Improvements to mouse-trail tracking

This commit is contained in:
Josh Yelon 2007-10-01 19:47:19 +00:00
parent 2f5ab9378f
commit 942769b672
16 changed files with 307 additions and 234 deletions

View File

@ -46,7 +46,6 @@ MouseAndKeyboard(GraphicsWindow *window, int device, const string &name) :
_pixel_size = new EventStoreVec2(LPoint2f(0.0f, 0.0f));
_xy = new EventStoreVec2(LPoint2f(0.0f, 0.0f));
_button_events = new ButtonEventList;
_pointer_events = new PointerEventList;
}
////////////////////////////////////////////////////////////////////
@ -108,15 +107,10 @@ do_transmit_data(DataGraphTraverser *, const DataNodeTransmit &,
output.set_data(_button_events_output, EventParameter(_button_events));
}
if (_window->has_pointer_event(_device)) {
// Fill up the pointer events.
_pointer_events->clear();
while (_window->has_pointer_event(_device)) {
PointerEvent be = _window->get_pointer_event(_device);
_pointer_events->add_event(be);
}
output.set_data(_pointer_events_output, EventParameter(_pointer_events));
PT(PointerEventList) pel = _window->get_pointer_events(_device);
output.set_data(_pointer_events_output, EventParameter(pel));
}
// Get the window size.
WindowProperties properties = _window->get_properties();
if (properties.has_size()) {

View File

@ -75,7 +75,6 @@ private:
PT(EventStoreVec2) _pixel_size;
PT(EventStoreVec2) _xy;
PT(ButtonEventList) _button_events;
PT(PointerEventList) _pointer_events;
PT(GraphicsWindow) _window;
int _device;

View File

@ -472,7 +472,7 @@ get_button_event(int device) {
// Description: Returns true if the indicated device has a pending
// pointer event (a mouse movement). If this returns
// true, the particular event may be extracted via
// get_pointer_event().
// get_pointer_events().
////////////////////////////////////////////////////////////////////
bool GraphicsWindow::
has_pointer_event(int device) const {
@ -486,19 +486,19 @@ has_pointer_event(int device) const {
}
////////////////////////////////////////////////////////////////////
// Function: GraphicsWindow::get_pointer_event
// Function: GraphicsWindow::get_pointer_events
// Access: Public
// Description: Assuming a previous call to has_pointer_event()
// returned true, this returns the pending pointer event.
// returned true, this returns the pending pointer event list.
////////////////////////////////////////////////////////////////////
PointerEvent GraphicsWindow::
get_pointer_event(int device) {
PointerEvent result;
PT(PointerEventList) GraphicsWindow::
get_pointer_events(int device) {
PT(PointerEventList) result;
{
MutexHolder holder(_input_lock);
nassertr(device >= 0 && device < (int)_input_devices.size(), PointerEvent());
nassertr(_input_devices[device].has_pointer_event(), PointerEvent());
result = _input_devices[device].get_pointer_event();
nassertr(device >= 0 && device < (int)_input_devices.size(), NULL);
nassertr(_input_devices[device].has_pointer_event(), NULL);
result = _input_devices[device].get_pointer_events();
}
return result;
}

View File

@ -87,7 +87,7 @@ public:
bool has_button_event(int device) const;
ButtonEvent get_button_event(int device);
bool has_pointer_event(int device) const;
PointerEvent get_pointer_event(int device);
PT(PointerEventList) get_pointer_events(int device);
virtual int verify_window_sizes(int numsizes, int *dimen);

View File

@ -186,20 +186,20 @@ get_button_event() {
////////////////////////////////////////////////////////////////////
bool GraphicsWindowInputDevice::
has_pointer_event() const {
return !_pointer_events.empty();
return (_pointer_events != 0);
}
////////////////////////////////////////////////////////////////////
// Function: GraphicsWindowInputDevice::get_pointer_event
// Function: GraphicsWindowInputDevice::get_pointer_events
// Access: Public
// Description: Assuming a previous call to has_pointer_event()
// returned true, this returns the pending pointer event.
// Description: Returns a PointerEventList containing all the recent
// pointer events.
////////////////////////////////////////////////////////////////////
PointerEvent GraphicsWindowInputDevice::
get_pointer_event() {
PointerEvent be = _pointer_events.front();
_pointer_events.pop_front();
return be;
PT(PointerEventList) GraphicsWindowInputDevice::
get_pointer_events() {
PT(PointerEventList) result = _pointer_events;
_pointer_events = 0;
return result;
}
////////////////////////////////////////////////////////////////////
@ -277,8 +277,14 @@ set_pointer(bool inwin, int x, int y, double time) {
}
if (_enable_pointer_events) {
int seq = _event_sequence ++;
_pointer_events.push_back(PointerEvent(_device_index, _mouse_data, seq, time));
int seq = _event_sequence++;
if (_pointer_events == 0) {
_pointer_events = new PointerEventList();
}
_pointer_events->add_event(_mouse_data._in_window,
_mouse_data._xpos,
_mouse_data._ypos,
seq, time);
}
}

