+ class CoreExport tokenstream : public classbase
+ {
+ private:
+ /** Original string
+ */
+ std::string tokens;
+ /** Last position of a seperator token
+ */
+ std::string::iterator last_starting_position;
+ /** Current string position
+ */
+ std::string::iterator n;
+ /** True if the last value was an ending value
+ */
+ bool last_pushed;
+ public:
+ /** Create a tokenstream and fill it with the provided data
+ */
+ tokenstream(const std::string &source);
+ ~tokenstream();
+
+ /** Fetch the next token from the stream as a std::string
+ * @param token The next token available, or an empty string if none remain
+ * @return True if tokens are left to be read, false if the last token was just retrieved.
+ */
+ bool GetToken(std::string &token);
+
+ /** Fetch the next token from the stream as an irc::string
+ * @param token The next token available, or an empty string if none remain
+ * @return True if tokens are left to be read, false if the last token was just retrieved.
+ */
+ bool GetToken(irc::string &token);
+
+ /** Fetch the next token from the stream as an integer
+ * @param token The next token available, or undefined if none remain
+ * @return True if tokens are left to be read, false if the last token was just retrieved.
+ */
+ bool GetToken(int &token);
+
+ /** Fetch the next token from the stream as a long integer
+ * @param token The next token available, or undefined if none remain
+ * @return True if tokens are left to be read, false if the last token was just retrieved.
+ */
+ bool GetToken(long &token);
+ };
+
+ /** irc::sepstream allows for splitting token seperated lists.
+ * Each successive call to sepstream::GetToken() returns
+ * the next token, until none remain, at which point the method returns
+ * an empty string.
+ */
+ class CoreExport sepstream : public classbase
+ {
+ private:
+ /** Original string.
+ */
+ std::string tokens;
+ /** Last position of a seperator token
+ */
+ std::string::iterator last_starting_position;
+ /** Current string position
+ */
+ std::string::iterator n;
+ /** Seperator value
+ */
+ char sep;
+ public:
+ /** Create a sepstream and fill it with the provided data
+ */
+ sepstream(const std::string &source, char seperator);
+ virtual ~sepstream();
+
+ /** Fetch the next token from the stream
+ * @param token The next token from the stream is placed here
+ * @return True if tokens still remain, false if there are none left
+ */
+ virtual bool GetToken(std::string &token);
+
+ /** Fetch the entire remaining stream, without tokenizing
+ * @return The remaining part of the stream
+ */
+ virtual const std::string GetRemaining();
+
+ /** Returns true if the end of the stream has been reached
+ * @return True if the end of the stream has been reached, otherwise false
+ */
+ virtual bool StreamEnd();
+ };
+
+ /** A derived form of sepstream, which seperates on commas
+ */
+ class CoreExport commasepstream : public sepstream
+ {
+ public:
+ /** Initialize with comma seperator
+ */
+ commasepstream(const std::string &source) : sepstream(source, ',')
+ {
+ }
+ };
+
+ /** A derived form of sepstream, which seperates on spaces
+ */
+ class CoreExport spacesepstream : public sepstream
+ {
+ public:
+ /** Initialize with space seperator
+ */
+ spacesepstream(const std::string &source) : sepstream(source, ' ')
+ {
+ }
+ };
+
+ /** The portparser class seperates out a port range into integers.
+ * A port range may be specified in the input string in the form
+ * "6660,6661,6662-6669,7020". The end of the stream is indicated by
+ * a return value of 0 from portparser::GetToken(). If you attempt
+ * to specify an illegal range (e.g. one where start >= end, or
+ * start or end < 0) then GetToken() will return the first element
+ * of the pair of numbers.
+ */
+ class CoreExport portparser : public classbase
+ {
+ private:
+ /** Used to split on commas
+ */
+ commasepstream* sep;
+ /** Current position in a range of ports
+ */
+ long in_range;
+ /** Starting port in a range of ports
+ */
+ long range_begin;
+ /** Ending port in a range of ports
+ */
+ long range_end;
+ /** Allow overlapped port ranges
+ */
+ bool overlapped;
+ /** Used to determine overlapping of ports
+ * without O(n) algorithm being used
+ */
+ std::map<long, bool> overlap_set;
+ /** Returns true if val overlaps an existing range
+ */
+ bool Overlaps(long val);
+ public:
+ /** Create a portparser and fill it with the provided data
+ * @param source The source text to parse from
+ * @param allow_overlapped Allow overlapped ranges
+ */
+ portparser(const std::string &source, bool allow_overlapped = true);
+ /** Frees the internal commasepstream object
+ */
+ ~portparser();
+ /** Fetch the next token from the stream
+ * @return The next port number is returned, or 0 if none remain
+ */
+ long GetToken();
+ };
+
+ /** Used to hold a bitfield definition in dynamicbitmask.
