SoOutput Class Reference

The SoOutput class is an abstraction of an output stream. More...

#include <Inventor/SoOutput.h>

Public Types
enum	Stage { COUNT_REFS, WRITE }
enum	Annotations { ADDRESSES = 0x01, REF_COUNTS = 0x02 }

Public Member Functions
	SoOutput (void)
	SoOutput (SoOutput *dictOut)
virtual	~SoOutput ()
virtual void	setFilePointer (FILE *newFP)
virtual FILE *	getFilePointer (void) const
virtual SbBool	openFile (const char *const fileName)
virtual void	closeFile (void)
SbBool	setCompression (const SbName &compmethod, const float level=0.5f)
virtual void	setBuffer (void *bufPointer, size_t initSize, SoOutputReallocCB *reallocFunc, int32_t offset=0)
virtual SbBool	getBuffer (void *&bufPointer, size_t &nBytes) const
virtual size_t	getBufferSize (void) const
virtual void	resetBuffer (void)
virtual void	setBinary (const SbBool flag)
virtual SbBool	isBinary (void) const
virtual void	setHeaderString (const SbString &str)
virtual void	resetHeaderString (void)
virtual void	setFloatPrecision (const int precision)
void	setStage (Stage stage)
Stage	getStage (void) const
void	incrementIndent (const int levels=1)
void	decrementIndent (const int levels=1)
virtual void	write (const char c)
virtual void	write (const char *s)
virtual void	write (const SbString &s)
virtual void	write (const SbName &n)
virtual void	write (const int i)
virtual void	write (const unsigned int i)
virtual void	write (const short s)
virtual void	write (const unsigned short s)
virtual void	write (const float f)
virtual void	write (const double d)
virtual void	writeBinaryArray (const unsigned char *c, const int length)
virtual void	writeBinaryArray (const int32_t *const l, const int length)
virtual void	writeBinaryArray (const float *const f, const int length)
virtual void	writeBinaryArray (const double *const d, const int length)
virtual void	indent (void)
virtual void	reset (void)
void	setCompact (SbBool flag)
SbBool	isCompact (void) const
void	setAnnotation (uint32_t bits)
uint32_t	getAnnotation (void)
int	addReference (const SoBase *base)
int	findReference (const SoBase *base) const
void	setReference (const SoBase *base, int refid)
void	addDEFNode (SbName name)
SbBool	lookupDEFNode (SbName name)
void	removeDEFNode (SbName name)
void	pushProto (SoProto *proto)
SoProto *	getCurrentProto (void) const
void	popProto (void)
void	addRoute (SoFieldContainer *from, const SbName &fromfield, SoFieldContainer *to, const SbName &tofield)
void	resolveRoutes (void)

Static Public Member Functions
static const SbName *	getAvailableCompressionMethods (unsigned int &num)
static SbString	getDefaultASCIIHeader (void)
static SbString	getDefaultBinaryHeader (void)

Protected Member Functions
SbBool	isToBuffer (void) const
size_t	bytesInBuf (void) const
SbBool	makeRoomInBuf (size_t nBytes)
void	convertShort (short s, char *to)
void	convertInt32 (int32_t l, char *to)
void	convertFloat (float f, char *to)
void	convertDouble (double d, char *to)
void	convertShortArray (short *from, char *to, int len)
void	convertInt32Array (int32_t *from, char *to, int len)
void	convertFloatArray (float *from, char *to, int len)
void	convertDoubleArray (double *from, char *to, int len)

Static Protected Member Functions
static SbString	padHeader (const SbString &inString)

Protected Attributes
SbBool	wroteHeader

Detailed Description

The SoOutput class is an abstraction of an output stream.

SoOutput offers the ability to write basic types to a file or a memory buffer in either ASCII or binary format.

See also

SoInput, SoWriteAction

Member Enumeration Documentation

Stage

enum SoOutput::Stage

Enumerates the possible stages of a write operation (writing needs to be done in mutiple passes).

See also

setStage(), getStage()

Enumerator
COUNT_REFS	Not writing, just counting the internal references in the scene graph.
WRITE	Signifies that actual data export should take place during this pass.

