/usr/include/ossim/imaging/ossimImageData.h is in libossim-dev 1.8.16-3+b1.
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//
// License: LGPL
//
// See LICENSE.txt file in the top level directory for more details.
//
// Author: Garrett Potts
//
// Description: Container class for a tile of image data.
//
//*******************************************************************
// $Id: ossimImageData.h 22366 2013-08-09 12:13:24Z gpotts $
#ifndef ossimImageData_HEADER
#define ossimImageData_HEADER 1
#include <vector>
#include <iosfwd> /* for ostream */
#include <ossim/base/ossimCommon.h>
#include <ossim/base/ossimRectilinearDataObject.h>
#include <ossim/base/ossimIrect.h>
#include <ossim/base/ossimIpt.h>
#include <ossim/base/ossimRefPtr.h>
class ossimMultiBandHistogram;
class OSSIMDLLEXPORT ossimImageData : public ossimRectilinearDataObject
{
public:
/** Definitions for the unloadBand routines. */
enum OverwriteBandRule
{
/*
* The COLOR_DISCREPANCY rule directs that the selected band of a pixel
* of the destination buffer is to be overwritten if *any* one of the
* other bands of the same destination pixel have color values that
* deviate from its color.
* Deprecated in favor of COLOR_DISCREPANCY_OF_ANY_FROM_DEST.
*/
COLOR_DISCREPANCY = 0,
/*
* The COLOR_DISCREPANCY_OF_ANY_FROM_DEST rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten if
* *any* one of the other bands of the same destination pixel have color
* values that deviate from its color.
* Same as the deprecated COLOR_DISCREPANCY.
*/
COLOR_DISCREPANCY_OF_ANY_FROM_DEST = 1,
/*
* The COLOR_DISCREPANCY_OF_ALL_FROM_DEST rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten only if
* *all* of the other bands of the same destination pixel have color
* values that deviate from its color.
*/
COLOR_DISCREPANCY_OF_ALL_FROM_DEST = 2,
/*
* The COLOR_EQUALITY_OF_ANY_TO_SRC rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten if
* *any* one of the other bands of the same destination pixel have color
* values that are equal to the color of the selected band of the source
* pixel.
*/
COLOR_EQUALITY_OF_ANY_TO_SRC = 3,
/*
* The COLOR_EQUALITY_OF_ALL_TO_SRC rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten only if
* *all* of the other bands of the same destination pixel have color
* values that are equal to the color of the selected band of the source
* pixel.
*/
COLOR_EQUALITY_OF_ALL_TO_SRC = 4,
/*
* The selected band of the destination buffer is to be overwritten
* by the selected band of the source image data (no questions asked).
*/
NULL_RULE = 5
};
/** @brief copy constructor */
ossimImageData(const ossimImageData &rhs);
ossimImageData();
/**
* @brief Constructor
* @param source The owner. This can be null.
* @param scalar The Scalar type like OSSIM_UINT8, OSSIM_UINT16...
* @param bands The number of bands.
*
* @note This does not initialize the undelying data buffer.
* Call the initialize method to allocate storage.
*/
ossimImageData(ossimSource* source,
ossimScalarType scalar,
ossim_uint32 bands = 1);
/**
* @brief Constructor
* @param source The owner. This can be null.
* @param scalar The Scalar type like OSSIM_UINT8, OSSIM_UINT16...
* @param bands The number of bands.
* @param width The width or number of samples in the buffer.
* @param height The height or numer of lines in the buffer.
*
* @note This does not initialize the undelying data buffer.
* Call the initialize method to allocate storage.
*/
ossimImageData(ossimSource* source,
ossimScalarType scalar,
ossim_uint32 bands,
ossim_uint32 width,
ossim_uint32 height);
/** @brief virtual destructor */
virtual ~ossimImageData();
/**
* @brief assignment operator=
* @param rhs The data to assign from.
* @param A reference to this object.
*/
virtual const ossimImageData& operator=(const ossimImageData &rhs);
/**
* @return The width of the data object.
*/
virtual ossim_uint32 getWidth()const;
/**
* @return The height of the data object.
*/
virtual ossim_uint32 getHeight()const;
/**
* @return The image rectangle relative to origin, height and width.
*/
virtual ossimIrect getImageRectangle() const;
virtual void getWidthHeight(ossim_uint32& w, ossim_uint32& h);
virtual void setWidth(ossim_uint32 width);
virtual void setHeight(ossim_uint32 height);
virtual void setWidthHeight(ossim_uint32 w, ossim_uint32 h);
virtual void setImageRectangleAndBands(const ossimIrect& rect,
ossim_uint32 numberOfBands);
virtual void setImageRectangle(const ossimIrect& rect);
virtual void setOrigin(const ossimIpt& origin);
virtual void assign(const ossimDataObject* data);
virtual void assign(const ossimImageData* data);
virtual void assignBand(const ossimImageData* data,
ossim_uint32 source_band,
ossim_uint32 output_band);
virtual ossimObject* dup() const;
/**
* Uses prime numbers as coefficients for this summation.
