ref: c22d556f7fbaa24c0b3b8dd0ad31145d39768ce0
dir: /utils/c2l/c2l.c/
#define EXTERN
#include "cc.h"
/*
* locals, parameters, globals etc of the same name should work ok without having
* to duplicate Syms because the details are on the containing Nodes
*/
#define SZ_CHAR 1
#define SZ_SHORT 2
#define SZ_INT 4
#define SZ_LONG 4
#define SZ_FLOAT 4
#define SZ_IND 4
#define SZ_VLONG 8
#define SZ_DOUBLE 8
char buf[128], mbuf[128];
static Sym *sysop, *bioop, *libcop;
static int again;
#define STAR 0x80
#define RET 0x80
#define LARR (-1729)
static void swalk(void);
static int isdec(Node*);
static int isconst(Node*, vlong);
static int cktype(Node*, Node*, int, int);
static void addnode(int, Node*);
static int argpos(Node*, Node*);
static void setdec(Sym*, Type*);
static Type* tcp(Type*);
static int isadt(Type*);
static void aargs(Node*);
static int iteq(Type*, Type*);
static Node* arg(Node*, int);
static void etgen2(Sym*);
static Node* ckneg(Node*);
static Sym* suename(Type*);
static int isnil(Node*);
static void sliceasgn(Node*);
static Node* lastn(Node*);
static char* hasm(void);
static void prn(Node*, int);
static int isfn(Type*);
schar ewidth[NTYPE] =
{
-1, /* [TXXX] */
SZ_CHAR, /* [TCHAR] */
SZ_CHAR, /* [TUCHAR] */
SZ_SHORT, /* [TSHORT] */
SZ_SHORT, /* [TUSHORT] */
SZ_INT, /* [TINT] */
SZ_INT, /* [TUINT] */
SZ_LONG, /* [TLONG] */
SZ_LONG, /* [TULONG] */
SZ_VLONG, /* [TVLONG] */
SZ_VLONG, /* [TUVLONG] */
SZ_FLOAT, /* [TFLOAT] */
SZ_DOUBLE, /* [TDOUBLE] */
SZ_IND, /* [TIND] */
0, /* [TFUNC] */
-1, /* [TARRAY] */
0, /* [TVOID] */
-1, /* [TSTRUCT] */
-1, /* [TUNION] */
SZ_INT, /* [TENUM] */
};
long ncast[NTYPE] =
{
0, /* [TXXX] */
BCHAR|BUCHAR, /* [TCHAR] */
BCHAR|BUCHAR, /* [TUCHAR] */
BSHORT|BUSHORT, /* [TSHORT] */
BSHORT|BUSHORT, /* [TUSHORT] */
BINT|BUINT|BLONG|BULONG|BIND, /* [TINT] */
BINT|BUINT|BLONG|BULONG|BIND, /* [TUINT] */
BINT|BUINT|BLONG|BULONG|BIND, /* [TLONG] */
BINT|BUINT|BLONG|BULONG|BIND, /* [TULONG] */
BVLONG|BUVLONG, /* [TVLONG] */
BVLONG|BUVLONG, /* [TUVLONG] */
BFLOAT, /* [TFLOAT] */
BDOUBLE, /* [TDOUBLE] */
BLONG|BULONG|BIND, /* [TIND] */
0, /* [TFUNC] */
0, /* [TARRAY] */
0, /* [TVOID] */
BSTRUCT, /* [TSTRUCT] */
BUNION, /* [TUNION] */
0, /* [TENUM] */
};
enum{
TCFD = 1,
TCFC = 2,
TCPC = 4,
TCAR = 8,
TCIN = 16,
TCGEN = TCFD|TCFC|TCPC|TCAR,
TCALL = TCFD|TCFC|TCPC|TCAR|TCIN,
};
enum{
SGLOB,
SPARM,
SAUTO,
};
typedef struct Scope Scope;
struct Scope{
Node *n;
int k;
Scope *nxt;
};
static void
prtyp(Type *t, char *s, int nl)
{
print("%s: ", s);
if(t == T){
print("nil");
if(nl)
print("\n");
return;
}
while(t != T){
print("%d(%d)[%zx] ", t->etype, t->mark, (intptr)t);
if(isadt(t))
break;
t = t->link;
}
if(nl)
print("\n");
}
static Node*
func(Node *n)
{
while(n != Z && n->op != OFUNC)
n = n->left;
return n;
}
static void
setmain(Node *n)
{
inmain |= n->left->op == ONAME && strcmp(n->left->sym->name, "main") == 0;
}
static Node*
protoname(Node *n)
{
do
n = n->left;
while(n != Z && n->op != ONAME && n->op != ODOTDOT);
return n;
}
static Type*
prototype(Node *n, Type *t)
{
for( ; n != Z ; n = n->left){
switch(n->op){
case OARRAY:
t = typ(TARRAY, t);
t->width = 0;
break;
case OIND:
t = typ(TIND, t);
break;
case OFUNC:
t = typ(TFUNC, t);
t->down = fnproto(n);
break;
}
}
return t;
}
static Scope *scopes, *freescopes;
static void
pushdcl(Node *n, int c)
{
Sym *s;
if(passes){
s = n->sym;
push1(s);
if(c != CAUTO || s->class != CSTATIC)
s->class = c;
s->type = n->type;
}
}
static void
pushparams(Node *n)
{
if(n == Z)
return;
if(passes){
if(n->op == OLIST){
pushparams(n->left);
pushparams(n->right);
}
else if(n->op == OPROTO){
n = protoname(n);
if(n != Z && n->op == ONAME)
pushdcl(n, CPARAM);
}
else if(n->op == ONAME){
addnode(OPROTO, n);
pushdcl(n, CPARAM);
}
else if(n->op != ODOTDOT)
diag(Z, "bad op in pushparams");
}
}
static void
pushscope(Node *n, int k)
{
Scope *s;
if(freescopes != nil){
s = freescopes;
freescopes = freescopes->nxt;
}
else
s = (Scope*)malloc(sizeof(Scope));
s->n = n;
s->k = k;
s->nxt = scopes;
scopes = s;
if(passes && (k == SPARM || k == SAUTO))
markdcl();
if(k == SPARM)
pushparams(n->right);
}
static void
popscope(void)
{
int k;
Scope *s;
s = scopes;
k = s->k;
scopes = scopes->nxt;
s->nxt = freescopes;
freescopes = s;
if(passes && (k == SPARM || k == SAUTO))
revertdcl();
}
static Node*
curfn(void)
{
Scope *s;
for(s = scopes; s != nil; s = s->nxt)
if(s->k == SPARM)
return s->n;
return Z;
}
static void
marktype(Type *t, int tc)
{
t->mark = tc;
}
static int
marked(Type *t)
{
return t == T ? 0 : t->mark;
}
static Sym*
decsym(Node *n)
{
if(n == Z)
return S;
if(n->op == OFUNC){
if(n->left->op == ONAME)
return n->left->sym;
return S;
}
if(n->op == ODAS)
return n->left->sym;
return n->sym;
}
static void
trep(Type *t1, Type *t)
{
int l;
Sym *s;
Type *t2;
if(t1 != T){
l = t1->lineno;
s = t1->sym;
t2 = t1->down;
*t1 = *t;
t1->down = t2;
t1->sym = s;
t1->lineno = l;
}
}
static void
tind(Node *n)
{
if(n == Z)
return;
n = protoname(n);
if(n != Z && n->type != T){
n->type = tcp(n->type->link);
marktype(n->type, TCIN);
}
}
static void
tcon(Node *n, Type *t)
{
Type *tt;
if(n->garb)
return;
n->garb = 1;
again = 1;
switch(n->op){
case OCONST:
if(t->mark == TCFD && !isnil(n))
addnode(OFILDES, n);
n->type = t;
break;
case OCAST:
tcon(n->left, t);
*n = *n->left;
n->type = t;
break;
case ONAME:
n->sym->type = t;
n->type = t;
setdec(n->sym, t);
break;
case ODOT:
case ODOTIND:
trep(n->type, t);
n->type = t;
break;
case OARRIND:
tt = n->left->type;
if(tt != T)
tt->link = t;
n->type = t;
break;
case OFUNC:
n->left->type->link = t;
if(n->left->op == ONAME)
n->left->sym->type->link = t;
n->type = t;
break;
}
}
static Node*
retval(Node *n)
{
int i;
Type *t;
Node *a, *l, *cf;
cf = curfn();
t = cf->left->type->link;
if(t->mark&(TCPC|TCFC) && (n == Z || !(n->type->mark&(TCPC|TCFC)))){
if(n == Z)
n = new1(ORETURN, Z, Z);
l = n->left;
for(i = 0; ; i++){
a = arg(cf->right, i);
if(a == Z)
break;
a = protoname(a);
if(a == Z || a->op != ONAME)
break;
if(a->type->mark == TCIN){
if(l == Z)
l = ncopy(a);
else
l = new1(OTUPLE, l, ncopy(a));
}
}
n->left = l;
n->type = l->type = t;
}
return n;
}
static void
sube(Node *n)
{
Node *l, *r, *nn;
Type *tt;
static Node *gn;
int p;
if(n == Z)
return;
l = n->left;
r = n->right;
switch(n->op){
default:
sube(l);
sube(r);
break;
case OIND:
if(l == Z)
return;
tt = l->type;
sube(l);
if(cktype(l, n, TCIN, 0) && iteq(tt, l->type))
*n = *n->left;
break;
case OARRIND:
tt = l->type;
sube(l);
sube(r);
if(!isconst(r, 0))
break;
if(cktype(l, n, TCIN, 0) && iteq(tt, l->type))
*n = *n->left;
break;
case ONAME:
if(cktype(n, n, TCALL, 0))
setdec(n->sym, n->type);
break;
case OCAST:
sube(l);
if(cktype(l, n, TCALL, 0))
n->type = l->type;
break;
case OPROTO:
sube(l);
sube(r);
nn = protoname(n);
if(nn != Z && cktype(nn, n, TCALL, 0)){
n->type = nn->type;
p = argpos(n, gn->right);
for(tt = gn->left->type->down; tt != T && p >= 0; tt = tt->down){
if(p == 0){
trep(tt, nn->type);
break;
}
--p;
}
}
break;
case OFUNC:
if(n->kind == KEXP)
aargs(n);
if(n->left->op == ONAME)
gn = n;
sube(l);
sube(r);
if(l != Z && cktype(n, n, TCGEN, 0))
l->type->link = n->type;
break;
case OAS:
sube(l);
sube(r);
if(r->op == ORETV){
n->left = new1(OTUPLE, l, r->right);
n->right = r->left;
n->left->type = n->type;
break;
}
if(cktype(r, n, TCGEN, 0)){
tcon(l, r->type);
n->type = r->type;
}
if(cktype(l, n, TCGEN, 1)){
tcon(r, l->type);
n->type = l->type;
}
break;
case OLT:
case OGE:
sube(l);
sube(r);
if(cktype(l, n, TCFD, 0) && isconst(r, 0)){
n->op = n->op == OLT ? OEQ : ONE;
r->op = ONIL;
r->type = l->type;
}
break;
case OGT:
case OLE:
sube(l);
sube(r);
if(cktype(r, n, TCFD, 0) && isconst(l, 0)){
n->op = n->op == OGT ? OEQ : ONE;
l->op = ONIL;
l->type = r->type;
}
break;
}
}
static void
subs(Node *n, int blk, int aut)
{
Node *l, *r;
if(n == Z)
return;
if(blk)
pushscope(n, SAUTO);
nearln = n->lineno;
l = n->left;
r = n->right;
switch(n->op){
default:
sube(n);
break;
case ONAME:
if(aut && n->kind != KEXP)
pushdcl(n, CAUTO);
if(cktype(n, n, TCALL, 0))
setdec(n->sym, n->type);
break;
case ODAS:
if(aut)
pushdcl(l, CAUTO);
subs(l, 0, aut);
if(cktype(l, n, TCALL, 0))
tcon(r, l->type);
break;
case OSBREAK:
case ONUL:
case OLABEL:
case OGOTO:
case OCONTINUE:
case OBREAK:
case OSET:
case OUSED:
break;
case OBLK:
subs(l, 1, aut);
break;
case OCASE:
subs(r, 1, aut);
break;
case OLIST:
subs(l, 0, aut);
subs(r, 0, aut);
break;
case ORETURN:
sube(l);
if(l != Z && cktype(l, n, TCGEN, 0)){
n->type = l->type;
tcon(curfn(), l->type);
}
retval(n);
break;
case OSWITCH:
case OWHILE:
case ODWHILE:
sube(l);
subs(r, 1, aut);
break;
case OIF:
sube(l);
subs(r->left, 1, aut);
subs(r->right, 1, aut);
break;
case OFOR:
sube(l->left);
sube(l->right->left);
sube(l->right->right);
subs(r, 1, aut);
break;
}
if(blk)
popscope();
}
static Node*
finddec0(Sym *s, Node *n)
{
Node *nn;
if(n == Z)
return ZZ;
switch(n->op){
case OLIST:
nn = finddec0(s, n->left);
if(nn != Z)
return nn;
return finddec0(s, n->right);
case OFUNC:
if(n->op != KEXP){
if(s == decsym(n))
return n;
return finddec0(s, n->right);
}
else
return ZZ;
case OPROTO:
case OIND:
case OARRAY:
return finddec0(s, n->left);
case ODOTDOT:
return ZZ;
case ONOOP:
case OPUSH:
case OPOP:
