rubyx/lib/virtual/boot.rb

module Virtual

  # Booting is a complicated, so it is extracted into this file, even it has only one entry point

  class Machine

    # The general idea is that compiling is creating an object graph. Functionally
    # one tends to think of methods, and that is complicated enough, sure.
    # but for an object system the graph includes classes and all instance variables
    #
    # And so we have a chicken and egg problem. At the end of the function we want to have a
    # working Space object
    # But that has instance variables (List and Dictionary) and off course a class.
    # Or more precisely in salama, a Layout, that points to a class.
    # So we need a Layout, but that has Layout and Class too. hmmm
    #
    # The way out is to build empty shell objects and stuff the neccessary data into them
    #  (not use the normal initialize way)
    def boot_parfait!
      @space = Parfait::Space.new_object
      # map from the vm - class_name to the Parfait class (which carries parfait name)
      class_mappings = {}        #will later become instance variable

      values = [  :Value  , :Integer , :Kernel ,  :Object]
      value_classes = values.collect { |cl| @space.create_class(cl,nil) }
      layouts = { :Word => [] ,
                  :List => [] ,
                  # Assumtion is that name is the last of message
                  :Message => [:next_message , :receiver , :frame , :return_address , :caller , :name ],
                  :MetaClass => [],
                  :BinaryCode => [],
                  :Space => [:classes ,:init_message , :next_message ,:next_frame, :syscall_message],
                  :Frame => [:next_frame ],
                  :Layout => [:object_class] ,
                  :Class => [:object_layout ],
                  :Dictionary => [:keys , :values ] ,
                  :Method => [:name , :code ,:arg_names , :locals , :tmps ] ,
                  :Module => [:name , :instance_methods , :super_class , :meta_class ]
                }
      layouts.each do |name , layout|
        class_mappings[name] = @space.create_class(name , nil)
      end
      value_classes[1].set_super_class( value_classes[0] ) # #set superclass (value) for integer
      value_classes[2].set_super_class( value_classes[0] ) # and kernel (TODO is module)
      value_classes[3].set_super_class( value_classes[2] ) # and object (TODO hacked to kernel)
      class_mappings.each do |name , clazz|                # and the rest
        clazz.set_super_class(value_classes[3])            # superclasses are object
      end
      # next create layouts by adding instance variable names to the layouts
      class_mappings.each do |name , clazz|
        variables = layouts[name]
        variables.each do |var_name|
          clazz.object_layout.add_instance_variable var_name
        end
      end
      # superclass and layout corrections
      supers = { :BinaryCode => :Word , :Layout => :List , :Class => :Module }
      supers.each do |classname , superclass_name|
        clazz = class_mappings[classname]
        super_class = class_mappings[superclass_name]
        # set_super_class has no sideeffects, so setting twice ok
        clazz.set_super_class super_class
        # Add superclass layout too
        super_class.object_layout.each do |var|
          clazz.object_layout.add_instance_variable var
        end
      end

      # now store the classes so we can hand them out later during object creation
      # this can not be done earlier, as parfait objects are all the time created and would
      #   lookup half created class info
      # but it must be done before going through the objects (next step)
      @class_mappings = class_mappings
      class_mappings[:Integer ] = value_classes[1]  #need for further booting
      class_mappings[:Kernel ] = value_classes[2]  #need for further booting
      class_mappings[:Object ] = value_classes[3]  #need for further booting

      @space.late_init

#      add_object @space

      values.each {|v| v.init_layout }

      # now update the layout on all objects created so far,
      # go through objects in space
      @objects.each do | o |
        o.init_layout
      end
      boot_functions!
    end

    # classes have booted, now create a minimal set of functions
    # minimal means only that which can not be coded in ruby
    # Methods are grabbed from respective modules by sending the method name. This should return the
    # implementation of the method (ie a method object), not actually try to implement it
    #                                                     (as that's impossible in ruby)
    def boot_functions!
      # very fiddly chicken 'n egg problem. Functions need to be in the right order, and in fact we
      # have to define some dummies, just for the other to compile
      # TODO go through the virtual parfait layer and adjust function names to what they really are
      obj = @class_mappings[:Object ]
      [:main , :_get_instance_variable , :_set_instance_variable].each do |f|
        obj.add_instance_method Register::Builtin::Object.send(f , nil)
      end
      obj = @class_mappings[:Kernel ]
      # create dummy main first, __init__ calls it
      [:putstring,:exit,:__send , :__init__ ].each do |f|
        obj.add_instance_method Register::Builtin::Kernel.send(f , nil)
      end

      obj = @class_mappings[:Integer ]
      [:putint,:fibo].each do |f|
        obj.add_instance_method Register::Builtin::Integer.send(f , nil)
      end

    end
  end
end
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`module Virtual`

fix method seperation Since Compiled method split into Method and CompiledMethodInfo (parfait/vm) lots of call syntax changes 2015-05-24 12:31:33 +02:00			`# Booting is a complicated, so it is extracted into this file, even it has only one entry point`

externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`class Machine`

			`# The general idea is that compiling is creating an object graph. Functionally`
			`# one tends to think of methods, and that is complicated enough, sure.`
			`# but for an object system the graph includes classes and all instance variables`
			`#`
			`# And so we have a chicken and egg problem. At the end of the function we want to have a`
			`# working Space object`
			`# But that has instance variables (List and Dictionary) and off course a class.`
			`# Or more precisely in salama, a Layout, that points to a class.`
			`# So we need a Layout, but that has Layout and Class too. hmmm`
			`#`
			`# The way out is to build empty shell objects and stuff the neccessary data into them`
			`# (not use the normal initialize way)`
			`def boot_parfait!`
			`@space = Parfait::Space.new_object`
fix method seperation Since Compiled method split into Method and CompiledMethodInfo (parfait/vm) lots of call syntax changes 2015-05-24 12:31:33 +02:00			`# map from the vm - class_name to the Parfait class (which carries parfait name)`
			`class_mappings = {} #will later become instance variable`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`values = [ :Value , :Integer , :Kernel , :Object]`
more booting 2015-05-24 12:53:49 +02:00			`value_classes = values.collect { \|cl\| @space.create_class(cl,nil) }`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`layouts = { :Word => [] ,`
			`:List => [] ,`
finally scoping builtin to register had put this off because it breaks history but now the references to register stuff which builtin is off course full of, become much shorter 2015-06-29 20:03:58 +02:00			`# Assumtion is that name is the last of message`
			`:Message => [:next_message , :receiver , :frame , :return_address , :caller , :name ],`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`:MetaClass => [],`
			`:BinaryCode => [],`
add init_message to space so kernel::__init can use that and the first next_message does not need to be reused 2015-06-30 08:52:17 +02:00			`:Space => [:classes ,:init_message , :next_message ,:next_frame, :syscall_message],`
correctly linking frames and messages 2015-06-28 21:02:07 +02:00			`:Frame => [:next_frame ],`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`:Layout => [:object_class] ,`
			`:Class => [:object_layout ],`
			`:Dictionary => [:keys , :values ] ,`
			`:Method => [:name , :code ,:arg_names , :locals , :tmps ] ,`
			`:Module => [:name , :instance_methods , :super_class , :meta_class ]`
fix method seperation Since Compiled method split into Method and CompiledMethodInfo (parfait/vm) lots of call syntax changes 2015-05-24 12:31:33 +02:00			`}`
boot process 90 percent done Creating the class and layout objects in the right order was tricky, but now mostly done 2015-05-23 11:15:06 +02:00			`layouts.each do \|name , layout\|`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`class_mappings[name] = @space.create_class(name , nil)`
boot process 90 percent done Creating the class and layout objects in the right order was tricky, but now mostly done 2015-05-23 11:15:06 +02:00			`end`
fix method seperation Since Compiled method split into Method and CompiledMethodInfo (parfait/vm) lots of call syntax changes 2015-05-24 12:31:33 +02:00			`value_classes[1].set_super_class( value_classes[0] ) # #set superclass (value) for integer`
more booting 2015-05-24 12:53:49 +02:00			`value_classes[2].set_super_class( value_classes[0] ) # and kernel (TODO is module)`
			`value_classes[3].set_super_class( value_classes[2] ) # and object (TODO hacked to kernel)`
boot process 90 percent done Creating the class and layout objects in the right order was tricky, but now mostly done 2015-05-23 11:15:06 +02:00			`class_mappings.each do \|name , clazz\| # and the rest`
			`clazz.set_super_class(value_classes[3]) # superclasses are object`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`end`
much work on boot process fiddly egg and chicken, though a bit clearer with parfait objects now 2015-05-22 21:51:36 +02:00			`# next create layouts by adding instance variable names to the layouts`
boot process 90 percent done Creating the class and layout objects in the right order was tricky, but now mostly done 2015-05-23 11:15:06 +02:00			`class_mappings.each do \|name , clazz\|`
			`variables = layouts[name]`
much work on boot process fiddly egg and chicken, though a bit clearer with parfait objects now 2015-05-22 21:51:36 +02:00			`variables.each do \|var_name\|`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`clazz.object_layout.add_instance_variable var_name`
much work on boot process fiddly egg and chicken, though a bit clearer with parfait objects now 2015-05-22 21:51:36 +02:00			`end`
			`end`
better assembly but bug is still scuttling around there in link/assembly process 2015-05-31 13:45:28 +02:00			`# superclass and layout corrections`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`supers = { :BinaryCode => :Word , :Layout => :List , :Class => :Module }`
better assembly but bug is still scuttling around there in link/assembly process 2015-05-31 13:45:28 +02:00			`supers.each do \|classname , superclass_name\|`
			`clazz = class_mappings[classname]`
			`super_class = class_mappings[superclass_name]`
			`# set_super_class has no sideeffects, so setting twice ok`
			`clazz.set_super_class super_class`
			`# Add superclass layout too`
			`super_class.object_layout.each do \|var\|`
			`clazz.object_layout.add_instance_variable var`
			`end`
			`end`
fix bug where layout wasn't initialized 2015-05-30 10:55:46 +02:00
boot process 90 percent done Creating the class and layout objects in the right order was tricky, but now mostly done 2015-05-23 11:15:06 +02:00			`# now store the classes so we can hand them out later during object creation`
			`# this can not be done earlier, as parfait objects are all the time created and would`
			`# lookup half created class info`
			`# but it must be done before going through the objects (next step)`
			`@class_mappings = class_mappings`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`class_mappings[:Integer ] = value_classes[1] #need for further booting`
			`class_mappings[:Kernel ] = value_classes[2] #need for further booting`
			`class_mappings[:Object ] = value_classes[3] #need for further booting`
boot process 90 percent done Creating the class and layout objects in the right order was tricky, but now mostly done 2015-05-23 11:15:06 +02:00
bit more on booting of the space 2015-05-24 18:59:19 +02:00			`@space.late_init`
fixed layouts also moved objects to machine, from space space has a list of objects, but implicit, not as an explicit array 2015-05-31 12:02:29 +02:00
			`# add_object @space`

