src/third_party/WebKit/Source/JavaScriptCore/offlineasm/transform.rb - cobalt - Git at Google

 # Copyright (C) 2011 Apple Inc. All rights reserved.
 #
 # Redistribution and use in source and binary forms, with or without
 # modification, are permitted provided that the following conditions
 # are met:
 # 1. Redistributions of source code must retain the above copyright
 #    notice, this list of conditions and the following disclaimer.
 # 2. Redistributions in binary form must reproduce the above copyright
 #    notice, this list of conditions and the following disclaimer in the
 #    documentation and/or other materials provided with the distribution.
 #
 # THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
 # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
 # THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 # PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
 # BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 # THE POSSIBILITY OF SUCH DAMAGE.

 require "config"
 require "ast"

 #
 # node.resolveSettings(settings)
 #
 # Construct a new AST that does not have any IfThenElse nodes by
 # substituting concrete boolean values for each Setting.
 #

 class Node
     def resolveSettings(settings)
         mapChildren {
             | child |
             child.resolveSettings(settings)
         }
     end
 end

 class True
     def resolveSettings(settings)
         self
     end
 end

 class False
     def resolveSettings(settings)
         self
     end
 end

 class Setting
     def resolveSettings(settings)
         settings[@name].asNode
     end
 end

 class And
     def resolveSettings(settings)
         (@left.resolveSettings(settings).value and @right.resolveSettings(settings).value).asNode
     end
 end

 class Or
     def resolveSettings(settings)
         (@left.resolveSettings(settings).value or @right.resolveSettings(settings).value).asNode
     end
 end

 class Not
     def resolveSettings(settings)
         (not @child.resolveSettings(settings).value).asNode
     end
 end

 class IfThenElse
     def resolveSettings(settings)
         if @predicate.resolveSettings(settings).value
             @thenCase.resolveSettings(settings)
         else
             @elseCase.resolveSettings(settings)
         end
     end
 end

 class Sequence
     def resolveSettings(settings)
         newList = []
         @list.each {
             | item |
             item = item.resolveSettings(settings)
             if item.is_a? Sequence
                 newList += item.list
             else
                 newList << item
             end
         }
         Sequence.new(codeOrigin, newList)
     end
 end

 #
 # node.demacroify(macros)
 # node.substitute(mapping)
 #
 # demacroify() constructs a new AST that does not have any Macro
 # nodes, while substitute() replaces Variable nodes with the given
 # nodes in the mapping.
 #

 class Node
     def demacroify(macros)
         mapChildren {
             | child |
             child.demacroify(macros)
         }
     end

     def substitute(mapping)
         mapChildren {
             | child |
             child.substitute(mapping)
         }
     end

     def substituteLabels(mapping)
         mapChildren {
             | child |
             child.substituteLabels(mapping)
         }
     end
 end

 class Macro
     def substitute(mapping)
         myMapping = {}
         mapping.each_pair {
             | key, value |
             unless @variables.include? key
                 myMapping[key] = value
             end
         }
         mapChildren {
             | child |
             child.substitute(myMapping)
         }
     end
 end

 class Variable
     def substitute(mapping)
         if mapping[self]
             mapping[self]
         else
             self
         end
     end
 end

 class LocalLabel
     def substituteLabels(mapping)
         if mapping[self]
             mapping[self]
         else
             self
         end
     end
 end

 class Sequence
     def substitute(constants)
         newList = []
         myConstants = constants.dup
         @list.each {
             | item |
             if item.is_a? ConstDecl
                 myConstants[item.variable] = item.value.substitute(myConstants)
             else
                 newList << item.substitute(myConstants)
             end
         }
         Sequence.new(codeOrigin, newList)
     end

     def renameLabels(comment)
         mapping = {}

         @list.each {
             | item |
             if item.is_a? LocalLabel
                 mapping[item] = LocalLabel.unique(if comment then comment + "_" else "" end + item.cleanName)
             end
         }

