#include "toonz/tstageobject.h"
// TnzLib includes
#include "toonz/tstageobjecttree.h"
#include "toonz/tstageobjectspline.h"
#include "toonz/txsheet.h"
#include "toonz/observer.h"
#include "toonz/txshlevelcolumn.h"
#include "toonz/txshcell.h"
#include "toonz/stage.h"
#include "toonz/tcamera.h"
#include "toonz/doubleparamcmd.h"
#include "toonz/tpinnedrangeset.h"
// TnzExt includes
#include "ext/plasticskeleton.h"
#include "ext/plasticskeletondeformation.h"
#include "ext/plasticdeformerstorage.h"
// TnzCore includes
#include "tstream.h"
#include "tstroke.h"
#include "tconvert.h"
#include "tundo.h"
#include "tconst.h"
// Qt includes
#include <QMetaObject>
// tcg includes
#include "tcg/tcg_function_types.h"
// STD includes
#include <fstream>
#include <set>
using namespace std;
//
// Per un problema su alcune macchine, solo Release.
// il problema si verifica ruotando gli oggetti sul camera stand
//
#ifdef _MSC_VER
#pragma optimize("", off)
#endif
static TAffine makeRotation(double ang) { return TRotation(ang); }
#ifdef _MSC_VER
#pragma optimize("", on)
#endif
DEFINE_CLASS_CODE(TStageObject, 102)
//************************************************************************************************
// Local namespace
//************************************************************************************************
namespace {
enum StageObjectType {
NONE = 0,
CAMERA = 1,
TABLE = 2,
PEGBAR = 5,
COLUMN = 6
};
const int StageObjectTypeShift = 28;
const int StageObjectMaxIndex = ((1 << StageObjectTypeShift) - 1);
const int StageObjectIndexMask = ((1 << StageObjectTypeShift) - 1);
} // namespace
//************************************************************************************************
// TStageObjectParams implementation
//************************************************************************************************
TStageObjectParams::TStageObjectParams() : m_spline(0), m_noScaleZ(0) {}
//-----------------------------------------------------------------------------
TStageObjectParams::TStageObjectParams(TStageObjectParams *data)
: m_id(data->m_id)
, m_parentId(data->m_parentId)
, m_children(data->m_children)
, m_keyframes(data->m_keyframes)
, m_cycleEnabled(data->m_cycleEnabled)
, m_spline(data->m_spline)
, m_status(data->m_status)
, m_handle(data->m_handle)
, m_parentHandle(data->m_parentHandle)
, m_x(data->m_x)
, m_y(data->m_y)
, m_z(data->m_z)
, m_so(data->m_so)
, m_rot(data->m_rot)
, m_scalex(data->m_scalex)
, m_scaley(data->m_scaley)
, m_scale(data->m_scale)
, m_posPath(data->m_posPath)
, m_shearx(data->m_shearx)
, m_sheary(data->m_sheary)
, m_skeletonDeformation(data->m_skeletonDeformation)
, m_noScaleZ(data->m_noScaleZ)
, m_center(data->m_center)
, m_offset(data->m_offset)
, m_name(data->m_name)
, m_isOpened(data->m_isOpened)
, m_pinnedRangeSet(data->m_pinnedRangeSet->clone()) {}
//---------------------------------------------------------------------------
TStageObjectParams::~TStageObjectParams() { delete m_pinnedRangeSet; }
//---------------------------------------------------------------------------
TStageObjectParams *TStageObjectParams::clone() {
return new TStageObjectParams(this);
}
//===========================================================================
// Utility Functions
//---------------------------------------------------------------------------
TStageObjectId toStageObjectId(string s) {
if (s == "None")
return TStageObjectId::NoneId;
else if (s == "Table")
return TStageObjectId::TableId;
else if (isInt(s)) {
TStageObjectId id;
id.setCode(std::stoi(s));
return id;
} else if (s.length() > 3) {
if (s.substr(0, 3) == "Col")
return TStageObjectId::ColumnId(std::stoi(s.substr(3)) - 1);
else if (s.substr(0, 3) == "Peg")
return TStageObjectId::PegbarId(std::stoi(s.substr(3)) - 1);
else if (s.length() > 6 && s.substr(0, 6) == "Camera")
return TStageObjectId::CameraId(std::stoi(s.substr(6)) - 1);
}
return TStageObjectId::NoneId;
}
//-----------------------------------------------------------------------------
ostream &operator<<(ostream &out, const TStageObjectId &id) {
return out << id.toString();
}
//************************************************************************************************
// TStageObjectId implementation
//************************************************************************************************
TStageObjectId::TStageObjectId() : m_id(NONE << StageObjectTypeShift) {}
//-----------------------------------------------------------------------------
TStageObjectId::~TStageObjectId() {}
//-----------------------------------------------------------------------------
bool TStageObjectId::isCamera() const {
return m_id >> StageObjectTypeShift == CAMERA;
}
//-----------------------------------------------------------------------------
bool TStageObjectId::isTable() const {
return m_id >> StageObjectTypeShift == TABLE;
}
//-----------------------------------------------------------------------------
bool TStageObjectId::isPegbar() const {
return m_id >> StageObjectTypeShift == PEGBAR;
}
//-----------------------------------------------------------------------------
bool TStageObjectId::isColumn() const {
return m_id >> StageObjectTypeShift == COLUMN;
}
//-----------------------------------------------------------------------------
const TStageObjectId TStageObjectId::NoneId(NONE << StageObjectTypeShift);
//-----------------------------------------------------------------------------
const TStageObjectId TStageObjectId::TableId(TABLE << StageObjectTypeShift);
//-----------------------------------------------------------------------------
const TStageObjectId TStageObjectId::CameraId(int index) {
assert(0 <= index && index <= StageObjectMaxIndex);
return TStageObjectId(CAMERA << StageObjectTypeShift | index);
}
//-----------------------------------------------------------------------------
const TStageObjectId TStageObjectId::PegbarId(int index) {
assert(0 <= index && index <= StageObjectMaxIndex);
return TStageObjectId(PEGBAR << StageObjectTypeShift | index);
}
//-----------------------------------------------------------------------------
const TStageObjectId TStageObjectId::ColumnId(int index) {
assert(0 <= index && index <= StageObjectMaxIndex);
return TStageObjectId(COLUMN << StageObjectTypeShift | index);
}
//-----------------------------------------------------------------------------
string TStageObjectId::toString() const {
int index = m_id & StageObjectIndexMask;
string shortName;
switch (m_id >> StageObjectTypeShift) {
case NONE:
shortName = "None";
break;
case CAMERA:
shortName = "Camera" + std::to_string(index + 1);
break;
case TABLE:
shortName = "Table";
break;
case PEGBAR:
shortName = "Peg" + std::to_string(index + 1);
break;
case COLUMN:
shortName = "Col" + std::to_string(index + 1);
break;
default:
shortName = "BadPegbar";
}
return shortName;
}
//-----------------------------------------------------------------------------
int TStageObjectId::getIndex() const { return m_id & StageObjectIndexMask; }
//=============================================================================
namespace { // TStageObject Utility
//-----------------------------------------------------------------------------
TDoubleKeyframe withFrame(TDoubleKeyframe k, double frame) {
k.m_frame = frame;
return k;
}
//-----------------------------------------------------------------------------
bool setKeyframe(const TDoubleParamP ¶m, const TDoubleKeyframe &kf,
int frame, const double &easeIn, const double &easeOut) {
if (!kf.m_isKeyframe) return false;
TDoubleKeyframe kfCopy = kf;
kfCopy.m_frame = frame;
if (easeIn >= 0.0) kfCopy.m_speedIn = TPointD(-easeIn, kfCopy.m_speedIn.y);
if (easeOut >= 0.0) kfCopy.m_speedOut = TPointD(easeOut, kfCopy.m_speedOut.y);
param->setKeyframe(kfCopy);
return true;
}
//-----------------------------------------------------------------------------
void setkey(const TDoubleParamP ¶m, int frame) {
KeyframeSetter setter(param.getPointer(), -1, false);
setter.createKeyframe(frame);
}
//-----------------------------------------------------------------------------
void updateUnit(TDoubleParam *param) {
for (int i = 0; i < param->getKeyframeCount(); i++) {
TDoubleKeyframe k = param->getKeyframe(i);
k.m_value /= Stage::inch;
param->setKeyframe(i, k);
}
}
//-----------------------------------------------------------------------------
string convertTo4InchCenterUnits(string handle) {
// per convenzione un handle del tipo 'a'..'z' utilizza
// la vecchia convenzione per i centri (4 inch invece di 8)
if (handle.length() == 1 && 'A' <= handle[0] && handle[0] <= 'Z' &&
handle[0] != 'B')
return string(1, handle[0] + 'a' - 'A');
else
return handle;
}
//-----------------------------------------------------------------------------
TPointD updateDagPosition(const TPointD &pos, const VersionNumber &tnzVersion) {
if (tnzVersion < VersionNumber(1, 16)) return TConst::nowhere;
return pos;
}
//-----------------------------------------------------------------------------
// Update the passed stage object keyframe and keyframe type specification with
// a new keyframe. Returns true if specifications match, false otherwise.
