qapi: Prefer 'struct' over 'type' in generator
Referring to "type" as both a meta-type (built-in, enum, union, alternate, or struct) and a specific type (the name that the schema uses for declaring structs) is confusing. The confusion is only made worse by the fact that the generator mostly already refers to struct even when dealing with expr['type']. This commit changes the generator to consistently refer to it as struct everywhere, plus a single back-compat tweak that allows accepting the existing .json files as-is, so that the meat of this change is separate from the mindless churn of that change. Fix the testsuite fallout for error messages that change, and in some cases, become more legible. Improve comments to better match our intentions where a struct (rather than any complex type) is required. Note that in some cases, an error message now refers to 'struct' while the schema still refers to 'type'; that will be cleaned up in the later commit to the schema. Signed-off-by: Eric Blake <eblake@redhat.com> Reviewed-by: Markus Armbruster <armbru@redhat.com> Signed-off-by: Markus Armbruster <armbru@redhat.com>
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2cbf09925a
commit
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@ -83,7 +83,7 @@ def generate_struct_fields(members):
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def generate_struct(expr):
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structname = expr.get('type', "")
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structname = expr.get('struct', "")
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fieldname = expr.get('field', "")
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members = expr['data']
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base = expr.get('base')
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@ -394,8 +394,8 @@ fdecl.write(guardend("QAPI_TYPES_BUILTIN_STRUCT_DECL"))
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for expr in exprs:
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ret = "\n"
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if expr.has_key('type'):
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ret += generate_fwd_struct(expr['type'], expr['data'])
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if expr.has_key('struct'):
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ret += generate_fwd_struct(expr['struct'], expr['data'])
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elif expr.has_key('enum'):
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ret += generate_enum(expr['enum'], expr['data']) + "\n"
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ret += generate_fwd_enum_struct(expr['enum'], expr['data'])
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@ -435,12 +435,12 @@ if do_builtins:
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for expr in exprs:
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ret = "\n"
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if expr.has_key('type'):
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if expr.has_key('struct'):
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ret += generate_struct(expr) + "\n"
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ret += generate_type_cleanup_decl(expr['type'] + "List")
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fdef.write(generate_type_cleanup(expr['type'] + "List") + "\n")
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ret += generate_type_cleanup_decl(expr['type'])
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fdef.write(generate_type_cleanup(expr['type']) + "\n")
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ret += generate_type_cleanup_decl(expr['struct'] + "List")
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fdef.write(generate_type_cleanup(expr['struct'] + "List") + "\n")
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ret += generate_type_cleanup_decl(expr['struct'])
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fdef.write(generate_type_cleanup(expr['struct']) + "\n")
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elif expr.has_key('union'):
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ret += generate_union(expr, 'union')
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ret += generate_type_cleanup_decl(expr['union'] + "List")
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@ -178,7 +178,7 @@ def generate_visit_struct_body(field_prefix, name, members):
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def generate_visit_struct(expr):
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name = expr['type']
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name = expr['struct']
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members = expr['data']
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base = expr.get('base')
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@ -545,12 +545,12 @@ if do_builtins:
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fdef.write(generate_visit_list(typename, None))
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for expr in exprs:
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if expr.has_key('type'):
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if expr.has_key('struct'):
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ret = generate_visit_struct(expr)
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ret += generate_visit_list(expr['type'], expr['data'])
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ret += generate_visit_list(expr['struct'], expr['data'])
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fdef.write(ret)
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ret = generate_declaration(expr['type'], expr['data'])
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ret = generate_declaration(expr['struct'], expr['data'])
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fdecl.write(ret)
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elif expr.has_key('union'):
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ret = generate_visit_union(expr)
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@ -419,7 +419,7 @@ def check_union(expr, expr_info):
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members = expr['data']
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values = { 'MAX': '(automatic)' }
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# If the object has a member 'base', its value must name a complex type,
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# If the object has a member 'base', its value must name a struct,
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# and there must be a discriminator.
