#include #include #include #include #include #include #include #include #include #include #include #include #include #if __cplusplus >= 201703L #include #endif #if __cplusplus >= 202002L #include #endif #ifdef __GNUC__ #pragma GCC diagnostic ignored "-Wmissing-declarations" #pragma GCC diagnostic ignored "-Wshadow" #ifdef __clang__ #pragma clang diagnostic ignored "-Wdollar-in-identifier-extension" #endif // __clang__ #endif // __GNUC__ namespace rust { inline namespace cxxbridge1 { // #include "rust/cxx.h" #ifndef CXXBRIDGE1_PANIC #define CXXBRIDGE1_PANIC template void panic [[noreturn]] (const char *msg); #endif // CXXBRIDGE1_PANIC struct unsafe_bitcopy_t; namespace { template class impl; } // namespace template ::std::size_t size_of(); template ::std::size_t align_of(); #ifndef CXXBRIDGE1_RUST_STRING #define CXXBRIDGE1_RUST_STRING class String final { public: String() noexcept; String(const String &) noexcept; String(String &&) noexcept; ~String() noexcept; String(const std::string &); String(const char *); String(const char *, std::size_t); String(const char16_t *); String(const char16_t *, std::size_t); #ifdef __cpp_char8_t String(const char8_t *s); String(const char8_t *s, std::size_t len); #endif static String lossy(const std::string &) noexcept; static String lossy(const char *) noexcept; static String lossy(const char *, std::size_t) noexcept; static String lossy(const char16_t *) noexcept; static String lossy(const char16_t *, std::size_t) noexcept; String &operator=(const String &) & noexcept; String &operator=(String &&) & noexcept; explicit operator std::string() const; const char *data() const noexcept; std::size_t size() const noexcept; std::size_t length() const noexcept; bool empty() const noexcept; const char *c_str() noexcept; std::size_t capacity() const noexcept; void reserve(size_t new_cap) noexcept; using iterator = char *; iterator begin() noexcept; iterator end() noexcept; using const_iterator = const char *; const_iterator begin() const noexcept; const_iterator end() const noexcept; const_iterator cbegin() const noexcept; const_iterator cend() const noexcept; bool operator==(const String &) const noexcept; bool operator!=(const String &) const noexcept; bool operator<(const String &) const noexcept; bool operator<=(const String &) const noexcept; bool operator>(const String &) const noexcept; bool operator>=(const String &) const noexcept; void swap(String &) noexcept; String(unsafe_bitcopy_t, const String &) noexcept; private: struct lossy_t; String(lossy_t, const char *, std::size_t) noexcept; String(lossy_t, const char16_t *, std::size_t) noexcept; friend void swap(String &lhs, String &rhs) noexcept { lhs.swap(rhs); } std::array repr; }; #endif // CXXBRIDGE1_RUST_STRING #ifndef CXXBRIDGE1_RUST_STR #define CXXBRIDGE1_RUST_STR class Str final { public: Str() noexcept; Str(const String &) noexcept; Str(const std::string &); Str(const char *); Str(const char *, std::size_t); Str &operator=(const Str &) & noexcept = default; explicit operator std::string() const; #if __cplusplus >= 201703L explicit operator std::string_view() const; #endif const char *data() const noexcept; std::size_t size() const noexcept; std::size_t length() const noexcept; bool empty() const noexcept; Str(const Str &) noexcept = default; ~Str() noexcept = default; using iterator = const char *; using const_iterator = const char *; const_iterator begin() const noexcept; const_iterator end() const noexcept; const_iterator cbegin() const noexcept; const_iterator cend() const noexcept; bool operator==(const Str &) const noexcept; bool operator!