GeoTessCPP  2.1
Software to facilitate storage and retrieval of 3D information about the Earth.
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geotess::IFStreamBinary Class Reference

#include <IFStreamBinary.h>

Public Member Functions

 IFStreamBinary ()
 
 IFStreamBinary (bool align)
 
 IFStreamBinary (const string &filename)
 
 IFStreamBinary (const string &filename, int num_bytes)
 
 IFStreamBinary (string *str)
 
 IFStreamBinary (const IFStreamBinary &db)
 
virtual ~IFStreamBinary ()
 
void boundaryAlignmentOff ()
 
void boundaryAlignmentOn ()
 
void byteOrderReverseOff ()
 
void byteOrderReverseOn ()
 
void clear ()
 
void decrementPos (int decrement=1)
 
void dumpBuffer ()
 
int getCapacity () const
 
const string & getData () const
 
const string & getFileName () const
 
int getPos () const
 
char * getPosPointer ()
 
char * getPosPointer (int pos)
 
void incrementPos (int increment=1)
 
bool isBoundaryAlignmentOn () const
 
bool isByteOrderReversalOn () const
 
IFStreamBinaryoperator= (const IFStreamBinary &db)
 
bool readBool ()
 
bool readBool (int pos)
 
void readBoolArray (bool *array, int num_bools)
 
byte readByte ()
 
byte readByte (int pos)
 
void readByteArray (byte *array, int num_bs)
 
void readCharArray (string &s, int num_chars)
 
void readCharArray (char *array, int num_chars)
 
double readDouble ()
 
double readDouble (int pos)
 
void readDoubleArray (double *array, int num_doubles)
 
double readDoubleNC ()
 
float readFloat ()
 
float readFloat (int pos)
 
void readFloatArray (float *array, int num_floats)
 
float readFloatNC ()
 
void readFromFile (const string &filename)
 
void readFromFile (const string &filename, int num_bytes)
 
void readFromFile (ifstream &ifs, int num_bytes)
 
int readInt ()
 
int readInt (int pos)
 
void readIntArray (int *array, int num_ints)
 
int readIntNC ()
 
LONG_INT readLong ()
 
LONG_INT readLong (int pos)
 
void readLongArray (LONG_INT *array, int num_longs)
 
LONG_INT readLongNC ()
 
short readShort ()
 
short readShort (int pos)
 
void readShortArray (short *array, int num_shorts)
 
short readShortNC ()
 
string readString ()
 
void readString (string &s)
 
void readType (string &s)
 
void readType (bool &b)
 
void readType (byte &b)
 
void readType (short &s)
 
void readType (int &i)
 
void readType (LONG_INT &l)
 
void readType (float &f)
 
void readType (double &d)
 
void readTypeArray (string &array, int num_chars)
 
void readTypeArray (bool *array, int num_bools)
 
void readTypeArray (byte *array, int num_bs)
 
void readTypeArray (short *array, int num_shorts)
 
void readTypeArray (int *array, int num_ints)
 
void readTypeArray (LONG_INT *array, int num_longs)
 
void readTypeArray (float *array, int num_floats)
 
void readTypeArray (double *array, int num_doubles)
 
void reserve (int sze)
 
void resetPos ()
 
void reSize (int spc)
 
void setBoundaryAlignment (bool align)
 
void setByteOrderReverse (bool bor)
 
void setMemoryCapacityIncrement (int mci)
 
void setPosToEnd ()
 
int size ()
 
void writeBool (bool b)
 
void writeBool (bool b, int pos)
 
void writeBoolArray (const bool *array, int num_bools)
 
void writeBoolNC (bool b)
 
void writeByte (byte b)
 
void writeByte (byte b, int pos)
 
void writeByteArray (const byte *array, int num_bytes)
 
void writeByteNC (byte b)
 
void writeCharArray (const char *array, int num_chars)
 
void writeDouble (double d)
 
void writeDouble (double d, int pos)
 
void writeDoubleArray (const double *array, int num_doubles)
 
