#!/bin/sh # # If your shell doesn't support functions (true for some BSD users), # you might try using GNU's bash. # #ident "@(#) m88k-move.sh 1-Sep-92" # # This file provided by Data General, February 1990. # # This script generates the necessary movstr library functions # for the m88100. These functions are called from the expansion # of movstrsi. There are eight modules created by this script, # each with multiple entry points. One module, moveSI64n # implements a word aligned loop; the other modules, moveXINx # implement a straight line copy of N bytes in mode XI. # # By analysis of the best memcpy function, it can be determined # what appear to be certain magic numbers. For example, a # memcpy of 13 bytes, where the pointers are determined at run # time to be word aligned takes 28 cycles. A call to # __movstrQI13x13 also takes 28 cycles. The break even point # for a HImode copy is 38 bytes. Just to be on the safe side, # these are bumped to 16 and 48 respectively. # # The smaller, odd-remainder modules are provided to help # mitigate the overhead of copying the last bytes. # # Changes to these functions should not be taken lightly if you # want to be able to link programs built with older movstr # parameters. # #.Revision History # # 1-Sep-92 Stan Cox Added moveDI96x, moveDI41x through moveDI47x. # 2-Jan-92 Tom Wood Renamed files to comply with SVR3 14 char limit. # 26-Oct-90 Tom Wood Delete movstr.h; moved to out-m88k.c. # 17-Oct-90 Tom Wood Files are named *.asm rather than *.s. # 11-Sep-90 Jeffrey Friedl # On my BSD 4.3 awk and my GNU-awk, only the # first character of an argument to -F is passed # through, so I can't get this to work. # 5-Sep-90 Ray Essick/Tom Wood # Added a -no-tdesc option. # 27-Aug-90 Vince Guarna/Tom Wood # Version 3 assembler syntax (-abi). # 16-Aug-90 Ron Guilmette # Avoid problems on a Sparc. The common # denominator among shells seems to be '...\' # rather than '...\\'. # 15-Aug-90 Ron Guilmette # Avoid awk syntax errors on a Sun by not using # the `!' operator. # 22-Feb-90 Tom Wood Created. # 20-Jun-90 Tom Wood Emit file directives. # #.End]=--------------------------------------------------------------*/ usage() { echo "usage: $0 [ -abi ] [ -no-tdesc ]" 1>&2 exit 1 } awk_flag="-F:"; awk_begin="BEGIN { " ps=""; us="_"; tf="x"; la="@L"; fb="8"; nt=""; do_file() { echo " file $1"; } while [ $# -gt 0 ] ; do case $1 in -no-tdesc) awk_begin="$awk_begin no_tdesc=1;" nt=";";; -abi) awk_begin="$awk_begin abi=1;" ps="#"; us=""; tf="a"; la=".L"; fb="16"; do_file() { echo ' version "03.00"'; echo " file $1"; };; *) usage;; esac shift done rm -f move?I*[xn].s move?I*[xn].asm #.Implementation_continued[=----------------------------------------------- # # This generates the word aligned loop. The loop is entered # from the callable entry points ___movstrSI64nN, where at # least N bytes will be copied. r2 is the destination pointer # offset by 4, r3 is the source pointer offset by 4, r6 is the # loop count. Thus, the total bytes moved is 64 * r6 + N. The # first value is preloaded into r4 or r5 (r4 if N/4 is odd; # r5 if N/4 is even). Upon returning, r2 and r3 have been # updated and may be used for the remainder bytes to move. # # The code for this loop is generated by the awk program # following. Edit *it*, not what it generates! # #.End]=------------------------------------------------------------------*/ gen_movstrN() { awk $awk_flag "$awk_begin"' if (abi) { ps="#"; us=""; tf="a"; la=".L"; fb=16; } else { ps=""; us="_"; tf="x"; la="@L"; fb=8; } } NR == 1 && NF == 4 { mode = $1; suffix = $2; align = $3; count = $4; ld = align; st = 0; printf "; The following was calculated using awk.