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annotate win64-msvc/include/capnp/any.h @ 63:0f2d93caa50c

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Update Win64 capnp builds to v0.6
author Chris Cannam
date Mon, 22 May 2017 18:56:49 +0100
parents d93140aac40b
children
rev   line source
Chris@63 1 // Copyright (c) 2013-2014 Sandstorm Development Group, Inc. and contributors
Chris@63 2 // Licensed under the MIT License:
Chris@63 3 //
Chris@63 4 // Permission is hereby granted, free of charge, to any person obtaining a copy
Chris@63 5 // of this software and associated documentation files (the "Software"), to deal
Chris@63 6 // in the Software without restriction, including without limitation the rights
Chris@63 7 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
Chris@63 8 // copies of the Software, and to permit persons to whom the Software is
Chris@63 9 // furnished to do so, subject to the following conditions:
Chris@63 10 //
Chris@63 11 // The above copyright notice and this permission notice shall be included in
Chris@63 12 // all copies or substantial portions of the Software.
Chris@63 13 //
Chris@63 14 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
Chris@63 15 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
Chris@63 16 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
Chris@63 17 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
Chris@63 18 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
Chris@63 19 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
Chris@63 20 // THE SOFTWARE.
Chris@63 21
Chris@63 22 #ifndef CAPNP_ANY_H_
Chris@63 23 #define CAPNP_ANY_H_
Chris@63 24
Chris@63 25 #if defined(__GNUC__) && !defined(CAPNP_HEADER_WARNINGS)
Chris@63 26 #pragma GCC system_header
Chris@63 27 #endif
Chris@63 28
Chris@63 29 #include "layout.h"
Chris@63 30 #include "pointer-helpers.h"
Chris@63 31 #include "orphan.h"
Chris@63 32 #include "list.h"
Chris@63 33
Chris@63 34 namespace capnp {
Chris@63 35
Chris@63 36 class StructSchema;
Chris@63 37 class ListSchema;
Chris@63 38 class InterfaceSchema;
Chris@63 39 class Orphanage;
Chris@63 40 class ClientHook;
Chris@63 41 class PipelineHook;
Chris@63 42 struct PipelineOp;
Chris@63 43 struct AnyPointer;
Chris@63 44
Chris@63 45 struct AnyList {
Chris@63 46 AnyList() = delete;
Chris@63 47
Chris@63 48 class Reader;
Chris@63 49 class Builder;
Chris@63 50 };
Chris@63 51
Chris@63 52 struct AnyStruct {
Chris@63 53 AnyStruct() = delete;
Chris@63 54
Chris@63 55 class Reader;
Chris@63 56 class Builder;
Chris@63 57 class Pipeline;
Chris@63 58 };
Chris@63 59
Chris@63 60 template<>
Chris@63 61 struct List<AnyStruct, Kind::OTHER> {
Chris@63 62 List() = delete;
Chris@63 63
Chris@63 64 class Reader;
Chris@63 65 class Builder;
Chris@63 66 };
Chris@63 67
Chris@63 68 namespace _ { // private
Chris@63 69 template <> struct Kind_<AnyPointer> { static constexpr Kind kind = Kind::OTHER; };
Chris@63 70 template <> struct Kind_<AnyStruct> { static constexpr Kind kind = Kind::OTHER; };
Chris@63 71 template <> struct Kind_<AnyList> { static constexpr Kind kind = Kind::OTHER; };
Chris@63 72 } // namespace _ (private)
Chris@63 73
Chris@63 74 // =======================================================================================
Chris@63 75 // AnyPointer!
Chris@63 76
Chris@63 77 enum class Equality {
Chris@63 78 NOT_EQUAL,
Chris@63 79 EQUAL,
Chris@63 80 UNKNOWN_CONTAINS_CAPS
Chris@63 81 };
Chris@63 82
Chris@63 83 kj::StringPtr KJ_STRINGIFY(Equality res);
Chris@63 84
Chris@63 85 struct AnyPointer {
Chris@63 86 // Reader/Builder for the `AnyPointer` field type, i.e. a pointer that can point to an arbitrary
Chris@63 87 // object.
Chris@63 88
Chris@63 89 AnyPointer() = delete;
Chris@63 90
Chris@63 91 class Reader {
Chris@63 92 public:
Chris@63 93 typedef AnyPointer Reads;
Chris@63 94
Chris@63 95 Reader() = default;
Chris@63 96 inline Reader(_::PointerReader reader): reader(reader) {}
Chris@63 97
Chris@63 98 inline MessageSize targetSize() const;
Chris@63 99 // Get the total size of the target object and all its children.
Chris@63 100
Chris@63 101 inline PointerType getPointerType() const;
Chris@63 102
Chris@63 103 inline bool isNull() const { return getPointerType() == PointerType::NULL_; }
Chris@63 104 inline bool isStruct() const { return getPointerType() == PointerType::STRUCT; }
Chris@63 105 inline bool isList() const { return getPointerType() == PointerType::LIST; }
Chris@63 106 inline bool isCapability() const { return getPointerType() == PointerType::CAPABILITY; }
Chris@63 107
Chris@63 108 Equality equals(AnyPointer::Reader right);
Chris@63 109 bool operator==(AnyPointer::Reader right);
Chris@63 110 inline bool operator!=(AnyPointer::Reader right) {
Chris@63 111 return !(*this == right);
Chris@63 112 }
Chris@63 113
Chris@63 114 template <typename T>
Chris@63 115 inline ReaderFor<T> getAs() const;
Chris@63 116 // Valid for T = any generated struct type, interface type, List<U>, Text, or Data.
Chris@63 117
Chris@63 118 template <typename T>
Chris@63 119 inline ReaderFor<T> getAs(StructSchema schema) const;
Chris@63 120 // Only valid for T = DynamicStruct. Requires `#include <capnp/dynamic.h>`.
Chris@63 121
Chris@63 122 template <typename T>
Chris@63 123 inline ReaderFor<T> getAs(ListSchema schema) const;
Chris@63 124 // Only valid for T = DynamicList. Requires `#include <capnp/dynamic.h>`.
Chris@63 125
Chris@63 126 template <typename T>
Chris@63 127 inline ReaderFor<T> getAs(InterfaceSchema schema) const;
Chris@63 128 // Only valid for T = DynamicCapability. Requires `#include <capnp/dynamic.h>`.
Chris@63 129
Chris@63 130 #if !CAPNP_LITE
Chris@63 131 kj::Own<ClientHook> getPipelinedCap(kj::ArrayPtr<const PipelineOp> ops) const;
Chris@63 132 // Used by RPC system to implement pipelining. Applications generally shouldn't use this
Chris@63 133 // directly.
Chris@63 134 #endif // !CAPNP_LITE
Chris@63 135
Chris@63 136 private:
Chris@63 137 _::PointerReader reader;
Chris@63 138 friend struct AnyPointer;
Chris@63 139 friend class Orphanage;
Chris@63 140 friend class CapReaderContext;
Chris@63 141 friend struct _::PointerHelpers<AnyPointer>;
Chris@63 142 };
Chris@63 143
Chris@63 144 class Builder {
Chris@63 145 public:
Chris@63 146 typedef AnyPointer Builds;
Chris@63 147
Chris@63 148 Builder() = delete;
Chris@63 149 inline Builder(decltype(nullptr)) {}
Chris@63 150 inline Builder(_::PointerBuilder builder): builder(builder) {}
Chris@63 151
Chris@63 152 inline MessageSize targetSize() const;
Chris@63 153 // Get the total size of the target object and all its children.
