-#include "gdcmlib.h"
+#include "gdcm.h"
+#include <stdio.h>
+// For nthos:
+#ifdef _MSC_VER
+#include <winsock.h>
+#else
+#include <netinet/in.h>
+#endif
+#include <cctype> // for isalpha
+#include <map>
+#include <sstream>
+#include "gdcmUtil.h"
+
+#define HEADER_LENGHT_TO_READ 256 // on ne lit plus que le debut
+
+namespace Error {
+ struct FileReadError {
+ FileReadError(FILE* fp, const char* Mesg) {
+ if (feof(fp))
+ dbg.Verbose(1, "EOF encountered :", Mesg);
+ if (ferror(fp))
+ dbg.Verbose(1, "Error on reading :", Mesg);
+ }
+ };
+}
-/* =======================================================================
+//FIXME: this looks dirty to me...
+#define str2num(str, typeNum) *((typeNum *)(str))
- _IdDcmCheckSwap
- La seule maniere sure que l'on aie pour determiner
- si on est en LITTLE_ENDIAN, BIG-ENDIAN,
- BAD-LITTLE-ENDIAN, BAD-BIG-ENDIAN
- est de trouver l'element qui donne la longueur d'un 'GROUP'
- (on sait que la longueur de cet element vaut 0x00000004)
- et de regarder comment cette longueur est codee en memoire
+VRHT * gdcmHeader::dicom_vr = (VRHT*)0;
+gdcmDictSet* gdcmHeader::Dicts = new gdcmDictSet();
- Le probleme vient de ce que parfois, il n'y en a pas ...
+void gdcmHeader::Initialise(void) {
+ if (!gdcmHeader::dicom_vr)
+ InitVRDict();
+ RefPubDict = gdcmHeader::Dicts->GetDefaultPublicDict();
+ RefShaDict = (gdcmDict*)0;
+}
- On fait alors le pari qu'on a a faire a du LITTLE_ENDIAN propre.
- (Ce qui est la norme -pas respectee- depuis ACR-NEMA)
- Si ce n'est pas le cas, on ne peut rien faire.
+gdcmHeader::gdcmHeader (const char* InFilename) {
+ filename = InFilename;
+ Initialise();
+ fp=fopen(InFilename,"rw");
+ dbg.Error(!fp, "gdcmHeader::gdcmHeader cannot open file", InFilename);
+ ParseHeader();
+}
- (il faudrait avoir des fonctions auxquelles
- on passe le code Swap en parametre, pour faire des essais 'manuels')
+gdcmHeader::~gdcmHeader (void) {
+ fclose(fp);
+ return;
+}
- ======================================================================= */
+void gdcmHeader::InitVRDict (void) {
+ if (dicom_vr) {
+ dbg.Verbose(0, "gdcmHeader::InitVRDict:", "VR dictionary allready set");
+ return;
+ }
+ VRHT *vr = new VRHT;
+ (*vr)["AE"] = "Application Entity"; // 16 car max
+ (*vr)["AS"] = "Age String"; // 4 car fixe
+ (*vr)["AT"] = "Attribute Tag"; // 2 unsigned short int
+ (*vr)["CS"] = "Code String"; // 16 car max
+ (*vr)["DA"] = "Date"; // 8 car fixe
+ (*vr)["DS"] = "Decimal String"; // Decimal codé Binaire 16 max
+ (*vr)["DT"] = "Date Time"; // 26 car max
+ (*vr)["FL"] = "Floating Point Single"; // 4 octets IEEE 754:1985
+ (*vr)["FD"] = "Floating Point Double"; // 8 octets IEEE 754:1985
+ (*vr)["IS"] = "Integer String"; // en format externe 12 max
+ (*vr)["LO"] = "Long String"; // 64 octets max
+ (*vr)["LT"] = "Long Text"; // 10240 max
+ (*vr)["OB"] = "Other Byte String";
+ (*vr)["OW"] = "Other Word String";
+ (*vr)["PN"] = "Person Name";
+ (*vr)["SH"] = "Short String"; // 16 car max
+ (*vr)["SL"] = "Signed Long";
+ (*vr)["SQ"] = "Sequence of Items"; // Not Applicable
+ (*vr)["SS"] = "Signed Short"; // 2 octets
+ (*vr)["ST"] = "Short Text"; // 1024 car max
+ (*vr)["TM"] = "Time"; // 16 car max
+ (*vr)["UI"] = "Unique Identifier"; // 64 car max
+ (*vr)["UN"] = "Unknown";
+ (*vr)["UT"] = "Unlimited Text"; // 2 puissance 32 -1 car max
+ (*vr)["UL"] = "Unsigned Long "; // 4 octets fixe
+ (*vr)["US"] = "Unsigned Short "; // 2 octets fixe
+ dicom_vr = vr;
+}
-EndianType gdcmHeader::gdcmHeader()
+/**
+ * \ingroup gdcmHeader
+ * \brief La seule maniere sure que l'on aie pour determiner
+ * si on est en LITTLE_ENDIAN, BIG-ENDIAN,
+ * BAD-LITTLE-ENDIAN, BAD-BIG-ENDIAN
+ * est de trouver l'element qui donne la longueur d'un 'GROUP'
+ * (on sait que la longueur de cet element vaut 0x00000004)
+ * et de regarder comment cette longueur est codee en memoire
+ *
+ * Le probleme vient de ce que parfois, il n'y en a pas ...
