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#pragma once |
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#include |
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#include |
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namespace xs { |
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using xs::my_perl; |
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struct Simple; |
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struct Array : Sv { |
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enum create_type_t { ALIAS, COPY }; |
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static Array create () { return Array(newAV(), NONE); } |
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static Array create (size_t cap) { |
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Array ret(newAV(), NONE); |
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ret.reserve(cap); |
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return ret; |
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} |
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static Array create (size_t size, SV** content, create_type_t type = ALIAS); |
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static Array create (const std::initializer_list& l, create_type_t type = ALIAS) { return Array(l, type); } |
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static Array create (const Array& from, create_type_t type = ALIAS) { return create(from.size(), from._svlist(), type); } |
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static Array noinc (SV* val) { return Array(val, NONE); } |
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static Array noinc (AV* val) { return Array(val, NONE); } |
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Array (std::nullptr_t = nullptr) {} |
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Array (SV* sv, bool policy = INCREMENT) : Sv(sv, policy) { _validate(); } |
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Array (AV* sv, bool policy = INCREMENT) : Sv(sv, policy) {} |
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Array (const Array& oth) : Sv(oth) {} |
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Array (Array&& oth) : Sv(std::move(oth)) {} |
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Array (const Sv& oth) : Sv(oth) { _validate(); } |
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Array (Sv&& oth) : Sv(std::move(oth)) { _validate(); } |
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Array (const Simple&) = delete; |
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Array (const Hash&) = delete; |
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Array (const Sub&) = delete; |
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Array (const Glob&) = delete; |
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Array (const Io&) = delete; |
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Array (const std::initializer_list& l, create_type_t type = ALIAS); |
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Array& operator= (SV* val) { Sv::operator=(val); _validate(); return *this; } |
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Array& operator= (AV* val) { Sv::operator=(val); return *this; } |
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Array& operator= (const Array& oth) { Sv::operator=(oth); return *this; } |
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Array& operator= (Array&& oth) { Sv::operator=(std::move(oth)); return *this; } |
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Array& operator= (const Sv& oth) { return operator=(oth.get()); } |
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Array& operator= (Sv&& oth) { Sv::operator=(std::move(oth)); _validate(); return *this; } |
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Array& operator= (const Simple&) = delete; |
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Array& operator= (const Hash&) = delete; |
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Array& operator= (const Sub&) = delete; |
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Array& operator= (const Glob&) = delete; |
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Array& operator= (const Io&) = delete; |
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void set (SV* val) { Sv::operator=(val); } |
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operator AV* () const { return (AV*)sv; } |
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operator HV* () const = delete; |
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operator CV* () const = delete; |
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operator GV* () const = delete; |
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operator IO* () const = delete; |
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AV* operator-> () const { return (AV*)sv; } |
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template panda::enable_if_one_of_t* get () const { return (T*)sv; } |
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Scalar fetch (size_t key) const { |
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if (!sv) return Scalar(); |
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if (key >= _size()) return Scalar(); |
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Scalar ret; |
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ret.set(_svlist()[key]); |
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return ret; |
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} |
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Scalar front () const { return fetch(0); } |
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Scalar back () const { return sv && _size() ? fetch(_topi()) : Scalar(); } |
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Scalar at (size_t key) const { |
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Scalar ret = fetch(key); |
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if (!ret) throw std::out_of_range("at: no key"); |
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return ret; |
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} |
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template > |
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Scalar operator[] (T key) const { |
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Scalar ret; |
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ret.set(_svlist()[key]); |
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return ret; |
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} |
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void store (size_t key, const Scalar& val); |
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void store (size_t key, std::nullptr_t) { store(key, Scalar()); } |
