The QString class provides a Unicode character string. More...
Header: | #include <QString> |
CMake: | find_package(Qt6 COMPONENTS Core REQUIRED) target_link_libraries(mytarget PRIVATE Qt6::Core) |
qmake: | QT += core |
Note: All functions in this class are reentrant.
ConstIterator | |
Iterator | |
enum | NormalizationForm { NormalizationForm_D, NormalizationForm_C, NormalizationForm_KD, NormalizationForm_KC } |
enum | SectionFlag { SectionDefault, SectionSkipEmpty, SectionIncludeLeadingSep, SectionIncludeTrailingSep, SectionCaseInsensitiveSeps } |
flags | SectionFlags |
const_iterator | |
const_pointer | |
const_reference | |
const_reverse_iterator | |
difference_type | |
iterator | |
pointer | |
reference | |
reverse_iterator | |
size_type | |
value_type |
QString(const QByteArray &ba) | |
QString(const char *str) | |
QString(QString &&other) | |
QString(const QString &other) | |
QString(const char8_t *str) | |
QString(QLatin1String str) | |
QString(qsizetype size, QChar ch) | |
QString(QChar ch) | |
QString(const QChar *unicode, qsizetype size = -1) | |
QString() | |
QString & | operator=(const QByteArray &ba) |
QString & | operator=(QString &&other) |
QString & | operator=(const QString &other) |
~QString() | |
QString & | append(const QString &str) |
QString & | append(QChar ch) |
QString & | append(const QChar *str, qsizetype len) |
QString & | append(QLatin1String str) |
QString & | append(const char *str) |
QString & | append(const QByteArray &ba) |
QString | arg(const QString &a, int fieldWidth = 0, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(qlonglong a, int fieldWidth = 0, int base = 10, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(qulonglong a, int fieldWidth = 0, int base = 10, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(long a, int fieldWidth = 0, int base = 10, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(ulong a, int fieldWidth = 0, int base = 10, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(int a, int fieldWidth = 0, int base = 10, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(uint a, int fieldWidth = 0, int base = 10, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(short a, int fieldWidth = 0, int base = 10, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(ushort a, int fieldWidth = 0, int base = 10, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(double a, int fieldWidth = 0, char format = 'g', int precision = -1, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(char a, int fieldWidth = 0, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(QChar a, int fieldWidth = 0, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(QStringView a, int fieldWidth = 0, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(QLatin1String a, int fieldWidth = 0, QChar fillChar = QLatin1Char(' ')) const |
QString | arg(Args &&... args) const |
const QChar | at(qsizetype position) const |
QChar | back() const |
QChar & | back() |
QString::iterator | begin() |
QString::const_iterator | begin() const |
qsizetype | capacity() const |
QString::const_iterator | cbegin() const |
QString::const_iterator | cend() const |
void | chop(qsizetype n) |
QString | chopped(qsizetype len) const |
void | clear() |
int | compare(const QString &other, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
int | compare(QLatin1String other, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
int | compare(QStringView s, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
int | compare(QChar ch, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
QString::const_iterator | constBegin() const |
const QChar * | constData() const |
QString::const_iterator | constEnd() const |
bool | contains(const QString &str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | contains(QChar ch, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | contains(QLatin1String str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | contains(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | contains(const QRegularExpression &re, QRegularExpressionMatch *rmatch = nullptr) const |
qsizetype | count(const QString &str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | count() const |
qsizetype | count(QChar ch, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | count(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | count(const QRegularExpression &re) const |
QString::const_reverse_iterator | crbegin() const |
QString::const_reverse_iterator | crend() const |
QChar * | data() |
const QChar * | data() const |
QString::iterator | end() |
QString::const_iterator | end() const |
bool | endsWith(const QString &s, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | endsWith(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | endsWith(QLatin1String s, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | endsWith(QChar c, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
QString::iterator | erase(QString::const_iterator first, QString::const_iterator last) |
QString & | fill(QChar ch, qsizetype size = -1) |
QString | first(qsizetype n) const |
QChar | front() const |
QChar & | front() |
qsizetype | indexOf(QLatin1String str, qsizetype from = 0, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | indexOf(QChar ch, qsizetype from = 0, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | indexOf(const QString &str, qsizetype from = 0, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | indexOf(QStringView str, qsizetype from = 0, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | indexOf(const QRegularExpression &re, qsizetype from = 0, QRegularExpressionMatch *rmatch = nullptr) const |
QString & | insert(qsizetype position, const QString &str) |
QString & | insert(qsizetype position, QChar ch) |
QString & | insert(qsizetype position, const QChar *unicode, qsizetype size) |
QString & | insert(qsizetype position, QStringView str) |
QString & | insert(qsizetype position, QLatin1String str) |
QString & | insert(qsizetype position, const char *str) |
QString & | insert(qsizetype position, const QByteArray &str) |
bool | isEmpty() const |
bool | isLower() const |
bool | isNull() const |
bool | isRightToLeft() const |
bool | isUpper() const |
bool | isValidUtf16() const |
QString | last(qsizetype n) const |
qsizetype | lastIndexOf(const QString &str, qsizetype from, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | lastIndexOf(QChar ch, qsizetype from = -1, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | lastIndexOf(QLatin1String str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | lastIndexOf(QLatin1String str, qsizetype from, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | lastIndexOf(const QString &str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | lastIndexOf(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | lastIndexOf(QStringView str, qsizetype from, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
qsizetype | lastIndexOf(const QRegularExpression &re, QRegularExpressionMatch *rmatch = nullptr) const |
qsizetype | lastIndexOf(const QRegularExpression &re, qsizetype from, QRegularExpressionMatch *rmatch = nullptr) const |
QString | left(qsizetype n) const |
QString | leftJustified(qsizetype width, QChar fill = QLatin1Char(' '), bool truncate = false) const |
qsizetype | length() const |
int | localeAwareCompare(const QString &other) const |
int | localeAwareCompare(QStringView other) const |
QString | mid(qsizetype position, qsizetype n = -1) const |
QString | normalized(QString::NormalizationForm mode, QChar::UnicodeVersion version = QChar::Unicode_Unassigned) const |
QString & | prepend(const QString &str) |
QString & | prepend(QChar ch) |
QString & | prepend(const QChar *str, qsizetype len) |
QString & | prepend(QStringView str) |
QString & | prepend(QLatin1String str) |
QString & | prepend(const char *str) |
QString & | prepend(const QByteArray &ba) |
void | push_back(const QString &other) |
void | push_back(QChar ch) |
void | push_front(const QString &other) |
void | push_front(QChar ch) |
QString::reverse_iterator | rbegin() |
QString::const_reverse_iterator | rbegin() const |
QString & | remove(qsizetype position, qsizetype n) |
QString & | remove(QChar ch, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | remove(QLatin1String str, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | remove(const QString &str, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | remove(const QRegularExpression &re) |
QString & | removeIf(Predicate pred) |
QString::reverse_iterator | rend() |
QString::const_reverse_iterator | rend() const |
QString | repeated(qsizetype times) const |
QString & | replace(qsizetype position, qsizetype n, const QString &after) |
QString & | replace(qsizetype position, qsizetype n, QChar after) |
QString & | replace(qsizetype position, qsizetype n, const QChar *unicode, qsizetype size) |
QString & | replace(QChar before, QChar after, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | replace(const QChar *before, qsizetype blen, const QChar *after, qsizetype alen, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | replace(QLatin1String before, QLatin1String after, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | replace(QLatin1String before, const QString &after, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | replace(const QString &before, QLatin1String after, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | replace(const QString &before, const QString &after, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | replace(QChar ch, const QString &after, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | replace(QChar c, QLatin1String after, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString & | replace(const QRegularExpression &re, const QString &after) |
void | reserve(qsizetype size) |
void | resize(qsizetype size) |
void | resize(qsizetype size, QChar fillChar) |
QString | right(qsizetype n) const |
QString | rightJustified(qsizetype width, QChar fill = QLatin1Char(' '), bool truncate = false) const |
QString | section(QChar sep, qsizetype start, qsizetype end = -1, QString::SectionFlags flags = SectionDefault) const |
QString | section(const QString &sep, qsizetype start, qsizetype end = -1, QString::SectionFlags flags = SectionDefault) const |
QString | section(const QRegularExpression &re, qsizetype start, qsizetype end = -1, QString::SectionFlags flags = SectionDefault) const |
QString & | setNum(int n, int base = 10) |
QString & | setNum(short n, int base = 10) |
QString & | setNum(ushort n, int base = 10) |
QString & | setNum(uint n, int base = 10) |
QString & | setNum(long n, int base = 10) |
QString & | setNum(ulong n, int base = 10) |
QString & | setNum(qlonglong n, int base = 10) |
QString & | setNum(qulonglong n, int base = 10) |
QString & | setNum(float n, char format = 'g', int precision = 6) |
QString & | setNum(double n, char format = 'g', int precision = 6) |
QString & | setRawData(const QChar *unicode, qsizetype size) |
QString & | setUnicode(const QChar *unicode, qsizetype size) |
QString & | setUtf16(const ushort *unicode, qsizetype size) |
void | shrink_to_fit() |
QString | simplified() const |
qsizetype | size() const |
QString | sliced(qsizetype pos, qsizetype n) const |
QString | sliced(qsizetype pos) const |
QStringList | split(const QString &sep, Qt::SplitBehavior behavior = Qt::KeepEmptyParts, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
QStringList | split(QChar sep, Qt::SplitBehavior behavior = Qt::KeepEmptyParts, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
QStringList | split(const QRegularExpression &re, Qt::SplitBehavior behavior = Qt::KeepEmptyParts) const |
void | squeeze() |
bool | startsWith(const QString &s, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | startsWith(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | startsWith(QLatin1String s, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
bool | startsWith(QChar c, Qt::CaseSensitivity cs = Qt::CaseSensitive) const |
void | swap(QString &other) |
CFStringRef | toCFString() const |
QString | toCaseFolded() const |
double | toDouble(bool *ok = nullptr) const |
float | toFloat(bool *ok = nullptr) const |
QString | toHtmlEscaped() const |
int | toInt(bool *ok = nullptr, int base = 10) const |
QByteArray | toLatin1() const |
QByteArray | toLocal8Bit() const |
long | toLong(bool *ok = nullptr, int base = 10) const |
qlonglong | toLongLong(bool *ok = nullptr, int base = 10) const |
QString | toLower() const |
NSString * | toNSString() const |
short | toShort(bool *ok = nullptr, int base = 10) const |
std::string | toStdString() const |
std::u16string | toStdU16String() const |
std::u32string | toStdU32String() const |
std::wstring | toStdWString() const |
uint | toUInt(bool *ok = nullptr, int base = 10) const |
ulong | toULong(bool *ok = nullptr, int base = 10) const |
qulonglong | toULongLong(bool *ok = nullptr, int base = 10) const |
ushort | toUShort(bool *ok = nullptr, int base = 10) const |
QList<uint> | toUcs4() const |
QString | toUpper() const |
QByteArray | toUtf8() const |
qsizetype | toWCharArray(wchar_t *array) const |
decltype(qTokenize(*this, std::forward<Needle>(needle), flags...)) | tokenize(Needle &&sep, Flags... flags) const & |
decltype(qTokenize(std::move(*this), std::forward<Needle>(needle), flags...)) | tokenize(Needle &&sep, Flags... flags) && |
QString | trimmed() const |
void | truncate(qsizetype position) |
const QChar * | unicode() const |
const ushort * | utf16() const |
bool | operator!=(const char *other) const |
bool | operator!=(const QByteArray &other) const |
QString & | operator+=(const QString &other) |
QString & | operator+=(QChar ch) |
QString & | operator+=(QStringView str) |
QString & | operator+=(QLatin1String str) |
QString & | operator+=(const char *str) |
QString & | operator+=(const QByteArray &ba) |
bool | operator<(const char *other) const |
bool | operator<(const QByteArray &other) const |
bool | operator<=(const char *other) const |
bool | operator<=(const QByteArray &other) const |
QString & | operator=(QChar ch) |
QString & | operator=(QLatin1String str) |
QString & | operator=(const char *str) |
bool | operator==(const char *other) const |
bool | operator==(const QByteArray &other) const |
bool | operator>(const char *other) const |
bool | operator>(const QByteArray &other) const |
bool | operator>=(const char *other) const |
bool | operator>=(const QByteArray &other) const |
QChar & | operator[](qsizetype position) |
const QChar | operator[](qsizetype position) const |
QString | asprintf(const char *cformat, ...) |
int | compare(const QString &s1, const QString &s2, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
int | compare(const QString &s1, QLatin1String s2, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
int | compare(QLatin1String s1, const QString &s2, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
int | compare(const QString &s1, QStringView s2, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
int | compare(QStringView s1, const QString &s2, Qt::CaseSensitivity cs = Qt::CaseSensitive) |
QString | fromCFString(CFStringRef string) |
QString | fromLatin1(const char *str, qsizetype size) |
QString | fromLatin1(QByteArrayView str) |
QString | fromLatin1(const QByteArray &str) |
QString | fromLocal8Bit(const char *str, qsizetype size) |
QString | fromLocal8Bit(QByteArrayView str) |
QString | fromLocal8Bit(const QByteArray &str) |
QString | fromNSString(const NSString *string) |
QString | fromRawData(const QChar *unicode, qsizetype size) |
QString | fromStdString(const std::string &str) |
QString | fromStdU16String(const std::u16string &str) |
QString | fromStdU32String(const std::u32string &str) |
QString | fromStdWString(const std::wstring &str) |
QString | fromUcs4(const char32_t *unicode, qsizetype size = -1) |
QString | fromUtf8(const char *str, qsizetype size) |
QString | fromUtf8(QByteArrayView str) |
QString | fromUtf8(const QByteArray &str) |
QString | fromUtf8(const char8_t *str) |
QString | fromUtf8(const char8_t *str, qsizetype size) |
QString | fromUtf16(const char16_t *unicode, qsizetype size = -1) |
QString | fromWCharArray(const wchar_t *string, qsizetype size = -1) |
int | localeAwareCompare(const QString &s1, const QString &s2) |
int | localeAwareCompare(QStringView s1, QStringView s2) |
QString | number(long n, int base = 10) |
QString | number(int n, int base = 10) |
QString | number(uint n, int base = 10) |
QString | number(ulong n, int base = 10) |
QString | number(qlonglong n, int base = 10) |
QString | number(qulonglong n, int base = 10) |
QString | number(double n, char format = 'g', int precision = 6) |
QString | vasprintf(const char *cformat, va_list ap) |
qsizetype | erase(QString &s, const T &t) |
qsizetype | erase_if(QString &s, Predicate pred) |
bool | operator!=(const QString &s1, const QString &s2) |
bool | operator!=(const QString &s1, QLatin1String s2) |
bool | operator!=(const char *s1, const QString &s2) |
QString | operator""_qs(const char16_t *str, size_t size) |
const QString | operator+(const QString &s1, const QString &s2) |
const QString | operator+(const QString &s1, const char *s2) |
const QString | operator+(const char *s1, const QString &s2) |
bool | operator<(const QString &s1, const QString &s2) |
bool | operator<(const QString &s1, QLatin1String s2) |
bool | operator<(QLatin1String s1, const QString &s2) |
bool | operator<(const char *s1, const QString &s2) |
QDataStream & | operator<<(QDataStream &stream, const QString &string) |
bool | operator<=(const QString &s1, const QString &s2) |
bool | operator<=(const QString &s1, QLatin1String s2) |
bool | operator<=(QLatin1String s1, const QString &s2) |
bool | operator<=(const char *s1, const QString &s2) |
bool | operator==(const QString &s1, const QString &s2) |
bool | operator==(const QString &s1, QLatin1String s2) |
bool | operator==(QLatin1String s1, const QString &s2) |
bool | operator==(const char *s1, const QString &s2) |
bool | operator>(const QString &s1, const QString &s2) |
bool | operator>(const QString &s1, QLatin1String s2) |
bool | operator>(QLatin1String s1, const QString &s2) |
bool | operator>(const char *s1, const QString &s2) |
bool | operator>=(const QString &s1, const QString &s2) |
bool | operator>=(const QString &s1, QLatin1String s2) |
bool | operator>=(QLatin1String s1, const QString &s2) |
bool | operator>=(const char *s1, const QString &s2) |
QDataStream & | operator>>(QDataStream &stream, QString &string) |
QStringLiteral(str) | |
QT_NO_CAST_FROM_ASCII | |
QT_NO_CAST_TO_ASCII | |
QT_RESTRICTED_CAST_FROM_ASCII |
QString stores a string of 16-bit QChars, where each QChar corresponds to one UTF-16 code unit. (Unicode characters with code values above 65535 are stored using surrogate pairs, i.e., two consecutive QChars.)
