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erc-c/tests/mos6502/bits.c
2018-04-13 19:09:23 -05:00

190 lines
4.7 KiB
C

#include <criterion/criterion.h>
#include "mos6502/mos6502.h"
#include "mos6502/enums.h"
#include "mos6502/tests.h"
TestSuite(mos6502_bits, .init = setup, .fini = teardown);
Test(mos6502_bits, and)
{
cpu->A = 5;
mos6502_handle_and(cpu, 1);
cr_assert_eq(cpu->A, 1);
cpu->A = 5;
mos6502_handle_and(cpu, 4);
cr_assert_eq(cpu->A, 4);
}
Test(mos6502_bits, asl)
{
mos6502_handle_asl(cpu, 5);
cr_assert_eq(cpu->A, 10);
// Test if carry is set properly
cpu->P &= ~MOS_CARRY;
mos6502_handle_asl(cpu, 150);
cr_assert_eq(cpu->A, 44);
cr_assert_eq(cpu->P & MOS_CARRY, MOS_CARRY);
cpu->eff_addr = 123;
mos6502_handle_asl(cpu, 22);
cr_assert_eq(mos6502_get(cpu, 123), 44);
}
Test(mos6502_bits, bit)
{
cpu->A = 5;
mos6502_handle_bit(cpu, 129);
cr_assert_eq(cpu->P & MOS_NEGATIVE, MOS_NEGATIVE);
cr_assert_eq(cpu->P & MOS_OVERFLOW, 0);
cr_assert_eq(cpu->P & MOS_ZERO, 0);
mos6502_handle_bit(cpu, 193);
cr_assert_eq(cpu->P & MOS_NEGATIVE, MOS_NEGATIVE);
cr_assert_eq(cpu->P & MOS_OVERFLOW, MOS_OVERFLOW);
cr_assert_eq(cpu->P & MOS_ZERO, 0);
mos6502_handle_bit(cpu, 65);
cr_assert_eq(cpu->P & MOS_NEGATIVE, 0);
cr_assert_eq(cpu->P & MOS_OVERFLOW, MOS_OVERFLOW);
cr_assert_eq(cpu->P & MOS_ZERO, 0);
mos6502_handle_bit(cpu, 33);
cr_assert_eq(cpu->P & MOS_NEGATIVE, 0);
cr_assert_eq(cpu->P & MOS_OVERFLOW, 0);
cr_assert_eq(cpu->P & MOS_ZERO, 0);
mos6502_handle_bit(cpu, 0);
cr_assert_eq(cpu->P & MOS_NEGATIVE, 0);
cr_assert_eq(cpu->P & MOS_OVERFLOW, 0);
cr_assert_eq(cpu->P & MOS_ZERO, MOS_ZERO);
}
Test(mos6502_bits, bim)
{
// This version of BIT should not modify the NV flags
cpu->P |= MOS_NEGATIVE;
cpu->P |= MOS_OVERFLOW;
cpu->A = 63;
mos6502_handle_bim(cpu, 123);
cr_assert_eq(cpu->P & MOS_ZERO, 0);
cr_assert_eq(cpu->P & MOS_NEGATIVE, MOS_NEGATIVE);
cr_assert_eq(cpu->P & MOS_OVERFLOW, MOS_OVERFLOW);
cpu->A = 4;
mos6502_handle_bim(cpu, 123);
cr_assert_eq(cpu->P & MOS_ZERO, MOS_ZERO);
}
Test(mos6502_bits, eor)
{
cpu->A = 5;
mos6502_handle_eor(cpu, 4);
cr_assert_eq(cpu->A, 1);
cpu->A = 5;
mos6502_handle_eor(cpu, 1);
cr_assert_eq(cpu->A, 4);
}
Test(mos6502_bits, lsr)
{
mos6502_handle_lsr(cpu, 5);
cr_assert_eq(cpu->A, 2);
cr_assert_eq(cpu->P & MOS_CARRY, MOS_CARRY);
cpu->eff_addr = 123;
mos6502_handle_lsr(cpu, 11);
cr_assert_eq(mos6502_get(cpu, 123), 5);
cr_assert_eq(cpu->P & MOS_CARRY, MOS_CARRY);
}
Test(mos6502_bits, ora)
{
cpu->A = 5;
mos6502_handle_ora(cpu, 4);
cr_assert_eq(cpu->A, 5);
cpu->A = 5;
mos6502_handle_ora(cpu, 10);
cr_assert_eq(cpu->A, 15);
}
Test(mos6502_bits, rol)
{
cpu->P = 0;
cpu->A = 0xff;
mos6502_handle_rol(cpu, cpu->A);
cr_assert_eq(cpu->P & MOS_CARRY, MOS_CARRY);
cr_assert_eq(cpu->A, 0xfe);
mos6502_handle_rol(cpu, cpu->A);
cr_assert_eq(cpu->P & MOS_CARRY, MOS_CARRY);
cr_assert_eq(cpu->A, 0xfd);
cpu->P = 0;
cpu->eff_addr = 234;
mos6502_handle_rol(cpu, 128);
cr_assert_eq(mos6502_get(cpu, 234), 0);
}
Test(mos6502_bits, ror)
{
cpu->P = 0;
cpu->A = 0xff;
mos6502_handle_ror(cpu, cpu->A);
cr_assert_eq(cpu->P & MOS_CARRY, MOS_CARRY);
cr_assert_eq(cpu->A, 0x7f);
mos6502_handle_ror(cpu, cpu->A);
cr_assert_eq(cpu->P & MOS_CARRY, MOS_CARRY);
cr_assert_eq(cpu->A, 0xbf);
cpu->P = 0;
cpu->eff_addr = 123;
mos6502_handle_ror(cpu, 1);
mos6502_handle_ror(cpu, 0);
cr_assert_eq(mos6502_get(cpu, 123), 128);
}
Test(mos6502_bits, trb)
{
cpu->A = 6;
mos6502_handle_trb(cpu, 3);
cr_assert_eq(cpu->P & MOS_ZERO, 0);
cpu->A = 9;
mos6502_handle_trb(cpu, 2);
cr_assert_eq(cpu->P & MOS_ZERO, MOS_ZERO);
cpu->eff_addr = 111;
mos6502_set(cpu, cpu->eff_addr, 123);
mos6502_handle_trb(cpu, 123);
cr_assert_eq(mos6502_get(cpu, cpu->eff_addr),
(cpu->A ^ 0xff) & 123);
}
Test(mos6502_bits, tsb)
{
// I borrowed this code from the trb test; TSB and TRB do exactly
// the same thing in regards to the zero bit.
cpu->A = 6;
mos6502_handle_trb(cpu, 3);
cr_assert_eq(cpu->P & MOS_ZERO, 0);
cpu->A = 9;
mos6502_handle_trb(cpu, 2);
cr_assert_eq(cpu->P & MOS_ZERO, MOS_ZERO);
// This is similar to the segment in the trb test that focuses on
// the resetting (clearing) of bits, but modified to account for the
// differing result that tsb would provide--namely that the 1s in A
// will be set in the location in memory, rather than cleared.
cpu->eff_addr = 111;
mos6502_set(cpu, cpu->eff_addr, 123);
mos6502_handle_tsb(cpu, 123);
cr_assert_eq(mos6502_get(cpu, cpu->eff_addr), cpu->A | 123);
}