Annotations

enum SoOutput::Annotations

Values from this enum is used for debugging purposes to annotate the output from a write operation.

Enumerator
ADDRESSES	Annotate output with pointer address information.
REF_COUNTS	Annotate output with reference counts of the objects written.

Constructor & Destructor Documentation

SoOutput() [1/2]

SoOutput::SoOutput

(

void

)

The default constructor makes an SoOutput instance which will write to the standard output.

See also

setFilePointer(), openFile(), setBuffer()

SoOutput() [2/2]

SoOutput::SoOutput

(

SoOutput *

dictOut

)

Constructs an SoOutput which has a copy of the set of named references from dictOut.

~SoOutput()

SoOutput::~SoOutput ( void  )

virtual

Destructor.

Member Function Documentation

setFilePointer()

void SoOutput::setFilePointer ( FILE *  newFP )

virtual

Set up a new file pointer which we will write to.

Important note: do not use this method when the Coin library has been compiled as an MSWindows DLL, as passing FILE* instances back or forth to DLLs is dangerous and will most likely cause a crash. This is an intrinsic limitation for MSWindows DLLs.

See also

openFile(), setBuffer(), getFilePointer()

getFilePointer()

FILE * SoOutput::getFilePointer ( void  ) const

virtual

Returns the current filepointer. If we're writing to a memory buffer, NULL is returned.

Important note: do not use this method when the Coin library has been compiled as an MSWindows DLL, as passing FILE* instances back or forth to DLLs is dangerous and will most likely cause a crash. This is an intrinsic limitation for MSWindows DLLs.

See also

setFilePointer()

openFile()

SbBool SoOutput::openFile ( const char *const  fileName )

virtual

Opens a file for writing. If the file can not be opened or is not writeable, FALSE will be returned.

Files opened by this method will automatically be closed if the user supplies another filepointer, another filename for writing, or if the SoOutput instance is deleted.

See also

setFilePointer(), setBuffer(), closeFile()

closeFile()

void SoOutput::closeFile ( void  )

virtual

Closes the currently opened file, but only if the file was passed to SoOutput through the openFile() method.

See also

openFile()

setCompression()

SbBool SoOutput::setCompression	(	const SbName &	compmethod,
		const float	level = 0.5f
	)

Sets the compression method and level used when writing the file. compmethod is the compression library/method to use when compressing. level is the compression level, where 0.0 means no compression and 1.0 means maximum compression.

Currently BZIP2, GZIP are the only compression methods supported, and you have to compile Coin with zlib and bzip2-support to enable them.

Supply compmethod = NONE or level = 0.0 if you want to disable compression. The compression is disabled by default.

Please note that it's not possible to compress when writing to a memory buffer.

This method will return TRUE if the compression method selected is available. If it's not available, FALSE will be returned and compression is disabled.

See also

getAvailableCompressionMethods()

Since

Coin 2.1

getAvailableCompressionMethods()

const SbName * SoOutput::getAvailableCompressionMethods ( unsigned int &  num )

static

Returns the array of available compression methods. The number of elements in the array will be stored in num.

See also

setCompression()

Since

Coin 2.1

setBuffer()

void SoOutput::setBuffer ( void *  bufPointer, size_t  initSize, SoOutputReallocCB *  reallocFunc, int32_t  offset = 0  )

virtual

Sets up a memory buffer of size initSize for writing. Writing will start at bufPointer + offset.

If the buffer is filled up, reallocFunc is called to get more memory. If reallocFunc returns NULL, further writing is disabled.

Important note: remember that the resultant memory buffer after write operations have completed may reside somewhere else in memory than on bufPointer if reallocFunc is set. It is a good idea to make it a habit to always use getBuffer() to retrieve the memory buffer pointer after write operations.

