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namespace.t
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namespace.t
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#!./parrot
# Copyright (C) 2006-2010, Parrot Foundation.
=head1 NAME
t/pmc/namepspace.t - test NameSpace PMC
=head1 SYNOPSIS
% prove t/pmc/namespace.t
=head1 DESCRIPTION
Tests the NameSpace PMC. Some things that it tests specifically:
=over 4
=item* Creating new NameSpace PMCs
=item* Verify that things which are supposed to return a NameSpace actually
do.
=item* Various forms of get_global opcode
=item* Finding and calling Subs which are stored in the NameSpace
=item* Methods on the NameSpace PMC
=item* Building NameSpace hierarchies on the fly
=item* HLL NameSpaces
=back
Items that need to be tested according to PDD21, or the current source code
of the NameSpace PMC:
=over 4
=item* methods: add_sub, del_sub, del_var, del_namespace
=item* Typed and Untyped interfaces
=item* Subclassing NameSpace (If it's possible)
=item* .'export_to'()
Although NameSpace.'export_to'() is used in test_more.pir.
=back
=cut
.include 'except_types.pasm'
.namespace []
.sub main :main
.include 'test_more.pir'
plan(92)
create_namespace_pmc()
verify_namespace_type()
get_namespace_class()
keyed_namespace_lookup()
keyed_int_namespace_lookup()
get_global_opcode()
inspect_opcode()
get_sub_from_namespace_hash()
access_sub_in_namespace()
get_namespace_from_sub()
build_namespaces_at_runtime()
hll_namespaces()
anon_function_namespace()
find_name_opcode()
namespace_methods()
export_to_method()
.end
# L<PDD21/Namespace PMC API/=head4 Untyped Interface>
.sub 'create_namespace_pmc'
push_eh eh1
$P0 = new ['NameSpace']
ok(1, "Create new Namespace PMC")
goto _end
eh1:
ok(0, "Could not create Namespace PMC")
_end:
pop_eh
.end
.sub 'verify_namespace_type'
$P0 = get_global "Foo"
typeof $S0, $P0
is($S0, "NameSpace", "A NameSpace is a NameSpace")
# root namespace
$P0 = get_root_namespace
typeof $S0, $P0
is($S0, "NameSpace", "Root NameSpace is a NameSpace")
# While we're here. Prove that the root namespace stringifies to ""
$S0 = $P0
is($S0, "", "Root NameSpace stringifies to empty string")
# parrot namespace
$P1 = $P0["parrot"]
typeof $S0, $P1
is($S0, "NameSpace", "::parrot NameSpace is a NameSpace")
# get_namespace with no args
$P0 = get_namespace
typeof $S0, $P1
is($S0, "NameSpace", "Current NameSpace is a NameSpace")
# Prove that HLL namespace names are mangled to lower-case
$P0 = get_root_namespace ["MyHLL"]
$I0 = isnull $P0
is($I0, 1, "HLL NameSpace names are stored lowercase")
$P0 = get_root_namespace ["myhll"]
$I0 = isnull $P0
is($I0, 0, "HLL NameSpaces are name-mangled lowercase")
# Get an HLL namespace and verify that it's a NameSpace PMC
$P0 = get_root_namespace ["myhll"]
$S0 = typeof $P0
is($S0, "NameSpace", "HLL NameSpaces are NameSpaces too")
.end
.sub 'get_namespace_class'
# First, prove that we don't have a class until it's created
$P0 = get_global "Foo"
$P1 = get_class $P0
$I0 = isnull $P1
is($I0, 1, "NameSpace doesn't have a Class till it's created")
# Can create a new class from a NameSpace
$P1 = newclass $P0
$I0 = isnull $P1
is($I0, 0, "Create Class from NameSpace")
# New Class is a Class
$S0 = typeof $P1
is($S0, "Class", "get_class on a NameSpace returns a Class")
# Class has same name as namespace
$S0 = $P0
$S1 = $P1
is($S0, $S1, "Class has same name as NameSpace")
# Now, we do have a class
$P1 = get_class $P0
$I0 = isnull $P1
is($I0, 0, "get_class on a NameSpace returns something")
