#include <u.h>
#include <libc.h>
#include <bio.h>
#include <mach.h>
#include <ctype.h>
#include "dat.h"
char *prefix = "";
static TypeList *thash[1021];
static TypeList *namehash[1021];
static TypeList *alltypes;
static uint
hash(uint num, uint num1)
{
return (num*1009 + num1*1013) % nelem(thash);
}
static uint
shash(char *s)
{
uint h;
h = 0;
for(; *s; s++)
h = 37*h + *s;
return h%nelem(namehash);
}
void
addnamehash(Type *t)
{
uint h;
if(t->name){
h = shash(t->name);
namehash[h] = mktl(t, namehash[h]);
}
}
static void
addhash(Type *t)
{
uint h;
if(t->n1 || t->n2){
h = hash(t->n1, t->n2);
thash[h] = mktl(t, thash[h]);
}
if(t->name)
addnamehash(t);
}
Type*
typebysue(char sue, char *name)
{
Type *t;
TypeList *tl;
for(tl=namehash[shash(name)]; tl; tl=tl->tl){
t = tl->hd;
if(t->sue==sue && t->suename && strcmp(name, t->suename)==0)
return t;
}
t = newtype();
if(sue=='e')
t->ty = Enum;
else
t->ty = Aggr;
if(sue=='u')
t->isunion = 1;
t->sue = sue;
t->suename = name;
addnamehash(t);
return t;
}
Type*
typebynum(uint n1, uint n2)
{
Type *t;
TypeList *tl;
if(n1 || n2){
for(tl=thash[hash(n1, n2)]; tl; tl=tl->tl){
t = tl->hd;
if(t->n1==n1 && t->n2==n2)
return t;
}
}
t = newtype();
t->n1 = n1;
t->n2 = n2;
addhash(t);
return t;
}
Type*
newtype(void)
{
Type *t;
static int gen;
t = emalloc(sizeof *t);
t->gen = ++gen;
alltypes = mktl(t, alltypes);
return t;
}
struct {
char *old;
char *new;
} fixes[] = { /* Font Tab 4 */
"append", "$append",
"builtin", "$builtin",
"complex", "$complex",
"delete", "$delete",
"do", "$do",
"else", "$else",
"eval", "$eval",
"fmt", "$fmt",
"fn", "$fn",
"head", "$head",
"if", "$if",
"local", "$local",
"loop", "$loop",
"ret", "$ret",
"tail", "$tail",
"then", "$then",
"var", "$var",
"whatis", "$whatis",
"while", "$while",
/* register names! */
/* generic */
"PC", "$PC",
"SP", "$SP",
"LR", "$LR",
"R0", "$R0",
"R1", "$R1",
"R2", "$R2",
"R3", "$R3",
"R4", "$R4",
"R5", "$R5",
"R6", "$R6",
"R7", "$R7",
"R8", "$R8",
"R9", "$R9",
"R10", "$R10",
"R11", "$R11",
"R12", "$R12",
"R13", "$R13",
"R14", "$R14",
"R15", "$R15",
"R16", "$R16",
"R17", "$R17",
"R18", "$R18",
"R19", "$R19",
"R20", "$R20",
"R21", "$R21",
"R22", "$R22",
"R23", "$R23",
"R24", "$R24",
"R25", "$R25",
"R26", "$R26",
"R27", "$R27",
"R28", "$R28",
"R29", "$R29",
"R30", "$R30",
"R31", "$R31",
"E0", "$E0",
"E1", "$E1",
"E2", "$E2",
"E3", "$E3",
"E4", "$E4",
"E5", "$E5",
"E6", "$E6",
"F0", "$F0",
"F1", "$F1",
"F2", "$F2",
"F3", "$F3",
"F4", "$F4",
"F5", "$F5",
"F6", "$F6",
"F7", "$F7",
"F8", "$F8",
"F9", "$F9",
"F10", "$F10",
"F11", "$F11",
"F12", "$F12",
"F13", "$F13",
"F14", "$F14",
"F15", "$F15",
"F16", "$F16",
"F17", "$F17",
"F18", "$F18",
"F19", "$F19",
"F20", "$F20",
"F21", "$F21",
"F22", "$F22",
"F23", "$F23",
"F24", "$F24",
"F25", "$F25",
"F26", "$F26",
"F27", "$F27",
"F28", "$F28",
"F29", "$F29",
"F30", "$F30",
"F31", "$F31",
/* 386 */
"DI", "$DI",
"SI", "$SI",
"BP", "$BP",
"BX", "$BX",
"DX", "$DX",
"CX", "$CX",
"AX", "$AX",
"GS", "$GS",
"FS", "$FS",
"ES", "$ES",
"DS", "$DS",
"TRAP", "$TRAP",
"ECODE", "$ECODE",
