#include "lc_global.h" #include "lc_mesh.h" #include "lc_colors.h" #include #include #include #include "pieceinf.h" #include "piece.h" #include "group.h" #include "lc_file.h" #include "lc_application.h" #include "lc_library.h" #include "lc_context.h" #include "lc_scene.h" #include "lc_qutils.h" #include "lc_synth.h" constexpr float LC_PIECE_CONTROL_POINT_SIZE = 10.0f; lcPiece::lcPiece(PieceInfo* Info) : lcObject(lcObjectType::Piece) { SetPieceInfo(Info, QString(), true); mColorIndex = gDefaultColor; mColorCode = 16; mStepShow = 1; mStepHide = LC_STEP_MAX; mGroup = nullptr; mPivotMatrix = lcMatrix44Identity(); } lcPiece::lcPiece(const lcPiece& Other) : lcObject(lcObjectType::Piece) { SetPieceInfo(Other.mPieceInfo, Other.mID, true); mHidden = Other.mHidden; mSelected = Other.mSelected; mColorIndex = Other.mColorIndex; mColorCode = Other.mColorCode; mStepShow = Other.mStepShow; mStepHide = Other.mStepHide; mGroup = Other.mGroup; mPivotMatrix = Other.mPivotMatrix; mPivotPointValid = Other.mPivotPointValid; mPosition = Other.mPosition; mRotation = Other.mRotation; mControlPoints = Other.mControlPoints; UpdateMesh(); } lcPiece::~lcPiece() { if (mPieceInfo) { lcPiecesLibrary* Library = lcGetPiecesLibrary(); Library->ReleasePieceInfo(mPieceInfo); } delete mMesh; } void lcPiece::SetPieceInfo(PieceInfo* Info, const QString& ID, bool Wait) { lcPiecesLibrary* Library = lcGetPiecesLibrary(); mPieceInfo = Info; if (mPieceInfo) Library->LoadPieceInfo(mPieceInfo, Wait, true); if (!ID.isEmpty()) mID = ID; else if (mPieceInfo) mID = mPieceInfo->mFileName; else mID.clear(); mControlPoints.clear(); delete mMesh; mMesh = nullptr; const lcSynthInfo* SynthInfo = mPieceInfo ? mPieceInfo->GetSynthInfo() : nullptr; if (SynthInfo) { SynthInfo->GetDefaultControlPoints(mControlPoints); UpdateMesh(); } } bool lcPiece::SetPieceId(PieceInfo* Info) { if (mPieceInfo == Info) return false; lcPiecesLibrary* Library = lcGetPiecesLibrary(); Library->ReleasePieceInfo(mPieceInfo); SetPieceInfo(Info, QString(), true); return true; } void lcPiece::UpdateID() { mID = mPieceInfo->mFileName; } void lcPiece::SaveLDraw(QTextStream& Stream) const { const QLatin1String LineEnding("\r\n"); if (mStepHide != LC_STEP_MAX) Stream << QLatin1String("0 !LEOCAD PIECE STEP_HIDE ") << mStepHide << LineEnding; if (IsHidden()) Stream << QLatin1String("0 !LEOCAD PIECE HIDDEN") << LineEnding; if (mPivotPointValid) { const float* PivotMatrix = mPivotMatrix; const float PivotNumbers[12] = { PivotMatrix[12], -PivotMatrix[14], PivotMatrix[13], PivotMatrix[0], -PivotMatrix[8], PivotMatrix[4], -PivotMatrix[2], PivotMatrix[10], -PivotMatrix[6], PivotMatrix[1], -PivotMatrix[9], PivotMatrix[5] }; Stream << QLatin1String("0 !LEOCAD PIECE PIVOT "); for (int NumberIdx = 0; NumberIdx < 12; NumberIdx++) Stream << ' ' << lcFormatValue(PivotNumbers[NumberIdx], NumberIdx < 3 ? 4 : 6); Stream << LineEnding; } mPosition.Save(Stream, "PIECE", "POSITION", false); mRotation.Save(Stream, "PIECE", "ROTATION", false); Stream << "1 " << mColorCode << ' '; const float* Matrix = mModelWorld; const float Numbers[12] = { Matrix[12], -Matrix[14], Matrix[13], Matrix[0], -Matrix[8], Matrix[4], -Matrix[2], Matrix[10], -Matrix[6], Matrix[1], -Matrix[9], Matrix[5] }; for (int NumberIdx = 0; NumberIdx < 12; NumberIdx++) Stream << lcFormatValue(Numbers[NumberIdx], NumberIdx < 3 ? 4 : 6) << ' '; Stream << mID << LineEnding; } bool lcPiece::ParseLDrawLine(QTextStream& Stream) { while (!Stream.atEnd()) { QString Token; Stream >> Token; if (Token == QLatin1String("STEP_HIDE")) Stream >> mStepHide; else if (Token == QLatin1String("HIDDEN")) SetHidden(true); else if (Token == QLatin1String("PIVOT")) { float PivotNumbers[12]; for (int TokenIdx = 0; TokenIdx < 12; TokenIdx++) Stream >> PivotNumbers[TokenIdx]; const lcMatrix44 PivotMatrix(lcVector4( PivotNumbers[3], PivotNumbers[9], -PivotNumbers[6], 0.0f), lcVector4(PivotNumbers[5], PivotNumbers[11], -PivotNumbers[8], 0.0f), lcVector4(-PivotNumbers[4], -PivotNumbers[10], PivotNumbers[7], 0.0f), lcVector4(PivotNumbers[0], PivotNumbers[2], -PivotNumbers[1], 1.0f)); mPivotMatrix = PivotMatrix; mPivotPointValid = true; } else if (mPosition.Load(Stream, Token, "POSITION")) continue; else if (mRotation.Load(Stream, Token, "ROTATION")) continue; } return false; } bool lcPiece::FileLoad(lcFile& file) { quint8 version, ch; version = file.ReadU8(); if (version > 12) // LeoCAD 0.80 return false; const float PositionScale = (version < 12) ? 