/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Copyright (C) 2016 Intel Corporation. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtCore module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef QBYTEARRAY_H #define QBYTEARRAY_H #include #include #include #include #include #include #include #include #ifdef truncate #error qbytearray.h must be included before any header file that defines truncate #endif #if defined(Q_OS_DARWIN) || defined(Q_QDOC) Q_FORWARD_DECLARE_CF_TYPE(CFData); Q_FORWARD_DECLARE_OBJC_CLASS(NSData); #endif QT_BEGIN_NAMESPACE /***************************************************************************** Safe and portable C string functions; extensions to standard string.h *****************************************************************************/ Q_CORE_EXPORT char *qstrdup(const char *); inline uint qstrlen(const char *str) { return str ? uint(strlen(str)) : 0; } inline uint qstrnlen(const char *str, uint maxlen) { uint length = 0; if (str) { while (length < maxlen && *str++) length++; } return length; } Q_CORE_EXPORT char *qstrcpy(char *dst, const char *src); Q_CORE_EXPORT char *qstrncpy(char *dst, const char *src, uint len); Q_CORE_EXPORT int qstrcmp(const char *str1, const char *str2); Q_CORE_EXPORT int qstrcmp(const QByteArray &str1, const QByteArray &str2); Q_CORE_EXPORT int qstrcmp(const QByteArray &str1, const char *str2); static inline int qstrcmp(const char *str1, const QByteArray &str2) { return -qstrcmp(str2, str1); } inline int qstrncmp(const char *str1, const char *str2, uint len) { return (str1 && str2) ? strncmp(str1, str2, len) : (str1 ? 1 : (str2 ? -1 : 0)); } Q_CORE_EXPORT int qstricmp(const char *, const char *); Q_CORE_EXPORT int qstrnicmp(const char *, const char *, uint len); Q_CORE_EXPORT int qstrnicmp(const char *, qsizetype, const char *, qsizetype = -1); // implemented in qvsnprintf.cpp Q_CORE_EXPORT int qvsnprintf(char *str, size_t n, const char *fmt, va_list ap); Q_CORE_EXPORT int qsnprintf(char *str, size_t n, const char *fmt, ...); // qChecksum: Internet checksum Q_CORE_EXPORT quint16 qChecksum(const char *s, uint len); // ### Qt 6: Remove Q_CORE_EXPORT quint16 qChecksum(const char *s, uint len, Qt::ChecksumType standard); // ### Qt 6: Use Qt::ChecksumType standard = Qt::ChecksumIso3309 class QByteRef; class QString; class QDataStream; template class QList; typedef QArrayData QByteArrayData; template struct QStaticByteArrayData { QByteArrayData ba; char data[N + 1]; QByteArrayData *data_ptr() const { Q_ASSERT(ba.ref.isStatic()); return const_cast(&ba); } }; struct QByteArrayDataPtr { QByteArrayData *ptr; }; #define Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER_WITH_OFFSET(size, offset) \ Q_STATIC_ARRAY_DATA_HEADER_INITIALIZER_WITH_OFFSET(size, offset) /**/ #define Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER(size) \ Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER_WITH_OFFSET(size, sizeof(QByteArrayData)) \ /**/ # define QByteArrayLiteral(str) \ ([]() -> QByteArray { \ enum { Size = sizeof(str) - 1 }; \ static const QStaticByteArrayData qbytearray_literal = { \ Q_STATIC_BYTE_ARRAY_DATA_HEADER_INITIALIZER(Size), \ str }; \ QByteArrayDataPtr holder = { qbytearray_literal.data_ptr() }; \ const QByteArray ba(holder); \ return ba; \ }()) \ /**/ class Q_CORE_EXPORT QByteArray { private: typedef QTypedArrayData Data; public: enum Base64Option { Base64Encoding = 0, Base64UrlEncoding = 1, KeepTrailingEquals = 0, OmitTrailingEquals = 2 }; Q_DECLARE_FLAGS(Base64Options, Base64Option) inline QByteArray() Q_DECL_NOTHROW; QByteArray(const char *, int size = -1); QByteArray(int size, char c); QByteArray(int size, Qt::Initialization); inline QByteArray(const QByteArray &) Q_DECL_NOTHROW; inline ~QByteArray(); QByteArray &operator=(const QByteArray &) Q_DECL_NOTHROW; QByteArray &operator=(const char *str); #ifdef Q_COMPILER_RVALUE_REFS inline QByteArray(QByteArray && other) Q_DECL_NOTHROW : d(other.d) { other.d = Data::sharedNull(); } inline QByteArray &operator=(QByteArray &&other) Q_DECL_NOTHROW { qSwap(d, other.d); return *this; } #endif inline void swap(QByteArray &other) Q_DECL_NOTHROW { qSwap(d, other.d); } inline int size() const; inline bool isEmpty() const; void resize(int size); QByteArray &fill(char c, int size = -1); inline int capacity() const; inline void reserve(int size); inline void squeeze(); #ifndef QT_NO_CAST_FROM_BYTEARRAY inline operator const char *() const; inline operator const void *() const; #endif inline char *data(); inline const char *data() const; inline const char *constData() const; inline void detach(); inline bool isDetached() const; inline bool isSharedWith(const QByteArray &other) const { return d == other.d; } void clear(); inline char at(int i) const; inline char operator[](int i) const; inline char operator[](uint i) const; inline QByteRef operator[](int i); inline QByteRef operator[](uint i); Q_REQUIRED_RESULT char front() const { return at(0); } Q_REQUIRED_RESULT inline QByteRef front(); Q_REQUIRED_RESULT char back() const { return at(size() - 1); } Q_REQUIRED_RESULT inline QByteRef back(); int indexOf(char c, int from = 0) const; int indexOf(const char *c, int from = 0) const; int indexOf(const QByteArray &a, int from = 0) const; int lastIndexOf(char c, int from = -1) const; int lastIndexOf(const char *c, int from = -1) const; int lastIndexOf(const QByteArray &a, int from = -1) const; inline bool contains(char c) const; inline bool contains(const char *a) const; inline bool contains(const QByteArray &a) const; int count(char c) const; int count(const char *a) const; int count(const QByteArray &a) const; inline int compare(const char *c, Qt::CaseSensitivity cs = Qt::CaseSensitive) const; inline int compare(const QByteArray &a, Qt::CaseSensitivity cs = Qt::CaseSensitive) const; Q_REQUIRED_RESULT QByteArray left(int len) const; Q_REQUIRED_RESULT QByteArray right(int len) const; Q_REQUIRED_RESULT QByteArray mid(int index, int len = -1) const; Q_REQUIRED_RESULT QByteArray chopped(int len) const { Q_ASSERT(len >= 0); Q_ASSERT(len <= size()); return left(size() - len); } bool startsWith(const QByteArray &a) const; bool startsWith(char c) const; bool startsWith(const char *c) const; bool endsWith(const QByteArray &a) const; bool endsWith(char c) const; bool endsWith(const char *c) const; bool isUpper() const; bool isLower() const; void truncate(int pos); void chop(int n); #if defined(Q_COMPILER_REF_QUALIFIERS) && !defined(QT_COMPILING_QSTRING_COMPAT_CPP) && !defined(Q_CLANG_QDOC) # if defined(Q_CC_GNU) && !defined(Q_CC_CLANG) && !defined(Q_CC_INTEL) && !QT_HAS_CPP_ATTRIBUTE(nodiscard) // required due to https://gcc.gnu.org/bugzilla/show_bug.cgi?id=61941 # pragma push_macro("Q_REQUIRED_RESULT") # undef Q_REQUIRED_RESULT # define Q_REQUIRED_RESULT # define Q_REQUIRED_RESULT_pushed # endif Q_REQUIRED_RESULT QByteArray toLower() const & { return toLower_helper(*this); } Q_REQUIRED_RESULT QByteArray toLower() && { return toLower_helper(*this); } Q_REQUIRED_RESULT QByteArray toUpper() const & { return toUpper_helper(*this); } Q_REQUIRED_RESULT QByteArray toUpper() && { return toUpper_helper(*this); } Q_REQUIRED_RESULT QByteArray trimmed() const & { return trimmed_helper(*this); } Q_REQUIRED_RESULT QByteArray trimmed() && { return trimmed_helper(*this); } Q_REQUIRED_RESULT QByteArray simplified() const & { return simplified_helper(*this); } Q_REQUIRED_RESULT QByteArray simplified() && { return