bool touchEaseAndCompare(const TDoubleKeyframe &kf,
TStageObject::Keyframe &stageKf,
TDoubleKeyframe::Type &type) {
bool initialization = (type == TDoubleKeyframe::None);
if (initialization) type = kf.m_type;
if (kf.m_type != type || (kf.m_type != TDoubleKeyframe::SpeedInOut &&
kf.m_type != TDoubleKeyframe::EaseInOut &&
(kf.m_prevType != TDoubleKeyframe::None &&
kf.m_prevType != TDoubleKeyframe::SpeedInOut &&
kf.m_prevType != TDoubleKeyframe::EaseInOut))) {
stageKf.m_easeIn = -1.0;
stageKf.m_easeOut = -1.0;
return false;
}
double easeIn = -kf.m_speedIn.x;
if (initialization)
stageKf.m_easeIn = easeIn;
else if (stageKf.m_easeIn != easeIn)
stageKf.m_easeIn = -1.0;
double easeOut = kf.m_speedOut.x;
if (initialization)
stageKf.m_easeOut = easeOut;
else if (stageKf.m_easeOut != easeOut)
stageKf.m_easeOut = -1.0;
return true;
}
//-----------------------------------------------------------------------------
} // namespace
//-----------------------------------------------------------------------------
//************************************************************************************************
// TStageObject::LazyData implementation
//************************************************************************************************
TStageObject::LazyData::LazyData() : m_time(-1.0) {}
//************************************************************************************************
// TStageObject implementation
//************************************************************************************************
TStageObject::TStageObject(TStageObjectTree *tree, TStageObjectId id)
: m_tree(tree)
, m_id(id)
, m_parent(0)
, m_name("")
, m_isOpened(false)
, m_spline(0)
, m_status(XY)
, m_x(new TDoubleParam())
, m_y(new TDoubleParam())
, m_z(new TDoubleParam())
, m_so(new TDoubleParam())
, m_rot(new TDoubleParam())
, m_scalex(new TDoubleParam(1.0))
, m_scaley(new TDoubleParam(1.0))
, m_scale(new TDoubleParam(1.0))
, m_posPath(new TDoubleParam())
, m_shearx(new TDoubleParam())
, m_sheary(new TDoubleParam())
, m_center()
, m_offset()
, m_cycleEnabled(false)
, m_handle("B")
, m_parentHandle("B")
, m_dagNodePos(TConst::nowhere)
, m_camera(0)
, m_locked(false)
, m_noScaleZ(0)
, m_pinnedRangeSet(0)
, m_ikflag(0)
, m_groupSelector(-1) {
// NOTA: per le unita' di misura controlla anche tooloptions.cpp
m_x->setName("W_EW");
m_x->setMeasureName("length.x");
m_x->addObserver(this);
m_y->setName("W_NS");
m_y->setMeasureName("length.y");
m_y->addObserver(this);
m_z->setName("W_Z");
m_z->setMeasureName(id.isCamera() ? "zdepth.cam" : "zdepth");
m_z->addObserver(this);
m_so->setName("W_SO");
m_so->addObserver(this);
m_rot->setName("W_Rotation");
m_rot->setMeasureName("angle");
m_rot->addObserver(this);
m_scalex->setName("W_ScaleH");
m_scalex->setMeasureName("scale");
m_scalex->addObserver(this);
m_scaley->setName("W_ScaleV");
m_scaley->setMeasureName("scale");
m_scaley->addObserver(this);
m_scale->setName("W_Scale");
m_scale->setMeasureName("scale");
m_scale->addObserver(this);
m_shearx->setName("W_ShearH");
m_shearx->setMeasureName("shear");
m_shearx->addObserver(this);
m_sheary->setName("W_ShearV");
m_sheary->setMeasureName("shear");
m_sheary->addObserver(this);
m_posPath->setName("posPath");
m_posPath->setMeasureName("percentage2");
m_posPath->addObserver(this);
m_tree->setGrammar(m_x);
m_tree->setGrammar(m_y);
m_tree->setGrammar(m_z);
m_tree->setGrammar(m_so);
m_tree->setGrammar(m_rot);
m_tree->setGrammar(m_scalex);
m_tree->setGrammar(m_scaley);
m_tree->setGrammar(m_scale);
m_tree->setGrammar(m_shearx);
m_tree->setGrammar(m_sheary);
m_tree->setGrammar(m_posPath);
if (id.isCamera()) m_camera = new TCamera();
m_pinnedRangeSet = new TPinnedRangeSet();
}
//-----------------------------------------------------------------------------
TStageObject::~TStageObject() {
if (m_spline) {
if (m_posPath) m_spline->removeParam(m_posPath.getPointer());
m_spline->release();
}
if (m_x) m_x->removeObserver(this);
if (m_y) m_y->removeObserver(this);
if (m_z) m_z->removeObserver(this);
if (m_so) m_so->removeObserver(this);
if (m_rot) m_rot->removeObserver(this);
if (m_scalex) m_scalex->removeObserver(this);
if (m_scaley) m_scaley->removeObserver(this);
if (m_scale) m_scale->removeObserver(this);
if (m_shearx) m_shearx->removeObserver(this);
if (m_sheary) m_sheary->removeObserver(this);
if (m_posPath) m_posPath->removeObserver(this);
if (m_skeletonDeformation) {
PlasticDeformerStorage::instance()->releaseDeformationData(
m_skeletonDeformation.getPointer());
m_skeletonDeformation->removeObserver(this);
}
delete m_camera;
delete m_pinnedRangeSet;
}
//-----------------------------------------------------------------------------
const TStageObject::LazyData &TStageObject::lazyData() const {
typedef tcg::function<void (TStageObject::*)(LazyData &) const,
&TStageObject::update>
Func;
return m_lazyData(tcg::bind1st(Func(), *this));
}
//-----------------------------------------------------------------------------
TStageObject::LazyData &TStageObject::lazyData() {
return const_cast<LazyData &>(
static_cast<const TStageObject &>(*this).lazyData());
}
//-----------------------------------------------------------------------------
void TStageObject::update(LazyData &ld) const {
if (ld.m_time >= 0.0) invalidate(ld);
updateKeyframes(ld);
}
//-----------------------------------------------------------------------------
void TStageObject::onChange(const class TParamChange &c) {
// Rationale: Since a stage object holds many parameters (or par references),
// it may receive multiple notifications at the same time - but it should
// actually refresh its data only ONCE for 'em all.
// Even worse, the stage object may be notified for EACH touched key of just
// one of its parameters. This means this function gets called A LOT.
// Thus, we're just SCHEDULING for a data refresh. The actual refresh happens
// whenever the scheduled datas are accessed.
if (c.m_keyframeChanged)
m_lazyData.invalidate(); // Both invalidate placement AND keyframes
else
invalidate(); // Invalidate placement only
}
//-----------------------------------------------------------------------------
TStageObjectId TStageObject::getId() const { return m_id; }
//-----------------------------------------------------------------------------
double TStageObject::paramsTime(double t) const {
const KeyframeMap &keyframes = lazyData().m_keyframes;
if (m_cycleEnabled && keyframes.size() > 1) {
int firstT = keyframes.begin()->first;
if (t <= firstT) return t;
int lastT = keyframes.rbegin()->first;
int tRange = lastT - firstT + 1;
assert(tRange > 0);
int it = tfloor(t);
double ft = t - it;
return firstT + ((it - firstT) % tRange) + ft;
} else
return t;
}
//-----------------------------------------------------------------------------
void TStageObject::setName(const std::string &name) {
m_name = (name == m_id.toString()) ? std::string() : name;
}
//-----------------------------------------------------------------------------
string TStageObject::getName() const {
if (m_name != "") return m_name;
if (!m_id.isColumn()) return m_id.toString();
return "Col" + std::to_string(m_id.getIndex() + 1);
}
//-----------------------------------------------------------------------------
string TStageObject::getFullName() const {
string name = getName();
if (m_id.isColumn()) {
if (name.find("Col") == 0 && name.length() > 3 &&
name.find_first_not_of("0123456789", 3) == string::npos)
return name;
else
return name + " (" + std::to_string(m_id.getIndex() + 1) + ")";
} else
return name;
}
//-----------------------------------------------------------------------------
void TStageObject::setParent(const TStageObjectId &parentId) {
assert(m_tree);
TStageObject *newParent = 0;
if (parentId != TStageObjectId::NoneId) {
newParent = m_tree->getStageObject(parentId);
assert(newParent);
// cerco di evitare i cicli
TStageObject *p = newParent;
while (p->m_parent) {
if (p->m_parent->getId() == getId()) return;
p = p->m_parent;
}
} else {
if (!m_id.isCamera() && !m_id.isTable()) {
newParent = m_tree->getStageObject(TStageObjectId::TableId);
assert(newParent);
}
}
if (m_parent) m_parent->m_children.remove(this);
m_parent = newParent;
if (m_parent) m_parent->m_children.insert(m_parent->m_children.end(), this);
invalidate();
#ifndef NDEBUG
if (m_id.isCamera()) {
} else if (m_id.isTable()) {
assert(m_parent == 0);
} else if (m_id.isColumn()) {
assert(m_parent &&
(m_parent->m_id.isTable() || m_parent->m_id.isColumn() ||
m_parent->m_id.isPegbar() || m_parent->m_id.isCamera()));
} else if (m_id.isPegbar()) {
assert(m_parent && (m_parent->m_id.isTable() || m_parent->m_id.isCamera() ||
m_parent->m_id.isPegbar()));
} else {
assert(0);
}
#endif
}
//-----------------------------------------------------------------------------
void TStageObject::detachFromParent() {
if (m_parent) m_parent->m_children.remove(this);
m_parent = 0;
invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::attachChildrenToParent(const TStageObjectId &parentId) {
while (!m_children.empty()) {
TStageObject *son = *m_children.begin();
if (son) son->setParent(parentId);
}
}
//-----------------------------------------------------------------------------
TStageObjectId TStageObject::getParent() const {
return m_parent ? m_parent->m_id : TStageObjectId();
}
//-----------------------------------------------------------------------------
bool TStageObject::isAncestor(TStageObject *stageObject) const {
if (!stageObject) return false;
if (stageObject == (TStageObject *)m_parent)
return true;
else if (m_parent == 0)
return false;
else
return m_parent->isAncestor(stageObject);
}
//-----------------------------------------------------------------------------
TStageObjectSpline *TStageObject::getSpline() const { return m_spline; }
//-----------------------------------------------------------------------------
void TStageObject::doSetSpline(TStageObjectSpline *spline) {
TDoubleParam *param = m_posPath.getPointer();
bool uppkEnabled = isUppkEnabled();
if (!spline) {
if (uppkEnabled && m_spline) m_spline->removeParam(param);
if (m_spline) m_spline->release();
m_spline = 0;
enablePath(false);
} else {
if (m_spline != spline) {
if (m_spline && uppkEnabled) m_spline->removeParam(param);
if (m_spline) m_spline->release();
m_spline = spline;
m_spline->addRef();
if (m_spline && uppkEnabled) m_spline->addParam(param);
}
if (!isPathEnabled()) enablePath(true);
}
}
//-----------------------------------------------------------------------------
void TStageObject::setSpline(TStageObjectSpline *spline) {
doSetSpline(spline);
TNotifier::instance()->notify(TXsheetChange());
TNotifier::instance()->notify(TStageChange());
invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::setStatus(Status status) {
if (m_status == status) return;
bool oldPathEnabled = isPathEnabled();
bool oldUppkEnabled = isUppkEnabled();
m_status = status;
bool pathEnabled = isPathEnabled();
bool uppkEnabled = isUppkEnabled();
if (pathEnabled) {
if (!m_spline)
doSetSpline(m_tree->createSpline());
else if (oldUppkEnabled != uppkEnabled) {
TDoubleParam *param = getParam(T_Path);
if (uppkEnabled)
m_spline->addParam(param);
else
m_spline->removeParam(param);
}
} else {
doSetSpline(0);
}
invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::enableAim(bool enabled) {
setStatus((Status)((m_status & ~STATUS_MASK) | (enabled ? PATH_AIM : PATH)));
}
//-----------------------------------------------------------------------------
void TStageObject::enablePath(bool enabled) {
if (isPathEnabled() != enabled) setStatus(enabled ? PATH : XY);
}
//-----------------------------------------------------------------------------
void TStageObject::enableUppk(bool enabled) {
assert(isPathEnabled());
setStatus((Status)((m_status & ~UPPK_MASK) | (enabled ? UPPK_MASK : 0)));
}
//-----------------------------------------------------------------------------
void TStageObject::setCenter(double frame, const TPointD ¢er) {
TPointD c = center - getHandlePos(m_handle, (int)frame);
TAffine aff = computeLocalPlacement(frame);
TPointD delta = aff * c - aff * m_center;
m_center = c;
m_offset += delta;
invalidate();
}
//-----------------------------------------------------------------------------
TPointD TStageObject::getCenter(double frame) const {
return m_center + getHandlePos(m_handle, (int)frame);
}
//-----------------------------------------------------------------------------
TPointD TStageObject::getOffset() const { return m_offset; }
//-----------------------------------------------------------------------------
void TStageObject::setOffset(const TPointD &off) {
m_offset = off;
invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::getCenterAndOffset(TPointD ¢er, TPointD &offset) const {
center = m_center;
offset = m_offset;
}
//-----------------------------------------------------------------------------
void TStageObject::setCenterAndOffset(const TPointD ¢er,
const TPointD &offset) {
m_center = center;
m_offset = offset;
invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::setHandle(const std::string &s) {
m_handle = s;
if (!s.empty() && s[0] == 'H') m_offset = m_center = TPointD();
invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::setParentHandle(const std::string &s) {
m_parentHandle = s;
invalidate();
}
//-----------------------------------------------------------------------------
TPointD TStageObject::getHandlePos(string handle, int row) const {
double unit = 8;
if (handle == "")
return TPointD();
else if (handle.length() > 1 && handle[0] == 'H')
return m_tree->getHandlePos(m_id, handle, row);
else if (handle.length() == 1 && 'A' <= handle[0] && handle[0] <= 'Z')
return TPointD(unit * (handle[0] - 'B'), 0);
else if (handle.length() == 1 && 'a' <= handle[0] && handle[0] <= 'z')
return TPointD(0.5 * unit * (handle[0] - 'b'), 0);
else
return TPointD(0, 0);
}
//-----------------------------------------------------------------------------
bool TStageObject::isKeyframe(int frame) const {
const KeyframeMap &keyframes = lazyData().m_keyframes;
return keyframes.find(frame) != keyframes.end();
}
//-----------------------------------------------------------------------------
bool TStageObject::is52FullKeyframe(int frame) const {
return m_rot->isKeyframe(frame) && m_x->isKeyframe(frame) &&
m_y->isKeyframe(frame) && m_z->isKeyframe(frame) &&
m_posPath->isKeyframe(frame) && m_scalex->isKeyframe(frame) &&
m_scaley->isKeyframe(frame) && m_shearx->isKeyframe(frame) &&
m_sheary->isKeyframe(frame);
}
//-----------------------------------------------------------------------------
bool TStageObject::isFullKeyframe(int frame) const {
return m_rot->isKeyframe(frame) && m_x->isKeyframe(frame) &&
m_y->isKeyframe(frame) && m_z->isKeyframe(frame) &&
m_so->isKeyframe(frame) && m_posPath->isKeyframe(frame) &&
m_scalex->isKeyframe(frame) && m_scaley->isKeyframe(frame) &&
m_scale->isKeyframe(frame) && m_shearx->isKeyframe(frame) &&
m_sheary->isKeyframe(frame);
}
//-----------------------------------------------------------------------------
TStageObject::Keyframe TStageObject::getKeyframe(int frame) const {
const KeyframeMap &keyframes = lazyData().m_keyframes;
std::map<int, TStageObject::Keyframe>::const_iterator it;
it = keyframes.find(frame);
if (it == keyframes.end()) {
TStageObject::Keyframe k;
k.m_channels[TStageObject::T_Angle] = m_rot->getValue(frame);
k.m_channels[TStageObject::T_X] = m_x->getValue(frame);
k.m_channels[TStageObject::T_Y] = m_y->getValue(frame);
k.m_channels[TStageObject::T_Z] = m_z->getValue(frame);
k.m_channels[TStageObject::T_SO] = m_so->getValue(frame);
k.m_channels[TStageObject::T_ScaleX] = m_scalex->getValue(frame);
k.m_channels[TStageObject::T_ScaleY] = m_scaley->getValue(frame);
k.m_channels[TStageObject::T_Scale] = m_scale->getValue(frame);
k.m_channels[TStageObject::T_Path] = m_posPath->getValue(frame);
k.m_channels[TStageObject::T_ShearX] = m_shearx->getValue(frame);
k.m_channels[TStageObject::T_ShearY] = m_sheary->getValue(frame);
if (m_skeletonDeformation)
m_skeletonDeformation->getKeyframeAt(frame, k.m_skeletonKeyframe);
k.m_isKeyframe = false;
return k;
} else
return it->second;
}
//-----------------------------------------------------------------------------
void TStageObject::setKeyframeWithoutUndo(int frame,
const TStageObject::Keyframe &k) {
KeyframeMap &keyframes = lazyData().m_keyframes;
bool keyWasSet = false;
keyWasSet = ::setKeyframe(m_rot, k.m_channels[TStageObject::T_Angle], frame,
k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_x, k.m_channels[TStageObject::T_X], frame,
k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_y, k.m_channels[TStageObject::T_Y], frame,
k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_z, k.m_channels[TStageObject::T_Z], frame,
k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_so, k.m_channels[TStageObject::T_SO], frame,
k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_posPath, k.m_channels[TStageObject::T_Path],
frame, k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_scalex, k.m_channels[TStageObject::T_ScaleX],
frame, k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_scaley, k.m_channels[TStageObject::T_ScaleY],
frame, k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_scale, k.m_channels[TStageObject::T_Scale], frame,
k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_shearx, k.m_channels[TStageObject::T_ShearX],
frame, k.m_easeIn, k.m_easeOut) ||
keyWasSet;
keyWasSet = ::setKeyframe(m_sheary, k.m_channels[TStageObject::T_ShearY],
frame, k.m_easeIn, k.m_easeOut) ||
keyWasSet;
if (m_skeletonDeformation)
keyWasSet = m_skeletonDeformation->setKeyframe(k.m_skeletonKeyframe, frame,
k.m_easeIn, k.m_easeOut) ||
keyWasSet;
if (keyWasSet) keyframes[frame] = k;
invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::setKeyframeWithoutUndo(int frame) {
if (isFullKeyframe(frame)) return;
setkey(m_x, frame);
setkey(m_y, frame);
setkey(m_z, frame);
setkey(m_so, frame);
setkey(m_posPath, frame);
setkey(m_rot, frame);
setkey(m_scalex, frame);
setkey(m_scaley, frame);
setkey(m_scale, frame);
setkey(m_shearx, frame);
setkey(m_sheary, frame);
// Plastic keys are currently not *created* by xsheet commands.
/*if(m_skeletonDeformation)
{
const PlasticSkeleton* skeleton = m_skeletonDeformation->skeleton();
const tcg::list<PlasticSkeleton::vertex_type>& vertices = skeleton->vertices();
tcg::list<PlasticSkeleton::vertex_type>::const_iterator vt,
vEnd(vertices.end());
for(vt = vertices.begin(); vt != vertices.end(); ++vt)
{
SkVD* vd = m_skeletonDeformation->vertexDeformation(vt->name());
assert(vd);
for(int p=0; p<SkVD::PARAMS_COUNT; ++p)
setkey(vd->m_params[p], frame);
}
}*/
}
//-----------------------------------------------------------------------------
void TStageObject::removeKeyframeWithoutUndo(int frame) {
KeyframeMap &keyframes = lazyData().m_keyframes;
double &time = lazyData().m_time;
if (!isKeyframe(frame)) return;
keyframes.erase(frame);
m_rot->deleteKeyframe(frame);
m_x->deleteKeyframe(frame);
m_y->deleteKeyframe(frame);
m_z->deleteKeyframe(frame);
m_so->deleteKeyframe(frame);
m_scalex->deleteKeyframe(frame);
m_scaley->deleteKeyframe(frame);
m_scale->deleteKeyframe(frame);
m_posPath->deleteKeyframe(frame);
m_shearx->deleteKeyframe(frame);
m_sheary->deleteKeyframe(frame);
if (m_skeletonDeformation) m_skeletonDeformation->deleteKeyframe(frame);
time = -1;
if ((int)keyframes.size() < 2) m_cycleEnabled = false;
invalidate();
}
//-----------------------------------------------------------------------------
bool TStageObject::moveKeyframe(int dst, int src) {
assert(dst != src);
if (isKeyframe(dst) || !isKeyframe(src)) return false;
setKeyframeWithoutUndo(dst, getKeyframe(src));
removeKeyframeWithoutUndo(src);
assert(isKeyframe(dst));
assert(!isKeyframe(src));
invalidate();
return true;
}
//-----------------------------------------------------------------------------
bool TStageObject::canMoveKeyframes(std::set<int> &frames, int delta) {
if (delta == 0) return false;
std::set<int>::iterator it;
for (it = frames.begin(); it != frames.end(); ++it) {
int f = *it;
if (!isKeyframe(f)) return false;
f += delta;
if (f < 0) return false;
if (frames.find(f) == frames.end() && isKeyframe(f)) return false;
}
return true;
}
//-----------------------------------------------------------------------------
bool TStageObject::moveKeyframes(std::set<int> &frames, int delta) {
if (!canMoveKeyframes(frames, delta)) return false;
if (delta < 0) {
std::set<int>::iterator it;
for (it = frames.begin(); it != frames.end(); ++it) {
bool ret = moveKeyframe(*it + delta, *it);
assert(ret);
}
} else {
std::set<int>::reverse_iterator ti;
for (ti = frames.rbegin(); ti != frames.rend(); ++ti) {
bool ret = moveKeyframe(*ti + delta, *ti);
assert(ret);
}
}
return true;
}
//-----------------------------------------------------------------------------
void TStageObject::getKeyframes(KeyframeMap &keyframes) const {
keyframes = lazyData().m_keyframes;
}
//-----------------------------------------------------------------------------
bool TStageObject::getKeyframeRange(int &r0, int &r1) const {
const KeyframeMap &keyframes = lazyData().m_keyframes;
if (keyframes.empty()) {
r0 = 0;
r1 = -1;
return false;
}
r0 = keyframes.begin()->first;
r1 = keyframes.rbegin()->first;
return true;
}
//-----------------------------------------------------------------------------
bool TStageObject::getKeyframeSpan(int row, int &r0, double &ease0, int &r1,
double &ease1) const {
const KeyframeMap &keyframes = lazyData().m_keyframes;
KeyframeMap::const_iterator it = keyframes.lower_bound(row);
if (it == keyframes.end() || it == keyframes.begin() || it->first == row) {
r0 = 0;
r1 = -1;
ease0 = ease1 = 0;
return false;
}
r1 = it->first;
ease1 = it->second.m_easeIn;
--it;
r0 = it->first;
ease0 = it->second.m_easeOut;
return true;
}
//-----------------------------------------------------------------------------
void TStageObject::setParam(Channel type, double frame, double val) {
assert(0);
}
//-----------------------------------------------------------------------------
double TStageObject::getParam(Channel type, double frame) const {
switch (type) {
case T_Angle:
return m_rot->getValue(frame);
case T_X:
return m_x->getValue(frame);
case T_Y:
return m_y->getValue(frame);
case T_Z:
return m_z->getValue(frame);
case T_SO:
return m_so->getValue(frame);
case T_ScaleX:
return m_scalex->getValue(frame);
case T_ScaleY:
return m_scaley->getValue(frame);
case T_Scale:
return m_scale->getValue(frame);
case T_Path:
return m_posPath->getValue(frame);
case T_ShearX:
return m_shearx->getValue(frame);
case T_ShearY:
return m_sheary->getValue(frame);
default:
assert(false);
return 0;
}
}
//-----------------------------------------------------------------------------
TDoubleParam *TStageObject::getParam(Channel channel) const {
switch (channel) {
case T_X:
return m_x.getPointer();
case T_Y:
return m_y.getPointer();
case T_Z:
return m_z.getPointer();
case T_SO:
return m_so.getPointer();
case T_Angle:
return m_rot.getPointer();
case T_Path:
return m_posPath.getPointer();
case T_ScaleX:
return m_scalex.getPointer();
case T_ScaleY:
return m_scaley.getPointer();
case T_Scale:
return m_scale.getPointer();
case T_ShearX:
return m_shearx.getPointer();
case T_ShearY:
return m_sheary.getPointer();
default:
return 0;
}
}
//-----------------------------------------------------------------------------
PlasticSkeletonDeformationP TStageObject::getPlasticSkeletonDeformation()
const {
return m_skeletonDeformation;
}
//-----------------------------------------------------------------------------
void TStageObject::setPlasticSkeletonDeformation(
const PlasticSkeletonDeformationP &sd) {
if (m_skeletonDeformation == sd) return;
if (m_skeletonDeformation) {
PlasticDeformerStorage::instance()->releaseDeformationData(
m_skeletonDeformation.getPointer());
m_skeletonDeformation->setGrammar(0);
m_skeletonDeformation->removeObserver(this);
}
m_skeletonDeformation = sd;
if (m_skeletonDeformation) {
m_skeletonDeformation->setGrammar(m_tree->getGrammar());
m_skeletonDeformation->addObserver(this);
}
}
//-----------------------------------------------------------------------------
TStageObject *TStageObject::clone() {
assert(m_tree);
TStageObjectId pegId = getId();
TStageObjectId newPegId = TStageObjectId::NoneId;
int newIndex = pegId.getIndex();
if (pegId.isCamera()) {
while ((m_tree->getStageObject(TStageObjectId::CameraId(newIndex), false) !=
0L) ||
(pegId.getIndex() == newIndex))
++newIndex;
newPegId = TStageObjectId::CameraId(newIndex);
} else if (pegId.isColumn()) {
while ((m_tree->getStageObject(TStageObjectId::ColumnId(newIndex), false) !=
0L) ||
(pegId.getIndex() == newIndex))
++newIndex;
newPegId = TStageObjectId::ColumnId(newIndex);
} else if (pegId.isPegbar()) {
while ((m_tree->getStageObject(TStageObjectId::PegbarId(newIndex), false) !=
0L) ||
(pegId.getIndex() == newIndex))
++newIndex;
newPegId = TStageObjectId::PegbarId(newIndex);
} else {
assert(!"Unknown stage object type");
return 0L;
}
assert(newPegId != TStageObjectId::NoneId);
assert(newIndex >= 0);
assert(newPegId.getIndex() != pegId.getIndex());
// aggiunge lo stage object clonato nel stage object tree
TStageObject *clonedPeg = m_tree->getStageObject(newPegId, true);
TStageObject *cloned = clonedPeg;
assert(cloned);
assert(cloned->m_tree == m_tree);
KeyframeMap &keyframes = lazyData().m_keyframes;
KeyframeMap &clonedKeyframes = cloned->lazyData().m_keyframes;
std::map<int, TStageObject::Keyframe>::iterator itKf = keyframes.begin();
for (; itKf != keyframes.end(); ++itKf) {
clonedKeyframes.insert(make_pair(itKf->first, itKf->second));
}
cloned->m_cycleEnabled = m_cycleEnabled;
cloned->lazyData().m_time = lazyData().m_time;
cloned->m_localPlacement = m_localPlacement;
cloned->m_absPlacement = m_absPlacement;
cloned->m_status = m_status;
cloned->doSetSpline(m_spline);
cloned->m_x = static_cast<TDoubleParam *>(m_x->clone());
cloned->m_y = static_cast<TDoubleParam *>(m_y->clone());
cloned->m_z = static_cast<TDoubleParam *>(m_z->clone());
cloned->m_so = static_cast<TDoubleParam *>(m_so->clone());
cloned->m_rot = static_cast<TDoubleParam *>(m_rot->clone());
cloned->m_scalex = static_cast<TDoubleParam *>(m_scalex->clone());
cloned->m_scaley = static_cast<TDoubleParam *>(m_scaley->clone());
cloned->m_scale = static_cast<TDoubleParam *>(m_scale->clone());
cloned->m_posPath = static_cast<TDoubleParam *>(m_posPath->clone());
cloned->m_shearx = static_cast<TDoubleParam *>(m_shearx->clone());
cloned->m_sheary = static_cast<TDoubleParam *>(m_sheary->clone());
if (m_skeletonDeformation)
cloned->m_skeletonDeformation =
new PlasticSkeletonDeformation(*m_skeletonDeformation);
cloned->m_noScaleZ = m_noScaleZ;
cloned->m_center = m_center;
cloned->m_offset = m_offset;
cloned->m_name = m_name;
cloned->m_dagNodePos = m_dagNodePos;
return cloned;
}
//-----------------------------------------------------------------------------
bool TStageObject::isCycleEnabled() const { return m_cycleEnabled; }
//-----------------------------------------------------------------------------
void TStageObject::enableCycle(bool on) { m_cycleEnabled = on; }
//-----------------------------------------------------------------------------
TStageObject *TStageObject::findRoot(double frame) const {
if (!m_parent) return NULL;
TStageObject *parent = m_parent;
while (parent->m_parent && parent->lazyData().m_time != frame)
parent = parent->m_parent;
return parent;
}
//-----------------------------------------------------------------------------
TStageObject *TStageObject::getPinnedDescendant(int frame) {
if (getPinnedRangeSet()->isPinned(frame)) return this;
for (list<TStageObject *>::iterator it = m_children.begin();
it != m_children.end(); ++it) {
TStageObject *child = *it;
if (child->getPinnedRangeSet()->isPinned(frame)) return child;
TStageObject *pinned = child->getPinnedDescendant(frame);
if (pinned) return pinned;
}
return 0;
}
//-----------------------------------------------------------------------------
TAffine TStageObject::computeIkRootOffset(int t) {
if (m_ikflag > 0) return TAffine();
// get normal movement (which will be left-multiplied to the IK-part)
setStatus(XY);
invalidate();
TAffine basePlacement = getPlacement(t);
setStatus(IK);
invalidate();
TStageObject *foot = getPinnedDescendant(t);
if (foot == 0) {
foot = this;
setStatus(XY);
}
m_ikflag++;
invalidate();
TAffine placement = foot->getPlacement(t).inv();
int t0 = 0;
const TPinnedRangeSet::Range *range = foot->getPinnedRangeSet()->getRange(t);
if (range) t0 = range->first;
while (t0 > 0) {
TStageObject *oldFoot = getPinnedDescendant(t0 - 1);
if (oldFoot == 0) break; // oldFoot = this;
assert(oldFoot != foot);
TAffine changeFootAff =
oldFoot->getPlacement(t0).inv() * foot->getPlacement(t0);
placement = changeFootAff * placement;
foot = oldFoot;
range = oldFoot->getPinnedRangeSet()->getRange(t0 - 1);