25.0f : 1.0f; if (version > 8) { if (file.ReadU8() != 1) return false; quint16 time; float param[4]; quint8 type; quint32 n; file.ReadU32(&n, 1); while (n--) { file.ReadU16(&time, 1); file.ReadFloats(param, 4); file.ReadU8(&type, 1); if (type == 0) mPosition.ChangeKey(lcVector3(param[0], param[1], param[2]) * PositionScale, time, true); else if (type == 1) mRotation.ChangeKey(lcMatrix33FromAxisAngle(lcVector3(param[0], param[1], param[2]), param[3] * LC_DTOR), time, true); } file.ReadU32(&n, 1); while (n--) { file.ReadU16(&time, 1); file.ReadFloats(param, 4); file.ReadU8(&type, 1); } } if (version < 9) { quint16 time; quint8 type; if (version > 5) { quint32 keys; float param[4]; file.ReadU32(&keys, 1); while (keys--) { file.ReadFloats(param, 4); file.ReadU16(&time, 1); file.ReadU8(&type, 1); if (type == 0) mPosition.ChangeKey(lcVector3(param[0], param[1], param[2]) * PositionScale, time, true); else if (type == 1) mRotation.ChangeKey(lcMatrix33FromAxisAngle(lcVector3(param[0], param[1], param[2]), param[3] * LC_DTOR), time, true); } file.ReadU32(&keys, 1); while (keys--) { file.ReadFloats(param, 4); file.ReadU16(&time, 1); file.ReadU8(&type, 1); } } else { if (version > 2) { file.ReadU8(&ch, 1); while (ch--) { lcMatrix44 ModelWorld; if (version > 3) { file.ReadFloats(ModelWorld, 16); } else { lcVector3 Translation; float Rotation[3]; file.ReadFloats(Translation, 3); file.ReadFloats(Rotation, 3); ModelWorld = lcMatrix44Translation(Translation); ModelWorld = lcMul(lcMatrix44RotationZ(Rotation[2] * LC_DTOR), lcMul(lcMatrix44RotationY(Rotation[1] * LC_DTOR), lcMul(lcMatrix44RotationX(Rotation[0] * LC_DTOR), ModelWorld))); } quint8 b; file.ReadU8(&b, 1); time = b; mPosition.ChangeKey(ModelWorld.GetTranslation() * PositionScale, 1, true); mRotation.ChangeKey(lcMatrix33(ModelWorld), time, true); qint32 bl; file.ReadS32(&bl, 1); } } else { lcVector3 Translation; float Rotation[3]; file.ReadFloats(Translation, 3); file.ReadFloats(Rotation, 3); lcMatrix44 ModelWorld = lcMatrix44Translation(Translation); ModelWorld = lcMul(lcMatrix44RotationZ(Rotation[2] * LC_DTOR), lcMul(lcMatrix44RotationY(Rotation[1] * LC_DTOR), lcMul(lcMatrix44RotationX(Rotation[0] * LC_DTOR), ModelWorld))); mPosition.ChangeKey(lcVector3(ModelWorld.r[3][0], ModelWorld.r[3][1], ModelWorld.r[3][2]) * PositionScale, 1, true); mRotation.ChangeKey(lcMatrix33(ModelWorld), 1, true); } } } // Common to all versions. char name[LC_PIECE_NAME_LEN]; if (version < 10) { memset(name, 0, LC_PIECE_NAME_LEN); file.ReadBuffer(name, 9); } else file.ReadBuffer(name, LC_PIECE_NAME_LEN); strcat(name, ".dat"); PieceInfo* pInfo = lcGetPiecesLibrary()->FindPiece(name, nullptr, true, false); SetPieceInfo(pInfo, QString(), true); // 11 (0.77) if (version < 11) { quint8 Color; file.ReadU8(&Color, 1); if (version < 5) mColorCode = lcGetColorCodeFromOriginalColor(Color); else mColorCode = lcGetColorCodeFromExtendedColor(Color); } else file.ReadU32(&mColorCode, 1); mColorIndex = lcGetColorIndex(mColorCode); quint8 Step; file.ReadU8(&Step, 1); mStepShow = Step; if (version > 1) { file.ReadU8(&Step, 1); mStepHide = Step == 255 ? LC_STEP_MAX : Step; } else mStepHide = LC_STEP_MAX; if (version > 5) { file.ReadU16(); // m_nFrameShow file.ReadU16(); // m_nFrameHide if (version > 7) { quint8 Hidden; file.ReadU8(&Hidden, 1); if (Hidden & 1) mHidden = true; file.ReadU8(&ch, 1); file.Seek(ch, SEEK_CUR); } else { qint32 hide; file.ReadS32(&hide, 1); if (hide != 0) mHidden = true; file.Seek(81, SEEK_CUR); } // 7 (0.64) qint32 i = -1; if (version > 6) file.ReadS32(&i, 1); mGroup = (lcGroup*)(quintptr)i; } else { file.ReadU8(&ch, 1); if (ch == 0) mGroup = (lcGroup*)-1; else mGroup = (lcGroup*)(quintptr)ch; file.ReadU8(&ch, 1); if (ch & 0x01) mHidden = true; } return true; } void lcPiece::Initialize(const lcMatrix44& WorldMatrix, lcStep Step) { mStepShow = Step; mPosition.SetValue(WorldMatrix.GetTranslation()); mRotation.SetValue(lcMatrix33(WorldMatrix)); UpdatePosition(Step); } void lcPiece::InsertTime(lcStep Start, lcStep Time) { if (mStepShow >= Start) { if (mStepShow < LC_STEP_MAX - Time) mStepShow += Time; else mStepShow = LC_STEP_MAX; } if (mStepHide >= Start) { if (mStepHide < LC_STEP_MAX - Time) mStepHide += Time; else mStepHide = LC_STEP_MAX; } if (mStepShow >= mStepHide) { if (mStepShow != LC_STEP_MAX) mStepHide = mStepShow + 1; else { mStepShow = LC_STEP_MAX - 1; mStepHide = LC_STEP_MAX; } } mPosition.InsertTime(Start, Time); mRotation.InsertTime(Start, Time); } void lcPiece::RemoveTime(lcStep Start, lcStep Time) { if (mStepShow >= Start) { if (mStepShow > Time) mStepShow -= Time; else mStepShow = 1; } if (mStepHide != LC_STEP_MAX) { if (mStepHide > Time) mStepHide -= Time; else mStepHide = 1; } if (mStepShow >= mStepHide) { if (mStepShow != LC_STEP_MAX) mStepHide = mStepShow + 1; else { mStepShow = LC_STEP_MAX - 1; mStepHide = LC_STEP_MAX; } } mPosition.RemoveTime(Start, Time); mRotation.RemoveTime(Start, Time); } void lcPiece::RayTest(lcObjectRayTest& ObjectRayTest) const { const lcMatrix44 InverseWorldMatrix = lcMatrix44AffineInverse(mModelWorld); const lcVector3 Start = lcMul31(ObjectRayTest.Start, InverseWorldMatrix); const lcVector3 End = lcMul31(ObjectRayTest.End, InverseWorldMatrix); if (mMesh) { if (mMesh->MinIntersectDist(Start, End, ObjectRayTest.Distance, ObjectRayTest.PieceInfoRayTest.Plane)) { ObjectRayTest.ObjectSection.Object = const_cast(this); ObjectRayTest.ObjectSection.Section = LC_PIECE_SECTION_POSITION; ObjectRayTest.PieceInfoRayTest.Transform = mModelWorld; } } else { if (mPieceInfo->MinIntersectDist(Start, End, ObjectRayTest.Distance, ObjectRayTest.PieceInfoRayTest)) { ObjectRayTest.ObjectSection.Object = const_cast(this); ObjectRayTest.ObjectSection.Section = LC_PIECE_SECTION_POSITION; ObjectRayTest.PieceInfoRayTest.Transform = lcMul(ObjectRayTest.PieceInfoRayTest.Transform, mModelWorld); } } if (AreControlPointsVisible()) { const lcVector3 Min(-LC_PIECE_CONTROL_POINT_SIZE, -LC_PIECE_CONTROL_POINT_SIZE, -LC_PIECE_CONTROL_POINT_SIZE); const lcVector3 Max(LC_PIECE_CONTROL_POINT_SIZE, LC_PIECE_CONTROL_POINT_SIZE, LC_PIECE_CONTROL_POINT_SIZE); for (quint32 ControlPointIndex = 0; ControlPointIndex < mControlPoints.size(); ControlPointIndex++) { const lcMatrix44 InverseTransform = lcMatrix44AffineInverse(mControlPoints[ControlPointIndex].Transform); const lcVector3 PointStart = lcMul31(Start, InverseTransform); const lcVector3 PointEnd = lcMul31(End, InverseTransform); float Distance; lcVector3 Plane; if (lcBoundingBoxRayIntersectDistance(Min, Max, PointStart, PointEnd, &Distance, nullptr, &Plane)) { ObjectRayTest.ObjectSection.Object = const_cast(this); ObjectRayTest.ObjectSection.Section = LC_PIECE_SECTION_CONTROL_POINT_FIRST + ControlPointIndex; ObjectRayTest.Distance = Distance; ObjectRayTest.PieceInfoRayTest.Plane = Plane; } } } } void lcPiece::BoxTest(lcObjectBoxTest& ObjectBoxTest) const { if (mPieceInfo->BoxTest(mModelWorld, ObjectBoxTest.Planes)) ObjectBoxTest.Objects.emplace_back(const_cast(this)); } void lcPiece::DrawInterface(lcContext* Context, const lcScene& Scene) const { const lcPreferences& Preferences = lcGetPreferences(); const float LineWidth = Preferences.mLineWidth; Context->SetLineWidth(2.0f * LineWidth); const lcBoundingBox& BoundingBox = GetBoundingBox(); const lcVector3& Min = BoundingBox.Min; const lcVector3& Max = BoundingBox.Max; lcVector3 Edge((Max - Min) * 0.33f); const float LineVerts[48][3] = { { Max[0], Max[1], Max[2] }, { Max[0] - Edge[0], Max[1], Max[2] }, { Max[0], Max[1], Max[2] }, { Max[0], Max[1] - Edge[1], Max[2] }, { Max[0], Max[1], Max[2] }, { Max[0], Max[1], Max[2] - Edge[2] }, { Min[0], Max[1], Max[2] }, { Min[0] + Edge[0], Max[1], Max[2] }, { Min[0], Max[1], Max[2] }, { Min[0], Max[1] - Edge[1], Max[2] }, { Min[0], Max[1], Max[2] }, { Min[0], Max[1], Max[2] - Edge[2] }, { Max[0], Min[1], Max[2] }, { Max[0] - Edge[0], Min[1], Max[2] }, { Max[0], Min[1], Max[2] }, { Max[0], Min[1] + Edge[1], Max[2] }, { Max[0], Min[1], Max[2] }, { Max[0], Min[1], Max[2] - Edge[2] }, { Min[0], Min[1], Max[2] }, { Min[0] + Edge[0], Min[1], Max[2] }, { Min[0], Min[1], Max[2] }, { Min[0], Min[1] + Edge[1], Max[2] }, { Min[0], Min[1], Max[2] }, { Min[0], Min[1], Max[2] - Edge[2] }, { Max[0], Max[1], Min[2] }, { Max[0] - Edge[0], Max[1], Min[2] }, { Max[0], Max[1], Min[2] }, { Max[0], Max[1] - Edge[1], Min[2] }, { Max[0], Max[1], Min[2] }, { Max[0], Max[1], Min[2] + Edge[2] }, { Min[0], Max[1], Min[2] }, { Min[0] + Edge[0], Max[1], Min[2] }, { Min[0], Max[1], Min[2] }, { Min[0], Max[1] - Edge[1], Min[2] }, { Min[0], Max[1], Min[2] }, { Min[0], Max[1], Min[2] + Edge[2] }, { Max[0], Min[1], Min[2] }, { Max[0] - Edge[0], Min[1], Min[2] }, { Max[0], Min[1], Min[2] }, { Max[0], Min[1] + Edge[1], Min[2] }, { Max[0], Min[1], Min[2] }, { Max[0], Min[1], Min[2] + Edge[2] }, { Min[0], Min[1], Min[2] }, { Min[0] + Edge[0], Min[1], Min[2] }, { Min[0], Min[1], Min[2] }, { Min[0], Min[1] + Edge[1], Min[2] }, { Min[0], Min[1], Min[2] }, { Min[0], Min[1], Min[2] + Edge[2] }, }; const