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freebsd-ports/lang/lcc/files/FreeBSD.md
David E. O'Brien a7ed5d35e0 lcc is the retargetable ANSI C compiler described in the book
`A Retargetable C Compiler: Design and Implementation'
(Addison-Wesley, 1995, ISBN 0-8053-1670-1).

lcc is a production compiler with a hand crafted lexical analyzer and a
hand-coded recursive decent parser.  The lexer and parser code is well
written and very easy to read (and learn from :-)).

lcc compiles much faster than FreeBSD's stock [gcc] compiler.  However, it
does not under stand FreeBSD's "long long" data type.

Contributions by:	Soren Schmidt
1996-12-27 11:09:49 +00:00

31 KiB

%{ #define FREEBSDMD_RCSID "$Id$"

enum { EAX=0, ECX=1, EDX=2, EBX=3, ESI=6, EDI=7 }; #include "c.h" #define NODEPTR_TYPE Node #define OP_LABEL(p) ((p)->op) #define LEFT_CHILD(p) ((p)->kids[0]) #define RIGHT_CHILD(p) ((p)->kids[1]) #define STATE_LABEL(p) ((p)->x.state) static void address ARGS((Symbol, Symbol, int)); static void blkfetch ARGS((int, int, int, int)); static void blkloop ARGS((int, int, int, int, int, int[])); static void blkstore ARGS((int, int, int, int)); static int ckstack ARGS((Node, int)); static void defaddress ARGS((Symbol)); static void defconst ARGS((int, Value)); static void defstring ARGS((int, char *)); static void defsymbol ARGS((Symbol)); static void doarg ARGS((Node)); static void emit0 ARGS((Node)); static void emit2 ARGS((Node)); static void export ARGS((Symbol)); static void clobber ARGS((Node)); static void function ARGS((Symbol, Symbol [], Symbol [], int)); static void global ARGS((Symbol)); static void import ARGS((Symbol)); static void local ARGS((Symbol)); static void progbeg ARGS((int, char **)); static void progend ARGS((void)); static void segment ARGS((int)); static void space ARGS((int)); static void target ARGS((Node)); static int memop ARGS((Node)); static int hasargs ARGS((Node)); static int sametree ARGS((Node, Node)); static Symbol charreg[32], shortreg[32], intreg[32]; static Symbol fltreg[32];

static int cseg;

static Symbol quo, rem;

%} %start stmt %term ADDD=306 ADDF=305 ADDI=309 ADDP=311 ADDU=310 %term ADDRFP=279 %term ADDRGP=263 %term ADDRLP=295 %term ARGB=41 ARGD=34 ARGF=33 ARGI=37 ARGP=39 %term ASGNB=57 ASGNC=51 ASGND=50 ASGNF=49 ASGNI=53 ASGNP=55 ASGNS=52 %term BANDU=390 %term BCOMU=406 %term BORU=422 %term BXORU=438 %term CALLB=217 CALLD=210 CALLF=209 CALLI=213 CALLV=216 %term CNSTC=19 CNSTD=18 CNSTF=17 CNSTI=21 CNSTP=23 CNSTS=20 CNSTU=22 %term CVCI=85 CVCU=86 %term CVDF=97 CVDI=101 %term CVFD=114 %term CVIC=131 CVID=130 CVIS=132 CVIU=134 %term CVPU=150 %term CVSI=165 CVSU=166 %term CVUC=179 CVUI=181 CVUP=183 CVUS=180 %term DIVD=450 DIVF=449 DIVI=453 DIVU=454 %term EQD=482 EQF=481 EQI=485 %term GED=498 GEF=497 GEI=501 GEU=502 %term GTD=514 GTF=513 GTI=517 GTU=518 %term INDIRB=73 INDIRC=67 INDIRD=66 INDIRF=65 INDIRI=69 INDIRP=71 INDIRS=68 %term JUMPV=584 %term LABELV=600 %term LED=530 LEF=529 LEI=533 LEU=534 %term LOADB=233 LOADC=227 LOADD=226 LOADF=225 LOADI=229 LOADP=231 LOADS=228 LOADU=230 %term LSHI=341 LSHU=342 %term LTD=546 LTF=545 LTI=549 LTU=550 %term MODI=357 MODU=358 %term MULD=466 MULF=465 MULI=469 MULU=470 %term NED=562 NEF=561 NEI=565 %term NEGD=194 NEGF=193 NEGI=197 %term RETD=242 RETF=241 RETI=245 %term RSHI=373 RSHU=374 %term SUBD=322 SUBF=321 SUBI=325 SUBP=327 SUBU=326 %term VREGP=615 %%

reg: INDIRC(VREGP) "# read register\n" reg: INDIRI(VREGP) "# read register\n" reg: INDIRP(VREGP) "# read register\n" reg: INDIRS(VREGP) "# read register\n" freg: INDIRD(VREGP) "# read register\n" freg: INDIRF(VREGP) "# read register\n" stmt: ASGNC(VREGP,reg) "# write register\n" stmt: ASGNI(VREGP,reg) "# write register\n" stmt: ASGNP(VREGP,reg) "# write register\n" stmt: ASGNS(VREGP,reg) "# write register\n" stmt: ASGND(VREGP,freg) "# write register\n" stmt: ASGNF(VREGP,freg) "# write register\n" con: CNSTC "$%a" con: CNSTI "$%a" con: CNSTP "$%a" con: CNSTS "$%a" con: CNSTU "$%a" stmt: reg "" stmt: freg "" reg: CVIU(reg) "%0" notarget(a) reg: CVPU(reg) "%0" notarget(a) reg: CVUI(reg) "%0" notarget(a) reg: CVUP(reg) "%0" notarget(a)