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void store (size_t key, SV* v) { store(key, Scalar(v)); } |
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void store (size_t key, const Sv& v) { store(key, Scalar(v)); } |
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void store (size_t key, const Array&) = delete; |
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void store (size_t key, const Hash&) = delete; |
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void store (size_t key, const Sub&) = delete; |
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void store (size_t key, const Io&) = delete; |
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template > |
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KeyProxy operator[] (T key) { return KeyProxy(_svlist() + key, true); } |
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bool exists (size_t key) const { |
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if (key >= size()) return false; |
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return _svlist()[key]; |
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} |
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Scalar del (size_t key) { |
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Scalar ret = fetch(key); |
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if (ret) (*this)[key] = nullptr; |
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return ret; |
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} |
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size_t size () const { return sv ? _size() : 0; } |
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size_t capacity () const { return sv ? _cap() : 0; } |
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SSize_t top_index () const { return sv ? _topi() : -1; } |
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void resize (size_t newsz) { av_fill((AV*)sv, (SSize_t)newsz - 1); } |
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void reserve (size_t newcap) { av_extend((AV*)sv, (SSize_t)newcap - 1); } |
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Scalar shift () { |
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if (!sv) return Scalar(); |
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SV* retsv = av_shift((AV*)sv); |
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if (retsv == &PL_sv_undef) return Scalar(); |
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Scalar ret; |
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ret.set(retsv); |
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SvREFCNT_dec(retsv); // because av_shift does not decrement, just transfers ownership |
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return ret; |
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} |
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Scalar pop () { |
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if (!sv) return Scalar(); |
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SV* retsv = av_pop((AV*)sv); |
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if (retsv == &PL_sv_undef) return Scalar(); |
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Scalar ret; |
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ret.set(retsv); |
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SvREFCNT_dec(retsv); // because av_pop does not decrement, just transfers ownership |
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return ret; |
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} |
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void push (const std::initializer_list& l); |
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void push (const List& l); |
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void push (const Scalar& v); |
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void push (const Array&) = delete; |
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void push (const Hash&) = delete; |
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void push (const Sub&) = delete; |
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void push (const Io&) = delete; |
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void push (SV* v) { push(Scalar(v)); } |
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void push (const Sv& v) { push(Scalar(v)); } |
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153
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void unshift (const std::initializer_list& l); |
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void unshift (const List& l); |
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void unshift (const Scalar& v); |
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void unshift (const Array&) = delete; |
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void unshift (const Hash&) = delete; |
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void unshift (const Sub&) = delete; |
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void unshift (const Io&) = delete; |
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void unshift (SV* v) { unshift(Scalar(v)); } |
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void unshift (const Sv& v) { unshift(Scalar(v)); } |
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163
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void undef () { if (sv) av_undef((AV*)sv); } |
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void clear () { if (sv) av_clear((AV*)sv); } |
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166
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struct const_iterator : private std::iterator { |
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const_iterator () : cur(nullptr) {} |
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const_iterator (SV** avfirst) : cur(avfirst) {} |
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const_iterator& operator++ () { ++cur; return *this; } |
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const_iterator& operator-- () { --cur; return *this; } |
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173
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const_iterator operator++ (int) { const_iterator ret = *this; operator++(); return ret; } |
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const_iterator operator-- (int) { const_iterator ret = *this; operator--(); return ret; } |
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const_iterator& operator+= (ptrdiff_t n) { cur += n; return *this; } |
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const_iterator& operator-= (ptrdiff_t n) { cur -= n; return *this; } |
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179