Here's a complete, stand-alone usage example which shows how to write a scene graph to a memory buffer:

#include <Inventor/SoDB.h>
#include <Inventor/actions/SoWriteAction.h>
#include <Inventor/nodes/SoCone.h>
#include <Inventor/nodes/SoSeparator.h>

static char * buffer;
static size_t buffer_size = 0;

static void *
buffer_realloc(void * bufptr, size_t size)
{
  buffer = (char *)realloc(bufptr, size);
  buffer_size = size;
  return buffer;
}

static SbString
buffer_writeaction(SoNode * root)
{
  SoOutput out;
  buffer = (char *)malloc(1024);
  buffer_size = 1024;
  out.setBuffer(buffer, buffer_size, buffer_realloc);

  SoWriteAction wa(&out);
  wa.apply(root);

  SbString s(buffer);
  free(buffer);
  return s;
}

int
main(int argc, char ** argv)
{
  SoDB::init();

  SoSeparator * root = new SoSeparator;
  root->ref();

  root->addChild(new SoCone);

  SbString s = buffer_writeaction(root);
  (void)fprintf(stdout, "%s\n", s.getString());

  root->unref();
  return 0;
}

See also

getBuffer(), getBufferSize(), resetBuffer()

getBuffer()

SbBool SoOutput::getBuffer ( void *&  bufPointer, size_t &  nBytes  ) const

virtual

Returns the current buffer in bufPointer and the current write position of the buffer in nBytes. If we're writing into a file and not a memory buffer, FALSE is returned and the other return values will be undefined.

See also

getBufferSize()

getBufferSize()

size_t SoOutput::getBufferSize ( void  ) const

virtual

Returns total size of memory buffer.

See also

getBuffer()

resetBuffer()

void SoOutput::resetBuffer ( void  )

virtual

Reset the memory buffer write pointer back to the beginning of the buffer.

setBinary()

void SoOutput::setBinary ( const SbBool  flag )

virtual

Set whether or not to write the output as a binary stream.

See also

isBinary()

isBinary()

SbBool SoOutput::isBinary ( void  ) const

virtual

Returns a flag which indicates whether or not we're writing the output as a binary stream.

See also

setBinary()

setHeaderString()

void SoOutput::setHeaderString ( const SbString &  str )

virtual

Set the output file header string.

See also

resetHeaderString(), getDefaultASCIIHeader(), getDefaultBinaryHeader()

resetHeaderString()

void SoOutput::resetHeaderString ( void  )

virtual

Reset the header string to the default one.

See also

setHeaderString(), getDefaultASCIIHeader(), getDefaultBinaryHeader()

setFloatPrecision()

void SoOutput::setFloatPrecision ( const int  precision )

virtual

Set the precision used when writing floating point numbers to ASCII files. precision should be between 0 and 8. The double precision will be set to precision * 2.

setStage()

void SoOutput::setStage

(

Stage

stage

)

Sets an indicator on the current stage. This is necessary to do as writing has to be done in multiple stages to account for the export of references/connections within the scene graphs.

This method is basically just used from within SoWriteAction, and should usually not be of interest to the application programmer. Do not use it unless you really know what you are doing.

See also

getStage()

getStage()

SoOutput::Stage SoOutput::getStage

(

void

)

const

Returns an indicator on the current write stage. Writing is done in two passes, one to count and check connections, one to do the actual ascii or binary export of data.

You should not need to use this method, as it is meant for internal purposes in Coin.

See also

setStage()

incrementIndent()

void SoOutput::incrementIndent

(

const int

levels = 1

)

Increase indentation level in the file.

See also

decrementIndent(), indent()

decrementIndent()

void SoOutput::decrementIndent

(

const int

levels = 1

)

Decrease indentation level in the file.

See also

incrementIndent(), indent()

write() [1/10]

void SoOutput::write ( const char  c )

virtual

Write the character in c.

For binary write, the character plus 3 padding zero characters will be written.

write() [2/10]

void SoOutput::write ( const char *  s )

virtual

Write the character string pointed to by s.

For binary write, a 4-byte MSB-ordered integer with the string length, plus the string plus padding zero characters to get on a 4-byte boundary (if necessary) will be written.

write() [3/10]

void SoOutput::write ( const SbString &  s )

virtual

Write the character string in s. The string will be written with apostrophes. Cast SbString to char * to write without apostrophes.