case OCODE:
case ODECE:
case ODECT:
return finddec0(s, n->right);
case ODECV:
case ODECF:
if(s == decsym(n->left) && !isfn(n->left->type))
return n->left;
return finddec0(s, n->right);
}
if(isdec(n)){
if(s == decsym(n) && !isfn(n->type))
return n;
return Z;
}
return ZZ;
}
static Node*
finddec(Sym *s, int g)
{
Node *n;
Scope *sc;
for(sc = scopes; sc != nil; sc = sc->nxt){
if(!g || sc->k == SGLOB){
n = finddec0(s, sc->n);
if(n != Z && n != ZZ)
return n;
}
}
return Z;
}
static void
setdec(Sym *s, Type *t)
{
Node *n;
if((n = finddec(s, 0)) != Z){
n->type = t;
if(n->op == ODAS){
n = n->left;
n->type = t;
}
n->sym->type = t;
}
}
typedef struct Syml Syml;
struct Syml{
Sym *sym;
Syml *nxt;
};
typedef struct Symq Symq;
struct Symq{
Syml *f;
Syml *r;
};
typedef struct Modl Modl;
struct Modl{
char *mod;
int ld;
Modl *nxt;
};
static void
prn(Node *n, int i)
{
int j;
for(j = 0; j < i; j++)
print("\t");
if(n == Z){
print("Z\n");
return;
}
print("%s", onames[n->op]);
if(n->blk)
print(" block");
if(n->type == T)
print(" T");
else
print(" %s", tnames[n->type->etype]);
if(n->op == OCONST)
print(" %d", (int)n->vconst);
else if(n->op == OSTRING)
print(" %s", n->cstring);
else if(n->op == ONAME)
print(" %s", n->sym->name);
print("\n");
if(n->op != OLIST)
i++;
prn(n->left, i);
prn(n->right, i);
}
static int
isbigv(vlong v)
{
return v > 0xffffffff;
}
static int
islbigv(vlong v)
{
return v > 0x7fffffff || v < -0x7fffffff;
}
static int
isuintv(vlong v)
{
return !isbigv(v) && (v&0x80000000) != 0;
}
static int
isadt(Type *t)
{
return t != T && (t->etype == TSTRUCT || t->etype == TUNION);
}
static int
isreal(Type *t)
{
return t != T && (t->etype == TDOUBLE || t->etype == TFLOAT);
}
static int
isbyte(Type *t)
{
return t != T && (t->etype == TCHAR || t->etype == TUCHAR);
}
static int
isshort(Type *t)
{
return t != T && (t->etype == TSHORT || t->etype == TUSHORT);
}
static int
isint(Type *t)
{
return t != T && (t->etype == TINT || t->etype == TUINT);
}
static int
islong(Type *t)
{
return t != T && (t->etype == TLONG || t->etype == TULONG);
}
static int
isbig(Type *t)
{
return t != T && (t->etype == TVLONG || t->etype == TUVLONG);
}
static int
isinteger(Type *t)
{
return isbyte(t) || isshort(t) || isint(t) || islong(t) || isbig(t);
}
static int
isptr(Type *t)
{
return t != T && (t->etype == TIND || t->etype == TARRAY || t->etype == TFUNC);
}
static int
isscalar(Type *t)
{
return t != T && !isadt(t) && t->etype != TTUPLE;
}
static int
isvoid(Type *t)
{
return t == T || t->etype == TVOID;
}
static int
isnum(Type *t)
{
return t != T && isscalar(t) && !isptr(t) && !isvoid(t);
}
static int
isarray(Type *t)
{
return t != T && (t->etype == TARRAY || (t->etype == TIND && !isadt(t->link)));
}
static int
isstr(Type *t)
{
return t != T && (t->etype == TSTRING || isarray(t) && isbyte(t->link));
}
static int
isfn(Type *t)
{
return t != T && t->etype == TFUNC;
}
static int
iscastable(Type *t, Type *tt)
{
return t != T && (!isptr(t) || isarray(t) && isbyte(t->link) && isstr(tt));
}
static int
isname(Node *n)
{
return n->op == ONAME;
}
static int
isstring(Node *n)
{
return n->op == OSTRING || n->op == OLSTRING || n->op == ONAME && n->sym->tenum != T && n->sym->tenum->etype == TIND;
}
static int
isnil(Node *n)
{
if(!isptr(n->type))
return 0;
while(n->op == OCAST)
n = n->left;
return n->op == OCONST && n->vconst == 0 || n->op == ONIL;
}
static int
isconst(Node *n, vlong v)
{
while(n->op == OCAST)
n = n->left;
return n->op == OCONST && n->vconst == v;
}
static Node*
cknil(Node *n)
{
if(isconst(n, 0))
n->op = ONIL;
return n;
}
static int
cktype(Node *n, Node *t, int mask, int lev)
{
int g, m, m0;
g = t->garb > lev;
m = marked(n->type) & mask;
if(n->op == ONAME){
m0 = marked(n->sym->type) & mask;
if(m && !m0){
n->sym->type = n->type;
if(!g)
again = 1;
}
if(!m && m0){
n->type = n->sym->type;
if(!g)
again = 1;
}
m |= m0;
}
if(m && t->garb < 2)
t->garb++;
return m && !g ? m : 0;
}
int
isconsym(Sym *s)
{
switch(s->class){
case CXXX:
case CTYPEDEF:
return 1;
case CEXTERN:
case CGLOBL:
case CSTATIC:
case CLOCAL:
return s->type != T && s->type->etype == TENUM;
}
return -1;
}
static void genstart(void);
static char*
mprolog[] =
{
"%%: module",
"{",
"\tPATH: con \"%%%.dis\";",
"",
nil
};
static char*
mepilog[] =
{
"};",
nil
};
static char*
bprolog[] =
{
"implement %%;",
"",
"include \"draw.m\";",
"",
"%%: module",
"{",
" init: fn(nil: ref Draw->Context, argl: list of string);",
"};",
"",
nil
};
static char*
bmprolog[] =
{
"implement %%;",
"",
"include \"draw.m\";",
"",
nil
};
static char*
bepilog[] =
{
nil
};
static void
pgen0(char **txt)
{
int sub;
char *b, *s, *t, **p;
p = txt;
for(;;){
s = *p++;
if(s == nil)
break;
sub = 0;
for(t = s; *t != 0; t++){
if(*t == '%' && *(t+1) == '%'){
sub = 1;
break;
}
}
if(sub){
strcpy(buf, s);
b = buf;
for(t = s; *t != 0; t++){
if(*t == '%' && *(t+1) == '%'){
if(*(t+2) == '%'){
outmod(mbuf, 0);
t++;
}
else
outmod(mbuf, 1);
strcpy(b, mbuf);
b += strlen(mbuf);
t++;
}
else
*b++ = *t;
}
*b = 0;
prline(buf);
}
else
prline(s);
}
}
static char*
hasm()
{
outmod(mbuf, 0);
strcat(mbuf, ".m");
if(exists(mbuf))
return mbuf;
else if(domod){
outmod(buf, 0);
strcat(buf, ".h");
if(exists(buf))
return mbuf;
}
return nil;
}
void
pgen(int b)
{
char **p;
if(!dolog())
return;
if(b)
p = hasm() ? bmprolog : bprolog;
else
p = mprolog;
pgen0(p);
if(b && passes)
genstart();
if(!b)
incind();
}
void
epgen(int b)
{
char **p;
/* output(0x7fffffff, 1); */ /* INFINITY */
if(!dolog())
return;
if(b){
if(!passes)
genstart();
p = bepilog;
}
else
p = mepilog;
if(!b)
decind();
pgen0(p);
}
static int lastsec = 0;
#define ASSOC 1
#define RASSOC 2
#define POSTOP 4
#define LEFT 1
#define RIGHT 2
#define PRE 4
#define POST 8
static int space[] = { 0, 0, 2, 0, 4, 5, 0, 0, 0, 9, 10, 0, 0, 0, 0, 0, 0, 0, 0 };
static struct{
char *name;
int prec;
int kind;
} ops[] = {
"", 0, 0, /* ONOOP */
"", 16, 0, /* OXXX, */
"+", 12, ASSOC, /* OADD, */
"&", 14, RASSOC, /* OADDR, */
"&", 8, ASSOC, /* OAND, */
"&&", 5, ASSOC, /* OANDAND, */
"", 16, 0, /* OARRAY, */
"=", 2, RASSOC, /* OAS, */
"=", 2, RASSOC, /* OASI, */
"+=", 2, RASSOC, /* OASADD, */
"&=", 2, RASSOC, /* OASAND, */
"<<=", 2, RASSOC, /* OASASHL, */
">>=", 2, RASSOC, /* OASASHR, */
"/=", 2, RASSOC, /* OASDIV, */
"<<", 11, 0, /* OASHL, */
">>", 11, 0, /* OASHR, */
"/=", 2, RASSOC, /* OASLDIV, */
"%=", 2, RASSOC, /* OASLMOD, */
"*=", 2, RASSOC, /* OASLMUL, */
">>=", 2, RASSOC, /* OASLSHR, */
"%=", 2, RASSOC, /* OASMOD, */
"*=", 2, RASSOC, /* OASMUL, */
"|=", 2, RASSOC, /* OASOR, */
"-=", 2, RASSOC, /* OASSUB, */
"^=", 2, RASSOC, /* OASXOR, */
"", -1, 0, /* OBIT, */
"", -1, 0, /* OBREAK, */
"", -1, 0, /* OCASE, */
"", 14, RASSOC, /* OCAST, */
"", 1, ASSOC, /* OCOMMA, */
"", 3, RASSOC, /* OCOND, */
"", 16, 0, /* OCONST, */
"", -1, 0, /* OCONTINUE, */
"/", 13, 0, /* ODIV, */
".", 15, 0, /* ODOT, */
"...", 16, 0, /* ODOTDOT, */
"", -1, 0, /* ODWHILE, */
"", -1, 0, /* OENUM, */
"==", 9, 0, /* OEQ, */
"", -1, 0, /* OFOR, */
"", 15, 0, /* OFUNC, */
">=", 10, 0, /* OGE, */
"", -1, 0, /* OGOTO, */
">", 10, 0, /* OGT, */
">", 10, 0, /* OHI, */
">=", 10, 0, /* OHS, */
"", -1, 0, /* OIF, */
"*", 14, RASSOC, /* OIND, */
"", -1, 0, /* OINDREG, */
"", 16, 0, /* OINIT, */
"", -1, 0, /* OLABEL, */
"/", 13, 0, /* OLDIV, */
"<=", 10, 0, /* OLE, */
"", 16, 0, /* OLIST, */
"%", 13, 0, /* OLMOD, */
"*", 13, ASSOC, /* OLMUL, */
"<", 10, 0, /* OLO, */
"<=", 10, 0, /* OLS, */
">>", 11, 0, /* OLSHR, */
"<", 10, 0, /* OLT, */
"%", 13, 0, /* OMOD, */
"*", 13, ASSOC, /* OMUL, */
"", 16, 0, /* ONAME, */
"!=", 9, 0, /* ONE, */
"!", 14, RASSOC, /* ONOT, */
"|", 6, ASSOC, /* OOR, */
"||", 4, ASSOC, /* OOROR, */
"--", 14, RASSOC|POSTOP, /* OPOSTDEC, */
"++", 14, RASSOC|POSTOP, /* OPOSTINC, */
"--", 14, RASSOC, /* OPREDEC, */
"++", 14, RASSOC, /* OPREINC, */
"", 16, 0, /* OPROTO, */
"", -1, 0, /* OREGISTER, */
"", 0, 0, /* ORETURN, */
"SET", -1, 0, /* OSET, */
"signof", 14, RASSOC, /* OSIGN, */
"sizeof", 14, RASSOC, /* OSIZE, */
"", 16, 0, /* OSTRING, */
"", 16, 0, /* OLSTRING, */
"", 16, 0, /* OSTRUCT, */
"-", 12, 0, /* OSUB, */
"", -1, 0, /* OSWITCH, */
"", 16, 0, /* OUNION, */
"USED", -1, 0, /* OUSED, */
"", -1, 0, /* OWHILE, */
"^", 7, ASSOC, /* OXOR, */
"-", 14, RASSOC, /* ONEG, */
"~", 14, RASSOC, /* OCOM, */
"", 16, 0, /* OELEM, */
"", -1, 0, /* OTST, */
"", -1, 0, /* OINDEX, */
"", -1, 0, /* OFAS, */
"", -1, 0, /* OBLK */
"+", 14, RASSOC, /* OPOS */
"", -1, 0, /* ONUL */
".", 15, 0, /* ODOTIND */
"", 15, 0, /* OARRIND */
"", -1, 0, /* ODAS */
":=", 2, RASSOC, /* OASD */
"", 16, 0, /* OIOTA */
"", 14, RASSOC, /* OLEN */
"", 17, 0, /* OBRACKET */
"", 14, RASSOC, /* OREF */
"", 14, RASSOC, /* OARRAYOF */
"", 15, 0, /* OSLICE */
"&", 14, RASSOC, /* OSADDR, */
"", 16, 0, /* ONIL */
"", 16, 0, /* OS2AB */
"", 16, 0, /* OAB2S */
"", 16, 0, /* OFILDES */
".", 15, 0, /* OFD */
"", 16, 0, /* OTUPLE */
".", 15, 0, /* OT0 */
"", 15, 0, /* ORETV */
"+", 12, ASSOC, /* OCAT */
"", -1, 0, /* OSBREAK, */
".", 15, 0, /* OLDOT */
"->", 15, 0, /* OMDOT */
nil, -1, 0, /* OCODE */
nil, -1, 0, /* ODECE */
nil, -1, 0, /* ODECT */
nil, -1, 0, /* ODECV */
nil, -1, 0, /* ODECF */
nil, -1, 0, /* OPUSH */
nil, -1, 0, /* OPOP */
"", -1, 0, /* OEND */
};