Unicode is an international standard that supports most of the writing systems in use today. It is a superset of US-ASCII (ANSI X3.4-1986) and Latin-1 (ISO 8859-1), and all the US-ASCII/Latin-1 characters are available at the same code positions.
Behind the scenes, QString uses implicit sharing (copy-on-write) to reduce memory usage and to avoid the needless copying of data. This also helps reduce the inherent overhead of storing 16-bit characters instead of 8-bit characters.
In addition to QString, Qt also provides the QByteArray class to store raw bytes and traditional 8-bit '\0'-terminated strings. For most purposes, QString is the class you want to use. It is used throughout the Qt API, and the Unicode support ensures that your applications will be easy to translate if you want to expand your application's market at some point. The two main cases where QByteArray is appropriate are when you need to store raw binary data, and when memory conservation is critical (like in embedded systems).
One way to initialize a QString is simply to pass a const char *
to its constructor. For example, the following code creates a QString of size 5 containing the data "Hello":
QString str = "Hello";
QString converts the const char *
data into Unicode using the fromUtf8() function.
In all of the QString functions that take const char *
parameters, the const char *
is interpreted as a classic C-style '\0'-terminated string encoded in UTF-8. It is legal for the const char *
parameter to be nullptr
.
You can also provide string data as an array of QChars:
static const QChar data[4] = { 0x0055, 0x006e, 0x10e3, 0x03a3 }; QString str(data, 4);
QString makes a deep copy of the QChar data, so you can modify it later without experiencing side effects. (If for performance reasons you don't want to take a deep copy of the character data, use QString::fromRawData() instead.)
Another approach is to set the size of the string using resize() and to initialize the data character per character. QString uses 0-based indexes, just like C++ arrays. To access the character at a particular index position, you can use operator[](). On non-const
strings, operator[]() returns a reference to a character that can be used on the left side of an assignment. For example:
QString str; str.resize(4); str[0] = QChar('U'); str[1] = QChar('n'); str[2] = QChar(0x10e3); str[3] = QChar(0x03a3);
For read-only access, an alternative syntax is to use the at() function:
QString str; for (qsizetype i = 0; i < str.size(); ++i) { if (str.at(i) >= QChar('a') && str.at(i) <= QChar('f')) qDebug() << "Found character in range [a-f]"; }
The at() function can be faster than operator[](), because it never causes a deep copy to occur. Alternatively, use the first(), last(), or sliced() functions to extract several characters at a time.
A QString can embed '\0' characters (QChar::Null). The size() function always returns the size of the whole string, including embedded '\0' characters.
After a call to the resize() function, newly allocated characters have undefined values. To set all the characters in the string to a particular value, use the fill() function.
QString provides dozens of overloads designed to simplify string usage. For example, if you want to compare a QString with a string literal, you can write code like this and it will work as expected:
QString str; if (str == "auto" || str == "extern" || str == "static" || str == "register") { // ... }
You can also pass string literals to functions that take QStrings as arguments, invoking the QString(const char *) constructor. Similarly, you can pass a QString to a function that takes a const char *
argument using the qPrintable() macro which returns the given QString as a const char *
. This is equivalent to calling <QString>.toLocal8Bit().constData().
QString provides the following basic functions for modifying the character data: append(), prepend(), insert(), replace(), and remove(). For example:
QString str = "and"; str.prepend("rock "); // str == "rock and" str.append(" roll"); // str == "rock and roll" str.replace(5, 3, "&"); // str == "rock & roll"
In the above example the replace() function's first two arguments are the position from which to start replacing and the number of characters that should be replaced.
When data-modifying functions increase the size of the string, they may lead to reallocation of memory for the QString object. When this happens, QString expands by more than it immediately needs so as to have space for further expansion without reallocation until the size of the string has greatly increased.
The insert(), remove() and, when replacing a sub-string with one of different size, replace() functions can be slow (linear time) for large strings, because they require moving many characters in the string by at least one position in memory.
If you are building a QString gradually and know in advance approximately how many characters the QString will contain, you can call reserve(), asking QString to preallocate a certain amount of memory. You can also call capacity() to find out how much memory the QString actually has allocated.
QString provides STL-style iterators (QString::const_iterator and QString::iterator). In practice, iterators are handy when working with generic algorithms provided by the C++ standard library.
Note: Iterators over a QString, and references to individual characters within one, cannot be relied on to remain valid when any non-const
method of the QString is called. Accessing such an iterator or reference after the call to a non-const
method leads to undefined behavior. When stability for iterator-like functionality is required, you should use indexes instead of iterators as they are not tied to QString's internal state and thus do not get invalidated.
Note: Due to implicit sharing, the first non-const
operator or function used on a given QString may cause it to, internally, perform a deep copy of its data. This invalidates all iterators over the string and references to individual characters within it. After the first non-const
operator, operations that modify QString may completely (in case of reallocation) or partially invalidate iterators and references, but other methods (such as begin() or end()) will not. Accessing an iterator or reference after it has been invalidated leads to undefined behavior.
A frequent requirement is to remove whitespace characters from a string ('\n', '\t', ' ', etc.). If you want to remove whitespace from both ends of a QString, use the trimmed() function. If you want to remove whitespace from both ends and replace multiple consecutive whitespaces with a single space character within the string, use simplified().
If you want to find all occurrences of a particular character or substring in a QString, use the indexOf() or lastIndexOf() functions. The former searches forward starting from a given index position, the latter searches backward. Both return the index position of the character or substring if they find it; otherwise, they return -1. For example, here is a typical loop that finds all occurrences of a particular substring:
QString str = "We must be <b>bold</b>, very <b>bold</b>"; qsizetype j = 0; while ((j = str.indexOf("<b>", j)) != -1) { qDebug() << "Found <b> tag at index position" << j; ++j; }
QString provides many functions for converting numbers into strings and strings into numbers. See the arg() functions, the setNum() functions, the number() static functions, and the toInt(), toDouble(), and similar functions.
To get an upper- or lowercase version of a string use toUpper() or toLower().
Lists of strings are handled by the QStringList class. You can split a string into a list of strings using the split() function, and join a list of strings into a single string with an optional separator using QStringList::join(). You can obtain a list of strings from a string list that contain a particular substring or that match a particular QRegularExpression using the QStringList::filter() function.
If you want to see if a QString starts or ends with a particular substring use startsWith() or endsWith(). If you simply want to check whether a QString contains a particular character or substring, use the contains() function. If you want to find out how many times a particular character or substring occurs in the string, use count().
To obtain a pointer to the actual character data, call data() or constData(). These functions return a pointer to the beginning of the QChar data. The pointer is guaranteed to remain valid until a non-const
function is called on the QString.
QStrings can be compared using overloaded operators such as operator<(), operator<=(), operator==(), operator>=(), and so on. Note that the comparison is based exclusively on the numeric Unicode values of the characters. It is very fast, but is not what a human would expect; the QString::localeAwareCompare() function is usually a better choice for sorting user-interface strings, when such a comparison is available.
On Unix-like platforms (including Linux, macOS and iOS), when Qt is linked with the ICU library (which it usually is), its locale-aware sorting is used. Otherwise, on macOS and iOS, localeAwareCompare() compares according the "Order for sorted lists" setting in the International preferences panel. On other Unix-like systems without ICU, the comparison falls back to the system library's strcoll()
,
QString provides the following three functions that return a const char *
version of the string as QByteArray: toUtf8(), toLatin1(), and toLocal8Bit().
To convert from one of these encodings, QString provides fromLatin1(), fromUtf8(), and fromLocal8Bit(). Other encodings are supported through the QStringEncoder and QStringDecoder classes.
As mentioned above, QString provides a lot of functions and operators that make it easy to interoperate with const char *
strings. But this functionality is a double-edged sword: It makes QString more convenient to use if all strings are US-ASCII or Latin-1, but there is always the risk that an implicit conversion from or to const char *
is done using the wrong 8-bit encoding. To minimize these risks, you can turn off these implicit conversions by defining some of the following preprocessor symbols:
You then need to explicitly call fromUtf8(), fromLatin1(), or fromLocal8Bit() to construct a QString from an 8-bit string, or use the lightweight QLatin1String class, for example:
QString url = QLatin1String("https://www.unicode.org/");
Similarly, you must call toLatin1(), toUtf8(), or toLocal8Bit() explicitly to convert the QString to an 8-bit string.
Note for C Programmers |
---|
Due to C++'s type system and the fact that QString is implicitly shared, QStrings may be treated like int s or other basic types. For example:QString Widget::boolToString(bool b) { QString result; if (b) result = "True"; else result = "False"; return result; } The |
For historical reasons, QString distinguishes between a null string and an empty string. A null string is a string that is initialized using QString's default constructor or by passing (const char *
)0 to the constructor. An empty string is any string with size 0. A null string is always empty, but an empty string isn't necessarily null:
QString().isNull(); // returns true QString().isEmpty(); // returns true QString("").isNull(); // returns false QString("").isEmpty(); // returns true QString("abc").isNull(); // returns false QString("abc").isEmpty(); // returns false
All functions except isNull() treat null strings the same as empty strings. For example, toUtf8().constData() returns a valid pointer (not nullptr) to a '\0' character for a null string. We recommend that you always use the isEmpty() function and avoid isNull().
When a QString::arg() '%'
format specifier includes the 'L'
locale qualifier, and the base is ten (its default), the default locale is used. This can be set using QLocale::setDefault(). For more refined control of localized string representations of numbers, see QLocale::toString(). All other number formatting done by QString follows the C locale's representation of numbers.
When QString::arg() applies left-padding to numbers, the fill character '0'
is treated specially. If the number is negative, its minus sign will appear before the zero-padding. If the field is localized, the locale-appropriate zero character is used in place of '0'
. For floating-point numbers, this special treatment only applies if the number is finite.
In member functions (e.g., arg(), number()) that represent floating-point numbers (float
or double
) as strings, the form of display can be controlled by a choice of format and precision, whose meanings are as for QLocale::toString(double, char, int).
If the selected format includes an exponent, localized forms follow the locale's convention on digits in the exponent. For non-localized formatting, the exponent shows its sign and includes at least two digits, left-padding with zero if needed.
Many strings are known at compile time. But the trivial constructor QString("Hello"), will copy the contents of the string, treating the contents as Latin-1. To avoid this one can use the QStringLiteral macro to directly create the required data at compile time. Constructing a QString out of the literal does then not cause any overhead at runtime.
A slightly less efficient way is to use QLatin1String. This class wraps a C string literal, precalculates it length at compile time and can then be used for faster comparison with QStrings and conversion to QStrings than a regular C string literal.
Using the QString '+'
operator, it is easy to construct a complex string from multiple substrings. You will often write code like this:
QString foo; QString type = "long"; foo = QLatin1String("vector<") + type + QLatin1String(">::iterator"); if (foo.startsWith("(" + type + ") 0x")) ...
There is nothing wrong with either of these string constructions, but there are a few hidden inefficiencies. Beginning with Qt 4.6, you can eliminate them.
First, multiple uses of the '+'
operator usually means multiple memory allocations. When concatenating n substrings, where n > 2, there can be as many as n - 1 calls to the memory allocator.
In 4.6, an internal template class QStringBuilder
has been added along with a few helper functions. This class is marked internal and does not appear in the documentation, because you aren't meant to instantiate it in your code. Its use will be automatic, as described below. The class is found in src/corelib/tools/qstringbuilder.cpp
if you want to have a look at it.
QStringBuilder
uses expression templates and reimplements the '%'
operator so that when you use '%'
for string concatenation instead of '+'
, multiple substring concatenations will be postponed until the final result is about to be assigned to a QString. At this point, the amount of memory required for the final result is known. The memory allocator is then called once to get the required space, and the substrings are copied into it one by one.
Additional efficiency is gained by inlining and reduced reference counting (the QString created from a QStringBuilder
typically has a ref count of 1, whereas QString::append() needs an extra test).
There are two ways you can access this improved method of string construction. The straightforward way is to include QStringBuilder
wherever you want to use it, and use the '%'
operator instead of '+'
when concatenating strings:
#include <QStringBuilder> QString hello("hello"); QStringView el = QStringView{ hello }.mid(2, 3); QLatin1String world("world"); QString message = hello % el % world % QChar('!');
A more global approach which is the most convenient but not entirely source compatible, is to this define in your .pro file:
DEFINES *= QT_USE_QSTRINGBUILDER
and the '+'
will automatically be performed as the QStringBuilder
'%'
everywhere.
The maximum size of QString depends on the architecture. Most 64-bit systems can allocate more than 2 GB of memory, with a typical limit of 2^63 bytes. The actual value also depends on the overhead required for managing the data block. As a result, you can expect the maximum size of 2 GB minus overhead on 32-bit platforms, and 2^63 bytes minus overhead on 64-bit platforms. The number of elements that can be stored in a QString is this maximum size divided by the size of QChar.
When memory allocation fails, QString throws a std::bad_alloc
exception if the application was compiled with exception support. Out of memory conditions in Qt containers are the only case where Qt will throw exceptions. If exceptions are disabled, then running out of memory is undefined behavior.
Note that the operating system may impose further limits on applications holding a lot of allocated memory, especially large, contiguous blocks. Such considerations, the configuration of such behavior or any mitigation are outside the scope of the Qt API.
See also fromRawData(), QChar, QStringView, QLatin1String, and QByteArray.
Qt-style synonym for QString::const_iterator.
Qt-style synonym for QString::iterator.
This enum describes the various normalized forms of Unicode text.
