internal ContentEncodings(Stream stream) { List <ContentEncoding> contentEncodinglist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.ContentEncoding: if (null == contentEncodinglist) { contentEncodinglist = new List <ContentEncoding>(); } contentEncodinglist.Add(new ContentEncoding(stream)); break; default: reader.skipElement(); break; } } if (contentEncodinglist != null) { contentEncoding = contentEncodinglist.ToArray(); } }
internal Attachments(Stream stream) { List <AttachedFile> attachedFilelist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.AttachedFile: if (null == attachedFilelist) { attachedFilelist = new List <AttachedFile>(); } attachedFilelist.Add(new AttachedFile(stream)); break; default: reader.skipElement(); break; } } if (attachedFilelist != null) { attachedFile = attachedFilelist.ToArray(); } }
internal CueReference(Stream stream) { cueRefTime = default; cueRefCluster = default; cueRefNumber = 1; cueRefCodecState = 0; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.CueRefTime: cueRefTime = reader.readUlong(); break; case eElement.CueRefCluster: cueRefCluster = reader.readUlong(); break; case eElement.CueRefNumber: cueRefNumber = reader.readUlong(1); break; case eElement.CueRefCodecState: cueRefCodecState = reader.readUlong(0); break; default: reader.skipElement(); break; } } }
internal ChapterTrack(Stream stream) { List <ulong> chapterTrackUIDlist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.ChapterTrackUID: if (null == chapterTrackUIDlist) { chapterTrackUIDlist = new List <ulong>(); } chapterTrackUIDlist.Add(reader.readUlong()); break; default: reader.skipElement(); break; } } if (chapterTrackUIDlist != null) { chapterTrackUID = chapterTrackUIDlist.ToArray(); } }
internal Chapters(Stream stream) { List <EditionEntry> editionEntrylist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.EditionEntry: if (null == editionEntrylist) { editionEntrylist = new List <EditionEntry>(); } editionEntrylist.Add(new EditionEntry(stream)); break; default: reader.skipElement(); break; } } if (editionEntrylist != null) { editionEntry = editionEntrylist.ToArray(); } }
internal ContentEncoding(Stream stream) { ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.ContentEncodingOrder: contentEncodingOrder = reader.readUlong(0); break; case eElement.ContentEncodingScope: contentEncodingScope = (eContentEncodingScope)reader.readByte(1); break; case eElement.ContentEncodingType: contentEncodingType = (eContentEncodingType)reader.readByte(0); break; case eElement.ContentCompression: contentCompression = new ContentCompression(stream); break; case eElement.ContentEncryption: contentEncryption = new ContentEncryption(stream); break; default: reader.skipElement(); break; } } }
internal Cues(Stream stream) { cuePoint = default; List <CuePoint> cuePointlist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.CuePoint: if (null == cuePointlist) { cuePointlist = new List <CuePoint>(); } cuePointlist.Add(new CuePoint(stream)); break; default: reader.skipElement(); break; } } if (cuePointlist != null) { cuePoint = cuePointlist.ToArray(); } }
internal ClusterPlaceholder(Stream stream, long segmentOffset) { long filePosition = stream.Position - 4; // 4 for the cluster header. segmentPosition = filePosition - segmentOffset; timestamp = default; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { bool fastForward = false; eElement id = reader.readElementId(); switch (id) { case eElement.Timestamp: timestamp = reader.readUlong(); break; default: fastForward = true; break; } if (fastForward) { break; } } stream.Seek(reader.endPosition, SeekOrigin.Begin); }
private void DisplayElementLabel(eElement element) { string label = element.ToString().ToLower(); char[] a = label.ToCharArray(); a[0] = char.ToUpper(a[0]); label = new string (a); GUIStyle fontColour = new GUIStyle(); fontColour.fontStyle = FontStyle.Bold; switch (element) { case eElement.FIRE: fontColour.normal.textColor = fire; break; case eElement.EARTH: fontColour.normal.textColor = earth; break; case eElement.AIR: fontColour.normal.textColor = air; break; case eElement.WATER: fontColour.normal.textColor = water; break; } EditorGUILayout.LabelField(label + " Damage:", fontColour, GUILayout.MaxWidth(100)); }
