Datasets:

Fraser
/

dream-coder

Languages:

English

Tags:

program-synthesis

License:

Dataset card Viewer Files Files and versions Community

dream-coder / dreamcoder /fragmentUtilities.py

Fraser-Greenlee

add dataset code

3bdb76c over 2 years ago

raw history blame contribute delete

No virus

13.7 kB

	from dreamcoder.type import *
	from dreamcoder.program import *
	from dreamcoder.frontier import *

	from collections import Counter


	class MatchFailure(Exception):
	pass


	class Matcher(object):
	def __init__(self, context):
	self.context = context
	self.variableBindings = {}

	@staticmethod
	def match(context, fragment, expression, numberOfArguments):
	if not mightMatch(fragment, expression):
	raise MatchFailure()
	m = Matcher(context)
	tp = fragment.visit(m, expression, [], numberOfArguments)
	return m.context, tp, m.variableBindings

	def application(
	self,
	fragment,
	expression,
	environment,
	numberOfArguments):
	'''returns tp of fragment.'''
	if not isinstance(expression, Application):
	raise MatchFailure()

	ft = fragment.f.visit(
	self,
	expression.f,
	environment,
	numberOfArguments + 1)
	xt = fragment.x.visit(self, expression.x, environment, 0)

	self.context, returnType = self.context.makeVariable()
	try:
	self.context = self.context.unify(ft, arrow(xt, returnType))
	except UnificationFailure:
	raise MatchFailure()

	return returnType.apply(self.context)

	def index(self, fragment, expression, environment, numberOfArguments):
	# This is a bound variable
	surroundingAbstractions = len(environment)
	if fragment.bound(surroundingAbstractions):
	if expression == fragment:
	return environment[fragment.i].apply(self.context)
	else:
	raise MatchFailure()

	# This is a free variable
	i = fragment.i - surroundingAbstractions

	# Make sure that it doesn't refer to anything bound by a
	# lambda in the fragment. Otherwise it cannot be safely lifted
	# out of the fragment and preserve semantics
	for fv in expression.freeVariables():
	if fv < len(environment):
	raise MatchFailure()

	# The value is going to be lifted out of the fragment
	try:
	expression = expression.shift(-surroundingAbstractions)
	except ShiftFailure:
	raise MatchFailure()

	# Wrap it in the appropriate number of lambda expressions & applications
	# This is because everything has to be in eta-longform
	if numberOfArguments > 0:
	expression = expression.shift(numberOfArguments)
	for j in reversed(range(numberOfArguments)):
	expression = Application(expression, Index(j))
	for _ in range(numberOfArguments):
	expression = Abstraction(expression)

	# Added to the bindings
	if i in self.variableBindings:
	(tp, binding) = self.variableBindings[i]
	if binding != expression:
	raise MatchFailure()
	else:
	self.context, tp = self.context.makeVariable()
	self.variableBindings[i] = (tp, expression)
	return tp

	def abstraction(
	self,
	fragment,
	expression,
	environment,
	numberOfArguments):
	if not isinstance(expression, Abstraction):
	raise MatchFailure()

	self.context, argumentType = self.context.makeVariable()
	returnType = fragment.body.visit(
	self, expression.body, [argumentType] + environment, 0)

	return arrow(argumentType, returnType)

	def primitive(self, fragment, expression, environment, numberOfArguments):
	if fragment != expression:
	raise MatchFailure()
	self.context, tp = fragment.tp.instantiate(self.context)
	return tp

	def invented(self, fragment, expression, environment, numberOfArguments):
	if fragment != expression:
	raise MatchFailure()
	self.context, tp = fragment.tp.instantiate(self.context)
	return tp

	def fragmentVariable(
	self,
	fragment,
	expression,
	environment,
	numberOfArguments):
	raise Exception(
	'Deprecated: matching against fragment variables. Convert fragment to canonical form to get rid of fragment variables.')