Constant | Value | Description |
---|---|---|
QString::NormalizationForm_D |
0 |
Canonical Decomposition |
QString::NormalizationForm_C |
1 |
Canonical Decomposition followed by Canonical Composition |
QString::NormalizationForm_KD |
2 |
Compatibility Decomposition |
QString::NormalizationForm_KC |
3 |
Compatibility Decomposition followed by Canonical Composition |
See also normalized() and Unicode Standard Annex #15.
This enum specifies flags that can be used to affect various aspects of the section() function's behavior with respect to separators and empty fields.
Constant | Value | Description |
---|---|---|
QString::SectionDefault |
0x00 |
Empty fields are counted, leading and trailing separators are not included, and the separator is compared case sensitively. |
QString::SectionSkipEmpty |
0x01 |
Treat empty fields as if they don't exist, i.e. they are not considered as far as start and end are concerned. |
QString::SectionIncludeLeadingSep |
0x02 |
Include the leading separator (if any) in the result string. |
QString::SectionIncludeTrailingSep |
0x04 |
Include the trailing separator (if any) in the result string. |
QString::SectionCaseInsensitiveSeps |
0x08 |
Compare the separator case-insensitively. |
The SectionFlags type is a typedef for QFlags<SectionFlag>. It stores an OR combination of SectionFlag values.
See also section().
See also QString::iterator.
The QString::const_pointer typedef provides an STL-style const pointer to a QString element (QChar).
[since 5.6]
QString::const_reverse_iterator
This typedef was introduced in Qt 5.6.
See also QString::reverse_iterator and QString::const_iterator.
See also QString::const_iterator.
The QString::pointer typedef provides an STL-style pointer to a QString element (QChar).
[since 5.6]
QString::reverse_iterator
This typedef was introduced in Qt 5.6.
See also QString::const_reverse_iterator and QString::iterator.
[since 6.0]
template <typename Needle, typename Flags> decltype(qTokenize(std::move(*this), std::forward<Needle>(needle), flags...)) QString::tokenize(Needle &&sep, Flags... flags) &&
[since 6.0]
template <typename Needle, typename Flags> decltype(qTokenize(*this, std::forward<Needle>(needle), flags...)) QString::tokenize(Needle &&sep, Flags... flags) const &
[since 6.0]
template <typename Needle, typename Flags> decltype(qTokenize(*this, std::forward<Needle>(needle), flags...)) QString::tokenize(Needle &&sep, Flags... flags) const &
Splits the string into substring views wherever sep occurs, and returns a lazy sequence of those strings.
Equivalent to
return QStringTokenizer{std::forward<Needle>(sep), flags...};
except it works without C++17 Class Template Argument Deduction (CTAD) enabled in the compiler.
See QStringTokenizer for how sep and flags interact to form the result.
Note: While this function returns QStringTokenizer, you should never, ever, name its template arguments explicitly. If you can use C++17 Class Template Argument Deduction (CTAD), you may write
QStringTokenizer result = sv.tokenize(sep);
(without template arguments). If you can't use C++17 CTAD, you must store the return value only in auto
variables:
auto result = sv.tokenize(sep);
This is because the template arguments of QStringTokenizer have a very subtle dependency on the specific tokenize() overload from which they are returned, and they don't usually correspond to the type used for the separator.
This function was introduced in Qt 6.0.
See also QStringTokenizer and qTokenize().
[since 5.14]
template <typename Args> QString QString::arg(Args &&... args) const
Replaces occurrences of %N
in this string with the corresponding argument from args. The arguments are not positional: the first of the args replaces the %N
with the lowest N
(all of them), the second of the args the %N
with the next-lowest N
etc.
Args
can consist of anything that implicitly converts to QString, QStringView or QLatin1String.
In addition, the following types are also supported: QChar, QLatin1Char.
This function was introduced in Qt 5.14.
See also QString::arg().
Constructs a string initialized with the byte array ba. The given byte array is converted to Unicode using fromUtf8(). Stops copying at the first 0 character, otherwise copies the entire byte array.
You can disable this constructor by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
See also fromLatin1(), fromLocal8Bit(), and fromUtf8().
Constructs a string initialized with the 8-bit string str. The given const char pointer is converted to Unicode using the fromUtf8() function.
You can disable this constructor by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
Note: Defining QT_RESTRICTED_CAST_FROM_ASCII also disables this constructor, but enables a QString(const char (&ch)[N])
constructor instead. Using non-literal input, or input with embedded NUL characters, or non-7-bit characters is undefined in this case.
See also fromLatin1(), fromLocal8Bit(), and fromUtf8().
[since 5.2]
QString::QString(QString &&other)
Move-constructs a QString instance, making it point at the same object that other was pointing to.
This function was introduced in Qt 5.2.
Constructs a copy of other.
This operation takes constant time, because QString is implicitly shared. This makes returning a QString from a function very fast. If a shared instance is modified, it will be copied (copy-on-write), and that takes linear time.
See also operator=().
[since 6.1]
template <typename> QString::QString(const char8_t *str)
Constructs a string initialized with the UTF-8 string str. The given const char8_t pointer is converted to Unicode using the fromUtf8() function.
This function was introduced in Qt 6.1.
See also fromLatin1(), fromLocal8Bit(), and fromUtf8().
Constructs a copy of the Latin-1 string str.
See also fromLatin1().
Constructs a string of the given size with every character set to ch.
See also fill().
Constructs a string of size 1 containing the character ch.
Constructs a string initialized with the first size characters of the QChar array unicode.
If unicode is 0, a null string is constructed.
If size is negative, unicode is assumed to point to a \0'-terminated array and its length is determined dynamically. The terminating null character is not considered part of the string.
QString makes a deep copy of the string data. The unicode data is copied as is and the Byte Order Mark is preserved if present.
See also fromRawData().
Constructs a null string. Null strings are also empty.
See also isEmpty().
This function overloads operator=().
Assigns ba to this string. The byte array is converted to Unicode using the fromUtf8() function. This function stops conversion at the first NUL character found, or the end of the ba byte array.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
[since 5.2]
QString &QString::operator=(QString &&other)
Move-assigns other to this QString instance.
This function was introduced in Qt 5.2.
Assigns other to this string and returns a reference to this string.
Destroys the string.
Appends the string str onto the end of this string.
Example:
QString x = "free"; QString y = "dom"; x.append(y); // x == "freedom"
This is the same as using the insert() function:
x.insert(x.size(), y);
The append() function is typically very fast (constant time), because QString preallocates extra space at the end of the string data so it can grow without reallocating the entire string each time.
See also operator+=(), prepend(), and insert().
This function overloads append().
Appends the character ch to this string.
[since 5.0]
QString &QString::append(const QChar *str, qsizetype len)
This function overloads append().
Appends len characters from the QChar array str to this string.
This function was introduced in Qt 5.0.
This function overloads append().
Appends the Latin-1 string str to this string.
This function overloads append().
Appends the string str to this string. The given const char pointer is converted to Unicode using the fromUtf8() function.
You can disable this function by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads append().
Appends the byte array ba to this string. The given byte array is converted to Unicode using the fromUtf8() function.
You can disable this function by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
Returns a copy of this string with the lowest numbered place marker replaced by string a, i.e., %1
, %2
, ..., %99
.
fieldWidth specifies the minimum amount of space that argument a shall occupy. If a requires less space than fieldWidth, it is padded to fieldWidth with character fillChar. A positive fieldWidth produces right-aligned text. A negative fieldWidth produces left-aligned text.
This example shows how we might create a status
string for reporting progress while processing a list of files:
QString i; // current file's number QString total; // number of files to process QString fileName; // current file's name QString status = QString("Processing file %1 of %2: %3") .arg(i).arg(total).arg(fileName);
First, arg(i)
replaces %1
. Then arg(total)
replaces %2
. Finally, arg(fileName)
replaces %3
.
One advantage of using arg() over asprintf() is that the order of the numbered place markers can change, if the application's strings are translated into other languages, but each arg() will still replace the lowest numbered unreplaced place marker, no matter where it appears. Also, if place marker %i
appears more than once in the string, the arg() replaces all of them.
If there is no unreplaced place marker remaining, a warning message is output and the result is undefined. Place marker numbers must be in the range 1 to 99.
This function overloads arg().
fieldWidth specifies the minimum amount of space that a is padded to and filled with the character fillChar. A positive value produces right-aligned text; a negative value produces left-aligned text.
The base argument specifies the base to use when converting the integer a into a string. The base must be between 2 and 36, with 8 giving octal, 10 decimal, and 16 hexadecimal numbers.
See also Number Formats.
This function overloads arg().
fieldWidth specifies the minimum amount of space that a is padded to and filled with the character fillChar. A positive value produces right-aligned text; a negative value produces left-aligned text.
The base argument specifies the base to use when converting the integer a into a string. base must be between 2 and 36, with 8 giving octal, 10 decimal, and 16 hexadecimal numbers.
See also Number Formats.
This function overloads arg().
fieldWidth specifies the minimum amount of space that a is padded to and filled with the character fillChar. A positive value produces right-aligned text; a negative value produces left-aligned text.
The a argument is expressed in the given base, which is 10 by default and must be between 2 and 36.
The '%' can be followed by an 'L', in which case the sequence is replaced with a localized representation of a. The conversion uses the default locale. The default locale is determined from the system's locale settings at application startup. It can be changed using QLocale::setDefault(). The 'L' flag is ignored if base is not 10.
QString str; str = QString("Decimal 63 is %1 in hexadecimal") .arg(63, 0, 16); // str == "Decimal 63 is 3f in hexadecimal" QLocale::setDefault(QLocale(QLocale::English, QLocale::UnitedStates)); str = QString("%1 %L2 %L3") .arg(12345) .arg(12345) .arg(12345, 0, 16); // str == "12345 12,345 3039"
See also Number Formats.
This function overloads arg().
fieldWidth specifies the minimum amount of space that a is padded to and filled with the character fillChar. A positive value produces right-aligned text; a negative value produces left-aligned text.
The base argument specifies the base to use when converting the integer a to a string. The base must be between 2 and 36, with 8 giving octal, 10 decimal, and 16 hexadecimal numbers.
See also Number Formats.
This function overloads arg().
The a argument is expressed in base base, which is 10 by default and must be between 2 and 36. For bases other than 10, a is treated as an unsigned integer.
fieldWidth specifies the minimum amount of space that a is padded to and filled with the character fillChar. A positive value produces right-aligned text; a negative value produces left-aligned text.
The '%' can be followed by an 'L', in which case the sequence is replaced with a localized representation of a. The conversion uses the default locale, set by QLocale::setDefault(). If no default locale was specified, the system locale is used. The 'L' flag is ignored if base is not 10.
QString str; str = QString("Decimal 63 is %1 in hexadecimal") .arg(63, 0, 16); // str == "Decimal 63 is 3f in hexadecimal" QLocale::setDefault(QLocale(QLocale::English, QLocale::UnitedStates)); str = QString("%1 %L2 %L3") .arg(12345) .arg(12345) .arg(12345, 0, 16); // str == "12345 12,345 3039"
See also Number Formats.
This function overloads arg().
The base argument specifies the base to use when converting the integer a into a string. The base must be between 2 and 36.
See also Number Formats.
This function overloads arg().
fieldWidth specifies the minimum amount of space that a is padded to and filled with the character fillChar. A positive value produces right-aligned text; a negative value produces left-aligned text.
The base argument specifies the base to use when converting the integer a into a string. The base must be between 2 and 36, with 8 giving octal, 10 decimal, and 16 hexadecimal numbers.
See also Number Formats.
This function overloads arg().
fieldWidth specifies the minimum amount of space that a is padded to and filled with the character fillChar. A positive value produces right-aligned text; a negative value produces left-aligned text.
The base argument specifies the base to use when converting the integer a into a string. The base must be between 2 and 36, with 8 giving octal, 10 decimal, and 16 hexadecimal numbers.
See also Number Formats.
This function overloads arg().
Argument a is formatted according to the specified format and precision. See Floating-point Formats for details.
fieldWidth specifies the minimum amount of space that a is padded to and filled with the character fillChar. A positive value produces right-aligned text; a negative value produces left-aligned text.
double d = 12.34; QString str = QString("delta: %1").arg(d, 0, 'E', 3); // str == "delta: 1.234E+01"
See also QLocale::toString(), QLocale::FloatingPointPrecisionOption, and Number Formats.
This function overloads arg().
The a argument is interpreted as a Latin-1 character.
This function overloads arg().
[since 5.10]
QString QString::arg(QStringView a, int fieldWidth = 0, QChar fillChar = QLatin1Char(' ')) const
This is an overloaded function.
Returns a copy of this string with the lowest-numbered place-marker replaced by string a, i.e., %1
, %2
, ..., %99
.
fieldWidth specifies the minimum amount of space that a shall occupy. If a requires less space than fieldWidth, it is padded to fieldWidth with character fillChar. A positive fieldWidth produces right-aligned text. A negative fieldWidth produces left-aligned text.
This example shows how we might create a status
string for reporting progress while processing a list of files:
int i; // current file's number int total; // number of files to process QStringView fileName; // current file's name QString status = QString("Processing file %1 of %2: %3") .arg(i).arg(total).arg(fileName);
First, arg(i)
replaces %1
. Then arg(total)
replaces %2
. Finally, arg(fileName)
replaces %3
.
One advantage of using arg() over asprintf() is that the order of the numbered place markers can change, if the application's strings are translated into other languages, but each arg() will still replace the lowest-numbered unreplaced place-marker, no matter where it appears. Also, if place-marker %i
appears more than once in the string, arg() replaces all of them.
If there is no unreplaced place-marker remaining, a warning message is printed and the result is undefined. Place-marker numbers must be in the range 1 to 99.
This function was introduced in Qt 5.10.
[since 5.10]
QString QString::arg(QLatin1String a, int fieldWidth = 0, QChar fillChar = QLatin1Char(' ')) const
This is an overloaded function.
Returns a copy of this string with the lowest-numbered place-marker replaced by string a, i.e., %1
, %2
, ..., %99
.
fieldWidth specifies the minimum amount of space that a shall occupy. If a requires less space than fieldWidth, it is padded to fieldWidth with character fillChar. A positive fieldWidth produces right-aligned text. A negative fieldWidth produces left-aligned text.
One advantage of using arg() over asprintf() is that the order of the numbered place markers can change, if the application's strings are translated into other languages, but each arg() will still replace the lowest-numbered unreplaced place-marker, no matter where it appears. Also, if place-marker %i
appears more than once in the string, arg() replaces all of them.
If there is no unreplaced place-marker remaining, a warning message is printed and the result is undefined. Place-marker numbers must be in the range 1 to 99.
This function was introduced in Qt 5.10.
[static, since 5.5]
QString QString::asprintf(const char *cformat, ...)
Safely builds a formatted string from the format string cformat and an arbitrary list of arguments.
The format string supports the conversion specifiers, length modifiers, and flags provided by printf() in the standard C++ library. The cformat string and %s
arguments must be UTF-8 encoded.
