rubyx/lib/risc/builtin/object.rb

module Risc
  module Builtin
    class Object
      module ClassMethods
        include CompileHelper

        # self[index] basically. Index is the first arg
        # return is stored in return_value
        def get_internal_word( context )
          compiler = compiler_for(:Object , :get_internal_word ,{at: :Integer})
          compiler.builder(compiler.source).build do
            object! << message[:receiver]
            integer! << message[:arguments]
            integer << integer[Parfait::NamedList.type_length + 0] #"at" is at index 0
            integer.reduce_int
            object << object[integer]
            message[:return_value] << object
          end
          compiler.add_mom( Mom::ReturnSequence.new)
          return compiler
        end

        # self[index] = val basically. Index is the first arg , value the second
        # return the value passed in
        def set_internal_word( context )
          compiler = compiler_for(:Object , :set_internal_word , {at: :Integer, value: :Object} )
          compiler.builder(compiler.source).build do
            object! << message[:receiver]
            integer! << message[:arguments]
            object_reg! << integer[Parfait::NamedList.type_length + 1] #"value" is at index 1
            integer << integer[Parfait::NamedList.type_length + 0] #"at" is at index 0
            integer.reduce_int
            object[integer] << object_reg
            message[:return_value] << object_reg
          end
          compiler.add_mom( Mom::ReturnSequence.new)
          return compiler
        end

        # every object needs a method missing.
        # Even if it's just this one, sys_exit (later raise)
        def _method_missing( context )
          compiler = compiler_for(:Object,:method_missing ,{})
          emit_syscall( compiler.builder(compiler.source) , :exit )
          return compiler
        end

        # this is the really really first place the machine starts (apart from the jump here)
        # it isn't really a function, ie it is jumped to (not called), exits and may not return
        # so it is responsible for initial setup:
        # - load fist message, set up Space as receiver
        # - call main, ie set up message for that etc
        # - exit (exit_sequence) which passes a machine int out to c
        def __init__( context )
          compiler = MethodCompiler.compiler_for_class(:Object,:__init__ ,
                            Parfait::NamedList.type_for({}) , Parfait::NamedList.type_for({}))
          builder = compiler.builder(compiler.source)
          builder.build do
            factory! << Parfait.object_space.get_factory_for(:Message)
            message << factory[:next_object]
            next_message! << message[:next_message]
            factory[:next_object] << next_message
          end

          Mom::MessageSetup.new(Parfait.object_space.get_main).build_with( builder )

          builder.build do
            message << message[:next_message]
            space? << Parfait.object_space
            message[:receiver] << space
          end

          exit_label = Risc.label(compiler.source , "#{compiler.receiver_type.object_class.name}.#{compiler.source.name}" )
          ret_tmp = compiler.use_reg(:Label).set_builder(builder)
          builder.build do
            ret_tmp << exit_label
            message[:return_address] << ret_tmp
            add_code Risc.function_call( "__init__ issue call" ,  Parfait.object_space.get_main)
            add_code exit_label
          end
          compiler.reset_regs
          exit_sequence(builder)
          return compiler
        end

        # a sort of inline version of exit method.
        # Used by exit and __init__ (so it doesn't have to call it)
        # Assumes int return value and extracts the fixnum for process exit code
        def exit_sequence(builder)
          save_message( builder )
          builder.build do
            message << message[:return_value]
            message.reduce_int
            add_code Syscall.new("emit_syscall(exit)", :exit )
          end
        end

        # the exit function
        # mainly calls exit_sequence
        def exit( context )
          compiler = compiler_for(:Object,:exit ,{})
          builder = compiler.builder(compiler.source)
          exit_sequence(builder)
          return compiler
        end

        # emit the syscall with given name
        # there is a Syscall instruction, but the message has to be saved and restored
        def emit_syscall( builder , name )
          save_message( builder )
          builder.add_code Syscall.new("emit_syscall(#{name})", name )
          restore_message(builder)
          return unless (@clazz and @method)
          builder.add_code Risc.label( "#{@clazz.name}.#{@message.name}" , "return_syscall" )
        end

