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

annotate osx/include/capnp/list.h @ 139:413e081fcc6f

Rebuild MAD with 64-bit FPM

author	Chris Cannam <cannam@all-day-breakfast.com>
date	Wed, 30 Nov 2016 20:59:17 +0000
parents	41e769c91eca
children	0994c39f1e94

rev	line source
cannam@134	1 // Copyright (c) 2013-2014 Sandstorm Development Group, Inc. and contributors
cannam@134	2 // Licensed under the MIT License:
cannam@134	3 //
cannam@134	4 // Permission is hereby granted, free of charge, to any person obtaining a copy
cannam@134	5 // of this software and associated documentation files (the "Software"), to deal
cannam@134	6 // in the Software without restriction, including without limitation the rights
cannam@134	7 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
cannam@134	8 // copies of the Software, and to permit persons to whom the Software is
cannam@134	9 // furnished to do so, subject to the following conditions:
cannam@134	10 //
cannam@134	11 // The above copyright notice and this permission notice shall be included in
cannam@134	12 // all copies or substantial portions of the Software.
cannam@134	13 //
cannam@134	14 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
cannam@134	15 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
cannam@134	16 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
cannam@134	17 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
cannam@134	18 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
cannam@134	19 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
cannam@134	20 // THE SOFTWARE.
cannam@134	21
cannam@134	22 #ifndef CAPNP_LIST_H_
cannam@134	23 #define CAPNP_LIST_H_
cannam@134	24
cannam@134	25 #if defined(__GNUC__) && !defined(CAPNP_HEADER_WARNINGS)
cannam@134	26 #pragma GCC system_header
cannam@134	27 #endif
cannam@134	28
cannam@134	29 #include "layout.h"
cannam@134	30 #include "orphan.h"
cannam@134	31 #include <initializer_list>
cannam@134	32 #ifdef KJ_STD_COMPAT
cannam@134	33 #include <iterator>
cannam@134	34 #endif // KJ_STD_COMPAT
cannam@134	35
cannam@134	36 namespace capnp {
cannam@134	37 namespace _ { // private
cannam@134	38
cannam@134	39 template <typename T>
cannam@134	40 class TemporaryPointer {
cannam@134	41 // This class is a little hack which lets us define operator->() in cases where it needs to
cannam@134	42 // return a pointer to a temporary value. We instead construct a TemporaryPointer and return that
cannam@134	43 // (by value). The compiler then invokes operator->() on the TemporaryPointer, which itself is
cannam@134	44 // able to return a real pointer to its member.
cannam@134	45
cannam@134	46 public:
cannam@134	47 TemporaryPointer(T&& value): value(kj::mv(value)) {}
cannam@134	48 TemporaryPointer(const T& value): value(value) {}
cannam@134	49
cannam@134	50 inline T* operator->() { return &value; }
cannam@134	51 private:
cannam@134	52 T value;
cannam@134	53 };
cannam@134	54
cannam@134	55 template <typename Container, typename Element>
cannam@134	56 class IndexingIterator {
cannam@134	57 public:
cannam@134	58 IndexingIterator() = default;
cannam@134	59
cannam@134	60 inline Element operator() const { return (container)[index]; }
cannam@134	61 inline TemporaryPointer<Element> operator->() const {
cannam@134	62 return TemporaryPointer<Element>((*container)[index]);
cannam@134	63 }
cannam@134	64 inline Element operator[]( int off) const { return (*container)[index]; }
cannam@134	65 inline Element operator[](uint off) const { return (*container)[index]; }
cannam@134	66
cannam@134	67 inline IndexingIterator& operator++() { ++index; return *this; }
cannam@134	68 inline IndexingIterator operator++(int) { IndexingIterator other = *this; ++index; return other; }
cannam@134	69 inline IndexingIterator& operator--() { --index; return *this; }
cannam@134	70 inline IndexingIterator operator--(int) { IndexingIterator other = *this; --index; return other; }
cannam@134	71
cannam@134	72 inline IndexingIterator operator+(uint amount) const { return IndexingIterator(container, index + amount); }
cannam@134	73 inline IndexingIterator operator-(uint amount) const { return IndexingIterator(container, index - amount); }
cannam@134	74 inline IndexingIterator operator+( int amount) const { return IndexingIterator(container, index + amount); }
cannam@134	75 inline IndexingIterator operator-( int amount) const { return IndexingIterator(container, index - amount); }
cannam@134	76
cannam@134	77 inline int operator-(const IndexingIterator& other) const { return index - other.index; }
cannam@134	78
cannam@134	79 inline IndexingIterator& operator+=(uint amount) { index += amount; return *this; }
cannam@134	80 inline IndexingIterator& operator-=(uint amount) { index -= amount; return *this; }
cannam@134	81 inline IndexingIterator& operator+=( int amount) { index += amount; return *this; }
cannam@134	82 inline IndexingIterator& operator-=( int amount) { index -= amount; return *this; }
cannam@134	83
cannam@134	84 // STL says comparing iterators of different containers is not allowed, so we only compare
cannam@134	85 // indices here.
