dynamic_bitset<Block, Allocator>Contents
DescriptionThe dynamic_bitset class represents a set of bits. It provides accesses to the value of individual bits via an operator[] and provides all of the bitwise operators that one can apply to builtin integers, such as operator& and operator<<. The number of bits in the set is specified at runtime via a parameter to the constructor of the dynamic_bitset. The dynamic_bitset class is nearly identical to the std::bitset class. The difference is that the size of the dynamic_bitset (the number of bits) is specified at runtime during the construction of a dynamic_bitset object, whereas the size of a std::bitset is specified at compiletime through an integer template parameter. The main problem that dynamic_bitset is designed to solve is that of representing a subset of a finite set. Each bit represents whether an element of the finite set is in the subset or not. As such the bitwise operations of dynamic_bitset, such as operator& and operator, correspond to set operations, such as intersection and union. Synopsisnamespace boost { template <typename Block, typename Allocator> class dynamic_bitset { public: typedef Block block_type; typedef Allocator allocator_type; typedef implementationdefined size_type; static const int bits_per_block = implementationdefined; static const size_type npos = implementationdefined; class reference { void operator&(); // not defined public: // An automatically generated copy constructor. reference& operator=(bool value); reference& operator=(const reference& rhs); reference& operator=(bool value); reference& operator&=(bool value); reference& operator^=(bool value); reference& operator=(bool value); bool operator~() const; operator bool() const; reference& flip(); }; typedef bool const_reference; explicit dynamic_bitset(const Allocator& alloc = Allocator()); explicit dynamic_bitset(size_type num_bits, unsigned long value = 0, const Allocator& alloc = Allocator()); template <typename CharT, typename Traits, typename Alloc> explicit dynamic_bitset(const std::basic_string<CharT, Traits, Alloc>& s, typename std::basic_string<CharT, Traits, Alloc>::size_type pos = 0, typename std::basic_string<CharT, Traits, Alloc>::size_type n = std::basic_string<CharT, Traits, Alloc>::npos, const Allocator& alloc = Allocator()); template <typename BlockInputIterator> dynamic_bitset(BlockInputIterator first, BlockInputIterator last, const Allocator& alloc = Allocator()); dynamic_bitset(const dynamic_bitset& b); void swap(dynamic_bitset& b); dynamic_bitset& operator=(const dynamic_bitset& b); allocator_type get_allocator() const; void resize(size_type num_bits, bool value = false); void clear(); void push_back(bool bit); void append(Block block); template <typename BlockInputIterator> void append(BlockInputIterator first, BlockInputIterator last); dynamic_bitset& operator&=(const dynamic_bitset& b); dynamic_bitset& operator=(const dynamic_bitset& b); dynamic_bitset& operator^=(const dynamic_bitset& b); dynamic_bitset& operator=(const dynamic_bitset& b); dynamic_bitset& operator<<=(size_type n); dynamic_bitset& operator>>=(size_type n); dynamic_bitset operator<<(size_type n) const; dynamic_bitset operator>>(size_type n) const; dynamic_bitset& set(size_type n, bool val = true); dynamic_bitset& set(); dynamic_bitset& reset(size_type n); dynamic_bitset& reset(); dynamic_bitset& flip(size_type n); dynamic_bitset& flip(); bool test(size_type n) const; bool any() const; bool none() const; dynamic_bitset operator~() const; size_type