        # save the current message, as the syscall destroys all context
        #
        # This relies on linux to save and restore all registers
        #
        def save_message(builder)
          r8 = RegisterValue.new( :r8 , :Message).set_builder(builder)
          builder.build {r8 << message}
        end

        # restore the message that we save in r8
        # get a new int and save the c return into it
        # the int gets retured, ie is the return_value of the message
        def restore_message(builder)
          r8 = RegisterValue.new( :r8 , :Message)
          int = builder.compiler.use_reg(:Integer)
          builder.build do
            integer_reg! << message
            message << r8
            add_new_int( "_restore_message", integer_reg , int )
            message[:return_value] << int
          end
        end

      end
      extend ClassMethods
    end
  end
end
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`
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			`module Builtin`
			`class Object`
			`module ClassMethods`
refactor builtin object, some machine too 2016-12-15 18:20:54 +01:00			`include CompileHelper`
first tests comping through after ast/compile change 2015-05-04 22:03:52 +02:00
implement indexed object access one of the few functions that can’t be coded (or the design specifically is such that it can’t, in c it would be self[index], or, worse *(self + index) ) 2015-11-07 16:36:28 +01:00			`# self[index] basically. Index is the first arg`
			`# return is stored in return_value`
move some compiler helpers to the compiler itself 2018-04-01 13:09:30 +02:00			`def get_internal_word( context )`
using compiler_for to create all building compilers unify api, create defaults and especially pass the right types into the typed method creation 2018-03-18 17:38:35 +01:00			`compiler = compiler_for(:Object , :get_internal_word ,{at: :Integer})`
remove the code_builder this is core of #11 rename compiler_builder to just builder and change all builder uses to use that some test change as code is not returned anymore 2018-08-19 12:16:07 +02:00			`compiler.builder(compiler.source).build do`
add the ! syntax to create variables in builder, fix #8 now a variable has to be created before being used thus it is save to develop contracts where a certain name must exist in the scope Maybe the syntax starts getting a bit weird, but at least the ! is a common symbol in ruby 2018-08-14 18:39:46 +02:00			`object! << message[:receiver]`
			`integer! << message[:arguments]`
replace add_new_int in most builtins in integer and word mainly, replaced with allocate_int (tests pending as syscalls are undone) 2018-11-21 19:29:22 +01:00			`integer << integer[Parfait::NamedList.type_length + 0] #"at" is at index 0`
redid get_set internal byte with builder trying to change style, get rid of some of builders functions 2018-08-09 19:15:52 +02:00			`integer.reduce_int`
			`object << object[integer]`
			`message[:return_value] << object`
			`end`
adding returns to all builtins 2018-04-01 14:17:16 +02:00			`compiler.add_mom( Mom::ReturnSequence.new)`
let boot_functions return the compilers methods are still added, but this is a good step to removing the risc/cpu level from the methods 2018-06-30 22:16:17 +02:00			`return compiler`
implement indexed object access one of the few functions that can’t be coded (or the design specifically is such that it can’t, in c it would be self[index], or, worse *(self + index) ) 2015-11-07 16:36:28 +01:00			`end`