lcMatrix44 WorldMatrix = Scene.ApplyActiveSubmodelTransform(mModelWorld); Context->SetMaterial(lcMaterialType::UnlitColor); Context->SetWorldMatrix(WorldMatrix); if (IsFocused(LC_PIECE_SECTION_POSITION)) { const lcVector4 FocusedColor = lcVector4FromColor(Preferences.mObjectFocusedColor); Context->SetColor(FocusedColor); } else { const lcVector4 SelectedColor = lcVector4FromColor(Preferences.mObjectSelectedColor); Context->SetColor(SelectedColor); } Context->SetVertexBufferPointer(LineVerts); Context->SetVertexFormatPosition(3); Context->DrawPrimitives(GL_LINES, 0, 48); if (IsPivotPointVisible()) { constexpr float Size = 5.0f; constexpr float Verts[8 * 3] = { -Size, -Size, -Size, -Size, Size, -Size, Size, Size, -Size, Size, -Size, -Size, -Size, -Size, Size, -Size, Size, Size, Size, Size, Size, Size, -Size, Size }; const GLushort Indices[24] = { 0, 1, 1, 2, 2, 3, 3, 0, 4, 5, 5, 6, 6, 7, 7, 4, 0, 4, 1, 5, 2, 6, 3, 7 }; Context->SetWorldMatrix(lcMul(mPivotMatrix, WorldMatrix)); Context->SetVertexBufferPointer(Verts); Context->SetVertexFormatPosition(3); Context->SetIndexBufferPointer(Indices); Context->DrawIndexedPrimitives(GL_LINES, 24, GL_UNSIGNED_SHORT, 0); } if (!mControlPoints.empty() && AreControlPointsVisible()) { float Verts[8 * 3]; float* CurVert = Verts; lcVector3 CubeMin(-LC_PIECE_CONTROL_POINT_SIZE, -LC_PIECE_CONTROL_POINT_SIZE, -LC_PIECE_CONTROL_POINT_SIZE); lcVector3 CubeMax(LC_PIECE_CONTROL_POINT_SIZE, LC_PIECE_CONTROL_POINT_SIZE, LC_PIECE_CONTROL_POINT_SIZE); *CurVert++ = CubeMin[0]; *CurVert++ = CubeMin[1]; *CurVert++ = CubeMin[2]; *CurVert++ = CubeMin[0]; *CurVert++ = CubeMax[1]; *CurVert++ = CubeMin[2]; *CurVert++ = CubeMax[0]; *CurVert++ = CubeMax[1]; *CurVert++ = CubeMin[2]; *CurVert++ = CubeMax[0]; *CurVert++ = CubeMin[1]; *CurVert++ = CubeMin[2]; *CurVert++ = CubeMin[0]; *CurVert++ = CubeMin[1]; *CurVert++ = CubeMax[2]; *CurVert++ = CubeMin[0]; *CurVert++ = CubeMax[1]; *CurVert++ = CubeMax[2]; *CurVert++ = CubeMax[0]; *CurVert++ = CubeMax[1]; *CurVert++ = CubeMax[2]; *CurVert++ = CubeMax[0]; *CurVert++ = CubeMin[1]; *CurVert++ = CubeMax[2]; const GLushort Indices[36] = { 0, 1, 2, 0, 2, 3, 7, 6, 5, 7, 5, 4, 5, 1, 0, 4, 5, 0, 7, 3, 2, 6, 7, 2, 0, 3, 7, 0, 7, 4, 6, 2, 1, 5, 6, 1 }; Context->EnableColorBlend(true); Context->EnableCullFace(true); const lcVector4 ControlPointColor = lcVector4FromColor(Preferences.mControlPointColor); const lcVector4 ControlPointFocusedColor = lcVector4FromColor(Preferences.mControlPointFocusedColor); for (quint32 ControlPointIndex = 0; ControlPointIndex < mControlPoints.size(); ControlPointIndex++) { Context->SetWorldMatrix(lcMul(mControlPoints[ControlPointIndex].Transform, WorldMatrix)); Context->SetVertexBufferPointer(Verts); Context->SetVertexFormatPosition(3); Context->SetIndexBufferPointer(Indices); if (IsFocused(LC_PIECE_SECTION_CONTROL_POINT_FIRST + ControlPointIndex)) Context->SetColor(ControlPointFocusedColor); else Context->SetColor(ControlPointColor); Context->DrawIndexedPrimitives(GL_TRIANGLES, 36, GL_UNSIGNED_SHORT, 0); } Context->EnableCullFace(false); Context->EnableColorBlend(false); } } QVariant lcPiece::GetPropertyValue(lcObjectPropertyId PropertyId) const { switch (PropertyId) { case lcObjectPropertyId::PieceId: return QVariant::fromValue(mPieceInfo); case lcObjectPropertyId::PieceColor: return GetColorIndex(); case lcObjectPropertyId::PieceStepShow: case lcObjectPropertyId::PieceStepHide: case lcObjectPropertyId::CameraName: case lcObjectPropertyId::CameraType: case lcObjectPropertyId::CameraFOV: case lcObjectPropertyId::CameraNear: case lcObjectPropertyId::CameraFar: case lcObjectPropertyId::CameraPositionX: case lcObjectPropertyId::CameraPositionY: case lcObjectPropertyId::CameraPositionZ: case lcObjectPropertyId::CameraTargetX: case lcObjectPropertyId::CameraTargetY: case lcObjectPropertyId::CameraTargetZ: case