import typing
import auto_super_init
+redef class ToolContext
+ # --discover-call-trace
+ var opt_discover_call_trace: OptionBool = new OptionBool("Trace calls of the first invocation of a method", "--discover-call-trace")
+
+ redef init
+ do
+ super
+ self.option_context.add_option(self.opt_discover_call_trace)
+ end
+end
+
redef class ModelBuilder
# Execute the program from the entry point (Sys::main) of the `mainmodule'
# `arguments' are the command-line arguments in order
self.toolcontext.info("*** START INTERPRETING ***", 1)
var interpreter = new NaiveInterpreter(self, mainmodule, arguments)
+ init_naive_interpreter(interpreter, mainmodule)
+
+ var time1 = get_time
+ self.toolcontext.info("*** END INTERPRETING: {time1-time0} ***", 2)
+ end
+
+ private fun init_naive_interpreter(interpreter: NaiveInterpreter, mainmodule: MModule) do
var sys_type = mainmodule.sys_type
if sys_type == null then return # no class Sys
- var mainobj = new Instance(sys_type)
+ var mainobj = new MutableInstance(sys_type)
interpreter.mainobj = mainobj
interpreter.init_instance(mainobj)
var initprop = mainmodule.try_get_primitive_method("init", sys_type)
if mainprop != null then
interpreter.send(mainprop, [mainobj])
end
-
- var time1 = get_time
- self.toolcontext.info("*** END INTERPRETING: {time1-time0} ***", 2)
end
end
self.arguments = arguments
self.true_instance = new PrimitiveInstance[Bool](mainmodule.bool_type, true)
self.false_instance = new PrimitiveInstance[Bool](mainmodule.bool_type, false)
- self.null_instance = new Instance(mainmodule.model.null_type)
+ self.null_instance = new MutableInstance(mainmodule.model.null_type)
end
# Subtype test in the context of the mainmodule
return sub.is_subtype(self.mainmodule, self.frame.arguments.first.mtype.as(MClassType), sup)
end
+ fun force_get_primitive_method(name: String, recv: MType): MMethod
+ do
+ return self.modelbuilder.force_get_primitive_method(self.frame.current_node, name, recv, self.mainmodule)
+ end
+
# Is a return executed?
# Set this mark to skip the evaluation until the end of the specified method frame
var returnmark: nullable Frame = null
# If `n' cannot be evaluated, then aborts.
fun expr(n: AExpr): nullable Instance
do
- var old = self.frame.current_node
- self.frame.current_node = n
+ var frame = self.frame
+ var old = frame.current_node
+ frame.current_node = n
#n.debug("IN Execute expr")
var i = n.expr(self)
if i == null and not self.is_escaping then
n.debug("inconsitance: no value and not escaping.")
end
+ var implicit_cast_to = n.implicit_cast_to
+ if implicit_cast_to != null then
+ var mtype = self.unanchor_type(implicit_cast_to)
+ if not self.is_subtype(i.mtype, mtype) then n.fatal(self, "Cast failed")
+ end
+
#n.debug("OUT Execute expr: value is {i}")
#if not is_subtype(i.mtype, n.mtype.as(not null)) then n.debug("Expected {n.mtype.as(not null)} got {i}")
- self.frame.current_node = old
+ frame.current_node = old
return i
end
fun stmt(n: nullable AExpr)
do
if n != null then
- var old = self.frame.current_node
- self.frame.current_node = n
+ var frame = self.frame
+ var old = frame.current_node
+ frame.current_node = n
#n.debug("Execute stmt")
n.stmt(self)
- self.frame.current_node = old
+ frame.current_node = old
end
end
assert not elttype.need_anchor
var nat = new PrimitiveInstance[Array[Instance]](self.mainmodule.get_primitive_class("NativeArray").get_mtype([elttype]), values)
var mtype = self.mainmodule.get_primitive_class("Array").get_mtype([elttype])
- var res = new Instance(mtype)
+ var res = new MutableInstance(mtype)
self.init_instance(res)
- self.send(self.mainmodule.force_get_primitive_method("with_native", mtype), [res, nat, self.int_instance(values.length)])
+ self.send(self.force_get_primitive_method("with_native", mtype), [res, nat, self.int_instance(values.length)])
self.check_init_instance(res)
return res
end
exit(1)
end
+ # Debug on the current node
+ fun debug(message: String)
+ do
+ if frames.is_empty then
+ print message
+ else
+ self.frame.current_node.debug(message)
+ end
+ end
+
+ # Store known method, used to trace methods as thez are reached
+ var discover_call_trace: Set[MMethodDef] = new HashSet[MMethodDef]
