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

 # Tests of Starlark 'list'

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

 # literals
 assert.eq([], [])
 assert.eq([1], [1])
 assert.eq([1], [1])
 assert.eq([1, 2], [1, 2])
 assert.ne([1, 2, 3], [1, 2, 4])

 # truth
 assert.true([0])
 assert.true(not [])

 # indexing, x[i]
 abc = list("abc".elems())
 assert.fails(lambda: abc[-4], "list index -4 out of range \\[-3:2]")
 assert.eq(abc[-3], "a")
 assert.eq(abc[-2], "b")
 assert.eq(abc[-1], "c")
 assert.eq(abc[0], "a")
 assert.eq(abc[1], "b")
 assert.eq(abc[2], "c")
 assert.fails(lambda: abc[3], "list index 3 out of range \\[-3:2]")

 # x[i] = ...
 x3 = [0, 1, 2]
 x3[1] = 2
 x3[2] += 3
 assert.eq(x3, [0, 2, 5])

 def f2():
     x3[3] = 4

 assert.fails(f2, "out of range")
 freeze(x3)

 def f3():
     x3[0] = 0

 assert.fails(f3, "cannot assign to element of frozen list")
 assert.fails(x3.clear, "cannot clear frozen list")

 # list + list
 assert.eq([1, 2, 3] + [3, 4, 5], [1, 2, 3, 3, 4, 5])
 assert.fails(lambda: [1, 2] + (3, 4), "unknown.*list \\+ tuple")
 assert.fails(lambda: (1, 2) + [3, 4], "unknown.*tuple \\+ list")

 # list * int,  int * list
 assert.eq(abc * 0, [])
 assert.eq(abc * -1, [])
 assert.eq(abc * 1, abc)
 assert.eq(abc * 3, ["a", "b", "c", "a", "b", "c", "a", "b", "c"])
 assert.eq(0 * abc, [])
 assert.eq(-1 * abc, [])
 assert.eq(1 * abc, abc)
 assert.eq(3 * abc, ["a", "b", "c", "a", "b", "c", "a", "b", "c"])

 # list comprehensions
 assert.eq([2 * x for x in [1, 2, 3]], [2, 4, 6])
 assert.eq([2 * x for x in [1, 2, 3] if x > 1], [4, 6])
 assert.eq(
     [(x, y) for x in [1, 2] for y in [3, 4]],
     [(1, 3), (1, 4), (2, 3), (2, 4)],
 )
 assert.eq([(x, y) for x in [1, 2] if x == 2 for y in [3, 4]], [(2, 3), (2, 4)])
 assert.eq([2 * x for x in (1, 2, 3)], [2, 4, 6])
 assert.eq([x for x in "abc".elems()], ["a", "b", "c"])
 assert.eq([x for x in {"a": 1, "b": 2}], ["a", "b"])
 assert.eq([(y, x) for x, y in {1: 2, 3: 4}.items()], [(2, 1), (4, 3)])

 # corner cases of parsing:
 assert.eq([x for x in range(12) if x % 2 == 0 if x % 3 == 0], [0, 6])
 assert.eq([x for x in [1, 2] if lambda: None], [1, 2])
 assert.eq([x for x in [1, 2] if (lambda: 3 if True else 4)], [1, 2])

 # list function
 assert.eq(list(), [])
 assert.eq(list("ab".elems()), ["a", "b"])

 # A list comprehension defines a separate lexical block,
 # whether at top-level...
 a = [1, 2]
 b = [a for a in [3, 4]]
 assert.eq(a, [1, 2])
 assert.eq(b, [3, 4])

 # ...or local to a function.
 def listcompblock():
     c = [1, 2]
     d = [c for c in [3, 4]]
     assert.eq(c, [1, 2])
     assert.eq(d, [3, 4])

 listcompblock()

