# Analysis and verification of property definitions to instantiate model element
module modelize_property
-import modelize_class
+intrude import modelize_class
private import annotation
redef class ToolContext
+ # Run `AClassdef::build_property` on the classdefs of each module
var modelize_property_phase: Phase = new ModelizePropertyPhase(self, [modelize_class_phase])
end
end
redef class ModelBuilder
- # Register the npropdef associated to each mpropdef
- # FIXME: why not refine the `MPropDef` class with a nullable attribute?
- var mpropdef2npropdef = new HashMap[MPropDef, APropdef]
+ # Registration of the npropdef associated to each mpropdef.
+ #
+ # Public clients need to use `mpropdef2node` to access stuff.
+ private var mpropdef2npropdef = new HashMap[MPropDef, APropdef]
+
+ # Associate a `npropdef` with its `mpropdef`
+ #
+ # Be careful, this method is unsafe, no checking is done when it's used.
+ # The safe way to add method it's to use the `build_property`
+ #
+ # See `mpropdef2npropdef`
+ fun unsafe_add_mpropdef2npropdef(mpropdef: MPropDef,npropdef: APropdef)
+ do
+ mpropdef2npropdef[mpropdef] = npropdef
+ end
# Retrieve the associated AST node of a mpropertydef.
# This method is used to associate model entity with syntactic entities.
#
- # If the property definition is not associated with a node, returns node.
+ # If the property definition is not associated with a node, returns `null`.
fun mpropdef2node(mpropdef: MPropDef): nullable ANode
do
- var res: nullable ANode = mpropdef2npropdef.get_or_null(mpropdef)
- if res != null then return res
+ var res
+ res = mpropdef2npropdef.get_or_null(mpropdef)
+ if res != null then
+ # Run the phases on it
+ toolcontext.run_phases_on_npropdef(res)
+ return res
+ end
if mpropdef isa MMethodDef and mpropdef.mproperty.is_root_init then
res = mclassdef2nclassdef.get_or_null(mpropdef.mclassdef)
if res != null then return res
if n == null then return res
for npropdef in n.n_propdefs do
if npropdef isa AAttrPropdef then
+ # Run the phases on it
+ toolcontext.run_phases_on_npropdef(npropdef)
res.add(npropdef)
end
end
end
# Build the properties of `nclassdef`.
- # REQUIRE: all superclasses are built.
private fun build_properties(nclassdef: AClassdef)
do
# Force building recursively
if nclassdef.build_properties_is_done then return
nclassdef.build_properties_is_done = true
- var mclassdef = nclassdef.mclassdef.as(not null)
+ var mclassdef = nclassdef.mclassdef
+ if mclassdef == null then return # skip error
if mclassdef.in_hierarchy == null then return # Skip error
for superclassdef in mclassdef.in_hierarchy.direct_greaters do
if not mclassdef2nclassdef.has_key(superclassdef) then continue
npropdef.build_signature(self)
end
for npropdef in nclassdef2.n_propdefs do
+ if not npropdef isa ATypePropdef then continue
+ # Check circularity
+ var mpropdef = npropdef.mpropdef
+ if mpropdef == null then continue
+ if mpropdef.bound == null then continue
+ if not check_virtual_types_circularity(npropdef, mpropdef.mproperty, mclassdef.bound_mtype, mclassdef.mmodule) then
+ # Invalidate the bound
+ mpropdef.is_broken = true
+ mpropdef.bound = new MErrorType(mclassdef.mmodule.model)
+ end
+ end
+ for npropdef in nclassdef2.n_propdefs do
+ # Check ATypePropdef first since they may be required for the other properties
+ if not npropdef isa ATypePropdef then continue
+ npropdef.check_signature(self)
+ end
+
+ for npropdef in nclassdef2.n_propdefs do
+ if npropdef isa ATypePropdef then continue
npropdef.check_signature(self)
end
end
# Look for the init in Object, or create it
if mclassdef.mclass.name == "Object" and the_root_init_mmethod == null then
# Create the implicit root-init method
- var mprop = new MMethod(mclassdef, "init", mclassdef.mclass.visibility)
+ var mprop = new MMethod(mclassdef, "init", nclassdef.location, mclassdef.mclass.visibility)
mprop.is_root_init = true
var mpropdef = new MMethodDef(mclassdef, mprop, nclassdef.location)
var mparameters = new Array[MParameter]
mpropdef.msignature = msignature
mpropdef.new_msignature = msignature
mprop.is_init = true
- nclassdef.mfree_init = mpropdef
self.toolcontext.info("{mclassdef} gets a free empty constructor {mpropdef}{msignature}", 3)
the_root_init_mmethod = mprop
return
end
- # Is the class forbid constructors?
- if not mclassdef.mclass.kind.need_init then return
-
# Is there already a constructor defined?
var defined_init: nullable MMethodDef = null
for mpropdef in mclassdef.mpropdefs do
var initializers = new Array[MProperty]
for npropdef in nclassdef.n_propdefs do
if npropdef isa AMethPropdef then
- if npropdef.mpropdef == null then return # Skip broken attribute
- var at = npropdef.get_single_annotation("autoinit", self)
- if at == null then continue # Skip non tagged init
-
- var sig = npropdef.mpropdef.msignature
+ if not npropdef.is_autoinit then continue # Skip non tagged autoinit
+ var mpropdef = npropdef.mpropdef
+ if mpropdef == null then return # Skip broken method
+ var sig = mpropdef.msignature
if sig == null then continue # Skip broken method
- if not npropdef.mpropdef.is_intro then
- self.error(at, "Error: `autoinit` cannot be set on redefinitions")
- continue
- end
-
- for param in sig.mparameters do
- var ret_type = param.mtype
- var mparameter = new MParameter(param.name, ret_type, false)
- mparameters.add(mparameter)
- end
- initializers.add(npropdef.mpropdef.mproperty)
+ mparameters.add_all sig.mparameters
+ initializers.add(mpropdef.mproperty)
+ mpropdef.mproperty.is_autoinit = true
end
if npropdef isa AAttrPropdef then
- if npropdef.mpropdef == null then return # Skip broken attribute
+ var mreadpropdef = npropdef.mreadpropdef
+ if mreadpropdef == null then return # Skip broken attribute
+ var msignature = mreadpropdef.msignature
+ if msignature == null then return # Skip broken attribute
if npropdef.noinit then continue # Skip noinit attribute
- var atautoinit = npropdef.get_single_annotation("autoinit", self)
- if atautoinit != null then
- # For autoinit attributes, call the reader to force
+ var atlateinit = npropdef.get_single_annotation("lateinit", self)
+ if atlateinit != null then
+ # For lateinit attributes, call the reader to force
# the lazy initialization of the attribute.
- initializers.add(npropdef.mreadpropdef.mproperty)
+ initializers.add(mreadpropdef.mproperty)
+ mreadpropdef.mproperty.is_autoinit = true
continue
end
- if npropdef.has_value then continue
- var paramname = npropdef.mpropdef.mproperty.name.substring_from(1)
- var ret_type = npropdef.mpropdef.static_mtype
- if ret_type == null then return
- var mparameter = new MParameter(paramname, ret_type, false)
- mparameters.add(mparameter)
+ if npropdef.has_value and not npropdef.is_optional then continue
var msetter = npropdef.mwritepropdef
if msetter == null then
- # No setter, it is a old-style attribute, so just add it
+ # No setter, it is a readonly attribute, so just add it
+ var paramname = mreadpropdef.mproperty.name
+ var ret_type = msignature.return_mtype
+ if ret_type == null then return
+ var mparameter = new MParameter(paramname, ret_type, false)
+ mparameters.add(mparameter)
+
initializers.add(npropdef.mpropdef.mproperty)
+ npropdef.mpropdef.mproperty.is_autoinit = true
else
# Add the setter to the list
+ mparameters.add_all msetter.msignature.mparameters
initializers.add(msetter.mproperty)
+ msetter.mproperty.is_autoinit = true
end
end
end
+ var the_root_init_mmethod = self.the_root_init_mmethod
if the_root_init_mmethod == null then return
# Look for most-specific new-stype init definitions
var spropdefs = the_root_init_mmethod.lookup_super_definitions(mclassdef.mmodule, mclassdef.bound_mtype)
if spropdefs.is_empty then
- toolcontext.error(nclassdef.location, "Error: {mclassdef} does not specialize {the_root_init_mmethod.intro_mclassdef}. Possible duplication of the root class `Object`?")
