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+// -*- mode: cpp; mode: fold -*-
+// Description /*{{{*/
+/* ######################################################################
+
+ Cache Iterators - Iterators for navigating the cache structure
+
+ The iterators all provides ++,==,!=,->,* and end for their type.
+ The end function can be used to tell if the list has been fully
+ traversed.
+
+ Unlike STL iterators these contain helper functions to access the data
+ that is being iterated over. This is because the data structures can't
+ be formed in a manner that is intuitive to use and also mmapable.
+
+ For each variable in the target structure that would need a translation
+ to be accessed correctly a translating function of the same name is
+ present in the iterator. If applicable the translating function will
+ return an iterator.
+
+ The DepIterator can iterate over two lists, a list of 'version depends'
+ or a list of 'package reverse depends'. The type is determined by the
+ structure passed to the constructor, which should be the structure
+ that has the depends pointer as a member. The provide iterator has the
+ same system.
+
+ This header is not user includable, please use apt-pkg/pkgcache.h
+
+ ##################################################################### */
+ /*}}}*/
+#ifndef PKGLIB_CACHEITERATORS_H
+#define PKGLIB_CACHEITERATORS_H
+#ifndef __PKGLIB_IN_PKGCACHE_H
+#warning apt-pkg/cacheiterators.h should not be included directly, include apt-pkg/pkgcache.h instead
+#endif
+#include <apt-pkg/macros.h>
+
+#include <iosfwd>
+#include <iterator>
+#include <string>
+#include <apt-pkg/string_view.h>
+
+#include <cstring>
+
+// abstract Iterator template /*{{{*/
+/* This template provides the very basic iterator methods we
+ need to have for doing some walk-over-the-cache magic */
+template<typename Str, typename Itr> class APT_PUBLIC pkgCache::Iterator {
+ /** \brief Returns the Pointer for this struct in the owner
+ * The implementation of this method should be pretty short
+ * as it will only return the Pointer into the mmap stored
+ * in the owner but the name of this pointer is different for
+ * each structure and we want to abstract here at least for the
+ * basic methods from the actual structure.
+ * \return Pointer to the first structure of this type
+ */
+ Str* OwnerPointer() const { return static_cast<Itr const*>(this)->OwnerPointer(); }
+
+ protected:
+ Str *S;
+ pkgCache *Owner;
+
+ public:
+ // iterator_traits
+ using iterator_category = std::forward_iterator_tag;
+ using value_type = Str;
+ using difference_type = std::ptrdiff_t;
+ using pointer = Str*;
+ using reference = Str&;
+ // Iteration
+ inline bool end() const {return Owner == 0 || S == OwnerPointer();}
+
+ // Comparison
+ inline bool operator ==(const Itr &B) const {return S == B.S;}
+ inline bool operator !=(const Itr &B) const {return S != B.S;}
+
+ // Accessors
+ inline Str *operator ->() {return S;}
+ inline Str const *operator ->() const {return S;}
+ inline operator Str *() {return S == OwnerPointer() ? 0 : S;}
+ inline operator Str const *() const {return S == OwnerPointer() ? 0 : S;}
+ inline Str &operator *() {return *S;}
+ inline Str const &operator *() const {return *S;}
+ inline pkgCache *Cache() const {return Owner;}
+
+ // Mixed stuff
+ inline bool IsGood() const { return S && Owner && ! end();}
+ inline unsigned long Index() const {return S - OwnerPointer();}
+ inline map_pointer<Str> MapPointer() const {return map_pointer<Str>(Index()) ;}
+
+ void ReMap(void const * const oldMap, void * const newMap) {
+ if (Owner == 0 || S == 0)
+ return;
+ S = static_cast<Str *>(newMap) + (S - static_cast<Str const *>(oldMap));
+ }
+
+ // Constructors - look out for the variable assigning
+ inline Iterator() : S(0), Owner(0) {}
+ inline Iterator(pkgCache &Owner,Str *T = 0) : S(T), Owner(&Owner) {}
+};
+ /*}}}*/
+// Group Iterator /*{{{*/
+/* Packages with the same name are collected in a Group so someone only
+ interest in package names can iterate easily over the names, so the
+ different architectures can be treated as of the "same" package
+ (apt internally treat them as totally different packages) */
+class APT_PUBLIC pkgCache::GrpIterator: public Iterator<Group, GrpIterator> {
+ long HashIndex;
+
+ public:
+ inline Group* OwnerPointer() const {
+ return (Owner != 0) ? Owner->GrpP : 0;
+ }
+
+ // This constructor is the 'begin' constructor, never use it.
