sv-dependency-builds: osx/include/capnp/schema.h annotate

annotate osx/include/capnp/schema.h @ 79:91c729825bca pa_catalina

Update build for AUDIO_COMPONENT_FIX

author	Chris Cannam
date	Wed, 30 Oct 2019 12:40:34 +0000
parents	0994c39f1e94
children

rev	line source
cannam@62	1 // Copyright (c) 2013-2014 Sandstorm Development Group, Inc. and contributors
cannam@62	2 // Licensed under the MIT License:
cannam@62	3 //
cannam@62	4 // Permission is hereby granted, free of charge, to any person obtaining a copy
cannam@62	5 // of this software and associated documentation files (the "Software"), to deal
cannam@62	6 // in the Software without restriction, including without limitation the rights
cannam@62	7 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
cannam@62	8 // copies of the Software, and to permit persons to whom the Software is
cannam@62	9 // furnished to do so, subject to the following conditions:
cannam@62	10 //
cannam@62	11 // The above copyright notice and this permission notice shall be included in
cannam@62	12 // all copies or substantial portions of the Software.
cannam@62	13 //
cannam@62	14 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
cannam@62	15 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
cannam@62	16 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
cannam@62	17 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
cannam@62	18 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
cannam@62	19 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
cannam@62	20 // THE SOFTWARE.
cannam@62	21
cannam@62	22 #ifndef CAPNP_SCHEMA_H_
cannam@62	23 #define CAPNP_SCHEMA_H_
cannam@62	24
cannam@62	25 #if defined(__GNUC__) && !defined(CAPNP_HEADER_WARNINGS)
cannam@62	26 #pragma GCC system_header
cannam@62	27 #endif
cannam@62	28
cannam@62	29 #if CAPNP_LITE
cannam@62	30 #error "Reflection APIs, including this header, are not available in lite mode."
cannam@62	31 #endif
cannam@62	32
cannam@62	33 #include <capnp/schema.capnp.h>
cannam@62	34
cannam@62	35 namespace capnp {
cannam@62	36
cannam@62	37 class Schema;
cannam@62	38 class StructSchema;
cannam@62	39 class EnumSchema;
cannam@62	40 class InterfaceSchema;
cannam@62	41 class ConstSchema;
cannam@62	42 class ListSchema;
cannam@62	43 class Type;
cannam@62	44
cannam@62	45 template <typename T, Kind k = kind<T>()> struct SchemaType_ { typedef Schema Type; };
cannam@62	46 template <typename T> struct SchemaType_<T, Kind::PRIMITIVE> { typedef schema::Type::Which Type; };
cannam@62	47 template <typename T> struct SchemaType_<T, Kind::BLOB> { typedef schema::Type::Which Type; };
cannam@62	48 template <typename T> struct SchemaType_<T, Kind::ENUM> { typedef EnumSchema Type; };
cannam@62	49 template <typename T> struct SchemaType_<T, Kind::STRUCT> { typedef StructSchema Type; };
cannam@62	50 template <typename T> struct SchemaType_<T, Kind::INTERFACE> { typedef InterfaceSchema Type; };
cannam@62	51 template <typename T> struct SchemaType_<T, Kind::LIST> { typedef ListSchema Type; };
cannam@62	52
cannam@62	53 template <typename T>
cannam@62	54 using SchemaType = typename SchemaType_<T>::Type;
cannam@62	55 // SchemaType<T> is the type of T's schema, e.g. StructSchema if T is a struct.
cannam@62	56
cannam@62	57 namespace _ { // private
cannam@62	58 extern const RawSchema NULL_SCHEMA;
cannam@62	59 extern const RawSchema NULL_STRUCT_SCHEMA;
cannam@62	60 extern const RawSchema NULL_ENUM_SCHEMA;
cannam@62	61 extern const RawSchema NULL_INTERFACE_SCHEMA;
cannam@62	62 extern const RawSchema NULL_CONST_SCHEMA;
cannam@62	63 // The schema types default to these null (empty) schemas in case of error, especially when
cannam@62	64 // exceptions are disabled.
cannam@62	65 } // namespace _ (private)
cannam@62	66
cannam@62	67 class Schema {
cannam@62	68 // Convenience wrapper around capnp::schema::Node.
cannam@62	69
cannam@62	70 public:
cannam@62	71 inline Schema(): raw(&_::NULL_SCHEMA.defaultBrand) {}
cannam@62	72
cannam@62	73 template <typename T>
cannam@62	74 static inline SchemaType<T> from() { return SchemaType<T>::template fromImpl<T>(); }
cannam@62	75 // Get the Schema for a particular compiled-in type.
cannam@62	76
cannam@62	77 schema::Node::Reader getProto() const;
cannam@62	78 // Get the underlying Cap'n Proto representation of the schema node. (Note that this accessor
cannam@62	79 // has performance comparable to accessors of struct-typed fields on Reader classes.)
cannam@62	80
cannam@62	81 kj::ArrayPtr<const word> asUncheckedMessage() const;
cannam@62	82 // Get the encoded schema node content as a single message segment. It is safe to read as an
cannam@62	83 // unchecked message.
cannam@62	84
cannam@62	85 Schema getDependency(uint64_t id) const KJ_DEPRECATED("Does not handle generics correctly.");
cannam@62	86 // DEPRECATED: This method cannot correctly account for generic type parameter bindings that
cannam@62	87 // may apply to the dependency. Instead of using this method, use a method of the Schema API
cannam@62	88 // that corresponds to the exact kind of dependency. For example, to get a field type, use
cannam@62	89 // StructSchema::Field::getType().
cannam@62	90 //
cannam@62	91 // Gets the Schema for one of this Schema's dependencies. For example, if this Schema is for a
cannam@62	92 // struct, you could look up the schema for one of its fields' types. Throws an exception if this
cannam@62	93 // schema doesn't actually depend on the given id.
cannam@62	94 //
cannam@62	95 // Note that not all type IDs found in the schema node are considered "dependencies" -- only the
cannam@62	96 // ones that are needed to implement the dynamic API are. That includes:
cannam@62	97 // - Field types.
cannam@62	98 // - Group types.
cannam@62	99 // - scopeId for group nodes, but NOT otherwise.
cannam@62	100 // - Method parameter and return types.
cannam@62	101 //
cannam@62	102 // The following are NOT considered dependencies:
cannam@62	103 // - Nested nodes.
cannam@62	104 // - scopeId for a non-group node.
cannam@62	105 // - Annotations.
cannam@62	106 //
cannam@62	107 // To obtain schemas for those, you would need a SchemaLoader.