Chris@63 154
Chris@63 155 inline PointerType getPointerType();
Chris@63 156
Chris@63 157 inline bool isNull() { return getPointerType() == PointerType::NULL_; }
Chris@63 158 inline bool isStruct() { return getPointerType() == PointerType::STRUCT; }
Chris@63 159 inline bool isList() { return getPointerType() == PointerType::LIST; }
Chris@63 160 inline bool isCapability() { return getPointerType() == PointerType::CAPABILITY; }
Chris@63 161
Chris@63 162 inline Equality equals(AnyPointer::Reader right) {
Chris@63 163 return asReader().equals(right);
Chris@63 164 }
Chris@63 165 inline bool operator==(AnyPointer::Reader right) {
Chris@63 166 return asReader() == right;
Chris@63 167 }
Chris@63 168 inline bool operator!=(AnyPointer::Reader right) {
Chris@63 169 return !(*this == right);
Chris@63 170 }
Chris@63 171
Chris@63 172 inline void clear();
Chris@63 173 // Set to null.
Chris@63 174
Chris@63 175 template <typename T>
Chris@63 176 inline BuilderFor<T> getAs();
Chris@63 177 // Valid for T = any generated struct type, List<U>, Text, or Data.
Chris@63 178
Chris@63 179 template <typename T>
Chris@63 180 inline BuilderFor<T> getAs(StructSchema schema);
Chris@63 181 // Only valid for T = DynamicStruct. Requires `#include <capnp/dynamic.h>`.
Chris@63 182
Chris@63 183 template <typename T>
Chris@63 184 inline BuilderFor<T> getAs(ListSchema schema);
Chris@63 185 // Only valid for T = DynamicList. Requires `#include <capnp/dynamic.h>`.
Chris@63 186
Chris@63 187 template <typename T>
Chris@63 188 inline BuilderFor<T> getAs(InterfaceSchema schema);
Chris@63 189 // Only valid for T = DynamicCapability. Requires `#include <capnp/dynamic.h>`.
Chris@63 190
Chris@63 191 template <typename T>
Chris@63 192 inline BuilderFor<T> initAs();
Chris@63 193 // Valid for T = any generated struct type.
Chris@63 194
Chris@63 195 template <typename T>
Chris@63 196 inline BuilderFor<T> initAs(uint elementCount);
Chris@63 197 // Valid for T = List<U>, Text, or Data.
Chris@63 198
Chris@63 199 template <typename T>
Chris@63 200 inline BuilderFor<T> initAs(StructSchema schema);
Chris@63 201 // Only valid for T = DynamicStruct. Requires `#include <capnp/dynamic.h>`.
Chris@63 202
Chris@63 203 template <typename T>
Chris@63 204 inline BuilderFor<T> initAs(ListSchema schema, uint elementCount);
Chris@63 205 // Only valid for T = DynamicList. Requires `#include <capnp/dynamic.h>`.
Chris@63 206
Chris@63 207 inline AnyList::Builder initAsAnyList(ElementSize elementSize, uint elementCount);
Chris@63 208 // Note: Does not accept INLINE_COMPOSITE for elementSize.
Chris@63 209
Chris@63 210 inline List<AnyStruct>::Builder initAsListOfAnyStruct(
Chris@63 211 uint16_t dataWordCount, uint16_t pointerCount, uint elementCount);
Chris@63 212
Chris@63 213 inline AnyStruct::Builder initAsAnyStruct(uint16_t dataWordCount, uint16_t pointerCount);
Chris@63 214
Chris@63 215 template <typename T>
Chris@63 216 inline void setAs(ReaderFor<T> value);
Chris@63 217 // Valid for ReaderType = T::Reader for T = any generated struct type, List<U>, Text, Data,
Chris@63 218 // DynamicStruct, or DynamicList (the dynamic types require `#include <capnp/dynamic.h>`).
Chris@63 219
Chris@63 220 template <typename T>
Chris@63 221 inline void setAs(std::initializer_list<ReaderFor<ListElementType<T>>> list);
Chris@63 222 // Valid for T = List<?>.
Chris@63 223
Chris@63 224 template <typename T>
Chris@63 225 inline void setCanonicalAs(ReaderFor<T> value);
Chris@63 226
Chris@63 227 inline void set(Reader value) { builder.copyFrom(value.reader); }
Chris@63 228 // Set to a copy of another AnyPointer.
Chris@63 229
Chris@63 230 inline void setCanonical(Reader value) { builder.copyFrom(value.reader, true); }
Chris@63 231
Chris@63 232 template <typename T>
Chris@63 233 inline void adopt(Orphan<T>&& orphan);
Chris@63 234 // Valid for T = any generated struct type, List<U>, Text, Data, DynamicList, DynamicStruct,
Chris@63 235 // or DynamicValue (the dynamic types require `#include <capnp/dynamic.h>`).
Chris@63 236
Chris@63 237 template <typename T>
Chris@63 238 inline Orphan<T> disownAs();
Chris@63 239 // Valid for T = any generated struct type, List<U>, Text, Data.
Chris@63 240
Chris@63 241 template <typename T>
Chris@63 242 inline Orphan<T> disownAs(StructSchema schema);
Chris@63 243 // Only valid for T = DynamicStruct. Requires `#include <capnp/dynamic.h>`.
Chris@63 244
Chris@63 245 template <typename T>
Chris@63 246 inline Orphan<T> disownAs(ListSchema schema);
Chris@63 247 // Only valid for T = DynamicList. Requires `#include <capnp/dynamic.h>`.
Chris@63 248
Chris@63 249 template <typename T>
Chris@63 250 inline Orphan<T> disownAs(InterfaceSchema schema);
Chris@63 251 // Only valid for T = DynamicCapability. Requires `#include <capnp/dynamic.h>`.
Chris@63 252
Chris@63 253 inline Orphan<AnyPointer> disown();
Chris@63 254 // Disown without a type.
Chris@63 255
Chris@63 256 inline Reader asReader() const { return Reader(builder.asReader()); }
Chris@63 257 inline operator Reader() const { return Reader(builder.asReader()); }
Chris@63 258
Chris@63 259 private:
Chris@63 260 _::PointerBuilder builder;
Chris@63 261 friend class Orphanage;
Chris@63 262 friend class CapBuilderContext;
Chris@63 263 friend struct _::PointerHelpers<AnyPointer>;
Chris@63 264 };
Chris@63 265
Chris@63 266 #if !CAPNP_LITE
Chris@63 267 class Pipeline {
Chris@63 268 public:
Chris@63 269 typedef AnyPointer Pipelines;
Chris@63 270
Chris@63 271 inline Pipeline(decltype(nullptr)) {}
Chris@63 272 inline explicit Pipeline(kj::Own<PipelineHook>&& hook): hook(kj::mv(hook)) {}
Chris@63 273
Chris@63 274 Pipeline noop();
Chris@63 275 // Just make a copy.