+
# Execute `mpropdef' for a `args' (where args[0] is the receiver).
# Return a falue if `mpropdef' is a function, or null if it is a procedure.
# The call is direct/static. There is no message-seding/late-bindng.
fun call(mpropdef: MMethodDef, args: Array[Instance]): nullable Instance
do
+ if self.modelbuilder.toolcontext.opt_discover_call_trace.value and not self.discover_call_trace.has(mpropdef) then
+ self.discover_call_trace.add mpropdef
+ self.debug("Discovered {mpropdef}")
+ end
var vararg_rank = mpropdef.msignature.vararg_rank
if vararg_rank >= 0 then
assert args.length >= mpropdef.msignature.arity + 1 # because of self
args.add(rawargs[i+1])
end
end
- assert args.length == mpropdef.msignature.arity + 1 # because of self
+ if args.length < mpropdef.msignature.arity + 1 or args.length > mpropdef.msignature.arity + 1 + mpropdef.msignature.mclosures.length then
+ fatal("NOT YET IMPLEMENTED: Invalid arity for {mpropdef}. {args.length} arguments given.")
+ end
+ if args.length < mpropdef.msignature.arity + 1 + mpropdef.msignature.mclosures.length then
+ fatal("NOT YET IMPLEMENTED: default closures")
+ end
# Look for the AST node that implements the property
var mproperty = mpropdef.mproperty
if self.modelbuilder.mpropdef2npropdef.has_key(mpropdef) then
var npropdef = self.modelbuilder.mpropdef2npropdef[mpropdef]
+ self.parameter_check(npropdef, mpropdef, args)
return npropdef.call(self, mpropdef, args)
else if mproperty.name == "init" then
var nclassdef = self.modelbuilder.mclassdef2nclassdef[mpropdef.mclassdef]
+ self.parameter_check(nclassdef, mpropdef, args)
return nclassdef.call(self, mpropdef, args)
else
fatal("Fatal Error: method {mpropdef} not found in the AST")
end
end
+ # Generate type checks in the C code to check covariant parameters
+ fun parameter_check(node: ANode, mpropdef: MMethodDef, args: Array[Instance])
+ do
+ var msignature = mpropdef.msignature
+ for i in [0..msignature.arity[ do
+ # skip test for vararg since the array is instantiated with the correct polymorphic type
+ if msignature.vararg_rank == i then continue
+
+ # skip if the cast is not required
+ var origmtype = mpropdef.mproperty.intro.msignature.mparameters[i].mtype
+ if not origmtype.need_anchor then continue
+
+ # get the parameter type
+ var mtype = msignature.mparameters[i].mtype
+ var anchor = args.first.mtype.as(MClassType)
+ mtype = mtype.anchor_to(self.mainmodule, anchor)
+ if not args[i+1].mtype.is_subtype(self.mainmodule, anchor, mtype) then
+ node.fatal(self, "Cast failed")
+ end
+ end
+ end
+
+ fun call_closure(closure: ClosureInstance, args: Array[Instance]): nullable Instance
+ do
+ var nclosuredef = closure.nclosuredef
+ var f = closure.frame
+ for i in [0..closure.nclosuredef.mclosure.mtype.as(MSignature).arity[ do
+ var variable = nclosuredef.variables[i]
+ f.map[variable] = args[i]
+ end
+
+ self.frames.unshift(f)
+
+ self.stmt(nclosuredef.n_expr)