acon: ADDRGP "%a" acon: CNSTC "%a" acon: CNSTI "%a" acon: CNSTP "%a" acon: CNSTS "%a" acon: CNSTU "%a"

baseaddr: ADDRGP "%a" base: reg "(%0)" base: ADDI(reg,acon) "%1(%0)" base: ADDP(reg,acon) "%1(%0)" base: ADDU(reg,acon) "%1(%0)" base: ADDRFP "%a(%%ebp)" base: ADDRLP "%a(%%ebp)"

con1: CNSTI "1" range(a, 1, 1) con1: CNSTU "1" range(a, 1, 1)

icon: CNSTI "2" range(a, 1, 1) icon: CNSTU "2" range(a, 1, 1) icon: CNSTI "4" range(a, 2, 2) icon: CNSTU "4" range(a, 2, 2) icon: CNSTI "8" range(a, 3, 3) icon: CNSTU "8" range(a, 3, 3)

index: reg "%0" index: LSHI(reg,icon) "%0,%1" index: LSHU(reg,icon) "%0,%1"

addr: base "%0" 1 addr: baseaddr "%0" addr: ADDI(index,baseaddr) "%1(,%0)" addr: ADDI(reg,baseaddr) "%1(%0)" addr: ADDI(index,reg) "(%1,%0)"

addr: ADDP(index,baseaddr) "%1(,%0)" addr: ADDP(reg,baseaddr) "%1(%0)" addr: ADDP(index,reg) "(%1,%0)" addr: ADDU(index,baseaddr) "%1(,%0)" addr: ADDU(reg,baseaddr) "%1(%0)" addr: ADDU(index,reg) "(%1,%0)" addr: index "(,%0)"

memb: INDIRC(addr) "%0" memw: INDIRS(addr) "%0" mem: INDIRI(addr) "%0" mem: INDIRP(addr) "%0"

rc5: CNSTI "$%a" range(a, 0, 31) rc5: reg "%%cl"

rc: reg "%0" rc: con "%0"

mr: reg "%0" mr: mem "%0"

mrb: reg "%0" mrb: memb "%0"

mrw: reg "%0" mrw: memw "%0"

mrc: mem "%0" 1 mrc: memb "%0" 1 mrc: memw "%0" 1 mrc: rc "%0"

reg: addr "\tleal\t%0,%c\n" 1 reg: mr "\tmovl\t%0,%c\n" 1 reg: mrb "\tmovb\t%0,%c\n" 1 reg: mrw "\tmovw\t%0,%c\n" 1 reg: con "\tmovl\t%0,%c\n" 1 reg: LOADC(reg) "\tmovb\t%0,%c\n" move(a) reg: LOADI(reg) "\tmovl\t%0,%c\n" move(a) reg: LOADP(reg) "\tmovl\t%0,%c\n" move(a) reg: LOADS(reg) "\tmovw\t%0,%c\n" move(a) reg: LOADU(reg) "\tmovl\t%0,%c\n" move(a) reg: ADDI(reg,mrc) "?\tmovl\t%0,%c\n\taddl\t%1,%c\n" 1 reg: ADDP(reg,mrc) "?\tmovl\t%0,%c\n\taddl\t%1,%c\n" 1 reg: ADDU(reg,mrc) "?\tmovl\t%0,%c\n\taddl\t%1,%c\n" 1 reg: SUBI(reg,mrc) "?\tmovl\t%0,%c\n\tsubl\t%1,%c\n" 1 reg: SUBP(reg,mrc) "?\tmovl\t%0,%c\n\tsubl\t%1,%c\n" 1 reg: SUBU(reg,mrc) "?\tmovl\t%0,%c\n\tsubl\t%1,%c\n" 1 reg: BANDU(reg,mrc) "?\tmovl\t%0,%c\n\tandl\t%1,%c\n" 1 reg: BORU(reg,mrc) "?\tmovl\t%0,%c\n\torl\t%1,%c\n" 1 reg: BXORU(reg,mrc) "?\tmovl\t%0,%c\n\txorl\t%1,%c\n" 1 reg: LSHI(reg,rc5) "?\tmovl\t%0,%c\n\tsall\t%1,%c\n" 2 reg: LSHU(reg,rc5) "?\tmovl\t%0,%c\n\tshll\t%1,%c\n" 2 reg: RSHI(reg,rc5) "?\tmovl\t%0,%c\n\tsarl\t%1,%c\n" 2 reg: RSHU(reg,rc5) "?\tmovl\t%0,%c\n\tshrl\t%1,%c\n" 2 reg: BCOMU(reg) "?\tmovl\t%0,%c\n\tnotl\t%c\n" 2 reg: NEGI(reg) "?\tmovl\t%0,%c\n\tnegl\t%c\n" 2

stmt: ASGNI(addr,ADDI(mem,con1)) "\tincl\t%1\n" memop(a) stmt: ASGNI(addr,ADDU(mem,con1)) "\tincl\t%1\n" memop(a) stmt: ASGNP(addr,ADDP(mem,con1)) "\tincl\t%1\n" memop(a) stmt: ASGNI(addr,SUBI(mem,con1)) "\tdecl\t%1\n" memop(a) stmt: ASGNI(addr,SUBU(mem,con1)) "\tdecl\t%1\n" memop(a) stmt: ASGNP(addr,SUBP(mem,con1))"\tdecl\t%1\n" memop(a) stmt: ASGNI(addr,ADDI(mem,rc)) "\taddl\t%2,%1\n" memop(a) stmt: ASGNI(addr,ADDU(mem,rc)) "\taddl\t%2,%1\n" memop(a) stmt: ASGNI(addr,SUBI(mem,rc)) "\tsubl\t%2,%1\n" memop(a) stmt: ASGNI(addr,SUBU(mem,rc)) "\tsubl\t%2,%1\n" memop(a) stmt: ASGNI(addr,BANDU(mem,rc)) "\tandl\t%2,%1\n" memop(a) stmt: ASGNI(addr,BORU(mem,rc)) "\torl\t%2,%1\n" memop(a) stmt: ASGNI(addr,BXORU(mem,rc)) "\txorl\t%2,%1\n" memop(a) stmt: ASGNI(addr,BCOMU(mem)) "\tnotl\t%1\n" memop(a) stmt: ASGNI(addr,NEGI(mem)) "\tnegl\t%1\n" memop(a) stmt: ASGNI(addr,LSHI(mem,rc5)) "\tsall\t%2,%1\n" memop(a) stmt: ASGNI(addr,LSHU(mem,rc5)) "\tshll\t%2,%1\n" memop(a) stmt: ASGNI(addr,RSHI(mem,rc5)) "\tsarl\t%2,%1\n" memop(a) stmt: ASGNI(addr,RSHU(mem,rc5)) "\tshrl\t%2,%1\n" memop(a)