If we are supposed to write in binary format, no apostrophes will be added, and writing will be done in the exact same manner as with SoOutput::write(const char * s).

write() [4/10]

void SoOutput::write ( const SbName &  n )

virtual

Write the character string in n. The name will be enclosed by apostrophes. If you want to write an SbName instance without the apostrophes, cast the argument to a char *.

If we are supposed to write in binary format, no apostrophes will be added, and writing will be done in the exact same manner as with SoOutput::write(const char * s).

write() [5/10]

void SoOutput::write ( const int  i )

virtual

Write i as a character string, or as an architecture independent binary pattern if the setBinary() flag is activated.

write() [6/10]

void SoOutput::write ( const unsigned int  i )

virtual

Write i as a character string, or as an architecture independent binary pattern if the setBinary() flag is activated.

write() [7/10]

void SoOutput::write ( const short  s )

virtual

Write s as a character string, or as an architecture independent binary pattern if the setBinary() flag is activated.

write() [8/10]

void SoOutput::write ( const unsigned short  s )

virtual

Write s as a character string, or as an architecture independent binary pattern if the setBinary() flag is activated. If we're writing in ASCII format, the value will be written in base 16 (hexadecimal).

write() [9/10]

void SoOutput::write ( const float  f )

virtual

Write f as a character string.

write() [10/10]

void SoOutput::write ( const double  d )

virtual

Write d as a character string.

writeBinaryArray() [1/4]

void SoOutput::writeBinaryArray ( const unsigned char *  constc, const int  length  )

virtual

Write the given number of bytes to either a file or a memory buffer in binary format.

writeBinaryArray() [2/4]

void SoOutput::writeBinaryArray ( const int32_t *const  l, const int  length  )

virtual

Write an length array of int32_t values in binary format.

writeBinaryArray() [3/4]

void SoOutput::writeBinaryArray ( const float *const  f, const int  length  )

virtual

Write an array of float values in binary format.

writeBinaryArray() [4/4]

void SoOutput::writeBinaryArray ( const double *const  d, const int  length  )

virtual

Write an array of double values in binary format.

indent()

void SoOutput::indent ( void  )

virtual

Call this method after writing a newline to a file to indent the next line to the correct position.

See also

incrementIndent(), decrementIndent()

reset()

void SoOutput::reset ( void  )

virtual

Reset all value and make ready for using another filepointer or buffer.

setCompact()

void SoOutput::setCompact

(

SbBool

flag

)

Set up the output to be more compact than with the default write routines.

isCompact()

SbBool SoOutput::isCompact

(

void

)

const

Returns whether or not the write routines tries to compact the data when writing it (i.e. using less whitespace, etc).

Note that "compact" in this sense does not mean "bitwise compression", as it could easily be mistaken for.

setAnnotation()

void SoOutput::setAnnotation

(

uint32_t

bits

)

Set up annotation of different aspects of the output data. This is not useful for much else than debugging purposes, I s'pose.

getAnnotation()

uint32_t SoOutput::getAnnotation

(

void

)

Returns the current annotation debug bitflag settings.

getDefaultASCIIHeader()

SbString SoOutput::getDefaultASCIIHeader ( void  )

static

Return the default header string written to ASCII files.

See also

setHeaderString(), resetHeaderString(), getDefaultBinaryHeader()

getDefaultBinaryHeader()

SbString SoOutput::getDefaultBinaryHeader ( void  )

static

Return the default header string written to binary files.

