemark`, then return true and clear the mark.
134 # If there is no break/continue or if `escapemark` is null then return false.
135 # Use this function to catch a potential break/continue.
136 fun is_escape
(escapemark
: nullable EscapeMark): Bool
138 if escapemark
!= null and self.escapemark
== escapemark
then
139 self.escapemark
= null
146 # Evaluate `n` as an expression in the current context.
147 # Return the value of the expression.
148 # If `n` cannot be evaluated, then aborts.
149 fun expr
(n
: AExpr): nullable Instance
151 var frame
= self.frame
152 var old
= frame
.current_node
153 frame
.current_node
= n
154 #n.debug("IN Execute expr")
156 if i
== null and not self.is_escaping
then
157 n
.debug
("inconsitance: no value and not escaping.")
159 var implicit_cast_to
= n
.implicit_cast_to
160 if implicit_cast_to
!= null then
161 var mtype
= self.unanchor_type
(implicit_cast_to
)
162 if not self.is_subtype
(i
.mtype
, mtype
) then n
.fatal
(self, "Cast failed. Expected `{implicit_cast_to}`, got `{i.mtype}`")
165 #n.debug("OUT Execute expr: value is {i}")
166 #if not is_subtype(i.mtype, n.mtype.as(not null)) then n.debug("Expected {n.mtype.as(not null)} got {i}")
167 frame
.current_node
= old
171 # Evaluate `n` as a statement in the current context.
172 # Do nothing if `n` is null.
173 # If `n` cannot be evaluated, then aborts.
174 fun stmt
(n
: nullable AExpr)
176 if n
== null then return
178 if n
.comprehension
!= null then
179 var comprehension
= frame
.comprehension
.as(not null)
181 if i
!= null then comprehension
.add
(i
)
185 var frame
= self.frame
186 var old
= frame
.current_node
187 frame
.current_node
= n
189 frame
.current_node
= old
192 # Map used to store values of nodes that must be evaluated once in the system (`AOnceExpr`)
193 var onces
: Map[ANode, Instance] = new HashMap[ANode, Instance]
195 # Return the boolean instance associated with `val`.
196 fun bool_instance
(val
: Bool): Instance
198 if val
then return self.true_instance
else return self.false_instance
201 # Return the integer instance associated with `val`.
202 fun int_instance
(val
: Int): Instance
204 var t
= mainmodule
.int_type
205 var instance
= new PrimitiveInstance[Int](t
, val
)
206 init_instance_primitive
(instance
)
210 # Return the char instance associated with `val`.
211 fun char_instance
(val
: Char): Instance
213 var t
= mainmodule
.char_type
214 var instance
= new PrimitiveInstance[Char](t
, val
)
215 init_instance_primitive
(instance
)
219 # Return the float instance associated with `val`.
220 fun float_instance
(val
: Float): Instance
222 var t
= mainmodule
.float_type
223 var instance
= new PrimitiveInstance[Float](t
, val
)
224 init_instance_primitive
(instance
)
228 # The unique instance of the `true` value.
229 var true_instance
: Instance is noinit
231 # The unique instance of the `false` value.
232 var false_instance
: Instance is noinit
234 # The unique instance of the `null` value.
235 var null_instance
: Instance is noinit
237 # Return a new array made of `values`.
238 # The dynamic type of the result is Array[elttype].
239 fun array_instance
(values
: Array[Instance], elttype
: MType): Instance
241 assert not elttype
.need_anchor
242 var nat
= new PrimitiveInstance[Array[Instance]](mainmodule
.native_array_type
(elttype
), values
)
243 init_instance_primitive
(nat
)
244 var mtype
= mainmodule
.array_type
(elttype
)
245 var res
= new MutableInstance(mtype
)
246 self.init_instance
(res
)
247 self.send
(self.force_get_primitive_method
("with_native", mtype
), [res
, nat
, self.int_instance
(values
.length
)])
251 # Return a instance associated to a primitive class
252 # Current primitive classes are `Int`, `Bool`, and `String`
253 fun value_instance
(object
: Object): Instance
255 if object
isa Int then
256 return int_instance
(object
)
257 else if object
isa Bool then
258 return bool_instance
(object
)
259 else if object
isa String then
260 return string_instance
(object
)
266 # Return a new native string initialized with `txt`
267 fun native_string_instance
(txt
: String): Instance
269 var val
= new FlatBuffer.from
(txt
)
271 var t
= mainmodule
.native_string_type
272 var instance
= new PrimitiveInstance[Buffer](t
, val
)
273 init_instance_primitive
(instance
)
277 # Return a new String instance for `txt`
278 fun string_instance
(txt
: String): Instance
280 var nat
= native_string_instance
(txt
)
281 var res
= self.send
(self.force_get_primitive_method
("to_s_with_length", nat
.mtype
), [nat
, self.int_instance
(txt
.length
)])
286 # The virtual type of the frames used in the execution engine
289 # The current frame used to store local variables of the current method executed
290 fun frame
: FRAME do return frames
.first
292 # The stack of all frames. The first one is the current one.
293 var frames
= new List[FRAME]
295 # Return a stack trace. One line per function
296 fun stack_trace
: String
298 var b
= new FlatBuffer
299 b
.append
(",---- Stack trace -- - - -\n")
301 b
.append
("| {f.mpropdef} ({f.current_node.location})\n")
303 b
.append
("`------------------- - - -")
307 # The current node, used to print errors, debug and stack-traces
308 fun current_node
: nullable ANode
310 if frames
.is_empty
then return null
311 return frames
.first
.current_node
314 # The dynamic type of the current `self`
315 fun current_receiver_class
: MClassType
317 return frames
.first
.arguments
.first
.mtype
.as(MClassType)
320 # Initialize the environment for a call and return a new Frame
321 # *`node` The AST node
322 # *`mpropdef` The corresponding mpropdef
323 # *`args` Arguments of the call
324 fun new_frame
(node
: ANode, mpropdef
: MPropDef, args
: Array[Instance]): FRAME
326 return new InterpreterFrame(node
, mpropdef
, args
)
329 # Exit the program with a message
330 fun fatal
(message
: String)
332 var node
= current_node
336 node
.fatal
(self, message
)
341 # Debug on the current node
342 fun debug
(message
: String)
344 var node
= current_node
352 # Retrieve the value of the variable in the current frame
353 fun read_variable
(v
: Variable): Instance
355 var f
= frames
.first
.as(InterpreterFrame)
359 # Assign the value of the variable in the current frame
360 fun write_variable
(v
: Variable, value
: Instance)
362 var f
= frames
.first
.as(InterpreterFrame)
366 # Store known methods, used to trace methods as they are reached
367 var discover_call_trace
: Set[MMethodDef] = new HashSet[MMethodDef]
369 # Evaluate `args` as expressions in the call of `mpropdef` on `recv`.
370 # This method is used to manage varargs in signatures and returns the real array
371 # of instances to use in the call.
372 # Return `null` if one of the evaluation of the arguments return null.
