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koffice/kplato/kptschedule.h

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/* This file is part of the KDE project
Copyright (C) 2005 Dag Andersen <danders@get2net.dk>
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 KPTSCHEDULE_H
#define KPTSCHEDULE_H
#include "kpteffortcostmap.h"
#include "kptresource.h"
#include <tqintdict.h>
#include <tqptrlist.h>
#include <tqstring.h>
class TQDomElement;
class TQStringList;
namespace KPlato
{
class Appointment;
class DateTime;
class Duration;
class Node;
class Task;
/**
* The Schedule class holds data calculated during project
* calculation and scheduling, eg start- and end-times and
* appointments.
* There is one schedule per node and one per resource.
* Schedules can be of type Expected, Optimistic or Pessimistic
* refering to which estimate is used for the calculation.
* Schedule is subclassed into:
* MainSchedule Used by the main project.
* NodeSchedule Used by all other nodes (tasks).
* ResourceSchedule Used by resources.
*/
class Schedule
{
public:
//NOTE: Must match Effort::Use atm.
enum Type { Expected=0, //Effort::Use_Expected
Optimistic=1, //Effort::Use_Optimistic
Pessimistic=2 //Effort::Use_Pessimistic
};
Schedule();
Schedule(Schedule *parent);
Schedule(TQString name, Type type, long id);
~Schedule();
TQString name() const { return m_name; }
void setName(TQString name) { m_name = name; }
Type type() const { return m_type; }
void setType(Type type) { m_type = type; }
void setType(TQString type);
TQString typeToString(bool translate=false) const;
long id() const { return m_id; }
void setId(long id) { m_id = id; }
void setParent(Schedule *parent);
Schedule *parent() const { return m_parent; }
virtual bool isDeleted() const;
virtual void setDeleted(bool on);
virtual Resource *resource() const { return 0; }
virtual Node *node() const { return 0; }
virtual bool loadXML(const TQDomElement &element);
virtual void saveXML(TQDomElement &element) const;
void saveCommonXML(TQDomElement &element) const;
void saveAppointments(TQDomElement &element) const;
/// Return the list of appointments
TQPtrList<Appointment> &appointments() { return m_appointments; }
/// Adds appointment to this schedule only
virtual bool add(Appointment *appointment);
/// Adds appointment to both this resource schedule and node schedule
virtual void addAppointment(Schedule */*other*/, DateTime &/*start*/, DateTime &/*end*/, double /*load*/=100) {}
/// removes appointment and deletes it (independent of setAutoDelete)
void removeAppointment(Appointment *appointment);
/// removes appointment without deleting it (independent of setAutoDelete)
void takeAppointment(Appointment *appointment);
Appointment *findAppointment(Schedule *resource, Schedule *node);
Appointment appointmentIntervals() const;
virtual bool isOverbooked() const { return false; }
virtual bool isOverbooked(const DateTime &/*start*/, const DateTime &/*end*/) const { return false; }
virtual TQStringList overbookedResources() const;
virtual EffortCostMap plannedEffortCostPrDay(const TQDate &start, const TQDate &end) const;
/// Returns the total planned effort for this task (or subtasks)
virtual Duration plannedEffort() const;
/// Returns the total planned effort for this task (or subtasks) on date
virtual Duration plannedEffort(const TQDate &date) const;
/// Returns the planned effort up to and including date
virtual Duration plannedEffortTo(const TQDate &date) const;
/// Returns the total actual effort for this task (or subtasks)
virtual Duration actualEffort() const;
/// Returns the total actual effort for this task (or subtasks) on date
virtual Duration actualEffort(const TQDate &date) const;
/// Returns the total actual effort for this task (or subtasks) up to and including date
virtual Duration actualEffortTo(const TQDate &date) const;
/**
* Planned cost is the sum total of all resources and other costs
* planned for this node.
*/
virtual double plannedCost() const;
/// Planned cost on date
virtual double plannedCost(const TQDate &date) const;
/**
* Planned cost from start of activity up to and including date
* is the sum of all resource costs and other costs planned for this node.
*/
virtual double plannedCostTo(const TQDate &date) const;
/**
* Actual cost is the sum total of the reported costs actually used
* for this node.