+ * You must be allocated one of these by dynamicbitmask::Allocate(),
+ * you should not fill the values yourself!
+ */
+ typedef std::pair<size_t, unsigned char> bitfield;
+
+ /** The irc::dynamicbitmask class is used to maintain a bitmap of
+ * boolean values, which can grow to any reasonable size no matter
+ * how many bitfields are in it.
+ *
+ * It starts off at 32 bits in size, large enough to hold 32 boolean
+ * values, with a memory allocation of 8 bytes. If you allocate more
+ * than 32 bits, the class will grow the bitmap by 8 bytes at a time
+ * for each set of 8 bitfields you allocate with the Allocate()
+ * method.
+ *
+ * This method is designed so that multiple modules can be allocated
+ * bit values in a bitmap dynamically, rather than having to define
+ * costs in a fixed size unsigned integer and having the possibility
+ * of collisions of values in different third party modules.
+ *
+ * IMPORTANT NOTE:
+ *
+ * To use this class, you must derive from it.
+ * This is because each derived instance has its own freebits array
+ * which can determine what bitfields are allocated on a TYPE BY TYPE
+ * basis, e.g. an irc::dynamicbitmask type for Users, and one for
+ * Channels, etc. You should inheret it in a very simple way as follows.
+ * The base class will resize and maintain freebits as required, you are
+ * just required to make the pointer static and specific to this class
+ * type.
+ *
+ * \code
+ * class mydbitmask : public irc::dynamicbitmask
+ * {
+ * private:
+ *
+ * static unsigned char* freebits;
+ *
+ * public:
+ *
+ * mydbitmask() : irc::dynamicbitmask()
+ * {
+ * freebits = new unsigned char[this->bits_size];
+ * memset(freebits, 0, this->bits_size);
+ * }
+ *
+ * ~mydbitmask()
+ * {
+ * delete[] freebits;
+ * }
+ *
+ * unsigned char* GetFreeBits()
+ * {
+ * return freebits;
+ * }
+ *
+ * void SetFreeBits(unsigned char* freebt)
+ * {
+ * freebits = freebt;
+ * }
+ * };
+ * \endcode
+ */
+ class CoreExport dynamicbitmask : public classbase
+ {
+ private:
+ /** Data bits. We start with four of these,
+ * and we grow the bitfield as we allocate
+ * more than 32 entries with Allocate().
+ */
+ unsigned char* bits;
+ protected:
+ /** Current set size (size of freebits and bits).
+ * Both freebits and bits will ALWAYS be the
+ * same length.
+ */
+ unsigned char bits_size;
+ public:
+ /** Allocate the initial memory for bits and
+ * freebits and zero the memory.
+ */
+ dynamicbitmask();
+
+ /** Free the memory used by bits and freebits
+ */
+ virtual ~dynamicbitmask();
+
+ /** Allocate an irc::bitfield.
+ * @return An irc::bitfield which can be used
+ * with Get, Deallocate and Toggle methods.
+ * @throw Can throw std::bad_alloc if there is
+ * no ram left to grow the bitmask.
+ */
+ bitfield Allocate();
+
+ /** Deallocate an irc::bitfield.
+ * @param An irc::bitfield to deallocate.
+ * @return True if the bitfield could be
+ * deallocated, false if it could not.
+ */
+ bool Deallocate(bitfield &pos);
+
+ /** Toggle the value of a bitfield.
+ * @param pos A bitfield to allocate, previously
+ * allocated by dyamicbitmask::Allocate().
+ * @param state The state to set the field to.
+ */
+ void Toggle(bitfield &pos, bool state);
+
+ /** Get the value of a bitfield.
+ * @param pos A bitfield to retrieve, previously
+ * allocated by dyamicbitmask::Allocate().
+ * @return The value of the bitfield.
+ * @throw Will throw ModuleException if the bitfield
+ * you provide is outside of the range
+ * 0 >= bitfield.first < size_bits.
+ */
+ bool Get(bitfield &pos);
+
+ /** Return the size in bytes allocated to the bits
+ * array.
+ * Note that the actual allocation is twice this,
+ * as there are an equal number of bytes allocated
+ * for the freebits array.
+ */
+ unsigned char GetSize();
+
+ /** Get free bits mask
+ */
+ virtual unsigned char* GetFreeBits() { return NULL; }
+
+ /** Set free bits mask
+ */
+ virtual void SetFreeBits(unsigned char* freebits) { freebits = freebits; }
+ };
+
+ /** Turn _ characters in a string into spaces
+ * @param n String to translate
+ * @return The new value with _ translated to space.
+ */
+ CoreExport const char* Spacify(const char* n);