#define COMPLEX 32
#define NOBR 2
#define NOIN 4
#define YESBR 8
#define NONL 16
#define NOENL 32
enum{
LNONE,
LSTRLEN,
LSTRCMP,
LSTRCPY,
LSTRCAT,
LSTRNCMP,
LSTRNCPY,
LSTRNCAT,
LSTRDUP,
LMEMMOVE,
LMALLOC,
LFREE,
LEXIT,
LCLOSE,
LATOI,
LATOL,
LATOF,
LPRINT,
LFPRINT,
LSPRINT,
LSELF,
};
static int tmp;
static void egen(Node*, int, int);
static Node* buildcases(Node*);
static void tdgen(Node *, int);
static Node* cfind(Node*);
static Node* cgen(Node*, Node*);
static void cgen0(Node*, Node*);
static int lteq(Type*, Type*);
static Type* ntype(Node*);
static int rewe(Node*, Type*, int);
static void rewlc(Node*, int, Type*);
static Node* con(vlong);
static void clrbrk(Node*);
static int hasbrk(Node*);
static int isgen(char*);
static int simple(Node*);
static void pfmt(char*);
static void lpfmt(Rune*);
static int lline(Node*);
static void args(Node*);
static void addmodn(Sym*);
static void scomplex(Node*);
static void mset(Node*);
static Node *lastd;
static int
rev(int op)
{
switch(op){
case OLT: return OGT;
case OLE: return OGE;
case OGT: return OLT;
case OGE: return OLE;
}
return op;
}
void
newsec(int l)
{
if(l != 1 && lastd != Z){
tdgen(lastd, 1);
lastd = Z;
}
if(l != 2)
etgen2(nil);
if(lastsec && l != lastsec)
newline();
lastsec = l;
}
static Node*
defval(Type *t)
{
Node *n;
if(t == T)
t = types[TINT];
n = con(0);
n->type = types[TINT];
n->kind = KDEC;
switch(t->etype){
case TFLOAT:
case TDOUBLE:
n->type = types[TDOUBLE];
n->fconst = 0.0;
n->cstring = "0.0";
return n;
default:
break;
case TIND:
case TFUNC:
case TARRAY:
n->type = typ1(TIND, types[TVOID]);
return n;
case TVOID:
case TSTRUCT:
case TUNION:
free(n);
return Z;
}
if(!lteq(n->type, t)){
n = new1(OCAST, n, Z);
n->type = t;
}
return n;
}
static int
teq(Type *t1, Type *t2)
{
if(t1 == t2)
return 1;
return sametype(t1, t2);
/*
if(t1->etype != t2->etype)
return 0;
switch(t1->etype){
case TARRAY:
if(t1->width != t2->width)
return 0;
break;
case TFUNC:
if(!teq(t1->down, t2->down))
return 0;
break;
case TSTRUCT:
case TUNION:
return t1->link == t2->link;
case TENUM:
return 1;
}
return teq(t1->link, t2->link);
*/
}
static int
tequiv(Type *t1, Type *t2)
{
if(!teq(t1, t2))
return 0;
if(t1->etype == TSTRUCT || t1->etype == TUNION)
return suename(t1) == suename(t2);
return 1;
}
static int
iteq(Type *t1, Type *t2)
{
if(t1 == T || t2 == T)
return 0;
return t1->etype == TIND && (teq(t1->link, t2) || (t1->link->etype == TVOID && isnum(t2)));
}
static Type *
ltype(Type *t)
{
switch(t->etype){
case TUCHAR:
return types[TCHAR];
case TSHORT:
case TUSHORT:
case TUINT:
case TLONG:
case TULONG:
case TENUM:
return types[TINT];
case TUVLONG:
return types[TVLONG];
case TFLOAT:
return types[TDOUBLE];
default:
return t;
}
}
static int
lteq(Type *t1, Type *t2)
{
if(t1 == T || t2 == T)
return 0;
if(t1 == t2)
return 1;
if(t1->etype == TIND && t2->etype == TIND)
return lteq(t1->link, t2->link);
return sametype(ltype(t1), ltype(t2));
}
static Type*
tcp(Type *t)
{
Type *nt;
if(t == T)
return T;
nt = typ1(TXXX, T);
*nt = *t;
return nt;
}
static Type*
tuple(Type *t1, Type *t2)
{
Type *t, **at, *l;
if(t1 == T || t1->etype == TVOID)
return tcp(t2);
if(t2 == T || t2->etype == TVOID)
return tcp(t1);
if(t2->etype == TTUPLE)
diag(Z, "bad tuple type");
t = typ1(TTUPLE, T);
at = &t->link;
if(t1->etype == TTUPLE){
for(l = t1->link; l != T; l = l->down){
*at = tcp(l);
at = &(*at)->down;
}
}
else{
*at = tcp(t1);
at = &(*at)->down;
}
*at = tcp(t2);
return t;
}
static Sym*
sue(Type *t)
{
int h;
Sym *s;
if(t != T)
for(h=0; h<nelem(hash); h++)
for(s = hash[h]; s != S; s = s->link)
if(s->suetag && s->suetag->link == t)
return s;
return S;
}
static void
pranon(int i)
{
prid("anon_");
prnum(i+1, KDEC, T);
}
static int
dotpath(Sym *s, Type *t, int pr)
{
int i;
Type *t1;
if(t == T)
return 0;
for(t1 = t->link; t1 != T; t1 = t1->down){
if(t1->sym == s){
if(pr){
prdelim(".");
prsym(s, 0);
}
return 1;
}
}
i = 0;
for(t1 = t->link; t1 != T; t1 = t1->down){
if(t1->sym == S){
i++;
if(typesu[t1->etype] && sametype(s->type, t1)){
if(pr){
prdelim(".");
pranon(i-1);
}
return 1;
}
}
}
i = 0;
for(t1 = t->link; t1 != T; t1 = t1->down){
if(t1->sym == S){
i++;
if(typesu[t1->etype] && dotpath(s, t1, 0)){
if(pr){
prdelim(".");
pranon(i-1);
dotpath(s, t1, 1);
}
return 1;
}
}
}
return 0;
}
static Sym*
suename(Type *t)
{
Sym *s;
s = sue(t->link);
if(s != S)
return s;
else if(t->tag != S)
return t->tag;
else if(t->sym != S)
return t->sym;
return S;
}
static int
cycle(Type *t, Type *base)
{
int r;
Type *l;
if(t->vis){
/* sametype() does structural comparison so have to check names */
if(t == base || tequiv(t, base))
return 1;
return 0;
}
r = 0;
t->vis = 1;
switch(t->etype){
case TIND:
case TARRAY:
r = cycle(t->link, base);
break;
case TSTRUCT:
case TUNION:
case TTUPLE:
for(l = t->link; l != T; l = l->down)
r |= cycle(l, base);
break;
}
t->vis = 0;
return r;
}
static void
addnode(int op, Node *n)
{
Node *nn;
nn = new1(OXXX, Z, Z);
*nn = *n;
n->op = op;
n->left = nn;
n->right = Z;
n->type = nn->type;
}
static void
cast(Node *n, Type *t)
{
addnode(OCAST, n);
n->type = t;
}
static void
intcast(Node *n)
{
if(isptr(n->type)){
addnode(ONE, n);
n->right = con(0);
n->right->type = n->left->type;
n->type = types[TINT];
}
else
cast(n, types[TINT]);
}
static void
strcast(Node *n)
{
cast(n, stringtype);
}
static void
bptr(Node *n)
{
if(n == Z)
return;
switch(n->op){
default:
if(!lteq(n->type, types[TINT]))
intcast(n);
break;
case ONOT:
if(!lteq(n->left->type, types[TINT])){
intcast(n->left);
if(n->left->op == ONE){
n->left->op = OEQ;
*n = *n->left;
}
}
break;
case OANDAND:
case OOROR:
bptr(n->left);
bptr(n->right);
break;
case OCOND:
bptr(n->right->left);
bptr(n->right->right);
break;
}
}
static void
bcomplex(Node *n)
{
if(n == Z)
return;
if(!passes)
complex(n);
bptr(n);
}
static void
ecomplex(Node *n)
{
if(!passes)
complex(n);
rewe(n, T, 0);
}
static void
becomplex(Node *n)
{
bcomplex(n);
rewe(n, T, 0);
}
static void
tgen(Type *t, int dec, int arinit)
{
Type *l;
if(t == T)
return;
switch(t->etype){
case TXXX:
prid("int");
break;
case TCHAR:
case TUCHAR:
prid("byte");
break;
case TSHORT:
case TUSHORT:
case TINT:
case TUINT:
case TLONG:
case TULONG:
case TENUM:
prid("int");
break;
case TVLONG:
case TUVLONG:
prid("big");
break;
case TFLOAT:
case TDOUBLE:
prid("real");
break;
case TIND:
if(strings == 2 && t->link && t->link->etype == TCHAR){
prid("string");
break;
}
if(isadt(t->link) || t->link->etype == TFUNC)
prid("ref ");
else
prid("array of ");
if(t->link && t->link->etype == TVOID){
prid("byte");
prcom("was void*", Z);
}
else
tgen(t->link, 1, 0);
break;
case TFUNC:
if(0){
prid("int");
prcom("was function", Z);
break;
}
prid("fn");
prdelim("(");
for(l = t->down; l != T; l = l->down){
if(l->etype == TVOID && l->down == T)
break;
if(l->etype == TDOT){
prcom("was ...", Z);
break;
}
if(l->sym != S)
prsym(l->sym, 0);
else
prid("nil");
prdelim(": ");
tgen(l, 1, 0);
if(l->down != T && l->down->etype != TDOT)
prdelim(", ");
}
/* tgen(t->down, dec, 0, 0); */
prdelim(")");
if(!isvoid(t->link)){
prdelim(": ");
tgen(t->link, dec, 0);
}
break;
case TARRAY:
prid("array");
if(t->width == LARR)
t->width = LARR;
else if(dec){
if(t->nwidth != Z)
prcom("array index was ", t->nwidth);
else if(t->width != 0){
sprint(buf, "array index was %ld", t->width/t->link->width);
prcom(buf, Z);
}
}
else{
prdelim("[");
if(t->nwidth != Z)
egen(t->nwidth, ONOOP, PRE);
else if(t->width != 0)
prnum(t->width/t->link->width, KDEC, T);
prdelim("]");
}
prdelim(" of ");
if(!arinit)
tgen(t->link, 1, 0);
break;
case TVOID:
/* prid("void"); */
prid("byte");
prcom("was void", Z);
break;
case TSTRUCT:
case TUNION:
if(t->link != T && t->link->etype == TFD){
prid("Sys->FD");
usemod(sysop, 0);
}
else
prsym(suename(t), 1);
break;
case TTUPLE:
prdelim("(");
for(l = t->link; l != T; l = l->down){
tgen(l, dec, 0);
if(l->down != T)
prdelim(", ");
}
prdelim(")");
break;
case TDOT:
prdelim("...");
break;
case TSTRING:
prid("string");
break;
case TFD:
prid("fd");
break;
default:
diag(Z, "unknown type");
break;
}
}
static Type*
typn(Type *t, int i)
{
Type *l;
for(l = t->down; l != T && --i >= 0; l = l->down)
;
return l;
}
void
ttgen2(Type *t)
{
Type *l;
Sym *s;
int anon = 0;
switch(t->etype){
case TSTRUCT:
case TUNION:
newsec(0);
output(t->lineno, 1);
s = suename(t);
if(isgen(s->name))
addmodn(s);
setmod(s);
prsym(s, 0);
prdelim(": ");
prid("adt");
prdelim("{");
if(t->etype == TUNION)
prcom("was union", Z);
newline();
incind();
t->vis = 1;
for(l = t->link; l != T; l = l->down){
output(l->lineno, 1);
if(l->nbits)
prcom("was bit field", Z);
if(l->sym != S)
prsym(l->sym, 0);
else
pranon(anon++);
prdelim(": ");
if(cycle(l, t))
prid("cyclic ");
tgen(l, 1, 0);
prdelim(";");
newline();
}
t->vis = 0;
decind();
prdelim("};");
newline();
newline();
break;
default:
break;
}
}
static int
canjoin(Node *n, Node *nn)
{
return teq(n->type, nn->type) && isname(n) && isname(nn) && n->type->etype != TARRAY;
}
void
vtgen2(Node *n)
{
int t, c, comma = 0;
Node *nn;
Sym *s;
nn = n;
if(n->op == ODAS)
nn = n->left;
if(nn->type == T || nn->sym == S)
return;
t = nn->type->etype;
c = nn->sym->class;
if(0 && c == CTYPEDEF){
/* egen(nn, ONOOP, PRE); */
/* tdgen(n, 1, 0); */
if(isadt(n->type)){
