From 788b8cc4dd404a826ce881c020ee6ca0388a5975 Mon Sep 17 00:00:00 2001 From: Ian C Date: Thu, 1 Mar 2012 00:02:07 +0000 Subject: Initial working version of test suite. Fixed INC8 and DEC8 with results. --- .../TestMachine.cs | 260 ++++++++++++++++++++- 1 file changed, 258 insertions(+), 2 deletions(-) (limited to 'native/Noddybox.Emulation.EightBit.Z80.Test/TestMachine.cs') diff --git a/native/Noddybox.Emulation.EightBit.Z80.Test/TestMachine.cs b/native/Noddybox.Emulation.EightBit.Z80.Test/TestMachine.cs index 09e868b..b5d7810 100644 --- a/native/Noddybox.Emulation.EightBit.Z80.Test/TestMachine.cs +++ b/native/Noddybox.Emulation.EightBit.Z80.Test/TestMachine.cs @@ -26,7 +26,7 @@ namespace Noddybox.Emulation.EightBit.Z80.Test { private readonly byte[] mem = new byte[0x10000]; private readonly Z80Cpu z80 = new Z80Cpu(); - private readonly Clock clock = new Clock(100000, 50); + private readonly Clock clock = new Clock(uint.MaxValue, uint.MaxValue); private void Output(ConsoleColor pen, ConsoleColor paper, string format, params object[] p) { @@ -36,6 +36,21 @@ namespace Noddybox.Emulation.EightBit.Z80.Test Console.ResetColor(); } + private Queue Decode(string i) + { + Queue l = new Queue(); + + foreach (string s in i.Split(new char[] {' ', '\t'}, StringSplitOptions.RemoveEmptyEntries)) + { + if (s != "-1") + { + l.Enqueue(new Register16(UInt16.Parse(s, System.Globalization.NumberStyles.HexNumber))); + } + } + + return l; + } + byte IMemory.Read(ushort address) { Output(ConsoleColor.Green, ConsoleColor.Black, "Reading {0:X2} from {1:X4}", mem[address], address); @@ -59,9 +74,250 @@ namespace Noddybox.Emulation.EightBit.Z80.Test Output(ConsoleColor.Red, ConsoleColor.DarkGray, "Writing {0:X2} to device {1:X4}", value, device); } - public TestMachine(string name, List input, List expected) + public bool Run(string name, Queue input, Queue expected) { Output(ConsoleColor.Black, ConsoleColor.White, "Running test {0}", name); + + Queue line = Decode(input.Dequeue()); + Register16 r = line.Dequeue(); + + z80.Acummulator = r.high; + z80.StatusFlags = (Z80Flags)r.low; + + z80.BC_Register = line.Dequeue(); + z80.DE_Register = line.Dequeue(); + z80.HL_Register = line.Dequeue(); + + z80.AF_Alternate = line.Dequeue(); + z80.BC_Alternate = line.Dequeue(); + z80.DE_Alternate = line.Dequeue(); + z80.HL_Alternate = line.Dequeue(); + + z80.IX_Register = line.Dequeue(); + z80.IY_Register = line.Dequeue(); + z80.StackPointer = line.Dequeue().reg; + z80.ProgramCounter = line.Dequeue().reg; + + line = Decode(input.Dequeue()); + + z80.InterruptVector = line.Dequeue().low; + z80.Refresh = line.Dequeue().low; + z80.IFF1_Register = (line.Dequeue().reg != 0); + z80.IFF2_Register = (line.Dequeue().reg != 0); + z80.IM_Register = line.Dequeue().low; + z80.HaltLine = (line.Dequeue().reg != 0); + + int cyclesToRun = Convert.ToInt32(line.Dequeue().reg.ToString("X")); + + while(input.Count > 0) + { + line = Decode(input.Dequeue()); + + if (line.Count > 1) + { + ushort addr = line.Dequeue().reg; + + foreach (Register16 b in line) + { + mem[addr++] = b.low; + } + } + } + + while(clock.Ticks < cyclesToRun) + { + z80.Step(); + } + + bool ok = true; + + while(expected.Peek().StartsWith(" ")) + { + Output(ConsoleColor.DarkGray, ConsoleColor.Black, "Not yet handled - {0}", expected.Dequeue()); + } + + line = Decode(expected.Dequeue()); + + r = line.Dequeue(); + if (r.high != z80.Acummulator) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in A, got {1:X}", r.high, z80.Acummulator); + ok = false; + } + + if ((Z80Flags)r.low != z80.StatusFlags) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0} in F, got {1}", (Z80Flags)r.low, z80.StatusFlags); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.BC_Register.