+ *
+ * On fait alors le pari qu'on a a faire a du LITTLE_ENDIAN propre.
+ * (Ce qui est la norme -pas respectee- depuis ACR-NEMA)
+ * Si ce n'est pas le cas, on ne peut rien faire.
+ *
+ * (il faudrait avoir des fonctions auxquelles
+ * on passe le code Swap en parametre, pour faire des essais 'manuels')
+ */
+void gdcmHeader::CheckSwap()
{
- //guint32 s;
+ guint32 s;
guint32 x=4; // x : pour ntohs
bool net2host; // true when HostByteOrder is the same as NetworkByteOrder
-
- int sw;
+
int lgrLue;
char * entCur;
- char deb[LGR_ENTETE_A_LIRE];
-
- // On teste le processeur
- if (x==ntohs(x)) {
- net2host = true;
- } else {
- net2host = false;
- }
-
- // On commence par verifier si c'est du DICOM 'actuel'
- // -------------
-
- lgrLue = fread(deb,1,LGR_ENTETE_A_LIRE,e->fp);
-
- entCur = deb+128;
- if(memcmp(entCur, "DICM", (size_t)4) == 0) {
- filetype = TrueDicom;
- if (DEBUG) printf ("_IdDcmCheckSwap : C est du DICOM actuel \n");
- } else {
- filetype = Unknown;
- if (DEBUG) printf ("_IdDcmCheckSwap : Ce n'est PAS du DICOM actuel\n");
- }
-
- if(filetype == TrueDicom) {
- // on saute le File Preamble (souvent a ZERO) : 128 Octets
- // + le DICM (4), et le (0002, 0000) soit 4 (136 = 128 + 4 + 4)
- entCur = deb+136;
- if(memcmp(entCur, "UL", (size_t)2) == 0) {
- // les 2 premiers octets de la lgr peuvent valoir UL --> Explicit VR
- filetype = ExplicitVR;
- if (DEBUG) printf ("_IdDcmCheckSwap : Explicit VR\n");
- } else {
- filetype = ImplicitVR;
- if (DEBUG) printf ("_IdDcmCheckSwap : PAS Explicit VR\n");
- }
-
- if (net2host) { // HostByteOrder is different from NetworkByteOrder
- sw = 0; // on est sur PC ou DEC --> LITTLE-ENDIAN -> Rien a faire
- if (DEBUG) printf("HostByteOrder = NetworkByteOrder\n");
-
- } else { /* on est sur une Sun ou une SGI */
- sw = 4321;
- if (DEBUG) printf("HostByteOrder != NetworkByteOrder\n");
- }
-
- rewind(e->fp);
- fseek (e->fp, 132L, SEEK_SET); //On se positionne sur le debut des info
- e->offsetCourant=132;
- return sw;
-
- } /* fin TrueDicom */
-
- // Pas du TrueDicom : permiere hypothese c'est de l'ACR 'propre', auquel
- // cas la lgr du premier element du groupe est FORCEMENT 4
-
- entCur=deb + 4;
- s=str2num(entCur,int);
-
- switch (s) {
- case 0x00040000 :
- sw=3412; if(DEBUG) printf("s : %08x sw : %d\n",s,sw);
- filetype = ACR;
- break;
- case 0x04000000 :
- sw=4321; if(DEBUG) printf("s : %08x sw : %d\n",s,sw);
- filetype = ACR;
- break;
- case 0x00000400 :
- sw=2143; if(DEBUG) printf("s : %08x sw : %d\n",s,sw);
- filetype = ACR;
- break;
- case 0x00000004 :
- sw=0; if(DEBUG) printf("s : %08x sw : %d\n",s,sw);
- filetype = ACR;
- break;
- default :
- sw = -1;
- if (DEBUG) printf (" Pas trouve l info de Swap; On va parier\n");
+ char deb[HEADER_LENGHT_TO_READ];
+
+ // First, compare HostByteOrder and NetworkByteOrder in order to
+ // determine if we shall need to swap bytes (i.e. the Endian type).
+ if (x==ntohs(x))
+ net2host = true;
+ else
+ net2host = false;
+
+ // The easiest case is the one of a DICOM header, since it possesses a
+ // file preamble where it suffice to look for the sting "DICM".
+ lgrLue = fread(deb, 1, HEADER_LENGHT_TO_READ, fp);
+
+ entCur = deb + 128;
+ if(memcmp(entCur, "DICM", (size_t)4) == 0) {
+ filetype = TrueDicom;
+ dbg.Verbose(1, "gdcmHeader::CheckSwap:", "looks like DICOM Version3");
+ } else {
+ filetype = Unknown;
+ dbg.Verbose(1, "gdcmHeader::CheckSwap:", "not a DICOM Version3 file");
}
- // Deuxieme hypothese : c'est de l'ACR 'pas propre' i.e. il manque
- // la lgr du groupe
-
- if(sw==-1) {
- /* On n'a pas trouve l'info de swap 28/11/2000 JPR */
- // Si c'est du VRAI ACR NEMA si on est sur une DEC ou un PC swap=0,
- // SUN ou SGI SWAP=4321
- /* si c'est du RAW, ca degagera + tard */
-
- if (DEBUG) printf("On force la chance \n");
+ if(filetype == TrueDicom) {
+ // Next, determine the value representation (VR). Let's skip to the
+ // first element (0002, 0000) and check there if we find "UL", in
+ // which case we (almost) know it is explicit VR.