* Take the the fours bytes of each origin and multiply
* by the prime numbers and sum together. This has
* been proven by others to give nicely distributed
* id number.
*/
virtual ossim_uint32 getHashId()const;
virtual void setNullPix(ossim_float64 null_pix);
virtual void setNullPix(ossim_float64 null_pix, ossim_uint32 band);
virtual void setNullPix(const ossim_float64* nullPixArray,
ossim_uint32 numberOfValues);
virtual void setMinPix(ossim_float64 min_pix);
virtual void setMinPix(ossim_float64 min_pix, ossim_uint32 band);
virtual void setMinPix(const ossim_float64* minPixArray,
ossim_uint32 numberOfValues);
virtual void setMaxPix(ossim_float64 max_pix);
virtual void setMaxPix(ossim_float64 max_pix, ossim_uint32 band);
virtual void setMaxPix(const ossim_float64* maxPixArray,
ossim_uint32 numberOfValues);
virtual const ossimIpt& getOrigin()const{return m_origin;}
/**
* If the minBands and maxBands are empty or not equal to the imageData's
* current number of bands it will erase the contents, resize, and then
* replace the values in the passed in array with this objects min max
* values. If the arrays are the same size as this objects number of
* bands it will just update the values and use the current values in the
* arrays as initial min max values.
*
* If the status of this object(getDataObjectStatus()) is OSSIM_NULL or
* OSSIM_EMPTY no action is performed.
*/
virtual void computeMinMaxPix(std::vector<ossim_float64>& minBands,
std::vector<ossim_float64>& maxBands) const;
/**
* @brief Scans tile for min, max, nulls.
*
* If the nullBands, minBands and maxBands are empty or not equal to the
* imageData's current number of bands it will erase the contents, resize,
* and then replace the values in the passed in array with this objects
* min max values. If the arrays are the same size as this objects number
* of bands it will just update the values and use the current values in the
* arrays as initial min max values.
*
* If the status of this object(getDataObjectStatus()) is OSSIM_NULL no
* action is performed.
*/
virtual void computeMinMaxNulPix(
std::vector<ossim_float64>& minBands,
std::vector<ossim_float64>& maxBands,
std::vector<ossim_float64>& nulBands) const;
virtual const ossim_float64* getNullPix()const;
virtual const ossim_float64* getMinPix()const;
virtual const ossim_float64* getMaxPix()const;
virtual ossim_float64 getNullPix(ossim_uint32 band) const;
virtual ossim_float64 getMinPix(ossim_uint32 band) const;
virtual ossim_float64 getMaxPix(ossim_uint32 band) const;
/**
* returns normalized minimum pixel value of band zero.
*/
virtual ossim_float64 getMinNormalizedPix() const;
virtual ossimString getScalarTypeAsString()const;
virtual ossim_uint32 getNumberOfBands() const;
virtual void setNumberOfBands(ossim_uint32 bands,
bool reallocate=false);
/**
* Will return the pixel at location position. Note it will first get
* the passed in position relative to the origin or upper left
* corner of this tile and then return the result.
*/
virtual ossim_float64 getPix(const ossimIpt& position,
ossim_uint32 band=0) const;
/**
* Will return the pixel at offset and band number.
*/
virtual ossim_float64 getPix(ossim_uint32 offset,
ossim_uint32 band = 0) const;
/**
* will fill the entire band with
* the value.
*/
void fill(ossim_uint32 band, ossim_float64 value);
/**
* will fill all bands with the passed in
* value.
*/
void fill(ossim_float64 value);
bool isNull(ossim_uint32 offset)const;
bool isNull(ossim_uint32 offset, ossim_uint32 band)const;
void setNull(ossim_uint32 offset);
void setNull(ossim_uint32 offset, ossim_uint32 band);
bool isNull(const ossimIpt& pt)const;
void setNull(const ossimIpt& pt);
bool isNull(const ossimIpt& pt, ossim_uint32 band)const;
void setNull(const ossimIpt& pt, ossim_uint32 band);
virtual bool isValidBand(ossim_uint32 band) const;
virtual ossimDataObjectStatus validate() const;
/**
* Will take this tile and normalize it to a newly
* allocated floating point tile.
*/
virtual ossimRefPtr<ossimImageData> newNormalizedFloat()const;
/**
* will go to the band and offset and compute the
* normalized float and return it back to the
* caller through the result argument.
*/
virtual void getNormalizedFloat(ossim_uint32 offset,
ossim_uint32 bandNumber,
ossim_float32& result)const;
/**
* This will assign to this object a normalized
* value by unnormalizing to its native type.
