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</style></head><body><table border="0" cellpadding="0" cellspacing="0" width="100%"><tr /><td align="left" valign="top" width="32"><img align="left" border="0" height="32" src="images/rb-logo.png" width="32" /></td><td width="1">  </td><td class="postheader" valign="center"><a href="index.html"><font color="#004faf">Home</font></a> · <a href="classes.html"><font color="#004faf">All Classes</font></a> · <a href="modules.html"><font color="#004faf">Modules</font></a></td></table><h1 align="center">QVector3D Class Reference<br /><sup><sup>[<a href="qtgui.html">QtGui</a> module]</sup></sup></h1><p>The QVector3D class represents a vector or vertex in 3D space.
<a href="#details">More...</a></p>
<h3>Methods</h3><ul><li><div class="fn" /><b><a href="qvector3d.html#QVector3D">__init__</a></b> (<i>self</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#QVector3D-2">__init__</a></b> (<i>self</i>, float <i>xpos</i>, float <i>ypos</i>, float <i>zpos</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#QVector3D-3">__init__</a></b> (<i>self</i>, QPoint <i>point</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#QVector3D-4">__init__</a></b> (<i>self</i>, QPointF <i>point</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#QVector3D-5">__init__</a></b> (<i>self</i>, QVector2D <i>vector</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#QVector3D-6">__init__</a></b> (<i>self</i>, QVector2D <i>vector</i>, float <i>zpos</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#QVector3D-7">__init__</a></b> (<i>self</i>, QVector4D <i>vector</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#QVector3D-8">__init__</a></b> (<i>self</i>, QVector3D)</li><li><div class="fn" />float <b><a href="qvector3d.html#distanceToLine">distanceToLine</a></b> (<i>self</i>, QVector3D <i>point</i>, QVector3D <i>direction</i>)</li><li><div class="fn" />float <b><a href="qvector3d.html#distanceToPlane">distanceToPlane</a></b> (<i>self</i>, QVector3D <i>plane</i>, QVector3D <i>normal</i>)</li><li><div class="fn" />float <b><a href="qvector3d.html#distanceToPlane-2">distanceToPlane</a></b> (<i>self</i>, QVector3D <i>plane1</i>, QVector3D <i>plane2</i>, QVector3D <i>plane3</i>)</li><li><div class="fn" />bool <b><a href="qvector3d.html#isNull">isNull</a></b> (<i>self</i>)</li><li><div class="fn" />float <b><a href="qvector3d.html#length">length</a></b> (<i>self</i>)</li><li><div class="fn" />float <b><a href="qvector3d.html#lengthSquared">lengthSquared</a></b> (<i>self</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#normalize">normalize</a></b> (<i>self</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#normalized">normalized</a></b> (<i>self</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#setX">setX</a></b> (<i>self</i>, float <i>aX</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#setY">setY</a></b> (<i>self</i>, float <i>aY</i>)</li><li><div class="fn" /><b><a href="qvector3d.html#setZ">setZ</a></b> (<i>self</i>, float <i>aZ</i>)</li><li><div class="fn" />QPoint <b><a href="qvector3d.html#toPoint">toPoint</a></b> (<i>self</i>)</li><li><div class="fn" />QPointF <b><a href="qvector3d.html#toPointF">toPointF</a></b> (<i>self</i>)</li><li><div class="fn" />QVector2D <b><a href="qvector3d.html#toVector2D">toVector2D</a></b> (<i>self</i>)</li><li><div class="fn" />QVector4D <b><a href="qvector3d.html#toVector4D">toVector4D</a></b> (<i>self</i>)</li><li><div class="fn" />float <b><a href="qvector3d.html#x">x</a></b> (<i>self</i>)</li><li><div class="fn" />float <b><a href="qvector3d.html#y">y</a></b> (<i>self</i>)</li><li><div class="fn" />float <b><a href="qvector3d.html#z">z</a></b> (<i>self</i>)</li></ul><h3>Static Methods</h3><ul><li><div class="fn" />QVector3D <b><a href="qvector3d.html#crossProduct">crossProduct</a></b> (QVector3D <i>v1</i>, QVector3D <i>v2</i>)</li><li><div class="fn" />float <b><a href="qvector3d.html#dotProduct">dotProduct</a></b> (QVector3D <i>v1</i>, QVector3D <i>v2</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#normal">normal</a></b> (QVector3D <i>v1</i>, QVector3D <i>v2</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#normal-2">normal</a></b> (QVector3D <i>v1</i>, QVector3D <i>v2</i>, QVector3D <i>v3</i>)</li></ul><h3>Special Methods</h3><ul><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__add__">__add__</a></b> (<i>self</i>, QVector3D <i>v2</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__div__">__div__</a></b> (<i>self</i>, float <i>divisor</i>)</li><li><div class="fn" />bool <b><a href="qvector3d.html#__eq__">__eq__</a></b> (<i>self</i>, QVector3D <i>v2</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__iadd__">__iadd__</a></b> (<i>self</i>, QVector3D <i>vector</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__idiv__">__idiv__</a></b> (<i>self</i>, float <i>divisor</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__imul__">__imul__</a></b> (<i>self</i>, float <i>factor</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__imul__-2">__imul__</a></b> (<i>self</i>, QVector3D <i>vector</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__isub__">__isub__</a></b> (<i>self</i>, QVector3D <i>vector</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__mul__">__mul__</a></b> (<i>self</i>, QMatrix4x4 <i>matrix</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__mul__-2">__mul__</a></b> (<i>self</i>, QVector3D <i>vector</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__mul__-3">__mul__</a></b> (<i>self</i>, float <i>factor</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__mul__-4">__mul__</a></b> (<i>self</i>, QVector3D <i>v2</i>)</li><li><div class="fn" />bool <b><a href="qvector3d.html#__ne__">__ne__</a></b> (<i>self</i>, QVector3D <i>v2</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__neg__">__neg__</a></b> (<i>self</i>)</li><li><div class="fn" />str <b><a href="qvector3d.html#__repr__">__repr__</a></b> (<i>self</i>)</li><li><div class="fn" />QVector3D <b><a href="qvector3d.html#__sub__">__sub__</a></b> (<i>self</i>, QVector3D <i>v2</i>)</li></ul><a name="details" /><hr /><h2>Detailed Description</h2><p>This class can be pickled.</p><p>The QVector3D class represents a vector or vertex in 3D
space.</p>
<p>Vectors are one of the main building blocks of 3D representation
and drawing. They consist of three coordinates, traditionally
called x, y, and z.</p>
<p>The QVector3D class can also be used to represent vertices in 3D
space. We therefore do not need to provide a separate vertex
class.</p>
<p><b>Note:</b> By design values in the QVector3D instance are
stored as <tt>float</tt>. This means that on platforms where the
<tt>qreal</tt> arguments to QVector3D functions are represented by
<tt>double</tt> values, it is possible to lose precision.</p>
<hr /><h2>Method Documentation</h2><h3 class="fn"><a name="QVector3D" />QVector3D.__init__ (<i>self</i>)</h3><p>Constructs a null vector, i.e. with coordinates (0, 0, 0).</p>
<h3 class="fn"><a name="QVector3D-2" />QVector3D.__init__ (<i>self</i>, float <i>xpos</i>, float <i>ypos</i>, float <i>zpos</i>)</h3><p>Constructs a vector with coordinates (<i>xpos</i>, <i>ypos</i>,
<i>zpos</i>).</p>
<h3 class="fn"><a name="QVector3D-3" />QVector3D.__init__ (<i>self</i>, <a href="qpoint.html">QPoint</a> <i>point</i>)</h3><p>Constructs a vector with x and y coordinates from a 2D
<i>point</i>, and a z coordinate of 0.</p>
<h3 class="fn"><a name="QVector3D-4" />QVector3D.__init__ (<i>self</i>, <a href="qpointf.html">QPointF</a> <i>point</i>)</h3><p>Constructs a vector with x and y coordinates from a 2D
<i>point</i>, and a z coordinate of 0.</p>
<h3 class="fn"><a name="QVector3D-5" />QVector3D.__init__ (<i>self</i>, <a href="qvector2d.html">QVector2D</a> <i>vector</i>)</h3><p>Constructs a 3D vector from the specified 2D <i>vector</i>. The
z coordinate is set to zero.</p>
<p><b>See also</b> <a href="qvector3d.html#toVector2D">toVector2D</a>().</p>