373 fun varargize
(mpropdef
: MMethodDef, map
: nullable SignatureMap, recv
: Instance, args
: SequenceRead[AExpr]): nullable Array[Instance]
375 var msignature
= mpropdef
.new_msignature
or else mpropdef
.msignature
.as(not null)
376 var res
= new Array[Instance]
379 if msignature
.arity
== 0 then return res
382 assert args
.length
== msignature
.arity
else debug
("Expected {msignature.arity} args, got {args.length}")
384 var e
= self.expr
(ne
)
385 if e
== null then return null
391 # Eval in order of arguments, not parameters
392 var exprs
= new Array[Instance].with_capacity
(args
.length
)
394 var e
= self.expr
(ne
)
395 if e
== null then return null
400 # Fill `res` with the result of the evaluation according to the mapping
401 for i
in [0..msignature
.arity
[ do
402 var param
= msignature
.mparameters
[i
]
403 var j
= map
.map
.get_or_null
(i
)
407 if param
.is_vararg
and map
.vararg_decl
> 0 then
408 var vararg
= exprs
.sub
(j
, map
.vararg_decl
)
409 var elttype
= param
.mtype
.anchor_to
(self.mainmodule
, recv
.mtype
.as(MClassType))
410 var arg
= self.array_instance
(vararg
, elttype
)
419 # Execute `mpropdef` for a `args` (where `args[0]` is the receiver).
420 # Return a value if `mpropdef` is a function, or null if it is a procedure.
421 # The call is direct/static. There is no message-sending/late-binding.
422 fun call
(mpropdef
: MMethodDef, args
: Array[Instance]): nullable Instance
424 if self.modelbuilder
.toolcontext
.opt_discover_call_trace
.value
and not self.discover_call_trace
.has
(mpropdef
) then
425 self.discover_call_trace
.add mpropdef
426 self.debug
("Discovered {mpropdef}")
428 assert args
.length
== mpropdef
.msignature
.arity
+ 1 else debug
("Invalid arity for {mpropdef}. {args.length} arguments given.")
430 # Look for the AST node that implements the property
431 var val
= mpropdef
.constant_value
433 var node
= modelbuilder
.mpropdef2node
(mpropdef
)
434 if mpropdef
.is_abstract
then
436 self.frames
.unshift new_frame
(node
, mpropdef
, args
)
438 fatal
("Abstract method `{mpropdef.mproperty.name}` called on `{args.first.mtype}`")
442 if node
isa APropdef then
443 self.parameter_check
(node
, mpropdef
, args
)
444 return node
.call
(self, mpropdef
, args
)
445 else if node
isa AClassdef then
446 self.parameter_check
(node
, mpropdef
, args
)
447 return node
.call
(self, mpropdef
, args
)
448 else if node
!= null then
449 fatal
("Fatal Error: method {mpropdef} associated to unexpected AST node {node.location}")
451 else if val
!= null then
452 return value_instance
(val
)
454 fatal
("Fatal Error: method {mpropdef} not found in the AST")
459 # Execute type checks of covariant parameters
460 fun parameter_check
(node
: ANode, mpropdef
: MMethodDef, args
: Array[Instance])
462 var msignature
= mpropdef
.msignature
463 for i
in [0..msignature
.arity
[ do
464 # skip test for vararg since the array is instantiated with the correct polymorphic type
465 if msignature
.vararg_rank
== i
then continue
467 # skip if the cast is not required
468 var origmtype
= mpropdef
.mproperty
.intro
.msignature
.mparameters
[i
].mtype
469 if not origmtype
.need_anchor
then continue
471 #print "{mpropdef}: {mpropdef.mproperty.intro.msignature.mparameters[i]}"
473 # get the parameter type
474 var mtype
= msignature
.mparameters
[i
].mtype
475 var anchor
= args
.first
.mtype
.as(MClassType)
476 var amtype
= mtype
.anchor_to
(self.mainmodule
, anchor
)
477 if not args
[i
+1].mtype
.is_subtype
(self.mainmodule
, anchor
, amtype
) then
478 node
.fatal
(self, "Cast failed. Expected `{mtype}`, got `{args[i+1].mtype}`")
483 # Common code for runtime injected calls and normal calls
484 fun send_commons
(mproperty
: MMethod, args
: Array[Instance], mtype
: MType): nullable Instance
486 if mtype
isa MNullType then
487 if mproperty
.name
== "==" or mproperty
.name
== "is_same_instance" then
488 return self.bool_instance
(args
[0] == args
[1])
489 else if mproperty
.name
== "!=" then
490 return self.bool_instance
(args
[0] != args
[1])
492 #fatal("Receiver is null. {mproperty}. {args.join(" ")} {self.frame.current_node.class_name}")
493 fatal
("Receiver is null")
498 # Execute a full `callsite` for given `args`
499 # Use this method, instead of `send` to execute and control the additional behavior of the call-sites
500 fun callsite
(callsite
: nullable CallSite, arguments
: Array[Instance]): nullable Instance
502 var initializers
= callsite
.mpropdef
.initializers
503 if not initializers
.is_empty
then
504 var recv
= arguments
.first
506 for p
in initializers
do
507 if p
isa MMethod then
509 for x
in p
.intro
.msignature
.mparameters
do
510 args
.add arguments
[i
]
514 else if p
isa MAttribute then
515 assert recv
isa MutableInstance
516 write_attribute
(p
, recv
, arguments
[i
])
520 assert i
== arguments
.length
522 return send
(callsite
.mproperty
, [recv
])
524 return send
(callsite
.mproperty
, arguments
)
527 # Execute `mproperty` for a `args` (where `args[0]` is the receiver).
528 # Return a value if `mproperty` is a function, or null if it is a procedure.
529 # The call is polymorphic. There is a message-sending/late-binding according to the receiver (args[0]).
530 fun send
(mproperty
: MMethod, args
: Array[Instance]): nullable Instance
532 var recv
= args
.first
533 var mtype
= recv
.mtype
534 var ret
= send_commons
(mproperty
, args
, mtype
)
535 if ret
!= null then return ret
536 var propdef
= mproperty
.lookup_first_definition
(self.mainmodule
, mtype
)
537 return self.call
(propdef
, args
)
540 # Read the attribute `mproperty` of an instance `recv` and return its value.
541 # If the attribute in not yet initialized, then aborts with an error message.
542 fun read_attribute
(mproperty
: MAttribute, recv
: Instance): Instance
544 assert recv
isa MutableInstance
545 if not recv
.attributes
.has_key
(mproperty
) then
546 fatal
("Uninitialized attribute {mproperty.name}")
549 return recv
.attributes
[mproperty
]
552 # Replace in `recv` the value of the attribute `mproperty` by `value`
553 fun write_attribute
(mproperty
: MAttribute, recv
: Instance, value
: Instance)
555 assert recv
isa MutableInstance
556 recv
.attributes
[mproperty
] = value
559 # Is the attribute `mproperty` initialized the instance `recv`?