internal BlockAdditions(Stream stream) { List <BlockMore> blockMorelist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.BlockMore: if (null == blockMorelist) { blockMorelist = new List <BlockMore>(); } blockMorelist.Add(new BlockMore(stream)); break; default: reader.skipElement(); break; } } if (blockMorelist != null) { blockMore = blockMorelist.ToArray(); } }
internal SeekHead(Stream stream) { List <Seek> seeklist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.Seek: if (null == seeklist) { seeklist = new List <Seek>(); } seeklist.Add(new Seek(stream)); break; default: reader.skipElement(); break; } } if (seeklist != null) { seek = seeklist.ToArray(); } }
internal CuePoint(Stream stream) { cueTime = default; cueTrackPositions = default; List <CueTrackPositions> cueTrackPositionslist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.CueTime: cueTime = reader.readUlong(); break; case eElement.CueTrackPositions: if (null == cueTrackPositionslist) { cueTrackPositionslist = new List <CueTrackPositions>(); } cueTrackPositionslist.Add(new CueTrackPositions(stream)); break; default: reader.skipElement(); break; } } if (cueTrackPositionslist != null) { cueTrackPositions = cueTrackPositionslist.ToArray(); } }
internal TrackJoinBlocks(Stream stream) { List <ulong> trackJoinUIDlist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.TrackJoinUID: if (null == trackJoinUIDlist) { trackJoinUIDlist = new List <ulong>(); } trackJoinUIDlist.Add(reader.readUlong()); break; default: reader.skipElement(); break; } } if (trackJoinUIDlist != null) { trackJoinUID = trackJoinUIDlist.ToArray(); } }
internal Slices(Stream stream) { timeSlice = default; List <TimeSlice> timeSlicelist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.TimeSlice: if (null == timeSlicelist) { timeSlicelist = new List <TimeSlice>(); } timeSlicelist.Add(new TimeSlice(stream)); break; default: reader.skipElement(); break; } } if (timeSlicelist != null) { timeSlice = timeSlicelist.ToArray(); } }
internal BlockAdditionMapping(Stream stream) { ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.BlockAddIDValue: blockAddIDValue = reader.readUlong(); break; case eElement.BlockAddIDName: blockAddIDName = reader.readAscii(); break; case eElement.BlockAddIDType: blockAddIDType = reader.readUlong(0); break; case eElement.BlockAddIDExtraData: blockAddIDExtraData = Blob.read(reader); break; default: reader.skipElement(); break; } } }
internal Audio(Stream stream) { ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.SamplingFrequency: samplingFrequency = reader.readFloat(8000); break; case eElement.OutputSamplingFrequency: outputSamplingFrequency = reader.readFloat(); break; case eElement.Channels: channels = reader.readUlong(1); break; case eElement.ChannelPositions: channelPositions = Blob.read(reader); break; case eElement.BitDepth: bitDepth = reader.readUlong(); break; default: reader.skipElement(); break; } } }
private void SetElementalLogString(int damage, eElement element) { switch (element) { case eElement.NEUTRAL: SetLogText(unitName + " was hit for <color=#CACACAFF>" + damage + " " + element.ToString().ToLower() + "</color> damage."); break; case eElement.EARTH: SetLogText(unitName + " was hit for <color=#BF860BFF>" + damage + " " + element.ToString().ToLower() + "</color> damage."); break; case eElement.FIRE: SetLogText(unitName + " was hit for <color=#FF0000FF>" + damage + " " + element.ToString().ToLower() + "</color> damage."); break; case eElement.AIR: SetLogText(unitName + " was hit for <color=#20902AFF>" + damage + " " + element.ToString().ToLower() + "</color> damage."); break; case eElement.WATER: SetLogText(unitName + " was hit for <color=#00ACE5FF>" + damage + " " + element.ToString().ToLower() + "</color> damage."); break; } }
internal TrackCombinePlanes(Stream stream) { List <TrackPlane> trackPlanelist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.TrackPlane: if (null == trackPlanelist) { trackPlanelist = new List <TrackPlane>(); } trackPlanelist.Add(new TrackPlane(stream)); break; default: reader.skipElement(); break; } } if (trackPlanelist != null) { trackPlane = trackPlanelist.ToArray(); } }
internal Tags(Stream stream) { List <Tag> taglist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.Tag: if (null == taglist) { taglist = new List <Tag>(); } taglist.Add(new Tag(stream)); break; default: reader.skipElement(); break; } } if (taglist != null) { tag = taglist.ToArray(); } }
internal SilentTracks(Stream stream) { List <ulong> silentTrackNumberlist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.SilentTrackNumber: if (null == silentTrackNumberlist) { silentTrackNumberlist = new List <ulong>(); } silentTrackNumberlist.Add(reader.readUlong()); break; default: reader.skipElement(); break; } } if (silentTrackNumberlist != null) { silentTrackNumber = silentTrackNumberlist.ToArray(); } }
internal Tag(Stream stream) { List <SimpleTag> simpleTaglist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.Targets: targets = new Targets(stream); break; case eElement.SimpleTag: if (null == simpleTaglist) { simpleTaglist = new List <SimpleTag>(); } simpleTaglist.Add(new SimpleTag(stream)); break; default: reader.skipElement(); break; } } if (simpleTaglist != null) { simpleTag = simpleTaglist.ToArray(); } }
public EBML(Stream stream) { ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.stream.readElementId(); switch (id) { case eElement.EBMLVersion: version = reader.readUint(1); break; case eElement.EBMLReadVersion: readVersion = reader.readUint(1); break; case eElement.DocType: docType = reader.readAscii(); break; default: reader.skipElement(); break; } } }
internal Projection(Stream stream) { ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.ProjectionType: projectionType = (eProjectionType)reader.readByte(0); break; case eElement.ProjectionPrivate: projectionPrivate = Blob.read(reader); break; case eElement.ProjectionPoseYaw: projectionPoseYaw = reader.readFloat(0); break; case eElement.ProjectionPosePitch: projectionPosePitch = reader.readFloat(0); break; case eElement.ProjectionPoseRoll: projectionPoseRoll = reader.readFloat(0); break; default: reader.skipElement(); break; } } }
internal CueTrackPositions(Stream stream) { cueTrack = default; cueClusterPosition = default; cueRelativePosition = default; cueDuration = default; cueBlockNumber = 1; cueCodecState = 0; cueReference = default; List <CueReference> cueReferencelist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.CueTrack: cueTrack = reader.readUlong(); break; case eElement.CueClusterPosition: cueClusterPosition = reader.readUlong(); break; case eElement.CueRelativePosition: cueRelativePosition = reader.readUlong(); break; case eElement.CueDuration: cueDuration = reader.readUlong(); break; case eElement.CueBlockNumber: cueBlockNumber = reader.readUlong(1); break; case eElement.CueCodecState: cueCodecState = reader.readUlong(0); break; case eElement.CueReference: if (null == cueReferencelist) { cueReferencelist = new List <CueReference>(); } cueReferencelist.Add(new CueReference(stream)); break; default: reader.skipElement(); break; } } if (cueReferencelist != null) { cueReference = cueReferencelist.ToArray(); } }
public AbilityHitInfo(eEffectType et, GridCell target, eDisplacementType type) { location = target; dType = type; val = 0; element = eElement.NEUTRAL; effectType = et; }
public AbilityHitInfo(eEffectType et, int v, eElement e) { val = v; element = e; effectType = et; location = null; dType = eDisplacementType.BLINK; }
internal ChapterDisplay(Stream stream) { List <string> chapLanguagelist = null; List <string> chapLanguageIETFlist = null; List <string> chapCountrylist = null; ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.ChapString: chapString = reader.readUtf8(); break; case eElement.ChapLanguage: if (null == chapLanguagelist) { chapLanguagelist = new List <string>(); } chapLanguagelist.Add(reader.readAscii()); break; case eElement.ChapLanguageIETF: if (null == chapLanguageIETFlist) { chapLanguageIETFlist = new List <string>(); } chapLanguageIETFlist.Add(reader.readAscii()); break; case eElement.ChapCountry: if (null == chapCountrylist) { chapCountrylist = new List <string>(); } chapCountrylist.Add(reader.readAscii()); break; default: reader.skipElement(); break; } } if (chapLanguagelist != null) { chapLanguage = chapLanguagelist.ToArray(); } if (chapLanguageIETFlist != null) { chapLanguageIETF = chapLanguageIETFlist.ToArray(); } if (chapCountrylist != null) { chapCountry = chapCountrylist.ToArray(); } }
