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307 lines
11 KiB
307 lines
11 KiB
/* This file is part of the KDE project
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Copyright (C) 2001 Thomas Zander zander@kde.org
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Copyright (C) 2004 Dag Andersen <danders@get2net.dk>
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public
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License as published by the Free Software Foundation; either
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version 2 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public License
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along with this library; see the file COPYING.LIB. If not, write to
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the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#ifndef KPTTASK_H
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#define KPTTASK_H
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#include "kptnode.h"
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#include "kptduration.h"
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#include "kptresource.h"
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#include <tqptrlist.h>
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namespace KPlato
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{
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class DateTime;
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/**
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* A task in the scheduling software is represented by this class. A task
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* can be anything from 'build house' to 'drill hole' It will always mean
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* an activity.
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*/
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class Task : public Node {
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public:
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Task(Node *parent = 0);
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Task(Task &task, Node *parent = 0);
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~Task();
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/// Return task type. Can be Type_Task, Type_Summarytask ot Type_Milestone.
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virtual int type() const;
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/**
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* Returns the (previously) calculated duration.
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* The caller must delete returned object.
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*/
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Duration *getExpectedDuration();
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/**
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* Instead of using the expected duration, generate a random value using
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* the Distribution of each Task. This can be used for Monte-Carlo
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* estimation of Project duration.
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*/
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Duration *getRandomDuration();
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/**
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* Return the resource request made to group
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* (There should be only one)
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*/
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ResourceGroupRequest *resourceGroupRequest(ResourceGroup *group) const;
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void clearResourceRequests();
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void addRequest(ResourceGroup *group, int numResources);
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void addRequest(ResourceGroupRequest *request);
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void takeRequest(ResourceGroupRequest *request);
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int units() const;
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int workUnits() const;
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void makeAppointments();
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/**
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* Calculates if the assigned resource is overbooked
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* within the duration of this task
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*/
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void calcResourceOverbooked();
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void setConstraint(Node::ConstraintType type);
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/// Load from document
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virtual bool load(TQDomElement &element, Project &project);
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/// Save to document
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virtual void save(TQDomElement &element) const;
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/// Save appointments for schedule with id
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virtual void saveAppointments(TQDomElement &element, long id) const;
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/**
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* Returns a list of planned effort and cost for this task
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* for the interval start, end inclusive
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*/
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virtual EffortCostMap plannedEffortCostPrDay(const TQDate &start, const TQDate &end) const;
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/// Returns the total planned effort for this task (or subtasks)
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virtual Duration plannedEffort();
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/// Returns the total planned effort for this task (or subtasks) on date
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virtual Duration plannedEffort(const TQDate &date);
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/// Returns the planned effort up to and including date
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virtual Duration plannedEffortTo(const TQDate &date);
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/// Returns the total actual effort for this task (or subtasks)
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virtual Duration actualEffort();
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/// Returns the total actual effort for this task (or subtasks) on date
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virtual Duration actualEffort(const TQDate &date);
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/// Returns the actual effort up to and including date
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virtual Duration actualEffortTo(const TQDate &date);
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/**
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* Returns the total planned cost for this task (or subtasks)
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*/
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virtual double plannedCost();
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/// Planned cost on date
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virtual double plannedCost(const TQDate &/*date*/);
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/// Planned cost up to and including date
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virtual double plannedCostTo(const TQDate &/*date*/);
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/**
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* Returns the actaually reported cost for this task (or subtasks)
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*/
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virtual double actualCost();
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/// Actual cost on date
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virtual double actualCost(const TQDate &/*date*/);
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/// Actual cost up to and including date
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virtual double actualCostTo(const TQDate &/*date*/);
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/// Effort based performance index
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double effortPerformanceIndex(const TQDate &date, bool *error=0);
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/// Cost performance index
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double costPerformanceIndex(const TQDate &date, bool *error=0);
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void initiateCalculation(Schedule &sch);
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/**
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* Sets up the lists used for calculation.
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* This includes adding summarytasks relations to subtasks
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* and lists for start- and endnodes.
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*/
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void initiateCalculationLists(TQPtrList<Node> &startnodes, TQPtrList<Node> &endnodes, TQPtrList<Node> &summarytasks);
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/**
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* Calculates ref m_durationForward from ref earliestStart and
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* returns the resulting end time,
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* which will be used as the succesors ref earliestStart.
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*
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* @param use Calculate using expected-, optimistic- or pessimistic estimate.
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*/
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DateTime calculateForward(int use);
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/**
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* Calculates ref m_durationBackward from ref latestFinish and
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* returns the resulting start time,
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* which will be used as the predecessors ref latestFinish.
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*
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* @param use Calculate using expected-, optimistic- or pessimistic estimate.
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*/
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DateTime calculateBackward(int use);
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/**
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* Schedules the task within the limits of earliestStart and latestFinish.
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* Calculates ref m_startTime, ref m_endTime and ref m_duration,
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* Assumes ref calculateForward() and ref calculateBackward() has been run.