+ toolcontext.error(nclassdef.location, "Error: `{mclassdef}` does not specialize `{the_root_init_mmethod.intro_mclassdef}`. Possible duplication of the root class `Object`?")
return
end
- # Search the longest-one and checks for conflict
- var longest = spropdefs.first
- if spropdefs.length > 1 then
- # Check for conflict in the order of initializers
- # Each initializer list must me a prefix of the longest list
- # part 1. find the longest list
- for spd in spropdefs do
- if spd.initializers.length > longest.initializers.length then longest = spd
- end
- # part 2. compare
- for spd in spropdefs do
- var i = 0
- for p in spd.initializers do
- if p != longest.initializers[i] then
- self.error(nclassdef, "Error: conflict for inherited inits {spd}({spd.initializers.join(", ")}) and {longest}({longest.initializers.join(", ")})")
- return
+ # Look at the autoinit class-annotation
+ var autoinit = nclassdef.get_single_annotation("autoinit", self)
+ var noautoinit = nclassdef.get_single_annotation("noautoinit", self)
+ if autoinit != null then
+ # Just throws the collected initializers
+ mparameters.clear
+ initializers.clear
+
+ if noautoinit != null then
+ error(autoinit, "Error: `autoinit` and `noautoinit` are incompatible.")
+ end
+
+ if autoinit.n_args.is_empty then
+ error(autoinit, "Syntax Error: `autoinit` expects method identifiers, use `noautoinit` to clear all autoinits.")
+ end
+
+ # Get and check each argument
+ for narg in autoinit.n_args do
+ var id = narg.as_id
+ if id == null then
+ error(narg, "Syntax Error: `autoinit` expects method identifiers.")
+ return
+ end
+
+ # Search the property.
+ # To avoid bad surprises, try to get the setter first.
+ var p = try_get_mproperty_by_name(narg, mclassdef, id + "=")
+ if p == null then
+ p = try_get_mproperty_by_name(narg, mclassdef, id)
+ end
+ if p == null then
+ error(narg, "Error: unknown method `{id}`")
+ return
+ end
+ if not p.is_autoinit then
+ error(narg, "Error: `{p}` is not an autoinit method")
+ return
+ end
+
+ # Register the initializer and the parameters
+ initializers.add(p)
+ var pd = p.intro
+ if pd isa MMethodDef then
+ # Get the signature resolved for the current receiver
+ var sig = pd.msignature.resolve_for(mclassdef.mclass.mclass_type, mclassdef.bound_mtype, mclassdef.mmodule, false)
+ mparameters.add_all(sig.mparameters)
+ else
+ # TODO attributes?
+ abort
+ end
+ end
+ else
+ # Search the longest-one and checks for conflict
+ var longest = spropdefs.first
+ if spropdefs.length > 1 then
+ # part 1. find the longest list
+ for spd in spropdefs do
+ if spd.initializers.length > longest.initializers.length then longest = spd
+ end
+ # part 2. compare
+ # Check for conflict in the order of initializers
+ # Each initializer list must me a prefix of the longest list
+ # If `noautoinit` is set, just ignore conflicts
+ if noautoinit == null then for spd in spropdefs do
+ var i = 0
+ for p in spd.initializers do
+ if p != longest.initializers[i] then
+ var proposal = new ArraySet[MProperty]
+ for spd2 in spropdefs do
+ proposal.add_all spd2.initializers
+ end
+ proposal.add_all initializers
+ self.error(nclassdef, "Error: cannot generate automatic init for class {mclassdef.mclass}. Conflict in the order in inherited initializers {spd}({spd.initializers.join(", ")}) and {longest}({longest.initializers.join(", ")}). Use `autoinit` to order initializers. eg `autoinit {proposal.join(", ")}`")
+ # TODO: invalidate the initializer to avoid more errors
+ return
+ end
+ i += 1
end
- i += 1
end
end
- end
- # Can we just inherit?
- if spropdefs.length == 1 and mparameters.is_empty and defined_init == null then
- self.toolcontext.info("{mclassdef} inherits the basic constructor {longest}", 3)
- mclassdef.mclass.root_init = longest
- return
- end
+ if noautoinit != null then
+ # If there is local or inherited initializers, then complain.
+ if initializers.is_empty and longest.initializers.is_empty then
+ warning(noautoinit, "useless-noautoinit", "Warning: the list of autoinit is already empty.")
+ end
+ # Just clear initializers
+ mparameters.clear
+ initializers.clear
+ else
+ # Can we just inherit?
+ if spropdefs.length == 1 and mparameters.is_empty and defined_init == null then
+ self.toolcontext.info("{mclassdef} inherits the basic constructor {longest}", 3)
+ mclassdef.mclass.root_init = longest
+ return
+ end
- # Combine the inherited list to what is collected
- if longest.initializers.length > 0 then
- mparameters.prepend longest.new_msignature.mparameters
- initializers.prepend longest.initializers
+ # Combine the inherited list to what is collected
+ if longest.initializers.length > 0 then
+ mparameters.prepend longest.new_msignature.mparameters
+ initializers.prepend longest.initializers
+ end
+ end
end
# If we already have a basic init definition, then setup its initializers
end
# Else create the local implicit basic init definition
- var mprop = the_root_init_mmethod.as(not null)
+ var mprop = the_root_init_mmethod
var mpropdef = new MMethodDef(mclassdef, mprop, nclassdef.location)
mpropdef.has_supercall = true
mpropdef.initializers.add_all(initializers)
var msignature = new MSignature(mparameters, null)
mpropdef.new_msignature = msignature
mpropdef.msignature = new MSignature(new Array[MParameter], null) # always an empty real signature
- nclassdef.mfree_init = mpropdef
self.toolcontext.info("{mclassdef} gets a free constructor for attributes {mpropdef}{msignature}", 3)
mclassdef.mclass.root_init = mpropdef
end
# It is a case-by case
var vis_type: nullable MVisibility = null # The own visibility of the type
var mmodule_type: nullable MModule = null # The original module of the type
- mtype = mtype.as_notnullable
+ mtype = mtype.undecorate
if mtype isa MClassType then
vis_type = mtype.mclass.visibility
- mmodule_type = mtype.mclass.intro.mmodule
+ mmodule_type = mtype.mclass.intro_mmodule
else if mtype isa MVirtualType then
vis_type = mtype.mproperty.visibility
mmodule_type = mtype.mproperty.intro_mclassdef.mmodule
else if mtype isa MParameterType then
# nothing, always visible
+ else if mtype isa MNullType then
+ # nothing to do.
+ else if mtype isa MBottomType then
+ # nothing to do.
+ else if mtype isa MErrorType then
+ # nothing to do.
else
node.debug "Unexpected type {mtype}"
abort
assert mmodule_type != null
var vis_module_type = mmodule.visibility_for(mmodule_type) # the visibility of the original module
if mproperty.visibility > vis_type then
- error(node, "Error: The {mproperty.visibility} property `{mproperty}` cannot contain the {vis_type} type `{mtype}`")
+ error(node, "Error: the {mproperty.visibility} property `{mproperty}` cannot contain the {vis_type} type `{mtype}`.")
return
else if mproperty.visibility > vis_module_type then
- error(node, "Error: The {mproperty.visibility} property `{mproperty}` cannot contain the type `{mtype}` from the {vis_module_type} module `{mmodule_type}`")
+ error(node, "Error: the {mproperty.visibility} property `{mproperty}` cannot contain the type `{mtype}` from the {vis_module_type} module `{mmodule_type}`.")
return
end
end
for t in mtype.arguments do check_visibility(node, t, mpropdef)
end
end
+
+ # Detect circularity errors for virtual types.
+ fun check_virtual_types_circularity(node: ANode, mproperty: MVirtualTypeProp, recv: MType, mmodule: MModule): Bool
+ do
+ # Check circularity
+ # Slow case: progress on each resolution until we visit all without getting a loop
+
+ # The graph used to detect loops
+ var mtype = mproperty.mvirtualtype
+ var poset = new POSet[MType]
+
+ # The work-list of types to resolve
+ var todo = new List[MType]
+ todo.add mtype
+
+ while not todo.is_empty do
+ # The visited type
+ var t = todo.pop
+
+ if not t.need_anchor then continue
+
+ # Get the types derived of `t` (subtypes and bounds)
+ var nexts
+ if t isa MNullableType then
+ nexts = [t.mtype]
+ else if t isa MGenericType then
+ nexts = t.arguments
+ else if t isa MVirtualType then
+ var vt = t.mproperty
+ # Because `vt` is possibly unchecked, we have to do the bound-lookup manually
+ var defs = vt.lookup_definitions(mmodule, recv)
+ if defs.is_empty then return false
+ nexts = new Array[MType]
+ for d in defs do
+ var next = defs.first.bound
+ if next == null then return false
+ nexts.add next
+ end
+ else if t isa MClassType then
+ # Basic type, nothing to to
+ continue
+ else if t isa MParameterType then
+ # Parameter types cannot depend on virtual types, so nothing to do
+ continue
+ else
+ abort
+ end
+
+ # For each one
+ for next in nexts do
+ if poset.has_edge(next, t) then
+ if mtype == next then
+ error(node, "Error: circularity of virtual type definition: {next} <-> {t}.")