void writeDoubleNC (double d)
 
void writeFloat (float f)
 
void writeFloat (float f, int pos)
 
void writeFloatArray (const float *array, int num_floats)
 
void writeFloatNC (float f)
 
void writeInt (int i)
 
void writeInt (int i, int pos)
 
void writeIntArray (const int *array, int num_ints)
 
void writeIntNC (int i)
 
void writeLong (LONG_INT l)
 
void writeLong (LONG_INT l, int pos)
 
void writeLongArray (const LONG_INT *array, int num_longs)
 
void writeLongNC (LONG_INT l)
 
void writeShort (short i)
 
void writeShort (short i, int pos)
 
void writeShortArray (const short *array, int num_ints)
 
void writeShortNC (short i)
 
void writeString (const string &str)
 
void writeString (const char *char_string)
 
void writeToFile (const string &filename)
 
void writeToFile (ofstream &ofs)
 
void writeType (const string &str)
 
void writeType (const char *char_string)
 
void writeType (bool b)
 
void writeType (byte b)
 
void writeType (short i)
 
void writeType (int i)
 
void writeType (LONG_INT l)
 
void writeType (float f)
 
void writeType (double d)
 
void writeTypeArray (const bool *array, int num_bools)
 
void writeTypeArray (const byte *array, int num_bytes)
 
void writeTypeArray (const short *array, int num_ints)
 
void writeTypeArray (const int *array, int num_ints)
 
void writeTypeArray (const LONG_INT *array, int num_longs)
 
void writeTypeArray (const float *array, int num_floats)
 
void writeTypeArray (const double *array, int num_doubles)
 

Static Public Member Functions

static string className ()
 
static int classSize ()
 
static bool exists (const string &filename)
 

Protected Member Functions

void align2Byte ()
 
void align4Byte ()
 
void align8Byte ()
 
void checkBufferSize (int sincr)
 

Static Protected Member Functions

static void reverseBO2 (char *d)
 
static void reverseBO2Array (int n, char *a)
 
static void reverseBO4 (char *d)
 
static void reverseBO4Array (int n, char *a)
 
static void reverseBO8 (char *d)
 
static void reverseBO8Array (int n, char *a)
 
static void reverseBOArray (int n, char *a, int s)
 

Protected Attributes

bool bAlign
 
string * bData
 
int bDataPos
 
string bFileName
 
int bMemIncr
 
bool bOwnStr
 
bool bReverse
 
int bSize
 

Detailed Description

Opens a file for binary read and write access. The read portion is configured to parse binary files using standard readType(...) functionality.

Functionality is provided to read elemental, strings, booleans, bytes, shorts, ints, longs, floats, or doubles, as-well-as array input forms of each (except strings). The binary file can be read in intrinsic alignment form (somewhat faster) where doubles and longs are assumed to be read (and written) along 8 bytes boundaries, floats and ints are aligned on 4 byte boundaries, and shorts are aligned on a 2 byte boundary. A little/big-endian byte reversal flag can be set to reverse the byte structure if necessary.

Constructor & Destructor Documentation

geotess::IFStreamBinary::IFStreamBinary ( )

Public Default Constructor.

geotess::IFStreamBinary::IFStreamBinary ( bool  align)

Standard constructor that sets the padding (alignment) option to align.

geotess::IFStreamBinary::IFStreamBinary ( const string &  filename)

Standard constructor creates a new IFStreamBinary and opens reads its buffer from the input filename

geotess::IFStreamBinary::IFStreamBinary ( const string &  filename,
int  num_bytes 
)

Standard constructor creates a new IFStreamBinary and opens reads its buffer from the input filename

geotess::IFStreamBinary::IFStreamBinary ( string *  str)

Standard constructor that uses a provided string ptr as the data container.

geotess::IFStreamBinary::IFStreamBinary ( const IFStreamBinary db)

Copy Constructor.