=(const Str &) const noexcept; bool operator<(const Str &) const noexcept; bool operator<=(const Str &) const noexcept; bool operator>(const Str &) const noexcept; bool operator>=(const Str &) const noexcept; void swap(Str &) noexcept; private: class uninit; Str(uninit) noexcept; friend impl; std::array repr; }; #endif // CXXBRIDGE1_RUST_STR #ifndef CXXBRIDGE1_RUST_SLICE #define CXXBRIDGE1_RUST_SLICE namespace detail { template struct copy_assignable_if {}; template <> struct copy_assignable_if { copy_assignable_if() noexcept = default; copy_assignable_if(const copy_assignable_if &) noexcept = default; copy_assignable_if &operator=(const copy_assignable_if &) & noexcept = delete; copy_assignable_if &operator=(copy_assignable_if &&) & noexcept = default; }; } // namespace detail template class Slice final : private detail::copy_assignable_if::value> { public: using value_type = T; Slice() noexcept; Slice(T *, std::size_t count) noexcept; template explicit Slice(C &c) : Slice(c.data(), c.size()) {} Slice &operator=(const Slice &) & noexcept = default; Slice &operator=(Slice &&) & noexcept = default; T *data() const noexcept; std::size_t size() const noexcept; std::size_t length() const noexcept; bool empty() const noexcept; T &operator[](std::size_t n) const noexcept; T &at(std::size_t n) const; T &front() const noexcept; T &back() const noexcept; Slice(const Slice &) noexcept = default; ~Slice() noexcept = default; class iterator; iterator begin() const noexcept; iterator end() const noexcept; void swap(Slice &) noexcept; private: class uninit; Slice(uninit) noexcept; friend impl; friend void sliceInit(void *, const void *, std::size_t) noexcept; friend void *slicePtr(const void *) noexcept; friend std::size_t sliceLen(const void *) noexcept; std::array repr; }; #ifdef __cpp_deduction_guides template explicit Slice(C &c) -> Slice().data())>>; #endif // __cpp_deduction_guides template class Slice::iterator final { public: #if __cplusplus >= 202002L using iterator_category = std::contiguous_iterator_tag; #else using iterator_category = std::random_access_iterator_tag; #endif using value_type = T; using difference_type = std::ptrdiff_t; using pointer = typename std::add_pointer::type; using reference = typename std::add_lvalue_reference::type; reference operator*() const noexcept; pointer operator->() const noexcept; reference operator[](difference_type) const noexcept; iterator &operator++() noexcept; iterator operator++(int) noexcept; iterator &operator--() noexcept; iterator operator--(int) noexcept; iterator &operator+=(difference_type) noexcept; iterator &operator-=(difference_type) noexcept; iterator operator+(difference_type) const noexcept; friend inline iterator operator+(difference_type lhs, iterator rhs) noexcept { return rhs + lhs; } iterator operator-(difference_type) const noexcept; difference_type operator-(const iterator &) const noexcept; bool operator==(const iterator &) const noexcept; bool operator!=(const iterator &) const noexcept; bool operator<(const iterator &) const noexcept; bool operator<=(const iterator &) const noexcept; bool operator>(const iterator &) const noexcept; bool operator>=(const iterator &) const noexcept; private: friend class Slice; void *pos; std::size_t stride; }; #if __cplusplus >= 202002L static_assert(std::ranges::contiguous_range>); static_assert(std::contiguous_iterator::iterator>); #endif template Slice::Slice() noexcept { sliceInit(this, reinterpret_cast(align_of()), 0); } template Slice::Slice(T *s, std::size_t count) noexcept { assert(s != nullptr || count == 0); sliceInit(this, s == nullptr && count == 0 ? reinterpret_cast(align_of()) : const_cast::type *>(s), count); } template T *Slice::data() const noexcept { return reinterpret_cast(slicePtr(this)); } template std::size_t Slice::size() const noexcept { return sliceLen(this); } template std::size_t Slice::length() const noexcept { return this->size(); } template bool Slice::empty() const noexcept { return this->size() == 0; } template T &Slice::operator[](std::size_t n) const noexcept { assert(n < this->size()); auto ptr = static_cast(slicePtr(this)) + size_of() * n; return *reinterpret_cast(ptr); } template T &Slice::at(std::size_t n) const { if (n >= this->size()) { panic("rust::Slice index out of range"); } return (*this)[n]; } template