cannam@134	86 inline bool operator==(const IndexingIterator& other) const { return index == other.index; }
cannam@134	87 inline bool operator!=(const IndexingIterator& other) const { return index != other.index; }
cannam@134	88 inline bool operator<=(const IndexingIterator& other) const { return index <= other.index; }
cannam@134	89 inline bool operator>=(const IndexingIterator& other) const { return index >= other.index; }
cannam@134	90 inline bool operator< (const IndexingIterator& other) const { return index < other.index; }
cannam@134	91 inline bool operator> (const IndexingIterator& other) const { return index > other.index; }
cannam@134	92
cannam@134	93 private:
cannam@134	94 Container* container;
cannam@134	95 uint index;
cannam@134	96
cannam@134	97 friend Container;
cannam@134	98 inline IndexingIterator(Container* container, uint index)
cannam@134	99 : container(container), index(index) {}
cannam@134	100 };
cannam@134	101
cannam@134	102 } // namespace _ (private)
cannam@134	103
cannam@134	104 template <typename T>
cannam@134	105 struct List<T, Kind::PRIMITIVE> {
cannam@134	106 // List of primitives.
cannam@134	107
cannam@134	108 List() = delete;
cannam@134	109
cannam@134	110 class Reader {
cannam@134	111 public:
cannam@134	112 typedef List<T> Reads;
cannam@134	113
cannam@134	114 inline Reader(): reader(_::elementSizeForType<T>()) {}
cannam@134	115 inline explicit Reader(_::ListReader reader): reader(reader) {}
cannam@134	116
cannam@134	117 inline uint size() const { return reader.size() / ELEMENTS; }
cannam@134	118 inline T operator[](uint index) const {
cannam@134	119 KJ_IREQUIRE(index < size());
cannam@134	120 return reader.template getDataElement<T>(index * ELEMENTS);
cannam@134	121 }
cannam@134	122
cannam@134	123 typedef _::IndexingIterator<const Reader, T> Iterator;
cannam@134	124 inline Iterator begin() const { return Iterator(this, 0); }
cannam@134	125 inline Iterator end() const { return Iterator(this, size()); }
cannam@134	126
cannam@134	127 private:
cannam@134	128 _::ListReader reader;
cannam@134	129 template <typename U, Kind K>
cannam@134	130 friend struct _::PointerHelpers;
cannam@134	131 template <typename U, Kind K>
cannam@134	132 friend struct List;
cannam@134	133 friend class Orphanage;
cannam@134	134 template <typename U, Kind K>
cannam@134	135 friend struct ToDynamic_;
cannam@134	136 };
cannam@134	137
cannam@134	138 class Builder {
cannam@134	139 public:
cannam@134	140 typedef List<T> Builds;
cannam@134	141
cannam@134	142 inline Builder(): builder(_::elementSizeForType<T>()) {}
cannam@134	143 inline Builder(decltype(nullptr)) {}
cannam@134	144 inline explicit Builder(_::ListBuilder builder): builder(builder) {}
cannam@134	145
cannam@134	146 inline operator Reader() const { return Reader(builder.asReader()); }
cannam@134	147 inline Reader asReader() const { return Reader(builder.asReader()); }
cannam@134	148
cannam@134	149 inline uint size() const { return builder.size() / ELEMENTS; }
cannam@134	150 inline T operator[](uint index) {
cannam@134	151 KJ_IREQUIRE(index < size());
cannam@134	152 return builder.template getDataElement<T>(index * ELEMENTS);
cannam@134	153 }
cannam@134	154 inline void set(uint index, T value) {
cannam@134	155 // Alas, it is not possible to make operator[] return a reference to which you can assign,
cannam@134	156 // since the encoded representation does not necessarily match the compiler's representation
cannam@134	157 // of the type. We can't even return a clever class that implements operator T() and
cannam@134	158 // operator=() because it will lead to surprising behavior when using type inference (e.g.
