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

 # Miscellaneous tests of Starlark evaluation.
 # This is a "chunked" file: each "---" effectively starts a new file.

 # TODO(adonovan): move these tests into more appropriate files.
 # TODO(adonovan): test coverage:
 # - stmts: pass; if cond fail; += and failures;
 #    for x fail; for x not iterable; for can't assign; for
 #    error in loop body
 # - subassign fail
 # - x[i]=x fail in both operands; frozen x; list index not int; boundscheck
 # - x.f = ...
 # - failure in list expr [...]; tuple expr; dict expr (bad key)
 # - cond expr semantics; failures
 # - x[i] failures in both args; dict and iterator key and range checks;
 #   unhandled operand types
 # - +: list/list, int/int, string/string, tuple+tuple, dict/dict;
 # - * and ** calls: various errors
 # - call of non-function
 # - slice x[ijk]
 # - comprehension: unhashable dict key;
 #   scope of vars (local and toplevel); noniterable for clause
 # - unknown unary op
 # - ordering of values
 # - freeze, transitivity of its effect.
 # - add an application-defined type to the environment so we can test it.
 # - even more:
 #
 # eval
 #   pass statement
 #   assign to tuple l-value -- illegal
 #   assign to list l-value -- illegal
 #   assign to field
 #   tuple + tuple
 #   call with *args, **kwargs
 #   slice with step
 #   tuple slice
 #   interpolate with %c, %%

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

 # Ordered comparisons require values of the same type.
 assert.fails(lambda: None < False, "not impl")
 assert.fails(lambda: False < list, "not impl")
 assert.fails(lambda: list < {}, "not impl")
 assert.fails(lambda: {} < (lambda: None), "not impl")
 assert.fails(lambda: (lambda: None) < 0, "not impl")
 assert.fails(lambda: 0 < [], "not impl")
 assert.fails(lambda: [] < "", "not impl")
 assert.fails(lambda: "" < (), "not impl")
 # Except int < float:
 assert.lt(1, 2.0)
 assert.lt(2.0, 3)

 ---
 # cyclic data structures
 load("assert.star", "assert")

 cyclic = [1, 2, 3] # list cycle
 cyclic[1] = cyclic
 assert.eq(str(cyclic), "[1, [...], 3]")
 assert.fails(lambda: cyclic < cyclic, "maximum recursion")
 assert.fails(lambda: cyclic == cyclic, "maximum recursion")
 cyclic2 = [1, 2, 3]
 cyclic2[1] = cyclic2
 assert.fails(lambda: cyclic2 == cyclic, "maximum recursion")

 cyclic3 = [1, [2, 3]] # list-list cycle
 cyclic3[1][0] = cyclic3
 assert.eq(str(cyclic3), "[1, [[...], 3]]")
 cyclic4 = {"x": 1}
 cyclic4["x"] = cyclic4
 assert.eq(str(cyclic4), "{\"x\": {...}}")
 cyclic5 = [0, {"x": 1}] # list-dict cycle
 cyclic5[1]["x"] = cyclic5
 assert.eq(str(cyclic5), "[0, {\"x\": [...]}]")
 assert.eq(str(cyclic5), "[0, {\"x\": [...]}]")
 assert.fails(lambda: cyclic5 == cyclic5 ,"maximum recursion")
 cyclic6 = [0, {"x": 1}]
 cyclic6[1]["x"] = cyclic6
 assert.fails(lambda: cyclic5 == cyclic6, "maximum recursion")

 ---
 # regression
 load("assert.star", "assert")

 # was a parse error:
 assert.eq(("ababab"[2:]).replace("b", "c"), "acac")
 assert.eq("ababab"[2:].replace("b", "c"), "acac")

 # test parsing of line continuation, at toplevel and in expression.
 three = 1 + \
   2
 assert.eq(1 + \
   2, three)

 ---
 # A regression test for error position information.

 _ = {}.get(1, default=2) ### "get: unexpected keyword arguments"

 ---
 # Load exposes explicitly declared globals from other modules.
 load('assert.star', 'assert', 'freeze')
 assert.eq(str(freeze), '<built-in function freeze>')

 ---
 # Load does not expose pre-declared globals from other modules.
 # See github.com/google/skylark/issues/75.
 load('assert.star', 'assert', 'matches') ### "matches not found in module"

 ---
 # Load does not expose universals accessible in other modules.
 load('assert.star', 'len') ### "len not found in module"


 ---
 # Test plus folding optimization.
 load('assert.star', 'assert')

 s = "s"
 l = [4]
 t = (4,)

 assert.eq("a" + "b" + "c", "abc")
 assert.eq("a" + "b" + s + "c", "absc")
 assert.eq(() + (1,) + (2, 3), (1, 2, 3))
 assert.eq(() + (1,) + t + (2, 3), (1, 4, 2, 3))
 assert.eq([] + [1] + [2, 3], [1, 2, 3])
 assert.eq([] + [1] + l + [2, 3], [1, 4, 2, 3])

 assert.fails(lambda: "a" + "b" + 1 + "c", "unknown binary op: string \\+ int")
 assert.fails(lambda: () + () + 1 + (), "unknown binary op: tuple \\+ int")
 assert.fails(lambda: [] + [] + 1 + [], "unknown binary op: list \\+ int")


 ---
 load('assert.star', 'froze') ### `name froze not found .*did you mean freeze`
	# Miscellaneous tests of Starlark evaluation.
	# This is a "chunked" file: each "---" effectively starts a new file.

