/* This file is part of the KDE project Copyright (C) 2005 Dag Andersen This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; version 2 of the License. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef KPTAPPOINTMENT_H #define KPTAPPOINTMENT_H #include "kptduration.h" #include "kptdatetime.h" #include #include #include #include #include class TQTime; namespace KPlato { class Risk; class Effort; class Appointment; class Task; class Node; class Project; class Resource; class ResourceRequest; class ResourceGroupRequest; class Calendar; class ResourceRequestCollection; class EffortCostMap; class Schedule; class AppointmentInterval { public: AppointmentInterval(); AppointmentInterval(const AppointmentInterval &AppointmentInterval); AppointmentInterval(const DateTime &start, const DateTime end, double load=100); ~AppointmentInterval(); void set(DateTime &start, DateTime &end, double load=100); void set(DateTime &start, Duration &duration, double load=100); Duration effort() const { return (m_end - m_start) * m_load / 100; } Duration effort(const DateTime &start, const DateTime end) const; Duration effort(const DateTime &time, bool upto) const; bool loadXML(TQDomElement &element); void saveXML(TQDomElement &element) const; const DateTime &startTime() const { return m_start; } void setStartTime(const DateTime &time) { m_start = time; } const DateTime &endTime() const { return m_end; } void setEndTime(const DateTime &time) { m_end = time; } double load() const { return m_load; } void setLoad(double load) { m_load = load; } bool isValid() const; AppointmentInterval firstInterval(const AppointmentInterval &interval, const DateTime &from) const; private: DateTime m_start; DateTime m_end; double m_load; //percent }; /** * This list is sorted after 1) startdatetime, 2) enddatetime. * The intervals do not overlap, an interval does not start before the * previous interval ends. */ class AppointmentIntervalList : public TQPtrList { protected: int compareItems(TQPtrCollection::Item item1, TQPtrCollection::Item item2) { AppointmentInterval *i1 = static_cast(item1); AppointmentInterval *i2 = static_cast(item2); if (i1->startTime() < i2->startTime()) { return -1; } if (i1->startTime() > i2->startTime()) { return 1; } if (i1->endTime() < i2->endTime()) { return -1; } if (i1->endTime() > i2->endTime()) { return 1; } return 0; } }; typedef TQPtrListIterator AppointmentIntervalListIterator; /** * A resource (@ref Resource) can be scheduled to be used at any time, * this is represented internally with Appointments * There is one Appointment per resource-task pair. * An appointment can be devided into several intervals, represented with * a list of AppointmentInterval. * This list is sorted after 1) startdatetime, 2) enddatetime. * The intervals do not overlap, an interval does not start before the * previous interval ends. * An interval is a countinous time interval with the same load. It can span dates. */ class Appointment { public: Appointment(); Appointment(Schedule *resource, Schedule *node, DateTime start, DateTime end, double load); Appointment(Schedule *resource, Schedule *node, DateTime start, Duration duration, double load); ~Appointment(); // get/set member values. Schedule *node() const { return m_node; } void setNode(Schedule *n) { m_node = n; } Schedule *resource() const { return m_resource; } void setResource(Schedule *r) { m_resource = r; } DateTime startTime() const; DateTime endTime() const; double maxLoad() const; const Duration &repeatInterval() const {return m_repeatInterval;} void setRepeatInterval(Duration ri) {m_repeatInterval=ri;} int repeatCount() const { return m_repeatCount; } void setRepeatCount(int rc) { m_repeatCount=rc; } void deleteAppointmentFromRepeatList(DateTime time); void addAppointmentToRepeatList(DateTime time); bool isBusy(const DateTime &start, const DateTime &end); /// attach appointment to resource and node bool attach(); /// detach appointment from resource and node void detach(); void addInterval(AppointmentInterval *a); void addInterval(AppointmentInterval &a) { addInterval(new AppointmentInterval(a)); } void addInterval(const DateTime &start, const DateTime &end, double load=100); void addInterval(const DateTime &start, const Duration &duration, double load=100); const AppointmentIntervalList &intervals() const { return m_intervals; } bool loadXML(TQDomElement &element, Project &project, Schedule &sch); void saveXML(TQDomElement &element) const; /** * Returns the planned effort and cost for the interval start to end (inclusive). * Only dates with any planned effort is returned. */ EffortCostMap plannedPrDay(const TQDate& start, const TQDate& end) const; /// Returns the planned effort from start to end Duration effort(const DateTime &start, const DateTime &end) const; /// Returns the planned effort from start for the duration Duration effort(const DateTime &start, const Duration &duration) const; /// Returns the planned effort from time onwards Duration effortFrom(const DateTime &time) const; /// Returns the total planned effort for this appointment Duration plannedEffort() const; /// Returns the planned effort on the date Duration plannedEffort(const TQDate &date) const; /// Returns the planned effort upto and including date Duration plannedEffortTo(const TQDate &date) const; /// Returns the total actual effort for this appointment Duration actualEffort() const; /// Returns the actual effort on the date Duration actualEffort(const TQDate &date) const; /// Returns the actual effort on the date Duration actualEffortTo(const TQDate &date) const; /// Calculates the total planned cost for this appointment double plannedCost(); /// Calculates the planned cost on date double plannedCost(const TQDate &date); /// Calculates the planned cost upto and including date double plannedCostTo(const TQDate &date); /// Calculates the total actual cost for this appointment double actualCost(); /// Calculates the actual cost on date double actualCost(const TQDate &date); /// Calculates the actual cost upto and including date double actualCostTo(const TQDate &date); Appointment &operator=(const Appointment &app); Appointment &operator+=(const Appointment &app); Appointment operator+(const Appointment &app); void addActualEffort(TQDate date, Duration effort, bool overtime=false); private: Schedule *m_node; Schedule *m_resource; Duration m_repeatInterval; int m_repeatCount; TQPtrList m_extraRepeats; TQPtrList m_skipRepeats; AppointmentIntervalList m_intervals; class UsedEffortItem { public: UsedEffortItem(TQDate date, Duration effort, bool overtime=false); TQDate date(); Duration effort(); bool isOvertime(); private: TQDate m_date; Duration m_effort; bool m_overtime; }; class UsedEffort : TQPtrList { public: UsedEffort(); ~UsedEffort() {} void inSort(TQDate date, Duration effort, bool overtime=false); Duration usedEffort(bool includeOvertime=true) const; Duration usedEffort(const TQDate &date, bool includeOvertime=true) const; Duration usedEffortTo(const TQDate &date, bool includeOvertime=true) const; Duration usedOvertime() const; Duration usedOvertime(const TQDate &date) const; Duration usedOvertimeTo(const TQDate &date) const; bool load(TQDomElement &element); void save(TQDomElement &element) const; protected: int compareItems(TQPtrCollection::Item item1, TQPtrCollection::Item item2); }; UsedEffort m_actualEffort; #ifndef NDEBUG public: void printDebug(TQString ident); #endif }; } //KPlato namespace #endif