t0 = 0;
if (range) t0 = range->first;
}
m_ikflag--;
invalidate();
placement = foot->getPinnedRangeSet()->getPlacement() * placement;
return basePlacement * placement;
}
//-----------------------------------------------------------------------------
/*
inline double getPosPathAtCP(const TStroke* path, int cpIndex)
{
int n = path->getControlPointCount();
return path->getLengthAtControlPoint(tcrop(cpIndex*4,0,n-1));
}
//-----------------------------------------------------------------------------
*/
TAffine TStageObject::computeLocalPlacement(double frame) {
frame = paramsTime(frame);
if (lazyData().m_time != frame) {
double sc = m_scale->getValue(frame);
double sx = sc * m_scalex->getValue(frame);
double sy = sc * m_scaley->getValue(frame);
double ang = m_rot->getValue(frame);
double shx = m_shearx->getValue(frame);
double shy = m_sheary->getValue(frame);
TPointD position;
double posPath = 0;
switch (m_status & STATUS_MASK) {
case XY:
position.x = m_x->getValue(frame) * Stage::inch;
position.y = m_y->getValue(frame) * Stage::inch;
break;
case PATH:
assert(m_spline);
assert(m_spline->getStroke());
posPath = m_spline->getStroke()->getLength() *
m_posPath->getValue(frame) * 0.01;
position = m_spline->getStroke()->getPointAtLength(posPath);
break;
case PATH_AIM:
assert(m_spline);
assert(m_spline->getStroke());
posPath = m_spline->getStroke()->getLength() *
m_posPath->getValue(frame) * 0.01;
position = m_spline->getStroke()->getPointAtLength(posPath);
if (m_spline->getStroke()->getLength() > 1e-5)
ang +=
rad2degree(atan(m_spline->getStroke()->getSpeedAtLength(posPath)));
break;
case IK:
return computeIkRootOffset(frame);
break;
}
TAffine shear(1, shx, 0, shy, 1, 0);
TPointD handlePos = getHandlePos(m_handle, (int)frame);
TPointD center = (m_center + handlePos) * Stage::inch;
TPointD pos = m_offset;
if (m_parent) pos += m_parent->getHandlePos(m_parentHandle, (int)frame);
pos = pos * Stage::inch + position;
m_localPlacement = TTranslation(pos) * makeRotation(ang) * shear *
TScale(sx, sy) * TTranslation(-center);
}
return m_localPlacement;
}
//-----------------------------------------------------------------------------
TAffine TStageObject::getPlacement(double t) {
double &time = lazyData().m_time;
if (time == t) return m_absPlacement;
if (time != -1) {
if (!m_parent)
invalidate();
else
findRoot(t)->invalidate();
}
double tt = paramsTime(t);
TAffine place;
if (m_parent)
place = m_parent->getPlacement(t) * computeLocalPlacement(tt);
else
place = computeLocalPlacement(tt);
m_absPlacement = place;
time = t;
return place;
}
//-----------------------------------------------------------------------------
double TStageObject::getZ(double t) {
double tt = paramsTime(t);
if (m_parent)
return m_parent->getZ(t) + m_z->getValue(tt);
else
return m_z->getValue(tt);
}
//-----------------------------------------------------------------------------
double TStageObject::getSO(double t) {
double tt = paramsTime(t);
if (m_parent)
return m_parent->getSO(t) + m_so->getValue(tt);
else
return m_so->getValue(tt);
}
//-----------------------------------------------------------------------------
double TStageObject::getGlobalNoScaleZ() const {
return m_parent ? m_parent->getGlobalNoScaleZ() + m_noScaleZ : m_noScaleZ;
}
//-----------------------------------------------------------------------------
double TStageObject::getNoScaleZ() const { return m_noScaleZ; }
//-----------------------------------------------------------------------------
void TStageObject::setNoScaleZ(double noScaleZ) {
if (m_noScaleZ == noScaleZ) return;
m_noScaleZ = noScaleZ;
invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::invalidate(LazyData &ld) const {
// Since this is an invalidation function, access to the invalidable data
// should
// not trigger a data update
ld.m_time = -1;
std::list<TStageObject *>::const_iterator cit = m_children.begin();
for (; cit != m_children.end(); ++cit) (*cit)->invalidate();
}
//-----------------------------------------------------------------------------
void TStageObject::invalidate() { invalidate(m_lazyData(tcg::direct_access)); }
//-----------------------------------------------------------------------------
TAffine TStageObject::getParentPlacement(double t) const {
return m_parent ? m_parent->getPlacement(t) : TAffine();
}
//-----------------------------------------------------------------------------
// Rebuild the keyframes map
void TStageObject::updateKeyframes(LazyData &ld) const {
KeyframeMap &keyframes = ld.m_keyframes;
// Clear the map
keyframes.clear();
// Gather all sensible parameters in a vector
std::vector<TDoubleParam *> params;
if (m_status == XY) {
params.push_back(m_x.getPointer());
params.push_back(m_y.getPointer());
} else {
params.push_back(m_posPath.getPointer());
}
params.push_back(m_z.getPointer());
params.push_back(m_so.getPointer());
params.push_back(m_rot.getPointer());
params.push_back(m_scalex.getPointer());
params.push_back(m_scaley.getPointer());
params.push_back(m_scale.getPointer());
params.push_back(m_shearx.getPointer());
params.push_back(m_sheary.getPointer());
if (m_skeletonDeformation) {
params.push_back(m_skeletonDeformation->skeletonIdsParam().getPointer());
// Add Plastic Skeleton params too
SkD::vd_iterator vdt, vdEnd;
m_skeletonDeformation->vertexDeformations(vdt, vdEnd);
for (; vdt != vdEnd; ++vdt) {
const std::pair<const QString *, SkVD *> &vd = *vdt;
for (int p = 0; p < SkVD::PARAMS_COUNT; ++p)
params.push_back(vd.second->m_params[p].getPointer());
}
}
// Scan each parameter for a key frame - add each in a set
std::set<int> frames;
int p, pCount = params.size();
for (p = 0; p < pCount; ++p) {
TDoubleParam *param = params[p];
int k, kCount = param->getKeyframeCount();
for (k = 0; k < kCount; ++k) {
const TDoubleKeyframe &kf = param->getKeyframe(k);
frames.insert((int)kf.m_frame);
}
}
// Traverse said set and build a TStageObject keyframe for each found instant
std::set<int>::iterator ft, fEnd(frames.end());
for (ft = frames.begin(); ft != fEnd; ++ft) {
int f = *ft;
// Add values
TStageObject::Keyframe stageKf;
stageKf.m_channels[TStageObject::T_Angle] = m_rot->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_X] = m_x->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_Y] = m_y->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_Z] = m_z->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_SO] = m_so->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_ScaleX] = m_scalex->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_ScaleY] = m_scaley->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_Scale] = m_scale->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_Path] = m_posPath->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_ShearX] = m_shearx->getKeyframeAt(f);
stageKf.m_channels[TStageObject::T_ShearY] = m_sheary->getKeyframeAt(f);
if (m_skeletonDeformation)
m_skeletonDeformation->getKeyframeAt(f, stageKf.m_skeletonKeyframe);
stageKf.m_isKeyframe = true;
// Build the stage keyframe's global ease factors
stageKf.m_easeIn = -1;
stageKf.m_easeOut = -1;
TDoubleKeyframe::Type type = TDoubleKeyframe::None;
bool easeOk = true;
// Start from analyzing standard channels
for (int c = 0; easeOk && c < T_ChannelCount; ++c) {
const TDoubleKeyframe &kf = stageKf.m_channels[c];
if (!kf.m_isKeyframe) continue;
easeOk = touchEaseAndCompare(kf, stageKf, type);
}
// Finally, check the skeleton deformation keyframes
const std::map<QString, SkVD::Keyframe> &vdfs =
stageKf.m_skeletonKeyframe.m_vertexKeyframes;
std::map<QString, SkVD::Keyframe>::const_iterator vdft, vdfEnd(vdfs.end());
for (vdft = vdfs.begin(); easeOk && vdft != vdfEnd; ++vdft) {
