redef class MMLocalClass
# Cached result of get_type
- attr _base_type_cache: MMType
+ var _base_type_cache: nullable MMType
# Return the type of self for this class
- meth get_type: MMType
+ fun get_type: MMType
do
if _base_type_cache == null then _base_type_cache = new MMTypeSimpleClass(self)
- return _base_type_cache
+ return _base_type_cache.as(not null)
end
# Register a new ancestor
- protected meth add_ancestor(a: MMAncestor)
+ protected fun add_ancestor(a: MMAncestor)
do
assert not _ancestors.has_key(a.local_class)
assert a.local_class != self
end
# Array of ancestor that associate each superclass with the corresponding ancestor
- readable attr _ancestors: Map[MMLocalClass, MMAncestor]
+ readable var _ancestors: nullable Map[MMLocalClass, MMAncestor]
# The ancestor type for a given superclass
- meth ancestor(c: MMLocalClass): MMType
+ fun ancestor(c: MMLocalClass): MMType
do
return _ancestors[c].stype
end
redef class MMLocalProperty
# The signature of the property (where it is declared)
- readable writable attr _signature: MMSignature
+ readable writable var _signature: nullable MMSignature
- attr _signatures_cache: HashMap[MMType, MMSignature] = new HashMap[MMType, MMSignature]
+ var _signatures_cache: HashMap[MMType, MMSignature] = new HashMap[MMType, MMSignature]
# Return the adapted signature of self for a receiver of type t
- meth signature_for(t: MMType): MMSignature do
- if t == local_class.get_type then return signature
+ fun signature_for(t: MMType): MMSignature do
+ if t == local_class.get_type then return signature.as(not null)
if _signatures_cache.has_key(t) then return _signatures_cache[t]
# Signature for local properties
class MMSignature
# The type of the reveiver
- readable attr _recv: MMType
+ readable var _recv: MMType
# The parameter types
- attr _params: Array[MMType]
+ var _params: Array[MMType]
# The return type
- readable attr _return_type: MMType
+ readable var _return_type: nullable MMType
# The closure parameters
- readable attr _closures: Array[MMClosure] = new Array[MMClosure]
+ readable var _closures: Array[MMClosure] = new Array[MMClosure]
# Number of parameters
- meth arity: Int
+ fun arity: Int
do
- assert _params != null
return _params.length
end
# Is self a valid subtype of an other signature
- meth <(s: MMSignature): Bool
+ fun <(s: MMSignature): Bool
do
- assert s != null
if self == s then
return true
end
assert _recv.module == s.recv.module
- if arity != s.arity or (_return_type == null) != (s.return_type == null) then return false
- if _return_type != null and not _return_type < s.return_type then
+ var rt = _return_type
+ var srt = s.return_type
+ if arity != s.arity or (rt == null) != (srt == null) then return false
+ if rt != null and not rt < srt.as(not null) then
return false
end
end
# The type of the i-th parameter
- meth [](i: Int): MMType
+ fun [](i: Int): MMType
do
assert _params.length > i
return _params[i]
end
- redef meth to_s
+ redef fun to_s
do
var s = new Buffer
- if _params != null and _params.length > 0 then
+ if _params.length > 0 then
var tmp: String
var a = new Array[String].with_capacity(_params.length)
for i in [0.._params.length[ do
end
# Adapt the signature to a different receiver
- meth adaptation_to(r: MMType): MMSignature
+ fun adaptation_to(r: MMType): MMSignature
do
if _recv == r then
return self
end
var mod = r.module
- var p = _params
- if p != null then
- p = new Array[MMType]
- for i in _params do
- p.add(i.for_module(mod).adapt_to(r))
- end
+ var p = new Array[MMType]
+ for i in _params do
+ p.add(i.for_module(mod).adapt_to(r))
end
var rv = _return_type
if rv != null then
return res
end
- attr _not_for_self_cache: MMSignature = null
+ var _not_for_self_cache: nullable MMSignature = null
# Return a type approximation if the reveiver is not self
# Useful for virtual types
- meth not_for_self: MMSignature
+ fun not_for_self: MMSignature
do
- var res = _not_for_self_cache
- if res != null then return res
+ if _not_for_self_cache != null then return _not_for_self_cache.as(not null)
var need_for_self = false
- var p = _params
- if p != null then
- p = new Array[MMType]
- for i in _params do
- var i2 = i.not_for_self
- if i != i2 then need_for_self = true
- p.add(i2)
- end
+ var p = new Array[MMType]
+ for i in _params do
+ var i2 = i.not_for_self
+ if i != i2 then need_for_self = true
+ p.add(i2)
end
-
+
var rv = _return_type
if rv != null then
rv = rv.not_for_self
if rv != _return_type then need_for_self = true
end
-
- var clos = _closures
- if clos != null then
- clos = new Array[MMClosure]
- for c in _closures do
- var c2 = c.not_for_self
- if c2 != c then need_for_self = true
- clos.add(c2)
- end
+
+ var clos = new Array[MMClosure]
+ for c in _closures do
+ var c2 = c.not_for_self
+ if c2 != c then need_for_self = true
+ clos.add(c2)
end
+ var res: MMSignature
if need_for_self then
res = new MMSignature(p, rv, _recv)
res.closures.add_all(clos)
return res
end
- init(params: Array[MMType], return_type: MMType, r: MMType)
+ init(params: Array[MMType], return_type: nullable MMType, r: MMType)
