/* * Sources of the "LOGICAL" group instructions */ /* $Header$ */ #include #include "logging.h" #include "global.h" #include "log.h" #include "warn.h" #include "mem.h" #include "shadow.h" #include "trap.h" #include "text.h" #include "fra.h" #ifdef LOGGING extern int must_test; #endif LOGGING #ifdef LOGGING #define check_def(p,l) if (!st_sh(p) || !st_sh(p+l)) {warning(WUNLOG);} #else #define check_def(p,l) #endif LOGGING DoANDl2(arg) size arg; { /* AND w: Boolean and on two groups of w bytes */ register size l = (L_arg_2() * arg); register ptr p; LOG(("@X6 DoANDl2(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p + l) &= stack_loc(p); } st_dec(l); } DoANDm(arg) size arg; { /* AND w: Boolean and on two groups of w bytes */ register size l = arg_w(arg); register ptr p; LOG(("@X6 DoANDm(%ld)", l)); spoilFRA(); for (p = SP; p < (SP + l); p ++) { check_def(p, l); stack_loc(p + l) &= stack_loc(p); } st_dec(l); } DoANDz() { /* AND w: Boolean and on two groups of w bytes */ /* size of objects to be compared (in bytes) on top of stack */ register size l = upop(wsize); register ptr p; LOG(("@X6 DoANDz(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p + l) &= stack_loc(p); } st_dec(l); } DoIORl2(arg) size arg; { /* IOR w: Boolean inclusive or on two groups of w bytes */ register size l = (L_arg_2() * arg); register ptr p; LOG(("@X6 DoIORl2(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p + l) |= stack_loc(p); } st_dec(l); } DoIORm(arg) size arg; { /* IOR w: Boolean inclusive or on two groups of w bytes */ register size l = arg_w(arg); register ptr p; LOG(("@X6 DoIORm(%ld)", l)); spoilFRA(); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p + l) |= stack_loc(p); } st_dec(l); } DoIORs(hob, wfac) long hob; size wfac; { /* IOR w: Boolean inclusive or on two groups of w bytes */ register size l = (S_arg(hob) * wfac); register ptr p; LOG(("@X6 DoIORs(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p + l) |= stack_loc(p); } st_dec(l); } DoIORz() { /* IOR w: Boolean inclusive or on two groups of w bytes */ register size l = upop(wsize); register ptr p; LOG(("@X6 DoIORz(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p + l) |= stack_loc(p); } st_dec(l); } DoXORl2(arg) size arg; { /* XOR w: Boolean exclusive or on two groups of w bytes */ register size l = (L_arg_2() * arg); register ptr p; LOG(("@X6 DoXORl2(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p + l) ^= stack_loc(p); } st_dec(l); } DoXORz() { /* XOR w: Boolean exclusive or on two groups of w bytes */ register size l = upop(wsize); register ptr p; LOG(("@X6 DoXORz(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p + l) ^= stack_loc(p); } st_dec(l); } DoCOMl2(arg) size arg; { /* COM w: Complement (one's complement of top w bytes) */ register size l = (L_arg_2() * arg); register ptr p; LOG(("@X6 DoCOMl2(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, 0); stack_loc(p) = ~stack_loc(p); } } DoCOMz() { /* COM w: Complement (one's complement of top w bytes) */ register size l = upop(wsize); register ptr p; LOG(("@X6 DoCOMz(%ld)", l)); spoilFRA(); l = arg_w(l); for (p = SP; p < (SP + l); p++) { check_def(p, l); stack_loc(p) = ~stack_loc(p); } } DoROLl2(arg) size arg; { /* ROL w: Rotate left a group of w bytes */ register size l = (L_arg_2() * arg); register long s, t = upop(wsize); register long signbit; LOG(("@X6 DoROLl2(%ld)", l)); spoilFRA(); signbit = (arg_wi(l) == 2) ? SIGNBIT2 : SIGNBIT4; s = upop(l); #ifdef LOGGING if (must_test) { /* check shift distance */ if (t < 0) { warning(WSHNEG); t = 0; } if (t >= l*8) { warning(WSHLARGE); t = l*8 - 1; } } #endif LOGGING /* calculate result */ while (t--) { s = (s & signbit) ? ((s<<1) | BIT(0)) : (s<<1); } npush(s, l); } DoROLz() { /* ROL w: Rotate left a group of w bytes */ register size l = upop(wsize); register long s, t = upop(wsize); register long signbit; LOG(("@X6 DoROLz(%ld)", l)); spoilFRA(); signbit = (arg_wi(l) == 2) ? SIGNBIT2 : SIGNBIT4; s = upop(l); #ifdef LOGGING if (must_test) { /* check shift distance */ if (t < 0) { warning(WSHNEG); t = 0; } if (t >= l*8) { warning(WSHLARGE); t = l*8 - 1; } } #endif LOGGING /* calculate result */ while (t--) { s = (s & signbit) ? ((s<<1) | BIT(0)) : (s<<1); } npush(s, l); } DoRORl2(arg) size arg; { /* ROR w: Rotate right a group of w bytes */ register size l = (L_arg_2() * arg); register long s, t = upop(wsize); register long signbit; LOG(("@X6 DoRORl2(%ld)", l)); spoilFRA(); signbit = (l == 2) ? SIGNBIT2 : SIGNBIT4; s = upop(arg_wi(l)); #ifdef LOGGING if (must_test) { /* check shift distance */ if (t < 0) { warning(WSHNEG); t = 0; } if (t >= l*8) { warning(WSHLARGE); t = l*8 - 1; } } #endif LOGGING /* calculate result */ while (t--) { /* the >> in C does sign extension, the ROR does not */ if (s & BIT(0)) s = (s >> 1) | signbit; else s = (s >> 1) & ~signbit; } npush(s, l); } DoRORz() { /* ROR w: Rotate right a group of w bytes */ register size l = upop(wsize); register long s, t = upop(wsize); register long signbit; LOG(("@X6 DoRORz(%ld)", l)); spoilFRA(); signbit = (arg_wi(l) == 2) ? SIGNBIT2 : SIGNBIT4; s = upop(l); #ifdef LOGGING if (must_test) { /* check shift distance */ if (t < 0) { warning(WSHNEG); t = 0; } if (t >= l*8) { warning(WSHLARGE); t = l*8 - 1; } } #endif LOGGING /* calculate result */ while (t--) { /* the >> in C does sign extension, the ROR does not */ if (s & BIT(0)) s = (s >> 1) | signbit; else s = (s >> 1) & ~signbit; } npush(s, l); }