virtual geotess::IFStreamBinary::~IFStreamBinary ( )
virtual

Public destructor

Member Function Documentation

void geotess::IFStreamBinary::align2Byte ( )
inlineprotected

Ensure that the buffer position pointer (dbDataPos) is aligned on a 4 byte boundary.

void geotess::IFStreamBinary::align4Byte ( )
inlineprotected

Ensure that the buffer position pointer (dbDataPos) is aligned on a 4 byte boundary.

void geotess::IFStreamBinary::align8Byte ( )
inlineprotected

Ensure that the buffer position pointer (dbDataPos) is aligned on a 8 byte boundary.

void geotess::IFStreamBinary::boundaryAlignmentOff ( )
inline

Turns off intrinsic boundary alignment.

void geotess::IFStreamBinary::boundaryAlignmentOn ( )
inline

Turns on intrinsic boundary alignment.

void geotess::IFStreamBinary::byteOrderReverseOff ( )
inline

Turns off byte order reversal.

void geotess::IFStreamBinary::byteOrderReverseOn ( )
inline

Turns on byte order reversal.

void geotess::IFStreamBinary::checkBufferSize ( int  sincr)
inlineprotected

This function checks to make sure that the buffer is large enough to contain sincr more bytes ... if not it is resized so that it can.

static string geotess::IFStreamBinary::className ( )
inlinestatic
static int geotess::IFStreamBinary::classSize ( )
inlinestatic
void geotess::IFStreamBinary::clear ( )
inline

Clears the buffer.

void geotess::IFStreamBinary::decrementPos ( int  decrement = 1)
inline

Decrement the iterator position.

void geotess::IFStreamBinary::dumpBuffer ( )

Debug dump of the data.

static bool geotess::IFStreamBinary::exists ( const string &  filename)
static

Static function that returns true if the input filename exists.

int geotess::IFStreamBinary::getCapacity ( ) const
inline

Return the allocated capacity of this IFStreamBinary.

const string& geotess::IFStreamBinary::getData ( ) const
inline

Return a const reference to 'this' IFStreamBinarys data.

const string& geotess::IFStreamBinary::getFileName ( ) const
inline

Return the file name with which this binary reader was opened

int geotess::IFStreamBinary::getPos ( ) const
inline

Get the current iterator position.

char* geotess::IFStreamBinary::getPosPointer ( )
inline

Return a pointer at the current iterator location in the IFStreamBinary data.

char* geotess::IFStreamBinary::getPosPointer ( int  pos)
inline

Return a pointer to position pos in 'this' IFStreamBinarys data.

void geotess::IFStreamBinary::incrementPos ( int  increment = 1)
inline

Increment the iterator position.

bool geotess::IFStreamBinary::isBoundaryAlignmentOn ( ) const
inline

Returns true if the byte order in reads and writes is reversed for all 2, 4, or 8 byte intrinsincs (short, int, long, float, double, etc.).

bool geotess::IFStreamBinary::isByteOrderReversalOn ( ) const
inline

Returns true if the byte order in reads and writes is reversed for all 2, 4, or 8 byte intrinsincs (short, int, long, float, double, etc.).

IFStreamBinary& geotess::IFStreamBinary::operator= ( const IFStreamBinary db)

Assignment operator

bool geotess::IFStreamBinary::readBool ( )
inline

Read bool data. readBool() reads one bool from the IFStreamBinary and updates buffer iterator. The second form specifies where to read but does not update the iterator. The last form reads num_bool into the input array. readType is for templatization and behaves like readBool(). Similarly, readTypeArray behaves as readBoolArray.

Read in a single bool and return it.

bool geotess::IFStreamBinary::readBool ( int  pos)
inline

Read in a single bool starting at the input position and return it. Don't check for alignment.

void geotess::IFStreamBinary::readBoolArray ( bool *  array,
int  num_bools 
)
inline

Read in num_bools into the input array.

byte geotess::IFStreamBinary::readByte ( )
inline

Read byte data. readByte() reads one byte from the IFStreamBinary and updates buffer iterator. The second form specifies where to read but does not update the iterator. The last form reads num_bytes into the input array. readType is for templatization and behaves like readByte(). Similarly, readTypeArray behaves as readByteArray.

