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The QAPI code generators work with a syntax tree (nested dictionaries) plus a few symbol tables (also dictionaries) on the side. They have clearly outgrown these simple data structures. There's lots of rummaging around in dictionaries, and information is recomputed on the fly. For the work I'm going to do, I want more clearly defined and more convenient interfaces. Going forward, I also want less coupling between the back-ends and the syntax tree, to make messing with the syntax easier. Create a bunch of classes to represent QAPI schemata. Have the QAPISchema initializer call the parser, then walk the syntax tree to create the new internal representation, and finally perform semantic analysis. Shortcut: the semantic analysis still relies on existing check_exprs() to do the actual semantic checking. All this code needs to move into the classes. Mark as TODO. Simple unions are lowered to flat unions. Flat unions and structs are represented as a more general object type. Catching name collisions in generated code would be nice. Mark as TODO. We generate array types eagerly, even though most of them aren't used. Mark as TODO. Nothing uses the new intermediate representation just yet, thus no change to generated files. Signed-off-by: Markus Armbruster <armbru@redhat.com> Reviewed-by: Daniel P. Berrange <berrange@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com>
415 lines
11 KiB
Python
415 lines
11 KiB
Python
#
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# QAPI types generator
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#
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# Copyright IBM, Corp. 2011
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#
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# Authors:
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# Anthony Liguori <aliguori@us.ibm.com>
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#
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# This work is licensed under the terms of the GNU GPL, version 2.
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# See the COPYING file in the top-level directory.
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from ordereddict import OrderedDict
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from qapi import *
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def generate_fwd_builtin(name):
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return mcgen('''
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typedef struct %(name)sList {
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union {
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%(type)s value;
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uint64_t padding;
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};
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struct %(name)sList *next;
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} %(name)sList;
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''',
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type=c_type(name),
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name=name)
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def generate_fwd_struct(name):
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return mcgen('''
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typedef struct %(name)s %(name)s;
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typedef struct %(name)sList {
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union {
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%(name)s *value;
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uint64_t padding;
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};
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struct %(name)sList *next;
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} %(name)sList;
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''',
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name=c_name(name))
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def generate_fwd_enum_struct(name):
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return mcgen('''
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typedef struct %(name)sList {
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union {
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%(name)s value;
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uint64_t padding;
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};
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struct %(name)sList *next;
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} %(name)sList;
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''',
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name=c_name(name))
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def generate_struct_fields(members):
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ret = ''
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for argname, argentry, optional in parse_args(members):
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if optional:
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ret += mcgen('''
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bool has_%(c_name)s;
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''',
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c_name=c_name(argname))
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ret += mcgen('''
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%(c_type)s %(c_name)s;
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''',
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c_type=c_type(argentry), c_name=c_name(argname))
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return ret
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def generate_struct(expr):
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structname = expr.get('struct', "")
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members = expr['data']
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base = expr.get('base')
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ret = mcgen('''
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struct %(name)s {
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''',
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name=c_name(structname))
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if base:
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ret += generate_struct_fields({'base': base})
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ret += generate_struct_fields(members)
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# Make sure that all structs have at least one field; this avoids
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# potential issues with attempting to malloc space for zero-length structs
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# in C, and also incompatibility with C++ (where an empty struct is size 1).