*/
virtual void setNormalizedFloat(ossim_uint32 offset,
ossim_uint32 bandNumber,
ossim_float32 input);
/**
* Will use the memory that you pass in to normalize
* this data object.
*/
virtual void convertToNormalizedFloat(ossimImageData* result)const;
/**
* Will take this tile and normalize it to a newly
* allocated double point tile.
*/
virtual ossimImageData* newNormalizedDouble()const;
/**
* Will use the memory that you pass in to normalize
* this data object.
*/
virtual void convertToNormalizedDouble(ossimImageData* result)const;
/**
* Will take the normalized input and convert it
* to this tile's data type. Example: if this
* tile is of type UCHAR and its input is of type
* NORALIZED_FLOAT it will unnormalize the data by
* doing:
*
* minPix + normalizedInput*(maxPix-minPix)
*
* on a per band basis.
*/
virtual void unnormalizeInput(ossimImageData* normalizedInput);
/**
* This will compute the average value for the band.
*/
virtual ossim_float64 computeAverageBandValue(
ossim_uint32 bandNumber = 0) const;
/**
* This will call the compute average band value and then
* use that in the calculation of:
* It will then do a SUM[(Mean - Actual)^2]/width*height.
*
* This is the average variance from the passed in
* mean.
*/
virtual ossim_float64 computeMeanSquaredError(
ossim_float64 meanValue,
ossim_uint32 bandNumber = 0) const;
virtual void populateHistogram(ossimRefPtr<ossimMultiBandHistogram> histo);
/**
* @return true if alpha channel is initialized, false if not.
*/
virtual bool hasAlpha() const;
/**
* @return const ossim_uint8* to the alpha channel or null if the alpha
* channel was not computed.
*/
virtual const ossim_uint8* getAlphaBuf() const;
/**
* @return ossim_uint8* to the alpha channel or null if the alpha channel
* was not computed.
*/
virtual ossim_uint8* getAlphaBuf();
/**
* @return const void* to theDataBuffer
*/
virtual const void* getBuf() const;
/**
* @return const ossim_uint8* to theDataBuffer if scalar is of type
* OSSIM_UCHAR; else, NULL.
*/
virtual const ossim_uint8* getUcharBuf() const;
/**
* @return const ossim_uint16* to theDataBuffer if scalar is of type
* OSSIM_USHORT16 or USHORT11; else, NULL.
*/
virtual const ossim_uint16* getUshortBuf() const;
/**
* @return const ossim_sint16* to theDataBuffer if scalar is of type
* OSSIM_SSHORT16; else, NULL.
*/
virtual const ossim_sint16* getSshortBuf() const;
/**
* @return const ossim_float32* to theDataBuffer if scalar is of type
* OSSIM_FLOAT or OSSIM_NORMALIZED_FLOAT; else, NULL.
*/
virtual const ossim_float32* getFloatBuf() const;
/**
* @return const ossim_float64* to theDataBuffer if scalar is of type
* OSSIM_DOUBLE or OSSIM_NORMALIZED_DOUBLE; else, NULL.
*/
virtual const ossim_float64* getDoubleBuf() const;
/**
* @return void* to theDataBuffer
*/
virtual void* getBuf();
/**
* @return ossim_uint8* to theDataBuffer if scalar is of type
* OSSIM_UCHAR; else, NULL.
*/
virtual ossim_uint8* getUcharBuf();
/**
* @return ossim_uint16* to theDataBuffer if scalar is of type
* OSSIM_USHORT16 or OSSIM_USHORT11; else, NULL.
*/
virtual ossim_uint16* getUshortBuf();
/**
* @return ossim_sint16* to theDataBuffer if scalar is of type
* OSSIM_SSHORT16; else, NULL.
*/
virtual ossim_sint16* getSshortBuf();
/**
* @return ossim_float32* to theDataBuffer if scalar is of type
* OSSIM_FLOAT or OSSIM_NORMALIZED_FLOAT; else, NULL.
*/
virtual ossim_float32* getFloatBuf();
/**
* @return float64* to theDataBuffer if scalar is of type OSSIM_DOUBLE or
* OSSIM_NORMALIZED_DOUBLE; else, NULL.
*/
virtual ossim_float64* getDoubleBuf();
/**
* @param band (zero based)
* @return void* to theDataBuffer positioned at band.
*/
virtual const void* getBuf(ossim_uint32 band) const;
/**
* @param band (zero based)
* @return ossim_uint8* to theDataBuffer positioned at band if scalar is
* of type OSSIM_UCHAR; else, NULL.
*/
virtual const ossim_uint8* getUcharBuf(ossim_uint32 band) const;
/**
* @param band (zero based)
* @return ossim_uint16* to theDataBuffer positioned at band if scalar is
* of type OSSIM_USHORT16 or OSSIM_USHORT11; else, NULL.