Note: The %lc
escape sequence expects a unicode character of type char16_t
, or ushort
(as returned by QChar::unicode()). The %ls
escape sequence expects a pointer to a zero-terminated array of unicode characters of type char16_t
, or ushort (as returned by QString::utf16()). This is at odds with the printf() in the standard C++ library, which defines %lc
to print a wchar_t and %ls
to print a wchar_t*
, and might also produce compiler warnings on platforms where the size of wchar_t
is not 16 bits.
Warning: We do not recommend using QString::asprintf() in new Qt code. Instead, consider using QTextStream or arg(), both of which support Unicode strings seamlessly and are type-safe. Here is an example that uses QTextStream:
QString result; QTextStream(&result) << "pi = " << 3.14; // result == "pi = 3.14"
For translations, especially if the strings contains more than one escape sequence, you should consider using the arg() function instead. This allows the order of the replacements to be controlled by the translator.
This function was introduced in Qt 5.5.
See also arg().
Returns the character at the given index position in the string.
The position must be a valid index position in the string (i.e., 0 <= position < size()).
See also operator[]().
[since 5.10]
QChar QString::back() const
Returns the last character in the string. Same as at(size() - 1)
.
This function is provided for STL compatibility.
Warning: Calling this function on an empty string constitutes undefined behavior.
This function was introduced in Qt 5.10.
See also front(), at(), and operator[]().
[since 5.10]
QChar &QString::back()
Returns a reference to the last character in the string. Same as operator[](size() - 1)
.
This function is provided for STL compatibility.
Warning: Calling this function on an empty string constitutes undefined behavior.
This function was introduced in Qt 5.10.
See also front(), at(), and operator[]().
Returns an STL-style iterator pointing to the first character in the string.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
See also constBegin() and end().
This function overloads begin().
Returns the maximum number of characters that can be stored in the string without forcing a reallocation.
The sole purpose of this function is to provide a means of fine tuning QString's memory usage. In general, you will rarely ever need to call this function. If you want to know how many characters are in the string, call size().
Note: a statically allocated string will report a capacity of 0, even if it's not empty.
Note: The free space position in the allocated memory block is undefined. In other words, one should not assume that the free memory is always located after the initialized elements.
See also reserve() and squeeze().
[since 5.0]
QString::const_iterator QString::cbegin() const
Returns a const STL-style iterator pointing to the first character in the string.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
This function was introduced in Qt 5.0.
[since 5.0]
QString::const_iterator QString::cend() const
Returns a const STL-style iterator pointing just after the last character in the string.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
This function was introduced in Qt 5.0.
Removes n characters from the end of the string.
If n is greater than or equal to size(), the result is an empty string; if n is negative, it is equivalent to passing zero.
Example:
QString str("LOGOUT\r\n"); str.chop(2); // str == "LOGOUT"
If you want to remove characters from the beginning of the string, use remove() instead.
See also truncate(), resize(), remove(), and QStringView::chop().
[since 5.10]
QString QString::chopped(qsizetype len) const
Returns a string that contains the size() - len leftmost characters of this string.
Note: The behavior is undefined if len is negative or greater than size().
This function was introduced in Qt 5.10.
See also endsWith(), first(), last(), sliced(), chop(), and truncate().
Clears the contents of the string and makes it null.
See also resize() and isNull().
[static]
int QString::compare(const QString &s1, const QString &s2, Qt::CaseSensitivity cs = Qt::CaseSensitive)
Compares s1 with s2 and returns an integer less than, equal to, or greater than zero if s1 is less than, equal to, or greater than s2.
If cs is Qt::CaseSensitive, the comparison is case sensitive; otherwise the comparison is case insensitive.
Case sensitive comparison is based exclusively on the numeric Unicode values of the characters and is very fast, but is not what a human would expect. Consider sorting user-visible strings with localeAwareCompare().
int x = QString::compare("aUtO", "AuTo", Qt::CaseInsensitive); // x == 0 int y = QString::compare("auto", "Car", Qt::CaseSensitive); // y > 0 int z = QString::compare("auto", "Car", Qt::CaseInsensitive); // z < 0
See also operator==(), operator<(), operator>(), and Comparing Strings.
This function overloads compare().
Lexically compares this string with the other string and returns an integer less than, equal to, or greater than zero if this string is less than, equal to, or greater than the other string.
Same as compare(*this, other, cs).
This function overloads compare().
Same as compare(*this, other, cs).
[since 5.12]
int QString::compare(QStringView s, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads compare().
Performs a comparison of this with s, using the case sensitivity setting cs.
This function was introduced in Qt 5.12.
[since 5.14]
int QString::compare(QChar ch, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads compare().
Performs a comparison of this with ch, using the case sensitivity setting cs.
This function was introduced in Qt 5.14.
[static]
int QString::compare(const QString &s1, QLatin1String s2, Qt::CaseSensitivity cs = Qt::CaseSensitive)
This function overloads compare().
Performs a comparison of s1 and s2, using the case sensitivity setting cs.
[static]
int QString::compare(QLatin1String s1, const QString &s2, Qt::CaseSensitivity cs = Qt::CaseSensitive)
This function overloads compare().
Performs a comparison of s1 and s2, using the case sensitivity setting cs.
[static]
int QString::compare(const QString &s1, QStringView s2, Qt::CaseSensitivity cs = Qt::CaseSensitive)
This function overloads compare().
[static]
int QString::compare(QStringView s1, const QString &s2, Qt::CaseSensitivity cs = Qt::CaseSensitive)
This function overloads compare().
Returns a const STL-style iterator pointing to the first character in the string.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
See also begin() and constEnd().
Returns a pointer to the data stored in the QString. The pointer can be used to access the characters that compose the string.
Note that the pointer remains valid only as long as the string is not modified.
Note: The returned string may not be '\0'-terminated. Use size() to determine the length of the array.
See also data(), operator[](), and fromRawData().
Returns a const STL-style iterator pointing just after the last character in the string.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
See also constBegin() and end().
Returns true
if this string contains an occurrence of the string str; otherwise returns false
.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString str = "Peter Pan"; str.contains("peter", Qt::CaseInsensitive); // returns true
See also indexOf() and count().
This function overloads contains().
Returns true
if this string contains an occurrence of the character ch; otherwise returns false
.
[since 5.3]
bool QString::contains(QLatin1String str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads contains().
Returns true
if this string contains an occurrence of the latin-1 string str; otherwise returns false
.
This function was introduced in Qt 5.3.
[since 5.14]
bool QString::contains(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads contains().
Returns true
if this string contains an occurrence of the string view str; otherwise returns false
.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This function was introduced in Qt 5.14.
See also indexOf() and count().
[since 5.1]
bool QString::contains(const QRegularExpression &re, QRegularExpressionMatch *rmatch = nullptr) const
Returns true
if the regular expression re matches somewhere in this string; otherwise returns false
.
If the match is successful and rmatch is not nullptr
, it also writes the results of the match into the QRegularExpressionMatch object pointed to by rmatch.
This function was introduced in Qt 5.1.
See also QRegularExpression::match().
Returns the number of (potentially overlapping) occurrences of the string str in this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
See also contains() and indexOf().
This function overloads count().
Same as size().
This function overloads count().
Returns the number of occurrences of character ch in the string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
See also contains() and indexOf().
[since 6.0]
qsizetype QString::count(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads count().
Returns the number of (potentially overlapping) occurrences of the string view str in this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This function was introduced in Qt 6.0.
See also contains() and indexOf().
[since 5.0]
qsizetype QString::count(const QRegularExpression &re) const
This function overloads count().
Returns the number of times the regular expression re matches in the string.
For historical reasons, this function counts overlapping matches, so in the example below, there are four instances of "ana" or "ama":
QString str = "banana and panama"; str.count(QRegularExpression("a[nm]a")); // returns 4
This behavior is different from simply iterating over the matches in the string using QRegularExpressionMatchIterator.
This function was introduced in Qt 5.0.
See also QRegularExpression::globalMatch().
[since 5.6]
QString::const_reverse_iterator QString::crbegin() const
Returns a const STL-style reverse iterator pointing to the first character in the string, in reverse order.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
This function was introduced in Qt 5.6.
See also begin(), rbegin(), and rend().
[since 5.6]
QString::const_reverse_iterator QString::crend() const
Returns a const STL-style reverse iterator pointing just after the last character in the string, in reverse order.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
This function was introduced in Qt 5.6.
See also end(), rend(), and rbegin().
Returns a pointer to the data stored in the QString. The pointer can be used to access and modify the characters that compose the string.
Unlike constData() and unicode(), the returned data is always '\0'-terminated.
Example:
QString str = "Hello world"; QChar *data = str.data(); while (!data->isNull()) { qDebug() << data->unicode(); ++data; }
Note that the pointer remains valid only as long as the string is not modified by other means. For read-only access, constData() is faster because it never causes a deep copy to occur.
See also constData() and operator[]().
This is an overloaded function.
Note: The returned string may not be '\0'-terminated. Use size() to determine the length of the array.
See also fromRawData().
Returns an STL-style iterator pointing just after the last character in the string.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
See also begin() and constEnd().
This function overloads end().
Returns true
if the string ends with s; otherwise returns false
.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
QString str = "Bananas"; str.endsWith("anas"); // returns true str.endsWith("pple"); // returns false
See also startsWith().
[since 5.10]
bool QString::endsWith(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads endsWith().
Returns true
if the string ends with the string view str; otherwise returns false
.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This function was introduced in Qt 5.10.
See also startsWith().
This function overloads endsWith().
Returns true
if the string ends with c; otherwise returns false
.
This function overloads endsWith().
[since 6.1]
QString::iterator QString::erase(QString::const_iterator first, QString::const_iterator last)
Removes from the string the characters in the half-open range [ first , last ). Returns an iterator to the character referred to by last before the erase.
This function was introduced in Qt 6.1.
Sets every character in the string to character ch. If size is different from -1 (default), the string is resized to size beforehand.
Example:
QString str = "Berlin"; str.fill('z'); // str == "zzzzzz" str.fill('A', 2); // str == "AA"
See also resize().
[since 6.0]
QString QString::first(qsizetype n) const
Returns a string that contains the first n characters of this string.
Note: The behavior is undefined when n < 0 or n > size().
QString x = "Pineapple"; QString y = x.first(4); // y == "Pine"
This function was introduced in Qt 6.0.
See also last(), sliced(), startsWith(), chopped(), chop(), and truncate().
[static, since 5.2]
QString QString::fromCFString(CFStringRef string)
Constructs a new QString containing a copy of the string CFString.
Note: this function is only available on macOS and iOS.
This function was introduced in Qt 5.2.
[static]
QString QString::fromLatin1(const char *str, qsizetype size)
Returns a QString initialized with the first size characters of the Latin-1 string str.
If size is -1
, strlen(str)
is used instead.
See also toLatin1(), fromUtf8(), and fromLocal8Bit().
[static, since 6.0]
QString QString::fromLatin1(QByteArrayView str)
This is an overloaded function.
Returns a QString initialized with the Latin-1 string str.
This function was introduced in Qt 6.0.
[static, since 5.0]
template <typename> QString QString::fromLatin1(const QByteArray &str)
This is an overloaded function.
Returns a QString initialized with the Latin-1 string str.
This function was introduced in Qt 5.0.
[static]
QString QString::fromLocal8Bit(const char *str, qsizetype size)
Returns a QString initialized with the first size characters of the 8-bit string str.
If size is -1
, strlen(str)
is used instead.
On Unix systems this is equivalen to fromUtf8(), on Windows the systems current code page is being used.
See also toLocal8Bit(), fromLatin1(), and fromUtf8().
[static, since 6.0]
QString QString::fromLocal8Bit(QByteArrayView str)
This is an overloaded function.
Returns a QString initialized with the 8-bit string str.
This function was introduced in Qt 6.0.
[static, since 5.0]
template <typename> QString QString::fromLocal8Bit(const QByteArray &str)
This is an overloaded function.
Returns a QString initialized with the 8-bit string str.
This function was introduced in Qt 5.0.
[static, since 5.2]
QString QString::fromNSString(const NSString *string)
Constructs a new QString containing a copy of the string NSString.
Note: this function is only available on macOS and iOS.
This function was introduced in Qt 5.2.
[static]
QString QString::fromRawData(const QChar *unicode, qsizetype size)
Constructs a QString that uses the first size Unicode characters in the array unicode. The data in unicode is not copied. The caller must be able to guarantee that unicode will not be deleted or modified as long as the QString (or an unmodified copy of it) exists.
Any attempts to modify the QString or copies of it will cause it to create a deep copy of the data, ensuring that the raw data isn't modified.
Here is an example of how we can use a QRegularExpression on raw data in memory without requiring to copy the data into a QString:
QRegularExpression pattern("\u00A4"); static const QChar unicode[] = { 0x005A, 0x007F, 0x00A4, 0x0060, 0x1009, 0x0020, 0x0020}; qsizetype size = sizeof(unicode) / sizeof(QChar); QString str = QString::fromRawData(unicode, size); if (str.contains(pattern) { // ... }
Warning: A string created with fromRawData() is not '\0'-terminated, unless the raw data contains a '\0' character at position size. This means unicode() will not return a '\0'-terminated string (although utf16() does, at the cost of copying the raw data).
See also fromUtf16() and setRawData().
[static]
QString QString::fromStdString(const std::string &str)
Returns a copy of the str string. The given string is converted to Unicode using the fromUtf8() function.
See also fromLatin1(), fromLocal8Bit(), fromUtf8(), and QByteArray::fromStdString().
[static, since 5.5]
QString QString::fromStdU16String(const std::u16string &str)
Returns a copy of the str string. The given string is assumed to be encoded in UTF-16.
This function was introduced in Qt 5.5.
See also fromUtf16(), fromStdWString(), and fromStdU32String().
[static, since 5.5]
QString QString::fromStdU32String(const std::u32string &str)
Returns a copy of the str string. The given string is assumed to be encoded in UCS-4.
This function was introduced in Qt 5.5.
See also fromUcs4(), fromStdWString(), and fromStdU16String().
[static]
QString QString::fromStdWString(const std::wstring &str)
Returns a copy of the str string. The given string is assumed to be encoded in utf16 if the size of wchar_t is 2 bytes (e.g. on windows) and ucs4 if the size of wchar_t is 4 bytes (most Unix systems).
See also fromUtf16(), fromLatin1(), fromLocal8Bit(), fromUtf8(), fromUcs4(), fromStdU16String(), and fromStdU32String().
[static, since 5.3]
QString QString::fromUcs4(const char32_t *unicode, qsizetype size = -1)
Returns a QString initialized with the first size characters of the Unicode string unicode (ISO-10646-UCS-4 encoded).
If size is -1 (default), unicode must be \0'-terminated.
This function was introduced in Qt 5.3.
See also toUcs4(), fromUtf16(), utf16(), setUtf16(), fromWCharArray(), and fromStdU32String().
[static]
QString QString::fromUtf8(const char *str, qsizetype size)
Returns a QString initialized with the first size bytes of the UTF-8 string str.
If size is -1
, strlen(str)
is used instead.
UTF-8 is a Unicode codec and can represent all characters in a Unicode string like QString. However, invalid sequences are possible with UTF-8 and, if any such are found, they will be replaced with one or more "replacement characters", or suppressed. These include non-Unicode sequences, non-characters, overlong sequences or surrogate codepoints encoded into UTF-8.