	# TODO(adonovan): move these tests into more appropriate files.
	# TODO(adonovan): test coverage:
	# - stmts: pass; if cond fail; += and failures;
	# for x fail; for x not iterable; for can't assign; for
	# error in loop body
	# - subassign fail
	# - x[i]=x fail in both operands; frozen x; list index not int; boundscheck
	# - x.f = ...
	# - failure in list expr [...]; tuple expr; dict expr (bad key)
	# - cond expr semantics; failures
	# - x[i] failures in both args; dict and iterator key and range checks;
	# unhandled operand types
	# - +: list/list, int/int, string/string, tuple+tuple, dict/dict;
	# - * and ** calls: various errors
	# - call of non-function
	# - slice x[ijk]
	# - comprehension: unhashable dict key;
	# scope of vars (local and toplevel); noniterable for clause
	# - unknown unary op
	# - ordering of values
	# - freeze, transitivity of its effect.
	# - add an application-defined type to the environment so we can test it.
	# - even more:
	#
	# eval
	# pass statement
	# assign to tuple l-value -- illegal
	# assign to list l-value -- illegal
	# assign to field
	# tuple + tuple
	# call with args, *kwargs
	# slice with step
	# tuple slice
	# interpolate with %c, %%

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

	# Ordered comparisons require values of the same type.
	assert.fails(lambda: None < False, "not impl")
	assert.fails(lambda: False < list, "not impl")
	assert.fails(lambda: list < {}, "not impl")
	assert.fails(lambda: {} < (lambda: None), "not impl")
	assert.fails(lambda: (lambda: None) < 0, "not impl")
	assert.fails(lambda: 0 < [], "not impl")
	assert.fails(lambda: [] < "", "not impl")
	assert.fails(lambda: "" < (), "not impl")
	# Except int < float:
	assert.lt(1, 2.0)
	assert.lt(2.0, 3)

	---
	# cyclic data structures
	load("assert.star", "assert")

	cyclic = [1, 2, 3] # list cycle
	cyclic[1] = cyclic
	assert.eq(str(cyclic), "[1, [...], 3]")
	assert.fails(lambda: cyclic < cyclic, "maximum recursion")
	assert.fails(lambda: cyclic == cyclic, "maximum recursion")
	cyclic2 = [1, 2, 3]
	cyclic2[1] = cyclic2
	assert.fails(lambda: cyclic2 == cyclic, "maximum recursion")

	cyclic3 = [1, [2, 3]] # list-list cycle
	cyclic3[1][0] = cyclic3
	assert.eq(str(cyclic3), "[1, [[...], 3]]")
	cyclic4 = {"x": 1}
	cyclic4["x"] = cyclic4
	assert.eq(str(cyclic4), "{\"x\": {...}}")
	cyclic5 = [0, {"x": 1}] # list-dict cycle
	cyclic5[1]["x"] = cyclic5
	assert.eq(str(cyclic5), "[0, {\"x\": [...]}]")
	assert.eq(str(cyclic5), "[0, {\"x\": [...]}]")
	assert.fails(lambda: cyclic5 == cyclic5 ,"maximum recursion")
	cyclic6 = [0, {"x": 1}]
	cyclic6[1]["x"] = cyclic6
	assert.fails(lambda: cyclic5 == cyclic6, "maximum recursion")

	---
	# regression
	load("assert.star", "assert")

	# was a parse error:
	assert.eq(("ababab"[2:]).replace("b", "c"), "acac")
	assert.eq("ababab"[2:].replace("b", "c"), "acac")

	# test parsing of line continuation, at toplevel and in expression.
	three = 1 + \
	2
	assert.eq(1 + \
	2, three)

	---
	# A regression test for error position information.

	_ = {}.get(1, default=2) ### "get: unexpected keyword arguments"

	---
	# Load exposes explicitly declared globals from other modules.
	load('assert.star', 'assert', 'freeze')
	assert.eq(str(freeze), '<built-in function freeze>')

	---
	# Load does not expose pre-declared globals from other modules.
	# See github.com/google/skylark/issues/75.
	load('assert.star', 'assert', 'matches') ### "matches not found in module"

	---
	# Load does not expose universals accessible in other modules.
	load('assert.star', 'len') ### "len not found in module"


	---
	# Test plus folding optimization.
	load('assert.star', 'assert')

	s = "s"
	l = [4]
	t = (4,)

	assert.eq("a" + "b" + "c", "abc")
	assert.eq("a" + "b" + s + "c", "absc")
	assert.eq(() + (1,) + (2, 3), (1, 2, 3))
	assert.eq(() + (1,) + t + (2, 3), (1, 4, 2, 3))
	assert.eq([] + [1] + [2, 3], [1, 2, 3])
	assert.eq([] + [1] + l + [2, 3], [1, 4, 2, 3])

	assert.fails(lambda: "a" + "b" + 1 + "c", "unknown binary op: string \\+ int")
	assert.fails(lambda: () + () + 1 + (), "unknown binary op: tuple \\+ int")
	assert.fails(lambda: [] + [] + 1 + [], "unknown binary op: list \\+ int")



	---
	load('assert.star', 'froze') ### `name froze not found .*did you mean freeze`