Exemplos de Gibbed.Avalanche.FileFormats.Property Matrix3x3Variant em C# (CSharp)

Linguagem de programação: C# (CSharp)

Espaço para nome / nome do pacote: Gibbed.Avalanche.FileFormats.Property

Classe / Tipo: Matrix3x3Variant

Exemplos em hotexamples.com: 2

Gibbed.Avalanche.FileFormats.Property Matrix3x3Variant em C# (CSharp) - 2 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de Gibbed.Avalanche.FileFormats.Property.Matrix3x3Variant em C# (CSharp) extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

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Exemplo n.º 1

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Arquivo: BlackboardPropertyFile.cs Projeto: UnforeseenOcean/Gibbed.Avalanche

private Property.IVariant DeserializeVariant(MemoryStream input) { var endian = this.Endian; var type = input.ReadValueEnum <VariantType>(); switch (type) { case VariantType.Integer: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.IntegerVariant(); // ReSharper restore UseObjectOrCollectionInitializer variant.Value = input.ReadValueS32(endian); return(variant); } case VariantType.Float: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.FloatVariant(); // ReSharper restore UseObjectOrCollectionInitializer variant.Value = input.ReadValueF32(endian); return(variant); } case VariantType.String: { var offset = input.ReadValueS32(endian); if (offset == -1) { return(new Property.StringVariant()); } input.Seek(offset, SeekOrigin.Begin); // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.StringVariant(); // ReSharper restore UseObjectOrCollectionInitializer variant.Value = input.ReadStringZ(Encoding.ASCII); return(variant); } case VariantType.Vector2: { var offset = input.ReadValueS32(endian); if (offset == -1) { return(new Property.Vector2Variant()); } input.Seek(offset, SeekOrigin.Begin); // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Vector2Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.X = input.ReadValueF32(endian); variant.Y = input.ReadValueF32(endian); return(variant); } case VariantType.Vector3: { var offset = input.ReadValueS32(endian); if (offset == -1) { return(new Property.Vector3Variant()); } input.Seek(offset, SeekOrigin.Begin); // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Vector3Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.X = input.ReadValueF32(endian); variant.Y = input.ReadValueF32(endian); variant.Z = input.ReadValueF32(endian); return(variant); } case VariantType.Vector4: { var offset = input.ReadValueS32(endian); if (offset == -1) { return(new Property.Vector4Variant()); } input.Seek(offset, SeekOrigin.Begin); // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Vector4Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.X = input.ReadValueF32(endian); variant.Y = input.ReadValueF32(endian); variant.Z = input.ReadValueF32(endian); variant.W = input.ReadValueF32(endian); return(variant); } case VariantType.Matrix3x3: { var offset = input.ReadValueS32(endian); if (offset == -1) { return(new Property.Matrix3x3Variant()); } input.Seek(offset, SeekOrigin.Begin); // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Matrix3x3Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.M11 = input.ReadValueF32(endian); variant.M12 = input.ReadValueF32(endian); variant.M13 = input.ReadValueF32(endian); variant.M21 = input.ReadValueF32(endian); variant.M22 = input.ReadValueF32(endian); variant.M23 = input.ReadValueF32(endian); variant.M31 = input.ReadValueF32(endian); variant.M32 = input.ReadValueF32(endian); variant.M33 = input.ReadValueF32(endian); return(variant); } case VariantType.Matrix4x4: { var offset = input.ReadValueS32(endian); if (offset == -1) { return(new Property.Matrix4x4Variant()); } input.Seek(offset, SeekOrigin.Begin); // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Matrix4x4Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.M11 = input.ReadValueF32(endian); variant.M12 = input.ReadValueF32(endian); variant.M13 = input.ReadValueF32(endian); variant.M14 = input.ReadValueF32(endian); variant.M21 = input.ReadValueF32(endian); variant.M22 = input.ReadValueF32(endian); variant.M23 = input.ReadValueF32(endian); variant.M24 = input.ReadValueF32(endian); variant.M31 = input.ReadValueF32(endian); variant.M32 = input.ReadValueF32(endian); variant.M33 = input.ReadValueF32(endian); variant.M34 = input.ReadValueF32(endian); variant.M41 = input.ReadValueF32(endian); variant.M42 = input.ReadValueF32(endian); variant.M43 = input.ReadValueF32(endian); variant.M44 = input.ReadValueF32(endian); return(variant); } case VariantType.Integers: { var offset = input.ReadValueS32(endian); if (offset == -1) { return(new Property.IntegersVariant()); } input.Seek(offset, SeekOrigin.Begin); var size = input.ReadValueS32(endian); if ((size % 4) != 0) { throw new FormatException(); } var variant = new Property.IntegersVariant(); int count = size / 4; variant.Values.Clear(); for (int i = 0; i < count; i++) { variant.Values.Add(input.ReadValueS32(endian)); } return(variant); } case VariantType.Floats: { var offset = input.ReadValueS32(endian); if (offset == -1) { return(new Property.FloatsVariant()); } input.Seek(offset, SeekOrigin.Begin); var size = input.ReadValueS32(endian); if ((size % 4) != 0) { throw new FormatException(); } var variant = new Property.FloatsVariant(); int count = size / 4; variant.Values.Clear(); for (int i = 0; i < count; i++) { variant.Values.Add(input.ReadValueF32(endian)); } return(variant); } } throw new FormatException("unsupported variant type " + type.ToString()); }