+
+ self.frames.shift
+
+ if self.is_continue(nclosuredef.escapemark) then
+ var res = self.escapevalue
+ self.escapevalue = null
+ return res
+ end
+ return null
+ end
+
# Execute `mproperty' for a `args' (where args[0] is the receiver).
# Return a falue if `mproperty' is a function, or null if it is a procedure.
# The call is polimotphic. There is a message-seding/late-bindng according to te receiver (args[0]).
fatal("Reciever is null")
abort
end
- var propdefs = mproperty.lookup_definitions(self.mainmodule, mtype)
- if propdefs.length > 1 then
- fatal("NOT YET IMPLEMETED ERROR: Property conflict: {propdefs.join(", ")}")
- abort
- end
- assert propdefs.length == 1 else
- fatal("Fatal Error: No property '{mproperty}' for '{recv}'")
- abort
- end
- var propdef = propdefs.first
+ var propdef = mproperty.lookup_first_definition(self.mainmodule, mtype)
return self.call(propdef, args)
end
# If the attribute in not yet initialized, then aborts with an error message.
fun read_attribute(mproperty: MAttribute, recv: Instance): Instance
do
+ assert recv isa MutableInstance
if not recv.attributes.has_key(mproperty) then
fatal("Uninitialized attribute {mproperty.name}")
abort
return recv.attributes[mproperty]
end
- # Fill the initial values of the newly created instance `recv'.
- # `recv.mtype' is used to know what must be filled.
- fun init_instance(recv: Instance)
+ # Collect attributes of a type in the order of their init
+ fun collect_attr_propdef(mtype: MType): Array[AAttrPropdef]
do
- for cd in recv.mtype.collect_mclassdefs(self.mainmodule)
- do
+ var cache = self.collect_attr_propdef_cache
+ if cache.has_key(mtype) then return cache[mtype]
+
+ var res = new Array[AAttrPropdef]
+ var cds = mtype.collect_mclassdefs(self.mainmodule).to_a
+ self.mainmodule.linearize_mclassdefs(cds)
+ for cd in cds do
var n = self.modelbuilder.mclassdef2nclassdef[cd]
for npropdef in n.n_propdefs do
if npropdef isa AAttrPropdef then
- npropdef.init_expr(self, recv)
+ res.add(npropdef)
end
end
end
+
+ cache[mtype] = res
+ return res
+ end
+
+ var collect_attr_propdef_cache = new HashMap[MType, Array[AAttrPropdef]]
+
+ # Fill the initial values of the newly created instance `recv'.
+ # `recv.mtype' is used to know what must be filled.
+ fun init_instance(recv: Instance)
+ do
+ for npropdef in collect_attr_propdef(recv.mtype) do
+ npropdef.init_expr(self, recv)
+ end
end
# Check that non nullable attributes of `recv' are correctly initialized.
# FIXME: this will work better once there is nullable types
fun check_init_instance(recv: Instance)
do
- for cd in recv.mtype.collect_mclassdefs(self.mainmodule)
- do
- var n = self.modelbuilder.mclassdef2nclassdef[cd]
- for npropdef in n.n_propdefs do
- if npropdef isa AAttrPropdef and npropdef.n_expr == null then
- # Force read to check the initialization
- self.read_attribute(npropdef.mpropdef.mproperty, recv)
- end
+ if not recv isa MutableInstance then return
+ for npropdef in collect_attr_propdef(recv.mtype) do
+ if npropdef.n_expr == null then
+ # Force read to check the initialization
+ self.read_attribute(npropdef.mpropdef.mproperty, recv)
end
end
end
end
# An instance represents a value of the executed program.
-class Instance
+abstract class Instance
# The dynamic type of the instance
# ASSERT: not self.mtype.is_anchored
var mtype: MType
- # The values of the attributes
- var attributes: Map[MAttribute, Instance] = new HashMap[MAttribute, Instance]
-
# return true if the instance is the true value.
# return false if the instance is the true value.
# else aborts
fun eq_is(o: Instance): Bool do return self is o
# Human readable object identity "Type#number"
- redef fun to_s do return "{mtype}#{object_id}"
+ redef fun to_s do return "{mtype}"
- # Return the integer valur is the instance is an integer.