count() const; reference operator[](size_type pos); bool operator[](size_type pos) const; unsigned long to_ulong() const; size_type size() const; size_type num_blocks() const; size_type max_size() const; bool empty() const; bool is_subset_of(const dynamic_bitset& a) const; bool is_proper_subset_of(const dynamic_bitset& a) const; size_type find_first() const; size_type find_next(size_type pos) const; }; template <typename B, typename A> bool operator==(const dynamic_bitset<B, A>& a, const dynamic_bitset<B, A>& b); template <typename Block, typename Allocator> bool operator!=(const dynamic_bitset<Block, Allocator>& a, const dynamic_bitset<Block, Allocator>& b); template <typename B, typename A> bool operator<(const dynamic_bitset<B, A>& a, const dynamic_bitset<B, A>& b); template <typename Block, typename Allocator> bool operator<=(const dynamic_bitset<Block, Allocator>& a, const dynamic_bitset<Block, Allocator>& b); template <typename Block, typename Allocator> bool operator>(const dynamic_bitset<Block, Allocator>& a, const dynamic_bitset<Block, Allocator>& b); template <typename Block, typename Allocator> bool operator>=(const dynamic_bitset<Block, Allocator>& a, const dynamic_bitset<Block, Allocator>& b); template <typename Block, typename Allocator> dynamic_bitset<Block, Allocator> operator&(const dynamic_bitset<Block, Allocator>& b1, const dynamic_bitset<Block, Allocator>& b2); template <typename Block, typename Allocator> dynamic_bitset<Block, Allocator> operator(const dynamic_bitset<Block, Allocator>& b1, const dynamic_bitset<Block, Allocator>& b2); template <typename Block, typename Allocator> dynamic_bitset<Block, Allocator> operator^(const dynamic_bitset<Block, Allocator>& b1, const dynamic_bitset<Block, Allocator>& b2); template <typename Block, typename Allocator> dynamic_bitset<Block, Allocator> operator(const dynamic_bitset<Block, Allocator>& b1, const dynamic_bitset<Block, Allocator>& b2); template <typename Block, typename Allocator, typename CharT, typename Alloc> void to_string(const dynamic_bitset<Block, Allocator>& b, std::basic_string<CharT, Alloc>& s); template <typename Block, typename Allocator, typename BlockOutputIterator> void to_block_range(const dynamic_bitset<Block, Allocator>& b, BlockOutputIterator result); template <typename CharT, typename Traits, typename Block, typename Allocator> std::basic_ostream<CharT, Traits>& operator<<(std::basic_ostream<CharT, Traits>& os, const dynamic_bitset<Block, Allocator>& b); template <typename CharT, typename Traits, typename Block, typename Allocator> std::basic_istream<CharT, Traits>& operator>>(std::basic_istream<CharT, Traits>& is, dynamic_bitset<Block, Allocator>& b); } // namespace boost DefinitionsEach bit represents either the Boolean value true or false (1 or 0). To set a bit is to assign it 1. To clear or reset a bit is to assign it 0. To flip a bit is to change the value to 1 if it was 0 and to 0 if it was 1. Each bit has a nonnegative position. A bitset x contains x.size() bits, with each bit assigned a unique position in the range [0,x.size()). The bit at position 0 is called the least significant bit and the bit at position size()  1 is the most significant bit. When converting an instance of dynamic_bitset to or from an unsigned long n, the bit at position i of the bitset has the same value as (n >> i) & 1. ExamplesAn example of setting and reading some bits. Note that operator[] goes from the leastsignificant bit at 0 to the most significant bit at size()1. The operator<< for