cannam@134	159 // calling a template function with inferred argument types, or using "auto" or "decltype").
cannam@134	160
cannam@134	161 builder.template setDataElement<T>(index * ELEMENTS, value);
cannam@134	162 }
cannam@134	163
cannam@134	164 typedef _::IndexingIterator<Builder, T> Iterator;
cannam@134	165 inline Iterator begin() { return Iterator(this, 0); }
cannam@134	166 inline Iterator end() { return Iterator(this, size()); }
cannam@134	167
cannam@134	168 private:
cannam@134	169 _::ListBuilder builder;
cannam@134	170 template <typename U, Kind K>
cannam@134	171 friend struct _::PointerHelpers;
cannam@134	172 friend class Orphanage;
cannam@134	173 template <typename U, Kind K>
cannam@134	174 friend struct ToDynamic_;
cannam@134	175 };
cannam@134	176
cannam@134	177 class Pipeline {};
cannam@134	178
cannam@134	179 private:
cannam@134	180 inline static _::ListBuilder initPointer(_::PointerBuilder builder, uint size) {
cannam@134	181 return builder.initList(_::elementSizeForType<T>(), size * ELEMENTS);
cannam@134	182 }
cannam@134	183 inline static _::ListBuilder getFromPointer(_::PointerBuilder builder, const word* defaultValue) {
cannam@134	184 return builder.getList(_::elementSizeForType<T>(), defaultValue);
cannam@134	185 }
cannam@134	186 inline static _::ListReader getFromPointer(
cannam@134	187 const _::PointerReader& reader, const word* defaultValue) {
cannam@134	188 return reader.getList(_::elementSizeForType<T>(), defaultValue);
cannam@134	189 }
cannam@134	190
cannam@134	191 template <typename U, Kind k>
cannam@134	192 friend struct List;
cannam@134	193 template <typename U, Kind K>
cannam@134	194 friend struct _::PointerHelpers;
cannam@134	195 };
cannam@134	196
cannam@134	197 template <typename T>
cannam@134	198 struct List<T, Kind::ENUM>: public List<T, Kind::PRIMITIVE> {};
cannam@134	199
cannam@134	200 template <typename T>
cannam@134	201 struct List<T, Kind::STRUCT> {
cannam@134	202 // List of structs.
cannam@134	203
cannam@134	204 List() = delete;
cannam@134	205
cannam@134	206 class Reader {
cannam@134	207 public:
cannam@134	208 typedef List<T> Reads;
cannam@134	209
cannam@134	210 inline Reader(): reader(ElementSize::INLINE_COMPOSITE) {}
cannam@134	211 inline explicit Reader(_::ListReader reader): reader(reader) {}
cannam@134	212
cannam@134	213 inline uint size() const { return reader.size() / ELEMENTS; }
cannam@134	214 inline typename T::Reader operator[](uint index) const {
cannam@134	215 KJ_IREQUIRE(index < size());
cannam@134	216 return typename T::Reader(reader.getStructElement(index * ELEMENTS));
cannam@134	217 }
cannam@134	218
cannam@134	219 typedef _::IndexingIterator<const Reader, typename T::Reader> Iterator;
cannam@134	220 inline Iterator begin() const { return Iterator(this, 0); }
cannam@134	221 inline Iterator end() const { return Iterator(this, size()); }
cannam@134	222
cannam@134	223 private:
cannam@134	224 _::ListReader reader;
cannam@134	225 template <typename U, Kind K>
cannam@134	226 friend struct _::PointerHelpers;
cannam@134	227 template <typename U, Kind K>
cannam@134	228 friend struct List;
cannam@134	229 friend class Orphanage;
cannam@134	230 template <typename U, Kind K>
cannam@134	231 friend struct ToDynamic_;
cannam@134	232 };
cannam@134	233
cannam@134	234 class Builder {
cannam@134	235 public:
cannam@134	236 typedef List<T> Builds;
cannam@134	237
cannam@134	238 inline Builder(): builder(ElementSize::INLINE_COMPOSITE) {}
cannam@134	239 inline Builder(decltype(nullptr)) {}
cannam@134	240 inline explicit Builder(_::ListBuilder builder): builder(builder) {}
cannam@134	241
cannam@134	242 inline operator Reader() const { return Reader(builder.asReader()); }
cannam@134	243 inline Reader asReader() const { return Reader(builder.asReader()); }
cannam@134	244
cannam@134	245 inline uint size() const { return builder.size() / ELEMENTS; }
cannam@134	246 inline typename T::Builder operator[](uint index) {
cannam@134	247 KJ_IREQUIRE(index < size());
cannam@134	248 return typename T::Builder(builder.getStructElement(index * ELEMENTS));
cannam@134	249 }
cannam@134	250
cannam@134	251 inline void adoptWithCaveats(uint index, Orphan<T>&& orphan) {
cannam@134	252 // Mostly behaves like you'd expect `adopt` to behave, but with two caveats originating from
cannam@134	253 // the fact that structs in a struct list are allocated inline rather than by pointer:
cannam@134	254 // * This actually performs a shallow copy, effectively adopting each of the orphan's
cannam@134	255 // children rather than adopting the orphan itself. The orphan ends up being discarded,
cannam@134	256 // possibly wasting space in the message object.