This function can be used to process incoming data incrementally as long as all UTF-8 characters are terminated within the incoming data. Any unterminated characters at the end of the string will be replaced or suppressed. In order to do stateful decoding, please use QStringDecoder.
See also toUtf8(), fromLatin1(), and fromLocal8Bit().
[static, since 6.0]
QString QString::fromUtf8(QByteArrayView str)
This is an overloaded function.
Returns a QString initialized with the UTF-8 string str.
This function was introduced in Qt 6.0.
[static, since 5.0]
template <typename> QString QString::fromUtf8(const QByteArray &str)
This is an overloaded function.
Returns a QString initialized with the UTF-8 string str.
This function was introduced in Qt 5.0.
[static, since 6.1]
template <typename> QString QString::fromUtf8(const char8_t *str)
This is an overloaded function.
This overload is only available when compiling in C++20 mode.
This function was introduced in Qt 6.1.
[static, since 6.0]
template <typename> QString QString::fromUtf8(const char8_t *str, qsizetype size)
This is an overloaded function.
This overload is only available when compiling in C++20 mode.
This function was introduced in Qt 6.0.
[static, since 5.3]
QString QString::fromUtf16(const char16_t *unicode, qsizetype size = -1)
Returns a QString initialized with the first size characters of the Unicode string unicode (ISO-10646-UTF-16 encoded).
If size is -1 (default), unicode must be \0'-terminated.
This function checks for a Byte Order Mark (BOM). If it is missing, host byte order is assumed.
This function is slow compared to the other Unicode conversions. Use QString(const QChar *, int) or QString(const QChar *) if possible.
QString makes a deep copy of the Unicode data.
This function was introduced in Qt 5.3.
See also utf16(), setUtf16(), and fromStdU16String().
[static]
QString QString::fromWCharArray(const wchar_t *string, qsizetype size = -1)
Returns a copy of the string, where the encoding of string depends on the size of wchar. If wchar is 4 bytes, the string is interpreted as UCS-4, if wchar is 2 bytes it is interpreted as UTF-16.
If size is -1 (default), the string must be '\0'-terminated.
See also fromUtf16(), fromLatin1(), fromLocal8Bit(), fromUtf8(), fromUcs4(), and fromStdWString().
[since 5.10]
QChar QString::front() const
Returns the first character in the string. Same as at(0)
.
This function is provided for STL compatibility.
Warning: Calling this function on an empty string constitutes undefined behavior.
This function was introduced in Qt 5.10.
See also back(), at(), and operator[]().
[since 5.10]
QChar &QString::front()
Returns a reference to the first character in the string. Same as operator[](0)
.
This function is provided for STL compatibility.
Warning: Calling this function on an empty string constitutes undefined behavior.
This function was introduced in Qt 5.10.
See also back(), at(), and operator[]().
Returns the index position of the first occurrence of the string str in this string, searching forward from index position from. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString x = "sticky question"; QString y = "sti"; x.indexOf(y); // returns 0 x.indexOf(y, 1); // returns 10 x.indexOf(y, 10); // returns 10 x.indexOf(y, 11); // returns -1
If from is -1, the search starts at the last character; if it is -2, at the next to last character and so on.
See also lastIndexOf(), contains(), and count().
This function overloads indexOf().
Returns the index position of the first occurrence of the character ch in the string, searching forward from index position from. Returns -1 if ch could not be found.
Returns the index position of the first occurrence of the string str in this string, searching forward from index position from. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString x = "sticky question"; QString y = "sti"; x.indexOf(y); // returns 0 x.indexOf(y, 1); // returns 10 x.indexOf(y, 10); // returns 10 x.indexOf(y, 11); // returns -1
If from is -1, the search starts at the last character; if it is -2, at the next to last character and so on.
See also lastIndexOf(), contains(), and count().
[since 5.14]
qsizetype QString::indexOf(QStringView str, qsizetype from = 0, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads indexOf().
Returns the index position of the first occurrence of the string view str in this string, searching forward from index position from. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
If from is -1, the search starts at the last character; if it is -2, at the next to last character and so on.
This function was introduced in Qt 5.14.
See also QStringView::indexOf(), lastIndexOf(), contains(), and count().
[since 5.5]
qsizetype QString::indexOf(const QRegularExpression &re, qsizetype from = 0, QRegularExpressionMatch *rmatch = nullptr) const
Returns the index position of the first match of the regular expression re in the string, searching forward from index position from. Returns -1 if re didn't match anywhere.
If the match is successful and rmatch is not nullptr
, it also writes the results of the match into the QRegularExpressionMatch object pointed to by rmatch.
Example:
QString str = "the minimum"; str.indexOf(QRegularExpression("m[aeiou]"), 0); // returns 4 QString str = "the minimum"; QRegularExpressionMatch match; str.indexOf(QRegularExpression("m[aeiou]"), 0, &match); // returns 4 // match.captured() == mi
This function was introduced in Qt 5.5.
Inserts the string str at the given index position and returns a reference to this string.
Example:
QString str = "Meal"; str.insert(1, QString("ontr")); // str == "Montreal"
This string grows to accommodate the insertion. If position is beyond the end of the string, space characters are appended to the string to reach this position, followed by str.
See also append(), prepend(), replace(), and remove().
This function overloads insert().
Inserts ch at the given index position in the string.
This string grows to accommodate the insertion. If position is beyond the end of the string, space characters are appended to the string to reach this position, followed by ch.
This function overloads insert().
Inserts the first size characters of the QChar array unicode at the given index position in the string.
This string grows to accommodate the insertion. If position is beyond the end of the string, space characters are appended to the string to reach this position, followed by size characters of the QChar array unicode.
[since 6.0]
QString &QString::insert(qsizetype position, QStringView str)
This function overloads insert().
Inserts the string view str at the given index position and returns a reference to this string.
This string grows to accommodate the insertion. If position is beyond the end of the string, space characters are appended to the string to reach this position, followed by str.
This function was introduced in Qt 6.0.
This function overloads insert().
Inserts the Latin-1 string str at the given index position.
This string grows to accommodate the insertion. If position is beyond the end of the string, space characters are appended to the string to reach this position, followed by str.
[since 5.5]
QString &QString::insert(qsizetype position, const char *str)
This function overloads insert().
Inserts the C string str at the given index position and returns a reference to this string.
This string grows to accommodate the insertion. If position is beyond the end of the string, space characters are appended to the string to reach this position, followed by str.
This function is not available when QT_NO_CAST_FROM_ASCII is defined.
This function was introduced in Qt 5.5.
[since 5.5]
QString &QString::insert(qsizetype position, const QByteArray &str)
This function overloads insert().
Interprets the contents of str as UTF-8, inserts the Unicode string it encodes at the given index position and returns a reference to this string.
This string grows to accommodate the insertion. If position is beyond the end of the string, space characters are appended to the string to reach this position, followed by str.
This function is not available when QT_NO_CAST_FROM_ASCII is defined.
This function was introduced in Qt 5.5.
Returns true
if the string has no characters; otherwise returns false
.
Example:
QString().isEmpty(); // returns true QString("").isEmpty(); // returns true QString("x").isEmpty(); // returns false QString("abc").isEmpty(); // returns false
See also size().
[since 5.12]
bool QString::isLower() const
Returns true
if the string is lowercase, that is, it's identical to its toLower() folding.
Note that this does not mean that the string does not contain uppercase letters (some uppercase letters do not have a lowercase folding; they are left unchanged by toLower()). For more information, refer to the Unicode standard, section 3.13.
This function was introduced in Qt 5.12.
See also QChar::toLower() and isUpper().
Returns true
if this string is null; otherwise returns false
.
Example:
QString().isNull(); // returns true QString("").isNull(); // returns false QString("abc").isNull(); // returns false
Qt makes a distinction between null strings and empty strings for historical reasons. For most applications, what matters is whether or not a string contains any data, and this can be determined using the isEmpty() function.
See also isEmpty().
Returns true
if the string is read right to left.
See also QStringView::isRightToLeft().
[since 5.12]
bool QString::isUpper() const
Returns true
if the string is uppercase, that is, it's identical to its toUpper() folding.
Note that this does not mean that the string does not contain lowercase letters (some lowercase letters do not have a uppercase folding; they are left unchanged by toUpper()). For more information, refer to the Unicode standard, section 3.13.
This function was introduced in Qt 5.12.
See also QChar::toUpper() and isLower().
[since 5.15]
bool QString::isValidUtf16() const
Returns true
if the string contains valid UTF-16 encoded data, or false
otherwise.
Note that this function does not perform any special validation of the data; it merely checks if it can be successfully decoded from UTF-16. The data is assumed to be in host byte order; the presence of a BOM is meaningless.
This function was introduced in Qt 5.15.
See also QStringView::isValidUtf16().
[since 6.0]
QString QString::last(qsizetype n) const
Returns the string that contains the last n characters of this string.
Note: The behavior is undefined when n < 0 or n > size().
QString x = "Pineapple"; QString y = x.last(5); // y == "apple"
This function was introduced in Qt 6.0.
See also first(), sliced(), endsWith(), chopped(), chop(), and truncate().
Returns the index position of the last occurrence of the string str in this string, searching backward from index position from. If from is -1, the search starts at the last character; if from is -2, at the next to last character and so on. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString x = "crazy azimuths"; QString y = "az"; x.lastIndexOf(y); // returns 6 x.lastIndexOf(y, 6); // returns 6 x.lastIndexOf(y, 5); // returns 2 x.lastIndexOf(y, 1); // returns -1
Note: When searching for a 0-length str, the match at the end of the data is excluded from the search by a negative from, even though -1
is normally thought of as searching from the end of the string: the match at the end is after the last character, so it is excluded. To include such a final empty match, either give a positive value for from or omit the from parameter entirely.
See also indexOf(), contains(), and count().
This function overloads lastIndexOf().
Returns the index position of the last occurrence of the character ch, searching backward from position from.
[since 6.2]
qsizetype QString::lastIndexOf(QLatin1String str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads lastIndexOf().
Returns the index position of the last occurrence of the string str in this string. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString x = "crazy azimuths"; QString y = "az"; x.lastIndexOf(y); // returns 6 x.lastIndexOf(y, 6); // returns 6 x.lastIndexOf(y, 5); // returns 2 x.lastIndexOf(y, 1); // returns -1
This function was introduced in Qt 6.2.
See also indexOf(), contains(), and count().
This function overloads lastIndexOf().
Returns the index position of the last occurrence of the string str in this string, searching backward from index position from. If from is -1, the search starts at the last character; if from is -2, at the next to last character and so on. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString x = "crazy azimuths"; QString y = "az"; x.lastIndexOf(y); // returns 6 x.lastIndexOf(y, 6); // returns 6 x.lastIndexOf(y, 5); // returns 2 x.lastIndexOf(y, 1); // returns -1
Note: When searching for a 0-length str, the match at the end of the data is excluded from the search by a negative from, even though -1
is normally thought of as searching from the end of the string: the match at the end is after the last character, so it is excluded. To include such a final empty match, either give a positive value for from or omit the from parameter entirely.
See also indexOf(), contains(), and count().
[since 6.2]
qsizetype QString::lastIndexOf(const QString &str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads lastIndexOf().
Returns the index position of the last occurrence of the string str in this string. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString x = "crazy azimuths"; QString y = "az"; x.lastIndexOf(y); // returns 6 x.lastIndexOf(y, 6); // returns 6 x.lastIndexOf(y, 5); // returns 2 x.lastIndexOf(y, 1); // returns -1
This function was introduced in Qt 6.2.
See also indexOf(), contains(), and count().
[since 6.2]
qsizetype QString::lastIndexOf(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads lastIndexOf().
Returns the index position of the last occurrence of the string view str in this string. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This function was introduced in Qt 6.2.
See also indexOf(), contains(), and count().
[since 5.14]
qsizetype QString::lastIndexOf(QStringView str, qsizetype from, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This function overloads lastIndexOf().
Returns the index position of the last occurrence of the string view str in this string, searching backward from index position from. If from is -1, the search starts at the last character; if from is -2, at the next to last character and so on. Returns -1 if str is not found.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Note: When searching for a 0-length str, the match at the end of the data is excluded from the search by a negative from, even though -1
is normally thought of as searching from the end of the string: the match at the end is after the last character, so it is excluded. To include such a final empty match, either give a positive value for from or omit the from parameter entirely.
This function was introduced in Qt 5.14.
See also indexOf(), contains(), and count().
[since 6.2]
qsizetype QString::lastIndexOf(const QRegularExpression &re, QRegularExpressionMatch *rmatch = nullptr) const
This function overloads lastIndexOf().
Returns the index position of the last match of the regular expression re in the string. Returns -1 if re didn't match anywhere.
If the match is successful and rmatch is not nullptr
, it also writes the results of the match into the QRegularExpressionMatch object pointed to by rmatch.
Example:
QString str = "the minimum"; str.lastIndexOf(QRegularExpression("m[aeiou]")); // returns 8 QString str = "the minimum"; QRegularExpressionMatch match; str.lastIndexOf(QRegularExpression("m[aeiou]"), -1, &match); // returns 8 // match.captured() == mu
Note: Due to how the regular expression matching algorithm works, this function will actually match repeatedly from the beginning of the string until the end of the string is reached.
This function was introduced in Qt 6.2.
[since 5.5]
qsizetype QString::lastIndexOf(const QRegularExpression &re, qsizetype from, QRegularExpressionMatch *rmatch = nullptr) const
Returns the index position of the last match of the regular expression re in the string, which starts before the index position from. If from is -1, the search starts at the last character; if from is -2, at the next to last character and so on. Returns -1 if re didn't match anywhere.
If the match is successful and rmatch is not nullptr
, it also writes the results of the match into the QRegularExpressionMatch object pointed to by rmatch.
Example:
QString str = "the minimum"; str.lastIndexOf(QRegularExpression("m[aeiou]")); // returns 8 QString str = "the minimum"; QRegularExpressionMatch match; str.lastIndexOf(QRegularExpression("m[aeiou]"), -1, &match); // returns 8 // match.captured() == mu
Note: Due to how the regular expression matching algorithm works, this function will actually match repeatedly from the beginning of the string until the position from is reached.
Note: When searching for a regular expression re that may match 0 characters, the match at the end of the data is excluded from the search by a negative from, even though -1
is normally thought of as searching from the end of the string: the match at the end is after the last character, so it is excluded. To include such a final empty match, either give a positive value for from or omit the from parameter entirely.
This function was introduced in Qt 5.5.
Returns a substring that contains the n leftmost characters of the string.
If you know that n cannot be out of bounds, use first() instead in new code, because it is faster.
The entire string is returned if n is greater than or equal to size(), or less than zero.
See also first(), last(), startsWith(), chopped(), chop(), and truncate().
Returns a string of size width that contains this string padded by the fill character.
If truncate is false
and the size() of the string is more than width, then the returned string is a copy of the string.
QString s = "apple"; QString t = s.leftJustified(8, '.'); // t == "apple..."
