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RotateAroundSelfByAngleAction.cpp@ 3e4162

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Last change on this file since 3e4162 was bf3817, checked in by Frederik Heber <heber@…>, 15 years ago

Added ifdef HAVE_CONFIG and config.h include to each and every cpp file.

is now topmost in front of MemDebug.hpp (and any other).

Property mode set to 100644

File size: 4.6 KB

Rev	Line
[eaf4ae]	1	/*
	2	* RotateAroundSelfByAngleAction.cpp
	3	*
	4	* Created on: Aug 06, 2010
	5	* Author: heber
	6	*/
	7
[bf3817]	8	// include config.h
	9	#ifdef HAVE_CONFIG_H
	10	#include <config.h>
	11	#endif
	12
[eaf4ae]	13	#include "Helpers/MemDebug.hpp"
	14
	15	#include "Actions/MoleculeAction/RotateAroundSelfByAngleAction.hpp"
	16	#include "Actions/ActionRegistry.hpp"
	17	#include "Helpers/Log.hpp"
	18	#include "Helpers/Verbose.hpp"
	19	#include "LinearAlgebra/Line.hpp"
	20	#include "LinearAlgebra/Vector.hpp"
	21	#include "atom.hpp"
	22	#include "molecule.hpp"
	23
	24
	25	#include <iostream>
	26	#include <fstream>
	27	#include <string>
	28
	29	using namespace std;
	30
	31	#include "UIElements/UIFactory.hpp"
	32	#include "UIElements/Dialog.hpp"
	33	#include "Actions/ValueStorage.hpp"
	34
	35	/**** MoleculeRotateAroundSelfByAngleAction ***/
	36
	37	// memento to remember the state when undoing
	38
[2204b0]	39	class MoleculeRotateAroundSelfByAngleState : public ActionState {
	40	public:
[90bc51]	41	MoleculeRotateAroundSelfByAngleState(molecule * const _mol, const Vector &_Axis, const double _alpha) :
[2204b0]	42	mol(_mol),
[90bc51]	43	Axis(_Axis),
[2204b0]	44	alpha(_alpha)
	45	{}
	46	molecule* const mol;
[90bc51]	47	Vector Axis;
[2204b0]	48	double alpha;
	49	};
[eaf4ae]	50
	51	const char MoleculeRotateAroundSelfByAngleAction::NAME[] = "rotate-self";
	52
	53	MoleculeRotateAroundSelfByAngleAction::MoleculeRotateAroundSelfByAngleAction() :
	54	Action(NAME)
	55	{}
	56
	57	MoleculeRotateAroundSelfByAngleAction::~MoleculeRotateAroundSelfByAngleAction()
	58	{}
	59
[90bc51]	60	void MoleculeRotateAroundSelfByAngle(const Vector &Axis, const double angle) {
[eaf4ae]	61	ValueStorage::getInstance().setCurrentValue(MoleculeRotateAroundSelfByAngleAction::NAME, angle);
[90bc51]	62	ValueStorage::getInstance().setCurrentValue("position", Axis);
[eaf4ae]	63	ActionRegistry::getInstance().getActionByName(MoleculeRotateAroundSelfByAngleAction::NAME)->call(Action::NonInteractive);
	64	};
	65
	66	Dialog* MoleculeRotateAroundSelfByAngleAction::fillDialog(Dialog *dialog) {
	67	ASSERT(dialog,"No Dialog given when filling action dialog");
	68
[c89fb4]	69	dialog->queryDouble(NAME, ValueStorage::getInstance().getDescription(NAME));
	70	dialog->queryVector("position", false, ValueStorage::getInstance().getDescription(NAME));
[eaf4ae]	71
	72	return dialog;
	73	}
	74
	75	Action::state_ptr MoleculeRotateAroundSelfByAngleAction::performCall() {
	76	molecule *mol = NULL;
	77	double alpha = 0.;
[90bc51]	78	Vector Axis;
[eaf4ae]	79
[90bc51]	80	// obtain angle and axis around which rotate
[eaf4ae]	81	ValueStorage::getInstance().queryCurrentValue(NAME, alpha);
