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-- @atlcompiler emftvm
-- @nsURI EMFTVM=http://www.eclipse.org/m2m/atl/2011/EMFTVM
-- @path ATL=/org.eclipse.m2m.atl.common/model/ATL.ecore
-- @path Problem=/org.eclipse.m2m.atl.common/model/Problem.ecore
-- @lib OCLtoEMFTVM=/org.eclipse.m2m.atl.emftvm.compiler/transformations/OCLtoEMFTVM.atl
-- @lib ATLSearchPlan=/org.eclipse.m2m.atl.emftvm.compiler/transformations/ATLSearchPlan.atl
-- @lib Annotations=/org.eclipse.m2m.atl.emftvm.compiler/transformations/Annotations.atl
-- Transforms ATL modules into EMFTVM modules
module ATLtoEMFTVM;

create OUT : EMFTVM, PBS : Problem from IN : ATL;

uses OCLtoEMFTVM;
uses ATLSearchPlan;
uses Annotations;

-- ======================================================================
-- helpers begin
-- ======================================================================

--- All called rules are considered static. Returns 'true'.
helper context ATL!CalledRule def : isStatic : String =
	true;

--- Returns the model in which the output element will be generated.
helper context ATL!OutPatternElement def : outModel : ATL!OclModel =
	if self.model.oclIsUndefined() then
		let modelName : String = self.type.modelName in
		self.outPattern."rule"."module".outModels
		->select(m|modelName = m.metamodel.name)
		->first()
	else
		self.model
	endif;

--- Returns the default input element for a matched rule (first element).
helper context ATL!MatchedRule def : defaultInElement : ATL!InPatternElement =
	self.inPattern.elements->first();

--- Returns the default input element for a rule ('OclUndefined').
helper context ATL!Rule def : defaultInElement : ATL!InPatternElement =
	OclUndefined;

--- Returns the EMFTVM local variable element that represents the given ATL variable expression.
helper context ATL!VariableExp def : localVariable() : EMFTVM!LocalVariable =
	let var : ATL!VariableDeclaration = self.referredVariable in
	if var.isMatchedRuleElement then
		let realVar : ATL!VariableDeclaration = 
			if var.isRefiningElement then
				var.actualSourceElement
			else
				var
			endif
		in
		if self.isInApply then
			thisModule.resolveTemp(realVar, 'ov')
		else if self.isInPostApply then
			thisModule.resolveTemp(realVar, 'pv')
		else
			thisModule.resolveTemp(realVar, 'lv')
		endif endif
	else
		thisModule.resolveTemp(var, 'lv')
	endif;

--- Returns 'true' if self is part of a matched rule.
helper context ATL!VariableDeclaration def : isMatchedRuleElement : Boolean =
	if self.oclIsKindOf(ATL!PatternElement) or self.oclIsKindOf(ATL!RuleVariableDeclaration) then
		self.parentRule.oclIsKindOf(ATL!MatchedRule)
	else false endif;

--- Returns 'true' if self is part of a matched rule.
helper context ATL!RuleVariableDeclaration def : isMatchedRuleField : Boolean =
	self.parentRule.oclIsKindOf(ATL!MatchedRule);

--- Returns the containing ATL rule, or self (with error message).
helper context OclAny def : parentRule : ATL!Rule =
	let parent : OclAny = self.refImmediateComposite() in
	if parent.oclIsKindOf(ATL!Rule) then parent
	else if not parent.oclIsUndefined() then parent.parentRule
	else self.debug('parent rule not found for')
	endif endif;

--- Returns the EMFTVM trace element local variable for the given ATL variable expression.
helper context ATL!VariableExp def : traceVariable() : EMFTVM!LocalVariable =
	let var : ATL!VariableDeclaration = self.referredVariable in
	if var.oclIsKindOf(ATL!RuleVariableDeclaration) then
		let r : ATL!Rule = var."rule" in
		if self.isInApply then
			thisModule.resolveTemp(r, 'a_trace')
		else if self.isInPostApply then
			thisModule.resolveTemp(r, 'p_trace')
		else
			OclUndefined.debug('Cannot access trace local variable from outside apply or post-apply')
		endif endif
	else
		OclUndefined.debug('Trace local variables can only be retrieved for variable expressions referring to rule variables')
	endif;

--- Returns 'true' if self is contained in the apply section of a rule.
helper context OclAny def : isInApply : Boolean =
	let parent : OclAny = self.refImmediateComposite() in
	if parent.oclIsUndefined() then false
	else if parent.oclIsKindOf(ATL!Binding) then true
	else if parent.oclIsKindOf(ATL!RuleVariableDeclaration) then true
	else parent.isInApply
	endif endif endif;

--- Returns 'true' if self is contained in the postApply section of a rule.
helper context OclAny def : isInPostApply : Boolean =
	let parent : OclAny = self.refImmediateComposite() in
	if parent.oclIsUndefined() then false
	else if parent.oclIsKindOf(ATL!Statement) then true
	else parent.isInPostApply
	endif endif;

--- Returns the source code location representing this rule.
helper context ATL!Rule def : postloc : String =
	if self.actionBlock.oclIsUndefined() then
		self.location
	else
		self.actionBlock.location
	endif;

--- Returns all called rules for this module.
helper context ATL!Module def : calledRules : Sequence(ATL!CalledRule) =
	self.elements->select(e|e.oclIsKindOf(ATL!CalledRule));

--- Returns all output pattern elements for this rule.
helper context ATL!Rule def : outPatternElements : Sequence(ATL!OutPatternElement) =
	if self.outPattern.oclIsUndefined() then
		Sequence{}
	else
		self.outPattern.elements
	endif;

