typedef SelectableTraits::installed_iterator installed_iterator;
typedef SelectableTraits::installed_size_type installed_size_type;
+ typedef SelectableTraits::picklist_iterator picklist_iterator;
+ typedef SelectableTraits::picklist_size_type picklist_size_type;
+
public:
/** \name Static ctor substitues picking the item from the pool.
* \code
IdString ident() const;
/** The ResObjects kind. */
- ResObject::Kind kind() const;
+ ResKind kind() const;
/** The ResObjects name. */
const std::string & name() const;
*/
PoolItem updateCandidateObj() const;
+ /** Simply the highest available version, ignoring priorities and policies.
+ * It's doubtful whether solely looking at the version makes a good
+ * candidate, but apps ask for it. Beware that different vendors may
+ * use different (uncomparable) version schemata.
+ */
+ PoolItem highestAvailableVersionObj() const;
+
+ /** \c True if \a rhs is installed and one with the same content is available.
+ * Basically the same name, edition, arch, vendor and buildtime.
+ * \see \ref sat::Solvable::identical
+ */
+ bool identicalAvailable( const PoolItem & rhs ) const;
+
+ /** \c True if \a rhs has the same content as an installed one.
+ * Basically the same name, edition, arch, vendor and buildtime.
+ * \see \ref sat::Solvable::identical
+ */
+ bool identicalInstalled( const PoolItem & rhs ) const;
+
+ /** \c True if the \ref candidateObj is installed (same content).
+ * \see \ref identicalInstalled.
+ */
+ bool identicalInstalledCandidate() const
+ { return identicalInstalled( candidateObj() ); }
+
+ /** \c True if the \ref updateCandidateObj is installed (same content).
+ * \see \ref identicalInstalled.
+ */
+ bool identicalInstalledUpdateCandidate() const
+ { return identicalInstalled( updateCandidateObj() ); }
+
+ /** Return an available Object with the same content as \c rhs.
+ * Basically the same name, edition, arch, vendor and buildtime.
+ * \see \ref sat::Solvable::identical
+ */
+ PoolItem identicalAvailableObj( const PoolItem & rhs ) const;
+
+ /** \Return an installed Object with the same content as \c rhs.
+ * Basically the same name, edition, arch, vendor and buildtime.
+ * \see \ref sat::Solvable::identical
+ */
+ PoolItem identicalInstalledObj( const PoolItem & rhs ) const;
/** Return the \ref installedObj resolvable casted to a specific kind.
* \code
* Package::constPtr p( mySelectable.installedAsKind<Package>() );
* \endcode
*/
- template<class _Res>
- typename ResTraits<_Res>::constPtrType installedAsKind() const
- { return asKind<_Res>( candidateObj() ); }
+ template<class TRes>
+ typename ResTraits<TRes>::constPtrType installedAsKind() const
+ { return asKind<TRes>( candidateObj() ); }
/** Return the \ref candidateObj resolvable casted to a specific kind.
* \code
* Package::constPtr p( mySelectable.candidateAsKind<Package>() );
* \endcode
*/
- template<class _Res>
- typename ResTraits<_Res>::constPtrType candidateAsKind() const
- { return asKind<_Res>( candidateObj() ); }
+ template<class TRes>
+ typename ResTraits<TRes>::constPtrType candidateAsKind() const
+ { return asKind<TRes>( candidateObj() ); }
/** Set a candidate (out of available objects).
* \return The new candidate, or NULL if choice was invalid
/** \overload */
PoolItem setCandidate( ResObject::constPtr newCandidate_r, ResStatus::TransactByValue causer_r = ResStatus::USER );
+ /** Arrange the specified candidate (out of available objects) to be on system after commit.
+ * If the specified candidate is not already installed (\ref identicalInstalled),
+ * and the \a causer_r has sufficient permisssion, then \a newCandidate_r is set as the new
+ * candidate (\ref setCandidate) and selected for installation.
+ * \returns \c True if \a newCandidate_r is already installed or successfully selected for installation.
+ */
+ bool setOnSystem( const PoolItem & newCandidate_r, ResStatus::TransactByValue causer_r = ResStatus::USER );
+
/** An object you could use as pars pro toto.
*
* \return the \ref candidateObj, or ,if no available objects
available_size_type availableSize() const;
available_iterator availableBegin() const;
available_iterator availableEnd() const;
+ inline Iterable<available_iterator> available() const
+ { return makeIterable( availableBegin(), availableEnd() ); }
//@}
////////////////////////////////////////////////////////////////////////
- /** \name Insatlled objects iterators.
+ /** \name Installed objects iterators.
* Ordered by install time. Latest first.
*/
//@{
installed_size_type installedSize() const;
installed_iterator installedBegin() const;
installed_iterator installedEnd() const;
- //}
+ inline Iterable<installed_iterator> installed() const
+ { return makeIterable( installedBegin(), installedEnd() ); }
+ //@}
+
+ ////////////////////////////////////////////////////////////////////////
+
+ /** \name picklist iterators.
+ * This is basically the available items list prepended by those
+ * installed items, that are nolonger \ref identicalAvailable.