560 fun isset_attribute
(mproperty
: MAttribute, recv
: Instance): Bool
562 assert recv
isa MutableInstance
563 return recv
.attributes
.has_key
(mproperty
)
566 # Collect attributes of a type in the order of their init
567 fun collect_attr_propdef
(mtype
: MType): Array[AAttrPropdef]
569 var cache
= self.collect_attr_propdef_cache
570 if cache
.has_key
(mtype
) then return cache
[mtype
]
572 var res
= new Array[AAttrPropdef]
573 var cds
= mtype
.collect_mclassdefs
(self.mainmodule
).to_a
574 self.mainmodule
.linearize_mclassdefs
(cds
)
576 res
.add_all
(modelbuilder
.collect_attr_propdef
(cd
))
583 private var collect_attr_propdef_cache
= new HashMap[MType, Array[AAttrPropdef]]
585 # Fill the initial values of the newly created instance `recv`.
586 # `recv.mtype` is used to know what must be filled.
587 fun init_instance
(recv
: Instance)
589 for npropdef
in collect_attr_propdef
(recv
.mtype
) do
590 npropdef
.init_expr
(self, recv
)
594 # A hook to initialize a `PrimitiveInstance`
595 fun init_instance_primitive
(recv
: Instance) do end
597 # This function determines the correct type according to the receiver of the current propdef (self).
598 fun unanchor_type
(mtype
: MType): MType
600 return mtype
.anchor_to
(self.mainmodule
, current_receiver_class
)
603 # Placebo instance used to mark internal error result when `null` already have a meaning.
604 # TODO: replace with multiple return or something better
605 var error_instance
= new MutableInstance(modelbuilder
.model
.null_type
) is lazy
608 # An instance represents a value of the executed program.
609 abstract class Instance
610 # The dynamic type of the instance
611 # ASSERT: not self.mtype.is_anchored
614 # return true if the instance is the true value.
615 # return false if the instance is the true value.
617 fun is_true
: Bool do abort
619 # Return true if `self` IS `o` (using the Nit semantic of is)
620 fun eq_is
(o
: Instance): Bool do return self.is_same_instance
(o
)
622 # Human readable object identity "Type#number"
623 redef fun to_s
do return "{mtype}"
625 # Return the integer value if the instance is an integer.
627 fun to_i
: Int do abort
629 # Return the integer value if the instance is a float.
631 fun to_f
: Float do abort
633 # The real value encapsulated if the instance is primitive.
635 fun val
: nullable Object do abort
638 # A instance with attribute (standards objects)
639 class MutableInstance
642 # The values of the attributes
643 var attributes
: Map[MAttribute, Instance] = new HashMap[MAttribute, Instance]
646 # Special instance to handle primitives values (int, bool, etc.)
647 # The trick it just to encapsulate the <<real>> value
648 class PrimitiveInstance[E
]
651 # The real value encapsulated
656 if val
== true then return true
657 if val
== false then return false
663 if not o
isa PrimitiveInstance[nullable Object] then return false
664 return self.val
== o
.val
669 if not o
isa PrimitiveInstance[nullable Object] then return false
670 return self.val
.is_same_instance
(o
.val
)
673 redef fun to_s
do return "{mtype}#{val.object_id}({val or else "null"})"
675 redef fun to_i
do return val
.as(Int)
677 redef fun to_f
do return val
.as(Float)
680 # Information about local variables in a running method
682 # The current visited node
683 # The node is stored by frame to keep a stack trace
684 var current_node
: ANode
685 # The executed property.
686 # A Method in case of a call, an attribute in case of a default initialization.
687 var mpropdef
: MPropDef
688 # Arguments of the method (the first is the receiver)
689 var arguments
: Array[Instance]
690 # Indicate if the expression has an array comprehension form
691 var comprehension
: nullable Array[Instance] = null
694 # Implementation of a Frame with a Hashmap to store local variables
695 class InterpreterFrame
698 # Mapping between a variable and the current value
699 private var map
: Map[Variable, Instance] = new HashMap[Variable, Instance]
703 # Aborts the program with a message
704 # `v` is used to know if a colored message is displayed or not
705 fun fatal
(v
: NaiveInterpreter, message
: String)
707 if v
.modelbuilder
.toolcontext
.opt_no_color
.value
== true then
708 sys
.stderr
.write
("Runtime error: {message} ({location.file.filename}:{location.line_start})\n")
710 sys
.stderr
.write
("{location}: Runtime error: {message}\n{location.colored_line("0;31")}\n")
711 sys
.stderr
.write
(v
.stack_trace
)
712 sys
.stderr
.write
("\n")
719 # Execute a `mpropdef` associated with the current node.
720 private fun call
(v
: NaiveInterpreter, mpropdef
: MMethodDef, args
: Array[Instance]): nullable Instance
722 fatal
(v
, "NOT YET IMPLEMENTED method kind {class_name}. {mpropdef}")
727 redef class AMethPropdef
730 redef fun call
(v
, mpropdef
, args
)
732 var f
= v
.new_frame
(self, mpropdef
, args
)
733 var res
= call_commons
(v
, mpropdef
, args
, f
)
735 if v
.returnmark
== f
then
744 private fun call_commons
(v
: NaiveInterpreter, mpropdef
: MMethodDef, arguments
: Array[Instance], f
: Frame): nullable Instance
748 for i
in [0..mpropdef
.msignature
.arity
[ do
749 var variable
= self.n_signature
.n_params
[i
].variable
750 assert variable
!= null
751 v
.write_variable
(variable
, arguments
[i
+1])
754 # Call the implicit super-init
755 var auto_super_inits
= self.auto_super_inits
756 if auto_super_inits
!= null then
757 var args
= [arguments
.first
]
758 for auto_super_init
in auto_super_inits
do
760 for i
in [0..auto_super_init
.msignature
.arity
+1[ do
761 args
.add
(arguments
[i
])
763 assert auto_super_init
.mproperty
!= mpropdef
.mproperty
764 v
.callsite
(auto_super_init
, args
)
767 if auto_super_call
then
768 # standard call-next-method
769 var superpd
= mpropdef
.lookup_next_definition
(v
.mainmodule
, arguments
.first
.mtype
)
770 v
.call
(superpd
, arguments
)
773 if mpropdef
.is_intern
or mpropdef
.is_extern
then
774 var res
= intern_call
(v
, mpropdef
, arguments
)
775 if res
!= v
.error_instance
then return res
778 if n_block
!= null then
783 if mpropdef
.is_intern
then
784 fatal
(v
, "NOT YET IMPLEMENTED intern {mpropdef}")
785 else if mpropdef
.is_extern
then
786 fatal
(v
, "NOT YET IMPLEMENTED extern {mpropdef}")
788 fatal
(v
, "NOT YET IMPLEMENTED <wat?> {mpropdef}")
793 # Interprets a intern or a shortcut extern method.
794 # Returns the result for a function, `null` for a procedure, or `error_instance` if the method is unknown.