View File

@ -23,6 +23,7 @@
#include "buttonEvent.h"
#include "pointerEvent.h"
#include "pointerEventList.h"
#include "mouseData.h"
#include "clockObject.h"
@ -69,7 +70,7 @@ public:
bool has_button_event() const;
ButtonEvent get_button_event();
bool has_pointer_event() const;
PointerEvent get_pointer_event();
PT(PointerEventList) get_pointer_events();
public:
// The following interface is for the various kinds of
@ -99,7 +100,6 @@ private:
IDF_has_keyboard = 0x02
};
typedef pdeque<ButtonEvent> ButtonEvents;
typedef pdeque<PointerEvent> PointerEvents;
GraphicsWindow *_host;
@ -117,7 +117,7 @@ private:
MouseData _mouse_data;
MouseData _true_mouse_data;
ButtonEvents _button_events;
PointerEvents _pointer_events;
PT(PointerEventList) _pointer_events;
};
#include "graphicsWindowInputDevice.I"

View File

@ -33,6 +33,7 @@ ConfigureFn(config_event) {
AsyncTask::init_type();
AsyncTaskManager::init_type();
ButtonEventList::init_type();
PointerEventList::init_type();
Event::init_type();
EventHandler::init_type();
EventStoreValueBase::init_type();

View File

@ -24,26 +24,19 @@
////////////////////////////////////////////////////////////////////
INLINE PointerEvent::
PointerEvent() :
_device(-1),
_in_window(false),
_xpos(0),
_ypos(0),
_dx(0),
_dy(0),
_sequence(0),
_length(0.0),
_direction(0.0),
_rotation(0.0),
_time(0.0)
{
}
////////////////////////////////////////////////////////////////////
// Function: PointerEvent::Constructor
// Access: Public
// Description:
////////////////////////////////////////////////////////////////////
INLINE PointerEvent::
PointerEvent(int dev, const MouseData &data, int seq, double time) :
_device(dev),
_data(data),
_sequence(seq),
_time(time)
{
}
////////////////////////////////////////////////////////////////////
// Function: PointerEvent::Copy Constructor
// Access: Public
@ -51,9 +44,15 @@ PointerEvent(int dev, const MouseData &data, int seq, double time) :
////////////////////////////////////////////////////////////////////
INLINE PointerEvent::
PointerEvent(const PointerEvent &copy) :
_device(copy._device),
_data(copy._data),
_in_window(copy._in_window),
_xpos(copy._xpos),
_ypos(copy._ypos),
_dx(copy._dx),
_dy(copy._dy),
_sequence(copy._sequence),
_length(copy._length),
_direction(copy._direction),
_rotation(copy._rotation),
_time(copy._time)
{
}
@ -65,9 +64,15 @@ PointerEvent(const PointerEvent &copy) :
////////////////////////////////////////////////////////////////////
INLINE void PointerEvent::
operator = (const PointerEvent &copy) {
_device = copy._device;
_data = copy._data;
_in_window = copy._in_window;
_xpos = copy._xpos;
_ypos = copy._ypos;
_dx = copy._dx;
_dy = copy._dy;
_sequence = copy._sequence;
_length = copy._length;
_direction = copy._direction;
_rotation = copy._rotation;
_time = copy._time;
}
@ -79,11 +84,15 @@ operator = (const PointerEvent &copy) {
////////////////////////////////////////////////////////////////////
INLINE bool PointerEvent::
operator == (const PointerEvent &other) const {
return (_device == other._device &&
_data._xpos == other._data._xpos &&
_data._ypos == other._data._ypos &&
return (_in_window == other._in_window &&
_xpos == other._xpos &&
_ypos == other._ypos &&
_dx == other._dx &&
_dy == other._dy &&
_sequence == other._sequence &&
_data._in_window == other._data._in_window);
_length == other._length &&
_direction == other._direction &&
_rotation == other._rotation);
}
////////////////////////////////////////////////////////////////////
@ -103,18 +112,30 @@ operator != (const PointerEvent &other) const {
////////////////////////////////////////////////////////////////////
INLINE bool PointerEvent::
operator < (const PointerEvent &other) const {
if (_device != other._device) {
return _device < other._device;
}
if (_sequence != other._sequence) {
return _sequence < other._sequence;
}
if (_data._xpos != other._data._xpos) {
return _data._xpos < other._data._xpos;
if (_xpos != other._xpos) {
return _xpos < other._xpos;
}
if (_data._ypos != other._data._ypos) {
return _data._ypos < other._data._ypos;
if (_ypos != other._ypos) {
return _ypos < other._ypos;
}
return _data._in_window < other._data._in_window;
if (_dx != other._dx) {
return _dx < other._dx;
}
if (_dy != other._dy) {
return _dy < other._dy;
}
if (_length != other._length) {
return _length < other._length;
}
if (_direction != other._direction) {
return _direction < other._direction;
}
if (_rotation != other._rotation) {
return _rotation < other._rotation;
}
return _in_window < other._in_window;
}

View File

@ -27,8 +27,8 @@
////////////////////////////////////////////////////////////////////
void PointerEvent::
output(ostream &out) const {
out << (_data._in_window ? "In@" : "Out@")
<< _data._xpos << "," << _data._ypos << " ";
out << (_in_window ? "In@" : "Out@")
<< _xpos << "," << _ypos << " ";
}
////////////////////////////////////////////////////////////////////
@ -38,11 +38,7 @@ output(ostream &out) const {
////////////////////////////////////////////////////////////////////
void PointerEvent::
write_datagram(Datagram &dg) const {
dg.add_int8(_device);
dg.add_bool(_data._in_window);
dg.add_int32(_data._xpos);
dg.add_int32(_data._ypos);
dg.add_int32(_sequence);
nassertv(false && "This function not implemented yet.");
}
////////////////////////////////////////////////////////////////////
@ -52,10 +48,5 @@ write_datagram(Datagram &dg) const {
////////////////////////////////////////////////////////////////////
void PointerEvent::
read_datagram(DatagramIterator &scan) {
_device = scan.get_int8();
_data._in_window = scan.get_bool();
_data._xpos = scan.get_int32();
_data._ypos = scan.get_int32();
_sequence = scan.get_int32();
_time = 0.0;
nassertv(false && "This function not implemented yet.");
}

View File

@ -34,7 +34,6 @@ public:
INLINE PointerEvent();
INLINE PointerEvent(const PointerEvent &copy);
INLINE PointerEvent(int dev, const MouseData &data, int seq, double time);
INLINE void operator = (const PointerEvent &copy);
INLINE bool operator == (const PointerEvent &other) const;
@ -47,8 +46,14 @@ public:
void read_datagram(DatagramIterator &scan);
public:
int _device;
MouseData _data;
bool _in_window;
int _xpos;
int _ypos;
int _dx;
int _dy;
double _length;
double _direction;
double _rotation;
int _sequence;
double _time;
};

