public void Reclaim(ShouldBe4 o) { if (o != null) { o.Dunno3 = default(bool); this.instantiator.DiscardShouldBe4(o); } }
public byte[] Energize(ShouldBe4 o) { int index = 0; Energize(o, bytes, ref index, true); byte[] result = this.instantiator.AcquireByteArray(index); Buffer.BlockCopy(bytes, 0, result, 0, index); return(result); }
public void Energize(ShouldBe4 o, byte[] bytes, ref int index, bool writeTypeId) { if (writeTypeId) { bytes[index++] = 4; } // PRIMITIVE: Dunno1 bytes[index++] = o.Dunno1 ? (byte)1 : (byte)0; // PRIMITIVE: Dunno2 bytes[index++] = o.Dunno2 ? (byte)1 : (byte)0; // PRIMITIVE: Dunno3 bytes[index++] = o.Dunno3 ? (byte)1 : (byte)0; }
public void DiscardShouldBe4(ShouldBe4 o) { // Dispose? }
public object Energize(byte[] bytes, ref int index, ushort typeId) { switch (typeId) { case 1: { ShouldBe1 o = this.instantiator.AcquireShouldBe1(); // PRIMITIVE: Value o.Value = (int)( ((int)bytes[index++] << 24) | ((int)bytes[index++] << 16) | ((int)bytes[index++] << 8) | (int)bytes[index++] ); return(o); } case 2: { ShouldBe2 o = this.instantiator.AcquireShouldBe2(); // PRIMITIVE: Value o.Value = (int)( ((int)bytes[index++] << 24) | ((int)bytes[index++] << 16) | ((int)bytes[index++] << 8) | (int)bytes[index++] ); return(o); } case 3: { ShouldBe3 o = this.instantiator.AcquireShouldBe3(); // PRIMITIVE: Value o.Value = (int)( ((int)bytes[index++] << 24) | ((int)bytes[index++] << 16) | ((int)bytes[index++] << 8) | (int)bytes[index++] ); return(o); } case 17: { BaseThingShouldBe17 o = this.instantiator.AcquireBaseThingShouldBe17(); // PRIMITIVE: Dunno1 o.Dunno1 = bytes[index++] == 1; // PRIMITIVE: Dunno2 o.Dunno2 = bytes[index++] == 1; return(o); } case 4: { ShouldBe4 o = this.instantiator.AcquireShouldBe4(); // PRIMITIVE: Dunno1 o.Dunno1 = bytes[index++] == 1; // PRIMITIVE: Dunno2 o.Dunno2 = bytes[index++] == 1; // PRIMITIVE: Dunno3 o.Dunno3 = bytes[index++] == 1; return(o); } case 5: { BaseThingShouldBe5 o = this.instantiator.AcquireBaseThingShouldBe5(); // PRIMITIVE: Dunno1 o.Dunno1 = bytes[index++] == 1; // PRIMITIVE: Dunno4 o.Dunno4 = bytes[index++] == 1; return(o); } case 57: { ShouldBe57 o = this.instantiator.AcquireShouldBe57(); // PRIMITIVE: Dunno1 o.Dunno1 = bytes[index++] == 1; // PRIMITIVE: Dunno4 o.Dunno4 = bytes[index++] == 1; // PRIMITIVE: Dunno5 o.Dunno5 = bytes[index++] == 1; return(o); } case 6: { NewAbstractShouldBe6 o = this.instantiator.AcquireNewAbstractShouldBe6(); // PRIMITIVE: Dunno6 o.Dunno6 = bytes[index++] == 1; return(o); } case 7: { NewAbstractShouldBe7 o = this.instantiator.AcquireNewAbstractShouldBe7(); // PRIMITIVE: Dunno7 o.Dunno7 = bytes[index++] == 1; return(o); } case 8: { NewAbstractShouldBe8 o = this.instantiator.AcquireNewAbstractShouldBe8(); // PRIMITIVE: Dunno8 o.Dunno8 = bytes[index++] == 1; return(o); } case 566: { ShouldBe566 o = this.instantiator.AcquireShouldBe566(); // PRIMITIVE: Dunno566 o.Dunno566 = bytes[index++] == 1; return(o); } default: throw new AutonumberTestPatternBufferException("Unrecognized type ID: " + typeId + " "); } }
