private void ParseJoint(idLexer lexer, idMD5Joint joint, ref idJointQuaternion defaultPose) { // // parse name // joint.Name = lexer.ReadToken().ToString(); // // parse parent // int parentIndex = lexer.ParseInt(); if (parentIndex >= 0) { if (parentIndex >= (_joints.Length - 1)) { lexer.Error("Invalid parent for joint '{0}'", joint.Name); } joint.Parent = _joints[parentIndex]; } // // parse default pose // float[] tmp = lexer.Parse1DMatrix(3); defaultPose.Translation = new Vector3(tmp[0], tmp[1], tmp[2]); tmp = lexer.Parse1DMatrix(3); defaultPose.Quaternion = new Quaternion(tmp[0], tmp[1], tmp[2], 0); defaultPose.Quaternion.W = idHelper.CalculateW(defaultPose.Quaternion); }
private void ParseBrushes(idLexer lexer, CollisionModel model) { idToken token = lexer.CheckTokenType(TokenType.Number, 0); int planeCount; CollisionModelBrush b; float[] tmp; lexer.ExpectTokenString("{"); while (lexer.CheckTokenString("}") == false) { // parse brush planeCount = lexer.ParseInt(); b = new CollisionModelBrush(); b.Contents = ContentFlags.All; b.Material = _traceModelMaterial; b.Planes = new Plane[planeCount]; lexer.ExpectTokenString("{"); for (int i = 0; i < planeCount; i++) { tmp = lexer.Parse1DMatrix(3); b.Planes[i].Normal = new Vector3(tmp[0], tmp[1], tmp[2]); b.Planes[i].D = lexer.ParseFloat(); } lexer.ExpectTokenString("}"); tmp = lexer.Parse1DMatrix(3); b.Bounds.Min = new Vector3(tmp[0], tmp[1], tmp[2]); tmp = lexer.Parse1DMatrix(3); b.Bounds.Max = new Vector3(tmp[0], tmp[1], tmp[2]); token = lexer.ReadToken(); if (token.Type == TokenType.Number) { b.Contents = (ContentFlags)token.ToInt32(); // old .cm files use a single integer } else { b.Contents = ContentsFromString(token.ToString()); } b.CheckCount = 0; b.PrimitiveCount = 0; // filter brush into tree FilterBrushIntoTree(model, model.Node, b); } }
private void ParsePolygons(idLexer lexer, CollisionModel model) { idToken token = lexer.CheckTokenType(TokenType.Number, 0); float[] tmp; Vector3 normal; lexer.ExpectTokenString("{"); while (lexer.CheckTokenString("}") == false) { // parse polygon int edgeCount = lexer.ParseInt(); CollisionModelPolygon p = new CollisionModelPolygon(); p.Material = _traceModelMaterial; p.Contents = ContentFlags.All; p.Edges = new int[edgeCount]; lexer.ExpectTokenString("("); for (int i = 0; i < edgeCount; i++) { p.Edges[i] = lexer.ParseInt(); } lexer.ExpectTokenString(")"); tmp = lexer.Parse1DMatrix(3); normal = new Vector3(tmp[0], tmp[1], tmp[2]); p.Plane.Normal = normal; p.Plane.D = lexer.ParseFloat(); tmp = lexer.Parse1DMatrix(3); p.Bounds.Min = new Vector3(tmp[0], tmp[1], tmp[2]); tmp = lexer.Parse1DMatrix(3); p.Bounds.Max = new Vector3(tmp[0], tmp[1], tmp[2]); token = lexer.ExpectTokenType(TokenType.String, 0); // get material p.Material = idE.DeclManager.FindMaterial(token.ToString()); p.Contents = p.Material.ContentFlags; p.CheckCount = 0; // filter polygon into tree FilterPolygonIntoTree(model, model.Node, p); } }
private void ParseVertices(idLexer lexer, CollisionModel model) { lexer.ExpectTokenString("{"); int vertexCount = lexer.ParseInt(); model.Vertices = new CollisionModelVertex[vertexCount]; for (int i = 0; i < vertexCount; i++) { float[] tmp = lexer.Parse1DMatrix(3); model.Vertices[i].Point = new Vector3(tmp[0], tmp[1], tmp[2]); model.Vertices[i].Side = 0; model.Vertices[i].SideSet = 0; model.Vertices[i].CheckCount = 0; } lexer.ExpectTokenString("}"); }
