/* * Sources of the "ARRAY" group instructions */ /* $Header$ */ #include #include "global.h" #include "log.h" #include "trap.h" #include "mem.h" #include "text.h" #include "fra.h" #define LAR 1 #define SAR 2 #define AAR 3 PRIVATE arr(); DoLARl2(arg) size arg; { /* LAR w: Load array element, descriptor contains integers of size w */ register size l = (L_arg_2() * arg); LOG(("@A6 DoLARl2(%ld)", l)); arr(LAR, arg_wi(l)); } DoLARm(arg) size arg; { /* LAR w: Load array element, descriptor contains integers of size w */ LOG(("@A6 DoLARm(%ld)", arg)); arr(LAR, arg_wi(arg)); } DoLARz() { /* LAR w: Load array element, descriptor contains integers of size w */ register size l = uwpop(); LOG(("@A6 DoLARz(%ld)", l)); arr(LAR, arg_wi(l)); } DoSARl2(arg) size arg; { /* SAR w: Store array element */ register size l = (L_arg_2() * arg); LOG(("@A6 DoSARl2(%ld)", l)); arr(SAR, arg_wi(l)); } DoSARm(arg) size arg; { /* SAR w: Store array element */ LOG(("@A6 DoSARm(%ld)", arg)); arr(SAR, arg_wi(arg)); } DoSARz() { /* SAR w: Store array element */ register size l = uwpop(); LOG(("@A6 DoSARz(%ld)", l)); arr(SAR, arg_wi(l)); } DoAARl2(arg) size arg; { /* AAR w: Load address of array element */ register size l = (L_arg_2() * arg); LOG(("@A6 DoAARl2(%ld)", l)); arr(AAR, arg_wi(l)); } DoAARm(arg) size arg; { /* AAR w: Load address of array element */ LOG(("@A6 DoAARm(%ld)", arg)); arr(AAR, arg_wi(arg)); } DoAARz() { /* AAR w: Load address of array element */ register size l = uwpop(); LOG(("@A6 DoAARz(%ld)", l)); arr(AAR, arg_wi(l)); } /******************************************************** * Array arithmetic * * * * 1. The address of the descriptor is popped. * * 2. The index is popped. * * 3. Calculate index - lower bound. * * 4. Check if in range. * * 5. Calculate object size. * * 6. Perform the correct function. * *********************************************************/ PRIVATE arr(type, elm_size) int type; /* operation TYPE */ size elm_size; /* ELeMent SIZE */ { register ptr desc = dppop(); /* array DESCriptor */ register size obj_size; /* OBJect SIZE */ register long diff = /* between index and lower bound */ spop(elm_size) - mem_lds(desc, elm_size); register ptr arr_addr = dppop();/* ARRay ADDRess */ if (must_test && !(IgnMask&BIT(EARRAY))) { if (diff < 0 || diff > mem_lds(desc + elm_size, elm_size)) { trap(EARRAY); } } obj_size = mem_lds(desc + (2*elm_size), elm_size); obj_size = arg_o(((long) obj_size)); spoilFRA(); /* array functions don't retain FRA */ switch (type) { case LAR: push_m(arr_addr + diff * obj_size, obj_size); break; case SAR: pop_m(arr_addr + diff * obj_size, obj_size); break; case AAR: dppush(arr_addr + diff * obj_size); break; } }