cannam@62	108
cannam@62	109 bool isBranded() const;
cannam@62	110 // Returns true if this schema represents a non-default parameterization of this type.
cannam@62	111
cannam@62	112 Schema getGeneric() const;
cannam@62	113 // Get the version of this schema with any brands removed.
cannam@62	114
cannam@62	115 class BrandArgumentList;
cannam@62	116 BrandArgumentList getBrandArgumentsAtScope(uint64_t scopeId) const;
cannam@62	117 // Gets the values bound to the brand parameters at the given scope.
cannam@62	118
cannam@62	119 StructSchema asStruct() const;
cannam@62	120 EnumSchema asEnum() const;
cannam@62	121 InterfaceSchema asInterface() const;
cannam@62	122 ConstSchema asConst() const;
cannam@62	123 // Cast the Schema to a specific type. Throws an exception if the type doesn't match. Use
cannam@62	124 // getProto() to determine type, e.g. getProto().isStruct().
cannam@62	125
cannam@62	126 inline bool operator==(const Schema& other) const { return raw == other.raw; }
cannam@62	127 inline bool operator!=(const Schema& other) const { return raw != other.raw; }
cannam@62	128 // Determine whether two Schemas are wrapping the exact same underlying data, by identity. If
cannam@62	129 // you want to check if two Schemas represent the same type (but possibly different versions of
cannam@62	130 // it), compare their IDs instead.
cannam@62	131
cannam@62	132 template <typename T>
cannam@62	133 void requireUsableAs() const;
cannam@62	134 // Throws an exception if a value with this Schema cannot safely be cast to a native value of
cannam@62	135 // the given type. This passes if either:
cannam@62	136 // - *this == from<T>()
cannam@62	137 // - This schema was loaded with SchemaLoader, the type ID matches typeId<T>(), and
cannam@62	138 // loadCompiledTypeAndDependencies<T>() was called on the SchemaLoader.
cannam@62	139
cannam@62	140 kj::StringPtr getShortDisplayName() const;
cannam@62	141 // Get the short version of the node's display name.
cannam@62	142
cannam@62	143 private:
cannam@62	144 const _::RawBrandedSchema* raw;
cannam@62	145
cannam@62	146 inline explicit Schema(const _::RawBrandedSchema* raw): raw(raw) {
cannam@62	147 KJ_IREQUIRE(raw->lazyInitializer == nullptr,
cannam@62	148 "Must call ensureInitialized() on RawSchema before constructing Schema.");
cannam@62	149 }
cannam@62	150
cannam@62	151 template <typename T> static inline Schema fromImpl() {
cannam@62	152 return Schema(&_::rawSchema<T>());
cannam@62	153 }
cannam@62	154
cannam@62	155 void requireUsableAs(const _::RawSchema* expected) const;
cannam@62	156
cannam@62	157 uint32_t getSchemaOffset(const schema::Value::Reader& value) const;
cannam@62	158
cannam@62	159 Type getBrandBinding(uint64_t scopeId, uint index) const;
cannam@62	160 // Look up the binding for a brand parameter used by this Schema. Returns `AnyPointer` if the
cannam@62	161 // parameter is not bound.
cannam@62	162 //
cannam@62	163 // TODO(someday): Public interface for iterating over all bindings?
cannam@62	164
cannam@62	165 Schema getDependency(uint64_t id, uint location) const;
cannam@62	166 // Look up schema for a particular dependency of this schema. `location` is the dependency
cannam@62	167 // location number as defined in _::RawBrandedSchema.
cannam@62	168
cannam@62	169 Type interpretType(schema::Type::Reader proto, uint location) const;
cannam@62	170 // Interpret a schema::Type in the given location within the schema, compiling it into a
cannam@62	171 // Type object.
cannam@62	172
cannam@62	173 friend class StructSchema;
cannam@62	174 friend class EnumSchema;
cannam@62	175 friend class InterfaceSchema;
cannam@62	176 friend class ConstSchema;
cannam@62	177 friend class ListSchema;
cannam@62	178 friend class SchemaLoader;
cannam@62	179 friend class Type;
cannam@62	180 friend kj::StringTree _::structString(
cannam@62	181 _::StructReader reader, const _::RawBrandedSchema& schema);
cannam@62	182 friend kj::String _::enumString(uint16_t value, const _::RawBrandedSchema& schema);
cannam@62	183 };
cannam@62	184
cannam@62	185 kj::StringPtr KJ_STRINGIFY(const Schema& schema);
cannam@62	186
cannam@62	187 class Schema::BrandArgumentList {
cannam@62	188 // A list of generic parameter bindings for parameters of some particular type. Note that since
cannam@62	189 // parameters on an outer type apply to all inner types as well, a deeply-nested type can have
cannam@62	190 // multiple BrandArgumentLists that apply to it.
cannam@62	191 //
cannam@62	192 // A BrandArgumentList only represents the arguments that the client of the type specified. Since
cannam@62	193 // new parameters can be added over time, this list may not cover all defined parameters for the
cannam@62	194 // type. Missing parameters should be treated as AnyPointer. This class's implementation of
cannam@62	195 // operator[] already does this for you; out-of-bounds access will safely return AnyPointer.
cannam@62	196
cannam@62	197 public:
cannam@62	198 inline BrandArgumentList(): scopeId(0), size_(0), bindings(nullptr) {}
cannam@62	199
cannam@62	200 inline uint size() const { return size_; }
cannam@62	201 Type operator[](uint index) const;
cannam@62	202
cannam@62	203 typedef _::IndexingIterator<const BrandArgumentList, Type> Iterator;
cannam@62	204 inline Iterator begin() const { return Iterator(this, 0); }
cannam@62	205 inline Iterator end() const { return Iterator(this, size()); }
cannam@62	206
cannam@62	207 private:
cannam@62	208 uint64_t scopeId;
cannam@62	209 uint size_;
cannam@62	210 bool isUnbound;
cannam@62	211 const _::RawBrandedSchema::Binding* bindings;
cannam@62	212
cannam@62	213 inline BrandArgumentList(uint64_t scopeId, bool isUnbound)
cannam@62	214 : scopeId(scopeId), size_(0), isUnbound(isUnbound), bindings(nullptr) {}
cannam@62	215 inline BrandArgumentList(uint64_t scopeId, uint size,
cannam@62	216 const _::RawBrandedSchema::Binding* bindings)
cannam@62	217 : scopeId(scopeId), size_(size), isUnbound(false), bindings(bindings) {}
cannam@62	218
cannam@62	219 friend class Schema;
cannam@62	220 };
cannam@62	221
cannam@62	222 // -------------------------------------------------------------------
cannam@62	223
cannam@62	224 class StructSchema: public Schema {
cannam@62	225 public:
cannam@62	226 inline StructSchema(): Schema(&_::NULL_STRUCT_SCHEMA.defaultBrand) {}
cannam@62	227
cannam@62	228 class Field;
cannam@62	229 class FieldList;
cannam@62	230 class FieldSubset;
cannam@62	231
cannam@62	232 FieldList getFields() const;
cannam@62	233 // List top-level fields of this struct. This list will contain top-level groups (including
cannam@62	234 // named unions) but not the members of those groups. The list does, however, contain the
cannam@62	235 // members of the unnamed union, if there is one.