simplified_helper(*this); } # ifdef Q_REQUIRED_RESULT_pushed # pragma pop_macro("Q_REQUIRED_RESULT") # endif #else Q_REQUIRED_RESULT QByteArray toLower() const; Q_REQUIRED_RESULT QByteArray toUpper() const; Q_REQUIRED_RESULT QByteArray trimmed() const; Q_REQUIRED_RESULT QByteArray simplified() const; #endif Q_REQUIRED_RESULT QByteArray leftJustified(int width, char fill = ' ', bool truncate = false) const; Q_REQUIRED_RESULT QByteArray rightJustified(int width, char fill = ' ', bool truncate = false) const; QByteArray &prepend(char c); inline QByteArray &prepend(int count, char c); QByteArray &prepend(const char *s); QByteArray &prepend(const char *s, int len); QByteArray &prepend(const QByteArray &a); QByteArray &append(char c); inline QByteArray &append(int count, char c); QByteArray &append(const char *s); QByteArray &append(const char *s, int len); QByteArray &append(const QByteArray &a); QByteArray &insert(int i, char c); QByteArray &insert(int i, int count, char c); QByteArray &insert(int i, const char *s); QByteArray &insert(int i, const char *s, int len); QByteArray &insert(int i, const QByteArray &a); QByteArray &remove(int index, int len); QByteArray &replace(int index, int len, const char *s); QByteArray &replace(int index, int len, const char *s, int alen); QByteArray &replace(int index, int len, const QByteArray &s); inline QByteArray &replace(char before, const char *after); QByteArray &replace(char before, const QByteArray &after); inline QByteArray &replace(const char *before, const char *after); QByteArray &replace(const char *before, int bsize, const char *after, int asize); QByteArray &replace(const QByteArray &before, const QByteArray &after); inline QByteArray &replace(const QByteArray &before, const char *after); QByteArray &replace(const char *before, const QByteArray &after); QByteArray &replace(char before, char after); inline QByteArray &operator+=(char c); inline QByteArray &operator+=(const char *s); inline QByteArray &operator+=(const QByteArray &a); QList split(char sep) const; Q_REQUIRED_RESULT QByteArray repeated(int times) const; #ifndef QT_NO_CAST_TO_ASCII QT_ASCII_CAST_WARN QByteArray &append(const QString &s); QT_ASCII_CAST_WARN QByteArray &insert(int i, const QString &s); QT_ASCII_CAST_WARN QByteArray &replace(const QString &before, const char *after); QT_ASCII_CAST_WARN QByteArray &replace(char c, const QString &after); QT_ASCII_CAST_WARN QByteArray &replace(const QString &before, const QByteArray &after); QT_ASCII_CAST_WARN QByteArray &operator+=(const QString &s); QT_ASCII_CAST_WARN int indexOf(const QString &s, int from = 0) const; QT_ASCII_CAST_WARN int lastIndexOf(const QString &s, int from = -1) const; #endif #if !defined(QT_NO_CAST_FROM_ASCII) && !defined(QT_RESTRICTED_CAST_FROM_ASCII) inline QT_ASCII_CAST_WARN bool operator==(const QString &s2) const; inline QT_ASCII_CAST_WARN bool operator!=(const QString &s2) const; inline QT_ASCII_CAST_WARN bool operator<(const QString &s2) const; inline QT_ASCII_CAST_WARN bool operator>(const QString &s2) const; inline QT_ASCII_CAST_WARN bool operator<=(const QString &s2) const; inline QT_ASCII_CAST_WARN bool operator>=(const QString &s2) const; #endif short toShort(bool *ok = nullptr, int base = 10) const; ushort toUShort(bool *ok = nullptr, int base = 10) const; int toInt(bool *ok = nullptr, int base = 10) const; uint toUInt(bool *ok = nullptr, int base = 10) const; long toLong(bool *ok = nullptr, int base = 10) const; ulong toULong(bool *ok = nullptr, int base = 10) const; qlonglong toLongLong(bool *ok = nullptr, int base = 10) const; qulonglong toULongLong(bool *ok = nullptr, int base = 10) const; float toFloat(bool *ok = nullptr) const; double