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if base is not None:
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if discriminator is None:
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@ -448,18 +448,18 @@ def check_union(expr, expr_info):
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base_fields = find_base_fields(base)
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if not base_fields:
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raise QAPIExprError(expr_info,
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"Base '%s' is not a valid type"
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"Base '%s' is not a valid struct"
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% base)
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# The value of member 'discriminator' must name a non-optional
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# member of the base type.
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# member of the base struct.
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check_name(expr_info, "Discriminator of flat union '%s'" % name,
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discriminator)
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discriminator_type = base_fields.get(discriminator)
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if not discriminator_type:
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raise QAPIExprError(expr_info,
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"Discriminator '%s' is not a member of base "
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"type '%s'"
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"struct '%s'"
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% (discriminator, base))
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enum_define = find_enum(discriminator_type)
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allow_metas=['struct']
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@ -546,12 +546,12 @@ def check_enum(expr, expr_info):
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values[key] = member
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def check_struct(expr, expr_info):
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name = expr['type']
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name = expr['struct']
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members = expr['data']
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check_type(expr_info, "'data' for type '%s'" % name, members,
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check_type(expr_info, "'data' for struct '%s'" % name, members,
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allow_dict=True, allow_optional=True)
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check_type(expr_info, "'base' for type '%s'" % name, expr.get('base'),
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check_type(expr_info, "'base' for struct '%s'" % name, expr.get('base'),
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allow_metas=['struct'])
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def check_exprs(schema):
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@ -565,7 +565,7 @@ def check_exprs(schema):
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check_union(expr, info)
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elif expr.has_key('alternate'):
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check_alternate(expr, info)
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elif expr.has_key('type'):
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elif expr.has_key('struct'):
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check_struct(expr, info)
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elif expr.has_key('command'):
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check_command(expr, info)
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@ -617,6 +617,20 @@ def parse_schema(input_file):
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for expr_elem in schema.exprs:
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expr = expr_elem['expr']
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info = expr_elem['info']
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# back-compat hack until all schemas have been converted;
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# preserve the ordering of the original expression
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if expr.has_key('type'):
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seen_type = False
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for (key, value) in expr.items():
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if key == 'type':
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seen_type = True
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del expr['type']
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expr['struct'] = value
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elif seen_type:
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del expr[key]
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expr[key] = value
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if expr.has_key('enum'):
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check_keys(expr_elem, 'enum', ['data'])
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add_enum(expr['enum'], info, expr['data'])
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@ -627,8 +641,8 @@ def parse_schema(input_file):
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elif expr.has_key('alternate'):
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check_keys(expr_elem, 'alternate', ['data'])
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add_name(expr['alternate'], info, 'alternate')
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elif expr.has_key('type'):
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check_keys(expr_elem, 'type', ['data'], ['base'])
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elif expr.has_key('struct'):
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check_keys(expr_elem, 'struct', ['data'], ['base'])
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add_struct(expr, info)
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elif expr.has_key('command'):
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check_keys(expr_elem, 'command', [],
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@ -745,11 +759,9 @@ def type_name(name):
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return c_list_type(name[0])
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return name
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def add_name(name, info, meta, implicit = False, source = None):
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def add_name(name, info, meta, implicit = False):
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global all_names
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if not source:
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source = "'%s'" % meta
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check_name(info, source, name)
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check_name(info, "'%s'" % meta, name)
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if name in all_names:
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raise QAPIExprError(info,
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"%s '%s' is already defined"
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@ -762,14 +774,14 @@ def add_name(name, info, meta, implicit = False, source = None):
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def add_struct(definition, info):
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global struct_types
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name = definition['type']
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add_name(name, info, 'struct', source="'type'")
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name = definition['struct']
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add_name(name, info, 'struct')
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struct_types.append(definition)
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def find_struct(name):
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global struct_types
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for struct in struct_types:
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if struct['type'] == name:
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if struct['struct'] == name:
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return struct
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return None
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@ -1,6 +1,6 @@
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[OrderedDict([('type', 'Data'), ('data', OrderedDict([('*number', 'int'), ('*name', 'str')]))]),
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[OrderedDict([('struct', 'Data'), ('data', OrderedDict([('*number', 'int'), ('*name', 'str')]))]),
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OrderedDict([('enum', 'Enum'), ('data', ['hello', 'world'])]),
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OrderedDict([('alternate', 'Alt'), ('data', OrderedDict([('value', 'int'), ('string', 'Enum'), ('struct', 'Data')]))])]
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[{'enum_name': 'Enum', 'enum_values': ['hello', 'world']},
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{'enum_name': 'AltKind', 'enum_values': None}]
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[OrderedDict([('type', 'Data'), ('data', OrderedDict([('*number', 'int'), ('*name', 'str')]))])]
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[OrderedDict([('struct', 'Data'), ('data', OrderedDict([('*number', 'int'), ('*name', 'str')]))])]
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@ -1 +1 @@
