/* Helpers */ #define LI(reg, val) \ mov.u reg, lo:val; \ movh DREG_TEMP_LI, up:val; \ or reg, reg, DREG_TEMP_LI; \ #define LIA(reg, val) \ LI(DREG_TEMP, val) \ mov.a reg, DREG_TEMP; /* Address definitions */ #define TESTDEV_ADDR 0xf0000000 /* Register definitions */ #define DREG_RS1 %d0 #define DREG_RS2 %d1 #define DREG_RS3 %d2 #define DREG_CALC_RESULT %d3 #define DREG_CALC_PSW %d4 #define DREG_CORRECT_PSW %d5 #define DREG_TEMP_LI %d10 #define DREG_TEMP %d11 #define DREG_TEST_NUM %d14 #define DREG_CORRECT_RESULT %d15 #define DREG_CORRECT_RESULT_2 %d13 #define AREG_ADDR %a0 #define AREG_CORRECT_RESULT %a3 #define MEM_BASE_ADDR 0xd0000000 #define DREG_DEV_ADDR %a15 #define EREG_RS1 %e6 #define EREG_RS1_LO %d6 #define EREG_RS1_HI %d7 #define EREG_RS2 %e8 #define EREG_RS2_LO %d8 #define EREG_RS2_HI %d9 #define EREG_CALC_RESULT %e8 #define EREG_CALC_RESULT_HI %d9 #define EREG_CALC_RESULT_LO %d8 #define EREG_CORRECT_RESULT_LO %d0 #define EREG_CORRECT_RESULT_HI %d1 /* Test case wrappers */ #define TEST_CASE(num, testreg, correct, code...) \ test_ ## num: \ code; \ LI(DREG_CORRECT_RESULT, correct) \ mov DREG_TEST_NUM, num; \ jne testreg, DREG_CORRECT_RESULT, fail \ #define TEST_CASE_E(num, correct_lo, correct_hi, code...) \ test_ ## num: \ code; \ mov DREG_TEST_NUM, num; \ LI(EREG_CORRECT_RESULT_LO, correct_lo) \ jne EREG_CALC_RESULT_LO, EREG_CORRECT_RESULT_LO, fail; \ LI(EREG_CORRECT_RESULT_HI, correct_hi) \ jne EREG_CALC_RESULT_HI, EREG_CORRECT_RESULT_HI, fail; #define TEST_CASE_PSW(num, testreg, correct, correct_psw, code...) \ test_ ## num: \ code; \ LI(DREG_CORRECT_RESULT, correct) \ mov DREG_TEST_NUM, num; \ jne testreg, DREG_CORRECT_RESULT, fail; \ mfcr DREG_CALC_PSW, $psw; \ LI(DREG_CORRECT_PSW, correct_psw) \ mov DREG_TEST_NUM, num; \ jne DREG_CALC_PSW, DREG_CORRECT_PSW, fail; #define TEST_LD(insn, num, result, addr_result, ld_pattern) \ test_ ## num: \ LIA(AREG_ADDR, test_data) \ insn DREG_CALC_RESULT, ld_pattern; \ LI(DREG_CORRECT_RESULT, result) \ mov DREG_TEST_NUM, num; \ jne DREG_CALC_RESULT, DREG_CORRECT_RESULT, fail; \ mov.d DREG_CALC_RESULT, AREG_ADDR; \ LI(DREG_CORRECT_RESULT, addr_result) \ jne DREG_CALC_RESULT, DREG_CORRECT_RESULT, fail; #define TEST_LD_SRO(insn, num, result, addr_result, ld_pattern) \ test_ ## num: \ LIA(AREG_ADDR, test_data) \ insn %d15, ld_pattern; \ LI(DREG_CORRECT_RESULT_2, result) \ mov DREG_TEST_NUM, num; \ jne %d15, DREG_CORRECT_RESULT_2, fail; \ mov.d DREG_CALC_RESULT, AREG_ADDR; \ LI(DREG_CORRECT_RESULT, addr_result) \ jne