cannam@62	236
cannam@62	237 FieldSubset getUnionFields() const;
cannam@62	238 // If the field contains an unnamed union, get a list of fields in the union, ordered by
cannam@62	239 // ordinal. Since discriminant values are assigned sequentially by ordinal, you may index this
cannam@62	240 // list by discriminant value.
cannam@62	241
cannam@62	242 FieldSubset getNonUnionFields() const;
cannam@62	243 // Get the fields of this struct which are not in an unnamed union, ordered by ordinal.
cannam@62	244
cannam@62	245 kj::Maybe<Field> findFieldByName(kj::StringPtr name) const;
cannam@62	246 // Find the field with the given name, or return null if there is no such field. If the struct
cannam@62	247 // contains an unnamed union, then this will find fields of that union in addition to fields
cannam@62	248 // of the outer struct, since they exist in the same namespace. It will not, however, find
cannam@62	249 // members of groups (including named unions) -- you must first look up the group itself,
cannam@62	250 // then dig into its type.
cannam@62	251
cannam@62	252 Field getFieldByName(kj::StringPtr name) const;
cannam@62	253 // Like findFieldByName() but throws an exception on failure.
cannam@62	254
cannam@62	255 kj::Maybe<Field> getFieldByDiscriminant(uint16_t discriminant) const;
cannam@62	256 // Finds the field whose `discriminantValue` is equal to the given value, or returns null if
cannam@62	257 // there is no such field. (If the schema does not represent a union or a struct containing
cannam@62	258 // an unnamed union, then this always returns null.)
cannam@62	259
cannam@62	260 private:
cannam@62	261 StructSchema(Schema base): Schema(base) {}
cannam@62	262 template <typename T> static inline StructSchema fromImpl() {
cannam@62	263 return StructSchema(Schema(&_::rawBrandedSchema<T>()));
cannam@62	264 }
cannam@62	265 friend class Schema;
cannam@62	266 friend class Type;
cannam@62	267 };
cannam@62	268
cannam@62	269 class StructSchema::Field {
cannam@62	270 public:
cannam@62	271 Field() = default;
cannam@62	272
cannam@62	273 inline schema::Field::Reader getProto() const { return proto; }
cannam@62	274 inline StructSchema getContainingStruct() const { return parent; }
cannam@62	275
cannam@62	276 inline uint getIndex() const { return index; }
cannam@62	277 // Get the index of this field within the containing struct or union.
cannam@62	278
cannam@62	279 Type getType() const;
cannam@62	280 // Get the type of this field. Note that this is preferred over getProto().getType() as this
cannam@62	281 // method will apply generics.
cannam@62	282
cannam@62	283 uint32_t getDefaultValueSchemaOffset() const;
cannam@62	284 // For struct, list, and object fields, returns the offset, in words, within the first segment of
cannam@62	285 // the struct's schema, where this field's default value pointer is located. The schema is
cannam@62	286 // always stored as a single-segment unchecked message, which in turn means that the default
cannam@62	287 // value pointer itself can be treated as the root of an unchecked message -- if you know where
cannam@62	288 // to find it, which is what this method helps you with.
cannam@62	289 //
cannam@62	290 // For blobs, returns the offset of the beginning of the blob's content within the first segment
cannam@62	291 // of the struct's schema.
cannam@62	292 //
cannam@62	293 // This is primarily useful for code generators. The C++ code generator, for example, embeds
cannam@62	294 // the entire schema as a raw word array within the generated code. Of course, to implement
cannam@62	295 // field accessors, it needs access to those fields' default values. Embedding separate copies
cannam@62	296 // of those default values would be redundant since they are already included in the schema, but
cannam@62	297 // seeking through the schema at runtime to find the default values would be ugly. Instead,
cannam@62	298 // the code generator can use getDefaultValueSchemaOffset() to find the offset of the default
cannam@62	299 // value within the schema, and can simply apply that offset at runtime.
cannam@62	300 //
cannam@62	301 // If the above does not make sense, you probably don't need this method.
cannam@62	302
cannam@62	303 inline bool operator==(const Field& other) const;
cannam@62	304 inline bool operator!=(const Field& other) const { return !(*this == other); }
cannam@62	305
cannam@62	306 private:
cannam@62	307 StructSchema parent;
cannam@62	308 uint index;
cannam@62	309 schema::Field::Reader proto;
cannam@62	310
cannam@62	311 inline Field(StructSchema parent, uint index, schema::Field::Reader proto)
cannam@62	312 : parent(parent), index(index), proto(proto) {}
cannam@62	313
cannam@62	314 friend class StructSchema;
cannam@62	315 };
cannam@62	316
cannam@62	317 kj::StringPtr KJ_STRINGIFY(const StructSchema::Field& field);
cannam@62	318
cannam@62	319 class StructSchema::FieldList {
cannam@62	320 public:
cannam@62	321 FieldList() = default; // empty list
cannam@62	322
cannam@62	323 inline uint size() const { return list.size(); }
cannam@62	324 inline Field operator[](uint index) const { return Field(parent, index, list[index]); }
cannam@62	325
cannam@62	326 typedef _::IndexingIterator<const FieldList, Field> Iterator;
cannam@62	327 inline Iterator begin() const { return Iterator(this, 0); }
cannam@62	328 inline Iterator end() const { return Iterator(this, size()); }
cannam@62	329
cannam@62	330 private:
cannam@62	331 StructSchema parent;
cannam@62	332 List<schema::Field>::Reader list;
cannam@62	333
cannam@62	334 inline FieldList(StructSchema parent, List<schema::Field>::Reader list)
cannam@62	335 : parent(parent), list(list) {}
cannam@62	336
cannam@62	337 friend class StructSchema;
cannam@62	338 };
cannam@62	339
cannam@62	340 class StructSchema::FieldSubset {
cannam@62	341 public:
cannam@62	342 FieldSubset() = default; // empty list
cannam@62	343
cannam@62	344 inline uint size() const { return size_; }
cannam@62	345 inline Field operator[](uint index) const {
cannam@62	346 return Field(parent, indices[index], list[indices[index]]);
cannam@62	347 }
cannam@62	348
cannam@62	349 typedef _::IndexingIterator<const FieldSubset, Field> Iterator;
cannam@62	350 inline Iterator begin() const { return Iterator(this, 0); }
cannam@62	351 inline Iterator end() const { return Iterator(this, size()); }
cannam@62	352
cannam@62	353 private:
cannam@62	354 StructSchema parent;
cannam@62	355 List<schema::Field>::Reader list;
cannam@62	356 const uint16_t* indices;
cannam@62	357 uint size_;
cannam@62	358
cannam@62	359 inline FieldSubset(StructSchema parent, List<schema::Field>::Reader list,
cannam@62	360 const uint16_t* indices, uint size)
cannam@62	361 : parent(parent), list(list), indices(indices), size_(size) {}
cannam@62	362
cannam@62	363 friend class StructSchema;
cannam@62	364 };
cannam@62	365
cannam@62	366 // -------------------------------------------------------------------
cannam@62	367
cannam@62	368 class EnumSchema: public Schema {
cannam@62	369 public:
cannam@62	370 inline EnumSchema(): Schema(&_::NULL_ENUM_SCHEMA.defaultBrand) {}
cannam@62	371
cannam@62	372 class Enumerant;
cannam@62	373 class EnumerantList;
cannam@62	374
cannam@62	375 EnumerantList getEnumerants() const;
cannam@62	376
cannam@62	377 kj::Maybe<Enumerant> findEnumerantByName(kj::StringPtr name) const;
cannam@62	378
cannam@62	379 Enumerant getEnumerantByName(kj::StringPtr name) const;
cannam@62	380 // Like findEnumerantByName() but throws an exception on failure.