 # list.pop
 x4 = [1, 2, 3, 4, 5]
 assert.fails(lambda: x4.pop(-6), "index -6 out of range \\[-5:4]")
 assert.fails(lambda: x4.pop(6), "index 6 out of range \\[-5:4]")
 assert.eq(x4.pop(), 5)
 assert.eq(x4, [1, 2, 3, 4])
 assert.eq(x4.pop(1), 2)
 assert.eq(x4, [1, 3, 4])
 assert.eq(x4.pop(0), 1)
 assert.eq(x4, [3, 4])
 assert.eq(x4.pop(-2), 3)
 assert.eq(x4, [4])
 assert.eq(x4.pop(-1), 4)
 assert.eq(x4, [])

 # TODO(adonovan): test uses of list as sequence
 # (for loop, comprehension, library functions).

 # x += y for lists is equivalent to x.extend(y).
 # y may be a sequence.
 # TODO: Test that side-effects of 'x' occur only once.
 def list_extend():
     a = [1, 2, 3]
     b = a
     a = a + [4]  # creates a new list
     assert.eq(a, [1, 2, 3, 4])
     assert.eq(b, [1, 2, 3])  # b is unchanged

     a = [1, 2, 3]
     b = a
     a += [4]  # updates a (and thus b) in place
     assert.eq(a, [1, 2, 3, 4])
     assert.eq(b, [1, 2, 3, 4])  # alias observes the change

     a = [1, 2, 3]
     b = a
     a.extend([4])  # updates existing list
     assert.eq(a, [1, 2, 3, 4])
     assert.eq(b, [1, 2, 3, 4])  # alias observes the change

 list_extend()

 # Unlike list.extend(iterable), list += iterable makes its LHS name local.
 a_list = []

 def f4():
     a_list += [1]  # binding use => a_list is a local var

 assert.fails(f4, "local variable a_list referenced before assignment")

 # list += <not iterable>
 def f5():
     x = []
     x += 1

 assert.fails(f5, "unknown binary op: list \\+ int")

 # frozen list += iterable
 def f6():
     x = []
     freeze(x)
     x += [1]

 assert.fails(f6, "cannot apply \\+= to frozen list")

 # list += hasfields (hasfields is not iterable but defines list+hasfields)
 def f7():
     x = []
     x += hasfields()
     return x

 assert.eq(f7(), 42)  # weird, but exercises a corner case in list+=x.

 # append
 x5 = [1, 2, 3]
 x5.append(4)
 x5.append("abc")
 assert.eq(x5, [1, 2, 3, 4, "abc"])

 # extend
 x5a = [1, 2, 3]
 x5a.extend("abc".elems())  # string
 x5a.extend((True, False))  # tuple
 assert.eq(x5a, [1, 2, 3, "a", "b", "c", True, False])

 # list.insert
 def insert_at(index):
     x = list(range(3))
     x.insert(index, 42)
     return x

 assert.eq(insert_at(-99), [42, 0, 1, 2])
 assert.eq(insert_at(-2), [0, 42, 1, 2])
 assert.eq(insert_at(-1), [0, 1, 42, 2])
 assert.eq(insert_at(0), [42, 0, 1, 2])
 assert.eq(insert_at(1), [0, 42, 1, 2])
 assert.eq(insert_at(2), [0, 1, 42, 2])
 assert.eq(insert_at(3), [0, 1, 2, 42])
 assert.eq(insert_at(4), [0, 1, 2, 42])

 # list.remove
 def remove(v):
     x = [3, 1, 4, 1]
     x.remove(v)
     return x

 assert.eq(remove(3), [1, 4, 1])
 assert.eq(remove(1), [3, 4, 1])
 assert.eq(remove(4), [3, 1, 1])
 assert.fails(lambda: [3, 1, 4, 1].remove(42), "remove: element not found")

 # list.index
 bananas = list("bananas".elems())
 assert.eq(bananas.index("a"), 1)  # bAnanas
 assert.fails(lambda: bananas.index("d"), "value not in list")