some docs 2016-12-06 10:38:09 +01:00			`# self[index] = val basically. Index is the first arg , value the second`
bit of documentation 2018-08-14 10:23:19 +02:00			`# return the value passed in`
adding returns to all builtins 2018-04-01 14:17:16 +02:00			`def set_internal_word( context )`
replace add_new_int in most builtins in integer and word mainly, replaced with allocate_int (tests pending as syscalls are undone) 2018-11-21 19:29:22 +01:00			`compiler = compiler_for(:Object , :set_internal_word , {at: :Integer, value: :Object} )`
remove the code_builder this is core of #11 rename compiler_builder to just builder and change all builder uses to use that some test change as code is not returned anymore 2018-08-19 12:16:07 +02:00			`compiler.builder(compiler.source).build do`
add the ! syntax to create variables in builder, fix #8 now a variable has to be created before being used thus it is save to develop contracts where a certain name must exist in the scope Maybe the syntax starts getting a bit weird, but at least the ! is a common symbol in ruby 2018-08-14 18:39:46 +02:00			`object! << message[:receiver]`
			`integer! << message[:arguments]`
replace add_new_int in most builtins in integer and word mainly, replaced with allocate_int (tests pending as syscalls are undone) 2018-11-21 19:29:22 +01:00			`object_reg! << integer[Parfait::NamedList.type_length + 1] #"value" is at index 1`
			`integer << integer[Parfait::NamedList.type_length + 0] #"at" is at index 0`
redid get_set internal byte with builder trying to change style, get rid of some of builders functions 2018-08-09 19:15:52 +02:00			`integer.reduce_int`
			`object[integer] << object_reg`
			`message[:return_value] << object_reg`
			`end`
adding returns to all builtins 2018-04-01 14:17:16 +02:00			`compiler.add_mom( Mom::ReturnSequence.new)`
let boot_functions return the compilers methods are still added, but this is a good step to removing the risc/cpu level from the methods 2018-06-30 22:16:17 +02:00			`return compiler`
add set_internal and the set_slot with register very much like the get_slot for get_internal 2015-11-08 16:10:36 +01:00			`end`

add object method missing as sys exit functions get added twice and thus removed once remove restriction for now 2018-04-02 15:49:30 +02:00			`# every object needs a method missing.`
			`# Even if it's just this one, sys_exit (later raise)`
			`def _method_missing( context )`
			`compiler = compiler_for(:Object,:method_missing ,{})`
remove the code_builder this is core of #11 rename compiler_builder to just builder and change all builder uses to use that some test change as code is not returned anymore 2018-08-19 12:16:07 +02:00			`emit_syscall( compiler.builder(compiler.source) , :exit )`
let boot_functions return the compilers methods are still added, but this is a good step to removing the risc/cpu level from the methods 2018-06-30 22:16:17 +02:00			`return compiler`
add object method missing as sys exit functions get added twice and thus removed once remove restriction for now 2018-04-02 15:49:30 +02:00			`end`
rename a bit 2018-06-29 12:03:19 +02:00
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`# this is the really really first place the machine starts (apart from the jump here)`
			`# it isn't really a function, ie it is jumped to (not called), exits and may not return`
bit of documentation 2018-08-14 10:23:19 +02:00			`# so it is responsible for initial setup:`
			`# - load fist message, set up Space as receiver`
			`# - call main, ie set up message for that etc`
			`# - exit (exit_sequence) which passes a machine int out to c`
			`def __init__( context )`
back to method_compiler it is what it is 2018-06-30 22:26:28 +02:00			`compiler = MethodCompiler.compiler_for_class(:Object,:__init__ ,`
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`Parfait::NamedList.type_for({}) , Parfait::NamedList.type_for({}))`
remove the code_builder this is core of #11 rename compiler_builder to just builder and change all builder uses to use that some test change as code is not returned anymore 2018-08-19 12:16:07 +02:00			`builder = compiler.builder(compiler.source)`
change build names a little and document 2018-04-07 21:35:40 +02:00			`builder.build do`
change to_risc and builtin code according to last commit Wherever space was loaded to get to the next_message we now load the Message factory. Otherwise much the same, only the attribute is next_object, not next_message The binary is growing with 1k objects per factory, so i had to fix (hack) arm to handle bigger constants close #14 2018-09-01 10:28:53 +02:00			`factory! << Parfait.object_space.get_factory_for(:Message)`
			`message << factory[:next_object]`
add the ! syntax to create variables in builder, fix #8 now a variable has to be created before being used thus it is save to develop contracts where a certain name must exist in the scope Maybe the syntax starts getting a bit weird, but at least the ! is a common symbol in ruby 2018-08-14 18:39:46 +02:00			`next_message! << message[:next_message]`
change to_risc and builtin code according to last commit Wherever space was loaded to get to the next_message we now load the Message factory. Otherwise much the same, only the attribute is next_object, not next_message The binary is growing with 1k objects per factory, so i had to fix (hack) arm to handle bigger constants close #14 2018-09-01 10:28:53 +02:00			`factory[:next_object] << next_message`
fix the init also, was using first message twice not advancing after first load 2018-04-06 23:14:02 +02:00			`end`