If truncate is true
and the size() of the string is more than width, then any characters in a copy of the string after position width are removed, and the copy is returned.
QString str = "Pineapple"; str = str.leftJustified(5, '.', true); // str == "Pinea"
See also rightJustified().
Returns the number of characters in this string. Equivalent to size().
See also resize().
[static]
int QString::localeAwareCompare(const QString &s1, const QString &s2)
Compares s1 with s2 and returns an integer less than, equal to, or greater than zero if s1 is less than, equal to, or greater than s2.
The comparison is performed in a locale- and also platform-dependent manner. Use this function to present sorted lists of strings to the user.
See also compare(), QLocale, and Comparing Strings.
This function overloads localeAwareCompare().
Compares this string with the other string and returns an integer less than, equal to, or greater than zero if this string is less than, equal to, or greater than the other string.
The comparison is performed in a locale- and also platform-dependent manner. Use this function to present sorted lists of strings to the user.
Same as localeAwareCompare(*this, other)
.
See also Comparing Strings.
[since 6.0]
int QString::localeAwareCompare(QStringView other) const
This function overloads localeAwareCompare().
Compares this string with the other string and returns an integer less than, equal to, or greater than zero if this string is less than, equal to, or greater than the other string.
The comparison is performed in a locale- and also platform-dependent manner. Use this function to present sorted lists of strings to the user.
Same as localeAwareCompare(*this, other)
.
This function was introduced in Qt 6.0.
See also Comparing Strings.
[static, since 6.0]
int QString::localeAwareCompare(QStringView s1, QStringView s2)
This function overloads localeAwareCompare().
Compares s1 with s2 and returns an integer less than, equal to, or greater than zero if s1 is less than, equal to, or greater than s2.
The comparison is performed in a locale- and also platform-dependent manner. Use this function to present sorted lists of strings to the user.
This function was introduced in Qt 6.0.
See also Comparing Strings.
Returns a string that contains n characters of this string, starting at the specified position index.
If you know that position and n cannot be out of bounds, use sliced() instead in new code, because it is faster.
Returns a null string if the position index exceeds the length of the string. If there are less than n characters available in the string starting at the given position, or if n is -1 (default), the function returns all characters that are available from the specified position.
See also first(), last(), sliced(), chopped(), chop(), and truncate().
Returns the string in the given Unicode normalization mode, according to the given version of the Unicode standard.
[static]
QString QString::number(long n, int base = 10)
Returns a string equivalent of the number n according to the specified base.
The base is 10 by default and must be between 2 and 36. For bases other than 10, n is treated as an unsigned integer.
The formatting always uses QLocale::C, i.e., English/UnitedStates. To get a localized string representation of a number, use QLocale::toString() with the appropriate locale.
long a = 63; QString s = QString::number(a, 16); // s == "3f" QString t = QString::number(a, 16).toUpper(); // t == "3F"
See also setNum().
[static]
QString QString::number(int n, int base = 10)
This is an overloaded function.
[static]
QString QString::number(uint n, int base = 10)
This is an overloaded function.
[static]
QString QString::number(ulong n, int base = 10)
This is an overloaded function.
[static]
QString QString::number(qlonglong n, int base = 10)
This is an overloaded function.
[static]
QString QString::number(qulonglong n, int base = 10)
This is an overloaded function.
[static]
QString QString::number(double n, char format = 'g', int precision = 6)
Returns a string representing the floating-point number n.
Returns a string that represents n, formatted according to the specified format and precision.
For formats with an exponent, the exponent will show its sign and have at least two digits, left-padding the exponent with zero if needed.
See also setNum(), QLocale::toString(), QLocale::FloatingPointPrecisionOption, and Number Formats.
Prepends the string str to the beginning of this string and returns a reference to this string.
This operation is typically very fast (constant time), because QString preallocates extra space at the beginning of the string data, so it can grow without reallocating the entire string each time.
Example:
QString x = "ship"; QString y = "air"; x.prepend(y); // x == "airship"
See also append() and insert().
This function overloads prepend().
Prepends the character ch to this string.
[since 5.5]
QString &QString::prepend(const QChar *str, qsizetype len)
This function overloads prepend().
Prepends len characters from the QChar array str to this string and returns a reference to this string.
This function was introduced in Qt 5.5.
[since 6.0]
QString &QString::prepend(QStringView str)
This function overloads prepend().
Prepends the string view str to the beginning of this string and returns a reference to this string.
This function was introduced in Qt 6.0.
This function overloads prepend().
Prepends the Latin-1 string str to this string.
This function overloads prepend().
Prepends the string str to this string. The const char pointer is converted to Unicode using the fromUtf8() function.
You can disable this function by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads prepend().
Prepends the byte array ba to this string. The byte array is converted to Unicode using the fromUtf8() function.
You can disable this function by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function is provided for STL compatibility, appending the given other string onto the end of this string. It is equivalent to append(other)
.
See also append().
This is an overloaded function.
Appends the given ch character onto the end of this string.
This function is provided for STL compatibility, prepending the given other string to the beginning of this string. It is equivalent to prepend(other)
.
See also prepend().
This is an overloaded function.
Prepends the given ch character to the beginning of this string.
[since 5.6]
QString::reverse_iterator QString::rbegin()
Returns a STL-style reverse iterator pointing to the first character in the string, in reverse order.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
This function was introduced in Qt 5.6.
See also begin(), crbegin(), and rend().
[since 5.6]
QString::const_reverse_iterator QString::rbegin() const
This is an overloaded function.
This function was introduced in Qt 5.6.
Removes n characters from the string, starting at the given position index, and returns a reference to the string.
If the specified position index is within the string, but position + n is beyond the end of the string, the string is truncated at the specified position.
QString s = "Montreal"; s.remove(1, 4); // s == "Meal"
Element removal will preserve the string's capacity and not reduce the amount of allocated memory. To shed extra capacity and free as much memory as possible, call squeeze() after the last change to the string's size.
See also insert() and replace().
Removes every occurrence of the character ch in this string, and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString t = "Ali Baba"; t.remove(QChar('a'), Qt::CaseInsensitive); // t == "li Bb"
This is the same as replace(ch, "", cs)
.
Element removal will preserve the string's capacity and not reduce the amount of allocated memory. To shed extra capacity and free as much memory as possible, call squeeze() after the last change to the string's size.
See also replace().
[since 5.11]
QString &QString::remove(QLatin1String str, Qt::CaseSensitivity cs = Qt::CaseSensitive)
This is an overloaded function.
Removes every occurrence of the given str string in this string, and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This is the same as replace(str, "", cs)
.
Element removal will preserve the string's capacity and not reduce the amount of allocated memory. To shed extra capacity and free as much memory as possible, call squeeze() after the last change to the string's size.
This function was introduced in Qt 5.11.
See also replace().
Removes every occurrence of the given str string in this string, and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This is the same as replace(str, "", cs)
.
Element removal will preserve the string's capacity and not reduce the amount of allocated memory. To shed extra capacity and free as much memory as possible, call squeeze() after the last change to the string's size.
See also replace().
[since 5.0]
QString &QString::remove(const QRegularExpression &re)
Removes every occurrence of the regular expression re in the string, and returns a reference to the string. For example:
QString r = "Telephone"; r.remove(QRegularExpression("[aeiou].")); // r == "The"
Element removal will preserve the string's capacity and not reduce the amount of allocated memory. To shed extra capacity and free as much memory as possible, call squeeze() after the last change to the string's size.
This function was introduced in Qt 5.0.
See also indexOf(), lastIndexOf(), and replace().
[since 6.1]
template <typename Predicate> QString &QString::removeIf(Predicate pred)
Removes all elements for which the predicate pred returns true from the string. Returns a reference to the string.
This function was introduced in Qt 6.1.
See also remove().
[since 5.6]
QString::reverse_iterator QString::rend()
Returns a STL-style reverse iterator pointing just after the last character in the string, in reverse order.
Warning: The returned iterator is invalidated on detachment or when the QString is modified.
This function was introduced in Qt 5.6.
See also end(), crend(), and rbegin().
[since 5.6]
QString::const_reverse_iterator QString::rend() const
This is an overloaded function.
This function was introduced in Qt 5.6.
Returns a copy of this string repeated the specified number of times.
If times is less than 1, an empty string is returned.
Example:
QString str("ab"); str.repeated(4); // returns "abababab"
Replaces n characters beginning at index position with the string after and returns a reference to this string.
Note: If the specified position index is within the string, but position + n goes outside the strings range, then n will be adjusted to stop at the end of the string.
Example:
QString x = "Say yes!"; QString y = "no"; x.replace(4, 3, y); // x == "Say no!"
See also insert() and remove().
This function overloads replace().
Replaces n characters beginning at index position with the character after and returns a reference to this string.
This function overloads replace().
Replaces n characters beginning at index position with the first size characters of the QChar array unicode and returns a reference to this string.
This function overloads replace().
Replaces every occurrence of the character before with the character after and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This function overloads replace().
Replaces each occurrence in this string of the first blen characters of before with the first alen characters of after and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This function overloads replace().
Replaces every occurrence of the string before with the string after and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Note: The text is not rescanned after a replacement.
This function overloads replace().
Replaces every occurrence of the string before with the string after and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Note: The text is not rescanned after a replacement.
This function overloads replace().
Replaces every occurrence of the string before with the string after and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Note: The text is not rescanned after a replacement.
This function overloads replace().
Replaces every occurrence of the string before with the string after and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Example:
QString str = "colour behaviour flavour neighbour"; str.replace(QString("ou"), QString("o")); // str == "color behavior flavor neighbor"
Note: The replacement text is not rescanned after it is inserted.
Example:
QString equis = "xxxxxx"; equis.replace("xx", "x"); // equis == "xxx"
This function overloads replace().
Replaces every occurrence of the character ch in the string with after and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
This function overloads replace().
Replaces every occurrence of the character c with the string after and returns a reference to this string.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
Note: The text is not rescanned after a replacement.
[since 5.0]
QString &QString::replace(const QRegularExpression &re, const QString &after)
This function overloads replace().
Replaces every occurrence of the regular expression re in the string with after. Returns a reference to the string. For example:
QString s = "Banana"; s.replace(QRegularExpression("a[mn]"), "ox"); // s == "Boxoxa"
For regular expressions containing capturing groups, occurrences of \1, \2, ..., in after are replaced with the string captured by the corresponding capturing group.
QString t = "A <i>bon mot</i>."; t.replace(QRegularExpression("<i>([^<]*)</i>"), "\\emph{\\1}"); // t == "A \\emph{bon mot}."
This function was introduced in Qt 5.0.
See also indexOf(), lastIndexOf(), remove(), QRegularExpression, and QRegularExpressionMatch.
Ensures the string has space for at least size characters.
If you know in advance how large the string will be, you can call this function to save repeated reallocation in the course of building it. This can improve performance when building a string incrementally. A long sequence of operations that add to a string may trigger several reallocations, the last of which may leave you with significantly more space than you really need, which is less efficient than doing a single allocation of the right size at the start.
If in doubt about how much space shall be needed, it is usually better to use an upper bound as size, or a high estimate of the most likely size, if a strict upper bound would be much bigger than this. If size is an underestimate, the string will grow as needed once the reserved size is exceeded, which may lead to a larger allocation than your best overestimate would have and will slow the operation that triggers it.
Warning: reserve() reserves memory but does not change the size of the string. Accessing data beyond the end of the string is undefined behavior. If you need to access memory beyond the current end of the string, use resize().
This function is useful for code that needs to build up a long string and wants to avoid repeated reallocation. In this example, we want to add to the string until some condition is true
, and we're fairly sure that size is large enough to make a call to reserve() worthwhile:
QString result; qsizetype maxSize; bool condition; QChar nextChar; result.reserve(maxSize); while (condition) result.append(nextChar); result.squeeze();
See also squeeze(), capacity(), and resize().
Sets the size of the string to size characters.
If size is greater than the current size, the string is extended to make it size characters long with the extra characters added to the end. The new characters are uninitialized.
If size is less than the current size, characters beyond position size are excluded from the string.
Note: While resize() will grow the capacity if needed, it never shrinks capacity. To shed excess capacity, use squeeze().
Example:
QString s = "Hello world"; s.resize(5); // s == "Hello" s.resize(8); // s == "Hello???" (where ? stands for any character)
If you want to append a certain number of identical characters to the string, use the resize(qsizetype, QChar) overload.
If you want to expand the string so that it reaches a certain width and fill the new positions with a particular character, use the leftJustified() function:
If size is negative, it is equivalent to passing zero.
QString r = "Hello"; r = r.leftJustified(10, ' '); // r == "Hello "
See also truncate(), reserve(), and squeeze().
[since 5.7]
void QString::resize(qsizetype size, QChar fillChar)
This is an overloaded function.
Unlike resize(qsizetype), this overload initializes the new characters to fillChar:
QString t = "Hello"; r.resize(t.size() + 10, 'X'); // t == "HelloXXXXXXXXXX"
This function was introduced in Qt 5.7.
Returns a substring that contains the n rightmost characters of the string.
If you know that n cannot be out of bounds, use last() instead in new code, because it is faster.
The entire string is returned if n is greater than or equal to size(), or less than zero.
See also endsWith(), last(), first(), sliced(), chopped(), chop(), and truncate().
Returns a string of size() width that contains the fill character followed by the string. For example:
QString s = "apple"; QString t = s.rightJustified(8, '.'); // t == "...apple"
If truncate is false
and the size() of the string is more than width, then the returned string is a copy of the string.
If truncate is true and the size() of the string is more than width, then the resulting string is truncated at position width.
QString str = "Pineapple"; str = str.rightJustified(5, '.', true); // str == "Pinea"
See also leftJustified().
This function returns a section of the string.
This string is treated as a sequence of fields separated by the character, sep. The returned string consists of the fields from position start to position end inclusive. If end is not specified, all fields from position start to the end of the string are included. Fields are numbered 0, 1, 2, etc., counting from the left, and -1, -2, etc., counting from right to left.
The flags argument can be used to affect some aspects of the function's behavior, e.g. whether to be case sensitive, whether to skip empty fields and how to deal with leading and trailing separators; see SectionFlags.
QString str; QString csv = "forename,middlename,surname,phone"; QString path = "/usr/local/bin/myapp"; // First field is empty QString::SectionFlag flag = QString::SectionSkipEmpty; str = csv.section(',', 2, 2); // str == "surname" str = path.section('/', 3, 4); // str == "bin/myapp" str = path.section('/', 3, 3, flag); // str == "myapp"
If start or end is negative, we count fields from the right of the string, the right-most field being -1, the one from right-most field being -2, and so on.
str = csv.section(',', -3, -2); // str == "middlename,surname" str = path.section('/', -1); // str == "myapp"
See also split().
This function overloads section().
QString str; QString data = "forename**middlename**surname**phone"; str = data.section("**", 2, 2); // str == "surname" str = data.section("**", -3, -2); // str == "middlename**surname"
See also split().
[since 5.0]
QString QString::section(const QRegularExpression &re, qsizetype start, qsizetype end = -1, QString::SectionFlags flags = SectionDefault) const
This function overloads section().