private void CopyBuffDebuffProperty(BuffDebuffProperty prop) { eStat stat = new eStat(); stat = prop.stat; eElement res = new eElement(); res = prop.resistance; MinMaxValue[] values = new MinMaxValue[5]; int[] durations = new int[5]; for (int i = 0; i < 5; i++) { MinMaxValue val = new MinMaxValue(prop.valuePerLevel [i].min, prop.valuePerLevel [i].max); values [i] = val; } for (int i = 0; i < 5; i++) { int val = prop.durationPerLevel [i]; durations [i] = val; } bool isResist = prop.isResistanceModifier; bool resistable = prop.resistable; bool isBuff = prop.isBuff; bool targetCaster = prop.targetCasterOverride; bool affectCaster = prop.affectsCaster; bool allies = prop.affectsAllyPlayers; bool allySummon = prop.affectsAllySummons; bool enemies = prop.affectsEnemyPlayers; bool enemySummon = prop.affectsAllySummons; BuffDebuffProperty newProp = new BuffDebuffProperty(); newProp.isResistanceModifier = isResist; newProp.isBuff = isBuff; newProp.resistable = resistable; newProp.resistance = res; newProp.stat = stat; newProp.valuePerLevel = values; newProp.targetCasterOverride = targetCaster; newProp.affectsCaster = affectCaster; newProp.affectsAllyPlayers = allies; newProp.affectsAllySummons = allySummon; newProp.affectsEnemyPlayers = enemies; newProp.affectsEnemySummons = enemySummon; ability.critBuffDebuffEffects.Add(newProp); }
internal MasteringMetadata(Stream stream) { ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.PrimaryRChromaticityX: primaryRChromaticityX = reader.readFloat(); break; case eElement.PrimaryRChromaticityY: primaryRChromaticityY = reader.readFloat(); break; case eElement.PrimaryGChromaticityX: primaryGChromaticityX = reader.readFloat(); break; case eElement.PrimaryGChromaticityY: primaryGChromaticityY = reader.readFloat(); break; case eElement.PrimaryBChromaticityX: primaryBChromaticityX = reader.readFloat(); break; case eElement.PrimaryBChromaticityY: primaryBChromaticityY = reader.readFloat(); break; case eElement.WhitePointChromaticityX: whitePointChromaticityX = reader.readFloat(); break; case eElement.WhitePointChromaticityY: whitePointChromaticityY = reader.readFloat(); break; case eElement.LuminanceMax: luminanceMax = reader.readFloat(); break; case eElement.LuminanceMin: luminanceMin = reader.readFloat(); break; default: reader.skipElement(); break; } } }
public void SetMotionPos(int frame, float pos, eElement e) { if (motionPos.ContainsKey(frame) == false) motionPos.Add(frame, new Vec3()); Vec3 newVal = motionPos[frame]; switch (e) { case eElement.X: newVal.X = pos; break; case eElement.Y: newVal.Y = pos; break; case eElement.Z: newVal.Z = pos; break; } motionPos[frame] = newVal; }
internal AttachedFile(Stream stream) { ElementReader reader = new ElementReader(stream); while (!reader.EOF) { eElement id = reader.readElementId(); switch (id) { case eElement.FileDescription: fileDescription = reader.readUtf8(); break; case eElement.FileName: fileName = reader.readUtf8(); break; case eElement.FileMimeType: fileMimeType = reader.readAscii(); break; case eElement.FileData: fileData = Blob.read(reader); break; case eElement.FileUID: fileUID = reader.readUlong(); break; case eElement.FileReferral: fileReferral = Blob.read(reader); break; case eElement.FileUsedStartTime: fileUsedStartTime = reader.readUlong(); break; case eElement.FileUsedEndTime: fileUsedEndTime = reader.readUlong(); break; default: reader.skipElement(); break; } } }
public void SetMotionRot(int frame, float rot, eElement e) { if (motionRot.ContainsKey(frame) == false) motionRot.Add(frame, new Vec3()); Vec3 newVal = motionRot[frame]; switch (e) { case eElement.X: newVal.X = rot; break; case eElement.Y: newVal.Y = rot; break; case eElement.Z: newVal.Z = rot; break; } motionRot[frame] = newVal; }