View File

@ -47,16 +47,6 @@ operator = (const PointerEventList &copy) {
_events = copy._events;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::add_event
// Access: Public
// Description: Adds a new event to the end of the list.
////////////////////////////////////////////////////////////////////
INLINE void PointerEventList::
add_event(const PointerEvent &event) {
_events.push_back(event);
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_num_events
// Access: Published
@ -67,28 +57,6 @@ get_num_events() const {
return _events.size();
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_x
// Access: Published
// Description: Get the x-coordinate of the nth event.
////////////////////////////////////////////////////////////////////
INLINE int PointerEventList::
get_x(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._data._xpos;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_y
// Access: Published
// Description: Get the y-coordinate of the nth event.
////////////////////////////////////////////////////////////////////
INLINE int PointerEventList::
get_y(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._data._ypos;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_in_window
// Access: Published
@ -97,7 +65,84 @@ get_y(int evt) const {
INLINE bool PointerEventList::
get_in_window(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._data._in_window;
return _events[evt]._in_window;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_xpos
// Access: Published
// Description: Get the x-coordinate of the nth event.
////////////////////////////////////////////////////////////////////
INLINE int PointerEventList::
get_xpos(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._xpos;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_ypos
// Access: Published
// Description: Get the y-coordinate of the nth event.
////////////////////////////////////////////////////////////////////
INLINE int PointerEventList::
get_ypos(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._ypos;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_dx
// Access: Published
// Description: Get the x-coordinate of the nth event.
////////////////////////////////////////////////////////////////////
INLINE int PointerEventList::
get_dx(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._dx;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_dy
// Access: Published
// Description: Get the y-coordinate of the nth event.
////////////////////////////////////////////////////////////////////
INLINE int PointerEventList::
get_dy(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._dy;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_length
// Access: Published
// Description: Get the length of the nth event.
////////////////////////////////////////////////////////////////////
INLINE double PointerEventList::
get_length(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._length;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_direction
// Access: Published
// Description: Get the direction of the nth event.
////////////////////////////////////////////////////////////////////
INLINE double PointerEventList::
get_direction(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._direction;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_rotation
// Access: Published
// Description: Get the rotation of the nth event.
////////////////////////////////////////////////////////////////////
INLINE double PointerEventList::
get_rotation(int evt) const {
nassertr((evt >= 0) && (evt < (int)_events.size()), 0);
return _events[evt]._rotation;
}
////////////////////////////////////////////////////////////////////
@ -122,23 +167,6 @@ get_time(int evt) const {
return _events[evt]._time;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::get_event
// Access: Public
// Description: Returns the nth event in the list. This does not
// remove the event from the list; the only way to
// remove events is to empty the whole list with
// clear().
////////////////////////////////////////////////////////////////////
INLINE const PointerEvent &PointerEventList::
get_event(int n) const {
#ifndef NDEBUG
static PointerEvent empty_event;
nassertr(n >= 0 && n < (int)_events.size(), empty_event);
#endif // NDEBUG
return _events[n];
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::clear
// Access: Public