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*
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* @param earliest The task is not scheduled to start earlier than this
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* @param use Calculate using expected-, optimistic- or pessimistic estimate.
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* @return The tasks endtime which can be used for scheduling the successor.
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*/
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DateTime scheduleForward(const DateTime &earliest, int use);
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/**
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* Schedules the task within the limits of earliestStart and latestFinish.
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* Calculates ref m_startTime, ref m_endTime and ref m_duration,
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* Assumes ref calculateForward() and ref calculateBackward() has been run.
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*
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* @param latest The task is not scheduled to end later than this
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* @param use Calculate using expected-, optimistic- or pessimistic estimate.
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* @return The tasks starttime which can be used for scheduling the predeccessor.
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*/
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DateTime scheduleBackward(const DateTime &latest, int use);
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/**
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* Summarytasks (with milestones) need special treatment because
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* milestones are always 'glued' to their predecessors.
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*/
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void adjustSummarytask();
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/**
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* Return the duration calculated on bases of the requested resources
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*/
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Duration calcDuration(const DateTime &time, const Duration &effort, bool backward);
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// Proxy relations are relations to/from summarytasks.
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// These relations are distrubuted to the relevant tasks before calculation.
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void clearProxyRelations();
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void addParentProxyRelations(TQPtrList<Relation> &list);
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void addChildProxyRelations(TQPtrList<Relation> &list);
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void addParentProxyRelation(Node *node, const Relation *rel);
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void addChildProxyRelation(Node *node, const Relation *rel);
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/// Check if this node has any dependent child nodes.
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bool isEndNode() const;
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/// Check if this node has any dependent parent nodes
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bool isStartNode() const;
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/**
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* Return the time when work can actually start on this task.
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* This will be the time assigned resources can start work in accordance
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* with their calendar, or if no resources have been assigned,
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* the scheduled starttime is used.
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*/
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virtual DateTime workStartTime() const;
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/**
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* Return the time when work can actually finish on this task.
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* This will be the time assigned resources can end work in accordance
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* with their calendar, or if no resources have been assigned,
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* the scheduled endtime is used.
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*/
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virtual DateTime workEndTime() const;
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/**
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* Return the duration that an activity's start can be delayed
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* without affecting the project completion date.
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* An activity with positive float is not on the critical path.
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*/
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Duration positiveFloat();
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/**
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* Return the duration by which the duration of an activity or path
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* has to be reduced in order to fullfill a timing constraint.
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*/
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Duration negativeFloat() { return Duration(); }
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/**
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* Return the duration by which an activity can be delayed or extended
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* without affecting the start of any succeeding activity.
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*/
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Duration freeFloat() { return Duration(); }
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/**
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* Return the duration from Early Start to Late Start.
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*/
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Duration startFloat() { return Duration(); }
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/**
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* Return the duration the task has at its finish before a successor task starts.
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* This is the difference between the start time of the successor and
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* the finish time of this task.
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*/
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Duration finishFloat() { return Duration(); }
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/// A task is critical if there is no positive float
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virtual bool isCritical();
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/// Calculate critical path
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virtual bool calcCriticalPath(bool fromEnd);
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/// Set current schedule to schedule with identity id, for me nd my tqchildren
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virtual void setCurrentSchedule(long id);
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virtual bool effortMetError() const;
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struct Progress {
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Progress() { started = finished = false; percentFinished = 0; }
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bool operator==(struct Progress &p) {
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return started == p.started && finished == p.finished &&
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startTime == p.startTime && finishTime == p.finishTime &&
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percentFinished == p.percentFinished &&
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remainingEffort == p.remainingEffort &&
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totalPerformed == p.totalPerformed;
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}
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bool operator!=(struct Progress &p) { return !(*this == p); }
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struct Progress &operator=(struct Progress &p) {
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started = p.started; finished = p.finished;
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startTime = p.startTime; finishTime = p.finishTime;
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percentFinished = p.percentFinished;
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remainingEffort = p.remainingEffort;
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totalPerformed = p.totalPerformed;
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return *this;
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}
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bool started, finished;
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DateTime startTime, finishTime;
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int percentFinished;
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Duration remainingEffort;
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Duration totalPerformed;
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};
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struct Progress &progress() { return m_progress; }
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private:
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DateTime calculateSuccessors(const TQPtrList<Relation> &list, int use);
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DateTime calculatePredeccessors(const TQPtrList<Relation> &list, int use);
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DateTime scheduleSuccessors(const TQPtrList<Relation> &list, int use);
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DateTime schedulePredeccessors(const TQPtrList<Relation> &list, int use);
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DateTime workStartAfter(const DateTime &dt);
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DateTime workFinishBefore(const DateTime &dt);
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private:
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TQPtrList<ResourceGroup> m_resource;
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ResourceRequestCollection *m_requests;
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TQPtrList<Relation> m_parentProxyRelations;
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TQPtrList<Relation> m_childProxyRelations;
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struct Progress m_progress;
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#ifndef NDEBUG
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public:
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void printDebug(bool tqchildren, TQCString indent);
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#endif
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};
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} //KPlato namespace
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#endif
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