2023-06-20 04:33:09 +00:00
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#ifndef STAR_BYTE_ARRAY_H
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#define STAR_BYTE_ARRAY_H
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#include "StarHash.hpp"
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#include "StarException.hpp"
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#include "StarFormat.hpp"
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namespace Star {
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STAR_CLASS(ByteArray);
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// Class to hold an array of bytes. Contains an internal buffer that may be
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// larger than what is reported by size(), to avoid repeated allocations when a
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// ByteArray grows.
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class ByteArray {
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public:
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typedef char value_type;
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typedef char* iterator;
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typedef char const* const_iterator;
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// Constructs a byte array from a given c string WITHOUT including the
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// trailing '\0'
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static ByteArray fromCString(char const* str);
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// Same, but includes the trailing '\0'
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static ByteArray fromCStringWithNull(char const* str);
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static ByteArray withReserve(size_t capacity);
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ByteArray();
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ByteArray(size_t dataSize, char c);
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ByteArray(char const* data, size_t dataSize);
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ByteArray(ByteArray const& b);
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ByteArray(ByteArray&& b) noexcept;
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~ByteArray();
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ByteArray& operator=(ByteArray const& b);
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ByteArray& operator=(ByteArray&& b) noexcept;
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char const* ptr() const;
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char* ptr();
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size_t size() const;
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// Maximum size before realloc
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size_t capacity() const;
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// Is zero size
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bool empty() const;
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// Sets size to 0.
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void clear();
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// Clears and resets buffer to empty.
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void reset();
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void reserve(size_t capacity);
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void resize(size_t size);
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// resize, filling new space with given byte if it exists.
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void resize(size_t size, char f);
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// fill array with byte.
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void fill(char c);
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// fill array and resize to new size.
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void fill(size_t size, char c);
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void append(ByteArray const& b);
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void append(char const* data, size_t len);
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void appendByte(char b);
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void copyTo(char* data, size_t len) const;
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void copyTo(char* data) const;
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// Copy from ByteArray starting at pos, to data, with size len.
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void copyTo(char* data, size_t pos, size_t len) const;
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// Copy from data pointer to ByteArray at pos with size len.
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// Resizes if needed.
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void writeFrom(char const* data, size_t pos, size_t len);
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ByteArray sub(size_t b, size_t s) const;
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ByteArray left(size_t s) const;
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ByteArray right(size_t s) const;
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void trimLeft(size_t s);
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void trimRight(size_t s);
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// returns location of first character that is different than the given
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// ByteArray.
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size_t diffChar(ByteArray const& b) const;
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// returns -1 if this < b, 0 if this == b, 1 if this > b
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int compare(ByteArray const& b) const;
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template <typename Combiner>
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ByteArray combineWith(Combiner&& combine, ByteArray const& rhs, bool extend = false);
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ByteArray andWith(ByteArray const& rhs, bool extend = false);
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ByteArray orWith(ByteArray const& rhs, bool extend = false);
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ByteArray xorWith(ByteArray const& rhs, bool extend = false);
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iterator begin();
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iterator end();
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const_iterator begin() const;
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const_iterator end() const;
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void insert(size_t pos, char byte);
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iterator insert(const_iterator pos, char byte);
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void push_back(char byte);
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char& operator[](size_t i);
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char operator[](size_t i) const;
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char at(size_t i) const;
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bool operator<(ByteArray const& b) const;
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bool operator==(ByteArray const& b) const;
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bool operator!=(ByteArray const& b) const;
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private:
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char* m_data;
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size_t m_capacity;
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size_t m_size;
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};
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template <>
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struct hash<ByteArray> {
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size_t operator()(ByteArray const& b) const;
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};
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std::ostream& operator<<(std::ostream& os, ByteArray const& b);
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inline void ByteArray::clear() {
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resize(0);
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}
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inline void ByteArray::resize(size_t size) {
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reserve(size);
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m_size = size;
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}
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inline void ByteArray::append(ByteArray const& b) {
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append(b.ptr(), b.size());
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}
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inline void ByteArray::append(const char* data, size_t len) {
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resize(m_size + len);
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std::memcpy(m_data + m_size - len, data, len);
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}
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inline void ByteArray::appendByte(char b) {
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resize(m_size + 1);
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m_data[m_size - 1] = b;
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}
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inline bool ByteArray::empty() const {
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return m_size == 0;
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}
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inline char const* ByteArray::ptr() const {
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return m_data;
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}
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inline char* ByteArray::ptr() {
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return m_data;
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}
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inline size_t ByteArray::size() const {
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return m_size;
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}
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inline size_t ByteArray::capacity() const {
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return m_capacity;
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}
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inline void ByteArray::copyTo(char* data, size_t len) const {
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len = min(m_size, len);
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std::memcpy(data, m_data, len);
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}
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inline void ByteArray::copyTo(char* data) const {
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copyTo(data, m_size);
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}
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inline void ByteArray::copyTo(char* data, size_t pos, size_t len) const {
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if (len == 0 || pos >= m_size)
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return;
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len = min(m_size - pos, len);
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std::memcpy(data, m_data + pos, len);
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}
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inline void ByteArray::writeFrom(const char* data, size_t pos, size_t len) {
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if (pos + len > m_size)
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resize(pos + len);
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std::memcpy(m_data + pos, data, len);
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}
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template <typename Combiner>
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ByteArray ByteArray::combineWith(Combiner&& combine, ByteArray const& rhs, bool extend) {
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ByteArray const* smallerArray = &rhs;
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ByteArray const* largerArray = this;
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if (m_size < rhs.size())
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swap(smallerArray, largerArray);
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ByteArray res;
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res.resize(smallerArray->size());
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for (size_t i = 0; i < smallerArray->size(); ++i)
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res[i] = combine((*smallerArray)[i], (*largerArray)[i]);
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if (extend) {
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res.resize(largerArray->size());
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for (size_t i = smallerArray->size(); i < largerArray->size(); ++i)
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res[i] = (*largerArray)[i];
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}
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return res;
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}
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inline ByteArray::iterator ByteArray::begin() {
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return m_data;
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}
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inline ByteArray::iterator ByteArray::end() {
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return m_data + m_size;
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}
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inline ByteArray::const_iterator ByteArray::begin() const {
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return m_data;
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}
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inline ByteArray::const_iterator ByteArray::end() const {
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return m_data + m_size;
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}
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inline char& ByteArray::operator[](size_t i) {
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starAssert(i < m_size);
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return m_data[i];
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}
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inline char ByteArray::operator[](size_t i) const {
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starAssert(i < m_size);
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return m_data[i];
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}
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inline char ByteArray::at(size_t i) const {
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if (i >= m_size)
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2023-06-27 10:23:44 +00:00
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throw OutOfRangeException(strf("Out of range in ByteArray::at({})", i));
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2023-06-20 04:33:09 +00:00
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return m_data[i];
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}
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inline size_t hash<ByteArray>::operator()(ByteArray const& b) const {
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PLHasher hash;
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for (size_t i = 0; i < b.size(); ++i)
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hash.put(b[i]);
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return hash.hash();
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}
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}
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2023-06-27 09:24:35 +00:00
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template <> struct fmt::formatter<Star::ByteArray> : ostream_formatter {};
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2023-06-20 04:33:09 +00:00
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#endif
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