Chris@63 276
Chris@63 277 Pipeline getPointerField(uint16_t pointerIndex);
Chris@63 278 // Deprecated. In the future, we should use .asAnyStruct.getPointerField.
Chris@63 279
Chris@63 280 inline AnyStruct::Pipeline asAnyStruct();
Chris@63 281
Chris@63 282 kj::Own<ClientHook> asCap();
Chris@63 283 // Expect that the result is a capability and construct a pipelined version of it now.
Chris@63 284
Chris@63 285 inline kj::Own<PipelineHook> releasePipelineHook() { return kj::mv(hook); }
Chris@63 286 // For use by RPC implementations.
Chris@63 287
Chris@63 288 template <typename T, typename = kj::EnableIf<CAPNP_KIND(FromClient<T>) == Kind::INTERFACE>>
Chris@63 289 inline operator T() { return T(asCap()); }
Chris@63 290
Chris@63 291 private:
Chris@63 292 kj::Own<PipelineHook> hook;
Chris@63 293 kj::Array<PipelineOp> ops;
Chris@63 294
Chris@63 295 inline Pipeline(kj::Own<PipelineHook>&& hook, kj::Array<PipelineOp>&& ops)
Chris@63 296 : hook(kj::mv(hook)), ops(kj::mv(ops)) {}
Chris@63 297
Chris@63 298 friend class LocalClient;
Chris@63 299 friend class PipelineHook;
Chris@63 300 friend class AnyStruct::Pipeline;
Chris@63 301 };
Chris@63 302 #endif // !CAPNP_LITE
Chris@63 303 };
Chris@63 304
Chris@63 305 template <>
Chris@63 306 class Orphan<AnyPointer> {
Chris@63 307 // An orphaned object of unknown type.
Chris@63 308
Chris@63 309 public:
Chris@63 310 Orphan() = default;
Chris@63 311 KJ_DISALLOW_COPY(Orphan);
Chris@63 312 Orphan(Orphan&&) = default;
Chris@63 313 inline Orphan(_::OrphanBuilder&& builder)
Chris@63 314 : builder(kj::mv(builder)) {}
Chris@63 315
Chris@63 316 Orphan& operator=(Orphan&&) = default;
Chris@63 317
Chris@63 318 template <typename T>
Chris@63 319 inline Orphan(Orphan<T>&& other): builder(kj::mv(other.builder)) {}
Chris@63 320 template <typename T>
Chris@63 321 inline Orphan& operator=(Orphan<T>&& other) { builder = kj::mv(other.builder); return *this; }
Chris@63 322 // Cast from typed orphan.
Chris@63 323
Chris@63 324 // It's not possible to get an AnyPointer::{Reader,Builder} directly since there is no
Chris@63 325 // underlying pointer (the pointer would normally live in the parent, but this object is
Chris@63 326 // orphaned). It is possible, however, to request typed readers/builders.
Chris@63 327
Chris@63 328 template <typename T>
Chris@63 329 inline BuilderFor<T> getAs();
Chris@63 330 template <typename T>
Chris@63 331 inline BuilderFor<T> getAs(StructSchema schema);
Chris@63 332 template <typename T>
Chris@63 333 inline BuilderFor<T> getAs(ListSchema schema);
Chris@63 334 template <typename T>
Chris@63 335 inline typename T::Client getAs(InterfaceSchema schema);
Chris@63 336 template <typename T>
Chris@63 337 inline ReaderFor<T> getAsReader() const;
Chris@63 338 template <typename T>
Chris@63 339 inline ReaderFor<T> getAsReader(StructSchema schema) const;
Chris@63 340 template <typename T>
Chris@63 341 inline ReaderFor<T> getAsReader(ListSchema schema) const;
Chris@63 342 template <typename T>
Chris@63 343 inline typename T::Client getAsReader(InterfaceSchema schema) const;
Chris@63 344
Chris@63 345 template <typename T>
Chris@63 346 inline Orphan<T> releaseAs();
Chris@63 347 template <typename T>
Chris@63 348 inline Orphan<T> releaseAs(StructSchema schema);
Chris@63 349 template <typename T>
Chris@63 350 inline Orphan<T> releaseAs(ListSchema schema);
Chris@63 351 template <typename T>
Chris@63 352 inline Orphan<T> releaseAs(InterfaceSchema schema);
Chris@63 353 // Down-cast the orphan to a specific type.
Chris@63 354
Chris@63 355 inline bool operator==(decltype(nullptr)) const { return builder == nullptr; }
Chris@63 356 inline bool operator!=(decltype(nullptr)) const { return builder != nullptr; }
Chris@63 357
Chris@63 358 private:
Chris@63 359 _::OrphanBuilder builder;
Chris@63 360
Chris@63 361 template <typename, Kind>
Chris@63 362 friend struct _::PointerHelpers;
Chris@63 363 friend class Orphanage;
Chris@63 364 template <typename U>
Chris@63 365 friend class Orphan;
Chris@63 366 friend class AnyPointer::Builder;
Chris@63 367 };
Chris@63 368
Chris@63 369 template <Kind k> struct AnyTypeFor_;
Chris@63 370 template <> struct AnyTypeFor_<Kind::STRUCT> { typedef AnyStruct Type; };
Chris@63 371 template <> struct AnyTypeFor_<Kind::LIST> { typedef AnyList Type; };
Chris@63 372
Chris@63 373 template <typename T>
Chris@63 374 using AnyTypeFor = typename AnyTypeFor_<CAPNP_KIND(T)>::Type;
Chris@63 375
Chris@63 376 template <typename T>
Chris@63 377 inline ReaderFor<AnyTypeFor<FromReader<T>>> toAny(T&& value) {
Chris@63 378 return ReaderFor<AnyTypeFor<FromReader<T>>>(
Chris@63 379 _::PointerHelpers<FromReader<T>>::getInternalReader(value));
Chris@63 380 }
Chris@63 381 template <typename T>
Chris@63 382 inline BuilderFor<AnyTypeFor<FromBuilder<T>>> toAny(T&& value) {
Chris@63 383 return BuilderFor<AnyTypeFor<FromBuilder<T>>>(
Chris@63 384 _::PointerHelpers<FromBuilder<T>>::getInternalBuilder(kj::mv(value)));
Chris@63 385 }
Chris@63 386
Chris@63 387 template <>
Chris@63 388 struct List<AnyPointer, Kind::OTHER> {
Chris@63 389 // Note: This cannot be used for a list of structs, since such lists are not encoded as pointer
Chris@63 390 // lists! Use List<AnyStruct>.
