/* Tests for the 6502 CPU emulator. */ package tests import ( "fmt" "io/ioutil" "math/rand" "testing" "github.com/zellyn/go6502/asm" "github.com/zellyn/go6502/cpu" "github.com/zellyn/go6502/visual" ) // Memory for the tests. Satisfies the cpu.Memory interface. type K64 [65536]byte func (m *K64) Read(address uint16) byte { return m[address] } func (m *K64) Write(address uint16, value byte) { m[address] = value } // Cycle counter for the tests. Satisfies the cpu.Ticker interface. type CycleCount uint64 func (c *CycleCount) Tick() { *c += 1 } func randomize(k *K64) { for i := 0; i < 65536; i++ { k[i] = byte(rand.Int()) } } // status prints out the current CPU instruction and register status. func status(c cpu.Cpu, m *[65536]byte, cc uint64) string { bytes, text, _ := asm.Disasm(c.PC(), m[c.PC()], m[c.PC()+1], m[c.PC()+2]) return fmt.Sprintf("$%04X: %s %s A=$%02X X=$%02X Y=$%02X SP=$%02X P=$%08b - %d\n", c.PC(), bytes, text, c.A(), c.X(), c.Y(), c.SP(), c.P(), cc) } // Run Klaus Dormann's amazing comprehensive test against the // instruction-level CPU emulation. func TestFunctionalTestInstructions(t *testing.T) { unused := map[byte]bool{} for k := range cpu.Opcodes { unused[k] = true } bytes, err := ioutil.ReadFile("6502_functional_test.bin") if err != nil { panic("Cannot read file") } var m K64 randomize(&m) var cc CycleCount OFFSET := 0xa copy(m[OFFSET:len(bytes)+OFFSET], bytes) c := cpu.NewCPU(&m, &cc, cpu.VERSION_6502) c.Reset() c.SetPC(0x1000) for { unused[m[c.PC()]] = false oldPC := c.PC() // status(c, m, cc) err := c.Step() if err != nil { t.Error(err) break } if c.PC() == oldPC { if c.PC() != 0x3CC5 { t.Errorf("Stuck at $%04X: 0x%02X", oldPC, m[oldPC]) } return } } for k, v := range unused { if v { t.Errorf("Unused instruction: 0x%2X", k) } } } // Run the first few thousand steps of Klaus Dormann's amazing // comprehensive test against the gate-level CPU emulation. func TestFunctionalTestGates(t *testing.T) { expected := []uint16{ 0, 4327, 4288, 4253, 4221, 4194, 4171, 4152, 4137, 4105, 4374, 4368, } bytes, err := ioutil.ReadFile("6502_functional_test.bin") if err != nil { panic("Cannot read file") } var m K64 randomize(&m) OFFSET := 0xa copy(m[OFFSET:len(bytes)+OFFSET], bytes) // Set the RESET vector to jump to the tests m[0xFFFC] = 0x00 m[0xFFFD] = 0x10 c := visual.NewCPU(&m) c.Reset() count := uint64(0) for { count++ if count%1000 == 0 { pc := c.PC() if pc == 0x3CC5 { return } if count/1000 < uint64(len(expected)) { expectedPC := expected[count/1000] if pc != expectedPC { t.Errorf("Expected PC=%d at step %d, got %d", expectedPC, count, pc) } } else { return } } // status(c, m, cc) c.Step() } } // Run Bruce Clark's decimal test in 6502 mode. func TestDecimalMode6502(t *testing.T) { bytes, err := ioutil.ReadFile("decimal_mode.bin") if err != nil { panic("Cannot read file") } var m K64 randomize(&m) var cc CycleCount OFFSET := 0x1000 copy(m[OFFSET:len(bytes)+OFFSET], bytes) m[1] = 0 // 6502 c := cpu.NewCPU(&m, &cc, cpu.VERSION_6502) c.Reset() c.SetPC(0x1000) for { oldPC := c.PC() // status(c, m, cc) err := c.Step() if err != nil { t.Error(err) break } if c.PC() == oldPC { if c.PC() != 0x1037 { t.Errorf("Stuck at 0x%X: 0x%X\n", oldPC, m[oldPC]) } break } } error := m[0] if error > 0 { t.Errorf("Decimal mode test failed: error=%d", error) } } // Run Bruce Clark's decimal test in 65C02 mode. func TestDecimalMode65C02(t *testing.T) { bytes, err := ioutil.ReadFile("decimal_mode.bin") if err != nil { panic("Cannot read file") } var m K64 randomize(&m) var cc CycleCount OFFSET := 0x1000 copy(m[OFFSET:len(bytes)+OFFSET], bytes) m[1] = 1 // 65C02 c := cpu.NewCPU(&m, &cc, cpu.VERSION_65C02) c.Reset() c.SetPC(0x1000) for { oldPC := c.PC() // status(c, m, cc) err := c.Step() if err != nil { t.Error(err) break } if c.PC() == oldPC { if c.PC() != 0x1037 { t.Errorf("Stuck at 0x%X: 0x%X\n", oldPC, m[oldPC]) } break } } error := m[0] if error > 0 { fmt.Printf("N1=$%02X N2=$%02X DA=$%02X DNVZC=$%02X - AR=$%02X NF=$%02X VF=$%02X ZF=$%02X CF=$%02X\n", m[0x08], m[0x0B], m[0x04], m[0x05], m[0x02], m[0x0D], m[0x0E], m[0x0F], m[0x03]) t.Errorf("Decimal mode test failed: error=%d", error) } }