--- Returns the source code location representing the apply section of this rule.
helper context ATL!Rule def : applyLoc : ATL!LocatedElement =
	if self.outPattern.oclIsUndefined() then
		self
	else
		self.outPattern
	endif;

--- Returns 'true' if self is an output model that refines an input model in a refining mode module.
helper context ATL!OclModel def : isRefiningModel : Boolean =
	let p : OclAny = self.refImmediateComposite() in
	p.oclIsKindOf(ATL!Module) and p.isRefining and (
		let outModelsSameType : Sequence(ATL!OclModel) = 
			p.outModels->select(o | o.metamodel.name = self.metamodel.name) in
		outModelsSameType->notEmpty() and
		outModelsSameType->first() = self and
		p.inModels->exists(i | i.metamodel.name = self.metamodel.name)
	);
	
--- Returns 'true' if self is an input model that is refined by an output model in a refining mode module.
helper context ATL!OclModel def : isRefinedModel : Boolean =
	let p : OclAny = self.refImmediateComposite() in
	p.oclIsKindOf(ATL!Module) and p.isRefining and (
		let inModelsSameType : Sequence(ATL!OclModel) = 
			p.inModels->select(i | i.metamodel.name = self.metamodel.name) in
		inModelsSameType->notEmpty() and
		inModelsSameType->first() = self and
		p.outModels->exists(o | o.metamodel.name = self.metamodel.name)
	);
	
--- Returns the input model that self refines, or self.
helper context ATL!OclModel def : refines : ATL!OclModel =
	if self.isRefiningModel then
		let p : OclAny = self.refImmediateComposite() in
		p.inModels->select(m | m.metamodel.name = self.metamodel.name)->first()
	else
		self
	endif;
	
--- Returns the output model that self is refined by, or 'OclUndefined'.
helper context ATL!OclModel def : refinedBy : ATL!OclModel =
	if self.isRefinedModel then
		let p : OclAny = self.refImmediateComposite() in
		p.outModels->select(m | m.metamodel.name = self.metamodel.name)->first()
	else
		OclUndefined
	endif;

--- Returns 'false'.
helper context ATL!VariableDeclaration def : isRefiningElement : Boolean =
	false;

--- Returns 'true' if self is an output element that represents a refined input element.
helper context ATL!OutPatternElement def : isRefiningElement : Boolean =
	self.outModel.isRefiningModel and
	self.outPattern."rule".isRefiningRule and
	(let sourceElement : ATL!InPatternElement = self.actualSourceElement in
	not sourceElement.oclIsUndefined() and sourceElement.type.sameAs(self.type));

--- Returns 'true' if self has an output element that represents a refinement of this input element.
helper context ATL!InPatternElement def : hasRefiningElement : Boolean =
	let r : ATL!Rule = self.inPattern."rule" in
	r.isRefiningRule and
	not r.outPattern.oclIsUndefined() and
	r.outPattern.elements->exists(outElement |
		outElement.outModel.isRefiningModel and
		self = outElement.actualSourceElement and 
		self.type.sameAs(outElement.type)
	);

--- Returns 'OclUndefined'.
helper context ATL!VariableDeclaration def : actualSourceElement : ATL!InPatternElement =
	OclUndefined;

--- Returns the actual source element for self, which is either 's.sourceElement', or the single input element in case self is the first output element.
helper context ATL!OutPatternElement def : actualSourceElement : ATL!InPatternElement =
	if self.sourceElement.oclIsUndefined() then
		if self.outPattern.elements->first() = self then
			let rl : ATL!Rule = self.outPattern."rule" in
			if rl.oclIsKindOf(ATL!MatchedRule) and rl.inPattern.elements->size() = 1 then
				let sourceElement : ATL!InPatternElement = rl.inPattern.elements->first() in
				if sourceElement."mapsTo".oclIsUndefined() then
					sourceElement
				else -- sourceElement already maps to another target element
					OclUndefined
				endif
			else -- input pattern contains less/more than exactly one element
				OclUndefined
			endif
		else -- self is not the first (default) target element
			OclUndefined
		endif
	else
		self.sourceElement
	endif;

--- Returns the actual target element for self, which is either 's.mapsTo', or the first output element in case self is the only input element.
helper context ATL!InPatternElement def : actualMapsToElement : ATL!OutPatternElement =
	if self."mapsTo".oclIsUndefined() then
		if self.inPattern.elements->size() = 1 then
			let rl : ATL!Rule = self.inPattern."rule" in
			if not rl.outPattern.oclIsUndefined() and rl.outPattern.elements->notEmpty() then
				rl.outPattern.elements->first()
			else -- output pattern is empty
				OclUndefined
			endif
		else -- input pattern contains less/more than exactly one element
			OclUndefined
		endif
	else
		self."mapsTo"
	endif;

--- Returns the actual source models for self, which is either 's.models', or the all input/inout models that match the metamodel.
helper context ATL!InPatternElement def : actualModels : Sequence(ATL!OclModel) =
	if self.models.notEmpty() then
		self.models
	else
		self.inPattern."rule"."module".inModels->select(m|m.metamodel.name = self.type.modelName)
	endif;

--- Returns 'true' if this rule generates default traces.
helper context ATL!MatchedRule def : isDefault : Boolean =
	not self.isNoDefault;

--- Returns 'true' if this rule generates default traces.
helper context ATL!LazyMatchedRule def : isDefault : Boolean =
	false;

--- Returns 'true' if this rule behaves as a refining rule.
helper context ATL!Rule def : isRefiningRule : Boolean =
	false;

--- Returns 'true' if this rule behaves as a refining rule.
helper context ATL!MatchedRule def : isRefiningRule : Boolean =
	self.isDefault;

--- Returns 'true' if this rule behaves as a refining rule.
helper context ATL!LazyMatchedRule def : isRefiningRule : Boolean =
	self.isRefining;