cannam@134	257 // * If the orphan is larger than the target struct -- say, because the orphan was built
cannam@134	258 // using a newer version of the schema that has additional fields -- it will be truncated,
cannam@134	259 // losing data.
cannam@134	260
cannam@134	261 KJ_IREQUIRE(index < size());
cannam@134	262
cannam@134	263 // We pass a zero-valued StructSize to asStruct() because we do not want the struct to be
cannam@134	264 // expanded under any circumstances. We're just going to throw it away anyway, and
cannam@134	265 // transferContentFrom() already carefully compares the struct sizes before transferring.
cannam@134	266 builder.getStructElement(index * ELEMENTS).transferContentFrom(
cannam@134	267 orphan.builder.asStruct(_::StructSize(0 * WORDS, 0 * POINTERS)));
cannam@134	268 }
cannam@134	269 inline void setWithCaveats(uint index, const typename T::Reader& reader) {
cannam@134	270 // Mostly behaves like you'd expect `set` to behave, but with a caveat originating from
cannam@134	271 // the fact that structs in a struct list are allocated inline rather than by pointer:
cannam@134	272 // If the source struct is larger than the target struct -- say, because the source was built
cannam@134	273 // using a newer version of the schema that has additional fields -- it will be truncated,
cannam@134	274 // losing data.
cannam@134	275 //
cannam@134	276 // Note: If you are trying to concatenate some lists, use Orphanage::newOrphanConcat() to
cannam@134	277 // do it without losing any data in case the source lists come from a newer version of the
cannam@134	278 // protocol. (Plus, it's easier to use anyhow.)
cannam@134	279
cannam@134	280 KJ_IREQUIRE(index < size());
cannam@134	281 builder.getStructElement(index * ELEMENTS).copyContentFrom(reader._reader);
cannam@134	282 }
cannam@134	283
cannam@134	284 // There are no init(), set(), adopt(), or disown() methods for lists of structs because the
cannam@134	285 // elements of the list are inlined and are initialized when the list is initialized. This
cannam@134	286 // means that init() would be redundant, and set() would risk data loss if the input struct
cannam@134	287 // were from a newer version of the protocol.
