r1 96 gc/darwin_stop_world.c lo = (void*)(state.r1 - PPC_RED_ZONE_SIZE); r1 178 gc/darwin_stop_world.c lo = (void*)(info.r1 - PPC_RED_ZONE_SIZE); r1 179 gc/darwin_stop_world.c hi = (ptr_t)FindTopOfStack(info.r1); r1 357 gc/win32_threads.c # define PUSH2(r1,r2) PUSH1(r1), PUSH1(r2) r1 358 gc/win32_threads.c # define PUSH4(r1,r2,r3,r4) PUSH2(r1,r2), PUSH2(r3,r4) r1 821 src/bignum.c u_long hi, lo, x, r0, r1, c; r1 830 src/bignum.c UADD(r1, c, r0, lo); r1 831 src/bignum.c br->values[i+off] = r1; r1 834 src/bignum.c UADD(r1, c, r0, hi); r1 835 src/bignum.c br->values[i+off+1] = r1; r1 839 src/bignum.c UADD(r1, c, r0, 0); r1 840 src/bignum.c br->values[j] = r1; r1 1042 src/bignum.c u_long q0 = 0, r0 = 0, q1, r1; r1 1046 src/bignum.c r1 = ((pu[n] % divisor) << HALF_BITS) + HI(pu[n-1]); r1 1047 src/bignum.c q0 = ((r1 / divisor) << HALF_BITS); r1 1048 src/bignum.c r0 = r1 % divisor; r1 1053 src/bignum.c r1 = pu[0] % divisor; r1 1055 src/bignum.c return r1; r1 773 src/number.c double r = SCM_COMPLEX_REAL(obj), r1; r1 777 src/number.c r1 = r/d; r1 779 src/number.c obj = Scm_MakeComplexNormalized(r1, i1);