# Copyright (c) 2010 The Mirah project authors. All Rights Reserved. # All contributing project authors may be found in the NOTICE file. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. require 'mirah/ast' require 'mirah/transform' module Mirah module Typer class Simple < Base attr_accessor :known_types, :errors, :last_chance def initialize(self_type) @known_types = {} @known_types["self"] = type_reference(nil, self_type) @known_types["fixnum"] = type_reference(nil, "fixnum") @known_types["float"] = type_reference(nil, "float") @known_types["string"] = type_reference(nil, "string") @known_types["boolean"] = type_reference(nil, "boolean") @errors = [] end def name "Simple" end def set_filename(scope, name); end def self_type known_types["self"] end def default_type nil end def fixnum_type(value=0) known_types["fixnum"] end def float_type(value=0) known_types["float"] end def string_type known_types["string"] end def boolean_type known_types["boolean"] end def null_type AST::TypeReference::NullType end def no_type AST::TypeReference::NoType end # to be overridden def array_type AST::TypeReference::NullType end # to be overridden def hash_type AST::TypeReference::NullType end def known_type(scope, name) @known_types[name] end def define_type(scope, name, superclass, interfaces) log "New type defined: '#{name}' < '#{superclass}'" result = type_definition(scope, name, superclass, interfaces) # TODO Get rid of known_types["self"] old_self, known_types["self"] = known_types["self"], result yield known_types["self"] = old_self result end def learn_local_type(scope, name, type) return if type.null? && !@last_chance type = scope.learn_local_type(name, known_types[type] || type) log "Learned local type under #{scope} : #{name} = #{type}" if type type end def local_type(scope, name) type = scope.local_type(name) log "Retrieved local type in #{scope} : #{name} = #{type}" if type type end def local_types @local_types ||= {} end def local_type_hash(scope) local_types[scope] ||= {} end def field_types @field_types ||= {} end def field_type_hash(cls) field_types[cls] ||= {} end def static_field_types @static_field_types ||= {} end def static_field_type_hash(cls) static_field_types[cls] ||= {} end def infer_signature(method_def) end def learn_field_type(cls, name, type) log "Learned field type under #{cls} : #{name} = #{type}" if type # TODO check for compatibility? field_type_hash(cls)[name] ||= known_types[type] || type type end def field_type(cls, name) field_type_hash(cls)[name] end def learn_static_field_type(cls, name, type) log "Learned field type under #{cls} : #{name} = #{type}" if type # TODO check for compatibility? static_field_type_hash(cls)[name] ||= known_types[type] || type type end def static_field_type(cls, name) static_field_type_hash(cls)[name] end def learn_method_type(target_type, name, parameter_types, type, exceptions) log "Learned method #{name} (#{parameter_types}) on #{target_type} = #{type}" if type get_method_type_hash(target_type, name, parameter_types)[:type] = known_types[type] || type # if it's any args are imported types, also add a mapping for the expanded name imported_types = parameter_types.map {|param| known_types[param] || param} get_method_type_hash(target_type, name, imported_types)[:type] = type end def method_type(target_type, name, parameter_types) if (target_type && target_type.error?) || parameter_types.any? {|t| t && t.error?} return AST.error_type end constructor = (name == 'new' && target_type && target_type.meta?) if constructor # constructor handled different from other methods simple_type = get_method_type_hash(target_type.unmeta, 'initialize', parameter_types)[:type] else simple_type = get_method_type_hash(target_type, name, parameter_types)[:type] end if !simple_type log "Method type for \"#{name}\" #{parameter_types} on #{target_type} not found." # allow plugins a go if we're in the inference phase simple_type = plugins do |plugin| plugin.method_type(self, target_type, name, parameter_types) end end return nil unless simple_type if constructor log "Method type for \"#{name}\" #{parameter_types} on #{target_type} = #{target_type}" target_type.unmeta else log "Method type for \"#{name}\" #{parameter_types} on #{target_type} = #{simple_type}" simple_type end end def plugins if cycling? Mirah.typer_plugins.each do |plugin| log "Invoking plugin: #{plugin}" result = yield plugin return result if result end end nil end def cycling? @cycling end def cycling=(c) @cycling = c end def cycle(count) @cycling = true count.times do |i| begin log "[Cycle #{i}]: Started... (#{@deferred_nodes.size} nodes to resolve)" yield i ensure log "[Cycle #{i}]: Complete!" end end ensure @cycling = false end def method_types @method_types ||= {} end def get_method_type_hash(target_type, name, parameter_types) method_types[target_type] ||= {} method_types[target_type][name] ||= {} method_types[target_type][name][parameter_types.size] ||= {} current = method_types[target_type][name][parameter_types.size] parameter_types.each {|type| current[type] ||= {}; current = current[type]} current end def type_reference(scope, name, array=false, meta=false) AST::TypeReference.new(name, array, meta) end def type_definition(scope, name, superclass, interfaces) AST::TypeDefinition.new(name, AST::TypeReference.new(superclass), interfaces) end def deferred_nodes @deferred_nodes ||= {} end def infer(node, expression=true) begin node.infer(self, expression) rescue InferenceError => ex ex.node ||= node error(node, ex) rescue Exception => ex raise Mirah::InternalCompilerError.wrap(ex, node) end end def error(node, error_or_msg=nil, backtrace=nil) if error_or_msg.kind_of? InferenceError error = error_or_msg elsif error_or_msg error = InferenceError.new(error_or_msg, node) error.set_backtrace(backtrace) if backtrace else error = InferenceError.new("Unable to infer type.", node) end @errors << error node.resolve_if(self) do AST.error_type end end def defer(node, error_message=nil) if @error_next log "Marking #{node} as an error" @error_next = false error(node, error_message) else raise "Can't defer nil" if node.nil? return if deferred_nodes.include? node log "Deferring inference for #{node}" deferred_nodes[node] = self_type end end def resolve(raise = false) count = deferred_nodes.size + 1 log "Entering type inference cycle" retried = false cycle(count) do |i| old_deferred = @deferred_nodes @deferred_nodes = {} old_deferred.each do |node, saved_type| known_types["self"] = saved_type type = infer(node) log "[Cycle #{i}]: Inferred type for #{node}: #{type || 'FAILED'}" if type == default_type @deferred_nodes[node] = saved_type end end if @deferred_nodes.empty? log "[Cycle #{i}]: Resolved all types, exiting" break elsif old_deferred == @deferred_nodes if @error_next || retried log "[Cycle #{i}]: Made no progress, bailing out" break elsif @last_chance # Retry this iteration, and mark the first deferred # type as an error. retried = true @error_next = true redo else # This is a hack for default constructor support. The right fix # is probably to check the AST for constructors. Instead we # tell the plugins that we're near the end of inference so they # can assume no new constructors are being added. You could # easily write some circular constructors that would compile # with this technique but fail to run. @last_chance = true redo end end retried = false end # done with n sweeps, if any remain mark them as errors error_nodes = @errors.map {|e| e.node} (deferred_nodes.keys - error_nodes).each do |deferred_node| error_nodes << deferred_node error(deferred_node) end if raise && !error_nodes.empty? msg = "Could not infer typing for nodes:" error_nodes.map do |e| msg << "\n " msg << "#{e.inspect} at line #{e.line_number} (child of #{e.parent})" end raise InferenceError.new(msg) end end end end end