#include <simgear/math/interpolater.hxx>
#include <simgear/props/condition.hxx>
#include <simgear/props/props.hxx>
+#include <simgear/math/sg_random.h>
#include "animation.hxx"
-#include "flash.hxx"
+#include "custtrans.hxx"
+#include "personality.hxx"
\f
////////////////////////////////////////////////////////////////////////
// Initialize the static data member
double SGAnimation::sim_time_sec = 0.0;
+SGPersonalityBranch *SGAnimation::current_object = 0;
SGAnimation::SGAnimation (SGPropertyNode_ptr props, ssgBranch * branch)
: _branch(branch)
{
_branch->setName(props->getStringValue("name", 0));
+ if ( props->getBoolValue( "enable-hot", true ) ) {
+ _branch->setTraversalMaskBits( SSGTRAV_HOT );
+ } else {
+ _branch->clrTraversalMaskBits( SSGTRAV_HOT );
+ }
}
SGAnimation::~SGAnimation ()
SGRangeAnimation::SGRangeAnimation (SGPropertyNode *prop_root,
SGPropertyNode_ptr props)
: SGAnimation(props, new ssgRangeSelector),
- _min(0.0), _max(0.0), _min_factor(1.0), _max_factor(1.0)
-
+ _min(0.0), _max(0.0), _min_factor(1.0), _max_factor(1.0),
+ _condition(0)
{
+ SGPropertyNode_ptr node = props->getChild("condition");
+ if (node != 0)
+ _condition = sgReadCondition(prop_root, node);
+
float ranges[2];
- SGPropertyNode_ptr node = props->getChild( "min-factor" );
+ node = props->getChild( "min-factor" );
if (node != 0) {
_min_factor = props->getFloatValue("min-factor", 1.0);
}
int
SGRangeAnimation::update()
{
- float ranges[2];
- bool upd = false;
+ float ranges[2];
+ if ( _condition == 0 || _condition->test() ) {
if (_min_prop != 0) {
- ranges[0] = _min_prop->getFloatValue() * _min_factor;
- upd = true;
+ ranges[0] = _min_prop->getFloatValue() * _min_factor;
} else {
- ranges[0] = _min * _min_factor;
+ ranges[0] = _min * _min_factor;
}
if (_max_prop != 0) {
- ranges[1] = _max_prop->getFloatValue() * _max_factor;
- upd = true;
+ ranges[1] = _max_prop->getFloatValue() * _max_factor;
} else {
- ranges[1] = _max * _max_factor;
- }
- if (upd) {
- ((ssgRangeSelector *)_branch)->setRanges(ranges, 2);
+ ranges[1] = _max * _max_factor;
}
+ } else {
+ ranges[0] = 0.f;
+ ranges[1] = 1000000000.f;
+ }
+ ((ssgRangeSelector *)_branch)->setRanges(ranges, 2);
return 1;
}
_prop((SGPropertyNode *)prop_root->getNode(props->getStringValue("property", "/null"), true)),
_factor(props->getDoubleValue("factor", 1.0)),
_position_deg(props->getDoubleValue("starting-position-deg", 0)),
- _last_time_sec( sim_time_sec )
+ _last_time_sec( sim_time_sec ),
+ _condition(0)
{
+ SGPropertyNode_ptr node = props->getChild("condition");
+ if (node != 0)
+ _condition = sgReadCondition(prop_root, node);
+
_center[0] = 0;
_center[1] = 0;
_center[2] = 0;
int
SGSpinAnimation::update()
{
- double dt = sim_time_sec - _last_time_sec;
- _last_time_sec = sim_time_sec;
-
- float velocity_rpms = (_prop->getDoubleValue() * _factor / 60.0);
- _position_deg += (dt * velocity_rpms * 360);
- while (_position_deg < 0)
- _position_deg += 360.0;
- while (_position_deg >= 360.0)
- _position_deg -= 360.0;
- set_rotation(_matrix, _position_deg, _center, _axis);
