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koffice/kplato/kptproject.h

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/* This file is part of the KDE project
Copyright (C) 2001 Thomas Zander zander@kde.org
Copyright (C) 2004 - 2006 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; either
version 2 of the License, or (at your option) any later version.
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 KPTPROJECT_H
#define KPTPROJECT_H
#include "kptnode.h"
#include "kptaccount.h"
#include "kptcalendar.h"
#include "kptdatetime.h"
#include "kptduration.h"
#include "kptresource.h"
#include <tqmap.h>
#include <tqptrlist.h>
#include <tqdict.h>
#include <klistview.h>
#include <klocale.h>
namespace KPlato
{
class Part;
class Schedule;
class StandardWorktime;
//#define DEBUGPERT
/**
* Project is the main node in a project, it contains child nodes and
* possibly sub-projects. A sub-project is just another instantion of this
* node however.
*/
class Project : public Node {
public:
Project(Node *parent = 0);
~Project();
/// Returns the node type. Can be Type_Project or Type_Subproject.
virtual int type() const;
/**
* Calculate the whole project.
*
* @param schedule Schedule to use
*/
void calculate(Schedule *scedule);
/**
* Calculate the whole project.
*
* @param use Calculate using expected-, optimistic- or pessimistic estimate.
*/
void calculate(Effort::Use use);
/// Calculate current schedule
void calculate();
virtual bool calcCriticalPath(bool fromEnd);
virtual DateTime startTime() const;
virtual DateTime endTime() const;
/// Returns the duration calculated as latestFinish - earliestStart.
Duration *getExpectedDuration();
/**
* Instead of using the expected duration, generate a random value using
* the Distribution of each Task. This can be used for Monte-Carlo
* estimation of Project duration.
*/
Duration *getRandomDuration();
virtual bool load(TQDomElement &element);
virtual void save(TQDomElement &element) const;
TQPtrList<ResourceGroup> &resourceGroups();
virtual void addResourceGroup(ResourceGroup *resource);
virtual void insertResourceGroup(unsigned int index, ResourceGroup *resource);
void removeResourceGroup(ResourceGroup *resource);
void removeResourceGroup(int number);
ResourceGroup *takeResourceGroup(ResourceGroup *resource)
{ return m_resourceGroups.take(m_resourceGroups.findRef(resource)); }
bool addTask( Node* task, Node* position );
bool addSubTask( Node* task, Node* position );
bool addSubTask( Node* task, int index, Node* parent );
void delTask(Node *node);
bool canIndentTask(Node* node);
bool indentTask( Node* node );
bool canUnindentTask( Node* node );
bool unindentTask( Node* node );
bool canMoveTaskUp( Node* node );
bool moveTaskUp( Node* node );
bool canMoveTaskDown( Node* node );
bool moveTaskDown( Node* node );
Task *createTask(Node* parent);
Task *createTask(Task &def, Node* parent);
/// Returns the resourcegroup with identity id.
ResourceGroup *group(TQString id);
/// Returns the resource with identity id.
Resource *resource(TQString id);
virtual EffortCostMap plannedEffortCostPrDay(const TQDate &start, const TQDate &end) const;
/// Returns the total planned effort for this project (or subproject)
virtual Duration plannedEffort();
/// Returns the total planned effort for this project (or subproject) on date
virtual Duration plannedEffort(const TQDate &date);
/// Returns the planned effort up to and including date
virtual Duration plannedEffortTo(const TQDate &date);
/// Returns the actual effort
virtual Duration actualEffort();
/// Returns the actual effort on date
virtual Duration actualEffort(const TQDate &date);
/// Returns the actual effort up to and including date
virtual Duration actualEffortTo(const TQDate &date);
/**
* Returns the total planned cost for this project
*/
virtual double plannedCost();
/// Planned cost on date
virtual double plannedCost(const TQDate &date);
/// Planned cost up to and including date
virtual double plannedCostTo(const TQDate &date);
/**
* Returns the actually reported cost for this project
*/
virtual double actualCost();
/// Actual cost on date
virtual double actualCost(const TQDate &date);
/// Actual cost up to and including date
virtual double actualCostTo(const TQDate &date);
Calendar *defaultCalendar() { return m_standardWorktime->calendar(); }
TQPtrList<Calendar> calendars();
void addCalendar(Calendar *calendar);
/// Returns the calendar with identity id.