$P9 = $P0.'get_class'()
$I0 = issame $P9, $P1
ok($I0, "Namespace get_class method gives same result as get_class op")
$P8 = get_namespace
$P9 = $P8.'get_class'()
is_null($P9, "Namespace get_class gives NULL for non class namespace")
# Create object from class from NameSpace
push_eh eh
$P2 = new $P1
ok(1, "Can create a new object from a namespace")
goto pmc_is_created
eh:
ok(0, "Cannot create a new object from a namespace")
pmc_is_created:
pop_eh
# Object from Class from NameSpace has right type
$S0 = typeof $P2
is($S0, "Foo", "Object created from class has name of NameSpace")
.end
.sub namespace_lookup_invalidkeytype
$P0 = get_root_namespace
$P2 = new ['Boolean']
$P0[$P2] = $P2
.end
.sub keyed_namespace_lookup
# Tests to verify behavior of TT #1449
$P0 = get_root_namespace
# Keyed lookup
$P1 = $P0["parrot";"Foo";"Bar"]
$I0 = isnull $P1
is($I0, 0, "can lookup nested namespace by Key")
# TODO: Get the function from this namespace and call it to verify we have
# the correct one.
$P1 = $P0["parrot";"Fool";"Baz"]
$I0 = isnull $P1
is($I0, 1, "can lookup nested namespace by Key - not found")
# Array lookup
$P1 = new ['ResizableStringArray']
$P1[0] = "parrot"
$P1[1] = "Foo"
$P1[2] = "Bar"
$P1[3] = "Baz"
$P2 = $P0[$P1]
$I0 = isnull $P2
is($I0, 0, "can lookup nested namespace by RSA")
say $P2
$I0 = isa $P2, "NameSpace"
is($I0, 1, "can lookup nested namespace by RSA - isa NameSpace")
# TODO: Get the function from this namespace and call it to verify we have
# the correct one.
null $S0
$P1[3] = $S0
$P2 = $P0[$P1]
$I0 = isnull $P2
is($I0, 1, "lookup nested namespace by RSA with a null element")
# String lookup
$P1 = $P0["parrot"]
$P2 = $P1["Foo"]
$I0 = isnull $P1
is($I0, 0, "can lookup namespace by string")
$I0 = isnull $P2
is($I0, 0, "can lookup namespace by string")
# TODO: Get the function from this namespace and call it to verify we have
# the correct one.
# String PMC lookup
$P3 = new ["String"]
$P3 = "Foo"
$P2 = $P1[$P3]
$I0 = isnull $P2
is($I0, 0, "can lookup namespace by String PMC")
$P3 = "NotFoo"
$P2 = $P1[$P3]
$I0 = isnull $P2
is($I0, 1, "can lookup namespace by String PMC - not found")
.const 'Sub' invalidkey = 'namespace_lookup_invalidkeytype'
throws_type(invalidkey, .EXCEPTION_GLOBAL_NOT_FOUND, 'namespace lookup with invalid key')
.end
.sub keyed_int_namespace_lookup
$P0 = get_root_namespace
$P1 = $P0[0]
$I0 = isnull $P1
is($I0, 1, "root namespace keyed_int returns NULL")
# This value must be hardcoded here, update the test if the
# vtable numbers change
.const int I_VTABLE_GET_STRING = 74
$P0 = get_namespace ["WithVtable"]
$P1 = $P0[I_VTABLE_GET_STRING]
$I0 = isnull $P1
is($I0, 0, "namespace keyed_int returns a :vtable sub")
.end
# L<PDD21//>
.sub 'get_global_opcode'
test1:
push_eh eh1
$P0 = get_global "baz"
$S0 = $P0()
is($S0, "", "Can get_global a .sub")
goto end_test1
eh1:
ok(0, "Cannot get_global a .sub")
end_test1:
pop_eh
test2:
push_eh eh2
$P0 = get_global ["Foo"], "baz"
$S0 = $P0()
is($S0, "Foo", "Get Sub from NameSpace")
goto end_test2
eh2:
ok(0, "Cannot get Sub from NameSpace Foo")
end_test2:
pop_eh
test3:
push_eh eh3
$P0 = get_global ["Foo";"Bar"], "baz"
$S0 = $P0()
is($S0, "Foo::Bar", "Get Sub from nested NameSpace")
goto end_test3
eh3:
ok(0, "Cannot get Sub from NameSpace Foo::Bar")
end_test3:
pop_eh
test4:
throws_substring( <<'CODE', 'Null PMC access in invoke', 'Invoking a non-existent sub')
.sub main :main
$P0 = get_global ["Foo"], "SUB_THAT_DOES_NOT_EXIST"
$P0()
.end
CODE
test5:
