rubyx/lib/risc/machine.rb

require_relative "collector"
require_relative "binary_writer"

module Risc
  # The Risc Machine is an abstraction of the register level. This is seperate from the
  # actual assembler level to allow for several cpu architectures.
  # The Instructions (see class Instruction) define what the machine can do (ie load/store/maths)

  # From code, the next step down is Vool, then Mom (in two steps)
  #
  # The next step transforms to the register machine layer, which is quite close to what actually
  #  executes. The step after transforms to Arm, which creates executables.
  #

  class Machine
    include Util::Logging
    log_level :info

    def initialize
      @booted = false
      @risc_init = nil
      @constants = []
      @next_address = nil
    end
    attr_reader  :constants , :cpu_init
    attr_reader  :booted , :translated
    attr_reader  :platform

    # Translate code to whatever cpu is specified.
    # Currently only :arm and :interpret
    #
    # Translating means translating the initial jump
    # and then translating all methods
    def translate( platform )
      platform = platform.to_s.capitalize
      @platform = Platform.for(platform)
      @translated = true
      translate_methods( @platform.translator )
      @cpu_init = risc_init.to_cpu(@platform.translator)
    end

    # go through all methods and translate them to cpu, given the translator
    def translate_methods(translator)
      Parfait.object_space.get_all_methods.each do |method|
        log.debug "Translate method #{method.name}"
        method.translate_cpu(translator)
      end
    end

    # machine keeps a list of all objects and their positions.
    # this is lazily created with a collector
    def object_positions
      Collector.collect_space if Position.positions.length < 2 #one is the label
      Position.positions
    end

    # lazy init risc_init
    def risc_init
      @risc_init ||= Branch.new( "__initial_branch__" , Parfait.object_space.get_init.risc_instructions )
    end
    # add a constant (which get created during compilation and need to be linked)
    def add_constant(const)
      raise "Must be Parfait #{const}" unless const.is_a?(Parfait::Object)
      @constants << const
    end

    # hand out a return address for use as constant the address is added
    def get_address
      10.times do # 10 for whole pages
        @next_address = Parfait::ReturnAddress.new(0,@next_address)
        add_constant( @next_address )
      end unless @next_address
      addr = @next_address
      @next_address = @next_address.next_integer
      addr
    end

    # To create binaries, objects (and labels) need to have a position
    # (so objects can be loaded and branches know where to jump)
    #
    # Position in the order
    # - initial jump
    # - all objects
    # - all code (BinaryCode objects)
    # As code length may change during assembly, this way at least the objects stay
    # in place and we don't have to deal with changing loading code
    def position_all
      raise "Not translated " unless @translated
      #need the initial jump at 0 and then functions
      Position.new(cpu_init).set(0)
      code_start = position_objects( @platform.padding )
      # and then everything code
      position_code(code_start)
    end

    # go through everything that is not code (BinaryCode) and set position
    # padded_length is what determines an objects (byte) length
    # return final position that is stored in code_start
    def position_objects(at)
      # want to have the objects first in the executable
      sorted = object_positions.keys.sort do |left,right|
        left.class.name <=> right.class.name
      end
      previous = nil
      sorted.each do |objekt|
        next unless Position.is_object(objekt)
        before = at
        raise objekt.class unless( Position.set?(objekt)) #debug check
        position = Position.get(objekt).set(at)
        previous.position_listener(objekt) if previous
        previous = position
        at += objekt.padded_length
        log.debug "Object #{objekt.class}:#{before.to_s(16)} len: #{(at - before).to_s(16)}"
      end
      at
    end

    # Position all BinaryCode.
    #
    # So that all code from one method is layed out linearly (for debugging)
    # we go through methods, and then through all codes from the method
    #
    # start at code_start.
    def position_code(code_start)
      Parfait.object_space.types.values.each do |type|
        next unless type.methods
        type.methods.each_method do |method|
          #next unless method.name == :main or method.name == :__init__
          Position.log.debug "Method start #{code_start.to_s(16)} #{method.name}"
          code_pos = CodeListener.init(method.binary)
          InstructionListener.init(method.cpu_instructions, method.binary)
          code_pos.position_listener( LabelListener.new(method.cpu_instructions))
          code_pos.set(code_start)
          code_start = Position.get(method.binary.last_code).next_slot
        end
      end
    end