         substituteLabels(mapping)
     end

     def demacroify(macros)
         myMacros = macros.dup
         @list.each {
             | item |
             if item.is_a? Macro
                 myMacros[item.name] = item
             end
         }
         newList = []
         @list.each {
             | item |
             if item.is_a? Macro
                 # Ignore.
             elsif item.is_a? MacroCall
                 mapping = {}
                 myMyMacros = myMacros.dup
                 raise "Could not find macro #{item.name} at #{item.codeOriginString}" unless myMacros[item.name]
                 raise "Argument count mismatch for call to #{item.name} at #{item.codeOriginString}" unless item.operands.size == myMacros[item.name].variables.size
                 item.operands.size.times {
                     | idx |
                     if item.operands[idx].is_a? Variable and myMacros[item.operands[idx].name]
                         myMyMacros[myMacros[item.name].variables[idx].name] = myMacros[item.operands[idx].name]
                         mapping[myMacros[item.name].variables[idx].name] = nil
                     elsif item.operands[idx].is_a? Macro
                         myMyMacros[myMacros[item.name].variables[idx].name] = item.operands[idx]
                         mapping[myMacros[item.name].variables[idx].name] = nil
                     else
                         myMyMacros[myMacros[item.name].variables[idx]] = nil
                         mapping[myMacros[item.name].variables[idx]] = item.operands[idx]
                     end
                 }
                 if item.annotation
                     newList << Instruction.new(item.codeOrigin, "localAnnotation", [], item.annotation)
                 end
                 newList += myMacros[item.name].body.substitute(mapping).demacroify(myMyMacros).renameLabels(item.name).list
             else
                 newList << item.demacroify(myMacros)
             end
         }
         Sequence.new(codeOrigin, newList).substitute({})
     end
 end

 #
 # node.resolveOffsets(offsets, sizes)
 #
 # Construct a new AST that has offset values instead of symbolic
 # offsets.
 #

 class Node
     def resolveOffsets(offsets, sizes)
         mapChildren {
             | child |
             child.resolveOffsets(offsets, sizes)
         }
     end
 end

 class StructOffset
     def resolveOffsets(offsets, sizes)
         if offsets[self]
             Immediate.new(codeOrigin, offsets[self])
         else
             self
         end
     end
 end

 class Sizeof
     def resolveOffsets(offsets, sizes)
         if sizes[self]
             Immediate.new(codeOrigin, sizes[self])
         else
             puts "Could not find #{self.inspect} in #{sizes.keys.inspect}"
             puts "sizes = #{sizes.inspect}"
             self
         end
     end
 end

 #
 # node.fold
 #
 # Resolve constant references and compute arithmetic expressions.
 #

 class Node
     def fold
         mapChildren {
             | child |
             child.fold
         }
     end
 end

 class AddImmediates
     def fold
         @left = @left.fold
         @right = @right.fold
         return self unless @left.is_a? Immediate
         return self unless @right.is_a? Immediate
         Immediate.new(codeOrigin, @left.value + @right.value)
     end
 end

 class SubImmediates
     def fold
         @left = @left.fold
         @right = @right.fold
         return self unless @left.is_a? Immediate
         return self unless @right.is_a? Immediate
         Immediate.new(codeOrigin, @left.value - @right.value)
     end
 end

 class MulImmediates
     def fold
         @left = @left.fold
         @right = @right.fold
         return self unless @left.is_a? Immediate
         return self unless @right.is_a? Immediate
         Immediate.new(codeOrigin, @left.value * @right.value)
     end
 end

 class NegImmediate
     def fold
         @child = @child.fold
         return self unless @child.is_a? Immediate
         Immediate.new(codeOrigin, -@child.value)
     end
 end

 class OrImmediates
     def fold
         @left = @left.fold
         @right = @right.fold
         return self unless @left.is_a? Immediate
         return self unless @right.is_a? Immediate
         Immediate.new(codeOrigin, @left.value | @right.value)
     end
 end

