/usr/include/vtkDICOMValue.h is in libvtk-dicom-dev 0.7.10-1+b2.
This file is owned by root:root, with mode 0o644.
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Program: DICOM for VTK
Copyright (c) 2012-2015 David Gobbi
All rights reserved.
See Copyright.txt or http://dgobbi.github.io/bsd3.txt for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
#ifndef vtkDICOMValue_h
#define vtkDICOMValue_h
#include <vtkSystemIncludes.h>
#include "vtkDICOMModule.h" // For export macro
#include "vtkDICOMVR.h"
#include "vtkDICOMTag.h"
#include "vtkDICOMCharacterSet.h"
#include "vtkDICOMReferenceCount.h"
#include <string>
// type constants
#define VTK_DICOM_TAG 13
#define VTK_DICOM_ITEM 14
#define VTK_DICOM_VALUE 15
// This adds an overflow byte for the "NumberOfValues" field, so that
// "NumberOfValues" can effectively go as high as 2^40-1. This means
// that data elements that use delimiters, rather than fixed lengths,
// can store up to one terabyte instead of being limited to four gigabytes.
#if defined(__x86_64__) || defined(__ia64__) || defined(_M_X64)
#define VTK_DICOM_USE_OVERFLOW_BYTE
#endif
class vtkDICOMItem;
class vtkDICOMSequence;
//! A class to store attribute values for DICOM metadata.
/*!
* The vtkDICOMValue class is a container for any values that
* can be stored in a DICOM data element. Like std::string,
* it is implemented as a pointer to a reference-counted internal
* data object. To keep it lightweight, in terms of size, it has
* no virtual methods.
*/
class VTKDICOM_EXPORT vtkDICOMValue
{
private:
//! A reference-counted value class.
struct Value
{
vtkDICOMReferenceCount ReferenceCount;
unsigned char Type;
unsigned char CharacterSet;
unsigned char Overflow;
vtkDICOMVR VR;
unsigned int VL;
unsigned int NumberOfValues;
Value() : ReferenceCount(1) {}
};
//! The value class, subclassed to support values of different types.
template<class T>
struct ValueT : Value
{
T Data[1];
ValueT(vtkDICOMVR vr, size_t vn);
static bool Compare(const Value *a, const Value *b);
static bool CompareEach(const Value *a, const Value *b);
};
public:
//@{
//! Construct a new value from the data that is provided.
/*!
* The data will be copied into the value, with conversion if
* necessary. If the data cannot be converted into the type
* required by the VR, then the resulting value will be invalid.
*
* For these VRs, always use these types:
* - OB (other byte) or UN (unknown), use unsigned char.
* - OW, use either unsigned short or signed short.
* - AT, use an array of vtkDICOMTag values.
* - SQ, use an array of vtkDICOMItem values.
*/
vtkDICOMValue(vtkDICOMVR vr, double v);
vtkDICOMValue(vtkDICOMVR vr, const std::string& v);
vtkDICOMValue(vtkDICOMVR vr, vtkDICOMTag v);
vtkDICOMValue(vtkDICOMVR vr, const vtkDICOMItem& v);
vtkDICOMValue(vtkDICOMVR vr, const char *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const unsigned char *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const short *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const unsigned short *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const int *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const unsigned int *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const float *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const double *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const vtkDICOMTag *data, size_t count);
vtkDICOMValue(vtkDICOMVR vr, const vtkDICOMItem *data, size_t count);
//@}
//@{
//! Construct a string value with a specific character set.
/*!
* This will set the character set that will be used to interpret
* the data inside the string value. The character set parameter
* will be ignored unless the the VR is PN, SH, LO, ST, LT, or UT,
* since all other VRs are restricted to ASCII.
*/
vtkDICOMValue(vtkDICOMVR vr, vtkDICOMCharacterSet cs,
const std::string& v);
vtkDICOMValue(vtkDICOMVR vr, vtkDICOMCharacterSet cs,
const char *data, size_t l);
//@}
//@{
//! Create an emtpy value.
explicit vtkDICOMValue(vtkDICOMVR vr);
//! Copy constructor.
vtkDICOMValue(const vtkDICOMValue &v) : V(v.V) {
if (this->V) { ++(this->V->ReferenceCount); } }
//! Construct from a tag.
vtkDICOMValue(vtkDICOMTag v);
//! Construct from an item.
vtkDICOMValue(const vtkDICOMItem &v);
//! Construct from a sequence.
vtkDICOMValue(const vtkDICOMSequence &v);
//@}
//@{
//! Default constructor, constructs an invalid value.
vtkDICOMValue() : V(0) {}
//! Destructor releases the internal data array.