cannam@62	381
cannam@62	382 private:
cannam@62	383 EnumSchema(Schema base): Schema(base) {}
cannam@62	384 template <typename T> static inline EnumSchema fromImpl() {
cannam@62	385 return EnumSchema(Schema(&_::rawBrandedSchema<T>()));
cannam@62	386 }
cannam@62	387 friend class Schema;
cannam@62	388 friend class Type;
cannam@62	389 };
cannam@62	390
cannam@62	391 class EnumSchema::Enumerant {
cannam@62	392 public:
cannam@62	393 Enumerant() = default;
cannam@62	394
cannam@62	395 inline schema::Enumerant::Reader getProto() const { return proto; }
cannam@62	396 inline EnumSchema getContainingEnum() const { return parent; }
cannam@62	397
cannam@62	398 inline uint16_t getOrdinal() const { return ordinal; }
cannam@62	399 inline uint getIndex() const { return ordinal; }
cannam@62	400
cannam@62	401 inline bool operator==(const Enumerant& other) const;
cannam@62	402 inline bool operator!=(const Enumerant& other) const { return !(*this == other); }
cannam@62	403
cannam@62	404 private:
cannam@62	405 EnumSchema parent;
cannam@62	406 uint16_t ordinal;
cannam@62	407 schema::Enumerant::Reader proto;
cannam@62	408
cannam@62	409 inline Enumerant(EnumSchema parent, uint16_t ordinal, schema::Enumerant::Reader proto)
cannam@62	410 : parent(parent), ordinal(ordinal), proto(proto) {}
cannam@62	411
cannam@62	412 friend class EnumSchema;
cannam@62	413 };
cannam@62	414
cannam@62	415 class EnumSchema::EnumerantList {
cannam@62	416 public:
cannam@62	417 EnumerantList() = default; // empty list
cannam@62	418
cannam@62	419 inline uint size() const { return list.size(); }
cannam@62	420 inline Enumerant operator[](uint index) const { return Enumerant(parent, index, list[index]); }
cannam@62	421
cannam@62	422 typedef _::IndexingIterator<const EnumerantList, Enumerant> Iterator;
cannam@62	423 inline Iterator begin() const { return Iterator(this, 0); }
cannam@62	424 inline Iterator end() const { return Iterator(this, size()); }
cannam@62	425
cannam@62	426 private:
cannam@62	427 EnumSchema parent;
cannam@62	428 List<schema::Enumerant>::Reader list;
cannam@62	429
cannam@62	430 inline EnumerantList(EnumSchema parent, List<schema::Enumerant>::Reader list)
cannam@62	431 : parent(parent), list(list) {}
cannam@62	432
cannam@62	433 friend class EnumSchema;
cannam@62	434 };
cannam@62	435
cannam@62	436 // -------------------------------------------------------------------
cannam@62	437
cannam@62	438 class InterfaceSchema: public Schema {
cannam@62	439 public:
cannam@62	440 inline InterfaceSchema(): Schema(&_::NULL_INTERFACE_SCHEMA.defaultBrand) {}
cannam@62	441
cannam@62	442 class Method;
cannam@62	443 class MethodList;
cannam@62	444
cannam@62	445 MethodList getMethods() const;
cannam@62	446
cannam@62	447 kj::Maybe<Method> findMethodByName(kj::StringPtr name) const;
cannam@62	448
cannam@62	449 Method getMethodByName(kj::StringPtr name) const;
cannam@62	450 // Like findMethodByName() but throws an exception on failure.
cannam@62	451
cannam@62	452 class SuperclassList;
cannam@62	453
cannam@62	454 SuperclassList getSuperclasses() const;
cannam@62	455 // Get the immediate superclasses of this type, after applying generics.
cannam@62	456
cannam@62	457 bool extends(InterfaceSchema other) const;
cannam@62	458 // Returns true if `other` is a superclass of this interface (including if `other == *this`).
cannam@62	459
cannam@62	460 kj::Maybe<InterfaceSchema> findSuperclass(uint64_t typeId) const;
cannam@62	461 // Find the superclass of this interface with the given type ID. Returns null if the interface
cannam@62	462 // extends no such type.
cannam@62	463
cannam@62	464 private:
cannam@62	465 InterfaceSchema(Schema base): Schema(base) {}
cannam@62	466 template <typename T> static inline InterfaceSchema fromImpl() {
cannam@62	467 return InterfaceSchema(Schema(&_::rawBrandedSchema<T>()));
cannam@62	468 }
cannam@62	469 friend class Schema;
cannam@62	470 friend class Type;
cannam@62	471
cannam@62	472 kj::Maybe<Method> findMethodByName(kj::StringPtr name, uint& counter) const;
cannam@62	473 bool extends(InterfaceSchema other, uint& counter) const;
cannam@62	474 kj::Maybe<InterfaceSchema> findSuperclass(uint64_t typeId, uint& counter) const;
cannam@62	475 // We protect against malicious schemas with large or cyclic hierarchies by cutting off the
cannam@62	476 // search when the counter reaches a threshold.