Calendar *calendar(const TQString id) const;
/**
* Defines the length of days, weeks, months and years
* and the standard working week.
* Used for estimation and calculation of effort,
* and presentation in gantt chart.
*/
StandardWorktime *standardWorktime() { return m_standardWorktime; }
void setStandardWorktime(StandardWorktime * worktime);
/// Check if node par can be linked to node child.
bool legalToLink(Node *par, Node *child);
virtual const TQDict<Node> &nodeDict() { return nodeIdDict; }
/// Find the node with identity id
virtual Node *findNode(const TQString &id) const
{ return (m_parent ? m_parent->findNode(id) : nodeIdDict.find(id)); }
/// Remove the node with identity id from the register
virtual bool removeId(const TQString &id);
/// Insert the node with identity id
virtual void insertId(const TQString &id, const Node *node);
/// Register node. The nodes id must be unique and non-empty.
bool registerNodeId(Node *node);
/// Create a unique id.
TQString uniqueNodeId(int seed=1);
ResourceGroup *findResourceGroup(const TQString &id) const
{ return resourceGroupIdDict.find(id); }
/// Remove the resourcegroup with identity id from the register
bool removeResourceGroupId(const TQString &id)
{ return resourceGroupIdDict.remove(id); }
/// Insert the resourcegroup with identity id
void insertResourceGroupId(const TQString &id, const ResourceGroup* group)
{ resourceGroupIdDict.insert(id, group); }
Resource *findResource(const TQString &id) const
{ return resourceIdDict.find(id); }
/// Remove the resource with identity id from the register
bool removeResourceId(const TQString &id)
{ return resourceIdDict.remove(id); }
/// Insert the resource with identity id
void insertResourceId(const TQString &id, const Resource *resource)
{ resourceIdDict.insert(id, resource); }
/// Find the calendar with identity id
virtual Calendar *findCalendar(const TQString &id) const
{ return id.isEmpty() ? 0 : calendarIdDict.find(id); }
/// Remove the calendar with identity id from the register
virtual bool removeCalendarId(const TQString &id);
/// Insert the calendar with identity id
virtual void insertCalendarId(const TQString &id, const Calendar *calendar);
/**
* Setting a project to be baselined means the project data can not be edited anymore.
* @param on the new baseline value
*/
void setBaselined(bool on) { m_baselined = on; }
/**
* @return if the project is baselined; a baselined project becomes uneditable.
*/
bool isBaselined() const { return m_baselined; }
void generateWBS(int count, WBSDefinition &def, TQString wbs=TQString());
Accounts &accounts() { return m_accounts; }
/// Set current schedule to schedule with identity id, for me and my tqchildren
virtual void setCurrentSchedule(long id);
/// Create new schedule with unique id.
MainSchedule *createSchedule(TQString name, Schedule::Type type);
/// Set parent schedule for my tqchildren
virtual void setParentSchedule(Schedule *sch);
protected:
Accounts m_accounts;
TQPtrList<ResourceGroup> m_resourceGroups;
TQPtrList<Calendar> m_calendars;
StandardWorktime *m_standardWorktime;
DateTime calculateForward(int use);
DateTime calculateBackward(int use);
DateTime scheduleForward(const DateTime &earliest, int use);
DateTime scheduleBackward(const DateTime &latest, int use);
void adjustSummarytask();
void initiateCalculation(Schedule &sch);
void initiateCalculationLists(TQPtrList<Node> &startnodes, TQPtrList<Node> &endnodes, TQPtrList<Node> &summarytasks);
bool legalParents(Node *par, Node *child);
bool legalChildren(Node *par, Node *child);
private:
void init();
TQPtrList<Node> m_startNodes;
TQPtrList<Node> m_endNodes;
TQPtrList<Node> m_summarytasks;
bool m_baselined;
TQDict<ResourceGroup> resourceGroupIdDict;
TQDict<Resource> resourceIdDict;
TQDict<Node> nodeIdDict;
TQDict<Calendar> calendarIdDict;
#ifndef NDEBUG
#include <tqcstring.h>
public:
void printDebug(bool tqchildren, TQCString indent);
void printCalendarDebug(TQCString indent="");
#ifdef DEBUGPERT
static void pert_test();
static void printTree(Node *n, TQString s);
#endif
#endif
};
} //KPlato namespace
#endif