public void Parse(idLexer lexer, idJointMatrix[] joints) { lexer.ExpectTokenString("{"); // // parse name // if (lexer.CheckTokenString("name") == true) { lexer.ReadToken(); } // // parse shader // lexer.ExpectTokenString("shader"); idToken token = lexer.ReadToken(); string materialName = token.ToString(); _material = idE.DeclManager.FindMaterial(materialName); // // parse texture coordinates // lexer.ExpectTokenString("numverts"); int count = lexer.ParseInt(); if (count < 0) { lexer.Error("Invalid size: {0}", token.ToString()); } _texCoords = new Vector2[count]; int[] firstWeightForVertex = new int[count]; int[] weightCountForVertex = new int[count]; int maxWeight = 0; int coordCount = _texCoords.Length; _weightCount = 0; for (int i = 0; i < coordCount; i++) { lexer.ExpectTokenString("vert"); lexer.ParseInt(); float[] tmp = lexer.Parse1DMatrix(2); _texCoords[i] = new Vector2(tmp[0], tmp[1]); firstWeightForVertex[i] = lexer.ParseInt(); weightCountForVertex[i] = lexer.ParseInt(); if (weightCountForVertex[i] == 0) { lexer.Error("Vertex without any joint weights."); } _weightCount += weightCountForVertex[i]; if ((weightCountForVertex[i] + firstWeightForVertex[i]) > maxWeight) { maxWeight = weightCountForVertex[i] + firstWeightForVertex[i]; } } // // parse tris // lexer.ExpectTokenString("numtris"); _triangleCount = lexer.ParseInt(); if (_triangleCount < 0) { lexer.Error("Invalid size: {0}", _triangleCount); } int[] tris = new int[_triangleCount * 3]; for (int i = 0; i < _triangleCount; i++) { lexer.ExpectTokenString("tri"); lexer.ParseInt(); tris[i * 3 + 0] = lexer.ParseInt(); tris[i * 3 + 1] = lexer.ParseInt(); tris[i * 3 + 2] = lexer.ParseInt(); } // // parse weights // lexer.ExpectTokenString("numweights"); count = lexer.ParseInt(); if (count < 0) { lexer.Error("Invalid size: {0}", count); } if (maxWeight > count) { lexer.Warning("Vertices reference out of range weights in model ({0} of {1} weights).", maxWeight, count); } VertexWeight[] tempWeights = new VertexWeight[count]; for (int i = 0; i < count; i++) { lexer.ExpectTokenString("weight"); lexer.ParseInt(); int jointIndex = lexer.ParseInt(); if ((jointIndex < 0) || (jointIndex >= joints.Length)) { lexer.Error("Joint index out of range({0}): {1}", joints.Length, jointIndex); } tempWeights[i].JointIndex = jointIndex; tempWeights[i].JointWeight = lexer.ParseFloat(); float[] tmp = lexer.Parse1DMatrix(3); tempWeights[i].Offset = new Vector3(tmp[0], tmp[1], tmp[2]); } // create pre-scaled weights and an index for the vertex/joint lookup _scaledWeights = new Vector4[_weightCount]; _weightIndex = new int[_weightCount * 2]; count = 0; coordCount = _texCoords.Length; for (int i = 0; i < coordCount; i++) { int num = firstWeightForVertex[i]; int weightCount = weightCountForVertex[i]; for (int j = 0; j < weightCount; j++, num++, count++) { Vector3 tmp = tempWeights[num].Offset * tempWeights[num].JointWeight; _scaledWeights[count].X = tmp.X; _scaledWeights[count].Y = tmp.Y; _scaledWeights[count].Z = tmp.Z; _scaledWeights[count].W = tempWeights[num].JointWeight; _weightIndex[count * 2 + 0] = tempWeights[num].JointIndex; } _weightIndex[count * 2 - 1] = 