T &Slice::front() const noexcept { assert(!this->empty()); return (*this)[0]; } template T &Slice::back() const noexcept { assert(!this->empty()); return (*this)[this->size() - 1]; } template typename Slice::iterator::reference Slice::iterator::operator*() const noexcept { return *static_cast(this->pos); } template typename Slice::iterator::pointer Slice::iterator::operator->() const noexcept { return static_cast(this->pos); } template typename Slice::iterator::reference Slice::iterator::operator[]( typename Slice::iterator::difference_type n) const noexcept { auto ptr = static_cast(this->pos) + this->stride * n; return *reinterpret_cast(ptr); } template typename Slice::iterator &Slice::iterator::operator++() noexcept { this->pos = static_cast(this->pos) + this->stride; return *this; } template typename Slice::iterator Slice::iterator::operator++(int) noexcept { auto ret = iterator(*this); this->pos = static_cast(this->pos) + this->stride; return ret; } template typename Slice::iterator &Slice::iterator::operator--() noexcept { this->pos = static_cast(this->pos) - this->stride; return *this; } template typename Slice::iterator Slice::iterator::operator--(int) noexcept { auto ret = iterator(*this); this->pos = static_cast(this->pos) - this->stride; return ret; } template typename Slice::iterator &Slice::iterator::operator+=( typename Slice::iterator::difference_type n) noexcept { this->pos = static_cast(this->pos) + this->stride * n; return *this; } template typename Slice::iterator &Slice::iterator::operator-=( typename Slice::iterator::difference_type n) noexcept { this->pos = static_cast(this->pos) - this->stride * n; return *this; } template typename Slice::iterator Slice::iterator::operator+( typename Slice::iterator::difference_type n) const noexcept { auto ret = iterator(*this); ret.pos = static_cast(this->pos) + this->stride * n; return ret; } template typename Slice::iterator Slice::iterator::operator-( typename Slice::iterator::difference_type n) const noexcept { auto ret = iterator(*this); ret.pos = static_cast(this->pos) - this->stride * n; return ret; } template typename Slice::iterator::difference_type Slice::iterator::operator-(const iterator &other) const noexcept { auto diff = std::distance(static_cast(other.pos), static_cast(this->pos)); return diff / static_cast::iterator::difference_type>( this->stride); } template bool Slice::iterator::operator==(const iterator &other) const noexcept { return this->pos == other.pos; } template bool Slice::iterator::operator!=(const iterator &other) const noexcept { return this->pos != other.pos; } template bool Slice::iterator::operator<(const iterator &other) const noexcept { return this->pos < other.pos; } template bool Slice::iterator::operator<=(const iterator &other) const noexcept { return this->pos <= other.pos; } template bool Slice::iterator::operator>(const iterator &other) const noexcept { return this->pos > other.pos; } template bool Slice::iterator::operator>=(const iterator &other) const noexcept { return this->pos >= other.pos; } template typename Slice::iterator Slice::begin() const noexcept { iterator it; it.pos = slicePtr(this); it.stride = size_of(); return it; } template typename Slice::iterator Slice::end() const noexcept { iterator it = this->begin(); it.pos = static_cast(it.pos) + it.stride * this->size(); return it; } template void Slice::swap(Slice &rhs) noexcept { std::swap(*this, rhs); } #endif // CXXBRIDGE1_RUST_SLICE #ifndef CXXBRIDGE1_RUST_BOX #define CXXBRIDGE1_RUST_BOX template class Box final { public: using element_type = T; using const_pointer = typename std::add_pointer::type>::type; using pointer = typename std::add_pointer::type; Box() = delete; Box(Box &&) noexcept; ~Box() noexcept; explicit Box(const T &); explicit Box(T &&); Box &operator=(Box &&) & noexcept; const T *operator->() const noexcept; const T &operator*() const noexcept; T *operator->() noexcept; T &operator*() noexcept; template