-- ======================================================================
-- helpers end
-- ======================================================================

-- ======================================================================
-- matched rules begin
-- ======================================================================

abstract rule Unit {
	from s : ATL!Unit in IN
	to t : EMFTVM!Module (
		name <:= s.name,
		sourceName <:=
			let index : Integer = s.name.lastIndexOf('::') in
			if index > 0 then
				s.name.substring(index + 2, s.name.size()) + '.atl'
			else
				s.name + '.atl'
			endif,
		imports <:= s.libraries->collect(l|l.name)),
	   main : EMFTVM!Operation (
	   	name <:= 'main',
		static <:= true,
		"context" <:= 'ExecEnv',
		contextModel <:= 'EMFTVM',
		type <:= 'Object',
		typeModel <:= '#native')
}

rule Library extends Unit {
	from s : ATL!Library in IN
	to t : EMFTVM!Module (
		features <- s.helpers->collect(h|h.definition)->append(main)),
	   main : EMFTVM!Operation (
	   	body <:= body),
	   body : EMFTVM!CodeBlock
}

rule Query extends Unit {
	from s : ATL!Query in IN
	to t : EMFTVM!Module (
		features <- s.helpers->collect(h|h.definition)->append(main)),
	   main : EMFTVM!Operation (
	   	body <- s.body)
}

rule Module extends Unit {
	from s : ATL!Module in IN
	to t : EMFTVM!Module (
		inputModels <- s.inModels->reject(m | m.isRefinedModel),
		inoutModels <- s.inModels->select(m | m.isRefinedModel),
		outputModels <- s.outModels->reject(m | m.isRefiningModel),
		features <- s.elements->select(e|e.oclIsKindOf(ATL!Helper))->collect(h|h.definition)
			->union(s.elements->select(e|e.oclIsKindOf(ATL!CalledRule)))
			->append(init)->append(main),
		rules <- s.elements->select(e|e.oclIsKindOf(ATL!MatchedRule))),
	   main : EMFTVM!Operation (
	   	body <:= body),
	   body : EMFTVM!CodeBlock (
	   	lineNumbers <:= Sequence{ln}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn), 
	   init : EMFTVM!Operation (
	   	name <:= 'init',
		static <:= true,
		"context" <:= 'ExecEnv',
		contextModel <:= 'EMFTVM',
		type <:= 'Object',
		typeModel <:= '#native',
	   	body <:= initBody),
	   initBody : EMFTVM!CodeBlock (
	   	lineNumbers <:= Sequence{initLn}),
	   initLn : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn) 
}

rule ModuleWithEntryPoint extends Module {
	from s : ATL!Module in IN (
		s.calledRules->exists(r|r.isEntrypoint))
	using {
		entryPointRule : ATL!CalledRule =
			s.calledRules->select(r|r.isEntrypoint)->first();
	}
	to t : EMFTVM!Module,
	   initBody : EMFTVM!CodeBlock (
		code <:= Sequence{getenvtype_entry, invoke_entry}),
	   initLn : EMFTVM!LineNumber (
	   	instructions <:= Sequence{getenvtype_entry, invoke_entry}),
	   getenvtype_entry : EMFTVM!Getenvtype,								-- [..., ExecEnv]
	   invoke_entry : EMFTVM!InvokeStatic (									-- [..., result]
	   	opname <- entryPointRule.name,
		argcount <- 0)
}

rule ModuleWithEndPoint extends Module {
	from s : ATL!Module in IN (
		s.calledRules->exists(r|r.isEndpoint))
	using {
		endPointRule : ATL!CalledRule =
			s.calledRules->select(r|r.isEndpoint)->first();
	}
	to t : EMFTVM!Module,
	   body : EMFTVM!CodeBlock (
		code <:= Sequence{getenvtype_end, invoke_end}),
	   ln : EMFTVM!LineNumber (
	   	instructions <:= Sequence{getenvtype_end, invoke_end}),
	   getenvtype_end : EMFTVM!Getenvtype,									-- [..., ExecEnv]
	   invoke_end : EMFTVM!InvokeStatic (									-- [..., result]
	   	opname <- endPointRule.name,
		argcount <- 0)
}

-- @extends ModuleWithEntryPoint, ModuleWithEndPoint
rule ModuleWithEntryAndEndPoint {
	from s : ATL!Module in IN (
		s.calledRules->exists(r|r.isEntrypoint) and
		s.calledRules->exists(r|r.isEndpoint))
	to t : EMFTVM!Module
}

rule ModelDeclaration {
	from s : ATL!OclModel in IN (not s.metamodel.oclIsUndefined() and not s.isRefiningModel)
	to t : EMFTVM!ModelDeclaration (
		modelName <- s.name,
		metaModelName <- s.metamodel.name)
}

rule InPatternElement {
	from s : ATL!InPatternElement in IN
	to re : EMFTVM!InputRuleElement (
		name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName,
		mapsToSelf <- s.hasRefiningElement,
		models <- s.models->collect(m|m.name)),
	   ov : EMFTVM!LocalVariable (
	   	name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName)
}

rule InPatternElementWithFilter extends InPatternElement {
	from s : ATL!InPatternElement in IN (
		not s.inPattern.filter.oclIsUndefined() and
		not s.inPattern.filter.firstNonBindingExp.oclIsUndefined())
	to re : EMFTVM!InputRuleElement,
	   lv : EMFTVM!LocalVariable (
	   	name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName)
}

