#include "../include/cxx.h" #include #include #include extern "C" { void cxxbridge1$cxx_string$init(std::string *s, const std::uint8_t *ptr, std::size_t len) noexcept { new (s) std::string(reinterpret_cast(ptr), len); } void cxxbridge1$cxx_string$destroy(std::string *s) noexcept { using std::string; s->~string(); } const char *cxxbridge1$cxx_string$data(const std::string &s) noexcept { return s.data(); } std::size_t cxxbridge1$cxx_string$length(const std::string &s) noexcept { return s.length(); } void cxxbridge1$cxx_string$clear(std::string &s) noexcept { s.clear(); } void cxxbridge1$cxx_string$reserve_total(std::string &s, size_t new_cap) noexcept { s.reserve(new_cap); } void cxxbridge1$cxx_string$push(std::string &s, const std::uint8_t *ptr, std::size_t len) noexcept { s.append(reinterpret_cast(ptr), len); } // rust::String void cxxbridge1$string$new(rust::String *self) noexcept; void cxxbridge1$string$clone(rust::String *self, const rust::String &other) noexcept; bool cxxbridge1$string$from_utf8(rust::String *self, const char *ptr, std::size_t len) noexcept; void cxxbridge1$string$from_utf8_lossy(rust::String *self, const char *ptr, std::size_t len) noexcept; bool cxxbridge1$string$from_utf16(rust::String *self, const char16_t *ptr, std::size_t len) noexcept; void cxxbridge1$string$from_utf16_lossy(rust::String *self, const char16_t *ptr, std::size_t len) noexcept; void cxxbridge1$string$drop(rust::String *self) noexcept; const char *cxxbridge1$string$ptr(const rust::String *self) noexcept; std::size_t cxxbridge1$string$len(const rust::String *self) noexcept; std::size_t cxxbridge1$string$capacity(const rust::String *self) noexcept; void cxxbridge1$string$reserve_additional(rust::String *self, size_t additional) noexcept; void cxxbridge1$string$reserve_total(rust::String *self, size_t new_cap) noexcept; // rust::Str void cxxbridge1$str$new(rust::Str *self) noexcept; void cxxbridge1$str$ref(rust::Str *self, const rust::String *string) noexcept; bool cxxbridge1$str$from(rust::Str *self, const char *ptr, std::size_t len) noexcept; const char *cxxbridge1$str$ptr(const rust::Str *self) noexcept; std::size_t cxxbridge1$str$len(const rust::Str *self) noexcept; // rust::Slice void cxxbridge1$slice$new(void *self, const void *ptr, std::size_t len) noexcept; void *cxxbridge1$slice$ptr(const void *self) noexcept; std::size_t cxxbridge1$slice$len(const void *self) noexcept; } // extern "C" namespace rust { inline namespace cxxbridge1 { template void panic [[noreturn]] (const char *msg) { #if defined(RUST_CXX_NO_EXCEPTIONS) std::cerr << "Error: " << msg << ". Aborting." << std::endl; std::terminate(); #else throw Exception(msg); #endif } template void panic [[noreturn]] (const char *msg); template static bool is_aligned(const void *ptr) noexcept { auto iptr = reinterpret_cast(ptr); return !(iptr % alignof(T)); } String::String() noexcept { cxxbridge1$string$new(this); } String::String(const String &other) noexcept { cxxbridge1$string$clone(this, other); } String::String(String &&other) noexcept : repr(other.repr) { cxxbridge1$string$new(&other); } String::~String() noexcept { cxxbridge1$string$drop(this); } static void initString(String *self, const char *s, std::size_t len) { if (!cxxbridge1$string$from_utf8(self, s, len)) { panic("data for rust::String is not utf-8"); } } static void initString(String *self, const char16_t *s, std::size_t len) { if (!cxxbridge1$string$from_utf16(self, s, len)) { panic("data for rust::String is not utf-16"); } } String::String(const std::string &s) { initString(this, s.data(), s.length()); } String::String(const char *s) { assert(s != nullptr); initString(this, s, std::strlen(s)); } String::String(const char *s, std::size_t len) { assert(s != nullptr || len == 0); initString(this, s == nullptr && len == 0 ? reinterpret_cast(1) : s, len); } String::String(const char16_t *s) { assert(s != nullptr); assert(is_aligned(s)); initString(this, s, std::char_traits::length(s)); } String::String(const char16_t *s, std::size_t len) { assert(s != nullptr || len == 0); assert(is_aligned(s)); initString(this, s == nullptr && len == 0 ? reinterpret_cast(2) : s, len); } struct String::lossy_t {}; String::String(lossy_t, const char *s, std::size_t len) noexcept { cxxbridge1$string$from_utf8_lossy( this, s == nullptr && len == 0 ? reinterpret_cast(1) : s, len); } String::String(lossy_t, const char16_t *s, std::size_t len) noexcept { cxxbridge1$string$from_utf16_lossy( this, s == nullptr && len == 0 ? reinterpret_cast(2) : s, len); } String String::lossy(const std::string &s) noexcept { return String::lossy(s.data(), s.length()); } String String::lossy(const char *s) noexcept { assert(s != nullptr); return String::lossy(s, std::strlen(s)); } String String::lossy(const char *s, std::size_t len) noexcept { assert(s != nullptr || len == 0); return String(lossy_t{}, s, len); } String String::lossy(const char16_t *s) noexcept { assert(s != nullptr); assert(is_aligned(s)); return String(lossy_t{}, s, std::char_traits::length(s)); } String String::lossy(const char16_t *s, std::size_t len) noexcept { assert(s != nullptr || len == 0); assert(is_aligned(s)); return String(lossy_t{}, s, len); } String &String::operator=(const String &other) &noexcept { if (this != &other) { cxxbridge1$string$drop(this); cxxbridge1$string$clone(this, other); } return *this; } String &String::operator=(String &&other) &noexcept { cxxbridge1$string$drop(this); this->repr = other.repr; cxxbridge1$string$new(&other); return *this; } String::operator std::string() const { return std::string(this->data(), this->size()); } const char *String::data() const noexcept { return cxxbridge1$string$ptr(this); } std::size_t String::size() const noexcept { return cxxbridge1$string$len(this); } std::size_t String::length() const noexcept { return cxxbridge1$string$len(this); } bool String::empty() const noexcept { return this->size() == 0; } const char *String::c_str() noexcept { auto len = this->length(); cxxbridge1$string$reserve_additional(this, 1); auto ptr = this->data(); const_cast(ptr)[len] = '\0'; return ptr; } std::size_t String::capacity() const noexcept { return cxxbridge1$string$capacity(this); } void String::reserve(std::size_t new_cap) noexcept { cxxbridge1$string$reserve_total(this, new_cap); } String::iterator String::begin() noexcept { return const_cast(this->data()); } String::iterator String::end() noexcept { return const_cast(this->data()) + this->size(); } String::const_iterator String::begin() const noexcept { return this->cbegin(); } String::const_iterator String::end() const noexcept { return this->cend(); } String::const_iterator String::cbegin() const noexcept { return this->data(); } String::const_iterator String::cend() const noexcept { return this->data() + this->size(); } bool String::operator==(const String &rhs) const noexcept { return rust::Str(*this) == rust::Str(rhs); } bool String::operator!=(const String &rhs) const noexcept { return rust::Str(*this) != rust::Str(rhs); } bool String::operator<(const String &rhs) const noexcept { return rust::Str(*this) < rust::Str(rhs); } bool String::operator<=(const String &rhs) const noexcept { return rust::Str(*this) <= rust::Str(rhs); } bool String::operator>(const String &rhs) const noexcept { return rust::Str(*this) > rust::Str(rhs); } bool String::operator>=(const String &rhs) const noexcept { return rust::Str(*this) >= rust::Str(rhs); } void String::swap(String &rhs) noexcept { using std::swap; swap(this->repr, rhs.repr); } String::String(unsafe_bitcopy_t, const