QStringTokenizer 类

template <typename Haystack, typename Needle> class QStringTokenizer

QStringTokenizer 类沿给定分隔符将字符串分割成令牌。 更多...

头: #include <QStringTokenizer>
CMake: find_package(Qt6 COMPONENTS Core REQUIRED)
target_link_libraries(mytarget PRIVATE Qt6::Core)
qmake: QT += core
Since: Qt 6.0
继承: QtPrivate::Tok::HaystackPinning (private), QtPrivate::Tok::NeedlePinning (private), and

注意: 此类的所有函数 可重入 .

公共类型

  const_iterator
  const_pointer
  const_reference
  difference_type
  iterator
  pointer
  reference
  sentinel
  size_type
  value_type

公共函数

  QStringTokenizer (Haystack haystack , Needle needle , Qt::SplitBehavior sb = Qt::KeepEmptyParts, Qt::CaseSensitivity cs = Qt::CaseSensitive)
  QStringTokenizer (Haystack haystack , Needle needle , Qt::CaseSensitivity cs , Qt::SplitBehavior sb = Qt::KeepEmptyParts)
QStringTokenizer::iterator begin () const
QStringTokenizer::iterator cbegin () const
QStringTokenizer::sentinel cend () const
QStringTokenizer::sentinel end () const
LContainer toContainer (LContainer && c = {}) const &
RContainer toContainer (RContainer && c = {}) const &&
decltype(QtPrivate::Tok::TokenizerResult<Haystack, Needle>({std::forward<Haystack>(h), std::forward<Needle>(n), flags...})) qTokenize (Haystack && haystack , Needle && needle , Flags... flags )

详细描述

Splits a string into substrings wherever a given separator occurs, returning a (lazily constructed) list of those strings. If the separator does not match anywhere in the string, produces a single-element list containing this string. If the separator is empty, QStringTokenizer produces an empty string, followed by each of the string's characters, followed by another empty string. The two enumerations Qt::SplitBehavior and Qt::CaseSensitivity further control the output.

QStringTokenizer drives QStringView::tokenize (), but, at least with a recent compiler, you can use it directly, too:

for (auto it : QStringTokenizer{string, separator})
    use(*it);
					

注意: You should never, ever, name the template arguments of a QStringTokenizer explicitly. If you can use C++17 Class Template Argument Deduction (CTAD), you may write QStringTokenizer{string, separator} (without template arguments). If you can't use C++17 CTAD, you must use the QStringView::split () or QLatin1String::split() member functions and store the return value only in auto 变量:

auto result = string.split(sep);
					

This is because the template arguments of QStringTokenizer have a very subtle dependency on the specific string and separator types from with which they are constructed, and they don't usually correspond to the actual types passed.

惰性序列

QStringTokenizer acts as a so-called lazy sequence, that is, each next element is only computed once you ask for it. Lazy sequences have the advantage that they only require O(1) memory. They have the disadvantage that, at least for QStringTokenizer, they only allow forward, not random-access, iteration.

The intended use-case is that you just plug it into a ranged for loop:

for (auto it : QStringTokenizer{string, separator})
    use(*it);
					

or a C++20 ranged algorithm:

std::ranges::for_each(QStringTokenizer{string, separator},
                      [] (auto token) { use(token); });
					

结束哨点

The QStringTokenizer iterators cannot be used with classical STL algorithms, because those require iterator/iterator pairs, while QStringTokenizer uses sentinels. That is, it uses a different type, QStringTokenizer::sentinel, to mark the end of the range. This improves performance, because the sentinel is an empty type. Sentinels are supported from C++17 (for ranged for) and C++20 (for algorithms using the new ranges library).

临时

QStringTokenizer is very carefully designed to avoid dangling references. If you construct a tokenizer from a temporary string (an rvalue), that argument is stored internally, so the referenced data isn't deleted before it is tokenized:

auto tok = QStringTokenizer{widget.text(), u','};
// return value of `widget.text()` is destroyed, but content was moved into `tok`
for (auto e : tok)
   use(e);
					

If you pass named objects (lvalues), then QStringTokenizer does not store a copy. You are responsible to keep the named object's data around for longer than the tokenizer operates on it:

auto text = widget.text();
auto tok = QStringTokenizer{text, u','};
text.clear();      // destroy content of `text`
for (auto e : tok) // ERROR: `tok` references deleted data!
    use(e);
					

另请参阅 QStringView::split (), QString::split (),和 QRegularExpression .

成员类型文档编制

[alias] QStringTokenizer:: const_iterator

此 typedef 提供 STL 样式 const 迭代器为 QStringTokenizer .

另请参阅 iterator .

[alias] QStringTokenizer:: const_pointer

别名化的 value_type * .

[alias] QStringTokenizer:: const_reference

别名化的 value_type & .

[alias] QStringTokenizer:: difference_type

Alias for qsizetype.

[alias] QStringTokenizer:: iterator

此 typedef 提供 STL 样式 const 迭代器为 QStringTokenizer .

QStringTokenizer does not support mutable iterators, so this is the same as const_iterator.

另请参阅 const_iterator .

[alias] QStringTokenizer:: pointer

别名化的 value_type * .

QStringTokenizer does not support mutable iterators, so this is the same as const_pointer.