+ // WARNING: if it happens to be implicit VR then what we will read
+ // is the length of the group. If this ascii representation of this
+ // length happens to be "UL" then we shall believe it is explicit VR.
+ // FIXME: in order to fix the above warning, we could read the next
+ // element value (or a couple of elements values) in order to make
+ // sure we are not commiting a big mistake.
+ // We need to skip :
+ // * the 128 bytes of File Preamble (often padded with zeroes),
+ // * the 4 bytes of "DICM" string,
+ // * the 4 bytes of the first tag (0002, 0000),
+ // i.e. a total of 136 bytes.
+ entCur = deb + 136;
+ if(memcmp(entCur, "UL", (size_t)2) == 0) {
+ filetype = ExplicitVR;
+ dbg.Verbose(1, "gdcmHeader::CheckSwap:",
+ "explicit Value Representation");
+ } else {
+ filetype = ImplicitVR;
+ dbg.Verbose(1, "gdcmHeader::CheckSwap:",
+ "not an explicit Value Representation");
+ }
- if (x!=ntohs(x)) // HostByteOrder is different from NetworkByteOrder
- sw = 0; // on est sur PC ou DEC --> LITTLE-ENDIAN -> Rien a faire
- else
- sw = 4321; // on est sur Sun ou SGI
+ if (net2host) {
+ sw = 4321;
+ dbg.Verbose(1, "gdcmHeader::CheckSwap:",
+ "HostByteOrder != NetworkByteOrder");
+ } else {
+ sw = 0;
+ dbg.Verbose(1, "gdcmHeader::CheckSwap:",
+ "HostByteOrder = NetworkByteOrder");
+ }
+
+ // Position the file position indicator at first tag (i.e.
+ // after the file preamble and the "DICM" string).
+ rewind(fp);
+ fseek (fp, 132L, SEEK_SET);
+ return;
+ } // End of TrueDicom
+
+ // Alas, this is not a DicomV3 file and whatever happens there is no file
+ // preamble. We can reset the file position indicator to where the data
+ // is (i.e. the beginning of the file).
+ rewind(fp);
+
+ // Our next best chance would be to be considering a 'clean' ACR/NEMA file.
+ // By clean we mean that the length of the first tag is written down.
+ // If this is the case and since the length of the first group HAS to be
+ // four (bytes), then determining the proper swap code is straightforward.
+
+ entCur = deb + 4;
+ s = str2num(entCur, guint32);
+
+ switch (s) {
+ case 0x00040000 :
+ sw = 3412;
+ filetype = ACR;
+ return;
+ case 0x04000000 :
+ sw = 4321;
+ filetype = ACR;
+ return;
+ case 0x00000400 :
+ sw = 2143;
+ filetype = ACR;
+ return;
+ case 0x00000004 :
+ sw = 0;
+ filetype = ACR;
+ return;
+ default :
+ dbg.Verbose(0, "gdcmHeader::CheckSwap:",
+ "ACE/NEMA unfound swap info (time to raise bets)");
}
- rewind(e->fp); // les info commencent au debut
- e->offsetCourant=0;
- return (sw);
+ // We are out of luck. It is not a DicomV3 nor a 'clean' ACR/NEMA file.
+ // It is time for despaired wild guesses. So, let's assume this file
+ // happens to be 'dirty' ACR/NEMA, i.e. the length of the group is
+ // not present. Then the only info we have is the net2host one.
+ //FIXME Si c'est du RAW, ca degagera + tard
+
+ if (! net2host )
+ sw = 0;
+ else
+ sw = 4321;
+ return;
}
-void gdcmHeader::_setAcrLibido() {
-
- _ID_DCM_ELEM * ple;
- PLIST_ELEMENT plelem;
- PLIST pl;
-
- // Positionnement ACR_LIBIDO
- if(DEBUG) printf("Entree ds _setAcrLibido\n");
-
- filetype = ACR_LIBIDO = 0;
- if ( filetype != TrueDicom) {
- // Recognition Code --> n'existe plus en DICOM V3 ...
-
- pl = e->plist;
- plelem = IdLstFirst(pl);
- while (plelem) {
- ple= IdLstPtrObj(plelem);
- if(DEBUG) printf("gr %04x Num %04x\n", ple->Gr, ple->Num);
- if(ple->Gr > 0x0008) break; // On a depasse
- if(ple->Gr == 0x0008) {
- if(ple->Num > 0x0010) break; // On a depasse
- if(ple->Num == 0x0010) {
- if ( (memcmp(ple->valeurElem,"ACRNEMA_LIBIDO",14)==0)
- // si c'est egal
- || (memcmp(ple->valeurElem,"CANRME_AILIBOD",14)==0)) {
- // en cas d'objet ACRLibido fait sr 1 autre machine)
- e->ACR_LIBIDO =1;
- } // fin if memcmp
- break;
- } // fin if ple->Num==0x0010
- } // fin ple->Gr==0x0008
- plelem = IdLstNext(plelem);
- } // fin while
- } // fin if TrueDicom
-
- return;
+void gdcmHeader::SwitchSwapToBigEndian(void) {
+ dbg.Verbose(0, "gdcmHeader::FindLength", "Switching to BigEndian mode.");
+ if ( sw == 0 ) {
+ sw = 4321;
+ return;
+ }
+ if ( sw == 4321 ) {
+ sw = 0;
+ return;
+ }
+ if ( sw == 3412 ) {
+ sw = 2143;
+ return;
+ }
+ if ( sw == 2143 )
+ sw = 3412;
}
-/* =======================================================================
-* _IdDcmRecupLgr
-*
-* ACR-NEMA : On a toujours
-* GroupNumber (2 Octets)
-* ElementNumber (2 Octets)
-* ElementSize (4 Octets)
-*
-*
-* DICOM : On peut avoir (implicit Value Representation)
-* GroupNumber (2 Octets)
-* ElementNumber (2 Octets)
-* ElementSize (4 Octets)
-*
-* On peut avoir (explicit Value Representation)
-* GroupNumber (2 Octets)
-* ElementNumber (2 Octets)
-* ValueRepresentation (2 Octets)
-* ElementSize (2 Octets)
-*
-* ATTENTION : dans le cas ou ValueRepresentation = OB, OW, SQ, UN
-* GroupNumber (2 Octets)
-* ElementNumber (2 Octets)
-* ValueRepresentation (2 Octets)
-* zone reservee (2 Octets)
-* ElementSize (4 Octets)
-*
-*
-* ======================================================================= */
/**
- * \ingroup dcm
- * \brief recupere la longueur d'un champ DICOM.