String &bits) noexcept : repr(bits.repr) {} std::ostream &operator<<(std::ostream &os, const String &s) { os.write(s.data(), s.size()); return os; } Str::Str() noexcept { cxxbridge1$str$new(this); } Str::Str(const String &s) noexcept { cxxbridge1$str$ref(this, &s); } static void initStr(Str *self, const char *ptr, std::size_t len) { if (!cxxbridge1$str$from(self, ptr, len)) { panic("data for rust::Str is not utf-8"); } } Str::Str(const std::string &s) { initStr(this, s.data(), s.length()); } Str::Str(const char *s) { assert(s != nullptr); initStr(this, s, std::strlen(s)); } Str::Str(const char *s, std::size_t len) { assert(s != nullptr || len == 0); initStr(this, s == nullptr && len == 0 ? reinterpret_cast(1) : s, len); } Str::operator std::string() const { return std::string(this->data(), this->size()); } const char *Str::data() const noexcept { return cxxbridge1$str$ptr(this); } std::size_t Str::size() const noexcept { return cxxbridge1$str$len(this); } std::size_t Str::length() const noexcept { return this->size(); } bool Str::empty() const noexcept { return this->size() == 0; } Str::const_iterator Str::begin() const noexcept { return this->cbegin(); } Str::const_iterator Str::end() const noexcept { return this->cend(); } Str::const_iterator Str::cbegin() const noexcept { return this->data(); } Str::const_iterator Str::cend() const noexcept { return this->data() + this->size(); } bool Str::operator==(const Str &rhs) const noexcept { return this->size() == rhs.size() && std::equal(this->begin(), this->end(), rhs.begin()); } bool Str::operator!=(const Str &rhs) const noexcept { return !(*this == rhs); } bool Str::operator<(const Str &rhs) const noexcept { return std::lexicographical_compare(this->begin(), this->end(), rhs.begin(), rhs.end()); } bool Str::operator<=(const Str &rhs) const noexcept { // std::mismatch(this->begin(), this->end(), rhs.begin(), rhs.end()), except // without Undefined Behavior on C++11 if rhs is shorter than *this. const_iterator liter = this->begin(), lend = this->end(), riter = rhs.begin(), rend = rhs.end(); while (liter != lend && riter != rend && *liter == *riter) { ++liter, ++riter; } if (liter == lend) { return true; // equal or *this is a prefix of rhs } else if (riter == rend) { return false; // rhs is a prefix of *this } else { return *liter <= *riter; } } bool Str::operator>(const Str &rhs) const noexcept { return rhs < *this; } bool Str::operator>=(const Str &rhs) const noexcept { return rhs <= *this; } void Str::swap(Str &rhs) noexcept { using std::swap; swap(this->repr, rhs.repr); } std::ostream &operator<<(std::ostream &os, const Str &s) { os.write(s.data(), s.size()); return os; } void sliceInit(void *self, const void *ptr, std::size_t len) noexcept { cxxbridge1$slice$new(self, ptr, len); } void *slicePtr(const void *self) noexcept { return cxxbridge1$slice$ptr(self); } std::size_t sliceLen(const void *self) noexcept { return cxxbridge1$slice$len(self); } // Rust specifies that usize is ABI compatible with C's uintptr_t. // https://rust-lang.github.io/unsafe-code-guidelines/layout/scalars.html#isize-and-usize // However there is no direct Rust equivalent for size_t. C does not guarantee // that size_t and uintptr_t are compatible. In practice though, on all // platforms supported by Rust, they are identical for ABI purposes. See the // libc crate which unconditionally defines libc::size_t = usize. We expect the // same here and these assertions are just here to explicitly document that. // *Note that no assumption is made about C++ name mangling of signatures // containing these types, not here nor anywhere in CXX.