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[/] [eco32/] [trunk/] [lcc/] [src/] [tree.c] - Blame information for rev 89

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Line No. Rev Author Line
1 4 hellwig
#include "c.h"
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static char rcsid[] = "$Id: tree.c,v 1.1 2002/08/28 23:12:47 drh Exp $";
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int where = STMT;
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static int warn;
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static int nid = 1;             /* identifies trees & nodes in debugging output */
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static struct nodeid {
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        int printed;
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        Tree node;
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} ids[500];                     /* if ids[i].node == p, then p's id is i */
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static void printtree1(Tree, int, int);
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Tree tree(int op, Type type, Tree left, Tree right) {
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        Tree p;
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        NEW0(p, where);
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        p->op = op;
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        p->type = type;
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        p->kids[0] = left;
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        p->kids[1] = right;
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        return p;
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}
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Tree texpr(Tree (*f)(int), int tok, int a) {
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        int save = where;
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        Tree p;
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        where = a;
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        p = (*f)(tok);
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        where = save;
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        return p;
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}
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static Tree root1(Tree p) {
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        if (p == NULL)
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                return p;
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        if (p->type == voidtype)
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                warn++;
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        switch (generic(p->op)) {
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        case COND: {
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                Tree q = p->kids[1];
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                assert(q && q->op == RIGHT);
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                if (p->u.sym && q->kids[0] && generic(q->kids[0]->op) == ASGN)
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                        q->kids[0] = root1(q->kids[0]->kids[1]);
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                else
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                        q->kids[0] = root1(q->kids[0]);
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                if (p->u.sym && q->kids[1] && generic(q->kids[1]->op) == ASGN)
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                        q->kids[1] = root1(q->kids[1]->kids[1]);
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                else
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                        q->kids[1] = root1(q->kids[1]);
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                p->u.sym = 0;
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                if (q->kids[0] == 0 && q->kids[1] == 0)
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                        p = root1(p->kids[0]);
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                }
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                break;
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        case AND: case OR:
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                if ((p->kids[1] = root1(p->kids[1])) == 0)
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                        p = root1(p->kids[0]);
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                break;
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        case NOT:
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                if (warn++ == 0)
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                        warning("expression with no effect elided\n");
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                return root1(p->kids[0]);
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        case RIGHT:
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                if (p->kids[1] == 0)
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                        return root1(p->kids[0]);
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                if (p->kids[0] && p->kids[0]->op == CALL+B
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                &&  p->kids[1] && p->kids[1]->op == INDIR+B)
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                        /* avoid premature release of the CALL+B temporary */
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                        return p->kids[0];
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                if (p->kids[0] && p->kids[0]->op == RIGHT
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                &&  p->kids[1] == p->kids[0]->kids[0])
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                        /* de-construct e++ construction */
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                        return p->kids[0]->kids[1];
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                p = tree(RIGHT, p->type, root1(p->kids[0]), root1(p->kids[1]));
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                return p->kids[0] || p->kids[1] ? p : (Tree)0;
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        case EQ:  case NE:  case GT:   case GE:  case LE:  case LT:
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        case ADD: case SUB: case MUL:  case DIV: case MOD:
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        case LSH: case RSH: case BAND: case BOR: case BXOR:
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                if (warn++ == 0)
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                        warning("expression with no effect elided\n");
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                p = tree(RIGHT, p->type, root1(p->kids[0]), root1(p->kids[1]));
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                return p->kids[0] || p->kids[1] ? p : (Tree)0;
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        case INDIR:
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                if (p->type->size == 0 && unqual(p->type) != voidtype)
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                        warning("reference to `%t' elided\n", p->type);
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                if (isptr(p->kids[0]->type) && isvolatile(p->kids[0]->type->type))
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                        warning("reference to `volatile %t' elided\n", p->type);
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                /* fall thru */
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        case NEG: case BCOM: case FIELD:
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                if (warn++ == 0)
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                        warning("expression with no effect elided\n");
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                return root1(p->kids[0]);
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        case ADDRL: case ADDRG: case ADDRF: case CNST:
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                if (needconst)
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                        return p;
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                if (warn++ == 0)
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                        warning("expression with no effect elided\n");
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                return NULL;
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        case CVF:
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                if (optype(p->op) == I
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                || p->type->size < p->kids[0]->type->size)
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                        if (warn++ == 0)
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                                warning("expression with no effect elided\n");
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                return root1(p->kids[0]);
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        case CVI:
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                if ((optype(p->op) == U || optype(p->op) == I)
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                && p->type->size < p->kids[0]->type->size
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                && specific(p->kids[0]->op) != CALL+I)
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                        if (warn++ == 0)