Read in a single byte and return it.

byte geotess::IFStreamBinary::readByte ( int  pos)
inline

Read in a single byte starting at the input position and return it. Don't check for alignment.

void geotess::IFStreamBinary::readByteArray ( byte array,
int  num_bytes 
)
inline

Read in num_bytes into the input array.

void geotess::IFStreamBinary::readCharArray ( string &  s,
int  num_chars 
)
inline

Read in num_chars to the string s

void geotess::IFStreamBinary::readCharArray ( char *  array,
int  num_chars 
)
inline

Read in num_chars to the presized character array

double geotess::IFStreamBinary::readDouble ( )
inline

Read double data. readDouble() reads one double from the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment is assumed to be ok (not checked). The third form specifies where to read but does not update the iterator or check alignment. The last form reads num_doubles into the input array. readType is for templatization and behaves like readDouble(). Similarly, readTypeArray behaves as readDoubleArray.

Read in a single double and return it.

double geotess::IFStreamBinary::readDouble ( int  pos)
inline

Read in a single double starting at the input position and return it. Don't check for alignment.

void geotess::IFStreamBinary::readDoubleArray ( double *  array,
int  num_doubles 
)
inline

Read in num_doubles into the input array.

double geotess::IFStreamBinary::readDoubleNC ( )
inline

Read in a single double and return it. Don't check for alignment.

float geotess::IFStreamBinary::readFloat ( )
inline

Read float data. readFloat() reads one float from the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment is assumed to be ok (not checked). The third form specifies where to read but does not update the iterator or check alignment. The last form reads num_floats into the input array. readType is for templatization and behaves like readFloat(). Similarly, readTypeArray behaves as readFloatArray.

Read in a single float and return it.

float geotess::IFStreamBinary::readFloat ( int  pos)
inline

Read in a single float starting at the input position and return it. Don't check for alignment.

void geotess::IFStreamBinary::readFloatArray ( float *  array,
int  num_floats 
)
inline

Read in num_floats into the input array.

float geotess::IFStreamBinary::readFloatNC ( )
inline

Read in a single float and return it. Don't check for alignment.

void geotess::IFStreamBinary::readFromFile ( const string &  filename)

Read and fills the buffer from the input file name.

void geotess::IFStreamBinary::readFromFile ( const string &  filename,
int  num_bytes 
)

Read num_bytes from input file (Partial read).

void geotess::IFStreamBinary::readFromFile ( ifstream &  ifs,
int  num_bytes 
)

Reads num_bytes data from the input ifstream into this buffer. the read begins at position file_pos in the input stream. Reads num_bytes data from the input ifstream into this buffer.

int geotess::IFStreamBinary::readInt ( )
inline

Read int data. readInt() reads one int from the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment is assumed to be ok (not checked). The third form specifies where to read but does not update the iterator or check alignment. The last form reads num_ints into the input array. readType is for templatization and behaves like readInt(). Similarly, readTypeArray behaves as readIntArray.

Read in a single int and return it.

int geotess::IFStreamBinary::readInt ( int  pos)
inline

Read in a single int starting at the input position and return it. Don't check for alignment.

void geotess::IFStreamBinary::readIntArray ( int *  array,
int  num_ints 
)
inline

Read in num_ints into the input array.

int geotess::IFStreamBinary::readIntNC ( )
inline

Read in a single int and return it. Don't check for alignment.

LONG_INT geotess::IFStreamBinary::readLong ( )
inline

Read long data. readLong() reads one long from the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment is assumed to be ok (not checked). The third form specifies where to read but does not update the iterator or check alignment. The last form reads num_longs into the input array. readType is for templatization and behaves like readLong(). Similarly, readTypeArray behaves as readLongArray.

Read in a single long and return it.

