private void method_9(object object_0, Class122 class122_0) { if (this.Event_0 != null) { this.Event_0(object_0, class122_0); } }
private void method_2() { Class983 class2 = this.class122_0.method_1(); this.arrayList_0.Add(class2); this.class122_0 = null; }
private void method_1(object object_0, Class122 class122_0) { if (class122_0.method_0()) { base.Width = this.int_0; } else { base.Width = this.int_1; } }
internal void method_0(int A_0, int A_1, Interface54 A_2) { int num = 1; if (!this.class122_0.method_0(A_0, A_1, A_2)) { this.method_2(); this.class122_0 = this.vmethod_0(); if (!this.class122_0.method_0(A_0, A_1, A_2)) { throw new InvalidOperationException(BookmarkStart.b("搦䠨䔪䌬䀮䔰ጲ吴匶崸ᬺ洼朾慀㝂⩄杆㵈⍊⡌潎ᝐᡒՔ祖", num)); } } }
private Class121 method_3() { bool flag = this.class144_0.vmethod_10(1) != 0; int num = this.class144_0.vmethod_10(7); int num2 = this.class144_0.vmethod_10(24); Class121 result; if (num == 0) { this.class122_0 = new Class122(this.class144_0, num2, flag); result = this.class122_0; } else if (num == 3) { this.class127_0 = new Class127(this.class144_0, num2, flag); result = this.class127_0; } else if (num == 2) { result = new Class124(this.class144_0, num2, flag); } else if (num == 1) { result = new Class128(this.class144_0, num2, flag); } else if (num == 4) { result = new Class129(this.class144_0, num2, flag); } else if (num == 5) { result = new Class125(this.class144_0, num2, flag); } else if (num == 6) { result = new Class123(this.class144_0, num2, flag); } else { result = new Class126(this.class144_0, num2, flag); } return(result); }
public void method_9(Class122 class122_3) { class122_0 = class122_3; }
public void method_13(Class122 class122_3) { class122_2 = class122_3; }
public void method_11(Class122 class122_3) { class122_1 = class122_3; }
internal Class119() { this.class122_0 = this.vmethod_0(); }
public Class140(Class144 class144_0, byte[] byte_0, Class122 class122_0) { int num = 0; int num2 = 0; Class152 @class = new Class152(16); bool flag = class122_0 != null && class122_0.vmethod_2() != class122_0.vmethod_1(); bool flag2 = class122_0 != null && class122_0.vmethod_2() == class122_0.vmethod_1(); @class.vmethod_1(byte_0[0]); @class.vmethod_1(byte_0[1]); if ((@class.vmethod_3(1) & 3) != 0) { throw new BadHeaderException("Bad Magic Number: " + (int)(@class.vmethod_3(1) & 255)); } for (int i = 0; i < 2; i++) { if (class144_0.vmethod_11(8) == 255) { throw new BadHeaderException("Found sync byte"); } @class.vmethod_1((byte)class144_0.vmethod_10(8)); } int num3 = @class.vmethod_3(2) >> 4 & 15; switch (num3) { case 0: if (!flag2) { throw new BadHeaderException("Unknown Block Size (0)"); } this.int_0 = class122_0.vmethod_2(); break; case 1: this.int_0 = 192; break; case 2: case 3: case 4: case 5: this.int_0 = 576 << num3 - 2; break; case 6: case 7: num = num3; break; case 8: case 9: case 10: case 11: case 12: case 13: case 14: case 15: this.int_0 = 256 << num3 - 8; break; } int num4 = (int)(@class.vmethod_3(2) & 15); switch (num4) { case 0: if (class122_0 == null) { throw new BadHeaderException("Bad Sample Rate (0)"); } this.int_1 = class122_0.vmethod_6(); break; case 1: case 2: case 3: throw new BadHeaderException("Bad Sample Rate (" + num4 + ")"); case 4: this.int_1 = 8000; break; case 5: this.int_1 = 16000; break; case 6: this.int_1 = 22050; break; case 7: this.int_1 = 24000; break; case 8: this.int_1 = 32000; break; case 9: this.int_1 = 44100; break; case 10: this.int_1 = 48000; break; case 11: this.int_1 = 96000; break; case 12: case 13: case 14: num2 = num4; break; case 15: throw new BadHeaderException("Bad Sample Rate (" + num4 + ")"); } int num5 = @class.vmethod_3(3) >> 4 & 15; if ((num5 & 8) != 0) { this.int_2 = 2; switch (num5 & 7) { case 0: this.int_3 = 1; break; case 1: this.int_3 = 2; break; case 2: this.int_3 = 3; break; default: throw new BadHeaderException("Bad Channel Assignment (" + num5 + ")"); } } else { this.int_2 = num5 + 1; this.int_3 = 0; } int num6 = (@class.vmethod_3(3) & 14) >> 1; switch (num6) { case 0: if (class122_0 == null) { throw new BadHeaderException("Bad BPS (" + num6 + ")"); } this.int_4 = class122_0.vmethod_7(); break; case 1: this.int_4 = 8; break; case 2: this.int_4 = 12; break; case 3: case 7: throw new BadHeaderException("Bad BPS (" + num6 + ")"); case 4: this.int_4 = 16; break; case 5: this.int_4 = 20; break; case 6: this.int_4 = 24; break; } if ((@class.vmethod_3(3) & 1) != 0) { throw new BadHeaderException("this should be a zero padding bit"); } if (num != 0 && flag) { this.long_0 = class144_0.vmethod_19(@class); if (this.long_0 == -1L) { throw new BadHeaderException("Bad Sample Number"); } } else { int num7 = class144_0.vmethod_18(@class); if ((long)num7 == 4294967295L) { throw new BadHeaderException("Bad Last Frame"); } this.long_0 = (long)class122_0.vmethod_2() * (long)num7; } if (num != 0) { int num8 = class144_0.vmethod_10(8); @class.vmethod_1((byte)num8); if (num == 7) { int num9 = class144_0.vmethod_10(8); @class.vmethod_1((byte)num9); num8 = (num8 << 8 | num9); } this.int_0 = num8 + 1; } if (num2 != 0) { int num10 = class144_0.vmethod_10(8); @class.vmethod_1((byte)num10); if (num2 != 12) { int num11 = class144_0.vmethod_10(8); @class.vmethod_1((byte)num11); num10 = (num10 << 8 | num11); } if (num2 == 12) { this.int_1 = num10 * 1000; } else if (num2 == 13) { this.int_1 = num10; } else { this.int_1 = num10 * 10; } } byte b = (byte)class144_0.vmethod_10(8); if (Class149.smethod_0(@class.vmethod_2(), @class.vmethod_0()) != b) { throw new BadHeaderException("STREAM_DECODER_ERROR_STATUS_BAD_HEADER"); } }
public abstract void Visit(Class122 c);
public override void Visit(Class122 c) { }