# this used to behave differently from the previous case.
throws_substring( <<'CODE', 'Null PMC access in invoke', 'Invoking a non-existent sub')
.sub main :main
$P0 = get_global ["Foo";"Bar"], "SUB_THAT_DOES_NOT_EXIST"
$P0()
.end
CODE
test6:
push_eh eh6
$P0 = get_global [ iso-8859-1:"Fran\x{E7}ois" ], "baz"
$S0 = $P0()
is($S0, iso-8859-1:"Fran\x{E7}ois", "Found sub in ISO-8859 NameSpace")
goto end_test6
eh6:
ok(0, "Cannot find sub in ISO-8859 NameSpace")
end_test6:
pop_eh
test7:
push_eh eh7
$P0 = get_global [ "Foo";iso-8859-1:"Fran\x{E7}ois" ], "baz"
$S0 = $P0()
is($S0, iso-8859-1:"Foo::Fran\x{E7}ois", "Found sub in nested ISO-8859 NameSpace")
goto end_test7
eh7:
ok(0, "Cannot find sub in ISO-8859 NameSpace")
end_test7:
pop_eh
test8:
push_eh eh8
$P0 = get_global [ utf8:"Fran\x{00E7}ois" ], "baz"
$I0 = isnull $P0
is($I0, 0, "Find Sub in an ISO-8859-1 NameSpace looked up by a Unicode name")
$S0 = $P0()
is($S0, iso-8859-1:"Fran\x{E7}ois", "ISO-8859 NameSpace with Unicode name")
goto end_test8
eh8:
ok(0, "Cannot find ISO-8859 NameSpace using Unicode name")
end_test8:
pop_eh
test9:
push_eh eh9
$P0 = get_global [ utf8:"\x{20AC}uros" ], "baz"
$S0 = $P0()
is($S0, utf8:"\x{20AC}uros", "Found sub in Unicode NameSpace")
goto end_test9
eh9:
ok(0, "Cannot find sub in Unicode NameSpace")
end_test9:
pop_eh
test10:
push_eh eh10
$P0 = get_global [ "Foo";utf8:"\x{20AC}uros" ], "baz"
$S0 = $P0()
is($S0, utf8:"Foo::\x{20AC}uros", "Found sub in nested Unicode NameSpace")
goto end_test10
eh10:
ok(0, "Cannot find sub in nested Unicode NameSpace")
end_test10:
pop_eh
.end
.sub inspect_opcode_unknown_value
.local pmc ns
ns = get_namespace
$P0 = inspect ns, 'introspectionvaluethatshouldnotexist'
.end
.sub 'inspect_opcode'
.local pmc ns, value
ns = get_namespace ['WithVtable']
value = inspect ns, 'vtable_overrides'
$I0 = elements value
is($I0, 1, 'inspect vtable overrides from namespace')
.const 'Sub' unknown_value = 'inspect_opcode_unknown_value'
throws_type(unknown_value, .EXCEPTION_INVALID_OPERATION, 'inspect with invalid introspection value')
.end
.sub 'get_sub_from_namespace_hash'
#See that a NameSpace does Hash
$P0 = get_global "Foo"
$I0 = does $P0, 'hash'
ok($I0, "Namespace does hash")
# Use a hash key to get a Sub in a namespace
$P1 = $P0["baz"]
$S0 = $P1()
is($S0, "Foo", "Get the Sub from the NameSpace as a Hash")