+ else
+ error(node, "Error: circularity of virtual type definition: {mtype} -> {next} <-> {t}.")
+ end
+ return false
+ else
+ poset.add_edge(t, next)
+ todo.add next
+ end
+ end
+ end
+ return true
+ end
end
redef class MPropDef
end
redef class AClassdef
- var build_properties_is_done = false
-
- # The free init (implicitely constructed by the class if required)
- var mfree_init: nullable MMethodDef = null
+ # Marker used in `ModelBuilder::build_properties`
+ private var build_properties_is_done = false
end
redef class MClass
# SELF must be declared in Object, otherwise this will create conflicts
if intro_mclassdef.mclass.name != "Object" then
- modelbuilder.error(nintro, "Error: the virtual type SELF must be declared in Object.")
+ modelbuilder.error(nintro, "Error: the virtual type `SELF` must be declared in `Object`.")
end
# SELF must be public
if mprop.visibility != public_visibility then
- modelbuilder.error(nintro, "Error: the virtual type SELF must be public.")
+ modelbuilder.error(nintro, "Error: the virtual type `SELF` must be public.")
end
# SELF must not be fixed
if intro.is_fixed then
- modelbuilder.error(nintro, "Error: the virtual type SELF cannot be fixed.")
+ modelbuilder.error(nintro, "Error: the virtual type `SELF` cannot be fixed.")
end
return
# The associated propdef once build by a `ModelBuilder`
var mpropdef: nullable MPROPDEF is writable
- private fun build_property(modelbuilder: ModelBuilder, mclassdef: MClassDef) is abstract
- private fun build_signature(modelbuilder: ModelBuilder) is abstract
- private fun check_signature(modelbuilder: ModelBuilder) is abstract
+ private fun build_property(modelbuilder: ModelBuilder, mclassdef: MClassDef) do end
+ private fun build_signature(modelbuilder: ModelBuilder) do end
+ private fun check_signature(modelbuilder: ModelBuilder) do end
private fun new_property_visibility(modelbuilder: ModelBuilder, mclassdef: MClassDef, nvisibility: nullable AVisibility): MVisibility
do
var mvisibility = public_visibility
if nvisibility != null then
mvisibility = nvisibility.mvisibility
if mvisibility == intrude_visibility then
- modelbuilder.error(nvisibility, "Error: intrude is not a legal visibility for properties.")
+ modelbuilder.error(nvisibility, "Error: `intrude` is not a legal visibility for properties.")
mvisibility = public_visibility
end
end
if mclassdef.mclass.visibility == private_visibility then
if mvisibility == protected_visibility then
assert nvisibility != null
- modelbuilder.error(nvisibility, "Error: The only legal visibility for properties in a private class is private.")
+ modelbuilder.error(nvisibility, "Error: `private` is the only legal visibility for properties in a private class.")
else if mvisibility == private_visibility then
assert nvisibility != null
- modelbuilder.advice(nvisibility, "useless-visibility", "Warning: private is superfluous since the only legal visibility for properties in a private class is private.")
+ modelbuilder.advice(nvisibility, "useless-visibility", "Warning: `private` is superfluous since the only legal visibility for properties in a private class is private.")
end
mvisibility = private_visibility
end
var mdoc = ndoc.to_mdoc
mpropdef.mdoc = mdoc
mdoc.original_mentity = mpropdef
- else if mpropdef.is_intro and mpropdef.mproperty.visibility >= protected_visibility then
+ else if mpropdef.is_intro and mpropdef.mproperty.visibility >= protected_visibility and mpropdef.name != "new" then
modelbuilder.advice(self, "missing-doc", "Documentation warning: Undocumented property `{mpropdef.mproperty}`")
end
if nvisibility == null then return
var mvisibility = nvisibility.mvisibility
if mvisibility != mprop.visibility and mvisibility != public_visibility then
- modelbuilder.error(nvisibility, "Error: redefinition changed the visibility from a {mprop.visibility} to a {mvisibility}")
+ modelbuilder.error(nvisibility, "Error: redefinition changed the visibility from `{mprop.visibility}` to `{mvisibility}`.")
end
end
private fun check_redef_keyword(modelbuilder: ModelBuilder, mclassdef: MClassDef, kwredef: nullable Token, need_redef: Bool, mprop: MProperty): Bool
do
if mclassdef.mprop2npropdef.has_key(mprop) then
- modelbuilder.error(self, "Error: A property {mprop} is already defined in class {mclassdef.mclass} at line {mclassdef.mprop2npropdef[mprop].location.line_start}.")
+ modelbuilder.error(self, "Error: a property `{mprop}` is already defined in class `{mclassdef.mclass}` at line {mclassdef.mprop2npropdef[mprop].location.line_start}.")
return false
end
- if mprop isa MMethod and mprop.is_toplevel != (parent isa ATopClassdef) then
- if mprop.is_toplevel then
- modelbuilder.error(self, "Error: {mprop} is a top level method.")
- else
- modelbuilder.error(self, "Error: {mprop} is not a top level method.")
- end
- return false
-
- end
+ if mprop isa MMethod and mprop.is_root_init then return true
if kwredef == null then
if need_redef then
- modelbuilder.error(self, "Redef error: {mclassdef.mclass}::{mprop.name} is an inherited property. To redefine it, add the redef keyword.")
+ modelbuilder.error(self, "Redef Error: `{mclassdef.mclass}::{mprop.name}` is an inherited property. To redefine it, add the `redef` keyword.")
return false
end
+
+ # Check for full-name conflicts in the package.
+ # A public property should have a unique qualified name `package::class::prop`.
+ if mprop.intro_mclassdef.mmodule.mgroup != null and mprop.visibility >= protected_visibility then
+ var others = modelbuilder.model.get_mproperties_by_name(mprop.name)
+ if others != null then for other in others do
+ if other != mprop and other.intro_mclassdef.mmodule.mgroup != null and other.intro_mclassdef.mmodule.mgroup.mpackage == mprop.intro_mclassdef.mmodule.mgroup.mpackage and other.intro_mclassdef.mclass.name == mprop.intro_mclassdef.mclass.name and other.visibility >= protected_visibility then
+ modelbuilder.advice(self, "full-name-conflict", "Warning: A property named `{other.full_name}` is already defined in module `{other.intro_mclassdef.mmodule}` for the class `{other.intro_mclassdef.mclass.name}`.")
+ break
+ end
+ end
+ end
else
if not need_redef then
- modelbuilder.error(self, "Error: No property {mclassdef.mclass}::{mprop.name} is inherited. Remove the redef keyword to define a new property.")
+ modelbuilder.error(self, "Error: no property `{mclassdef.mclass}::{mprop.name}` is inherited. Remove the `redef` keyword to define a new property.")
return false
end
end
return true
end
+ # Checks for useless type in redef signatures.
+ private fun check_repeated_types(modelbuilder: ModelBuilder) do end
end
redef class ASignature
# Visit and fill information about a signature
private fun visit_signature(modelbuilder: ModelBuilder, mclassdef: MClassDef): Bool
do
- var mmodule = mclassdef.mmodule
var param_names = self.param_names
var param_types = self.param_types
for np in self.n_params do
param_names.add(np.n_id.text)
var ntype = np.n_type
if ntype != null then
- var mtype = modelbuilder.resolve_mtype(mmodule, mclassdef, ntype)
+ var mtype = modelbuilder.resolve_mtype_unchecked(mclassdef, ntype, true)
if mtype == null then return false # Skip error
for i in [0..param_names.length-param_types.length[ do
param_types.add(mtype)
end
if np.n_dotdotdot != null then
if self.vararg_rank != -1 then
- modelbuilder.error(np, "Error: {param_names[self.vararg_rank]} is already a vararg")
+ modelbuilder.error(np, "Error: `{param_names[self.vararg_rank]}` is already a vararg")
return false
else
self.vararg_rank = param_names.length - 1
end
var ntype = self.n_type
if ntype != null then
- self.ret_type = modelbuilder.resolve_mtype(mmodule, mclassdef, ntype)
+ self.ret_type = modelbuilder.resolve_mtype_unchecked(mclassdef, ntype, true)
if self.ret_type == null then return false # Skip error
end
return true
end
- # Build a visited signature
- fun build_signature(modelbuilder: ModelBuilder): nullable MSignature
+ private fun check_signature(modelbuilder: ModelBuilder, mclassdef: MClassDef): Bool
do
- if param_names.length != param_types.length then
- # Some parameters are typed, other parameters are not typed.