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bool operator== (const const_iterator& oth) const { return cur == oth.cur; } |
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bool operator!= (const const_iterator& oth) const { return cur != oth.cur; } |
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182
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const Scalar* operator-> () { return (const Scalar*)cur; } |
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const Scalar& operator* () { return *((const Scalar*)cur); } |
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185
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ptrdiff_t operator- (const const_iterator& rh) { return cur - rh.cur; } |
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187
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bool operator< (const const_iterator& rh) { return cur < rh.cur; } |
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bool operator<= (const const_iterator& rh) { return cur <= rh.cur; } |
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bool operator> (const const_iterator& rh) { return cur > rh.cur; } |
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bool operator>= (const const_iterator& rh) { return cur >= rh.cur; } |
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192
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const Scalar& operator[] (size_t key) { return *((const Scalar*)(cur+key)); } |
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194
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protected: |
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SV** cur; |
196
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}; |
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198
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0
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struct iterator : private std::iterator, const_iterator { |
199
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4
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using const_iterator::const_iterator; |
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201
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6
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iterator& operator++ () { const_iterator::operator++(); return *this; } |
202
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iterator& operator-- () { const_iterator::operator--(); return *this; } |
203
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204
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iterator operator++ (int) { iterator ret = *this; const_iterator::operator++(); return ret; } |
205
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iterator operator-- (int) { iterator ret = *this; const_iterator::operator--(); return ret; } |
206
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207
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iterator& operator+= (ptrdiff_t n) { const_iterator::operator+=(n); return *this; } |
208
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iterator& operator-= (ptrdiff_t n) { const_iterator::operator-=(n); return *this; } |
209
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210
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Scalar* operator-> () { return (Scalar*)cur; } |
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12
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KeyProxy operator* () { return KeyProxy(cur, true); } |
212
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KeyProxy operator[] (size_t key) { return KeyProxy(cur+key, true); } |
213
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}; |
214
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215
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const_iterator cbegin () const { return sv ? const_iterator(_svlist()) : const_iterator(); } |
216
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const_iterator cend () const { return sv ? const_iterator(_svlist()+_size()) : const_iterator(); } |
217
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const_iterator begin () const { return cbegin(); } |
218
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|
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|
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const_iterator end () const { return cend(); } |
219
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2
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50
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iterator begin () { return sv ? iterator(_svlist()) : iterator(); } |
220
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2
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50
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iterator end () { return sv ? iterator(_svlist()+_size()) : iterator(); } |
221
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222
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U32 push_on_stack (SV** sp, U32 max = 0) const; |
223
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224
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private: |
225
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4
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inline SV** _svlist () const { return AvARRAY((AV*)sv); } |
226
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2
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|
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inline size_t _size () const { return (size_t)(_topi()+1); } |
227
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inline void _size (size_t i) { AvFILLp((AV*)sv) = (SSize_t)i-1; } |
228
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inline size_t _cap () const { return (size_t)(AvMAX((AV*)sv)+1); } |
229
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2
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|
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inline SSize_t _topi () const { return AvFILLp((AV*)sv); } |
230
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|
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231
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1
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|
|
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void _validate () { |
232
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1
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50
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|
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if (!sv) return; |
233
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1
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50
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|
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if (SvTYPE(sv) == SVt_PVAV) return; |
234
