mirror of https://github.com/proxmox/mirror_qemu
qapi script: support enum type as discriminator in union
By default, any union will automatically generate a enum type as "[UnionName]Kind" in C code, and it is duplicated when the discriminator is specified as a pre-defined enum type in schema. After this patch, the pre-defined enum type will be really used as the switch case condition in generated C code, if discriminator is an enum field. Signed-off-by: Wenchao Xia <wenchaoqemu@gmail.com> Reviewed-by: Markus Armbruster <armbru@redhat.com> Signed-off-by: Luiz Capitulino <lcapitulino@redhat.com>master
Wenchao Xia
Luiz Capitulino
parent
b0b58195e4
commit
bceae7697f
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@ -123,11 +123,15 @@ And it looks like this on the wire:
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Flat union types avoid the nesting on the wire. They are used whenever a
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specific field of the base type is declared as the discriminator ('type' is
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then no longer generated). The discriminator must always be a string field.
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then no longer generated). The discriminator can be a string field or a
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predefined enum field. If it is a string field, a hidden enum type will be
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generated as "[UNION_NAME]Kind". If it is an enum field, a compile time check
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will be done to verify the correctness. It is recommended to use an enum field.
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The above example can then be modified as follows:
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{ 'enum': 'BlockdevDriver', 'data': [ 'raw', 'qcow2' ] }
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{ 'type': 'BlockdevCommonOptions',
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'data': { 'driver': 'str', 'readonly': 'bool' } }
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'data': { 'driver': 'BlockdevDriver', 'readonly': 'bool' } }
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{ 'union': 'BlockdevOptions',
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'base': 'BlockdevCommonOptions',
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'discriminator': 'driver',
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@ -201,14 +201,21 @@ def generate_union(expr):
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base = expr.get('base')
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discriminator = expr.get('discriminator')
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enum_define = discriminator_find_enum_define(expr)
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if enum_define:
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discriminator_type_name = enum_define['enum_name']
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else:
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discriminator_type_name = '%sKind' % (name)
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ret = mcgen('''
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struct %(name)s
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{
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%(name)sKind kind;
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%(discriminator_type_name)s kind;
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union {
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void *data;
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''',
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name=name)
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name=name,
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discriminator_type_name=discriminator_type_name)
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for key in typeinfo:
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ret += mcgen('''
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@ -389,8 +396,11 @@ for expr in exprs:
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fdef.write(generate_enum_lookup(expr['enum'], expr['data']))
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elif expr.has_key('union'):
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ret += generate_fwd_struct(expr['union'], expr['data']) + "\n"
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ret += generate_enum('%sKind' % expr['union'], expr['data'].keys())
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fdef.write(generate_enum_lookup('%sKind' % expr['union'], expr['data'].keys()))
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enum_define = discriminator_find_enum_define(expr)
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if not enum_define:
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ret += generate_enum('%sKind' % expr['union'], expr['data'].keys())
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fdef.write(generate_enum_lookup('%sKind' % expr['union'],
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expr['data'].keys()))
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if expr.get('discriminator') == {}:
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fdef.write(generate_anon_union_qtypes(expr))
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else:
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@ -259,10 +259,16 @@ def generate_visit_union(expr):
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assert not base
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return generate_visit_anon_union(name, members)
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# There will always be a discriminator in the C switch code, by default it
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# is an enum type generated silently as "'%sKind' % (name)"
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ret = generate_visit_enum('%sKind' % name, members.keys())
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disc_type = '%sKind' % (name)
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enum_define = discriminator_find_enum_define(expr)
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if enum_define:
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# Use the enum type as discriminator
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ret = ""
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disc_type = enum_define['enum_name']
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else:
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# There will always be a discriminator in the C switch code, by default it
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# is an enum type generated silently as "'%sKind' % (name)"
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ret = generate_visit_enum('%sKind' % name, members.keys())
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disc_type = '%sKind' % (name)
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if base:
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base_fields = find_struct(base)['data']
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@ -298,15 +304,16 @@ void visit_type_%(name)s(Visitor *m, %(name)s ** obj, const char *name, Error **
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pop_indent()
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if not discriminator:
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desc_type = "type"
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disc_key = "type"