do
- assert params != null
_params = params
_return_type = return_type
_recv = r
# A closure in a signature
class MMClosure
# The signature of the closure
- readable attr _signature: MMSignature
+ readable var _signature: MMSignature
# Is the closure a brek one
# aka is defined with the break keyword thus does not return
- readable attr _is_break: Bool
+ readable var _is_break: Bool
# Is the closure optional?
# ie is there a default definition
- readable attr _is_optional: Bool
+ readable var _is_optional: Bool
# Adapt the signature to a different receiver
- meth adaptation_to(r: MMType): MMClosure
+ fun adaptation_to(r: MMType): MMClosure
do
return new MMClosure(_signature.adaptation_to(r), _is_break, _is_optional)
end
_is_optional = is_optional
end
- meth not_for_self: MMClosure
+ fun not_for_self: MMClosure
do
var sig = _signature.not_for_self
if sig != _signature then
end
end
- meth <(c: MMClosure): Bool
+ fun <(c: MMClosure): Bool
do
if c.is_optional and not is_optional then return false
if not c.is_break and is_break then return false
# Inheritance relation between two types
abstract class MMAncestor
# The inherited type
- readable writable attr _stype: MMType = null
+ writable var _stype: nullable MMType = null
+
+ # The inherited type
+ fun stype: MMType do return _stype.as(not null)
# The inheriter (heir) type
- readable writable attr _inheriter: MMType = null
+ writable var _inheriter: nullable MMType = null
- meth is_reffinement: Bool do
+ # The inheriter (heir) type
+ fun inheriter: MMType do return _inheriter.as(not null)