dynamic_bitset prints the bitset from mostsignificant to leastsignificant, since that is the format most people are use to reading. #include <iostream> #include <boost/dynamic_bitset.hpp> int main(int, char*[]) { boost::dynamic_bitset<> x(5); // all 0's by default x[0] = 1; x[1] = 1; x[4] = 1; for (boost::dynamic_bitset<>::size_type i = 0; i < x.size(); ++i) std::cout << x[i]; std::cout << "\n"; std::cout << x << "\n"; return EXIT_SUCCESS; } The output is 11001 10011 An example of creating some bitsets from integers (unsigned longs). #include <iostream> #include <boost/dynamic_bitset.hpp> int main(int, char*[]) { const boost::dynamic_bitset<> b0(2, 0ul); std::cout << "bits(0) = " << b0 << std::endl; const boost::dynamic_bitset<> b1(2, 1ul); std::cout << "bits(1) = " << b1 << std::endl; const boost::dynamic_bitset<> b2(2, 2ul); std::cout << "bits(2) = " << b2 << std::endl; const boost::dynamic_bitset<> b3(2, 3ul); std::cout << "bits(3) = " << b3 << std::endl; return EXIT_SUCCESS; } The output is bits(0) = 00 bits(1) = 01 bits(2) = 10 bits(3) = 11 An example of performing some bitwise operations. #include <iostream> #include <boost/dynamic_bitset.hpp> int main(int, char*[]) { const boost::dynamic_bitset<> mask(12, 2730ul); std::cout << "mask = " << mask << std::endl; boost::dynamic_bitset<> x(12); std::cout << "Enter a 12bit bitset in binary: " << std::flush; if (std::cin >> x) { std::cout << "input number: " << x << std::endl; std::cout << "As unsigned long: " << x.to_ulong() << std::endl; std::cout << "And with mask: " << (x & mask) << std::endl; std::cout << "Or with mask: " << (x  mask) << std::endl; std::cout << "Shifted left: " << (x << 1) << std::endl; std::cout << "Shifted right: " << (x >> 1) << std::endl; } return EXIT_SUCCESS; } The output is mask = 101010101010 Enter a 12bit bitset in binary: 100110101101 input number = 100110101101 As unsigned long: 2477 And with mask: 100010101000 Or with mask: 101110101111 Shifted left: 001101011010 Shifted right: 010011010110 RationaleThe dynamic_bitset does not provide iterators (and therefore is not a Container) for the following reasons:
Some people prefer the name "toggle" to "flip". The name "flip" was chosen because that is the name used in std::bitset. In fact, most of the function names for dynamic_bitset were chosen for this reason. dynamic_bitset does not throw exceptions when a precondition is violated (as is done in std::bitset). Instead assert is used. See the guidelines for Error and Exception Handling for the explanation. Header FilesThe class dynamic_bitset is defined in the header boost/dynamic_bitset.hpp. Also, there is a forward declaration for dynamic_bitset in the header boost/dynamic_bitset_fwd.hpp. Template parameters
Concepts ModeledAssignable, Default Constructible, Equality Comparable, LessThan Comparable.Type requirementsBlock is an unsigned integer type. Allocator satisfies the Standard requirements for an allocator.Public base classesNone.Nested type namesdynamic_bitset::reference A proxy class that acts as a reference to a single bit. It contains an assignment operator, a conversion to bool, an operator~, and a member function flip. It exists only as a helper class for dynamic_bitset's operator[]. The following table describes the valid operations on the reference type. Assume that b is an instance of dynamic_bitset, i, j are of size_type and in the range [0,b.size()). Also, note that when we write b[i] we mean an object of type reference that was initialized from b[i]. The variable x is a bool.