reg: MULI(reg,mrc) "?\tmovl\t%0,%c\n\timull\t%1,%c\n" 14 reg: MULI(con,mr) "\timul\t%0,%1,%c\n" 13 reg: MULU(reg,mr) "\tmull\t%1\n" 13 reg: DIVU(reg,reg) "\txorl\t%%edx,%%edx\n\tdivl\t%1\n" reg: MODU(reg,reg) "\txorl\t%%edx,%%edx\n\tdivl\t%1\n" reg: DIVI(reg,reg) "\tcdq\n\tidivl\t%1\n" reg: MODI(reg,reg) "\tcdq\n\tidivl\t%1\n" reg: CVIU(reg) "\tmovl\t%0,%c\n" move(a) reg: CVPU(reg) "\tmovl\t%0,%c\n" move(a) reg: CVUI(reg) "\tmovl\t%0,%c\n" move(a) reg: CVUP(reg) "\tmovl\t%0,%c\n" move(a) reg: CVCI(INDIRC(addr)) "\tmovsbl\t%0,%c\n" 3 reg: CVCU(INDIRC(addr)) "\tmovzbl\t%0,%c\n" 3 reg: CVSI(INDIRS(addr)) "\tmovswl\t%0,%c\n" 3 reg: CVSU(INDIRS(addr)) "\tmovzwl\t%0,%c\n" 3

reg: CVCI(reg) "# extend\n" 3 reg: CVCU(reg) "# extend\n" 3 reg: CVSI(reg) "# extend\n" 3 reg: CVSU(reg) "# extend\n" 3 reg: CVIC(reg) "# truncate\n" 1 reg: CVIS(reg) "# truncate\n" 1 reg: CVUC(reg) "# truncate\n" 1 reg: CVUS(reg) "# truncate\n" 1

mrca: mem "%0" mrca: rc "%0" mrca: ADDRGP "$%a"

stmt: ASGNC(addr,rc) "\tmovb\t%1,%0\n" 1 stmt: ASGNI(addr,rc) "\tmovl\t%1,%0\n" 1 stmt: ASGNP(addr,rc) "\tmovl\t%1,%0\n" 1 stmt: ASGNS(addr,rc) "\tmovw\t%1,%0\n" 1 stmt: ASGNB(reg,INDIRB(reg)) "\tmovl\t$%a,%%ecx\n\trep\n\tmovsb\n" stmt: ARGI(mrca) "\tpushl\t%0\n" 1 stmt: ARGP(mrca) "\tpushl\t%0\n" 1 stmt: ARGB(INDIRB(reg)) "\tsubl\t$%a,%%esp\n\tmovl\t%%esp,%%edi\n\tmovl\t$%a,%%ecx\n\trep\n\tmovsb\n"

memf: INDIRD(addr) "l\t%0" memf: INDIRF(addr) "s\t%0" memf: CVFD(INDIRF(addr)) "s\t%0" freg: memf "\tfld%0\n" 3 stmt: ASGND(addr,freg) "\tfstpl\t%0\n" 7 stmt: ASGNF(addr,freg) "\tfstps\t%0\n" 7 stmt: ASGNF(addr,CVDF(freg)) "\tfstps\t%0\n" 7 stmt: ARGD(freg) "\tsubl\t$8,%%esp\n\tfstpl\t(%%esp)\n" stmt: ARGF(freg) "\tsubl\t$4,%%esp\n\tfstps\t(%%esp)\n" freg: NEGD(freg) "\tfchs\n" freg: NEGF(freg) "\tfchs\n"

flt: memf "%0" flt: freg "p\t%%st,%%st(1)"

freg: ADDD(freg,flt) "\tfadd%1\n" freg: ADDF(freg,flt) "\tfadd%1\n" freg: DIVD(freg,memf) "\tfdiv%1\n" freg: DIVD(freg,freg) "\tfdivrp\t%%st,%%st(1)\n" freg: DIVF(freg,memf) "\tfdiv%1\n" freg: DIVF(freg,freg) "\tfdivrp\t%%st,%%st(1)\n" freg: MULD(freg,flt) "\tfmul%1\n" freg: MULF(freg,flt) "\tfmul%1\n" freg: SUBD(freg,memf) "\tfsub%1\n" freg: SUBD(freg,freg) "\tfsubrp\t%%st,%%st(1)\n" freg: SUBF(freg,memf) "\tfsub%1\n" freg: SUBF(freg,freg) "\tfsubrp\t%%st,%%st(1)\n" freg: CVFD(freg) "# CVFD\n" freg: CVDF(freg) "\tsub\t$4,%%esp ; fstps (%%esp) ; flds (%%esp) ; addl $4,%%esp\n" 12