rule InPatternElementWithBinding extends InPatternElement {
	from s : ATL!InPatternElement in IN (
		not s.inPattern.filter.oclIsUndefined() and
		s.bindings->notEmpty() and
		s.inPattern."rule".allBindings.containsValue(s))
	using {
		bindingLoc : ATL!LocatedElement = s.bindings->first().bindingSubExp;
	}
	to re : EMFTVM!InputRuleElement (
		binding <- ieb),
	   ieb : EMFTVM!CodeBlock (
	   	lineNumbers <:= Sequence{iebln},
	   	localVariables <- s.inPattern.elements
			->collect(e|thisModule.InPatternElementBindingVariable(s, e)),
	   	nested <- Sequence{bindingLoc},
	   	code <:= Sequence{invokeCb}),
	   iebln : EMFTVM!LineNumber (
	   	startLine <- bindingLoc.startLine,
		startColumn <- bindingLoc.startColumn,
		endLine <- bindingLoc.endLine,
		endColumn <- bindingLoc.endColumn,
	   	instructions <:= Sequence{invokeCb}),
	   invokeCb : EMFTVM!InvokeCb  (codeBlock <- bindingLoc)
}

rule InPatternElementWithAction extends InPatternElement {
	from s : ATL!InPatternElement in IN (
		not s.inPattern."rule".actionBlock.oclIsUndefined())
	to re : EMFTVM!InputRuleElement,
	   pv : EMFTVM!LocalVariable (
	   	name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName)
}

-- @extends InPatternElementWithFilter, InPatternElementWithBinding
rule InPatternElementWithBindingFilter {
	from s : ATL!InPatternElement in IN
	to re : EMFTVM!InputRuleElement
}

-- @extends InPatternElementWithFilter, InPatternElementWithAction
rule InPatternElementWithFilterAndAction {
	from s : ATL!InPatternElement in IN
	to re : EMFTVM!InputRuleElement
}

-- @extends InPatternElementWithBinding, InPatternElementWithAction
rule InPatternElementWithBindingAndAction {
	from s : ATL!InPatternElement in IN
	to re : EMFTVM!InputRuleElement
}

-- @extends InPatternElementWithBindingFilter, InPatternElementWithFilterAndAction, InPatternElementWithBindingAndAction
rule InPatternElementWithBindingFilterAndAction {
	from s : ATL!InPatternElement in IN
	to re : EMFTVM!InputRuleElement
}

rule OutPatternElement {
	from s : ATL!OutPatternElement in IN (
		let r : ATL!Rule = s.outPattern."rule" in
		r.oclIsKindOf(ATL!MatchedRule) and
		not ((r.isDefault or r.isRefining) and s.isRefiningElement))
	using {
		outModel : ATL!OclModel =
			if s.outModel.isRefiningModel then
				s.outModel.refines
			else
				s.outModel
			endif;
	}
	to re : EMFTVM!OutputRuleElement (
		name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName,
		models <- Sequence{outModel.name}),
	   ov : EMFTVM!LocalVariable (
	   	name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName)
}

rule OutPatternElementWithMapsTo extends OutPatternElement {
	from s : ATL!OutPatternElement in IN (
		not s.sourceElement.oclIsUndefined())
	to re : EMFTVM!OutputRuleElement (
		"mapsTo" <- Sequence{thisModule.resolveTemp(s.sourceElement, 're')})
}

rule OutPatternElementWithAction extends OutPatternElement {
	from s : ATL!OutPatternElement in IN (
		not s.outPattern."rule".actionBlock.oclIsUndefined())
	to re : EMFTVM!OutputRuleElement,
	   pv : EMFTVM!LocalVariable (
	   	name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName)
}

-- @extends OutPatternElementWithAction, OutPatternElementWithMapsTo
rule OutPatternElementWithActionAndMapsTo {
	from s : ATL!OutPatternElement in IN
	to re : EMFTVM!OutputRuleElement
}

nodefault rule ForEachOutPatternElement {
	from s : ATL!ForEachOutPatternElement in IN
	to pb : Problem!Problem (
		severity <- #error,
		location <- s.location,
		description <- '"distinct - foreach" output elements not supported in EMFTVM')
}

nodefault rule DropPattern {
	from s : ATL!DropPattern in IN
	to pb : Problem!Problem (
		severity <- #error,
		location <- s.location,
		description <- '"drop" output patterns not supported in EMFTVM - omit the "to" part instead')
}

rule CalledRuleOutPatternElement {
	from s : ATL!OutPatternElement in IN (
		s.outPattern."rule".oclIsKindOf(ATL!CalledRule))
	using {
		outModel : ATL!OclModel =
			if s.outModel.isRefiningModel then
				s.outModel.refines
			else
				s.outModel
			endif;
	}
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		code <:= Sequence{findtype, new, store}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{findtype, new, store}),
	   lv : EMFTVM!LocalVariable (
	   	name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName),
	   findtype : EMFTVM!Findtype (											-- [..., type]
	   	modelname <- s.type.modelName,
		typename <- s.type.typeName),
	   new : EMFTVM!New (modelname <- outModel.name),						-- [..., element]
	   store : EMFTVM!Store (localVariable <- lv)							-- [...]
}

rule CalledRuleVariableDeclaration {
	from s : ATL!RuleVariableDeclaration in IN (s."rule".oclIsKindOf(ATL!CalledRule))
	to lv : EMFTVM!LocalVariable (
		name <- s.varName,
		type <- s.type.typeName,
		typeModel <- s.type.modelName),
	   cb : EMFTVM!CodeBlock (
	   	lineNumbers <:= Sequence{ln},
	   	nested <- Sequence{s.initExpression},
		code <:= Sequence{invokeCb, store}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb, store}),
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.initExpression, argcount <- 0),	-- [..., value]
	   store : EMFTVM!Store (localVariable <- s)									-- [...]
}