<h3 class="fn"><a name="QVector3D-6" />QVector3D.__init__ (<i>self</i>, <a href="qvector2d.html">QVector2D</a> <i>vector</i>, float <i>zpos</i>)</h3><p>Constructs a 3D vector from the specified 2D <i>vector</i>. The
z coordinate is set to <i>zpos</i>.</p>
<p><b>See also</b> <a href="qvector3d.html#toVector2D">toVector2D</a>().</p>
<h3 class="fn"><a name="QVector3D-7" />QVector3D.__init__ (<i>self</i>, <a href="qvector4d.html">QVector4D</a> <i>vector</i>)</h3><p>Constructs a 3D vector from the specified 4D <i>vector</i>. The
w coordinate is dropped.</p>
<p><b>See also</b> <a href="qvector3d.html#toVector4D">toVector4D</a>().</p>
<h3 class="fn"><a name="QVector3D-8" />QVector3D.__init__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a>)</h3><h3 class="fn"><a name="crossProduct" /><a href="qvector3d.html">QVector3D</a> QVector3D.crossProduct (<a href="qvector3d.html">QVector3D</a> <i>v1</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>)</h3><p>Returns the cross-product of vectors <i>v1</i> and <i>v2</i>,
which corresponds to the normal vector of a plane defined by
<i>v1</i> and <i>v2</i>.</p>
<p><b>See also</b> <a href="qvector3d.html#normal">normal</a>().</p>
<h3 class="fn"><a name="distanceToLine" />float QVector3D.distanceToLine (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>point</i>, <a href="qvector3d.html">QVector3D</a> <i>direction</i>)</h3><p>Returns the distance that this vertex is from a line defined by
<i>point</i> and the unit vector <i>direction</i>.</p>
<p>If <i>direction</i> is a null vector, then it does not define a
line. In that case, the distance from <i>point</i> to this vertex
is returned.</p>
<p><b>See also</b> <a href="qvector3d.html#distanceToPlane">distanceToPlane</a>().</p>
<h3 class="fn"><a name="distanceToPlane" />float QVector3D.distanceToPlane (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>plane</i>, <a href="qvector3d.html">QVector3D</a> <i>normal</i>)</h3><p>Returns the distance from this vertex to a plane defined by the
vertex <i>plane</i> and a <i>normal</i> unit vector. The
<i>normal</i> parameter is assumed to have been normalized to a
unit vector.</p>
<p>The return value will be negative if the vertex is below the
plane, or zero if it is on the plane.</p>
<p><b>See also</b> <a href="qvector3d.html#normal">normal</a>() and
<a href="qvector3d.html#distanceToLine">distanceToLine</a>().</p>
<h3 class="fn"><a name="distanceToPlane-2" />float QVector3D.distanceToPlane (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>plane1</i>, <a href="qvector3d.html">QVector3D</a> <i>plane2</i>, <a href="qvector3d.html">QVector3D</a> <i>plane3</i>)</h3><p>This is an overloaded function.</p>
<p>Returns the distance from this vertex a plane defined by the
vertices <i>plane1</i>, <i>plane2</i> and <i>plane3</i>.</p>
<p>The return value will be negative if the vertex is below the
plane, or zero if it is on the plane.</p>
<p>The two vectors that define the plane are <i>plane2</i> -
<i>plane1</i> and <i>plane3</i> - <i>plane1</i>.</p>
<p><b>See also</b> <a href="qvector3d.html#normal">normal</a>() and
<a href="qvector3d.html#distanceToLine">distanceToLine</a>().</p>
<h3 class="fn"><a name="dotProduct" />float QVector3D.dotProduct (<a href="qvector3d.html">QVector3D</a> <i>v1</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>)</h3><p>Returns the dot product of <i>v1</i> and <i>v2</i>.</p>
<h3 class="fn"><a name="isNull" />bool QVector3D.isNull (<i>self</i>)</h3><p>Returns true if the x, y, and z coordinates are set to 0.0,
otherwise returns false.</p>
<h3 class="fn"><a name="length" />float QVector3D.length (<i>self</i>)</h3><p>Returns the length of the vector from the origin.</p>
<p><b>See also</b> <a href="qvector3d.html#lengthSquared">lengthSquared</a>() and <a href="qvector3d.html#normalized">normalized</a>().</p>
<h3 class="fn"><a name="lengthSquared" />float QVector3D.lengthSquared (<i>self</i>)</h3><p>Returns the squared length of the vector from the origin. This
is equivalent to the dot product of the vector with itself.</p>
<p><b>See also</b> <a href="qvector3d.html#length">length</a>() and