+ explicit inline GrpIterator(pkgCache &Owner) : Iterator<Group, GrpIterator>(Owner), HashIndex(-1) {
+ S = OwnerPointer();
+ operator++();
+ }
+
+ GrpIterator& operator++();
+ inline GrpIterator operator++(int) { GrpIterator const tmp(*this); operator++(); return tmp; }
+
+ inline const char *Name() const {return S->Name == 0?0:Owner->StrP + S->Name;}
+ inline PkgIterator PackageList() const;
+ inline VerIterator VersionsInSource() const;
+ PkgIterator FindPkg(APT::StringView Arch = APT::StringView("any", 3)) const;
+ /** \brief find the package with the "best" architecture
+
+ The best architecture is either the "native" or the first
+ in the list of Architectures which is not an end-Pointer
+
+ \param PreferNonVirtual tries to respond with a non-virtual package
+ and only if this fails returns the best virtual package */
+ PkgIterator FindPreferredPkg(bool const &PreferNonVirtual = true) const;
+ PkgIterator NextPkg(PkgIterator const &Pkg) const;
+
+ // Constructors
+ inline GrpIterator(pkgCache &Owner, Group *Trg) : Iterator<Group, GrpIterator>(Owner, Trg), HashIndex(0) {
+ if (S == 0)
+ S = OwnerPointer();
+ }
+ inline GrpIterator() : Iterator<Group, GrpIterator>(), HashIndex(0) {}
+
+};
+ /*}}}*/
+// Package Iterator /*{{{*/
+class APT_PUBLIC pkgCache::PkgIterator: public Iterator<Package, PkgIterator> {
+ long HashIndex;
+
+ public:
+ inline Package* OwnerPointer() const {
+ return (Owner != 0) ? Owner->PkgP : 0;
+ }
+
+ // This constructor is the 'begin' constructor, never use it.
+ explicit inline PkgIterator(pkgCache &Owner) : Iterator<Package, PkgIterator>(Owner), HashIndex(-1) {
+ S = OwnerPointer();
+ operator++();
+ }
+
+ PkgIterator& operator++();
+ inline PkgIterator operator++(int) { PkgIterator const tmp(*this); operator++(); return tmp; }
+
+ enum OkState {NeedsNothing,NeedsUnpack,NeedsConfigure};
+
+ // Accessors
+ inline const char *Name() const { return Group().Name(); }
+ inline bool Purge() const {return S->CurrentState == pkgCache::State::Purge ||
+ (S->CurrentVer == 0 && S->CurrentState == pkgCache::State::NotInstalled);}
+ inline const char *Arch() const {return S->Arch == 0?0:Owner->StrP + S->Arch;}
+ inline APT_PURE GrpIterator Group() const { return GrpIterator(*Owner, Owner->GrpP + S->Group);}
+
+ inline VerIterator VersionList() const APT_PURE;
+ inline VerIterator CurrentVer() const APT_PURE;
+ inline DepIterator RevDependsList() const APT_PURE;
+ inline PrvIterator ProvidesList() const APT_PURE;
+ OkState State() const APT_PURE;
+ const char *CurVersion() const APT_PURE;
+
+ //Nice printable representation
+ APT_DEPRECATED_MSG("Use APT::PrettyPkg instead") friend std::ostream& operator <<(std::ostream& out, PkgIterator i);
+ std::string FullName(bool const &Pretty = false) const;
+
+ // Constructors
+ inline PkgIterator(pkgCache &Owner,Package *Trg) : Iterator<Package, PkgIterator>(Owner, Trg), HashIndex(0) {
+ if (S == 0)
+ S = OwnerPointer();
+ }
+ inline PkgIterator() : Iterator<Package, PkgIterator>(), HashIndex(0) {}
+};
+ /*}}}*/
+// Version Iterator /*{{{*/
+class APT_PUBLIC pkgCache::VerIterator : public Iterator<Version, VerIterator> {
+ public:
+ inline Version* OwnerPointer() const {
+ return (Owner != 0) ? Owner->VerP : 0;
+ }
+
+ // Iteration
+ inline VerIterator& operator++() {if (S != Owner->VerP) S = Owner->VerP + S->NextVer; return *this;}
