starlark/testdata/set.star - platform/external/starlark-go - Git at Google

 # Tests of Starlark 'set'
 # option:set

 # Sets are not a standard part of Starlark, so the features
 # tested in this file must be enabled in the application by setting
 # resolve.AllowSet.  (All sets are created by calls to the 'set'
 # built-in or derived from operations on existing sets.)
 # The semantics are subject to change as the spec evolves.

 # TODO(adonovan): support set mutation:
 # - del set[k]
 # - set.remove
 # - set.update
 # - set.clear
 # - set += iterable, perhaps?
 # Test iterator invalidation.

 load("assert.star", "assert")

 # literals
 # Parser does not currently support {1, 2, 3}.
 # TODO(adonovan): add test to syntax/testdata/errors.star.

 # set comprehensions
 # Parser does not currently support {x for x in y}.
 # See syntax/testdata/errors.star.

 # set constructor
 assert.eq(type(set()), "set")
 assert.eq(list(set()), [])
 assert.eq(type(set([1, 3, 2, 3])), "set")
 assert.eq(list(set([1, 3, 2, 3])), [1, 3, 2])
 assert.eq(type(set("hello".elems())), "set")
 assert.eq(list(set("hello".elems())), ["h", "e", "l", "o"])
 assert.eq(list(set(range(3))), [0, 1, 2])
 assert.fails(lambda : set(1), "got int, want iterable")
 assert.fails(lambda : set(1, 2, 3), "got 3 arguments")
 assert.fails(lambda : set([1, 2, {}]), "unhashable type: dict")

 # truth
 assert.true(not set())
 assert.true(set([False]))
 assert.true(set([1, 2, 3]))

 x = set([1, 2, 3])
 y = set([3, 4, 5])

 # set + any is not defined
 assert.fails(lambda : x + y, "unknown.*: set \\+ set")

 # set | set (use resolve.AllowBitwise to enable it)
 assert.eq(list(set("a".elems()) | set("b".elems())), ["a", "b"])
 assert.eq(list(set("ab".elems()) | set("bc".elems())), ["a", "b", "c"])
 assert.fails(lambda : set() | [], "unknown binary op: set | list")
 assert.eq(type(x | y), "set")
 assert.eq(list(x | y), [1, 2, 3, 4, 5])
 assert.eq(list(x | set([5, 1])), [1, 2, 3, 5])
 assert.eq(list(x | set((6, 5, 4))), [1, 2, 3, 6, 5, 4])

 # set.union (allows any iterable for right operand)
 assert.eq(list(set("a".elems()).union("b".elems())), ["a", "b"])
 assert.eq(list(set("ab".elems()).union("bc".elems())), ["a", "b", "c"])
 assert.eq(set().union([]), set())
 assert.eq(type(x.union(y)), "set")
 assert.eq(list(x.union(y)), [1, 2, 3, 4, 5])
 assert.eq(list(x.union([5, 1])), [1, 2, 3, 5])
 assert.eq(list(x.union((6, 5, 4))), [1, 2, 3, 6, 5, 4])
 assert.fails(lambda : x.union([1, 2, {}]), "unhashable type: dict")

 # intersection, set & set (use resolve.AllowBitwise to enable it)
 assert.eq(list(set("a".elems()) & set("b".elems())), [])
 assert.eq(list(set("ab".elems()) & set("bc".elems())), ["b"])

 # symmetric difference, set ^ set (use resolve.AllowBitwise to enable it)
 assert.eq(set([1, 2, 3]) ^ set([4, 5, 3]), set([1, 2, 4, 5]))

 def test_set_augmented_assign():
     x = set([1, 2, 3])
     x &= set([2, 3])
     assert.eq(x, set([2, 3]))
     x |= set([1])
     assert.eq(x, set([1, 2, 3]))
     x ^= set([4, 5, 3])
     assert.eq(x, set([1, 2, 4, 5]))

 test_set_augmented_assign()

 # len
 assert.eq(len(x), 3)
 assert.eq(len(y), 3)
 assert.eq(len(x | y), 5)

 # str
 assert.eq(str(set([1])), "set([1])")
 assert.eq(str(set([2, 3])), "set([2, 3])")
 assert.eq(str(set([3, 2])), "set([3, 2])")

 # comparison
 assert.eq(x, x)
 assert.eq(y, y)
 assert.true(x != y)
 assert.eq(set([1, 2, 3]), set([3, 2, 1]))
 assert.fails(lambda : x < y, "set < set not implemented")

 # iteration
 assert.true(type([elem for elem in x]), "list")
 assert.true(list([elem for elem in x]), [1, 2, 3])

 def iter():
     list = []
     for elem in x:
         list.append(elem)
     return list

 assert.eq(iter(), [1, 2, 3])

 # sets are not indexable
 assert.fails(lambda : x[0], "unhandled.*operation")
	# Tests of Starlark 'set'
	# option:set

	# Sets are not a standard part of Starlark, so the features
	# tested in this file must be enabled in the application by setting
	# resolve.AllowSet. (All sets are created by calls to the 'set'
	# built-in or derived from operations on existing sets.)
	# The semantics are subject to change as the spec evolves.