# Use hash keys to get Subs and nested NameSpaces in NameSpaces
$P1 = $P0["Bar"]
$P2 = $P1["baz"]
$S0 = $P2()
is($S0, "Foo::Bar", "Get the Sub from the nested NameSpace as a Hash")
# Use nested keys to access nested NameSpaces
$P1 = $P0[ "Bar";"baz" ]
$S0 = $P1()
is($S0, "Foo::Bar", "Get Sub from nested NameSpace with multi-key")
# Alias a namespace and access it by Key
$P1 = $P0["Bar"]
set_global "TopBar", $P1
$P2 = get_global ["TopBar"], "baz"
is($S0, "Foo::Bar", "Alias namespace")
# Get nested NameSpace with ISO-8859 name
$P1 = $P0[ iso-8859-1:"Fran\x{E7}ois" ]
$P2 = $P1["baz"]
$S0 = $P2()
is($S0, iso-8859-1:"Foo::Fran\x{E7}ois", "Hash-get nested ISO-8859 NameSpace")
$P1 = $P0[ iso-8859-1:"Fran\x{E7}ois";"baz" ]
$S0 = $P1()
is($S0, iso-8859-1:"Foo::Fran\x{E7}ois", "Hash-get nested ISO-8859 NameSpace Sub")
$P0 = get_global iso-8859-1:"Fran\x{E7}ois"
$P1 = $P0[ "baz" ]
$S0 = $P1()
is($S0, iso-8859-1:"Fran\x{E7}ois", "Hash-get ISO-8859 NameSpace")
.end
.sub 'access_sub_in_namespace'
# Direct access of sub that does exist in current namespace
$S0 = baz()
$P0 = get_global "baz"
$S1 = $P0()
is($S0, $S1, "Direct and Indirect Sub calls")
# Direct access of sub that doesn't exist in current namespace
push_eh eh
'SUB_AINT_THERE'()
ok(0, "Directly called a sub that doesn't exist")
goto _end
eh:
ok(1, "Can't direct call a sub that doesn't exist")
_end:
pop_eh
.end
.sub 'get_namespace_from_sub'
# root namespace is "parrot"
$P0 = get_global "baz"
$P1 = $P0."get_namespace"()
$S0 = $P1
is($S0, "parrot", "Get the root namespace from a sub in the root namespace")
# Get an explicit namespace
$P0 = get_global ["Foo"], "baz"
$P1 = $P0."get_namespace"()
$S0 = $P1
is($S0, "Foo", "Get the namespace from a Sub in the NameSpace")
# Get namespace from the current sub
.include 'interpinfo.pasm'
$P0 = interpinfo .INTERPINFO_CURRENT_SUB
$P1 = $P0."get_namespace"()
$S0 = $P1
is($S0, "parrot", "Get namespace from current sub")
# Now get the current sub again
$P2 = $P1["get_namespace_from_sub"]
$S0 = typeof $P2
is($S0, "Sub", "Get the current sub from namespace from current sub")
.end
.sub 'build_namespaces_at_runtime'
$P0 = get_root_namespace
$P1 = $P0["parrot"]
$P3 = new ['NameSpace']
$P1["Temp1"] = $P3
$P2 = $P3.'get_name'()
$S0 = join '::', $P2
is($S0, "parrot::Temp1", "Add a NameSpace with a given name")