[90bc51]	82	ValueStorage::getInstance().queryCurrentValue("position", Axis);
[eaf4ae]	83
	84	// check whether a single atom and molecule is selected
[90bc51]	85	if (World::getInstance().getSelectedMolecules().size() != 1)
[eaf4ae]	86	return Action::failure;
	87	mol = World::getInstance().beginMoleculeSelection()->second;
	88
[90bc51]	89	// check whether Axis is valid
	90	if (Axis.IsZero())
	91	return Action::failure;
	92
	93	// convert from degrees to radian
	94	alpha *= M_PI/180.;
	95
[eaf4ae]	96	// Creation Line that is the rotation axis
	97	Vector *CenterOfGravity = mol->DetermineCenterOfGravity();
[90bc51]	98	Line RotationAxis(*CenterOfGravity, Axis);
[eaf4ae]	99	delete(CenterOfGravity);
[90bc51]	100	DoLog(0) && (Log() << Verbose(0) << "Rotate around self by " << alpha << " along " << RotationAxis << "." << endl);
[eaf4ae]	101
	102	for (molecule::iterator iter = mol->begin(); iter != mol->end(); ++iter) {
[8f4df1]	103	(iter)->setPosition(RotationAxis.rotateVector((iter)->getPosition(), alpha));
[eaf4ae]	104	}
	105	DoLog(0) && (Log() << Verbose(0) << "done." << endl);
	106
[90bc51]	107	return Action::state_ptr(new MoleculeRotateAroundSelfByAngleState(mol, Axis, alpha));
[eaf4ae]	108	}
	109
	110	Action::state_ptr MoleculeRotateAroundSelfByAngleAction::performUndo(Action::state_ptr _state) {
[2204b0]	111	MoleculeRotateAroundSelfByAngleState state = assert_cast<MoleculeRotateAroundSelfByAngleState>(_state.get());
	112
	113	Vector *CenterOfGravity = state->mol->DetermineCenterOfGravity();
[90bc51]	114	Line RotationAxis(*CenterOfGravity, state->Axis);
[2204b0]	115	delete(CenterOfGravity);
[eaf4ae]	116
[2204b0]	117	for (molecule::iterator iter = state->mol->begin(); iter != state->mol->end(); ++iter) {
[8f4df1]	118	(iter)->setPosition(RotationAxis.rotateVector((iter)->getPosition(), -state->alpha));
[2204b0]	119	}
[eaf4ae]	120
[2204b0]	121	return Action::state_ptr(_state);
[eaf4ae]	122	}
	123
	124	Action::state_ptr MoleculeRotateAroundSelfByAngleAction::performRedo(Action::state_ptr _state){
[2204b0]	125	MoleculeRotateAroundSelfByAngleState state = assert_cast<MoleculeRotateAroundSelfByAngleState>(_state.get());
	126
	127	Vector *CenterOfGravity = state->mol->DetermineCenterOfGravity();
[90bc51]	128	Line RotationAxis(*CenterOfGravity, state->Axis);
[2204b0]	129	delete(CenterOfGravity);
	130
	131	for (molecule::iterator iter = state->mol->begin(); iter != state->mol->end(); ++iter) {
[8f4df1]	132	(iter)->setPosition(RotationAxis.rotateVector((iter)->getPosition(), state->alpha));
[2204b0]	133	}
	134
	135	return Action::state_ptr(_state);
[eaf4ae]	136	}
	137
	138	bool MoleculeRotateAroundSelfByAngleAction::canUndo() {
[2204b0]	139	return true;
[eaf4ae]	140	}
	141
	142	bool MoleculeRotateAroundSelfByAngleAction::shouldUndo() {
[2204b0]	143	return true;
[eaf4ae]	144	}
	145
	146	const string MoleculeRotateAroundSelfByAngleAction::getName() {
	147	return NAME;
	148	}

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source: src/Actions/MoleculeAction/RotateAroundSelfByAngleAction.cpp@ 3e4162

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