* static_assert(sizeof(std::size_t) == sizeof(std::uintptr_t), "unsupported size_t size"); static_assert(alignof(std::size_t) == alignof(std::uintptr_t), "unsupported size_t alignment"); static_assert(sizeof(rust::isize) == sizeof(std::intptr_t), "unsupported ssize_t size"); static_assert(alignof(rust::isize) == alignof(std::intptr_t), "unsupported ssize_t alignment"); static_assert(std::is_trivially_copy_constructible::value, "trivial Str(const Str &)"); static_assert(std::is_trivially_copy_assignable::value, "trivial operator=(const Str &)"); static_assert(std::is_trivially_destructible::value, "trivial ~Str()"); static_assert( std::is_trivially_copy_constructible>::value, "trivial Slice(const Slice &)"); static_assert( std::is_trivially_move_constructible>::value, "trivial Slice(Slice &&)"); static_assert( std::is_trivially_copy_assignable>::value, "trivial Slice::operator=(const Slice &) for const slices"); static_assert( std::is_trivially_move_assignable>::value, "trivial Slice::operator=(Slice &&)"); static_assert(std::is_trivially_destructible>::value, "trivial ~Slice()"); static_assert(std::is_trivially_copy_constructible>::value, "trivial Slice(const Slice &)"); static_assert(std::is_trivially_move_constructible>::value, "trivial Slice(Slice &&)"); static_assert(!std::is_copy_assignable>::value, "delete Slice::operator=(const Slice &) for mut slices"); static_assert(std::is_trivially_move_assignable>::value, "trivial Slice::operator=(Slice &&)"); static_assert(std::is_trivially_destructible>::value, "trivial ~Slice()"); static_assert(std::is_same::const_iterator, Vec::iterator>::value, "Vec::const_iterator == Vec::iterator"); static_assert(std::is_same::const_iterator, Vec::iterator>::value, "Vec::const_iterator == Vec::iterator"); static_assert(!std::is_same::const_iterator, Vec::iterator>::value, "Vec::const_iterator != Vec::iterator"); static const char *errorCopy(const char *ptr, std::size_t len) { char *copy = new char[len]; std::memcpy(copy, ptr, len); return copy; } extern "C" { const char *cxxbridge1$error(const char *ptr, std::size_t len) noexcept { return errorCopy(ptr, len); } } // extern "C" Error::Error(const Error &other) : std::exception(other), msg(other.msg ? errorCopy(other.msg, other.len) : nullptr), len(other.len) {} Error::Error(Error &&other) noexcept : std::exception(std::move(other)), msg(other.msg), len(other.len) { other.msg = nullptr; other.len = 0; } Error::~Error() noexcept { delete[] this->msg; } Error &Error::operator=(const Error &other) & { if (this != &other) { std::exception::operator=(other); delete[] this->msg; this->msg = nullptr; if (other.msg) { this->msg = errorCopy(other.msg, other.len); this->len = other.len; } } return *this; } Error &Error::operator=(Error &&other) &noexcept { std::exception::operator=(std::move(other)); delete[] this->msg; this->msg = other.msg; this->len = other.len; other.msg = nullptr; other.len = 0; return *this; } const char *Error::what() const noexcept { return this->msg; } namespace { template union MaybeUninit { T value; MaybeUninit() {} ~MaybeUninit() {} }; } // namespace namespace repr { struct PtrLen final { void *ptr; std::size_t len; }; } // namespace repr extern "C" { repr::PtrLen cxxbridge1$exception(const char *, std::size_t len) noexcept; } namespace detail { // On some platforms size_t is the same C++ type as one of the sized integer // types; on others it is a distinct type. Only in the latter case do we need to // define a specialized impl of rust::Vec, because in the former case it // would collide with one of the other specializations. using usize_if_unique = typename std::conditional::value || std::is_same::value, struct usize_ignore, size_t>::type; using isize_if_unique = typename std::conditional::value || std::is_same::value, struct isize_ignore, rust::isize>::type; class Fail final { repr::PtrLen &throw$; public: Fail(repr::PtrLen &throw$) noexcept : throw$(throw$) {} void operator()(const char *) noexcept; void operator()(const std::string &) noexcept; }; void Fail::operator()(const char *catch$) noexcept { throw$ = cxxbridge1$exception(catch$, std::strlen(catch$)); } void Fail::operator()(const std::string &catch$) noexcept { throw$ = cxxbridge1$exception(catch$.data(), catch$.length()); } } // namespace detail } // namespace cxxbridge1 } // namespace rust namespace { template void destroy(T *ptr) { ptr->~T(); } } // namespace extern "C" { void cxxbridge1$unique_ptr$std$string$null( std::unique_ptr *ptr) noexcept { new (ptr) std::unique_ptr(); } void cxxbridge1$unique_ptr$std$string$raw(std::unique_ptr *ptr, std::string *raw) noexcept { new (ptr) std::unique_ptr(raw); } const std::string *cxxbridge1$unique_ptr$std$string$get( const std::unique_ptr &ptr) noexcept { return ptr.get(); } std::string *cxxbridge1$unique_ptr$std$string$release( std::unique_ptr &ptr) noexcept { return ptr.release(); } void cxxbridge1$unique_ptr$std$string$drop( std::unique_ptr *ptr) noexcept { ptr->~unique_ptr(); } } // extern "C" namespace { const std::size_t kMaxExpectedWordsInString = 8; static_assert(alignof(std::string) <= alignof(void *), "unexpectedly large std::string alignment"); static_assert(sizeof(std::string) <= kMaxExpectedWordsInString * sizeof(void *), "unexpectedly large std::string size"); } // namespace #define STD_VECTOR_OPS(RUST_TYPE, CXX_TYPE) \ std::size_t cxxbridge1$std$vector$##RUST_TYPE##$size( \ const std::vector &s) noexcept { \ return s.size(); \ } \ CXX_TYPE *cxxbridge1$std$vector$##RUST_TYPE##$get_unchecked( \ std::vector *s, std::size_t pos) noexcept { \ return &(*s)[pos]; \ } \ void cxxbridge1$unique_ptr$std$vector$##RUST_TYPE##$null( \ std::unique_ptr> *ptr) noexcept { \ new (ptr) std::unique_ptr>(); \ } \ void cxxbridge1$unique_ptr$std$vector$##RUST_TYPE##$raw( \ std::unique_ptr> *ptr, \ std::vector *raw) noexcept { \ new (ptr) std::unique_ptr>(raw); \ } \ const std::vector \ *cxxbridge1$unique_ptr$std$vector$##RUST_TYPE##$get( \ const std::unique_ptr> &ptr) noexcept { \ return ptr.get(); \ } \ std::vector \ *cxxbridge1$unique_ptr$std$vector$##RUST_TYPE##$release( \ std::unique_ptr> &ptr) noexcept { \ return ptr.release(); \ } \ void cxxbridge1$unique_ptr$std$vector$##RUST_TYPE##$drop( \ std::unique_ptr> *ptr) noexcept { \ ptr->~unique_ptr(); \ } #define STD_VECTOR_TRIVIAL_OPS(RUST_TYPE, CXX_TYPE) \ void cxxbridge1$std$vector$##RUST_TYPE##$push_back( \ std::vector *v, CXX_TYPE *value) noexcept { \ v->push_back(std::move(*value)); \ destroy(value); \ } \ void cxxbridge1$std$vector$##RUST_TYPE##$pop_back(std::vector *v, \ CXX_TYPE *out) noexcept { \ new (out) CXX_TYPE(std::move(v->back())); \ v->pop_back(); \ } #define RUST_VEC_EXTERNS(RUST_TYPE, CXX_TYPE) \ void cxxbridge1$rust_vec$##RUST_TYPE##$new( \ rust::Vec *ptr) noexcept; \ void cxxbridge1$rust_vec$##RUST_TYPE##$drop( \ rust::Vec *ptr) noexcept; \ std::size_t cxxbridge1$rust_vec$##RUST_TYPE##$len( \ const rust::Vec *ptr) noexcept; \ std::size_t cxxbridge1$rust_vec$##RUST_TYPE##$capacity( \ const rust::Vec *ptr) noexcept; \ const CXX_TYPE *cxxbridge1$rust_vec$##RUST_TYPE##$data( \ const rust::Vec *ptr) noexcept; \ void cxxbridge1$rust_vec$##RUST_TYPE##$reserve_total( \ rust::Vec *ptr, std::size_t new_cap) noexcept; \ void cxxbridge1$rust_vec$##RUST_TYPE##$set_len(rust::Vec *ptr, \ std::size_t len) noexcept; \ void cxxbridge1$rust_vec$##RUST_TYPE##$truncate(rust::Vec *ptr, \ std::size_t len) noexcept; #define RUST_VEC_OPS(RUST_TYPE, CXX_TYPE) \ template <> \ Vec::Vec() noexcept { \ cxxbridge1$rust_vec$##RUST_TYPE##$new(this); \ } \ template <> \ void Vec::drop() noexcept { \ return cxxbridge1$rust_vec$##RUST_TYPE##$drop(this); \ } \ template <> \ std::size_t Vec::size() const