+ # Return the integer value if the instance is an integer.
# else aborts
fun to_i: Int do abort
+ # Return the integer value if the instance is a float.
+ # else aborts
+ fun to_f: Float do abort
+
# The real value encapsulated if the instance is primitive.
# Else aborts.
fun val: Object do abort
end
+# A instance with attribute (standards objects)
+class MutableInstance
+ super Instance
+
+ # The values of the attributes
+ var attributes: Map[MAttribute, Instance] = new HashMap[MAttribute, Instance]
+end
+
# Special instance to handle primitives values (int, bool, etc.)
# The trick it just to encapsulate the <<real>> value
class PrimitiveInstance[E: Object]
redef fun to_s do return "{mtype}#{val.object_id}({val})"
redef fun to_i do return val.as(Int)
+
+ redef fun to_f do return val.as(Float)
+end
+
+private class ClosureInstance
+ super Instance
+
+ var frame: Frame
+
+ var nclosuredef: AClosureDef
+
+ init(mtype: MType, frame: Frame, nclosuredef: AClosureDef)
+ do
+ super(mtype)
+ self.frame = frame
+ self.nclosuredef = nclosuredef
+ end
end
# Information about local variables in a running method
private fun fatal(v: NaiveInterpreter, message: String)
do
if v.modelbuilder.toolcontext.opt_no_color.value == true then
- print("{message} ({location.file.filename}:{location.line_start})")
+ stderr.write("Runtime error: {message} ({location.file.filename}:{location.line_start})\n")
else
- print("{location}: {message}\n{location.colored_line("0;31")}")
- print(v.stack_trace)
+ stderr.write("{location}: Runtime error: {message}\n{location.colored_line("0;31")}\n")
+ stderr.write(v.stack_trace)
+ stderr.write("\n")
end
exit(1)
end
# Execute a `mpropdef' associated with the current node.
private fun call(v: NaiveInterpreter, mpropdef: MMethodDef, args: Array[Instance]): nullable Instance
do
- fatal(v, "Unimplemented {mpropdef}")
+ fatal(v, "NOT YET IMPLEMENTED method kind {class_name}. {mpropdef}")
abort
end
end
assert variable != null
f.map[variable] = args[i+1]
end
+ for i in [0..mpropdef.msignature.mclosures.length[ do
+ var c = mpropdef.msignature.mclosures[i]
+ var variable = self.n_signature.n_closure_decls[i].variable
+ assert variable != null
+ f.map[variable] = args[i + 1 + mpropdef.msignature.arity]
+ end
v.frames.unshift(f)
end
else if pname == "output_class_name" then
var recv = args.first
- print recv.mtype.as(MClassType).mclass
+ print recv.mtype
return null
else if pname == "native_class_name" then
var recv = args.first
- var txt = recv.mtype.as(MClassType).mclass.to_s
+ var txt = recv.mtype.to_s
return v.native_string_instance(txt)
else if pname == "==" then
# == is correclt redefined for instances
return v.int_instance(recv <=> args[1].val.as(Char))
end
else if cname == "Float" then
- if pname == "+" then
- return v.float_instance(args[0].val.as(Float) + args[1].val.as(Float))
+ if pname == "unary -" then
+ return v.float_instance(-args[0].to_f)
+ else if pname == "+" then
+ return v.float_instance(args[0].to_f + args[1].to_f)
else if pname == "-" then
- return v.float_instance(args[0].val.as(Float) - args[1].val.as(Float))
+ return v.float_instance(args[0].to_f - args[1].to_f)
else if pname == "*" then
- return v.float_instance(args[0].val.as(Float) * args[1].val.as(Float))
+ return v.float_instance(args[0].to_f * args[1].to_f)
else if pname == "/" then
- return v.float_instance(args[0].val.as(Float) / args[1].val.as(Float))