Chris@63 391
Chris@63 392 List() = delete;
Chris@63 393
Chris@63 394 class Reader {
Chris@63 395 public:
Chris@63 396 typedef List<AnyPointer> Reads;
Chris@63 397
Chris@63 398 inline Reader(): reader(ElementSize::POINTER) {}
Chris@63 399 inline explicit Reader(_::ListReader reader): reader(reader) {}
Chris@63 400
Chris@63 401 inline uint size() const { return unbound(reader.size() / ELEMENTS); }
Chris@63 402 inline AnyPointer::Reader operator[](uint index) const {
Chris@63 403 KJ_IREQUIRE(index < size());
Chris@63 404 return AnyPointer::Reader(reader.getPointerElement(bounded(index) * ELEMENTS));
Chris@63 405 }
Chris@63 406
Chris@63 407 typedef _::IndexingIterator<const Reader, typename AnyPointer::Reader> Iterator;
Chris@63 408 inline Iterator begin() const { return Iterator(this, 0); }
Chris@63 409 inline Iterator end() const { return Iterator(this, size()); }
Chris@63 410
Chris@63 411 private:
Chris@63 412 _::ListReader reader;
Chris@63 413 template <typename U, Kind K>
Chris@63 414 friend struct _::PointerHelpers;
Chris@63 415 template <typename U, Kind K>
Chris@63 416 friend struct List;
Chris@63 417 friend class Orphanage;
Chris@63 418 template <typename U, Kind K>
Chris@63 419 friend struct ToDynamic_;
Chris@63 420 };
Chris@63 421
Chris@63 422 class Builder {
Chris@63 423 public:
Chris@63 424 typedef List<AnyPointer> Builds;
Chris@63 425
Chris@63 426 Builder() = delete;
Chris@63 427 inline Builder(decltype(nullptr)): builder(ElementSize::POINTER) {}
Chris@63 428 inline explicit Builder(_::ListBuilder builder): builder(builder) {}
Chris@63 429
Chris@63 430 inline operator Reader() const { return Reader(builder.asReader()); }
Chris@63 431 inline Reader asReader() const { return Reader(builder.asReader()); }
Chris@63 432
Chris@63 433 inline uint size() const { return unbound(builder.size() / ELEMENTS); }
Chris@63 434 inline AnyPointer::Builder operator[](uint index) {
Chris@63 435 KJ_IREQUIRE(index < size());
Chris@63 436 return AnyPointer::Builder(builder.getPointerElement(bounded(index) * ELEMENTS));
Chris@63 437 }
Chris@63 438
Chris@63 439 typedef _::IndexingIterator<Builder, typename AnyPointer::Builder> Iterator;
Chris@63 440 inline Iterator begin() { return Iterator(this, 0); }
Chris@63 441 inline Iterator end() { return Iterator(this, size()); }
Chris@63 442
Chris@63 443 private:
Chris@63 444 _::ListBuilder builder;
Chris@63 445 template <typename, Kind>
Chris@63 446 friend struct _::PointerHelpers;
Chris@63 447 friend class Orphanage;
Chris@63 448 template <typename, Kind>
Chris@63 449 friend struct ToDynamic_;
Chris@63 450 };
Chris@63 451 };
Chris@63 452
Chris@63 453 class AnyStruct::Reader {
Chris@63 454 public:
Chris@63 455 typedef AnyStruct Reads;
Chris@63 456
Chris@63 457 Reader() = default;
Chris@63 458 inline Reader(_::StructReader reader): _reader(reader) {}
Chris@63 459
Chris@63 460 template <typename T, typename = kj::EnableIf<CAPNP_KIND(FromReader<T>) == Kind::STRUCT>>
Chris@63 461 inline Reader(T&& value)
Chris@63 462 : _reader(_::PointerHelpers<FromReader<T>>::getInternalReader(kj::fwd<T>(value))) {}
Chris@63 463
Chris@63 464 kj::ArrayPtr<const byte> getDataSection() {
Chris@63 465 return _reader.getDataSectionAsBlob();
Chris@63 466 }
Chris@63 467 List<AnyPointer>::Reader getPointerSection() {
Chris@63 468 return List<AnyPointer>::Reader(_reader.getPointerSectionAsList());
Chris@63 469 }
Chris@63 470
Chris@63 471 kj::Array<word> canonicalize() {
Chris@63 472 return _reader.canonicalize();
Chris@63 473 }
Chris@63 474
Chris@63 475 Equality equals(AnyStruct::Reader right);
Chris@63 476 bool operator==(AnyStruct::Reader right);
Chris@63 477 inline bool operator!=(AnyStruct::Reader right) {
Chris@63 478 return !(*this == right);
Chris@63 479 }
Chris@63 480
Chris@63 481 template <typename T>
Chris@63 482 ReaderFor<T> as() const {
Chris@63 483 // T must be a struct type.
Chris@63 484 return typename T::Reader(_reader);
Chris@63 485 }
Chris@63 486 private:
Chris@63 487 _::StructReader _reader;
Chris@63 488
Chris@63 489 template <typename, Kind>
Chris@63 490 friend struct _::PointerHelpers;
Chris@63 491 friend class Orphanage;
Chris@63 492 };
Chris@63 493
Chris@63 494 class AnyStruct::Builder {
Chris@63 495 public:
Chris@63 496 typedef AnyStruct Builds;
Chris@63 497
Chris@63 498 inline Builder(decltype(nullptr)) {}
Chris@63 499 inline Builder(_::StructBuilder builder): _builder(builder) {}
Chris@63 500
Chris@63 501 #if !_MSC_VER // TODO(msvc): MSVC ICEs on this. Try restoring when compiler improves.
Chris@63 502 template <typename T, typename = kj::EnableIf<CAPNP_KIND(FromBuilder<T>) == Kind::STRUCT>>
Chris@63 503 inline Builder(T&& value)
Chris@63 504 : _builder(_::PointerHelpers<FromBuilder<T>>::getInternalBuilder(kj::fwd<T>(value))) {}
Chris@63 505 #endif
Chris@63 506
Chris@63 507 inline kj::ArrayPtr<byte> getDataSection() {
Chris@63 508 return _builder.getDataSectionAsBlob();
Chris@63 509 }
Chris@63 510 List<AnyPointer>::Builder getPointerSection() {
Chris@63 511 return List<AnyPointer>::Builder(_builder.getPointerSectionAsList());
Chris@63 512 }
Chris@63 513
Chris@63 514 inline Equality equals(AnyStruct::Reader right) {
Chris@63 515 return asReader().equals(right);
Chris@63 516 }
Chris@63 517 inline bool operator==(AnyStruct::Reader right) {
Chris@63 518 return asReader() == right;
Chris@63 519 }
Chris@63 520 inline bool operator!=(AnyStruct::Reader right) {
Chris@63 521 return !(*this == right);
Chris@63 522 }
Chris@63 523
Chris@63 524 inline operator Reader() const { return Reader(_builder.asReader()); }
Chris@63 525 inline Reader asReader() const { return Reader(_builder.asReader()); }
Chris@63 526
Chris@63 527 template <typename T>
Chris@63 528 BuilderFor<T> as() {
Chris@63 529 // T must be a struct type.
Chris@63 530 return typename T::Builder(_builder);
Chris@63 531 }
Chris@63 532 private:
Chris@63 533 _::StructBuilder _builder;
Chris@63 534 friend class Orphanage;
Chris@63 535 friend class CapBuilderContext;
Chris@63 536 };
Chris@63 537
Chris@63 538 #if !CAPNP_LITE
Chris@63 539 class AnyStruct::Pipeline {
Chris@63 540 public:
Chris@63 541 inline Pipeline(decltype(nullptr)): typeless(nullptr) {}
Chris@63 542 inline explicit Pipeline(AnyPointer::Pipeline&& typeless)
Chris@63 543 : typeless(kj::mv(typeless)) {}
Chris@63 544
Chris@63 545 inline AnyPointer::Pipeline getPointerField(uint16_t pointerIndex) {
Chris@63 546 // Return a new Promise representing a sub-object of the result. `pointerIndex` is the index
Chris@63 547 // of the sub-object within the pointer section of the result (the result must be a struct).