"CS", "$CS",
"EFLAGS", "$EFLAGS",
"SS", "$SS",
/* power */
"CAUSE", "$CAUSE",
"SRR1", "$SRR1",
"CR", "$CR",
"XER", "$XER",
"CTR", "$CTR",
"VRSAVE", "$VRSAVE",
"FPSCR", "$FPSCR"
};
char*
nonempty(char *name)
{
if(name[0] == '\0')
return "__empty__name__";
return name;
}
char*
cleanstl(char *name)
{
char *b, *p;
static char buf[65536]; /* These can be huge. */
if(strchr(name, '<') == nil)
return nonempty(name);
b = buf;
for(p = name; *p != 0; p++){
switch(*p){
case '<':
strcpy(b, "_L_");
b += 3;
break;
case '>':
strcpy(b, "_R_");
b += 3;
break;
case '*':
strcpy(b, "_A_");
b += 3;
break;
case ',':
strcpy(b, "_C_");
b += 3;
break;
case '.':
strcpy(b, "_D_");
b += 3;
break;
default:
*b++ = *p;
break;
}
}
*b = 0;
return buf;
}
char*
fixname(char *name)
{
int i;
char *s;
static int nbuf;
static char buf[8][65536];
if(name == nil)
return nil;
s = demangle(name, buf[nbuf], 1);
if(s != name){
if(++nbuf == nelem(buf))
nbuf = 0;
name = s;
}
for(i=0; i<nelem(fixes); i++)
if(name[0]==fixes[i].old[0] && strcmp(name, fixes[i].old)==0)
return nonempty(fixes[i].new);
return nonempty(name);
}
void
denumber(void)
{
memset(thash, 0, sizeof thash);
memset(namehash, 0, sizeof namehash);
}
void
renumber(TypeList *tl, uint n1)
{
int n;
Type *t, *tt;
for(; tl; tl=tl->tl){
t = tl->hd;
tt = typebynum(n1, t->n2);
*tt = *t;
tt->n1 = n1;
if(tt->n){
n = (tt->n+31)&~31;
if(tt->tname){
tt->tname = emalloc(n*sizeof tt->tname[0]);
memmove(tt->tname, t->tname, n*sizeof tt->tname[0]);
}
if(tt->val){
tt->val = emalloc(n*sizeof tt->val[0]);
memmove(tt->val, t->val, n*sizeof tt->val[0]);
}
if(tt->t){
tt->t = emalloc(n*sizeof tt->t[0]);
memmove(tt->t, t->t, n*sizeof tt->t[0]);
}
}
addhash(tt);
}
}
Type*
defer(Type *t)
{
Type *u, *oldt;
int n;
if(t == nil)
return nil;
/* XXX rob has return t; here */
u = t;
n = 0;
oldt = t;
while(t && (t->ty == Defer || t->ty == Typedef)){
if(n++%2)
u = u->sub;
t = t->sub;
if(t == u) /* cycle */
goto cycle;
}
if(oldt != t)
oldt->sub = t;
return t;
cycle:
fprint(2, "cycle\n");
t = oldt;
n = 0;
while(t && (t->ty==Defer || t->ty==Typedef)){
fprint(2, "t %p/%d %s\n", t, t->ty, t->name);
if(t == u && n++ == 2)
break;
t = t->sub;
}
return u;
}
static void
dotypedef(Type *t)
{
if(t->ty != Typedef && t->ty != Defer)
return;
if(t->didtypedef)
return;
t->didtypedef = 1;
if(t->sub == nil)
return;
/* push names downward to remove anonymity */
if(t->name && t->sub->name == nil)
t->sub->name = t->name;
dotypedef(t->sub);
}
static int
countbytes(uvlong x)
{
int n;
for(n=0; x; n++)
x>>=8;
return n;
}
static void
dorange(Type *t)
{
Type *tt;
if(t->ty != Range)
return;
if(t->didrange)
return;
t->didrange = 1;
tt = defer(t->sub);
if(tt == nil)
return;
dorange(tt);
if(t != tt && tt->ty != Base)
return;
t->ty = Base;
t->xsizeof = tt->xsizeof;
if(t->lo == 0)
t->printfmt = 'x';
else
t->printfmt = 'd';
if(t->xsizeof == 0)
t->xsizeof = countbytes(t->hi);
}
char*
mkname(char *prefix, char *name)
{
static char buf[65536];
snprint(buf, sizeof buf, "%s%s", prefix, name);
return buf;
}
char*
nameof(Type *t, int doanon)
{