noexcept { \ return cxxbridge1$rust_vec$##RUST_TYPE##$len(this); \ } \ template <> \ std::size_t Vec::capacity() const noexcept { \ return cxxbridge1$rust_vec$##RUST_TYPE##$capacity(this); \ } \ template <> \ const CXX_TYPE *Vec::data() const noexcept { \ return cxxbridge1$rust_vec$##RUST_TYPE##$data(this); \ } \ template <> \ void Vec::reserve_total(std::size_t new_cap) noexcept { \ cxxbridge1$rust_vec$##RUST_TYPE##$reserve_total(this, new_cap); \ } \ template <> \ void Vec::set_len(std::size_t len) noexcept { \ cxxbridge1$rust_vec$##RUST_TYPE##$set_len(this, len); \ } \ template <> \ void Vec::truncate(std::size_t len) { \ cxxbridge1$rust_vec$##RUST_TYPE##$truncate(this, len); \ } #define SHARED_PTR_OPS(RUST_TYPE, CXX_TYPE) \ static_assert(sizeof(std::shared_ptr) == 2 * sizeof(void *), ""); \ static_assert(alignof(std::shared_ptr) == alignof(void *), ""); \ void cxxbridge1$std$shared_ptr$##RUST_TYPE##$null( \ std::shared_ptr *ptr) noexcept { \ new (ptr) std::shared_ptr(); \ } \ CXX_TYPE *cxxbridge1$std$shared_ptr$##RUST_TYPE##$uninit( \ std::shared_ptr *ptr) noexcept { \ CXX_TYPE *uninit = \ reinterpret_cast(new rust::MaybeUninit); \ new (ptr) std::shared_ptr(uninit); \ return uninit; \ } \ void cxxbridge1$std$shared_ptr$##RUST_TYPE##$clone( \ const std::shared_ptr &self, \ std::shared_ptr *ptr) noexcept { \ new (ptr) std::shared_ptr(self); \ } \ const CXX_TYPE *cxxbridge1$std$shared_ptr$##RUST_TYPE##$get( \ const std::shared_ptr &self) noexcept { \ return self.get(); \ } \ void cxxbridge1$std$shared_ptr$##RUST_TYPE##$drop( \ const std::shared_ptr *self) noexcept { \ self->~shared_ptr(); \ } \ static_assert(sizeof(std::weak_ptr) == 2 * sizeof(void *), ""); \ static_assert(alignof(std::weak_ptr) == alignof(void *), ""); \ void cxxbridge1$std$weak_ptr$##RUST_TYPE##$null( \ std::weak_ptr *ptr) noexcept { \ new (ptr) std::weak_ptr(); \ } \ void cxxbridge1$std$weak_ptr$##RUST_TYPE##$clone( \ const std::weak_ptr &self, \ std::weak_ptr *ptr) noexcept { \ new (ptr) std::weak_ptr(self); \ } \ void cxxbridge1$std$weak_ptr$##RUST_TYPE##$downgrade( \ const std::shared_ptr &shared, \ std::weak_ptr *weak) noexcept { \ new (weak) std::weak_ptr(shared); \ } \ void cxxbridge1$std$weak_ptr$##RUST_TYPE##$upgrade( \ const std::weak_ptr &weak, \ std::shared_ptr *shared) noexcept { \ new (shared) std::shared_ptr(weak.lock()); \ } \ void cxxbridge1$std$weak_ptr$##RUST_TYPE##$drop( \ const std::weak_ptr *self) noexcept { \ self->~weak_ptr(); \ } // Usize and isize are the same type as one of the below. #define FOR_EACH_NUMERIC(MACRO) \ MACRO(u8, std::uint8_t) \ MACRO(u16, std::uint16_t) \ MACRO(u32, std::uint32_t) \ MACRO(u64, std::uint64_t) \ MACRO(i8, std::int8_t) \ MACRO(i16, std::int16_t) \ MACRO(i32, std::int32_t) \ MACRO(i64, std::int64_t) \ MACRO(f32, float) \ MACRO(f64, double) #define FOR_EACH_TRIVIAL_STD_VECTOR(MACRO) \ FOR_EACH_NUMERIC(MACRO) \ MACRO(usize, std::size_t) \ MACRO(isize, rust::isize) #define FOR_EACH_STD_VECTOR(MACRO) \ FOR_EACH_TRIVIAL_STD_VECTOR(MACRO) \ MACRO(string, std::string) #define FOR_EACH_RUST_VEC(MACRO) \ FOR_EACH_NUMERIC(MACRO) \ MACRO(bool, bool) \ MACRO(char, char) \ MACRO(usize, rust::detail::usize_if_unique) \ MACRO(isize, rust::detail::isize_if_unique) \ MACRO(string, rust::String) \ MACRO(str, rust::Str) #define FOR_EACH_SHARED_PTR(MACRO) \ FOR_EACH_NUMERIC(MACRO) \ MACRO(bool, bool) \ MACRO(usize, std::size_t) \ MACRO(isize, rust::isize) \ MACRO(string, std::string) extern "C" { FOR_EACH_STD_VECTOR(STD_VECTOR_OPS) FOR_EACH_TRIVIAL_STD_VECTOR(STD_VECTOR_TRIVIAL_OPS) FOR_EACH_RUST_VEC(RUST_VEC_EXTERNS) FOR_EACH_SHARED_PTR(SHARED_PTR_OPS) } // extern "C" namespace rust { inline namespace cxxbridge1 { FOR_EACH_RUST_VEC(RUST_VEC_OPS) } // namespace cxxbridge1 } // namespace rust