+
+ fun is_reffinement: Bool do
return stype.module != stype.module
end
- meth is_specialisation: Bool do
+ fun is_specialisation: Bool do
return stype.local_class.global != inheriter.local_class.global
end
# The inherited class
- meth local_class: MMLocalClass is abstract
+ fun local_class: MMLocalClass is abstract
- redef meth to_s
+ redef fun to_s
do
- if stype == null then
+ if _stype == null then
return local_class.to_s
else
return stype.to_s
# Note that static type a related to a specific module
abstract class MMType
# The module where self makes sence
- meth module: MMModule is abstract
+ fun module: MMModule is abstract
# The local class that self direclty or indirectly refers to
- meth local_class: MMLocalClass is abstract
+ fun local_class: MMLocalClass is abstract
# Is the type a valid one
# For instance, circular dependency on formal types is invalid
- meth is_valid: Bool do return true
+ fun is_valid: Bool do return true
# Is self a valid subtype of t
- meth <(t : MMType): Bool is abstract
+ fun <(t : MMType): Bool is abstract
# Is self a valid supertype of t
# This method must be only called within definition of < if
# a double dispatch is needed
- meth is_supertype(t: MMType): Bool is abstract
+ fun is_supertype(t: MMType): Bool is abstract
# Adapt self to another module
- meth for_module(mod: MMModule): MMType is abstract
+ fun for_module(mod: MMModule): MMType is abstract
# Get the type adapted to another receiver type
# Useful for formal types
- meth adapt_to(recv: MMType): MMType is abstract
+ fun adapt_to(recv: MMType): MMType is abstract
# Adapt self to another local class context
# Useful for genericity
# 'D'.upcast_for('C') -> 'C[Float]'
# 'D'.upcast_for('B') -> 'C[String]'
# 'D'.upcast_for('A') -> 'A[String]'
- meth upcast_for(c: MMLocalClass): MMType is abstract
+ fun upcast_for(c: MMLocalClass): MMType is abstract
# Return a type approximation if the reveiver is not self
# Useful for virtual types
- meth not_for_self: MMType do return self
+ fun not_for_self: MMType do return self
# The nullable version of self (if needed)
- attr _as_nullable_cache: MMType = null
+ var _as_nullable_cache: nullable MMType = null
# IS the type can accept null?
- meth is_nullable: Bool do return false
+ fun is_nullable: Bool do return false
# Return the nullable version of the type
# Noop if already nullable
- meth as_nullable: MMType do
+ fun as_nullable: MMType do
var cache = _as_nullable_cache
if cache != null then return cache
var res = new MMNullableType(self)
# Return the not null version of the type
# Noop if already not null
- meth as_notnull: MMType do return self
+ fun as_notnull: MMType do return self
end
class MMNullableType
special MMType
- attr _base_type: MMType
- redef meth is_valid do return _base_type.is_valid
- redef meth is_nullable: Bool do return true
- redef meth as_notnull do return _base_type
- redef meth as_nullable do return self
+ var _base_type: MMType
+ redef fun is_valid do return _base_type.is_valid
+ redef fun is_nullable: Bool do return true
+ redef fun as_notnull do return _base_type
+ redef fun as_nullable do return self
init(t: MMType) do _base_type = t
- redef meth module do return _base_type.module
+ redef fun module do return _base_type.module
- redef meth local_class do return _base_type.local_class
+ redef fun local_class do return _base_type.local_class
- redef meth <(t)
+ redef fun <(t)
do
return t isa MMNullableType and _base_type < t.as_notnull
end
- redef meth to_s
+ redef fun to_s
do
return "nullable {_base_type}"
end
- redef meth is_supertype(t)
+ redef fun is_supertype(t)
do
return _base_type.is_supertype(t)
end
- redef meth for_module(mod)
+ redef fun for_module(mod)
do
return _base_type.for_module(mod).as_nullable
end
- redef meth adapt_to(recv)
+ redef fun adapt_to(recv)
do
return _base_type.adapt_to(recv).as_nullable
end
- redef meth upcast_for(c)
+ redef fun upcast_for(c)
do
return _base_type.upcast_for(c)
end
- redef meth not_for_self
+ redef fun not_for_self
do
return _base_type.not_for_self.as_nullable
end
class MMTypeClass
special MMType
- redef readable attr _local_class: MMLocalClass
- redef meth module do return _local_class.module end
- redef meth <(t) do return t != null and t.is_supertype(self)
+ redef readable var _local_class: MMLocalClass
+ redef fun module do return _local_class.module end
+ redef fun <(t) do return t.is_supertype(self)
- redef meth to_s
+ redef fun to_s
do
return _local_class.to_s
end
- redef meth upcast_for(c)
+ redef fun upcast_for(c)
do
- assert _local_class != null
- assert c != null
-
var t: MMType = self
if _local_class != c then
t = _local_class.ancestor(c)
end
- assert t != null
return t
end
class MMTypeSimpleClass
special MMTypeClass
- redef meth is_supertype(t)
+ redef fun is_supertype(t)
do
return t.local_class.cshe <= _local_class
end
- redef meth for_module(mod)
+ redef fun for_module(mod)
do
var t: MMType = self
if module != mod then
t = _local_class.for_module(mod).get_type
end
- assert t != null
return t
end
- redef meth adapt_to(recv) do return self
+ redef fun adapt_to(recv) do return self
init(c: MMLocalClass)
do
# The type of null
class MMTypeNone
special MMType
- redef readable attr _module: MMModule
- redef meth is_nullable: Bool do return true
- redef meth <(t) do return t isa MMTypeNone or t isa MMNullableType
- redef meth to_s do return "null"
- redef meth is_supertype(t) do return false
- redef meth local_class do abort
- redef meth upcast_for(c) do abort
- redef meth as_nullable do return self
- redef meth as_notnull do abort
+ redef readable var _module: MMModule
+ redef fun is_nullable: Bool do return true
+ redef fun <(t) do return t isa MMTypeNone or t isa MMNullableType
+ redef fun to_s do return "null"
+ redef fun is_supertype(t) do return false
+ redef fun local_class do abort
+ redef fun upcast_for(c) do abort
+ redef fun as_nullable do return self
+ redef fun as_notnull do abort
private init(m: MMModule) do _module = m
end
redef class MMModule
# The type of null
- readable attr _type_none: MMTypeNone = new MMTypeNone(self)
+ readable var _type_none: MMTypeNone = new MMTypeNone(self)
end