Chris@63 548 //
Chris@63 549 // TODO(perf): On GCC 4.8 / Clang 3.3, use rvalue qualifiers to avoid the need for copies.
Chris@63 550 // Also make `ops` into a Vector to optimize this.
Chris@63 551 return typeless.getPointerField(pointerIndex);
Chris@63 552 }
Chris@63 553
Chris@63 554 private:
Chris@63 555 AnyPointer::Pipeline typeless;
Chris@63 556 };
Chris@63 557 #endif // !CAPNP_LITE
Chris@63 558
Chris@63 559 class List<AnyStruct, Kind::OTHER>::Reader {
Chris@63 560 public:
Chris@63 561 typedef List<AnyStruct> Reads;
Chris@63 562
Chris@63 563 inline Reader(): reader(ElementSize::INLINE_COMPOSITE) {}
Chris@63 564 inline explicit Reader(_::ListReader reader): reader(reader) {}
Chris@63 565
Chris@63 566 inline uint size() const { return unbound(reader.size() / ELEMENTS); }
Chris@63 567 inline AnyStruct::Reader operator[](uint index) const {
Chris@63 568 KJ_IREQUIRE(index < size());
Chris@63 569 return AnyStruct::Reader(reader.getStructElement(bounded(index) * ELEMENTS));
Chris@63 570 }
Chris@63 571
Chris@63 572 typedef _::IndexingIterator<const Reader, typename AnyStruct::Reader> Iterator;
Chris@63 573 inline Iterator begin() const { return Iterator(this, 0); }
Chris@63 574 inline Iterator end() const { return Iterator(this, size()); }
Chris@63 575
Chris@63 576 private:
Chris@63 577 _::ListReader reader;
Chris@63 578 template <typename U, Kind K>
Chris@63 579 friend struct _::PointerHelpers;
Chris@63 580 template <typename U, Kind K>
Chris@63 581 friend struct List;
Chris@63 582 friend class Orphanage;
Chris@63 583 template <typename U, Kind K>
Chris@63 584 friend struct ToDynamic_;
Chris@63 585 };
Chris@63 586
Chris@63 587 class List<AnyStruct, Kind::OTHER>::Builder {
Chris@63 588 public:
Chris@63 589 typedef List<AnyStruct> Builds;
Chris@63 590
Chris@63 591 Builder() = delete;
Chris@63 592 inline Builder(decltype(nullptr)): builder(ElementSize::INLINE_COMPOSITE) {}
Chris@63 593 inline explicit Builder(_::ListBuilder builder): builder(builder) {}
Chris@63 594
Chris@63 595 inline operator Reader() const { return Reader(builder.asReader()); }
Chris@63 596 inline Reader asReader() const { return Reader(builder.asReader()); }
Chris@63 597
Chris@63 598 inline uint size() const { return unbound(builder.size() / ELEMENTS); }
Chris@63 599 inline AnyStruct::Builder operator[](uint index) {
Chris@63 600 KJ_IREQUIRE(index < size());
Chris@63 601 return AnyStruct::Builder(builder.getStructElement(bounded(index) * ELEMENTS));
Chris@63 602 }
Chris@63 603
Chris@63 604 typedef _::IndexingIterator<Builder, typename AnyStruct::Builder> Iterator;
Chris@63 605 inline Iterator begin() { return Iterator(this, 0); }
Chris@63 606 inline Iterator end() { return Iterator(this, size()); }
Chris@63 607
Chris@63 608 private:
Chris@63 609 _::ListBuilder builder;
Chris@63 610 template <typename U, Kind K>
Chris@63 611 friend struct _::PointerHelpers;
Chris@63 612 friend class Orphanage;
Chris@63 613 template <typename U, Kind K>
Chris@63 614 friend struct ToDynamic_;
Chris@63 615 };
Chris@63 616
Chris@63 617 class AnyList::Reader {
Chris@63 618 public:
Chris@63 619 typedef AnyList Reads;
Chris@63 620
Chris@63 621 inline Reader(): _reader(ElementSize::VOID) {}
Chris@63 622 inline Reader(_::ListReader reader): _reader(reader) {}
Chris@63 623
Chris@63 624 #if !_MSC_VER // TODO(msvc): MSVC ICEs on this. Try restoring when compiler improves.
Chris@63 625 template <typename T, typename = kj::EnableIf<CAPNP_KIND(FromReader<T>) == Kind::LIST>>
Chris@63 626 inline Reader(T&& value)
Chris@63 627 : _reader(_::PointerHelpers<FromReader<T>>::getInternalReader(kj::fwd<T>(value))) {}
Chris@63 628 #endif
Chris@63 629
Chris@63 630 inline ElementSize getElementSize() { return _reader.getElementSize(); }
Chris@63 631 inline uint size() { return unbound(_reader.size() / ELEMENTS); }
Chris@63 632
Chris@63 633 inline kj::ArrayPtr<const byte> getRawBytes() { return _reader.asRawBytes(); }
Chris@63 634
Chris@63 635 Equality equals(AnyList::Reader right);
Chris@63 636 bool operator==(AnyList::Reader right);
Chris@63 637 inline bool operator!=(AnyList::Reader right) {
Chris@63 638 return !(*this == right);
Chris@63 639 }
Chris@63 640
Chris@63 641 template <typename T> ReaderFor<T> as() {
Chris@63 642 // T must be List<U>.
Chris@63 643 return ReaderFor<T>(_reader);
Chris@63 644 }
Chris@63 645 private:
Chris@63 646 _::ListReader _reader;
Chris@63 647
Chris@63 648 template <typename, Kind>
Chris@63 649 friend struct _::PointerHelpers;
Chris@63 650 friend class Orphanage;
Chris@63 651 };
Chris@63 652
Chris@63 653 class AnyList::Builder {
Chris@63 654 public:
Chris@63 655 typedef AnyList Builds;
Chris@63 656
Chris@63 657 inline Builder(decltype(nullptr)): _builder(ElementSize::VOID) {}
Chris@63 658 inline Builder(_::ListBuilder builder): _builder(builder) {}
Chris@63 659
Chris@63 660 #if !_MSC_VER // TODO(msvc): MSVC ICEs on this. Try restoring when compiler improves.
Chris@63 661 template <typename T, typename = kj::EnableIf<CAPNP_KIND(FromBuilder<T>) == Kind::LIST>>
Chris@63 662 inline Builder(T&& value)
Chris@63 663 : _builder(_::PointerHelpers<FromBuilder<T>>::getInternalBuilder(kj::fwd<T>(value))) {}
Chris@63 664 #endif
Chris@63 665
Chris@63 666 inline ElementSize getElementSize() { return _builder.getElementSize(); }
Chris@63 667 inline uint size() { return unbound(_builder.size() / ELEMENTS); }
Chris@63 668
Chris@63 669 Equality equals(AnyList::Reader right);
Chris@63 670 inline bool operator==(AnyList::Reader right) {
Chris@63 671 return asReader() == right;
Chris@63 672 }
Chris@63 673 inline bool operator!=(AnyList::Reader right) {
Chris@63 674 return !(*this == right);
Chris@63 675 }
Chris@63 676
Chris@63 677 template <typename T> BuilderFor<T> as() {
Chris@63 678 // T must be List<U>.