# test VTABLE_get_string while we are here
$S0 = $P1
is($S0, "parrot", "get_string on HLL NameSpace")
$S0 = $P3
is($S0, "Temp1", "get_string on NameSpace")
.end
.sub 'hll_namespaces'
# Fetch HLL Global using an RSA. Current HLL == parrot
$P4 = new ['FixedStringArray']
$P4 = 1
$P4[0] = 'Foo'
$P0 = get_hll_namespace $P4
$P2 = $P0.'get_name'()
$S0 = join '::', $P2
is($S0, "parrot::Foo", "get_hll_namespace_p")
# Get an HLL namespace using a key. Current HLL == parrot
$P2 = get_hll_namespace ["Foo"]
$P2 = $P2.'get_name'()
$S0 = join '::', $P2
is($S0, "parrot::Foo", "get_hll_namespace_kc")
# Get a sub from an HLL Namespace using a key. Current HLL == parrot
$P0 = get_hll_namespace ["Foo"]
$P1 = $P0["baz"]
$S0 = $P1()
is($S0, "Foo", "get a Sub from a HLL namespace")
# find something an a different .HLL
push_eh eh1
$P0 = get_root_namespace ["myhll"]
$P1 = $P0["baz"]
$S0 = $P1()
is($S0, "MyHLL", "Found Sub in HLL namespace by key")
goto end_test1
eh1:
ok(0, "Cannot find sub in HLL NameSpace by key")
end_test1:
pop_eh
# get_root_namespace won't return something not a namespace
$P0 = get_root_namespace ["myhll";"baz"]
$I0 = isnull $P0
is($I0, 1, "get_root_namespace only returns NameSpace PMCs")
.end
.sub 'anon_function_namespace'
$S0 = <<"CODE"
.namespace ["anon_test_internal_ns"]
.sub anon_test_internal :main :anon
$P0 = get_namespace
.return($P0)
.end
CODE
$P0 = compreg "PIR"
$P1 = $P0($S0)
$P2 = $P1()
$S0 = typeof $P2
is($S0, "NameSpace", "get_namespace from anon sub")
$P3 = $P2.'get_name'()
$S0 = join "::", $P3
is($S0, "parrot::anon_test_internal_ns", "get_namespace name from anon sub")
.end
.sub 'find_name_opcode'
$S0 = <<'CODE'
.namespace ['pugs';'main']
.sub 'main' :main
push_eh just_in_case
$P0 = find_name "&say"
$P0()
$I0 = 1
goto the_end
just_in_case:
$I0 = 0
the_end:
pop_eh
.return($I0)
.end
.sub "&say"
noop
.end
CODE
$P0 = compreg "PIR"
$P1 = $P0($S0)
$I0 = $P1()
is($I0, 1, "find_name sub with sigil in namespace")
.end
.sub 'namespace_methods'
$P0 = get_namespace
# make_namespace returns the existing namespace if it exists
$P1 = $P0.'make_namespace'("Foo")
$P2 = $P1["baz"]
$S0 = $P2()
is($S0, "Foo", "make_namespace does not overwrite existing NS")
# First we don't have it...
$P1 = $P0["NewNamespace1"]
$I0 = isnull $P1
is($I0, 1, "something that doesn't exist really doesn't")