~vtkDICOMValue() { this->Clear(); }
//@}
//@{
//! Clear the value, the result is an invalid value.
void Clear() {
if (this->V && --(this->V->ReferenceCount) == 0) {
this->FreeValue(this->V); }
this->V = 0; }
//! Check whether this value is valid, i.e. contains data.
bool IsValid() const { return (this->V != 0); }
//@}
//@{
//! Get the VR, the representation of the data values.
vtkDICOMVR GetVR() const { return (this->V ? this->V->VR : vtkDICOMVR()); }
//! Get the VL, the length of the data in bytes (will always be even).
unsigned int GetVL() const { return (this->V ? this->V->VL : 0); }
//! Get the character set for a text value.
/*!
* String values are stored with their original encoding, as given
* by the SpecificCharacterSet attribute of the data set that they
* belong to. This only applies to VRs of PN, SH, LO, ST, LT, and UT.
* All other string values are always stored as plain ASCII with no
* control characters.
*/
vtkDICOMCharacterSet GetCharacterSet() const {
return (this->V ? this->V->CharacterSet : 0); }
//! Get the value multiplicity.
/*!
* The number of values has different interpretations for
* for different VRs:
* - for backslash-delimited text (AE, AS, CS, DA, DS, DT, IS,
* LO, PN, SH, UI) it is the number of backslash-separated values.
* - for other text (LT, ST, UT) the number of values is always 1.
* - for binary numerical data (FL, FD, SS, US, SL, UL, OF, OW, OB)
* the number of binary values will be returned.
* - for UN, the number of bytes will be returned.
* - for attribute tags (VR is AT) the number of tags will be returned.
* - for sequences (SQ) the number of items in the sequence,
* excluding any delimeters, will be returned.
*/
size_t GetNumberOfValues() const {
return (this->V ? this->V->NumberOfValues
#ifdef VTK_DICOM_USE_OVERFLOW_BYTE
+ (static_cast<size_t>(this->V->Overflow) << 32)
#endif
: 0); }
//@}
//@{
//! Copy "n" values into vb, starting at value "i".
/*!
* Get one or more values, doing conversion from the stored type to
* the requested type. If the VR is IS or DS (integer string or
* decimal string) then conversion from text to a numerical value
* will be performed.
*/
void GetValues(std::string *vb, size_t n, size_t i=0) const;
void GetValues(unsigned char *vb, size_t n, size_t i=0) const;
void GetValues(short *vb, size_t n, size_t i=0) const;
void GetValues(unsigned short *vb, size_t n, size_t i=0) const;
void GetValues(int *vb, size_t n, size_t i=0) const;
void GetValues(unsigned int *vb, size_t n, size_t i=0) const;
void GetValues(float *vb, size_t n, size_t i=0) const;
void GetValues(double *vb, size_t n, size_t i=0) const;
void GetValues(vtkDICOMTag *vb, size_t n, size_t i=0) const;
//@}
//@{
//! Get one scalar, string, tag or item from the value.
/*!
* Convert the i'th value to the desired type, if possible, and return
* it. If the value is invalid, or conversion is not possible, or the
* index is out of range, then the return value will be zero (or an
* empty string). Trailing spaces are always removed from strings.
* Leading spaces are removed unless the VR is ST, LT, or UT.
*/
std::string GetUTF8String(size_t i) const;
std::string GetString(size_t i) const;
unsigned char GetUnsignedChar(size_t i) const;
short GetShort(size_t i) const;
unsigned short GetUnsignedShort(size_t i) const;
int GetInt(size_t i) const;
unsigned int GetUnsignedInt(size_t i) const;
float GetFloat(size_t i) const;
double GetDouble(size_t i) const;
vtkDICOMTag GetTag(size_t i) const;
const vtkDICOMItem& GetItem(size_t i) const;
//@}
//@{
//! Get the value as a scalar, string, tag, or item.
/*!
* The value is converted to the desired type, if possible, and returned.
* Otherwise the return value is zero (or an empty string). Conversion
* to string always produces an empty string for values of type UN, SQ,
* OB, OW, and OF. Trailing spaces are always removed from strings.
* Leading spaces are removed unless the VR is ST, LT, or UT.