dynamic_bitset::const_referenceThe type bool. dynamic_bitset::size_typeThe unsigned integer type for representing the size of the bit set. dynamic_bitset::block_typeThe same type as Block. dynamic_bitset::allocator_type;The same type as Allocator. Public data membersdynamic_bitset::bits_per_blockThe number of bits the type Block uses to represent values, excluding any padding bits. Numerically equal to std::numeric_limits<Block>::digits. dynamic_bitset::nposThe maximum value of size_type. Constructorsdynamic_bitset(const Allocator& alloc = Allocator())Effects: Constructs a bitset of size zero. A copy of the alloc object will be used in subsequent bitset operations such as resize to allocate memory. Postconditions: this>size() == 0. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). (Required by Default Constructible.) dynamic_bitset(size_type num_bits, unsigned long value = 0, const Allocator& alloc = Allocator())Effects: Constructs a bitset from an integer. The first M bits are initialized to the corresponding bits in val and all other bits, if any, to zero (where M = min(num_bits, std::numeric_limits<unsigned long>::digits)). A copy of the alloc object will be used in subsequent bitset operations such as resize to allocate memory. Postconditions:
dynamic_bitset(const dynamic_bitset& x)Effects: Constructs a bitset that is a copy of the bitset x. The allocator for this bitset is a copy of the allocator in x. Postconditions: For all i in the range [0,x.size()), (*this)[i] == x[i]. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). (Required by Assignable.) template <typename BlockInputIterator> explicit dynamic_bitset(BlockInputIterator first, BlockInputIterator last, const Allocator& alloc = Allocator());Effects: Constructs a bitset based on a range of blocks. Let *first be block number 0, *++first block number 1, etc. Block number b is used to initialize the bits of the dynamic_bitset in the position range [b*bits_per_block, (b+1)*bits_per_block). For each block number b with value bval, the bit (bval >> i) & 1 corresponds to the bit at position (b * bits_per_block + i) in the bitset (where i goes through the range [0, bits_per_block)). Requires: The type BlockInputIterator must be a model of Input Iterator and its value_type must be the same type as Block. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). template<typename Char, typename Traits, typename Alloc> explicit dynamic_bitset(const std::basic_string<Char,Traits,Alloc>& s, typename std::basic_string<CharT, Traits, Alloc>::size_type pos = 0, typename std::basic_string<CharT, Traits, Alloc>::size_type n = std::basic_string<Char,Traits,Alloc>::npos, const Allocator& alloc = Allocator())Precondition: pos <= s.size() and the characters used to initialize the bits must be 0 or 1. Effects: Constructs a bitset from a string of 0's and 1's. The first M bits are initialized to the corresponding characters in s, where M = min(s.size()  pos, n). Note that the highest character position in s, not the lowest, corresponds to the least significant bit. That is, character position pos + M  1  i corresponds to bit i. So, for example, dynamic_bitset(string("1101")) is the same as dynamic_bitset(13ul). Throws: an allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). Destructor~dynamic_bitset()Effects: Releases the memory associated with this bitset and destroys the bitset object itself. Throws: nothing. Member Functionsvoid swap(dynamic_bitset& b);Effects: The contents of this bitset and bitset b are exchanged. Postconditions: This bitset is equal to the original b, and b is equal to the previous version of this bitset. Throws: nothing. dynamic_bitset& operator=(const dynamic_bitset& x)Effects: This bitset becomes a copy of the bitset x. Postconditions: For all i in the range [0,x.size()), (*this)[i] == x[i]. Returns: *this. Throws: nothing. (Required by Assignable.) allocator_type get_allocator() const;Returns: A copy of the allocator object used to construct *this. void resize(size_type num_bits, bool value = false);Effects: Changes the number of bits of the bitset to num_bits. If num_bits > size() then the bits in the range [0,size()) remain the same, and the bits in [size(),num_bits) are all set to value. If num_bits < size() then the bits in the range [0,num_bits) stay the same (and the remaining bits are discarded). Postconditions: this>size() == num_bits. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). void clear()Effects: The size of the bitset becomes zero. Throws: nothing. void push_back(bool value);Effects: Increases the size of the bitset by one, and sets the value of the new mostsignificant bit to value. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). void append(Block value);Effects: Appends the bits in value to the bitset (appends to the mostsignificant end). This increases the size of the bitset by bits_per_block. Let s be the old size of the bitset, then for i in the range [0,bits_per_block), the bit at position (s + i) is set to ((value >> i) & 1). Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). template <typename BlockInputIterator> void append(BlockInputIterator first, BlockInputIterator last);Effects: This function provides the same end result as the following code, but is typically more efficient. for (; first != last; ++first) append(*first);Requires: The BlockInputIterator type must be a model of Input Iterator and the value_type must be the same type as Block. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). dynamic_bitset& operator&=(const dynamic_bitset& rhs)Requires: this>size() == rhs.size(). Effects: BitwiseAND all the bits in rhs with the bits in this bitset. This is equivalent to: for (size_type i = 0; i != this>size(); ++i) (*this)[i] = (*this)[i] & rhs[i];Returns: *this. Throws: nothing. dynamic_bitset& operator=(const dynamic_bitset& rhs)Requires: this>size() == rhs.size(). Effects: BitwiseOR's all the bits in rhs with the bits in this bitset. This is equivalent to: for (size_type i = 0; i != this>size(); ++i) (*this)[i] = (*this)[i]  rhs[i];Returns: *this. Throws: nothing. dynamic_bitset& operator^=(const dynamic_bitset& rhs)Requires: this>size() == rhs.size(). Effects: BitwiseXOR's all the bits in rhs with the bits in this bitset. This is equivalent to: for (size_type i = 0; i != this>size(); ++i) (*this)[i] = (*this)[i] ^ rhs[i];Returns: *this. Throws: nothing. dynamic_bitset& operator=(const dynamic_bitset& rhs)Requires: this>size() == rhs.size(). Effects: Computes the set difference of this bitset and the rhs bitset. This is equivalent to: for (size_type i = 0; i != this>size(); ++i) (*this)[i] = (*this)[i] && !rhs[i];Returns: *this. Throws: nothing. dynamic_bitset& operator<<=(size_type n)Effects: Shifts the bits in this bitset to the left by n bits. For each bit in the bitset, the bit at position pos takes on the previous value of the bit at position pos  n, or zero if no such bit exists. Returns: *this. Throws: nothing. dynamic_bitset& operator>>=(size_type n)Effects: Shifts the bits in this bitset to the right by n bits. For each bit in the bitset, the bit at position pos takes on the previous value of bit pos + n, or zero if no such bit exists. Returns: *this. Throws: nothing. dynamic_bitset operator<<(size_type n) constReturns: a copy of *this shifted to the left by n bits. For each bit in the returned bitset, the bit at position pos takes on the value of the bit at position pos  n of this bitset, or zero if no such bit exists. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). dynamic_bitset operator>>(size_type n) constReturns: a copy of *this shifted to the right by n bits. For each bit in the returned bitset, the bit at position pos takes on the value of the bit at position pos + n of this bitset, or zero if no such bit exists. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). dynamic_bitset& set()Effects: Sets every bit in this bitset to 1. Returns: *this Throws: nothing. dynamic_bitset& flip()Effects: Flips the value of every bit in this bitset. Returns: *this Throws: nothing. dynamic_bitset operator~() constReturns: a copy of *this with all of its bits flipped. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). dynamic_bitset& reset()Effects: Clears every bit in this bitset. Returns: *this Throws: nothing. dynamic_bitset& set(size_type n, bool val = true)Precondition: n < this>size(). Effects: Sets bit n if val is true, and clears bit n if val is false. Returns: *this dynamic_bitset& reset(size_type n)Precondition: n < this>size(). Effects: Clears bit n. Returns: *this dynamic_bitset& flip(size_type n)Precondition: n < this>size(). Effects: Flips bit n. Returns: *this size_type size() constReturns: the number of bits in this bitset. Throws: nothing. size_type num_blocks() constReturns: the number of blocks in this bitset. Throws: nothing. size_type max_size() const;Returns: the maximum size of a dynamic_bitset object having the same type as *this. Note that if any dynamic_bitset operation causes size() to exceed max_size() then the behavior is undefined. [The semantics of this function could