s = suename(n->type);
if(isgen(s->name)){
s->lname = nn->sym->name;
ttgen2(n->type);
}
}
}
if(c != CGLOBL && c != CSTATIC && c != CLOCAL && c != CEXREG)
return;
newsec(1);
if(lastd != Z){
if(t != TFUNC && canjoin(lastd, n))
comma = 1;
else
tdgen(lastd, 1);
}
output(nn->lineno, 1);
if(t == TFUNC){
if(ism()){
setmod(nn->sym);
egen(nn, ONOOP, PRE);
tdgen(n, 1);
}
lastd = Z;
return;
}
if(comma)
prdelim(", ");
if(nn->op != ONAME)
diag(nn, "internal: not name in vtgen");
setmod(nn->sym);
prsym(nn->sym, 0);
/* egen(nn, ONOOP, PRE); */
/* tdgen(n, 1, 0); */
lastd = n;
if(n->op == ODAS)
rewe(n->right, T, 1);
}
static void minseq(Syml*);
static Node*
con(vlong v)
{
int neg = 0;
Node *n;
if(v < 0){
neg = 1;
v = -v;
}
n = new1(OCONST, Z, Z);
n->vconst = v;
n->kind = KDEC;
n->type = types[TINT];
if(neg)
n = new1(ONEG, n, Z);
return n;
}
/*
static Node*
fcon(double v)
{
int neg = 0;
Node *n;
if(v < 0){
neg = 1;
v = -v;
}
n = new1(OCONST, Z, Z);
n->fconst = v;
n->kind = KDEC;
n->type = types[TDOUBLE];
if(neg)
n = new1(ONEG, n, Z);
return n;
}
*/
static Node*
add(vlong v, Node *n)
{
if(v == 0)
return n;
return new1(OADD, con(v), n);
}
static Node*
addn(Node *n1, Node *n2)
{
if(n1 == Z || n2 == Z)
return Z;
if(isconst(n1, 0))
return n2;
if(isconst(n2, 0))
return n1;
return new1(OADD, n1, n2);
}
static Node*
mul(vlong v, Node *n)
{
if(v == 0)
return con(0);
else if(v == 1)
return n;
else if(v == -1)
return new1(ONEG, n, Z);
return new1(OMUL, con(v), n);
}
static Node*
mydiv(Node *n, vlong w)
{
Node *nn;
if(w == 0)
return Z;
if(w == 1)
return n;
else if(w == -1)
return new1(ONEG, n, Z);
switch(n->op){
case OCONST:
if(n->vconst % w == 0){
n->vconst /= w;
if(n->left != Z && mydiv(n->left, w) == Z){
n->vconst *= w;
break;
}
return n;
}
break;
case OCAST:
return mydiv(n->left, w);
case OMUL:
nn = mydiv(n->right, w);
if(nn != Z){
if(isconst(nn, 1))
*n = *n->left;
return n;
}
nn = mydiv(n->left, w);
if(nn != Z){
if(isconst(nn, 1))
*n = *n->right;
return n;
}
break;
default:
break;
}
return Z;
}
static Node*
iota(void)
{
return new1(OIOTA, Z, Z);
}
static Node*
symcon(Sym *s)
{
Node *n;
if(s->nconst != Z)
return s->nconst;
n = con(s->vconst);
n->kind = s->kind;
return n;
}
#define ARITH 1
#define GEOM 2
static Syml*
newsyml(Sym *s, Syml **frees)
{
Syml *sl, *f;
if((f = *frees) != nil){
sl = f;
*frees = f->nxt;
}
else
sl = (Syml*)malloc(sizeof(Syml));
sl->sym = s;
sl->nxt = nil;
return sl;
}
static Syml*
etseq(Syml *syml)
{
int e, pio, io, comma;
vlong d, dd, v0, v1, v, t, tt;
Node *expr;
Sym *s;
Syml *sl, *lsl;
lsl = nil;
pio = io = ARITH|GEOM;
e = 0;
dd = 0;
d = 0;
for(sl = syml; sl != nil; sl = sl->nxt){
s = sl->sym;
if(isreal(s->tenum) || s->tenum->etype == TIND)
break;
if(e == 0)
v0 = s->vconst;
if(e == 1){
v1 = s->vconst;
d = v1-v0;
}
if(e > 0 && (v <= 0 || s->vconst != 2*v))
io &= ~GEOM;
if(0 && e > 1 && s->vconst-v != d)
io &= ~ARITH;
if(e > 1){
t = s->vconst-v;
tt = t-d;
if(e > 2 && tt != dd)
io &= ~ARITH;
else{
d = t;
dd = tt;
}
}
if(io == 0)
break;
v = s->vconst;
lsl = sl;
pio = io;
e++;
}
if(e < 2)
pio = 0;
if(pio&GEOM){
if(e < 3)
pio = 0;
}
else if(pio&ARITH){
int n;
if(d == 0 && dd == 0)
n = 2;
else if(dd == 0)
n = 3;
else
n = 4;
if(e < n || (dd&1) != 0)
pio = 0;
}
if(lsl == nil || pio == 0)
lsl = syml;
comma = 0;
for(sl = syml; sl != nil; sl = sl->nxt){
s = sl->sym;
nearln = s->lineno;
output(s->lineno, 1);
if(pio){
if(comma)
prdelim(", ");
setmod(s);
prsym(s, 0);
comma = 1;
}
else{
setmod(s);
prsym(s, 0);
prdelim(": ");
prid("con ");
if(isbyte(s->tenum) || isbig(s->tenum) && !islbigv(s->vconst) || !isbig(s->tenum) && isuintv(s->vconst)){
tgen(s->tenum, 1, 0);
prdelim(" ");
}
if(s->nconst != Z)
egen(s->nconst, ONOOP, PRE);
else if(s->kind == KCHR)
prchar(s->vconst);
else if(isreal(s->tenum))
prreal(s->fconst, s->cstring, s->kind);
else
prnum(s->vconst, s->kind, s->tenum);
prdelim(";");
newline();
}
if(sl == lsl)
break;
}
if(pio){
s = syml->sym;
prdelim(": ");
prid("con ");
if(isbyte(s->tenum) || isbig(s->tenum)){
tgen(s->tenum, 1, 0);
prdelim(" ");
}
if(pio&GEOM){
if(v0 == 0 || v0 == 1 || v0 == -1)
expr = mul(v0, new1(OASHL, con(1), iota()));
else
expr = new1(OMUL, symcon(s), new1(OASHL, con(1), iota()));
}
else if(d == 0 && dd == 0)
expr = symcon(s);
else if(dd == 0)
expr = add(v0, mul(d, iota()));
else
expr = add(v0, new1(OADD, mul(v1-dd/2-v0, iota()), mul(dd/2, new1(OMUL, iota(), iota()))));
complex(expr);
expr = ckneg(expr);
egen(expr, ONOOP, PRE);
prdelim(";");
newline();
}
return lsl->nxt;
}
static void
adde(Syml *sl, Symq *q)
{
if(q->f == nil)
q->f = sl;
else
q->r->nxt = sl;
q->r = sl;
}
static void
freeq(Symq *q, Syml **frees)
{
if(q->f){
q->r->nxt = *frees;
*frees = q->f;
q->f = q->r = nil;
}
}
static void
etgen2(Sym *s)
{
Syml *sl;
static Syml *frees;
static Symq symq, symq1;
if(s != nil){
newsec(2);
sl = newsyml(s, &frees);
adde(sl, &symq);
if(isinteger(s->tenum) && isbigv(s->vconst) && !isbig(s->tenum))
s->tenum = types[TVLONG];
return;
}
/* end of enums */
if(symq.f && symq.f == symq.r){ /* try to merge with other singletons */
adde(symq.f, &symq1);
symq.f = symq.r = nil;
return;
}
if(symq1.f){
for(sl = symq1.f; sl != nil; sl = etseq(sl))
;
freeq(&symq1, &frees);
}
if(symq.f){
for(sl = symq.f; sl != nil; sl = etseq(sl))
;
freeq(&symq, &frees);
}
}
static void
lgen(Node *n, int br, int first)
{
if(br)
prdelim("(");
if(n == Z){
if(br)
prdelim(")");
return;
}
if(n->op == OLIST || n->op == OTUPLE){
lgen(n->left, 0, first);
lgen(n->right, 0, 0);
}
else if(n->op != ODOTDOT){
if(!first)
prdelim(", ");
egen(n, ONOOP, PRE);
}
else
prcom("was ...", Z);
if(br)
prdelim(")");
}
static void
preced(int op1, int op2, int s, int c)
{
int p1, p2, k1, k2, br;
char buf[2];
br = 0;
p1 = ops[op1].prec;
p2 = ops[op2].prec;
if(p1 < 0 || p2 < 0)
diag(Z, "-ve precedence");
if(p1 > p2)
br = 1;
else if(p1 == p2){
k1 = ops[op1].kind;
k2 = ops[op2].kind;
if(op1 == op2){
if(k1&RASSOC)
br = s == LEFT;
else
br = s == RIGHT && !(k1&ASSOC);
}
else{
if(k1&RASSOC)
br = s == LEFT;
else
br = s == RIGHT && op1 != OADD;
if(k1&POSTOP && !(k2&POSTOP))
br = 1;
/* funny case */
if(op2 == OMDOT && s == LEFT && (op1 == ODOT || op1 == ODOTIND))
br = 1;
}
}
if(br){
buf[0] = c;
buf[1] = '\0';
prdelim(buf);
}
}
static void
egen(Node *n, int op0, int side)
{
int op, p;
Type *t;
Node *nn;
if(n == Z){
if(op0 == OBRACKET)
prdelim("()");
return;
}
if(n->op == OCONST && n->left != Z){ /* actual node in source */
n->left->type = n->type;
n = n->left;
}
if((n->op == OSTRING || n->op == OLSTRING) && n->left != Z) /* actual node in source */
n = n->left;
if(n->op == OCAST && (lteq(n->type, n->left->type) || isnil(n) || !iscastable(n->type, n->left->type))){
if(isnil(n))
prid("nil");
else
egen(n->left, op0, side);
return;
}
if(n->op == ONAME && arrow(n->sym))
n->op = OMDOT;
if(n->op != OLIST)
output(n->lineno, 0);
op = n->op;
preced(op0, op, side, '(');
switch(op){
case OLIST:
case OTUPLE:
lgen(n, 1, 1);
break;
case OIOTA:
prid("iota");
break;
case OMDOT:
case ONAME:
case OXXX:
prsym(n->sym, 1);
break;
case OCONST:
if(n->kind == KCHR)
prchar(n->vconst);
else if(isreal(n->type))
prreal(n->fconst, n->cstring, n->kind);
else if(isnil(n))
prid("nil");
else
prnum(n->vconst, n->kind, n->type);
if(n->right != Z)
prcom("was ", n->right);
break;
case OSTRING:
prstr(n->cstring);
break;
case OLSTRING:
prlstr(n->rstring);
break;
case OCOND:
egen(n->left, op, POST);
prdelim(" ? ");
egen(n->right->left, op, PRE|POST);
prdelim(" : ");
egen(n->right->right, op, PRE);
prcom("?", Z);
break;
case OCOMMA:
if(op0 != OCOMMA)
prdelim("(");
egen(n->left, op, LEFT);
prdelim(", ");
egen(n->right, op, RIGHT);
if(op0 != OCOMMA)
prdelim(")");
break;
case OLDOT:
egen(n->left, OMOD, LEFT); /* any precedence 13 operator */
prdelim(".");
egen(n->right, op, RIGHT);
break;
default:
p = ops[op].prec;
egen(n->left, op, LEFT);
if(space[p])
prdelim(" ");
prdelim(ops[op].name);
if(space[p])
prdelim(" ");
egen(n->right, op, RIGHT);
break;
case OIND: case OADDR: case OSADDR:
case OPOS: case ONEG:
case ONOT: case OCOM:
case OPREINC: case OPREDEC:
if(op == OADDR){
n->op = OSADDR;
if(!isfn(n->left->type))
prcom("was ", n);
}
else
prdelim(ops[op].name);
egen(n->left, op, PRE);
break;
case OPOSTINC: case OPOSTDEC:
egen(n->left, op, POST);
prdelim(ops[op].name);
break;
case ODOT:
egen(n->left, op, LEFT);
dotpath(n->sym, n->left->type, 1);
/* prdelim(ops[op].name); */
/* prsym(n->sym, 0); */
break;
case ODOTIND:
egen(n->left, op, LEFT);
if(isadt(n->left->type))
dotpath(n->sym, n->left->type, 1); /* type may be demoted arg */
else
dotpath(n->sym, n->left->type->link, 1);
/* prdelim(ops[op].name); */
/* prsym(n->sym, 0); */
break;
case OARRIND:
egen(n->left, op, LEFT);
prdelim("[");
egen(n->right, ONOOP, RIGHT);
prdelim("]");
if(n->right->op == OCONST && n->right->vconst < 0)
prcom("negative array index", Z);
break;
case OLEN:
prid("len ");
egen(n->right, op, PRE);
break;
case OREF:
prid("ref ");
tgen(n->type->link, 0, 0);
break;
case OARRAYOF:
prid("array");
prdelim("[");
egen(n->left, ONOOP, LEFT);
prdelim("]");
prid(" of ");
tgen(n->type->link, 0, 0);
break;
case OSLICE:
egen(n->left, op, LEFT);
prdelim("[");
egen(n->right->left, ONOOP, RIGHT);
prdelim(": ");
egen(n->right->right, ONOOP, RIGHT);
prdelim("]");
break;
case OFUNC:
if(n->kind == KEXP)
egen(n->left, op, LEFT);
else
prsym(n->left->sym, 0);
lgen(n->right, 1, 1);
if(n->kind != KEXP && !isvoid(n->left->type->link)){
prdelim(": ");
tgen(n->left->type->link, 0, 0);
}
break;
case ONIL:
prid("nil");
break;
case OCAST:
if(isnil(n))
prid("nil");
else if(iscastable(n->type, n->left->type)){
tgen(n->type, 0, 0);
prdelim(" ");
egen(n->left, op, RIGHT);
}
else
egen(n->left, op0, RIGHT);
break;
case OARRAY:
tgen(n->type, 0, 0);
egen(n->left, op, LEFT);
prdelim("[");
egen(n->right, ONOOP, RIGHT);
prdelim("]");
break;
case OSTRUCT:
case OUNION:
tgen(n->type, 0, 0);
lgen(n->left, 1, 1);
break;
case OELEM:
prdelim(".");
/* tgen(n->type, 0, 0, 0); */
prsym(n->sym, 0);
break;
case OSIZE:
case OSIGN:
prid(ops[op].name);
if(n->left != Z)
egen(n->left, OBRACKET, RIGHT);
else{
prdelim(" ");
prid(tnames[n->type->etype]);
if(typesu[n->type->etype] && n->type->tag){
prdelim(" ");
prid(n->type->tag->name);
}
}
break;
case OPROTO:
nn = n;
t = n->type;
n = protoname(n);
if(n != Z)
t = n->type;
else
t = prototype(nn->left, t);
if(!isvoid(t) || n != Z){
if(n == Z)
prid("nil");
else if(n->op == ODOTDOT){
prcom("was ...", Z);
break;
}
else
prsym(n->sym, 0);
/* egen(n, ONOOP, PRE); */
prdelim(": ");
tgen(t, 1, 0);
}
break;
case ODOTDOT:
prid("...");
break;
case OINIT:
egen(n->left, ONOOP, PRE);
break;
case OS2AB:
prid("libc0->s2ab");
prdelim("(");
egen(n->left, ONOOP, PRE);
prdelim(")");
usemod(libcop, 1);
break;
case OAB2S:
prid("libc0->ab2s");
prdelim("(");
egen(n->left, ONOOP, PRE);
prdelim(")");
usemod(libcop, 1);
break;
case OFILDES:
prid("sys->fildes");
prdelim("(");
egen(n->left, ONOOP, PRE);
prdelim(")");
usemod(sysop, 1);
break;
case OFD:
egen(n->left, op, LEFT);
prdelim(ops[op].name);
prid("fd");
break;
case OT0:
egen(n->left, op, LEFT);
prdelim(ops[op].name);
prid("t0");
break;
case ORETV:
n->op = OAS;
nn = n->left;
p = isvoid(n->type) || n->type->etype != TTUPLE || n->type->mark == TCPC;
if(p)
n->left = n->right;
else
n->left = new1(OTUPLE, new1(ONIL, Z, Z), n->right);
n->right = nn;
n->left->type = n->type;
if(!p && op0 != ONOOP)
addnode(OT0, n);
egen(n, op0, side);
break;
case OCAT:
egen(n->left, op, LEFT);
prdelim(" + ");
egen(n->right, op, RIGHT);
break;
}
preced(op0, op, side, ')');
}
static int
isexpr(Node *n, Type *t)
{
if(n == Z)
return 0;
if(n->op == OLIST || n->op == OINIT || n->op == OSTRUCT)
return 0;
if(teq(t, n->type))
return 1;
return 0;
}
static Node *
nxtval(Node *n, Node **nn)
{
if(n == Z){
*nn = Z;
return Z;
}
if(n->op == OLIST){
*nn = n->right;
return n->left;
}
*nn = Z;
return n;
}
static Node*
eagen(Node *n, Type *t, int ar, int *nz, int depth)
{
int i, w, nw, down;
Type *t1;
Node *nn, *tn;
if(n != Z){
if(n->type == T && t == T){
egen(n, ONOOP, PRE);
if(ar){
prdelim(",");
newline();
}
return Z;
}
if(ar && n->op == OLIST && n->left->op == OARRAY){
egen(n->left->left, ONOOP, PRE);
prdelim(" => ");
n = n->right;
}
if(n->op == OLIST && n->left->op == OELEM){
prcom("cannot do ", n->left);
n = n->right;
}
if(n->op == OUSED || n->op == ODOTDOT)
n = n->left;
if(t == T)
t = n->type;
}
switch(t->etype){
case TSTRUCT:
case TUNION:
if(isexpr(n, t))
goto Default;
down = 0;
tn = nxtval(n, &nn);
if(tn != Z && (tn->op == OINIT || tn->op == OSTRUCT)){
down = 1;
n = tn->left;
}
if(depth > 0){
tgen(t, 0, 0);
prdelim(" ");
}
prdelim("(");
for(t1 = t->link; t1 != T; t1 = t1->down){
if(n == Z)
n = defval(t1);
n = eagen(n, t1, 0, nil, depth+1);
if(t1->down != T){
prdelim(",");
if(ar)
prdelim("\t");
else
prdelim(" ");
}
}
prdelim(")");
if(down)
n = nn;
break;
case TARRAY:
if(isexpr(n, t))
goto Default;
if(depth > 0){
tgen(t, 0, 1);
prdelim(" ");
}
prdelim("{");
newline();
incind();
w = t->width/t->link->width;
nw = 0;
for(i = 0; i < w; i++){
down = 0;
tn = nxtval(n, &nn);
if(tn != Z && (tn->op == OINIT || tn->op == OSTRUCT)){
down = 1;
n = tn->left;
}
n = eagen(n, t->link, 1, &nw, depth+1);
if(down)
n = nn;
}
if(nw > 0){
if(nw > 1)
prdelim("* => ");
egen(defval(t->link), ONOOP, PRE);
newline();
}
decind();
prdelim("}");
break;
default:
Default:
if(n == Z){
if(ar)
(*nz)++;
else
egen(defval(t), ONOOP, PRE);
return Z;
}
n = nxtval(n, &nn);
if(ar && isnil(n) && iscastable(t, types[TINT])){
tgen(t, 0, 0);
prdelim(" ");
}
egen(n, ONOOP, PRE);
n = nn;
break;
}
if(ar){
prdelim(",");
newline();
}
return n;
}
/* better is
* array of byte "abcde\0"
* but limbo compiler does not accept this as a constant expression
*/
static void
stob(Node *n)
{
int m;
char *s = nil, buf[UTFmax];
Rune *u = nil;
while(n->op == ONAME)
n = n->sym->nconst;
if(n->op == OSTRING)
s = n->cstring;
else
u = n->rstring;
prdelim("{ ");
if(s){
while(*s){
prid("byte ");
prchar(*s++);
prdelim(", ");
}
}
else{
while(*u){
m = runetochar(buf, u++);
s = buf;
while(--m >= 0){
prid("byte ");
prchar(*s++);
prdelim(", ");
}
}
}
prid("byte ");
prchar('\0');
prdelim(" }");
}
static Type *arrayofchar;
static void
sdgen(Node *n, int glob)
{
int sop = 0;
prdelim(" := ");
if(glob && n->right->op == OS2AB && isstring(n->right->left)){
if(arrayofchar == T){
arrayofchar = typ1(TARRAY, types[TCHAR]);
arrayofchar->width = 0;
}
n->type = n->right->type = arrayofchar;
sop = 1;
}
else
n->type = n->right->type = T;
tgen(n->type, 0, 1);
if(sop)
stob(n->right->left);
else
eagen(n->right, n->type, 0, nil, 0);
prdelim(";");
newline();
}
static void
tdgen(Node *n, int glob)
{
int ar, arinit;
if(ism()){
prdelim(": ");
tgen(n->type, 1, 0);
if(n->op == ODAS)
prcom("initial value was ", n->right);
prdelim(";");
newline();
return;
}
if(n->op == ODAS && (isstring(n->right) || n->right->op == OS2AB)){
sdgen(n, glob);
return;
}
ar = n->type->etype == TARRAY && n->type->width != LARR;
arinit = ar && n->op == ODAS;
if(ar)
prdelim(" := ");
else
prdelim(": ");
tgen(n->type, 0, arinit);
if(n->op == ODAS){
if(!arinit)
prdelim(" = ");
eagen(n->right, n->type, 0, nil, 0);
}
prdelim(";");
newline();
}
static int
isdec(Node *n)
{
return isname(n) && n->kind != KEXP || n->op == ODAS;
}
static void
sgen(Node *n, int blk, Node **ln)
{
int comma = 0;
Node *nn;
if(n == Z)
return;
if(blk){
pushscope(n, SAUTO);
if(n->op == OLIST && !(blk&NOBR) || (blk&YESBR)){
prdelim("{");
newline();
}
else if(!(blk&NONL))
newline();
if(!(blk&NOIN))
incind();
}
if((nn = *ln) != Z && isdec(nn)){
if(isdec(n)){
if(canjoin(nn, n))
comma = 1;
else
tdgen(nn, 0);
}
else if(n->op != OLIST){
tdgen(nn, 0);
newline();
}
}
if(n->op != OLIST){
*ln = n;
output(n->lineno, 1);
}
switch(n->op){
default:
egen(n, ONOOP, PRE);
prdelim(";");
newline();
break;
case ODAS:
pushdcl(n->left, CAUTO);
egen(n->left, ONOOP, PRE);
break;
case ONAME:
if(n->kind == KEXP){
egen(n, ONOOP, PRE);
prdelim(";");
newline();
}
else{
pushdcl(n, CAUTO);
if(comma)
prdelim(", ");
if(n->op != ONAME)
diag(n, "internal: not name in sgen");
prsym(n->sym, 0);
/* egen(n, ONOOP, PRE); */
/*
prdelim(": ");
tgen(n->type, 0, 0, 0);
prdelim(";");
newline();
*/
}
break;
case OSBREAK:
break;
case ONUL:
prdelim(";");
newline();
break;
case OBLK:
sgen(n->left, 1|YESBR, ln);
break;
case OLIST:
sgen(n->left, 0, ln);
sgen(n->right, 0, ln);
break;
case ORETURN:
prkeywd("return");
if(n->left != Z)
prdelim(" ");
egen(n->left, ONOOP, PRE);
prdelim(";");
newline();
break;
case OLABEL:
prcom("was label ", n->left);
/* i = zeroind(); */
/* egen(n->left, ONOOP, PRE); */
/* prdelim(":"); */
newline();
/* restoreind(i); */
break;
case OGOTO:
prcom("was goto ", n->left);
/* prkeywd("goto "); */
/* egen(n->left, ONOOP, PRE); */
prdelim(";");
newline();
break;
case OCASE:
for(nn = n->left; nn != Z; nn = nn->right){
if(nn != n->left)
prkeywd(" or ");
if(nn->left != Z)
egen(nn->left, ONOOP, PRE);
else
prkeywd("*");
}
prdelim(" =>");
clrbrk(n->right);
sgen(n->right, 1|NOBR, ln);
if(n->kind != KLAST && !hasbrk(n->right)){
prcom("fall through", Z);
newline();
}
break;
case OSWITCH:
prkeywd("case");
egen(n->left, OBRACKET, PRE);
sgen(n->right, 1|NOIN|YESBR, ln);
break;
case OWHILE:
prkeywd("while");
egen(n->left, OBRACKET, PRE);
sgen(n->right, 1, ln);
break;
case ODWHILE:
prkeywd("do");
sgen(n->right, 1|NOENL, ln);
prkeywd("while");
egen(n->left, OBRACKET, PRE);
prdelim(";");
newline();
break;
case OFOR:
prkeywd("for");
prdelim("(");
egen(n->left->right->left, ONOOP, PRE);
prdelim(";");
if(n->left->left != Z)
prdelim(" ");
egen(n->left->left, ONOOP, PRE);
prdelim(";");
if(n->left->right->right != Z)
prdelim(" ");
egen(n->left->right->right, ONOOP, PRE);
prdelim(")");
sgen(n->right, 1, ln);
break;
case OCONTINUE:
prkeywd("continue");
prdelim(";");
newline();
break;
case OBREAK:
prkeywd("break");
prdelim(";");
newline();
break;
case OIF:
prkeywd("if");
egen(n->left, OBRACKET, PRE);
if(n->right->left->op == OIF && n->right->left->right->right == Z && n->right->right != Z) /* avoid dangling else */
sgen(n->right->left, 1|YESBR, ln);
else
sgen(n->right->left, 1, ln);
if(n->right->right != Z){
prdelim("else");
if(n->right->right->op == OIF){ /* merge else and if */
prdelim(" ");
sgen(n->right->right, 1|NONL|NOIN, ln);
}
else
sgen(n->right->right, 1, ln);
}
break;
case OSET:
case OUSED:
prkeywd(ops[n->op].name);
lgen(n->left, 1, 1);
prdelim(";");
newline();
break;
}
if(blk){
if(!(blk&NOIN))
decind();
