bool Form::mouseEventInternal(Mouse::MouseEvent evt, int x, int y, int wheelDelta)
{
bool eventConsumed = false;
for (size_t i = 0; i < __forms.size(); ++i)
{
Form* form = __forms[i];
GP_ASSERT(form);
if (form->isEnabled())
{
if (form->_node)
{
Vector3 point;
if (form->projectPoint(x, y, &point))
{
const Rectangle& bounds = form->getBounds();
if (form->getState() == Control::FOCUS ||
((evt == Mouse::MOUSE_PRESS_LEFT_BUTTON ||
evt == Mouse::MOUSE_PRESS_MIDDLE_BUTTON ||
evt == Mouse::MOUSE_PRESS_RIGHT_BUTTON ||
evt == Mouse::MOUSE_WHEEL) &&
point.x >= bounds.x &&
point.x <= bounds.x + bounds.width &&
point.y >= bounds.y &&
point.y <= bounds.y + bounds.height))
{
eventConsumed |= form->mouseEvent(evt, point.x - bounds.x, bounds.height - point.y - bounds.y, wheelDelta);
}
}
}
else
{
// Simply compare with the form's bounds.
const Rectangle& bounds = form->getBounds();
if (form->getState() == Control::FOCUS ||
((evt == Mouse::MOUSE_PRESS_LEFT_BUTTON ||
evt == Mouse::MOUSE_PRESS_MIDDLE_BUTTON ||
evt == Mouse::MOUSE_PRESS_RIGHT_BUTTON ||
evt == Mouse::MOUSE_WHEEL) &&
x >= bounds.x &&
x <= bounds.x + bounds.width &&
y >= bounds.y &&
y <= bounds.y + bounds.height))
{
// Pass on the event's position relative to the form.
eventConsumed |= form->mouseEvent(evt, x - bounds.x, y - bounds.y, wheelDelta);
}
}
}
}
return eventConsumed;
}
bool Form::touchEventInternal(Touch::TouchEvent evt, int x, int y, unsigned int contactIndex)
{
// Check for a collision with each Form in __forms.
// Pass the event on.
bool eventConsumed = false;
size_t size = __forms.size();
for (size_t i = 0; i < size; ++i)
{
Form* form = __forms[i];
GP_ASSERT(form);
if (form->isEnabled())
{
if (form->_node)
{
Vector3 point;
if (form->projectPoint(x, y, &point))
{
const Rectangle& bounds = form->getBounds();
if (form->getState() == Control::FOCUS ||
(evt == Touch::TOUCH_PRESS &&
point.x >= bounds.x &&
point.x <= bounds.x + bounds.width &&
point.y >= bounds.y &&
point.y <= bounds.y + bounds.height))
{
eventConsumed |= form->touchEvent(evt, point.x - bounds.x, bounds.height - point.y - bounds.y, contactIndex);
}
}
}
else
{
// Simply compare with the form's bounds.
const Rectangle& bounds = form->getBounds();
if (form->getState() == Control::FOCUS ||
(evt == Touch::TOUCH_PRESS &&
x >= bounds.x &&
x <= bounds.x + bounds.width &&
y >= bounds.y &&
y <= bounds.y + bounds.height))
{
// Pass on the event's position relative to the form.
eventConsumed |= form->touchEvent(evt, x - bounds.x, y - bounds.y, contactIndex);
}
}
}
}
return eventConsumed;
}
bool Form::touchEventInternal(Touch::TouchEvent evt, int x, int y, unsigned int contactIndex)
{
// Check for a collision with each Form in __forms.