toDouble(bool *ok = nullptr) const; QByteArray toBase64(Base64Options options) const; QByteArray toBase64() const; // ### Qt6 merge with previous QByteArray toHex() const; QByteArray toHex(char separator) const; // ### Qt6 merge with previous QByteArray toPercentEncoding(const QByteArray &exclude = QByteArray(), const QByteArray &include = QByteArray(), char percent = '%') const; inline QByteArray &setNum(short, int base = 10); inline QByteArray &setNum(ushort, int base = 10); inline QByteArray &setNum(int, int base = 10); inline QByteArray &setNum(uint, int base = 10); QByteArray &setNum(qlonglong, int base = 10); QByteArray &setNum(qulonglong, int base = 10); inline QByteArray &setNum(float, char f = 'g', int prec = 6); QByteArray &setNum(double, char f = 'g', int prec = 6); QByteArray &setRawData(const char *a, uint n); // ### Qt 6: use an int Q_REQUIRED_RESULT static QByteArray number(int, int base = 10); Q_REQUIRED_RESULT static QByteArray number(uint, int base = 10); Q_REQUIRED_RESULT static QByteArray number(qlonglong, int base = 10); Q_REQUIRED_RESULT static QByteArray number(qulonglong, int base = 10); Q_REQUIRED_RESULT static QByteArray number(double, char f = 'g', int prec = 6); Q_REQUIRED_RESULT static QByteArray fromRawData(const char *, int size); Q_REQUIRED_RESULT static QByteArray fromBase64(const QByteArray &base64, Base64Options options); Q_REQUIRED_RESULT static QByteArray fromBase64(const QByteArray &base64); // ### Qt6 merge with previous Q_REQUIRED_RESULT static QByteArray fromHex(const QByteArray &hexEncoded); Q_REQUIRED_RESULT static QByteArray fromPercentEncoding(const QByteArray &pctEncoded, char percent = '%'); #if defined(Q_OS_DARWIN) || defined(Q_QDOC) static QByteArray fromCFData(CFDataRef data); static QByteArray fromRawCFData(CFDataRef data); CFDataRef toCFData() const Q_DECL_CF_RETURNS_RETAINED; CFDataRef toRawCFData() const Q_DECL_CF_RETURNS_RETAINED; static QByteArray fromNSData(const NSData *data); static QByteArray fromRawNSData(const NSData *data); NSData *toNSData() const Q_DECL_NS_RETURNS_AUTORELEASED; NSData *toRawNSData() const Q_DECL_NS_RETURNS_AUTORELEASED; #endif typedef char *iterator; typedef const char *const_iterator; typedef iterator Iterator; typedef const_iterator ConstIterator; typedef std::reverse_iterator reverse_iterator; typedef std::reverse_iterator const_reverse_iterator; inline iterator begin(); inline const_iterator begin() const; inline const_iterator cbegin() const; inline const_iterator constBegin() const; inline iterator end(); inline const_iterator end() const; inline const_iterator cend() const; inline const_iterator constEnd() const; reverse_iterator rbegin() { return reverse_iterator(end()); } reverse_iterator rend() { return reverse_iterator(begin()); } const_reverse_iterator rbegin() const { return const_reverse_iterator(end()); } const_reverse_iterator rend() const { return const_reverse_iterator(begin()); } const_reverse_iterator crbegin() const { return const_reverse_iterator(end()); } const_reverse_iterator crend() const { return const_reverse_iterator(begin()); } // stl compatibility typedef int size_type; typedef qptrdiff difference_type; typedef const char & const_reference; typedef char & reference; typedef char *pointer; typedef const char *const_pointer; typedef char value_type; inline void push_back(char c); inline void push_back(const char *c); inline void push_back(const QByteArray &a); inline void push_front(char c); inline void push_front(const char *c); inline void push_front(const QByteArray &a); void shrink_to_fit() { squeeze(); } static inline QByteArray fromStdString(const std::string &s); inline std::string toStdString() const; inline int count() const { return d->size; } int length() const { return d->size; } bool isNull() const; inline QByteArray(QByteArrayDataPtr dd) : d(static_cast(dd.ptr)) { } private: operator QNoImplicitBoolCast() const; Data *d; void reallocData(uint alloc, Data::AllocationOptions options); void expand(int i); QByteArray nulTerminated() const; static QByteArray toLower_helper(const QByteArray &a); static QByteArray toLower_helper(QByteArray &a); static QByteArray toUpper_helper(const QByteArray &a); static QByteArray toUpper_helper(QByteArray &a); static QByteArray trimmed_helper(const QByteArray &a); static QByteArray trimmed_helper(QByteArray &a); static QByteArray simplified_helper(const QByteArray &a); static QByteArray simplified_helper(QByteArray &a); friend class QByteRef; friend class QString; friend Q_CORE_EXPORT QByteArray qUncompress(const uchar *data, int nbytes); public: typedef Data * DataPtr; inline DataPtr &data_ptr() { return d; } }; Q_DECLARE_OPERATORS_FOR_FLAGS(QByteArray::Base64Options) inline QByteArray::QByteArray() Q_DECL_NOTHROW : d(Data::sharedNull()) { } inline QByteArray::~QByteArray() { if (!d->ref.deref()) Data::deallocate(d); } inline int QByteArray::size() const { return d->size; } inline char QByteArray::at(int i) const { Q_ASSERT(uint(i) < uint(size())); return d->data()[i]; } inline char QByteArray::operator[](int i) const { Q_ASSERT(uint(i) < uint(size())); return d->data()[i]; } inline char QByteArray::operator[](uint i) const { Q_ASSERT(i < uint(size())); return d->data()[i]; } inline bool QByteArray::isEmpty() const { return d->size == 0; } #ifndef QT_NO_CAST_FROM_BYTEARRAY inline QByteArray::operator const char *() const { return d->data(); } inline QByteArray::operator const void *() const { return d->data(); } #endif inline char *QByteArray::data() { detach(); return d->data(); } inline const char *QByteArray::data() const { return d->data(); } inline const char *QByteArray::constData() const { return d->data(); } inline void QByteArray::detach() { if (d->ref.isShared() || (d->offset != sizeof(QByteArrayData))) reallocData(uint(d->size) + 1u, d->detachFlags()); } inline bool QByteArray::isDetached() const { return !d->ref.isShared(); } inline QByteArray::QByteArray(const QByteArray &a) Q_DECL_NOTHROW : d(a.d) { d->ref.ref(); } inline int QByteArray::capacity() const { return d->alloc ? d->alloc - 1 : 0; } inline void QByteArray::reserve(int asize) { if (d->ref.isShared() || uint(asize) + 1u > d->alloc) { reallocData(qMax(uint(size()), uint(asize)) + 1u, d->detachFlags() | Data::CapacityReserved); } else { // cannot set unconditionally, since d could be the shared_null or // otherwise static d->capacityReserved = true; } } inline void QByteArray::squeeze() { if (d->ref.isShared() || uint(d->size) + 1u < d->alloc) { reallocData(uint(d->size) + 1u, d->detachFlags() & ~Data::CapacityReserved); } else { // cannot set unconditionally, since d could be shared_null or // otherwise static. d->capacityReserved = false; } } class Q_CORE_EXPORT QByteRef { QByteArray &a; int i; inline QByteRef(QByteArray &array, int idx) : a(array),i(idx) {} friend class QByteArray; public: inline operator char() const { return i < a.d->size ? a.d->data()[i] : char(0); } inline QByteRef &operator=(char c) { if (i >= a.d->size) a.expand(i); else a.detach(); a.d->data()[i] = c; return *this; } inline QByteRef &operator=(const QByteRef &c) { if (i >= a.d->size) a.expand(i); else a.detach(); a.d->data()[i] = c.a.d->data()[c.i]; return *this; } inline bool operator==(char c) const { return a.d->data()[i] == c; } inline bool operator!