	def mightMatch(f, e, d=0):
	'''Checks whether fragment f might be able to match against expression e'''
	if f.isIndex:
	if f.bound(d):
	return f == e
	return True
	if f.isPrimitive or f.isInvented:
	return f == e
	if f.isAbstraction:
	return e.isAbstraction and mightMatch(f.body, e.body, d + 1)
	if f.isApplication:
	return e.isApplication and mightMatch(
	f.x, e.x, d) and mightMatch(
	f.f, e.f, d)
	assert False


	def canonicalFragment(expression):
	'''
	Puts a fragment into a canonical form:
	1. removes all FragmentVariable's
	2. renames all free variables based on depth first traversal
	'''
	return expression.visit(CanonicalVisitor(), 0)


	class CanonicalVisitor(object):
	def __init__(self):
	self.numberOfAbstractions = 0
	self.mapping = {}

	def fragmentVariable(self, e, d):
	self.numberOfAbstractions += 1
	return Index(self.numberOfAbstractions + d - 1)

	def primitive(self, e, d): return e

	def invented(self, e, d): return e

	def application(self, e, d):
	return Application(e.f.visit(self, d), e.x.visit(self, d))

	def abstraction(self, e, d):
	return Abstraction(e.body.visit(self, d + 1))

	def index(self, e, d):
	if e.bound(d):
	return e
	i = e.i - d
	if i in self.mapping:
	return Index(d + self.mapping[i])
	self.mapping[i] = self.numberOfAbstractions
	self.numberOfAbstractions += 1
	return Index(self.numberOfAbstractions - 1 + d)


	def fragmentSize(f, boundVariableCost=0.1, freeVariableCost=0.01):
	freeVariables = 0
	leaves = 0
	boundVariables = 0
	for surroundingAbstractions, e in f.walk():
	if isinstance(e, (Primitive, Invented)):
	leaves += 1
	if isinstance(e, Index):
	if e.bound(surroundingAbstractions):
	boundVariables += 1
	else:
	freeVariables += 1
	assert not isinstance(e, FragmentVariable)
	return leaves + boundVariableCost * \
	boundVariables + freeVariableCost * freeVariables


	def primitiveSize(e):
	if e.isInvented:
	e = e.body
	return fragmentSize(e)


	def defragment(expression):
	'''Converts a fragment into an invented primitive'''
	if isinstance(expression, (Primitive, Invented)):
	return expression

	expression = canonicalFragment(expression)

	for _ in range(expression.numberOfFreeVariables):
	expression = Abstraction(expression)

	return Invented(expression)


	class RewriteFragments(object):
	def __init__(self, fragment):
	self.fragment = fragment
	self.concrete = defragment(fragment)

	def tryRewrite(self, e, numberOfArguments):
	try:
	context, t, bindings = Matcher.match(
	Context.EMPTY, self.fragment, e, numberOfArguments)
	except MatchFailure:
	return None

	assert frozenset(bindings.keys()) == frozenset(range(len(bindings))),\
	"Perhaps the fragment is not in canonical form?"
	e = self.concrete
	for j in range(len(bindings) - 1, -1, -1):
	_, b = bindings[j]
	e = Application(e, b)
	return e

	def application(self, e, numberOfArguments):
	e = Application(e.f.visit(self, numberOfArguments + 1),
	e.x.visit(self, 0))
	return self.tryRewrite(e, numberOfArguments) or e

	def index(self, e, numberOfArguments): return e

	def invented(self, e, numberOfArguments): return e

	def primitive(self, e, numberOfArguments): return e

	def abstraction(self, e, numberOfArguments):
	e = Abstraction(e.body.visit(self, 0))
	return self.tryRewrite(e, numberOfArguments) or e

	def rewrite(self, e): return e.visit(self, 0)

	@staticmethod
	def rewriteFrontier(frontier, fragment):
	worker = RewriteFragments(fragment)
	return Frontier([FrontierEntry(program=worker.rewrite(e.program),
	logLikelihood=e.logLikelihood,
	logPrior=e.logPrior,
	logPosterior=e.logPosterior)
	for e in frontier],
	task=frontier.task)


	def proposeFragmentsFromFragment(f):
	'''Abstracts out repeated structure within a single fragment'''
	yield f
	freeVariables = f.numberOfFreeVariables
	closedSubtrees = Counter(
	subtree for _,
	subtree in f.walk() if not isinstance(
	subtree,
	Index) and subtree.closed)
	del closedSubtrees[f]
	for subtree, freq in closedSubtrees.items():
	if freq < 2:
	continue
	yield canonicalFragment(f.substitute(subtree, Index(freeVariables)))