stmt: ASGNI(addr,CVDI(freg)) "\tfistpl\t%0\n" 29 reg: CVDI(freg) "\tsubl\t$4,%%esp\n\tfistpl\t0(%%esp)\n\tpopl\t%c\n" 31

freg: CVID(INDIRI(addr)) "\tfildl\t%0\n" 10 freg: CVID(reg) "\tpushl\t%0\n\tfildl\t(%%esp)\n\taddl\t$4,%%esp\n" 12

addrj: ADDRGP "%a" addrj: reg "%0" 2 addrj: mem "%0" 2

addrjmp: ADDRGP "%a" addrjmp: reg "%0" 2 addrjmp: mem "%0" 2

stmt: LABELV "%a:\n" stmt: JUMPV(addrjmp) "\tjmp\t%0\n" 3 stmt: EQI(mem,rc) "\tcmpl\t%1,%0\n\tje\t%a\n" 5 stmt: GEI(mem,rc) "\tcmpl\t%1,%0\n\tjge\t%a\n" 5 stmt: GTI(mem,rc) "\tcmpl\t%1,%0\n\tjg\t%a\n" 5 stmt: LEI(mem,rc) "\tcmpl\t%1,%0\n\tjle\t%a\n" 5 stmt: LTI(mem,rc) "\tcmpl\t%1,%0\n\tjl\t%a\n" 5 stmt: NEI(mem,rc) "\tcmpl\t%1,%0\n\tjne\t%a\n" 5 stmt: GEU(mem,rc) "\tcmpl\t%1,%0\n\tjae\t%a\n" 5 stmt: GTU(mem,rc) "\tcmpl\t%1,%0\n\tja \t%a\n" 5 stmt: LEU(mem,rc) "\tcmpl\t%1,%0\n\tjbe\t%a\n" 5 stmt: LTU(mem,rc) "\tcmpl\t%1,%0\n\tjb \t%a\n" 5 stmt: EQI(reg,mrc) "\tcmpl\t%1,%0\n\tje\t%a\n" 4 stmt: GEI(reg,mrc) "\tcmpl\t%1,%0\n\tjge\t%a\n" 4 stmt: GTI(reg,mrc) "\tcmpl\t%1,%0\n\tjg\t%a\n" 4 stmt: LEI(reg,mrc) "\tcmpl\t%1,%0\n\tjle\t%a\n" 4 stmt: LTI(reg,mrc) "\tcmpl\t%1,%0\n\tjl\t%a\n" 4 stmt: NEI(reg,mrc) "\tcmpl\t%1,%0\n\tjne\t%a\n" 4

stmt: GEU(reg,mrc) "\tcmpl\t%1,%0\n\tjae\t%a\n" 4 stmt: GTU(reg,mrc) "\tcmpl\t%1,%0\n\tja \t%a\n" 4 stmt: LEU(reg,mrc) "\tcmpl\t%1,%0\n\tjbe\t%a\n" 4 stmt: LTU(reg,mrc) "\tcmpl\t%1,%0\n\tjb \t%a\n" 4

cmpf: INDIRD(addr) "l\t%0" cmpf: INDIRF(addr) "s\t%0" cmpf: CVFD(INDIRF(addr)) "s\t%0" cmpf: freg "p"

stmt: EQD(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tje\t%a\n" stmt: GED(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tjbe\t%a\n" stmt: GTD(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tjb\t%a\n" stmt: LED(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tjae\t%a\n" stmt: LTD(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tja\t%a\n" stmt: NED(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tjne\t%a\n"

stmt: EQF(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tje\t%a\n" stmt: GEF(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tjbe\t%a\n" stmt: GTF(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tjb\t%a\n" stmt: LEF(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tjae\t%a\n" stmt: LTF(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tja\t%a\n" stmt: NEF(cmpf,freg) "\tfcomp%0 ; fstsw %%ax ; sahf\n\tjne\t%a\n"

reg: CALLI(addrj) "\tcall\t%0\n\taddl\t$%a,%%esp\n" hasargs(a) reg: CALLI(addrj) "\tcall\t%0\n" 1

stmt: CALLV(addrj) "\tcall\t%0\n\taddl\t$%a,%%esp\n" hasargs(a) stmt: CALLV(addrj) "\tcall\t%0\n" 1

freg: CALLF(addrj) "\tcall\t%0\n\taddl\t$%a,%%esp\n" hasargs(a) freg: CALLF(addrj) "\tcall\t%0\n" 1

stmt: CALLF(addrj) "\tcall\t%0\n\taddl\t$%a,%%esp\n\tfstp\t%%st(0)\n" hasargs(a) stmt: CALLF(addrj) "\tcall\t%0\n\tfstp\t%%st(0)\n" 1

freg: CALLD(addrj) "\tcall\t%0\n\taddl\t$%a,%%esp\n" hasargs(a) freg: CALLD(addrj) "\tcall\t%0\n" 1

stmt: CALLD(addrj) "\tcall\t%0\n\taddl\t$%a,%%esp\n\tfstp\t%%st(0)\n" hasargs(a) stmt: CALLD(addrj) "\tcall\t%0\n\tfstp\t%%st(0)\n" 1

stmt: RETI(reg) "# ret\n" stmt: RETF(freg) "# retf\n" stmt: RETD(freg) "# retd\n"

%%

static void progbeg(argc, argv) char *argv[]; { int i;