rule CalledRule { -- Called rules are really operations
	from s : ATL!CalledRule in IN
	to t : EMFTVM!Operation (
		name <- s.name,
		static <- true,
		"context" <- 'ExecEnv',
		contextModel <- 'EMFTVM',
		type <- 'java.lang.Object',
		typeModel <- '#native',
		parameters <- s.parameters,
		body <- body),
	   body : EMFTVM!CodeBlock (
	   	lineNumbers <:= Sequence{ln},
		localVariables <- s.parameters->collect(p|thisModule.resolveTemp(p, 'lv'))
			->union(s.outPatternElements->collect(p|thisModule.resolveTemp(p, 'lv')))
			->union(s.variables),
		nested <- s.outPatternElements
			->union(s.variables->collect(v|thisModule.resolveTemp(v, 'cb')))
			->union(s.outPatternElements->collect(e|e.bindings)->flatten())
			->union(
				if s.actionBlock.oclIsUndefined() then
					Sequence{}
				else
					s.actionBlock.statements
				endif),
		code <:= Sequence{invokeAllCbs}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeAllCbs}),
	   invokeAllCbs : EMFTVM!InvokeAllCbs									-- [...]
}

rule CalledRuleNamedMain extends CalledRule {
	from s : ATL!CalledRule in IN (s.name = 'main')
	to t : EMFTVM!Operation,
	   pb : Problem!Problem (
		description <- 'Called rules may not be named "main()"',
		location <- s.location,
		severity <- #error)
}

rule MatchedRuleVariableDeclaration {
	from s : ATL!RuleVariableDeclaration in IN (s."rule".oclIsKindOf(ATL!MatchedRule))
	to t : EMFTVM!Field (
		name <- s.varName,
		"context" <- 'TraceLink',
		contextModel <- 'TRACE',
		type <- s.type.typeName,
		typeModel <- s.type.modelName,
		initialiser <- init),
	   init : EMFTVM!CodeBlock, -- Empty initialiser
	   cb : EMFTVM!CodeBlock (
	   	lineNumbers <:= Sequence{ln},
	   	nested <- Sequence{s.initExpression},
		code <:= Sequence{load, invokeCb, set}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{load, invokeCb, set}),
	   load : EMFTVM!Load (localVariable <- thisModule.resolveTemp(s."rule", 'a_trace')),	-- [..., trace]
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.initExpression, argcount <- 0),			-- [..., trace, value]
	   set : EMFTVM!"Set" (fieldname <- s.varName)											-- [...]
}

rule MatchedRule {
	from s : ATL!MatchedRule in IN
	using {
		deletedSourceElements : Sequence(ATL!InPatternElement) =
			s.inPattern.elements->select(e|
				(s.isDefault or s.isRefining) and
				e.actualModels->forAll(m|m.isRefinedModel) and
				(e.actualMapsToElement.oclIsUndefined() or
				not e.actualMapsToElement.isRefiningElement));
		remappedSourceElements : Sequence(ATL!InPatternElement) =
			deletedSourceElements->reject(e|
				e.actualMapsToElement.oclIsUndefined());
	}
	to t : EMFTVM!Rule (
		name <- s.name,
		"abstract" <- s.isAbstract,
		superRules <- 
			if s.superRule.oclIsUndefined() then
				s.extendsAnnValues
			else
				Sequence{s.superRule.name}
			endif,
		outputElements <-
			if s.isDefault or s.isRefining then
				s.outPatternElements->reject(e|e.isRefiningElement)
			else
				s.outPatternElements
			endif,
		mode <- 
			if s.oclIsKindOf(ATL!LazyMatchedRule) then
				#manual
			else if s.isRecursive then
				#automaticRecursive
			else
				#automaticSingle
			endif endif,
		default <- s.isDefault and not s.isRecursive,
		"unique" <- (s.oclIsKindOf(ATL!LazyMatchedRule) and	s.isUnique) or s.isNoDefault,
		distinctElements <- s.isDistinct,
		inputElements <- s.inPattern.elements,
		fields <- s.variables,
		applier <- a),
	   a : EMFTVM!CodeBlock (
	   	lineNumbers <:= Sequence{aln},
	   	localVariables <- Sequence{a_trace}
			->union(s.inPattern.elements->collect(e|thisModule.resolveTemp(e, 'ov')))
			->union(s.outPatternElements->reject(e|e.isRefiningElement)->collect(e|thisModule.resolveTemp(e, 'ov'))),
		nested <- s.variables->collect(v|thisModule.resolveTemp(v, 'cb'))
			->union(s.outPatternElements->collect(e|e.bindings)->flatten())
			->union(remappedSourceElements->collect(e|thisModule.RemapInPatternElement(e)))
			->union(deletedSourceElements->collect(e|thisModule.DeleteInPatternElement(e)))
			->union(
				if not s.oclIsKindOf(ATL!LazyMatchedRule) or s.outPatternElements->isEmpty() then
					Sequence{}
				else
					let e : ATL!OutPatternElement = s.outPatternElements->first() in
					Sequence{thisModule.LoadPatternElement(
						if e.isRefiningElement then
							e.actualSourceElement
						else
							e
						endif
					)}
				endif
			),
	   	code <:= Sequence{a_invokeAllCbs}),
	   aln : EMFTVM!LineNumber (
	   	startLine <- s.applyLoc.startLine,
		startColumn <- s.applyLoc.startColumn,
		endLine <- s.applyLoc.endLine,
		endColumn <- s.applyLoc.endColumn,
		instructions <:= Sequence{a_invokeAllCbs}),
	   a_trace : EMFTVM!LocalVariable (
	   	name <- '__trace__',
		type <- 'TraceLink',
		typeModel <- 'TRACE'),
	   a_invokeAllCbs : EMFTVM!InvokeAllCbs									-- [...]
}