if(n->op == OLIST&& !(blk&NOBR) || (blk&YESBR)){
prdelim("}");
if(!(blk&NOENL))
newline();
}
popscope();
}
}
static void rew(Node*, int);
static void
rewc0(Node *n, Node *r)
{
Node *nn;
if((nn = cfind(n)) != Z){
cgen0(nn, n);
if(r->op == ORETURN){
n->right->left = new1(ORETURN, n->right->left, Z);
n->right->right = new1(ORETURN, n->right->right, Z);
n->right->left->type = n->right->left->left->type;
n->right->right->type = n->right->right->left->type;
*r = *n;
}
}
}
static void
rewc1(Node *n)
{
Node *c, *nc;
if(n == Z || n->op != OCOND || side(n) || !simple(n))
return;
c = n->left;
nc = new1(ONOT, ncopy(c), Z);
n->op = OOROR;
n->left = new1(OANDAND, c, n->right->left);
n->right = new1(OANDAND, nc, n->right->right);
}
static void
rewc(Node *n, Node *r)
{
Node *nn, *rr, *i;
if((nn = cfind(n)) != Z){
i = cgen(nn, n);
rr = new1(OXXX, Z, Z);
if(n == r && nn == n)
*rr = *nn;
else
*rr = *r;
r->op = OLIST;
r->left = i;
r->right = rr;
}
}
static int
rewe(Node *n, Type *t, int lev)
{
int op, k, k1, k2;
int v;
Node *nn;
if(n == Z)
return -1;
switch(n->op){
case OCONST:
break;
case ONAME:
if(strings || !isstring(n))
break;
case OSTRING:
case OLSTRING:
if(!strings)
addnode(OS2AB, n);
break;
case OCOND:
bptr(n->left);
rewe(n->left, T, 1);
rewe(n->right, T, 1);
break;
case OIND:
if(isfn(n->type)){
*n = *n->left;
rewe(n, T, 1);
break;
}
if(!isadt(n->type)){
n->op = OARRIND;
n->right = con(0);
rewe(n, T, 1);
break;
}
rewe(n->left, T, 1);
break;
case OADDR:
if(n->left->op == OARRIND){
n->right = n->left;
n->left = n->right->left;
n->right->left = n->right->right;
n->right->right = Z;
n->right->op = OLIST;
n->op = OSLICE;
rewe(n, T, 1);
break;
}
rewe(n->left, T, 1);
break;
case OSLICE:
rewe(n->left, T, 1);
rewe(n->right, T, 1);
if(n->left->op == OSLICE){
n->right->left = addn(n->left->right->left, n->right->left);
n->right->right = addn(n->left->right->left, n->right->right);
n->left = n->left->left;
rewe(n, T, 1);
break;
}
break;
case OCOMMA:
rewe(n->left, T, 1);
rewe(n->right, T, 1);
if(n->left->op == OAS && n->right->op == OAS){
n->op = OAS;
n->left->op = n->right->op = OLIST;
nn = n->left->right;
n->left->right = n->right->left;
n->right->left = nn;
rewe(n, T, 1);
break;
}
break;
case OFUNC:
if(n->left->op == ONAME){
if((k = n->left->sym->kind) != LNONE){
rewlc(n, k, t);
rewe(n->left, T, 1);
rewe(n->right, T, 1);
args(n);
return k;
}
}
else
rewe(n->left, T, 1);
rewe(n->right, T, 1);
args(n);
break;
case OCAST:
rewe(n->left, n->type, 1);
break;
case OAS:
case OASI:
case OASD:
rewe(n->left, T, 1);
rewe(n->right, n->type, 1);
break;
case ONOT:
case OANDAND:
case OOROR:
bptr(n);
rewe(n->left, T, 1);
rewe(n->right, T, 1);
break;
case OPREINC:
case OPOSTINC:
case OASADD:
if(n->op != OPOSTINC || lev == 0){
sliceasgn(n);
if(n->op == OAS){
rewe(n, T, 1);
break;
}
}
rewe(n->left, T, 1);
rewe(n->right, T, 1);
break;
case OEQ:
case ONE:
case OLT:
case OLE:
case OGT:
case OGE:
k1 = rewe(n->left, T, 1);
k2 = rewe(n->right, T, 1);
if(k1 == LSTRCMP && n->right->op == OCONST){
op = -1;
v = n->right->vconst;
switch(v){
case -1:
if(n->op == OEQ)
op = OLT;
else if(n->op == ONE)
op = OGE;
break;
case 0:
op = n->op;
break;
case 1:
if(n->op == OEQ)
op = OGT;
else if(n->op == ONE)
op = OLE;
break;
}
if(op != -1){
*n = *n->left;
n->op = op;
}
}
if(k2 == LSTRCMP && n->left->op == OCONST){
op = -1;
v = n->left->vconst;
switch(v){
case -1:
if(n->op == OEQ)
op = OLT;
else if(n->op == ONE)
op = OGE;
break;
case 0:
op = rev(n->op);
break;
case 1:
if(n->op == OEQ)
op = OGT;
else if(n->op == ONE)
op = OLE;
break;
}
if(op != -1){
*n = *n->right;
n->op = op;
}
}
break;
default:
rewe(n->left, T, 1);
rewe(n->right, T, 1);
break;
}
return -1;
}
/*
static void
rewf(Node *n)
{
if(n == Z)
return;
switch(n->op){
case OFUNC:
if(n->left->op == ONAME)
fdargs(n);
break;
default:
rewf(n->left);
rewf(n->right);
break;
}
}
*/
static void
rew(Node *n, int blk)
{
int i;
Node *a, *nn;
if(n == Z)
return;
if(blk)
pushscope(n, SAUTO);
nearln = n->lineno;
if(n->blk){
n->blk = 0;
addnode(OBLK, n);
}
switch(n->op){
default:
if(simple(n))
rewc0(n, n);
else
rewc(n, n);
if(n->op == OLIST || n->op == OIF){
rew(n, 0);
break;
}
ecomplex(n);
break;
case ODAS:
pushdcl(n->left, CAUTO);
rewe(n->right, T, 1);
break;
case OSBREAK:
case ONUL:
break;
case ONAME:
if(n->kind == KEXP)
ecomplex(n);
else
pushdcl(n, CAUTO);
break;
case OBLK:
rew(n->left, 1);
break;
case OLIST:
rew(n->left, 0);
rew(n->right, 0);
break;
case ORETURN:
if(simple(n->left))
rewc0(n->left, n);
else
rewc(n->left, n);
if(n->op != ORETURN){
rew(n, 0);
break;
}
ecomplex(n);
break;
case OLABEL:
case OGOTO:
break;
case OCASE:
for(nn = n->left; nn != Z; nn = nn->right)
if(nn->left != Z)
ecomplex(nn->left);
rew(n->right, 1);
break;
case OSWITCH:
rewc(n->left, n);
if(n->op == OLIST){
rew(n, 0);
break;
}
ecomplex(n->left);
if(!lteq(n->left->type, types[TINT]))
intcast(n->left);
n->right = buildcases(n->right);
rew(n->right, 1);
break;
case OWHILE:
case ODWHILE:
rewc1(n->left);
becomplex(n->left);
rew(n->right, 1);
break;
case OFOR:
rewc1(n->left->left);
rewc(n->left->right->left, n);
if(n->op == OLIST){
rew(n, 0);
break;
}
becomplex(n->left->left);
ecomplex(n->left->right->left);
ecomplex(n->left->right->right);
rew(n->right, 1);
break;
case OCONTINUE:
break;
case OBREAK:
break;
case OIF:
rewc1(n->left);
rewc(n->left, n);
if(n->op == OLIST){
rew(n, 0);
break;
}
becomplex(n->left);
rew(n->right->left, 1);
rew(n->right->right, 1);
break;
case OSET:
if(n->left == Z){
n->op = ONUL;
n->left = n->right = Z;
break;
}
if(n->left->op != OLIST){
n->op = OAS;
n->right = defval(n->left->type);
rew(n, 0);
break;
}
i = 0;
nn = Z;
for(;;){
a = arg(n->left, i);
if(a == Z)
break;
a = new1(OAS, a, defval(a->type));
if(i == 0)
nn = a;
else
nn = new1(OLIST, nn, a);
i++;
}
*n = *nn;
rew(n, 0);
break;
case OUSED:
if(n->left == Z){
n->op = ONUL;
n->left = n->right = Z;
break;
}
i = 0;
nn = Z;
for(;;){
a = arg(n->left, i);
if(a == Z)
break;
if(i == 0)
nn = a;
else
nn = new1(OOROR, nn, a);
i++;
}
n->op = OIF;
n->left = nn;
n->right = new1(OLIST, Z, Z);
n->right->left = new1(ONUL, Z, Z);
rew(n, 0);
break;
}
if(blk)
popscope();
}
void
codgen2(Node *n, Node *nn, int lastlno, int rw)
{
Node *ln = Z;
newsec(0);
output(nn->lineno, 1);
tmp = 0;
/* t = types[TVOID]; */
nn = func(nn);
pushscope(nn, SPARM);
if(rw)
rew(n, 1);
egen(nn, ONOOP, PRE);
newline();
prdelim("{");
newline();
incind();
/* rewf(n); */
pushscope(n, SAUTO);
sgen(n, 0, &ln);
if(ln != Z && isdec(ln))
tdgen(ln, 0);
popscope();
popscope();
if(n != Z)
output(lline(n), 1);
output(lastlno, 1);
decind();
prdelim("}");
newline();
newline();
setmain(nn);
}
void
rewall(Node *n, Node *nn, int lastlno)
{
USED(lastlno);
tmp = 0;
nn = func(nn);
pushscope(nn, SPARM);
rew(n, 1);
popscope();
setmain(nn);
}
void
suball(Node *n, Node *nn)
{
Node *rn;
nn = func(nn);
pushscope(nn, SPARM);
subs(nn, 0, 0);
subs(n, 1, 1);
nn = lastn(n);
if(nn != Z && nn->op != ORETURN){
rn = retval(Z);
if(rn != Z){
addnode(OLIST, nn);
nn->right = rn;
}
}
popscope();
}
void
ginit(void)
{
thechar = 'o';
thestring = "386";
tfield = types[TLONG];
}
long
align(long i, Type *t, int op)
{
long o;
Type *v;
int w;
o = i;
w = 1;
switch(op) {
default:
diag(Z, "unknown align opcode %d", op);
break;
case Asu2: /* padding at end of a struct */
w = SZ_LONG;
break;
case Ael1: /* initial allign of struct element */
for(v=t; v->etype==TARRAY; v=v->link)
;
w = ewidth[v->etype];
if(w <= 0 || w >= SZ_LONG)
w = SZ_LONG;
break;
case Ael2: /* width of a struct element */
o += t->width;
break;
case Aarg0: /* initial passbyptr argument in arg list */
if(typesuv[t->etype]) {
o = align(o, types[TIND], Aarg1);
o = align(o, types[TIND], Aarg2);
}
break;
case Aarg1: /* initial allign of parameter */
w = ewidth[t->etype];
if(w <= 0 || w >= SZ_LONG) {
w = SZ_LONG;
break;
}
w = 1; /* little endian no adjustment */
break;
case Aarg2: /* width of a parameter */
o += t->width;
w = SZ_LONG;
break;
case Aaut3: /* total allign of automatic */
o = align(o, t, Ael2);
o = align(o, t, Ael1);
w = SZ_LONG; /* because of a pun in cc/dcl.c:contig() */
break;
}
o = round(o, w);
if(0)
print("align %s %ld %T = %ld\n", bnames[op], i, t, o);
return o;
}
long
maxround(long max, long v)
{
v = round(v, SZ_LONG);
if(v > max)
return v;
return max;
}
static int
nlen(Node *n)
{
if(n == Z)
return 0;
if(n->op == OLIST)
return nlen(n->left)+nlen(n->right);
return 1;
}
static void
flatten(Node *n, Node **a, int *i)
{
if(n == Z)
return;
if(n->op == OLIST){
flatten(n->left, a, i);
flatten(n->right, a, i);
free(n);
return;
}
a[(*i)++] = n;
}
static Node*
addcase(Node *n, Node **e, Node **s, int k)
{
Node *nn;
if(*e != Z){
nn = new1(OCASE, *e, *s);
nn->right->blk = 0;
nn->kind = k;
}
else
nn = *s;
*e = *s = Z;
if(n == Z)
return nn;
return new1(OLIST, n, nn);
}
/* collect case code together */
static Node*
buildcases(Node *n)
{
int i, m, m0, c;
Node *e, *s, *nn, **a, **ep;
m = nlen(n);
a = (Node **)malloc(m*sizeof(Node*));
m0 = 0;
flatten(n, a, &m0);
if(m != m0)
diag(Z, "internal: bad buildcases()");
c = 1;
e = s = nn = Z;
ep = &e;
for(i = 0; i < m; i++){
n = a[i];
if(n->op == OCASE){
if(!c){
nn = addcase(nn, &e, &s, KNIL);
ep = &e;
}
*ep = new1(OLIST, n->left, Z);
if(n->left == Z)