+ inline VerIterator operator++(int) { VerIterator const tmp(*this); operator++(); return tmp; }
+
+ inline VerIterator NextInSource()
+ {
+ if (S != Owner->VerP)
+ S = Owner->VerP + S->NextInSource;
+ return *this;
+ }
+
+ // Comparison
+ int CompareVer(const VerIterator &B) const;
+ /** \brief compares two version and returns if they are similar
+
+ This method should be used to identify if two pseudo versions are
+ referring to the same "real" version */
+ inline bool SimilarVer(const VerIterator &B) const {
+ return (B.end() == false && S->Hash == B->Hash && strcmp(VerStr(), B.VerStr()) == 0);
+ }
+
+ // Accessors
+ inline const char *VerStr() const {return S->VerStr == 0?0:Owner->StrP + S->VerStr;}
+ inline const char *Section() const {return S->Section == 0?0:Owner->StrP + S->Section;}
+ /** \brief source package name this version comes from
+ Always contains the name, even if it is the same as the binary name */
+ inline const char *SourcePkgName() const {return Owner->StrP + S->SourcePkgName;}
+ /** \brief source version this version comes from
+ Always contains the version string, even if it is the same as the binary version */
+ inline const char *SourceVerStr() const {return Owner->StrP + S->SourceVerStr;}
+ inline const char *Arch() const {
+ if ((S->MultiArch & pkgCache::Version::All) == pkgCache::Version::All)
+ return "all";
+ return S->ParentPkg == 0?0:Owner->StrP + ParentPkg()->Arch;
+ }
+ inline PkgIterator ParentPkg() const {return PkgIterator(*Owner,Owner->PkgP + S->ParentPkg);}
+
+ inline DescIterator DescriptionList() const;
+ DescIterator TranslatedDescriptionForLanguage(APT::StringView lang) const;
+ DescIterator TranslatedDescription() const;
+ inline DepIterator DependsList() const;
+ inline PrvIterator ProvidesList() const;
+ inline VerFileIterator FileList() const;
+ bool Downloadable() const;
+ inline const char *PriorityType() const {return Owner->Priority(S->Priority);}
+ const char *MultiArchType() const APT_PURE;
+ std::string RelStr() const;
+
+ bool Automatic() const;
+ VerFileIterator NewestFile() const;
+ bool IsSecurityUpdate() const;
+
+#ifdef APT_COMPILING_APT
+ inline unsigned int PhasedUpdatePercentage() const
+ {
+ return (static_cast<Version::Extra *>(Owner->Map.Data()) + S->d)->PhasedUpdatePercentage;
+ }
+ inline bool PhasedUpdatePercentage(unsigned int percentage)
+ {
+ if (percentage > 100)
+ return false;
+ (static_cast<Version::Extra *>(Owner->Map.Data()) + S->d)->PhasedUpdatePercentage = static_cast<uint8_t>(percentage);
+ return true;
+ }
+#endif
+
+ inline VerIterator(pkgCache &Owner,Version *Trg = 0) : Iterator<Version, VerIterator>(Owner, Trg) {
+ if (S == 0)
+ S = OwnerPointer();
+ }
+ inline VerIterator() : Iterator<Version, VerIterator>() {}
+};
+ /*}}}*/
+// Description Iterator /*{{{*/
+class APT_PUBLIC pkgCache::DescIterator : public Iterator<Description, DescIterator> {
+ public:
+ inline Description* OwnerPointer() const {
+ return (Owner != 0) ? Owner->DescP : 0;
+ }
+
+ // Iteration
+ inline DescIterator& operator++() {if (S != Owner->DescP) S = Owner->DescP + S->NextDesc; return *this;}
+ inline DescIterator operator++(int) { DescIterator const tmp(*this); operator++(); return tmp; }
+
+ // Comparison
+ int CompareDesc(const DescIterator &B) const;
+
+ // Accessors