- modelbuilder.error(self.n_params[param_types.length], "Error: Untyped parameter `{param_names[param_types.length]}'.")
- return null
+ var res = true
+ for np in self.n_params do
+ var ntype = np.n_type
+ if ntype != null then
+ if modelbuilder.resolve_mtype(mclassdef, ntype) == null then
+ res = false
+ end
+ end
end
-
- var mparameters = new Array[MParameter]
- for i in [0..param_names.length[ do
- var mparameter = new MParameter(param_names[i], param_types[i], i == vararg_rank)
- self.n_params[i].mparameter = mparameter
- mparameters.add(mparameter)
+ var ntype = self.n_type
+ if ntype != null then
+ if modelbuilder.resolve_mtype(mclassdef, ntype) == null then
+ res = false
+ end
end
-
- var msignature = new MSignature(mparameters, ret_type)
- return msignature
+ if not res then is_broken = true
+ return res
end
end
redef class AMethPropdef
redef type MPROPDEF: MMethodDef
+ # Is the method annotated `autoinit`?
+ var is_autoinit = false
# Can self be used as a root init?
private fun look_like_a_root_init(modelbuilder: ModelBuilder, mclassdef: MClassDef): Bool
do
var n_kwinit = n_kwinit
var n_kwnew = n_kwnew
- var is_init = n_kwinit != null or n_kwnew != null
+ var is_new = n_kwnew != null
+ var is_init = n_kwinit != null or is_new
var name: String
var amethodid = self.n_methid
var name_node: ANode
if amethodid == null then
- if not is_init then
- name = "main"
- name_node = self
- else if n_kwinit != null then
+ if n_kwinit != null then
name = "init"
name_node = n_kwinit
else if n_kwnew != null then
name = "new"
name_node = n_kwnew
else
- abort
+ name = "main"
+ name_node = self
end
else if amethodid isa AIdMethid then
name = amethodid.n_id.text
name = amethodid.collect_text
name_node = amethodid
- if name == "-" and self.n_signature.n_params.length == 0 then
+ var arity = self.n_signature.n_params.length
+ if name == "+" and arity == 0 then
+ name = "unary +"
+ else if name == "-" and arity == 0 then
name = "unary -"
+ else if name == "~" and arity == 0 then
+ name = "unary ~"
+ else
+ if amethodid.is_binary and arity != 1 then
+ modelbuilder.error(self.n_signature, "Syntax Error: binary operator `{name}` requires exactly one parameter; got {arity}.")
+ else if amethodid.min_arity > arity then
+ modelbuilder.error(self.n_signature, "Syntax Error: `{name}` requires at least {amethodid.min_arity} parameter(s); got {arity}.")
+ end
end
end
end
if mprop == null then
var mvisibility = new_property_visibility(modelbuilder, mclassdef, self.n_visibility)
- mprop = new MMethod(mclassdef, name, mvisibility)
+ mprop = new MMethod(mclassdef, name, self.location, mvisibility)
if look_like_a_root_init and modelbuilder.the_root_init_mmethod == null then
modelbuilder.the_root_init_mmethod = mprop
mprop.is_root_init = true
end
mprop.is_init = is_init
- mprop.is_new = n_kwnew != null
- if parent isa ATopClassdef then mprop.is_toplevel = true
- self.check_redef_keyword(modelbuilder, mclassdef, n_kwredef, false, mprop)
+ mprop.is_new = is_new
+ if is_new then mclassdef.mclass.has_new_factory = true
+ if name == "sys" then mprop.is_toplevel = true # special case for sys allowed in `new` factories
+ if not self.check_redef_keyword(modelbuilder, mclassdef, n_kwredef, false, mprop) then
+ mprop.is_broken = true
+ return
+ end
else
- if not mprop.is_root_init and not self.check_redef_keyword(modelbuilder, mclassdef, n_kwredef, not self isa AMainMethPropdef, mprop) then return
+ if mprop.is_broken then return
+ if not self.check_redef_keyword(modelbuilder, mclassdef, n_kwredef, not self isa AMainMethPropdef, mprop) then return
check_redef_property_visibility(modelbuilder, self.n_visibility, mprop)
end
+
+ # Check name conflicts in the local class for constructors.
+ if is_init then
+ for p, n in mclassdef.mprop2npropdef do
+ if p != mprop and p isa MMethod and p.name == name then
+ if not check_redef_keyword(modelbuilder, mclassdef, n_kwredef, false, p) then
+ mprop.is_broken = true
+ return
+ end
+ break
+ end
+ end
+ end
+
mclassdef.mprop2npropdef[mprop] = self
var mpropdef = new MMethodDef(mclassdef, mprop, self.location)
do
var mpropdef = self.mpropdef
if mpropdef == null then return # Error thus skiped
+ var mproperty = mpropdef.mproperty
var mclassdef = mpropdef.mclassdef
var mmodule = mclassdef.mmodule
var nsig = self.n_signature
- if mpropdef.mproperty.is_root_init and not mclassdef.is_intro then
+ if mproperty.is_root_init and not mclassdef.is_intro then
var root_init = mclassdef.mclass.root_init
if root_init != null then
# Inherit the initializers by refinement
end
end
+ var accept_special_last_parameter = self.n_methid == null or self.n_methid.accept_special_last_parameter
+ var return_is_mandatory = self.n_methid != null and self.n_methid.return_is_mandatory
+
# Retrieve info from the signature AST
var param_names = new Array[String] # Names of parameters from the AST
var param_types = new Array[MType] # Types of parameters from the AST
# FIXME: do not inherit from the intro, but from the most specific
var msignature: nullable MSignature = null
if not mpropdef.is_intro then
- msignature = mpropdef.mproperty.intro.msignature
+ msignature = mproperty.intro.msignature
if msignature == null then return # Skip error
+ # The local signature is adapted to use the local formal types, if any.
+ msignature = msignature.resolve_for(mclassdef.mclass.mclass_type, mclassdef.bound_mtype, mmodule, false)
+
# Check inherited signature arity
if param_names.length != msignature.arity then
var node: ANode
if nsig != null then node = nsig else node = self
- modelbuilder.error(node, "Redef error: {mpropdef} redefines {mpropdef.mproperty.intro} with {param_names.length} parameter(s), {msignature.arity} expected. Signature is {mpropdef}{msignature}")
+ modelbuilder.error(node, "Redef Error: expected {msignature.arity} parameter(s) for `{mproperty.name}{msignature}`; got {param_names.length}. See introduction at `{mproperty.full_name}`.")
return
end
- else if mpropdef.mproperty.is_init and not mpropdef.mproperty.is_new then
+ else if mproperty.is_init and not mproperty.is_new then
# FIXME UGLY: inherit signature from a super-constructor
for msupertype in mclassdef.supertypes do
msupertype = msupertype.anchor_to(mmodule, mclassdef.bound_mtype)
- var candidate = modelbuilder.try_get_mproperty_by_name2(self, mmodule, msupertype, mpropdef.mproperty.name)
+ var candidate = modelbuilder.try_get_mproperty_by_name2(self, mmodule, msupertype, mproperty.name)
if candidate != null then
if msignature == null then
msignature = candidate.intro.as(MMethodDef).msignature
if param_names.length != param_types.length then
# Some parameters are typed, other parameters are not typed.
- modelbuilder.error(nsig.n_params[param_types.length], "Error: Untyped parameter `{param_names[param_types.length]}'.")
+ modelbuilder.error(nsig.n_params[param_types.length], "Error: untyped parameter `{param_names[param_types.length]}'.")
return
end
end
# In `new`-factories, the return type is by default the classtype.
- if ret_type == null and mpropdef.mproperty.is_new then ret_type = mclassdef.mclass.mclass_type
+ if ret_type == null and mproperty.is_new then ret_type = mclassdef.mclass.mclass_type
+
+ # Special checks for operator methods
+ if not accept_special_last_parameter and mparameters.not_empty and mparameters.last.is_vararg then
+ modelbuilder.error(self.n_signature.n_params.last, "Error: illegal variadic parameter `{mparameters.last}` for `{mproperty.name}`.")
+ end
+ if ret_type == null and return_is_mandatory then
+ modelbuilder.error(self.n_methid, "Error: mandatory return type for `{mproperty.name}`.")