- ((ssgTransform *)_branch)->setTransform(_matrix);
+ if ( _condition == 0 || _condition->test() ) {
+ double dt = sim_time_sec - _last_time_sec;
+ _last_time_sec = sim_time_sec;
+
+ float velocity_rpms = (_prop->getDoubleValue() * _factor / 60.0);
+ _position_deg += (dt * velocity_rpms * 360);
+ while (_position_deg < 0)
+ _position_deg += 360.0;
+ while (_position_deg >= 360.0)
+ _position_deg -= 360.0;
+ set_rotation(_matrix, _position_deg, _center, _axis);
+ ((ssgTransform *)_branch)->setTransform(_matrix);
+ }
return 1;
}
SGTimedAnimation::SGTimedAnimation (SGPropertyNode_ptr props)
: SGAnimation(props, new ssgSelector),
+ _use_personality( props->getBoolValue("use-personality",false) ),
_duration_sec(props->getDoubleValue("duration-sec", 1.0)),
- _last_time_sec(0),
- _step(-1)
+ _last_time_sec( sim_time_sec ),
+ _total_duration_sec( 0 ),
+ _step( 0 )
+
{
+ vector<SGPropertyNode_ptr> nodes = props->getChildren( "branch-duration-sec" );
+ size_t nb = nodes.size();
+ for ( size_t i = 0; i < nb; i++ ) {
+ size_t ind = nodes[ i ]->getIndex();
+ while ( ind >= _branch_duration_specs.size() ) {
+ _branch_duration_specs.push_back( DurationSpec( _duration_sec ) );
+ }
+ SGPropertyNode_ptr rNode = nodes[ i ]->getChild("random");
+ if ( rNode == 0 ) {
+ _branch_duration_specs[ ind ] = DurationSpec( nodes[ i ]->getDoubleValue() );
+ } else {
+ _branch_duration_specs[ ind ] = DurationSpec( rNode->getDoubleValue( "min", 0.0 ),
+ rNode->getDoubleValue( "max", 1.0 ) );
+ }
+ }
}
SGTimedAnimation::~SGTimedAnimation ()
{
}
+void
+SGTimedAnimation::init()
+{
+ if ( !_use_personality ) {
+ for ( size_t i = 0; i < getBranch()->getNumKids(); i++ ) {
+ double v;
+ if ( i < _branch_duration_specs.size() ) {
+ DurationSpec &sp = _branch_duration_specs[ i ];
+ v = sp._min + sg_random() * ( sp._max - sp._min );
+ } else {
+ v = _duration_sec;
+ }
+ _branch_duration_sec.push_back( v );
+ _total_duration_sec += v;
+ }
+ // Sanity check : total duration shouldn't equal zero
+ if ( _total_duration_sec < 0.01 ) {
+ _total_duration_sec = 0.01;
+ }
+ }
+ ((ssgSelector *)getBranch())->selectStep(_step);
+}
+
int
SGTimedAnimation::update()
{
- if ((sim_time_sec - _last_time_sec) >= _duration_sec) {
- _last_time_sec = sim_time_sec;
- _step++;
- if (_step >= getBranch()->getNumKids())
- _step = 0;
- ((ssgSelector *)getBranch())->selectStep(_step);
+ if ( _use_personality ) {
+ SGPersonalityBranch *key = current_object;
+ if ( !key->getIntValue( this, INIT ) ) {
+ double total = 0;
+ double offset = 1.0;
+ for ( size_t i = 0; i < _branch_duration_specs.size(); i++ ) {
+ DurationSpec &sp = _branch_duration_specs[ i ];
+ double v = sp._min + sg_random() * ( sp._max - sp._min );
+ key->setDoubleValue( v, this, BRANCH_DURATION_SEC, i );
+ if ( i == 0 )
+ offset = v;
+ total += v;
+ }
+ // Sanity check : total duration shouldn't equal zero
+ if ( total < 0.01 ) {
+ total = 0.01;
+ }
+ offset *= sg_random();
+ key->setDoubleValue( sim_time_sec - offset, this, LAST_TIME_SEC );
+ key->setDoubleValue( total, this, TOTAL_DURATION_SEC );
+ key->setIntValue( 0, this, STEP );
+ key->setIntValue( 1, this, INIT );
+ }
+
+ _step = key->getIntValue( this, STEP );
+ _last_time_sec = key->getDoubleValue( this, LAST_TIME_SEC );
+ _total_duration_sec = key->getDoubleValue( this, TOTAL_DURATION_SEC );
+ while ( ( sim_time_sec - _last_time_sec ) >= _total_duration_sec ) {
+ _last_time_sec += _total_duration_sec;
+ }
+ double duration = _duration_sec;
+ if ( _step < (int)_branch_duration_specs.size() ) {
+ duration = key->getDoubleValue( this, BRANCH_DURATION_SEC, _step );
+ }
+ if ( ( sim_time_sec - _last_time_sec ) >= duration ) {
+ _last_time_sec += duration;
+ _step += 1;
+ if ( _step >= getBranch()->getNumKids() )
+ _step = 0;
+ }
+ ((ssgSelector *)getBranch())->selectStep( _step );
+ key->setDoubleValue( _last_time_sec, this, LAST_TIME_SEC );
+ key->setIntValue( _step, this, STEP );
+ } else {
+ while ( ( sim_time_sec - _last_time_sec ) >= _total_duration_sec ) {
+ _last_time_sec += _total_duration_sec;
+ }
+ double duration = _duration_sec;
+ if ( _step < (int)_branch_duration_sec.size() ) {
+ duration = _branch_duration_sec[ _step ];
+ }
+ if ( ( sim_time_sec - _last_time_sec ) >= duration ) {
+ _last_time_sec += duration;
+ _step += 1;
+ if ( _step >= getBranch()->getNumKids() )
+ _step = 0;
+ ((ssgSelector *)getBranch())->selectStep( _step );
+ }
}
- return 1;
+ return 1;
}
_min_deg(props->getDoubleValue("min-deg")),
_has_max(props->hasValue("max-deg")),
_max_deg(props->getDoubleValue("max-deg")),
- _position_deg(props->getDoubleValue("starting-position-deg", 0))
+ _position_deg(props->getDoubleValue("starting-position-deg", 0)),
+ _condition(0)
{
+ SGPropertyNode_ptr node = props->getChild("condition");
+ if (node != 0)
+ _condition = sgReadCondition(prop_root, node);
+
_center[0] = 0;
_center[1] = 0;
_center[2] = 0;
int
SGRotateAnimation::update()
{
- if (_table == 0) {
- _position_deg = _prop->getDoubleValue() * _factor + _offset_deg;
- if (_has_min && _position_deg < _min_deg)
- _position_deg = _min_deg;
- if (_has_max && _position_deg > _max_deg)
- _position_deg = _max_deg;
- } else {
- _position_deg = _table->interpolate(_prop->getDoubleValue());
+ if (_condition == 0 || _condition->test()) {
+ if (_table == 0) {
+ _position_deg = _prop->getDoubleValue() * _factor + _offset_deg;
+ if (_has_min && _position_deg < _min_deg)
+ _position_deg = _min_deg;
+ if (_has_max && _position_deg > _max_deg)
+ _position_deg = _max_deg;
+ } else {
+ _position_deg = _table->interpolate(_prop->getDoubleValue());
+ }
+ set_rotation(_matrix, _position_deg, _center, _axis);
+ ((ssgTransform *)_branch)->setTransform(_matrix);
}
- set_rotation(_matrix, _position_deg, _center, _axis);
- ((ssgTransform *)_branch)->setTransform(_matrix);
return 1;
}
_min_m(props->getDoubleValue("min-m")),
_has_max(props->hasValue("max-m")),
_max_m(props->getDoubleValue("max-m")),
- _position_m(props->getDoubleValue("starting-position-m", 0))
+ _position_m(props->getDoubleValue("starting-position-m", 0)),
+ _condition(0)
{
+ SGPropertyNode_ptr node = props->getChild("condition");
+ if (node != 0)
+ _condition = sgReadCondition(prop_root, node);
+
_axis[0] = props->getFloatValue("axis/x", 0);
_axis[1] = props->getFloatValue("axis/y", 0);
_axis[2] = props->getFloatValue("axis/z", 0);
int
SGTranslateAnimation::update()
{
- if (_table == 0) {
- _position_m = (_prop->getDoubleValue() + _offset_m) * _factor;
- if (_has_min && _position_m < _min_m)
- _position_m = _min_m;
- if (_has_max && _position_m > _max_m)
- _position_m = _max_m;
- } else {
- _position_m = _table->interpolate(_prop->getDoubleValue());
+ if (_condition == 0 || _condition->test()) {
+ if (_table == 0) {
+ _position_m = (_prop->getDoubleValue() + _offset_m) * _factor;
+ if (_has_min && _position_m < _min_m)
+ _position_m = _min_m;
+ if (_has_max && _position_m > _max_m)
+ _position_m = _max_m;
+ } else {
+ _position_m = _table->interpolate(_prop->getDoubleValue());
+ }
+ set_translation(_matrix, _position_m, _axis);
+ ((ssgTransform *)_branch)->setTransform(_matrix);
}
- set_translation(_matrix, _position_m, _axis);
- ((ssgTransform *)_branch)->setTransform(_matrix);
return 1;
}
// Implementation of SGFlashAnimation
////////////////////////////////////////////////////////////////////////
SGFlashAnimation::SGFlashAnimation(SGPropertyNode_ptr props)
- : SGAnimation( props, new SGFlash )
+ : SGAnimation( props, new SGCustomTransform )
{
- sgVec3 axis;
- axis[0] = props->getFloatValue("axis/x", 0);
- axis[1] = props->getFloatValue("axis/y", 0);
- axis[2] = props->getFloatValue("axis/z", 1);
- ((SGFlash *)_branch)->setAxis( axis );
+ _axis[0] = props->getFloatValue("axis/x", 0);
+ _axis[1] = props->getFloatValue("axis/y", 0);
+ _axis[2] = props->getFloatValue("axis/z", 1);
- sgVec3 center;
- center[0] = props->getFloatValue("center/x-m", 0);
- center[1] = props->getFloatValue("center/y-m", 0);
- center[2] = props->getFloatValue("center/z-m", 0);
- ((SGFlash *)_branch)->setCenter( center );
+ _center[0] = props->getFloatValue("center/x-m", 0);
+ _center[1] = props->getFloatValue("center/y-m", 0);
+ _center[2] = props->getFloatValue("center/z-m", 0);
- float offset = props->getFloatValue("offset", 0.0);
- float factor = props->getFloatValue("factor", 1.0);
- float power = props->getFloatValue("power", 1.0);
- bool two_sides = props->getBoolValue("two-sides", false);
- ((SGFlash *)_branch)->setParameters( power, factor, offset, two_sides );
+ _offset = props->getFloatValue("offset", 0.0);
+ _factor = props->getFloatValue("factor", 1.0);
+ _power = props->getFloatValue("power", 1.0);
+ _two_sides = props->getBoolValue("two-sides", false);
- float v_min = props->getFloatValue("min", 0.0);
- float v_max = props->getFloatValue("max", 1.0);
- ((SGFlash *)_branch)->setClampValues( v_min, v_max );
+ _min_v = props->getFloatValue("min", 0.0);
+ _max_v = props->getFloatValue("max", 1.0);
+
+ ((SGCustomTransform *)_branch)->setTransCallback( &SGFlashAnimation::flashCallback, this );
}
SGFlashAnimation::~SGFlashAnimation()
{
}
+void SGFlashAnimation::flashCallback( sgMat4 r, sgFrustum *f, sgMat4 m, void *d )
+{
+ ((SGFlashAnimation *)d)->flashCallback( r, f, m );