+ return v.float_instance(args[0].to_f / args[1].to_f)
else if pname == "to_i" then
- return v.int_instance(args[0].val.as(Float).to_i)
+ return v.int_instance(args[0].to_f.to_i)
end
else if cname == "NativeString" then
var recvval = args.first.val.as(Buffer)
end
else if pname == "calloc_array" then
var recvtype = args.first.mtype.as(MClassType)
- var mtype: MType = recvtype.supertype_to(v.mainmodule, recvtype, v.mainmodule.get_primitive_class("ArrayCapable"))
- mtype = mtype.as(MGenericType).arguments.first
+ var mtype: MType
+ mtype = recvtype.supertype_to(v.mainmodule, recvtype, v.mainmodule.get_primitive_class("ArrayCapable"))
+ mtype = mtype.arguments.first
var val = new Array[Instance].filled_with(v.null_instance, args[1].to_i)
return new PrimitiveInstance[Array[Instance]](v.mainmodule.get_primitive_class("NativeArray").get_mtype([mtype]), val)
end
- fatal(v, "Unimplemented intern {mpropdef}")
+ fatal(v, "NOT YET IMPLEMENTED intern {mpropdef}")
abort
end
end
var a1 = args[1].val.as(Buffer)
return new PrimitiveInstance[OStream](mpropdef.mclassdef.mclass.mclass_type, new OFStream.open(a1.to_s))
end
- fatal(v, "Unimplemented extern init {mpropdef}")
+ fatal(v, "NOT YET IMPLEMENTED extern init {mpropdef}")
abort
end
end
else if pname == "system" then
var res = sys.system(recvval.to_s)
return v.int_instance(res)
+ else if pname == "atof" then
+ return v.float_instance(recvval.to_f)
+ end
+ else if cname == "Int" then
+ if pname == "rand" then
+ return v.int_instance(args[0].to_i.rand)
+ end
+ else if cname == "Float" then
+ if pname == "cos" then
+ return v.float_instance(args[0].to_f.cos)
+ else if pname == "sin" then
+ return v.float_instance(args[0].to_f.sin)
end
else if pname == "native_argc" then
return v.int_instance(v.arguments.length)
return v.native_string_instance(txt)
else if pname == "get_time" then
return v.int_instance(get_time)
+ else if pname == "atan2" then
+ return v.float_instance(atan2(args[1].to_f, args[2].to_f))
+ else if pname == "pi" then
+ return v.float_instance(pi)
else if pname == "lexer_goto" then
return v.int_instance(lexer_goto(args[1].to_i, args[2].to_i))
else if pname == "lexer_accept" then
else if pname == "parser_action" then
return v.int_instance(parser_action(args[1].to_i, args[2].to_i))
end
- fatal(v, "Unimplemented extern {mpropdef}")
+ fatal(v, "NOT YET IMPLEMENTED extern {mpropdef}")
abort
end
end
redef class AAttrPropdef
redef fun call(v, mpropdef, args)
do
+ var recv = args.first
+ assert recv isa MutableInstance
var attr = self.mpropdef.mproperty
if args.length == 1 then
- return v.read_attribute(attr, args.first)
+ return v.read_attribute(attr, recv)
else
assert args.length == 2
- args.first.attributes[attr] = args[1]
+ recv.attributes[attr] = args[1]
return null
end
end
# Evaluate and set the default value of the attribute in `recv'
private fun init_expr(v: NaiveInterpreter, recv: Instance)
do
+ assert recv isa MutableInstance
var nexpr = self.n_expr
if nexpr != null then
var f = new Frame(self, self.mpropdef.as(not null), [recv])
end
end
+redef class ADeferredMethPropdef
+ redef fun call(v, mpropdef, args)
+ do
+ fatal(v, "Deferred method called")
+ abort
+ end
+end
+
redef class AClassdef
# Execute an implicit `mpropdef' associated with the current node.
private fun call(v: NaiveInterpreter, mpropdef: MMethodDef, args: Array[Instance]): nullable Instance
