Plan 9 from Bell Labs’s /usr/web/sources/patch/saved/acid.trap-exceptions/expr.c

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.


#include <u.h>
#include <libc.h>
#include <bio.h>
#include <ctype.h>
#include <mach.h>
#define Extern extern
#include "acid.h"

static int fsize[] =
{
	['A'] 4,
	['B'] 4,
	['C'] 1,
	['D'] 4,
	['F'] 8,
	['G'] 8,
	['O'] 4,
	['Q'] 4,
	['R'] 4,
	['S'] 4,
	['U'] 4,
	['V'] 8,
	['W'] 8,
	['X'] 4,
	['Y'] 8,
	['Z'] 8,
	['a'] 4,
	['b'] 1,
	['c'] 1,
	['d'] 2,
	['f'] 4,
	['g'] 4,
	['o'] 2,
	['q'] 2,
	['r'] 2,
	['s'] 4,
	['u'] 2,
	['x'] 2,
	['3'] 10,
	['8'] 10,
};

int
fmtsize(Value *v)
{
	int ret;

	switch(v->fmt) {
	default:
		return  fsize[v->fmt];
	case 'i':
	case 'I':
		if(v->type != TINT || machdata == 0)
			error("no size for i fmt pointer ++/--");
		ret = (*machdata->instsize)(cormap, v->ival);
		if(ret < 0) {
			ret = (*machdata->instsize)(symmap, v->ival);
			if(ret < 0)
				error("%r");
		}
		return ret;
	}
}

void
chklval(Node *lp)
{
	if(lp->op != ONAME)
		error("need l-value");
}

void
olist(Node *n, Node *res)
{
	expr(n->left, res);
	expr(n->right, res);
}

void
oeval(Node *n, Node *res)
{
	expr(n->left, res);
	if(res->type != TCODE)
		error("bad type for eval");
	expr(res->cc, res);
}

void
ocast(Node *n, Node *res)
{
	if(n->sym->lt == 0)
		error("%s is not a complex type", n->sym->name);

	expr(n->left, res);
	res->comt = n->sym->lt;
	res->fmt = 'a';
}

void
oindm(Node *n, Node *res)
{
	Map *m;
	Node l;

	m = cormap;
	if(m == 0)
		m = symmap;
	expr(n->left, &l);
	if(l.type != TINT)
		error("bad type for *");
	if(m == 0)
		error("no map for *");
	indir(m, l.ival, l.fmt, res);
	res->comt = l.comt;
}

void
oindc(Node *n, Node *res)
{
	Map *m;
	Node l;

	m = symmap;
	if(m == 0)
		m = cormap;
	expr(n->left, &l);
	if(l.type != TINT)
		error("bad type for @");
	if(m == 0)
		error("no map for @");
	indir(m, l.ival, l.fmt, res);
	res->comt = l.comt;
}

void
oframe(Node *n, Node *res)
{
	char *p;
	Node *lp;
	uvlong ival;
	Frtype *f;

	p = n->sym->name;
	while(*p && *p == '$')
		p++;
	lp = n->left;
	if(localaddr(cormap, p, lp->sym->name, &ival, rget) < 0)
		error("colon: %r");

	res->ival = ival;
	res->op = OCONST;
	res->fmt = 'X';
	res->type = TINT;

	/* Try and set comt */
	for(f = n->sym->local; f; f = f->next) {
		if(f->var == lp->sym) {
			res->comt = f->type;
			res->fmt = 'a';
			break;
		}
	}
}

void
oindex(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);

	if(r.type != TINT)
		error("bad type for []");

	switch(l.type) {
	default:
		error("lhs[] has bad type");
	case TINT:
		indir(cormap, l.ival+(r.ival*fsize[l.fmt]), l.fmt, res);
		res->comt = l.comt;
		res->fmt = l.fmt;
		break;
	case TLIST:
		nthelem(l.l, r.ival, res);
		break;
	case TSTRING:
		res->ival = 0;
		if(r.ival >= 0 && r.ival < l.string->len) {
			int xx8;	/* to get around bug in vc */
			xx8 = r.ival;
			res->ival = l.string->string[xx8];
		}
		res->op = OCONST;
		res->type = TINT;
		res->fmt = 'c';
		break;
	}
}

