Correct math and limerick.

[dragonfly.git] / contrib / mdocml / eqn.c

/*      $Id: eqn.c,v 1.38 2011/07/25 15:37:00 kristaps Exp $ */
/*
 * Copyright (c) 2011 Kristaps Dzonsons <kristaps@bsd.lv>
 *
 * Permission to use, copy, modify, and distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <assert.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>

#include "mandoc.h"
#include "libmandoc.h"
#include "libroff.h"

#define EQN_NEST_MAX     128 /* maximum nesting of defines */
#define EQN_MSG(t, x)    mandoc_msg((t), (x)->parse, (x)->eqn.ln, (x)->eqn.pos, NULL)

enum    eqn_rest {
        EQN_DESCOPE,
        EQN_ERR,
        EQN_OK,
        EQN_EOF
};

enum    eqn_symt {
        EQNSYM_alpha,
        EQNSYM_beta,
        EQNSYM_chi,
        EQNSYM_delta,
        EQNSYM_epsilon,
        EQNSYM_eta,
        EQNSYM_gamma,
        EQNSYM_iota,
        EQNSYM_kappa,
        EQNSYM_lambda,
        EQNSYM_mu,
        EQNSYM_nu,
        EQNSYM_omega,
        EQNSYM_omicron,
        EQNSYM_phi,
        EQNSYM_pi,
        EQNSYM_ps,
        EQNSYM_rho,
        EQNSYM_sigma,
        EQNSYM_tau,
        EQNSYM_theta,
        EQNSYM_upsilon,
        EQNSYM_xi,
        EQNSYM_zeta,
        EQNSYM_DELTA,
        EQNSYM_GAMMA,
        EQNSYM_LAMBDA,
        EQNSYM_OMEGA,
        EQNSYM_PHI,
        EQNSYM_PI,
        EQNSYM_PSI,
        EQNSYM_SIGMA,
        EQNSYM_THETA,
        EQNSYM_UPSILON,
        EQNSYM_XI,
        EQNSYM_inter,
        EQNSYM_union,
        EQNSYM_prod,
        EQNSYM_int,
        EQNSYM_sum,
        EQNSYM_grad,
        EQNSYM_del,
        EQNSYM_times,
        EQNSYM_cdot,
        EQNSYM_nothing,
        EQNSYM_approx,
        EQNSYM_prime,
        EQNSYM_half,
        EQNSYM_partial,
        EQNSYM_inf,
        EQNSYM_muchgreat,
        EQNSYM_muchless,
        EQNSYM_larrow,
        EQNSYM_rarrow,
        EQNSYM_pm,
        EQNSYM_nequal,
        EQNSYM_equiv,
        EQNSYM_lessequal,
        EQNSYM_moreequal,
        EQNSYM__MAX
};

enum    eqnpartt {
        EQN_DEFINE = 0,
        EQN_NDEFINE,
        EQN_TDEFINE,
        EQN_SET,
        EQN_UNDEF,
        EQN_GFONT,
        EQN_GSIZE,
        EQN_BACK,
        EQN_FWD,
        EQN_UP,
        EQN_DOWN,
        EQN__MAX
};

struct  eqnstr {
        const char      *name;
        size_t           sz;
};

#define STRNEQ(p1, sz1, p2, sz2) \
        ((sz1) == (sz2) && 0 == strncmp((p1), (p2), (sz1)))
#define EQNSTREQ(x, p, sz) \
        STRNEQ((x)->name, (x)->sz, (p), (sz))

struct  eqnpart {
        struct eqnstr    str;
        int             (*fp)(struct eqn_node *);
};

struct  eqnsym {
        struct eqnstr    str;
        const char      *sym;
};