LONG_INT geotess::IFStreamBinary::readLong ( int  pos)
inline

Read in a single long starting at the input position and return it. Don't check for alignment.

void geotess::IFStreamBinary::readLongArray ( LONG_INT array,
int  num_longs 
)
inline

Read in num_longs into the input array.

LONG_INT geotess::IFStreamBinary::readLongNC ( )
inline

Read in a single long and return it. Don't check for alignment.

short geotess::IFStreamBinary::readShort ( )
inline

Read short data. readShort() reads one short from the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment is assumed to be ok (not checked). The third form specifies where to read but does not update the iterator or check alignment. The last form reads num_shorts into the input array. readType is for templatization and behaves like readShort(). Similarly, readTypeArray behaves as readShortArray.

Read in a single short and return it.

short geotess::IFStreamBinary::readShort ( int  pos)
inline

Read in a single short starting at the input position and return it. Don't check for alignment.

void geotess::IFStreamBinary::readShortArray ( short *  array,
int  num_shorts 
)
inline

Read in num_shorts into the input array.

short geotess::IFStreamBinary::readShortNC ( )
inline

Read in a single short and return it. Don't check for alignment.

string geotess::IFStreamBinary::readString ( )
inline

Read string data. readString() assumes the string length immediately precedes the string data. readString(string& s) is the same as the first but assigns the string to the input reference. The next two functions read in num_chars and assign them into the input string reference s, or presized character array, respectively. The functions readType* are for templatized access.

Read in a single string and return it.

void geotess::IFStreamBinary::readString ( string &  s)
inline

Read in a string and assign it to s.

void geotess::IFStreamBinary::readType ( string &  s)
inline

Read in a string and assign it to s.

void geotess::IFStreamBinary::readType ( bool &  b)
inline

Read in a single bool and assign to s.

void geotess::IFStreamBinary::readType ( byte b)
inline

Read in a single byte and assign to s.

void geotess::IFStreamBinary::readType ( short &  s)
inline

Read in a single short and assign to s.

void geotess::IFStreamBinary::readType ( int &  i)
inline

Read in a single int and assign to i.

void geotess::IFStreamBinary::readType ( LONG_INT l)
inline

Read in a single long and assign to l.

void geotess::IFStreamBinary::readType ( float &  f)
inline

Read in a single float and assign to f.

void geotess::IFStreamBinary::readType ( double &  d)
inline

Read in a single double and assign to d.

void geotess::IFStreamBinary::readTypeArray ( string &  s,
int  num_chars 
)
inline

Read in num_chars to the string s

void geotess::IFStreamBinary::readTypeArray ( bool *  array,
int  num_bools 
)
inline

Read in num_bools into the input array.

void geotess::IFStreamBinary::readTypeArray ( byte array,
int  num_bytes 
)
inline

Read in num_bytes into the input array.

void geotess::IFStreamBinary::readTypeArray ( short *  array,
int  num_shorts 
)
inline

Read in num_shorts into the input array.

void geotess::IFStreamBinary::readTypeArray ( int *  array,
int  num_ints 
)
inline

Read in num_ints into the input array.

void geotess::IFStreamBinary::readTypeArray ( LONG_INT array,
int  num_longs 
)
inline

Read in num_longs into the input array.

void geotess::IFStreamBinary::readTypeArray ( float *  array,
int  num_floats 
)
inline

Read in num_floats into the input array.

void geotess::IFStreamBinary::readTypeArray ( double *  array,
int  num_doubles 
)
inline

Read in num_doubles into the input array.

void geotess::IFStreamBinary::reserve ( int  sze)
inline

Sets the storage capacity. Attained on next required resize.

void geotess::IFStreamBinary::resetPos ( )
inline

Reset the current iterator position to the beginning of the buffer.

void geotess::IFStreamBinary::reSize ( int  spc)
inline

This function allocates spc bytes in the buffer. Used to minimize reallocation.

void geotess::IFStreamBinary::reverseBO2 ( char *  d)
inlinestaticprotected

Reverses byte order of d. d is assumed to point to an 2 byte element.