795 private fun intern_call
(v
: NaiveInterpreter, mpropdef
: MMethodDef, args
: Array[Instance]): nullable Instance
797 var pname
= mpropdef
.mproperty
.name
798 var cname
= mpropdef
.mclassdef
.mclass
.name
799 if pname
== "output" then
800 var recv
= args
.first
803 else if pname
== "object_id" then
804 var recv
= args
.first
805 if recv
isa PrimitiveInstance[Object] then
806 return v
.int_instance
(recv
.val
.object_id
)
808 return v
.int_instance
(recv
.object_id
)
810 else if pname
== "output_class_name" then
811 var recv
= args
.first
814 else if pname
== "native_class_name" then
815 var recv
= args
.first
816 var txt
= recv
.mtype
.to_s
817 return v
.native_string_instance
(txt
)
818 else if pname
== "==" then
819 # == is correctly redefined for instances
820 return v
.bool_instance
(args
[0] == args
[1])
821 else if pname
== "!=" then
822 return v
.bool_instance
(args
[0] != args
[1])
823 else if pname
== "is_same_type" then
824 return v
.bool_instance
(args
[0].mtype
== args
[1].mtype
)
825 else if pname
== "is_same_instance" then
826 return v
.bool_instance
(args
[0].eq_is
(args
[1]))
827 else if pname
== "exit" then
830 else if pname
== "buffer_mode_full" then
831 return v
.int_instance
(sys
.buffer_mode_full
)
832 else if pname
== "buffer_mode_line" then
833 return v
.int_instance
(sys
.buffer_mode_line
)
834 else if pname
== "buffer_mode_none" then
835 return v
.int_instance
(sys
.buffer_mode_none
)
836 else if pname
== "sys" then
838 else if cname
== "Int" then
839 var recvval
= args
[0].to_i
840 if pname
== "unary -" then
841 return v
.int_instance
(-args
[0].to_i
)
842 else if pname
== "unary +" then
844 else if pname
== "+" then
845 return v
.int_instance
(args
[0].to_i
+ args
[1].to_i
)
846 else if pname
== "-" then
847 return v
.int_instance
(args
[0].to_i
- args
[1].to_i
)
848 else if pname
== "*" then
849 return v
.int_instance
(args
[0].to_i
* args
[1].to_i
)
850 else if pname
== "%" then
851 return v
.int_instance
(args
[0].to_i
% args
[1].to_i
)
852 else if pname
== "/" then
853 return v
.int_instance
(args
[0].to_i
/ args
[1].to_i
)
854 else if pname
== "<" then
855 return v
.bool_instance
(args
[0].to_i
< args
[1].to_i
)
856 else if pname
== ">" then
857 return v
.bool_instance
(args
[0].to_i
> args
[1].to_i
)
858 else if pname
== "<=" then
859 return v
.bool_instance
(args
[0].to_i
<= args
[1].to_i
)
860 else if pname
== ">=" then
861 return v
.bool_instance
(args
[0].to_i
>= args
[1].to_i
)
862 else if pname
== "<=>" then
863 return v
.int_instance
(args
[0].to_i
<=> args
[1].to_i
)
864 else if pname
== "ascii" then
865 return v
.char_instance
(args
[0].to_i
.ascii
)
866 else if pname
== "to_f" then
867 return v
.float_instance
(args
[0].to_i
.to_f
)
868 else if pname
== "lshift" then
869 return v
.int_instance
(args
[0].to_i
.lshift
(args
[1].to_i
))
870 else if pname
== "rshift" then
871 return v
.int_instance
(args
[0].to_i
.rshift
(args
[1].to_i
))
872 else if pname
== "rand" then
873 var res
= recvval
.rand
874 return v
.int_instance
(res
)
875 else if pname
== "bin_and" then
876 return v
.int_instance
(args
[0].to_i
.bin_and
(args
[1].to_i
))
877 else if pname
== "bin_or" then
878 return v
.int_instance
(args
[0].to_i
.bin_or
(args
[1].to_i
))
879 else if pname
== "bin_xor" then
880 return v
.int_instance
(args
[0].to_i
.bin_xor
(args
[1].to_i
))
881 else if pname
== "bin_not" then
882 return v
.int_instance
(args
[0].to_i
.bin_not
)
883 else if pname
== "int_to_s_len" then
884 return v
.int_instance
(recvval
.to_s
.length
)
885 else if pname
== "native_int_to_s" then
887 var srecv
= args
[1].val
.as(Buffer)
892 else if pname
== "strerror_ext" then
893 return v
.native_string_instance
(recvval
.strerror
)
895 else if cname
== "Char" then
896 var recv
= args
[0].val
.as(Char)
897 if pname
== "ascii" then
898 return v
.int_instance
(recv
.ascii
)
899 else if pname
== "successor" then
900 return v
.char_instance
(recv
.successor
(args
[1].to_i
))
901 else if pname
== "predecessor" then
902 return v
.char_instance
(recv
.predecessor
(args
[1].to_i
))
903 else if pname
== "<" then
904 return v
.bool_instance
(recv
< args
[1].val
.as(Char))
905 else if pname
== ">" then
906 return v
.bool_instance
(recv
> args
[1].val
.as(Char))
907 else if pname
== "<=" then
908 return v
.bool_instance
(recv
<= args
[1].val
.as(Char))
909 else if pname
== ">=" then
910 return v
.bool_instance
(recv
>= args
[1].val
.as(Char))
911 else if pname
== "<=>" then
912 return v
.int_instance
(recv
<=> args
[1].val
.as(Char))
914 else if cname
== "Float" then
915 var recv
= args
[0].to_f
916 if pname
== "unary -" then
917 return v
.float_instance
(-recv
)
918 else if pname
== "unary +" then
920 else if pname
== "+" then
921 return v
.float_instance
(recv
+ args
[1].to_f
)
922 else if pname
== "-" then
923 return v
.float_instance
(recv
- args
[1].to_f
)
924 else if pname
== "*" then
925 return v
.float_instance
(recv
* args
[1].to_f
)
926 else if pname
== "/" then
927 return v
.float_instance
(recv
/ args
[1].to_f
)
928 else if pname
== "<" then
929 return v
.bool_instance
(recv
< args
[1].to_f
)
930 else if pname
== ">" then
931 return v
.bool_instance
(recv
> args
[1].to_f
)
932 else if pname
== "<=" then
933 return v
.bool_instance
(recv
<= args
[1].to_f
)
934 else if pname
== ">=" then
935 return v
.bool_instance
(recv
>= args
[1].to_f
)
936 else if pname
== "to_i" then
937 return v
.int_instance
(recv
.to_i
)
938 else if pname
== "cos" then
939 return v
.float_instance
(args
[0].to_f
.cos
)
940 else if pname
== "sin" then
941 return v
.float_instance
(args
[0].to_f
.sin
)
942 else if pname
== "tan" then
943 return v
.float_instance
(args
[0].to_f