static  enum eqn_rest    eqn_box(struct eqn_node *, struct eqn_box *);
static  struct eqn_box  *eqn_box_alloc(struct eqn_node *, 
                                struct eqn_box *);
static  void             eqn_box_free(struct eqn_box *);
static  struct eqn_def  *eqn_def_find(struct eqn_node *, 
                                const char *, size_t);
static  int              eqn_do_gfont(struct eqn_node *);
static  int              eqn_do_gsize(struct eqn_node *);
static  int              eqn_do_define(struct eqn_node *);
static  int              eqn_do_ign1(struct eqn_node *);
static  int              eqn_do_ign2(struct eqn_node *);
static  int              eqn_do_tdefine(struct eqn_node *);
static  int              eqn_do_undef(struct eqn_node *);
static  enum eqn_rest    eqn_eqn(struct eqn_node *, struct eqn_box *);
static  enum eqn_rest    eqn_list(struct eqn_node *, struct eqn_box *);
static  enum eqn_rest    eqn_matrix(struct eqn_node *, struct eqn_box *);
static  const char      *eqn_nexttok(struct eqn_node *, size_t *);
static  const char      *eqn_nextrawtok(struct eqn_node *, size_t *);
static  const char      *eqn_next(struct eqn_node *, 
                                char, size_t *, int);
static  void             eqn_rewind(struct eqn_node *);

static  const struct eqnpart eqnparts[EQN__MAX] = {
        { { "define", 6 }, eqn_do_define }, /* EQN_DEFINE */
        { { "ndefine", 7 }, eqn_do_define }, /* EQN_NDEFINE */
        { { "tdefine", 7 }, eqn_do_tdefine }, /* EQN_TDEFINE */
        { { "set", 3 }, eqn_do_ign2 }, /* EQN_SET */
        { { "undef", 5 }, eqn_do_undef }, /* EQN_UNDEF */
        { { "gfont", 5 }, eqn_do_gfont }, /* EQN_GFONT */
        { { "gsize", 5 }, eqn_do_gsize }, /* EQN_GSIZE */
        { { "back", 4 }, eqn_do_ign1 }, /* EQN_BACK */
        { { "fwd", 3 }, eqn_do_ign1 }, /* EQN_FWD */
        { { "up", 2 }, eqn_do_ign1 }, /* EQN_UP */
        { { "down", 4 }, eqn_do_ign1 }, /* EQN_DOWN */
};

static  const struct eqnstr eqnmarks[EQNMARK__MAX] = {
        { "", 0 }, /* EQNMARK_NONE */
        { "dot", 3 }, /* EQNMARK_DOT */
        { "dotdot", 6 }, /* EQNMARK_DOTDOT */
        { "hat", 3 }, /* EQNMARK_HAT */
        { "tilde", 5 }, /* EQNMARK_TILDE */
        { "vec", 3 }, /* EQNMARK_VEC */
        { "dyad", 4 }, /* EQNMARK_DYAD */
        { "bar", 3 }, /* EQNMARK_BAR */
        { "under", 5 }, /* EQNMARK_UNDER */
};

static  const struct eqnstr eqnfonts[EQNFONT__MAX] = {
        { "", 0 }, /* EQNFONT_NONE */
        { "roman", 5 }, /* EQNFONT_ROMAN */
        { "bold", 4 }, /* EQNFONT_BOLD */
        { "fat", 3 }, /* EQNFONT_FAT */
        { "italic", 6 }, /* EQNFONT_ITALIC */
};

static  const struct eqnstr eqnposs[EQNPOS__MAX] = {
        { "", 0 }, /* EQNPOS_NONE */
        { "over", 4 }, /* EQNPOS_OVER */
        { "sup", 3 }, /* EQNPOS_SUP */
        { "sub", 3 }, /* EQNPOS_SUB */
        { "to", 2 }, /* EQNPOS_TO */
        { "from", 4 }, /* EQNPOS_FROM */
};

static  const struct eqnstr eqnpiles[EQNPILE__MAX] = {
        { "", 0 }, /* EQNPILE_NONE */
        { "pile", 4 }, /* EQNPILE_PILE */
        { "cpile", 5 }, /* EQNPILE_CPILE */
        { "rpile", 5 }, /* EQNPILE_RPILE */
        { "lpile", 5 }, /* EQNPILE_LPILE */
        { "col", 3 }, /* EQNPILE_COL */
        { "ccol", 4 }, /* EQNPILE_CCOL */
        { "rcol", 4 }, /* EQNPILE_RCOL */
        { "lcol", 4 }, /* EQNPILE_LCOL */
};