+ inline const char *LanguageCode() const {return Owner->StrP + S->language_code;}
+ inline const char *md5() const {return Owner->StrP + S->md5sum;}
+ inline DescFileIterator FileList() const;
+
+ inline DescIterator() : Iterator<Description, DescIterator>() {}
+ inline DescIterator(pkgCache &Owner,Description *Trg = 0) : Iterator<Description, DescIterator>(Owner, Trg) {
+ if (S == 0)
+ S = Owner.DescP;
+ }
+};
+ /*}}}*/
+// Dependency iterator /*{{{*/
+class APT_PUBLIC pkgCache::DepIterator : public Iterator<Dependency, DepIterator> {
+ enum {DepVer, DepRev} Type;
+ DependencyData * S2;
+
+ public:
+ inline Dependency* OwnerPointer() const {
+ return (Owner != 0) ? Owner->DepP : 0;
+ }
+
+ // Iteration
+ DepIterator& operator++();
+ inline DepIterator operator++(int) { DepIterator const tmp(*this); operator++(); return tmp; }
+
+ // Accessors
+ inline const char *TargetVer() const {return S2->Version == 0?0:Owner->StrP + S2->Version;}
+ inline PkgIterator TargetPkg() const {return PkgIterator(*Owner,Owner->PkgP + S2->Package);}
+ inline PkgIterator SmartTargetPkg() const {PkgIterator R(*Owner,0);SmartTargetPkg(R);return R;}
+ inline VerIterator ParentVer() const {return VerIterator(*Owner,Owner->VerP + S->ParentVer);}
+ inline PkgIterator ParentPkg() const {return PkgIterator(*Owner,Owner->PkgP + Owner->VerP[uint32_t(S->ParentVer)].ParentPkg);}
+ inline bool Reverse() const {return Type == DepRev;}
+ bool IsCritical() const APT_PURE;
+ bool IsNegative() const APT_PURE;
+ bool IsIgnorable(PrvIterator const &Prv) const APT_PURE;
+ bool IsIgnorable(PkgIterator const &Pkg) const APT_PURE;
+ /* MultiArch can be translated to SingleArch for an resolver and we did so,
+ by adding dependencies to help the resolver understand the problem, but
+ sometimes it is needed to identify these to ignore them… */
+ inline bool IsMultiArchImplicit() const APT_PURE {
+ return (S2->CompareOp & pkgCache::Dep::MultiArchImplicit) == pkgCache::Dep::MultiArchImplicit;
+ }
+ /* This covers additionally negative dependencies, which aren't arch-specific,
+ but change architecture nonetheless as a Conflicts: foo does applies for all archs */
+ bool IsImplicit() const APT_PURE;
+
+ bool IsSatisfied(VerIterator const &Ver) const APT_PURE;
+ bool IsSatisfied(PrvIterator const &Prv) const APT_PURE;
+ void GlobOr(DepIterator &Start,DepIterator &End);
+ Version **AllTargets() const;
+ bool SmartTargetPkg(PkgIterator &Result) const;
+ inline const char *CompType() const {return Owner->CompType(S2->CompareOp);}
+ inline const char *DepType() const {return Owner->DepType(S2->Type);}
+
+ // overrides because we are special
+ struct DependencyProxy
+ {
+ map_stringitem_t &Version;
+ map_pointer<pkgCache::Package> &Package;
+ map_id_t &ID;
+ unsigned char &Type;
+ unsigned char &CompareOp;
+ map_pointer<pkgCache::Version> &ParentVer;
+ map_pointer<pkgCache::DependencyData> &DependencyData;
+ map_pointer<Dependency> &NextRevDepends;
+ map_pointer<Dependency> &NextDepends;
+ map_pointer<pkgCache::DependencyData> &NextData;
+ DependencyProxy const * operator->() const { return this; }
+ DependencyProxy * operator->() { return this; }
+ };
+ inline DependencyProxy operator->() const {return (DependencyProxy) { S2->Version, S2->Package, S->ID, S2->Type, S2->CompareOp, S->ParentVer, S->DependencyData, S->NextRevDepends, S->NextDepends, S2->NextData };}