rule MatchedRuleWithFilter extends MatchedRule {
	from s : ATL!MatchedRule in IN (
		not s.inPattern.filter.oclIsUndefined() and
		not s.inPattern.filter.firstNonBindingExp.oclIsUndefined())
	using {
		matchLoc : ATL!LocatedElement = s.inPattern.filter.firstNonBindingExp;
	}
	to t : EMFTVM!Rule (
		matcher <- m),
	   m : EMFTVM!CodeBlock (
	   	lineNumbers <:= Sequence{mln},
	   	localVariables <- s.inPattern.elements->collect(e|thisModule.resolveTemp(e, 'lv')),
	   	nested <- Sequence{matchLoc},
	   	code <:= Sequence{invokeCb}),
	   mln : EMFTVM!LineNumber (
	   	startLine <- matchLoc.startLine,
		startColumn <- matchLoc.startColumn,
		endLine <- matchLoc.endLine,
		endColumn <- matchLoc.endColumn,
	   	instructions <:= Sequence{invokeCb}),
	   invokeCb : EMFTVM!InvokeCb  (codeBlock <- matchLoc)
}

rule MatchedRuleWithAction extends MatchedRule {
	from s : ATL!MatchedRule in IN (
		not s.actionBlock.oclIsUndefined())
	using {
		postLoc : ATL!LocatedElement = s.actionBlock;
	}
	to t : EMFTVM!Rule (
		postApply <- p),
	   p : EMFTVM!CodeBlock (
	   	localVariables <- Sequence{p_trace}
			->union(s.inPattern.elements->collect(e|thisModule.resolveTemp(e, 'pv')))
			->union(s.outPatternElements->reject(e|e.isRefiningElement)->collect(e|thisModule.resolveTemp(e, 'pv'))),
	   	lineNumbers <:= Sequence{pln},
	   	nested <- s.actionBlock.statements,
		code <:= Sequence{p_invokeAllCbs}),
	   p_trace : EMFTVM!LocalVariable (
	   	name <- '__trace__',
	   	type <- 'TraceLink',
		typeModel <- 'TRACE'),
	   pln : EMFTVM!LineNumber (
	   	startLine <- postLoc.startLine,
		startColumn <- postLoc.startColumn,
		endLine <- postLoc.endLine,
		endColumn <- postLoc.endColumn,
		instructions <:= Sequence{p_invokeAllCbs}),
	   p_invokeAllCbs : EMFTVM!InvokeAllCbs									-- [..., value]
}

-- @extends MatchedRuleWithFilter, MatchedRuleWithAction
rule MatchedRuleWithFilterAndAction {
	from s : ATL!MatchedRule in IN
	to t : EMFTVM!Rule
}

nodefault rule RefiningMatchedRule {
	from s : ATL!MatchedRule (s.isRefining and not s.oclIsKindOf(ATL!LazyMatchedRule))
	to pb : Problem!Problem (
		severity <- #warning,
		location <- s.location,
		description <- 'all matched rules are "refining" in refining mode')
}

rule Binding {
	from s : ATL!Binding in IN
	using {
		element : ATL!PatternElement =
			if s.outPatternElement.isRefiningElement then
				s.outPatternElement.actualSourceElement
			else
				s.outPatternElement
			endif;
	}
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.value},
		code <:= Sequence{load, invokeCb, set}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{load, invokeCb, set}),
	   load : EMFTVM!Load (
	   	localVariable <-													-- [..., lv]
			if s.parentRule.oclIsKindOf(ATL!MatchedRule) then
				thisModule.resolveTemp(element, 'ov')
			else
				thisModule.resolveTemp(element, 'lv')
			endif),
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.value, argcount <- 0),	-- [..., lv, value]
	   set : EMFTVM!"Set" (fieldname <- s.propertyName)						-- [...]
}

rule ResolvingBinding extends Binding {
	from s : ATL!Binding in IN (not s.isAssignment)
	to cb : EMFTVM!CodeBlock (
		code <:= Sequence{load, invokeCb, invoke, set}),
	   ln : EMFTVM!LineNumber (
		instructions <:= Sequence{load, invokeCb, invoke, set}),
	   load : EMFTVM!Load,													-- [..., lv]
	   invokeCb : EMFTVM!InvokeCb,											-- [..., lv, value]
	   invoke : EMFTVM!Invoke (opname <- 'resolve', argcount <- 0),			-- [..., lv, rvalue]
	   set : EMFTVM!"Set"													-- [...]
}

-------------- Statements -----------------

rule ExpressionStat {
	from s : ATL!ExpressionStat in IN
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.expression},
		code <:= Sequence{invokeCb}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb}),
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.expression, argcount <- 0)	-- [..., value]
}

rule NonLastExpressionStat extends ExpressionStat {
	from s : ATL!ExpressionStat in IN (
		not s.refImmediateComposite().oclIsKindOf(ATL!ActionBlock) or
		s.refImmediateComposite().statements->last() <> s)
	to cb : EMFTVM!CodeBlock (
		code <:= Sequence{invokeCb, pop}),
	   ln : EMFTVM!LineNumber (
	   	instructions <:= Sequence{invokeCb, pop}),
	   invokeCb : EMFTVM!InvokeCb,											-- [..., value]
	   pop : EMFTVM!Pop														-- [...]
}

abstract rule BindingStat {
	from s : ATL!BindingStat in IN (
		s.source.oclIsKindOf(ATL!NavigationOrAttributeCallExp))
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.source.source, s.value},
		code <:= Sequence{invokeCb, invokeCb2, set}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb, invokeCb2, set}),
	   invokeCb : EMFTVM!InvokeCb (											-- [..., source]
	   	codeBlock <- s.source.source, argcount <- 0),
	   invokeCb2 : EMFTVM!InvokeCb (codeBlock <- s.value, argcount <- 0),	-- [..., source, value]
	   set : EMFTVM!FieldInstruction (fieldname <- s.source.name)			-- [...]
}

