/* * * Copyright (C) 1994-2021, OFFIS e.V. * All rights reserved. See COPYRIGHT file for details. * * This software and supporting documentation were developed by * * OFFIS e.V. * R&D Division Health * Escherweg 2 * D-26121 Oldenburg, Germany * * * Module: dcmdata * * Author: Gerd Ehlers, Andreas Barth * * Purpose: Implementation of class DcmSignedShort * */ #include "dcmtk/config/osconfig.h" /* make sure OS specific configuration is included first */ #include "dcmtk/ofstd/ofstream.h" #include "dcmtk/dcmdata/dcvrss.h" // ******************************** DcmSignedShort::DcmSignedShort(const DcmTag &tag) : DcmElement(tag, 0) { } DcmSignedShort::DcmSignedShort(const DcmTag &tag, const Uint32 len) : DcmElement(tag, len) { } DcmSignedShort::DcmSignedShort(const DcmSignedShort &old) : DcmElement(old) { } DcmSignedShort::~DcmSignedShort() { } DcmSignedShort &DcmSignedShort::operator=(const DcmSignedShort &obj) { DcmElement::operator=(obj); return *this; } int DcmSignedShort::compare(const DcmElement& rhs) const { int result = DcmElement::compare(rhs); if (result != 0) { return result; } /* cast away constness (dcmdata is not const correct...) */ DcmSignedShort* myThis = NULL; DcmSignedShort* myRhs = NULL; myThis = OFconst_cast(DcmSignedShort*, this); myRhs = OFstatic_cast(DcmSignedShort*, OFconst_cast(DcmElement*, &rhs)); /* compare number of values */ unsigned long rhisNumValues = myThis->getNumberOfValues(); unsigned long rhsNumValues = myRhs->getNumberOfValues(); if (rhisNumValues < rhsNumValues) { return -1; } else if (rhisNumValues > rhsNumValues) { return 1; } /* iterate over all components and test equality */ for (unsigned long count = 0; count < rhisNumValues; count++) { Sint16 val = 0; if (myThis->getSint16(val, count).good()) { Sint16 rhsVal = 0; if (myRhs->getSint16(rhsVal, count).good()) { if (val > rhsVal) { return 1; } else if (val < rhsVal) { return -1; } /* otherwise they are equal, continue comparison */ } } } /* all values as well as VM equal: objects are equal */ return 0; } OFCondition DcmSignedShort::copyFrom(const DcmObject& rhs) { if (this != &rhs) { if (rhs.ident() != ident()) return EC_IllegalCall; *this = OFstatic_cast(const DcmSignedShort &, rhs); } return EC_Normal; } // ******************************** DcmEVR DcmSignedShort::ident() const { return EVR_SS; } OFCondition DcmSignedShort::checkValue(const OFString &vm, const OFBool /*oldFormat*/) { /* check VM only */ return DcmElement::checkVM(getVM(), vm); } unsigned long DcmSignedShort::getVM() { return getNumberOfValues(); } unsigned long DcmSignedShort::getNumberOfValues() { return OFstatic_cast(unsigned long, getLengthField() / sizeof(Sint16)); } // ******************************** void DcmSignedShort::print(STD_NAMESPACE ostream &out, const size_t flags, const int level, const char * /*pixelFileName*/, size_t * /*pixelCounter*/) { if (valueLoaded()) { /* get signed integer data */ Sint16 *sintVals; errorFlag = getSint16Array(sintVals); if (sintVals != NULL) { const unsigned long count = getNumberOfValues(); /* double-check length field for valid value */ if (count > 0) { const unsigned long maxLength = (flags & DCMTypes::PF_shortenLongTagValues) ? DCM_OptPrintLineLength : OFstatic_cast(unsigned long, -1) /*unlimited*/; unsigned long printedLength = 0; unsigned long newLength = 0; char buffer[32]; /* print line start with tag and VR */ printInfoLineStart(out, flags, level); /* print multiple values */ for (unsigned int i = 0; i < count; i++, sintVals++) { /* check whether first value is printed (omit delimiter) */ if (i == 0) sprintf(buffer, "%hd", *sintVals); else sprintf(buffer, "\\%hd", *sintVals); /* check whether current value sticks to the length limit */ newLength = printedLength + OFstatic_cast(unsigned long, strlen(buffer)); if ((newLength <= maxLength) && ((i + 1 == count) || (newLength + 3 <= maxLength))) { out << buffer; printedLength = newLength; } else { /* check whether output has been truncated */ if (i + 1 < count) { out << "..."; printedLength += 3; } break; } } /* print line end with length, VM and tag name */ printInfoLineEnd(out, flags, printedLength); } else { /* count can be zero if we