cannam@62	477 };
cannam@62	478
cannam@62	479 class InterfaceSchema::Method {
cannam@62	480 public:
cannam@62	481 Method() = default;
cannam@62	482
cannam@62	483 inline schema::Method::Reader getProto() const { return proto; }
cannam@62	484 inline InterfaceSchema getContainingInterface() const { return parent; }
cannam@62	485
cannam@62	486 inline uint16_t getOrdinal() const { return ordinal; }
cannam@62	487 inline uint getIndex() const { return ordinal; }
cannam@62	488
cannam@62	489 StructSchema getParamType() const;
cannam@62	490 StructSchema getResultType() const;
cannam@62	491 // Get the parameter and result types, including substituting generic parameters.
cannam@62	492
cannam@62	493 inline bool operator==(const Method& other) const;
cannam@62	494 inline bool operator!=(const Method& other) const { return !(*this == other); }
cannam@62	495
cannam@62	496 private:
cannam@62	497 InterfaceSchema parent;
cannam@62	498 uint16_t ordinal;
cannam@62	499 schema::Method::Reader proto;
cannam@62	500
cannam@62	501 inline Method(InterfaceSchema parent, uint16_t ordinal,
cannam@62	502 schema::Method::Reader proto)
cannam@62	503 : parent(parent), ordinal(ordinal), proto(proto) {}
cannam@62	504
cannam@62	505 friend class InterfaceSchema;
cannam@62	506 };
cannam@62	507
cannam@62	508 class InterfaceSchema::MethodList {
cannam@62	509 public:
cannam@62	510 MethodList() = default; // empty list
cannam@62	511
cannam@62	512 inline uint size() const { return list.size(); }
cannam@62	513 inline Method operator[](uint index) const { return Method(parent, index, list[index]); }
cannam@62	514
cannam@62	515 typedef _::IndexingIterator<const MethodList, Method> Iterator;
cannam@62	516 inline Iterator begin() const { return Iterator(this, 0); }
cannam@62	517 inline Iterator end() const { return Iterator(this, size()); }
cannam@62	518
cannam@62	519 private:
cannam@62	520 InterfaceSchema parent;
cannam@62	521 List<schema::Method>::Reader list;
cannam@62	522
cannam@62	523 inline MethodList(InterfaceSchema parent, List<schema::Method>::Reader list)
cannam@62	524 : parent(parent), list(list) {}
cannam@62	525
cannam@62	526 friend class InterfaceSchema;
cannam@62	527 };
cannam@62	528
cannam@62	529 class InterfaceSchema::SuperclassList {
cannam@62	530 public:
cannam@62	531 SuperclassList() = default; // empty list
cannam@62	532
cannam@62	533 inline uint size() const { return list.size(); }
cannam@62	534 InterfaceSchema operator[](uint index) const;
cannam@62	535
cannam@62	536 typedef _::IndexingIterator<const SuperclassList, InterfaceSchema> Iterator;
cannam@62	537 inline Iterator begin() const { return Iterator(this, 0); }
cannam@62	538 inline Iterator end() const { return Iterator(this, size()); }
cannam@62	539
cannam@62	540 private:
cannam@62	541 InterfaceSchema parent;
cannam@62	542 List<schema::Superclass>::Reader list;
cannam@62	543
cannam@62	544 inline SuperclassList(InterfaceSchema parent, List<schema::Superclass>::Reader list)
cannam@62	545 : parent(parent), list(list) {}
cannam@62	546
cannam@62	547 friend class InterfaceSchema;
cannam@62	548 };
cannam@62	549
cannam@62	550 // -------------------------------------------------------------------
cannam@62	551
cannam@62	552 class ConstSchema: public Schema {
cannam@62	553 // Represents a constant declaration.
cannam@62	554 //
cannam@62	555 // `ConstSchema` can be implicitly cast to DynamicValue to read its value.
cannam@62	556
cannam@62	557 public:
cannam@62	558 inline ConstSchema(): Schema(&_::NULL_CONST_SCHEMA.defaultBrand) {}
cannam@62	559
cannam@62	560 template <typename T>
cannam@62	561 ReaderFor<T> as() const;
cannam@62	562 // Read the constant's value. This is a convenience method equivalent to casting the ConstSchema
cannam@62	563 // to a DynamicValue and then calling its `as<T>()` method. For dependency reasons, this method
cannam@62	564 // is defined in <capnp/dynamic.h>, which you must #include explicitly.
cannam@62	565
cannam@62	566 uint32_t getValueSchemaOffset() const;
cannam@62	567 // Much like StructSchema::Field::getDefaultValueSchemaOffset(), if the constant has pointer
cannam@62	568 // type, this gets the offset from the beginning of the constant's schema node to a pointer
cannam@62	569 // representing the constant value.
cannam@62	570
cannam@62	571 Type getType() const;
cannam@62	572
cannam@62	573 private:
cannam@62	574 ConstSchema(Schema base): Schema(base) {}
cannam@62	575 friend class Schema;
cannam@62	576 };
cannam@62	577
cannam@62	578 // -------------------------------------------------------------------
cannam@62	579
cannam@62	580 class Type {
cannam@62	581 public:
cannam@62	582 struct BrandParameter {
cannam@62	583 uint64_t scopeId;
cannam@62	584 uint index;
cannam@62	585 };
cannam@62	586 struct ImplicitParameter {
cannam@62	587 uint index;
cannam@62	588 };
cannam@62	589
cannam@62	590 inline Type();
cannam@62	591 inline Type(schema::Type::Which primitive);
cannam@62	592 inline Type(StructSchema schema);
cannam@62	593 inline Type(EnumSchema schema);
cannam@62	594 inline Type(InterfaceSchema schema);
cannam@62	595 inline Type(ListSchema schema);
cannam@62	596 inline Type(schema::Type::AnyPointer::Unconstrained::Which anyPointerKind);
cannam@62	597 inline Type(BrandParameter param);
cannam@62	598 inline Type(ImplicitParameter param);
cannam@62	599
cannam@62	600 template <typename T>
cannam@62	601 inline static Type from();
cannam@62	602
cannam@62	603 inline schema::Type::Which which() const;
cannam@62	604
cannam@62	605 StructSchema asStruct() const;
cannam@62	606 EnumSchema asEnum() const;
cannam@62	607 InterfaceSchema asInterface() const;
cannam@62	608 ListSchema asList() const;
cannam@62	609 // Each of these methods may only be called if which() returns the corresponding type.