+ end
msignature = new MSignature(mparameters, ret_type)
mpropdef.msignature = msignature
mpropdef.is_abstract = self.get_single_annotation("abstract", modelbuilder) != null
mpropdef.is_intern = self.get_single_annotation("intern", modelbuilder) != null
mpropdef.is_extern = self.n_extern_code_block != null or self.get_single_annotation("extern", modelbuilder) != null
+
+ # Check annotations
+ var at = self.get_single_annotation("lazy", modelbuilder)
+ if at != null then modelbuilder.error(at, "Syntax Error: `lazy` must be used on attributes.")
+
+ var atautoinit = self.get_single_annotation("autoinit", modelbuilder)
+ if atautoinit != null then
+ if not mpropdef.is_intro then
+ modelbuilder.error(atautoinit, "Error: `autoinit` cannot be set on redefinitions.")
+ else if not mclassdef.is_intro then
+ modelbuilder.error(atautoinit, "Error: `autoinit` cannot be used in class refinements.")
+ else
+ self.is_autoinit = true
+ end
+ end
end
redef fun check_signature(modelbuilder)
var mclassdef = mpropdef.mclassdef
var mmodule = mclassdef.mmodule
var nsig = self.n_signature
- var mysignature = self.mpropdef.msignature
+ var mysignature = mpropdef.msignature
if mysignature == null then return # Error thus skiped
+ # Check
+ if nsig != null then
+ if not nsig.check_signature(modelbuilder, mclassdef) then
+ mpropdef.msignature = null # invalidate
+ mpropdef.is_broken = true
+ return # Forward error
+ end
+ end
+
# Lookup for signature in the precursor
# FIXME all precursors should be considered
if not mpropdef.is_intro then
var precursor_ret_type = msignature.return_mtype
var ret_type = mysignature.return_mtype
if ret_type != null and precursor_ret_type == null then
- modelbuilder.error(nsig.n_type.as(not null), "Redef Error: {mpropdef.mproperty} is a procedure, not a function.")
+ modelbuilder.error(nsig.n_type, "Redef Error: `{mpropdef.mproperty}` is a procedure, not a function.")
+ mpropdef.msignature = null
+ mpropdef.is_broken = true
return
end
for i in [0..mysignature.arity[ do
var myt = mysignature.mparameters[i].mtype
var prt = msignature.mparameters[i].mtype
- if not myt.is_subtype(mmodule, mclassdef.bound_mtype, prt) or
- not prt.is_subtype(mmodule, mclassdef.bound_mtype, myt) then
- modelbuilder.error(nsig.n_params[i], "Redef Error: Wrong type for parameter `{mysignature.mparameters[i].name}'. found {myt}, expected {prt} as in {mpropdef.mproperty.intro}.")
+ var node = nsig.n_params[i]
+ if not modelbuilder.check_sametype(node, mmodule, mclassdef.bound_mtype, myt, prt) then
+ modelbuilder.error(node, "Redef Error: expected `{prt}` for parameter `{mysignature.mparameters[i].name}'; got `{myt}`.")
+ mpropdef.msignature = null
+ mpropdef.is_broken = true
end
end
end
if precursor_ret_type != null then
+ var node: nullable ANode = null
+ if nsig != null then node = nsig.n_type
+ if node == null then node = self
if ret_type == null then
# Inherit the return type
ret_type = precursor_ret_type
- else if not ret_type.is_subtype(mmodule, mclassdef.bound_mtype, precursor_ret_type) then
- modelbuilder.error(nsig.n_type.as(not null), "Redef Error: Wrong return type. found {ret_type}, expected {precursor_ret_type} as in {mpropdef.mproperty.intro}.")
+ else if not modelbuilder.check_subtype(node, mmodule, mclassdef.bound_mtype, ret_type, precursor_ret_type) then
+ modelbuilder.error(node, "Redef Error: expected `{precursor_ret_type}` for return type; got `{ret_type}`.")
+ mpropdef.msignature = null
+ mpropdef.is_broken = true
end
end
end
- if mysignature.arity > 0 then
+ if nsig != null then
# Check parameters visibility
for i in [0..mysignature.arity[ do
var nt = nsig.n_params[i].n_type
var nt = nsig.n_type
if nt != null then modelbuilder.check_visibility(nt, nt.mtype.as(not null), mpropdef)
end
+ check_repeated_types(modelbuilder)
+ end
+
+ # For parameters, type is always useless in a redef.
+ # For return type, type is useless if not covariant with introduction.
+ redef fun check_repeated_types(modelbuilder) do
+ var mpropdef = self.mpropdef
+ if mpropdef == null then return
+ if mpropdef.is_intro or n_signature == null then return
+ # check params
+ for param in n_signature.n_params do
+ if param.n_type != null then
+ modelbuilder.advice(param.n_type, "useless-signature", "Warning: useless type repetition on parameter `{param.n_id.text}` for redefined method `{mpropdef.name}`")
+ end
+ end
+ # get intro
+ var intro = mpropdef.mproperty.intro
+ var n_intro = modelbuilder.mpropdef2npropdef.get_or_null(intro)
+ if n_intro == null or not n_intro isa AMethPropdef then return
+ # check return type
+ var ret_type = n_signature.ret_type
+ if ret_type != null and ret_type == n_intro.n_signature.ret_type then
+ modelbuilder.advice(n_signature.n_type, "useless-signature", "Warning: useless return type repetition for redefined method `{mpropdef.name}`")
+ end
end
end
+redef class AMethid
+ # Is a return required?
+ #
+ # * True for operators and brackets.
+ # * False for id and assignment.
+ fun return_is_mandatory: Bool do return true
+
+ # Can the last parameter be special like a vararg?
+ #
+ # * False for operators: the last one is in fact the only one.
+ # * False for assignments: it is the right part of the assignment.
+ # * True for ids and brackets.
+ fun accept_special_last_parameter: Bool do return false
+
+ # The minimum required number of parameters.
+ #
+ # * 1 for binary operators
+ # * 1 for brackets
+ # * 1 for assignments
+ # * 2 for bracket assignments
+ # * 0 for ids
+ fun min_arity: Int do return 1
+
+ # Is the `self` a binary operator?
+ fun is_binary: Bool do return true
+end
+
+redef class AIdMethid
+ redef fun return_is_mandatory do return false
+ redef fun accept_special_last_parameter do return true
+ redef fun min_arity do return 0
+ redef fun is_binary do return false
+end
+
+redef class ABraMethid
+ redef fun accept_special_last_parameter do return true
+ redef fun is_binary do return false
+end
+
+redef class ABraassignMethid
+ redef fun return_is_mandatory do return false
+ redef fun min_arity do return 2
+ redef fun is_binary do return false
+end
+
+redef class AAssignMethid
+ redef fun return_is_mandatory do return false
+ redef fun is_binary do return false
+end
+
redef class AAttrPropdef
redef type MPROPDEF: MAttributeDef
+ # The static type of the property (declared, inferred or inherited)
+ # This attribute is also used to check if the property was analyzed and is valid.
+ var mtype: nullable MType
+
# Is the node tagged `noinit`?
var noinit = false
# Is the node tagged lazy?
var is_lazy = false
- # Has the node a default value?
- # Could be through `n_expr` or `n_block`
+ # Is the node tagged optional?
+ var is_optional = false
+
+ # Does the node have a default value?
+ # Could be through `n_expr`, `n_block` or `is_lazy`
var has_value = false
# The guard associated to a lazy attribute.
redef fun build_property(modelbuilder, mclassdef)
do
var mclass = mclassdef.mclass
+ var nid2 = n_id2
+ var name = nid2.text
- var name: String
- name = self.n_id2.text
+ var atabstract = self.get_single_annotation("abstract", modelbuilder)
+ if atabstract == null then
+ if not mclass.kind.need_init then
+ modelbuilder.error(self, "Error: attempt to define attribute `{name}` in the {mclass.kind} `{mclass}`.")
+ end
- if mclass.kind == interface_kind or mclassdef.mclass.kind == enum_kind then
- modelbuilder.error(self, "Error: Attempt to define attribute {name} in the interface {mclass}.")
- else if mclass.kind == enum_kind then
- modelbuilder.error(self, "Error: Attempt to define attribute {name} in the enum class {mclass}.")
- else if mclass.kind == extern_kind then
- modelbuilder.error(self, "Error: Attempt to define attribute {name} in the extern class {mclass}.")