lcObjectPropertyId::CameraUpX: case lcObjectPropertyId::CameraUpY: case lcObjectPropertyId::CameraUpZ: case lcObjectPropertyId::LightName: case lcObjectPropertyId::LightType: case lcObjectPropertyId::LightColor: case lcObjectPropertyId::LightBlenderPower: case lcObjectPropertyId::LightPOVRayPower: case lcObjectPropertyId::LightCastShadow: case lcObjectPropertyId::LightPOVRayFadeDistance: case lcObjectPropertyId::LightPOVRayFadePower: case lcObjectPropertyId::LightPointBlenderRadius: case lcObjectPropertyId::LightSpotBlenderRadius: case lcObjectPropertyId::LightDirectionalBlenderAngle: case lcObjectPropertyId::LightAreaSizeX: case lcObjectPropertyId::LightAreaSizeY: case lcObjectPropertyId::LightSpotConeAngle: case lcObjectPropertyId::LightSpotPenumbraAngle: case lcObjectPropertyId::LightSpotPOVRayTightness: case lcObjectPropertyId::LightAreaShape: case lcObjectPropertyId::LightAreaPOVRayGridX: case lcObjectPropertyId::LightAreaPOVRayGridY: case lcObjectPropertyId::ObjectPositionX: case lcObjectPropertyId::ObjectPositionY: case lcObjectPropertyId::ObjectPositionZ: case lcObjectPropertyId::ObjectRotationX: case lcObjectPropertyId::ObjectRotationY: case lcObjectPropertyId::ObjectRotationZ: case lcObjectPropertyId::Count: break; } return QVariant(); } bool lcPiece::SetPropertyValue(lcObjectPropertyId PropertyId, lcStep Step, bool AddKey, QVariant Value) { Q_UNUSED(Step); Q_UNUSED(AddKey); switch (PropertyId) { case lcObjectPropertyId::PieceId: return SetPieceId(static_cast(Value.value())); case lcObjectPropertyId::PieceColor: return SetColorIndex(Value.toInt()); case lcObjectPropertyId::PieceStepShow: case lcObjectPropertyId::PieceStepHide: case lcObjectPropertyId::CameraName: case lcObjectPropertyId::CameraType: case lcObjectPropertyId::CameraFOV: case lcObjectPropertyId::CameraNear: case lcObjectPropertyId::CameraFar: case lcObjectPropertyId::CameraPositionX: case lcObjectPropertyId::CameraPositionY: case lcObjectPropertyId::CameraPositionZ: case lcObjectPropertyId::CameraTargetX: case lcObjectPropertyId::CameraTargetY: case lcObjectPropertyId::CameraTargetZ: case lcObjectPropertyId::CameraUpX: case lcObjectPropertyId::CameraUpY: case lcObjectPropertyId::CameraUpZ: case lcObjectPropertyId::LightName: case lcObjectPropertyId::LightType: case lcObjectPropertyId::LightColor: case lcObjectPropertyId::LightBlenderPower: case lcObjectPropertyId::LightPOVRayPower: case lcObjectPropertyId::LightCastShadow: case lcObjectPropertyId::LightPOVRayFadeDistance: case lcObjectPropertyId::LightPOVRayFadePower: case lcObjectPropertyId::LightPointBlenderRadius: case lcObjectPropertyId::LightSpotBlenderRadius: case lcObjectPropertyId::LightDirectionalBlenderAngle: case lcObjectPropertyId::LightAreaSizeX: case lcObjectPropertyId::LightAreaSizeY: case lcObjectPropertyId::LightSpotConeAngle: case lcObjectPropertyId::LightSpotPenumbraAngle: case lcObjectPropertyId::LightSpotPOVRayTightness: case lcObjectPropertyId::LightAreaShape: case lcObjectPropertyId::LightAreaPOVRayGridX: case lcObjectPropertyId::LightAreaPOVRayGridY: case lcObjectPropertyId::ObjectPositionX: case lcObjectPropertyId::ObjectPositionY: case lcObjectPropertyId::ObjectPositionZ: case lcObjectPropertyId::ObjectRotationX: case lcObjectPropertyId::ObjectRotationY: case lcObjectPropertyId::ObjectRotationZ: case lcObjectPropertyId::Count: break; } return false; } bool lcPiece::HasKeyFrame(lcObjectPropertyId PropertyId, lcStep Time) const { switch (PropertyId) { case lcObjectPropertyId::PieceId: case lcObjectPropertyId::PieceColor: case lcObjectPropertyId::PieceStepShow: case lcObjectPropertyId::PieceStepHide: case lcObjectPropertyId::CameraName: case lcObjectPropertyId::CameraType: case lcObjectPropertyId::CameraFOV: case lcObjectPropertyId::CameraNear: case lcObjectPropertyId::CameraFar: case lcObjectPropertyId::CameraPositionX: case lcObjectPropertyId::CameraPositionY: case lcObjectPropertyId::CameraPositionZ: case lcObjectPropertyId::CameraTargetX: case lcObjectPropertyId::CameraTargetY: case lcObjectPropertyId::CameraTargetZ: case lcObjectPropertyId::CameraUpX: case lcObjectPropertyId::CameraUpY: case lcObjectPropertyId::CameraUpZ: case lcObjectPropertyId::LightName: case lcObjectPropertyId::LightType: case lcObjectPropertyId::LightColor: case lcObjectPropertyId::LightBlenderPower: case lcObjectPropertyId::LightPOVRayPower: case lcObjectPropertyId::LightCastShadow: case lcObjectPropertyId::LightPOVRayFadeDistance: case lcObjectPropertyId::LightPOVRayFadePower: case lcObjectPropertyId::LightPointBlenderRadius: case lcObjectPropertyId::LightSpotBlenderRadius: case lcObjectPropertyId::LightDirectionalBlenderAngle: case lcObjectPropertyId::LightAreaSizeX: case lcObjectPropertyId::LightAreaSizeY: case lcObjectPropertyId::LightSpotConeAngle: case lcObjectPropertyId::LightSpotPenumbraAngle: case lcObjectPropertyId::LightSpotPOVRayTightness: case lcObjectPropertyId::LightAreaShape: case lcObjectPropertyId::LightAreaPOVRayGridX: case lcObjectPropertyId::LightAreaPOVRayGridY: return false; case lcObjectPropertyId::ObjectPositionX: case lcObjectPropertyId::ObjectPositionY: case lcObjectPropertyId::ObjectPositionZ: return mPosition.HasKeyFrame(Time); case lcObjectPropertyId::ObjectRotationX: case lcObjectPropertyId::ObjectRotationY: case lcObjectPropertyId::ObjectRotationZ: return mRotation.HasKeyFrame(Time); case lcObjectPropertyId::Count: return false; } return false; } bool lcPiece::SetKeyFrame(lcObjectPropertyId PropertyId, lcStep Time, bool KeyFrame) { switch (PropertyId) { case lcObjectPropertyId::PieceId: case lcObjectPropertyId::PieceColor: case lcObjectPropertyId::PieceStepShow: case lcObjectPropertyId::PieceStepHide: case lcObjectPropertyId::CameraName: case lcObjectPropertyId::CameraType: case lcObjectPropertyId::CameraFOV: case lcObjectPropertyId::CameraNear: case lcObjectPropertyId::CameraFar: case lcObjectPropertyId::CameraPositionX: case lcObjectPropertyId::CameraPositionY: case lcObjectPropertyId::CameraPositionZ: case lcObjectPropertyId::CameraTargetX: case lcObjectPropertyId::CameraTargetY: case lcObjectPropertyId::CameraTargetZ: case lcObjectPropertyId::CameraUpX: case lcObjectPropertyId::CameraUpY: case lcObjectPropertyId::CameraUpZ: case lcObjectPropertyId::LightName: case lcObjectPropertyId::LightType: case lcObjectPropertyId::LightColor: case lcObjectPropertyId::LightBlenderPower: case lcObjectPropertyId::LightPOVRayPower: case lcObjectPropertyId::LightCastShadow: case lcObjectPropertyId::LightPOVRayFadeDistance: case lcObjectPropertyId::LightPOVRayFadePower: case lcObjectPropertyId::LightPointBlenderRadius: case lcObjectPropertyId::LightSpotBlenderRadius: case lcObjectPropertyId::LightDirectionalBlenderAngle: case lcObjectPropertyId::LightAreaSizeX: case lcObjectPropertyId::LightAreaSizeY: case lcObjectPropertyId::LightSpotConeAngle: case lcObjectPropertyId::LightSpotPenumbraAngle: case lcObjectPropertyId::LightSpotPOVRayTightness: case lcObjectPropertyId::LightAreaShape: case lcObjectPropertyId::LightAreaPOVRayGridX: case lcObjectPropertyId::LightAreaPOVRayGridY: return false; case lcObjectPropertyId::ObjectPositionX: case lcObjectPropertyId::ObjectPositionY: case lcObjectPropertyId::ObjectPositionZ: return mPosition.SetKeyFrame(Time, KeyFrame); case lcObjectPropertyId::ObjectRotationX: case lcObjectPropertyId::ObjectRotationY: case lcObjectPropertyId::ObjectRotationZ: return mRotation.SetKeyFrame(Time, KeyFrame); case lcObjectPropertyId::Count: return false; } return false; } void lcPiece::RemoveKeyFrames() { mPosition.RemoveAllKeys(); mRotation.RemoveAllKeys(); } void lcPiece::AddMainModelRenderMeshes(lcScene* Scene, bool Highlight, bool Fade) const { lcRenderMeshState RenderMeshState = lcRenderMeshState::Default; bool ParentActive = false; if (Highlight) RenderMeshState = lcRenderMeshState::Highlighted; if (Fade) RenderMeshState = lcRenderMeshState::Faded; if (Scene->GetDrawInterface()) { const lcPiece* ActiveSubmodelInstance = Scene->GetActiveSubmodelInstance(); if (!ActiveSubmodelInstance) RenderMeshState = IsFocused() ? lcRenderMeshState::Focused : (IsSelected() ? lcRenderMeshState::Selected : RenderMeshState); else if (ActiveSubmodelInstance == this) ParentActive = true; else RenderMeshState = lcRenderMeshState::Faded; } if (!mMesh) mPieceInfo->AddRenderMeshes(Scene, mModelWorld, mColorIndex, RenderMeshState, ParentActive); else Scene->AddMesh(mMesh, mModelWorld, mColorIndex, RenderMeshState); if (RenderMeshState == lcRenderMeshState::Focused || RenderMeshState == lcRenderMeshState::Selected) Scene->AddInterfaceObject(this); } void lcPiece::AddSubModelRenderMeshes(lcScene* Scene, const lcMatrix44& WorldMatrix, int DefaultColorIndex, lcRenderMeshState