- * (le fichier doit deja avoir ete ouvert,
- * _IdAcrCheckSwap(ID_DCM_HDR *e) avoir ete appele)
- * et la partie 'group' ainsi que la partie 'elem'
- * de l'acr_element doivent avoir ete lues.
- * @param sw code swap
- * @param skippedLength pointeur sur nombre d'octets que l'on a saute qd la lecture est finie
- * @param longueurLue pointeur sur longueur (en nombre d'octets) effectivement lue
-
- * @return longueur retenue pour le champ
+ * \ingroup gdcmHeader
+ * \brief recupere la longueur d'un champ DICOM.
+ * Preconditions:
+ * 1/ le fichier doit deja avoir ete ouvert,
+ * 2/ CheckSwap() doit avoir ete appele
+ * 3/ la partie 'group' ainsi que la partie 'elem'
+ * de l'acr_element doivent avoir ete lues.
+ *
+ * ACR-NEMA : we allways get
+ * GroupNumber (2 Octets)
+ * ElementNumber (2 Octets)
+ * ElementSize (4 Octets)
+ * DICOM en implicit Value Representation :
+ * GroupNumber (2 Octets)
+ * ElementNumber (2 Octets)
+ * ElementSize (4 Octets)
+ *
+ * DICOM en explicit Value Representation :
+ * GroupNumber (2 Octets)
+ * ElementNumber (2 Octets)
+ * ValueRepresentation (2 Octets)
+ * ElementSize (2 Octets)
+ *
+ * ATTENTION : dans le cas ou ValueRepresentation = OB, OW, SQ, UN
+ * GroupNumber (2 Octets)
+ * ElementNumber (2 Octets)
+ * ValueRepresentation (2 Octets)
+ * zone reservee (2 Octets)
+ * ElementSize (4 Octets)
+ *
+ * @param sw code swap
+ * @param skippedLength pointeur sur nombre d'octets que l'on a saute qd
+ * la lecture est finie
+ * @param longueurLue pointeur sur longueur (en nombre d'octets)
+ * effectivement lue
+ * @return longueur retenue pour le champ
*/
-static guint32 _IdDcmRecupLgr(ID_DCM_HDR *e, int sw, int *skippedLength, int *longueurLue) {
-guint32 l_gr;
-unsigned short int l_gr_2;
-int i, trouve;
-char VR[5];
-int lgrLue;
+void gdcmHeader::FindVR( ElValue *ElVal) {
+ char VR[3];
+ string vr;
+ int lgrLue;
+ long PositionOnEntry = ftell(fp);
+ // Warning: we believe this is explicit VR (Value Representation) because
+ // we used a heuristic that found "UL" in the first tag. Alas this
+ // doesn't guarantee that all the tags will be in explicit VR. In some
+ // cases (see e-film filtered files) one finds implicit VR tags mixed
+ // within an explicit VR file. Hence we make sure the present tag
+ // is in explicit VR and try to fix things if it happens not to be
+ // the case.
+ bool RealExplicit = true;
+
+ if (filetype != ExplicitVR)
+ return;
-/*
- * ATTENTION :
-*/
+ lgrLue=fread (&VR, (size_t)2,(size_t)1, fp);
+ VR[2]=0;
+ vr = string(VR);
+
+ // Assume we are reading a falsely explicit VR file i.e. we reached
+ // a tag where we expect reading a VR but are in fact we read the
+ // first to bytes of the length. Then we will interogate (through find)
+ // the dicom_vr dictionary with oddities like "\004\0" which crashes
+ // both GCC and VC++ implentations of the STL map. Hence when the
+ // expected VR read happens to be non-ascii characters we consider
+ // we hit falsely explicit VR tag.
+
+ if ( (!isalpha(VR[0])) && (!isalpha(VR[1])) )
+ RealExplicit = false;
+
+ // CLEANME searching the dicom_vr at each occurence is expensive.
+ // PostPone this test in an optional integrity check at the end
+ // of parsing or only in debug mode.
+ if ( RealExplicit && !dicom_vr->count(vr) )
+ RealExplicit = false;
+
+ if ( RealExplicit ) {
+ if ( ElVal->IsVrUnknown() )
+ ElVal->SetVR(vr);
+ return;
+ }
+
+ // We thought this was explicit VR, but we end up with an
+ // implicit VR tag. Let's backtrack.