static Box in_place(Fields &&...); void swap(Box &) noexcept; static Box from_raw(T *) noexcept; T *into_raw() noexcept; /* Deprecated */ using value_type = element_type; private: class uninit; class allocation; Box(uninit) noexcept; void drop() noexcept; friend void swap(Box &lhs, Box &rhs) noexcept { lhs.swap(rhs); } T *ptr; }; template class Box::uninit {}; template class Box::allocation { static T *alloc() noexcept; static void dealloc(T *) noexcept; public: allocation() noexcept : ptr(alloc()) {} ~allocation() noexcept { if (this->ptr) { dealloc(this->ptr); } } T *ptr; }; template Box::Box(Box &&other) noexcept : ptr(other.ptr) { other.ptr = nullptr; } template Box::Box(const T &val) { allocation alloc; ::new (alloc.ptr) T(val); this->ptr = alloc.ptr; alloc.ptr = nullptr; } template Box::Box(T &&val) { allocation alloc; ::new (alloc.ptr) T(std::move(val)); this->ptr = alloc.ptr; alloc.ptr = nullptr; } template Box::~Box() noexcept { if (this->ptr) { this->drop(); } } template Box &Box::operator=(Box &&other) & noexcept { if (this->ptr) { this->drop(); } this->ptr = other.ptr; other.ptr = nullptr; return *this; } template const T *Box::operator->() const noexcept { return this->ptr; } template const T &Box::operator*() const noexcept { return *this->ptr; } template T *Box::operator->() noexcept { return this->ptr; } template T &Box::operator*() noexcept { return *this->ptr; } template template Box Box::in_place(Fields &&...fields) { allocation alloc; auto ptr = alloc.ptr; ::new (ptr) T{std::forward(fields)...}; alloc.ptr = nullptr; return from_raw(ptr); } template void Box::swap(Box &rhs) noexcept { using std::swap; swap(this->ptr, rhs.ptr); } template Box Box::from_raw(T *raw) noexcept { Box box = uninit{}; box.ptr = raw; return box; } template T *Box::into_raw() noexcept { T *raw = this->ptr; this->ptr = nullptr; return raw; } template Box::Box(uninit) noexcept {} #endif // CXXBRIDGE1_RUST_BOX #ifndef CXXBRIDGE1_RUST_BITCOPY_T #define CXXBRIDGE1_RUST_BITCOPY_T struct unsafe_bitcopy_t final { explicit unsafe_bitcopy_t() = default; }; #endif // CXXBRIDGE1_RUST_BITCOPY_T #ifndef CXXBRIDGE1_RUST_VEC #define CXXBRIDGE1_RUST_VEC template class Vec final { public: using value_type = T; Vec() noexcept; Vec(std::initializer_list); Vec(const Vec &); Vec(Vec &&) noexcept; ~Vec() noexcept; Vec &operator=(Vec &&) & noexcept; Vec &operator=(const Vec &) &; std::size_t size() const noexcept; bool empty() const noexcept; const T *data() const noexcept; T *data() noexcept; std::size_t capacity() const noexcept; const T &operator[](std::size_t n) const noexcept; const T &at(std::size_t n) const; const T &front() const noexcept; const T &back() const noexcept; T &operator[](std::size_t n) noexcept; T &at(std::size_t n); T &front() noexcept; T &back() noexcept; void reserve(std::size_t new_cap); void push_back(const T &value); void push_back(T &&value); template void emplace_back(Args &&...args); void truncate(std::size_t len); void clear(); using iterator = typename Slice::iterator; iterator begin() noexcept; iterator end() noexcept; using const_iterator = typename Slice::iterator; const_iterator begin() const noexcept; const_iterator end() const noexcept; const_iterator cbegin() const noexcept; const_iterator cend() const noexcept; void swap(Vec &) noexcept; Vec(unsafe_bitcopy_t, const Vec &) noexcept; private: void reserve_total(std::size_t new_cap) noexcept; void set_len(std::size_t len) noexcept; void drop() noexcept; friend void swap(Vec &lhs, Vec &rhs) noexcept { lhs.swap(rhs); } std::array repr; }; template Vec::Vec(std::initializer_list init) : Vec{} { this->reserve_total(init.size()); std::move(init.begin(), init.end(), std::back_inserter(*this)); } template Vec::Vec(const Vec &other) : Vec() { this->reserve_total(other.size()); std::copy(other.begin(), other.end(), std::back_inserter(*this)); } template Vec::Vec(Vec &&other) noexcept : repr(other.repr) { new (&other) Vec(); } template Vec::~Vec() noexcept { this->drop(); } template Vec &Vec::operator=(Vec &&other) & noexcept { this->drop(); this->repr = other.repr; new (&other) Vec(); return *this; } template Vec &Vec::operator=(const Vec &other) & { if (this != &other) { this->drop(); new (this) Vec(other); } return *this; } template bool Vec::empty() const noexcept { return this->size() == 0; } template T *Vec::data() noexcept { return const_cast(const_cast *>(this)->data()); } template const T &Vec::operator[](std::size_t n) const noexcept { assert(n < this->size()); auto data = reinterpret_cast(this->data()); return *reinterpret_cast(data + n * size_of()); } template const T &Vec::at(std::size_t n) const { if (n >= this->size()) { panic("rust::Vec index out of range"); } return (*this)[n]; } template const T &Vec::front() const noexcept { assert(!this->empty()); return (*this)[0]; } template const T &Vec::back() const noexcept { assert(!this->empty()); return (*this)[this->size() - 1]; } template T &Vec::operator[](std::size_t n) noexcept { assert(n < this->size()); auto data = reinterpret_cast(this->data()); return *reinterpret_cast(data + n * size_of()); } template T &Vec::at(std::size_t n) { if (n >= this->size()) { panic("rust::Vec index out of range"); } return (*this)[n]; } template T &Vec::front() noexcept { assert(!this->empty()); return (*this)[0]; } template T &Vec::back() noexcept { assert(!this->empty()); return (*this)[this->size() - 1]; } template void Vec::reserve(std::size_t new_cap) { this->reserve_total(new_cap); } template void Vec::push_back(const T &value) { this->emplace_back(value); } template void Vec::push_back(T &&value) { this->emplace_back(std::move(value)); } template template void Vec::emplace_back(Args &&...args) { auto size = this->size(); this->reserve_total(size + 1); ::new (reinterpret_cast(reinterpret_cast(this->data()) + size * size_of())) T(std::forward(args)...); this->set_len(size + 1); } template void Vec::clear() { this->truncate(0); } template typename Vec::iterator Vec::begin() noexcept { return Slice(this->data(), this->size()).begin(); } template typename Vec::iterator Vec::end() noexcept { return Slice(this->data(), this->size()).end(); } template typename Vec::const_iterator Vec::begin() const noexcept { return this->cbegin(); } template typename Vec::const_iterator Vec::end() const noexcept { return this->cend(); } template typename Vec::const_iterator Vec::cbegin() const noexcept { return Slice(this->data(), this->size()).begin(); } template typename Vec::const_iterator Vec::cend() const noexcept { return Slice(this->data(), this->size()).end(); } template void Vec::swap(Vec &rhs) noexcept { using std::swap; swap(this->repr, rhs.repr); } template Vec::Vec(unsafe_bitcopy_t, const Vec &bits) noexcept : repr(bits.repr) {} #endif // CXXBRIDGE1_RUST_VEC #ifndef CXXBRIDGE1_RUST_ERROR #define CXXBRIDGE1_RUST_ERROR class Error final : public std::exception { public: Error(const Error &); Error(Error &&) noexcept; ~Error() noexcept override; Error &operator=(const Error &) &; Error &operator=(Error &&) & noexcept; const char *what() const noexcept override; private: Error() noexcept = default; friend impl; const char *msg; std::size_t len; }; #endif // CXXBRIDGE1_RUST_ERROR #ifndef CXXBRIDGE1_RUST_OPAQUE #define CXXBRIDGE1_RUST_OPAQUE class Opaque { public: Opaque() = delete; Opaque(const Opaque &) = delete; ~Opaque() = delete; }; #endif // CXXBRIDGE1_RUST_OPAQUE #ifndef CXXBRIDGE1_IS_COMPLETE #define CXXBRIDGE1_IS_COMPLETE namespace detail { namespace { template struct is_complete : std::false_type {}; template struct is_complete : std::true_type {}; } // namespace } // namespace detail #endif // CXXBRIDGE1_IS_COMPLETE #ifndef CXXBRIDGE1_LAYOUT #define CXXBRIDGE1_LAYOUT class layout { template friend std::size_t size_of(); template friend std::size_t align_of(); template static typename std::enable_if::value, std::size_t>::type do_size_of() { return T::layout::size(); } template