{
	union {
		char c;
		int i;
	} u;
	u.i = 0;
	u.c = 1;
	swap = (u.i == 1) != IR->little_endian;
}
parseflags(argc, argv);
intreg[EAX] = mkreg("%%eax", EAX, 1, IREG);
intreg[EDX] = mkreg("%%edx", EDX, 1, IREG);
intreg[ECX] = mkreg("%%ecx", ECX, 1, IREG);
intreg[EBX] = mkreg("%%ebx", EBX, 1, IREG);
intreg[ESI] = mkreg("%%esi", ESI, 1, IREG);
intreg[EDI] = mkreg("%%edi", EDI, 1, IREG);
shortreg[EAX] = mkreg("%%ax", EAX, 1, IREG);
shortreg[ECX] = mkreg("%%cx", ECX, 1, IREG);
shortreg[EDX] = mkreg("%%dx", EDX, 1, IREG);
shortreg[EBX] = mkreg("%%bx", EBX, 1, IREG);
shortreg[ESI] = mkreg("%%si", ESI, 1, IREG);
shortreg[EDI] = mkreg("%%di", EDI, 1, IREG);

charreg[EAX] = mkreg("%%al", EAX, 1, IREG);
charreg[ECX] = mkreg("%%cl", ECX, 1, IREG);
charreg[EDX] = mkreg("%%dl", EDX, 1, IREG);
charreg[EBX] = mkreg("%%bl", EBX, 1, IREG);
for (i = 0; i < 8; i++)
	fltreg[i] = mkreg("%d", i, 0, FREG);
rmap[C] = mkwildcard(charreg);
rmap[S] = mkwildcard(shortreg);
rmap[P] = rmap[B] = rmap[U] = rmap[I] = mkwildcard(intreg);
rmap[F] = rmap[D] = mkwildcard(fltreg);
tmask[IREG] = (1 << EDI) | (1 << ESI) | (1 << EBX)
	| (1 << EDX) | (1 << ECX) | (1 << EAX);
vmask[IREG] = 0;
tmask[FREG] = 0xff;
vmask[FREG] = 0;
print("\t.text\n");
cseg = 0;
quo = mkreg("%%eax", EAX, 1, IREG);
quo->x.regnode->mask |= 1<<EDX;
rem = mkreg("%%edx", EDX, 1, IREG);
rem->x.regnode->mask |= 1<<EAX;

}

static void segment(n) { if (n == cseg) return; cseg = n; if (n == CODE) print("\t.text\n"); else if (cseg == BSS) print("\t.bss\n"); else if (cseg == DATA || cseg == LIT) print("\t.data\n"); }

static void progend() { segment(0); } static void target(p) Node p; { assert(p); switch (p->op) { case RSHI: case RSHU: case LSHI: case LSHU: if (generic(p->kids[1]->op) != CNST && !( generic(p->kids[1]->op) == INDIR && p->kids[1]->kids[0]->op == VREG+P && p->kids[1]->syms[RX]->u.t.cse && generic(p->kids[1]->syms[RX]->u.t.cse->op) == CNST )) { rtarget(p, 1, intreg[ECX]); setreg(p, intreg[EAX]); } break; case MULU: setreg(p, quo); rtarget(p, 0, intreg[EAX]); break; case DIVI: case DIVU: setreg(p, quo); rtarget(p, 0, intreg[EAX]); rtarget(p, 1, intreg[ECX]); break; case MODI: case MODU: setreg(p, rem); rtarget(p, 0, intreg[EAX]); rtarget(p, 1, intreg[ECX]); break; case ASGNB: rtarget(p, 0, intreg[EDI]); rtarget(p, 1, intreg[ESI]); break; case ARGB: rtarget(p->kids[0], 0, intreg[ESI]); break; case CALLI: case CALLV: setreg(p, intreg[EAX]); break; case RETI: rtarget(p, 0, intreg[EAX]); break; } }

static void clobber(p) Node p; { static int nstack = 0;

assert(p);
nstack = ckstack(p, nstack);
assert(p->count > 0 || nstack == 0);
switch (p->op) {
 
    case DIVI: case DIVU: case MULU:
           spill(1 << EDX, IREG, p);
           break;
    case MODI: case MODU:
           spill(1 << EAX, IREG, p);
           break;

case ASGNB: case ARGB:
	spill(1<<ECX | 1<<ESI | 1<<EDI, IREG, p);
	break;
case EQD: case LED: case GED: case LTD: case GTD: case NED:
case EQF: case LEF: case GEF: case LTF: case GTF: case NEF:
	spill(1<<EAX, IREG, p);
	break;
case CALLD: case CALLF:
	spill(1<<EDX | 1<<EAX, IREG, p);
	break;
}

}

#define isfp(p) (optype((p)->op)==F || optype((p)->op)==D)

static int ckstack(p, n) Node p; int n; { int i;

for (i = 0; i < NELEMS(p->x.kids) && p->x.kids[i]; i++)
	if (isfp(p->x.kids[i]))
		n--;
if (isfp(p) && p->count > 0)
	n++;
if (n > 8)
	error("expression too complicated\n");
debug(fprint(2, "(ckstack(%x)=%d)\n", p, n));
assert(n >= 0);
return n;

}

static int hasargs(p) Node p; { assert(p); assert(generic(p->op) == CALL); assert(p->syms[0]); if (p->syms[0]->u.c.v.i > 0) return 0; return LBURG_MAX; }

static int memop(p) Node p; { assert(p); assert(generic(p->op) == ASGN); assert(p->kids[0]); assert(p->kids[1]); if (generic(p->kids[1]->kids[0]->op) == INDIR && sametree(p->kids[0], p->kids[1]->kids[0]->kids[0])) return 3; else return LBURG_MAX; }

static int sametree(p, q) Node p, q; { return p == NULL && q == NULL || p && q && p->op == q->op && p->syms[0] == q->syms[0] && sametree(p->kids[0], q->kids[0]) && sametree(p->kids[1], q->kids[1]); }