*/
std::string AsUTF8String() const;
std::string AsString() const;
unsigned char AsUnsignedChar() const;
short AsShort() const;
unsigned short AsUnsignedShort() const;
int AsInt() const;
unsigned int AsUnsignedInt() const;
float AsFloat() const;
double AsDouble() const;
vtkDICOMTag AsTag() const;
const vtkDICOMItem& AsItem() const;
//@}
//@{
//! Get a pointer to the internal data array.
/*!
* GetCharData will return a null-terminated string if VR is
* AE, AS, CS, DA, DS, DT, IS, LO, LT, PN, SH, ST, TM, UI, UT,
* with a possible trailing space if the VR is not UI (UID).
* The other methods will return a valid pointer if the the
* requested pointer type matches the VR. To compute the size
* of the array, divide VL by the size of the requested type.
* Do not use NumberOfValues as the array size, because for many
* VRs the array size is much larger than the NumberOfValues,
* in fact for OB, OF, UT, and many other VRs the entire array
* counts as a single value, according to the DICOM standard.
* Returns NULL if the requested pointer type does not match the VR.
*/
const char *GetCharData() const;
const unsigned char *GetUnsignedCharData() const;
const short *GetShortData() const;
const unsigned short *GetUnsignedShortData() const;
const int *GetIntData() const;
const unsigned int *GetUnsignedIntData() const;
const float *GetFloatData() const;
const double *GetDoubleData() const;
const vtkDICOMTag *GetTagData() const;
const vtkDICOMItem *GetSequenceData() const;
const vtkDICOMValue *GetMultiplexData() const;
//@}
//@{
//! Allocate space within a value object.
/*!
* Allocate an array of the specified size (number of elements)
* within the value object. This method will not do any checks
* to ensure that the data type matches the VR. It is meant to
* be an efficent way for the parser to allocate a value so that
* the value's contents can be read in directly from a file.
*/
char *AllocateCharData(vtkDICOMVR vr, size_t vn);
char *AllocateCharData(
vtkDICOMVR vr, vtkDICOMCharacterSet cs, size_t vn);
unsigned char *AllocateUnsignedCharData(vtkDICOMVR vr, size_t vn);
short *AllocateShortData(vtkDICOMVR vr, size_t vn);
unsigned short *AllocateUnsignedShortData(vtkDICOMVR vr, size_t vn);
int *AllocateIntData(vtkDICOMVR vr, size_t vn);
unsigned int *AllocateUnsignedIntData(vtkDICOMVR vr, size_t vn);
float *AllocateFloatData(vtkDICOMVR vr, size_t vn);
double *AllocateDoubleData(vtkDICOMVR vr, size_t vn);
vtkDICOMTag *AllocateTagData(vtkDICOMVR vr, size_t vn);
vtkDICOMItem *AllocateSequenceData(vtkDICOMVR vr, size_t vn);
vtkDICOMValue *AllocateMultiplexData(vtkDICOMVR vr, size_t vn);
//@}
//@{
//! Compute the number of backslash-separated string values.
/*!
* After calling AllocateCharData and writing text into the allocated
* space, this must be called to set the NumberOfValues according to
* the number of backslash-separated string values that are present.
*/
void ComputeNumberOfValuesForCharData();
//! Reallocate data of type OB or UN.
/*!
* Values of type OB or UN can hold encapsulated data. When
* building these values, it is useful to be able to extend
* the internal data as needed. After this method is called,
* the NumberOfValues will be vn, and the VL will be 0xffffffff.
*/
unsigned char *ReallocateUnsignedCharData(size_t vn);
//@}
//@{
//! Append value "i" to the supplied UTF8 string.
/*
* String values will be converted from their native encoding
* to UTF-8.
*/
void AppendValueToUTF8String(std::string &str, size_t i) const;
//! Append value "i" to the supplied string.
/*!
* This will convert the value to human-readable format.
* Be cautious when using this method for an element with VR equal
* to ST, LT, or UT, because the resulting string might be very
* long, and might contain special (i.e. non-printable) characters.
*/
void AppendValueToString(std::string &str, size_t i) const;
//@}
//@{
//! Check if the value matches the specified find query value.
/*!
* This method is used during "find" requests, according to the rules
* of DICOM Part 4 C.2.2.2 Attribute Matching. The standard wildcards
* "*" and "?" are supported, as well as numeric ranges (for times and dates)
* through the use of two values separated by "-". Matches are case
* sensitive, except when the VR is PN. If the value has multiplicity,
* then the match will succeed if any of the values match.