static void geotess::IFStreamBinary::reverseBO2Array ( int  n,
char *  a 
)
staticprotected
void geotess::IFStreamBinary::reverseBO4 ( char *  d)
inlinestaticprotected

Reverses byte order of d. d is assumed to point to an 4 byte element.

static void geotess::IFStreamBinary::reverseBO4Array ( int  n,
char *  a 
)
staticprotected
void geotess::IFStreamBinary::reverseBO8 ( char *  d)
inlinestaticprotected

Reverses byte order of d. d is assumed to point to an 8 byte element.

static void geotess::IFStreamBinary::reverseBO8Array ( int  n,
char *  a 
)
staticprotected
static void geotess::IFStreamBinary::reverseBOArray ( int  n,
char *  a,
int  s 
)
staticprotected
void geotess::IFStreamBinary::setBoundaryAlignment ( bool  align)
inline

Sets the intrinsic boundary alignment flag to align.

void geotess::IFStreamBinary::setByteOrderReverse ( bool  bor)
inline

Sets the byte order reverse flag to bor.

void geotess::IFStreamBinary::setMemoryCapacityIncrement ( int  mci)
inline

Set the amount of memory increase (bytes) for bData everytime it's current capacity is exceeded (defaults to 1MB = 1000000).

void geotess::IFStreamBinary::setPosToEnd ( )
inline

Set the current iterator position to the end of the buffer.

int geotess::IFStreamBinary::size ( )
inline

Returns the IFStreamBinary size.

void geotess::IFStreamBinary::writeBool ( bool  b)
inline

Write bool data. writeBool writes one byte to the IFStreamBinary and updates buffer iterator. The second form is like the first except that sufficient buffer size is not checked. The third form simply writes the data at the input position (pos) but does not check for buffer size, nor does it update the internal buffer iterator. The last method writes num_bools from the input array into 'this' IFStreamBinary. writeType is for templatization and behaves like writeBool. Similarly, writeTypeArray behaves like writeBoolArray.

Write the input bool at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeBool ( bool  b,
int  pos 
)
inline

Write the input bool at the input buffer position. Don't check for alignment or sufficient buffer size. Don't update the internal buffer position.

void geotess::IFStreamBinary::writeBoolArray ( const bool *  array,
int  num_bools 
)
inline

Write num_bools from the input bool array to the output buffer.

void geotess::IFStreamBinary::writeBoolNC ( bool  b)
inline

Write the input bool at the current buffer position. Don't check for alignment or sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeByte ( byte  b)
inline

Write byte data. writeByte writes one byte to the IFStreamBinary and updates buffer iterator. The second form is like the first except that sufficient buffer size is not checked. The third form simply writes the data at the input position (pos) but does not check for buffer size, nor does it update the internal buffer iterator. The last method writes num_bytes from the input array into 'this' IFStreamBinary. writeType is for templatization and behaves like writeByte. Similarly, writeTypeArray behaves like writeByteArray.

Write the input byte at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeByte ( byte  b,
int  pos 
)
inline

Write the input byte at the input buffer position. Don't check for alignment or sufficient buffer size. Don't update the internal buffer position.

void geotess::IFStreamBinary::writeByteArray ( const byte array,
int  num_bytes 
)
inline

Write num_bytes from the input byte array to the output buffer.

void geotess::IFStreamBinary::writeByteNC ( byte  b)
inline

Write the input byte at the current buffer position. Don't check for alignment or sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeCharArray ( const char *  array,
int  num_chars 
)
inline

Write num_chars from the input character array to the output buffer.

void geotess::IFStreamBinary::writeDouble ( double  d)
inline

Write double data. writeDouble writes one double to the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment and sufficient buffer size are not checked. The third form simply writes the data at the input position (pos) but does not check for alignment, buffer size, nor does it update the internal buffer iterator. The last method writes num_doubles from the input array into 'this' IFStreamBinary. writeType is for templatization and behaves like writeDouble. Similarly, writeTypeArray behaves like writeDoubleArray.