+ dbg.Verbose(1, "gdcmHeader::FindVR:", "Falsely explicit vr file");
+ fseek(fp, PositionOnEntry, SEEK_SET);
+ // When this element is known in the dictionary we shall use, e.g. for
+ // the semantics (see the usage of IsAnInteger), the vr proposed by the
+ // dictionary entry. Still we have to flag the element as implicit since
+ // we know now our assumption on expliciteness is not furfilled.
+ // avoid .
+ if ( ElVal->IsVrUnknown() )
+ ElVal->SetVR("Implicit");
+ ElVal->SetImplicitVr();
+}
-int nbCode=26; // nombre d'elements dans la table de type DICOM_VR definie dans dicom.c
+/**
+ * \ingroup gdcmHeader
+ * \brief Determines if the Transfer Syntax was allready encountered
+ * and if it corresponds to a Big Endian one.
+ *
+ * @return True when big endian found. False in all other cases.
+ */
+bool gdcmHeader::IsBigEndianTransferSyntax(void) {
+ ElValue* Element = PubElVals.GetElement(0x0002, 0x0010);
+ if ( !Element )
+ return false;
+ LoadElementValueSafe(Element);
+ string Transfer = Element->GetValue();
+ if ( Transfer == "1.2.840.10008.1.2.2" )
+ return true;
+ return false;
+}
-/* ================ */
+void gdcmHeader::FixFoundLength(ElValue * ElVal, guint32 FoudLength) {
+ // Heuristic: a final fix.
+ if ( FoudLength == 0xffffffff)
+ FoudLength = 0;
+ ElVal->SetLength(FoudLength);
+}
-// ID_DCM_HDR *e sert uniquement de passe-plat pour __ExplicitVR
+void gdcmHeader::FindLength( ElValue * ElVal) {
+ guint16 element = ElVal->GetElement();
+ string vr = ElVal->GetVR();
+ guint16 length16;
+
+ if ( (filetype == ExplicitVR) && ! ElVal->IsImplicitVr() ) {
+ if ( (vr=="OB") || (vr=="OW") || (vr=="SQ") || (vr=="UN") ) {
+
+ // The following two bytes are reserved, so we skip them,
+ // and we proceed on reading the length on 4 bytes.
+ fseek(fp, 2L,SEEK_CUR);
+ FixFoundLength(ElVal, ReadInt32());
+ return;
+ }
+ // Length is encoded on 2 bytes.
+ length16 = ReadInt16();
+
+ // We can tell the current file is encoded in big endian (like
+ // Data/US-RGB-8-epicard) when we find the "Transfer Syntax" tag
+ // and it's value is the one of the encoding of a bie endian file.
+ // In order to deal with such big endian encoded files, we have
+ // (at least) two strategies:
+ // * when we load the "Transfer Syntax" tag with value of big endian
+ // encoding, we raise the proper flags. Then we wait for the end
+ // of the META group (0x0002) among which is "Transfer Syntax",
+ // before switching the swap code to big endian. We have to postpone
+ // the switching of the swap code since the META group is fully encoded
+ // in little endian, and big endian coding only starts at the next
+ // group. The corresponding code can be hard to analyse and adds
+ // many additional unnecessary tests for regular tags.
+ // * the second strategy consist to wait for trouble, that shall appear
+ // when we find the first group with big endian encoding. This is
+ // easy to detect since the length of a "Group Length" tag (the
+ // ones with zero as element number) has to be of 4 (0x0004). When we
+ // encouter 1024 (0x0400) chances are the encoding changed and we
+ // found a group with big endian encoding.
+ // We shall use this second strategy. In order make sure that we
+ // can interpret the presence of an apparently big endian encoded
+ // length of a "Group Length" without committing a big mistake, we
+ // add an additional check: we look in the allready parsed elements
+ // for the presence of a "Transfer Syntax" whose value has to be "big
+ // endian encoding". When this is the case, chances are we got our
+ // hands on a big endian encoded file: we switch the swap code to
+ // big endian and proceed...
+ if ( (element == 0) && (length16 == 1024) ) {
+ if ( ! IsBigEndianTransferSyntax() )
+ throw Error::FileReadError(fp, "gdcmHeader::FindLength");
+ length16 = 4;
+ SwitchSwapToBigEndian();
+ // Restore the unproperly loaded values i.e. the group, the element
+ // and the dictionary entry depending on them.
+ guint16 CorrectGroup = SwapShort(ElVal->GetGroup());
+ guint16 CorrectElem = SwapShort(ElVal->GetElement());
+ gdcmDictEntry * NewTag = IsInDicts(CorrectGroup, CorrectElem);
+ if (!NewTag) {
+ // This correct tag is not in the dictionary. Create a new one.
+ NewTag = new gdcmDictEntry(CorrectGroup, CorrectElem);
+ }
+ // FIXME this can create a memory leaks on the old entry that be
+ // left unreferenced.
+ ElVal->SetDictEntry(NewTag);
+ }
+
+ // Heuristic: well some files are really ill-formed.
+ if ( length16 == 0xffff) {
+ length16 = 0;
+ dbg.Verbose(0, "gdcmHeader::FindLength",
+ "Erroneous element length fixed.");
+ }
+ FixFoundLength(ElVal, (guint32)length16);
+ return;
+ }
-if (e->__ExplicitVR == 1) {
- lgrLue=fread (&VR, (size_t)2,(size_t)1, e->fp);
- VR[2]=0;
+ // Either implicit VR or an explicit VR that (at least for this
+ // element) lied a little bit. Length is on 4 bytes.