RenderMeshState, bool ParentActive) const { int ColorIndex = mColorIndex; if (ColorIndex == gDefaultColor) ColorIndex = DefaultColorIndex; const lcPiece* ActiveSubmodelInstance = Scene->GetActiveSubmodelInstance(); if (ActiveSubmodelInstance == this) RenderMeshState = lcRenderMeshState::Default; else if (ParentActive) RenderMeshState = IsFocused() ? lcRenderMeshState::Focused : (IsSelected() ? lcRenderMeshState::Selected : lcRenderMeshState::Default); if (!mMesh) mPieceInfo->AddRenderMeshes(Scene, lcMul(mModelWorld, WorldMatrix), ColorIndex, RenderMeshState, ActiveSubmodelInstance == this); else Scene->AddMesh(mMesh, lcMul(mModelWorld, WorldMatrix), ColorIndex, RenderMeshState); if (ParentActive && (RenderMeshState == lcRenderMeshState::Focused || RenderMeshState == lcRenderMeshState::Selected)) Scene->AddInterfaceObject(this); } void lcPiece::SubModelCompareBoundingBox(const lcMatrix44& WorldMatrix, lcVector3& Min, lcVector3& Max) const { mPieceInfo->CompareBoundingBox(lcMul(mModelWorld, WorldMatrix), Min, Max); } void lcPiece::SubModelAddBoundingBoxPoints(const lcMatrix44& WorldMatrix, std::vector& Points) const { if (!mMesh) mPieceInfo->AddSubModelBoundingBoxPoints(lcMul(mModelWorld, WorldMatrix), Points); else { lcVector3 BoxPoints[8]; lcGetBoxCorners(mMesh->mBoundingBox, BoxPoints); for (int i = 0; i < 8; i++) Points.emplace_back(lcMul31(BoxPoints[i], mModelWorld)); } } void lcPiece::MoveSelected(lcStep Step, bool AddKey, const lcVector3& Distance) { const quint32 Section = GetFocusSection(); if (Section == LC_PIECE_SECTION_POSITION || Section == LC_PIECE_SECTION_INVALID) { const lcVector3 Position = mModelWorld.GetTranslation() + Distance; SetPosition(Position, Step, AddKey); mModelWorld.SetTranslation(Position); } else if (Section >= LC_PIECE_SECTION_CONTROL_POINT_FIRST) { const quint32 ControlPointIndex = Section - LC_PIECE_SECTION_CONTROL_POINT_FIRST; if (ControlPointIndex < mControlPoints.size()) { const lcMatrix33 InverseWorldMatrix = lcMatrix33AffineInverse(lcMatrix33(mModelWorld)); lcMatrix44& Transform = mControlPoints[ControlPointIndex].Transform; Transform.SetTranslation(Transform.GetTranslation() + lcMul(Distance, InverseWorldMatrix)); } UpdateMesh(); } } void lcPiece::Rotate(lcStep Step, bool AddKey, const lcMatrix33& RotationMatrix, const lcVector3& Center, const lcMatrix33& RotationFrame) { const quint32 Section = GetFocusSection(); if (Section == LC_PIECE_SECTION_POSITION || Section == LC_PIECE_SECTION_INVALID) { lcVector3 Distance = mModelWorld.GetTranslation() - Center; const lcMatrix33 LocalToWorldMatrix = lcMatrix33(mModelWorld); const lcMatrix33 LocalToFocusMatrix = lcMul(LocalToWorldMatrix, RotationFrame); lcMatrix33 NewLocalToWorldMatrix = lcMul(LocalToFocusMatrix, RotationMatrix); const lcMatrix33 WorldToLocalMatrix = lcMatrix33AffineInverse(LocalToWorldMatrix); Distance = lcMul(Distance, WorldToLocalMatrix); Distance = lcMul(Distance, NewLocalToWorldMatrix); NewLocalToWorldMatrix.Orthonormalize(); SetPosition(Center + Distance, Step, AddKey); SetRotation(NewLocalToWorldMatrix, Step, AddKey); } else if (Section >= LC_PIECE_SECTION_CONTROL_POINT_FIRST) { const quint32 ControlPointIndex = Section - LC_PIECE_SECTION_CONTROL_POINT_FIRST; if (ControlPointIndex < mControlPoints.size()) { lcMatrix44& Transform = mControlPoints[ControlPointIndex].Transform; const lcMatrix33 PieceWorldMatrix(mModelWorld); const lcMatrix33 LocalToWorldMatrix = lcMul(lcMatrix33(Transform), PieceWorldMatrix); const lcMatrix33 LocalToFocusMatrix = lcMul(LocalToWorldMatrix, RotationFrame); lcMatrix33 NewLocalToWorldMatrix = lcMul(lcMul(LocalToFocusMatrix, RotationMatrix), lcMatrix33AffineInverse(PieceWorldMatrix)); NewLocalToWorldMatrix.Orthonormalize(); Transform = lcMatrix44(NewLocalToWorldMatrix, Transform.GetTranslation()); } UpdateMesh(); } } void lcPiece::MovePivotPoint(const lcVector3& Distance) { if (!IsFocused(LC_PIECE_SECTION_POSITION)) return; mPivotMatrix.SetTranslation(mPivotMatrix.GetTranslation() + lcMul30(Distance, lcMatrix44AffineInverse(mModelWorld))); mPivotPointValid = true; } void lcPiece::RotatePivotPoint(const lcMatrix33& RotationMatrix) { if (!IsFocused(LC_PIECE_SECTION_POSITION)) return; lcMatrix33 NewPivotRotationMatrix = lcMul(RotationMatrix, lcMatrix33(mPivotMatrix)); NewPivotRotationMatrix.Orthonormalize(); mPivotMatrix = lcMatrix44(NewPivotRotationMatrix, mPivotMatrix.GetTranslation()); mPivotPointValid = true; } quint32 lcPiece::GetAllowedTransforms() const { const quint32 Section = GetFocusSection(); if (Section == LC_PIECE_SECTION_POSITION || Section == LC_PIECE_SECTION_INVALID) return LC_OBJECT_TRANSFORM_MOVE_XYZ | LC_OBJECT_TRANSFORM_ROTATE_XYZ; const lcSynthInfo* SynthInfo = mPieceInfo->GetSynthInfo(); if (SynthInfo) { if (SynthInfo->IsUnidirectional()) return LC_OBJECT_TRANSFORM_MOVE_Z; if (SynthInfo->IsCurve()) return LC_OBJECT_TRANSFORM_MOVE_XYZ | LC_OBJECT_TRANSFORM_ROTATE_XYZ | LC_OBJECT_TRANSFORM_SCALE_X; if (SynthInfo->IsNondirectional()) return LC_OBJECT_TRANSFORM_MOVE_XYZ; } return 0; } bool lcPiece::CanAddControlPoint() const { if (mControlPoints.size() >= LC_MAX_CONTROL_POINTS) return false; const lcSynthInfo* SynthInfo = mPieceInfo->GetSynthInfo(); return SynthInfo && SynthInfo->CanAddControlPoints(); } bool lcPiece::CanRemoveControlPoint() const { const quint32 Section = GetFocusSection(); return Section >= LC_PIECE_SECTION_CONTROL_POINT_FIRST && Section <= LC_PIECE_SECTION_CONTROL_POINT_LAST && mControlPoints.size() > 2; } bool lcPiece::InsertControlPoint(const lcVector3& WorldStart, const lcVector3& WorldEnd) { if (!CanAddControlPoint()) return false; const lcMatrix44 InverseWorldMatrix = lcMatrix44AffineInverse(mModelWorld); const lcVector3 Start = lcMul31(WorldStart, InverseWorldMatrix); const lcVector3 End = lcMul31(WorldEnd, InverseWorldMatrix); const lcSynthInfo* SynthInfo = mPieceInfo->GetSynthInfo(); const int ControlPointIndex = SynthInfo->InsertControlPoint(mControlPoints, Start, End); if (ControlPointIndex) { SetFocused(GetFocusSection(), false); SetFocused(LC_PIECE_SECTION_CONTROL_POINT_FIRST + ControlPointIndex, true); UpdateMesh(); return true; } return false; } bool lcPiece::RemoveFocusedControlPoint() { quint32 Section = GetFocusSection(); if( Section < LC_PIECE_SECTION_CONTROL_POINT_FIRST ) return false; const quint32 ControlPointIndex = Section - LC_PIECE_SECTION_CONTROL_POINT_FIRST; if (ControlPointIndex >= mControlPoints.size() || mControlPoints.size() <= 2) return false; SetFocused(GetFocusSection(), false); SetFocused(LC_PIECE_SECTION_POSITION, true); mControlPoints.erase(mControlPoints.begin() + ControlPointIndex); UpdateMesh(); return true; } void lcPiece::VerifyControlPoints(std::vector& ControlPoints) const { const lcSynthInfo* SynthInfo = mPieceInfo->GetSynthInfo(); if (!SynthInfo) { ControlPoints.clear(); } else { if (ControlPoints.size() > LC_MAX_CONTROL_POINTS) ControlPoints.resize(LC_MAX_CONTROL_POINTS); SynthInfo->VerifyControlPoints(ControlPoints); } } QString lcPiece::GetName() const { return QString::fromLatin1(mPieceInfo->m_strDescription); } bool lcPiece::IsVisible(lcStep Step) const { return !mHidden && (mStepShow <= Step) && (mStepHide > Step || mStepHide == LC_STEP_MAX); } bool lcPiece::IsVisibleInSubModel() const { return (mStepHide == LC_STEP_MAX) && !mHidden; } void lcPiece::GetModelParts(const lcMatrix44& WorldMatrix, int DefaultColorIndex, std::vector& ModelParts) const { if (!IsVisibleInSubModel()) return; int ColorIndex = mColorIndex; if (ColorIndex == gDefaultColor) ColorIndex = DefaultColorIndex; if (!mMesh) mPieceInfo->GetModelParts(lcMul(mModelWorld, WorldMatrix), ColorIndex, ModelParts); else ModelParts.emplace_back(lcModelPartsEntry{ lcMul(mModelWorld, WorldMatrix), mPieceInfo, mMesh, ColorIndex }); } const lcBoundingBox& lcPiece::GetBoundingBox() const { if (!mMesh) return mPieceInfo->GetBoundingBox(); else return mMesh->mBoundingBox; } void lcPiece::CompareBoundingBox(lcVector3& Min, lcVector3& Max) const { if (!mMesh) mPieceInfo->CompareBoundingBox(mModelWorld, Min, Max); else { lcVector3 Points[8]; lcGetBoxCorners(mMesh->mBoundingBox, Points); for (int i = 0; i < 8; i++) { const lcVector3 Point = lcMul31(Points[i], mModelWorld); Min = lcMin(Point, Min); Max = lcMax(Point, Max); } } } lcGroup* lcPiece::GetTopGroup() { return mGroup ? mGroup->GetTopGroup() : nullptr; } void lcPiece::UpdatePosition(lcStep Step) { mPosition.Update(Step); mRotation.Update(Step); mModelWorld = lcMatrix44(mRotation, mPosition); } void lcPiece::UpdateMesh() { delete mMesh; const lcSynthInfo* SynthInfo = mPieceInfo->GetSynthInfo(); mMesh = SynthInfo ? SynthInfo->CreateMesh(mControlPoints) : nullptr; }