*/
virtual double actualCost() const;
/// Actual cost on date
virtual double actualCost(const TQDate &date) const;
/// Actual cost up to and including date
virtual double actualCostTo(const TQDate &date) const;
/// Effort based performance index
double effortPerformanceIndex(const TQDate &/*date*/, bool */*error=0*/) { return 0.0; }
/// Cost performance index
double costPerformanceIndex(const TQDate &/*date*/, bool */*error=0*/) { return 0.0; }
virtual double normalRatePrHour() const { return 0.0; }
void setEarliestStart(DateTime &dt) { earliestStart = dt; }
void setLatestFinish(DateTime &dt) { latestFinish = dt; }
virtual void initiateCalculation();
virtual void calcResourceOverbooked();
void setScheduled(bool on) { notScheduled = !on; }
bool isScheduled() const { return !notScheduled; }
DateTime start() const { return startTime; }
DateTime end() const { return endTime; }
protected:
TQString m_name;
Type m_type;
long m_id;
bool m_deleted;
TQPtrList<Appointment> m_appointments;
Schedule *m_parent;
friend class Node;
friend class Task;
friend class Project;
friend class Resource;
friend class RecalculateProjectCmd;
/**
* earliestStart is calculated by PERT/CPM.
* A task may be scheduled to start later because of constraints
* or resource availability etc.
*/
DateTime earliestStart;
/**
* latestFinish is calculated by PERT/CPM.
* A task may be scheduled to finish earlier because of constraints
* or resource availability etc.
*/
DateTime latestFinish;
/** startTime is the scheduled start time.
* It depends on constraints (i.e. ASAP/ALAP) and resource availability.
* It will always be later or equal to @ref earliestStart
*/
DateTime startTime;
/**
* m_endTime is the scheduled finish time.
* It depends on constraints (i.e. ASAP/ALAP) and resource availability.
* It will always be earlier or equal to @ref latestFinish
*/
DateTime endTime;
/**
* duration is the scheduled duration which depends on
* e.g. estimated effort, allocated resources and risk
*/
Duration duration;
/// Set if EffortType == Effort, but no resource is requested
bool resourceError;
/// Set if the assigned resource is overbooked
bool resourceOverbooked;
/// Set if the requested resource is not available
bool resourceNotAvailable;
/// Set if the task cannot be scheduled to fullfill all the constraints
bool schedulingError;
/// Set if the node has not been scheduled
bool notScheduled;
DateTime workStartTime;
DateTime workEndTime;
bool inCriticalPath;
#ifndef NDEBUG
public:
virtual void printDebug(TQString ident);
#endif
};
/**
* NodeSchedule holds scheduling information for a node (task).
*
*/
class NodeSchedule : public Schedule
{
public:
NodeSchedule();
NodeSchedule(Node *node, TQString name, Schedule::Type type, long id);
NodeSchedule(Schedule *parent, Node *node);
~NodeSchedule();
virtual bool isDeleted() const
{ return m_parent == 0 ? true : m_parent->isDeleted(); }
void setDeleted(bool on);
virtual bool loadXML(const TQDomElement &element);
virtual void saveXML(TQDomElement &element) const;
// tasks------------>
virtual void addAppointment(Schedule *resource, DateTime &start, DateTime &end, double load=100);
virtual Node *node() const { return m_node; }
virtual void setNode(Node *n) { m_node = n; }
protected:
void init();
private:
Node *m_node;
#ifndef NDEBUG
public:
virtual void printDebug(TQString ident);
#endif
};
/**
* ResourceSchedule holds scheduling information for a resource.
*
*/
class ResourceSchedule : public Schedule
{
public:
ResourceSchedule();
ResourceSchedule(Resource *Resource, TQString name, Schedule::Type type, long id);
ResourceSchedule(Schedule *parent, Resource *Resource);
~ResourceSchedule();
virtual bool isDeleted() const
{ return m_parent == 0 ? true : m_parent->isDeleted(); }
virtual void addAppointment(Schedule *node, DateTime &start, DateTime &end, double load=100);
virtual bool isOverbooked() const;
virtual bool isOverbooked(const DateTime &start, const DateTime &end) const;
Appointment appointmentIntervals() const;
virtual Resource *resource() const { return m_resource; }
virtual double normalRatePrHour() const;
private:
Resource *m_resource;
Schedule *m_parent;
#ifndef NDEBUG
public:
virtual void printDebug(TQString ident);
#endif
};
/**
* MainSchedule holds scheduling information for the main project node.
*
*/
class MainSchedule : public NodeSchedule
{
public:
MainSchedule();
MainSchedule(Node *node, TQString name, Schedule::Type type, long id);
~MainSchedule();
virtual bool isDeleted() const { return m_deleted; }
virtual bool loadXML(const TQDomElement &element, Project &project);
virtual void saveXML(TQDomElement &element) const;
private:
#ifndef NDEBUG
public:
virtual void printDebug(TQString ident);
#endif
};
} //namespace KPlato
#endif