1; } lexer.ExpectTokenString("}"); // update counters idConsole.Warning("TODO: idRenderModel_MD5 update counters"); /*c_numVerts += texCoords.Num(); * c_numWeights += numWeights; * c_numWeightJoints++; * for ( i = 0; i < numWeights; i++ ) { * c_numWeightJoints += weightIndex[i*2+1]; * }*/ // // build the information that will be common to all animations of this mesh: // silhouette edge connectivity and normal / tangent generation information // Vertex[] verts = new Vertex[_texCoords.Length]; int vertCount = verts.Length; for (int i = 0; i < vertCount; i++) { verts[i].TextureCoordinates = _texCoords[i]; } TransformVertices(verts, joints); idConsole.Warning("TODO: idMD5Mesh Deform"); //_deformInfo = idE.RenderSystem.BuildDeformInformation(verts, tris, _material.UseUnsmoothedTangents); }
public bool LoadAnimation(string fileName) { idToken token; idLexer lexer = new idLexer(LexerOptions.AllowPathNames | LexerOptions.NoStringEscapeCharacters | LexerOptions.NoStringConcatination); if (lexer.LoadFile(fileName) == false) { return(false); } Clear(); _name = fileName; lexer.ExpectTokenString(idRenderModel_MD5.VersionString); int version = lexer.ParseInt(); if (version != idRenderModel_MD5.Version) { lexer.Error("Invalid version {0}. Should be version {1}", version, idRenderModel_MD5.Version); } // skip the commandline lexer.ExpectTokenString("commandline"); lexer.ReadToken(); // parse num frames lexer.ExpectTokenString("numFrames"); int frameCount = lexer.ParseInt(); if (frameCount <= 0) { lexer.Error("Invalid number of frames: {0}", frameCount); } // parse num joints lexer.ExpectTokenString("numJoints"); int jointCount = lexer.ParseInt(); if (jointCount <= 0) { lexer.Error("Invalid number of joints: {0}", jointCount); } // parse frame rate lexer.ExpectTokenString("frameRate"); _frameRate = lexer.ParseInt(); if (_frameRate < 0) { lexer.Error("Invalid frame rate: {0}", _frameRate); } // parse number of animated components lexer.ExpectTokenString("numAnimatedComponents"); _animatedComponentCount = lexer.ParseInt(); if ((_animatedComponentCount < 0) || (_animatedComponentCount > (jointCount * 6))) { lexer.Error("Invalid number of animated components: {0}", _animatedComponentCount); } // parse the hierarchy _jointInfo = new JointAnimationInfo[jointCount]; lexer.ExpectTokenString("hierarchy"); lexer.ExpectTokenString("{"); for (int i = 0; i < jointCount; i++) { token = lexer.ReadToken(); _jointInfo[i] = new JointAnimationInfo(); _jointInfo[i].NameIndex = idR.AnimManager.GetJointIndex(token.ToString()); // parse parent num _jointInfo[i].ParentIndex = lexer.ParseInt(); if (_jointInfo[i].ParentIndex >= i) { lexer.Error("Invalid parent num: {0}", _jointInfo[i].ParentIndex); } if ((i != 0) && (_jointInfo[i].ParentIndex < 0)) { lexer.Error("Animations may have only one root joint"); } // parse anim bits _jointInfo[i].AnimationBits = (AnimationBits)lexer.ParseInt(); if (((int)_jointInfo[i].AnimationBits & ~63) != 0) { lexer.Error("Invalid anim bits: {0}", _jointInfo[i].AnimationBits); } // parse first component _jointInfo[i].FirstComponent = lexer.ParseInt(); if ((_animatedComponentCount > 0) && ((_jointInfo[i].FirstComponent < 0) || (_jointInfo[i].FirstComponent >= _animatedComponentCount))) { lexer.Error("Invalid first component: {0}", _jointInfo[i].FirstComponent); } } lexer.ExpectTokenString("}"); // parse bounds lexer.ExpectTokenString("bounds"); lexer.ExpectTokenString("{"); _bounds = new idBounds[frameCount]; for (int i = 0; i < frameCount; i++) { float[] tmp = lexer.Parse1DMatrix(3); float[] tmp2 = lexer.Parse1DMatrix(3); _bounds[i] = new idBounds( new Vector3(tmp[0], tmp[1], tmp[2]), new Vector3(tmp2[0], tmp2[1], tmp2[2]) ); } lexer.ExpectTokenString("}"); // parse base frame _baseFrame = new idJointQuaternion[jointCount]; lexer.ExpectTokenString("baseframe"); lexer.ExpectTokenString("{"); for (int i = 0; i < jointCount; i++) { float[] tmp = lexer.Parse1DMatrix(3); float[] tmp2 = lexer.Parse1DMatrix(3); idCompressedQuaternion q = new idCompressedQuaternion(tmp2[0], tmp2[1], tmp2[2]); _baseFrame[i] = new idJointQuaternion(); _baseFrame[i].Translation = new Vector3(tmp[0], tmp[1], tmp[2]); _baseFrame[i].Quaternion = q.ToQuaternion(); } lexer.ExpectTokenString("}"); // parse frames _componentFrames = new float[_animatedComponentCount * frameCount]; int frameOffset = 0; for (int i = 0; i < frameCount; i++) { lexer.ExpectTokenString("frame"); int count = lexer.ParseInt(); if (count != i) { lexer.Error("Expected frame number {0}", i); } lexer.ExpectTokenString("{"); for (int j = 0; j < _animatedComponentCount; j++, frameOffset++) { _componentFrames[frameOffset] = lexer.ParseFloat(); } lexer.ExpectTokenString("}"); } // get total move delta if (_animatedComponentCount == 0) { _totalDelta = Vector3.Zero; } else { int componentOffset = _jointInfo[0].FirstComponent; if ((_jointInfo[0].AnimationBits & AnimationBits.TranslationX) == AnimationBits.TranslationX) { for (int i = 0; i < frameCount; i++) { _componentFrames[componentOffset + (_animatedComponentCount * i)] -= _baseFrame[0].Translation.X; } _totalDelta.X = _componentFrames[componentOffset + (_animatedComponentCount * (frameCount - 1))]; componentOffset++; } else { _totalDelta.X = 0; } if ((_jointInfo[0].AnimationBits & AnimationBits.TranslationY) == AnimationBits.TranslationY) { for (int i = 0; i < frameCount; i++) { _componentFrames[componentOffset + (_animatedComponentCount * i)] -= _baseFrame[0].Translation.Y; } _totalDelta.Y = _componentFrames[componentOffset + (_animatedComponentCount * (frameCount - 1))]; componentOffset++; } else { _totalDelta.Y = 0; } if ((_jointInfo[0].AnimationBits & AnimationBits.TranslationZ) == AnimationBits.TranslationZ) { for (int i = 0; i < frameCount; i++) { _componentFrames[componentOffset + (_animatedComponentCount * i)] -= _baseFrame[0].Translation.Z; } _totalDelta.Z = _componentFrames[componentOffset + (_animatedComponentCount * (frameCount - 1))]; } else { _totalDelta.Z = 0; } } _baseFrame[0].Translation = Vector3.Zero; // we don't count last frame because it would cause a 1 frame pause at the end _animLength = ((frameCount - 1) * 1000 + _frameRate - 1) / _frameRate; // done return(true); }