(*ep)->lineno = n->lineno;
ep = &(*ep)->right;
c = 1;
}
else{
if(s == Z)
s = n;
else
s = new1(OLIST, s, n);
c = 0;
}
}
nn = addcase(nn, &e, &s, KLAST);
free(a);
return nn;
}
static Sym *
tmpgen(Type *t)
{
Sym *s;
sprint(buf, "tmp_%d", ++tmp);
s = slookup(buf);
s->type = t;
s->class = CAUTO;
if(t->etype == TENUM)
s->type = types[TINT];
return s;
}
static Node*
cfind(Node *n)
{
Node *nn;
if(n == Z)
return Z;
if(n->op == OCOND)
return n;
nn = cfind(n->left);
if(nn != Z)
return nn;
return cfind(n->right);
}
Node*
ncopy(Node *n)
{
Node *nn;
if(n == Z)
return Z;
nn = new1(n->op, Z, Z);
*nn = *n;
nn->left = ncopy(n->left);
nn->right = ncopy(n->right);
return nn;
}
static int
complexity(Node *n, int *cond)
{
int c;
if(n == Z)
return 0;
c = complexity(n->left, cond)+1+complexity(n->right, cond);
if(n->op == OCOND)
(*cond)++;
return c;
}
static int
simple(Node *n)
{
int c;
c = 0;
return complexity(n, &c) < COMPLEX && c <= 1;
}
static Type*
intype(Node *n)
{
Type *t;
t = ntype(n);
if(t == T)
return T;
return t->link;
}
static Type*
ntype(Node *n)
{
Type *t;
if(n == Z)
return T;
t = n->type;
if(t != T){
if(t->etype == TENUM)
return n->sym->tenum;
return t;
}
switch(n->op){
case OEQ:
case ONE:
case OLT:
case OGE:
case OGT:
case OLE:
case ONOT:
case OANDAND:
case OOROR:
case OIOTA:
return types[TINT];
case OCOMMA:
return ntype(n->right);
case OCOND:
return maxtype(ntype(n->right->left), ntype(n->right->right));
case OFUNC:
return intype(n->left);
case ODOT:
tcomd(n, ntype(n->left));
t = n->type;
n->type = T;
return t;
case ODOTIND:
tcomd(n, intype(n->left));
t = n->type;
n->type = T;
return t;
case OARRIND:
return intype(n->left);
case OADDR:
return typ1(TIND, ntype(n->left));
case OIND:
return intype(n->left);
case OSTRUCT:
return T;
}
return maxtype(ntype(n->left), ntype(n->right));
}
static Type*
gettype(Node *n1, Node *n2)
{
Type *t;
t = maxtype(n1->type, n2->type);
if(t != T)
return t;
return maxtype(ntype(n1), ntype(n2));
}
static void
cgen0(Node *n, Node *e)
{
Node *c, *nn, *ed, *ee;
if(n == e){
n->op = OIF;
return;
}
c = n->left;
ed = new1(OXXX, Z, Z);
*ed = *e;
ee = ncopy(e);
nn = cfind(ee);
*n = *n->right->left;
*nn = *nn->right->right;
e->op = OIF;
e->left = c;
e->right = new1(OLIST, ed, ee);
}
static Node*
cgen(Node *n, Node *e)
{
Type *t;
Node *tn, *i;
USED(e);
tn = new1(ONAME, Z, Z);
t = gettype(n->right->left, n->right->right);
tn->sym = tmpgen(t);
tn->type = tn->sym->type;
/*
if(n == e){
n->op = OIF;
n->right->left = new1(OASD, tn, n->right->left);
n->right->right = new1(OAS, tn, n->right->right);
return n;
}
*/
i = new1(OIF, n->left, new1(OLIST, new1(OASD, tn, n->right->left), new1(OAS, tn, n->right->right)));
*n = *tn;
return i;
}
static struct{
char *name;
int args;
int fd;
char *lname;
} sysops[] = {
"create", 1, RET, nil,
"dirstat", 1, 0, "stat",
"dirfstat", 0, 1, "fstat",
"dirwstat", 1, 0, "wstat",
"dirfwstat", 0, 1, "fwstat",
"dirread", 0, 1, nil,
"dup", 0, 0, nil,
"fprint", 2|STAR, 1, nil,
"fprintf", 2|STAR, 1, "fprint",
"open", 1, RET, nil,
"print", 1|STAR, 0, nil,
"printf", 1|STAR, 0, "print",
"read", 0, 1, nil,
"remove", 1, 0, nil,
"seek", 0, 1, nil,
"sleep", 0, 0, nil,
"sprint", 1|STAR, 0, nil,
"sprintf", 1|STAR, 0, "sprint",
"write", 0, 1, nil,
0
};
/* dummy entry for module */
#define BIOTMP "__bio__"
static struct{
char *name;
char *lname;
} bioops[] = {
"Bflush", "flush",
"Bgetc", "getc",
"Bprint", "puts",
"Bputc", "putc",
"Bread", "read",
"Bseek", "seek",
"Bungetc", "ungetc",
"Bwrite", "write",
BIOTMP, nil,
0
};
char *libcops[] = {
"isalnum",
"isalpha",
"isascii",
"iscntrl",
"isdigit",
"isgraph",
"islower",
"isprint",
"ispunct",
"isspace",
"isupper",
"isxdigit",
"strchr",
"strrchr",
"toascii",
"tolower",
"toupper",
"abs",
"min",
"max",
0,
};
static struct{
char *name;
int type;
int string;
} xops[] = {
"strlen", LSTRLEN, 1,
"strcmp", LSTRCMP, 1,
"strcpy", LSTRCPY, 1,
"strcat", LSTRCAT, 1,
"strncmp", LSTRNCMP, 1,
"strncpy", LSTRNCPY, 1,
"strncat", LSTRNCAT, 1,
"strdup", LSTRDUP, 1,
"memcpy", LMEMMOVE, 0,
"memmove", LMEMMOVE, 0,
"malloc", LMALLOC, 0,
"free", LFREE, 0,
"exit", LEXIT, 0,
"exits", LEXIT, 0,
"close", LCLOSE, 0,
"atoi", LATOI, 0,
"atol", LATOI, 0,
"atoll", LATOL, 0,
"atof", LATOF, 0,
"atod", LATOF, 0,
"print", LPRINT, 0,
"printf", LPRINT, 0,
"fprint", LFPRINT, 0,
"fprintf", LFPRINT, 0,
"sprint", LSPRINT, 0,
"sprintf", LSPRINT, 0,
0
};
char *mathsops[] = {
"sin",
"cos",
"tan",
"sinh",
"cosh",
"tanh",
"asin",
"acos",
"atan",
"asinh",
"acosh",
"atanh",
"atan2",
"sqrt",
"cbrt",
"pow",
"pow10",
"exp",
"log",
"log10",
0
};
Node *glob, *globe;
void
sysinit(void)
{
int i;
Sym *s;
glob = globe = new1(ONOOP, Z, Z);
for(i = 0; sysops[i].name; i++){
s = slookup(sysops[i].name);
s->class = CEXTERN;
s->args = sysops[i].args;
s->fd = sysops[i].fd;
s->mod = "sys";
s->lname = sysops[i].lname;
s->limbo = 1;
sysop = s;
}
for(i = 0; bioops[i].name; i++){
s = slookup(bioops[i].name);
s->class = CEXTERN;
if(strcmp(bioops[i].name, BIOTMP) == 0){
s->mod = "bufio";
bioop = s;
}
s->lname = bioops[i].lname;
s->kind = LSELF;
s->limbo = 1;
}
for(i = 0; mathsops[i]; i++){
s = slookup(mathsops[i]);
s->class = CEXTERN;
s->mod = "math";
s->limbo = 1;
}
for(i = 0; libcops[i]; i++){
s = slookup(libcops[i]);
s->class = CEXTERN;
s->mod = strings ? "libc" : "libc0";
s->limbo = 1;
libcop = s;
}
for(i = 0; xops[i].name; i++){
s = slookup(xops[i].name);
s->class = CEXTERN;
if(strings || !xops[i].string)
s->kind = xops[i].type;
else
s->mod = "libc0";
if(s->kind == LEXIT)
s->lname = "exit";
s->limbo = 1;
}
usemod(sysop, 1);
if(!strings)
usemod(libcop, 1);
}
void
clbegin(void)
{
pushscope(glob, SGLOB);
}
void
clend(void)
{
if(passes)
swalk();
popscope();
}
static Modl *mods;
void
usemod(Sym *s, int ld)
{
Modl *ml;
for(ml = mods; ml != nil; ml = ml->nxt)
if(strcmp(ml->mod, s->mod) == 0){
ml->ld |= ld;
return;
}
ml = (Modl *)malloc(sizeof(Modl));
ml->mod = s->mod;
ml->ld = ld;
ml->nxt = mods;
mods = ml;
}
static void
ginc(Modl *ml)
{
int c;
char *s;
if(ml == nil)
return;
if(ml->nxt != nil)
ginc(ml->nxt);
s = ml->mod;
c = toupper(s[0]);
sprint(buf, "include \"%s.m\";", s);
prline(buf);
if(ml->ld){
sprint(buf, " %s: %c%s;", s, c, s+1);
prline(buf);
}
}
static void
gload(Modl *ml)
{
int c;
char *s;
if(ml == nil)
return;
if(ml->nxt != nil)
gload(ml->nxt);
if(ml->ld){
s = ml->mod;
c = toupper(s[0]);
sprint(buf, " %s = load %c%s %c%s->PATH;", s, c, s+1, c, s+1);
prline(buf);
}
}
static void
callmain(void)
{
if(inmain){
if(strings)
prline(" main(len argl, argl);");
else
prline(" main(len argl, libc0->ls2aab(argl));");
}
}
static void
genstart(void)
{
char *s;
if(!strings && inmain)
usemod(libcop, 1);
ginc(mods);
s = hasm();
if(s){
sprint(buf, "include \"%s\";", s);
prline(buf);
}
prline("");
prline("init(nil: ref Draw->Context, argl: list of string)");
prline("{");
gload(mods);
callmain();
prline("}");
prline("");
}
static int
argpos0(Node *nn, Node *n, int *p)
{
int pp;
if(n == Z)
return -1;
if(n->op == OLIST){
pp = argpos0(nn, n->left, p);
if(pp >= 0)
return pp;
return argpos0(nn, n->right, p);
}
if(n == nn)
return *p;
(*p)++;
return -1;
}
static int
argpos(Node *nn, Node *n)
{
int p = 0;
p = argpos0(nn, n, &p);
if(p < 0)
diag(Z, "-ve argpos");
return p;
}
static Node*
arg0(Node *n, int a, int *i)
{
Node *nn;
if(n == Z)
return Z;
if(n->op == OLIST){
nn = arg0(n->left, a, i);
if(nn != Z)
return nn;
return arg0(n->right, a, i);
}
if(a == (*i)++)
return n;
return Z;
}
static Node*
arg(Node *n, int a)
{
int i = 0;
return arg0(n, a, &i);
}
static Node*
list(Node *l, Node *r)
{
if(r == Z)
return l;
if(l == Z)
return r;
return new1(OLIST, l, r);
}
static Node*
droparg(Node *n, int a, int *i)
{
if(n == Z)
return Z;
if(n->op == OLIST)
return list(droparg(n->left, a, i), droparg(n->right, a, i));
if(a == (*i)++)
return Z;
return n;
}
static void
sargs(Node *n)
{
int s, f, i, j;
Node *a;
if(strings || (f = n->left->sym->args) == 0)
return;
s = 0;
for(i = 1, j = 0; i < STAR || s; i *= 2, j++){
if(f&i || s){
a = arg(n->right, j);
if(a == Z)
break;
if(s && !isstr(a->type))
continue;
if(f&STAR)
s++;
if(a->op == OS2AB){
*a = *a->left;
continue;
}
addnode(OAB2S, a);
}
}
}
static void
fdargs(Node *n)
{
int f, i, j;
Node *a;
if((f = n->left->sym->fd) == 0)
return;
marktype(pfdtype, TCFD);
if(f&RET)
tcon(n, pfdtype);
for(i = 1, j = 0; i < RET; i *= 2, j++){
if(f&i){
a = arg(n->right, j);
if(a == Z)
break;
tcon(a, pfdtype);
}
}
}
static void
aargs(Node *n)
{
int i;
Node *a, *nn, *fn;
Type *t, *t0, *ft, *at, *st;
if(!doaddr)
return;
if(n->op != OFUNC || n->left->op != ONAME)
return;
/* ft = n->left->type; */
ft = n->left->sym->type;
t = t0 = ft->link;
nn = Z;
for(i = 0; ; i++){
a = arg(n->right, i);
if(a == Z)
break;
at = typn(ft, i);
if(at != T && at->etype != TDOT && (a->op == OADDR || iteq(a->type, at) || iteq(at, a->type))){
if(iteq(at, a->type))
st = at->link;
else
st = a->type->link;
if(doalladdr || isscalar(st)){
if(a->op == OADDR)
*a = *a->left;
else if(iteq(a->type, at))
a->type = at;
if(t->mark == 0){
t = tuple(t, a->type);
trep(at, at->link);
fn = finddec(n->left->sym, 1);
if(fn != Z && fn->op == OFUNC)
tind(arg(fn->right, i));
}
if(nn == Z)
nn = cknil(ncopy(a));
else{
nn = new1(OTUPLE, nn, cknil(ncopy(a)));