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if not base and not members:
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ret += mcgen('''
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char qapi_dummy_field_for_empty_struct;
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''')
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ret += mcgen('''
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};
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''')
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return ret
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def generate_enum_lookup(name, values, prefix=None):
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ret = mcgen('''
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const char *const %(name)s_lookup[] = {
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''',
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name=c_name(name))
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for value in values:
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index = c_enum_const(name, value, prefix)
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ret += mcgen('''
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[%(index)s] = "%(value)s",
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''',
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index = index, value = value)
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max_index = c_enum_const(name, 'MAX', prefix)
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ret += mcgen('''
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[%(max_index)s] = NULL,
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};
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''',
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max_index=max_index)
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return ret
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def generate_enum(name, values, prefix=None):
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name = c_name(name)
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lookup_decl = mcgen('''
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extern const char *const %(name)s_lookup[];
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''',
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name=name)
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enum_decl = mcgen('''
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typedef enum %(name)s {
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''',
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name=name)
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# append automatically generated _MAX value
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enum_values = values + [ 'MAX' ]
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i = 0
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for value in enum_values:
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enum_full_value = c_enum_const(name, value, prefix)
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enum_decl += mcgen('''
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%(enum_full_value)s = %(i)d,
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''',
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enum_full_value = enum_full_value,
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i=i)
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i += 1
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enum_decl += mcgen('''
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} %(name)s;
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''',
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name=name)
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return enum_decl + lookup_decl
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def generate_alternate_qtypes(expr):
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name = expr['alternate']
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members = expr['data']
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ret = mcgen('''
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const int %(name)s_qtypes[QTYPE_MAX] = {
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''',
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name=c_name(name))
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for key in members:
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qtype = find_alternate_member_qtype(members[key])
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assert qtype, "Invalid alternate member"
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ret += mcgen('''
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[%(qtype)s] = %(enum_const)s,
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''',
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qtype = qtype,
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enum_const = c_enum_const(name + 'Kind', key))
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ret += mcgen('''
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};
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''')
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return ret
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def generate_union(expr, meta):
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name = c_name(expr[meta])
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typeinfo = expr['data']
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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=name)
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if base:
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ret += mcgen('''
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/* Members inherited from %(c_name)s: */
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''',
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c_name=c_name(base))
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base_fields = find_struct(base)['data']
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ret += generate_struct_fields(base_fields)
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ret += mcgen('''
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/* Own members: */
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''')
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else:
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assert not discriminator
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ret += mcgen('''
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%(discriminator_type_name)s kind;
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''',
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discriminator_type_name=c_name(discriminator_type_name))
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# FIXME: What purpose does data serve, besides preventing a union that
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# has a branch named 'data'? We use it in qapi-visit.py to decide
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# whether to bypass the switch statement if visiting the discriminator
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# failed; but since we 0-initialize structs, and cannot tell what
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# branch of the union is in use if the discriminator is invalid, there
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# should not be any data leaks even without a data pointer. Or, if
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# 'data' is merely added to guarantee we don't have an empty union,
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# shouldn't we enforce that at .json parse time?
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ret += mcgen('''
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union { /* union tag is @%(c_name)s */
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void *data;
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''',
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c_name=c_name(discriminator or 'kind'))
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for key in typeinfo:
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ret += mcgen('''
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%(c_type)s %(c_name)s;
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''',
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c_type=c_type(typeinfo[key]),
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c_name=c_name(key))
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ret += mcgen('''
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};
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};
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''')
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if meta == 'alternate':
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ret += mcgen('''
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extern const int %(name)s_qtypes[];
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''',
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name=name)
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return ret
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def generate_type_cleanup_decl(name):
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ret = mcgen('''
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void qapi_free_%(name)s(%(c_type)s obj);
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''',
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c_type=c_type(name), name=c_name(name))
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return ret
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def generate_type_cleanup(name):
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ret = mcgen('''
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void qapi_free_%(name)s(%(c_type)s obj)
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{
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QapiDeallocVisitor *md;
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Visitor *v;
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if (!obj) {
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return;
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}
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md = qapi_dealloc_visitor_new();
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v = qapi_dealloc_get_visitor(md);
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visit_type_%(name)s(v, &obj, NULL, NULL);
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qapi_dealloc_visitor_cleanup(md);
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}
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''',
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c_type=c_type(name), name=c_name(name))
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return ret
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do_builtins = False
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(input_file, output_dir, do_c, do_h, prefix, opts) = \
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parse_command_line("b", ["builtins"])
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for o, a in opts:
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if o in ("-b", "--builtins"):
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do_builtins = True
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c_comment = '''
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/*
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* deallocation functions for schema-defined QAPI types
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*
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* Copyright IBM, Corp. 2011
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*
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* Authors:
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* Anthony Liguori <aliguori@us.ibm.com>
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* Michael Roth <mdroth@linux.vnet.ibm.com>
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*
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* This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
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* See the COPYING.LIB file in the top-level directory.