*/
virtual const ossim_uint16* getUshortBuf(ossim_uint32 band) const;
/**
* @param band (zero based)
* @return ossim_sint16* to theDataBuffer positioned at band if scalar is
* of type OSSIM_SSHORT16; else, NULL.
*/
virtual const ossim_sint16* getSshortBuf(ossim_uint32 band) const;
/**
* @param band (zero based)
* @return ossim_float32* to theDataBuffer positioned at band if scalar is
* of type OSSIM_FLOAT or OSSIM_NORMALIZED_FLOAT; else, NULL.
*/
virtual const ossim_float32* getFloatBuf(ossim_uint32 band) const;
/**
* @param band (zero based)
* @return ossim_float64* to theDataBuffer positioned at band if scalar is
* of type OSSIM_DOUBLE or OSSIM_NORMALIZED_DOUBLE; else, NULL.
*/
virtual const ossim_float64* getDoubleBuf(ossim_uint32 band) const;
/**
* @param band (zero based)
* @return void* to theDataBuffer positioned at band.
*/
virtual void* getBuf(ossim_uint32 band);
/**
* @param band (zero based)
* @return ossim_uint8* to theDataBuffer positioned at band if scalar is
* of type OSSIM_UCHAR; else, NULL.
*/
virtual ossim_uint8* getUcharBuf(ossim_uint32 band);
/**
* @param band (zero based)
* @return ossim_uint16* to theDataBuffer positioned at band if scalar is
* of type OSSIM_USHORT16 or OSSIM_USHORT11; else, NULL.
*/
virtual ossim_uint16* getUshortBuf(ossim_uint32 band);
/**
* @param band (zero based)
* @return ossim_sint16* to theDataBuffer positioned at band if scalar is
* of type OSSIM_SSHORT16; else, NULL.
*/
virtual ossim_sint16* getSshortBuf(ossim_uint32 band);
/**
* @param band (zero based)
* @return ossim_float32* to theDataBuffer positioned at band if scalar is
* of type OSSIM_FLOAT or OSSIM_NORMALIZED_FLOAT; else, NULL.
*/
virtual ossim_float32* getFloatBuf(ossim_uint32 band);
/**
* @param band (zero based)
* @return ossim_float64* to theDataBuffer positioned at band if scalar is
* of type OSSIM_DOUBLE or OSSIM_NORMALIZED_DOUBLE; else, NULL.
*/
virtual ossim_float64* getDoubleBuf(ossim_uint32 band);
/**
* Returns the total number of pixels in a tile for all bands.
* Note: This is not in bytes but in pixels.
*/
virtual ossim_uint32 getSize() const;
/**
* Returns the number of pixels in a single band in a tile.
* Note: This is not in bytes but in pixels.
*/
virtual ossim_uint32 getSizePerBand()const;
/**
* Returns the number of bytes in single band of the tile.
*/
virtual ossim_uint32 getSizePerBandInBytes() const;
virtual ossim_uint32 getDataSizeInBytes()const;
/**
* Returns the total number of bytes for all bands.
*/
virtual ossim_uint32 getSizeInBytes() const;
/**
* Initializes data to null pixel values.
*/
virtual void makeBlank();
/**
* Initialize the data buffer.
*/
virtual void initialize();
/**
* @brief Writes tile to stream.
*
* This will write the buffer to file with an associated header file.
* Assuming a contiguous buffer in BSQ format. Currently does not
* support converting to BIP or BIL or byte swapping but probably
* should add at some point.
*
* @param f File to write.
*
* @return true on success, false on error.
*/
virtual bool write(const ossimFilename& f) const;
/**
* Copies entire tile to buf passed in. Data put in buf is normalized.
* The "buf" passed to method is assumed to be at least as big as:
* "getSize() * sizeof(double)"
*/
virtual void copyTileToNormalizedBuffer(ossim_float64* buf) const;
virtual void copyTileToNormalizedBuffer(ossim_float32* buf)const;
/**
* Will copy this tiles specified band number to the normalized buffer.
* if the band is out of range then nothing is done and returns.
*
* @param band Zero based band to copy.
*
* @param buf Buffer to copy to.
*/
virtual void copyTileBandToNormalizedBuffer(ossim_uint32 band,
ossim_float64* buf) const;
/**
* Will copy this tiles specified band number to the normalized buffer.
* if the band is out of range then nothing is done and returns.
*
* @param band Zero based band to copy.
*
* @param buf Buffer to copy to.
*/
virtual void copyTileBandToNormalizedBuffer(ossim_uint32 band,
ossim_float32* buf)const;
/**
* Copies buf passed in to tile. Data is unnormalized to the tile's
* scalar type.