for (int p = 0; p < SkVD::PARAMS_COUNT; ++p) {
const TDoubleKeyframe &kf = vdft->second.m_keyframes[p];
if (!kf.m_isKeyframe) continue;
easeOk = touchEaseAndCompare(kf, stageKf, type);
}
}
keyframes[f] = stageKf;
}
}
//-----------------------------------------------------------------------------
void TStageObject::updateKeyframes() {
return updateKeyframes(m_lazyData(tcg::direct_access));
}
//-----------------------------------------------------------------------------
void TStageObject::saveData(TOStream &os) {
TStageObjectId parentId = getParent();
std::map<std::string, string> attr;
attr["id"] = parentId.toString();
attr["handle"] = m_handle;
attr["parentHandle"] = m_parentHandle;
os.openChild("parent", attr);
os.closeChild();
if (m_name != "") os.child("name") << m_name;
os.child("isOpened") << (int)m_isOpened;
if (isGrouped()) {
os.openChild("groupIds");
int i;
for (i = 0; i < m_groupId.size(); i++) os << m_groupId[i];
os.closeChild();
os.openChild("groupNames");
for (i = 0; i < m_groupName.size(); i++) os << m_groupName[i];
os.closeChild();
}
m_pinnedRangeSet->saveData(os);
os.child("center") << m_center.x << m_center.y << -m_offset.x << -m_offset.y;
os.child("status") << (int)m_status;
if (m_noScaleZ != 0) os.child("noScaleZ") << m_noScaleZ;
if (m_spline) os.child("splinep") << m_spline;
if (!m_x->isDefault()) os.child("x") << *m_x;
if (!m_y->isDefault()) os.child("y") << *m_y;
if (!m_z->isDefault()) os.child("z") << *m_z;
if (!m_so->isDefault()) os.child("so") << *m_so;
if (!m_scalex->isDefault()) os.child("sx") << *m_scalex;
if (!m_scaley->isDefault()) os.child("sy") << *m_scaley;
if (!m_scale->isDefault()) os.child("sc") << *m_scale;
if (!m_rot->isDefault()) os.child("rot") << *m_rot;
if (!m_posPath->isDefault()) os.child("pos") << *m_posPath;
if (!m_shearx->isDefault()) os.child("shx") << *m_shearx;
if (!m_sheary->isDefault()) os.child("shy") << *m_sheary;
if (m_cycleEnabled) os.child("cycle") << 1;
if (m_skeletonDeformation) os.child("plasticSD") << *m_skeletonDeformation;
os.child("nodePos") << m_dagNodePos.x << m_dagNodePos.y;
if (getId().isCamera()) {
os.openChild("camera");
m_camera->saveData(os);
os.closeChild();
/*TDimensionD size = m_camera->getSize();
TDimension res = m_camera->getRes();
bool isXPrevalence = m_camera->isXPrevalence();
os.child("cameraSize") << size.lx << size.ly;
os.child("cameraRes") << res.lx << res.ly;
os.child("xPrevalence") << (int)isXPrevalence;*/
}
}
//-----------------------------------------------------------------------------
void TStageObject::loadData(TIStream &is) {
VersionNumber tnzVersion = is.getVersion();
string tagName;
QList<int> groupIds;
QList<wstring> groupNames;
KeyframeMap &keyframes = lazyData().m_keyframes;
while (is.matchTag(tagName)) {
if (tagName == "parent") {
string parentIdStr = is.getTagAttribute("id");
string handle = is.getTagAttribute("handle");
string parentHandle = is.getTagAttribute("parentHandle");
if (tnzVersion < VersionNumber(1, 15)) {
handle = convertTo4InchCenterUnits(handle);
parentHandle = convertTo4InchCenterUnits(parentHandle);
}
if (parentIdStr == "") // vecchio formato
is >> parentIdStr;
else {
}
TStageObjectId parentId = toStageObjectId(parentIdStr);
if (m_id != TStageObjectId::NoneId &&
parentId != TStageObjectId::NoneId) {
assert(parentId != m_id);
setParent(parentId);
}
if (handle != "") setHandle(handle);
if (parentHandle != "") setParentHandle(parentHandle);
} else if (tagName == "center") {
is >> m_center.x >> m_center.y >> m_offset.x >> m_offset.y;
m_offset = -m_offset;
} else if (tagName == "name")
is >> m_name;
else if (tagName == "x")
is >> *m_x;
else if (tagName == "y")
is >> *m_y;
else if (tagName == "z")
is >> *m_z;
else if (tagName == "so")
is >> *m_so;
else if (tagName == "rot")
is >> *m_rot;
else if (tagName == "sx")
is >> *m_scalex;
else if (tagName == "sy")
is >> *m_scaley;
else if (tagName == "sc")
is >> *m_scale;
else if (tagName == "shx")
is >> *m_shearx;
else if (tagName == "shy")
is >> *m_sheary;
else if (tagName == "pos")
is >> *m_posPath;
else if (tagName == "posCP") {
TDoubleParam posCP;
is >> posCP;
} // Ghibli 6.2 release. cfr
else if (tagName == "noScaleZ")
is >> m_noScaleZ;
else if (tagName == "isOpened") {
int v = 0;
is >> v;
m_isOpened = (bool)v;
} else if (tagName == "pinnedStatus") {
m_pinnedRangeSet->loadData(is);
} else if (tagName == "status") {
int v = 0;
is >> v;
m_status = (Status)v;
} else if (tagName == "spline") {
TStageObjectSpline *spline = m_tree->createSpline();
is >> *spline;
m_spline = spline;
m_spline->addRef();
} else if (tagName == "splinep") {
TPersist *p = 0;
is >> p;
m_spline = dynamic_cast<TStageObjectSpline *>(p);
m_tree->insertSpline(m_spline);
m_spline->addRef();
} else if (tagName == "cycle") {
int dummy;
is >> dummy;
m_cycleEnabled = true;
} else if (tagName == "nodePos") {
TPointD pos;
is >> pos.x >> pos.y;
m_dagNodePos = updateDagPosition(pos, tnzVersion);
// is >> m_dagNodePos.x >> m_dagNodePos.y;
}
//***** camera parameters till toonz 6.0 ********
else if (tagName == "cameraSize") {
TDimensionD size(0, 0);
is >> size.lx >> size.ly;
if (m_camera) m_camera->setSize(size);
} else if (tagName == "cameraRes") {
TDimension res(0, 0);
is >> res.lx >> res.ly;
if (m_camera) m_camera->setRes(res);
}
//***** camera parameters toonz 6.1 ******** november 2009
else if (tagName == "camera")
m_camera->loadData(is);
else if (tagName == "groupIds") {
int groupId;
while (!is.eos()) {
is >> groupId;
groupIds.push_back(groupId);
}
} else if (tagName == "groupNames") {
wstring groupName;
while (!is.eos()) {
is >> groupName;
groupNames.push_back(groupName);
}
} else if (tagName == "plasticSD") {
PlasticSkeletonDeformation *sd = new PlasticSkeletonDeformation;
is >> *sd;
setPlasticSkeletonDeformation(sd);
} else
throw TException("TStageObject::loadData. unexpected tag: " + tagName);
is.matchEndTag();
}
if (!groupIds.isEmpty()) {
assert(groupIds.size() == groupNames.size());
int i;
for (i = 0; i < groupIds.size(); i++) {
setGroupId(groupIds[i]);
setGroupName(groupNames[i]);
}
}
if (tnzVersion < VersionNumber(1, 13)) {
updateUnit(m_y.getPointer());
updateUnit(m_x.getPointer());
}
if (tnzVersion < VersionNumber(1, 14)) {
double factor = 1.0 / Stage::inch;
m_center = m_center * factor;
m_offset = m_offset * factor;
}
if (tnzVersion < VersionNumber(1, 16) && !keyframes.empty()) {
std::map<int, TStageObject::Keyframe>::iterator itKf = keyframes.begin();
std::set<int> keyframeIndexSet;
for (; itKf != keyframes.end(); itKf++)
if (is52FullKeyframe(itKf->first)) keyframeIndexSet.insert(itKf->first);
std::set<int>::iterator itKfInd = keyframeIndexSet.begin();
for (; itKfInd != keyframeIndexSet.end(); itKfInd++)
setkey(m_scale, *itKfInd);
}
updateKeyframes();
if (m_spline != 0 && isUppkEnabled())
m_spline->addParam(m_posPath.getPointer());
invalidate();
}
//-----------------------------------------------------------------------------
TStageObjectParams *TStageObject::getParams() const {
TStageObjectParams *data = new TStageObjectParams();
data->m_name = m_name;
data->m_center = m_center;
data->m_noScaleZ = m_noScaleZ;
data->m_id = m_id;
data->m_parentId = getParent();
data->m_offset = m_offset;
data->m_status = m_status;
data->m_x = m_x;
data->m_y = m_y;
data->m_z = m_z;
data->m_so = m_so;
data->m_rot = m_rot;
data->m_scalex = m_scalex;
data->m_scaley = m_scaley;
data->m_scale = m_scale;
data->m_posPath = m_posPath;
data->m_shearx = m_shearx;
data->m_sheary = m_sheary;
data->m_skeletonDeformation = m_skeletonDeformation;
data->m_cycleEnabled = m_cycleEnabled;
data->m_spline = m_spline;
data->m_handle = m_handle;
data->m_parentHandle = m_parentHandle;
if (m_pinnedRangeSet) data->m_pinnedRangeSet = m_pinnedRangeSet->clone();
