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Autor Tema:  Vector De Bits  (Leído 1357 veces)

solarin

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Vector De Bits
« en: Martes 5 de Septiembre de 2006, 18:24 »
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Estoy intentando implementar el calculo de CRC. Para ello necesito un vector con todos los bits del mensaje para poder hacer la division con el polinomio generador.

Los mensajes que estoy tratando son entre 130 ~ 154 bits. Como se define/crea en C++ un array de bits?

Gracias.

geobeid

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Re: Vector De Bits
« Respuesta #1 en: Martes 5 de Septiembre de 2006, 21:32 »
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Usa el bitset de la libreria Standar
aca tenes lo que muestra la ayuda del c++builder acerca de este contenedor:
Citar
Interface

template <size_t N>
class bitset {
public:
// bit reference:
  class reference {
   friend class bitset;
  public:
   ~reference();
   reference& operator= (bool);
   reference& operator= (const reference&);
   bool operator~() const;
   operator bool() const;
   reference& flip();
  };

// Constructors
  bitset ();
  bitset (unsigned long);
  template<class charT, class traits, class Allocator>
  explicit bitset
           (const basic_string<charT, traits, Allocator>,

            typename basic_string<charT, traits,
                                  Allocator>::size_type=0,
            typename basic_string<charT, traits,
                                  Allocator>::size_type=
            basic_string<charT, traits, Allocator>::npos);
  bitset (const bitset<N>&);
  bitset<N>& operator= (const bitset<N>&);
// Bitwise Operators and Bitwise Operator Assignment
   bitset<N>& operator&= (const bitset<N>&);
   bitset<N>& operator|= (const bitset<N>&);

   bitset<N>& operator^= (const bitset<N>&);
   bitset<N>& operator<<= (size_t);
   bitset<N>& operator>>= (size_t);
// Set, Reset, Flip
   bitset<N>& set ();
   bitset<N>& set (size_t, int = 1);
   bitset<N>& reset ();
   bitset<N>& reset (size_t);
   bitset<N> operator~() const;
   bitset<N>& flip ();
   bitset<N>& flip (size_t);
// element access
   reference operator[] (size_t);
   unsigned long to_ulong() const;
   template<class charT, class traits, class Allocator>

   basic_string<charT, traits, Allocator> to_string();
   size_t count() const;
   size_t size() const;
   bool operator== (const bitset<N>&) const;
   bool operator!= (const bitset<N>&) const;
   bool test (size_t) const;
   bool any() const;
   bool none() const;
   bitset<N> operator<< (size_t) const;
   bitset<N> operator>> (size_t) const;
};
// Non-member operators
template <size_t N>
bitset<N> operator& (const bitset<N>&, const bitset<N>&);
template <size_t N>

bitset<N> operator| (const bitset<N>&, const bitset<N>&);
template <size_t N>
bitset<N> operator^ (const bitset<N>&, const bitset<N>&);
template <size_t N>
istream& operator>> (istream&, bitset<N>&);
template <size_t N>
ostream& operator<< (ostream&, const bitset<N>&)

Constructors

bitset();

Constructs an object of class bitset<N>, initializing all bit values to zero.

bitset(unsigned long val);

Constructs an object of class bitset<N>, initializing the first M bit values to the corresponding bits in val. M is the smaller of N and the value CHAR_BIT * sizeof(unsigned long). If M < N, remaining bit positions are initialized to zero. Note: CHAR_BIT is defined in <climits>.

template<class charT, class traits, class Allocator>
explicit
bitset (const basic_string<charT, traits, Allocator>,
        typename basic_string<charT, traits,
                              Allocator>::size_type=0,
        typename basic_string<charT, traits,
                              Allocator>::size_type=
        basic_string<charT, traits, Allocator>::npos);

Determines the effective length rlen of the initializing string as the smaller of n and str.size() - pos. The function throws an invalid_argument exception if any of the rlen characters in str, beginning at position pos, is other than 0 or 1. Otherwise, the function constructs an object of class bitset<N>, initializing the first M bit positions to values determined from the corresponding characters in the string str. M is the smaller of N and rlen. This constructor expects pos <= str.size(). If that is not true, the constructor throws an out_of_range exception.

bitset(const bitset<N>& rhs);

Creates a copy of rhs.

Assignment Operators

bitset<N>&
operator=(const bitset<N>& rhs);

Erases all bits in self, then inserts into self a copy of each bit in rhs. Returns a reference to *this.

