ae35fed0ab
prevously fixed max length list now expanding on demand, using next quite like binary_code, a pattern is emerging
161 lines
6.0 KiB
Ruby
161 lines
6.0 KiB
Ruby
module Boot
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# Booting is complicated, so it is extracted into this file, even it has only one entry point
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# a ruby object as a placeholder for the parfait Space during boot
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class Space
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attr_reader :classes
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def initialize
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@classes = {}
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end
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def get_class_by_name(name)
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cl = @classes[name]
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raise "No class for #{name}" unless cl
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cl
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end
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end
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# another ruby object to shadow the parfait, just during booting.
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# all it needs is the type, which we make the Parfait type
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class Class
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attr_reader :instance_type
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def initialize( type)
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@instance_type = type
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end
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end
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end
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module Parfait
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# The general idea is that compiling is creating an object graph. Functionally
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# one tends to think of methods, and that is complicated enough, sure.
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# But for an object system the graph includes classes and all instance variables
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#
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# And so we have a chicken and egg problem. At the end of the boot function we want to have a
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# working Space object
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# But that has instance variables (List and Dictionary) and off course a class.
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# Or more precisely in rubyx, a Type, that points to a class.
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# So we need a Type, but that has Type and Class too. hmmm
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#
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# The way out is to build empty shell objects and stuff the neccessary data into them
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# (not use the normal initialize way)
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# (PPS: The "real" solution is to read a rx-file graph and not do this by hand
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# That graph can be programatically built and written (with this to boot that process :-))
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# There are some helpers below, but the roadmap is something like:
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# - create all the Type instances, with their basic types, but no classes
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# - create a BootSpace that has BootClasses , used only during booting
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# - create the Class objects and assign them to the types
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# - flesh out the types , create the real space
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# - and finally load the methods
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def self.boot!
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Parfait.set_object_space( nil )
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types = boot_types
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boot_boot_space( types )
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classes = boot_classes( types )
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fix_types( types , classes )
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space = Space.new( classes )
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Parfait.set_object_space( space )
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end
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# types is where the snake bites its tail. Every chain ends at a type and then it
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# goes around (circular references). We create them from the list below, just as empty
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# shells, that we pass back, for the BootSpace to be created
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def self.boot_types
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types = {}
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type_names.each do |name , ivars |
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types[name] = Type.allocate
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end
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type_type = types[:Type]
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types.each do |name , type |
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type.set_type(type_type)
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end
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types
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end
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# The BootSpace is an object that holds fake classes, that hold _real_ types
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# Once we plug it in we can use .new
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# then we need to create the parfait classes and fix the types before creating a Space
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def self.boot_boot_space(types)
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boot_space = Boot::Space.new
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types.each do |name , type|
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clazz = Boot::Class.new(type)
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boot_space.classes[name] = clazz
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end
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Parfait.set_object_space( boot_space )
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end
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# when running code instantiates a class, a type is created automatically
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# but even to get our space up, we have already instantiated all types
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# so we have to continue and allocate classes and fill the data by hand
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# and off cource we can't use space.create_class , but still they need to go there
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def self.boot_classes(types)
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classes = Dictionary.new
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type_names.each do |name , vars|
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super_c = super_class_names[name] || :Object
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clazz = Class.new(name , super_c , types[name] )
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classes[name] = clazz
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end
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classes
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end
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# Types are hollow shells before this, so we need to set the object_class
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# and initialize the list variables (which we now can with .new)
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def self.fix_types(types , classes)
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type_names.each do |name , ivars |
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type = types[name]
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clazz = classes[name]
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type.set_object_class( clazz )
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type.init_lists({type: :Type }.merge(ivars))
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end
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end
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# superclasses other than default object
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def self.super_class_names
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{ Data4: :DataObject , Data8: :DataObject ,Data16: :DataObject ,Data32: :DataObject ,
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BinaryCode: :Data16 , Integer: :Data4 , Word: :Data8 ,
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Object: :BasicObject , List: :Data16 , ReturnAddress: :Integer}
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end
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# the function really just returns a constant (just avoiding the constant)
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# unfortuantely that constant condenses every detail about the system, class names
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# and all instance variable names. Really have to find a better way
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def self.type_names
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{ Word: {char_length: :Integer , next_word: :Word} ,
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List: {indexed_length: :Integer , next_list: :List} ,
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Message: { next_message: :Message, receiver: :Object, frame: :NamedList ,
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return_address: :Integer, return_value: :Object,
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caller: :Message , name: :Word , arguments: :NamedList },
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Integer: {next_integer: :Integer},
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ReturnAddress: {next_integer: :Integer},
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DataObject: {},
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Data4: {},
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Data8: {},
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TrueClass: {},
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FalseClass: {},
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NilClass: {},
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Object: {},
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BinaryCode: {next: :BinaryCode} ,
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Space: {classes: :Dictionary , types: :Dictionary ,
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first_message: :Message , next_integer: :Integer ,
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true_object: :TrueClass,
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false_object: :FalseClass , nil_object: :NilClass},
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NamedList: {},
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Type: {names: :List , types: :List ,
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object_class: :Class, methods: :TypedMethod } ,
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Class: {instance_methods: :List, instance_type: :Type,
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name: :Word, super_class_name: :Word },
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Dictionary: {keys: :List , values: :List } ,
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CacheEntry: {cached_type: :Type , cached_method: :TypedMethod } ,
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TypedMethod: {name: :Word, risc_instructions: :Object,
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cpu_instructions: :Object, binary: :BinaryCode,
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arguments_type: :Type , for_type: :Type, frame_type: :Type ,
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next_method: :TypedMethod} ,
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VoolMethod: { name: :Word , args_type: :Type , frame_type: :Type } ,
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}
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end
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end
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