rule BindingStatAttribute extends BindingStat {
	from s : ATL!BindingStat in IN (not s.source.isStatic)
	to cb : EMFTVM!CodeBlock,
	   ln : EMFTVM!LineNumber,
	   invokeCb : EMFTVM!InvokeCb,											-- [..., source]
	   invokeCb2 : EMFTVM!InvokeCb,											-- [..., source, value]
	   set : EMFTVM!"Set"													-- [...]
}

rule ResolvingBindingStatAttribute extends BindingStatAttribute {
	from s : ATL!BindingStat in IN (not s.isAssignment)
	to cb : EMFTVM!CodeBlock (
		code <:= Sequence{invokeCb, invokeCb2, invoke, set}),
	   ln : EMFTVM!LineNumber (
		instructions <:= Sequence{invokeCb, invokeCb2, invoke, set}),
	   invokeCb : EMFTVM!InvokeCb,											-- [..., source]
	   invokeCb2 : EMFTVM!InvokeCb,											-- [..., source, value]
	   invoke : EMFTVM!Invoke (opname <- 'resolve', argcount <- 0),			-- [..., source, rvalue]
	   set : EMFTVM!"Set"													-- [...]
}

rule BindingStatStaticAttribute extends BindingStat {
	from s : ATL!BindingStat in IN (s.source.isStatic)
	to cb : EMFTVM!CodeBlock,
	   ln : EMFTVM!LineNumber,
	   invokeCb : EMFTVM!InvokeCb,											-- [..., source]
	   invokeCb2 : EMFTVM!InvokeCb,											-- [..., source, value]
	   set : EMFTVM!SetStatic												-- [...]
}

rule ResolvingBindingStatStaticAttribute extends BindingStatStaticAttribute {
	from s : ATL!BindingStat in IN (not s.isAssignment)
	to cb : EMFTVM!CodeBlock (
		code <:= Sequence{invokeCb, invokeCb2, invoke, set}),
	   ln : EMFTVM!LineNumber (
		instructions <:= Sequence{invokeCb, invokeCb2, invoke, set}),
	   invokeCb : EMFTVM!InvokeCb,											-- [..., source]
	   invokeCb2 : EMFTVM!InvokeCb,											-- [..., source, value]
	   invoke : EMFTVM!Invoke (opname <- 'resolve', argcount <- 0),			-- [..., source, rvalue]
	   set : EMFTVM!SetStatic												-- [...]
}

rule BindingStatVariable {
	from s : ATL!BindingStat in IN (
		s.source.oclIsKindOf(ATL!VariableExp) and
		s.source.referredVariable.varName <> 'thisModule' and
		not s.source.referredVariable.isMatchedRuleField)
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.value},
		code <:= Sequence{invokeCb, store}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb, store}),
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.value, argcount <- 0),	-- [..., value]
	   store : EMFTVM!Store (localVariable <- s.source.referredVariable)	-- [...]
}

rule ResolvingBindingStatVariable extends BindingStatVariable {
	from s : ATL!BindingStat in IN (not s.isAssignment)
	to cb : EMFTVM!CodeBlock (
		code <:= Sequence{invokeCb, invoke, store}),
	   ln : EMFTVM!LineNumber (
		instructions <:= Sequence{invokeCb, invoke, store}),
	   invokeCb : EMFTVM!InvokeCb,											-- [..., value]
	   invoke : EMFTVM!Invoke (opname <- 'resolve', argcount <- 0),			-- [..., rvalue]
	   store : EMFTVM!Store													-- [...]
}

rule BindingStatRuleField {
	from s : ATL!BindingStat in IN (
		s.source.oclIsKindOf(ATL!VariableExp) and
		s.source.referredVariable.isMatchedRuleField)
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.value},
		code <:= Sequence{load, invokeCb, set}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{load, invokeCb, set}),
	   load : EMFTVM!Load (localVariable <- s.source.traceVariable()),		-- [..., trace]
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.value, argcount <- 0),	-- [..., trace, value]
	   set : EMFTVM!"Set" (fieldname <- s.source.referredVariable.varName)	-- [...]
}

rule ResolvingBindingStatRuleField extends BindingStatRuleField {
	from s : ATL!BindingStat in IN (not s.isAssignment)
	to cb : EMFTVM!CodeBlock (
		code <:= Sequence{load, invokeCb, invoke, set}),
	   ln : EMFTVM!LineNumber (
		instructions <:= Sequence{load, invokeCb, invoke, set}),
	   load : EMFTVM!Load,													-- [..., trace]
	   invokeCb : EMFTVM!InvokeCb,											-- [..., trace, value]
	   invoke : EMFTVM!Invoke (opname <- 'resolve', argcount <- 0),			-- [..., trace, rvalue]
	   set : EMFTVM!"Set"													-- [...]
}

abstract rule IfStat {
	from s : ATL!IfStat in IN
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn),
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.condition, argcount <- 0)	-- [..., cond]
}