cannam@62	610
cannam@62	611 kj::Maybe<BrandParameter> getBrandParameter() const;
cannam@62	612 // Only callable if which() returns ANY_POINTER. Returns null if the type is just a regular
cannam@62	613 // AnyPointer and not a parameter.
cannam@62	614
cannam@62	615 kj::Maybe<ImplicitParameter> getImplicitParameter() const;
cannam@62	616 // Only callable if which() returns ANY_POINTER. Returns null if the type is just a regular
cannam@62	617 // AnyPointer and not a parameter. "Implicit parameters" refer to type parameters on methods.
cannam@62	618
cannam@62	619 inline schema::Type::AnyPointer::Unconstrained::Which whichAnyPointerKind() const;
cannam@62	620 // Only callable if which() returns ANY_POINTER.
cannam@62	621
cannam@62	622 inline bool isVoid() const;
cannam@62	623 inline bool isBool() const;
cannam@62	624 inline bool isInt8() const;
cannam@62	625 inline bool isInt16() const;
cannam@62	626 inline bool isInt32() const;
cannam@62	627 inline bool isInt64() const;
cannam@62	628 inline bool isUInt8() const;
cannam@62	629 inline bool isUInt16() const;
cannam@62	630 inline bool isUInt32() const;
cannam@62	631 inline bool isUInt64() const;
cannam@62	632 inline bool isFloat32() const;
cannam@62	633 inline bool isFloat64() const;
cannam@62	634 inline bool isText() const;
cannam@62	635 inline bool isData() const;
cannam@62	636 inline bool isList() const;
cannam@62	637 inline bool isEnum() const;
cannam@62	638 inline bool isStruct() const;
cannam@62	639 inline bool isInterface() const;
cannam@62	640 inline bool isAnyPointer() const;
cannam@62	641
cannam@62	642 bool operator==(const Type& other) const;
cannam@62	643 inline bool operator!=(const Type& other) const { return !(*this == other); }
cannam@62	644
cannam@62	645 size_t hashCode() const;
cannam@62	646
cannam@62	647 inline Type wrapInList(uint depth = 1) const;
cannam@62	648 // Return the Type formed by wrapping this type in List() `depth` times.
cannam@62	649
cannam@62	650 inline Type(schema::Type::Which derived, const _::RawBrandedSchema* schema);
cannam@62	651 // For internal use.
cannam@62	652
cannam@62	653 private:
cannam@62	654 schema::Type::Which baseType; // type not including applications of List()
cannam@62	655 uint8_t listDepth; // 0 for T, 1 for List(T), 2 for List(List(T)), ...
cannam@62	656
cannam@62	657 bool isImplicitParam;
cannam@62	658 // If true, this refers to an implicit method parameter. baseType must be ANY_POINTER, scopeId
cannam@62	659 // must be zero, and paramIndex indicates the parameter index.
cannam@62	660
cannam@62	661 union {
cannam@62	662 uint16_t paramIndex;
cannam@62	663 // If baseType is ANY_POINTER but this Type actually refers to a type parameter, this is the
cannam@62	664 // index of the parameter among the parameters at its scope, and `scopeId` below is the type ID
cannam@62	665 // of the scope where the parameter was defined.
cannam@62	666
cannam@62	667 schema::Type::AnyPointer::Unconstrained::Which anyPointerKind;
cannam@62	668 // If scopeId is zero and isImplicitParam is false.
cannam@62	669 };
cannam@62	670
cannam@62	671 union {
cannam@62	672 const _::RawBrandedSchema* schema; // if type is struct, enum, interface...
cannam@62	673 uint64_t scopeId; // if type is AnyPointer but it's actually a type parameter...
cannam@62	674 };
cannam@62	675
cannam@62	676 Type(schema::Type::Which baseType, uint8_t listDepth, const _::RawBrandedSchema* schema)
cannam@62	677 : baseType(baseType), listDepth(listDepth), schema(schema) {
cannam@62	678 KJ_IREQUIRE(baseType != schema::Type::ANY_POINTER);
cannam@62	679 }
cannam@62	680
cannam@62	681 void requireUsableAs(Type expected) const;
cannam@62	682
cannam@62	683 friend class ListSchema; // only for requireUsableAs()
cannam@62	684 };
cannam@62	685
cannam@62	686 // -------------------------------------------------------------------
cannam@62	687
cannam@62	688 class ListSchema {
cannam@62	689 // ListSchema is a little different because list types are not described by schema nodes. So,
cannam@62	690 // ListSchema doesn't subclass Schema.
cannam@62	691
cannam@62	692 public:
cannam@62	693 ListSchema() = default;
cannam@62	694
cannam@62	695 static ListSchema of(schema::Type::Which primitiveType);
cannam@62	696 static ListSchema of(StructSchema elementType);
cannam@62	697 static ListSchema of(EnumSchema elementType);
cannam@62	698 static ListSchema of(InterfaceSchema elementType);
cannam@62	699 static ListSchema of(ListSchema elementType);
cannam@62	700 static ListSchema of(Type elementType);
cannam@62	701 // Construct the schema for a list of the given type.
cannam@62	702
cannam@62	703 static ListSchema of(schema::Type::Reader elementType, Schema context)
cannam@62	704 KJ_DEPRECATED("Does not handle generics correctly.");
cannam@62	705 // DEPRECATED: This method cannot correctly account for generic type parameter bindings that
cannam@62	706 // may apply to the input type. Instead of using this method, use a method of the Schema API
cannam@62	707 // that corresponds to the exact kind of dependency. For example, to get a field type, use
cannam@62	708 // StructSchema::Field::getType().
cannam@62	709 //
cannam@62	710 // Construct from an element type schema. Requires a context which can handle getDependency()
cannam@62	711 // requests for any type ID found in the schema.
cannam@62	712
cannam@62	713 Type getElementType() const;
cannam@62	714
cannam@62	715 inline schema::Type::Which whichElementType() const;
cannam@62	716 // Get the element type's "which()". ListSchema does not actually store a schema::Type::Reader
cannam@62	717 // describing the element type, but if it did, this would be equivalent to calling
cannam@62	718 // .getBody().which() on that type.
cannam@62	719
cannam@62	720 StructSchema getStructElementType() const;
cannam@62	721 EnumSchema getEnumElementType() const;
cannam@62	722 InterfaceSchema getInterfaceElementType() const;
cannam@62	723 ListSchema getListElementType() const;
cannam@62	724 // Get the schema for complex element types. Each of these throws an exception if the element
cannam@62	725 // type is not of the requested kind.