Write the input double at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeDouble ( double  d,
int  pos 
)
inline

Write the input double at the input buffer position. Don't check for alignment or sufficient buffer size. Don't update the internal buffer position.

void geotess::IFStreamBinary::writeDoubleArray ( const double *  array,
int  num_doubles 
)
inline

Write num_doubles from the input double array to the output buffer.

void geotess::IFStreamBinary::writeDoubleNC ( double  d)
inline

Write the input double at the current buffer position. Don't check for alignment or sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeFloat ( float  f)
inline

Write float data. writeFloat writes one float to the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment and sufficient buffer size are not checked. The third form simply writes the data at the input position (pos) but does not check for alignment, buffer size, nor does it update the internal buffer iterator. The last method writes num_floats from the input array into 'this' IFStreamBinary. writeType is for templatization and behaves like writeFloat. Similarly, writeTypeArray behaves like writeFloatArray.

Write the input float at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeFloat ( float  f,
int  pos 
)
inline

Write the input float at the input buffer position. Don't check for alignment or sufficient buffer size. Don't update the internal buffer position.

void geotess::IFStreamBinary::writeFloatArray ( const float *  array,
int  num_floats 
)
inline

Write num_floats from the input float array to the output buffer.

void geotess::IFStreamBinary::writeFloatNC ( float  f)
inline

Write the input float at the current buffer position. Don't check for alignment or sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeInt ( int  i)
inline

Write int data. writeInt writes one int to the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment and sufficient buffer size are not checked. The third form simply writes the data at the input position (pos) but does not check for alignment, buffer size, nor does it update the internal buffer iterator. The last method writes num_ints from the input array into 'this' IFStreamBinary. writeType is for templatization and behaves like writeInt. Similarly, writeTypeArray behaves like writeIntArray.

Write the input int at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeInt ( int  i,
int  pos 
)
inline

Write the input int at the input buffer position. Don't check for alignment or sufficient buffer size. Don't update the internal buffer position.

void geotess::IFStreamBinary::writeIntArray ( const int *  array,
int  num_ints 
)
inline

Write num_ints from the input int array to the output buffer.

void geotess::IFStreamBinary::writeIntNC ( int  i)
inline

Write the input int at the current buffer position. Don't check for alignment or sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeLong ( LONG_INT  l)
inline

Write long data. writeLong writes one long to the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment and sufficient buffer size are not checked. The third form simply writes the data at the input position (pos) but does not check for alignment, buffer size, nor does it update the internal buffer iterator. The last method writes num_longs from the input array into 'this' IFStreamBinary. writeType is for templatization and behaves like writeLong. Similarly, writeTypeArray behaves like writeLongArray.

Write the input long at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeLong ( LONG_INT  l,
int  pos 
)
inline

Write the input long at the input buffer position. Don't check for alignment or sufficient buffer size. Don't update the internal buffer position.

void geotess::IFStreamBinary::writeLongArray ( const LONG_INT array,
int  num_longs 
)
inline

Write num_longs from the input long array to the output buffer.

void geotess::IFStreamBinary::writeLongNC ( LONG_INT  l)
inline

Write the input long at the current buffer position. Don't check for alignment or sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeShort ( short  s)
inline

Write short data. writeShort writes one short to the IFStreamBinary and updates buffer iterator. The second form is like the first except that byte alignment and sufficient buffer size are not checked. The third form simply writes the data at the input position (pos) but does not check for alignment, buffer size, nor does it update the internal buffer iterator. The last method writes num_shorts from the input array into 'this' IFStreamBinary. writeType is for templatization and behaves like writeShort. Similarly, writeTypeArray behaves like writeShortArray.