<a href="qvector3d.html#dotProduct">dotProduct</a>().</p>
<h3 class="fn"><a name="normal" /><a href="qvector3d.html">QVector3D</a> QVector3D.normal (<a href="qvector3d.html">QVector3D</a> <i>v1</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>)</h3><p>Returns the normal vector of a plane defined by vectors
<i>v1</i> and <i>v2</i>, normalized to be a unit vector.</p>
<p>Use <a href="qvector3d.html#crossProduct">crossProduct</a>() to
compute the cross-product of <i>v1</i> and <i>v2</i> if you do not
need the result to be normalized to a unit vector.</p>
<p><b>See also</b> <a href="qvector3d.html#crossProduct">crossProduct</a>() and <a href="qvector3d.html#distanceToPlane">distanceToPlane</a>().</p>
<h3 class="fn"><a name="normal-2" /><a href="qvector3d.html">QVector3D</a> QVector3D.normal (<a href="qvector3d.html">QVector3D</a> <i>v1</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>, <a href="qvector3d.html">QVector3D</a> <i>v3</i>)</h3><p>This is an overloaded function.</p>
<p>Returns the normal vector of a plane defined by vectors
<i>v2</i> - <i>v1</i> and <i>v3</i> - <i>v1</i>, normalized to be a
unit vector.</p>
<p>Use <a href="qvector3d.html#crossProduct">crossProduct</a>() to
compute the cross-product of <i>v2</i> - <i>v1</i> and <i>v3</i> -
<i>v1</i> if you do not need the result to be normalized to a unit
vector.</p>
<p><b>See also</b> <a href="qvector3d.html#crossProduct">crossProduct</a>() and <a href="qvector3d.html#distanceToPlane">distanceToPlane</a>().</p>
<h3 class="fn"><a name="normalize" />QVector3D.normalize (<i>self</i>)</h3><p>Normalizes the currect vector in place. Nothing happens if this
vector is a null vector or the length of the vector is very close
to 1.</p>
<p><b>See also</b> <a href="qvector3d.html#length">length</a>() and
<a href="qvector3d.html#normalized">normalized</a>().</p>
<h3 class="fn"><a name="normalized" /><a href="qvector3d.html">QVector3D</a> QVector3D.normalized (<i>self</i>)</h3><p>Returns the normalized unit vector form of this vector.</p>
<p>If this vector is null, then a null vector is returned. If the
length of the vector is very close to 1, then the vector will be
returned as-is. Otherwise the normalized form of the vector of
length 1 will be returned.</p>
<p><b>See also</b> <a href="qvector3d.html#length">length</a>() and
<a href="qvector3d.html#normalize">normalize</a>().</p>
<h3 class="fn"><a name="setX" />QVector3D.setX (<i>self</i>, float <i>aX</i>)</h3><p>Sets the x coordinate of this point to the given <i>x</i>
coordinate.</p>
<p><b>See also</b> <a href="qvector3d.html#x">x</a>(), <a href="qvector3d.html#setY">setY</a>(), and <a href="qvector3d.html#setZ">setZ</a>().</p>
<h3 class="fn"><a name="setY" />QVector3D.setY (<i>self</i>, float <i>aY</i>)</h3><p>Sets the y coordinate of this point to the given <i>y</i>
coordinate.</p>
<p><b>See also</b> <a href="qvector3d.html#y">y</a>(), <a href="qvector3d.html#setX">setX</a>(), and <a href="qvector3d.html#setZ">setZ</a>().</p>
<h3 class="fn"><a name="setZ" />QVector3D.setZ (<i>self</i>, float <i>aZ</i>)</h3><p>Sets the z coordinate of this point to the given <i>z</i>
coordinate.</p>
<p><b>See also</b> <a href="qvector3d.html#z">z</a>(), <a href="qvector3d.html#setX">setX</a>(), and <a href="qvector3d.html#setY">setY</a>().</p>
<h3 class="fn"><a name="toPoint" /><a href="qpoint.html">QPoint</a> QVector3D.toPoint (<i>self</i>)</h3><p>Returns the <a href="qpoint.html">QPoint</a> form of this 3D
vector. The z coordinate is dropped.</p>
<p><b>See also</b> <a href="qvector3d.html#toPointF">toPointF</a>()
and <a href="qvector3d.html#toVector2D">toVector2D</a>().</p>
<h3 class="fn"><a name="toPointF" /><a href="qpointf.html">QPointF</a> QVector3D.toPointF (<i>self</i>)</h3><p>Returns the <a href="qpointf.html">QPointF</a> form of this 3D
vector. The z coordinate is dropped.</p>
<p><b>See also</b> <a href="qvector3d.html#toPoint">toPoint</a>()
and <a href="qvector3d.html#toVector2D">toVector2D</a>().</p>