=(char c) const { return a.d->data()[i] != c; } inline bool operator>(char c) const { return a.d->data()[i] > c; } inline bool operator>=(char c) const { return a.d->data()[i] >= c; } inline bool operator<(char c) const { return a.d->data()[i] < c; } inline bool operator<=(char c) const { return a.d->data()[i] <= c; } }; inline QByteRef QByteArray::operator[](int i) { Q_ASSERT(i >= 0); return QByteRef(*this, i); } inline QByteRef QByteArray::operator[](uint i) { return QByteRef(*this, i); } inline QByteRef QByteArray::front() { return operator[](0); } inline QByteRef QByteArray::back() { return operator[](size() - 1); } inline QByteArray::iterator QByteArray::begin() { detach(); return d->data(); } inline QByteArray::const_iterator QByteArray::begin() const { return d->data(); } inline QByteArray::const_iterator QByteArray::cbegin() const { return d->data(); } inline QByteArray::const_iterator QByteArray::constBegin() const { return d->data(); } inline QByteArray::iterator QByteArray::end() { detach(); return d->data() + d->size; } inline QByteArray::const_iterator QByteArray::end() const { return d->data() + d->size; } inline QByteArray::const_iterator QByteArray::cend() const { return d->data() + d->size; } inline QByteArray::const_iterator QByteArray::constEnd() const { return d->data() + d->size; } inline QByteArray &QByteArray::append(int n, char ch) { return insert(d->size, n, ch); } inline QByteArray &QByteArray::prepend(int n, char ch) { return insert(0, n, ch); } inline QByteArray &QByteArray::operator+=(char c) { return append(c); } inline QByteArray &QByteArray::operator+=(const char *s) { return append(s); } inline QByteArray &QByteArray::operator+=(const QByteArray &a) { return append(a); } inline void QByteArray::push_back(char c) { append(c); } inline void QByteArray::push_back(const char *c) { append(c); } inline void QByteArray::push_back(const QByteArray &a) { append(a); } inline void QByteArray::push_front(char c) { prepend(c); } inline void QByteArray::push_front(const char *c) { prepend(c); } inline void QByteArray::push_front(const QByteArray &a) { prepend(a); } inline bool QByteArray::contains(const QByteArray &a) const { return indexOf(a) != -1; } inline bool QByteArray::contains(char c) const { return indexOf(c) != -1; } inline int QByteArray::compare(const char *c, Qt::CaseSensitivity cs) const { return cs == Qt::CaseSensitive ? qstrcmp(*this, c) : qstrnicmp(data(), size(), c, -1); } inline int QByteArray::compare(const QByteArray &a, Qt::CaseSensitivity cs) const { return cs == Qt::CaseSensitive ? qstrcmp(*this, a) : qstrnicmp(data(), size(), a.data(), a.size()); } inline bool operator==(const QByteArray &a1, const QByteArray &a2) Q_DECL_NOTHROW { return (a1.size() == a2.size()) && (memcmp(a1.constData(), a2.constData(), a1.size())==0); } inline bool operator==(const QByteArray &a1, const char *a2) Q_DECL_NOTHROW { return a2 ? qstrcmp(a1,a2) == 0 : a1.isEmpty(); } inline bool operator==(const char *a1, const QByteArray &a2) Q_DECL_NOTHROW { return a1 ? qstrcmp(a1,a2) == 0 : a2.isEmpty(); } inline bool operator!=(const QByteArray &a1, const QByteArray &a2) Q_DECL_NOTHROW { return !(a1==a2); } inline bool operator!=(const QByteArray &a1, const char *a2) Q_DECL_NOTHROW { return a2 ? qstrcmp(a1,a2) != 0 : !a1.isEmpty(); } inline bool operator!