*/
bool Matches(const vtkDICOMValue& value) const;
//! Check if the value is equal to the specified string.
/*!
* Note that matches to an empty string will always succeed due to
* the universal matching rule. To check if a value is empty, you
* should instead check to see if its VL is zero. Padding spaces will
* automatically be stripped before the comparison is done. The
* character set of the string is assumed to be the same as the
* character set of the value that is being matched. This method
* can be used to match numerical values in addition to text values.
*/
bool Matches(const std::string& v) const;
//! Check if the value is the specified numeric value.
/*!
* This will return true only if the value has a numeric representation
* (e.g. has a VR of IS, DS, US, UL, SS, SL, FL, FD) and is equal to the
* specified number. If the value multiplicity is greater than one,
* then the match is true if at least one value matches.
*/
bool Matches(double v) const;
//@}
//@{
//! Override assignment operator for reference counting.
vtkDICOMValue& operator=(const vtkDICOMValue& o) {
if (this->V != o.V) {
if (o.V) { ++(o.V->ReferenceCount); }
if (this->V) {
if (--(this->V->ReferenceCount) == 0) { this->FreeValue(this->V); } }
this->V = o.V; }
return *this; }
//! Assign a value from a sequence object.
vtkDICOMValue& operator=(const vtkDICOMSequence& o);
//@}
//@{
//! Equality requires that all elements of the value are equal.
bool operator==(const vtkDICOMValue& o) const;
bool operator!=(const vtkDICOMValue& o) const { return !(*this == o); }
//@}
private:
//! Allocate an array of size vn for the specified vr
template<class T>
T *Allocate(vtkDICOMVR vr, size_t vn);
//! Free the internal value.
static void FreeValue(Value *v);
//! Internal templated GetValues() method.
template<class OT>
void GetValuesT(OT *v, size_t count, size_t s) const;
//! Internal templated value creation method.
template<class T>
void CreateValue(vtkDICOMVR vr, const T *data, size_t count);
//! Internal templated method to initialize for future appends.
template<class T>
void AppendInit(vtkDICOMVR vr);
//! Internal templated method to grow the value.
template<class T>
void AppendValue(const T &item);
//! Internal templated method to set a value.
template<class T>
void SetValue(size_t i, const T &item);
//! Method used by vtkDICOMMetaData to change multiplexed value.
vtkDICOMValue *GetMultiplex();
//! Get the start and end for the "i"th backslash-delimited value.
void Substring(size_t i, const char *&start, const char *&end) const;
//! Create a value from a string with a specific character set.
void CreateValueWithSpecificCharacterSet(
vtkDICOMVR vr, vtkDICOMCharacterSet cs, const char *data, size_t l);
//! A simple string compare with wildcards "*" and "?".
static bool PatternMatches(
const char *pattern, const char *pe, const char *val, const char *ve);
//! Pattern matching with multiple backslash-delimited values.
static bool PatternMatchesMulti(
const char *pattern, const char *val, vtkDICOMVR vr);
//! Normalize a date, time, or datetime.
/*!
* The return value is the number of characters that should be used for
* comparison to the normalized datetime, everything past the maximum
* significant character is zero (or, for dates, first day of January).
*/
static size_t NormalizeDateTime(
const char *input, char output[22], vtkDICOMVR vr);
//! Do matching on names, after notmalization.
static bool PatternMatchesPersonName(const char *pattern, const char *val);
//! Normalize a person's name.
static void NormalizePersonName(
const char *input, char output[256], bool isquery=false);
//! The only data member: a pointer to the internal value.
Value *V;
//! An empty item, for when one is needed.
static const vtkDICOMItem EmptyItem;
// friend the sequence class, it requires AppendValue() and SetValue().
friend class vtkDICOMSequence;
// friend the meta data class, it requires GetMultiplex().
friend class vtkDICOMValueFriendMetaData;
};
//! @cond
// This friendship class allows vtkDICOMMetaData to use exactly one
// private method from vtkDICOMValue.
class vtkDICOMValueFriendMetaData
{
static vtkDICOMValue *GetMultiplex(vtkDICOMValue *v) {
return v->GetMultiplex(); }
friend class vtkDICOMMetaData;
};
//! @endcond
VTKDICOM_EXPORT ostream& operator<<(ostream& os, const vtkDICOMValue& v);
#endif /* vtkDICOMValue_h */
// VTK-HeaderTest-Exclude: vtkDICOMValue.h
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