Chris@63 679 return BuilderFor<T>(_builder);
Chris@63 680 }
Chris@63 681
Chris@63 682 inline operator Reader() const { return Reader(_builder.asReader()); }
Chris@63 683 inline Reader asReader() const { return Reader(_builder.asReader()); }
Chris@63 684
Chris@63 685 private:
Chris@63 686 _::ListBuilder _builder;
Chris@63 687
Chris@63 688 friend class Orphanage;
Chris@63 689 };
Chris@63 690
Chris@63 691 // =======================================================================================
Chris@63 692 // Pipeline helpers
Chris@63 693 //
Chris@63 694 // These relate to capabilities, but we don't declare them in capability.h because generated code
Chris@63 695 // for structs needs to know about these, even in files that contain no interfaces.
Chris@63 696
Chris@63 697 #if !CAPNP_LITE
Chris@63 698
Chris@63 699 struct PipelineOp {
Chris@63 700 // Corresponds to rpc.capnp's PromisedAnswer.Op.
Chris@63 701
Chris@63 702 enum Type {
Chris@63 703 NOOP, // for convenience
Chris@63 704
Chris@63 705 GET_POINTER_FIELD
Chris@63 706
Chris@63 707 // There may be other types in the future...
Chris@63 708 };
Chris@63 709
Chris@63 710 Type type;
Chris@63 711 union {
Chris@63 712 uint16_t pointerIndex; // for GET_POINTER_FIELD
Chris@63 713 };
Chris@63 714 };
Chris@63 715
Chris@63 716 class PipelineHook {
Chris@63 717 // Represents a currently-running call, and implements pipelined requests on its result.
Chris@63 718
Chris@63 719 public:
Chris@63 720 virtual kj::Own<PipelineHook> addRef() = 0;
Chris@63 721 // Increment this object's reference count.
Chris@63 722
Chris@63 723 virtual kj::Own<ClientHook> getPipelinedCap(kj::ArrayPtr<const PipelineOp> ops) = 0;
Chris@63 724 // Extract a promised Capability from the results.
Chris@63 725
Chris@63 726 virtual kj::Own<ClientHook> getPipelinedCap(kj::Array<PipelineOp>&& ops);
Chris@63 727 // Version of getPipelinedCap() passing the array by move. May avoid a copy in some cases.
Chris@63 728 // Default implementation just calls the other version.
Chris@63 729
Chris@63 730 template <typename Pipeline, typename = FromPipeline<Pipeline>>
Chris@63 731 static inline kj::Own<PipelineHook> from(Pipeline&& pipeline);
Chris@63 732
Chris@63 733 private:
Chris@63 734 template <typename T> struct FromImpl;
Chris@63 735 };
Chris@63 736
Chris@63 737 #endif // !CAPNP_LITE
Chris@63 738
Chris@63 739 // =======================================================================================
Chris@63 740 // Inline implementation details
Chris@63 741
Chris@63 742 inline MessageSize AnyPointer::Reader::targetSize() const {
Chris@63 743 return reader.targetSize().asPublic();
Chris@63 744 }
Chris@63 745
Chris@63 746 inline PointerType AnyPointer::Reader::getPointerType() const {
Chris@63 747 return reader.getPointerType();
Chris@63 748 }
Chris@63 749
Chris@63 750 template <typename T>
Chris@63 751 inline ReaderFor<T> AnyPointer::Reader::getAs() const {
Chris@63 752 return _::PointerHelpers<T>::get(reader);
Chris@63 753 }
Chris@63 754
Chris@63 755 inline MessageSize AnyPointer::Builder::targetSize() const {
Chris@63 756 return asReader().targetSize();
Chris@63 757 }
Chris@63 758
Chris@63 759 inline PointerType AnyPointer::Builder::getPointerType() {
Chris@63 760 return builder.getPointerType();
Chris@63 761 }
Chris@63 762
Chris@63 763 inline void AnyPointer::Builder::clear() {
Chris@63 764 return builder.clear();
Chris@63 765 }
Chris@63 766
Chris@63 767 template <typename T>
Chris@63 768 inline BuilderFor<T> AnyPointer::Builder::getAs() {
Chris@63 769 return _::PointerHelpers<T>::get(builder);
Chris@63 770 }
Chris@63 771
Chris@63 772 template <typename T>
Chris@63 773 inline BuilderFor<T> AnyPointer::Builder::initAs() {
Chris@63 774 return _::PointerHelpers<T>::init(builder);
Chris@63 775 }
Chris@63 776
Chris@63 777 template <typename T>
Chris@63 778 inline BuilderFor<T> AnyPointer::Builder::initAs(uint elementCount) {
Chris@63 779 return _::PointerHelpers<T>::init(builder, elementCount);
Chris@63 780 }
Chris@63 781
Chris@63 782 inline AnyList::Builder AnyPointer::Builder::initAsAnyList(
Chris@63 783 ElementSize elementSize, uint elementCount) {
Chris@63 784 return AnyList::Builder(builder.initList(elementSize, bounded(elementCount) * ELEMENTS));
Chris@63 785 }
Chris@63 786
Chris@63 787 inline List<AnyStruct>::Builder AnyPointer::Builder::initAsListOfAnyStruct(
Chris@63 788 uint16_t dataWordCount, uint16_t pointerCount, uint elementCount) {
Chris@63 789 return List<AnyStruct>::Builder(builder.initStructList(bounded(elementCount) * ELEMENTS,
Chris@63 790 _::StructSize(bounded(dataWordCount) * WORDS,
Chris@63 791 bounded(pointerCount) * POINTERS)));
Chris@63 792 }
Chris@63 793
Chris@63 794 inline AnyStruct::Builder AnyPointer::Builder::initAsAnyStruct(
Chris@63 795 uint16_t dataWordCount, uint16_t pointerCount) {
Chris@63 796 return AnyStruct::Builder(builder.initStruct(
Chris@63 797 _::StructSize(bounded(dataWordCount) * WORDS,
Chris@63 798 bounded(pointerCount) * POINTERS)));
Chris@63 799 }
Chris@63 800
Chris@63 801 template <typename T>
Chris@63 802 inline void AnyPointer::Builder::setAs(ReaderFor<T> value) {
Chris@63 803 return _::PointerHelpers<T>::set(builder, value);
Chris@63 804 }
Chris@63 805
Chris@63 806 template <typename T>
Chris@63 807 inline void AnyPointer::Builder::setCanonicalAs(ReaderFor<T> value) {
Chris@63 808 return _::PointerHelpers<T>::setCanonical(builder, value);
Chris@63 809 }
Chris@63 810
Chris@63 811 template <typename T>
Chris@63 812 inline void AnyPointer::Builder::setAs(
Chris@63 813 std::initializer_list<ReaderFor<ListElementType<T>>> list) {
Chris@63 814 return _::PointerHelpers<T>::set(builder, list);
Chris@63 815 }
Chris@63 816
Chris@63 817 template <typename T>
Chris@63 818 inline void AnyPointer::Builder::adopt(Orphan<T>&& orphan) {
Chris@63 819 _::PointerHelpers<T>::adopt(builder, kj::mv(orphan));
Chris@63 820 }
Chris@63 821
Chris@63 822 template <typename T>
Chris@63 823 inline Orphan<T> AnyPointer::Builder::disownAs() {