+ var mprop = new MAttribute(mclassdef, "_" + name, self.location, private_visibility)
+ var mpropdef = new MAttributeDef(mclassdef, mprop, self.location)
+ self.mpropdef = mpropdef
+ modelbuilder.mpropdef2npropdef[mpropdef] = self
end
- # New attribute style
- var nid2 = self.n_id2
- var mprop = new MAttribute(mclassdef, "_" + name, private_visibility)
- var mpropdef = new MAttributeDef(mclassdef, mprop, self.location)
- self.mpropdef = mpropdef
- modelbuilder.mpropdef2npropdef[mpropdef] = self
-
var readname = name
var mreadprop = modelbuilder.try_get_mproperty_by_name(nid2, mclassdef, readname).as(nullable MMethod)
if mreadprop == null then
var mvisibility = new_property_visibility(modelbuilder, mclassdef, self.n_visibility)
- mreadprop = new MMethod(mclassdef, readname, mvisibility)
- if not self.check_redef_keyword(modelbuilder, mclassdef, n_kwredef, false, mreadprop) then return
- mreadprop.deprecation = mprop.deprecation
+ mreadprop = new MMethod(mclassdef, readname, self.location, mvisibility)
+ if not self.check_redef_keyword(modelbuilder, mclassdef, n_kwredef, false, mreadprop) then
+ mreadprop.is_broken = true
+ return
+ end
else
+ if mreadprop.is_broken then return
if not self.check_redef_keyword(modelbuilder, mclassdef, n_kwredef, true, mreadprop) then return
check_redef_property_visibility(modelbuilder, self.n_visibility, mreadprop)
end
mclassdef.mprop2npropdef[mreadprop] = self
+ var attr_mpropdef = mpropdef
+ if attr_mpropdef != null then
+ mreadprop.getter_for = attr_mpropdef.mproperty
+ attr_mpropdef.mproperty.getter = mreadprop
+ end
+
var mreadpropdef = new MMethodDef(mclassdef, mreadprop, self.location)
self.mreadpropdef = mreadpropdef
modelbuilder.mpropdef2npropdef[mreadpropdef] = self
set_doc(mreadpropdef, modelbuilder)
- mpropdef.mdoc = mreadpropdef.mdoc
+ if mpropdef != null then mpropdef.mdoc = mreadpropdef.mdoc
+ if atabstract != null then mreadpropdef.is_abstract = true
has_value = n_expr != null or n_block != null
+ if atabstract != null and has_value then
+ modelbuilder.error(atabstract, "Error: `abstract` attributes cannot have an initial value.")
+ return
+ end
+
var atnoinit = self.get_single_annotation("noinit", modelbuilder)
+ if atnoinit == null then atnoinit = self.get_single_annotation("noautoinit", modelbuilder)
if atnoinit != null then
noinit = true
if has_value then
- modelbuilder.error(atnoinit, "Error: `noinit` attributes cannot have an initial value")
+ modelbuilder.error(atnoinit, "Error: `noautoinit` attributes cannot have an initial value.")
return
end
+ if atabstract != null then
+ modelbuilder.warning(atnoinit, "useless-noautoinit", "Warning: superfluous `noautoinit` on abstract attribute.")
+ end
end
var atlazy = self.get_single_annotation("lazy", modelbuilder)
- var atautoinit = self.get_single_annotation("autoinit", modelbuilder)
- if atlazy != null or atautoinit != null then
- if atlazy != null and atautoinit != null then
- modelbuilder.error(atlazy, "Error: lazy incompatible with autoinit")
+ var atlateinit = self.get_single_annotation("lateinit", modelbuilder)
+ if atlazy != null or atlateinit != null then
+ if atlazy != null and atlateinit != null then
+ modelbuilder.error(atlazy, "Error: `lazy` incompatible with `lateinit`.")
return
end
if not has_value then
if atlazy != null then
- modelbuilder.error(atlazy, "Error: a lazy attribute needs a value")
- else if atautoinit != null then
- modelbuilder.error(atautoinit, "Error: a autoinit attribute needs a value")
+ modelbuilder.error(atlazy, "Error: `lazy` attributes need a value.")
+ else if atlateinit != null then
+ modelbuilder.error(atlateinit, "Error: `lateinit` attributes need a value.")
end
+ has_value = true
return
end
is_lazy = true
- var mlazyprop = new MAttribute(mclassdef, "lazy _" + name, none_visibility)
+ var mlazyprop = new MAttribute(mclassdef, "lazy _" + name, self.location, none_visibility)
+ mlazyprop.is_fictive = true
var mlazypropdef = new MAttributeDef(mclassdef, mlazyprop, self.location)
+ mlazypropdef.is_fictive = true
self.mlazypropdef = mlazypropdef
end
+ var atoptional = self.get_single_annotation("optional", modelbuilder)
+ if atoptional != null then
+ if not has_value then
+ modelbuilder.error(atoptional, "Error: `optional` attributes need a default value.")
+ end
+ is_optional = true
+ end
+
var atreadonly = self.get_single_annotation("readonly", modelbuilder)
if atreadonly != null then
if not has_value then
- modelbuilder.error(atreadonly, "Error: a readonly attribute needs a value")
+ modelbuilder.error(atreadonly, "Error: `readonly` attributes need a value.")
end
# No setter, so just leave
return
end
+ if not mclassdef.is_intro and not has_value and not noinit then
+ modelbuilder.advice(self, "attr-in-refinement", "Warning: attributes in refinement need a value or `noautoinit`.")
+ end
+
var writename = name + "="
var atwritable = self.get_single_annotation("writable", modelbuilder)
if atwritable != null then
if atwritable != null then
mvisibility = new_property_visibility(modelbuilder, mclassdef, atwritable.n_visibility)
else
- mvisibility = private_visibility
+ mvisibility = mreadprop.visibility
+ # By default, use protected visibility at most
+ if mvisibility > protected_visibility then mvisibility = protected_visibility
+ end
+ mwriteprop = new MMethod(mclassdef, writename, self.location, mvisibility)
+ if not self.check_redef_keyword(modelbuilder, mclassdef, nwkwredef, false, mwriteprop) then
+ mwriteprop.is_broken = true
+ return
end
- mwriteprop = new MMethod(mclassdef, writename, mvisibility)
- if not self.check_redef_keyword(modelbuilder, mclassdef, nwkwredef, false, mwriteprop) then return
- mwriteprop.deprecation = mprop.deprecation
+ mwriteprop.deprecation = mreadprop.deprecation
else
+ if mwriteprop.is_broken then return
if not self.check_redef_keyword(modelbuilder, mclassdef, nwkwredef or else n_kwredef, true, mwriteprop) then return
if atwritable != null then
check_redef_property_visibility(modelbuilder, atwritable.n_visibility, mwriteprop)
end
mclassdef.mprop2npropdef[mwriteprop] = self
+ if attr_mpropdef != null then
+ mwriteprop.setter_for = attr_mpropdef.mproperty
+ attr_mpropdef.mproperty.setter = mwriteprop
+ end
+
var mwritepropdef = new MMethodDef(mclassdef, mwriteprop, self.location)
self.mwritepropdef = mwritepropdef
modelbuilder.mpropdef2npropdef[mwritepropdef] = self
- mwritepropdef.mdoc = mpropdef.mdoc
+ mwritepropdef.mdoc = mreadpropdef.mdoc
+ if atabstract != null then mwritepropdef.is_abstract = true
+
+ var atautoinit = self.get_single_annotation("autoinit", modelbuilder)
+ if atautoinit != null then
+ if has_value then
+ modelbuilder.error(atautoinit, "Error: `autoinit` attributes cannot have an initial value.")
+ else if not mwritepropdef.is_intro then
+ modelbuilder.error(atautoinit, "Error: `autoinit` attributes cannot be set on redefinitions.")
+ else if not mclassdef.is_intro then
+ modelbuilder.error(atautoinit, "Error: `autoinit` attributes cannot be used in class refinements.")
+ else if atabstract == null then
+ modelbuilder.warning(atautoinit, "useless-autoinit", "Warning: superfluous `autoinit` on attribute.")
+ end
+ else if atabstract != null then
+ # By default, abstract attribute are not autoinit
+ noinit = true
+ end
end
redef fun build_signature(modelbuilder)
do
+ var mreadpropdef = self.mreadpropdef
var mpropdef = self.mpropdef
- if mpropdef == null then return # Error thus skipped
- var mclassdef = mpropdef.mclassdef
+ if mreadpropdef == null then return # Error thus skipped
+ var mclassdef = mreadpropdef.mclassdef
var mmodule = mclassdef.mmodule
var mtype: nullable MType = null
- var mreadpropdef = self.mreadpropdef
var ntype = self.n_type
if ntype != null then
- mtype = modelbuilder.resolve_mtype(mmodule, mclassdef, ntype)
+ mtype = modelbuilder.resolve_mtype_unchecked(mclassdef, ntype, true)
if mtype == null then return
end
var inherited_type: nullable MType = null
# Inherit the type from the getter (usually an abstract getter)
- if mreadpropdef != null and not mreadpropdef.is_intro then
+ if not mreadpropdef.is_intro then
var msignature = mreadpropdef.mproperty.intro.msignature
if msignature == null then return # Error, thus skipped
inherited_type = msignature.return_mtype
- if mtype == null then mtype = inherited_type
+ if inherited_type != null then
+ # The inherited type is adapted to use the local formal types, if any.