cannam@134	288
cannam@134	289 typedef _::IndexingIterator<Builder, typename T::Builder> Iterator;
cannam@134	290 inline Iterator begin() { return Iterator(this, 0); }
cannam@134	291 inline Iterator end() { return Iterator(this, size()); }
cannam@134	292
cannam@134	293 private:
cannam@134	294 _::ListBuilder builder;
cannam@134	295 template <typename U, Kind K>
cannam@134	296 friend struct _::PointerHelpers;
cannam@134	297 friend class Orphanage;
cannam@134	298 template <typename U, Kind K>
cannam@134	299 friend struct ToDynamic_;
cannam@134	300 };
cannam@134	301
cannam@134	302 class Pipeline {};
cannam@134	303
cannam@134	304 private:
cannam@134	305 inline static _::ListBuilder initPointer(_::PointerBuilder builder, uint size) {
cannam@134	306 return builder.initStructList(size * ELEMENTS, _::structSize<T>());
cannam@134	307 }
cannam@134	308 inline static _::ListBuilder getFromPointer(_::PointerBuilder builder, const word* defaultValue) {
cannam@134	309 return builder.getStructList(_::structSize<T>(), defaultValue);
cannam@134	310 }
cannam@134	311 inline static _::ListReader getFromPointer(
cannam@134	312 const _::PointerReader& reader, const word* defaultValue) {
cannam@134	313 return reader.getList(ElementSize::INLINE_COMPOSITE, defaultValue);
cannam@134	314 }
cannam@134	315
cannam@134	316 template <typename U, Kind k>
cannam@134	317 friend struct List;
cannam@134	318 template <typename U, Kind K>
cannam@134	319 friend struct _::PointerHelpers;
cannam@134	320 };
cannam@134	321
cannam@134	322 template <typename T>
cannam@134	323 struct List<List<T>, Kind::LIST> {
cannam@134	324 // List of lists.
cannam@134	325
cannam@134	326 List() = delete;
cannam@134	327
cannam@134	328 class Reader {
cannam@134	329 public:
cannam@134	330 typedef List<List<T>> Reads;
cannam@134	331
cannam@134	332 inline Reader(): reader(ElementSize::POINTER) {}
cannam@134	333 inline explicit Reader(_::ListReader reader): reader(reader) {}
cannam@134	334
cannam@134	335 inline uint size() const { return reader.size() / ELEMENTS; }
cannam@134	336 inline typename List<T>::Reader operator[](uint index) const {
cannam@134	337 KJ_IREQUIRE(index < size());
cannam@134	338 return typename List<T>::Reader(
cannam@134	339 _::PointerHelpers<List<T>>::get(reader.getPointerElement(index * ELEMENTS)));
cannam@134	340 }
cannam@134	341
cannam@134	342 typedef _::IndexingIterator<const Reader, typename List<T>::Reader> Iterator;
cannam@134	343 inline Iterator begin() const { return Iterator(this, 0); }
cannam@134	344 inline Iterator end() const { return Iterator(this, size()); }
cannam@134	345
cannam@134	346 private:
cannam@134	347 _::ListReader reader;
cannam@134	348 template <typename U, Kind K>
cannam@134	349 friend struct _::PointerHelpers;
cannam@134	350 template <typename U, Kind K>
cannam@134	351 friend struct List;
cannam@134	352 friend class Orphanage;
cannam@134	353 template <typename U, Kind K>
cannam@134	354 friend struct ToDynamic_;
cannam@134	355 };
cannam@134	356
cannam@134	357 class Builder {
cannam@134	358 public:
cannam@134	359 typedef List<List<T>> Builds;
cannam@134	360
cannam@134	361 inline Builder(): builder(ElementSize::POINTER) {}
cannam@134	362 inline Builder(decltype(nullptr)) {}
cannam@134	363 inline explicit Builder(_::ListBuilder builder): builder(builder) {}
cannam@134	364
cannam@134	365 inline operator Reader() const { return Reader(builder.asReader()); }
cannam@134	366 inline Reader asReader() const { return Reader(builder.asReader()); }
cannam@134	367
cannam@134	368 inline uint size() const { return builder.size() / ELEMENTS; }
cannam@134	369 inline typename List<T>::Builder operator[](uint index) {
cannam@134	370 KJ_IREQUIRE(index < size());
cannam@134	371 return typename List<T>::Builder(
cannam@134	372 _::PointerHelpers<List<T>>::get(builder.getPointerElement(index * ELEMENTS)));
cannam@134	373 }
cannam@134	374 inline typename List<T>::Builder init(uint index, uint size) {