    # Create Binary code for all methods and the initial jump
    # BinaryWriter handles the writing from instructions into BinaryCode objects
    #
    # current (poor) design throws an exception when the assembly can't fit
    # constant loads into one instruction.
    #
    def create_binary
      object_positions.keys.each do |method|
        next unless method.is_a? Parfait::TypedMethod
        writer = BinaryWriter.new(method.binary)
        writer.assemble(method.cpu_instructions)
      end
      log.debug "BinaryInit #{cpu_init.object_id.to_s(16)}"
    end

    def boot
      initialize
      Position.clear_positions
      @objects = nil
      @translated = false
      boot_parfait!
      @booted = true
      self
    end

  end

  # Module function to retrieve singleton
  def self.machine
    unless defined?(@machine)
      @machine = Machine.new
    end
    @machine
  end

end

require_relative "boot"
removing passes (before arm) collector becomes a function minimizer unused 2015-10-18 18:27:02 +02:00			`require_relative "collector"`
start on new binary creation process now writing into BinaryCode instead of stream also in the risc layer, not arm, for reusability 2018-03-27 19:47:41 +02:00			`require_relative "binary_writer"`
gets rid of soml-parser completely 2016-12-08 19:13:08 +01:00
rename register to risc seems to fit the layer much better as we really have a very reduced instruction set 2017-01-19 08:02:29 +01:00			`module Risc`
			`# The Risc Machine is an abstraction of the register level. This is seperate from the`
some docs 2016-12-06 10:38:09 +01:00			`# actual assembler level to allow for several cpu architectures.`
			`# The Instructions (see class Instruction) define what the machine can do (ie load/store/maths)`
remove passes and achieve the same by translating 2015-10-24 10:42:36 +02:00
polish docs and a bit of code style 2018-03-11 11:41:15 +01:00			`# From code, the next step down is Vool, then Mom (in two steps)`
renaming, making space for extra layer 2014-06-25 01:33:44 +02:00			`#`
starting to clear up slots mostly docs 2015-06-20 22:49:30 +02:00			`# The next step transforms to the register machine layer, which is quite close to what actually`
			`# executes. The step after transforms to Arm, which creates executables.`
renaming, making space for extra layer 2014-06-25 01:33:44 +02:00			`#`
starting to clear up slots mostly docs 2015-06-20 22:49:30 +02:00
add the simplest possible hash replacement with tests 2014-06-25 15:00:24 +02:00			`class Machine`
use modified opal logger logger was having bizarre format errors copied and simplified (to get on) 2018-05-20 13:45:48 +02:00			`include Util::Logging`
no-ops really 2018-05-23 17:06:55 +02:00			`log_level :info`
fix the boot was broken for unknown reason really 2015-07-18 10:53:04 +02:00
add the simplest possible hash replacement with tests 2014-06-25 15:00:24 +02:00			`def initialize`
move machine to module level makes for shorter, more concise, access also remove one more bug possibility (reinitiation) 2015-06-01 07:40:17 +02:00			`@booted = false`
reinit risc_init fixes over 100 tests :-) 2018-05-01 21:36:46 +02:00			`@risc_init = nil`
move constants to machine 2015-10-28 12:00:23 +01:00			`@constants = []`
create return address as own class to hold return addresses to distinguish from integer, which does not need adjusting 2018-05-30 22:49:01 +02:00			`@next_address = nil`
add the simplest possible hash replacement with tests 2014-06-25 15:00:24 +02:00			`end`
not wrapping the cpu initial jump anymore also introduce padding after cpu_init (wip) 2018-05-12 17:36:59 +02:00			`attr_reader :constants , :cpu_init`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`attr_reader :booted , :translated`
not wrapping the cpu initial jump anymore also introduce padding after cpu_init (wip) 2018-05-12 17:36:59 +02:00			`attr_reader :platform`
remove passes and achieve the same by translating 2015-10-24 10:42:36 +02:00
groundwork for interpreter platform especially positioning makes the previous interpreter approach to fragile (too far off the real thing) Interpreter should be it’s own platform (still use the risc instructions), get a translator and use positions 2018-05-16 20:00:14 +02:00			`# Translate code to whatever cpu is specified.`
			`# Currently only :arm and :interpret`
reuse translator in machine and clean up api 2018-03-26 18:42:40 +02:00			`#`
groundwork for interpreter platform especially positioning makes the previous interpreter approach to fragile (too far off the real thing) Interpreter should be it’s own platform (still use the risc instructions), get a translator and use positions 2018-05-16 20:00:14 +02:00			`# Translating means translating the initial jump`
fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`# and then translating all methods`
groundwork for interpreter platform especially positioning makes the previous interpreter approach to fragile (too far off the real thing) Interpreter should be it’s own platform (still use the risc instructions), get a translator and use positions 2018-05-16 20:00:14 +02:00			`def translate( platform )`
			`platform = platform.to_s.capitalize`
			`@platform = Platform.for(platform)`
			`@translated = true`
loading label must translate the labels too (psst: like arm translator already did. duh) 2018-05-24 18:20:06 +02:00			`translate_methods( @platform.translator )`
groundwork for interpreter platform especially positioning makes the previous interpreter approach to fragile (too far off the real thing) Interpreter should be it’s own platform (still use the risc instructions), get a translator and use positions 2018-05-16 20:00:14 +02:00			`@cpu_init = risc_init.to_cpu(@platform.translator)`
refactor builtin object, some machine too 2016-12-15 18:20:54 +01:00			`end`

fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`# go through all methods and translate them to cpu, given the translator`
loading label must translate the labels too (psst: like arm translator already did. duh) 2018-05-24 18:20:06 +02:00			`def translate_methods(translator)`
			`Parfait.object_space.get_all_methods.each do \|method\|`
Move add_object to collector more changes to come 2016-12-31 13:54:15 +01:00			`log.debug "Translate method #{method.name}"`
also separate risc and cpu inits for the machine interpreter works on risc, but assembler off cpu 2018-03-25 18:36:00 +02:00			`method.translate_cpu(translator)`
split the pass runs to debug 2015-06-12 17:52:06 +02:00			`end`
move space to parfait Also make the machine the singleton and space hang off it Many repercussions, not all fixed in this commit 2015-05-12 14:36:44 +02:00			`end`

rename the objects accessor and move to object keys, not object_id 2018-06-15 08:18:39 +02:00			`# machine keeps a list of all objects and their positions.`
			`# this is lazily created with a collector`
			`def object_positions`
objects didn't get positions positions.empty? was wrong check 2018-06-16 09:58:54 +02:00			`Collector.collect_space if Position.positions.length < 2 #one is the label`
crete positions while collecting objects clear two phase lifecycle for positions always created invalid and set later new does not auto add to cache but create and get_or_create do 2018-06-15 20:54:21 +02:00			`Position.positions`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`end`

fix init jump bug the label for the jump was not translated correctly call needs to go through to_cpu to create single instance on the way init order slightly changed 2018-05-01 18:19:04 +02:00			`# lazy init risc_init`
			`def risc_init`
			`@risc_init \|\|= Branch.new( "__initial_branch__" , Parfait.object_space.get_init.risc_instructions )`
			`end`
wip, fixed some label, need more fixing 2018-05-30 09:29:38 +02:00			`# add a constant (which get created during compilation and need to be linked)`
move to parfait integers in risc layer loading constants means loading parfait objects objects have to me collected in machine integer ok, string/true/false/nil next 2018-03-31 12:25:59 +02:00			`def add_constant(const)`
debugging binaries, initial jump issues 2018-04-30 12:28:55 +02:00			`raise "Must be Parfait #{const}" unless const.is_a?(Parfait::Object)`
move to parfait integers in risc layer loading constants means loading parfait objects objects have to me collected in machine integer ok, string/true/false/nil next 2018-03-31 12:25:59 +02:00			`@constants << const`
			`end`
groundwork for interpreter platform especially positioning makes the previous interpreter approach to fragile (too far off the real thing) Interpreter should be it’s own platform (still use the risc instructions), get a translator and use positions 2018-05-16 20:00:14 +02:00
create return address as own class to hold return addresses to distinguish from integer, which does not need adjusting 2018-05-30 22:49:01 +02:00			`# hand out a return address for use as constant the address is added`
			`def get_address`
			`10.times do # 10 for whole pages`
			`@next_address = Parfait::ReturnAddress.new(0,@next_address)`
			`add_constant( @next_address )`
			`end unless @next_address`
			`addr = @next_address`
			`@next_address = @next_address.next_integer`
			`addr`
			`end`

fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`# To create binaries, objects (and labels) need to have a position`
			`# (so objects can be loaded and branches know where to jump)`
			`#`
			`# Position in the order`
			`# - initial jump`
wip, fixed some label, need more fixing 2018-05-30 09:29:38 +02:00			`# - all objects`
			`# - all code (BinaryCode objects)`
			`# As code length may change during assembly, this way at least the objects stay`
			`# in place and we don't have to deal with changing loading code`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`def position_all`
groundwork for interpreter platform especially positioning makes the previous interpreter approach to fragile (too far off the real thing) Interpreter should be it’s own platform (still use the risc instructions), get a translator and use positions 2018-05-16 20:00:14 +02:00			`raise "Not translated " unless @translated`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`#need the initial jump at 0 and then functions`
crete positions while collecting objects clear two phase lifecycle for positions always created invalid and set later new does not auto add to cache but create and get_or_create do 2018-06-15 20:54:21 +02:00			`Position.new(cpu_init).set(0)`
adds the simple object dependency where the next object is dependent on the previous one and just behind it, the padded_length away 2018-05-31 19:41:04 +02:00			`code_start = position_objects( @platform.padding )`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`# and then everything code`
adds the simple object dependency where the next object is dependent on the previous one and just behind it, the padded_length away 2018-05-31 19:41:04 +02:00			`position_code(code_start)`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`end`

fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`# go through everything that is not code (BinaryCode) and set position`
			`# padded_length is what determines an objects (byte) length`
fix (re)positioning when link exceptions are thrown slow design, but sort of works 2018-05-01 18:48:11 +02:00			`# return final position that is stored in code_start`
			`def position_objects(at)`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`# want to have the objects first in the executable`
crete positions while collecting objects clear two phase lifecycle for positions always created invalid and set later new does not auto add to cache but create and get_or_create do 2018-06-15 20:54:21 +02:00			`sorted = object_positions.keys.sort do \|left,right\|`
rename the objects accessor and move to object keys, not object_id 2018-06-15 08:18:39 +02:00			`left.class.name <=> right.class.name`
			`end`
adds the simple object dependency where the next object is dependent on the previous one and just behind it, the padded_length away 2018-05-31 19:41:04 +02:00			`previous = nil`
crete positions while collecting objects clear two phase lifecycle for positions always created invalid and set later new does not auto add to cache but create and get_or_create do 2018-06-15 20:54:21 +02:00			`sorted.each do \|objekt\|`
seperate position create and register many test fixes 2018-06-15 21:00:49 +02:00			`next unless Position.is_object(objekt)`
debugging positions 2018-05-05 18:32:01 +02:00			`before = at`
objects didn't get positions positions.empty? was wrong check 2018-06-16 09:58:54 +02:00			`raise objekt.class unless( Position.set?(objekt)) #debug check`
crete positions while collecting objects clear two phase lifecycle for positions always created invalid and set later new does not auto add to cache but create and get_or_create do 2018-06-15 20:54:21 +02:00			`position = Position.get(objekt).set(at)`
introduce some helper methods 2018-06-02 22:02:59 +02:00			`previous.position_listener(objekt) if previous`
adds the simple object dependency where the next object is dependent on the previous one and just behind it, the padded_length away 2018-05-31 19:41:04 +02:00			`previous = position`
fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`at += objekt.padded_length`
debugging positions 2018-05-05 18:32:01 +02:00			`log.debug "Object #{objekt.class}:#{before.to_s(16)} len: #{(at - before).to_s(16)}"`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`end`
			`at`
			`end`

fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`# Position all BinaryCode.`
			`#`
fix (re)positioning when link exceptions are thrown slow design, but sort of works 2018-05-01 18:48:11 +02:00			`# So that all code from one method is layed out linearly (for debugging)`
fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`# we go through methods, and then through all codes from the method`
fix (re)positioning when link exceptions are thrown slow design, but sort of works 2018-05-01 18:48:11 +02:00			`#`
adds the simple object dependency where the next object is dependent on the previous one and just behind it, the padded_length away 2018-05-31 19:41:04 +02:00			`# start at code_start.`
			`def position_code(code_start)`
rework binary code positioning setup dependency chain set up explicitly. Next have to react to events correctly 2018-06-02 16:29:38 +02:00			`Parfait.object_space.types.values.each do \|type\|`
			`next unless type.methods`
			`type.methods.each_method do \|method\|`
introduce the LabeListener to move instructions along when first code position changes 2018-06-09 21:13:43 +02:00			`#next unless method.name == :main or method.name == :__init__`
			`Position.log.debug "Method start #{code_start.to_s(16)} #{method.name}"`
			`code_pos = CodeListener.init(method.binary)`
			`InstructionListener.init(method.cpu_instructions, method.binary)`
			`code_pos.position_listener( LabelListener.new(method.cpu_instructions))`
			`code_pos.set(code_start)`
			`code_start = Position.get(method.binary.last_code).next_slot`
rework binary code positioning setup dependency chain set up explicitly. Next have to react to events correctly 2018-06-02 16:29:38 +02:00			`end`
			`end`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`end`

fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`# Create Binary code for all methods and the initial jump`
			`# BinaryWriter handles the writing from instructions into BinaryCode objects`
fix (re)positioning when link exceptions are thrown slow design, but sort of works 2018-05-01 18:48:11 +02:00			`#`
			`# current (poor) design throws an exception when the assembly can't fit`
			`# constant loads into one instruction.`
			`#`
start on new binary creation process now writing into BinaryCode instead of stream also in the risc layer, not arm, for reusability 2018-03-27 19:47:41 +02:00			`def create_binary`
objects didn't get positions positions.empty? was wrong check 2018-06-16 09:58:54 +02:00			`object_positions.keys.each do \|method\|`
start on new binary creation process now writing into BinaryCode instead of stream also in the risc layer, not arm, for reusability 2018-03-27 19:47:41 +02:00			`next unless method.is_a? Parfait::TypedMethod`
			`writer = BinaryWriter.new(method.binary)`
			`writer.assemble(method.cpu_instructions)`
			`end`
make the interpreter platform but still using the risc_instruction stream 2018-05-17 08:31:36 +02:00			`log.debug "BinaryInit #{cpu_init.object_id.to_s(16)}"`
start on new binary creation process now writing into BinaryCode instead of stream also in the risc layer, not arm, for reusability 2018-03-27 19:47:41 +02:00			`end`

split the pass runs to debug 2015-06-12 17:52:06 +02:00			`def boot`
fixes yet another order dependant bug in the test (not the code) 2015-11-09 09:04:37 +01:00			`initialize`
getting instruction repositioning right big bug hunt, involving complicated maths (%) 2018-05-24 13:27:53 +02:00			`Position.clear_positions`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`@objects = nil`
don't collect labels anymore don’t need, use binary code as the methods jump point 2018-03-27 18:06:16 +02:00			`@translated = false`
split the pass runs to debug 2015-06-12 17:52:06 +02:00			`boot_parfait!`
			`@booted = true`
fix the boot was broken for unknown reason really 2015-07-18 10:53:04 +02:00			`self`
split the pass runs to debug 2015-06-12 17:52:06 +02:00			`end`

renaming, making space for extra layer 2014-06-25 01:33:44 +02:00			`end`
move machine to module level makes for shorter, more concise, access also remove one more bug possibility (reinitiation) 2015-06-01 07:40:17 +02:00
split the pass runs to debug 2015-06-12 17:52:06 +02:00			`# Module function to retrieve singleton`
move machine to module level makes for shorter, more concise, access also remove one more bug possibility (reinitiation) 2015-06-01 07:40:17 +02:00			`def self.machine`
			`unless defined?(@machine)`
			`@machine = Machine.new`
			`end`
			`@machine`
			`end`
split the pass runs to debug 2015-06-12 17:52:06 +02:00
move compiler into virtual and associated changes in code, requires tests etc 2015-05-08 14:10:30 +02:00			`end`
externalize boot process Booting is complicated, make an own file for it 2015-05-19 19:29:33 +02:00
			`require_relative "boot"`