View File

@ -18,23 +18,12 @@
#include "pointerEventList.h"
#include "indent.h"
#include "clockObject.h"
#define _USE_MATH_DEFINES
#include <math.h>
TypeHandle PointerEventList::_type_handle;
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::add_events
// Access: Public
// Description: Appends the events from the other list onto the end
// of this one.
////////////////////////////////////////////////////////////////////
void PointerEventList::
add_events(const PointerEventList &other) {
Events::const_iterator ei;
for (ei = other._events.begin(); ei != other._events.end(); ++ei) {
_events.push_back(*ei);
}
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::output
// Access: Public, Virtual
@ -72,74 +61,98 @@ write(ostream &out, int indent_level) const {
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::register_with_read_factory
// Access: Public, Static
// Description: Tells the BamReader how to create objects of type
// Lens.
// Function: PointerEventList::add_event
// Access: Published
// Description: Adds a new event to the end of the list.
// Automatically calculates the dx, dy, length,
// direction, and rotation for all but the first event.
////////////////////////////////////////////////////////////////////
void PointerEventList::
register_with_read_factory() {
BamReader::get_factory()->register_factory(get_class_type(), make_from_bam);
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::write_datagram
// Access: Public, Virtual
// Description: Writes the contents of this object to the datagram
// for shipping out to a Bam file.
////////////////////////////////////////////////////////////////////
void PointerEventList::
write_datagram(BamWriter *manager, Datagram &dg) {
TypedWritable::write_datagram(manager, dg);
dg.add_uint16(_events.size());
Events::const_iterator ei;
for (ei = _events.begin(); ei != _events.end(); ++ei) {
(*ei).write_datagram(dg);
INLINE void PointerEventList::
add_event(bool in_win, int xpos, int ypos, int seq, double time) {
PointerEvent pe;
pe._in_window = in_win;
pe._xpos = xpos;
pe._ypos = ypos;
pe._sequence = seq;
pe._time = time;
if (_events.size() > 0) {
pe._dx = xpos - _events.back()._xpos;
pe._dy = ypos - _events.back()._ypos;
double ddx = pe._dx;
double ddy = pe._dy;
pe._length = sqrt(ddx*ddx + ddy*ddy);
if (pe._length > 0.0) {
pe._direction = atan2(-ddy,ddx) * (180.0 / M_PI);
if (pe._direction < 0.0) pe._direction += 360.0;
} else {
pe._direction = _events.back()._direction;
}
pe._rotation = pe._direction - _events.back()._direction;
if (pe._rotation > 180.0) pe._rotation -= 360.0;
if (pe._rotation < -180.0) pe._rotation += 360.0;
} else {
pe._dx = 0;
pe._dy = 0;
pe._length = 0.0;
pe._direction = 0.0;
pe._rotation = 0.0;
}
}
_events.push_back(pe);
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::make_from_bam
// Access: Protected, Static
// Description: This function is called by the BamReader's factory
// when a new object of type Lens is encountered
// in the Bam file. It should create the Lens
// and extract its information from the file.
// Function: PointerEventList::encircles
// Access: Published
// Description: Returns true if the trail loops around the
// specified point.
////////////////////////////////////////////////////////////////////
TypedWritable *PointerEventList::
make_from_bam(const FactoryParams &params) {
PointerEventList *list = new PointerEventList;
DatagramIterator scan;
BamReader *manager;
parse_params(params, scan, manager);
list->fillin(scan, manager);
return list;
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::fillin
// Access: Public
// Description: This internal function is called by make_from_bam to
// read in all of the relevant data from the BamFile for
// the new PointerEventList.
//
// This function is normally protected, but it is
// declared public in this case so that MouseRecorder
// may call it to read a PointerEventList from the middle
// of a datagram.
////////////////////////////////////////////////////////////////////
void PointerEventList::
fillin(DatagramIterator &scan, BamReader *manager) {
TypedWritable::fillin(scan, manager);
int num_events = scan.get_uint16();
_events.clear();
for (int i = 0; i < num_events; i++) {
PointerEvent event;
event.read_datagram(scan);
_events.push_back(event);
bool PointerEventList::
encircles(int x, int y) const {
int tot_events = _events.size();
if (tot_events < 3) {
return false;
}
double dx = _events[0]._xpos - x;
double dy = _events[0]._ypos - y;
double lastang = atan2(dy, dx) * (180.0/M_PI);
double total = 0.0;
for (int i=1; (i<tot_events) && (total < 360.0) && (total > -360.0); i++) {
dx = _events[i]._xpos - x;
dy = _events[i]._ypos - y;
if ((dx==0.0)&&(dy==0.0)) {
continue;
}
double angle = atan2(dy,dx) * (180.0/M_PI);
double deltang = angle - lastang;
if (deltang < -180.0) deltang += 360.0;
if (deltang > 180.0) deltang -= 360.0;
if (deltang * total < 0.0) {
total = 0.0;
}
total += deltang;
lastang = angle;
}
return (total > 360.0) || (total < -360.0);
}
////////////////////////////////////////////////////////////////////
// Function: PointerEventList::total_turns
// Access: Published
// Description: returns the total angular deviation that the trail
// has made in the specified time period. A small
// number means that the trail is moving in a relatively
// straight line, a large number means that the trail
// is zig-zagging or spinning. The result is in degrees.
////////////////////////////////////////////////////////////////////
double PointerEventList::
total_turns(double sec) const {
double old = ClockObject::get_global_clock()->get_frame_time() - sec;
int pos = _events.size()-1;
double tot = 0.0;
while ((pos >= 0)&&(_events[pos]._time >= old)) {
double rot = _events[pos]._rotation;
if (rot < 0.0) rot = -rot;
tot += rot;
}
return tot;
}