<h3 class="fn"><a name="toVector2D" /><a href="qvector2d.html">QVector2D</a> QVector3D.toVector2D (<i>self</i>)</h3><p>Returns the 2D vector form of this 3D vector, dropping the z
coordinate.</p>
<p><b>See also</b> <a href="qvector3d.html#toVector4D">toVector4D</a>() and <a href="qvector3d.html#toPoint">toPoint</a>().</p>
<h3 class="fn"><a name="toVector4D" /><a href="qvector4d.html">QVector4D</a> QVector3D.toVector4D (<i>self</i>)</h3><p>Returns the 4D form of this 3D vector, with the w coordinate set
to zero.</p>
<p><b>See also</b> <a href="qvector3d.html#toVector2D">toVector2D</a>() and <a href="qvector3d.html#toPoint">toPoint</a>().</p>
<h3 class="fn"><a name="x" />float QVector3D.x (<i>self</i>)</h3><p>Returns the x coordinate of this point.</p>
<p><b>See also</b> <a href="qvector3d.html#setX">setX</a>(),
<a href="qvector3d.html#y">y</a>(), and <a href="qvector3d.html#z">z</a>().</p>
<h3 class="fn"><a name="y" />float QVector3D.y (<i>self</i>)</h3><p>Returns the y coordinate of this point.</p>
<p><b>See also</b> <a href="qvector3d.html#setY">setY</a>(),
<a href="qvector3d.html#x">x</a>(), and <a href="qvector3d.html#z">z</a>().</p>
<h3 class="fn"><a name="z" />float QVector3D.z (<i>self</i>)</h3><p>Returns the z coordinate of this point.</p>
<p><b>See also</b> <a href="qvector3d.html#setZ">setZ</a>(),
<a href="qvector3d.html#x">x</a>(), and <a href="qvector3d.html#y">y</a>().</p>
<h3 class="fn"><a name="__add__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__add__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>)</h3><h3 class="fn"><a name="__div__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__div__ (<i>self</i>, float <i>divisor</i>)</h3><h3 class="fn"><a name="__eq__" />bool QVector3D.__eq__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>)</h3><h3 class="fn"><a name="__iadd__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__iadd__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>vector</i>)</h3><h3 class="fn"><a name="__idiv__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__idiv__ (<i>self</i>, float <i>divisor</i>)</h3><h3 class="fn"><a name="__imul__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__imul__ (<i>self</i>, float <i>factor</i>)</h3><h3 class="fn"><a name="__imul__-2" /><a href="qvector3d.html">QVector3D</a> QVector3D.__imul__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>vector</i>)</h3><h3 class="fn"><a name="__isub__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__isub__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>vector</i>)</h3><h3 class="fn"><a name="__mul__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__mul__ (<i>self</i>, <a href="qmatrix4x4.html">QMatrix4x4</a> <i>matrix</i>)</h3><h3 class="fn"><a name="__mul__-2" /><a href="qvector3d.html">QVector3D</a> QVector3D.__mul__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>vector</i>)</h3><h3 class="fn"><a name="__mul__-3" /><a href="qvector3d.html">QVector3D</a> QVector3D.__mul__ (<i>self</i>, float <i>factor</i>)</h3><h3 class="fn"><a name="__mul__-4" /><a href="qvector3d.html">QVector3D</a> QVector3D.__mul__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>)</h3><h3 class="fn"><a name="__ne__" />bool QVector3D.__ne__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>)</h3><h3 class="fn"><a name="__neg__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__neg__ (<i>self</i>)</h3><h3 class="fn"><a name="__repr__" />str QVector3D.__repr__ (<i>self</i>)</h3><h3 class="fn"><a name="__sub__" /><a href="qvector3d.html">QVector3D</a> QVector3D.__sub__ (<i>self</i>, <a href="qvector3d.html">QVector3D</a> <i>v2</i>)</h3><address><hr /><div align="center"><table border="0" cellspacing="0" width="100%"><tr class="address"><td align="left" width="25%">PyQt 4.10.3 for X11</td><td align="center" width="50%">Copyright © <a href="http://www.riverbankcomputing.com">Riverbank Computing Ltd</a> and <a href="http://www.qtsoftware.com">Nokia</a> 2012</td><td align="right" width="25%">Qt 4.8.5</td></tr></table></div></address></body></html>
