qquickturbulence.cpp source code [qtdeclarative/src/particles/qquickturbulence.cpp]

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39
40	#include "qquickturbulence_p.h"
41	#include "qquickparticlepainter_p.h"//TODO: Why was this needed again?
42	#include <cmath>
43	#include <cstdlib>
44	#include <QDebug>
45	#include <QQmlFile>
46	QT_BEGIN_NAMESPACE
47
48	/!*
49	\qmltype Turbulence
50	\instantiates QQuickTurbulenceAffector
51	\inqmlmodule QtQuick.Particles
52	\ingroup qtquick-particles
53	\inherits Affector
54	\brief Provides fluid-like forces from a noise image.
55
56	The Turbulence Element scales the noise source over the area it affects,
57	and uses the curl of that source to generate force vectors.
58
59	Turbulence requires a fixed size. Unlike other affectors, a 0x0 Turbulence element
60	will affect no particles.
61
62	The source should be relatively smooth black and white noise, such as perlin noise.
63	*/
64	/!*
65	\qmlproperty real QtQuick.Particles::Turbulence::strength
66
67	The magnitude of the velocity vector at any point varies between zero and
68	the square root of two. It will then be multiplied by strength to get the
69	velocity per second for the particles affected by the turbulence.
70	*/
71	/!*
72	\qmlproperty url QtQuick.Particles::Turbulence::noiseSource
73
74	The source image to generate the turbulence from. It will be scaled to the size of the element,
75	so equal or larger sizes will give better results. Tweaking this image is the only way to tweak
76	behavior such as where vortices are or how many exist.
77
78	The source should be a relatively smooth black and white noise image, such as perlin noise.
79	A default image will be used if none is provided.
80	*/
81
82	QQuickTurbulenceAffector::QQuickTurbulenceAffector(QQuickItem *parent) :
83	QQuickParticleAffector (parent),
84	m_strength(`10`), m_lastT(`0`), m_gridSize(`0`), m_field(nullptr), m_vectorField(nullptr), m_inited(false)
85	{
86	}
87
88	void QQuickTurbulenceAffector::geometryChanged(const QRectF &, const QRectF &)
89	{
90	initializeGrid();
91	}
92
93	QQuickTurbulenceAffector::~QQuickTurbulenceAffector()
94	{
95	if (m_field) {
96	for (int i=`0`; i<m_gridSize; i++)
97	free(ptr: m_field[i]);
98	free(ptr: m_field);
99	}
100	if (m_vectorField) {
101	for (int i=`0`; i<m_gridSize; i++)
102	free(ptr: m_vectorField[i]);
103	free(ptr: m_vectorField);
104	}
105	}
106
107	void QQuickTurbulenceAffector::initializeGrid()
108	{
109	if (!m_inited)
110	return;
111
112	int arg = qMax(a: width(), b: height());
113	if (m_gridSize != arg) {
114	if (m_field){ //deallocate and then reallocate grid
115	for (int i=`0`; i<m_gridSize; i++)
116	free(ptr: m_field[i]);
117	free(ptr: m_field);
118	}
119	if (m_vectorField) {
120	for (int i=`0`; i<m_gridSize; i++)
121	free(ptr: m_vectorField[i]);
122	free(ptr: m_vectorField);
123	}
124	m_gridSize = arg;
125	}
126
127	m_field = (qreal*)malloc(size: m_gridSize sizeof(qreal*));
128	for (int i=`0`; i<m_gridSize; i++)
129	m_field[i] = (qreal)malloc(size: m_gridSize sizeof(qreal));
130	m_vectorField = (QPointF*)malloc(size: m_gridSize sizeof(QPointF*));
131	for (int i=`0`; i<m_gridSize; i++)
132	m_vectorField[i] = (QPointF)malloc(size: m_gridSize sizeof(QPointF));
133
134	QImage image;
135	if (!m_noiseSource.isEmpty())
136	image = QImage (QQmlFile::urlToLocalFileOrQrc(m_noiseSource)).scaled(s: QSize (m_gridSize, m_gridSize));
137	if (image.isNull())
138	image = QImage (QStringLiteral(":particleresources/noise.png")).scaled(s: QSize (m_gridSize, m_gridSize));
139
140	for (int i=`0`; i<m_gridSize; i++)
141	for (int j=`0`; j<m_gridSize; j++)
142	m_field[i][j] = qGray(rgb: image.pixel(pt: QPoint (i,j)));
143	for (int i=`0`; i<m_gridSize; i++){
144	for (int j=`0`; j<m_gridSize; j++){
145	m_vectorField[i][j].setX(boundsRespectingField(x: i-`1`,y: j) - boundsRespectingField(x: i,y: j));
146	m_vectorField[i][j].setY(boundsRespectingField(x: i,y: j) - boundsRespectingField(x: i,y: j-`1`));
147	}
148	}
149	}
150
151	qreal QQuickTurbulenceAffector::boundsRespectingField(int x, int y)
152	{
153	if (x < `0`)
154	x = `0`;
155	if (x >= m_gridSize)
156	x = m_gridSize - `1`;
157	if (y < `0`)
158	y = `0`;
159	if (y >= m_gridSize)
160	y = m_gridSize - `1`;
161	return m_field[x][y];
162	}
163
164	void QQuickTurbulenceAffector::ensureInit()
165	{
166	if (m_inited)
167	return;
168	m_inited = true;
169	initializeGrid();
170	}
171
172	void QQuickTurbulenceAffector::affectSystem(qreal dt)
173	{
174	if (!m_system \|\| !m_enabled)
175	return;
176	ensureInit();
177	if (!m_gridSize)
178	return;
179
180	updateOffsets();//### Needed if an ancestor is transformed.
181
182	QRect boundsRect(`0`,`0`,m_gridSize,m_gridSize);
183	foreach (QQuickParticleGroupData *gd, m_system->groupData){
184	if (!activeGroup(g: gd->index))
185	continue;
186	foreach (QQuickParticleData *d, gd->data){
187	if (!shouldAffect(datum: d))
188	continue;
189	QPoint pos = (QPointF (d->curX(particleSystem: m_system), d->curY(particleSystem: m_system)) - m_offset).toPoint();
190	if (!boundsRect.contains(p: pos,proper: true))//Need to redo bounds checking due to quantization.
191	continue;
192	qreal fx = `0.0`;
193	qreal fy = `0.0`;
194	fx += m_vectorField[pos.x()][pos.y()].x() * m_strength;
195	fy += m_vectorField[pos.x()][pos.y()].y() * m_strength;
196	if (fx \|\| fy){
197	d->setInstantaneousVX(vx: d->curVX(particleSystem: m_system)+ fx * dt, particleSystem: m_system);
198	d->setInstantaneousVY(vy: d->curVY(particleSystem: m_system)+ fy * dt, particleSystem: m_system);
199	postAffect(datum: d);
200	}
201	}
202	}
203	}
204
205	QT_END_NAMESPACE
206
207	#include "moc_qquickturbulence_p.cpp"
208

source code of qtdeclarative/src/particles/qquickturbulence.cpp