public object Energize(byte[] bytes, ref int index) { ulong vuread_oyX8cM7RTc4d = 0; for (int i_vCfPWczt1cch = 0; i_vCfPWczt1cch < 9; i_vCfPWczt1cch++) { byte b = bytes[index++]; if (i_vCfPWczt1cch < 8) { vuread_oyX8cM7RTc4d += (((ulong)b & (ulong)127) << (7 * i_vCfPWczt1cch)); if ((int)(b & 128) == 0) { break; } } else { vuread_oyX8cM7RTc4d += (ulong)b << (7 * i_vCfPWczt1cch); break; } } ushort typeId = (ushort)vuread_oyX8cM7RTc4d; switch (typeId) { case 1: { ShouldBe1 o = this.instantiator.AcquireShouldBe1(); // PRIMITIVE: Value o.Value = (int)( ((int)bytes[index++] << 24) | ((int)bytes[index++] << 16) | ((int)bytes[index++] << 8) | (int)bytes[index++] ); return(o); } case 2: { ShouldBe2 o = this.instantiator.AcquireShouldBe2(); // PRIMITIVE: Value o.Value = (int)( ((int)bytes[index++] << 24) | ((int)bytes[index++] << 16) | ((int)bytes[index++] << 8) | (int)bytes[index++] ); return(o); } case 3: { ShouldBe3 o = this.instantiator.AcquireShouldBe3(); // PRIMITIVE: Value o.Value = (int)( ((int)bytes[index++] << 24) | ((int)bytes[index++] << 16) | ((int)bytes[index++] << 8) | (int)bytes[index++] ); return(o); } case 17: { BaseThingShouldBe17 o = this.instantiator.AcquireBaseThingShouldBe17(); // PRIMITIVE: Dunno1 o.Dunno1 = bytes[index++] == 1; // PRIMITIVE: Dunno2 o.Dunno2 = bytes[index++] == 1; return(o); } case 4: { ShouldBe4 o = this.instantiator.AcquireShouldBe4(); // PRIMITIVE: Dunno1 o.Dunno1 = bytes[index++] == 1; // PRIMITIVE: Dunno2 o.Dunno2 = bytes[index++] == 1; // PRIMITIVE: Dunno3 o.Dunno3 = bytes[index++] == 1; return(o); } case 5: { BaseThingShouldBe5 o = this.instantiator.AcquireBaseThingShouldBe5(); // PRIMITIVE: Dunno1 o.Dunno1 = bytes[index++] == 1; // PRIMITIVE: Dunno4 o.Dunno4 = bytes[index++] == 1; return(o); } case 57: { ShouldBe57 o = this.instantiator.AcquireShouldBe57(); // PRIMITIVE: Dunno1 o.Dunno1 = bytes[index++] == 1; // PRIMITIVE: Dunno4 o.Dunno4 = bytes[index++] == 1; // PRIMITIVE: Dunno5 o.Dunno5 = bytes[index++] == 1; return(o); } case 6: { NewAbstractShouldBe6 o = this.instantiator.AcquireNewAbstractShouldBe6(); // PRIMITIVE: Dunno6 o.Dunno6 = bytes[index++] == 1; return(o); } case 7: { NewAbstractShouldBe7 o = this.instantiator.AcquireNewAbstractShouldBe7(); // PRIMITIVE: Dunno7 o.Dunno7 = bytes[index++] == 1; return(o); } case 8: { NewAbstractShouldBe8 o = this.instantiator.AcquireNewAbstractShouldBe8(); // PRIMITIVE: Dunno8 o.Dunno8 = bytes[index++] == 1; return(o); } case 566: { ShouldBe566 o = this.instantiator.AcquireShouldBe566(); // PRIMITIVE: Dunno566 o.Dunno566 = bytes[index++] == 1; return(o); } default: throw new AutonumberTestPatternBufferException("Unrecognized type ID: " + typeId + " "); } }