DREG_CALC_RESULT, DREG_CORRECT_RESULT, fail; /* Actual test case type * e.g inst %dX, %dY -> TEST_D_D * inst %dX, %dY, %dZ -> TEST_D_DD * inst %eX, %dY, %dZ -> TEST_E_DD */ #define TEST_D_D(insn, num, result, rs1) \ TEST_CASE(num, DREG_CALC_RESULT, result, \ LI(DREG_RS1, rs1); \ insn DREG_CALC_RESULT, DREG_RS1; \ ) #define TEST_D_D_PSW(insn, num, result, psw, rs1) \ TEST_CASE_PSW(num, DREG_CALC_RESULT, result, psw, \ LI(DREG_RS1, rs1); \ rstv; \ insn DREG_CORRECT_RESULT, DREG_RS1; \ ) #define TEST_D_DDD(insn, num, result, rs1, rs2, rs3) \ TEST_CASE(num, DREG_CALC_RESULT, result, \ LI(DREG_RS1, rs1); \ LI(DREG_RS2, rs2); \ LI(DREG_RS3, rs3); \ rstv; \ insn DREG_CALC_RESULT, DREG_RS1, DREG_RS2, DREG_RS3; \ ) #define TEST_D_DD_PSW(insn, num, result, psw, rs1, rs2) \ TEST_CASE_PSW(num, DREG_CALC_RESULT, result, psw, \ LI(DREG_RS1, rs1); \ LI(DREG_RS2, rs2); \ rstv; \ insn DREG_CALC_RESULT, DREG_RS1, DREG_RS2; \ ) #define TEST_D_DDD_PSW(insn, num, result, psw, rs1, rs2, rs3) \ TEST_CASE_PSW(num, DREG_CALC_RESULT, result, psw, \ LI(DREG_RS1, rs1); \ LI(DREG_RS2, rs2); \ LI(DREG_RS3, rs3); \ rstv; \ insn DREG_CALC_RESULT, DREG_RS1, DREG_RS2, DREG_RS3; \ ) #define TEST_D_DDI(insn, num, result, rs1, rs2, imm) \ TEST_CASE(num, DREG_CALC_RESULT, result, \ LI(DREG_RS1, rs1); \ LI(DREG_RS2, rs2); \ rstv; \ insn DREG_CALC_RESULT, DREG_RS1, DREG_RS2, imm; \ ) #define TEST_D_DDI_PSW(insn, num, result, psw, rs1, rs2, imm) \ TEST_CASE_PSW(num, DREG_CALC_RESULT, result, psw, \ LI(DREG_RS1, rs1); \ LI(DREG_RS2, rs2); \ rstv; \ insn DREG_CALC_RESULT, DREG_RS1, DREG_RS2, imm; \ ) #define TEST_D_DIDI(insn, num, result, rs1, imm1, rs2, imm2) \ TEST_CASE(num, DREG_CALC_RESULT, result, \ LI(DREG_RS1, rs1); \ LI(DREG_RS2, rs1); \ rstv; \ insn DREG_CALC_RESULT, DREG_RS1, imm1, DREG_RS2, imm2; \ ) #define TEST_E_ED(insn, num, res_hi, res_lo, rs1_hi, rs1_lo, rs2) \ TEST_CASE_E(num, res_lo, res_hi, \ LI(EREG_RS1_LO, rs1_lo); \ LI(EREG_RS1_HI, rs1_hi); \ LI(DREG_RS2, rs2); \ insn EREG_CALC_RESULT, EREG_RS1, DREG_RS2; \ ) #define TEST_E_IDI(insn, num, res_hi, res_lo, imm1, rs1, imm2) \ TEST_CASE_E(num, res_lo, res_hi, \ LI(DREG_RS1, rs1); \ rstv; \ insn EREG_CALC_RESULT, imm1, DREG_RS1, imm2; \ ) /* Pass/Fail handling part */ #define TEST_PASSFAIL \ j pass; \ fail: \ LI(DREG_TEMP, TESTDEV_ADDR) \ mov.a DREG_DEV_ADDR, DREG_TEMP; \ st.w [DREG_DEV_ADDR], DREG_TEST_NUM;\ debug; \ j fail; \ pass: \ LI(DREG_TEMP, TESTDEV_ADDR) \ mov.a DREG_DEV_ADDR, DREG_TEMP; \ mov DREG_TEST_NUM, 0; \ st.w [DREG_DEV_ADDR], DREG_TEST_NUM;\ debug; \ j pass;