+ inline DependencyProxy operator->() {return (DependencyProxy) { S2->Version, S2->Package, S->ID, S2->Type, S2->CompareOp, S->ParentVer, S->DependencyData, S->NextRevDepends, S->NextDepends, S2->NextData };}
+ void ReMap(void const * const oldMap, void * const newMap)
+ {
+ Iterator<Dependency, DepIterator>::ReMap(oldMap, newMap);
+ if (Owner == 0 || S == 0 || S2 == 0)
+ return;
+ S2 = static_cast<DependencyData *>(newMap) + (S2 - static_cast<DependencyData const *>(oldMap));
+ }
+
+ //Nice printable representation
+ APT_DEPRECATED_MSG("Use APT::PrettyDep instead") friend std::ostream& operator <<(std::ostream& out, DepIterator D);
+
+ inline DepIterator(pkgCache &Owner, Dependency *Trg, Version* = 0) :
+ Iterator<Dependency, DepIterator>(Owner, Trg), Type(DepVer), S2(Trg == 0 ? Owner.DepDataP : (Owner.DepDataP + Trg->DependencyData)) {
+ if (S == 0)
+ S = Owner.DepP;
+ }
+ inline DepIterator(pkgCache &Owner, Dependency *Trg, Package*) :
+ Iterator<Dependency, DepIterator>(Owner, Trg), Type(DepRev), S2(Trg == 0 ? Owner.DepDataP : (Owner.DepDataP + Trg->DependencyData)) {
+ if (S == 0)
+ S = Owner.DepP;
+ }
+ inline DepIterator() : Iterator<Dependency, DepIterator>(), Type(DepVer), S2(0) {}
+};
+ /*}}}*/
+// Provides iterator /*{{{*/
+class APT_PUBLIC pkgCache::PrvIterator : public Iterator<Provides, PrvIterator> {
+ enum {PrvVer, PrvPkg} Type;
+
+ public:
+ inline Provides* OwnerPointer() const {
+ return (Owner != 0) ? Owner->ProvideP : 0;
+ }
+
+ // Iteration
+ inline PrvIterator& operator ++() {if (S != Owner->ProvideP) S = Owner->ProvideP +
+ (Type == PrvVer?S->NextPkgProv:S->NextProvides); return *this;}
+ inline PrvIterator operator++(int) { PrvIterator const tmp(*this); operator++(); return tmp; }
+
+ // Accessors
+ inline const char *Name() const {return ParentPkg().Name();}
+ inline const char *ProvideVersion() const {return S->ProvideVersion == 0?0:Owner->StrP + S->ProvideVersion;}
+ inline PkgIterator ParentPkg() const {return PkgIterator(*Owner,Owner->PkgP + S->ParentPkg);}
+ inline VerIterator OwnerVer() const {return VerIterator(*Owner,Owner->VerP + S->Version);}
+ inline PkgIterator OwnerPkg() const {return PkgIterator(*Owner,Owner->PkgP + Owner->VerP[uint32_t(S->Version)].ParentPkg);}
+
+ /* MultiArch can be translated to SingleArch for an resolver and we did so,
+ by adding provides to help the resolver understand the problem, but
+ sometimes it is needed to identify these to ignore them… */
+ bool IsMultiArchImplicit() const APT_PURE
+ { return (S->Flags & pkgCache::Flag::MultiArchImplicit) == pkgCache::Flag::MultiArchImplicit; }
+
+
+ inline PrvIterator() : Iterator<Provides, PrvIterator>(), Type(PrvVer) {}
+ inline PrvIterator(pkgCache &Owner, Provides *Trg, Version*) :
+ Iterator<Provides, PrvIterator>(Owner, Trg), Type(PrvVer) {
+ if (S == 0)
+ S = Owner.ProvideP;
+ }
+ inline PrvIterator(pkgCache &Owner, Provides *Trg, Package*) :
+ Iterator<Provides, PrvIterator>(Owner, Trg), Type(PrvPkg) {
+ if (S == 0)
+ S = Owner.ProvideP;
+ }
+};
+ /*}}}*/
+// Release file /*{{{*/
+class APT_PUBLIC pkgCache::RlsFileIterator : public Iterator<ReleaseFile, RlsFileIterator> {
+ public:
+ inline ReleaseFile* OwnerPointer() const {
+ return (Owner != 0) ? Owner->RlsFileP : 0;
+ }
+
+ // Iteration