\n"; printf "\ttext\n"; printf "\talign\t%d\n", fb; printf "%sloop%s%d:\n", la, mode, count * align; printf "\taddu\t%sr3,%sr3,%d\n", ps, ps, count * align; printf "\taddu\t%sr2,%sr2,%d\n", ps, ps, count * align; printf "\tsubu\t%sr6,%sr6,1\n", ps, ps; for (r = count + 1; r >= 1; r--) { evenp = r % 2; name = sprintf("__%smovstr%s%dn%d", us, mode, count * align, r * align); if (r > 1) { printf "\tglobal\t%s\n", name; printf "%s:\n", name; } if (r > 2) { printf "\tld%s\t%sr%d,%sr3,%d\n", suffix, ps, 4 + evenp, ps, ld; printf "\tst%s\t%sr%d,%sr2,%d\n", suffix, ps, 5 - evenp, ps, st; } else if (r == 2) { printf "\tld%s\t%sr%d,%sr3,%d\n", suffix, ps, 4 + evenp, ps, ld; printf "\tbcnd.n\t%sgt0,%sr6,%sloop%s%d\n", ps, ps, la, mode, count * align; printf "\tst%s\t%sr%d,%sr2,%d\n", suffix, ps, 5 - evenp, ps, st; printf "\tjmp.n\t%sr1\n", ps; } else { printf "\tst%s\t%sr%d,%sr2,%d\n", suffix, ps, 5 - evenp, ps, st; } ld += align; st += align; } if (!no_tdesc) { printf "%send%s%d:\n", la, mode, count * align; printf "\tsection\t.tdesc,\"%s\"\n", tf; printf "\tword\t0x42,1,%sloop%s%d", la, mode, count * align; printf ",%send%s%d\n", la, mode, count * align; printf "\tword\t0x0100001f,0,1,0\n"; printf "\ttext\n"; } printf "; End of awk generated code.\n"; exit; }' } (do_file '"movstrSI64n.s"'; echo 'SI::4:16' | gen_movstrN) > moveSI64n.asm #.Implementation_continued[=----------------------------------------------- # # This generates the even-remainder, straight-line modules. # The code is entered from the callable entry points # ___movstrXINxM, where exactly M bytes will be copied in XI # mode. r2 is the destination pointer, r3 is the source # pointer, neither being offset. The first value is preloaded # into r4 or r5 (r4 if M-N/B is even; r5 if M-N/B is odd, where # B is the mode size of XI). Upon returning, r2 and r3 have not # been changed. # # The code for these cases is generated by the awk program # following. Edit *it*, not what it generates! # #.End]=------------------------------------------------------------------*/ gen_movstrX0() { awk $awk_flag "$awk_begin"' if (abi) { ps="#"; us=""; tf="a"; la=".L"; fb=16; } else { ps=""; us="_"; tf="x"; la="@L"; fb=8; } } NR == 1 && NF == 4 { mode = $1; suffix = $2; align = $3; bytes = $4; ld = align; st = 0; count = bytes / align; reg[0] = 4; if (align == 8) reg[1] = 6; else reg[1] = 5; printf "; The following was calculated using awk.\n"; printf "\ttext\n"; printf "\talign\t%d\n", fb; for (r = count; r >= 1; r--) { evenp = r % 2; name = sprintf("__%smovstr%s%dx%d", us, mode, count * align, r * align); if (r > 1) { printf "\tglobal\t%s\n", name; printf "%s:\n", name; } if (r == 1) printf "\tjmp.n\t%sr1\n", ps; else printf "\tld%s\t%sr%d,%sr3,%d\n", suffix, ps, reg[evenp], ps, ld; printf "\tst%s\t%sr%d,%sr2,%d\n", suffix, ps, reg[1-evenp], ps, st; ld += align; st += align; } if (!no_tdesc) { printf "%send%s%dx:\n", la, mode, count * align; printf "\tsection\t.tdesc,\"%s\"\n", tf; printf "\tword\t0x42,1,__%smovstr%s%dx%d", us, mode, count * align, count * align; printf ",%send%s%dx\n", la, mode, count * align; printf "\tword\t0x0100001f,0,1,0\n"; printf "\ttext\n"; } printf "; End of awk generated code.