.tan
)
944 else if pname
== "acos" then
945 return v
.float_instance
(args
[0].to_f
.acos
)
946 else if pname
== "asin" then
947 return v
.float_instance
(args
[0].to_f
.asin
)
948 else if pname
== "atan" then
949 return v
.float_instance
(args
[0].to_f
.atan
)
950 else if pname
== "sqrt" then
951 return v
.float_instance
(args
[0].to_f
.sqrt
)
952 else if pname
== "exp" then
953 return v
.float_instance
(args
[0].to_f
.exp
)
954 else if pname
== "log" then
955 return v
.float_instance
(args
[0].to_f
.log
)
956 else if pname
== "pow" then
957 return v
.float_instance
(args
[0].to_f
.pow
(args
[1].to_f
))
958 else if pname
== "rand" then
959 return v
.float_instance
(args
[0].to_f
.rand
)
960 else if pname
== "abs" then
961 return v
.float_instance
(args
[0].to_f
.abs
)
962 else if pname
== "hypot_with" then
963 return v
.float_instance
(args
[0].to_f
.hypot_with
(args
[1].to_f
))
964 else if pname
== "is_nan" then
965 return v
.bool_instance
(args
[0].to_f
.is_nan
)
966 else if pname
== "is_inf_extern" then
967 return v
.bool_instance
(args
[0].to_f
.is_inf
!= 0)
968 else if pname
== "round" then
969 return v
.float_instance
(args
[0].to_f
.round
)
971 else if cname
== "NativeString" then
972 if pname
== "new" then
973 return v
.native_string_instance
("!" * args
[1].to_i
)
975 var recvval
= args
.first
.val
.as(Buffer)
976 if pname
== "[]" then
977 var arg1
= args
[1].to_i
978 if arg1
>= recvval
.length
or arg1
< 0 then
979 debug
("Illegal access on {recvval} for element {arg1}/{recvval.length}")
981 return v
.char_instance
(recvval
.chars
[arg1
])
982 else if pname
== "[]=" then
983 var arg1
= args
[1].to_i
984 if arg1
>= recvval
.length
or arg1
< 0 then
985 debug
("Illegal access on {recvval} for element {arg1}/{recvval.length}")
987 recvval
.chars
[arg1
] = args
[2].val
.as(Char)
989 else if pname
== "copy_to" then
990 # sig= copy_to(dest: NativeString, length: Int, from: Int, to: Int)
991 var destval
= args
[1].val
.as(FlatBuffer)
992 var lenval
= args
[2].to_i
993 var fromval
= args
[3].to_i
994 var toval
= args
[4].to_i
996 debug
("Illegal access on {recvval} for element {fromval}/{recvval.length}")
998 if fromval
+ lenval
> recvval
.length
then
999 debug
("Illegal access on {recvval} for element {fromval}+{lenval}/{recvval.length}")
1002 debug
("Illegal access on {destval} for element {toval}/{destval.length}")
1004 if toval
+ lenval
> destval
.length
then
1005 debug
("Illegal access on {destval} for element {toval}+{lenval}/{destval.length}")
1007 recvval
.as(FlatBuffer).copy
(fromval
, lenval
, destval
, toval
)
1009 else if pname
== "atoi" then
1010 return v
.int_instance
(recvval
.to_i
)
1011 else if pname
== "file_exists" then
1012 return v
.bool_instance
(recvval
.to_s
.file_exists
)
1013 else if pname
== "file_mkdir" then
1014 var res
= recvval
.to_s
.mkdir
1015 return v
.bool_instance
(res
== null)
1016 else if pname
== "file_chdir" then
1017 var res
= recvval
.to_s
.chdir
1018 return v
.bool_instance
(res
== null)
1019 else if pname
== "file_realpath" then
1020 return v
.native_string_instance
(recvval
.to_s
.realpath
)
1021 else if pname
== "get_environ" then
1022 var txt
= recvval
.to_s
.environ
1023 return v
.native_string_instance
(txt
)
1024 else if pname
== "system" then
1025 var res
= sys
.system
(recvval
.to_s
)
1026 return v
.int_instance
(res
)
1027 else if pname
== "atof" then
1028 return v
.float_instance
(recvval
.to_f
)
1029 else if pname
== "fast_cstring" then
1030 var ns
= recvval
.to_cstring
.to_s
.substring_from
(args
[1].to_i
)
1031 return v
.native_string_instance
(ns
)
1033 else if cname
== "String" then
1034 var cs
= v
.send
(v
.force_get_primitive_method
("to_cstring", args
.first
.mtype
), [args
.first
])
1035 var str
= cs
.val
.to_s
1036 if pname
== "files" then
1037 var res
= new Array[Instance]
1038 for f
in str
.files
do res
.add v
.string_instance
(f
)
1039 return v
.array_instance
(res
, v
.mainmodule
.string_type
)
1041 else if pname
== "calloc_string" then
1042 return v
.native_string_instance
("!" * args
[1].to_i
)
1043 else if cname
== "NativeArray" then
1044 if pname
== "new" then
1045 var val
= new Array[Instance].filled_with
(v
.null_instance
, args
[1].to_i
)
1046 var instance
= new PrimitiveInstance[Array[Instance]](args
[0].mtype
, val
)
1047 v
.init_instance_primitive
(instance
)
1050 var recvval
= args
.first
.val
.as(Array[Instance])
1051 if pname
== "[]" then
1052 if args
[1].to_i
>= recvval
.length
or args
[1].to_i
< 0 then
1053 debug
("Illegal access on {recvval} for element {args[1].to_i}/{recvval.length}")
1055 return recvval
[args
[1].to_i
]
1056 else if pname
== "[]=" then
1057 recvval
[args
[1].to_i
] = args
[2]
1059 else if pname
== "length" then
1060 return v
.int_instance
(recvval
.length
)
1061 else if pname
== "copy_to" then
1062 recvval
.copy_to
(0, args
[2].to_i
, args
[1].val
.as(Array[Instance]), 0)
1065 else if cname
== "NativeFile" then
1066 if pname
== "native_stdout" then
1067 var inst
= new PrimitiveNativeFile.native_stdout
1068 var instance
= new PrimitiveInstance[PrimitiveNativeFile](mpropdef
.mclassdef
.mclass
.mclass_type
, inst
)
1069 v
.init_instance_primitive
(instance
)
1071 else if pname
== "native_stdin" then
1072 var inst
= new PrimitiveNativeFile.native_stdin
1073 var instance
= new PrimitiveInstance[PrimitiveNativeFile](mpropdef
.mclassdef
.mclass
.mclass_type
, inst
)
1074 v
.init_instance_primitive
(instance
)
1076 else if pname
== "native_stderr" then
1077 var inst
= new PrimitiveNativeFile.native_stderr
1078 var instance
= new PrimitiveInstance[PrimitiveNativeFile](mpropdef
.mclassdef
.mclass
.mclass_type
, inst
)
1079 v
.init_instance_primitive
(instance