=(const char *a1, const QByteArray &a2) Q_DECL_NOTHROW { return a1 ? qstrcmp(a1,a2) != 0 : !a2.isEmpty(); } inline bool operator<(const QByteArray &a1, const QByteArray &a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) < 0; } inline bool operator<(const QByteArray &a1, const char *a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) < 0; } inline bool operator<(const char *a1, const QByteArray &a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) < 0; } inline bool operator<=(const QByteArray &a1, const QByteArray &a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) <= 0; } inline bool operator<=(const QByteArray &a1, const char *a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) <= 0; } inline bool operator<=(const char *a1, const QByteArray &a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) <= 0; } inline bool operator>(const QByteArray &a1, const QByteArray &a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) > 0; } inline bool operator>(const QByteArray &a1, const char *a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) > 0; } inline bool operator>(const char *a1, const QByteArray &a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) > 0; } inline bool operator>=(const QByteArray &a1, const QByteArray &a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) >= 0; } inline bool operator>=(const QByteArray &a1, const char *a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) >= 0; } inline bool operator>=(const char *a1, const QByteArray &a2) Q_DECL_NOTHROW { return qstrcmp(a1, a2) >= 0; } #if !defined(QT_USE_QSTRINGBUILDER) inline const QByteArray operator+(const QByteArray &a1, const QByteArray &a2) { return QByteArray(a1) += a2; } inline const QByteArray operator+(const QByteArray &a1, const char *a2) { return QByteArray(a1) += a2; } inline const QByteArray operator+(const QByteArray &a1, char a2) { return QByteArray(a1) += a2; } inline const QByteArray operator+(const char *a1, const QByteArray &a2) { return QByteArray(a1) += a2; } inline const QByteArray operator+(char a1, const QByteArray &a2) { return QByteArray(&a1, 1) += a2; } #endif // QT_USE_QSTRINGBUILDER inline bool QByteArray::contains(const char *c) const { return indexOf(c) != -1; } inline QByteArray &QByteArray::replace(char before, const char *c) { return replace(&before, 1, c, qstrlen(c)); } inline QByteArray &QByteArray::replace(const QByteArray &before, const char *c) { return replace(before.constData(), before.size(), c, qstrlen(c)); } inline QByteArray &QByteArray::replace(const char *before, const char *after) { return replace(before, qstrlen(before), after, qstrlen(after)); } inline QByteArray &QByteArray::setNum(short n, int base) { return base == 10 ? setNum(qlonglong(n), base) : setNum(qulonglong(ushort(n)), base); } inline QByteArray &QByteArray::setNum(ushort n, int base) { return setNum(qulonglong(n), base); } inline QByteArray &QByteArray::setNum(int n, int base) { return base == 10 ? setNum(qlonglong(n), base) : setNum(qulonglong(uint(n)), base); } inline QByteArray &QByteArray::setNum(uint n, int base) { return setNum(qulonglong(n), base); } inline QByteArray &QByteArray::setNum(float n, char f, int prec) { return setNum(double(n),f,prec); } inline std::string QByteArray::toStdString() const { return std::string(constData(), length()); } inline QByteArray QByteArray::fromStdString(const std::string &s) { return QByteArray(s.data(), int(s.size())); } #if !defined(QT_NO_DATASTREAM) || (defined(QT_BOOTSTRAPPED) && !defined(QT_BUILD_QMAKE)) Q_CORE_EXPORT QDataStream &operator<<(QDataStream &, const QByteArray &); Q_CORE_EXPORT QDataStream &operator>>(QDataStream &, QByteArray &); #endif #ifndef QT_NO_COMPRESS Q_CORE_EXPORT QByteArray qCompress(const uchar* data, int nbytes, int compressionLevel = -1); Q_CORE_EXPORT QByteArray qUncompress(const uchar* data, int nbytes); inline QByteArray qCompress(const QByteArray& data, int compressionLevel = -1) { return qCompress(reinterpret_cast(data.constData()), data.size(), compressionLevel); } inline QByteArray qUncompress(const QByteArray& data) { return qUncompress(reinterpret_cast(data.constData()), data.size()); } #endif Q_DECLARE_SHARED(QByteArray) QT_END_NAMESPACE #endif // QBYTEARRAY_H