fix builtin methods according to last commit 2018-04-08 17:52:17 +02:00			`Mom::MessageSetup.new(Parfait.object_space.get_main).build_with( builder )`
fix the init also, was using first message twice not advancing after first load 2018-04-06 23:14:02 +02:00
change build names a little and document 2018-04-07 21:35:40 +02:00			`builder.build do`
fix the init also, was using first message twice not advancing after first load 2018-04-06 23:14:02 +02:00			`message << message[:next_message]`
change to_risc and builtin code according to last commit Wherever space was loaded to get to the next_message we now load the Message factory. Otherwise much the same, only the attribute is next_object, not next_message The binary is growing with 1k objects per factory, so i had to fix (hack) arm to handle bigger constants close #14 2018-09-01 10:28:53 +02:00			`space? << Parfait.object_space`
fix the init also, was using first message twice not advancing after first load 2018-04-06 23:14:02 +02:00			`message[:receiver] << space`
			`end`

split compilers resolve_type into the three possibilities cleaner code, though temporary it shifts some dirt into the index method. up next 2018-07-16 11:03:40 +02:00			`exit_label = Risc.label(compiler.source , "#{compiler.receiver_type.object_class.name}.#{compiler.source.name}" )`
remove some more add_xx functions also load labels by dsl now 2018-08-14 19:24:48 +02:00			`ret_tmp = compiler.use_reg(:Label).set_builder(builder)`
fix builtin methods according to last commit 2018-04-08 17:52:17 +02:00			`builder.build do`
remove some more add_xx functions also load labels by dsl now 2018-08-14 19:24:48 +02:00			`ret_tmp << exit_label`
			`message[:return_address] << ret_tmp`
			`add_code Risc.function_call( "__init__ issue call" , Parfait.object_space.get_main)`
fix builtin methods according to last commit 2018-04-08 17:52:17 +02:00			`add_code exit_label`
			`end`
bit more regs, bit more resets 2018-04-08 21:29:08 +02:00			`compiler.reset_regs`
pass return integer back out through exit for testing of binaries later (and off course general correctness) Some tests were using the fact that the interpreter was used, changed those to return ints rather than strings 2018-06-19 17:55:47 +02:00			`exit_sequence(builder)`
let boot_functions return the compilers methods are still added, but this is a good step to removing the risc/cpu level from the methods 2018-06-30 22:16:17 +02:00			`return compiler`
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`end`

pass return integer back out through exit for testing of binaries later (and off course general correctness) Some tests were using the fact that the interpreter was used, changed those to return ints rather than strings 2018-06-19 17:55:47 +02:00			`# a sort of inline version of exit method.`
			`# Used by exit and __init__ (so it doesn't have to call it)`
bit of documentation 2018-08-14 10:23:19 +02:00			`# Assumes int return value and extracts the fixnum for process exit code`
pass return integer back out through exit for testing of binaries later (and off course general correctness) Some tests were using the fact that the interpreter was used, changed those to return ints rather than strings 2018-06-19 17:55:47 +02:00			`def exit_sequence(builder)`
fix the exit sequence was returning wrong register (1, not 0) also saving the message for test, which changes order as the return value destroys the message 2018-06-19 18:52:06 +02:00			`save_message( builder )`
remove the last use of an add_xx function, closing #9 2018-08-15 18:37:03 +02:00			`builder.build do`
			`message << message[:return_value]`
			`message.reduce_int`
			`add_code Syscall.new("emit_syscall(exit)", :exit )`
			`end`
pass return integer back out through exit for testing of binaries later (and off course general correctness) Some tests were using the fact that the interpreter was used, changed those to return ints rather than strings 2018-06-19 17:55:47 +02:00			`end`