void
oappend(Node *n, Node *res)
{
	Node r, l;
	int  empty ;

	expr(n->left, &l);
	expr(n->right, &r);
	if(l.type != TLIST)
		error("must append to list");
	empty = ( l.l == nil && ( n->left->op == ONAME ) ) ;
	append(res, &l, &r);
	if ( empty ) {
		Value * v = n->left->sym->v ;
		v->type = res->type ;
		v->Store = res->Store ;
		v->comt = res->comt ;
	}
}

void
odelete(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	if(l.type != TLIST)
		error("must delete from list");
	if(r.type != TINT)
		error("delete index must be integer");

	delete(l.l, r.ival, res);
}

void
ohead(Node *n, Node *res)
{
	Node l;

	expr(n->left, &l);
	if(l.type != TLIST)
		error("head needs list");
	res->op = OCONST;
	if(l.l) {
		res->type = l.l->type;
		res->Store = l.l->Store;
	}
	else {
		res->type = TLIST;
		res->l = 0;
	}
}

void
otail(Node *n, Node *res)
{
	Node l;

	expr(n->left, &l);
	if(l.type != TLIST)
		error("tail needs list");
	res->op = OCONST;
	res->type = TLIST;
	if(l.l)
		res->l = l.l->next;
	else
		res->l = 0;
}

void
oconst(Node *n, Node *res)
{
	res->op = OCONST;
	res->type = n->type;
	res->Store = n->Store;
	res->comt = n->comt;
}

void
oname(Node *n, Node *res)
{
	Value *v;

	v = n->sym->v;
	if(v->set == 0)
		error("%s used but not set", n->sym->name);
	res->op = OCONST;
	res->type = v->type;
	res->Store = v->Store;
	res->comt = v->comt;
}

void
octruct(Node *n, Node *res)
{
	res->op = OCONST;
	res->type = TLIST;
	res->l = construct(n->left);
}

void
oasgn(Node *n, Node *res)
{
	Node *lp, r;
	Value *v;

	lp = n->left;
	switch(lp->op) {
	case OINDM:
		windir(cormap, lp->left, n->right, res);
		break;
	case OINDC:
		windir(symmap, lp->left, n->right, res);
		break;
	default:
		chklval(lp);
		v = lp->sym->v;
		expr(n->right, &r);
		v->set = 1;
		v->type = r.type;
		v->Store = r.Store;
		res->op = OCONST;
		res->type = v->type;
		res->Store = v->Store;
		res->comt = v->comt;
	}
}

void
oadd(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	if ( n->right != ZN ) {
	  expr(n->right, &r) ;
	} else {
		switch ( l.type ) {
		default:
			expr(con(0),&r) ;
			break;
		case TSTRING:
		case TLIST:
			break;
		}
	}
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TFLOAT;
	switch(l.type) {
	default:
		error("bad lhs type +");
	case TINT:
		switch(r.type) {
		case TINT:
			res->type = TINT;
			res->ival = l.ival+r.ival;
			break;
		case TFLOAT:
			res->fval = l.ival+r.fval;
			break;
		default:
			error("bad rhs type +");
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->fval = l.fval+r.ival;
			break;
		case TFLOAT:
			res->fval = l.fval+r.fval;
			break;
		default:
			error("bad rhs type +");
		}
		break;
	case TSTRING:
		if ( n->right == ZN ) {
			*res = l ;
			break ;
		}
		if(r.type == TSTRING) {
			res->type = TSTRING;
			res->fmt = 's';
			res->string = stradd(l.string, r.string); 
			break;
		}
		if(r.type == TINT) {
			res->type = TSTRING;
			res->fmt = 's';
			res->string = straddrune(l.string, r.ival);
			break;
		}
		error("bad rhs for +");
	case TLIST:
		if ( n->right == ZN ) {
			*res = l ;
			break ;
		}
		res->type = TLIST;
		switch(r.type) {
		case TLIST:
			res->l = addlist(l.l, r.l);
			break;
		default:
			r.left = 0;
			r.right = 0;
			res->l = addlist(l.l, construct(&r));
			break;
		}
	}
}

void
osub(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TFLOAT;
	switch(l.type) {
	default:
		error("bad lhs type -");
	case TINT:
		switch(r.type) {
		case TINT:
			res->type = TINT;
			res->ival = l.ival-r.ival;
			break;
		case TFLOAT:
			res->fval = l.ival-r.fval;
			break;
		default:
			error("bad rhs type -");
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->fval = l.fval-r.ival;
			break;
		case TFLOAT:
			res->fval = l.fval-r.fval;
			break;
		default:
			error("bad rhs type -");
		}
		break;
	}
}

void
omul(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TFLOAT;
	switch(l.type) {
	default:
		error("bad lhs type *");
	case TINT:
		switch(r.type) {
		case TINT:
			res->type = TINT;
			res->ival = l.ival*r.ival;
			break;
		case TFLOAT:
			res->fval = l.ival*r.fval;
			break;
		default:
			error("bad rhs type *");
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->fval = l.fval*r.ival;
			break;
		case TFLOAT:
			res->fval = l.fval*r.fval;
			break;
		default:
			error("bad rhs type *");
		}
		break;
	}
}

void
odiv(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TFLOAT;
	switch(l.type) {
	default:
		error("bad lhs type /");
	case TINT:
		switch(r.type) {
		case TINT:
			res->type = TINT;
			if(r.ival == 0)
				error("zero divide");
			res->ival = l.ival/r.ival;
			break;
		case TFLOAT:
			if(r.fval == 0)
				error("zero divide");
			res->fval = l.ival/r.fval;
			break;
		default:
			error("bad rhs type /");
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->fval = l.fval/r.ival;
			break;
		case TFLOAT:
			res->fval = l.fval/r.fval;
			break;
		default:
			error("bad rhs type /");
		}
		break;
	}
}

void
omod(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TINT;
	if(l.type != TINT || r.type != TINT)
		error("bad expr type %");
	res->ival = l.ival%r.ival;
}

void
olsh(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TINT;
	if(l.type != TINT || r.type != TINT)
		error("bad expr type <<");
	res->ival = l.ival<<r.ival;
}

void
orsh(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TINT;
	if(l.type != TINT || r.type != TINT)
		error("bad expr type >>");
	res->ival = (uvlong)l.ival>>r.ival;
}

void
olt(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);

	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TINT;
	switch(l.type) {
	default:
		error("bad lhs type <");
	case TINT:
		switch(r.type) {
		case TINT:
			res->ival = l.ival < r.ival;
			break;
		case TFLOAT:
			res->ival = l.ival < r.fval;
			break;
		default:
			error("bad rhs type <");
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->ival = l.fval < r.ival;
			break;
		case TFLOAT:
			res->ival = l.fval < r.fval;
			break;
		default:
			error("bad rhs type <");
		}
		break;
	}
}

void
ogt(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = 'D';
	res->op = OCONST;
	res->type = TINT;
	switch(l.type) {
	default:
		error("bad lhs type >");
	case TINT:
		switch(r.type) {
		case TINT:
			res->ival = l.ival > r.ival;
			break;
		case TFLOAT:
			res->ival = l.ival > r.fval;
			break;
		default:
			error("bad rhs type >");
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->ival = l.fval > r.ival;
			break;
		case TFLOAT:
			res->ival = l.fval > r.fval;
			break;
		default:
			error("bad rhs type >");
		}
		break;
	}
}

void
oleq(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = 'D';
	res->op = OCONST;
	res->type = TINT;
	switch(l.type) {
	default:
		error("bad expr type <=");
	case TINT:
		switch(r.type) {
		case TINT:
			res->ival = l.ival <= r.ival;
			break;
		case TFLOAT:
			res->ival = l.ival <= r.fval;
			break;
		default:
			error("bad expr type <=");
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->ival = l.fval <= r.ival;
			break;
		case TFLOAT:
			res->ival = l.fval <= r.fval;
			break;
		default:
			error("bad expr type <=");
		}
		break;
	}
}

void
ogeq(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = 'D';
	res->op = OCONST;
	res->type = TINT;
	switch(l.type) {
	default:
		error("bad lhs type >=");
	case TINT:
		switch(r.type) {
		case TINT:
			res->ival = l.ival >= r.ival;
			break;
		case TFLOAT:
			res->ival = l.ival >= r.fval;
			break;
		default:
			error("bad rhs type >=");
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->ival = l.fval >= r.ival;
			break;
		case TFLOAT:
			res->ival = l.fval >= r.fval;
			break;
		default:
			error("bad rhs type >=");
		}
		break;
	}
}

void
oeq(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = 'D';
	res->op = OCONST;
	res->type = TINT;
	res->ival = 0;
	switch(l.type) {
	default:
		break;
	case TINT:
		switch(r.type) {
		case TINT:
			res->ival = l.ival == r.ival;
			break;
		case TFLOAT:
			res->ival = l.ival == r.fval;
			break;
		default:
			break;
		}
		break;
	case TFLOAT:
		switch(r.type) {
		case TINT:
			res->ival = l.fval == r.ival;
			break;
		case TFLOAT:
			res->ival = l.fval == r.fval;
			break;
		default:
			break;
		}
		break;
	case TSTRING:
		if(r.type == TSTRING) {
			res->ival = scmp(r.string, l.string);
			break;
		}
		break;
	case TLIST:
		if(r.type == TLIST) {
			res->ival = listcmp(l.l, r.l);
			break;
		}
		break;
	}
	if(n->op == ONEQ)
		res->ival = !res->ival;
}


void
oland(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TINT;
	if(l.type != TINT || r.type != TINT)
		error("bad expr type &");
	res->ival = l.ival&r.ival;
}

void
oxor(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TINT;
	if(l.type != TINT || r.type != TINT)
		error("bad expr type ^");
	res->ival = l.ival^r.ival;
}

void
olor(Node *n, Node *res)
{
	Node l, r;

	expr(n->left, &l);
	expr(n->right, &r);
	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TINT;
	if(l.type != TINT || r.type != TINT)
		error("bad expr type |");
	res->ival = l.ival|r.ival;
}

void
ocand(Node *n, Node *res)
{
	Node l, r;

	res->fmt = l.fmt;
	res->op = OCONST;
	res->type = TINT;
	res->ival = 0;
	expr(n->left, &l);
	if(bool(&l) == 0)
		return;
	expr(n->right, &r);
	if(bool(&r) == 0)
		return;
	res->ival = 1;
}

void
onot(Node *n, Node *res)
{
	Node l;

	res->op = OCONST;
	res->type = TINT;
	res->ival = 0;
	expr(n->left, &l);
	if(bool(&l) == 0)
		res->ival = 1;
}

void
ocor(Node *n, Node *res)
{
	Node l, r;

	res->op = OCONST;
	res->type = TINT;
	res->ival = 0;
	expr(n->left, &l);
	if(bool(&l)) {
		res->ival = 1;
		return;
	}
	expr(n->right, &r);
	if(bool(&r)) {
		res->ival = 1;
		return;
	}
}

void
oeinc(Node *n, Node *res)
{
	Value *v;

	chklval(n->left);
	v = n->left->sym->v;
	res->op = OCONST;
	res->type = v->type;
	switch(v->type) {
	case TINT:
		if(n->op == OEDEC)
			v->ival -= fmtsize(v);
		else
			v->ival += fmtsize(v);
		break;			
	case TFLOAT:
		if(n->op == OEDEC)
			v->fval--;
		else
			v->fval++;
		break;
	default:
		error("bad type for pre --/++");
	}
	res->Store = v->Store;
}

void
opinc(Node *n, Node *res)
{
	Value *v;

	chklval(n->left);
	v = n->left->sym->v;
	res->op = OCONST;
	res->type = v->type;
	res->Store = v->Store;
	switch(v->type) {
	case TINT:
		if(n->op == OPDEC)
			v->ival -= fmtsize(v);
		else
			v->ival += fmtsize(v);
		break;			
	case TFLOAT:
		if(n->op == OPDEC)
			v->fval--;
		else
			v->fval++;
		break;
	default:
		error("bad type for post --/++");
	}
}

void
ocall(Node *n, Node *res)
{
	Lsym *s;
	Rplace *rsav;

	res->op = OCONST;		/* Default return value */
	res->type = TLIST;
	res->l = 0;

	chklval(n->left);
	s = n->left->sym;

	if(n->builtin && !s->builtin){
		error("no builtin %s", s->name);
		return;
	}
	if(s->builtin && (n->builtin || s->proc == 0)) {
		(*s->builtin)(res, n->right);
		return;
	}
	if(s->proc == 0)
		error("no function %s", s->name);

	rsav = ret;
	call(s->name, n->right, s->proc->left, s->proc->right, res);
	ret = rsav;
}

void
ofmt(Node *n, Node *res)
{
	expr(n->left, res);
	res->fmt = n->right->ival;
}

void
owhat(Node *n, Node *res)
{
	res->op = OCONST;		/* Default return value */
	res->type = TLIST;
	res->l = 0;
	whatis(n->sym);
}

void* tryio = nil;
char* tryres = nil;
int tryiop = 0;

void
otry(Node *n, Node *res)
{
	int _interactive, _silent;
	jmp_buf	_err;
	void* _tryio;
	int _tryiop;
	Lsym* _hash[Hashsize] ;

	memcpy(_err,err,sizeof(jmp_buf));
	_interactive = interactive;
	interactive = 0;
	_silent = silent;
	silent = 1;
	_tryio = tryio;
	tryio = getio();
	_tryiop = tryiop;
	tryiop = iop;

	/* save symbol table state */
	memcpy(_hash,hash,sizeof(_hash)) ;

	if ( setjmp(err) ) {
		unwindtry(_hash) ;
		res->string = strnode(tryres) ;
		tryres = nil;
	} else {
		execute(n->left);
		res->string = strnode("ok") ;
	}

	iop = tryiop;
	tryiop = _tryiop;
	tryio = _tryio;
	silent = _silent;
	interactive = _interactive;
	memcpy(err,_err,sizeof(jmp_buf));

	res->fmt = 's';
	res->op = OCONST;
	res->type = TSTRING;
}

void (*expop[])(Node*, Node*) =
{
	[ONAME]		oname,
	[OCONST]	oconst,
	[OMUL]		omul,
	[ODIV]		odiv,
	[OMOD]		omod,
	[OADD]		oadd,
	[OSUB]		osub,
	[ORSH]		orsh,
	[OLSH]		olsh,
	[OLT]		olt,
	[OGT]		ogt,
	[OLEQ]		oleq,
	[OGEQ]		ogeq,
	[OEQ]		oeq,
	[ONEQ]		oeq,
	[OLAND]		oland,
	[OXOR]		oxor,
	[OLOR]		olor,
	[OCAND]		ocand,
	[OCOR]		ocor,
	[OASGN]		oasgn,
	[OINDM]		oindm,
	[OEDEC]		oeinc,
	[OEINC]		oeinc,
	[OPINC]		opinc,
	[OPDEC]		opinc,
	[ONOT]		onot,
	[OIF]		0,
	[ODO]		0,
	[OLIST]		olist,
	[OCALL]		ocall,
	[OCTRUCT]	octruct,
	[OWHILE]	0,
	[OELSE]		0,
	[OHEAD]		ohead,
	[OTAIL]		otail,
	[OAPPEND]	oappend,
	[ORET]		0,
	[OINDEX]	oindex,
	[OINDC]		oindc,
	[ODOT]		odot,
	[OLOCAL]	0,
	[OFRAME]	oframe,
	[OCOMPLEX]	0,
	[ODELETE]	odelete,
	[OCAST]		ocast,
	[OFMT]		ofmt,
	[OEVAL]		oeval,
	[OWHAT]		owhat,
	[OTRY]		otry,
};

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