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tests/qapi-schema/bad-base.json:3: 'base' for type 'MyType' cannot use union type 'Union'
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tests/qapi-schema/bad-base.json:3: 'base' for struct 'MyType' cannot use union type 'Union'
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@ -1 +1 @@
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tests/qapi-schema/bad-ident.json:2: 'type' does not allow optional name '*oops'
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tests/qapi-schema/bad-ident.json:2: 'struct' does not allow optional name '*oops'
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@ -1 +1 @@
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tests/qapi-schema/bad-type-bool.json:2: 'type' key must have a string value
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tests/qapi-schema/bad-type-bool.json:2: 'struct' key must have a string value
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@ -1,5 +1,5 @@
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[OrderedDict([('enum', 'abc'), ('data', ['a', 'b', 'c'])]),
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OrderedDict([('type', 'def'), ('data', OrderedDict([('array', ['abc'])]))]),
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OrderedDict([('struct', 'def'), ('data', OrderedDict([('array', ['abc'])]))]),
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OrderedDict([('command', 'okay'), ('data', OrderedDict([('member1', ['int']), ('member2', ['def'])]))])]
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[{'enum_name': 'abc', 'enum_values': ['a', 'b', 'c']}]
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[OrderedDict([('type', 'def'), ('data', OrderedDict([('array', ['abc'])]))])]
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[OrderedDict([('struct', 'def'), ('data', OrderedDict([('array', ['abc'])]))])]
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@ -1 +1 @@
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tests/qapi-schema/double-type.json:2: Unknown key 'command' in type 'bar'
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tests/qapi-schema/double-type.json:2: Unknown key 'command' in struct 'bar'
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@ -1,4 +1,4 @@
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# we require the base to be an existing complex type
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# we require the base to be an existing struct
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# TODO: should we allow an anonymous inline base type?
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{ 'enum': 'TestEnum',
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'data': [ 'value1', 'value2' ] }
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@ -1 +1 @@
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tests/qapi-schema/flat-union-base-star.json:8: Base '**' is not a valid type
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tests/qapi-schema/flat-union-base-star.json:8: Base '**' is not a valid struct
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@ -1,4 +1,4 @@
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# we require the base to be an existing complex type
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# we require the base to be an existing struct
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{ 'enum': 'TestEnum',
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'data': [ 'value1', 'value2' ] }
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{ 'type': 'TestTypeA',
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@ -1 +1 @@
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tests/qapi-schema/flat-union-base-union.json:11: Base 'UnionBase' is not a valid type
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tests/qapi-schema/flat-union-base-union.json:11: Base 'UnionBase' is not a valid struct
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@ -1,4 +1,4 @@
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# FIXME: the error message needs help: we require the base to be a struct
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# we require the base to be a struct
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{ 'enum': 'TestEnum',
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'data': [ 'value1', 'value2' ] }
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{ 'type': 'TestTypeA',
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@ -1,9 +1,9 @@
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[OrderedDict([('enum', 'TestEnum'), ('data', ['value1', 'value2'])]),
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OrderedDict([('type', 'Base'), ('data', OrderedDict([('enum1', 'TestEnum'), ('name', 'str')]))]),
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OrderedDict([('type', 'Branch1'), ('data', OrderedDict([('name', 'str')]))]),
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OrderedDict([('type', 'Branch2'), ('data', OrderedDict([('value', 'int')]))]),
