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annotate osx/include/kj/string-tree.h @ 140:59a8758c56b1

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Add source for PortAudio stable v190600_20161030
author Chris Cannam <cannam@all-day-breakfast.com>
date Tue, 03 Jan 2017 13:44:07 +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 KJ_STRING_TREE_H_
cannam@134 23 #define KJ_STRING_TREE_H_
cannam@134 24
cannam@134 25 #if defined(__GNUC__) && !KJ_HEADER_WARNINGS
cannam@134 26 #pragma GCC system_header
cannam@134 27 #endif
cannam@134 28
cannam@134 29 #include "string.h"
cannam@134 30
cannam@134 31 namespace kj {
cannam@134 32
cannam@134 33 class StringTree {
cannam@134 34 // A long string, represented internally as a tree of strings. This data structure is like a
cannam@134 35 // String, but optimized for concatenation and iteration at the expense of seek time. The
cannam@134 36 // structure is intended to be used for building large text blobs from many small pieces, where
cannam@134 37 // repeatedly concatenating smaller strings into larger ones would waste copies. This structure
cannam@134 38 // is NOT intended for use cases requiring random access or computing substrings. For those,
cannam@134 39 // you should use a Rope, which is a much more complicated data structure.
cannam@134 40 //
cannam@134 41 // The proper way to construct a StringTree is via kj::strTree(...), which works just like
cannam@134 42 // kj::str(...) but returns a StringTree rather than a String.
cannam@134 43 //
cannam@134 44 // KJ_STRINGIFY() functions that construct large strings from many smaller strings are encouraged
cannam@134 45 // to return StringTree rather than a flat char container.
cannam@134 46
cannam@134 47 public:
cannam@134 48 inline StringTree(): size_(0) {}
cannam@134 49 inline StringTree(String&& text): size_(text.size()), text(kj::mv(text)) {}
cannam@134 50
cannam@134 51 StringTree(Array<StringTree>&& pieces, StringPtr delim);
cannam@134 52 // Build a StringTree by concatenating the given pieces, delimited by the given delimiter
cannam@134 53 // (e.g. ", ").
cannam@134 54
cannam@134 55 inline size_t size() const { return size_; }
cannam@134 56
cannam@134 57 template <typename Func>
cannam@134 58 void visit(Func&& func) const;
cannam@134 59
cannam@134 60 String flatten() const;
cannam@134 61 // Return the contents as a string.
cannam@134 62
cannam@134 63 // TODO(someday): flatten() when *this is an rvalue and when branches.size() == 0 could simply
cannam@134 64 // return `kj::mv(text)`. Requires reference qualifiers (Clang 3.3 / GCC 4.8).
cannam@134 65
cannam@134 66 void flattenTo(char* __restrict__ target) const;
cannam@134 67 // Copy the contents to the given character array. Does not add a NUL terminator.
cannam@134 68
cannam@134 69 private:
cannam@134 70 size_t size_;
cannam@134 71 String text;
cannam@134 72
cannam@134 73 struct Branch;
cannam@134 74 Array<Branch> branches; // In order.
cannam@134 75
cannam@134 76 inline void fill(char* pos, size_t branchIndex);
cannam@134 77 template <typename First, typename... Rest>
cannam@134 78 void fill(char* pos, size_t branchIndex, First&& first, Rest&&... rest);
cannam@134 79 template <typename... Rest>
cannam@134 80 void fill(char* pos, size_t branchIndex, StringTree&& first, Rest&&... rest);
cannam@134 81 template <typename... Rest>
cannam@134 82 void fill(char* pos, size_t branchIndex, Array<char>&& first, Rest&&... rest);
cannam@134 83 template <typename... Rest>
cannam@134 84 void fill(char* pos, size_t branchIndex, String&& first, Rest&&... rest);
cannam@134 85
cannam@134 86 template <typename... Params>
cannam@134 87 static StringTree concat(Params&&... params);
cannam@134 88 static StringTree&& concat(StringTree&& param) { return kj::mv(param); }
cannam@134 89
cannam@134 90 template <typename T>
cannam@134 91 static inline size_t flatSize(const T& t) { return t.size(); }
cannam@134 92 static inline size_t flatSize(String&& s) { return 0; }
cannam@134 93 static inline size_t flatSize(StringTree&& s) { return 0; }
cannam@134 94
cannam@134 95 template <typename T>
cannam@134 96 static inline size_t branchCount(const T& t) { return 0; }
cannam@134 97 static inline size_t branchCount(String&& s) { return 1; }
cannam@134 98 static inline size_t branchCount(StringTree&& s) { return 1; }
cannam@134 99
cannam@134 100 template <typename... Params>
cannam@134 101 friend StringTree strTree(Params&&... params);
cannam@134 102 };
cannam@134 103
cannam@134 104 inline StringTree&& KJ_STRINGIFY(StringTree&& tree) { return kj::mv(tree); }
cannam@134 105 inline const StringTree& KJ_STRINGIFY(const StringTree& tree) { return tree; }
cannam@134 106
cannam@134 107 inline StringTree KJ_STRINGIFY(Array<StringTree>&& trees) { return StringTree(kj::mv(trees), ""); }
cannam@134 108
cannam@134 109 template <typename... Params>
cannam@134 110 StringTree strTree(Params&&... params);
cannam@134 111 // Build a StringTree by stringifying the given parameters and concatenating the results.
cannam@134 112 // If any of the parameters stringify to StringTree rvalues, they will be incorporated as
cannam@134 113 // branches to avoid a copy.