	# TODO(adonovan): support set mutation:
	# - del set[k]
	# - set.remove
	# - set.update
	# - set.clear
	# - set += iterable, perhaps?
	# Test iterator invalidation.

	load("assert.star", "assert")

	# literals
	# Parser does not currently support {1, 2, 3}.
	# TODO(adonovan): add test to syntax/testdata/errors.star.

	# set comprehensions
	# Parser does not currently support {x for x in y}.
	# See syntax/testdata/errors.star.

	# set constructor
	assert.eq(type(set()), "set")
	assert.eq(list(set()), [])
	assert.eq(type(set([1, 3, 2, 3])), "set")
	assert.eq(list(set([1, 3, 2, 3])), [1, 3, 2])
	assert.eq(type(set("hello".elems())), "set")
	assert.eq(list(set("hello".elems())), ["h", "e", "l", "o"])
	assert.eq(list(set(range(3))), [0, 1, 2])
	assert.fails(lambda : set(1), "got int, want iterable")
	assert.fails(lambda : set(1, 2, 3), "got 3 arguments")
	assert.fails(lambda : set([1, 2, {}]), "unhashable type: dict")

	# truth
	assert.true(not set())
	assert.true(set([False]))
	assert.true(set([1, 2, 3]))

	x = set([1, 2, 3])
	y = set([3, 4, 5])

	# set + any is not defined
	assert.fails(lambda : x + y, "unknown.*: set \\+ set")

	# set \| set (use resolve.AllowBitwise to enable it)
	assert.eq(list(set("a".elems()) \| set("b".elems())), ["a", "b"])
	assert.eq(list(set("ab".elems()) \| set("bc".elems())), ["a", "b", "c"])
	assert.fails(lambda : set() \| [], "unknown binary op: set \| list")
	assert.eq(type(x \| y), "set")
	assert.eq(list(x \| y), [1, 2, 3, 4, 5])
	assert.eq(list(x \| set([5, 1])), [1, 2, 3, 5])
	assert.eq(list(x \| set((6, 5, 4))), [1, 2, 3, 6, 5, 4])

	# set.union (allows any iterable for right operand)
	assert.eq(list(set("a".elems()).union("b".elems())), ["a", "b"])
	assert.eq(list(set("ab".elems()).union("bc".elems())), ["a", "b", "c"])
	assert.eq(set().union([]), set())
	assert.eq(type(x.union(y)), "set")
	assert.eq(list(x.union(y)), [1, 2, 3, 4, 5])
	assert.eq(list(x.union([5, 1])), [1, 2, 3, 5])
	assert.eq(list(x.union((6, 5, 4))), [1, 2, 3, 6, 5, 4])
	assert.fails(lambda : x.union([1, 2, {}]), "unhashable type: dict")

	# intersection, set & set (use resolve.AllowBitwise to enable it)
	assert.eq(list(set("a".elems()) & set("b".elems())), [])
	assert.eq(list(set("ab".elems()) & set("bc".elems())), ["b"])

	# symmetric difference, set ^ set (use resolve.AllowBitwise to enable it)
	assert.eq(set([1, 2, 3]) ^ set([4, 5, 3]), set([1, 2, 4, 5]))

	def test_set_augmented_assign():
	x = set([1, 2, 3])
	x &= set([2, 3])
	assert.eq(x, set([2, 3]))
	x \|= set([1])
	assert.eq(x, set([1, 2, 3]))
	x ^= set([4, 5, 3])
	assert.eq(x, set([1, 2, 4, 5]))

	test_set_augmented_assign()

	# len
	assert.eq(len(x), 3)
	assert.eq(len(y), 3)
	assert.eq(len(x \| y), 5)

	# str
	assert.eq(str(set([1])), "set([1])")
	assert.eq(str(set([2, 3])), "set([2, 3])")
	assert.eq(str(set([3, 2])), "set([3, 2])")

	# comparison
	assert.eq(x, x)
	assert.eq(y, y)
	assert.true(x != y)
	assert.eq(set([1, 2, 3]), set([3, 2, 1]))
	assert.fails(lambda : x < y, "set < set not implemented")

	# iteration
	assert.true(type([elem for elem in x]), "list")
	assert.true(list([elem for elem in x]), [1, 2, 3])

	def iter():
	list = []
	for elem in x:
	list.append(elem)
	return list

	assert.eq(iter(), [1, 2, 3])

	# sets are not indexable
	assert.fails(lambda : x[0], "unhandled.*operation")