cannam@62	726
cannam@62	727 inline bool operator==(const ListSchema& other) const { return elementType == other.elementType; }
cannam@62	728 inline bool operator!=(const ListSchema& other) const { return elementType != other.elementType; }
cannam@62	729
cannam@62	730 template <typename T>
cannam@62	731 void requireUsableAs() const;
cannam@62	732
cannam@62	733 private:
cannam@62	734 Type elementType;
cannam@62	735
cannam@62	736 inline explicit ListSchema(Type elementType): elementType(elementType) {}
cannam@62	737
cannam@62	738 template <typename T>
cannam@62	739 struct FromImpl;
cannam@62	740 template <typename T> static inline ListSchema fromImpl() {
cannam@62	741 return FromImpl<T>::get();
cannam@62	742 }
cannam@62	743
cannam@62	744 void requireUsableAs(ListSchema expected) const;
cannam@62	745
cannam@62	746 friend class Schema;
cannam@62	747 };
cannam@62	748
cannam@62	749 // =======================================================================================
cannam@62	750 // inline implementation
cannam@62	751
cannam@62	752 template <> inline schema::Type::Which Schema::from<Void>() { return schema::Type::VOID; }
cannam@62	753 template <> inline schema::Type::Which Schema::from<bool>() { return schema::Type::BOOL; }
cannam@62	754 template <> inline schema::Type::Which Schema::from<int8_t>() { return schema::Type::INT8; }
cannam@62	755 template <> inline schema::Type::Which Schema::from<int16_t>() { return schema::Type::INT16; }
cannam@62	756 template <> inline schema::Type::Which Schema::from<int32_t>() { return schema::Type::INT32; }
cannam@62	757 template <> inline schema::Type::Which Schema::from<int64_t>() { return schema::Type::INT64; }
cannam@62	758 template <> inline schema::Type::Which Schema::from<uint8_t>() { return schema::Type::UINT8; }
cannam@62	759 template <> inline schema::Type::Which Schema::from<uint16_t>() { return schema::Type::UINT16; }
cannam@62	760 template <> inline schema::Type::Which Schema::from<uint32_t>() { return schema::Type::UINT32; }
cannam@62	761 template <> inline schema::Type::Which Schema::from<uint64_t>() { return schema::Type::UINT64; }
cannam@62	762 template <> inline schema::Type::Which Schema::from<float>() { return schema::Type::FLOAT32; }
cannam@62	763 template <> inline schema::Type::Which Schema::from<double>() { return schema::Type::FLOAT64; }
cannam@62	764 template <> inline schema::Type::Which Schema::from<Text>() { return schema::Type::TEXT; }
cannam@62	765 template <> inline schema::Type::Which Schema::from<Data>() { return schema::Type::DATA; }
cannam@62	766
cannam@62	767 inline Schema Schema::getDependency(uint64_t id) const {
cannam@62	768 return getDependency(id, 0);
cannam@62	769 }
cannam@62	770
cannam@62	771 inline bool Schema::isBranded() const {
cannam@62	772 return raw != &raw->generic->defaultBrand;
cannam@62	773 }
cannam@62	774
cannam@62	775 inline Schema Schema::getGeneric() const {
cannam@62	776 return Schema(&raw->generic->defaultBrand);
cannam@62	777 }
cannam@62	778
cannam@62	779 template <typename T>
cannam@62	780 inline void Schema::requireUsableAs() const {
cannam@62	781 requireUsableAs(&_::rawSchema<T>());
cannam@62	782 }
cannam@62	783
cannam@62	784 inline bool StructSchema::Field::operator==(const Field& other) const {
cannam@62	785 return parent == other.parent && index == other.index;
cannam@62	786 }
cannam@62	787 inline bool EnumSchema::Enumerant::operator==(const Enumerant& other) const {
cannam@62	788 return parent == other.parent && ordinal == other.ordinal;
cannam@62	789 }
cannam@62	790 inline bool InterfaceSchema::Method::operator==(const Method& other) const {
cannam@62	791 return parent == other.parent && ordinal == other.ordinal;
cannam@62	792 }
cannam@62	793
cannam@62	794 inline ListSchema ListSchema::of(StructSchema elementType) {
cannam@62	795 return ListSchema(Type(elementType));
cannam@62	796 }
cannam@62	797 inline ListSchema ListSchema::of(EnumSchema elementType) {
cannam@62	798 return ListSchema(Type(elementType));
cannam@62	799 }
cannam@62	800 inline ListSchema ListSchema::of(InterfaceSchema elementType) {
cannam@62	801 return ListSchema(Type(elementType));
cannam@62	802 }
cannam@62	803 inline ListSchema ListSchema::of(ListSchema elementType) {
cannam@62	804 return ListSchema(Type(elementType));
cannam@62	805 }
cannam@62	806 inline ListSchema ListSchema::of(Type elementType) {
cannam@62	807 return ListSchema(elementType);
cannam@62	808 }
cannam@62	809
cannam@62	810 inline Type ListSchema::getElementType() const {
cannam@62	811 return elementType;
cannam@62	812 }
cannam@62	813
cannam@62	814 inline schema::Type::Which ListSchema::whichElementType() const {
cannam@62	815 return elementType.which();
cannam@62	816 }
cannam@62	817
cannam@62	818 inline StructSchema ListSchema::getStructElementType() const {
cannam@62	819 return elementType.asStruct();
cannam@62	820 }
cannam@62	821
cannam@62	822 inline EnumSchema ListSchema::getEnumElementType() const {
cannam@62	823 return elementType.asEnum();
cannam@62	824 }
cannam@62	825
cannam@62	826 inline InterfaceSchema ListSchema::getInterfaceElementType() const {
cannam@62	827 return elementType.asInterface();
cannam@62	828 }
cannam@62	829
cannam@62	830 inline ListSchema ListSchema::getListElementType() const {
cannam@62	831 return elementType.asList();
cannam@62	832 }
cannam@62	833
cannam@62	834 template <typename T>
cannam@62	835 inline void ListSchema::requireUsableAs() const {
cannam@62	836 static_assert(kind<T>() == Kind::LIST,
cannam@62	837 "ListSchema::requireUsableAs<T>() requires T is a list type.");
cannam@62	838 requireUsableAs(Schema::from<T>());
cannam@62	839 }
cannam@62	840
cannam@62	841 inline void ListSchema::requireUsableAs(ListSchema expected) const {