* The "buf" passed to method is assumed to be at least as big as the tiles:
* "getSize() * sizeof(double)"
*/
virtual void copyNormalizedBufferToTile(ossim_float64* buf);
virtual void copyNormalizedBufferToTile(ossim_float32* buf);
/**
* Will copy the normalized buffer to this tiles
* specified band. If band is out of range then nothing
*
* is done and returns.
*/
virtual void copyNormalizedBufferToTile(ossim_uint32 band,
ossim_float64* buf);
virtual void copyNormalizedBufferToTile(ossim_uint32 band,
ossim_float32* buf);
virtual bool isWithin(ossim_int32 x, ossim_int32 y);
virtual void setValue(ossim_int32 x, ossim_int32 y, ossim_float64 color);
virtual void loadBand(const void* src,
const ossimIrect& src_rect,
ossim_uint32 band);
virtual void loadBand(const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect,
ossim_uint32 band);
virtual void loadTile(const void* src,
const ossimIrect& src_rect,
ossimInterleaveType il_type);
virtual void loadTile(const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect,
ossimInterleaveType il_type);
virtual void nullTileAlpha(const ossim_uint8* src,
const ossimIrect& src_rect,
bool mutliplyAlphaFlag=false);
virtual void nullTileAlpha(const ossim_uint8* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect,
bool multiplyAlphaFlag=false);
/**
* Will load a tile of different types. If they
* are the same then it will call loadTile(void*...)
* method. Note if they are of different types we
* will have to go through a much slower assign
* process by normalizing the right side and then
* unnormalizing to the destination type. For this
* method to work they both must have the same
* number of bands.
*/
virtual void loadTile(const ossimImageData* src);
virtual void loadTileFrom1Band(const ossimImageData* data);
virtual void loadTileFrom1Band(const void* src,
const ossimIrect& src_rect);
/**
* Specialized to load a tile from a short (16 bit scalar type) buffer.
* Performs byte swapping if swap_bytes is set to true.
*/
virtual void loadShortBand(const void* src,
const ossimIrect& src_rect,
ossim_uint32 band,
bool swap_bytes=false);
/**
* This routine is designed for overwriting a selected band of the
* destination buffer 'dest' by an independent selected band of the
* source buffer according to a user-selected rule, defined by
* OverwriteBandRule.
*
* Currently the rules available in OverwriteBandRule are:
*
* The COLOR_DISCREPANCY_OF_ANY_FROM_DEST rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten if *any*
* one of the other bands of the same destination pixel have color values
* that deviate from its color. Same as the deprecated COLOR_DISCREPANCY.
*
* The COLOR_DISCREPANCY_OF_ALL_FROM_DEST rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten only if
* *all* of the other bands of the same destination pixel have color values
* that deviate from its color.
*
* The COLOR_EQUALITY_OF_ANY_TO_SRC rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten if
* *any* one of the other bands of the same destination pixel have color
* values that are equal to the color of the selected band of the source
* pixel.
*
* The COLOR_EQUALITY_OF_ALL_TO_SRC rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten only if
* *all* of the other bands of the same destination pixel have color
* values that are equal to the color of the selected band of the source
* pixel.
*
* The NULL_RULE rule directs that the selected band of the
* destination buffer is to be overwritten by the selected band of the
* source image data (no questions asked).
*
* @note: The 'dest' buffer should have at least the same number of bands
* as the 'src' object.
*
* Currently this routine is only implemented for il_type set to OSSIM_BSQ.
*
* @param dest The destination buffer, which should have at least the
* same number of bands as the 'src' object.
* @param src_band The 0-based band of the source image data.
* @param dest_band The 0-based band of the dest buffer.
* @param dest_rect The rectangle of the destination buffer.
* @param il_type The interleave type. Only OSSIM_BSQ available.
* @param ow_type The rule for overwriting the destination buffer.
*/
virtual void unloadBand( void* dest,
ossim_uint32 src_band,
ossim_uint32 dest_band,
const ossimIrect& dest_rect,
ossimInterleaveType il_type=OSSIM_BSQ,
OverwriteBandRule ow_type=NULL_RULE ) const;
/**
* This routine is designed for overwriting a selected band of the
* destination buffer 'dest' by an independent selected band of the
* source buffer according to a user-selected rule, defined by
* OverwriteBandRule.
*
* Currently the rules available in OverwriteBandRule are:
*
* The COLOR_DISCREPANCY_OF_ANY_FROM_DEST rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten if *any*
* one of the other bands of the same destination pixel have color values
* that deviate from its color. Same as the deprecated COLOR_DISCREPANCY.
*
* The COLOR_DISCREPANCY_OF_ALL_FROM_DEST rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten only if
* *all* of the other bands of the same destination pixel have color values
* that deviate from its color.
*
* The COLOR_EQUALITY_OF_ANY_TO_SRC rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten if
* *any* one of the other bands of the same destination pixel have color
* values that are equal to the color of the selected band of the source
* pixel.