This string is treated as a sequence of fields separated by the regular expression, re.
QString line = "forename\tmiddlename surname \t \t phone"; QRegularExpression sep("\\s+"); str = line.section(sep, 2, 2); // str == "surname" str = line.section(sep, -3, -2); // str == "middlename surname"
Warning: Using this QRegularExpression version is much more expensive than the overloaded string and character versions.
This function was introduced in Qt 5.0.
See also split() and simplified().
Sets the string to the printed value of n in the specified base, and returns a reference to the string.
The base is 10 by default and must be between 2 and 36.
QString str; str.setNum(1234); // str == "1234"
The formatting always uses QLocale::C, i.e., English/UnitedStates. To get a localized string representation of a number, use QLocale::toString() with the appropriate locale.
See also number().
This is an overloaded function.
This is an overloaded function.
This is an overloaded function.
This is an overloaded function.
This is an overloaded function.
This is an overloaded function.
This is an overloaded function.
This is an overloaded function.
Sets the string to the printed value of n, formatted according to the given format and precision, and returns a reference to the string.
The formatting always uses QLocale::C, i.e., English/UnitedStates. To get a localized string representation of a number, use QLocale::toString() with the appropriate locale.
See also number().
This is an overloaded function.
Sets the string to the printed value of n, formatted according to the given format and precision, and returns a reference to the string.
See also number(), QLocale::FloatingPointPrecisionOption, and Number Formats.
Resets the QString to use the first size Unicode characters in the array unicode. The data in unicode is not copied. The caller must be able to guarantee that unicode will not be deleted or modified as long as the QString (or an unmodified copy of it) exists.
This function can be used instead of fromRawData() to re-use existings QString objects to save memory re-allocations.
See also fromRawData().
Resizes the string to size characters and copies unicode into the string.
If unicode is nullptr
, nothing is copied, but the string is still resized to size.
See also unicode() and setUtf16().
Resizes the string to size characters and copies unicode into the string.
If unicode is nullptr
, nothing is copied, but the string is still resized to size.
Note that unlike fromUtf16(), this function does not consider BOMs and possibly differing byte ordering.
See also utf16() and setUnicode().
[since 5.10]
void QString::shrink_to_fit()
This function is provided for STL compatibility. It is equivalent to squeeze().
This function was introduced in Qt 5.10.
See also squeeze().
Returns a string that has whitespace removed from the start and the end, and that has each sequence of internal whitespace replaced with a single space.
Whitespace means any character for which QChar::isSpace() returns true
. This includes the ASCII characters '\t', '\n', '\v', '\f', '\r', and ' '.
Example:
QString str = " lots\t of\nwhitespace\r\n "; str = str.simplified(); // str == "lots of whitespace";
See also trimmed().
Returns the number of characters in this string.
The last character in the string is at position size() - 1.
Example:
QString str = "World"; qsizetype n = str.size(); // n == 5 str.data()[0]; // returns 'W' str.data()[4]; // returns 'd'
See also isEmpty() and resize().
[since 6.0]
QString QString::sliced(qsizetype pos, qsizetype n) const
Returns a string that contains n characters of this string, starting at position pos.
Note: The behavior is undefined when pos < 0, n < 0, or pos + n > size().
QString x = "Nine pineapples"; QString y = x.sliced(5, 4); // y == "pine" QString z = x.sliced(5); // z == "pineapples"
This function was introduced in Qt 6.0.
See also first(), last(), chopped(), chop(), and truncate().
[since 6.0]
QString QString::sliced(qsizetype pos) const
This is an overloaded function.
Returns a string that contains the portion of this string starting at position pos and extending to its end.
Note: The behavior is undefined when pos < 0 or pos > size().
This function was introduced in Qt 6.0.
See also first(), last(), sliced(), chopped(), chop(), and truncate().
[since 5.14]
QStringList QString::split(const QString &sep, Qt::SplitBehavior behavior = Qt::KeepEmptyParts, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
Splits the string into substrings wherever sep occurs, and returns the list of those strings. If sep does not match anywhere in the string, split() returns a single-element list containing this string.
cs specifies whether sep should be matched case sensitively or case insensitively.
If behavior is Qt::SkipEmptyParts, empty entries don't appear in the result. By default, empty entries are kept.
Example:
QString str = QStringLiteral("a,,b,c"); QStringList list1 = str.split(QLatin1Char(',')); // list1: [ "a", "", "b", "c" ] QStringList list2 = str.split(QLatin1Char(','), Qt::SkipEmptyParts); // list2: [ "a", "b", "c" ]
If sep is empty, split() returns an empty string, followed by each of the string's characters, followed by another empty string:
QString str = "abc"; auto parts = str.split(QString()); // parts: {"", "a", "b", "c", ""}
To understand this behavior, recall that the empty string matches everywhere, so the above is qualitatively the same as:
QString str = "/a/b/c/"; auto parts = str.split(QLatin1Char('/')); // parts: {"", "a", "b", "c", ""}
This function was introduced in Qt 5.14.
See also QStringList::join() and section().
[since 5.14]
QStringList QString::split(QChar sep, Qt::SplitBehavior behavior = Qt::KeepEmptyParts, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This is an overloaded function.
This function was introduced in Qt 5.14.
[since 5.14]
QStringList QString::split(const QRegularExpression &re, Qt::SplitBehavior behavior = Qt::KeepEmptyParts) const
This is an overloaded function.
Splits the string into substrings wherever the regular expression re matches, and returns the list of those strings. If re does not match anywhere in the string, split() returns a single-element list containing this string.
Here is an example where we extract the words in a sentence using one or more whitespace characters as the separator:
QString str; QStringList list; str = "Some text\n\twith strange whitespace."; list = str.split(QRegularExpression("\\s+")); // list: [ "Some", "text", "with", "strange", "whitespace." ]
Here is a similar example, but this time we use any sequence of non-word characters as the separator:
str = "This time, a normal English sentence."; list = str.split(QRegularExpression("\\W+"), Qt::SkipEmptyParts); // list: [ "This", "time", "a", "normal", "English", "sentence" ]
Here is a third example where we use a zero-length assertion, \b (word boundary), to split the string into an alternating sequence of non-word and word tokens:
str = "Now: this sentence fragment."; list = str.split(QRegularExpression("\\b")); // list: [ "", "Now", ": ", "this", " ", "sentence", " ", "fragment", "." ]
This function was introduced in Qt 5.14.
See also QStringList::join() and section().
Releases any memory not required to store the character data.
The sole purpose of this function is to provide a means of fine tuning QString's memory usage. In general, you will rarely ever need to call this function.
See also reserve() and capacity().
Returns true
if the string starts with s; otherwise returns false
.
If cs is Qt::CaseSensitive (default), the search is case sensitive; otherwise the search is case insensitive.
QString str = "Bananas"; str.startsWith("Ban"); // returns true str.startsWith("Car"); // returns false
See also endsWith().
[since 5.10]
bool QString::startsWith(QStringView str, Qt::CaseSensitivity cs = Qt::CaseSensitive) const
This is an overloaded function.
Returns true
if the string starts with the string view str; otherwise returns false
.
If cs is Qt::CaseSensitive (default), the search is case-sensitive; otherwise the search is case insensitive.
This function was introduced in Qt 5.10.
See also endsWith().
This function overloads startsWith().
This function overloads startsWith().
Returns true
if the string starts with c; otherwise returns false
.
Swaps string other with this string. This operation is very fast and never fails.
[since 5.2]
CFStringRef QString::toCFString() const
Creates a CFString from a QString.
The caller owns the CFString and is responsible for releasing it.
Note: this function is only available on macOS and iOS.
This function was introduced in Qt 5.2.
Returns the case folded equivalent of the string. For most Unicode characters this is the same as toLower().
Returns the string converted to a double
value.
Returns an infinity if the conversion overflows or 0.0 if the conversion fails for other reasons (e.g. underflow).
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
QString str = "1234.56"; double val = str.toDouble(); // val == 1234.56
Warning: The QString content may only contain valid numerical characters which includes the plus/minus sign, the character e used in scientific notation, and the decimal point. Including the unit or additional characters leads to a conversion error.
bool ok; double d; d = QString( "1234.56e-02" ).toDouble(&ok); // ok == true, d == 12.3456 d = QString( "1234.56e-02 Volt" ).toDouble(&ok); // ok == false, d == 0
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toDouble()
d = QString( "1234,56" ).toDouble(&ok); // ok == false d = QString( "1234.56" ).toDouble(&ok); // ok == true, d == 1234.56
For historical reasons, this function does not handle thousands group separators. If you need to convert such numbers, use QLocale::toDouble().
d = QString( "1,234,567.89" ).toDouble(&ok); // ok == false d = QString( "1234567.89" ).toDouble(&ok); // ok == true
This function ignores leading and trailing whitespace.
See also number(), QLocale::setDefault(), QLocale::toDouble(), and trimmed().
Returns the string converted to a float
value.
Returns an infinity if the conversion overflows or 0.0 if the conversion fails for other reasons (e.g. underflow).
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
Warning: The QString content may only contain valid numerical characters which includes the plus/minus sign, the character e used in scientific notation, and the decimal point. Including the unit or additional characters leads to a conversion error.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toFloat()
For historical reasons, this function does not handle thousands group separators. If you need to convert such numbers, use QLocale::toFloat().
Example:
QString str1 = "1234.56"; str1.toFloat(); // returns 1234.56 bool ok; QString str2 = "R2D2"; str2.toFloat(&ok); // returns 0.0, sets ok to false QString str3 = "1234.56 Volt"; str3.toFloat(&ok); // returns 0.0, sets ok to false
This function ignores leading and trailing whitespace.
See also number(), toDouble(), toInt(), QLocale::toFloat(), and trimmed().
[since 5.0]
QString QString::toHtmlEscaped() const
Converts a plain text string to an HTML string with HTML metacharacters <
, >
, &
, and "
replaced by HTML entities.
Example:
QString plain = "#include <QtCore>" QString html = plain.toHtmlEscaped(); // html == "#include <QtCore>"
This function was introduced in Qt 5.0.
Returns the string converted to an int
using base base, which is 10 by default and must be between 2 and 36, or 0. Returns 0 if the conversion fails.
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
If base is 0, the C language convention is used: If the string begins with "0x", base 16 is used; if the string begins with "0", base 8 is used; otherwise, base 10 is used.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toInt()
Example:
QString str = "FF"; bool ok; int hex = str.toInt(&ok, 16); // hex == 255, ok == true int dec = str.toInt(&ok, 10); // dec == 0, ok == false
This function ignores leading and trailing whitespace.
See also number(), toUInt(), toDouble(), and QLocale::toInt().
Returns a Latin-1 representation of the string as a QByteArray.
The returned byte array is undefined if the string contains non-Latin1 characters. Those characters may be suppressed or replaced with a question mark.
See also fromLatin1(), toUtf8(), toLocal8Bit(), and QStringEncoder.
Returns the local 8-bit representation of the string as a QByteArray. The returned byte array is undefined if the string contains characters not supported by the local 8-bit encoding.
On Unix systems this is equivalen to toUtf8(), on Windows the systems current code page is being used.
If this string contains any characters that cannot be encoded in the locale, the returned byte array is undefined. Those characters may be suppressed or replaced by another.
See also fromLocal8Bit(), toLatin1(), toUtf8(), and QStringEncoder.
Returns the string converted to a long
using base base, which is 10 by default and must be between 2 and 36, or 0. Returns 0 if the conversion fails.
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
If base is 0, the C language convention is used: If the string begins with "0x", base 16 is used; if the string begins with "0", base 8 is used; otherwise, base 10 is used.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toLongLong()
Example:
QString str = "FF"; bool ok; long hex = str.toLong(&ok, 16); // hex == 255, ok == true long dec = str.toLong(&ok, 10); // dec == 0, ok == false
This function ignores leading and trailing whitespace.
See also number(), toULong(), toInt(), and QLocale::toInt().
Returns the string converted to a long long
using base base, which is 10 by default and must be between 2 and 36, or 0. Returns 0 if the conversion fails.
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
If base is 0, the C language convention is used: If the string begins with "0x", base 16 is used; if the string begins with "0", base 8 is used; otherwise, base 10 is used.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toLongLong()
Example:
QString str = "FF"; bool ok; qint64 hex = str.toLongLong(&ok, 16); // hex == 255, ok == true qint64 dec = str.toLongLong(&ok, 10); // dec == 0, ok == false
This function ignores leading and trailing whitespace.
See also number(), toULongLong(), toInt(), and QLocale::toLongLong().
Returns a lowercase copy of the string.
QString str = "The Qt PROJECT"; str = str.toLower(); // str == "the qt project"
The case conversion will always happen in the 'C' locale. For locale-dependent case folding use QLocale::toLower()
See also toUpper() and QLocale::toLower().
[since 5.2]
NSString *QString::toNSString() const
Creates a NSString from a QString.
The NSString is autoreleased.
Note: this function is only available on macOS and iOS.
This function was introduced in Qt 5.2.
Returns the string converted to a short
using base base, which is 10 by default and must be between 2 and 36, or 0. Returns 0 if the conversion fails.
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
If base is 0, the C language convention is used: If the string begins with "0x", base 16 is used; if the string begins with "0", base 8 is used; otherwise, base 10 is used.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toShort()
Example:
QString str = "FF"; bool ok; short hex = str.toShort(&ok, 16); // hex == 255, ok == true short dec = str.toShort(&ok, 10); // dec == 0, ok == false
This function ignores leading and trailing whitespace.
See also number(), toUShort(), toInt(), and QLocale::toShort().
Returns a std::string object with the data contained in this QString. The Unicode data is converted into 8-bit characters using the toUtf8() function.
This method is mostly useful to pass a QString to a function that accepts a std::string object.
See also toLatin1(), toUtf8(), toLocal8Bit(), and QByteArray::toStdString().
[since 5.5]
std::u16string QString::toStdU16String() const
Returns a std::u16string object with the data contained in this QString. The Unicode data is the same as returned by the utf16() method.
This function was introduced in Qt 5.5.
See also utf16(), toStdWString(), and toStdU32String().
[since 5.5]
std::u32string QString::toStdU32String() const
Returns a std::u32string object with the data contained in this QString. The Unicode data is the same as returned by the toUcs4() method.
This function was introduced in Qt 5.5.
See also toUcs4(), toStdWString(), and toStdU16String().
Returns a std::wstring object with the data contained in this QString. The std::wstring is encoded in utf16 on platforms where wchar_t is 2 bytes wide (e.g. windows) and in ucs4 on platforms where wchar_t is 4 bytes wide (most Unix systems).
This method is mostly useful to pass a QString to a function that accepts a std::wstring object.
See also utf16(), toLatin1(), toUtf8(), toLocal8Bit(), toStdU16String(), and toStdU32String().
Returns the string converted to an unsigned int
using base base, which is 10 by default and must be between 2 and 36, or 0. Returns 0 if the conversion fails.
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
If base is 0, the C language convention is used: If the string begins with "0x", base 16 is used; if the string begins with "0", base 8 is used; otherwise, base 10 is used.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toUInt()
Example:
QString str = "FF"; bool ok; uint hex = str.toUInt(&ok, 16); // hex == 255, ok == true uint dec = str.toUInt(&ok, 10); // dec == 0, ok == false
This function ignores leading and trailing whitespace.