+}
+
+void SGFlashAnimation::flashCallback( sgMat4 r, sgFrustum *f, sgMat4 m )
+{
+ sgVec3 transformed_axis;
+ sgXformVec3( transformed_axis, _axis, m );
+ sgNormalizeVec3( transformed_axis );
+
+ sgVec3 view;
+ sgFullXformPnt3( view, _center, m );
+ sgNormalizeVec3( view );
+
+ float cos_angle = -sgScalarProductVec3( transformed_axis, view );
+ float scale_factor = 0.f;
+ if ( _two_sides && cos_angle < 0 )
+ scale_factor = _factor * (float)pow( -cos_angle, _power ) + _offset;
+ else if ( cos_angle > 0 )
+ scale_factor = _factor * (float)pow( cos_angle, _power ) + _offset;
+
+ if ( scale_factor < _min_v )
+ scale_factor = _min_v;
+ if ( scale_factor > _max_v )
+ scale_factor = _max_v;
+
+ sgMat4 transform;
+ sgMakeIdentMat4( transform );
+ transform[0][0] = scale_factor;
+ transform[1][1] = scale_factor;
+ transform[2][2] = scale_factor;
+ transform[3][0] = _center[0] * ( 1 - scale_factor );
+ transform[3][1] = _center[1] * ( 1 - scale_factor );
+ transform[3][2] = _center[2] * ( 1 - scale_factor );
+
+ sgCopyMat4( r, m );
+ sgPreMultMat4( r, transform );
+}
+
+
+\f
+////////////////////////////////////////////////////////////////////////
+// Implementation of SGDistScaleAnimation
+////////////////////////////////////////////////////////////////////////
+SGDistScaleAnimation::SGDistScaleAnimation(SGPropertyNode_ptr props)
+ : SGAnimation( props, new SGCustomTransform ),
+ _factor(props->getFloatValue("factor", 1.0)),
+ _offset(props->getFloatValue("offset", 0.0)),
+ _min_v(props->getFloatValue("min", 0.0)),
+ _max_v(props->getFloatValue("max", 1.0)),
+ _has_min(props->hasValue("min")),
+ _has_max(props->hasValue("max")),
+ _table(read_interpolation_table(props))
+{
+ _center[0] = props->getFloatValue("center/x-m", 0);
+ _center[1] = props->getFloatValue("center/y-m", 0);
+ _center[2] = props->getFloatValue("center/z-m", 0);
+
+ ((SGCustomTransform *)_branch)->setTransCallback( &SGDistScaleAnimation::distScaleCallback, this );
+}
+
+SGDistScaleAnimation::~SGDistScaleAnimation()
+{
+}
+
+void SGDistScaleAnimation::distScaleCallback( sgMat4 r, sgFrustum *f, sgMat4 m, void *d )
+{
+ ((SGDistScaleAnimation *)d)->distScaleCallback( r, f, m );
+}
+
+void SGDistScaleAnimation::distScaleCallback( sgMat4 r, sgFrustum *f, sgMat4 m )
+{
+ sgVec3 view;
+ sgFullXformPnt3( view, _center, m );
+
+ float scale_factor = sgLengthVec3( view );
+ if (_table == 0) {
+ scale_factor = _factor * scale_factor + _offset;
+ if ( _has_min && scale_factor < _min_v )
+ scale_factor = _min_v;
+ if ( _has_max && scale_factor > _max_v )
+ scale_factor = _max_v;
+ } else {
+ scale_factor = _table->interpolate( scale_factor );
+ }
+
+ sgMat4 transform;
+ sgMakeIdentMat4( transform );
+ transform[0][0] = scale_factor;
+ transform[1][1] = scale_factor;
+ transform[2][2] = scale_factor;
+ transform[3][0] = _center[0] * ( 1 - scale_factor );
+ transform[3][1] = _center[1] * ( 1 - scale_factor );
+ transform[3][2] = _center[2] * ( 1 - scale_factor );
+
+ sgCopyMat4( r, m );
+ sgPreMultMat4( r, transform );
+}
+
// end of animation.cxx