	def nontrivial(f):
	if not isinstance(f, Application):
	return False
	# Curry
	if isinstance(f.x, FragmentVariable):
	return False
	if isinstance(f.x, Index):
	# Make sure that the index is used somewhere else
	if not any(
	isinstance(
	child,
	Index) and child.i -
	surroundingAbstractions == f.x.i for surroundingAbstractions,
	child in f.f.walk()):
	return False

	numberOfHoles = 0
	numberOfVariables = 0
	numberOfPrimitives = 0
	for surroundingAbstractions, child in f.walk():
	if isinstance(child, (Primitive, Invented)):
	numberOfPrimitives += 1
	if isinstance(child, FragmentVariable):
	numberOfHoles += 1
	if isinstance(child, Index) and child.free(surroundingAbstractions):
	numberOfVariables += 1
	#eprint("Fragment %s has %d calls and %d variables and %d primitives"%(f,numberOfHoles,numberOfVariables,numberOfPrimitives))

	return numberOfPrimitives + 0.5 * \
	(numberOfHoles + numberOfVariables) > 1.5 and numberOfPrimitives >= 1


	def violatesLaziness(fragment):
	"""
	conditionals are lazy on the second and third arguments. this
	invariant must be maintained by learned fragments.
	"""
	for surroundingAbstractions, child in fragment.walkUncurried():
	if not child.isApplication:
	continue
	f, xs = child.applicationParse()
	if not (f.isPrimitive and f.name == "if"):
	continue

	# curried conditionals always violate laziness
	if len(xs) != 3:
	return True

	# yes/no branches
	y = xs[1]
	n = xs[2]

	return \
	any(yc.isIndex and yc.i >= yd
	for yd, yc in y.walk(surroundingAbstractions)) or \
	any(nc.isIndex and nc.i >= nd
	for nd, nc in n.walk(surroundingAbstractions))

	return False


	def proposeFragmentsFromProgram(p, arity):

	def fragment(expression, a, toplevel=True):
	"""Generates fragments that unify with expression"""

	if a == 1:
	yield FragmentVariable.single
	if a == 0:
	yield expression
	return

	if isinstance(expression, Abstraction):
	# Symmetry breaking: (\x \y \z ... f(x,y,z,...)) defragments to be
	# the same as f(x,y,z,...)
	if not toplevel:
	for b in fragment(expression.body, a, toplevel=False):
	yield Abstraction(b)
	elif isinstance(expression, Application):
	for fa in range(a + 1):
	for f in fragment(expression.f, fa, toplevel=False):
	for x in fragment(expression.x, a - fa, toplevel=False):
	yield Application(f, x)
	else:
	assert isinstance(expression, (Invented, Primitive, Index))

	def fragments(expression, a):
	"""Generates fragments that unify with subexpressions of expression"""

	yield from fragment(expression, a)
	if isinstance(expression, Application):
	curry = True
	if curry:
	yield from fragments(expression.f, a)
	yield from fragments(expression.x, a)
	else:
	# Pretend that it is not curried
	function, arguments = expression.applicationParse()
	yield from fragments(function, a)
	for argument in arguments:
	yield from fragments(argument, a)
	elif isinstance(expression, Abstraction):
	yield from fragments(expression.body, a)
	else:
	assert isinstance(expression, (Invented, Primitive, Index))

	return {canonicalFragment(f) for b in range(arity + 1)
	for f in fragments(p, b) if nontrivial(f)}


	def proposeFragmentsFromFrontiers(frontiers, a, CPUs=1):
	fragmentsFromEachFrontier = parallelMap(
	CPUs, lambda frontier: {
	fp for entry in frontier.entries for f in proposeFragmentsFromProgram(
	entry.program, a) for fp in proposeFragmentsFromFragment(f)}, frontiers)
	allFragments = Counter(f for frontierFragments in fragmentsFromEachFrontier
	for f in frontierFragments)
	return [fragment for fragment, frequency in allFragments.items()
	if frequency >= 2 and fragment.wellTyped() and nontrivial(fragment)]