// Pass the event on.
size_t size = __forms.size();
for (size_t i = 0; i < size; ++i)
{
Form* form = __forms[i];
GP_ASSERT(form);
if (form->isEnabled() && form->isVisible())
{
if (form->_node)
{
Vector3 point;
if (form->projectPoint(x, y, &point))
{
const Rectangle& bounds = form->getBounds();
if (shouldPropagateTouchEvent(form->getState(), evt, bounds, point.x, point.y))
{
if (form->touchEvent(evt, point.x - bounds.x, bounds.height - point.y - bounds.y, contactIndex))
return true;
}
}
}
else
{
// Simply compare with the form's bounds.
const Rectangle& bounds = form->getBounds();
if (shouldPropagateTouchEvent(form->getState(), evt, bounds, x, y))
{
// Pass on the event's position relative to the form.
if (form->touchEvent(evt, x - bounds.x, y - bounds.y, contactIndex))
return true;
}
}
}
}
return false;
}
bool Form::mouseEventInternal(Mouse::MouseEvent evt, int x, int y, int wheelDelta)
{
for (size_t i = 0; i < __forms.size(); ++i)
{
Form* form = __forms[i];
GP_ASSERT(form);
if (form->isEnabled() && form->isVisible())
{
if (form->_node)
{
Vector3 point;
if (form->projectPoint(x, y, &point))
{
const Rectangle& bounds = form->getBounds();
if (shouldPropagateMouseEvent(form->getState(), evt, bounds, point.x, point.y))
{
if (form->mouseEvent(evt, point.x - bounds.x, bounds.height - point.y - bounds.y, wheelDelta))
return true;
}
}
}
else
{
// Simply compare with the form's bounds.
const Rectangle& bounds = form->getBounds();
if (shouldPropagateMouseEvent(form->getState(), evt, bounds, x, y))
{
// Pass on the event's position relative to the form.
if (form->mouseEvent(evt, x - bounds.x, y - bounds.y, wheelDelta))
return true;
}
}
}
}
return false;
}
bool Form::touchEventInternal(Touch::TouchEvent evt, int x, int y, unsigned int contactIndex)
{
// Check for a collision with each Form in __forms.
// Pass the event on.
std::vector<Form*>::const_iterator it;
for (it = __forms.begin(); it < __forms.end(); it++)
{
Form* form = *it;
if (form->isEnabled())
{
Node* node = form->_node;
if (node)
{
Scene* scene = node->getScene();
Camera* camera = scene->getActiveCamera();
if (camera)
{
// Get info about the form's position.
Matrix m = node->getMatrix();
Vector3 min(0, 0, 0);
m.transformPoint(&min);
// Unproject point into world space.
Ray ray;
camera->pickRay(Game::getInstance()->getViewport(), x, y, &ray);
// Find the quad's plane.
// We know its normal is the quad's forward vector.
Vector3 normal = node->getForwardVectorWorld();
// To get the plane's distance from the origin,
// we'll find the distance from the plane defined
// by the quad's forward vector and one of its points
// to the plane defined by the same vector and the origin.
const float& a = normal.x; const float& b = normal.y; const float& c = normal.z;
const float d = -(a*min.x) - (b*min.y) - (c*min.z);
const float distance = abs(d) / sqrt(a*a + b*b + c*c);
Plane plane(normal, -distance);
// Check for collision with plane.
float collisionDistance = ray.intersects(plane);
if (collisionDistance != Ray::INTERSECTS_NONE)
{
// Multiply the ray's direction vector by collision distance
// and add that to the ray's origin.
Vector3 point = ray.getOrigin() + collisionDistance*ray.getDirection();
// Project this point into the plane.
m.invert();
m.transformPoint(&point);
// Pass the touch event on.
const Rectangle& bounds = form->getClipBounds();
if (form->getState() == Control::FOCUS ||
(evt == Touch::TOUCH_PRESS &&
point.x >= bounds.x &&
point.x <= bounds.x + bounds.width &&
point.y >= bounds.y &&
point.y <= bounds.y + bounds.height))
{
if (form->touchEvent(evt, point.x - bounds.x, bounds.height - point.y - bounds.y, contactIndex))
{
return true;
}
}
}
}
}
else
{
// Simply compare with the form's bounds.
const Rectangle& bounds = form->getClipBounds();
if (form->getState() == Control::FOCUS ||
(evt == Touch::TOUCH_PRESS &&
x >= bounds.x &&
x <= bounds.x + bounds.width &&
y >= bounds.y &&
y <= bounds.y + bounds.height))
{
// Pass on the event's position relative to the form.
if (form->touchEvent(evt, x - bounds.x, y - bounds.y, contactIndex))
{
return true;
}
}
}
}
}
return false;
}