return null
end
var recv = args.first
+ assert recv isa MutableInstance
var i = 1
# Collect undefined attributes
for npropdef in self.n_propdefs do
# This method is here to be implemented by subclasses.
private fun expr(v: NaiveInterpreter): nullable Instance
do
- fatal(v, "Unimplemented expr {class_name}")
+ fatal(v, "NOT YET IMPLEMENTED expr {class_name}")
abort
end
var col = v.expr(self.n_expr)
if col == null then return
#self.debug("col {col}")
- var iter = v.send(v.mainmodule.force_get_primitive_method("iterator", col.mtype), [col]).as(not null)
+ var iter = v.send(v.force_get_primitive_method("iterator", col.mtype), [col]).as(not null)
#self.debug("iter {iter}")
loop
- var isok = v.send(v.mainmodule.force_get_primitive_method("is_ok", iter.mtype), [iter]).as(not null)
+ var isok = v.send(v.force_get_primitive_method("is_ok", iter.mtype), [iter]).as(not null)
if not isok.is_true then return
if self.variables.length == 1 then
- var item = v.send(v.mainmodule.force_get_primitive_method("item", iter.mtype), [iter]).as(not null)
+ var item = v.send(v.force_get_primitive_method("item", iter.mtype), [iter]).as(not null)
#self.debug("item {item}")
v.frame.map[self.variables.first] = item
else if self.variables.length == 2 then
- var key = v.send(v.mainmodule.force_get_primitive_method("key", iter.mtype), [iter]).as(not null)
+ var key = v.send(v.force_get_primitive_method("key", iter.mtype), [iter]).as(not null)
v.frame.map[self.variables[0]] = key
- var item = v.send(v.mainmodule.force_get_primitive_method("item", iter.mtype), [iter]).as(not null)
+ var item = v.send(v.force_get_primitive_method("item", iter.mtype), [iter]).as(not null)
v.frame.map[self.variables[1]] = item
else
abort
if v.is_break(self.escapemark) then return
v.is_continue(self.escapemark) # Clear the break
if v.is_escaping then return
- v.send(v.mainmodule.force_get_primitive_method("next", iter.mtype), [iter])
+ v.send(v.force_get_primitive_method("next", iter.mtype), [iter])
end
end
end
if i == null then return null
val.add(i)
end
- var mtype = v.unanchor_type(self.mtype.as(not null)).as(MGenericType)
+ var mtype = v.unanchor_type(self.mtype.as(not null)).as(MClassType)
var elttype = mtype.arguments.first
return v.array_instance(val, elttype)
end
do
var txt = self.value.as(not null)
var nat = v.native_string_instance(txt)
- var res = new Instance(v.mainmodule.get_primitive_class("String").mclass_type)
+ var res = new MutableInstance(v.mainmodule.get_primitive_class("String").mclass_type)
v.init_instance(res)
- v.send(v.mainmodule.force_get_primitive_method("from_cstring", res.mtype), [res, nat])
+ v.send(v.force_get_primitive_method("from_cstring", res.mtype), [res, nat])
v.check_init_instance(res)
return res
end
array.add(i)
end
var i = v.array_instance(array, v.mainmodule.get_primitive_class("Object").mclass_type)
- var res = v.send(v.mainmodule.force_get_primitive_method("to_s", i.mtype), [i])
+ var res = v.send(v.force_get_primitive_method("to_s", i.mtype), [i])
assert res != null
return res
end
var e2 = v.expr(self.n_expr2)
if e2 == null then return null
var mtype = v.unanchor_type(self.mtype.as(not null))
- var res = new Instance(mtype)
+ var res = new MutableInstance(mtype)
v.init_instance(res)
- v.send(v.mainmodule.force_get_primitive_method("init", mtype), [res, e1, e2])
+ v.send(v.force_get_primitive_method("init", mtype), [res, e1, e2])
v.check_init_instance(res)
return res
end
var e2 = v.expr(self.n_expr2)
if e2 == null then return null