static void emit0(q) Node q; { #if _EMIT_DEBUG Node p = q; for (; p; p = p->x.next) { if (p->op == LABEL+V) { assert(p->syms[0]); print("# %s:\n", p->syms[0]->x.name); } else { int i; print("# node%c%d %s count=%d", p->x.listed ? ''' : '#', p->x.inst, opname(p->op), p->count); for (i = 0; i < NELEMS(p->kids) && p->kids[i]; i++) print(" #%d", p->kids[i]->x.inst); for (i = 0; i < NELEMS(p->syms) && p->syms[i]; i++) { if (p->syms[i]->x.name) print(" %s", p->syms[i]->x.name); if (p->syms[i]->name != p->syms[i]->x.name) print(" (%s)", p->syms[i]->name); } print("\n"); } } #endif emit(q); }

static void emit2(p) Node p; { #define preg(f) ((f)[getregnum(p->x.kids[0])]->x.name)

switch (p->op) {
case CVCI:
	print("\tmovsbl\t%s,%s\n",
	      preg(charreg),
	      p->syms[RX]->x.name);
	break;
case CVCU:
	print("\tmovzbl\t%s,%s\n",
	      preg(charreg),
	      p->syms[RX]->x.name);
	break;
case CVSI:
	print("\tmovswl\t%s,%s\n",
	      preg(shortreg),
	      p->syms[RX]->x.name);
	break;
case CVSU:
	print("\tmovzwl\t%s,%s\n",
	      preg(shortreg),
	      p->syms[RX]->x.name);
	break;
case CVIC: case CVIS:
case CVUC: case CVUS:
	{ char *dst = shortreg[getregnum(p)]->x.name;
	  char *src = preg(shortreg);
	  if (dst != src)
		print("\tmovl\t%s,%s\n", src, dst);
	}
	break;
}

}

static void doarg(p) Node p; { assert(p && p->syms[0]); mkactual(4, p->syms[0]->u.c.v.i); }

static void blkfetch(k, off, reg, tmp) { }

static void blkstore(k, off, reg, tmp) { }

static void blkloop(dreg, doff, sreg, soff, size, tmps) int tmps[]; { }

static void local(p) Symbol p; { if (isfloat(p->type)) p->sclass = AUTO; if (askregvar(p, rmap[ttob(p->type)]) == 0) mkauto(p); }

static void function(f, caller, callee, n) Symbol f, callee[], caller[]; int n; { int i;

print("\t.type\t%s,@function\n", f->x.name);
print("%s:\n", f->x.name);
print("\tpushl\t%%ebx\n");
print("\tpushl\t%%esi\n");
print("\tpushl\t%%edi\n");
print("\tpushl\t%%ebp\n");
print("\tmovl\t%%esp,%%ebp\n");

usedmask[0] = usedmask[1] = 0;
freemask[0] = freemask[1] = ~(unsigned) 0;
offset = 16 + 4;
for (i = 0; callee[i]; i++) {
	Symbol p = callee[i];
	Symbol q = caller[i];
	assert(q);
	offset = roundup(offset, q->type->align);
	p->x.offset = q->x.offset = offset;
	p->x.name = q->x.name = stringf("%d", p->x.offset);
	p->sclass = q->sclass = AUTO;
	offset += roundup(q->type->size, 4);
}
assert(caller[i] == 0);
offset = maxoffset = 0;
gencode(caller, callee);
framesize = roundup(maxoffset, 4);
if (framesize > 0)
	print("\tsubl\t$%d,%%esp\n", framesize);
emitcode();

print("\tleave\n");
print("\tpopl\t%%edi\n");
print("\tpopl\t%%esi\n");
print("\tpopl\t%%ebx\n");
print("\tret\n");
{ int l = genlabel(1);
  print("L%d:\n", l);
  print("\t.size\t%s,L%d-%s\n", f->x.name, l, f->x.name);
}

}

static void defsymbol(p) Symbol p; { if (p->scope >= LOCAL && p->sclass == STATIC) p->x.name = stringf("L%d", genlabel(1)); else if (p->generated) p->x.name = stringf("L%s", p->name); else if (p->scope == GLOBAL || p->sclass == EXTERN) p->x.name = stringf("_%s", p->name); /* else if (p->scope == CONSTANTS && (isint(p->type) || isptr(p->type)) && p->name[0] == '0' && p->name[1] == 'x') p->x.name = stringf("0%sH", &p->name[2]); */ else p->x.name = p->name; }

static void address(q, p, n) Symbol q, p; int n; { if (p->scope == GLOBAL || p->sclass == STATIC || p->sclass == EXTERN) q->x.name = stringf("%s%s%d", p->x.name, n >= 0 ? "+" : "", n); else { q->x.offset = p->x.offset + n; q->x.name = stringd(q->x.offset); } }

static void defconst(ty, v) Value v; { switch (ty) { case C: print("\t.byte\t%d\n", v.uc); return; case S: print("\t.word\t%d\n", v.ss); return; case I: print("\t.long\t%d\n", v.i); return; case U: print("\t.long\t0x%x\n", v.u); return; case P: print("\t.long\t0x%x\n", v.p); return; case F: print("\t.long\t0x%x\n", *(unsigned *) &v.f); return; case D:{ unsigned *p = (unsigned *) &v.d; print("\t.long\t0x%x,0x%x\n", p[swap], p[1 - swap]); return; } } assert(0); }

static void defaddress(p) Symbol p; { print("\t.long\t%s\n", p->x.name); }

static void defstring(n, str) char *str; { char *s; #if 1 for (s = str; s < str + n; s++) print("\t.byte\t%d\n", *s); #else print("\t.ascii\t"", *s); for (s = str; s < str + n; s++) if (*s < 0x20) print("\0%o", *s); else print("%c", *s); print(""\n"); #endif }

static void export(p) Symbol p; { print("\t.globl\t%s\n", p->x.name); }

static void import(p) Symbol p; { int oldseg = cseg;

if (p->ref > 0) {
	segment(0);
	print("\t.extern\t%s\n", p->x.name);
	segment(oldseg);
}