+ FixFoundLength(ElVal, ReadInt32());
+}
- // ATTENTION :
- // Ce n'est pas parce qu'on a trouve UL la premiere fois qu'on respecte
- // Explicit VR tout le temps
- // (cf e=film ...)
- for(i=0,trouve=0;i<nbCode;i++) {
- if(memcmp(_ID_dicom_vr[i].dicom_VR,VR,(size_t)2)==0) {
- (e->pleCourant)->VR=_ID_dicom_vr[i].dicom_VR;
- trouve=1;
- break;
- }
+/**
+ * \ingroup gdcmHeader
+ * \brief Swaps back the bytes of 4-byte long integer accordingly to
+ * processor order.
+ *
+ * @return The suggested integer.
+ */
+guint32 gdcmHeader::SwapLong(guint32 a) {
+ // FIXME: il pourrait y avoir un pb pour les entiers negatifs ...
+ switch (sw) {
+ case 0 :
+ break;
+ case 4321 :
+ a=( ((a<<24) & 0xff000000) | ((a<<8) & 0x00ff0000) |
+ ((a>>8) & 0x0000ff00) | ((a>>24) & 0x000000ff) );
+ break;
+
+ case 3412 :
+ a=( ((a<<16) & 0xffff0000) | ((a>>16) & 0x0000ffff) );
+ break;
+
+ case 2143 :
+ a=( ((a<<8) & 0xff00ff00) | ((a>>8) & 0x00ff00ff) );
+ break;
+ default :
+ dbg.Error(" gdcmHeader::SwapLong : unset swap code");
+ a=0;
}
+ return(a);
+}
- if ( trouve == 0) {
+/**
+ * \ingroup gdcmHeader
+ * \brief Swaps the bytes so they agree with the processor order
+ * @return The properly swaped 16 bits integer.
+ */
+guint16 gdcmHeader::SwapShort(guint16 a) {
+ if ( (sw==4321) || (sw==2143) )
+ a =(((a<<8) & 0x0ff00) | ((a>>8)&0x00ff));
+ return (a);
+}
- // On est mal : implicit VR repere
- // mais ce n'est pas un code connu ...
- // On reconstitue la longueur
-
- if(DEBUG) printf("IdDcmRecupLgr : Explicit VR, mais pas trouve de code connu\n");
- memcpy(&l_gr, VR,(size_t)2);
+void gdcmHeader::SkipElementValue(ElValue * ElVal) {
+ //FIXME don't dump the returned value
+ (void)fseek(fp, (long)ElVal->GetLength(), SEEK_CUR);
+}
- lgrLue=fread ( ((char*)&l_gr)+2, (size_t)2, (size_t)1, e->fp);
+/**
+ * \ingroup gdcmHeader
+ * \brief Loads the element if it's size is not to big.
+ * @param ElVal Element whose value shall be loaded.
+ * @param MaxSize Size treshold above which the element value is not
+ * loaded in memory. The element value is allways loaded
+ * when MaxSize is equal to UINT32_MAX.
+ * @return
+ */
+void gdcmHeader::LoadElementValue(ElValue * ElVal) {
+ size_t item_read;
+ guint16 group = ElVal->GetGroup();
+ guint16 elem = ElVal->GetElement();
+ string vr = ElVal->GetVR();
+ guint32 length = ElVal->GetLength();
+ bool SkipLoad = false;
+
+ fseek(fp, (long)ElVal->GetOffset(), SEEK_SET);
+
+ // Sequences not treated yet !
+ if( vr == "SQ" )
+ SkipLoad = true;
+
+ // Heuristic : a sequence "contains" a set of tags (called items). It looks
+ // like the last tag of a sequence (the one that terminates the sequence)
+ // has a group of 0xfffe (with a dummy length).
+ if( group == 0xfffe )
+ SkipLoad = true;
+
+ // The group length doesn't represent data to be loaded in memory, since
+ // each element of the group shall be loaded individualy.
+ if( elem == 0 )
+ SkipLoad = true;
+
+ if ( SkipLoad ) {
+ SkipElementValue(ElVal);
+ ElVal->SetLength(0);
+ ElVal->SetValue("gdcm::Skipped");
+ return;
+ }
- if(sw) l_gr = _IdDcmSWAP_LONG(((guint32)l_gr),sw);
-
- if(DEBUG) printf("IdDcmRecupLgr : lgr deduite : %08x , %d\n",l_gr,l_gr);
+ // When the length is zero things are easy:
+ if ( length == 0 ) {
+ ElVal->SetValue("");
+ return;
+ }
+
+ // When an integer is expected, read and convert the following two or
+ // four bytes properly i.e. as an integer as opposed to a string.