cannam@62	842 elementType.requireUsableAs(expected.elementType);
cannam@62	843 }
cannam@62	844
cannam@62	845 template <typename T>
cannam@62	846 struct ListSchema::FromImpl<List<T>> {
cannam@62	847 static inline ListSchema get() { return of(Schema::from<T>()); }
cannam@62	848 };
cannam@62	849
cannam@62	850 inline Type::Type(): baseType(schema::Type::VOID), listDepth(0), schema(nullptr) {}
cannam@62	851 inline Type::Type(schema::Type::Which primitive)
cannam@62	852 : baseType(primitive), listDepth(0), isImplicitParam(false) {
cannam@62	853 KJ_IREQUIRE(primitive != schema::Type::STRUCT &&
cannam@62	854 primitive != schema::Type::ENUM &&
cannam@62	855 primitive != schema::Type::INTERFACE &&
cannam@62	856 primitive != schema::Type::LIST);
cannam@62	857 if (primitive == schema::Type::ANY_POINTER) {
cannam@62	858 scopeId = 0;
cannam@62	859 anyPointerKind = schema::Type::AnyPointer::Unconstrained::ANY_KIND;
cannam@62	860 } else {
cannam@62	861 schema = nullptr;
cannam@62	862 }
cannam@62	863 }
cannam@62	864 inline Type::Type(schema::Type::Which derived, const _::RawBrandedSchema* schema)
cannam@62	865 : baseType(derived), listDepth(0), isImplicitParam(false), schema(schema) {
cannam@62	866 KJ_IREQUIRE(derived == schema::Type::STRUCT \|\|
cannam@62	867 derived == schema::Type::ENUM \|\|
cannam@62	868 derived == schema::Type::INTERFACE);
cannam@62	869 }
cannam@62	870
cannam@62	871 inline Type::Type(StructSchema schema)
cannam@62	872 : baseType(schema::Type::STRUCT), listDepth(0), schema(schema.raw) {}
cannam@62	873 inline Type::Type(EnumSchema schema)
cannam@62	874 : baseType(schema::Type::ENUM), listDepth(0), schema(schema.raw) {}
cannam@62	875 inline Type::Type(InterfaceSchema schema)
cannam@62	876 : baseType(schema::Type::INTERFACE), listDepth(0), schema(schema.raw) {}
cannam@62	877 inline Type::Type(ListSchema schema)
cannam@62	878 : Type(schema.getElementType()) { ++listDepth; }
cannam@62	879 inline Type::Type(schema::Type::AnyPointer::Unconstrained::Which anyPointerKind)
cannam@62	880 : baseType(schema::Type::ANY_POINTER), listDepth(0), isImplicitParam(false),
cannam@62	881 anyPointerKind(anyPointerKind), scopeId(0) {}
cannam@62	882 inline Type::Type(BrandParameter param)
cannam@62	883 : baseType(schema::Type::ANY_POINTER), listDepth(0), isImplicitParam(false),
cannam@62	884 paramIndex(param.index), scopeId(param.scopeId) {}
cannam@62	885 inline Type::Type(ImplicitParameter param)
cannam@62	886 : baseType(schema::Type::ANY_POINTER), listDepth(0), isImplicitParam(true),
cannam@62	887 paramIndex(param.index), scopeId(0) {}
cannam@62	888
cannam@62	889 inline schema::Type::Which Type::which() const {
cannam@62	890 return listDepth > 0 ? schema::Type::LIST : baseType;
cannam@62	891 }
cannam@62	892
cannam@62	893 inline schema::Type::AnyPointer::Unconstrained::Which Type::whichAnyPointerKind() const {
cannam@62	894 KJ_IREQUIRE(baseType == schema::Type::ANY_POINTER);
cannam@62	895 return !isImplicitParam && scopeId == 0 ? anyPointerKind
cannam@62	896 : schema::Type::AnyPointer::Unconstrained::ANY_KIND;
cannam@62	897 }
cannam@62	898
cannam@62	899 template <typename T>
cannam@62	900 inline Type Type::from() { return Type(Schema::from<T>()); }
cannam@62	901
cannam@62	902 inline bool Type::isVoid () const { return baseType == schema::Type::VOID && listDepth == 0; }
cannam@62	903 inline bool Type::isBool () const { return baseType == schema::Type::BOOL && listDepth == 0; }
cannam@62	904 inline bool Type::isInt8 () const { return baseType == schema::Type::INT8 && listDepth == 0; }
cannam@62	905 inline bool Type::isInt16 () const { return baseType == schema::Type::INT16 && listDepth == 0; }
cannam@62	906 inline bool Type::isInt32 () const { return baseType == schema::Type::INT32 && listDepth == 0; }
cannam@62	907 inline bool Type::isInt64 () const { return baseType == schema::Type::INT64 && listDepth == 0; }
cannam@62	908 inline bool Type::isUInt8 () const { return baseType == schema::Type::UINT8 && listDepth == 0; }
cannam@62	909 inline bool Type::isUInt16 () const { return baseType == schema::Type::UINT16 && listDepth == 0; }
cannam@62	910 inline bool Type::isUInt32 () const { return baseType == schema::Type::UINT32 && listDepth == 0; }
cannam@62	911 inline bool Type::isUInt64 () const { return baseType == schema::Type::UINT64 && listDepth == 0; }
cannam@62	912 inline bool Type::isFloat32() const { return baseType == schema::Type::FLOAT32 && listDepth == 0; }
cannam@62	913 inline bool Type::isFloat64() const { return baseType == schema::Type::FLOAT64 && listDepth == 0; }
cannam@62	914 inline bool Type::isText () const { return baseType == schema::Type::TEXT && listDepth == 0; }
cannam@62	915 inline bool Type::isData () const { return baseType == schema::Type::DATA && listDepth == 0; }
cannam@62	916 inline bool Type::isList () const { return listDepth > 0; }
cannam@62	917 inline bool Type::isEnum () const { return baseType == schema::Type::ENUM && listDepth == 0; }
cannam@62	918 inline bool Type::isStruct () const { return baseType == schema::Type::STRUCT && listDepth == 0; }
cannam@62	919 inline bool Type::isInterface() const {
cannam@62	920 return baseType == schema::Type::INTERFACE && listDepth == 0;
cannam@62	921 }
cannam@62	922 inline bool Type::isAnyPointer() const {
cannam@62	923 return baseType == schema::Type::ANY_POINTER && listDepth == 0;
cannam@62	924 }
cannam@62	925
cannam@62	926 inline Type Type::wrapInList(uint depth) const {
cannam@62	927 Type result = *this;
cannam@62	928 result.listDepth += depth;
cannam@62	929 return result;
cannam@62	930 }
cannam@62	931
cannam@62	932 } // namespace capnp
cannam@62	933
cannam@62	934 #endif // CAPNP_SCHEMA_H_

Mercurial > hg > sv-dependency-builds

annotate osx/include/capnp/schema.h @ 79:91c729825bca pa_catalina