}

static void global (p) Symbol p; { print("\t.align\t%d\n", p->type->align > 4 ? 4 : p->type->align); if (!p->generated) print("\t.type\t%s,@%s\n", p->x.name, isfunc(p->type) ? "function" : "object"); if (p->u.seg == BSS) { if (p->sclass == STATIC) print("\t.lcomm\t%s,%d\n", p->x.name, p->type->size); else print("\t.comm\t%s,%d\n", p->x.name, p->type->size); } else { if (!p->generated) print("\t.size\t%s,%d\n", p->x.name, p->type->size); print("%s:\n", p->x.name); } }

static void space(n) { if (cseg != BSS) print("\t.space\t%d\n", n); }

#include <stab.h> static char currentfile; / current file name */ static int ntypes;

static void stabblock ARGS((int, int, Symbol*)); static void stabfend ARGS((Symbol, int)); static void stabinit ARGS((char *, int, char *[])); static void stabline ARGS((Coordinate *)); static void stabsym ARGS((Symbol)); static void stabtype ARGS((Symbol));

static void asgncode ARGS((Type, int)); static void dbxout ARGS((Type)); static int dbxtype ARGS((Type)); static int emittype ARGS((Type, int, int));

/* asgncode - assign type code to ty / static void asgncode(ty, lev) Type ty; { if (ty->x.marked || ty->x.typeno) return; ty->x.marked = 1; switch (ty->op) { case VOLATILE: case CONST: case VOLATILE+CONST: asgncode(ty->type, lev); ty->x.typeno = ty->type->x.typeno; break; case POINTER: case FUNCTION: case ARRAY: asgncode(ty->type, lev + 1); / fall thru / case VOID: case CHAR: case SHORT: case INT: case UNSIGNED: case FLOAT: case DOUBLE: break; case STRUCT: case UNION: { Field p; for (p = fieldlist(ty); p; p = p->link) asgncode(p->type, lev + 1); / fall thru */ case ENUM: if (ty->x.typeno == 0) ty->x.typeno = ++ntypes; if (lev > 0 && (*ty->u.sym->name < '0' || *ty->u.sym->name > '9')) dbxout(ty); break; } default: assert(0); } }

/* dbxout - output .stabs entry for type ty */ static void dbxout(ty) Type ty; { ty = unqual(ty); if (!ty->x.printed) { int col = 0; print(".stabs ""), col += 8; if (ty->u.sym && !(isfunc(ty) || isarray(ty) || isptr(ty))) print("%s", ty->u.sym->name), col += strlen(ty->u.sym->name); print(":%c", isstruct(ty) || isenum(ty) ? 'T' : 't'), col += 2; emittype(ty, 0, col); print("",%d,0,0,0\n", N_LSYM); } }

/* dbxtype - emit a stabs entry for type ty, return type code */ static int dbxtype(ty) Type ty; { asgncode(ty, 0); dbxout(ty); return ty->x.typeno; }

/*

  • emittype - emit ty's type number, emitting its definition if necessary.

  • Returns the output column number after emission; col is the approximate

  • output column before emission and is used to emit continuation lines for long

  • struct, union, and enum types. Continuations are not emitted for other types,

  • even if the definition is long. lev is the depth of calls to emittype. */ static int emittype(ty, lev, col) Type ty; { int tc = ty->x.typeno;

    if (isconst(ty) || isvolatile(ty)) { col = emittype(ty->type, lev, col); ty->x.typeno = ty->type->x.typeno; ty->x.printed = 1; return col; } if (tc == 0) { ty->x.typeno = tc = ++ntypes; /* fprint(2,"`%t'=%d\n", ty, tc); / } print("%d", tc), col += 3; if (ty->x.printed) return col; ty->x.printed = 1; switch (ty->op) { case VOID: / void is defined as itself / print("=%d", tc), col += 1+3; break; case CHAR: / unsigned char is a subrange of int / if (ty == unsignedchar) print("=r1;0;255;"), col += 10; else / following pcc, char is a subrange of itself / print("=r%d;-128;127;", tc), col += 2+3+10; break; case SHORT: / short is a subrange of int / if (ty == unsignedshort) print("=r1;0;65535;"), col += 12; else / signed / print("=r1;-32768;32767;"), col += 17; break; case INT: / int is a subrange of itself / print("=r1;%d;%d;", INT_MIN, INT_MAX), col += 4+11+1+10+1; break; case UNSIGNED: / unsigned is a subrange of int / print("=r1;0;-1;"), col += 9; break; case FLOAT: case DOUBLE: / float, double get sizes instead of ranges / print("=r1;%d;0;", ty->size), col += 4+1+3; break; case POINTER: print("="), col += 2; col = emittype(ty->type, lev + 1, col); break; case FUNCTION: print("=f"), col += 2; col = emittype(ty->type, lev + 1, col); break; case ARRAY: /* array includes subscript as an int range / if (ty->size && ty->type->size) print("=ar1;0;%d;", ty->size/ty->type->size - 1), col += 7+3+1; else print("=ar1;0;-1;"), col += 10; col = emittype(ty->type, lev + 1, col); break; case STRUCT: case UNION: { Field p; if (!ty->u.sym->defined) { print("=x%c%s:", ty->op == STRUCT ? 's' : 'u', ty->u.sym->name); col += 2+1+strlen(ty->u.sym->name)+1; break; } if (lev > 0 && (ty->u.sym->name < '0' || ty->u.sym->name > '9')) { ty->x.printed = 0; break; } print("=%c%d", ty->op == STRUCT ? 's' : 'u', ty->size), col += 1+1+3; for (p = fieldlist(ty); p; p = p->link) { if (p->name) print("%s:", p->name), col += strlen(p->name)+1; else print(":"), col += 1; col = emittype(p->type, lev + 1, col); if (p->lsb) print(",%d,%d;", 8p->offset + (IR->little_endian ? fieldright(p) : fieldleft(p)), fieldsize(p)); else print(",%d,%d;", 8p->offset, 8p->type->size); col += 1+3+1+3+1; /* accounts for ,%d,%d; */ if (col >= 80 && p->link) { print("\\",%d,0,0,0\n.stabs "", N_LSYM); col = 8; } } print(";"), col += 1; break; } case ENUM: { Symbol *p; if (lev > 0 && (*ty->u.sym->name < '0' || *ty->u.sym->name > '9')) { ty->x.printed = 0; break; } print("=e"), col += 2; for (p = ty->u.sym->u.idlist; *p; p++) { print("%s:%d,", (*p)->name, (*p)->u.value), col += strlen((*p)->name)+3; if (col >= 80 && p[1]) { print("\\",%d,0,0,0\n.stabs "", N_LSYM); col = 8; } } print(";"), col += 1; break; } default: assert(0); } return col; }