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1
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50
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|
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|
|
if (SvROK(sv)) { // reference to array? |
235
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1
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|
|
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|
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SV* val = SvRV(sv); |
236
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1
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50
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|
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|
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if (SvTYPE(val) == SVt_PVAV) { |
237
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1
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50
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|
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|
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Sv::operator=(val); |
238
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1
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|
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|
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|
return; |
239
|
|
|
|
|
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} |
240
|
|
|
|
|
|
|
} |
241
|
0
|
0
|
|
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|
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if (is_undef()) return reset(); |
242
|
0
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|
|
|
|
|
reset(); |
243
|
1
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0
|
|
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|
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throw std::invalid_argument("SV is not an Array or Array reference"); |
244
|
|
|
|
|
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} |
245
|
|
|
|
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|
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}; |
246
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247
|
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inline xs::Array::const_iterator operator+ (const xs::Array::const_iterator& lh, ptrdiff_t rh) { return xs::Array::const_iterator(lh) += rh; } |
248
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|
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|
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|
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inline xs::Array::const_iterator operator+ (ptrdiff_t lh, const xs::Array::const_iterator& rh) { return xs::Array::const_iterator(rh) += lh; } |
249
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|
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|
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inline xs::Array::const_iterator operator- (const xs::Array::const_iterator& lh, ptrdiff_t rh) { return xs::Array::const_iterator(lh) -= rh; } |
250
|
|
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|
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inline xs::Array::iterator operator+ (const xs::Array::iterator& lh, ptrdiff_t rh) { return xs::Array::iterator(lh) += rh; } |
251
|
|
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|
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inline xs::Array::iterator operator+ (ptrdiff_t lh, const xs::Array::iterator& rh) { return xs::Array::iterator(rh) += lh; } |
252
|
|
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|
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|
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inline xs::Array::iterator operator- (const xs::Array::iterator& lh, ptrdiff_t rh) { return xs::Array::iterator(lh) -= rh; } |
253
|
|
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|
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254
|
|
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|
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|
|
struct List : public Array { |
255
|
|
|
|
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|
|
List () {} |
256
|
|
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|
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|
|
List (SV* sv, bool policy = INCREMENT) : Array(sv, policy) {} |
257
|
|
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|
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|
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List (AV* sv, bool policy = INCREMENT) : Array(sv, policy) {} |
258
|
|
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|
|
|
|
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259
|
|
|
|
|
|
|
List (const Array& oth) : Array(oth) {} |
260
|
|
|
|
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|
|
List (Array&& oth) : Array(std::move(oth)) {} |
261
|
|
|
|
|
|
|
List (const Sv& oth) : Array(oth) {} |
262
|
|
|
|
|
|
|
List (Sv&& oth) : Array(std::move(oth)) {} |
263
|
|
|
|
|
|
|
|
264
|
|
|
|
|
|
|
List (const Simple&) = delete; |
265
|
|
|
|
|
|
|
List (const Hash&) = delete; |
266
|
|
|
|
|
|
|
List (const Sub&) = delete; |
267
|
|
|
|
|
|
|
List (const Glob&) = delete; |
268
|
|
|
|
|
|
|
List (const Io&) = delete; |
269
|
|
|
|
|
|
|
|
270
|
|
|
|
|
|
|
List& operator= (SV* val) { Array::operator=(val); return *this; } |
271
|
|
|
|
|
|
|
List& operator= (AV* val) { Array::operator=(val); return *this; } |
272
|
|
|
|
|
|
|
List& operator= (const Array& oth) { Array::operator=(oth); return *this; } |
273
|
|
|
|
|
|
|
List& operator= (Array&& oth) { Array::operator=(std::move(oth)); return *this; } |
274
|
|
|
|
|
|
|
List& operator= (const Sv& oth) { Array::operator=(oth); return *this; } |
275
|
|
|
|
|
|
|
List& operator= (Sv&& oth) { Array::operator=(std::move(oth)); return *this; } |
276
|
|
|
|
|
|
|
|
277
|
|
|
|
|
|
|
List& operator= (const Simple&) = delete; |
278
|
|
|
|
|
|
|
List& operator= (const Hash&) = delete; |
279
|
|
|
|
|
|
|
List& operator= (const Sub&) = delete; |
280
|
|
|
|
|
|
|
List& operator= (const Glob&) = delete; |
281
|
|
|
|
|
|
|
List& operator= (const Io&) = delete; |
282
|
|
|
|
|
|
|
}; |
283
|
|
|
|
|
|
|
|
284
|
|
|
|
|
|
|
} |
285
|
|
|
|
|
|
|
|
286
|
|
|
|
|
|
|
// DEPRECATED, will be removed, use Array.begin()/end() instead |
287
|
|
|
|
|
|
|
#define XS_AV_ITER(av,code) { \ |
288
|
|
|
|
|
|
|
SV** list = AvARRAY(av); \ |
289
|
|
|
|
|
|
|
SSize_t fillp = AvFILLp(av); \ |
290
|
|
|
|
|
|
|
for (SSize_t i = 0; i <= fillp; ++i) { SV* elem = *list++; code } \ |
291
|
|
|
|
|
|
|
} |
292
|
|
|
|
|
|
|
#define XS_AV_ITER_NE(av,code) XS_AV_ITER(av,{if(!elem) continue; code}) |
293
|
|
|
|
|
|
|
#define XS_AV_ITER_NU(av,code) XS_AV_ITER(av,{if(!elem || !SvOK(elem)) continue; code}) |
294
|
|
|
|
|
|
|
|