Chris@63 824 return _::PointerHelpers<T>::disown(builder);
Chris@63 825 }
Chris@63 826
Chris@63 827 inline Orphan<AnyPointer> AnyPointer::Builder::disown() {
Chris@63 828 return Orphan<AnyPointer>(builder.disown());
Chris@63 829 }
Chris@63 830
Chris@63 831 template <> struct ReaderFor_ <AnyPointer, Kind::OTHER> { typedef AnyPointer::Reader Type; };
Chris@63 832 template <> struct BuilderFor_<AnyPointer, Kind::OTHER> { typedef AnyPointer::Builder Type; };
Chris@63 833 template <> struct ReaderFor_ <AnyStruct, Kind::OTHER> { typedef AnyStruct::Reader Type; };
Chris@63 834 template <> struct BuilderFor_<AnyStruct, Kind::OTHER> { typedef AnyStruct::Builder Type; };
Chris@63 835
Chris@63 836 template <>
Chris@63 837 struct Orphanage::GetInnerReader<AnyPointer, Kind::OTHER> {
Chris@63 838 static inline _::PointerReader apply(const AnyPointer::Reader& t) {
Chris@63 839 return t.reader;
Chris@63 840 }
Chris@63 841 };
Chris@63 842
Chris@63 843 template <>
Chris@63 844 struct Orphanage::GetInnerBuilder<AnyPointer, Kind::OTHER> {
Chris@63 845 static inline _::PointerBuilder apply(AnyPointer::Builder& t) {
Chris@63 846 return t.builder;
Chris@63 847 }
Chris@63 848 };
Chris@63 849
Chris@63 850 template <>
Chris@63 851 struct Orphanage::GetInnerReader<AnyStruct, Kind::OTHER> {
Chris@63 852 static inline _::StructReader apply(const AnyStruct::Reader& t) {
Chris@63 853 return t._reader;
Chris@63 854 }
Chris@63 855 };
Chris@63 856
Chris@63 857 template <>
Chris@63 858 struct Orphanage::GetInnerBuilder<AnyStruct, Kind::OTHER> {
Chris@63 859 static inline _::StructBuilder apply(AnyStruct::Builder& t) {
Chris@63 860 return t._builder;
Chris@63 861 }
Chris@63 862 };
Chris@63 863
Chris@63 864 template <>
Chris@63 865 struct Orphanage::GetInnerReader<AnyList, Kind::OTHER> {
Chris@63 866 static inline _::ListReader apply(const AnyList::Reader& t) {
Chris@63 867 return t._reader;
Chris@63 868 }
Chris@63 869 };
Chris@63 870
Chris@63 871 template <>
Chris@63 872 struct Orphanage::GetInnerBuilder<AnyList, Kind::OTHER> {
Chris@63 873 static inline _::ListBuilder apply(AnyList::Builder& t) {
Chris@63 874 return t._builder;
Chris@63 875 }
Chris@63 876 };
Chris@63 877
Chris@63 878 template <typename T>
Chris@63 879 inline BuilderFor<T> Orphan<AnyPointer>::getAs() {
Chris@63 880 return _::OrphanGetImpl<T>::apply(builder);
Chris@63 881 }
Chris@63 882 template <typename T>
Chris@63 883 inline ReaderFor<T> Orphan<AnyPointer>::getAsReader() const {
Chris@63 884 return _::OrphanGetImpl<T>::applyReader(builder);
Chris@63 885 }
Chris@63 886 template <typename T>
Chris@63 887 inline Orphan<T> Orphan<AnyPointer>::releaseAs() {
Chris@63 888 return Orphan<T>(kj::mv(builder));
Chris@63 889 }
Chris@63 890
Chris@63 891 // Using AnyPointer as the template type should work...
Chris@63 892
Chris@63 893 template <>
Chris@63 894 inline typename AnyPointer::Reader AnyPointer::Reader::getAs<AnyPointer>() const {
Chris@63 895 return *this;
Chris@63 896 }
Chris@63 897 template <>
Chris@63 898 inline typename AnyPointer::Builder AnyPointer::Builder::getAs<AnyPointer>() {
Chris@63 899 return *this;
Chris@63 900 }
Chris@63 901 template <>
Chris@63 902 inline typename AnyPointer::Builder AnyPointer::Builder::initAs<AnyPointer>() {
Chris@63 903 clear();
Chris@63 904 return *this;
Chris@63 905 }
Chris@63 906 template <>
Chris@63 907 inline void AnyPointer::Builder::setAs<AnyPointer>(AnyPointer::Reader value) {
Chris@63 908 return builder.copyFrom(value.reader);
Chris@63 909 }
Chris@63 910 template <>
Chris@63 911 inline void AnyPointer::Builder::adopt<AnyPointer>(Orphan<AnyPointer>&& orphan) {
Chris@63 912 builder.adopt(kj::mv(orphan.builder));
Chris@63 913 }
Chris@63 914 template <>
Chris@63 915 inline Orphan<AnyPointer> AnyPointer::Builder::disownAs<AnyPointer>() {
Chris@63 916 return Orphan<AnyPointer>(builder.disown());
Chris@63 917 }
Chris@63 918 template <>
Chris@63 919 inline Orphan<AnyPointer> Orphan<AnyPointer>::releaseAs() {
Chris@63 920 return kj::mv(*this);
Chris@63 921 }
Chris@63 922
Chris@63 923 namespace _ { // private
Chris@63 924
Chris@63 925 // Specialize PointerHelpers for AnyPointer.
Chris@63 926
Chris@63 927 template <>
Chris@63 928 struct PointerHelpers<AnyPointer, Kind::OTHER> {
Chris@63 929 static inline AnyPointer::Reader get(PointerReader reader,
Chris@63 930 const void* defaultValue = nullptr,
Chris@63 931 uint defaultBytes = 0) {
Chris@63 932 return AnyPointer::Reader(reader);
Chris@63 933 }
Chris@63 934 static inline AnyPointer::Builder get(PointerBuilder builder,
Chris@63 935 const void* defaultValue = nullptr,
Chris@63 936 uint defaultBytes = 0) {
Chris@63 937 return AnyPointer::Builder(builder);
Chris@63 938 }
Chris@63 939 static inline void set(PointerBuilder builder, AnyPointer::Reader value) {
Chris@63 940 AnyPointer::Builder(builder).set(value);
Chris@63 941 }
Chris@63 942 static inline void adopt(PointerBuilder builder, Orphan<AnyPointer>&& value) {
Chris@63 943 builder.adopt(kj::mv(value.builder));
Chris@63 944 }
Chris@63 945 static inline Orphan<AnyPointer> disown(PointerBuilder builder) {
Chris@63 946 return Orphan<AnyPointer>(builder.disown());
Chris@63 947 }
Chris@63 948 static inline _::PointerReader getInternalReader(const AnyPointer::Reader& reader) {
Chris@63 949 return reader.reader;
Chris@63 950 }
Chris@63 951 static inline _::PointerBuilder getInternalBuilder(AnyPointer::Builder&& builder) {
Chris@63 952 return builder.builder;
Chris@63 953 }
Chris@63 954 };
Chris@63 955
Chris@63 956 template <>
Chris@63 957 struct PointerHelpers<AnyStruct, Kind::OTHER> {
Chris@63 958 static inline AnyStruct::Reader get(
Chris@63 959 PointerReader reader, const word* defaultValue = nullptr) {
Chris@63 960 return AnyStruct::Reader(reader.getStruct(defaultValue));
Chris@63 961 }
Chris@63 962 static inline AnyStruct::Builder get(
Chris@63 963 PointerBuilder builder, const word* defaultValue = nullptr) {
Chris@63 964 // TODO(someday): Allow specifying the size somehow?