)
1081 else if pname
== "io_open_read" then
1082 var a1
= args
[1].val
.as(Buffer)
1083 var inst
= new PrimitiveNativeFile.io_open_read
(a1
.to_s
)
1084 var instance
= new PrimitiveInstance[PrimitiveNativeFile](mpropdef
.mclassdef
.mclass
.mclass_type
, inst
)
1085 v
.init_instance_primitive
(instance
)
1087 else if pname
== "io_open_write" then
1088 var a1
= args
[1].val
.as(Buffer)
1089 var inst
= new PrimitiveNativeFile.io_open_write
(a1
.to_s
)
1090 var instance
= new PrimitiveInstance[PrimitiveNativeFile](mpropdef
.mclassdef
.mclass
.mclass_type
, inst
)
1091 v
.init_instance_primitive
(instance
)
1094 var recvval
= args
.first
.val
1095 if pname
== "io_write" then
1096 var a1
= args
[1].val
.as(Buffer)
1097 return v
.int_instance
(recvval
.as(PrimitiveNativeFile).io_write
(a1
.to_cstring
, args
[2].to_i
))
1098 else if pname
== "io_read" then
1099 var a1
= args
[1].val
.as(Buffer)
1100 var ns
= new NativeString(a1
.length
)
1101 var len
= recvval
.as(PrimitiveNativeFile).io_read
(ns
, args
[2].to_i
)
1103 a1
.append
(ns
.to_s_with_length
(len
))
1104 return v
.int_instance
(len
)
1105 else if pname
== "flush" then
1106 recvval
.as(PrimitiveNativeFile).flush
1108 else if pname
== "io_close" then
1109 return v
.int_instance
(recvval
.as(PrimitiveNativeFile).io_close
)
1110 else if pname
== "set_buffering_type" then
1111 return v
.int_instance
(recvval
.as(PrimitiveNativeFile).set_buffering_type
(args
[1].to_i
, args
[2].to_i
))
1113 else if pname
== "native_argc" then
1114 return v
.int_instance
(v
.arguments
.length
)
1115 else if pname
== "native_argv" then
1116 var txt
= v
.arguments
[args
[1].to_i
]
1117 return v
.native_string_instance
(txt
)
1118 else if pname
== "native_argc" then
1119 return v
.int_instance
(v
.arguments
.length
)
1120 else if pname
== "native_argv" then
1121 var txt
= v
.arguments
[args
[1].to_i
]
1122 return v
.native_string_instance
(txt
)
1123 else if pname
== "get_time" then
1124 return v
.int_instance
(get_time
)
1125 else if pname
== "srand" then
1128 else if pname
== "srand_from" then
1129 srand_from
(args
[1].to_i
)
1131 else if pname
== "atan2" then
1132 return v
.float_instance
(atan2
(args
[1].to_f
, args
[2].to_f
))
1133 else if pname
== "pi" then
1134 return v
.float_instance
(pi
)
1135 else if pname
== "lexer_goto" then
1136 return v
.int_instance
(lexer_goto
(args
[1].to_i
, args
[2].to_i
))
1137 else if pname
== "lexer_accept" then
1138 return v
.int_instance
(lexer_accept
(args
[1].to_i
))
1139 else if pname
== "parser_goto" then
1140 return v
.int_instance
(parser_goto
(args
[1].to_i
, args
[2].to_i
))
1141 else if pname
== "parser_action" then
1142 return v
.int_instance
(parser_action
(args
[1].to_i
, args
[2].to_i
))
1143 else if pname
== "file_getcwd" then
1144 return v
.native_string_instance
(getcwd
)
1145 else if pname
== "errno" then
1146 return v
.int_instance
(sys
.errno
)
1147 else if pname
== "address_is_null" then
1149 if recv
isa PrimitiveInstance[PrimitiveNativeFile] then
1150 return v
.bool_instance
(recv
.val
.address_is_null
)
1152 return v
.false_instance
1154 return v
.error_instance
1158 redef class AAttrPropdef
1159 redef fun call
(v
, mpropdef
, args
)
1161 var recv
= args
.first
1162 assert recv
isa MutableInstance
1163 var attr
= self.mpropdef
.mproperty
1164 if mpropdef
== mreadpropdef
then
1165 assert args
.length
== 1
1166 if not is_lazy
or v
.isset_attribute
(attr
, recv
) then return v
.read_attribute
(attr
, recv
)
1167 var f
= v
.new_frame
(self, mpropdef
, args
)
1168 return evaluate_expr
(v
, recv
, f
)
1169 else if mpropdef
== mwritepropdef
then
1170 assert args
.length
== 2
1171 v
.write_attribute
(attr
, recv
, args
[1])
1178 # Evaluate and set the default value of the attribute in `recv`
1179 private fun init_expr
(v
: NaiveInterpreter, recv
: Instance)
1181 if is_lazy
then return
1183 var f
= v
.new_frame
(self, mpropdef
.as(not null), [recv
])
1184 evaluate_expr
(v
, recv
, f
)
1187 var mpropdef
= self.mpropdef
1188 if mpropdef
== null then return
1189 var mtype
= mpropdef
.static_mtype
.as(not null)
1190 mtype
= mtype
.anchor_to
(v
.mainmodule
, recv
.mtype
.as(MClassType))
1191 if mtype
isa MNullableType then
1192 v
.write_attribute
(self.mpropdef
.mproperty
, recv
, v
.null_instance
)
1196 private fun evaluate_expr
(v
: NaiveInterpreter, recv
: Instance, f
: Frame): Instance
1198 assert recv
isa MutableInstance
1203 var nexpr
= self.n_expr
1204 var nblock
= self.n_block
1205 if nexpr
!= null then
1207 else if nblock
!= null then
1209 assert v
.returnmark
== f
1212 v
.escapevalue
= null
1219 assert not v
.is_escaping
1220 v
.write_attribute
(self.mpropdef
.mproperty
, recv
, val
)
1225 redef class AClassdef
1226 # Execute an implicit `mpropdef` associated with the current node.
1227 private fun call
(v
: NaiveInterpreter, mpropdef
: MMethodDef, args
: Array[Instance]): nullable Instance
1229 if mpropdef
.mproperty
.is_root_init
then
1230 assert args
.length
== 1
1231 if not mpropdef
.is_intro
then
1232 # standard call-next-method
1233 var superpd
= mpropdef
.lookup_next_definition
(v
.mainmodule
, args
.first
.mtype
)
1234 v
.call
(superpd
, args
)
1244 # Evaluate the node as a possible expression.
1245 # Return a possible value
1246 # NOTE: Do not call this method directly, but use `v.expr`
1247 # This method is here to be implemented by subclasses.
1248 protected fun expr
(v
: NaiveInterpreter): nullable Instance
1250 fatal
(v
, "NOT YET IMPLEMENTED expr {class_name}")
1254 # Evaluate the node as a statement.
1255 # NOTE: Do not call this method directly, but use `v.stmt`
1256 # This method is here to be implemented by subclasses (no need to return something).
