# *-*- Mode: Python -*-* # This file is a stress test of supported qapi constructs that must # parse and compile correctly. ## # = Section # == subsection # # Some text foo with *strong* and _emphasis_ # 1. with a list # 2. like that @foo # # And some code: # | $ echo foo # | -> do this # | <- get that # # Note: is not a meta ## ## # @TestStruct: # # body with @var # # @integer: foo # blah # # bao # # @boolean: bar # @string: baz # # Example: # # -> { "execute": ... } # <- { "return": ... } # # Since: 2.3 # Note: a note # ## { 'struct': 'TestStruct', 'data': { 'integer': 'int', 'boolean': 'bool', 'string': 'str' } } ## # @NestedEnumsOne: # for testing enums ## { 'struct': 'NestedEnumsOne', 'data': { 'enum1': 'EnumOne', # Intentional forward reference '*enum2': 'EnumOne', 'enum3': 'EnumOne', '*enum4': 'EnumOne' } } ## # @MyEnum: # An empty enum, although unusual, is currently acceptable ## { 'enum': 'MyEnum', 'data': [ ] } ## # @Empty1: # Likewise for an empty struct, including an empty base ## { 'struct': 'Empty1', 'data': { } } ## # @Empty2: ## { 'struct': 'Empty2', 'base': 'Empty1', 'data': { } } ## # @user_def_cmd0: ## { 'command': 'user_def_cmd0', 'data': 'Empty2', 'returns': 'Empty2' } ## # @QEnumTwo: # for testing override of default naming heuristic ## { 'enum': 'QEnumTwo', 'prefix': 'QENUM_TWO', 'data': [ 'value1', 'value2' ] } ## # @UserDefOne: # for testing nested structs ## { 'struct': 'UserDefOne', 'base': 'UserDefZero', # intentional forward reference 'data': { 'string': 'str', '*enum1': 'EnumOne' } } # intentional forward reference ## # @EnumOne: ## { 'enum': 'EnumOne', 'data': [ 'value1', 'value2', 'value3' ] } ## # @UserDefZero: ## { 'struct': 'UserDefZero', 'data': { 'integer': 'int' } } ## # @UserDefTwoDictDict: ## { 'struct': 'UserDefTwoDictDict', 'data': { 'userdef': 'UserDefOne', 'string': 'str' } } ## # @UserDefTwoDict: ## { 'struct': 'UserDefTwoDict', 'data': { 'string1': 'str', 'dict2': 'UserDefTwoDictDict', '*dict3': 'UserDefTwoDictDict' } } ## # @UserDefTwo: ## { 'struct': 'UserDefTwo', 'data': { 'string0': 'str', 'dict1': 'UserDefTwoDict' } } ## # @ForceArrays: # dummy struct to force generation of array types not otherwise mentioned ## { 'struct': 'ForceArrays', 'data': { 'unused1':['UserDefOne'], 'unused2':['UserDefTwo'], 'unused3':['TestStruct'] } } ## # @UserDefA: # for testing unions # Among other things, test that a name collision between branches does # not cause any problems (since only one branch can be in use at a time), # by intentionally using two branches that both have a C member 'a_b' ## { 'struct': 'UserDefA', 'data': { 'boolean': 'bool', '*a_b': 'int' } } ## # @UserDefB: ## { 'struct': 'UserDefB', 'data': { 'intb': 'int', '*a-b': 'bool' } } ## # @UserDefFlatUnion: ## { 'union': 'UserDefFlatUnion', 'base': 'UserDefUnionBase', # intentional forward reference 'discriminator': 'enum1', 'data': { 'value1' : 'UserDefA', 'value2' : 'UserDefB', 'value3' : 'UserDefB' } } ## # @UserDefUnionBase: ## { 'struct': 'UserDefUnionBase', 'base': 'UserDefZero', 'data': { 'string': 'str', 'enum1': 'EnumOne' } } ## # @UserDefFlatUnion2: # this variant of UserDefFlatUnion defaults to a union that uses members with # allocated types to test corner cases in the cleanup/dealloc visitor ## { 'union': 'UserDefFlatUnion2', 'base': { '*integer': 'int', 'string': 'str', 'enum1': 'QEnumTwo' }, 'discriminator': 'enum1', 'data': { 'value1' : 'UserDefC', # intentional forward reference 'value2' : 'UserDefB' } } ## # @WrapAlternate: ## { 'struct': 'WrapAlternate', 'data': { 'alt': 'UserDefAlternate' } } ## # @UserDefAlternate: ## { 'alternate': 'UserDefAlternate', 'data': { 'udfu': 'UserDefFlatUnion', 's': 'str', 'i': 'int' } } ## # @UserDefC: ## { 'struct': 'UserDefC', 'data': { 'string1': 'str', 'string2': 'str' } } # for testing use of 'number' within alternates ## # @AltStrBool: ## { 'alternate': 'AltStrBool', 'data': { 's': 'str', 'b': 'bool' } } ## # @AltStrNum: ## { 'alternate': 'AltStrNum', 'data': { 's': 'str', 'n': 'number' } } ## # @AltNumStr: ## { 'alternate': 