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                                warning("expression with no effect elided\n");
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                return root1(p->kids[0]);
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        case CVU: case CVP:
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                if (optype(p->op) == U && p->type->size <  p->kids[0]->type->size
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                ||  optype(p->op) == I && p->type->size <= p->kids[0]->type->size)
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                        if (warn++ == 0)
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                                warning("expression with no effect elided\n");
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                return root1(p->kids[0]);
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        case ARG: case ASGN: case CALL: case JUMP: case LABEL:
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                break;
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        default: assert(0);
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        }
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        return p;
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}
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Tree root(Tree p) {
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        warn = 0;
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        return root1(p);
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}
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char *opname(int op) {
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        static char *opnames[] = {
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        "",
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        "CNST",
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        "ARG",
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        "ASGN",
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        "INDIR",
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        "CVC",
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        "CVD",
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        "CVF",
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        "CVI",
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        "CVP",
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        "CVS",
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        "CVU",
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        "NEG",
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        "CALL",
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        "*LOAD*",
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        "RET",
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        "ADDRG",
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        "ADDRF",
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        "ADDRL",
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        "ADD",
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        "SUB",
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        "LSH",
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        "MOD",
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        "RSH",
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        "BAND",
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        "BCOM",
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        "BOR",
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        "BXOR",
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        "DIV",
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        "MUL",
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        "EQ",
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        "GE",
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        "GT",
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        "LE",
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        "LT",
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        "NE",
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        "JUMP",
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        "LABEL",
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        "AND",
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        "NOT",
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        "OR",
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        "COND",
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        "RIGHT",
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        "FIELD"
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        }, *suffixes[] = {
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                "0", "F", "D", "C", "S", "I", "U", "P", "V", "B",
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                "10","11","12","13","14","15"
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        };
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        if (generic(op) >= AND && generic(op) <= FIELD && opsize(op) == 0)
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                return opnames[opindex(op)];
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        return stringf("%s%s%s",
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                opindex(op) > 0 && opindex(op) < NELEMS(opnames) ?
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                        opnames[opindex(op)] : stringd(opindex(op)),
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                suffixes[optype(op)], opsize(op) > 0 ? stringd(opsize(op)) : "");
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}
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int nodeid(Tree p) {
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        int i = 1;
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        ids[nid].node = p;
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        while (ids[i].node != p)
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                i++;
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        if (i == nid)
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                ids[nid++].printed = 0;
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        return i;
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}
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/* printed - return pointer to ids[id].printed */
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int *printed(int id) {
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        if (id)
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                return &ids[id].printed;
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        nid = 1;
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        return 0;
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}
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/* printtree - print tree p on fd */
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void printtree(Tree p, int fd) {
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        (void)printed(0);
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        printtree1(p, fd, 1);
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}
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/* printtree1 - recursively print tree p */
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static void printtree1(Tree p, int fd, int lev) {
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        FILE *f = fd == 1 ? stdout : stderr;
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        int i;
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        static char blanks[] = "                                                   ";
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        if (p == 0 || *printed(i = nodeid(p)))
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                return;
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        fprint(f, "#%d%S%S", i, blanks, i < 10 ? 2 : i < 100 ? 1 : 0, blanks, lev);
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        fprint(f, "%s %t", opname(p->op), p->type);
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        *printed(i) = 1;
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        for (i = 0; i < NELEMS(p->kids); i++)
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                if (p->kids[i])
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                        fprint(f, " #%d", nodeid(p->kids[i]));
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        if (p->op == FIELD && p->u.field)
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                fprint(f, " %s %d..%d", p->u.field->name,
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                        fieldsize(p->u.field) + fieldright(p->u.field), fieldright(p->u.field));
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        else if (generic(p->op) == CNST)
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                fprint(f, " %s", vtoa(p->type, p->u.v));
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        else if (p->u.sym)
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                fprint(f, " %s", p->u.sym->name);
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        if (p->node)
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                fprint(f, " node=%p", p->node);
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        fprint(f, "\n");
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        for (i = 0; i < NELEMS(p->kids); i++)
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                printtree1(p->kids[i], fd, lev + 1);
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}

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