+ if ( IsAnInteger(ElVal) ) {
+ guint32 NewInt;
+ if( length == 2 ) {
+ NewInt = ReadInt16();
+ } else if( length == 4 ) {
+ NewInt = ReadInt32();
+ } else
+ dbg.Error(true, "LoadElementValue: Inconsistency when reading Int.");
- *longueurLue=l_gr;
- if ( (int)l_gr == -1) {
- l_gr=0;
- }
- *skippedLength = 4;
- if (DEBUG) printf(" 1 : lgr %08x (%d )skippedLength %d\n",l_gr,l_gr, *skippedLength);
- return(l_gr);
+ //FIXME: make the following an util fonction
+ ostringstream s;
+ s << NewInt;
+ ElVal->SetValue(s.str());
+ return;
+ }
+
+ // FIXME The exact size should be length if we move to strings or whatever
+ char* NewValue = (char*)g_malloc(length+1);
+ if( !NewValue) {
+ dbg.Verbose(1, "LoadElementValue: Failed to allocate NewValue");
+ return;
+ }
+ NewValue[length]= 0;
+
+ // FIXME les elements trop long (seuil a fixer a la main) ne devraient
+ // pas etre charge's !!!! Voir TODO.
+ item_read = fread(NewValue, (size_t)length, (size_t)1, fp);
+ if ( item_read != 1 ) {
+ g_free(NewValue);
+ Error::FileReadError(fp, "gdcmHeader::LoadElementValue");
+ ElVal->SetValue("gdcm::UnRead");
+ return;
}
+ ElVal->SetValue(NewValue);
+}
+
+/**
+ * \ingroup gdcmHeader
+ * \brief Loads the element while preserving the current
+ * underlying file position indicator as opposed to
+ * to LoadElementValue that modifies it.
+ * @param ElVal Element whose value shall be loaded.
+ * @return
+ */
+void gdcmHeader::LoadElementValueSafe(ElValue * ElVal) {
+ long PositionOnEntry = ftell(fp);
+ LoadElementValue(ElVal);
+ fseek(fp, PositionOnEntry, SEEK_SET);
+}
+
+
+guint16 gdcmHeader::ReadInt16(void) {
+ guint16 g;
+ size_t item_read;
+ item_read = fread (&g, (size_t)2,(size_t)1, fp);
+ if ( item_read != 1 )
+ throw Error::FileReadError(fp, "gdcmHeader::ReadInt16");
+ g = SwapShort(g);
+ return g;
+}
- // On repart dans la sequence 'sensee'
+guint32 gdcmHeader::ReadInt32(void) {
+ guint32 g;
+ size_t item_read;
+ item_read = fread (&g, (size_t)4,(size_t)1, fp);
+ if ( item_read != 1 )
+ throw Error::FileReadError(fp, "gdcmHeader::ReadInt32");
+ g = SwapLong(g);
+ return g;
+}
+
+/**
+ * \ingroup gdcmHeader
+ * \brief Read the next tag without loading it's value
+ * @return On succes the newly created ElValue, NULL on failure.
+ */
- if(DEBUG) printf("VR : [%01x , %01x] (%c%c) en position %d du tableau\n", VR[0],VR[1],VR[0],VR[1],i);
- //printf(" %d , %s\n", i,_ID_dicom_vr[i].dicom_VR);
+ElValue * gdcmHeader::ReadNextElement(void) {
+ guint16 g;
+ guint16 n;
+ ElValue * NewElVal;
- if (
- (!memcmp( VR,"OB",(size_t)2 )) ||
- (!memcmp( VR,"OW",(size_t)2 )) ||
- (!memcmp( VR,"SQ",(size_t)2 )) ||
- (!memcmp( VR,"UN",(size_t)2 )) ) {
+ try {
+ g = ReadInt16();
+ n = ReadInt16();
+ }
+ catch ( Error::FileReadError ) {
+ // We reached the EOF (or an error occured) and header parsing
+ // has to be considered as finished.
+ return (ElValue *)0;
+ }
- // les 2 octets suivants sont reserves
+ // Find out if the tag we encountered is in the dictionaries:
+ gdcmDictEntry * NewTag = IsInDicts(g, n);
+ if (!NewTag)
+ NewTag = new gdcmDictEntry(g, n);
- if(DEBUG) printf("IdDcmRecupLgr : les 2 octets suivants sont reserves\n");
- //on les saute
- fseek(e->fp, 2L,SEEK_CUR);
-
- //on lit la lgr sur QUATRE octets
+ NewElVal = new ElValue(NewTag);
+ if (!NewElVal) {
+ dbg.Verbose(1, "ReadNextElement: failed to allocate ElValue");
+ return (ElValue*)0;
+ }
- lgrLue=fread (&l_gr, (size_t)4,(size_t)1, e->fp);
+ FindVR(NewElVal);
+ try { FindLength(NewElVal); }
+ catch ( Error::FileReadError ) { // Call it quits
+ return (ElValue *)0;
+ }
+ NewElVal->SetOffset(ftell(fp));
+ return NewElVal;
+}
- if(sw) l_gr = _IdDcmSWAP_LONG(((guint32)l_gr),sw);
- *skippedLength = 8;
+bool gdcmHeader::IsAnInteger(ElValue * ElVal) {
+ guint16 group = ElVal->GetGroup();
+ guint16 element = ElVal->GetElement();
+ string vr = ElVal->GetVR();
+ guint32 length = ElVal->GetLength();
+
+ // When we have some semantics on the element we just read, and if we
+ // a priori know we are dealing with an integer, then we shall be
+ // able to swap it's element value properly.
+ if ( element == 0 ) { // This is the group length of the group
+ if (length == 4)
+ return true;
+ else
+ dbg.Error("gdcmHeader::IsAnInteger",
+ "Erroneous Group Length element length.");
+ }
+
+ if ( group % 2 != 0 )
+ // We only have some semantics on documented elements, which are
+ // the even ones.