Write the input short at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeShort ( short  s,
int  pos 
)
inline

Write the input short at the input buffer position. Don't check for alignment or sufficient buffer size. Don't update the internal buffer position.

void geotess::IFStreamBinary::writeShortArray ( const short *  array,
int  num_shorts 
)
inline

Write num_shorts from the input short array to the output buffer.

void geotess::IFStreamBinary::writeShortNC ( short  s)
inline

Write the input short at the current buffer position. Don't check for alignment or sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeString ( const string &  str)
inline

Write string data to 'this' IFStreamBinary. The two writeString functions first writes the the input string length immediately followed by the string data. The next function writes num_chars from the input character array into 'this' IFStreamBinary. readType is for templatization and behaves like readString(). Similarly, readTypeArray behaves like readCharArray.

Write the input string at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit. Both the string size (int) and the strings data are written.

void geotess::IFStreamBinary::writeString ( const char *  char_string)
inline

Write the null terminated character string at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit. Both the string size (int) and its data are written.

void geotess::IFStreamBinary::writeToFile ( const string &  filename)

Write the buffer to the output file name.

void geotess::IFStreamBinary::writeToFile ( ofstream &  ofs)

Write the buffer to the output stream.

void geotess::IFStreamBinary::writeType ( const string &  str)
inline

Write the input string at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit. Both the string size (int) and the strings data are written.

void geotess::IFStreamBinary::writeType ( const char *  char_string)
inline

Write the null terminated character string at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit. Both the string size (int) and its data are written.

void geotess::IFStreamBinary::writeType ( bool  b)
inline

Write the input bool at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeType ( byte  b)
inline

Write the input byte at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeType ( short  s)
inline

Write the input short at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeType ( int  i)
inline

Write the input int at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeType ( LONG_INT  l)
inline

Write the input long at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeType ( float  f)
inline

Write the input float at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeType ( double  d)
inline

Write the input double at the current buffer position. Ensure alignment and sufficient buffer size. Increment the internal buffer position on exit.

void geotess::IFStreamBinary::writeTypeArray ( const bool *  array,
int  num_bools 
)
inline

Write num_bools from the input bool array to the output buffer.

void geotess::IFStreamBinary::writeTypeArray ( const byte array,
int  num_bytes 
)
inline

Write num_bytes from the input byte array to the output buffer.

void geotess::IFStreamBinary::writeTypeArray ( const short *  array,
int  num_shorts 
)
inline

Write num_shorts from the input short array to the output buffer.

void geotess::IFStreamBinary::writeTypeArray ( const int *  array,
int  num_ints 
)
inline

Write num_ints from the input int array to the output buffer.

void geotess::IFStreamBinary::writeTypeArray ( const LONG_INT array,
int  num_longs 
)
inline

Write num_longs from the input long array to the output buffer.

void geotess::IFStreamBinary::writeTypeArray ( const float *  array,
int  num_floats 
)
inline

Write num_floats from the input float array to the output buffer.

void geotess::IFStreamBinary::writeTypeArray ( const double *  array,
int  num_doubles 
)
inline

Write num_doubles from the input double array to the output buffer.

Member Data Documentation

bool geotess::IFStreamBinary::bAlign
protected

A boolean, that if true, maintains 4 and 8 byte alignment in support of double alignment compilation.

string* geotess::IFStreamBinary::bData
protected

A string object is used to contain the actual data.

int geotess::IFStreamBinary::bDataPos
protected

The current iterator position in the data container (dbData).

string geotess::IFStreamBinary::bFileName
protected
int geotess::IFStreamBinary::bMemIncr
protected
bool geotess::IFStreamBinary::bOwnStr
protected

A boolean, that if true, indicates the storage string for this IFStreamBinary is owned and therefore deleted when the IFStreamBinary is deleted.

bool geotess::IFStreamBinary::bReverse
protected

A boolean, that if true, reverses the byte order of all 2, 4, and 8 byte intrinsics (shorts, ints, long, floats, doubles, etc.). This flag is set by client using this IFStreamBinary (default to false ... no reversal). The flag is used to convert byte order between big- and little- endian formats.

int geotess::IFStreamBinary::bSize
protected

The current size of the data container.


The documentation for this class was generated from the following file: