#ifndef NORCSID
static char rcsid[] = "$Header$";
#endif

#include "assert.h"
#include <stdio.h>
#include "param.h"
#include "tables.h"
#include "types.h"
#include <cg_pattern.h>
#include "data.h"
#include "result.h"
#include "extern.h"

/*
 * (c) copyright 1983 by the Vrije Universiteit, Amsterdam, The Netherlands.
 *
 *          This product is part of the Amsterdam Compiler Kit.
 *
 * Permission to use, sell, duplicate or disclose this software must be
 * obtained in writing. Requests for such permissions may be sent to
 *
 *      Dr. Andrew S. Tanenbaum
 *      Wiskundig Seminarium
 *      Vrije Universiteit
 *      Postbox 7161
 *      1007 MC Amsterdam
 *      The Netherlands
 *
 * Author: Hans van Staveren
 */

string myalloc();
unsigned codegen();

match(tp,tep,optexp) register token_p tp; register set_p tep; {
	register bitno;
	token_p ct;
	result_t result;

	if (tp->t_token == -1) {        /* register frame */
		bitno = tp->t_att[0].ar+1;
		if (tep->set_val[bitno>>4]&(1<<(bitno&017)))
			if (tep->set_val[0]&1 || getrefcount(tp->t_att[0].ar)<=1)
				goto oklabel;
		return(0);
	} else {                /* token frame */
		bitno = tp->t_token+NREGS+1;
		if ((tep->set_val[bitno>>4]&(1<<(bitno&017)))==0)
			return(0);
	}
    oklabel:
	if (optexp==0)
		return(1);
	ct=curtoken;
	curtoken=tp;
	result=compute(&enodes[optexp]);
	curtoken=ct;
	return(result.e_v.e_con);
}

instance(instno,token) token_p token; {
	inst_p inp;
	int i;
	token_p tp;
	struct reginfo *rp;
	int regno;
	result_t result;

	if (instno==0) {
		token->t_token = 0;
		for(i=0;i<TOKENSIZE;i++)
			token->t_att[i].aw=0;
		return;
	}
	inp= &tokeninstances[instno];
	switch(inp->in_which) {
	default:
		assert(FALSE);
	case IN_COPY:
		tp= &fakestack[stackheight-inp->in_info[0]];
		if (inp->in_info[1]==0) {
			*token = *tp;
		} else {
			token->t_token= -1;
#if MAXMEMBERS!=0
			if (tp->t_token == -1) {
				rp = &machregs[tp->t_att[0].ar];
				token->t_att[0].ar=rp->r_members[inp->in_info[1]-1];
			} else {
#endif
				assert(tokens[tp->t_token].t_type[inp->in_info[1]-1] == EV_REG);
				token->t_att[0].ar=tp->t_att[inp->in_info[1]-1].ar;
#if MAXMEMBERS!=0
			}
#endif
		}
		return;
	case IN_RIDENT:
		token->t_token= -1;
		token->t_att[0].ar= inp->in_info[0];
		return;
#ifdef REGVARS
	case IN_REGVAR:
		result=compute(&enodes[inp->in_info[0]]);
		i=isregvar((long)result.e_v.e_con);
		assert(i>0);
		token->t_token= -1;
		token->t_att[0].ar = i;
		return;
#endif
	case IN_ALLOC:
		token->t_token= -1;
		regno=allreg[inp->in_info[0]];
#if MAXMEMBERS!=0
		if (inp->in_info[1])
			regno=machregs[regno].r_members[inp->in_info[1]-1];
#endif
		token->t_att[0].ar = regno;
		return;
	case IN_DESCR:
		token->t_token=inp->in_info[0];
		for (i=0;i<TOKENSIZE;i++)
			if (inp->in_info[i+1]==0) {
				assert(tokens[token->t_token].t_type[i]==0);
				token->t_att[i].aw=0;
			} else {
				result=compute(&enodes[inp->in_info[i+1]]);
				assert(tokens[token->t_token].t_type[i]==result.e_typ);
				if (result.e_typ==EV_INT)
					token->t_att[i].aw=result.e_v.e_con;
				else if (result.e_typ==EV_STR)
					token->t_att[i].as= result.e_v.e_str;
				else
					token->t_att[i].ar=result.e_v.e_reg;
			}
		return;
	}
}

cinstance(instno,token,tp,regno) token_p token,tp; {
	inst_p inp;
	int i;
	struct reginfo *rp;
	result_t result;
	int sh; /* saved stackheight */

	assert(instno!=0);
	inp= &tokeninstances[instno];
	switch(inp->in_which) {
	default:
		assert(FALSE);
	case IN_COPY:
		assert(inp->in_info[0] == 1);
		if (inp->in_info[1]==0) {
			*token = *tp;
		} else {
			token->t_token= -1;
#if MAXMEMBERS!=0
			if (tp->t_token == -1) {
				rp = &machregs[tp->t_att[0].ar];
				token->t_att[0].ar=rp->r_members[inp->in_info[1]-1];
			} else {
#endif
				assert(tokens[tp->t_token].t_type[inp->in_info[1]-1] == EV_REG);
				token->t_att[0].ar=tp->t_att[inp->in_info[1]-1].ar;
#if MAXMEMBERS!=0
			}
#endif
		}
		return;
	case IN_RIDENT:
		token->t_token= -1;
		token->t_att[0].ar= inp->in_info[0];
		return;
	case IN_ALLOC:
		token->t_token= -1;
		assert(inp->in_info[0]==0);
#if MAXMEMBERS!=0
		if (inp->in_info[1])
			regno=machregs[regno].r_members[inp->in_info[1]-1];
#endif
		token->t_att[0].ar = regno;
		return;
	case IN_DESCR:
		sh = stackheight;
		stackheight = tp - fakestack + 1;
		token->t_token=inp->in_info[0];
		for (i=0;i<TOKENSIZE;i++)
			if (inp->in_info[i+1]==0) {
				assert(tokens[token->t_token].t_type[i]==0);
				token->t_att[i].aw=0;
			} else {
				result=compute(&enodes[inp->in_info[i+1]]);
				assert(tokens[token->t_token].t_type[i]==result.e_typ);
				if (result.e_typ==EV_INT)
					token->t_att[i].aw=result.e_v.e_con;
				else if (result.e_typ==EV_STR)
					token->t_att[i].as= result.e_v.e_str;
				else
					token->t_att[i].ar=result.e_v.e_reg;
			}
		stackheight = sh;
		return;
	}
}

eqtoken(tp1,tp2) token_p tp1,tp2; {
	register i;
	register tkdef_p tdp;

	if (tp1->t_token!=tp2->t_token)
		return(0);
	if (tp1->t_token==0)
		return(1);
	if (tp1->t_token==-1) {
		if (tp1->t_att[0].ar!=tp2->t_att[0].ar)
			return(0);
		return(1);
	}
	tdp = &tokens[tp1->t_token];
	for (i=0;i<TOKENSIZE;i++)
		switch(tdp->t_type[i]) {
		default:
			return(1);
		case EV_INT:
			if (tp1->t_att[i].aw != tp2->t_att[i].aw)
				return(0);
			break;
		case EV_REG:
			if (tp1->t_att[i].ar != tp2->t_att[i].ar)
				return(0);
			break;
		case EV_STR:
			if (strcmp(tp1->t_att[i].as, tp2->t_att[i].as))
				return(0);
			break;
		}
	return(1);
}

distance(cindex) {
	register char *bp;
	register i;
	register token_p tp;
	int tokexp,tpl;
	int expsize,toksize,exact;
	int xsekt=0;

	bp = &coderules[cindex];
	switch( (*bp)&037 ) {
	default:
		return(stackheight==0 ? 0 : 100);
	case DO_MATCH:
		break;
	case DO_XXMATCH:
		xsekt++;
	case DO_XMATCH:
		xsekt++;
		break;
	}
	tpl= ((*bp++)>>5)&07;
	if (stackheight < tpl) {
		if (xsekt)
			return(MAXINT);
		tpl = stackheight;
	} else
		if (stackheight != tpl && xsekt==2)
			return(MAXINT);
	exact=0;
	tp= &fakestack[stackheight-1];
	for (i=0;i<tpl;i++,tp--) {
		getint(tokexp,bp);
		if (!match(tp, &machsets[tokexp], 0)) {
			if (xsekt)
				return(MAXINT);
			expsize = ssize(tokexp);
			toksize = tsize(tp);
			if (expsize>toksize)
				return(100);
			if (expsize<toksize)
				return(99-i);
		} else
			exact++;
	}
	if (exact==tpl) {
		if (xsekt)
			return(0);
		return(10-exact);
	}
	return(20-exact);
}

unsigned costcalc(cost) cost_t cost; {
	result_t result1,result2;
	extern unsigned cc1,cc2,cc3,cc4;

	result1=compute(&enodes[cost.c_size]);
	result2=compute(&enodes[cost.c_time]);
	assert(result1.e_typ == EV_INT && result2.e_typ == EV_INT);
	return(result1.e_v.e_con*cc1/cc2 + result2.e_v.e_con*cc3/cc4);
}

ssize(tokexpno) {

	return(machsets[tokexpno].set_size);
}

tsize(tp) register token_p tp; {

	if (tp->t_token==-1)
		return(machregs[tp->t_att[0].ar].r_size);
	return(tokens[tp->t_token].t_size);
}

#ifdef MAXSPLIT
instsize(tinstno,tp) token_p tp; {
	inst_p inp;
	struct reginfo *rp;

	inp = &tokeninstances[tinstno];
	switch(inp->in_which) {
	default:
		assert(FALSE);
	case IN_COPY:
		assert(inp->in_info[0]==1);
#if MAXMEMBERS!=0
		if (inp->in_info[1]==0)
#endif
			return(tsize(tp));
#if MAXMEMBERS!=0
		else {
			assert(tp->t_token == -1);
			rp = &machregs[tp->t_att[0].ar];
			return(machregs[rp->r_members[inp->in_info[1]-1]].r_size);
		}
#endif
	case IN_RIDENT:
		return(machregs[inp->in_info[0]].r_size);
	case IN_ALLOC:
		assert(FALSE);  /* cannot occur in splitting coercion */
	case IN_DESCR:
		return(tokens[inp->in_info[0]].t_size);
	}
}
#endif MAXSPLIT

tref(tp,amount) register token_p tp; {
	register i;
	register tkdef_p tdp;

	if (tp->t_token==-1)
		chrefcount(tp->t_att[0].ar,amount,FALSE);
	else {
		tdp= &tokens[tp->t_token];
		for(i=0;i<TOKENSIZE;i++)
			if (tdp->t_type[i]==EV_REG)
				chrefcount(tp->t_att[i].ar,amount,FALSE);
	}
}

#define MAXSAVE 10

#ifdef MAXSPLIT
split(tp,ip,ply,toplevel) token_p tp; int *ip; {
	c2_p cp;
	token_t savestack[MAXSAVE];
	int ok;
	register i;
	int diff;
	token_p stp;
	int tpl;

	for (cp=c2coercs;cp< &c2coercs[NC2]; cp++) {
		if (!match(tp,&machsets[cp->c2_texpno],0))
			continue;
		ok=1;
		for (i=0; ok && i<cp->c2_nsplit;i++) {
			if (ip[i]==0)
				goto found;
			if (instsize(cp->c2_repl[i],tp) != ssize(ip[i]))
				ok=0;
		}
		goto found;
	}
	return(0);
found:
	assert(stackheight+cp->c2_nsplit-1<MAXFSTACK);
	stp = &fakestack[stackheight-1];
	diff = stp - tp;
	assert(diff<=MAXSAVE);
	for (i=1;i<=diff;i++)
		savestack[i-1] = tp[i];         /* save top of stack */
	stackheight -= diff;
	tpl = tokpatlen;
	tokpatlen = 1;
	codegen(&coderules[cp->c2_codep],ply,toplevel,MAXINT,0);
	tokpatlen = tpl;
	for (i=0;i<diff;i++)            /* restore top of stack */
		fakestack[stackheight++] = savestack[i];
	return(cp->c2_nsplit);
}
#endif MAXSPLIT

unsigned docoerc(tp,cp,ply,toplevel,forced) token_p tp; c3_p cp; {
	token_t savestack[MAXSAVE];
	token_p stp;
	int i,diff;
	unsigned cost;
	int tpl;        /* saved tokpatlen */

	stp = &fakestack[stackheight-1];
	diff = stp -tp;
	assert(diff<=MAXSAVE);
	for (i=1;i<=diff;i++)
		savestack[i-1] = tp[i];
	stackheight -= diff;
	tpl = tokpatlen;
	tokpatlen = 1;
	cost = codegen(&coderules[cp->c3_codep],ply,toplevel,MAXINT,forced);
	tokpatlen = tpl;
	for (i=0;i<diff;i++)
		fakestack[stackheight++] = savestack[i];
	nallreg = 0;
	return(cost);
}

unsigned stackupto(limit,ply,toplevel) token_p limit; {
	token_t savestack[MAXFSTACK];
	token_p stp;
	int i,diff;
	int tpl;        /* saved tokpatlen */
	int nareg;	/* saved nareg */
	int areg[MAXALLREG];
	c1_p cp;
	register token_p tp;
	unsigned totalcost=0;
	struct reginfo *rp,**rpp;

	for (tp=fakestack;tp<=limit;limit--) {
		for (cp=c1coercs;cp< &c1coercs[NC1]; cp++) {
			if (match(tp,&machsets[cp->c1_texpno],cp->c1_expr)) {
				if (cp->c1_prop>=0) {
					for (rpp=reglist[cp->c1_prop];
					       (rp = *rpp)!=0 &&
					       getrefcount(rp-machregs)!=0;
						  rpp++)
						;
					if (rp==0)
						continue;
						/* look for other possibility */
				}
				stp = &fakestack[stackheight-1];
				diff = stp -tp;
				assert(diff<=MAXFSTACK);
				for (i=1;i<=diff;i++)
					savestack[i-1] = tp[i];
				stackheight -= diff;
				tpl = tokpatlen;
				tokpatlen = 1;
				nareg = nallreg;
				for (i=0;i<nareg;i++)
					areg[i] = allreg[i];
				if (cp->c1_prop>=0) {
					nallreg=1; allreg[0] = rp-machregs;
					chrefcount(allreg[0],1,FALSE);
				} else 
					nallreg=0;
				totalcost+= codegen(&coderules[cp->c1_codep],ply,toplevel,MAXINT,0);
				totalcost+= costcalc(cp->c1_cost);
				tokpatlen = tpl;
				for (i=0;i<diff;i++)
					fakestack[stackheight++] = savestack[i];
				nallreg=nareg;
				for (i=0;i<nareg;i++)
					allreg[i] = areg[i];
				goto contin;
			}
		}
		assert(FALSE);
	contin: ;
	}
	return(totalcost);
}

c3_p findcoerc(tp,tep) token_p tp; set_p tep; {
	register c3_p cp;
	token_t rtoken;
	register i;
	register struct reginfo **rpp;

	for (cp=c3coercs;cp< &c3coercs[NC3]; cp++) {
		if (tp!=(token_p) 0) {
			if (!match(tp,&machsets[cp->c3_texpno],0))
				continue;
		} else {
			if (cp->c3_texpno!=0)
				continue;
		}
		if (cp->c3_prop==0) {   /* no reg needed */
			cinstance(cp->c3_repl,&rtoken,tp,0);
			if (match(&rtoken,tep,0))
				return(cp);
		} else {
			curreglist = (rl_p) myalloc(sizeof (rl_t));
			curreglist->rl_n = 0;
			for (rpp=reglist[cp->c3_prop];*rpp;rpp++) {
				i = *rpp - machregs;
				cinstance(cp->c3_repl,&rtoken,tp,i);
				if (match(&rtoken,tep,0))
					curreglist->rl_list[curreglist->rl_n++] = i;
			}
			if (curreglist->rl_n != 0)
				return(cp);
			myfree(curreglist);
		}
	}
	return(0);      /* nothing found */
}


error(s,a1,a2,a3,a4) char *s; {

	fatal(s,a1,a2,a3,a4);
}

fatal(s,a1,a2,a3,a4) char *s; {

	fprintf(stderr,"Error: ");
	fprintf(stderr,s,a1,a2,a3,a4);
	fprintf(stderr,"\n");
	out_finish();
	abort();
	exit(-1);
}

#ifndef NDEBUG
badassertion(asstr,file,line) char *asstr, *file; {

	fatal("Assertion \"%s\" failed %s(%d)",asstr,file,line);
}
#endif

max(a,b) {

	return(a>b ? a : b);
}