[alias] QStringTokenizer:: reference

别名化的 value_type & .

QStringTokenizer does not support mutable references, so this is the same as const_reference.

[alias] QStringTokenizer:: sentinel

This typedef provides an STL-style sentinel for QStringTokenizer::iterator and QStringTokenizer::const_iterator.

另请参阅 const_iterator .

[alias] QStringTokenizer:: size_type

Alias for qsizetype.

[alias] QStringTokenizer:: value_type

别名化的 const QStringView or const QLatin1String , depending on the tokenizer's Haystack template argument.

成员函数文档编制

QStringTokenizer::iterator QStringTokenizer:: begin () const

QStringTokenizer::iterator QStringTokenizer:: cbegin () const

返回常量 STL 样式迭代器 pointing to the first token in the list.

另请参阅 end () 和 cend ().

QStringTokenizer:: QStringTokenizer ( Haystack haystack , Needle needle , Qt::CaseSensitivity cs , Qt::SplitBehavior sb = Qt::KeepEmptyParts)

QStringTokenizer:: QStringTokenizer ( Haystack haystack , Needle needle , Qt::SplitBehavior sb = Qt::KeepEmptyParts, Qt::CaseSensitivity cs = Qt::CaseSensitive)

Constructs a string tokenizer that splits the string haystack into substrings wherever needle occurs, and allows iteration over those strings as they are found. If needle does not match anywhere in haystack , a single element containing haystack is produced.

cs specifies whether needle should be matched case sensitively or case insensitively.

sb is Qt::SkipEmptyParts , empty entries don't appear in the result. By default, empty entries are included.

另请参阅 QStringView::split (), QString::split (), Qt::CaseSensitivity ,和 Qt::SplitBehavior .

QStringTokenizer::sentinel QStringTokenizer:: cend () const

如同 end ().

另请参阅 cbegin () 和 end ().

QStringTokenizer::sentinel QStringTokenizer:: end () const

返回常量 STL-style sentinel pointing to the imaginary token after the last token in the list.

另请参阅 begin () 和 cend ().

template <typename LContainer> LContainer QStringTokenizer:: toContainer ( LContainer && c = {}) const &

Converts the lazy sequence into a (typically) random-access container of type LContainer .

This function is only available if 容器 拥有 value_type matching this tokenizer's value_type.

If you pass in a named container (an lvalue) for c , then that container is filled, and a reference to it is returned. If you pass in a temporary container (an rvalue, incl. the default argument), then that container is filled, and returned by value.

// assuming tok's value_type is QStringView, then...
auto tok = QStringTokenizer{~~~};
// ... rac1 is a QList:
auto rac1 = tok.toContainer();
// ... rac2 is std::pmr::vector<QStringView>:
auto rac2 = tok.toContainer<std::pmr::vector<QStringView>>();
auto rac3 = QVarLengthArray<QStringView, 12>{};
// appends the token sequence produced by tok to rac3
//  and returns a reference to rac3 (which we ignore here):
tok.toContainer(rac3);
					

This gives you maximum flexibility in how you want the sequence to be stored.

template <typename RContainer> RContainer QStringTokenizer:: toContainer ( RContainer && c = {}) const &&

这是重载函数。

Converts the lazy sequence into a (typically) random-access container of type RContainer .

In addition to the constraints on the lvalue-this overload, this rvalue-this overload is only available when this QStringTokenizer does not store the haystack internally, as this could create a container full of dangling references:

auto tokens = QStringTokenizer{widget.text(), u','}.toContainer();
// ERROR: cannot call toContainer() on rvalue
// 'tokens' references the data of the copy of widget.text()
// stored inside the QStringTokenizer, which has since been deleted
					

To fix, store the QStringTokenizer in a temporary:

auto tokenizer = QStringTokenizer{widget.text90, u','};
auto tokens = tokenizer.toContainer();
// OK: the copy of widget.text() stored in 'tokenizer' keeps the data
// referenced by 'tokens' alive.
					

You can force this function into existence by passing a view instead:

func(QStringTokenizer{QStringView{widget.text()}, u','}.toContainer());
// OK: compiler keeps widget.text() around until after func() has executed
					

If you pass in a named container (an lvalue)for c , then that container is filled, and a reference to it is returned. If you pass in a temporary container (an rvalue, incl. the default argument), then that container is filled, and returned by value.

相关非成员

[since 6.0] template <typename Haystack, typename Needle, typename Flags> decltype ( QtPrivate::Tok::TokenizerResult < Haystack , Needle >({ std::forward < Haystack >( h ), std::forward < Needle >( n ), flags ...})) qTokenize ( Haystack && haystack , Needle && needle , Flags ... flags )

Factory function for a QStringTokenizer that splits the string haystack into substrings wherever needle occurs, and allows iteration over those strings as they are found. If needle does not match anywhere in haystack , a single element containing haystack is produced.

Pass values from Qt::CaseSensitivity and Qt::SplitBehavior enumerators as flags to modify the behavior of the tokenizer.

You can use this function if your compiler doesn't, yet, support C++17 Class Template Argument Deduction (CTAD). We recommend direct use of QStringTokenizer with CTAD instead.

该函数在 Qt 6.0 引入。