+ inherited_type = inherited_type.resolve_for(mclassdef.mclass.mclass_type, mclassdef.bound_mtype, mmodule, false)
+ if mtype == null then mtype = inherited_type
+ end
end
var nexpr = self.n_expr
if mtype == null then
if nexpr != null then
- if nexpr isa ANewExpr then
- mtype = modelbuilder.resolve_mtype(mmodule, mclassdef, nexpr.n_type)
- else if nexpr isa AIntExpr then
- var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Int")
- if cla != null then mtype = cla.mclass_type
- else if nexpr isa AFloatExpr then
- var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Float")
- if cla != null then mtype = cla.mclass_type
- else if nexpr isa ACharExpr then
- var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Char")
- if cla != null then mtype = cla.mclass_type
- else if nexpr isa ABoolExpr then
- var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Bool")
- if cla != null then mtype = cla.mclass_type
- else if nexpr isa ASuperstringExpr then
- var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "String")
- if cla != null then mtype = cla.mclass_type
- else if nexpr isa AStringFormExpr then
- var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "String")
- if cla != null then mtype = cla.mclass_type
- else
- modelbuilder.error(self, "Error: Untyped attribute {mpropdef}. Implicit typing allowed only for literals and new.")
- end
-
+ mtype = infer_static_type(modelbuilder, nexpr, mclassdef, mmodule, mreadpropdef)
if mtype == null then return
end
else if ntype != null and inherited_type == mtype then
if nexpr isa ANewExpr then
- var xmtype = modelbuilder.resolve_mtype(mmodule, mclassdef, nexpr.n_type)
+ var xmtype = modelbuilder.resolve_mtype_unchecked(mclassdef, nexpr.n_type, true)
if xmtype == mtype then
modelbuilder.advice(ntype, "useless-type", "Warning: useless type definition")
end
end
if mtype == null then
- modelbuilder.error(self, "Error: Untyped attribute {mpropdef}")
+ modelbuilder.error(self, "Error: untyped attribute `{mreadpropdef}`.")
return
end
- mpropdef.static_mtype = mtype
+ self.mtype = mtype
- if mreadpropdef != null then
+ if mpropdef != null then
+ mpropdef.static_mtype = mtype
+ end
+
+ do
var msignature = new MSignature(new Array[MParameter], mtype)
mreadpropdef.msignature = msignature
end
var mwritepropdef = self.mwritepropdef
if mwritepropdef != null then
+ var mwritetype = mtype
+ if is_optional then
+ mwritetype = mwritetype.as_nullable
+ end
var name: String
name = n_id2.text
- var mparameter = new MParameter(name, mtype, false)
+ var mparameter = new MParameter(name, mwritetype, false)
var msignature = new MSignature([mparameter], null)
mwritepropdef.msignature = msignature
end
var mlazypropdef = self.mlazypropdef
if mlazypropdef != null then
- mlazypropdef.static_mtype = modelbuilder.model.get_mclasses_by_name("Bool").first.mclass_type
+ mlazypropdef.static_mtype = mmodule.bool_type
end
+ check_repeated_types(modelbuilder)
+ end
+
+ # Detect the static type from the value assigned to the attribute `self`
+ #
+ # Return the static type if it can be safely inferred.
+ private fun infer_static_type(modelbuilder: ModelBuilder, nexpr: AExpr,
+ mclassdef: MClassDef, mmodule: MModule, mreadpropdef: MPropDef): nullable MType
+ do
+ var mtype = null
+ if nexpr isa ANewExpr then
+ mtype = modelbuilder.resolve_mtype_unchecked(mclassdef, nexpr.n_type, true)
+ else if nexpr isa AAsCastExpr then
+ mtype = modelbuilder.resolve_mtype_unchecked(mclassdef, nexpr.n_type, true)
+ else if nexpr isa AIntegerExpr then
+ var cla: nullable MClass = null
+ if nexpr.value isa Int then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Int")
+ else if nexpr.value isa Byte then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Byte")
+ else if nexpr.value isa Int8 then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Int8")
+ else if nexpr.value isa Int16 then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Int16")
+ else if nexpr.value isa UInt16 then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "UInt16")
+ else if nexpr.value isa Int32 then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Int32")
+ else if nexpr.value isa UInt32 then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "UInt32")
+ else
+ # Should not happen, and should be updated as new types are added
+ abort
+ end
+ if cla != null then mtype = cla.mclass_type
+ else if nexpr isa AFloatExpr then
+ var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Float")
+ if cla != null then mtype = cla.mclass_type
+ else if nexpr isa ACharExpr then
+ var cla: nullable MClass
+ if nexpr.is_code_point then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Int")
+ else
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Char")
+ end
+ if cla != null then mtype = cla.mclass_type
+ else if nexpr isa ABoolExpr then
+ var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Bool")
+ if cla != null then mtype = cla.mclass_type
+ else if nexpr isa ASuperstringExpr then
+ var cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "String")
+ if cla != null then mtype = cla.mclass_type
+ else if nexpr isa AStringFormExpr then
+ var cla: nullable MClass
+ if nexpr.is_bytestring then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Bytes")
+ else if nexpr.is_re then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "Regex")
+ else if nexpr.is_string then
+ cla = modelbuilder.try_get_mclass_by_name(nexpr, mmodule, "String")
+ else
+ abort
+ end
+ if cla != null then mtype = cla.mclass_type
+ else if nexpr isa AArrayExpr and nexpr.n_type == null and nexpr.n_exprs.not_empty then
+ # Non-empty arrays without an explicit type
+
+ var item_mtypes = new Set[MType]
+ var fails = false
+ for node in nexpr.n_exprs do
+ var item_mtype = infer_static_type(modelbuilder, node, mclassdef, mmodule, mreadpropdef)
+ if item_mtype == null then
+ fails = true
+ else
+ item_mtypes.add item_mtype
+ end
+ end
+
+ if fails then return null # Failed to infer some types
+
+ if item_mtypes.length > 1 then
+ modelbuilder.error(self, "Type Error: ambiguous array type {item_mtypes.join(" ")}")
+ end
+
+ mtype = mmodule.array_type(item_mtypes.first)
+ else if nexpr isa AUminusExpr and (nexpr.n_expr isa AIntegerExpr or nexpr.n_expr isa AFloatExpr) then
+ # The Int and Float unary - is defined in `kernel`, so this may
+ # result in an invalid behavior when using a custom kernel.
+ # A workaround is to declare the attribute static type.
+ # This is still very useful, especially to novice programmers.
+ mtype = infer_static_type(modelbuilder, nexpr.n_expr, mclassdef, mmodule, mreadpropdef)
+ else if nexpr isa AOnceExpr then
+ mtype = infer_static_type(modelbuilder, nexpr.n_expr, mclassdef, mmodule, mreadpropdef)
+ else
+ modelbuilder.error(self, "Error: untyped attribute `{mreadpropdef}`. Implicit typing allowed only for literals and new.")
+ end
+ return mtype
end
redef fun check_signature(modelbuilder)
var mpropdef = self.mpropdef
if mpropdef == null then return # Error thus skipped
var ntype = self.n_type
- var mtype = self.mpropdef.static_mtype
+ var mtype = self.mtype
if mtype == null then return # Error thus skipped
+ var mclassdef = mpropdef.mclassdef
+ var mmodule = mclassdef.mmodule
+
+ # Check types
+ if ntype != null then
+ if modelbuilder.resolve_mtype(mclassdef, ntype) == null then return
+ end
+ var nexpr = n_expr
+ if nexpr isa ANewExpr then
+ if modelbuilder.resolve_mtype(mclassdef, nexpr.n_type) == null then return
+ end
+
# Lookup for signature in the precursor
# FIXME all precursors should be considered
if not mpropdef.is_intro then
if precursor_type == null then return
if mtype != precursor_type then
- modelbuilder.error(ntype.as(not null), "Redef Error: Wrong static type. found {mtype}, expected {precursor_type}.")