 class AndImmediates
     def fold
         @left = @left.fold
         @right = @right.fold
         return self unless @left.is_a? Immediate
         return self unless @right.is_a? Immediate
         Immediate.new(codeOrigin, @left.value & @right.value)
     end
 end

 class XorImmediates
     def fold
         @left = @left.fold
         @right = @right.fold
         return self unless @left.is_a? Immediate
         return self unless @right.is_a? Immediate
         Immediate.new(codeOrigin, @left.value ^ @right.value)
     end
 end

 class BitnotImmediate
     def fold
         @child = @child.fold
         return self unless @child.is_a? Immediate
         Immediate.new(codeOrigin, ~@child.value)
     end
 end

 #
 # node.resolveAfterSettings(offsets, sizes)
 #
 # Compile assembly against a set of offsets.
 #

 class Node
     def resolve(offsets, sizes)
         demacroify({}).resolveOffsets(offsets, sizes).fold
     end
 end

 #
 # node.validate
 #
 # Checks that the node is ready for backend compilation.
 #

 class Node
     def validate
         raise "Unresolved #{dump} at #{codeOriginString}"
     end

     def validateChildren
         children.each {
             | node |
             node.validate
         }
     end
 end

 class Sequence
     def validate
         validateChildren
     end
 end

 class Immediate
     def validate
     end
 end

 class RegisterID
     def validate
     end
 end

 class FPRegisterID
     def validate
     end
 end

 class Address
     def validate
         validateChildren
     end
 end

 class BaseIndex
     def validate
         validateChildren
     end
 end

 class AbsoluteAddress
     def validate
         validateChildren
     end
 end

 class Instruction
     def validate
         validateChildren
     end
 end

 class Error
     def validate
     end
 end

 class Label
     def validate
     end
 end

 class LocalLabel
     def validate
     end
 end

 class LabelReference
     def validate
     end
 end

 class LocalLabelReference
     def validate
     end
 end

 class Skip
     def validate
     end
 end
	# Copyright (C) 2011 Apple Inc. All rights reserved.
	#
	# Redistribution and use in source and binary forms, with or without
	# modification, are permitted provided that the following conditions
	# are met:
	# 1. Redistributions of source code must retain the above copyright
	# notice, this list of conditions and the following disclaimer.
	# 2. Redistributions in binary form must reproduce the above copyright
	# notice, this list of conditions and the following disclaimer in the
	# documentation and/or other materials provided with the distribution.
	#
	# THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
	# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
	# THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	# PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
	# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
	# THE POSSIBILITY OF SUCH DAMAGE.

	require "config"
	require "ast"

	#
	# node.resolveSettings(settings)
	#
	# Construct a new AST that does not have any IfThenElse nodes by
	# substituting concrete boolean values for each Setting.
	#

	class Node
	def resolveSettings(settings)
	mapChildren {
	\| child \|
	child.resolveSettings(settings)
	}
	end
	end

	class True
	def resolveSettings(settings)
	self
	end
	end

	class False
	def resolveSettings(settings)
	self
	end
	end

	class Setting
	def resolveSettings(settings)
	settings[@name].asNode
	end
	end

	class And
	def resolveSettings(settings)
	(@left.resolveSettings(settings).value and @right.resolveSettings(settings).value).asNode
	end
	end

	class Or
	def resolveSettings(settings)
	(@left.resolveSettings(settings).value or @right.resolveSettings(settings).value).asNode
	end
	end

	class Not
	def resolveSettings(settings)
	(not @child.resolveSettings(settings).value).asNode
	end
	end

	class IfThenElse
	def resolveSettings(settings)
	if @predicate.resolveSettings(settings).value
	@thenCase.resolveSettings(settings)
	else
	@elseCase.resolveSettings(settings)
	end
	end
	end

	class Sequence
	def resolveSettings(settings)
	newList = []
	@list.each {
	\| item \|
	item = item.resolveSettings(settings)
	if item.is_a? Sequence
	newList += item.list
	else
	newList << item
	end
	}
	Sequence.new(codeOrigin, newList)
	end
	end