*
* The COLOR_EQUALITY_OF_ALL_TO_SRC rule directs that the selected
* band of a pixel of the destination buffer is to be overwritten only if
* *all* of the other bands of the same destination pixel have color
* values that are equal to the color of the selected band of the source
* pixel.
*
* The NULL_RULE rule directs that the selected band of the
* destination buffer is to be overwritten by the selected band of the
* source image data (no questions asked).
*
* @note: The 'dest' buffer should have at least the same number of bands
* as the 'src' object.
*
* Currently this routine is only implemented for il_type set to OSSIM_BSQ.
*
* @param dest The destination buffer, which should have at least the
* same number of bands as the 'src' object.
* @param src_band The 0-based band of the source image data.
* @param dest_band The 0-based band of the dest buffer.
* @param dest_rect The rectangle of the destination buffer.
* @param clip_rect Only data within will be copied.
* @param il_type The interleave type. Only OSSIM_BSQ available.
* @param ow_type The rule for overwriting the destination buffer.
*/
virtual void unloadBand( void* dest,
ossim_uint32 src_band,
ossim_uint32 dest_band,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect,
ossimInterleaveType il_type=OSSIM_BSQ,
OverwriteBandRule ow_type=NULL_RULE ) const;
/**
* @param dest The destination buffer. It is assumed this is a single band
* and the size of dest_rect.
* @param dest_rect The rectangle of the destination buffer.
* @param src_band The band to copy (unload) from the tile.
*/
virtual void unloadBand(void* dest,
const ossimIrect& dest_rect,
ossim_uint32 src_band) const;
/**
* @param dest The destination buffer. It is assumed this is a single band
* and the size of dest_rect.
* @param dest_rect The rectangle of the destination buffer.
* param clip_rect Only data within the clip_rect will be copied.
* @param src_band The band to copy (unload) from the tile.
*/
virtual void unloadBand(void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect,
ossim_uint32 src_band) const;
virtual void unloadTile(void* dest,
const ossimIrect& dest_rect,
ossimInterleaveType il_type ) const;
virtual void unloadTile(void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect,
ossimInterleaveType il_type) const;
/**
* @param dest The destination buffer.
* @param dest_rect The rectangle of the destination buffer.
* param clip_rect Only data within the clip_rect will be copied.
* @param src_band The band to copy (unload) from the tile.
*/
virtual void unloadTileToBipAlpha(void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect) const;
virtual bool isPointWithin(const ossimIpt& point)const;
virtual bool isPointWithin(ossim_int32 x,
ossim_int32 y)const;
virtual std::ostream& print(std::ostream& out) const;
/**
* @brief Performs linear stretch on tile data from min/max to limits of
* scalar type.
*/
virtual void stretchMinMax();
/**
* @brief Computes the alpha channel.
*
* For each pixel if any band value is not null then alpha will be 255;
* else, 0.
*/
virtual void computeAlphaChannel();
/**
* @brief Method to copy a single line to the tile.
*
* This will copy a line to the tile. It is assumed that all bands are in
* the buffer "src". Only pixels within the tile rect will be copied.
* Note that all coordinates are relative to the tile coordinates.
* Clipping will be performed on pixels outside of the tile rectangle.
* No fill is added if a partial tile line is copied so callers
* should do a ossimImageData::makeBlank if the whole tile is not to be
* stuffed. ossimImageData::validate should be called after all lines
* are copied if in doubt of a full tile.
*
* @param src The source buffer or line to copy containing all bands.
*
* @param lineNumber Line number to copy.
*
* @param lineStartSample The start sample of the source buffer relative
* to tile coordinates.
*
* @param lineStopSample The stop sample of the source buffer relative
* to tile coordinates.
*
* @param lineInterleave Interleave of src buffer. If OSSIM_BIP assumed
* rgbrgbrgb; else, red row, green row, blue row.
*
* Usage example in method: ossimTiffTileSource::loadFromScanLine
*/
virtual void copyLine(const void* src,
ossim_int32 lineNumber,
ossim_int32 lineStartSample,
ossim_int32 lineStopSample,
ossimInterleaveType lineInterleave);
/**
* @brief Sets the indexed flag.
*
* This indicates the data contains palette indexes. Default is false.
*
* @param flag If true data is indexed.
*/
void setIndexedFlag(bool flag);
/** @return The indexed flag. */
bool getIndexedFlag() const;
virtual bool saveState(ossimKeywordlist& kwl, const char* prefix=0)const;
virtual bool loadState(const ossimKeywordlist& kwl, const char* prefix=0);
protected:
/** @brief Templated copy line method. */
template <class T> void copyLineTemplate(T dummyTemplate,
const void* src,
ossim_int32 lineNumber,
ossim_int32 lineStartSample,
ossim_int32 lineStopSample,
ossimInterleaveType lineInterleave);
/**
* @brief Templated stretch method.