return data;
}
//-----------------------------------------------------------------------------
void TStageObject::assignParams(const TStageObjectParams *src,
bool doParametersClone) {
m_name = src->m_name;
m_center = src->m_center;
m_noScaleZ = src->m_noScaleZ;
m_offset = src->m_offset;
m_status = src->m_status;
if (m_spline) m_spline->release();
m_spline = src->m_spline;
if (m_spline) m_spline->addRef();
if (doParametersClone) {
m_x->copy(src->m_x.getPointer());
m_y->copy(src->m_y.getPointer());
m_z->copy(src->m_z.getPointer());
m_so->copy(src->m_so.getPointer());
m_rot->copy(src->m_rot.getPointer());
m_scalex->copy(src->m_scalex.getPointer());
m_scaley->copy(src->m_scaley.getPointer());
m_scale->copy(src->m_scale.getPointer());
m_posPath->copy(src->m_posPath.getPointer());
m_shearx->copy(src->m_shearx.getPointer());
m_sheary->copy(src->m_sheary.getPointer());
if (src->m_skeletonDeformation)
setPlasticSkeletonDeformation(
new PlasticSkeletonDeformation(*src->m_skeletonDeformation));
} else {
m_x = src->m_x.getPointer();
m_x->addObserver(this);
m_y = src->m_y.getPointer();
m_y->addObserver(this);
m_z = src->m_z.getPointer();
m_z->addObserver(this);
m_so = src->m_so.getPointer();
m_so->addObserver(this);
m_rot = src->m_rot.getPointer();
m_rot->addObserver(this);
m_scalex = src->m_scalex.getPointer();
m_scalex->addObserver(this);
m_scaley = src->m_scaley.getPointer();
m_scaley->addObserver(this);
m_scale = src->m_scale.getPointer();
m_scale->addObserver(this);
m_posPath = src->m_posPath.getPointer();
m_posPath->addObserver(this);
m_shearx = src->m_shearx.getPointer();
m_shearx->addObserver(this);
m_sheary = src->m_sheary.getPointer();
m_sheary->addObserver(this);
m_skeletonDeformation = src->m_skeletonDeformation;
if (m_skeletonDeformation) m_skeletonDeformation->addObserver(this);
}
m_handle = src->m_handle;
m_parentHandle = src->m_parentHandle;
m_cycleEnabled = src->m_cycleEnabled;
if (m_pinnedRangeSet) *m_pinnedRangeSet = *src->m_pinnedRangeSet;
updateKeyframes();
if (m_spline && isUppkEnabled()) m_spline->addParam(m_posPath.getPointer());
invalidate();
}
//-----------------------------------------------------------------------------
//
// objectZ e' la posizione dell'oggetto lungo l'asse Z
// il default e' 0. valori grandi rappresentano oggetti piu' vicini alla
// camera
// la distanza iniziale fra tavolo e camera e' 1000
//
// cameraZ e' la posizione della camera lungo l'asse Z
// il default e' 0. valori negativi indicano che la camera si avvicina al
// tavolo
// (che raggiungerebbe per un valore di -1000)
//
bool TStageObject::perspective(TAffine &aff, const TAffine &cameraAff,
double cameraZ, const TAffine &objectAff,
double objectZ, double objectNoScaleZ) {
TPointD cameraPos(cameraAff.a13, cameraAff.a23);
TPointD objectPos(objectAff.a13, objectAff.a23);
const double focus = 1000;
const double nearPlane = 1;
/*--
* dzはカメラとオブジェクトの間の距離、focus(=1000)はPegbarをZ軸方向に動かさなかった場合のデフォルト距離
* --*/
double dz = focus + cameraZ - objectZ;
if (dz < nearPlane) {
aff = TAffine();
return false;
}
double noScaleSc = 1 - objectNoScaleZ / focus;
aff = cameraAff * TScale((focus + cameraZ) / dz) * cameraAff.inv() *
objectAff * TScale(noScaleSc);
return true;
}
//-----------------------------------------------------------------------------
int TStageObject::setGroupId(int value) {
m_groupSelector++;
m_groupId.insert(m_groupSelector, value);
return m_groupSelector;
}
//-----------------------------------------------------------------------------
void TStageObject::setGroupId(int value, int position) {
assert(position >= 0 && position <= m_groupId.size());
m_groupId.insert(position, value);
if (m_groupSelector + 1 >= position) m_groupSelector++;
}
//-----------------------------------------------------------------------------
int TStageObject::getGroupId() {
return m_groupId.isEmpty() || m_groupSelector < 0 ||
m_groupSelector >= m_groupId.size()
? 0
: m_groupId[m_groupSelector];
}
//-----------------------------------------------------------------------------
QStack<int> TStageObject::getGroupIdStack() { return m_groupId; }
//-----------------------------------------------------------------------------
void TStageObject::removeGroupId(int position) {
if (!isGrouped()) return;
assert(position >= 0 && position <= m_groupId.size());
m_groupId.remove(position);
if (m_groupSelector + 1 >= position && m_groupSelector > -1)
m_groupSelector--;
}
//-----------------------------------------------------------------------------
int TStageObject::removeGroupId() {
m_groupId.remove(m_groupSelector);
if (m_groupSelector > -1) m_groupSelector--;
return m_groupSelector + 1;
}
//-----------------------------------------------------------------------------
bool TStageObject::isGrouped() { return !m_groupId.isEmpty(); }
//-----------------------------------------------------------------------------
bool TStageObject::isContainedInGroup(int groupId) {
return m_groupId.contains(groupId);
}
//-----------------------------------------------------------------------------
void TStageObject::setGroupName(const wstring &name, int position) {
int groupSelector = position < 0 ? m_groupSelector : position;
assert(groupSelector >= 0 && groupSelector <= m_groupName.size());
m_groupName.insert(groupSelector, name);
}
//-----------------------------------------------------------------------------
wstring TStageObject::getGroupName(bool fromEditor) {
int groupSelector = fromEditor ? m_groupSelector + 1 : m_groupSelector;
return m_groupName.isEmpty() || groupSelector < 0 ||
groupSelector >= m_groupName.size()
? L""
: m_groupName[groupSelector];
}
//-----------------------------------------------------------------------------
QStack<wstring> TStageObject::getGroupNameStack() { return m_groupName; }
//-----------------------------------------------------------------------------
int TStageObject::removeGroupName(bool fromEditor) {
int groupSelector = fromEditor ? m_groupSelector + 1 : m_groupSelector;
if (!isGrouped()) return -1;
assert(groupSelector >= 0 && groupSelector <= m_groupName.size());
m_groupName.remove(groupSelector);
return groupSelector;
}
//-----------------------------------------------------------------------------
void TStageObject::removeGroupName(int position) {
int groupSelector = position < 0 ? m_groupSelector : position;
assert(groupSelector >= 0 && groupSelector <= m_groupName.size());
m_groupName.remove(groupSelector);
}
//-----------------------------------------------------------------------------
void TStageObject::removeFromAllGroup() {
m_groupId.clear();
m_groupName.clear();
m_groupSelector = -1;
}
//-----------------------------------------------------------------------------
void TStageObject::editGroup() { m_groupSelector--; }
//-----------------------------------------------------------------------------
bool TStageObject::isGroupEditing() {
return isGrouped() && m_groupSelector == -1;
}
//-----------------------------------------------------------------------------
void TStageObject::closeEditingGroup(int groupId) {
if (!m_groupId.contains(groupId)) return;
m_groupSelector = 0;
while (m_groupId[m_groupSelector] != groupId &&
m_groupSelector < m_groupId.size())
m_groupSelector++;
}
//-----------------------------------------------------------------------------
int TStageObject::getEditingGroupId() {
if (!isGrouped() || m_groupSelector + 1 >= m_groupId.size()) return -1;
return m_groupId[m_groupSelector + 1];
}
//-----------------------------------------------------------------------------
wstring TStageObject::getEditingGroupName() {
if (!isGrouped() || m_groupSelector + 1 >= m_groupName.size()) return L"";
return m_groupName[m_groupSelector + 1];
}