View File

@ -40,25 +40,32 @@ class DatagramIterator;
////////////////////////////////////////////////////////////////////
class EXPCL_PANDA_EVENT PointerEventList : public EventStoreValueBase {
PUBLISHED:
INLINE PointerEventList();
INLINE int get_num_events() const;
INLINE int get_x(int n) const;
INLINE int get_y(int n) const;
INLINE bool get_in_window(int n) const;
INLINE int get_xpos(int n) const;
INLINE int get_ypos(int n) const;
INLINE int get_dx(int n) const;
INLINE int get_dy(int n) const;
INLINE int get_sequence(int n) const;
INLINE double get_length(int n) const;
INLINE double get_direction(int n) const;
INLINE double get_rotation(int n) const;
INLINE double get_time(int n) const;
INLINE void clear();
INLINE void pop_front();
INLINE void add_event(bool in_win, int xpos, int ypos, int seq, double time);
INLINE bool encircles(int x, int y) const;
INLINE double total_turns(double sec) const;
public:
INLINE PointerEventList();
INLINE PointerEventList(const PointerEventList &copy);
INLINE void operator = (const PointerEventList &copy);
INLINE void add_event(const PointerEvent &event);
INLINE const PointerEvent &get_event(int n) const;
INLINE void clear();
INLINE void pop_front();
void add_events(const PointerEventList &other);
virtual void output(ostream &out) const;
void write(ostream &out, int indent_level = 0) const;
@ -66,16 +73,6 @@ private:
typedef pdeque<PointerEvent> Events;
Events _events;
public:
static void register_with_read_factory();
virtual void write_datagram(BamWriter *manager, Datagram &dg);
protected:
static TypedWritable *make_from_bam(const FactoryParams &params);
public:
void fillin(DatagramIterator &scan, BamReader *manager);
public:
static TypeHandle get_class_type() {
return _type_handle;

View File

@ -620,6 +620,17 @@ without_region(MouseWatcherRegion *region, const MouseWatcherParameter &param) {
throw_event_pattern(_without_pattern, region, ButtonHandle::none());
}
////////////////////////////////////////////////////////////////////
// Function: MouseWatcher::clear_trail_log
// Access: Published
// Description: Clears the mouse trail log. This does not prevent
// further accumulation of the log given future events.
////////////////////////////////////////////////////////////////////
INLINE void MouseWatcher::
clear_trail_log() {
_trail_log->clear();
}
////////////////////////////////////////////////////////////////////
// Function: MouseWatcher::get_trail_log
// Access: Published

View File

@ -377,7 +377,8 @@ set_trail_log_duration(double duration) {
// desired log duration. Keeps one event that is beyond
// the specified age, because otherwise, it is not always
// possible to determine where the mouse was for the
// full logging duration. If the duration is zero, this
// full logging duration. Also, keeps a minimum of two
// events in the queue. If the duration is zero, this
// method discards all trail events.
////////////////////////////////////////////////////////////////////
void MouseWatcher::
@ -385,9 +386,9 @@ discard_excess_trail_log() {
if (_trail_log_duration == 0.0) {
_trail_log->clear();
} else {
if (_trail_log->get_num_events() >= 2) {
if (_trail_log->get_num_events() > 2) {
double old = ClockObject::get_global_clock()->get_frame_time() - _trail_log_duration;
while ((_trail_log->get_num_events() >= 2)&&
while ((_trail_log->get_num_events() > 2)&&
(_trail_log->get_time(0) <= old)&&
(_trail_log->get_time(1) <= old)) {
_trail_log->pop_front();
@ -463,8 +464,8 @@ update_trail_node() {
double yscale = 2.0 / _pixel_size->get_value().get_y();
for (int i=0; i<(int)_trail_log->get_num_events(); i++) {
double x = (_trail_log->get_x(i) * xscale) - 1.0;
double y = (_trail_log->get_y(i) * yscale) - 1.0;
double x = (_trail_log->get_xpos(i) * xscale) - 1.0;
double y = (_trail_log->get_ypos(i) * yscale) - 1.0;
vertex.add_data3f(LVecBase3f(x,0.0,-y));
lines->add_vertex(i);
}
@ -1449,7 +1450,12 @@ do_transmit_data(DataGraphTraverser *trav, const DataNodeTransmit &input,
DCAST_INTO_V(this_pointer_events, input.get_data(_pointer_events_input).get_ptr());
_num_trail_recent = this_pointer_events->get_num_events();
for (int i = 0; i < _num_trail_recent; i++) {
_trail_log->add_event(this_pointer_events->get_event(i));
bool in_win = this_pointer_events->get_in_window(i);
int xpos = this_pointer_events->get_xpos(i);
int ypos = this_pointer_events->get_ypos(i);
int sequence = this_pointer_events->get_sequence(i);
double time = this_pointer_events->get_time(i);
_trail_log->add_event(in_win, xpos, ypos, sequence, time);
}
}
if (_trail_log->get_num_events() > 0) {

View File

@ -148,6 +148,7 @@ PUBLISHED:
void set_trail_log_duration(double duration);
PT(GeomNode) get_trail_node();
void clear_trail_node();
INLINE void clear_trail_log();
void note_activity();