have an invalid element with less than two bytes length */ printInfoLine(out, flags, level, "(invalid value)"); } } else printInfoLine(out, flags, level, "(no value available)"); } else printInfoLine(out, flags, level, "(not loaded)"); } // ******************************** OFCondition DcmSignedShort::getSint16(Sint16 &sintVal, const unsigned long pos) { /* get signed integer data */ Sint16 *sintValues = NULL; errorFlag = getSint16Array(sintValues); /* check data before returning */ if (errorFlag.good()) { if (sintValues == NULL) errorFlag = EC_IllegalCall; else if (pos >= getVM()) errorFlag = EC_IllegalParameter; else sintVal = sintValues[pos]; } /* clear value in case of error */ if (errorFlag.bad()) sintVal = 0; return errorFlag; } OFCondition DcmSignedShort::getSint16Array(Sint16 *&sintVals) { sintVals = OFstatic_cast(Sint16 *, getValue()); return errorFlag; } // ******************************** OFCondition DcmSignedShort::getOFString(OFString &stringVal, const unsigned long pos, OFBool /*normalize*/) { Sint16 sintVal; /* get the specified numeric value */ errorFlag = getSint16(sintVal, pos); if (errorFlag.good()) { /* ... and convert it to a character string */ char buffer[32]; sprintf(buffer, "%i", sintVal); /* assign result */ stringVal = buffer; } return errorFlag; } // ******************************** OFCondition DcmSignedShort::putSint16(const Sint16 sintVal, const unsigned long pos) { Sint16 val = sintVal; errorFlag = changeValue(&val, OFstatic_cast(Uint32, sizeof(Sint16) * pos), OFstatic_cast(Uint32, sizeof(Sint16))); return errorFlag; } OFCondition DcmSignedShort::putSint16Array(const Sint16 *sintVals, const unsigned long numSints) { errorFlag = EC_Normal; if (numSints > 0) { /* check for valid data */ if (sintVals != NULL) errorFlag = putValue(sintVals, OFstatic_cast(Uint32, sizeof(Sint16) * OFstatic_cast(size_t, numSints))); else errorFlag = EC_CorruptedData; } else errorFlag = putValue(NULL, 0); return errorFlag; } // ******************************** OFCondition DcmSignedShort::putString(const char *stringVal) { /* determine length of the string value */ const size_t stringLen = (stringVal != NULL) ? strlen(stringVal) : 0; /* call the real function */ return putString(stringVal, OFstatic_cast(Uint32, stringLen)); } OFCondition DcmSignedShort::putString(const char *stringVal, const Uint32 stringLen) { errorFlag = EC_Normal; /* determine VM of the string */ const unsigned long vm = DcmElement::determineVM(stringVal, stringLen); if (vm > 0) { Sint16 *field = new Sint16[vm]; OFString value; size_t pos = 0; /* retrieve signed integer data from character string */ for (unsigned long i = 0; (i < vm) && errorFlag.good(); i++) { /* get specified value from multi-valued string */ pos = DcmElement::getValueFromString(stringVal, pos, stringLen, value); if (value.empty() || (sscanf(value.c_str(), "%hd", &field[i]) != 1)) errorFlag = EC_CorruptedData; } /* set binary data as the element value */ if (errorFlag.good()) errorFlag = putSint16Array(field, vm); /* delete temporary buffer */ delete[] field; } else errorFlag = putValue(NULL, 0); return errorFlag; } // ******************************** OFCondition DcmSignedShort::verify(const OFBool autocorrect) { /* check for valid value length */ if (getLengthField() % (sizeof(Sint16)) != 0) { errorFlag = EC_CorruptedData; if (autocorrect) { /* strip to valid length */ setLengthField(getLengthField() - (getLengthField() % OFstatic_cast(Uint32, sizeof(Sint16)))); } } else errorFlag = EC_Normal; return errorFlag; } OFBool DcmSignedShort::matches(const DcmElement& candidate, const OFBool enableWildCardMatching) const { OFstatic_cast(void,enableWildCardMatching); if (ident() == candidate.ident()) { // some const casts to call the getter functions, I do not modify the values, I promise! DcmSignedShort& key = OFconst_cast(DcmSignedShort&,*this); DcmElement& can = OFconst_cast(DcmElement&,candidate); Sint16 a, b; for( unsigned long ui = 0; ui < key.getVM(); ++ui ) for( unsigned long uj = 0; uj < can.getVM(); ++uj ) if( key.getSint16( a, ui ).good() && can.getSint16( b, uj ).good() && a == b ) return OFTrue; return key.getVM() == 0; } return OFFalse; }