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OrderedDict([('struct', 'Base'), ('data', OrderedDict([('enum1', 'TestEnum'), ('name', 'str')]))]),
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OrderedDict([('struct', 'Branch1'), ('data', OrderedDict([('name', 'str')]))]),
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OrderedDict([('struct', 'Branch2'), ('data', OrderedDict([('value', 'int')]))]),
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OrderedDict([('union', 'TestUnion'), ('base', 'Base'), ('discriminator', 'enum1'), ('data', OrderedDict([('value1', 'Branch1'), ('value2', 'Branch2')]))])]
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[{'enum_name': 'TestEnum', 'enum_values': ['value1', 'value2']}]
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[OrderedDict([('type', 'Base'), ('data', OrderedDict([('enum1', 'TestEnum'), ('name', 'str')]))]),
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OrderedDict([('type', 'Branch1'), ('data', OrderedDict([('name', 'str')]))]),
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OrderedDict([('type', 'Branch2'), ('data', OrderedDict([('value', 'int')]))])]
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[OrderedDict([('struct', 'Base'), ('data', OrderedDict([('enum1', 'TestEnum'), ('name', 'str')]))]),
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OrderedDict([('struct', 'Branch1'), ('data', OrderedDict([('name', 'str')]))]),
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OrderedDict([('struct', 'Branch2'), ('data', OrderedDict([('value', 'int')]))])]
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@ -1,4 +1,4 @@
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# we require branches to be a complex type name
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# we require branches to be a struct name
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# TODO: should we allow anonymous inline types?
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{ 'enum': 'TestEnum',
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'data': [ 'value1', 'value2' ] }
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@ -1,4 +1,4 @@
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# we require flat union branches to be a complex type
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# we require flat union branches to be a struct
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{ 'enum': 'TestEnum',
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'data': [ 'value1', 'value2' ] }
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{ 'type': 'Base',
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@ -1 +1 @@
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tests/qapi-schema/flat-union-invalid-discriminator.json:13: Discriminator 'enum_wrong' is not a member of base type 'TestBase'
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tests/qapi-schema/flat-union-invalid-discriminator.json:13: Discriminator 'enum_wrong' is not a member of base struct 'TestBase'
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@ -1,9 +1,9 @@
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[OrderedDict([('union', 'TestUnion'), ('base', 'TestBase'), ('discriminator', 'enum1'), ('data', OrderedDict([('value1', 'TestTypeA'), ('value2', 'TestTypeB')]))]),
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OrderedDict([('type', 'TestBase'), ('data', OrderedDict([('enum1', 'TestEnum')]))]),
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OrderedDict([('struct', 'TestBase'), ('data', OrderedDict([('enum1', 'TestEnum')]))]),
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OrderedDict([('enum', 'TestEnum'), ('data', ['value1', 'value2'])]),
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OrderedDict([('type', 'TestTypeA'), ('data', OrderedDict([('string', 'str')]))]),
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OrderedDict([('type', 'TestTypeB'), ('data', OrderedDict([('integer', 'int')]))])]
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OrderedDict([('struct', 'TestTypeA'), ('data', OrderedDict([('string', 'str')]))]),
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OrderedDict([('struct', 'TestTypeB'), ('data', OrderedDict([('integer', 'int')]))])]
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[{'enum_name': 'TestEnum', 'enum_values': ['value1', 'value2']}]
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[OrderedDict([('type', 'TestBase'), ('data', OrderedDict([('enum1', 'TestEnum')]))]),
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OrderedDict([('type', 'TestTypeA'), ('data', OrderedDict([('string', 'str')]))]),
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OrderedDict([('type', 'TestTypeB'), ('data', OrderedDict([('integer', 'int')]))])]
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[OrderedDict([('struct', 'TestBase'), ('data', OrderedDict([('enum1', 'TestEnum')]))]),
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OrderedDict([('struct', 'TestTypeA'), ('data', OrderedDict([('string', 'str')]))]),