rule IfStatWithThenAndElse extends IfStat {
	from s : ATL!IfStat in IN (s.thenStatements->notEmpty() and s.elseStatements->notEmpty())
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.condition, thenCb, elseCb},
		code <:= Sequence{invokeCb, ifn, invokeThen, goto, invokeElse}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb, ifn, invokeThen, goto, invokeElse}),
	   invokeCb : EMFTVM!InvokeCb,											-- [..., cond]
	   ifn : EMFTVM!Ifn (target <- goto),									-- [...]
	   invokeThen : EMFTVM!InvokeCb (codeBlock <- thenCb, argcount <- 0),	-- [..., result]
	   goto : EMFTVM!Goto (target <- invokeElse),							-- [..., result]
	   invokeElse : EMFTVM!InvokeCb (codeBlock <- elseCb, argcount <- 0),	-- [..., result]
	   thenCb : EMFTVM!CodeBlock (
	   	nested <- s.thenStatements,
		code <:= Sequence{invokeAllCbs}),
	   invokeAllCbs : EMFTVM!InvokeAllCbs (argcount <- 0),
	   elseCb : EMFTVM!CodeBlock (
	   	nested <- s.elseStatements,
		code <:= Sequence{invokeAllCbs2}),
	   invokeAllCbs2 : EMFTVM!InvokeAllCbs (argcount <- 0)
}

rule IfStatWithThen extends IfStat {
	from s : ATL!IfStat in IN (s.thenStatements->notEmpty() and s.elseStatements->isEmpty())
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.condition, thenCb},
		code <:= Sequence{invokeCb, ifn, invokeThen}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb, ifn, invokeThen}),
	   invokeCb : EMFTVM!InvokeCb,											-- [..., cond]
	   ifn : EMFTVM!Ifn (target <- invokeThen),								-- [...]
	   invokeThen : EMFTVM!InvokeCb (codeBlock <- thenCb, argcount <- 0),	-- [..., result]
	   thenCb : EMFTVM!CodeBlock (
	   	nested <- s.thenStatements,
		code <:= Sequence{invokeAllCbs}),
	   invokeAllCbs : EMFTVM!InvokeAllCbs (argcount <- 0)
}

rule IfStatWithElse extends IfStat {
	from s : ATL!IfStat in IN (s.thenStatements->isEmpty() and s.elseStatements->notEmpty())
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.condition, elseCb},
		code <:= Sequence{invokeCb, ift, invokeElse}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb, ift, invokeElse}),
	   invokeCb : EMFTVM!InvokeCb,											-- [..., cond]
	   ift : EMFTVM!If (target <- invokeElse),								-- [...]
	   invokeElse : EMFTVM!InvokeCb (codeBlock <- elseCb, argcount <- 0),	-- [..., result]
	   elseCb : EMFTVM!CodeBlock (
	   	nested <- s.elseStatements,
		code <:= Sequence{invokeAllCbs2}),
	   invokeAllCbs2 : EMFTVM!InvokeAllCbs (argcount <- 0)
}

rule IfStatWithNothing extends IfStat {
	from s : ATL!IfStat in IN (s.thenStatements->isEmpty() and s.elseStatements->isEmpty())
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.condition},
		code <:= Sequence{invokeCb, pop}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb, pop}),
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.condition, argcount <- 0),	-- [..., cond]
	   pop : EMFTVM!Pop 														-- [...]
}

rule ForStat {
	from s : ATL!ForStat in IN
	to cb : EMFTVM!CodeBlock (
		localVariables <- Sequence{s.iterator},
		lineNumbers <:= Sequence{ln},
		nested <- Sequence{s.collection, loop},
		code <:= Sequence{invokeCb, it, store, invokeCb2, endit}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{invokeCb, it, store, invokeCb2, endit}),
	   invokeCb : EMFTVM!InvokeCb (codeBlock <- s.collection, argcount <- 0),		-- [..., coll]
	   it : EMFTVM!Iterate (target <- endit),										-- [..., it(coll), value]
	   store : EMFTVM!Store (localVariable <- s.iterator),							-- [..., it(coll)]
	   invokeCb2 : EMFTVM!InvokeCb (codeBlock <- loop),								-- [..., it(coll)]
	   endit : EMFTVM!Enditerate (target <- it),									-- [...]
	   loop : EMFTVM!CodeBlock (
	   	nested <- s.statements,
		code <:= Sequence{invokeAllCbs}),
	   invokeAllCbs : EMFTVM!InvokeAllCbs (argcount <- 0)
}

-- ======================================================================
-- matched rules end
-- ======================================================================

-- ======================================================================
-- lazy rules begin
-- ======================================================================

lazy rule DeleteInPatternElement {
	from s : ATL!InPatternElement
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		code <:= Sequence{load, delete}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{load, delete}),
	   load : EMFTVM!Load (															-- [..., source]
	   	localVariable <- thisModule.resolveTemp(s, 'ov')),
	   delete : EMFTVM!Delete														-- [...]
	do {
		cb;
	}
}

lazy rule RemapInPatternElement {
	from s : ATL!InPatternElement
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		code <:= Sequence{load, load2, invoke, pop}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{load, load2, invoke, pop}),
	   load : EMFTVM!Load (															-- [..., source]
	   	localVariable <- thisModule.resolveTemp(s, 'ov')),
	   load2 : EMFTVM!Load (														-- [..., source, target]
	   	localVariable <- thisModule.resolveTemp(s.actualMapsToElement, 'ov')),
	   invoke : EMFTVM!Invoke (														-- [..., target]
	   	opname <- 'remap',
		argcount <- 1),
	   pop : EMFTVM!Pop																-- [...]
	do {
		cb;
	}
}

lazy rule LoadPatternElement {
	from s : ATL!PatternElement
	to cb : EMFTVM!CodeBlock (
		lineNumbers <:= Sequence{ln},
		code <:= Sequence{load}),
	   ln : EMFTVM!LineNumber (
	   	startLine <:= s.startLine,
		startColumn <:= s.startColumn,
		endLine <:= s.endLine,
		endColumn <:= s.endColumn,
		instructions <:= Sequence{load}),
	   load : EMFTVM!Load (															-- [..., source]
	   	localVariable <- thisModule.resolveTemp(s, 'ov'))
	do {
		cb;
	}
}

-- ======================================================================
-- lazy rules end
-- ======================================================================

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