# ; ; (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands. ; See the copyright notice in the ACK home directory, in the file "Copyright". ; ; ; Module: coroutine primitives ; Author: Kees Bot, Edwin Scheffer, Ceriel Jacobs ; Version: $Header$ ; mes 2,EM_WSIZE,EM_PSIZE ; topsize takes care of two things: ; - given a stack-break, ; it computes the size of the chunk of memory needed to save the stack; ; - also, if this stack-break = 0, it creates one, assuming that caller is ; the stack-break. ; ; This implementation assumes a continuous stack growing downwards exp $topsize #ifdef __sparc inp $topsize2 pro $topsize, 0 mes 11 zer EM_PSIZE lal 0 loi EM_PSIZE cal $topsize2 asp 2*EM_PSIZE lfr EM_WSIZE ret EM_WSIZE end 0 pro $topsize2, 3*EM_WSIZE+3*EM_PSIZE #else pro $topsize, 3*EM_WSIZE+3*EM_PSIZE #endif ; local space for line-number, ignoremask, filename, stack-break, size, ; and stack-pointer (see the topsave routine) mes 11 lal 0 loi EM_PSIZE loi EM_PSIZE ; stack-break or 0 zer EM_PSIZE cmp zne *1 lxl 0 dch ; local base of caller #ifdef __sparc dch ; because of the extra layer #endif lal 0 loi EM_PSIZE sti EM_PSIZE 1 lal 0 loi EM_PSIZE loi EM_PSIZE lpb ; convert this local base to an argument base. ; An implementation of a sort of "topsize" EM ; instruction should take a local base, and save ; the whole frame. lor 1 ; stack-break SP sbs EM_WSIZE ; stack-break-SP ret EM_WSIZE ; return size of block to be saved end 3*EM_WSIZE+3*EM_PSIZE exp $topsave #ifdef __sparc inp $topsave2 pro $topsave,0 mes 11 lal 0 loi 2*EM_PSIZE cal $topsave2 asp 2*EM_PSIZE lfr EM_WSIZE ret EM_WSIZE end 0 pro $topsave2,0 #else pro $topsave, 0 #endif mes 11 loe 0 lae 4 ; load line number and file name loi EM_PSIZE lim ; ignore mask lor 0 ; LB lal 0 loi EM_PSIZE ; stack-break lpb lor 1 sbs EM_WSIZE loc EM_WSIZE adu EM_WSIZE ; gives size dup EM_WSIZE stl 0 ; save size lor 1 ; SP (the SP BEFORE pushing) lor 1 ; SP (address of stack top to save) lal EM_PSIZE ; area loi EM_PSIZE lol 0 ; size bls EM_WSIZE ; move whole block asp 3*EM_PSIZE+3*EM_WSIZE ; remove the lot from the stack loc 1 ret EM_WSIZE ; return 1 end 0 sv bss EM_PSIZE,0,0 exp $topload #ifdef __sparc inp $topload1 pro $topload,0 lal 0 loi EM_PSIZE cal $topload1 asp EM_PSIZE lfr EM_WSIZE ret EM_WSIZE end 0 pro $topload1, 0 #else pro $topload, 0 #endif mes 11 lal 0 loi EM_PSIZE lae sv sti EM_PSIZE ; saved parameter lxl 0 2 dup EM_PSIZE adb -3*EM_PSIZE lal 0 loi EM_PSIZE ; compare target SP with current LB to see if we must loi EM_PSIZE cmp ; find another LB first zgt *1 dch ; just follow dynamic chain to make sure we find ; a legal one bra *2 1 str 0 lae sv loi EM_PSIZE loi EM_PSIZE ; load indirect to str 1 ; restore SP asp -EM_PSIZE ; to stop int from complaining about non-existent memory lae sv loi EM_PSIZE ; source address lor 1 adp EM_PSIZE ; destination address lae sv loi EM_PSIZE adp EM_PSIZE loi EM_WSIZE ; size of block bls EM_WSIZE asp EM_PSIZE+EM_WSIZE ; drop size + SP str 0 ; restore local base sim ; ignore mask lae 4 sti EM_PSIZE ste 0 ; line and file loc 0 ret EM_WSIZE end 0