*
* Performs linear stretches on tile data from min/max to limits of
* scalar type.
*/
template <class T> void stretchMinMax(T dummyTemplate);
/**
* @brief Templated compute alpha channel.
*
* For each pixel if any band value is not null then alpha will be 255;
* else, 0.
*/
template <class T> void computeAlphaChannel(T dummyTemplate);
/**
* Templated validate method.
*
* @return The status of the ossimImageDataMethod.
*
* @note See ossimConstants.h for ossimDataObjectStatus enumerations.
*/
template <class T> ossimDataObjectStatus validate(T dummyTemplate) const;
/**
* Templated makeBlank method.
*/
template <class T> void makeBlank(T dummyTemplate);
/**
* Templated computeMeanSquaredError method.
*/
template <class T>
ossim_float64 computeMeanSquaredError(T dummyTemplate,
ossim_float64 meanValue,
ossim_uint32 bandNumber) const;
/**
* Templated computeAverageBandValue method.
*/
template <class T>
ossim_float64 computeAverageBandValue(T dummyTemplate,
ossim_uint32 bandNumber) const;
void loadTileFromBip(const void* src, const ossimIrect& src_rect);
void loadTileFromBil(const void* src, const ossimIrect& src_rect);
void loadTileFromBsq(const void* src, const ossimIrect& src_rect);
void loadTileFromBip(const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect);
void loadTileFromBil(const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect);
void loadTileFromBsq(const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect);
void unloadTileToBip(void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect) const;
void unloadTileToBil(void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect) const;
void unloadTileToBsq(void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect) const;
/**
* Called from public unloadBand() routines that have an
* OverwriteBandRule interface.
*
* @param dest The destination buffer.
* @param src_band The 0-based band of the source image data.
* @param dest_band The 0-based band of the destination buffer.
* @param dest_rect The rectangle of the destination buffer.
* @param clip_rect Only data within will be copied.
* @param ow_type The rule for overwriting the destination buffer.
*/
virtual void unloadBandToBsq( void* dest,
ossim_uint32 src_band,
ossim_uint32 dest_band,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect,
OverwriteBandRule ow_type=NULL_RULE ) const;
/**
* Copies entire tile to buf passed in. Data put in buf is normalized.
* The "buf" passed to method is assumed to be at least as big as:
* "getSize() * sizeof(double)"
*/
template <class T>
void copyTileToNormalizedBuffer(T dummyTemplate,
ossim_float64* buf) const;
template <class T>
void copyTileToNormalizedBuffer(T dummyTemplate,
ossim_float32* buf)const;
/**
* Will copy this tiles specified band number to the normalized buffer.
* if the band is out of range then nothing is done and returns.
*/
template <class T>
void copyTileToNormalizedBuffer(T dummyTemplate,
ossim_uint32 band, ossim_float64* buf) const;
template <class T>
void copyTileToNormalizedBuffer(T dummyTemplate,
ossim_uint32 band, ossim_float32* buf)const;
/**
* Copies buf passed in to tile. Data is unnormalized to the tile's
* scalar type.
* The "buf" passed to method is assumed to be at least as big as the tiles:
* "getSize() * sizeof(double)"
*/
template <class T>
void copyNormalizedBufferToTile(T dummyTemplate,
ossim_float64* buf);
template <class T>
void copyNormalizedBufferToTile(T dummyTemplate,
ossim_float32* buf);
template <class T>
void copyNormalizedBufferToTile(T dummyTemplate,
ossim_uint32 band,
ossim_float64* buf);
template <class T>
void copyNormalizedBufferToTile(T dummyTemplate,
ossim_uint32 band,
ossim_float32* buf);
template <class T>
void computeMinMaxPix(T dummyValue,
std::vector<ossim_float64>& minBands,
std::vector<ossim_float64>& maxBands) const;
template <class T>
void computeMinMaxNulPix(T dummyValue,
std::vector<ossim_float64>& minBands,
std::vector<ossim_float64>& maxBands,
std::vector<ossim_float64>& nulBands) const;
template <class T> void loadBandTemplate(T, // dummy template variable
const void* src,
const ossimIrect& src_rect,
ossim_uint32 band);
template <class T> void loadBandTemplate(T, // dummy template variable
const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect,
ossim_uint32 band);
template <class T> void nullTileAlphaTemplate(T,
const ossim_uint8* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect,
bool multiplyAlphaFlag=false);
template <class T> void loadTileFromBipTemplate(T, // dummy template variable
const void* src,
const ossimIrect& src_rect);
template <class T> void loadTileFromBipTemplate(T, // dummy template variable
const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect);
template <class T> void loadTileFromBilTemplate(T, // dummy template variable
const void* src,
const ossimIrect& src_rect);
template <class T> void loadTileFromBilTemplate(T, // dummy template variable
const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect);
template <class T> void loadTileFromBsqTemplate(T, // dummy template variable
const void* src,
const ossimIrect& src_rect);
template <class T> void loadTileFromBsqTemplate(T, // dummy template variable
const void* src,
const ossimIrect& src_rect,
const ossimIrect& clip_rect);
template <class T> void unloadTileToBipTemplate(T, // dummy template variable
void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect) const;
template <class T> void unloadTileToBipAlphaTemplate(T, // dummy template variable
void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect) const;
template <class T> void unloadTileToBilTemplate(T, // dummy template variable
void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect) const;
template <class T> void unloadTileToBsqTemplate(T, // dummy template variable
void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect) const;
template <class T> void unloadBandTemplate(T, // dummy template variable
void* dest,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect,
ossim_uint32 band) const;
template <class T> void unloadBandToBsqTemplate(T, // dummy template variable
void* dest,
ossim_uint32 src_band,
ossim_uint32 dest_band,
const ossimIrect& dest_rect,
const ossimIrect& clip_rect,
OverwriteBandRule ow_type=NULL_RULE) const;
/**
* @brief initializeDefaults() Resizes and sets min/max/null arrays to
* number of bands and some default value for scalar type.