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OrderedDict([('struct', 'TestTypeB'), ('data', OrderedDict([('integer', 'int')]))])]
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@ -1,13 +1,13 @@
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[OrderedDict([('enum', 'EnumOne'), ('data', ['value1', 'value2', 'value3'])]),
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OrderedDict([('type', 'NestedEnumsOne'), ('data', OrderedDict([('enum1', 'EnumOne'), ('*enum2', 'EnumOne'), ('enum3', 'EnumOne'), ('*enum4', 'EnumOne')]))]),
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OrderedDict([('type', 'UserDefZero'), ('data', OrderedDict([('integer', 'int')]))]),
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OrderedDict([('type', 'UserDefOne'), ('base', 'UserDefZero'), ('data', OrderedDict([('string', 'str'), ('*enum1', 'EnumOne')]))]),
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OrderedDict([('type', 'UserDefTwo'), ('data', OrderedDict([('string', 'str'), ('dict', OrderedDict([('string', 'str'), ('dict', OrderedDict([('userdef', 'UserDefOne'), ('string', 'str')])), ('*dict2', OrderedDict([('userdef', 'UserDefOne'), ('string', 'str')]))]))]))]),
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OrderedDict([('type', 'UserDefNested'), ('data', OrderedDict([('string0', 'str'), ('dict1', OrderedDict([('string1', 'str'), ('dict2', OrderedDict([('userdef1', 'UserDefOne'), ('string2', 'str')])), ('*dict3', OrderedDict([('userdef2', 'UserDefOne'), ('string3', 'str')]))]))]))]),
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OrderedDict([('type', 'UserDefA'), ('data', OrderedDict([('boolean', 'bool')]))]),
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OrderedDict([('type', 'UserDefB'), ('data', OrderedDict([('integer', 'int')]))]),
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OrderedDict([('type', 'UserDefC'), ('data', OrderedDict([('string1', 'str'), ('string2', 'str')]))]),
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OrderedDict([('type', 'UserDefUnionBase'), ('data', OrderedDict([('string', 'str'), ('enum1', 'EnumOne')]))]),
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OrderedDict([('struct', 'NestedEnumsOne'), ('data', OrderedDict([('enum1', 'EnumOne'), ('*enum2', 'EnumOne'), ('enum3', 'EnumOne'), ('*enum4', 'EnumOne')]))]),
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OrderedDict([('struct', 'UserDefZero'), ('data', OrderedDict([('integer', 'int')]))]),
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OrderedDict([('struct', 'UserDefOne'), ('base', 'UserDefZero'), ('data', OrderedDict([('string', 'str'), ('*enum1', 'EnumOne')]))]),
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OrderedDict([('struct', 'UserDefTwo'), ('data', OrderedDict([('string', 'str'), ('dict', OrderedDict([('string', 'str'), ('dict', OrderedDict([('userdef', 'UserDefOne'), ('string', 'str')])), ('*dict2', OrderedDict([('userdef', 'UserDefOne'), ('string', 'str')]))]))]))]),
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OrderedDict([('struct', 'UserDefNested'), ('data', OrderedDict([('string0', 'str'), ('dict1', OrderedDict([('string1', 'str'), ('dict2', OrderedDict([('userdef1', 'UserDefOne'), ('string2', 'str')])), ('*dict3', OrderedDict([('userdef2', 'UserDefOne'), ('string3', 'str')]))]))]))]),
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OrderedDict([('struct', 'UserDefA'), ('data', OrderedDict([('boolean', 'bool')]))]),
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OrderedDict([('struct', 'UserDefB'), ('data', OrderedDict([('integer', 'int')]))]),
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OrderedDict([('struct', 'UserDefC'), ('data', OrderedDict([('string1', 'str'), ('string2', 'str')]))]),
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OrderedDict([('struct', 'UserDefUnionBase'), ('data', OrderedDict([('string', 'str'), ('enum1', 'EnumOne')]))]),
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OrderedDict([('union', 'UserDefFlatUnion'), ('base', 'UserDefUnionBase'), ('discriminator', 'enum1'), ('data', OrderedDict([('value1', 'UserDefA'), ('value2', 'UserDefB'), ('value3', 'UserDefB')]))]),
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OrderedDict([('union', 'UserDefFlatUnion2'), ('base', 'UserDefUnionBase'), ('discriminator', 'enum1'), ('data', OrderedDict([('value1', 'UserDefC'), ('value2', 'UserDefB'), ('value3', 'UserDefA')]))]),
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OrderedDict([('alternate', 'UserDefAlternate'), ('data', OrderedDict([('uda', 'UserDefA'), ('s', 'str'), ('i', 'int')]))]),
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@ -16,8 +16,8 @@
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OrderedDict([('command', 'user_def_cmd1'), ('data', OrderedDict([('ud1a', 'UserDefOne')]))]),
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OrderedDict([('command', 'user_def_cmd2'), ('data', OrderedDict([('ud1a', 'UserDefOne'), ('*ud1b', 'UserDefOne')])), ('returns', 'UserDefTwo')]),
|
||||