+ inline RlsFileIterator& operator++() {if (S != Owner->RlsFileP) S = Owner->RlsFileP + S->NextFile;return *this;}
+ inline RlsFileIterator operator++(int) { RlsFileIterator const tmp(*this); operator++(); return tmp; }
+
+ // Accessors
+ inline const char *FileName() const {return S->FileName == 0?0:Owner->StrP + S->FileName;}
+ inline const char *Archive() const {return S->Archive == 0?0:Owner->StrP + S->Archive;}
+ inline const char *Version() const {return S->Version == 0?0:Owner->StrP + S->Version;}
+ inline const char *Origin() const {return S->Origin == 0?0:Owner->StrP + S->Origin;}
+ inline const char *Codename() const {return S->Codename ==0?0:Owner->StrP + S->Codename;}
+ inline const char *Label() const {return S->Label == 0?0:Owner->StrP + S->Label;}
+ inline const char *Site() const {return S->Site == 0?0:Owner->StrP + S->Site;}
+ inline bool Flagged(pkgCache::Flag::ReleaseFileFlags const flag) const {return (S->Flags & flag) == flag; }
+
+ std::string RelStr();
+
+ // Constructors
+ inline RlsFileIterator() : Iterator<ReleaseFile, RlsFileIterator>() {}
+ explicit inline RlsFileIterator(pkgCache &Owner) : Iterator<ReleaseFile, RlsFileIterator>(Owner, Owner.RlsFileP) {}
+ inline RlsFileIterator(pkgCache &Owner,ReleaseFile *Trg) : Iterator<ReleaseFile, RlsFileIterator>(Owner, Trg) {}
+};
+ /*}}}*/
+// Package file /*{{{*/
+class APT_PUBLIC pkgCache::PkgFileIterator : public Iterator<PackageFile, PkgFileIterator> {
+ public:
+ inline PackageFile* OwnerPointer() const {
+ return (Owner != 0) ? Owner->PkgFileP : 0;
+ }
+
+ // Iteration
+ inline PkgFileIterator& operator++() {if (S != Owner->PkgFileP) S = Owner->PkgFileP + S->NextFile; return *this;}
+ inline PkgFileIterator operator++(int) { PkgFileIterator const tmp(*this); operator++(); return tmp; }
+
+ // Accessors
+ inline const char *FileName() const {return S->FileName == 0?0:Owner->StrP + S->FileName;}
+ inline pkgCache::RlsFileIterator ReleaseFile() const {return RlsFileIterator(*Owner, Owner->RlsFileP + S->Release);}
+ inline const char *Archive() const {return S->Release == 0 ? Component() : ReleaseFile().Archive();}
+ inline const char *Version() const {return S->Release == 0 ? NULL : ReleaseFile().Version();}
+ inline const char *Origin() const {return S->Release == 0 ? NULL : ReleaseFile().Origin();}
+ inline const char *Codename() const {return S->Release == 0 ? NULL : ReleaseFile().Codename();}
+ inline const char *Label() const {return S->Release == 0 ? NULL : ReleaseFile().Label();}
+ inline const char *Site() const {return S->Release == 0 ? NULL : ReleaseFile().Site();}
+ inline bool Flagged(pkgCache::Flag::ReleaseFileFlags const flag) const {return S->Release== 0 ? false : ReleaseFile().Flagged(flag);}
+ inline bool Flagged(pkgCache::Flag::PkgFFlags const flag) const {return (S->Flags & flag) == flag;}
+ inline const char *Component() const {return S->Component == 0?0:Owner->StrP + S->Component;}
+ inline const char *Architecture() const {return S->Architecture == 0?0:Owner->StrP + S->Architecture;}
+ inline const char *IndexType() const {return S->IndexType == 0?0:Owner->StrP + S->IndexType;}
+
+ std::string RelStr();
+
+ // Constructors
+ inline PkgFileIterator() : Iterator<PackageFile, PkgFileIterator>() {}
+ explicit inline PkgFileIterator(pkgCache &Owner) : Iterator<PackageFile, PkgFileIterator>(Owner, Owner.PkgFileP) {}