static char buf[65536];
char *p;
if(t->name)
strcpy(buf, fixname(t->name));
else if(t->suename)
snprint(buf, sizeof buf, "%s_%s", t->isunion ? "union" : "struct", t->suename);
else if(doanon)
snprint(buf, sizeof buf, "%s_%lud_", prefix, t->gen);
else
return "";
for(p=buf; *p; p++)
if(isspace((uchar)*p))
*p = '_';
return buf;
}
static char
basecharof(Type *t) /*XXX */
{
switch(t->xsizeof){
default:
return 'X';
case 1:
return 'b';
case 2:
if(t->printfmt=='d')
return 'd';
else
return 'x';
case 4:
if(t->printfmt=='d')
return 'D';
else if(t->printfmt=='f')
return 'f';
else
return 'X';
case 8:
if(t->printfmt=='d')
return 'V';
else if(t->printfmt=='f')
return 'F';
else
return 'Y';
}
}
static int
nilstrcmp(char *a, char *b)
{
if(a == b)
return 0;
if(a == nil)
return -1;
if(b == nil)
return 1;
return strcmp(a, b);
}
int careaboutaggrcount;
static int
typecmp(Type *t, Type *u)
{
int i;
if(t == u)
return 0;
if(t == nil)
return -1;
if(u == nil)
return 1;
if(t->ty < u->ty)
return -1;
if(t->ty > u->ty)
return 1;
if(t->isunion != u->isunion)
return t->isunion - u->isunion;
i = nilstrcmp(t->name, u->name);
if(i)
return i;
i = nilstrcmp(t->suename, u->suename);
if(i)
return i;
if(careaboutaggrcount && t->ty == Aggr){
if(t->n > u->n)
return -1;
if(t->n < u->n)
return 1;
}
if(t->name || t->suename)
return 0;
if(t->ty==Enum){
if(t->n < u->n)
return -1;
if(t->n > u->n)
return 1;
if(t->n == 0)
return 0;
i = strcmp(t->tname[0], u->tname[0]);
return i;
}
if(t < u)
return -1;
if(t > u)
return 1;
return 0;
}
static int
qtypecmp(const void *va, const void *vb)
{
Type *t, *u;
t = *(Type**)va;
u = *(Type**)vb;
return typecmp(t, u);
}
void
printtype(Biobuf *b, Type *t)
{
char *name;
int j, nprint;
Type *tt, *ttt;
if(t->printed)
return;
t->printed = 1;
switch(t->ty){
case Aggr:
name = nameof(t, 1);
Bprint(b, "%B = %lud;\n", mkname("sizeof", name), t->xsizeof);
Bprint(b, "aggr %B {\n", name);
nprint = 0;
for(j=0; j<t->n; j++){
tt = defer(t->t[j]);
if(tt && tt->equiv)
tt = tt->equiv;
if(tt == nil){
Bprint(b, "// oops: nil type\n");
continue;
}
switch(tt->ty){
default:
Bprint(b, "// oops: unknown type %d for %p/%s (%d,%d; %c,%s; %p)\n",
tt->ty, tt, fixname(t->tname[j]),
tt->n1, tt->n2, tt->sue ? tt->sue : '.', tt->suename, tt->sub);
if(0){
Bprint(b, "// t->t[j] = %p\n", ttt=t->t[j]);
while(ttt){
Bprint(b, "// %s %d (%d,%d) sub %p\n", ttt->name, ttt->ty, ttt->n1, ttt->n2, ttt->sub);
ttt=ttt->sub;
}
}
case Base:
case Pointer:
case Enum:
case Array:
case Function:
nprint++;
Bprint(b, "\t'%c' %lud %B;\n", basecharof(tt), t->val[j], fixname(t->tname[j]));
break;
case Aggr:
nprint++;
Bprint(b, "\t%B %lud %B;\n", nameof(tt, 1), t->val[j], fixname(t->tname[j]));
break;
}
}
if(nprint == 0)
Bprint(b, "\t'X' 0 __dummy;\n");
Bprint(b, "};\n\n");
name = nameof(t, 1); /* might have smashed it */
Bprint(b, "defn %B(addr) { %B(addr, \"\"); }\n", name, mkname("indent_", name));
Bprint(b, "defn %B(addr, indent) {\n", mkname("indent_", name));
Bprint(b, "\tcomplex %B addr;\n", name);
for(j=0; j<t->n; j++){
name = fixname(t->tname[j]);
tt = defer(t->t[j]);