\n" exit; }' } (do_file '"movstrQI16x.s"'; echo 'QI:.b:1:16' | gen_movstrX0) > moveQI16x.asm (do_file '"movstrHI48x.s"'; echo 'HI:.h:2:48' | gen_movstrX0) > moveHI48x.asm (do_file '"movstrSI96x.s"'; echo 'SI::4:96' | gen_movstrX0) > moveSI96x.asm (do_file '"movstrDI96x.s"'; echo 'DI:.d:8:96' | gen_movstrX0) > moveDI96x.asm #.Implementation_continued[=----------------------------------------------- # # This generates the odd-remainder, straight-line modules. The # interface is the same as that for the even-remainder modules. # #.End]=------------------------------------------------------------------*/ gen_movstrXr() { awk $awk_flag "$awk_begin"' if (abi) { ps="#"; us=""; tf="a"; la=".L"; fb=16; } else { ps=""; us="_"; tf="x"; la="@L"; fb=8; } } NR == 1 && NF == 4 { mode = $1; rem = $2; most = $3; count = $4; suffix[1] = ".b"; suffix[2] = ".h"; suffix[4] = ""; suffix[8] = ".d"; prev = align = most; ld = align; st = 0; total = count - rem - most; evenp = int(total/align) % 2; reg[0] = 4; if (align == 8) reg[1] = 6; else reg[1] = 5; printf "; The following was calculated using awk.\n"; printf "\ttext\n"; printf "\talign\t%d\n", fb; for (bytes = total; bytes >= 0; bytes -= align) { if (bytes < align) { if (bytes >= 4) align = 4; else if (bytes >= 2) align = 2; else align = 1; } name = sprintf("__%smovstr%s%dx%d", us, mode, total + most, bytes + most); if (bytes > most) { printf "\tglobal\t%s\n", name; printf "%s:\n", name; } if (bytes == 0) printf "\tjmp.n\t%sr1\n", ps; else printf "\tld%s\t%sr%d,%sr3,%d\n", suffix[align], ps, reg[evenp], ps, ld; printf "\tst%s\t%sr%d,%sr2,%d\n", suffix[prev], ps, reg[1-evenp], ps, st; ld += align; st += prev; prev = align; evenp = 1 - evenp; } if (!no_tdesc) { printf "%send%s%dx:\n", la, mode, total + most; printf "\tsection\t.tdesc,\"%s\"\n", tf; printf "\tword\t0x42,1,__%smovstr%s%dx%d", us, mode, total + most, total + most; printf ",%send%s%dx\n", la, mode, total + most; printf "\tword\t0x0100001f,0,1,0\n"; printf "\ttext\n"; } printf "; End of awk generated code.\n" exit; }' } (do_file '"movstrDI47x.s"'; echo 'DI:1:8:48' | gen_movstrXr) > moveDI47x.asm (do_file '"movstrDI46x.s"'; echo 'DI:2:8:48' | gen_movstrXr) > moveDI46x.asm (do_file '"movstrDI45x.s"'; echo 'DI:3:8:48' | gen_movstrXr) > moveDI45x.asm (do_file '"movstrDI44x.s"'; echo 'DI:4:8:48' | gen_movstrXr) > moveDI44x.asm (do_file '"movstrDI43x.s"'; echo 'DI:5:8:48' | gen_movstrXr) > moveDI43x.asm (do_file '"movstrDI42x.s"'; echo 'DI:6:8:48' | gen_movstrXr) > moveDI42x.asm (do_file '"movstrDI41x.s"'; echo 'DI:7:8:48' | gen_movstrXr) > moveDI41x.asm (do_file '"movstrSI47x.s"'; echo 'SI:1:4:48' | gen_movstrXr) > moveSI47x.asm (do_file '"movstrSI46x.s"'; echo 'SI:2:4:48' | gen_movstrXr) > moveSI46x.asm (do_file '"movstrSI45x.s"'; echo 'SI:3:4:48' | gen_movstrXr) > moveSI45x.asm (do_file '"movstrHI15x.s"'; echo 'HI:1:2:16' | gen_movstrXr) > moveHI15x.asm