See also

setHeaderString(), resetHeaderString(), getDefaultASCIIHeader()

addReference()

int SoOutput::addReference

(

const SoBase *

base

)

Makes a unique id for base and adds a mapping into our dictionary.

findReference()

int SoOutput::findReference

(

const SoBase *

base

)

const

Returns the unique identifier for base or -1 if not found.

setReference()

void SoOutput::setReference	(	const SoBase *	base,
		int	refid
	)

Sets the reference for base manually.

addDEFNode()

void SoOutput::addDEFNode

(

SbName

name

)

Adds name to the set of currently DEF'ed node names so far in the output process.

lookupDEFNode()

SbBool SoOutput::lookupDEFNode

(

SbName

name

)

Checks whether name is already DEF'ed at this point in the output process. Returns TRUE if name is DEF'ed.

removeDEFNode()

void SoOutput::removeDEFNode

(

SbName

name

)

Removes name from the set of DEF'ed node names. Used after the last reference to a DEF'ed node if we want to reuse the DEF at a later point in the file.

pushProto()

void SoOutput::pushProto

(

SoProto *

proto

)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Since

Coin 2.0

getCurrentProto()

SoProto * SoOutput::getCurrentProto

(

void

)

const

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Since

Coin 2.0

popProto()

void SoOutput::popProto

(

void

)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Since

Coin 2.0

addRoute()

void SoOutput::addRoute	(	SoFieldContainer *	from,
		const SbName &	fromfield,
		SoFieldContainer *	to,
		const SbName &	tofield
	)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Since

Coin 2.0

resolveRoutes()

void SoOutput::resolveRoutes

(

void

)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Since

Coin 2.0

isToBuffer()

SbBool SoOutput::isToBuffer ( void  ) const

protected

Returns TRUE of we're set up to write to a memory buffer.

bytesInBuf()

size_t SoOutput::bytesInBuf ( void  ) const

protected

Returns current write position.

Note that for memory buffer writing, this includes the offset from SoOutput::setBuffer(), if any.

makeRoomInBuf()

SbBool SoOutput::makeRoomInBuf ( size_t  bytes )

protected

Check that the current memory buffer has enough space to contain the given number of bytes needed for the next write operation.

Returns FALSE if there's not enough space left, otherwise TRUE.

Note that there will automatically be made an attempt at allocating more memory if the realloction callback function argument of setBuffer() was not NULL.

convertShort()

void SoOutput::convertShort ( short  s, char *  to  )

protected

Convert the short integer in s to most-significant-byte first format and put the resulting bytes sequentially at to.

See also

SoInput::convertShort()

convertInt32()

void SoOutput::convertInt32 ( int32_t  l, char *  to  )

protected

Convert the 32-bit integer in l to most-significant-byte first format and put the resulting bytes sequentially at to.

See also

SoInput::convertInt32()

convertFloat()

void SoOutput::convertFloat ( float  f, char *  to  )

protected

Convert the single-precision floating point number in f to most-significant-byte first format and put the resulting bytes sequentially at to.

See also

SoInput::convertFloat()

convertDouble()

void SoOutput::convertDouble ( double  d, char *  to  )

protected

Convert the double-precision floating point number in d to most-significant-byte first format and put the resulting bytes sequentially at to.

See also

SoInput::convertDouble()

convertShortArray()

void SoOutput::convertShortArray ( short *  from, char *  to, int  len  )

protected

Convert len short integer values from the array at from into the array at to from native host format to network independent format (i.e. most significant byte first).

convertInt32Array()

void SoOutput::convertInt32Array ( int32_t *  from, char *  to, int  len  )

protected

Convert len 32-bit integer values from the array at from into the array at to from native host format to network independent format (i.e. most significant byte first).

convertFloatArray()

void SoOutput::convertFloatArray ( float *  from, char *  to, int  len  )

protected

Convert len single-precision floating point values from the array at from into the array at to from native host format to network independent format (i.e. most significant byte first).

convertDoubleArray()

void SoOutput::convertDoubleArray ( double *  from, char *  to, int  len  )

protected

Convert len double-precision floating point values from the array at from into the array at to from native host format to network independent format (i.e. most significant byte first).

padHeader()

SbString SoOutput::padHeader ( const SbString &  inString )

staticprotected

Pads the header we're writing so it contains the correct amount of bytes for the alignment of the following binary writes.

Member Data Documentation

wroteHeader

SbBool SoOutput::wroteHeader

protected

Indicates whether or not the file format header has been written out. As long as this is FALSE, the header will be written once upon the first invocation of any write method in the class.

---

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

• SoOutput.h
• SoOutput.cpp