 # start
 assert.eq(bananas.index("a", -1000), 1)  # bAnanas
 assert.eq(bananas.index("a", 0), 1)  # bAnanas
 assert.eq(bananas.index("a", 1), 1)  # bAnanas
 assert.eq(bananas.index("a", 2), 3)  # banAnas
 assert.eq(bananas.index("a", 3), 3)  # banAnas
 assert.eq(bananas.index("b", 0), 0)  # Bananas
 assert.eq(bananas.index("n", -3), 4)  # banaNas
 assert.fails(lambda: bananas.index("n", -2), "value not in list")
 assert.eq(bananas.index("s", -2), 6)  # bananaS
 assert.fails(lambda: bananas.index("b", 1), "value not in list")

 # start, end
 assert.eq(bananas.index("s", -1000, 7), 6)  # bananaS
 assert.fails(lambda: bananas.index("s", -1000, 6), "value not in list")
 assert.fails(lambda: bananas.index("d", -1000, 1000), "value not in list")

 # slicing, x[i:j:k]
 assert.eq(bananas[6::-2], list("snnb".elems()))
 assert.eq(bananas[5::-2], list("aaa".elems()))
 assert.eq(bananas[4::-2], list("nnb".elems()))
 assert.eq(bananas[99::-2], list("snnb".elems()))
 assert.eq(bananas[100::-2], list("snnb".elems()))
 # TODO(adonovan): many more tests

 # iterator invalidation
 def iterator1():
     list = [0, 1, 2]
     for x in list:
         list[x] = 2 * x
     return list

 assert.fails(iterator1, "assign to element.* during iteration")

 def iterator2():
     list = [0, 1, 2]
     for x in list:
         list.remove(x)

 assert.fails(iterator2, "remove.*during iteration")

 def iterator3():
     list = [0, 1, 2]
     for x in list:
         list.append(3)

 assert.fails(iterator3, "append.*during iteration")

 def iterator4():
     list = [0, 1, 2]
     for x in list:
         list.extend([3, 4])

 assert.fails(iterator4, "extend.*during iteration")

 def iterator5():
     def f(x):
         x.append(4)

     list = [1, 2, 3]
     _ = [f(list) for x in list]

 assert.fails(iterator5, "append.*during iteration")
	# Tests of Starlark 'list'

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

	# literals
	assert.eq([], [])
	assert.eq([1], [1])
	assert.eq([1], [1])
	assert.eq([1, 2], [1, 2])
	assert.ne([1, 2, 3], [1, 2, 4])

	# truth
	assert.true([0])
	assert.true(not [])

	# indexing, x[i]
	abc = list("abc".elems())
	assert.fails(lambda: abc[-4], "list index -4 out of range \\[-3:2]")
	assert.eq(abc[-3], "a")
	assert.eq(abc[-2], "b")
	assert.eq(abc[-1], "c")
	assert.eq(abc[0], "a")
	assert.eq(abc[1], "b")
	assert.eq(abc[2], "c")
	assert.fails(lambda: abc[3], "list index 3 out of range \\[-3:2]")

	# x[i] = ...
	x3 = [0, 1, 2]
	x3[1] = 2
	x3[2] += 3
	assert.eq(x3, [0, 2, 5])

	def f2():
	x3[3] = 4

	assert.fails(f2, "out of range")
	freeze(x3)

	def f3():
	x3[0] = 0

	assert.fails(f3, "cannot assign to element of frozen list")
	assert.fails(x3.clear, "cannot clear frozen list")

	# list + list
	assert.eq([1, 2, 3] + [3, 4, 5], [1, 2, 3, 3, 4, 5])
	assert.fails(lambda: [1, 2] + (3, 4), "unknown.*list \\+ tuple")
	assert.fails(lambda: (1, 2) + [3, 4], "unknown.*tuple \\+ list")

	# list * int, int * list
	assert.eq(abc * 0, [])
	assert.eq(abc * -1, [])
	assert.eq(abc * 1, abc)
	assert.eq(abc * 3, ["a", "b", "c", "a", "b", "c", "a", "b", "c"])
	assert.eq(0 * abc, [])
	assert.eq(-1 * abc, [])
	assert.eq(1 * abc, abc)
	assert.eq(3 * abc, ["a", "b", "c", "a", "b", "c", "a", "b", "c"])