+ inline PkgFileIterator(pkgCache &Owner,PackageFile *Trg) : Iterator<PackageFile, PkgFileIterator>(Owner, Trg) {}
+};
+ /*}}}*/
+// Version File /*{{{*/
+class APT_PUBLIC pkgCache::VerFileIterator : public pkgCache::Iterator<VerFile, VerFileIterator> {
+ public:
+ inline VerFile* OwnerPointer() const {
+ return (Owner != 0) ? Owner->VerFileP : 0;
+ }
+
+ // Iteration
+ inline VerFileIterator& operator++() {if (S != Owner->VerFileP) S = Owner->VerFileP + S->NextFile; return *this;}
+ inline VerFileIterator operator++(int) { VerFileIterator const tmp(*this); operator++(); return tmp; }
+
+ // Accessors
+ inline PkgFileIterator File() const {return PkgFileIterator(*Owner, Owner->PkgFileP + S->File);}
+
+ inline VerFileIterator() : Iterator<VerFile, VerFileIterator>() {}
+ inline VerFileIterator(pkgCache &Owner,VerFile *Trg) : Iterator<VerFile, VerFileIterator>(Owner, Trg) {}
+};
+ /*}}}*/
+// Description File /*{{{*/
+class APT_PUBLIC pkgCache::DescFileIterator : public Iterator<DescFile, DescFileIterator> {
+ public:
+ inline DescFile* OwnerPointer() const {
+ return (Owner != 0) ? Owner->DescFileP : 0;
+ }
+
+ // Iteration
+ inline DescFileIterator& operator++() {if (S != Owner->DescFileP) S = Owner->DescFileP + S->NextFile; return *this;}
+ inline DescFileIterator operator++(int) { DescFileIterator const tmp(*this); operator++(); return tmp; }
+
+ // Accessors
+ inline PkgFileIterator File() const {return PkgFileIterator(*Owner, Owner->PkgFileP + S->File);}
+
+ inline DescFileIterator() : Iterator<DescFile, DescFileIterator>() {}
+ inline DescFileIterator(pkgCache &Owner,DescFile *Trg) : Iterator<DescFile, DescFileIterator>(Owner, Trg) {}
+};
+ /*}}}*/
+// Inlined Begin functions can't be in the class because of order problems /*{{{*/
+inline pkgCache::PkgIterator pkgCache::GrpIterator::PackageList() const
+ {return PkgIterator(*Owner,Owner->PkgP + S->FirstPackage);}
+ inline pkgCache::VerIterator pkgCache::GrpIterator::VersionsInSource() const
+ {
+ return VerIterator(*Owner, Owner->VerP + S->VersionsInSource);
+ }
+inline pkgCache::VerIterator pkgCache::PkgIterator::VersionList() const
+ {return VerIterator(*Owner,Owner->VerP + S->VersionList);}
+inline pkgCache::VerIterator pkgCache::PkgIterator::CurrentVer() const
+ {return VerIterator(*Owner,Owner->VerP + S->CurrentVer);}
+inline pkgCache::DepIterator pkgCache::PkgIterator::RevDependsList() const
+ {return DepIterator(*Owner,Owner->DepP + S->RevDepends,S);}
+inline pkgCache::PrvIterator pkgCache::PkgIterator::ProvidesList() const
+ {return PrvIterator(*Owner,Owner->ProvideP + S->ProvidesList,S);}
+inline pkgCache::DescIterator pkgCache::VerIterator::DescriptionList() const
+ {return DescIterator(*Owner,Owner->DescP + S->DescriptionList);}
+inline pkgCache::PrvIterator pkgCache::VerIterator::ProvidesList() const
+ {return PrvIterator(*Owner,Owner->ProvideP + S->ProvidesList,S);}
+inline pkgCache::DepIterator pkgCache::VerIterator::DependsList() const
+ {return DepIterator(*Owner,Owner->DepP + S->DependsList,S);}
+inline pkgCache::VerFileIterator pkgCache::VerIterator::FileList() const
+ {return VerFileIterator(*Owner,Owner->VerFileP + S->FileList);}
+inline pkgCache::DescFileIterator pkgCache::DescIterator::FileList() const
+ {return DescFileIterator(*Owner,Owner->DescFileP + S->FileList);}
+ /*}}}*/
+#endif