Operators

bool
operator==(const bitset<N>& rhs) const;

Returns true if the value of each bit in *this equals the value of each corresponding bit in rhs. Otherwise returns false.

bool
operator!=(const bitset<N>& rhs) const;

Returns true if the value of any bit in *this is not equal to the value of the corresponding bit in rhs. Otherwise returns false.

bitset<N>&
operator&=(const bitset<N>& rhs);

Clears each bit in *this for which the corresponding bit in rhs is clear and leaves all other bits unchanged. Returns *this.

bitset<N>&
operator|=(const bitset<N>& rhs);

Sets each bit in *this for which the corresponding bit in rhs is set, and leaves all other bits unchanged. Returns *this.

bitset<N>&
operator^=(const bitset<N>& rhs);

Toggles each bit in *this for which the corresponding bit in rhs is set, and leaves all other bits unchanged. Returns *this.

bitset<N>&
operator<<=(size_t pos);

Replaces each bit at position I with 0 if I < pos or with the value of the bit at I - pos if I >= pos. Returns *this.

bitset<N>&
operator>>=(size_t pos);

Replaces each bit at position I with 0 if pos >= N-I or with the value of the bit at position I + pos if pos < N-I. Returns *this.

bitset<N>&
operator>>(size_t pos) const;

Returns bitset<N>(*this) >>= pos.

bitset<N>&
operator<<(size_t pos) const;

Returns bitset<N>(*this) <<= pos.

bitset<N>
operator~() const;

Returns the bitset that is the logical complement of each bit in *this.

bitset<N>
operator&(const bitset<N>& lhs,
          const bitset<N>& rhs);

lhs gets logical AND of lhs with rhs.

bitset<N>
operator|(const bitset<N>& lhs,
          const bitset<N>& rhs);

lhs gets logical OR of lhs with rhs.

bitset<N>
operator^(const bitset<N>& lhs,
          const bitset<N>& rhs);

lhs gets logical XOR of lhs with rhs.

template <size_t N>
istream&
operator>>(istream& is, bitset<N>& x);

Extracts up to N characters (single-byte) from is. Stores these characters in a temporary object str of type string, then evaluates the expression x = bitset<N>(str). Characters are extracted and stored until any of the following occurs:

N characters have been extracted and stored
   An end-of-file is reached on the input sequence
   The next character is neither '0' nor '1'. In this case, the character is not extracted

Returns is.

template <size_t N>
ostream&
operator<<(ostream& os, const bitset<N>& x);

Returns os << x.to_string()

Member Functions

bool
any() const;

Returns true if any bit in *this is set. Otherwise returns false.

size_t
count() const;

Returns a count of the number of bits set in *this.

bitset<N>&
flip();

Flips all bits in *this, and returns *this.

bitset<N>&
flip(size_t pos);

Flips the bit at position pos in *this and returns *this. Throws an out_of_range exception if pos does not correspond to a valid bit position.

bool
none() const;

Returns true if no bit in *this is set.  Otherwise returns false.

bitset<N>&
reset();

Resets all bits in *this, and returns *this.

bitset<N>&
reset(size_t pos);

Resets the bit at position pos in *this. Throws an out_of_range exception if pos does not correspond to a valid bit position.

bitset<N>&
set();

Sets all bits in *this, and returns *this.

bitset<N>&
set(size_t pos, int val = 1);

Stores a new value in the bits at position pos in *this. If val is nonzero, the stored value is one, otherwise it is zero. Throws an out_of_range exception if pos does not correspond to a valid bit position.

size_t
size() const;

Returns the template parameter N.

bool
test(size_t pos) const;

Returns true if the bit at position pos is set. Throws an out_of_range exception if pos does not correspond to a valid bit position.

template<class charT, class traits, class Allocator>
basic_string<charT, traits, Allocator>
to_string();

Returns an object of type string, N characters long.
Each position in the new string is initialized with a character ('0' for zero and '1' for one) representing the value stored in the corresponding bit position of *this. Character position N - 1 corresponds to bit position 0. Subsequent decreasing character positions correspond to increasing bit positions.

unsigned long
to_ulong() const;

Returns the integral value corresponding to the bits in *this. Throws an overflow_error if these bits cannot be represented as type unsigned long.

ESPERO TE SIRVA.
 :kicking:
[size=109]
SI QUERES ENCONTRAR A JESÚS GOOGLEALO
[/size]

solarin

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Re: Vector De Bits
« Respuesta #2 en: Miércoles 6 de Septiembre de 2006, 09:05 »
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gracias, es lo justo q queria  :P

geobeid

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Re: Vector De Bits
« Respuesta #3 en: Miércoles 6 de Septiembre de 2006, 19:41 »
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PARA SERVIRLE.

"HEY DON GASTON!! TE LLEVAS EL TAZON!!! SEÑOROON!! CHAN CHAN CHAN CHAN!!!" AGUANTE HOMERO JAY SIMPSON
[size=109]
SI QUERES ENCONTRAR A JESÚS GOOGLEALO
[/size]

Bicholey

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Re: Vector De Bits
« Respuesta #4 en: Miércoles 6 de Septiembre de 2006, 22:41 »
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Cita de: "geobeid"
PARA SERVIRLE.

"HEY DON GASTON!! TE LLEVAS EL TAZON!!! SEÑOROON!! CHAN CHAN CHAN CHAN!!!" AGUANTE HOMERO JAY SIMPSON
 :lol:  :lol:  :lol:


Que bien  je je je je je je
[size=109]LOS GATOS SIEMPRE CAEMOS DE PIE !!![/size]