if(tt == nil){
Bprint(b, "// oops nil %s\n", name);
continue;
}
switch(tt->ty){
case Base:
base:
Bprint(b, "\tprint(indent, \"%s\t\", addr.%B, \"\\n\");\n",
name, name);
break;
case Pointer:
ttt = defer(tt->sub);
if(ttt && ttt->ty == Aggr)
Bprint(b, "\tprint(indent, \"%s\t(%s)\", addr.%B, \"\\n\");\n",
name, nameof(ttt, 1), name);
else
goto base;
break;
case Array:
Bprint(b, "\tprint(indent, \"%s\t\", addr.%B\\X, \"\\n\");\n",
name, name);
break;
case Enum:
Bprint(b, "\tprint(indent, \"%s\t\", addr.%B, \" \", %B(addr.%B), \"\\n\");\n",
name, name, nameof(tt, 1), name);
break;
case Aggr:
Bprint(b, "\tprint(indent, \"%s\t%s{\\n\");\n",
name, nameof(tt, 0));
Bprint(b, "\t%B(addr+%lud, indent+\" \");\n",
mkname("indent_", nameof(tt, 1)), t->val[j]);
Bprint(b, "\tprint(indent, \"}\\n\");\n");
break;
}
}
Bprint(b, "};\n\n");
break;
case Enum:
name = nameof(t, 1);
Bprint(b, "// enum %s\n", name);
for(j=0; j<t->n; j++)
Bprint(b, "%B = %ld;\n", fixname(t->tname[j]), t->val[j]);
Bprint(b, "%B = {\n", mkname("vals_", name));
for(j=0; j<t->n; j++)
Bprint(b, "\t%lud,\n", t->val[j]);
Bprint(b, "};\n");
Bprint(b, "%B = {\n", mkname("names_", name));
for(j=0; j<t->n; j++)
Bprint(b, "\t\"%s\",\n", fixname(t->tname[j]));
Bprint(b, "};\n");
Bprint(b, "defn %B(val) {\n", name);
Bprint(b, "\tlocal i;\n");
Bprint(b, "\ti = match(val, %B);\n", mkname("vals_", name));
Bprint(b, "\tif i >= 0 then return %B[i];\n", mkname("names_", name));
Bprint(b, "\treturn \"???\";\n");
Bprint(b, "};\n");
break;
}
}
void
printtypes(Biobuf *b)
{
int i, n, nn;
Type *t, *tt, **all;
TypeList *tl;
/* check that pointer resolved */
for(tl=alltypes; tl; tl=tl->tl){
t = tl->hd;
if(t->ty==None){
if(t->n1 || t->n2)
warn("type %d,%d referenced but not defined - %p", t->n1, t->n2, t);
else if(t->sue && t->suename)
warn("%s %s referenced but not defined",
t->sue=='s' ? "struct" :
t->sue=='u' ? "union" :
t->sue=='e' ? "enum" : "???", t->suename);
}
}
/* push typedefs down, base types up */
n = 0;
for(tl=alltypes; tl; tl=tl->tl){
n++;
t = tl->hd;
if(t->ty == Typedef || t->ty == Defer)
dotypedef(t);
}
/* push ranges around */
for(tl=alltypes; tl; tl=tl->tl)
dorange(tl->hd);
/*
* only take one type of a given name; acid is going to do this anyway,
* and this will reduce the amount of code we output considerably.
* we could run a DFA equivalence relaxation sort of algorithm
* to find the actual equivalence classes, and then rename types
* appropriately, but this will do for now.
*/
all = emalloc(n*sizeof(all[0]));
n = 0;
for(tl=alltypes; tl; tl=tl->tl)
all[n++] = tl->hd;
careaboutaggrcount = 1;
qsort(all, n, sizeof(all[0]), qtypecmp);
careaboutaggrcount = 0;
nn = 0;
for(i=0; i<n; i++){
if(i==0 || typecmp(all[i-1], all[i]) != 0)
all[nn++] = all[i];
else
all[i]->equiv = all[nn-1];
}
for(tl=alltypes; tl; tl=tl->tl){
t = tl->hd;
tt = defer(t);
if(tt && tt->equiv)
t->equiv = tt->equiv;
}
for(i=0; i<nn; i++)
printtype(b, all[i]);
free(all);
}
void
freetypes(void)
{
memset(thash, 0, sizeof(thash));
memset(namehash, 0, sizeof namehash);
}
|