1257 protected fun stmt
(v
: NaiveInterpreter)
1264 redef class ABlockExpr
1267 var last
= self.n_expr
.last
1268 for e
in self.n_expr
do
1269 if e
== last
then break
1271 if v
.is_escaping
then return null
1278 for e
in self.n_expr
do
1280 if v
.is_escaping
then return
1285 redef class AVardeclExpr
1288 var ne
= self.n_expr
1291 if i
== null then return null
1292 v
.write_variable
(self.variable
.as(not null), i
)
1299 redef class AVarExpr
1302 return v
.read_variable
(self.variable
.as(not null))
1306 redef class AVarAssignExpr
1309 var i
= v
.expr
(self.n_value
)
1310 if i
== null then return null
1311 v
.write_variable
(self.variable
.as(not null), i
)
1316 redef class AVarReassignExpr
1319 var variable
= self.variable
.as(not null)
1320 var vari
= v
.read_variable
(variable
)
1321 var value
= v
.expr
(self.n_value
)
1322 if value
== null then return
1323 var res
= v
.callsite
(reassign_callsite
, [vari
, value
])
1325 v
.write_variable
(variable
, res
)
1329 redef class ASelfExpr
1332 return v
.frame
.arguments
.first
1336 redef class AImplicitSelfExpr
1339 if not is_sys
then return super
1344 redef class AEscapeExpr
1347 var ne
= self.n_expr
1350 if i
== null then return
1353 v
.escapemark
= self.escapemark
1357 redef class AReturnExpr
1360 var ne
= self.n_expr
1363 if i
== null then return
1366 v
.returnmark
= v
.frame
1370 redef class AAbortExpr
1381 var cond
= v
.expr
(self.n_expr
)
1382 if cond
== null then return null
1383 if cond
.is_true
then
1384 return v
.expr
(self.n_then
.as(not null))
1386 return v
.expr
(self.n_else
.as(not null))
1392 var cond
= v
.expr
(self.n_expr
)
1393 if cond
== null then return
1394 if cond
.is_true
then
1402 redef class AIfexprExpr
1405 var cond
= v
.expr
(self.n_expr
)
1406 if cond
== null then return null
1407 if cond
.is_true
then
1408 return v
.expr
(self.n_then
)
1410 return v
.expr
(self.n_else
)
1418 v
.stmt
(self.n_block
)
1419 v
.is_escape
(self.break_mark
) # Clear the break (if any)
1423 redef class AWhileExpr
1427 var cond
= v
.expr
(self.n_expr
)
1428 if cond
== null then return
1429 if not cond
.is_true
then return
1430 v
.stmt
(self.n_block
)
1431 if v
.is_escape
(self.break_mark
) then return
1432 v
.is_escape
(self.continue_mark
) # Clear the break
1433 if v
.is_escaping
then return
1438 redef class ALoopExpr
1442 v
.stmt
(self.n_block
)
1443 if v
.is_escape
(self.break_mark
) then return
1444 v
.is_escape
(self.continue_mark
) # Clear the break
1445 if v
.is_escaping
then return
1450 redef class AForExpr
1453 var col
= v
.expr
(self.n_expr
)
1454 if col
== null then return
1455 if col
.mtype
isa MNullType then fatal
(v
, "Receiver is null")
1457 #self.debug("col {col}")
1458 var iter
= v
.callsite
(method_iterator
, [col
]).as(not null)
1459 #self.debug("iter {iter}")
1461 var isok
= v
.callsite
(method_is_ok
, [iter
]).as(not null)
1462 if not isok
.is_true
then break
1463 if self.variables
.length
== 1 then
1464 var item
= v
.callsite
(method_item
, [iter
]).as(not null)
1465 #self.debug("item {item}")
1466 v
.write_variable
(self.variables
.first
, item
)
1467 else if self.variables
.length
== 2 then
1468 var key
= v
.callsite
(method_key
, [iter
]).as(not null)
1469 v
.write_variable
(self.variables
[0], key
)
1470 var item
= v
.callsite
(method_item
, [iter
]).as(not null)
1471 v
.write_variable
(self.variables
[1], item
)
1475 v
.stmt
(self.n_block
)
1476 if v
.is_escape
(self.break_mark
) then break
1477 v
.is_escape
(self.continue_mark
) # Clear the break
1478 if v
.is_escaping
then break
1479 v
.callsite
(method_next
, [iter
])
1481 var method_finish
= self.method_finish
1482 if method_finish
!= null then
1483 v
.callsite
(method_finish
, [iter
])
1488 redef class AWithExpr
1491 var expr
= v
.expr
(self.n_expr
)
1492 if expr
== null then return
1494 v
.callsite
(method_start
, [expr
])
1495 v
.stmt
(self.n_block
)
1496 v
.is_escape
(self.break_mark
) # Clear the break
1497 v
.callsite
(method_finish
, [expr
])
1501 redef class AAssertExpr
1504 var cond
= v
.expr
(self.n_expr
)
1505 if cond
== null then return
1506 if not cond
.is_true
then
1508 if v
.is_escaping
then return
1511 fatal
(v
, "Assert '{nid.text}' failed")
1513 fatal
(v
, "Assert failed")
1523 var cond
= v
.expr
(self.n_expr
)
1524 if cond
== null then return null
1525 if cond
.is_true
then return cond
1526 return v
.expr
(self.n_expr2
)
1530 redef class AImpliesExpr
1533 var cond
= v
.expr
(self.n_expr
)
1534 if cond
== null then return null
1535 if not cond
.is_true
then return v
.true_instance
1536 return v
.expr
(self.n_expr2
)
1540 redef class AAndExpr
1543 var cond
= v
.expr
(self.n_expr
)
1544 if cond
== null then return null
1545 if not cond
.is_true
then return cond
1546 return v
.expr
(self.n_expr2
)
1550 redef class ANotExpr
1553 var cond
= v
.expr
(self.n_expr
)
1554 if cond
== null then return null
1555 return v
.bool_instance
(not cond
.is_true
)
1559 redef class AOrElseExpr
1562 var i
= v
.expr
(self.n_expr
)
1563 if i
== null then return null
1564 if i
!= v
.null_instance
then return i
1565 return v
.expr
(self.n_expr2
)
1569 redef class AIntExpr
1572 return v
.int_instance
(self.value
.as(not null))
1576 redef class AFloatExpr
1579 return v
.float_instance
(self.value
.as(not null))
1583 redef class ACharExpr
1586 return v
.char_instance
(self.value
.as(not null))
1590 redef class AArrayExpr
1593 var val
= new Array[Instance]
1594 var old_comprehension
= v
.frame
.comprehension
1595 v
.frame
.comprehension
= val
1596 for nexpr
in self.n_exprs
do
1597 if nexpr
isa AForExpr then
1600 var i
= v
.expr
(nexpr
)
1601 if i
== null then return null
1605 v
.frame
.comprehension
= old_comprehension
1606 var mtype
= v
.unanchor_type
(self.mtype
.as(not null)).as(MClassType)
1607 var elttype
= mtype
.arguments
.first
1608 return v
.array_instance
(val
, elttype
)
1612 redef class AStringFormExpr
1615 var txt
= self.value
.as(not null)