	# list comprehensions
	assert.eq([2 * x for x in [1, 2, 3]], [2, 4, 6])
	assert.eq([2 * x for x in [1, 2, 3] if x > 1], [4, 6])
	assert.eq(
	[(x, y) for x in [1, 2] for y in [3, 4]],
	[(1, 3), (1, 4), (2, 3), (2, 4)],
	)
	assert.eq([(x, y) for x in [1, 2] if x == 2 for y in [3, 4]], [(2, 3), (2, 4)])
	assert.eq([2 * x for x in (1, 2, 3)], [2, 4, 6])
	assert.eq([x for x in "abc".elems()], ["a", "b", "c"])
	assert.eq([x for x in {"a": 1, "b": 2}], ["a", "b"])
	assert.eq([(y, x) for x, y in {1: 2, 3: 4}.items()], [(2, 1), (4, 3)])

	# corner cases of parsing:
	assert.eq([x for x in range(12) if x % 2 == 0 if x % 3 == 0], [0, 6])
	assert.eq([x for x in [1, 2] if lambda: None], [1, 2])
	assert.eq([x for x in [1, 2] if (lambda: 3 if True else 4)], [1, 2])

	# list function
	assert.eq(list(), [])
	assert.eq(list("ab".elems()), ["a", "b"])

	# A list comprehension defines a separate lexical block,
	# whether at top-level...
	a = [1, 2]
	b = [a for a in [3, 4]]
	assert.eq(a, [1, 2])
	assert.eq(b, [3, 4])

	# ...or local to a function.
	def listcompblock():
	c = [1, 2]
	d = [c for c in [3, 4]]
	assert.eq(c, [1, 2])
	assert.eq(d, [3, 4])

	listcompblock()

	# list.pop
	x4 = [1, 2, 3, 4, 5]
	assert.fails(lambda: x4.pop(-6), "index -6 out of range \\[-5:4]")
	assert.fails(lambda: x4.pop(6), "index 6 out of range \\[-5:4]")
	assert.eq(x4.pop(), 5)
	assert.eq(x4, [1, 2, 3, 4])
	assert.eq(x4.pop(1), 2)
	assert.eq(x4, [1, 3, 4])
	assert.eq(x4.pop(0), 1)
	assert.eq(x4, [3, 4])
	assert.eq(x4.pop(-2), 3)
	assert.eq(x4, [4])
	assert.eq(x4.pop(-1), 4)
	assert.eq(x4, [])

	# TODO(adonovan): test uses of list as sequence
	# (for loop, comprehension, library functions).

	# x += y for lists is equivalent to x.extend(y).
	# y may be a sequence.
	# TODO: Test that side-effects of 'x' occur only once.
	def list_extend():
	a = [1, 2, 3]
	b = a
	a = a + [4] # creates a new list
	assert.eq(a, [1, 2, 3, 4])
	assert.eq(b, [1, 2, 3]) # b is unchanged

	a = [1, 2, 3]
	b = a
	a += [4] # updates a (and thus b) in place
	assert.eq(a, [1, 2, 3, 4])
	assert.eq(b, [1, 2, 3, 4]) # alias observes the change

	a = [1, 2, 3]
	b = a
	a.extend([4]) # updates existing list
	assert.eq(a, [1, 2, 3, 4])
	assert.eq(b, [1, 2, 3, 4]) # alias observes the change

	list_extend()

	# Unlike list.extend(iterable), list += iterable makes its LHS name local.
	a_list = []

	def f4():
	a_list += [1] # binding use => a_list is a local var

	assert.fails(f4, "local variable a_list referenced before assignment")

	# list += <not iterable>
	def f5():
	x = []
	x += 1

	assert.fails(f5, "unknown binary op: list \\+ int")

	# frozen list += iterable
	def f6():
	x = []
	freeze(x)
	x += [1]

	assert.fails(f6, "cannot apply \\+= to frozen list")

	# list += hasfields (hasfields is not iterable but defines list+hasfields)
	def f7():
	x = []
	x += hasfields()
	return x

	assert.eq(f7(), 42) # weird, but exercises a corner case in list+=x.

	# append
	x5 = [1, 2, 3]
	x5.append(4)
	x5.append("abc")
	assert.eq(x5, [1, 2, 3, 4, "abc"])

	# extend
	x5a = [1, 2, 3]
	x5a.extend("abc".elems()) # string
	x5a.extend((True, False)) # tuple
	assert.eq(x5a, [1, 2, 3, "a", "b", "c", True, False])

	# list.insert
	def insert_at(index):
	x = list(range(3))
	x.insert(index, 42)
	return x

	assert.eq(insert_at(-99), [42, 0, 1, 2])
	assert.eq(insert_at(-2), [0, 42, 1, 2])
	assert.eq(insert_at(-1), [0, 1, 42, 2])
	assert.eq(insert_at(0), [42, 0, 1, 2])
	assert.eq(insert_at(1), [0, 42, 1, 2])
	assert.eq(insert_at(2), [0, 1, 42, 2])
	assert.eq(insert_at(3), [0, 1, 2, 42])
	assert.eq(insert_at(4), [0, 1, 2, 42])

	# list.remove
	def remove(v):
	x = [3, 1, 4, 1]
	x.remove(v)
	return x

	assert.eq(remove(3), [1, 4, 1])
	assert.eq(remove(1), [3, 4, 1])
	assert.eq(remove(4), [3, 1, 1])
	assert.fails(lambda: [3, 1, 4, 1].remove(42), "remove: element not found")

	# list.index
	bananas = list("bananas".elems())
	assert.eq(bananas.index("a"), 1) # bAnanas
	assert.fails(lambda: bananas.index("d"), "value not in list")

	# start
	assert.eq(bananas.index("a", -1000), 1) # bAnanas
	assert.eq(bananas.index("a", 0), 1) # bAnanas
	assert.eq(bananas.index("a", 1), 1) # bAnanas
	assert.eq(bananas.index("a", 2), 3) # banAnas
	assert.eq(bananas.index("a", 3), 3) # banAnas
	assert.eq(bananas.index("b", 0), 0) # Bananas
	assert.eq(bananas.index("n", -3), 4) # banaNas
	assert.fails(lambda: bananas.index("n", -2), "value not in list")
	assert.eq(bananas.index("s", -2), 6) # bananaS
	assert.fails(lambda: bananas.index("b", 1), "value not in list")

	# start, end
	assert.eq(bananas.index("s", -1000, 7), 6) # bananaS
	assert.fails(lambda: bananas.index("s", -1000, 6), "value not in list")
	assert.fails(lambda: bananas.index("d", -1000, 1000), "value not in list")

	# slicing, x[i:j:k]
	assert.eq(bananas[6::-2], list("snnb".elems()))
	assert.eq(bananas[5::-2], list("aaa".elems()))
	assert.eq(bananas[4::-2], list("nnb".elems()))
	assert.eq(bananas[99::-2], list("snnb".elems()))
	assert.eq(bananas[100::-2], list("snnb".elems()))
	# TODO(adonovan): many more tests

	# iterator invalidation
	def iterator1():
	list = [0, 1, 2]
	for x in list:
	list[x] = 2 * x
	return list

	assert.fails(iterator1, "assign to element.* during iteration")

	def iterator2():
	list = [0, 1, 2]
	for x in list:
	list.remove(x)

	assert.fails(iterator2, "remove.*during iteration")

	def iterator3():
	list = [0, 1, 2]
	for x in list:
	list.append(3)

	assert.fails(iterator3, "append.*during iteration")

	def iterator4():
	list = [0, 1, 2]
	for x in list:
	list.extend([3, 4])

	assert.fails(iterator4, "extend.*during iteration")

	def iterator5():
	def f(x):
	x.append(4)

	list = [1, 2, 3]
	_ = [f(list) for x in list]

	assert.fails(iterator5, "append.*during iteration")