public static idMapBrush ParseQ3(idLexer lexer, Vector3 origin) { int rotate; int[] shift = new int[2]; float[] scale = new float[2]; Vector3[] planePoints = new Vector3[3]; List <idMapBrushSide> sides = new List <idMapBrushSide>(); idMapBrushSide side; idToken token; do { if (lexer.CheckTokenString("}") == true) { break; } side = new idMapBrushSide(); sides.Add(side); // read the three point plane definition float[] tmp = lexer.Parse1DMatrix(3); float[] tmp2 = lexer.Parse1DMatrix(3); float[] tmp3 = lexer.Parse1DMatrix(3); if ((tmp == null) || (tmp2 == null) || (tmp3 == null)) { lexer.Error("idMapBrush::ParseQ3: unable to read brush side plane definition"); return(null); } planePoints[0] = new Vector3(tmp[0], tmp[1], tmp[2]) - origin; planePoints[1] = new Vector3(tmp2[0], tmp2[1], tmp2[2]) - origin; planePoints[2] = new Vector3(tmp3[0], tmp3[1], tmp3[2]) - origin; side.Plane.FromPoints(planePoints[0], planePoints[1], planePoints[2]); // read the material token = lexer.ReadTokenOnLine(); if (token == null) { lexer.Error("idMapBrush::ParseQ3: unable to read brush side material"); return(null); } // we have an implicit 'textures/' in the old format side.Material = "textures/" + token.ToString(); // read the texture shift, rotate and scale shift[0] = lexer.ParseInt(); shift[1] = lexer.ParseInt(); rotate = lexer.ParseInt(); scale[0] = lexer.ParseFloat(); scale[1] = lexer.ParseFloat(); side.TextureMatrix[0] = new Vector3(0.03125f, 0.0f, 0.0f); side.TextureMatrix[1] = new Vector3(0.0f, 0.03125f, 0.0f); side.Origin = origin; // Q2 allowed override of default flags and values, but we don't any more if (lexer.ReadTokenOnLine() != null) { if (lexer.ReadTokenOnLine() != null) { if (lexer.ReadTokenOnLine() != null) { } } } }while(true); idMapBrush brush = new idMapBrush(); for (int i = 0; i < sides.Count; i++) { brush.AddSide(sides[i]); } brush.Dict = new idDict(); return(brush); }
public static idMapBrush Parse(idLexer lexer, Vector3 origin, bool newFormat = true, float version = idMapFile.CurrentMapVersion) { idToken token; idMapBrushSide side; List <idMapBrushSide> sides = new List <idMapBrushSide>(); idDict dict = new idDict(); Vector3[] planePoints = new Vector3[3]; if (lexer.ExpectTokenString("{") == false) { return(null); } do { if ((token = lexer.ReadToken()) == null) { lexer.Error("idMapBrush::Parse: unexpected EOF"); return(null); } if (token.ToString() == "}") { break; } // here we may have to jump over brush epairs ( only used in editor ) do { // if token is a brace if (token.ToString() == "(") { break; } // the token should be a key string for a key/value pair if (token.Type != TokenType.String) { lexer.Error("idMapBrush::Parse: unexpected {0}, expected ( or epair key string", token.ToString()); return(null); } string key = token.ToString(); if (((token = lexer.ReadTokenOnLine()) == null) || (token.Type != TokenType.String)) { lexer.Error("idMapBrush::Parse: expected epair value string not found"); return(null); } dict.Set(key, token.ToString()); // try to read the next key if ((token = lexer.ReadToken()) == null) { lexer.Error("idMapBrush::Parse: unexpected EOF"); return(null); } }while(true); lexer.UnreadToken = token; side = new idMapBrushSide(); sides.Add(side); if (newFormat == true) { float[] tmp = lexer.Parse1DMatrix(4); if (tmp == null) { lexer.Error("idMapBrush::Parse: unable to read brush side plane definition"); return(null); } else { side.Plane = new Plane(tmp[0], tmp[1], tmp[2], tmp[3]); } } else { // read the three point plane definition float[] tmp, tmp2, tmp3; if (((tmp = lexer.Parse1DMatrix(3)) == null) || ((tmp2 = lexer.Parse1DMatrix(3)) == null) || ((tmp3 = lexer.Parse1DMatrix(3)) == null)) { lexer.Error("idMapBrush::Parse: unable to read brush side plane definition"); return(null); } planePoints[0] = new Vector3(tmp[0], tmp[1], tmp[2]) - origin; planePoints[1] = new Vector3(tmp2[0], tmp2[1], tmp2[2]) - origin; planePoints[2] = new Vector3(tmp3[0], tmp3[1], tmp3[2]) - origin; side.Plane.FromPoints(planePoints[0], planePoints[1], planePoints[2]); } // read the texture matrix // this is odd, because the texmat is 2D relative to default planar texture axis float[,] tmp5 = lexer.Parse2DMatrix(2, 3); if (tmp5 == null) { lexer.Error("idMapBrush::Parse: unable to read brush side texture matrix"); return(null); } side.TextureMatrix[0] = new Vector3(tmp5[0, 0], tmp5[0, 1], tmp5[0, 2]); side.TextureMatrix[1] = new Vector3(tmp5[1, 0], tmp5[1, 1], tmp5[1, 2]); side.Origin = origin; // read the material if ((token = lexer.ReadTokenOnLine()) == null) { lexer.Error("idMapBrush::Parse: unable to read brush side material"); return(null); } // we had an implicit 'textures/' in the old format... if (version < 2.0f) { side.Material = "textures/" + token.ToString(); } else { side.Material = token.ToString(); } // Q2 allowed override of default flags and values, but we don't any more if (lexer.ReadTokenOnLine() != null) { if (lexer.ReadTokenOnLine() != null) { if (lexer.ReadTokenOnLine() != null) { } } } }while(true); if (lexer.ExpectTokenString("}") == false) { return(null); } idMapBrush brush = new idMapBrush(); foreach (idMapBrushSide s in sides) { brush.AddSide(s); } brush.Dict = dict; return(brush); }
public static idMapPatch Parse(idLexer lexer, Vector3 origin, bool patchDef3 = true, float version = idMapFile.CurrentMapVersion) { if (lexer.ExpectTokenString("{") == false) { return(null); } // read the material (we had an implicit 'textures/' in the old format...) idToken token = lexer.ReadToken(); if (token == null) { lexer.Error("idMapPatch::Parse: unexpected EOF"); return(null); } // Parse it float[] info; if (patchDef3 == true) { info = lexer.Parse1DMatrix(7); if (info == null) { lexer.Error("idMapPatch::Parse: unable to Parse patchDef3 info"); return(null); } } else { info = lexer.Parse1DMatrix(5); if (info == null) { lexer.Error("idMapPatch::Parse: unable to parse patchDef2 info"); return(null); } } idMapPatch patch = new idMapPatch((int)info[0], (int)info[1]); if (version < 2.0f) { patch.Material = "textures/" + token.ToString(); } else { patch.Material = token.ToString(); } if (patchDef3 == true) { patch.HorizontalSubdivisions = (int)info[2]; patch.VerticalSubdivisions = (int)info[3]; patch.ExplicitlySubdivided = true; } if ((patch.Width < 0) || (patch.Height < 0)) { lexer.Error("idMapPatch::Parse: bad size"); return(null); } // these were written out in the wrong order, IMHO if (lexer.ExpectTokenString("(") == false) { lexer.Error("idMapPatch::Parse: bad patch vertex data"); return(null); } for (int j = 0; j < patch.Width; j++) { if (lexer.ExpectTokenString("(") == false) { lexer.Error("idMapPatch::Parse: bad vertex row data"); return(null); } for (int i = 0; i < patch.Height; i++) { float[] v = lexer.Parse1DMatrix(5); if (v == null) { lexer.Error("idMapPatch::Parse: bad vertex column data"); return(null); } Vertex vert = new Vertex(); vert.Position.X = v[0] - origin.X; vert.Position.Y = v[1] - origin.Y; vert.Position.Z = v[2] - origin.Z; vert.TextureCoordinates = new Vector2(v[3], v[4]); patch.SetVertex(i * patch.Width + j, vert); } if (lexer.ExpectTokenString(")") == false) { lexer.Error("idMapPatch::Parse: unable to parse patch control points"); return(null); } } if (lexer.ExpectTokenString(")") == false) { lexer.Error("idMapPatch::Parse: unable to parse patch control points, no closure"); return(null); } // read any key/value pairs while ((token = lexer.ReadToken()) != null) { if (token.ToString() == "}") { lexer.ExpectTokenString("}"); break; } if (token.Type == TokenType.String) { string key = token.ToString(); token = lexer.ExpectTokenType(TokenType.String, 0); patch.Dict.Set(key, token.ToString()); } } return(patch); }
public override bool Parse(string text) { if (this.Disposed == true) { throw new ObjectDisposedException(this.GetType().Name); } idLexer lexer = new idLexer(idDeclFile.LexerOptions); lexer.LoadMemory(text, this.FileName, this.LineNumber); lexer.SkipUntilString("{"); int defaultAnimationCount = 0; idToken token; idToken token2; string tokenValue; string fileName; string extension; int count; idMD5Joint[] md5Joints; while (true) { if ((token = lexer.ReadToken()) == null) { break; } tokenValue = token.ToString(); if (tokenValue == "}") { break; } if (tokenValue == "inherit") { idConsole.WriteLine("TODO: inherit"); /*if( !src.ReadToken( &token2 ) ) { * src.Warning( "Unexpected end of file" ); * MakeDefault(); * return false; * } * * const idDeclModelDef *copy = static_cast<const idDeclModelDef *>( declManager->FindType( DECL_MODELDEF, token2, false ) ); * if ( !copy ) { * common->Warning( "Unknown model definition '%s'", token2.c_str() ); * } else if ( copy->GetState() == DS_DEFAULTED ) { * common->Warning( "inherited model definition '%s' defaulted", token2.c_str() ); * MakeDefault(); * return false; * } else { * CopyDecl( copy ); * numDefaultAnims = anims.Num(); * }*/ } else if (tokenValue == "skin") { if ((token2 = lexer.ReadToken()) == null) { lexer.Warning("Unexpected end of file"); MakeDefault(); return(false); } _skin = idE.DeclManager.FindSkin(token2.ToString()); if (_skin == null) { lexer.Warning("Skin '{0}' not found", token2.ToString()); MakeDefault(); return(false); } } else if (tokenValue == "mesh") { if ((token2 = lexer.ReadToken()) == null) { lexer.Warning("Unexpected end of file"); MakeDefault(); return(false); } fileName = token2.ToString(); extension = Path.GetExtension(fileName); if (extension != idRenderModel_MD5.MeshExtension) { lexer.Warning("Invalid model for MD5 mesh"); MakeDefault(); return(false); } _model = idE.RenderModelManager.FindModel(fileName); if (_model == null) { lexer.Warning("Model '{0}' not found", fileName); MakeDefault(); return(false); } else if (_model.IsDefault == true) { lexer.Warning("Model '{0}' defaulted", fileName); MakeDefault(); return(false); } // get the number of joints count = _model.JointCount; if (count == 0) { lexer.Warning("Model '{0}' has no joints", fileName); } // set up the joint hierarchy md5Joints = _model.Joints; _joints = new JointInfo[count]; _jointParents = new int[count]; _channelJoints = new int[(int)AnimationChannel.Count][]; _channelJoints[0] = new int[count]; for (int i = 0; i < count; i++) { _joints[i] = new JointInfo(); _joints[i].Channel = AnimationChannel.All; _joints[i].Index = i; if (md5Joints[i].Parent != null) { _joints[i].ParentIndex = _model.GetJointIndex(md5Joints[i].Parent); } else { _joints[i].ParentIndex = -1; } _jointParents[i] = _joints[i].ParentIndex; _channelJoints[0][i] = i; } } else if (tokenValue == "remove") { idConsole.Warning("TODO: remove"); // removes any anims whos name matches /*if( !src.ReadToken( &token2 ) ) { * src.Warning( "Unexpected end of file" ); * MakeDefault(); * return false; * } * num = 0; * for( i = 0; i < anims.Num(); i++ ) { * if ( ( token2 == anims[ i ]->Name() ) || ( token2 == anims[ i ]->FullName() ) ) { * delete anims[ i ]; * anims.RemoveIndex( i ); * if ( i >= numDefaultAnims ) { * src.Warning( "Anim '%s' was not inherited. Anim should be removed from the model def.", token2.c_str() ); * MakeDefault(); * return false; * } * i--; * numDefaultAnims--; * num++; * continue; * } * } * if ( !num ) { * src.Warning( "Couldn't find anim '%s' to remove", token2.c_str() ); * MakeDefault(); * return false; * }*/ } else if (tokenValue == "anim") { if (_model == null) { lexer.Warning("Must specify mesh before defining anims"); MakeDefault(); return(false); } else if (ParseAnimation(lexer, defaultAnimationCount) == false) { MakeDefault(); return(false); } } else if (tokenValue == "offset") { float[] tmp = lexer.Parse1DMatrix(3); if (tmp == null) { lexer.Warning("Expected vector following 'offset'"); MakeDefault(); return(false); } _offset = new Vector3(tmp[0], tmp[1], tmp[2]); } else if (tokenValue == "channel") { if (_model == null) { lexer.Warning("Must specify mesh before defining channels"); MakeDefault(); return(false); } // set the channel for a group of joints if ((token2 = lexer.ReadToken()) == null) { lexer.Warning("Unexpected end of file"); MakeDefault(); return(false); } if (lexer.CheckTokenString("(") == false) { lexer.Warning("Expected { after '{0}'", token2.ToString()); MakeDefault(); return(false); } int i; int channelCount = (int)AnimationChannel.Count; for (i = (int)AnimationChannel.All + 1; i < channelCount; i++) { if (ChannelNames[i].Equals(token2.ToString(), StringComparison.OrdinalIgnoreCase) == true) { break; } } if (i >= channelCount) { lexer.Warning("Unknown channel '{0}'", token2.ToString()); MakeDefault(); return(false); } int channel = i; StringBuilder jointNames = new StringBuilder(); string token2Value; while (lexer.CheckTokenString(")") == false) { if ((token2 = lexer.ReadToken()) == null) { lexer.Warning("Unexpected end of file"); MakeDefault(); return(false); } token2Value = token2.ToString(); jointNames.Append(token2Value); if ((token2Value != "*") && (token2Value != "-")) { jointNames.Append(" "); } } int[] jointList = GetJointList(jointNames.ToString()); int jointLength = jointList.Length; List <int> channelJoints = new List <int>(); for (count = i = 0; i < jointLength; i++) { int jointIndex = jointList[i]; if (_joints[jointIndex].Channel != AnimationChannel.All) { lexer.Warning("Join '{0}' assigned to multiple channels", _model.GetJointName(jointIndex)); continue; } _joints[jointIndex].Channel = (AnimationChannel)channel; channelJoints.Add(jointIndex); } _channelJoints[channel] = channelJoints.ToArray(); } else { lexer.Warning("unknown token '{0}'", token.ToString()); MakeDefault(); return(false); } } return(true); }