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in BC, got {1:X}", r.reg, z80.BC_Register.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.DE_Register.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in DE, got {1:X}", r.reg, z80.DE_Register.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.HL_Register.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in HL, got {1:X}", r.reg, z80.HL_Register.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.AF_Alternate.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in AF', got {1:X}", r.reg, z80.AF_Alternate.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.BC_Alternate.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in BC', got {1:X}", r.reg, z80.BC_Alternate.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.DE_Alternate.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in DE', got {1:X}", r.reg, z80.DE_Alternate.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.HL_Alternate.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in HL', got {1:X}", r.reg, z80.HL_Alternate.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.IX_Register.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in IX, got {1:X}", r.reg, z80.IX_Register.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.IY_Register.reg) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in IY, got {1:X}", r.reg, z80.IY_Register.reg); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.StackPointer) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in SP, got {1:X}", r.reg, z80.StackPointer); + ok = false; + } + + r = line.Dequeue(); + if (r.reg != z80.ProgramCounter) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in PC, got {1:X}", r.reg, z80.ProgramCounter); + ok = false; + } + + line = Decode(expected.Dequeue()); + + r = line.Dequeue(); + if (r.low != z80.InterruptVector) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in I, got {1:X}", r.low, z80.InterruptVector); + ok = false; + } + + r = line.Dequeue(); + if (r.low != z80.Refresh) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in R, got {1:X}", r.low, z80.Refresh); + ok = false; + } + + r = line.Dequeue(); + if ((r.reg != 0) != z80.IFF1_Register) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0} in IFF1, got {1}", (r.reg != 0), z80.IFF1_Register); + ok = false; + } + + r = line.Dequeue(); + if ((r.reg != 0) != z80.IFF2_Register) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0} in IFF2, got {1}", (r.reg != 0), z80.IFF2_Register); + ok = false; + } + + r = line.Dequeue(); + if (r.low != z80.IM_Register) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} in IM, got {1:X}", r.low, z80.IM_Register); + ok = false; + } + + r = line.Dequeue(); + if ((r.reg != 0) != z80.HaltLine) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0} in HALT, got {1}", (r.reg != 0), z80.HaltLine); + ok = false; + } + + int cyclesToTest = Convert.ToInt32(line.Dequeue().reg.ToString("X")); + + if (cyclesToTest != clock.Ticks) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0} cycles, got {1}", cyclesToTest, clock.Ticks); + ok = false; + } + + while (expected.Count > 0) + { + line = Decode(expected.Dequeue()); + + if (line.Count > 1) + { + ushort addr = line.Dequeue().reg; + + foreach (Register16 b in line) + { + if (mem[addr] != b.low) + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Expected {0:X} at location {1:X}, got {2:X}", b.low, addr, mem[addr]); + ok = false; + } + + addr++; + } + } + } + + if (ok) + { + Output(ConsoleColor.Yellow, ConsoleColor.Black, "Test passed"); + } + else + { + Output(ConsoleColor.Red, ConsoleColor.Black, "Test FAILED"); + } + + Console.WriteLine(); + + return ok; + } + + public TestMachine() + { + z80.Initialise(this, this, clock); } } } -- cgit v1.3