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else:
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desc_type = discriminator
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disc_key = discriminator
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ret += mcgen('''
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visit_type_%(name)sKind(m, &(*obj)->kind, "%(type)s", &err);
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visit_type_%(disc_type)s(m, &(*obj)->kind, "%(disc_key)s", &err);
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if (!err) {
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switch ((*obj)->kind) {
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''',
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name=name, type=desc_type)
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disc_type = disc_type,
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disc_key = disc_key)
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for key in members:
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if not discriminator:
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@ -517,7 +524,11 @@ for expr in exprs:
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ret += generate_visit_list(expr['union'], expr['data'])
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fdef.write(ret)
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ret = generate_decl_enum('%sKind' % expr['union'], expr['data'].keys())
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enum_define = discriminator_find_enum_define(expr)
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ret = ""
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if not enum_define:
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ret = generate_decl_enum('%sKind' % expr['union'],
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expr['data'].keys())
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ret += generate_declaration(expr['union'], expr['data'])
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fdecl.write(ret)
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elif expr.has_key('enum'):
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@ -180,6 +180,25 @@ def find_base_fields(base):
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return None
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return base_struct_define['data']
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# Return the discriminator enum define if discriminator is specified as an
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# enum type, otherwise return None.
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def discriminator_find_enum_define(expr):
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base = expr.get('base')
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discriminator = expr.get('discriminator')
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if not (discriminator and base):
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return None
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base_fields = find_base_fields(base)
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if not base_fields:
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return None
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discriminator_type = base_fields.get(discriminator)
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if not discriminator_type:
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return None
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return find_enum(discriminator_type)
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def check_union(expr, expr_info):
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name = expr['union']
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base = expr.get('base')
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@ -254,11 +273,17 @@ def parse_schema(fp):
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add_enum(expr['enum'], expr['data'])
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elif expr.has_key('union'):
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add_union(expr)
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add_enum('%sKind' % expr['union'])
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elif expr.has_key('type'):
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add_struct(expr)
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exprs.append(expr)
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# Try again for hidden UnionKind enum
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for expr_elem in schema.exprs:
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expr = expr_elem['expr']
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if expr.has_key('union'):
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if not discriminator_find_enum_define(expr):
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add_enum('%sKind' % expr['union'])
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try:
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check_exprs(schema)
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except QAPIExprError, e:
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@ -145,7 +145,7 @@ check-qapi-schema-y := $(addprefix tests/qapi-schema/, \
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unclosed-list.json unclosed-object.json unclosed-string.json \
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duplicate-key.json union-invalid-base.json flat-union-no-base.json \
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flat-union-invalid-discriminator.json \
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flat-union-invalid-branch-key.json)
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flat-union-invalid-branch-key.json flat-union-reverse-define.json)
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GENERATED_HEADERS += tests/test-qapi-types.h tests/test-qapi-visit.h tests/test-qmp-commands.h
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@ -0,0 +1 @@
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0
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@ -0,0 +1,17 @@
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{ 'union': 'TestUnion',
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'base': 'TestBase',
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'discriminator': 'enum1',
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'data': { 'value1': 'TestTypeA',
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'value2': 'TestTypeB' } }
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{ 'type': 'TestBase',
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'data': { 'enum1': 'TestEnum' } }
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{ 'enum': 'TestEnum',
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'data': [ 'value1', 'value2' ] }
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{ 'type': 'TestTypeA',
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'data': { 'string': 'str' } }
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{ 'type': 'TestTypeB',
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'data': { 'integer': 'int' } }
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@ -0,0 +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([('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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[{'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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