'AltNumStr', 'data': { 'n': 'number', 's': 'str' } } ## # @AltStrInt: ## { 'alternate': 'AltStrInt', 'data': { 's': 'str', 'i': 'int' } } ## # @AltIntNum: ## { 'alternate': 'AltIntNum', 'data': { 'i': 'int', 'n': 'number' } } ## # @AltNumInt: ## { 'alternate': 'AltNumInt', 'data': { 'n': 'number', 'i': 'int' } } ## # @UserDefNativeListUnion: # for testing native lists ## { 'union': 'UserDefNativeListUnion', 'data': { 'integer': ['int'], 's8': ['int8'], 's16': ['int16'], 's32': ['int32'], 's64': ['int64'], 'u8': ['uint8'], 'u16': ['uint16'], 'u32': ['uint32'], 'u64': ['uint64'], 'number': ['number'], 'boolean': ['bool'], 'string': ['str'], 'sizes': ['size'], 'any': ['any'] } } # testing commands ## # @user_def_cmd: ## { 'command': 'user_def_cmd', 'data': {} } ## # @user_def_cmd1: ## { 'command': 'user_def_cmd1', 'data': {'ud1a': 'UserDefOne'} } ## # @user_def_cmd2: ## { 'command': 'user_def_cmd2', 'data': {'ud1a': 'UserDefOne', '*ud1b': 'UserDefOne'}, 'returns': 'UserDefTwo' } ## # Another comment ## ## # @guest-get-time: # # @guest-get-time body # # @a: an integer # @b: #optional integer # # Returns: returns something # # Example: # # -> { "execute": "guest-get-time", ... } # <- { "return": "42" } # ## # Returning a non-dictionary requires a name from the whitelist { 'command': 'guest-get-time', 'data': {'a': 'int', '*b': 'int' }, 'returns': 'int' } ## # @guest-sync: ## { 'command': 'guest-sync', 'data': { 'arg': 'any' }, 'returns': 'any' } ## # @boxed-struct: ## { 'command': 'boxed-struct', 'boxed': true, 'data': 'UserDefZero' } ## # @boxed-union: ## { 'command': 'boxed-union', 'data': 'UserDefNativeListUnion', 'boxed': true } ## # @UserDefOptions: # # For testing integer range flattening in opts-visitor. The following schema # corresponds to the option format: # # -userdef i64=3-6,i64=-5--1,u64=2,u16=1,u16=7-12 # # For simplicity, this example doesn't use [type=]discriminator nor optargs # specific to discriminator values. ## { 'struct': 'UserDefOptions', 'data': { '*i64' : [ 'int' ], '*u64' : [ 'uint64' ], '*u16' : [ 'uint16' ], '*i64x': 'int' , '*u64x': 'uint64' } } # testing event ## # @EventStructOne: ## { 'struct': 'EventStructOne', 'data': { 'struct1': 'UserDefOne', 'string': 'str', '*enum2': 'EnumOne' } } ## # @EVENT_A: ## { 'event': 'EVENT_A' } ## # @EVENT_B: ## { 'event': 'EVENT_B', 'data': { } } ## # @EVENT_C: ## { 'event': 'EVENT_C', 'data': { '*a': 'int', '*b': 'UserDefOne', 'c': 'str' } } ## # @EVENT_D: ## { 'event': 'EVENT_D', 'data': { 'a' : 'EventStructOne', 'b' : 'str', '*c': 'str', '*enum3': 'EnumOne' } } ## # @EVENT_E: ## { 'event': 'EVENT_E', 'boxed': true, 'data': 'UserDefZero' } ## # @EVENT_F: ## { 'event': 'EVENT_F', 'boxed': true, 'data': 'UserDefAlternate' } # test that we correctly compile downstream extensions, as well as munge # ticklish names ## # @__org.qemu_x-Enum: ## { 'enum': '__org.qemu_x-Enum', 'data': [ '__org.qemu_x-value' ] } ## # @__org.qemu_x-Base: ## { 'struct': '__org.qemu_x-Base', 'data': { '__org.qemu_x-member1': '__org.qemu_x-Enum' } } ## # @__org.qemu_x-Struct: ## { 'struct': '__org.qemu_x-Struct', 'base': '__org.qemu_x-Base', 'data': { '__org.qemu_x-member2': 'str', '*wchar-t': 'int' } } ## # @__org.qemu_x-Union1: ## { 'union': '__org.qemu_x-Union1', 'data': { '__org.qemu_x-branch': 'str' } } ## # @__org.qemu_x-Struct2: ## { 'struct': '__org.qemu_x-Struct2', 'data': { 'array': ['__org.qemu_x-Union1'] } } ## # @__org.qemu_x-Union2: ## { 'union': '__org.qemu_x-Union2', 'base': '__org.qemu_x-Base', 'discriminator': '__org.qemu_x-member1', 'data': { '__org.qemu_x-value': '__org.qemu_x-Struct2' } } ## # @__org.qemu_x-Alt: ## { 'alternate': '__org.qemu_x-Alt', 'data': { '__org.qemu_x-branch': 'str', 'b': '__org.qemu_x-Base' } } ## # @__ORG.QEMU_X-EVENT: ## { 'event': '__ORG.QEMU_X-EVENT', 'data': '__org.qemu_x-Struct' } ## # @__org.qemu_x-command: ## { 'command': '__org.qemu_x-command', 'data': { 'a': ['__org.qemu_x-Enum'], 'b': ['__org.qemu_x-Struct'], 'c': '__org.qemu_x-Union2', 'd': '__org.qemu_x-Alt' }, 'returns': '__org.qemu_x-Union1' }