cannam@134	375 KJ_IREQUIRE(index < this->size());
cannam@134	376 return typename List<T>::Builder(
cannam@134	377 _::PointerHelpers<List<T>>::init(builder.getPointerElement(index * ELEMENTS), size));
cannam@134	378 }
cannam@134	379 inline void set(uint index, typename List<T>::Reader value) {
cannam@134	380 KJ_IREQUIRE(index < size());
cannam@134	381 builder.getPointerElement(index * ELEMENTS).setList(value.reader);
cannam@134	382 }
cannam@134	383 void set(uint index, std::initializer_list<ReaderFor<T>> value) {
cannam@134	384 KJ_IREQUIRE(index < size());
cannam@134	385 auto l = init(index, value.size());
cannam@134	386 uint i = 0;
cannam@134	387 for (auto& element: value) {
cannam@134	388 l.set(i++, element);
cannam@134	389 }
cannam@134	390 }
cannam@134	391 inline void adopt(uint index, Orphan<T>&& value) {
cannam@134	392 KJ_IREQUIRE(index < size());
cannam@134	393 builder.getPointerElement(index * ELEMENTS).adopt(kj::mv(value.builder));
cannam@134	394 }
cannam@134	395 inline Orphan<T> disown(uint index) {
cannam@134	396 KJ_IREQUIRE(index < size());
cannam@134	397 return Orphan<T>(builder.getPointerElement(index * ELEMENTS).disown());
cannam@134	398 }
cannam@134	399
cannam@134	400 typedef _::IndexingIterator<Builder, typename List<T>::Builder> Iterator;
cannam@134	401 inline Iterator begin() { return Iterator(this, 0); }
cannam@134	402 inline Iterator end() { return Iterator(this, size()); }
cannam@134	403
cannam@134	404 private:
cannam@134	405 _::ListBuilder builder;
cannam@134	406 template <typename U, Kind K>
cannam@134	407 friend struct _::PointerHelpers;
cannam@134	408 friend class Orphanage;
cannam@134	409 template <typename U, Kind K>
cannam@134	410 friend struct ToDynamic_;
cannam@134	411 };
cannam@134	412
cannam@134	413 class Pipeline {};
cannam@134	414
cannam@134	415 private:
cannam@134	416 inline static _::ListBuilder initPointer(_::PointerBuilder builder, uint size) {
cannam@134	417 return builder.initList(ElementSize::POINTER, size * ELEMENTS);
cannam@134	418 }
cannam@134	419 inline static _::ListBuilder getFromPointer(_::PointerBuilder builder, const word* defaultValue) {
cannam@134	420 return builder.getList(ElementSize::POINTER, defaultValue);
cannam@134	421 }
cannam@134	422 inline static _::ListReader getFromPointer(
cannam@134	423 const _::PointerReader& reader, const word* defaultValue) {
cannam@134	424 return reader.getList(ElementSize::POINTER, defaultValue);
cannam@134	425 }
cannam@134	426
cannam@134	427 template <typename U, Kind k>
cannam@134	428 friend struct List;
cannam@134	429 template <typename U, Kind K>
cannam@134	430 friend struct _::PointerHelpers;
cannam@134	431 };
cannam@134	432
cannam@134	433 template <typename T>
cannam@134	434 struct List<T, Kind::BLOB> {
cannam@134	435 List() = delete;
cannam@134	436
cannam@134	437 class Reader {
cannam@134	438 public:
cannam@134	439 typedef List<T> Reads;
cannam@134	440
cannam@134	441 inline Reader(): reader(ElementSize::POINTER) {}
cannam@134	442 inline explicit Reader(_::ListReader reader): reader(reader) {}
cannam@134	443
cannam@134	444 inline uint size() const { return reader.size() / ELEMENTS; }
cannam@134	445 inline typename T::Reader operator[](uint index) const {
cannam@134	446 KJ_IREQUIRE(index < size());
cannam@134	447 return reader.getPointerElement(index * ELEMENTS).template getBlob<T>(nullptr, 0 * BYTES);
cannam@134	448 }
cannam@134	449
cannam@134	450 typedef _::IndexingIterator<const Reader, typename T::Reader> Iterator;
cannam@134	451 inline Iterator begin() const { return Iterator(this, 0); }
cannam@134	452 inline Iterator end() const { return Iterator(this, size()); }
cannam@134	453
cannam@134	454 private:
cannam@134	455 _::ListReader reader;
cannam@134	456 template <typename U, Kind K>
cannam@134	457 friend struct _::PointerHelpers;
cannam@134	458 template <typename U, Kind K>
cannam@134	459 friend struct List;
cannam@134	460 friend class Orphanage;