/* stabblock - output a stab entry for '{' or '}' at level lev */ static void stabblock(brace, lev, p) Symbol *p; { if (brace == '{') while (*p) stabsym(*p++); print(".stabd 0x%x,0,%d\n", brace == '{' ? N_LBRAC : N_RBRAC, lev); }

/* stabfend - end of function p */ static void stabfend(p, line) Symbol p; {}

/* stabinit - initialize stab output */ static void stabinit(file, argc, argv) char *file, *argv[]; { typedef void (*Closure) ARGS((Symbol, void *));

if (file && *file) {
	(*IR->segment)(CODE);
	print("Ltext:.stabs \"%s\",0x%x,0,0,Ltext\n", file, N_SO);
	currentfile = file;
}
dbxtype(inttype);
dbxtype(chartype);
dbxtype(doubletype);
dbxtype(floattype);
dbxtype(longdouble);
dbxtype(longtype);
dbxtype(shorttype);
dbxtype(signedchar);
dbxtype(unsignedchar);
dbxtype(unsignedlong);
dbxtype(unsignedshort);
dbxtype(unsignedtype);
dbxtype(voidtype);
foreach(types, GLOBAL, (Closure)stabtype, NULL);

}

/* stabline - emit stab entry for source coordinate *cp */ static void stabline(cp) Coordinate *cp; { if (cp->file && cp->file != currentfile) { int lab = genlabel(1); print("L%d: .stabs "%s",0x%x,0,0,L%d\n", lab, cp->file, N_SOL, lab); currentfile = cp->file; } print(".stabd 0x%x,0,%d\n", N_SLINE, cp->y); }

/* stabsym - output a stab entry for symbol p */ static void stabsym(p) Symbol p; { int code, tc, sz = p->type->size;

if (p->generated || p->computed)
	return;
if (isfunc(p->type)) {
	print(".stabs \"%s:%c%d\",%d,0,0,%s\n", p->name,
		p->sclass == STATIC ? 'f' : 'F', dbxtype(freturn(p->type)),
		N_FUN, p->x.name);
	return;
}
if (!IR->wants_argb && p->scope == PARAM && p->structarg) {
	assert(isptr(p->type) && isstruct(p->type->type));
	tc = dbxtype(p->type->type);
	sz = p->type->type->size;
} else
	tc = dbxtype(p->type);
if (p->sclass == AUTO && p->scope == GLOBAL || p->sclass == EXTERN) {
	print(".stabs \"%s:G", p->name);
	code = N_GSYM;
} else if (p->sclass == STATIC) {
	print(".stabs \"%s:%c%d\",%d,0,0,%s\n", p->name, p->scope == GLOBAL ? 'S' : 'V',
		tc, p->u.seg == BSS ? N_LCSYM : N_STSYM, p->x.name);
	return;
} else if (p->sclass == REGISTER) {
	if (p->scope > PARAM) {
		int r = p->x.regnode->number;
		if (p->x.regnode->set == FREG)
			r += 32;	/* floating point */
		print(".stabs \"%s:r%d\",%d,0,", p->name, tc, N_RSYM);
		print("%d,%d\n", sz, r);
	}
	return;
} else if (p->scope == PARAM) {
	print(".stabs \"%s:p", p->name);
	code = N_PSYM;
} else if (p->scope >= LOCAL) {
	print(".stabs \"%s:", p->name);
	code = N_LSYM;
} else
	assert(0);
print("%d\",%d,0,0,%s\n", tc, code,
	p->scope >= PARAM && p->sclass != EXTERN ? p->x.name : "0");

}

/* stabtype - output a stab entry for type *p */ static void stabtype(p) Symbol p; { if (p->type) { if (p->sclass == 0) dbxtype(p->type); else if (p->sclass == TYPEDEF) print(".stabs "%s:t%d",%d,0,0,0\n", p->name, dbxtype(p->type), N_LSYM); } }

Interface x86freebsdIR = { 1, 1, 0, /* char / 2, 2, 0, / short / 4, 4, 0, / int / 4, 4, 1, / float / 8, 4, 1, / double / 4, 4, 0, / T * / 0, 1, 0, / struct so that ARGB keeps stack aligned / 1, / little_endian / 0, / mulops_calls / 0, / wants_callb / 1, / wants_argb / 0, / left_to_right / 0, / wants_dag */ address, blockbeg, blockend, defaddress, defconst, defstring, defsymbol, emit0, export, function, gen, global, import, local, progbeg, progend, segment, space, stabblock, 0, 0, stabinit, stabline, stabsym, stabtype, {1, blkfetch, blkstore, blkloop, _label, _rule, _nts, _kids, _opname, _arity, _string, _templates, _isinstruction, _ntname, emit2, doarg, target, clobber, } };