+ modelbuilder.error(ntype.as(not null), "Redef Error: expected `{precursor_type}` type as a bound; got `{mtype}`.")
return
end
end
if mysignature.arity != msignature.arity then
var node: ANode
if nsig != null then node = nsig else node = self
- modelbuilder.error(node, "Redef Error: {mysignature.arity} parameters found, {msignature.arity} expected. Signature is {mpropdef}{msignature}")
+ modelbuilder.error(node, "Redef Error: expected {msignature.arity} parameter(s) for `{mpropdef.mproperty.name}{msignature}`; got {mysignature.arity}. See introduction at `{mpropdef.mproperty.full_name}`.")
return
end
var precursor_ret_type = msignature.return_mtype
if ret_type != null and precursor_ret_type == null then
var node: ANode
if nsig != null then node = nsig else node = self
- modelbuilder.error(node, "Redef Error: {mpropdef.mproperty} is a procedure, not a function.")
+ modelbuilder.error(node, "Redef Error: `{mpropdef.mproperty}` is a procedure, not a function.")
return
end
for i in [0..mysignature.arity[ do
var myt = mysignature.mparameters[i].mtype
var prt = msignature.mparameters[i].mtype
- if not myt.is_subtype(mmodule, mclassdef.bound_mtype, prt) or
- not prt.is_subtype(mmodule, mclassdef.bound_mtype, myt) then
- var node: ANode
- if nsig != null then node = nsig else node = self
- modelbuilder.error(node, "Redef Error: Wrong type for parameter `{mysignature.mparameters[i].name}'. found {myt}, expected {prt}.")
+ var node: ANode
+ if nsig != null then node = nsig else node = self
+ if not modelbuilder.check_sametype(node, mmodule, mclassdef.bound_mtype, myt, prt) then
+ modelbuilder.error(node, "Redef Error: expected `{prt}` type for parameter `{mysignature.mparameters[i].name}'; got `{myt}`.")
end
end
end
if precursor_ret_type != null then
+ var node: ANode
+ if nsig != null then node = nsig else node = self
if ret_type == null then
# Inherit the return type
ret_type = precursor_ret_type
- else if not ret_type.is_subtype(mmodule, mclassdef.bound_mtype, precursor_ret_type) then
- var node: ANode
- if nsig != null then node = nsig else node = self
- modelbuilder.error(node, "Redef Error: Wrong return type. found {ret_type}, expected {precursor_ret_type}.")
+ else if not modelbuilder.check_subtype(node, mmodule, mclassdef.bound_mtype, ret_type, precursor_ret_type) then
+ modelbuilder.error(node, "Redef Error: expected `{precursor_ret_type}` return type; got `{ret_type}`.")
end
end
end
end
+
+ # Type is useless if the attribute type is the same thant the intro.
+ redef fun check_repeated_types(modelbuilder) do
+ var mreadpropdef = self.mreadpropdef
+ if mreadpropdef == null then return
+ if mreadpropdef.is_intro or n_type == null then return
+ # get intro
+ var intro = mreadpropdef.mproperty.intro
+ var n_intro = modelbuilder.mpropdef2npropdef.get_or_null(intro)
+ if n_intro == null then return
+ # get intro type
+ var ntype = null
+ if n_intro isa AMethPropdef then
+ ntype = n_intro.n_signature.ret_type
+ else if n_intro isa AAttrPropdef and n_intro.n_type != null then
+ ntype = n_intro.n_type.mtype
+ end
+ # check
+ if ntype == null or ntype != n_type.mtype or mpropdef == null then return
+ modelbuilder.advice(n_type, "useless-signature", "Warning: useless type repetition on redefined attribute `{mpropdef.name}`")
+ end
end
redef class ATypePropdef
redef fun build_property(modelbuilder, mclassdef)
do
- var name = self.n_id.text
- var mprop = modelbuilder.try_get_mproperty_by_name(self.n_id, mclassdef, name)
+ var name = self.n_qid.n_id.text
+ var mprop = modelbuilder.try_get_mproperty_by_name(self.n_qid, mclassdef, name)
if mprop == null then
var mvisibility = new_property_visibility(modelbuilder, mclassdef, self.n_visibility)
- mprop = new MVirtualTypeProp(mclassdef, name, mvisibility)
+ mprop = new MVirtualTypeProp(mclassdef, name, self.location, mvisibility)
for c in name.chars do if c >= 'a' and c<= 'z' then
- modelbuilder.warning(n_id, "bad-type-name", "Warning: lowercase in the virtual type {name}")
+ modelbuilder.warning(n_qid, "bad-type-name", "Warning: lowercase in the virtual type `{name}`.")
break
end
- if not self.check_redef_keyword(modelbuilder, mclassdef, self.n_kwredef, false, mprop) then return
else
- if not self.check_redef_keyword(modelbuilder, mclassdef, self.n_kwredef, true, mprop) then return
+ if mprop.is_broken then return
assert mprop isa MVirtualTypeProp
check_redef_property_visibility(modelbuilder, self.n_visibility, mprop)
end
- mclassdef.mprop2npropdef[mprop] = self
var mpropdef = new MVirtualTypeDef(mclassdef, mprop, self.location)
self.mpropdef = mpropdef
+ if mpropdef.is_intro then
+ modelbuilder.toolcontext.info("{mpropdef} introduces new type {mprop.full_name}", 4)
+ else
+ modelbuilder.toolcontext.info("{mpropdef} redefines type {mprop.full_name}", 4)
+ end
+ if not self.check_redef_keyword(modelbuilder, mclassdef, self.n_kwredef, not mpropdef.is_intro, mprop) then
+ mpropdef.is_broken =true
+ end
+ mclassdef.mprop2npropdef[mprop] = self
modelbuilder.mpropdef2npropdef[mpropdef] = self
set_doc(mpropdef, modelbuilder)
var mpropdef = self.mpropdef
if mpropdef == null then return # Error thus skipped
var mclassdef = mpropdef.mclassdef
- var mmodule = mclassdef.mmodule
var mtype: nullable MType = null
var ntype = self.n_type
- mtype = modelbuilder.resolve_mtype(mmodule, mclassdef, ntype)
+ mtype = modelbuilder.resolve_mtype_unchecked(mclassdef, ntype, true)
if mtype == null then return
mpropdef.bound = mtype
var mpropdef = self.mpropdef
if mpropdef == null then return # Error thus skipped
- var bound = self.mpropdef.bound
+ var bound = mpropdef.bound
if bound == null then return # Error thus skipped
modelbuilder.check_visibility(n_type, bound, mpropdef)
var mmodule = mclassdef.mmodule
var anchor = mclassdef.bound_mtype
- # Check circularity
- if bound isa MVirtualType then
- # Slow case: progress on each resolution until: (i) we loop, or (ii) we found a non formal type
- var seen = [self.mpropdef.mproperty.mvirtualtype]
- loop
- if seen.has(bound) then
- seen.add(bound)
- modelbuilder.error(self, "Error: circularity of virtual type definition: {seen.join(" -> ")}")
- return
- end
- seen.add(bound)
- var next = bound.lookup_bound(mmodule, anchor)
- if not next isa MVirtualType then break
- bound = next
- end
+ var ntype = self.n_type
+ if modelbuilder.resolve_mtype(mclassdef, ntype) == null then
+ mpropdef.bound = null
+ return
end
# Check redefinitions
- bound = mpropdef.bound.as(not null)
for p in mpropdef.mproperty.lookup_super_definitions(mmodule, anchor) do
var supbound = p.bound
- if supbound == null then break # broken super bound, skip error
+ if supbound == null or supbound isa MBottomType or p.is_broken then break # broken super bound, skip error
if p.is_fixed then
- modelbuilder.error(self, "Redef Error: Virtual type {mpropdef.mproperty} is fixed in super-class {p.mclassdef.mclass}")
+ modelbuilder.error(self, "Redef Error: virtual type `{mpropdef.mproperty}` is fixed in super-class `{p.mclassdef.mclass}`.")
break
end
if p.mclassdef.mclass == mclassdef.mclass then
- # Still a warning to pass existing bad code
- modelbuilder.warning(n_type, "refine-type", "Redef Error: a virtual type cannot be refined.")
+ modelbuilder.error(n_type, "Redef Error: a virtual type cannot be refined.")
break
end
- if not bound.is_subtype(mmodule, anchor, supbound) then
- modelbuilder.error(n_type, "Redef Error: Wrong bound type. Found {bound}, expected a subtype of {supbound}, as in {p}.")
+ if not modelbuilder.check_subtype(n_type, mmodule, anchor, bound, supbound) then
+ modelbuilder.error(n_type, "Redef Error: expected `{supbound}` bound type; got `{bound}`.")
break
end
end