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*
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*/
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'''
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h_comment = '''
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/*
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* schema-defined QAPI types
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*
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* Copyright IBM, Corp. 2011
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*
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* Authors:
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* Anthony Liguori <aliguori@us.ibm.com>
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*
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* This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
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* See the COPYING.LIB file in the top-level directory.
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*
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*/
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'''
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(fdef, fdecl) = open_output(output_dir, do_c, do_h, prefix,
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'qapi-types.c', 'qapi-types.h',
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c_comment, h_comment)
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fdef.write(mcgen('''
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#include "qapi/dealloc-visitor.h"
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#include "%(prefix)sqapi-types.h"
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#include "%(prefix)sqapi-visit.h"
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''',
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prefix=prefix))
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fdecl.write(mcgen('''
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#include <stdbool.h>
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#include <stdint.h>
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'''))
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exprs = QAPISchema(input_file).get_exprs()
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fdecl.write(guardstart("QAPI_TYPES_BUILTIN_STRUCT_DECL"))
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for typename in builtin_types.keys():
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fdecl.write(generate_fwd_builtin(typename))
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fdecl.write(guardend("QAPI_TYPES_BUILTIN_STRUCT_DECL"))
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for expr in exprs:
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ret = ""
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if expr.has_key('struct'):
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ret += generate_fwd_struct(expr['struct'])
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elif expr.has_key('enum'):
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ret += generate_enum(expr['enum'], expr['data'],
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expr.get('prefix'))
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ret += generate_fwd_enum_struct(expr['enum'])
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fdef.write(generate_enum_lookup(expr['enum'], expr['data'],
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expr.get('prefix')))
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elif expr.has_key('union'):
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ret += generate_fwd_struct(expr['union'])
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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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elif expr.has_key('alternate'):
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ret += generate_fwd_struct(expr['alternate'])
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ret += generate_enum('%sKind' % expr['alternate'], expr['data'].keys())
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fdef.write(generate_enum_lookup('%sKind' % expr['alternate'],
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expr['data'].keys()))
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fdef.write(generate_alternate_qtypes(expr))
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else:
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continue
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fdecl.write(ret)
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# to avoid header dependency hell, we always generate declarations
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# for built-in types in our header files and simply guard them
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fdecl.write(guardstart("QAPI_TYPES_BUILTIN_CLEANUP_DECL"))
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for typename in builtin_types.keys():
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fdecl.write(generate_type_cleanup_decl(typename + "List"))
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fdecl.write(guardend("QAPI_TYPES_BUILTIN_CLEANUP_DECL"))
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# ...this doesn't work for cases where we link in multiple objects that
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# have the functions defined, so we use -b option to provide control
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# over these cases
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if do_builtins:
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for typename in builtin_types.keys():
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fdef.write(generate_type_cleanup(typename + "List"))
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for expr in exprs:
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ret = ""
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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['struct'] + "List")
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fdef.write(generate_type_cleanup(expr['struct'] + "List"))
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ret += generate_type_cleanup_decl(expr['struct'])
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fdef.write(generate_type_cleanup(expr['struct']))
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elif expr.has_key('union'):
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ret += generate_union(expr, 'union') + "\n"
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ret += generate_type_cleanup_decl(expr['union'] + "List")
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fdef.write(generate_type_cleanup(expr['union'] + "List"))
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ret += generate_type_cleanup_decl(expr['union'])
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fdef.write(generate_type_cleanup(expr['union']))
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elif expr.has_key('alternate'):
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ret += generate_union(expr, 'alternate') + "\n"
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ret += generate_type_cleanup_decl(expr['alternate'] + "List")
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fdef.write(generate_type_cleanup(expr['alternate'] + "List"))
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ret += generate_type_cleanup_decl(expr['alternate'])
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fdef.write(generate_type_cleanup(expr['alternate']))
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elif expr.has_key('enum'):
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ret += "\n" + generate_type_cleanup_decl(expr['enum'] + "List")
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fdef.write(generate_type_cleanup(expr['enum'] + "List"))
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else:
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continue
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fdecl.write(ret)
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close_output(fdef, fdecl)
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