	#
	# node.demacroify(macros)
	# node.substitute(mapping)
	#
	# demacroify() constructs a new AST that does not have any Macro
	# nodes, while substitute() replaces Variable nodes with the given
	# nodes in the mapping.
	#

	class Node
	def demacroify(macros)
	mapChildren {
	\| child \|
	child.demacroify(macros)
	}
	end

	def substitute(mapping)
	mapChildren {
	\| child \|
	child.substitute(mapping)
	}
	end

	def substituteLabels(mapping)
	mapChildren {
	\| child \|
	child.substituteLabels(mapping)
	}
	end
	end

	class Macro
	def substitute(mapping)
	myMapping = {}
	mapping.each_pair {
	\| key, value \|
	unless @variables.include? key
	myMapping[key] = value
	end
	}
	mapChildren {
	\| child \|
	child.substitute(myMapping)
	}
	end
	end

	class Variable
	def substitute(mapping)
	if mapping[self]
	mapping[self]
	else
	self
	end
	end
	end

	class LocalLabel
	def substituteLabels(mapping)
	if mapping[self]
	mapping[self]
	else
	self
	end
	end
	end

	class Sequence
	def substitute(constants)
	newList = []
	myConstants = constants.dup
	@list.each {
	\| item \|
	if item.is_a? ConstDecl
	myConstants[item.variable] = item.value.substitute(myConstants)
	else
	newList << item.substitute(myConstants)
	end
	}
	Sequence.new(codeOrigin, newList)
	end

	def renameLabels(comment)
	mapping = {}

	@list.each {
	\| item \|
	if item.is_a? LocalLabel
	mapping[item] = LocalLabel.unique(if comment then comment + "_" else "" end + item.cleanName)
	end
	}

	substituteLabels(mapping)
	end

	def demacroify(macros)
	myMacros = macros.dup
	@list.each {
	\| item \|
	if item.is_a? Macro
	myMacros[item.name] = item
	end
	}
	newList = []
	@list.each {
	\| item \|
	if item.is_a? Macro
	# Ignore.
	elsif item.is_a? MacroCall
	mapping = {}
	myMyMacros = myMacros.dup
	raise "Could not find macro #{item.name} at #{item.codeOriginString}" unless myMacros[item.name]
	raise "Argument count mismatch for call to #{item.name} at #{item.codeOriginString}" unless item.operands.size == myMacros[item.name].variables.size
	item.operands.size.times {
	\| idx \|
	if item.operands[idx].is_a? Variable and myMacros[item.operands[idx].name]
	myMyMacros[myMacros[item.name].variables[idx].name] = myMacros[item.operands[idx].name]
	mapping[myMacros[item.name].variables[idx].name] = nil
	elsif item.operands[idx].is_a? Macro
	myMyMacros[myMacros[item.name].variables[idx].name] = item.operands[idx]
	mapping[myMacros[item.name].variables[idx].name] = nil
	else
	myMyMacros[myMacros[item.name].variables[idx]] = nil
	mapping[myMacros[item.name].variables[idx]] = item.operands[idx]
	end
	}
	if item.annotation
	newList << Instruction.new(item.codeOrigin, "localAnnotation", [], item.annotation)
	end
	newList += myMacros[item.name].body.substitute(mapping).demacroify(myMyMacros).renameLabels(item.name).list
	else
	newList << item.demacroify(myMacros)
	end
	}
	Sequence.new(codeOrigin, newList).substitute({})
	end
	end