cannam@134	461 template <typename U, Kind K>
cannam@134	462 friend struct ToDynamic_;
cannam@134	463 };
cannam@134	464
cannam@134	465 class Builder {
cannam@134	466 public:
cannam@134	467 typedef List<T> Builds;
cannam@134	468
cannam@134	469 inline Builder(): builder(ElementSize::POINTER) {}
cannam@134	470 inline Builder(decltype(nullptr)) {}
cannam@134	471 inline explicit Builder(_::ListBuilder builder): builder(builder) {}
cannam@134	472
cannam@134	473 inline operator Reader() const { return Reader(builder.asReader()); }
cannam@134	474 inline Reader asReader() const { return Reader(builder.asReader()); }
cannam@134	475
cannam@134	476 inline uint size() const { return builder.size() / ELEMENTS; }
cannam@134	477 inline typename T::Builder operator[](uint index) {
cannam@134	478 KJ_IREQUIRE(index < size());
cannam@134	479 return builder.getPointerElement(index * ELEMENTS).template getBlob<T>(nullptr, 0 * BYTES);
cannam@134	480 }
cannam@134	481 inline void set(uint index, typename T::Reader value) {
cannam@134	482 KJ_IREQUIRE(index < size());
cannam@134	483 builder.getPointerElement(index * ELEMENTS).template setBlob<T>(value);
cannam@134	484 }
cannam@134	485 inline typename T::Builder init(uint index, uint size) {
cannam@134	486 KJ_IREQUIRE(index < this->size());
cannam@134	487 return builder.getPointerElement(index * ELEMENTS).template initBlob<T>(size * BYTES);
cannam@134	488 }
cannam@134	489 inline void adopt(uint index, Orphan<T>&& value) {
cannam@134	490 KJ_IREQUIRE(index < size());
cannam@134	491 builder.getPointerElement(index * ELEMENTS).adopt(kj::mv(value.builder));
cannam@134	492 }
cannam@134	493 inline Orphan<T> disown(uint index) {
cannam@134	494 KJ_IREQUIRE(index < size());
cannam@134	495 return Orphan<T>(builder.getPointerElement(index * ELEMENTS).disown());
cannam@134	496 }
cannam@134	497
cannam@134	498 typedef _::IndexingIterator<Builder, typename T::Builder> Iterator;
cannam@134	499 inline Iterator begin() { return Iterator(this, 0); }
cannam@134	500 inline Iterator end() { return Iterator(this, size()); }
cannam@134	501
cannam@134	502 private:
cannam@134	503 _::ListBuilder builder;
cannam@134	504 template <typename U, Kind K>
cannam@134	505 friend struct _::PointerHelpers;
cannam@134	506 friend class Orphanage;
cannam@134	507 template <typename U, Kind K>
cannam@134	508 friend struct ToDynamic_;
cannam@134	509 };
cannam@134	510
cannam@134	511 class Pipeline {};
cannam@134	512
cannam@134	513 private:
cannam@134	514 inline static _::ListBuilder initPointer(_::PointerBuilder builder, uint size) {
cannam@134	515 return builder.initList(ElementSize::POINTER, size * ELEMENTS);
cannam@134	516 }
cannam@134	517 inline static _::ListBuilder getFromPointer(_::PointerBuilder builder, const word* defaultValue) {
cannam@134	518 return builder.getList(ElementSize::POINTER, defaultValue);
cannam@134	519 }
cannam@134	520 inline static _::ListReader getFromPointer(
cannam@134	521 const _::PointerReader& reader, const word* defaultValue) {
cannam@134	522 return reader.getList(ElementSize::POINTER, defaultValue);
cannam@134	523 }
cannam@134	524
cannam@134	525 template <typename U, Kind k>
cannam@134	526 friend struct List;
cannam@134	527 template <typename U, Kind K>
cannam@134	528 friend struct _::PointerHelpers;
cannam@134	529 };
cannam@134	530
cannam@134	531 } // namespace capnp
cannam@134	532
cannam@134	533 #ifdef KJ_STD_COMPAT
cannam@134	534 namespace std {
cannam@134	535
cannam@134	536 template <typename Container, typename Element>
cannam@134	537 struct iterator_traits<capnp::_::IndexingIterator<Container, Element>>
cannam@134	538 : public std::iterator<std::random_access_iterator_tag, Element, int> {};
cannam@134	539
cannam@134	540 } // namespace std
cannam@134	541 #endif // KJ_STD_COMPAT
cannam@134	542
cannam@134	543 #endif // CAPNP_LIST_H_

Mercurial > hg > sv-dependency-builds

annotate osx/include/capnp/list.h @ 139:413e081fcc6f