*/
virtual void initializeDefaults();
/**
* @brief initializeMinDefault() Resizes theMinPixelValue array to number
* of bands and initializes to the default min for scalar type.
*/
virtual void initializeMinDefault();
/**
* @brief initializeMaxDefault() Resizes theMaxPixelValue array to number
* of bands and initializes to the default max for scalar type.
*/
virtual void initializeMaxDefault();
/**
* @brief initializeNullDefault() Resizes theNullPixelValue array to number
* of bands and initializes to the default null for scalar type.
*/
virtual void initializeNullDefault();
virtual bool isEqualTo(const ossimDataObject& rhs,
bool deepTest=false)const;
bool hasSameDimensionsAs(ossimImageData* data)const
{
bool result = false;
if(data)
{
result = ((m_spatialExtents.size() ==
data->m_spatialExtents.size())&&
(m_spatialExtents[0] == data->m_spatialExtents[0])&&
(m_spatialExtents[1] == data->m_spatialExtents[1])&&
(m_scalarType == data->m_scalarType));
}
return result;
}
/** Null pixel value for each band. */
std::vector<ossim_float64> m_nullPixelValue;
/** Min pixel value for each band. */
std::vector<ossim_float64> m_minPixelValue;
/** Max pixel value for each band. */
std::vector<ossim_float64> m_maxPixelValue;
/** Alpha channel */
std::vector<ossim_uint8> m_alpha;
ossimIpt m_origin;
/** Indicates data contains palette indexes. */
bool m_indexedFlag;
private:
TYPE_DATA
};
inline bool ossimImageData::hasAlpha() const
{
return (m_alpha.size()?true:false);
}
inline ossimIrect ossimImageData::getImageRectangle() const
{
ossimIpt lr(m_origin.x + getWidth() - 1,
m_origin.y + getHeight() - 1);
return ossimIrect(m_origin, lr);
}
inline const ossim_float64* ossimImageData::getNullPix()const
{
return ( m_nullPixelValue.size() > 0 ? &m_nullPixelValue.front() : 0 );
}
inline const ossim_float64* ossimImageData::getMinPix()const
{
return ( m_minPixelValue.size() > 0 ? &m_minPixelValue.front() : 0 );
}
inline const ossim_float64* ossimImageData::getMaxPix()const
{
return ( m_maxPixelValue.size() > 0 ? &m_maxPixelValue.front() : 0 );
}
inline ossim_float64 ossimImageData::getNullPix(ossim_uint32 band) const
{
return ( band < m_nullPixelValue.size() ? m_nullPixelValue[band] :
ossim::defaultNull( getScalarType() ) );
}
inline ossim_float64 ossimImageData::getMinPix(ossim_uint32 band) const
{
return ( band < m_minPixelValue.size() ? m_minPixelValue[band] :
ossim::defaultMin( getScalarType() ) );
}
inline ossim_float64 ossimImageData::getMaxPix(ossim_uint32 band) const
{
return ( band < m_maxPixelValue.size() ? m_maxPixelValue[band] :
ossim::defaultMax( getScalarType() ) );
}
inline ossim_uint32 ossimImageData::getHashId()const
{
const unsigned char *bufx = (unsigned char*)(&m_origin.x);
const unsigned char *bufy = (unsigned char*)(&m_origin.y);
return (ossim_uint32)(bufx[0]*101 + bufx[1]*103 +
bufx[2]*107 + bufx[3]*109 +
bufy[0]*139 + bufy[1]*149 +
bufy[2]*151 + bufy[3]*157);
}
#endif
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