# ...now we do!
$P1 = $P0.'make_namespace'("NewNamespace1")
$P2 = $P1["baz"]
$I0 = isnull $P2
is($I0, 1, "make_namespace also creates new namespaces")
$P1 = new ["NameSpace"]
$P0.'add_namespace'("NewNamespace2", $P1)
$P2 = $P0["NewNamespace2"]
is($P1, $P2, "add_namespace adds a new namespace")
# test add_sub
$P1 = new 'Integer'
$P1 = 25
$P0.'add_var'("My_Integer", $P1)
$P2 = $P0["My_Integer"]
is($P1, $P2, "add_var adds a variable to the namespace")
# We've already tested NameSpace."get_name" elsewhere in this file
$P1 = $P0.'find_namespace'("Foo")
$P2 = $P1["baz"]
$S0 = $P2()
is($S0, "Foo", "find_namespace finds a .namespace constant")
$P1 = $P0.'find_namespace'("NewNamespace1")
$S0 = typeof $P1
is($S0, "NameSpace", "find_namespace finds a namespace added at runtime")
$P1 = $P0.'find_sub'("baz")
$S0 = $P1()
is($S0, "", "find_sub finds a sub like it should")
$P1 = $P0.'find_sub'("NewNamespace1")
$I0 = isnull $P1
is($I0, 1, "find_sub won't find a non-sub")
$P1 = $P0.'find_sub'("DOESNT EXIST")
$I0 = isnull $P1
is($I0, 1, "find_sub won't find something that doesn't exist")
$P1 = $P0.'find_var'("My_Integer")
$I0 = $P1
is($I0, 25, "find_var finds a variable we've saved in a namespace")
$P1 = $P0.'find_var'("ALSO DOESNT EXIST")
$I0 = isnull $P1
is($I0, 1, "find_var won't find something that doesn't exist")
$P1 = $P0.'find_var'("baz")
$S0 = typeof $P1
is($S0, "Sub", "find_var also finds subs")
$S0 = $P1()
is($S0, "", "find_var finds the correct sub")
$P0 = get_namespace ["FooSub"]
$P1 = $P0.'get_sym'("Bar")
$P2 = get_namespace ["FooSub";"Bar"]
$I0 = isnull $P1
$I1 = $I0
$I0 = isnull $P2
$I1 += $I0
$I0 = issame $P1, $P2
$I1 += $I0
is ($I0, 0, "get_sym gets a .sub and not a namespace with same name")
# Test del_namespace. Test that it deletes an existing namespace, and that
# it won't delete something that isn't a namespace
# Test del_sub. Test that it deletes an existing sub and that it
# won't delete something that isn't a sub
# Test del_var. It will delete any type of thing
.end
.sub export_empty_name_in_hash
.local pmc nsa, nsb, h
nsa = get_namespace
nsb = get_namespace ['Foo']
h = new ['Hash']
h[''] = 'foo'
nsb.'export_to'(nsa, h)
.end
.sub export_not_found_in_hash
.local pmc nsa, nsb, h
nsa = get_namespace
nsb = get_namespace ['Foo']
h = new ['Hash']
h["somethingthatshouldn'tbeinthenamespace"] = 'foo'
nsb.'export_to'(nsa, h)
.end
.sub export_empty_name_in_array
.local pmc nsa, nsb, h
nsa = get_namespace
nsb = get_namespace ['Foo']
h = new ['FixedStringArray'], 1
h[0] = ''
nsb.'export_to'(nsa, h)
.end
.sub export_not_found_in_array
.local pmc nsa, nsb, h
nsa = get_namespace
nsb = get_namespace ['Foo']
h = new ['FixedStringArray'], 1
h[0] = "somethingthatshouldn'tbeinthenamespace"
nsb.'export_to'(nsa, h)
.end
.sub 'export_to_method'
.local string errormsg, description
errormsg = "destination namespace not specified"
description = "export_to() Null NameSpace"
throws_substring(<<"CODE", errormsg, description)
.sub 'test' :main
.local pmc nsa, nsb, ar
ar = new ['ResizableStringArray']
push ar, 'baz'
nsa = new ['Null']
nsb = get_namespace ['Foo']
nsb.'export_to'(nsa, ar)
.end
CODE
errormsg = "can't handle argument of type"
description = "export_to() invalid 'what' type"
throws_substring(<<"CODE", errormsg, description)
.sub 'test' :main
.local pmc nsa, nsb, ar
# To trigger the condition we need something of an unexpected
# type which elements vtable function does not return 0
ar = new ['String']
ar = 'boo'
nsa = get_namespace
nsb = get_namespace ['Foo']
nsb.'export_to'(nsa, ar)
.end
CODE
errormsg = "exporting default object set not yet implemented"
description = 'export_to() with null exports default object set !!!UNSPECIFIED!!!'
throws_substring(<<'CODE', errormsg, description)
.sub 'test' :main
.local pmc nsa, nsb, ar
ar = new ['Null']
nsa = get_namespace
nsb = get_namespace ['Foo']
nsb.'export_to'(nsa, ar)
.end
CODE
errormsg = "exporting default object set not yet implemented"
description = 'export_to() with empty array exports default object set !!!UNSPECIFIED!!!'
throws_substring(<<'CODE', errormsg, description)
.sub 'test' :main
.local pmc nsa, nsb, ar
ar = new ['ResizableStringArray']
nsa = get_namespace
nsb = get_namespace ['Foo']
nsb.'export_to'(nsa, ar)
.end
CODE
errormsg = "exporting default object set not yet implemented"
description = 'export_to() with empty hash exports default object set !!!UNSPECIFIED!!!'
throws_substring(<<'CODE', errormsg, description)
.sub 'test' :main
.local pmc nsa, nsb, ar
ar = new ['Hash']
nsa = get_namespace
nsb = get_namespace ['Foo']
nsb.'export_to'(nsa, ar)
.end
CODE
.const 'Sub' empty_name_hash = 'export_empty_name_in_hash'
throws_type(empty_name_hash, .EXCEPTION_INVALID_OPERATION, 'export from hash with empty key')
.const 'Sub' not_found_hash = 'export_not_found_in_hash'
throws_type(not_found_hash, .EXCEPTION_GLOBAL_NOT_FOUND, 'export from hash with key not found')
.const 'Sub' empty_name_array = 'export_empty_name_in_array'
throws_type(empty_name_array, .EXCEPTION_INVALID_OPERATION, 'export from array with empty value')
.const 'Sub' not_found_array = 'export_not_found_in_array'
throws_type(not_found_array, .EXCEPTION_GLOBAL_NOT_FOUND, 'export from array with value not found')
# Things to add: successful export_to with non-empty array, successful
# export_to with non-empty hash. both of these things across HLL boundaries
.end
##### TEST NAMESPACES AND FUNCTIONS #####
# These functions and namespaces are used for the tests above
# The current namespace
.namespace []
.sub 'baz'
.return("")
.end
# NameSpace "Foo"
.namespace ["Foo"]
.sub 'baz'
.return("Foo")
.end
# NameSpace "Foo";"Bar". Nested namespace
.namespace ["Foo";"Bar"]
.sub 'baz'
.return("Foo::Bar")
.end
# Namespace "Foo";"Bar";"Baz". Nested namespace
.namespace ["Foo";"Bar";"Baz"]
.sub 'widget'
.return("Foo::Bar::Baz")
.end
# Nested namespace and a sub with same name
.namespace ["FooSub"]
.sub 'Bar'
.end
.namespace ["FooSub";"Bar"]
.sub 'boo'
.end
# Namespace with :vtable
.namespace ["WithVtable"]
.sub 'get_string' :anon :vtable
.return('something')
.end
# Namespace specified in ISO-8859-1
.namespace [ iso-8859-1:"Fran\x{E7}ois" ]
.sub 'baz'
.return(iso-8859-1:"Fran\x{E7}ois")
.end
# Nested namespace specified in ISO-8859
.namespace [ "Foo"; iso-8859-1:"Fran\x{E7}ois" ]
.sub 'baz'
.return(iso-8859-1:"Foo::Fran\x{E7}ois")
.end
# Namesace specified in Unicode
.namespace [ utf8:"\x{20AC}uros" ]
.sub 'baz'
.return(utf8:"\x{20AC}uros")
.end
# Nested namespace specified in Unicode
.namespace [ "Foo";utf8:"\x{20AC}uros" ]
.sub 'baz'
.return(utf8:"Foo::\x{20AC}uros")
.end
.HLL "MyHLL"
.sub 'baz'
.return("MyHLL")
.end
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