1616 return v
.string_instance
(txt
)
1620 redef class ASuperstringExpr
1623 var array
= new Array[Instance]
1624 for nexpr
in n_exprs
do
1625 var i
= v
.expr
(nexpr
)
1626 if i
== null then return null
1629 var i
= v
.array_instance
(array
, v
.mainmodule
.object_type
)
1630 var res
= v
.send
(v
.force_get_primitive_method
("to_s", i
.mtype
), [i
])
1636 redef class ACrangeExpr
1639 var e1
= v
.expr
(self.n_expr
)
1640 if e1
== null then return null
1641 var e2
= v
.expr
(self.n_expr2
)
1642 if e2
== null then return null
1643 var mtype
= v
.unanchor_type
(self.mtype
.as(not null))
1644 var res
= new MutableInstance(mtype
)
1645 v
.init_instance
(res
)
1646 v
.callsite
(init_callsite
, [res
, e1
, e2
])
1651 redef class AOrangeExpr
1654 var e1
= v
.expr
(self.n_expr
)
1655 if e1
== null then return null
1656 var e2
= v
.expr
(self.n_expr2
)
1657 if e2
== null then return null
1658 var mtype
= v
.unanchor_type
(self.mtype
.as(not null))
1659 var res
= new MutableInstance(mtype
)
1660 v
.init_instance
(res
)
1661 v
.callsite
(init_callsite
, [res
, e1
, e2
])
1666 redef class ATrueExpr
1669 return v
.bool_instance
(true)
1673 redef class AFalseExpr
1676 return v
.bool_instance
(false)
1680 redef class ANullExpr
1683 return v
.null_instance
1687 redef class AIsaExpr
1690 var i
= v
.expr
(self.n_expr
)
1691 if i
== null then return null
1692 var mtype
= v
.unanchor_type
(self.cast_type
.as(not null))
1693 return v
.bool_instance
(v
.is_subtype
(i
.mtype
, mtype
))
1697 redef class AAsCastExpr
1700 var i
= v
.expr
(self.n_expr
)
1701 if i
== null then return null
1702 var mtype
= self.mtype
.as(not null)
1703 var amtype
= v
.unanchor_type
(mtype
)
1704 if not v
.is_subtype
(i
.mtype
, amtype
) then
1705 fatal
(v
, "Cast failed. Expected `{amtype}`, got `{i.mtype}`")
1711 redef class AAsNotnullExpr
1714 var i
= v
.expr
(self.n_expr
)
1715 if i
== null then return null
1716 if i
.mtype
isa MNullType then
1717 fatal
(v
, "Cast failed")
1723 redef class AParExpr
1726 return v
.expr
(self.n_expr
)
1730 redef class AOnceExpr
1733 if v
.onces
.has_key
(self) then
1734 return v
.onces
[self]
1736 var res
= v
.expr
(self.n_expr
)
1737 if res
== null then return null
1744 redef class ASendExpr
1747 var recv
= v
.expr
(self.n_expr
)
1748 if recv
== null then return null
1749 var args
= v
.varargize
(callsite
.mpropdef
, callsite
.signaturemap
, recv
, self.raw_arguments
)
1750 if args
== null then return null
1752 var res
= v
.callsite
(callsite
, args
)
1757 redef class ASendReassignFormExpr
1760 var recv
= v
.expr
(self.n_expr
)
1761 if recv
== null then return
1762 var args
= v
.varargize
(callsite
.mpropdef
, callsite
.signaturemap
, recv
, self.raw_arguments
)
1763 if args
== null then return
1764 var value
= v
.expr
(self.n_value
)
1765 if value
== null then return
1767 var read
= v
.callsite
(callsite
, args
)
1770 var write
= v
.callsite
(reassign_callsite
, [read
, value
])
1771 assert write
!= null
1775 v
.callsite
(write_callsite
, args
)
1779 redef class ASuperExpr
1782 var recv
= v
.frame
.arguments
.first
1784 var callsite
= self.callsite
1785 if callsite
!= null then
1787 if self.n_args
.n_exprs
.is_empty
then
1788 # Add automatic arguments for the super init call
1790 for i
in [0..callsite
.msignature
.arity
[ do
1791 args
.add
(v
.frame
.arguments
[i
+1])
1794 args
= v
.varargize
(callsite
.mpropdef
, callsite
.signaturemap
, recv
, self.n_args
.n_exprs
)
1795 if args
== null then return null
1799 var res
= v
.callsite
(callsite
, args
)
1803 # Standard call-next-method
1804 var mpropdef
= self.mpropdef
1805 mpropdef
= mpropdef
.lookup_next_definition
(v
.mainmodule
, recv
.mtype
)
1808 if self.n_args
.n_exprs
.is_empty
then
1809 args
= v
.frame
.arguments
1811 args
= v
.varargize
(mpropdef
, signaturemap
, recv
, self.n_args
.n_exprs
)
1812 if args
== null then return null
1815 var res
= v
.call
(mpropdef
, args
)
1820 redef class ANewExpr
1823 var mtype
= v
.unanchor_type
(self.recvtype
.as(not null))
1824 var recv
: Instance = new MutableInstance(mtype
)
1825 v
.init_instance
(recv
)
1826 var callsite
= self.callsite
1827 if callsite
== null then return recv
1829 var args
= v
.varargize
(callsite
.mpropdef
, callsite
.signaturemap
, recv
, self.n_args
.n_exprs
)
1830 if args
== null then return null
1831 var res2
= v
.callsite
(callsite
, args
)
1832 if res2
!= null then
1833 #self.debug("got {res2} from {mproperty}. drop {recv}")
1840 redef class AAttrExpr
1843 var recv
= v
.expr
(self.n_expr
)
1844 if recv
== null then return null
1845 if recv
.mtype
isa MNullType then fatal
(v
, "Receiver is null")
1846 var mproperty
= self.mproperty
.as(not null)
1847 return v
.read_attribute
(mproperty
, recv
)
1851 redef class AAttrAssignExpr
1854 var recv
= v
.expr
(self.n_expr
)
1855 if recv
== null then return
1856 if recv
.mtype
isa MNullType then fatal
(v
, "Receiver is null")
1857 var i
= v
.expr
(self.n_value
)
1858 if i
== null then return
1859 var mproperty
= self.mproperty
.as(not null)
1860 v
.write_attribute
(mproperty
, recv
, i
)
1864 redef class AAttrReassignExpr
1867 var recv
= v
.expr
(self.n_expr
)
1868 if recv
== null then return
1869 if recv
.mtype
isa MNullType then fatal
(v
, "Receiver is null")
1870 var value
= v
.expr
(self.n_value
)
1871 if value
== null then return
1872 var mproperty
= self.mproperty
.as(not null)
1873 var attr
= v
.read_attribute
(mproperty
, recv
)
1874 var res
= v
.callsite
(reassign_callsite
, [attr
, value
])
1876 v
.write_attribute
(mproperty
, recv
, res
)
1880 redef class AIssetAttrExpr
1883 var recv
= v
.expr
(self.n_expr
)
1884 if recv
== null then return null
1885 if recv
.mtype
isa MNullType then fatal
(v
, "Receiver is null")
1886 var mproperty
= self.mproperty
.as(not null)
1887 return v
.bool_instance
(v
.isset_attribute
(mproperty
, recv
))
1891 redef class AVarargExpr
1894 return v
.expr
(self.n_expr
)
1898 redef class ADebugTypeExpr