	#
	# node.resolveOffsets(offsets, sizes)
	#
	# Construct a new AST that has offset values instead of symbolic
	# offsets.
	#

	class Node
	def resolveOffsets(offsets, sizes)
	mapChildren {
	\| child \|
	child.resolveOffsets(offsets, sizes)
	}
	end
	end

	class StructOffset
	def resolveOffsets(offsets, sizes)
	if offsets[self]
	Immediate.new(codeOrigin, offsets[self])
	else
	self
	end
	end
	end

	class Sizeof
	def resolveOffsets(offsets, sizes)
	if sizes[self]
	Immediate.new(codeOrigin, sizes[self])
	else
	puts "Could not find #{self.inspect} in #{sizes.keys.inspect}"
	puts "sizes = #{sizes.inspect}"
	self
	end
	end
	end

	#
	# node.fold
	#
	# Resolve constant references and compute arithmetic expressions.
	#

	class Node
	def fold
	mapChildren {
	\| child \|
	child.fold
	}
	end
	end

	class AddImmediates
	def fold
	@left = @left.fold
	@right = @right.fold
	return self unless @left.is_a? Immediate
	return self unless @right.is_a? Immediate
	Immediate.new(codeOrigin, @left.value + @right.value)
	end
	end

	class SubImmediates
	def fold
	@left = @left.fold
	@right = @right.fold
	return self unless @left.is_a? Immediate
	return self unless @right.is_a? Immediate
	Immediate.new(codeOrigin, @left.value - @right.value)
	end
	end

	class MulImmediates
	def fold
	@left = @left.fold
	@right = @right.fold
	return self unless @left.is_a? Immediate
	return self unless @right.is_a? Immediate
	Immediate.new(codeOrigin, @left.value * @right.value)
	end
	end

	class NegImmediate
	def fold
	@child = @child.fold
	return self unless @child.is_a? Immediate
	Immediate.new(codeOrigin, -@child.value)
	end
	end

	class OrImmediates
	def fold
	@left = @left.fold
	@right = @right.fold
	return self unless @left.is_a? Immediate
	return self unless @right.is_a? Immediate
	Immediate.new(codeOrigin, @left.value \| @right.value)
	end
	end

	class AndImmediates
	def fold
	@left = @left.fold
	@right = @right.fold
	return self unless @left.is_a? Immediate
	return self unless @right.is_a? Immediate
	Immediate.new(codeOrigin, @left.value & @right.value)
	end
	end

	class XorImmediates
	def fold
	@left = @left.fold
	@right = @right.fold
	return self unless @left.is_a? Immediate
	return self unless @right.is_a? Immediate
	Immediate.new(codeOrigin, @left.value ^ @right.value)
	end
	end

	class BitnotImmediate
	def fold
	@child = @child.fold
	return self unless @child.is_a? Immediate
	Immediate.new(codeOrigin, ~@child.value)
	end
	end

	#
	# node.resolveAfterSettings(offsets, sizes)
	#
	# Compile assembly against a set of offsets.
	#

	class Node
	def resolve(offsets, sizes)
	demacroify({}).resolveOffsets(offsets, sizes).fold
	end
	end

	#
	# node.validate
	#
	# Checks that the node is ready for backend compilation.
	#

	class Node
	def validate
	raise "Unresolved #{dump} at #{codeOriginString}"
	end

	def validateChildren
	children.each {
	\| node \|
	node.validate
	}
	end
	end

	class Sequence
	def validate
	validateChildren
	end
	end

	class Immediate
	def validate
	end
	end

	class RegisterID
	def validate
	end
	end

	class FPRegisterID
	def validate
	end
	end

	class Address
	def validate
	validateChildren
	end
	end

	class BaseIndex
	def validate
	validateChildren
	end
	end

	class AbsoluteAddress
	def validate
	validateChildren
	end
	end

	class Instruction
	def validate
	validateChildren
	end
	end

	class Error
	def validate
	end
	end

	class Label
	def validate
	end
	end

	class LocalLabel
	def validate
	end
	end

	class LabelReference
	def validate
	end
	end

	class LocalLabelReference
	def validate
	end
	end

	class Skip
	def validate
	end
	end