debugging missing layout 2015-05-31 10:07:49 +02:00			`values.each {\|v\| v.init_layout }`
fixed layouts also moved objects to machine, from space space has a list of objects, but implicit, not as an explicit array 2015-05-31 12:02:29 +02:00
much work on boot process fiddly egg and chicken, though a bit clearer with parfait objects now 2015-05-22 21:51:36 +02:00			`# now update the layout on all objects created so far,`
			`# go through objects in space`
fixed layouts also moved objects to machine, from space space has a list of objects, but implicit, not as an explicit array 2015-05-31 12:02:29 +02:00			`@objects.each do \| o \|`
boot process 90 percent done Creating the class and layout objects in the right order was tricky, but now mostly done 2015-05-23 11:15:06 +02:00			`o.init_layout`
much work on boot process fiddly egg and chicken, though a bit clearer with parfait objects now 2015-05-22 21:51:36 +02:00			`end`
fix method seperation Since Compiled method split into Method and CompiledMethodInfo (parfait/vm) lots of call syntax changes 2015-05-24 12:31:33 +02:00			`boot_functions!`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`end`

fix method seperation Since Compiled method split into Method and CompiledMethodInfo (parfait/vm) lots of call syntax changes 2015-05-24 12:31:33 +02:00			`# classes have booted, now create a minimal set of functions`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`# minimal means only that which can not be coded in ruby`
fix method seperation Since Compiled method split into Method and CompiledMethodInfo (parfait/vm) lots of call syntax changes 2015-05-24 12:31:33 +02:00			`# Methods are grabbed from respective modules by sending the method name. This should return the`
			`# implementation of the method (ie a method object), not actually try to implement it`
			`# (as that's impossible in ruby)`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`def boot_functions!`
			`# very fiddly chicken 'n egg problem. Functions need to be in the right order, and in fact we`
			`# have to define some dummies, just for the other to compile`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`# TODO go through the virtual parfait layer and adjust function names to what they really are`
			`obj = @class_mappings[:Object ]`
move main to object (from kernel) 2015-05-30 13:49:10 +02:00			`[:main , :_get_instance_variable , :_set_instance_variable].each do \|f\|`
finally scoping builtin to register had put this off because it breaks history but now the references to register stuff which builtin is off course full of, become much shorter 2015-06-29 20:03:58 +02:00			`obj.add_instance_method Register::Builtin::Object.send(f , nil)`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`end`
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`obj = @class_mappings[:Kernel ]`
fixing assembly (wip) main entry is the main problem, still polishing 2015-05-26 19:17:03 +02:00			`# create dummy main first, __init__ calls it`
finished init routine and better implemented sys calls 2015-06-25 15:31:09 +02:00			`[:putstring,:exit,:__send , :__init__ ].each do \|f\|`
finally scoping builtin to register had put this off because it breaks history but now the references to register stuff which builtin is off course full of, become much shorter 2015-06-29 20:03:58 +02:00			`obj.add_instance_method Register::Builtin::Kernel.send(f , nil)`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`end`
fixing assembly (wip) main entry is the main problem, still polishing 2015-05-26 19:17:03 +02:00
revert to symbols Parfait::Words were nice, but endless problems with the fact that when you write “String” you get a string. Symbols take care of uniqueness at the same time 2015-05-31 17:34:18 +02:00			`obj = @class_mappings[:Integer ]`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`[:putint,:fibo].each do \|f\|`
finally scoping builtin to register had put this off because it breaks history but now the references to register stuff which builtin is off course full of, become much shorter 2015-06-29 20:03:58 +02:00			`obj.add_instance_method Register::Builtin::Integer.send(f , nil)`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`end`
fixing assembly (wip) main entry is the main problem, still polishing 2015-05-26 19:17:03 +02:00
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00			`end`
			`end`
			`end`