change slightly when lib issue 197 will be closed] bool empty() const;Returns: true if this>size() == 0, false otherwise. Note: not to be confused with none(), that has different semantics. size_type count() constReturns: the number of bits in this bitset that are set. Throws: nothing. bool any() constReturns: true if any bits in this bitset are set, and otherwise returns false. Throws: nothing. bool none() constReturns: true if no bits are set, and otherwise returns false. Throws: nothing. bool test(size_type n) constPrecondition: n < this>size(). Returns: true if bit n is set and false is bit n is 0. reference operator[](size_type n)Precondition: n < this>size(). Returns: a reference to bit n. Note that reference is a proxy class with an assignment operator and a conversion to bool, which allows you to use operator[] for assignment. That is, you can write both x = b[n] and b[n] = x. However, in many other respects the proxy is not the same as the true reference type bool&. bool operator[](size_type n) constPrecondition: n < this>size(). Returns: The same as test(n). unsigned long to_ulong() constReturns: The numeric value corresponding to the bits in *this. Throws: std::overflow_error if that value is too large to be represented in an unsigned long, i.e. if *this has any nonzero bit at a position >= std::numeric_limits<unsigned long>::digits. bool is_subset_of(const dynamic_bitset& a) constRequires: this>size() == a.size() Returns: true if this bitset is a subset of bitset a. That is, it returns true if, for every bit that is set in this bitset, the corresponding bit in bitset a is also set. Otherwise this function returns false. Throws: nothing. bool is_proper_subset_of(const dynamic_bitset& a) constRequires: this>size() == a.size() Returns: true if this bitset is a proper subset of bitset a. That is, it returns true if, for every bit that is set in this bitset, the corresponding bit in bitset a is also set and if this>count() < a.count(). Otherwise this function returns false. Throws: nothing. size_type find_first() const;Returns: the lowest index i such as bit i is set, or npos if *this has no on bits. size_type find_next(size_type pos) const;Returns: the lowest index i greater than pos such as bit i is set, or npos if no such index exists. bool operator==(const dynamic_bitset& rhs) constReturns: true if this>size() == rhs.size() and if for all i in the range [0,rhs.size()), (*this)[i] == rhs[i]. Otherwise returns false. Throws: nothing. (Required by Equality Comparable.) bool operator!=(const dynamic_bitset& rhs) constReturns: !((*this) == rhs) Throws: nothing. (Required by Equality Comparable.) bool operator<(const dynamic_bitset& rhs) constReturns: true if this bitset is lexicographically less than rhs, and returns false otherwise. (See the description of lexicographical_compare for a definition of lexicographic ordering). Throws: nothing. (Required by Less Than Comparable.) bool operator>(const dynamic_bitset& rhs) constReturns: !((*this) < rhs  (*this) == rhs) Throws: nothing. (Required by Less Than Comparable.) bool operator<=(const dynamic_bitset& rhs) constReturns: (*this) < rhs  (*this) == rhs Throws: nothing. (Required by Less Than Comparable.) bool operator>=(const dynamic_bitset& rhs) constReturns: (*this) > rhs  (*this) == rhs Throws: nothing. (Required by Less Than Comparable.) NonMember Functionsdynamic_bitset operator&(const dynamic_bitset& a, const dynamic_bitset& b)Requires: a.size() == b.size() Returns: A new bitset that is the bitwiseAND of the bitsets a and b. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). dynamic_bitset operator(const dynamic_bitset& a, const dynamic_bitset& b)Requires: a.size() == b.size() Returns: A new bitset that is the bitwiseOR of the bitsets a and b. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). dynamic_bitset operator^(const dynamic_bitset& a, const dynamic_bitset& b)Requires: a.size() == b.size() Returns: A new bitset that is the bitwiseXOR of the bitsets a and b. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). dynamic_bitset operator(const dynamic_bitset& a, const dynamic_bitset& b)Requires: a.size() == b.size() Returns: A new bitset that is the set difference of the bitsets a and b. Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). template <typename CharT, typename Alloc> void to_string(const dynamic_bitset<Block, Allocator>& b, std::basic_string<Char,Traits,Alloc>& s)Effects: Copies a representation of b into the string s. A character in the string is '1' if the corresponding bit is set, and '0' if it is not. Character position i in the string corresponds to bit position b.size()  1  i. Throws: If memory is exhausted, the string will throw an allocation error. Rationale: This function is not a member function taking zero arguments and returning a string for a couple reasons. First, this version can be slighly more efficient because the string is not copied (due to being passed by value). Second, as a member function, to allow for flexibility with regards to the template parameters of basic_string, the member function would require explicit template parameters. Few C++ programmers are familiar with explicit template parameters, and some C++ compilers do not handle them properly. template <typename Block, typename Alloc, typename BlockOutputIterator> void to_block_range(const dynamic_bitset<Block, Alloc>& b, BlockOutputIterator result)Effects: Writes the bits of the bitset into the iterator result a block at a time. The first block written represents the bits in the position range [0,bits_per_block) in the bitset, the second block written the bits in the range [bits_pre_block,2*bits_per_block), and so on. For each block bval written, the bit (bval >> i) & 1 corresponds to the bit at position (b * bits_per_block + i) in the bitset. Requires: The type BlockOutputIterator must be a model of Output Iterator and its value_type must be the same type as Block. Further, the size of the output range must be greater or equal b.num_blocks(). template <typename BlockIterator, typename Block, typename Alloc> void from_block_range(BlockIterator first, BlockIterator last, const dynamic_bitset<Block, Alloc>& b)Effects: Reads blocks from the iterator range into the bitset. Requires: The type BlockIterator must be a model of Input Iterator and its value_type must be the same type as Block. The size of the iterator range must be less or equal to b.num_blocks(). template <typename Char, typename Traits, typename Block, typename Alloc> basic_ostream<Char, Traits>& operator<<(basic_ostream<Char, Traits>& os, const dynamic_bitset<Block, Alloc>& b)Effects: Inserts a textual representation of b into the stream os (highest bit first). Informally, the output is the same as doing std::basic_string<Char, Traits> s; boost::to_string(x, s): os << s;except that the stream inserter takes into accout the locale imbued into os, which boost::to_string() can't do. Here is a more precise specification, given in terms of "as if" rule: first, for each valid position i into the bitset b let's put: character_of(b[i)]) = b[i]? os.widen('1') : os.widen('0'); Let also s be a std::basic_string<Char, Traits> object, having length b.size() and such as, for each i in [0, b.size()), s[i] is character_of(b[i]) Then, the output, the effects on os and the exception behavior is the same as outputting the object s to os (same width, same exception mask, same padding, same setstate() logic) Returns: os Throws: std::ios_base::failure if there is a problem writing to the stream. template <typename Char, typename Traits, typename Block, typename Alloc> std::basic_istream<Char,Traits>& operator>>(std::basic_istream<Char,Traits>& is, dynamic_bitset<Block, Alloc>& b)Effects: Extracts a dynamic_bitset from an input stream. Definitions: Let Tr be the traits_type of is. Then:
If no exception caused the function to exit then is.width(0) is called, regardless of how many characters were actually extracted. The sentry object k is destroyed. If the function extracts no characters[???], it calls is.setstate(std::ios::failbit), which may throw std::ios_base::failure.  Throws: An allocation error if memory is exhausted (std::bad_alloc if Allocator=std::allocator). A std::ios_base::failure if there is a problem reading from the stream. Exception guaranteesAll of dynamic_bitset functions offer at least the basic guarantee. In addition some functions offer the strong or the nothrow guarantee as summarized in the table below (the destructor, as usual, doesn't throw):
Changes from previous version(s)Changes from Boost 1.31.0
Several optimizations to member and nonmember functions and to the nested class reference. See alsostd::bitset, std::vector,AcknowledgementsWe would like to thank the Boost community for putting in the time to review and accept this library. This library is much better than it ever would have been due to all the suggestions from Boost members. We especially thank Matt Marcus for taking on the task of review manager. Also, a special thanks goes to James Kanze for his invaluable help with the internationalization issues.