Exemplo n.º 2

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private Property.IVariant DeserializeVariant(Stream input) { var endian = this.Endian; var type = (VariantType)input.ReadValueU8(); switch (type) { case VariantType.Integer: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.IntegerVariant(); // ReSharper restore UseObjectOrCollectionInitializer variant.Value = input.ReadValueS32(endian); return(variant); } case VariantType.Float: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.FloatVariant(); // ReSharper restore UseObjectOrCollectionInitializer variant.Value = input.ReadValueF32(endian); return(variant); } case VariantType.String: { var variant = new Property.StringVariant(); ushort length = input.ReadValueU16(endian); variant.Value = input.ReadString(length, true, Encoding.ASCII); return(variant); } case VariantType.Vector2: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Vector2Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.X = input.ReadValueF32(endian); variant.Y = input.ReadValueF32(endian); return(variant); } case VariantType.Vector3: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Vector3Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.X = input.ReadValueF32(endian); variant.Y = input.ReadValueF32(endian); variant.Z = input.ReadValueF32(endian); return(variant); } case VariantType.Vector4: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Vector4Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.X = input.ReadValueF32(endian); variant.Y = input.ReadValueF32(endian); variant.Z = input.ReadValueF32(endian); variant.W = input.ReadValueF32(endian); return(variant); } case VariantType.Matrix3x3: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Matrix3x3Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.M11 = input.ReadValueF32(endian); variant.M12 = input.ReadValueF32(endian); variant.M13 = input.ReadValueF32(endian); variant.M21 = input.ReadValueF32(endian); variant.M22 = input.ReadValueF32(endian); variant.M23 = input.ReadValueF32(endian); variant.M31 = input.ReadValueF32(endian); variant.M32 = input.ReadValueF32(endian); variant.M33 = input.ReadValueF32(endian); return(variant); } case VariantType.Matrix4x3: { // ReSharper disable UseObjectOrCollectionInitializer var variant = new Property.Matrix4x3Variant(); // ReSharper restore UseObjectOrCollectionInitializer variant.M11 = input.ReadValueF32(endian); variant.M12 = input.ReadValueF32(endian); variant.M13 = input.ReadValueF32(endian); variant.M21 = input.ReadValueF32(endian); variant.M22 = input.ReadValueF32(endian); variant.M23 = input.ReadValueF32(endian); variant.M31 = input.ReadValueF32(endian); variant.M32 = input.ReadValueF32(endian); variant.M33 = input.ReadValueF32(endian); variant.M41 = input.ReadValueF32(endian); variant.M42 = input.ReadValueF32(endian); variant.M43 = input.ReadValueF32(endian); return(variant); } case VariantType.Integers: { var variant = new Property.IntegersVariant(); int count = input.ReadValueS32(endian); variant.Values.Clear(); for (int i = 0; i < count; i++) { variant.Values.Add(input.ReadValueS32(endian)); } return(variant); } case VariantType.Floats: { var variant = new Property.FloatsVariant(); int count = input.ReadValueS32(endian); variant.Values.Clear(); for (int i = 0; i < count; i++) { variant.Values.Add(input.ReadValueF32(endian)); } return(variant); } } throw new FormatException("unsupported variant type " + type.ToString()); }