Chris@63 965 return AnyStruct::Builder(builder.getStruct(
Chris@63 966 _::StructSize(ZERO * WORDS, ZERO * POINTERS), defaultValue));
Chris@63 967 }
Chris@63 968 static inline void set(PointerBuilder builder, AnyStruct::Reader value) {
Chris@63 969 builder.setStruct(value._reader);
Chris@63 970 }
Chris@63 971 static inline AnyStruct::Builder init(
Chris@63 972 PointerBuilder builder, uint16_t dataWordCount, uint16_t pointerCount) {
Chris@63 973 return AnyStruct::Builder(builder.initStruct(
Chris@63 974 StructSize(bounded(dataWordCount) * WORDS,
Chris@63 975 bounded(pointerCount) * POINTERS)));
Chris@63 976 }
Chris@63 977
Chris@63 978 static void adopt(PointerBuilder builder, Orphan<AnyStruct>&& value) {
Chris@63 979 builder.adopt(kj::mv(value.builder));
Chris@63 980 }
Chris@63 981 static Orphan<AnyStruct> disown(PointerBuilder builder) {
Chris@63 982 return Orphan<AnyStruct>(builder.disown());
Chris@63 983 }
Chris@63 984 };
Chris@63 985
Chris@63 986 template <>
Chris@63 987 struct PointerHelpers<AnyList, Kind::OTHER> {
Chris@63 988 static inline AnyList::Reader get(
Chris@63 989 PointerReader reader, const word* defaultValue = nullptr) {
Chris@63 990 return AnyList::Reader(reader.getListAnySize(defaultValue));
Chris@63 991 }
Chris@63 992 static inline AnyList::Builder get(
Chris@63 993 PointerBuilder builder, const word* defaultValue = nullptr) {
Chris@63 994 return AnyList::Builder(builder.getListAnySize(defaultValue));
Chris@63 995 }
Chris@63 996 static inline void set(PointerBuilder builder, AnyList::Reader value) {
Chris@63 997 builder.setList(value._reader);
Chris@63 998 }
Chris@63 999 static inline AnyList::Builder init(
Chris@63 1000 PointerBuilder builder, ElementSize elementSize, uint elementCount) {
Chris@63 1001 return AnyList::Builder(builder.initList(
Chris@63 1002 elementSize, bounded(elementCount) * ELEMENTS));
Chris@63 1003 }
Chris@63 1004 static inline AnyList::Builder init(
Chris@63 1005 PointerBuilder builder, uint16_t dataWordCount, uint16_t pointerCount, uint elementCount) {
Chris@63 1006 return AnyList::Builder(builder.initStructList(
Chris@63 1007 bounded(elementCount) * ELEMENTS,
Chris@63 1008 StructSize(bounded(dataWordCount) * WORDS,
Chris@63 1009 bounded(pointerCount) * POINTERS)));
Chris@63 1010 }
Chris@63 1011
Chris@63 1012 static void adopt(PointerBuilder builder, Orphan<AnyList>&& value) {
Chris@63 1013 builder.adopt(kj::mv(value.builder));
Chris@63 1014 }
Chris@63 1015 static Orphan<AnyList> disown(PointerBuilder builder) {
Chris@63 1016 return Orphan<AnyList>(builder.disown());
Chris@63 1017 }
Chris@63 1018 };
Chris@63 1019
Chris@63 1020 template <>
Chris@63 1021 struct OrphanGetImpl<AnyStruct, Kind::OTHER> {
Chris@63 1022 static inline AnyStruct::Builder apply(_::OrphanBuilder& builder) {
Chris@63 1023 return AnyStruct::Builder(builder.asStruct(_::StructSize(ZERO * WORDS, ZERO * POINTERS)));
Chris@63 1024 }
Chris@63 1025 static inline AnyStruct::Reader applyReader(const _::OrphanBuilder& builder) {
Chris@63 1026 return AnyStruct::Reader(builder.asStructReader(_::StructSize(ZERO * WORDS, ZERO * POINTERS)));
Chris@63 1027 }
Chris@63 1028 static inline void truncateListOf(_::OrphanBuilder& builder, ElementCount size) {
Chris@63 1029 builder.truncate(size, _::StructSize(ZERO * WORDS, ZERO * POINTERS));
Chris@63 1030 }
Chris@63 1031 };
Chris@63 1032
Chris@63 1033 template <>
Chris@63 1034 struct OrphanGetImpl<AnyList, Kind::OTHER> {
Chris@63 1035 static inline AnyList::Builder apply(_::OrphanBuilder& builder) {
Chris@63 1036 return AnyList::Builder(builder.asListAnySize());
Chris@63 1037 }
Chris@63 1038 static inline AnyList::Reader applyReader(const _::OrphanBuilder& builder) {
Chris@63 1039 return AnyList::Reader(builder.asListReaderAnySize());
Chris@63 1040 }
Chris@63 1041 static inline void truncateListOf(_::OrphanBuilder& builder, ElementCount size) {
Chris@63 1042 builder.truncate(size, ElementSize::POINTER);
Chris@63 1043 }
Chris@63 1044 };
Chris@63 1045
Chris@63 1046 } // namespace _ (private)
Chris@63 1047
Chris@63 1048 #if !CAPNP_LITE
Chris@63 1049
Chris@63 1050 template <typename T>
Chris@63 1051 struct PipelineHook::FromImpl {
Chris@63 1052 static inline kj::Own<PipelineHook> apply(typename T::Pipeline&& pipeline) {
Chris@63 1053 return from(kj::mv(pipeline._typeless));
Chris@63 1054 }
Chris@63 1055 };
Chris@63 1056
Chris@63 1057 template <>
Chris@63 1058 struct PipelineHook::FromImpl<AnyPointer> {
Chris@63 1059 static inline kj::Own<PipelineHook> apply(AnyPointer::Pipeline&& pipeline) {
Chris@63 1060 return kj::mv(pipeline.hook);
Chris@63 1061 }
Chris@63 1062 };
Chris@63 1063
Chris@63 1064 template <typename Pipeline, typename T>
Chris@63 1065 inline kj::Own<PipelineHook> PipelineHook::from(Pipeline&& pipeline) {
Chris@63 1066 return FromImpl<T>::apply(kj::fwd<Pipeline>(pipeline));
Chris@63 1067 }
Chris@63 1068
Chris@63 1069 #endif // !CAPNP_LITE
Chris@63 1070
Chris@63 1071 } // namespace capnp
Chris@63 1072
Chris@63 1073 #endif // CAPNP_ANY_H_