nn->type = t;
}
}
}
}
if(nn != Z){
if(isvoid(t0) || t->mark == TCPC)
marktype(t, TCPC);
else
marktype(t, TCFC);
tcon(n, t);
addnode(ORETV, n);
n->right = nn;
}
}
static void
args(Node *n)
{
if(n->op != OFUNC || n->left->op != ONAME)
return;
sargs(n);
if(passes){
fdargs(n);
aargs(n);
}
}
static Node*
indir(Node *n)
{
if(n->op == OADDR)
return n->left;
return new1(OIND, n, Z);
}
static void
rewlc(Node *n, int k, Type *t)
{
int i;
Type *tt;
Node *a0, *a1, *a2, *nn;
if(t == T)
t = n->type;
a0 = arg(n->right, 0);
a1 = arg(n->right, 1);
switch(k){
case LSTRLEN:
n->op = OLEN;
break;
case LSTRCMP:
n->op = ONE;
n->left = a0;
n->right = a1;
break;
case LSTRCPY:
n->op = OAS;
n->left = a0;
n->right = a1;
n->type = n->left->type;
break;
case LSTRCAT:
n->op = OASADD;
n->left = a0;
n->right = a1;
n->type = n->left->type;
break;
case LSTRDUP:
*n = *a0;
break;
case LMEMMOVE:
if(!teq(a0->type, a1->type))
break;
if(a0->type->etype == TIND){
tt = a0->type->link;
a2 = arg(n->right, 2);
if(isadt(tt) && isconst(a2, tt->width)){
n->op = OAS;
n->left = indir(a0);
n->right = indir(a1);
n->type = n->left->type = n->right->type = tt;
break;
}
if(mydiv(a2, tt->width) != Z){
n->op = OAS;
n->left = new1(OSLICE, a0, new1(OLIST, con(0), Z));
n->right = new1(OSLICE, a1, new1(OLIST, con(0), a2));
n->type = n->left->type = n->right->type = a0->type;
}
}
break;
case LMALLOC:
if(t->etype == TIND){
tt = t->link;
if(isadt(tt) && isconst(a0, tt->width)){
n->op = OREF;
n->left = Z;
n->right = Z;
n->type = t;
break;
}
if(mydiv(a0, tt->width) != Z){
n->op = OARRAYOF;
n->left = a0;
n->right = Z;
n->type = t;
if(isadt(tt)){
n->type = typ1(TARRAY, tt);
n->type->width = LARR; /* limbo array without bounds */
marktype(n->type, TCAR);
}
}
}
break;
case LFREE:
n->op = OAS;
n->left = a0;
n->right = con(0);
n->type = n->left->type;
n->right->type = n->type;
break;
case LEXIT:
i = n->kind;
*n = *n->left;
n->kind = i;
break;
case LCLOSE:
n->op = OAS;
n->left = a0;
n->right = con(0);
n->left->type = typ1(TIND, n->left->type);
n->type = n->left->type;
n->right->type = n->type;
break;
case LATOI:
if(!strings)
strcast(a0);
n->op = OCAST;
n->left = a0;
n->right = Z;
n->type = types[TINT];
break;
case LATOL:
if(!strings)
strcast(a0);
n->op = OCAST;
n->left = a0;
n->right = Z;
n->type = types[TVLONG];
break;
case LATOF:
if(!strings)
strcast(a0);
n->op = OCAST;
n->left = a0;
n->right = Z;
n->type = types[TDOUBLE];
break;
case LPRINT:
if(a0->op == OSTRING)
pfmt(a0->cstring);
else if(a0->op == OLSTRING)
lpfmt(a0->rstring);
break;
case LFPRINT:
if(a1->op == OSTRING)
pfmt(a1->cstring);
else if(a1->op == OLSTRING)
lpfmt(a1->rstring);
break;
case LSPRINT:
if(n->right->kind != KDROP){
if(a1->op == OSTRING)
pfmt(a1->cstring);
else if(a1->op == OLSTRING)
lpfmt(a1->rstring);
nn = new1(OXXX, Z, Z);
*nn = *n;
i = 0;
nn->right = droparg(nn->right, 0, &i);
nn->right->kind = KDROP;
n->op = OAS;
n->left = a0;
n->right = nn;
n->type = nn->type;
}
break;
case LSELF:
if(n->right != Z && n->right->kind != KDROP){
i = 0;
n->right = droparg(n->right, 0, &i);
if(n->right != Z)
n->right->kind = KDROP;
addnode(OLDOT, n->left);
n->left->right = n->left->left;
n->left->left = a0;
usemod(bioop, 1);
}
break;
}
}
void
expgen(Node *n)
{
egen(n, ONOOP, PRE);
}
static void
clrbrk(Node *n)
{
if(n == Z)
return;
switch(n->op){
case OLIST:
clrbrk(n->right);
break;
case OBREAK:
n->op = OSBREAK;
n->left = n->right = Z;
break;
}
}
static int
hasbrk(Node *n)
{
if(n == Z)
return 0;
switch(n->op){
case OLIST:
case OWHILE:
case ODWHILE:
case OFOR:
return hasbrk(n->right);
case OIF:
if(n->right->right == Z)
return 0;
return hasbrk(n->right->left) && hasbrk(n->right->right);
case ORETURN:
case OGOTO:
case OCONTINUE:
case OBREAK:
case OSBREAK:
return 1;
default:
return 0;
}
}
static int
isgen(char *s)
{
char *s1, *s2;
s1 = strchr(s, '_');
s2 = strrchr(s, '_');
if(s1 == nil || s2-s1 != 4)
return 0;
return s1[1] == 'a' && s1[2] == 'd' && s1[3] == 't';
}
static void
addmodn(Sym *s)
{
char buf[128], *ns;
if(s->name[0] == '_'){
outmod(buf, -1);
ns = malloc(strlen(buf)+strlen(s->name)+1);
strcpy(ns, buf);
strcat(ns, s->name);
s->name = ns;
}
}
static void
pfmt(char *s)
{
char *t = s;
while(*s != '\0'){
if(*s == '%'){
*t++ = *s++;
if(*s == 'l'){
s++;
if(*s == 'l')
*t++ = 'b';
else
*t++ = *s;
s++;
}
else if(*s == 'p'){
*t++ = 'x';
s++;
}
else
*t++ = *s++;
}
else
*t++ = *s++;
}
*t = '\0';
}
static void
lpfmt(Rune *s)
{
Rune*t = s;
while(*s != '\0'){
if(*s == '%'){
*t++ = *s++;
if(*s == 'l'){
s++;
if(*s == 'l')
*t++ = 'b';
else
*t++ = *s;
s++;
}
else if(*s == 'p'){
*t++ = 'x';
s++;
}
else
*t++ = *s++;
}
else
*t++ = *s++;
}
*t = '\0';
}
int
line(Node *n)
{
if(n == Z)
return 0;
if(n->op == OLIST)
return line(n->left);
return n->lineno;
}
static int
lline(Node *n)
{
if(n == Z)
return 0;
if(n->op == OLIST)
return lline(n->right);
return n->lineno+1;
}
static Node*
lastn(Node *n)
{
while(n != Z && n->op == OLIST)
n = n->right;
return n;
}
static Node*
newnode(int op, Node *l)
{
Node *n;
n = new1(op, l, Z);
globe->right = n;
globe = n;
return n;
}
void
codgen1(Node *n, Node *nn, int lastlno)
{
Node *nnn;
scomplex(n);
nnn = newnode(OCODE, new1(OLIST, n, nn));
nnn->lineno = lastlno;
mset(n);
mset(nn);
nn = func(nn);
newnode(ODECF, nn);
setmain(nn);
}
void
vtgen1(Node *n)
{
int c;
Node *nn = n;
if(n->op == ODAS)
nn = n->left;
if(nn->type == T || nn->sym == S)
return;
c = nn->sym->class;
if(c == CGLOBL || c == CSTATIC || c == CLOCAL || c == CEXREG){
newnode(ODECV, n);
if(nn->type->etype != TFUNC || ism())
setmod(nn->sym);
}
mset(n);
}
void
etgen1(Sym *s)
{
Node *n;
n = newnode(ODECE, Z);
n->sym = s;
if(s != S)
setmod(s);
}
void
ttgen1(Type *t)
{
Node *n;
n = newnode(ODECT, Z);
n->type = t;
if(isadt(t))
setmod(suename(t));
}
void
outpush1(char *s)
{
Node *n;
char *t;
n = newnode(OPUSH, Z);
if(s == nil)
t = nil;
else{
t = malloc(strlen(s)+1);
strcpy(t, s);
}
n->cstring = t;
outpush0(s, n);
}
void
outpop1(int lno)
{
Node *n;
n = newnode(OPOP, Z);
n->lineno = lno;
outpop0(lno);
}
void
codgen(Node *n, Node *nn, int lastlno)
{
if(passes)
codgen1(n, nn, lastlno);
else
codgen2(n, nn, lastlno, 1);
}
void
vtgen(Node *n)
{
if(passes)
vtgen1(n);
else
vtgen2(n);
}
void
etgen(Sym *s)
{
if(passes)
etgen1(s);
else
etgen2(s);
}
void
ttgen(Type *t)
{
if(passes)
ttgen1(t);
else
ttgen2(t);
}
void
outpush(char *s)
{
if(passes)
outpush1(s);
else
outpush2(s, Z);
}
void
outpop(int lno)
{
if(passes)
outpop1(lno);
else
outpop2(lno);
}
static void
swalk(void)
{
Node *n, *l;
for(n = glob; n != Z; n = n->right){
l = n->left;
switch(n->op){
case OCODE:
rewall(l->left, l->right, n->lineno);
break;
default:
break;
}
}
while(again){
again = 0;
for(n = glob; n != Z; n = n->right){
l = n->left;
switch(n->op){
case OCODE:
suball(l->left, l->right);
break;
case ODECV:
subs(l, 0, 0);
break;
case ODECE:
case ODECT:
case ODECF:
break;
default:
break;
}
}
}
for(n = glob; n != Z; n = n->right){
l = n->left;
switch(n->op){
case ONOOP:
break;
case OPUSH:
outpush2(n->cstring, n);
break;
case OPOP:
outpop2(n->lineno);
break;
case OCODE:
codgen2(l->left, l->right, n->lineno, 0);
break;
case ODECV:
vtgen2(l);
break;
case ODECE:
etgen2(n->sym);
break;
case ODECT:
ttgen2(n->type);
break;
case ODECF:
break;
}
}
}
static void
scomplex(Node *n)
{
if(n == Z)
return;
switch(n->op){
default:
complex(n);
break;
case ODAS:
case OSBREAK:
case ONUL:
case OLABEL:
case OGOTO:
case OCONTINUE:
case OBREAK:
break;
case ONAME:
if(n->kind == KEXP)
complex(n);
break;
case OBLK:
case OSET:
case OUSED:
scomplex(n->left);
break;
case OLIST:
scomplex(n->left);
scomplex(n->right);
break;
case ORETURN:
complex(n);
break;
case OCASE:
complex(n->left);
break;
case OSWITCH:
case OWHILE:
case ODWHILE:
complex(n->left);
scomplex(n->right);
break;
case OFOR:
complex(n->left->left);
complex(n->left->right->left);
complex(n->left->right->right);
scomplex(n->right);
break;
case OIF:
complex(n->left);
scomplex(n->right->left);
scomplex(n->right->right);
break;
}
}
static void
mtset(Type *t)
{
if(t == T)
return;
switch(t->etype){
case TIND:
case TARRAY:
mtset(t->link);
break;
case TSTRUCT:
case TUNION:
prsym0(suename(t));
/*
for(l = t->link; l != T; l = l->down)
mtset(l);
*/
break;
}
}
static void
mset(Node *n)
{
if(n == Z)
return;
n->garb = 0;
if(n->op == ONAME)
prsym0(n->sym);
mtset(n->type);
mset(n->left);
mset(n->right);
}
static int
sign(Node *n)
{
int s;
if(n == Z)
return 1;
switch(n->op){
case OCONST:
sign(n->left);
if(n->vconst < 0){
n->vconst = -n->vconst;
return -1;
}
break;
case OPOS:
s = sign(n->left);
*n = *n->left;
return s;
case ONEG:
s = sign(n->left);
*n = *n->left;
return -s;
case OADD:
if(sign(n->right) < 0)
n->op = OSUB;
break;
case OSUB:
if(sign(n->right) < 0)
n->op = OADD;
break;
case OMUL:
case ODIV:
return sign(n->left)*sign(n->right);
default:
break;
}
return 1;
}
static Node*
ckneg(Node *n)
{
if(sign(n) < 0)
return new1(ONEG, n, Z);
return n;
}
static void
sliceasgn(Node *n)
{
Type *t;
Node *nn;
if(side(n->left) || (n->right != Z && side(n->right)))
return;
t = n->type;
if(isarray(t) && (!strings || t->link->etype != TCHAR)){
if(n->op == OASADD)
nn = n->right;
else
nn = con(1);
n->op = OAS;
n->right = new1(OSLICE, ncopy(n->left), new1(OLIST, nn, Z));
}
}