var mtype = v.unanchor_type(self.mtype.as(not null))
- var res = new Instance(mtype)
+ var res = new MutableInstance(mtype)
v.init_instance(res)
- v.send(v.mainmodule.force_get_primitive_method("without_last", mtype), [res, e1, e2])
+ v.send(v.force_get_primitive_method("without_last", mtype), [res, e1, e2])
v.check_init_instance(res)
return res
end
var recv = v.expr(self.n_expr)
if recv == null then return null
var args = [recv]
- for a in compute_raw_arguments do
+ for a in self.raw_arguments.as(not null) do
var i = v.expr(a)
if i == null then return null
args.add(i)
end
+ for c in self.n_closure_defs do
+ var mtype = c.mclosure.mtype
+ var instance = new ClosureInstance(mtype, v.frame, c)
+ args.add(instance)
+ end
var mproperty = self.mproperty.as(not null)
- return v.send(mproperty, args)
+
+ var res = v.send(mproperty, args)
+ if v.is_break(self.escapemark) then
+ res = v.escapevalue
+ v.escapevalue = null
+ end
+ return res
end
end
var recv = v.expr(self.n_expr)
if recv == null then return
var args = [recv]
- for a in compute_raw_arguments do
+ for a in self.raw_arguments.as(not null) do
var i = v.expr(a)
if i == null then return
args.add(i)
# stantard call-next-method
var mpropdef = v.frame.mpropdef
# FIXME: we do not want an ugly static call!
- var mpropdefs = mpropdef.mproperty.lookup_super_definitions(mpropdef.mclassdef.mmodule, mpropdef.mclassdef.bound_mtype)
- if mpropdefs.length != 1 then
- debug("MPRODFEFS for super {mpropdef} for {recv}: {mpropdefs.join(", ")}")
- end
- mpropdef = mpropdefs.first
+ mpropdef = mpropdef.lookup_next_definition(v.mainmodule, recv.mtype)
assert mpropdef isa MMethodDef
var res = v.call(mpropdef, args)
return res
redef fun expr(v)
do
var mtype = v.unanchor_type(self.mtype.as(not null))
- var recv = new Instance(mtype)
+ var recv: Instance = new MutableInstance(mtype)
v.init_instance(recv)
var args = [recv]
for a in self.n_args.n_exprs do
do
var recv = v.expr(self.n_expr)
if recv == null then return null
+ if recv.mtype isa MNullType then fatal(v, "Reciever is null")
var mproperty = self.mproperty.as(not null)
return v.read_attribute(mproperty, recv)
end
do
var recv = v.expr(self.n_expr)
if recv == null then return
+ if recv.mtype isa MNullType then fatal(v, "Reciever is null")
var i = v.expr(self.n_value)
if i == null then return
var mproperty = self.mproperty.as(not null)
+ assert recv isa MutableInstance
recv.attributes[mproperty] = i
end
end
do
var recv = v.expr(self.n_expr)
if recv == null then return
+ if recv.mtype isa MNullType then fatal(v, "Reciever is null")
var value = v.expr(self.n_value)
if value == null then return
var mproperty = self.mproperty.as(not null)
var attr = v.read_attribute(mproperty, recv)
var res = v.send(reassign_property.mproperty, [attr, value])
assert res != null
+ assert recv isa MutableInstance
recv.attributes[mproperty] = res
end
end
do
var recv = v.expr(self.n_expr)
if recv == null then return null
+ if recv.mtype isa MNullType then fatal(v, "Reciever is null")
var mproperty = self.mproperty.as(not null)
+ assert recv isa MutableInstance
return v.bool_instance(recv.attributes.has_key(mproperty))
end
end
+redef class AClosureCallExpr
+ redef fun expr(v)
+ do
+ var args = new Array[Instance]
+ for a in self.n_args.n_exprs do
+ var i = v.expr(a)
+ if i == null then return null
+ args.add(i)
+ end
+ var i = v.frame.map[self.variable.as(not null)]
+ assert i isa ClosureInstance
+ var res = v.call_closure(i, args)
+ return res
+ end
+end
+
redef class ADebugTypeExpr
redef fun stmt(v)
do