OrderedDict([('command', 'user_def_cmd3'), ('data', OrderedDict([('a', 'int'), ('*b', 'int')])), ('returns', 'int')]),
|
||||
OrderedDict([('type', 'UserDefOptions'), ('data', OrderedDict([('*i64', ['int']), ('*u64', ['uint64']), ('*u16', ['uint16']), ('*i64x', 'int'), ('*u64x', 'uint64')]))]),
|
||||
OrderedDict([('type', 'EventStructOne'), ('data', OrderedDict([('struct1', 'UserDefOne'), ('string', 'str'), ('*enum2', 'EnumOne')]))]),
|
||||
OrderedDict([('struct', 'UserDefOptions'), ('data', OrderedDict([('*i64', ['int']), ('*u64', ['uint64']), ('*u16', ['uint16']), ('*i64x', 'int'), ('*u64x', 'uint64')]))]),
|
||||
OrderedDict([('struct', 'EventStructOne'), ('data', OrderedDict([('struct1', 'UserDefOne'), ('string', 'str'), ('*enum2', 'EnumOne')]))]),
|
||||
OrderedDict([('event', 'EVENT_A')]),
|
||||
OrderedDict([('event', 'EVENT_B'), ('data', OrderedDict())]),
|
||||
OrderedDict([('event', 'EVENT_C'), ('data', OrderedDict([('*a', 'int'), ('*b', 'UserDefOne'), ('c', 'str')]))]),
|
||||
@ -25,14 +25,14 @@
|
||||
[{'enum_name': 'EnumOne', 'enum_values': ['value1', 'value2', 'value3']},
|
||||
{'enum_name': 'UserDefAlternateKind', 'enum_values': None},
|
||||
{'enum_name': 'UserDefNativeListUnionKind', 'enum_values': None}]
|
||||
[OrderedDict([('type', 'NestedEnumsOne'), ('data', OrderedDict([('enum1', 'EnumOne'), ('*enum2', 'EnumOne'), ('enum3', 'EnumOne'), ('*enum4', 'EnumOne')]))]),
|
||||
OrderedDict([('type', 'UserDefZero'), ('data', OrderedDict([('integer', 'int')]))]),
|
||||
OrderedDict([('type', 'UserDefOne'), ('base', 'UserDefZero'), ('data', OrderedDict([('string', 'str'), ('*enum1', 'EnumOne')]))]),
|
||||
OrderedDict([('type', 'UserDefTwo'), ('data', OrderedDict([('string', 'str'), ('dict', OrderedDict([('string', 'str'), ('dict', OrderedDict([('userdef', 'UserDefOne'), ('string', 'str')])), ('*dict2', OrderedDict([('userdef', 'UserDefOne'), ('string', 'str')]))]))]))]),
|
||||
OrderedDict([('type', 'UserDefNested'), ('data', OrderedDict([('string0', 'str'), ('dict1', OrderedDict([('string1', 'str'), ('dict2', OrderedDict([('userdef1', 'UserDefOne'), ('string2', 'str')])), ('*dict3', OrderedDict([('userdef2', 'UserDefOne'), ('string3', 'str')]))]))]))]),
|
||||
OrderedDict([('type', 'UserDefA'), ('data', OrderedDict([('boolean', 'bool')]))]),
|
||||
OrderedDict([('type', 'UserDefB'), ('data', OrderedDict([('integer', 'int')]))]),
|
||||
OrderedDict([('type', 'UserDefC'), ('data', OrderedDict([('string1', 'str'), ('string2', 'str')]))]),
|
||||
OrderedDict([('type', 'UserDefUnionBase'), ('data', OrderedDict([('string', 'str'), ('enum1', 'EnumOne')]))]),
|
||||
OrderedDict([('type', 'UserDefOptions'), ('data', OrderedDict([('*i64', ['int']), ('*u64', ['uint64']), ('*u16', ['uint16']), ('*i64x', 'int'), ('*u64x', 'uint64')]))]),
|
||||
OrderedDict([('type', 'EventStructOne'), ('data', OrderedDict([('struct1', 'UserDefOne'), ('string', 'str'), ('*enum2', 'EnumOne')]))])]
|
||||
[OrderedDict([('struct', 'NestedEnumsOne'), ('data', OrderedDict([('enum1', 'EnumOne'), ('*enum2', 'EnumOne'), ('enum3', 'EnumOne'), ('*enum4', 'EnumOne')]))]),
|
||||
OrderedDict([('struct', 'UserDefZero'), ('data', OrderedDict([('integer', 'int')]))]),
|
||||
OrderedDict([('struct', 'UserDefOne'), ('base', 'UserDefZero'), ('data', OrderedDict([('string', 'str'), ('*enum1', 'EnumOne')]))]),
|
||||
OrderedDict([('struct', 'UserDefTwo'), ('data', OrderedDict([('string', 'str'), ('dict', OrderedDict([('string', 'str'), ('dict', OrderedDict([('userdef', 'UserDefOne'), ('string', 'str')])), ('*dict2', OrderedDict([('userdef', 'UserDefOne'), ('string', 'str')]))]))]))]),
|
||||
OrderedDict([('struct', 'UserDefNested'), ('data', OrderedDict([('string0', 'str'), ('dict1', OrderedDict([('string1', 'str'), ('dict2', OrderedDict([('userdef1', 'UserDefOne'), ('string2', 'str')])), ('*dict3', OrderedDict([('userdef2', 'UserDefOne'), ('string3', 'str')]))]))]))]),
|
||||
OrderedDict([('struct', 'UserDefA'), ('data', OrderedDict([('boolean', 'bool')]))]),
|
||||
OrderedDict([('struct', 'UserDefB'), ('data', OrderedDict([('integer', 'int')]))]),
|
||||
OrderedDict([('struct', 'UserDefC'), ('data', OrderedDict([('string1', 'str'), ('string2', 'str')]))]),
|
||||
OrderedDict([('struct', 'UserDefUnionBase'), ('data', OrderedDict([('string', 'str'), ('enum1', 'EnumOne')]))]),
|
||||
OrderedDict([('struct', 'UserDefOptions'), ('data', OrderedDict([('*i64', ['int']), ('*u64', ['uint64']), ('*u16', ['uint16']), ('*i64x', 'int'), ('*u64x', 'uint64')]))]),
|
||||
OrderedDict([('struct', 'EventStructOne'), ('data', OrderedDict([('struct1', 'UserDefOne'), ('string', 'str'), ('*enum2', 'EnumOne')]))])]
|
||||
|
@ -1 +1 @@
|
||||
tests/qapi-schema/union-invalid-base.json:8: Base 'int' is not a valid type
|
||||
tests/qapi-schema/union-invalid-base.json:8: Base 'int' is not a valid struct
|
||||
|
@ -1 +1 @@
|
||||
tests/qapi-schema/unknown-expr-key.json:2: Unknown key 'bogus' in type 'bar'
|
||||
tests/qapi-schema/unknown-expr-key.json:2: Unknown key 'bogus' in struct 'bar'
|
||||
|
Loading…
Reference in New Issue
Block a user