+ */
+ //@{
+ bool picklistEmpty() const;
+ picklist_size_type picklistSize() const;
+ picklist_iterator picklistBegin() const;
+ picklist_iterator picklistEnd() const;
+ inline Iterable<picklist_iterator> picklist() const
+ { return makeIterable( picklistBegin(), picklistEnd() ); }
+ //@}
////////////////////////////////////////////////////////////////////////
/** True if candidate object is present. */
bool hasCandidateObj() const
- { return candidateObj(); }
+ { return bool(candidateObj()); }
/** True if installed and candidate object is present */
bool hasBothObjects() const
*/
bool isUnmaintained() const;
+ /** \name Multiversion install.
+ *
+ * Using \ref pickInstall or \ref pickDelete with non-multiversionInstall items
+ * is possible, but additional constraints will apply. E.g. selecting one item for
+ * install will deselect any other.
+ */
+ //@{
+ /** Whether at least one of the available packages has multiversionInstall set.
+ * \see \ref Solvable::multiversionInstall
+ * \see also \ref ZConfig::multiversion.
+ */
+ bool multiversionInstall() const;
+
+ /** Select a specific available item for installation.
+ */
+ bool pickInstall( const PoolItem & pi_r, ResStatus::TransactByValue causer_r = ResStatus::USER, bool yesno_r = true );
+
+ /** Deselect a specific available item from installation.
+ */
+ bool pickNoInstall( const PoolItem & pi_r, ResStatus::TransactByValue causer_r = ResStatus::USER )
+ { return pickInstall( pi_r, causer_r, false ); }
+
+ /** Select a specific installed item for deletion.
+ */
+ bool pickDelete( const PoolItem & pi_r, ResStatus::TransactByValue causer_r = ResStatus::USER, bool yesno_r = true );
+
+ /** Deselect a specific installed item from deletion.
+ */
+ bool pickNoDelete( const PoolItem & pi_r, ResStatus::TransactByValue causer_r = ResStatus::USER )
+ { return pickDelete( pi_r, causer_r, false ); }
+
+ /** Compute the \ref ui::Status for an individual PoolItem.
+ * This just takes into account the item and any identical
+ * installed (or available) one.
+ * \code
+ * Assume there are 3 identical 'foo-1.1 (vendor A)' items,
+ * one 'foo-2.1 (vendor A)' and one ''foo-1.1 (vendor B)':
+ *
+ * installed: . foo-1.1 (vendor A) -> S_KeepInstalled
+ * available: foo-2.1 (vendor A) (repo 1) -> S_NoInst
+ * . foo-1.1 (vendor A) (repo 1) -> S_KeepInstalled
+ * . foo-1.1 (vendor A) (repo 2) -> S_KeepInstalled
+ * foo-1.1 (vendor B) (repo 3) -> S_NoInst
+ *
+ * After 'foo-1.1 (vendor A) (repo 1)' was selected to be installed:
+ *
+ * installed: . foo-1.1 (vendor A) -> S_Update
+ * available: foo-2.1 (vendor A) (repo 1) -> S_NoInst
+ * I foo-1.1 (vendor A) (repo 1) -> S_Update
+ * . foo-1.1 (vendor A) (repo 2) -> S_KeepInstalled
+ * foo-1.1 (vendor B) (repo 3) -> S_NoInst
+ * \endcode
+ * \see \ref sat::Solvable::identical
+ */
+ Status pickStatus( const PoolItem & pi_r ) const;
+
+ /** Assign a new status to a specific item. */
+ bool setPickStatus( const PoolItem & pi_r, Status state_r, ResStatus::TransactByValue causer_r = ResStatus::USER );
+ //@}
+
/** \name Classification of available patches (pseudo installed items).
* A patch is either \c not \c relevant, \c satisfied or \c broken.
* The same applies to other pseudo installed kinds.
//@{
/** Returns true for packages, because packages are not
* classified by the solver.
- */
+ */
bool isUndetermined() const;
/** Returns true if the patch is relevant which means that at least
/** Whether a relevant patchs requirements are broken. */
bool isBroken() const;
- /** This includes still broken patches, as well as those already
- * selected to be installed.
- * This is because already selected patches will be classified as
- * \c satisfied.
+ /** This includes \c unlocked broken patches, as well as those already
+ * selected to be installed. This is because already selected
+ * patches will be classified as \c satisfied. \c Locked but broken
+ * patches will be classified as \ref isUnwanted.
*/
bool isNeeded() const;
+
+ /** Broken (needed) but locked patches. */
+ bool isUnwanted() const;
//@}
public:
/** \name Query and maip objects fate in case of commit.
- */
+ */
//@{
enum Fate {
TO_DELETE = -1,
bool unmodified() const
{ return fate() == UNMODIFIED; }
+ /** True if locked (subclass of unmodified). */
+ bool locked() const
+ { Status st( status() ); return( st == S_Protected || st == S_Taboo ); }
+
/** True if either to delete or to install */
bool toModify() const
{ return fate() != UNMODIFIED; }
* Try to set a new Status.
* Returns \c false if the transitions is not allowed.
*/
- bool setStatus( const Status state_r, ResStatus::TransactByValue causer_r = ResStatus::USER );
+ bool setStatus( Status state_r, ResStatus::TransactByValue causer_r = ResStatus::USER );
/** Return who caused the modification. */
ResStatus::TransactByValue modifiedBy() const;