+ return false;
+
+ if ( (length != 4) && ( length != 2) )
+ // Swapping only make sense on integers which are 2 or 4 bytes long.
+ return false;
+
+ if ( (vr == "UL") || (vr == "US") || (vr == "SL") || (vr == "SS") )
+ return true;
+
+ if ( (group == 0x0028) && (element == 0x0005) )
+ // This tag is retained from ACR/NEMA
+ // CHECKME Why should "Image Dimensions" be a single integer ?
+ return true;
+
+ if ( (group == 0x0028) && (element == 0x0200) )
+ // This tag is retained from ACR/NEMA
+ return true;
+
+ return false;
+}
+/**
+ * \ingroup gdcmHeader
+ * \brief Recover the offset (from the beginning of the file) of the pixels.
+ */
+size_t gdcmHeader::GetPixelOffset(void) {
+ // If this file complies with the norm we should encounter the
+ // "Image Location" tag (0x0028, 0x0200). This tag contains the
+ // the group that contains the pixel data (hence the "Pixel Data"
+ // is found by indirection through the "Image Location").
+ // Inside the group pointed by "Image Location" the searched element
+ // is conventionally the element 0x0010 (when the norm is respected).
+ // When the "Image Location" is absent we default to group 0x7fe0.
+ guint16 grPixel;
+ guint16 numPixel;
+ string ImageLocation = GetPubElValByName("Image Location");
+ if ( ImageLocation == "UNFOUND" ) {
+ grPixel = 0x7FE0;
} else {
- //on lit la lgr sur DEUX octets
+ grPixel = (guint16) atoi( ImageLocation.c_str() );
+ }
+ if (grPixel != 0x7fe0)
+ // FIXME is this still necessary ?
+ // Now, this looks like an old dirty fix for Philips imager
+ numPixel = 0x1010;
+ else
+ numPixel = 0x0010;
+ ElValue* PixelElement = PubElVals.GetElement(grPixel, numPixel);
+ if (PixelElement)
+ return PixelElement->GetOffset();
+ else
+ return 0;
+}
- lgrLue=fread (&l_gr_2, (size_t)2,(size_t)1, e->fp);
+gdcmDictEntry * gdcmHeader::IsInDicts(guint32 group, guint32 element) {
+ gdcmDictEntry * found = (gdcmDictEntry*)0;
+ if (!RefPubDict && !RefShaDict) {
+ //FIXME build a default dictionary !
+ printf("FIXME in gdcmHeader::IsInDicts\n");
+ }
+ if (RefPubDict) {
+ found = RefPubDict->GetTag(group, element);
+ if (found)
+ return found;
+ }
+ if (RefShaDict) {
+ found = RefShaDict->GetTag(group, element);
+ if (found)
+ return found;
+ }
+ return found;
+}
- if(sw) l_gr_2 = _IdDcmSWAP_SHORT((unsigned short)l_gr_2,sw);
-
- *longueurLue=l_gr_2;
+string gdcmHeader::GetPubElValByNumber(guint16 group, guint16 element) {
+ return PubElVals.GetElValue(group, element);
+}
-
- if ( l_gr_2 == 0xffff) {
- l_gr = 0;
- } else {
- l_gr = l_gr_2;
- }
- *skippedLength = 4;
- }
- } else { // Explicit VR = 0
-
- //on lit la lgr sur QUATRE octets
-
- lgrLue=fread (&l_gr, (size_t)4,(size_t)1, e->fp);
-
- if(sw)l_gr=_IdDcmSWAP_LONG(((long)l_gr),sw);
- *skippedLength = 4;
- }
-
- *longueurLue=l_gr;
-
- // Traitement des curiosites sur la longueur
-
- if ( (int)l_gr == 0xffffffff)
- l_gr=0;
+string gdcmHeader::GetPubElValByName(string TagName) {
+ return PubElVals.GetElValue(TagName);
+}
+
+/**
+ * \ingroup gdcmHeader
+ * \brief Parses the header of the file but does NOT load element values.
+ */
+void gdcmHeader::ParseHeader(void) {
+ ElValue * newElValue = (ElValue *)0;
- if(!memcmp( VR,"SQ",(size_t)2 )) { // ca annonce une SEQUENCE d'items ?!
- l_gr=0; // on lira donc les items de la sequence
- if (DEBUG) printf(" SQ trouve : lgr %d \n",l_gr);
- }
-
-if (DEBUG) printf(" 2 : lgr %08x (%d) skippedLength %d\n",l_gr,l_gr, *skippedLength);
- return(l_gr);
+ rewind(fp);
+ CheckSwap();
+ while ( (newElValue = ReadNextElement()) ) {
+ SkipElementValue(newElValue);
+ PubElVals.Add(newElValue);
+ }
+}
+
+/**
+ * \ingroup gdcmHeader
+ * \brief Loads the element values of all the elements present in the
+ * public tag based hash table.
+ */
+void gdcmHeader::LoadElements(void) {
+ rewind(fp);
+ TagElValueHT ht = PubElVals.GetTagHt();
+ for (TagElValueHT::iterator tag = ht.begin(); tag != ht.end(); ++tag)
+ LoadElementValue(tag->second);
+}
+
+void gdcmHeader::PrintPubElVal(ostream & os) {
+ PubElVals.Print(os);
+}
+
+void gdcmHeader::PrintPubDict(ostream & os) {
+ RefPubDict->Print(os);
}
git://git.creatis.insa-lyon.fr / gdcm.git / blobdiff