bit of documentation 2018-08-14 10:23:19 +02:00			`# the exit function`
			`# mainly calls exit_sequence`
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`def exit( context )`
			`compiler = compiler_for(:Object,:exit ,{})`
remove the code_builder this is core of #11 rename compiler_builder to just builder and change all builder uses to use that some test change as code is not returned anymore 2018-08-19 12:16:07 +02:00			`builder = compiler.builder(compiler.source)`
pass return integer back out through exit for testing of binaries later (and off course general correctness) Some tests were using the fact that the interpreter was used, changed those to return ints rather than strings 2018-06-19 17:55:47 +02:00			`exit_sequence(builder)`
let boot_functions return the compilers methods are still added, but this is a good step to removing the risc/cpu level from the methods 2018-06-30 22:16:17 +02:00			`return compiler`
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`end`

bit of documentation 2018-08-14 10:23:19 +02:00			`# emit the syscall with given name`
			`# there is a Syscall instruction, but the message has to be saved and restored`
fix builtin methods according to last commit 2018-04-08 17:52:17 +02:00			`def emit_syscall( builder , name )`
			`save_message( builder )`
			`builder.add_code Syscall.new("emit_syscall(#{name})", name )`
			`restore_message(builder)`
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`return unless (@clazz and @method)`
fix builtin methods according to last commit 2018-04-08 17:52:17 +02:00			`builder.add_code Risc.label( "#{@clazz.name}.#{@message.name}" , "return_syscall" )`
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`end`

			`# save the current message, as the syscall destroys all context`
			`#`
			`# This relies on linux to save and restore all registers`
			`#`
fix builtin methods according to last commit 2018-04-08 17:52:17 +02:00			`def save_message(builder)`
remove ad_transfer in save_message towards removing all add_ change to set_builder and chaining in reg values 2018-08-14 19:08:58 +02:00			`r8 = RegisterValue.new( :r8 , :Message).set_builder(builder)`
			`builder.build {r8 << message}`
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`end`

bit of documentation 2018-08-14 10:23:19 +02:00			`# restore the message that we save in r8`
			`# get a new int and save the c return into it`
replace add_new_int in most builtins in integer and word mainly, replaced with allocate_int (tests pending as syscalls are undone) 2018-11-21 19:29:22 +01:00			`# the int gets retured, ie is the return_value of the message`
fix builtin methods according to last commit 2018-04-08 17:52:17 +02:00			`def restore_message(builder)`
rename risc_value to register_value almost to register, but it still carries that value 2018-06-29 10:39:07 +02:00			`r8 = RegisterValue.new( :r8 , :Message)`
fix builtin methods according to last commit 2018-04-08 17:52:17 +02:00			`int = builder.compiler.use_reg(:Integer)`
redo restore after syscall with builder 2018-08-13 17:48:54 +02:00			`builder.build do`
add the ! syntax to create variables in builder, fix #8 now a variable has to be created before being used thus it is save to develop contracts where a certain name must exist in the scope Maybe the syntax starts getting a bit weird, but at least the ! is a common symbol in ruby 2018-08-14 18:39:46 +02:00			`integer_reg! << message`
redo restore after syscall with builder 2018-08-13 17:48:54 +02:00			`message << r8`
			`add_new_int( "_restore_message", integer_reg , int )`
			`message[:return_value] << int`
			`end`
remove Kernel class for clarification since it was a class it was fake anyway moved methods to object 2018-04-02 16:06:31 +02:00			`end`

the further down this goes, the smaller the circles. Soon the point will come. And then back out 2014-06-03 13:49:02 +02:00			`end`
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			`extend ClassMethods`
the further down this goes, the smaller the circles. Soon the point will come. And then back out 2014-06-03 13:49:02 +02:00			`end`
			`end`
			`end`