static typename std::enable_if::value, std::size_t>::type do_size_of() { return sizeof(T); } template static typename std::enable_if::value, std::size_t>::type size_of() { return do_size_of(); } template static typename std::enable_if::value, std::size_t>::type do_align_of() { return T::layout::align(); } template static typename std::enable_if::value, std::size_t>::type do_align_of() { return alignof(T); } template static typename std::enable_if::value, std::size_t>::type align_of() { return do_align_of(); } }; template std::size_t size_of() { return layout::size_of(); } template std::size_t align_of() { return layout::align_of(); } #endif // CXXBRIDGE1_LAYOUT namespace repr { struct PtrLen final { void *ptr; ::std::size_t len; }; } // namespace repr namespace detail { template struct operator_new { void *operator()(::std::size_t sz) { return ::operator new(sz); } }; template struct operator_new { void *operator()(::std::size_t sz) { return T::operator new(sz); } }; } // namespace detail template union ManuallyDrop { T value; ManuallyDrop(T &&value) : value(::std::move(value)) {} ~ManuallyDrop() {} }; template union MaybeUninit { T value; void *operator new(::std::size_t sz) { return detail::operator_new{}(sz); } MaybeUninit() {} ~MaybeUninit() {} }; namespace { template <> class impl final { public: static Error error(repr::PtrLen repr) noexcept { Error error; error.msg = static_cast(repr.ptr); error.len = repr.len; return error; } }; } // namespace } // namespace cxxbridge1 } // namespace rust #if __cplusplus >= 201402L #define CXX_DEFAULT_VALUE(value) = value #else #define CXX_DEFAULT_VALUE(value) #endif namespace craby { namespace hwpjs { namespace bridging { struct NullableString; struct ToMarkdownResult; struct ToMarkdownOptions; struct Hwpjs; } } } namespace craby { namespace hwpjs { namespace bridging { #ifndef CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$NullableString #define CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$NullableString struct NullableString final { bool null CXX_DEFAULT_VALUE(false); ::rust::String val; using IsRelocatable = ::std::true_type; }; #endif // CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$NullableString #ifndef CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$ToMarkdownResult #define CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$ToMarkdownResult struct ToMarkdownResult final { ::rust::String markdown; using IsRelocatable = ::std::true_type; }; #endif // CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$ToMarkdownResult #ifndef CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$ToMarkdownOptions #define CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$ToMarkdownOptions struct ToMarkdownOptions final { ::craby::hwpjs::bridging::NullableString image_output_dir; ::craby::hwpjs::bridging::NullableString image; bool use_html CXX_DEFAULT_VALUE(false); bool include_version CXX_DEFAULT_VALUE(false); bool include_page_info CXX_DEFAULT_VALUE(false); using IsRelocatable = ::std::true_type; }; #endif // CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$ToMarkdownOptions #ifndef CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$Hwpjs #define CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$Hwpjs struct Hwpjs final : public ::rust::Opaque { ~Hwpjs() = delete; private: friend ::rust::layout; struct layout { static ::std::size_t size() noexcept; static ::std::size_t align() noexcept; }; }; #endif // CXXBRIDGE1_STRUCT_craby$hwpjs$bridging$Hwpjs extern "C" { ::std::size_t craby$hwpjs$bridging$cxxbridge1$190$Hwpjs$operator$sizeof() noexcept; ::std::size_t craby$hwpjs$bridging$cxxbridge1$190$Hwpjs$operator$alignof() noexcept; ::craby::hwpjs::bridging::Hwpjs *craby$hwpjs$bridging$cxxbridge1$190$create_hwpjs(::std::size_t id, ::rust::Str data_path) noexcept; void craby$hwpjs$bridging$cxxbridge1$190$create_vec_from_slice(::rust::Slice<::std::uint8_t const> data, ::rust::Vec<::std::uint8_t> *return$) noexcept; ::rust::repr::PtrLen craby$hwpjs$bridging$cxxbridge1$190$hwpjs_file_header(::craby::hwpjs::bridging::Hwpjs &it_, ::rust::Vec<::std::uint8_t> *data, ::rust::String *return$) noexcept; ::rust::repr::PtrLen craby$hwpjs$bridging$cxxbridge1$190$hwpjs_to_json(::craby::hwpjs::bridging::Hwpjs &it_, ::rust::Vec<::std::uint8_t> *data, ::rust::String *return$) noexcept; ::rust::repr::PtrLen craby$hwpjs$bridging$cxxbridge1$190$hwpjs_to_markdown(::craby::hwpjs::bridging::Hwpjs &it_, ::rust::Vec<::std::uint8_t> *data, ::craby::hwpjs::bridging::ToMarkdownOptions *options, ::craby::hwpjs::bridging::ToMarkdownResult *return$) noexcept; } // extern "C" ::std::size_t Hwpjs::layout::size() noexcept { return craby$hwpjs$bridging$cxxbridge1$190$Hwpjs$operator$sizeof(); } ::std::size_t Hwpjs::layout::align() noexcept { return craby$hwpjs$bridging$cxxbridge1$190$Hwpjs$operator$alignof(); } ::rust::Box<::craby::hwpjs::bridging::Hwpjs> createHwpjs(::std::size_t id, ::rust::Str data_path) noexcept { return ::rust::Box<::craby::hwpjs::bridging::Hwpjs>::from_raw(craby$hwpjs$bridging$cxxbridge1$190$create_hwpjs(id, data_path)); } ::rust::Vec<::std::uint8_t> createVecFromSlice(::rust::Slice<::std::uint8_t const> data) noexcept { ::rust::MaybeUninit<::rust::Vec<::std::uint8_t>> return$; craby$hwpjs$bridging$cxxbridge1$190$create_vec_from_slice(data, &return$.value); return ::std::move(return$.value); } ::rust::String fileHeader(::craby::hwpjs::bridging::Hwpjs &it_, ::rust::Vec<::std::uint8_t> data) { ::rust::ManuallyDrop<::rust::Vec<::std::uint8_t>> data$(::std::move(data)); ::rust::MaybeUninit<::rust::String> return$; ::rust::repr::PtrLen error$ = craby$hwpjs$bridging$cxxbridge1$190$hwpjs_file_header(it_, &data$.value, &return$.value); if (error$.ptr) { throw ::rust::impl<::rust::Error>::error(error$); } return ::std::move(return$.value); } ::rust::String toJson(::craby::hwpjs::bridging::Hwpjs &it_, ::rust::Vec<::std::uint8_t> data) { ::rust::ManuallyDrop<::rust::Vec<::std::uint8_t>> data$(::std::move(data)); ::rust::MaybeUninit<::rust::String> return$; ::rust::repr::PtrLen error$ = craby$hwpjs$bridging$cxxbridge1$190$hwpjs_to_json(it_, &data$.value, &return$.value); if (error$.ptr) { throw ::rust::impl<::rust::Error>::error(error$); } return ::std::move(return$.value); } ::craby::hwpjs::bridging::ToMarkdownResult toMarkdown(::craby::hwpjs::bridging::Hwpjs &it_, ::rust::Vec<::std::uint8_t> data, ::craby::hwpjs::bridging::ToMarkdownOptions options) { ::rust::ManuallyDrop<::rust::Vec<::std::uint8_t>> data$(::std::move(data)); ::rust::ManuallyDrop<::craby::hwpjs::bridging::ToMarkdownOptions> options$(::std::move(options)); ::rust::MaybeUninit<::craby::hwpjs::bridging::ToMarkdownResult> return$; ::rust::repr::PtrLen error$ = craby$hwpjs$bridging$cxxbridge1$190$hwpjs_to_markdown(it_, &data$.value, &options$.value, &return$.value); if (error$.ptr) { throw ::rust::impl<::rust::Error>::error(error$); } return ::std::move(return$.value); } } // namespace bridging } // namespace hwpjs } // namespace craby extern "C" { ::craby::hwpjs::bridging::Hwpjs *cxxbridge1$box$craby$hwpjs$bridging$Hwpjs$alloc() noexcept; void cxxbridge1$box$craby$hwpjs$bridging$Hwpjs$dealloc(::craby::hwpjs::bridging::Hwpjs *) noexcept; void cxxbridge1$box$craby$hwpjs$bridging$Hwpjs$drop(::rust::Box<::craby::hwpjs::bridging::Hwpjs> *ptr) noexcept; } // extern "C" namespace rust { inline namespace cxxbridge1 { template <> ::craby::hwpjs::bridging::Hwpjs *Box<::craby::hwpjs::bridging::Hwpjs>::allocation::alloc() noexcept { return cxxbridge1$box$craby$hwpjs$bridging$Hwpjs$alloc(); } template <> void Box<::craby::hwpjs::bridging::Hwpjs>::allocation::dealloc(::craby::hwpjs::bridging::Hwpjs *ptr) noexcept { cxxbridge1$box$craby$hwpjs$bridging$Hwpjs$dealloc(ptr); } template <> void Box<::craby::hwpjs::bridging::Hwpjs>::drop() noexcept { cxxbridge1$box$craby$hwpjs$bridging$Hwpjs$drop(this); } } // namespace cxxbridge1 } // namespace rust