cannam@134 114
cannam@134 115 // =======================================================================================
cannam@134 116 // Inline implementation details
cannam@134 117
cannam@134 118 namespace _ { // private
cannam@134 119
cannam@134 120 template <typename... Rest>
cannam@134 121 char* fill(char* __restrict__ target, const StringTree& first, Rest&&... rest) {
cannam@134 122 // Make str() work with stringifiers that return StringTree by patching fill().
cannam@134 123
cannam@134 124 first.flattenTo(target);
cannam@134 125 return fill(target + first.size(), kj::fwd<Rest>(rest)...);
cannam@134 126 }
cannam@134 127
cannam@134 128 template <typename T> constexpr bool isStringTree() { return false; }
cannam@134 129 template <> constexpr bool isStringTree<StringTree>() { return true; }
cannam@134 130
cannam@134 131 inline StringTree&& toStringTreeOrCharSequence(StringTree&& tree) { return kj::mv(tree); }
cannam@134 132 inline StringTree toStringTreeOrCharSequence(String&& str) { return StringTree(kj::mv(str)); }
cannam@134 133
cannam@134 134 template <typename T>
cannam@134 135 inline auto toStringTreeOrCharSequence(T&& value)
cannam@134 136 -> decltype(toCharSequence(kj::fwd<T>(value))) {
cannam@134 137 static_assert(!isStringTree<Decay<T>>(),
cannam@134 138 "When passing a StringTree into kj::strTree(), either pass it by rvalue "
cannam@134 139 "(use kj::mv(value)) or explicitly call value.flatten() to make a copy.");
cannam@134 140
cannam@134 141 return toCharSequence(kj::fwd<T>(value));
cannam@134 142 }
cannam@134 143
cannam@134 144 } // namespace _ (private)
cannam@134 145
cannam@134 146 struct StringTree::Branch {
cannam@134 147 size_t index;
cannam@134 148 // Index in `text` where this branch should be inserted.
cannam@134 149
cannam@134 150 StringTree content;
cannam@134 151 };
cannam@134 152
cannam@134 153 template <typename Func>
cannam@134 154 void StringTree::visit(Func&& func) const {
cannam@134 155 size_t pos = 0;
cannam@134 156 for (auto& branch: branches) {
cannam@134 157 if (branch.index > pos) {
cannam@134 158 func(text.slice(pos, branch.index));
cannam@134 159 pos = branch.index;
cannam@134 160 }
cannam@134 161 branch.content.visit(func);
cannam@134 162 }
cannam@134 163 if (text.size() > pos) {
cannam@134 164 func(text.slice(pos, text.size()));
cannam@134 165 }
cannam@134 166 }
cannam@134 167
cannam@134 168 inline void StringTree::fill(char* pos, size_t branchIndex) {
cannam@134 169 KJ_IREQUIRE(pos == text.end() && branchIndex == branches.size(),
cannam@134 170 kj::str(text.end() - pos, ' ', branches.size() - branchIndex).cStr());
cannam@134 171 }
cannam@134 172
cannam@134 173 template <typename First, typename... Rest>
cannam@134 174 void StringTree::fill(char* pos, size_t branchIndex, First&& first, Rest&&... rest) {
cannam@134 175 pos = _::fill(pos, kj::fwd<First>(first));
cannam@134 176 fill(pos, branchIndex, kj::fwd<Rest>(rest)...);
cannam@134 177 }
cannam@134 178
cannam@134 179 template <typename... Rest>
cannam@134 180 void StringTree::fill(char* pos, size_t branchIndex, StringTree&& first, Rest&&... rest) {
cannam@134 181 branches[branchIndex].index = pos - text.begin();
cannam@134 182 branches[branchIndex].content = kj::mv(first);
cannam@134 183 fill(pos, branchIndex + 1, kj::fwd<Rest>(rest)...);
cannam@134 184 }
cannam@134 185
cannam@134 186 template <typename... Rest>
cannam@134 187 void StringTree::fill(char* pos, size_t branchIndex, String&& first, Rest&&... rest) {
cannam@134 188 branches[branchIndex].index = pos - text.begin();
cannam@134 189 branches[branchIndex].content = StringTree(kj::mv(first));
cannam@134 190 fill(pos, branchIndex + 1, kj::fwd<Rest>(rest)...);
cannam@134 191 }
cannam@134 192
cannam@134 193 template <typename... Params>
cannam@134 194 StringTree StringTree::concat(Params&&... params) {
cannam@134 195 StringTree result;
cannam@134 196 result.size_ = _::sum({params.size()...});
cannam@134 197 result.text = heapString(
cannam@134 198 _::sum({StringTree::flatSize(kj::fwd<Params>(params))...}));
cannam@134 199 result.branches = heapArray<StringTree::Branch>(
cannam@134 200 _::sum({StringTree::branchCount(kj::fwd<Params>(params))...}));
cannam@134 201 result.fill(result.text.begin(), 0, kj::fwd<Params>(params)...);
cannam@134 202 return result;
cannam@134 203 }
cannam@134 204
cannam@134 205 template <typename... Params>
cannam@134 206 StringTree strTree(Params&&... params) {
cannam@134 207 return StringTree::concat(_::toStringTreeOrCharSequence(kj::fwd<Params>(params))...);
cannam@134 208 }
cannam@134 209
cannam@134 210 } // namespace kj
cannam@134 211
cannam@134 212 #endif // KJ_STRING_TREE_H_