See also number(), toInt(), and QLocale::toUInt().
Returns the string converted to an unsigned long
using base base, which is 10 by default and must be between 2 and 36, or 0. Returns 0 if the conversion fails.
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
If base is 0, the C language convention is used: If the string begins with "0x", base 16 is used; if the string begins with "0", base 8 is used; otherwise, base 10 is used.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toULongLong()
Example:
QString str = "FF"; bool ok; ulong hex = str.toULong(&ok, 16); // hex == 255, ok == true ulong dec = str.toULong(&ok, 10); // dec == 0, ok == false
This function ignores leading and trailing whitespace.
See also number() and QLocale::toUInt().
Returns the string converted to an unsigned long long
using base base, which is 10 by default and must be between 2 and 36, or 0. Returns 0 if the conversion fails.
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
If base is 0, the C language convention is used: If the string begins with "0x", base 16 is used; if the string begins with "0", base 8 is used; otherwise, base 10 is used.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toULongLong()
Example:
QString str = "FF"; bool ok; quint64 hex = str.toULongLong(&ok, 16); // hex == 255, ok == true quint64 dec = str.toULongLong(&ok, 10); // dec == 0, ok == false
This function ignores leading and trailing whitespace.
See also number(), toLongLong(), and QLocale::toULongLong().
Returns the string converted to an unsigned short
using base base, which is 10 by default and must be between 2 and 36, or 0. Returns 0 if the conversion fails.
If ok is not nullptr
, failure is reported by setting *ok to false
, and success by setting *ok to true
.
If base is 0, the C language convention is used: If the string begins with "0x", base 16 is used; if the string begins with "0", base 8 is used; otherwise, base 10 is used.
The string conversion will always happen in the 'C' locale. For locale-dependent conversion use QLocale::toUShort()
Example:
QString str = "FF"; bool ok; ushort hex = str.toUShort(&ok, 16); // hex == 255, ok == true ushort dec = str.toUShort(&ok, 10); // dec == 0, ok == false
This function ignores leading and trailing whitespace.
See also number(), toShort(), and QLocale::toUShort().
Returns a UCS-4/UTF-32 representation of the string as a QList<uint>.
UCS-4 is a Unicode codec and therefore it is lossless. All characters from this string will be encoded in UCS-4. Any invalid sequence of code units in this string is replaced by the Unicode's replacement character (QChar::ReplacementCharacter, which corresponds to U+FFFD
).
The returned list is not \0'-terminated.
See also fromUtf8(), toUtf8(), toLatin1(), toLocal8Bit(), QStringEncoder, fromUcs4(), and toWCharArray().
Returns an uppercase copy of the string.
QString str = "TeXt"; str = str.toUpper(); // str == "TEXT"
The case conversion will always happen in the 'C' locale. For locale-dependent case folding use QLocale::toUpper()
See also toLower() and QLocale::toLower().
Returns a UTF-8 representation of the string as a QByteArray.
UTF-8 is a Unicode codec and can represent all characters in a Unicode string like QString.
See also fromUtf8(), toLatin1(), toLocal8Bit(), and QStringEncoder.
Fills the array with the data contained in this QString object. The array is encoded in UTF-16 on platforms where wchar_t is 2 bytes wide (e.g. windows) and in UCS-4 on platforms where wchar_t is 4 bytes wide (most Unix systems).
array has to be allocated by the caller and contain enough space to hold the complete string (allocating the array with the same length as the string is always sufficient).
This function returns the actual length of the string in array.
Note: This function does not append a null character to the array.
See also utf16(), toUcs4(), toLatin1(), toUtf8(), toLocal8Bit(), toStdWString(), and QStringView::toWCharArray().
Returns a string that has whitespace removed from the start and the end.
Whitespace means any character for which QChar::isSpace() returns true
. This includes the ASCII characters '\t', '\n', '\v', '\f', '\r', and ' '.
Example:
QString str = " lots\t of\nwhitespace\r\n "; str = str.trimmed(); // str == "lots\t of\nwhitespace"
Unlike simplified(), trimmed() leaves internal whitespace alone.
See also simplified().
Truncates the string at the given position index.
If the specified position index is beyond the end of the string, nothing happens.
Example:
QString str = "Vladivostok"; str.truncate(4); // str == "Vlad"
If position is negative, it is equivalent to passing zero.
See also chop(), resize(), first(), and QStringView::truncate().
Returns a Unicode representation of the string. The result remains valid until the string is modified.
Note: The returned string may not be '\0'-terminated. Use size() to determine the length of the array.
See also setUnicode(), utf16(), and fromRawData().
Returns the QString as a '\0'-terminated array of unsigned shorts. The result remains valid until the string is modified.
The returned string is in host byte order.
See also setUtf16() and unicode().
[static, since 5.5]
QString QString::vasprintf(const char *cformat, va_list ap)
Equivalent method to asprintf(), but takes a va_list ap instead a list of variable arguments. See the asprintf() documentation for an explanation of cformat.
This method does not call the va_end macro, the caller is responsible to call va_end on ap.
This function was introduced in Qt 5.5.
See also asprintf().
This function overloads operator!=().
The other const char pointer is converted to a QString using the fromUtf8() function.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator!=().
The other byte array is converted to a QString using the fromUtf8() function. If any NUL characters ('\0') are embedded in the byte array, they will be included in the transformation.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
Appends the string other onto the end of this string and returns a reference to this string.
Example:
QString x = "free"; QString y = "dom"; x += y; // x == "freedom"
This operation is typically very fast (constant time), because QString preallocates extra space at the end of the string data so it can grow without reallocating the entire string each time.
See also append() and prepend().
This function overloads operator+=().
Appends the character ch to the string.
[since 6.0]
QString &QString::operator+=(QStringView str)
This function overloads operator+=().
Appends the string view str to this string.
This function was introduced in Qt 6.0.
This function overloads operator+=().
Appends the Latin-1 string str to this string.
This function overloads operator+=().
Appends the string str to this string. The const char pointer is converted to Unicode using the fromUtf8() function.
You can disable this function by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator+=().
Appends the byte array ba to this string. The byte array is converted to Unicode using the fromUtf8() function. If any NUL characters ('\0') are embedded in the ba byte array, they will be included in the transformation.
You can disable this function by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
Returns true
if this string is lexically less than string other. Otherwise returns false
.
This function overloads operator<().
The other const char pointer is converted to a QString using the fromUtf8() function.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator<().
The other byte array is converted to a QString using the fromUtf8() function. If any NUL characters ('\0') are embedded in the byte array, they will be included in the transformation.
You can disable this operator QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator<=().
The other const char pointer is converted to a QString using the fromUtf8() function.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator<=().
The other byte array is converted to a QString using the fromUtf8() function. If any NUL characters ('\0') are embedded in the byte array, they will be included in the transformation.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator=().
Sets the string to contain the single character ch.
This function overloads operator=().
Assigns the Latin-1 string str to this string.
This function overloads operator=().
Assigns str to this string. The const char pointer is converted to Unicode using the fromUtf8() function.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII or QT_RESTRICTED_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator==().
The other const char pointer is converted to a QString using the fromUtf8() function.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator==().
The other byte array is converted to a QString using the fromUtf8() function. This function stops conversion at the first NUL character found, or the end of the byte array.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
Returns true
if this string is lexically equal to the parameter string other. Otherwise returns false
.
This function overloads operator>().
The other const char pointer is converted to a QString using the fromUtf8() function.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator>().
The other byte array is converted to a QString using the fromUtf8() function. If any NUL characters ('\0') are embedded in the byte array, they will be included in the transformation.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator>=().
The other const char pointer is converted to a QString using the fromUtf8() function.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
This function overloads operator>=().
The other byte array is converted to a QString using the fromUtf8() function. If any NUL characters ('\0') are embedded in the byte array, they will be included in the transformation.
You can disable this operator by defining QT_NO_CAST_FROM_ASCII when you compile your applications. This can be useful if you want to ensure that all user-visible strings go through QObject::tr(), for example.
Returns the character at the specified position in the string as a modifiable reference.
Example:
QString str; if (str[0] == QChar('?')) str[0] = QChar('_');
See also at().
This function overloads operator[]().
[since 6.1]
template <typename T> qsizetype erase(QString &s, const T &t)
Removes all elements that compare equal to t from the string s. Returns the number of elements removed, if any.
This function was introduced in Qt 6.1.
See also erase_if.
[since 6.1]
template <typename Predicate> qsizetype erase_if(QString &s, Predicate pred)
Removes all elements for which the predicate pred returns true from the string s. Returns the number of elements removed, if any.
This function was introduced in Qt 6.1.
See also erase.
Returns true
if string s1 is not equal to string s2; otherwise returns false
.
See also Comparing Strings.
Returns true
if string s1 is not equal to string s2. Otherwise returns false
.
This function overloads operator!=().
Returns true
if s1 is not equal to s2; otherwise returns false
.
For s1 != 0, this is equivalent to compare(
s1, s2 ) != 0
. Note that no string is equal to s1 being 0.
[since 6.2]
QString operator""_qs(const char16_t *str, size_t size)
Literal operator that creates a QString out of the first size characters in the char16_t string literal str.
The QString is created at compile time, and the generated string data is stored in the read-only segment of the compiled object file. Duplicate literals may share the same read-only memory. This functionality is interchangeable with QStringLiteral, but saves typing when many string literals are present in the code.
The following code creates a QString:
auto str = u"hello"_qs;
This function was introduced in Qt 6.2.
See also QStringLiteral and QtLiterals::operator""_qba(const char *str, size_t size).
Returns a string which is the result of concatenating s1 and s2.
Returns a string which is the result of concatenating s1 and s2 (s2 is converted to Unicode using the QString::fromUtf8() function).
See also QString::fromUtf8().
Returns a string which is the result of concatenating s1 and s2 (s1 is converted to Unicode using the QString::fromUtf8() function).
See also QString::fromUtf8().
This function overloads operator<().
Returns true
if string s1 is lexically less than string s2; otherwise returns false
.
See also Comparing Strings.
This function overloads operator<().
Returns true
if s1 is lexically less than s2; otherwise returns false
.
This function overloads operator<().
Returns true
if s1 is lexically less than s2; otherwise returns false
.
Returns true
if s1 is lexically less than s2; otherwise returns false
. For s1 != 0, this is equivalent to compare(s1, s2) < 0
.
See also Comparing Strings.
Writes the given string to the specified stream.
See also Serializing Qt Data Types.
Returns true
if string s1 is lexically less than or equal to string s2; otherwise returns false
.
See also Comparing Strings.
This function overloads operator<=().
Returns true
if s1 is lexically less than or equal to s2; otherwise returns false
.
This function overloads operator<=().
Returns true
if s1 is lexically less than or equal to s2; otherwise returns false
.
Returns true
if s1 is lexically less than or equal to s2; otherwise returns false
. For s1 != 0, this is equivalent to compare(s1, s2) <= 0
.
See also Comparing Strings.
This function overloads operator==().
Returns true
if string s1 is equal to string s2; otherwise returns false
.
See also Comparing Strings.
This function overloads operator==().
Returns true
if s1 is equal to s2; otherwise returns false
.
This function overloads operator==().
Returns true
if s1 is equal to s2; otherwise returns false
.
This function overloads operator==().
Returns true
if s1 is equal to s2; otherwise returns false
. Note that no string is equal to s1 being 0.
Equivalent to s1 != 0 && compare(s1, s2) == 0
.
Returns true
if string s1 is lexically greater than string s2; otherwise returns false
.
See also Comparing Strings.
This function overloads operator>().
Returns true
if s1 is lexically greater than s2; otherwise returns false
.
This function overloads operator>().
Returns true
if s1 is lexically greater than s2; otherwise returns false
.
Returns true
if s1 is lexically greater than s2; otherwise returns false
. Equivalent to compare(s1, s2) > 0
.
See also Comparing Strings.
Returns true
if string s1 is lexically greater than or equal to string s2; otherwise returns false
.
See also Comparing Strings.
This function overloads operator>=().
Returns true
if s1 is lexically greater than or equal to s2; otherwise returns false
.
This function overloads operator>=().
Returns true
if s1 is lexically greater than or equal to s2; otherwise returns false
.
Returns true
if s1 is lexically greater than or equal to s2; otherwise returns false
. For s1 != 0, this is equivalent to compare(s1, s2) >= 0
.
See also Comparing Strings.
Reads a string from the specified stream into the given string.
See also Serializing Qt Data Types.
The macro generates the data for a QString out of the string literal str at compile time. Creating a QString from it is free in this case, and the generated string data is stored in the read-only segment of the compiled object file.
If you have code that looks like this:
// hasAttribute takes a QString argument if (node.hasAttribute("http-contents-length")) //...
then a temporary QString will be created to be passed as the hasAttribute
function parameter. This can be quite expensive, as it involves a memory allocation and the copy/conversion of the data into QString's internal encoding.
This cost can be avoided by using QStringLiteral instead:
if (node.hasAttribute(QStringLiteral(u"http-contents-length"))) //...
In this case, QString's internal data will be generated at compile time; no conversion or allocation will occur at runtime.
Using QStringLiteral instead of a double quoted plain C++ string literal can significantly speed up creation of QString instances from data known at compile time.
Note: QLatin1String can still be more efficient than QStringLiteral when the string is passed to a function that has an overload taking QLatin1String and this overload avoids conversion to QString. For instance, QString::operator==() can compare to a QLatin1String directly:
if (attribute.name() == QLatin1String("http-contents-length")) //...
Note: Some compilers have bugs encoding strings containing characters outside the US-ASCII character set. Make sure you prefix your string with u
in those cases. It is optional otherwise.
See also QByteArrayLiteral.
Disables automatic conversions from 8-bit strings (char *
) to Unicode QStrings, as well as from 8-bit char
types (char
and unsigned char
) to QChar.
See also QT_NO_CAST_TO_ASCII, QT_RESTRICTED_CAST_FROM_ASCII, and QT_NO_CAST_FROM_BYTEARRAY.
Disables automatic conversion from QString to 8-bit strings (char *
).
See also QT_NO_CAST_FROM_ASCII, QT_RESTRICTED_CAST_FROM_ASCII, and QT_NO_CAST_FROM_BYTEARRAY.
Disables most automatic conversions from source literals and 8-bit data to unicode QStrings, but allows the use of the QChar(char)
and QString(const char (&ch)[N]
constructors, and the QString::operator=(const char (&ch)[N])
assignment operator. This gives most of the type-safety benefits of QT_NO_CAST_FROM_ASCII but does not require user code to wrap character and string literals with QLatin1Char, QLatin1String or similar.
Using this macro together with source strings outside the 7-bit range, non-literals, or literals with embedded NUL characters is undefined.
See also QT_NO_CAST_FROM_ASCII and QT_NO_CAST_TO_ASCII.
© The Qt Company Ltd
Licensed under the GNU Free Documentation License, Version 1.3.
https://doc.qt.io/qt-6.2/qstring.html