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 Logging
    log_level :info

    def initialize
      @booted = false
      @constants = []
    end
    attr_reader  :constants , :cpu_init , :binary_init
    attr_reader  :booted , :translated

    # translate to arm, ie instantiate an arm translator and pass it to translate
    #
    # currently we have no machanism to translate to other cpu's (nor such translators)
    # but the mechanism is ready
    def translate_arm
      @translated = true
      translate(Arm::Translator.new)
    end

    # translate code to whatever cpu the translator translates to
    # this means translating the initial jump (cpu_init into binary_init)
    # and then translating all methods
    def translate( translator )
      methods = Parfait.object_space.get_all_methods
      translate_methods( methods , translator )
      @cpu_init = risc_init.to_cpu(translator)
      @binary_init = Parfait::BinaryCode.new(1)
    end

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

    # machine keeps a list of all objects. this is lazily created with a collector
    def objects
      @objects ||= Collector.collect_space
    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 compilatio and need to be linked)
    def add_constant(const)
      raise "Must be Parfait #{const}" unless const.is_a?(Parfait::Object)
      @constants << const
    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 object
    # - all code
    # As code length amy change during assembly, this way at least the objects stay
    # in place and we don't have to deal with chaning loading code
    def position_all
      translate_arm unless @translated
      #need the initial jump at 0 and then functions
      cpu_init.set_position( 0 )
      #Positioned.set_position(cpu_init.first , 0)
      Positioned.set_position(binary_init,0)
      @code_start = position_objects( binary_init.padded_length )
      # and then everything code
      position_code
    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
      objects.each do | id , objekt|
        next if objekt.is_a?( Parfait::BinaryCode) or objekt.is_a?( Risc::Label )
        Positioned.set_position(objekt,at)
        at += objekt.padded_length
      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. The method is called until
    # assembly stops throwing errors
    def position_code
      at = @code_start
      objects.each do |id , method|
        next unless method.is_a? Parfait::TypedMethod
        log.debug "POS1 #{method.name}:#{at.to_s(16)}"
        method.cpu_instructions.set_position( at )
        before = at
        nekst = method.binary
        while(nekst)
          Positioned.set_position(nekst , at)
          at += nekst.padded_length
          nekst = nekst.next
        end
        log.debug "POS2 #{method.name}:#{at.to_s(16)} len: #{(at - before).to_s(16)}"
      end
      at
    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
      not_ok = 1
      while(not_ok)
        begin
          return do_create_binary
        rescue LinkException
          not_ok += 1
          puts "relink no #{not_ok}"
          position_code
        end
      end
    end

    # have to retry until it works. Unfortunately (FIXME) jumps can go be both
    # directions, and so already assembled codes get wrong by moving/ inserting
    # instructions. And we end up assmebling all code again :-(
    def do_create_binary
      objects.each do |id , method|
        next unless method.is_a? Parfait::TypedMethod
        writer = BinaryWriter.new(method.binary)
        writer.assemble(method.cpu_instructions)
      end
      BinaryWriter.new(binary_init).assemble(cpu_init)
    end

    def boot
      initialize
      @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`
disabling failing test for now have to add more test and code climate will show where 2016-12-29 20:24:11 +01:00			`include Logging`
a little more minimal elf tests 2016-12-31 14:08:32 +01:00			`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`
move constants to machine 2015-10-28 12:00:23 +01:00			`@constants = []`
add the simplest possible hash replacement with tests 2014-06-25 15:00:24 +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			`attr_reader :constants , :cpu_init , :binary_init`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`attr_reader :booted , :translated`
remove passes and achieve the same by translating 2015-10-24 10:42:36 +02:00
reuse translator in machine and clean up api 2018-03-26 18:42:40 +02:00			`# translate to arm, ie instantiate an arm translator and pass it to translate`
			`#`
			`# currently we have no machanism to translate to other cpu's (nor such translators)`
			`# but the mechanism is ready`
remove passes and achieve the same by translating 2015-10-24 10:42:36 +02:00			`def translate_arm`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`@translated = true`
reuse translator in machine and clean up api 2018-03-26 18:42:40 +02:00			`translate(Arm::Translator.new)`
			`end`

fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`# translate code to whatever cpu the translator translates to`
			`# this means translating the initial jump (cpu_init into binary_init)`
			`# and then translating all methods`
reuse translator in machine and clean up api 2018-03-26 18:42:40 +02:00			`def translate( translator )`
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			`methods = Parfait.object_space.get_all_methods`
reuse translator in machine and clean up api 2018-03-26 18:42:40 +02:00			`translate_methods( methods , translator )`
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			`@cpu_init = risc_init.to_cpu(translator)`
use a binary code for the first jump 2018-03-29 16:39:31 +02:00			`@binary_init = Parfait::BinaryCode.new(1)`
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`
reuse translator in machine and clean up api 2018-03-26 18:42:40 +02:00			`def translate_methods(methods , translator)`
remove passes and achieve the same by translating 2015-10-24 10:42:36 +02:00			`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`

move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`# machine keeps a list of all objects. this is lazily created with a collector`
			`def objects`
			`@objects \|\|= Collector.collect_space`
			`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`
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			`# add a constant (which get created during compilatio and need to be linked)`
			`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`
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`
			`# - all object`
			`# - all code`
			`# As code length amy change during assembly, this way at least the objects stay`
			`# in place and we don't have to deal with chaning loading code`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`def position_all`
			`translate_arm unless @translated`
			`#need the initial jump at 0 and then functions`
			`cpu_init.set_position( 0 )`
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			`#Positioned.set_position(cpu_init.first , 0)`
use a binary code for the first jump 2018-03-29 16:39:31 +02:00			`Positioned.set_position(binary_init,0)`
fix (re)positioning when link exceptions are thrown slow design, but sort of works 2018-05-01 18:48:11 +02:00			`@code_start = position_objects( binary_init.padded_length )`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`# and then everything code`
fix (re)positioning when link exceptions are thrown slow design, but sort of works 2018-05-01 18:48:11 +02:00			`position_code`
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`
			`objects.each do \| id , objekt\|`
fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`next if objekt.is_a?( Parfait::BinaryCode) or objekt.is_a?( Risc::Label )`
			`Positioned.set_position(objekt,at)`
			`at += objekt.padded_length`
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			`#`
			`# start at @code_start. The method is called until`
			`# assembly stops throwing errors`
			`def position_code`
			`at = @code_start`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`objects.each do \|id , method\|`
			`next unless method.is_a? Parfait::TypedMethod`
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			`log.debug "POS1 #{method.name}:#{at.to_s(16)}"`
fix positioning and the assembly works 2018-03-29 17:03:21 +02:00			`method.cpu_instructions.set_position( at )`
move assembly from assembler to machine id now called position 2018-03-27 17:47:39 +02:00			`before = at`
			`nekst = method.binary`
			`while(nekst)`
			`Positioned.set_position(nekst , at)`
			`at += nekst.padded_length`
			`nekst = nekst.next`
			`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			`log.debug "POS2 #{method.name}:#{at.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			`# 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`
fix (re)positioning when link exceptions are thrown slow design, but sort of works 2018-05-01 18:48:11 +02:00			`not_ok = 1`
			`while(not_ok)`
			`begin`
			`return do_create_binary`
			`rescue LinkException`
			`not_ok += 1`
			`puts "relink no #{not_ok}"`
			`position_code`
			`end`
			`end`
			`end`

			`# have to retry until it works. Unfortunately (FIXME) jumps can go be both`
			`# directions, and so already assembled codes get wrong by moving/ inserting`
			`# instructions. And we end up assmebling all code again :-(`
			`def do_create_binary`
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			`objects.each do \|id , method\|`
			`next unless method.is_a? Parfait::TypedMethod`
			`writer = BinaryWriter.new(method.binary)`
			`writer.assemble(method.cpu_instructions)`
			`end`
use a binary code for the first jump 2018-03-29 16:39:31 +02:00			`BinaryWriter.new(binary_init).assemble(cpu_init)`
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`
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"`