static  const struct eqnsym eqnsyms[EQNSYM__MAX] = {
        { { "alpha", 5 }, "*a" }, /* EQNSYM_alpha */
        { { "beta", 4 }, "*b" }, /* EQNSYM_beta */
        { { "chi", 3 }, "*x" }, /* EQNSYM_chi */
        { { "delta", 5 }, "*d" }, /* EQNSYM_delta */
        { { "epsilon", 7 }, "*e" }, /* EQNSYM_epsilon */
        { { "eta", 3 }, "*y" }, /* EQNSYM_eta */
        { { "gamma", 5 }, "*g" }, /* EQNSYM_gamma */
        { { "iota", 4 }, "*i" }, /* EQNSYM_iota */
        { { "kappa", 5 }, "*k" }, /* EQNSYM_kappa */
        { { "lambda", 6 }, "*l" }, /* EQNSYM_lambda */
        { { "mu", 2 }, "*m" }, /* EQNSYM_mu */
        { { "nu", 2 }, "*n" }, /* EQNSYM_nu */
        { { "omega", 5 }, "*w" }, /* EQNSYM_omega */
        { { "omicron", 7 }, "*o" }, /* EQNSYM_omicron */
        { { "phi", 3 }, "*f" }, /* EQNSYM_phi */
        { { "pi", 2 }, "*p" }, /* EQNSYM_pi */
        { { "psi", 2 }, "*q" }, /* EQNSYM_psi */
        { { "rho", 3 }, "*r" }, /* EQNSYM_rho */
        { { "sigma", 5 }, "*s" }, /* EQNSYM_sigma */
        { { "tau", 3 }, "*t" }, /* EQNSYM_tau */
        { { "theta", 5 }, "*h" }, /* EQNSYM_theta */
        { { "upsilon", 7 }, "*u" }, /* EQNSYM_upsilon */
        { { "xi", 2 }, "*c" }, /* EQNSYM_xi */
        { { "zeta", 4 }, "*z" }, /* EQNSYM_zeta */
        { { "DELTA", 5 }, "*D" }, /* EQNSYM_DELTA */
        { { "GAMMA", 5 }, "*G" }, /* EQNSYM_GAMMA */
        { { "LAMBDA", 6 }, "*L" }, /* EQNSYM_LAMBDA */
        { { "OMEGA", 5 }, "*W" }, /* EQNSYM_OMEGA */
        { { "PHI", 3 }, "*F" }, /* EQNSYM_PHI */
        { { "PI", 2 }, "*P" }, /* EQNSYM_PI */
        { { "PSI", 3 }, "*Q" }, /* EQNSYM_PSI */
        { { "SIGMA", 5 }, "*S" }, /* EQNSYM_SIGMA */
        { { "THETA", 5 }, "*H" }, /* EQNSYM_THETA */
        { { "UPSILON", 7 }, "*U" }, /* EQNSYM_UPSILON */
        { { "XI", 2 }, "*C" }, /* EQNSYM_XI */
        { { "inter", 5 }, "ca" }, /* EQNSYM_inter */
        { { "union", 5 }, "cu" }, /* EQNSYM_union */
        { { "prod", 4 }, "product" }, /* EQNSYM_prod */
        { { "int", 3 }, "integral" }, /* EQNSYM_int */
        { { "sum", 3 }, "sum" }, /* EQNSYM_sum */
        { { "grad", 4 }, "gr" }, /* EQNSYM_grad */
        { { "del", 3 }, "gr" }, /* EQNSYM_del */
        { { "times", 5 }, "mu" }, /* EQNSYM_times */
        { { "cdot", 4 }, "pc" }, /* EQNSYM_cdot */
        { { "nothing", 7 }, "&" }, /* EQNSYM_nothing */
        { { "approx", 6 }, "~~" }, /* EQNSYM_approx */
        { { "prime", 5 }, "aq" }, /* EQNSYM_prime */
        { { "half", 4 }, "12" }, /* EQNSYM_half */
        { { "partial", 7 }, "pd" }, /* EQNSYM_partial */
        { { "inf", 3 }, "if" }, /* EQNSYM_inf */
        { { ">>", 2 }, ">>" }, /* EQNSYM_muchgreat */
        { { "<<", 2 }, "<<" }, /* EQNSYM_muchless */
        { { "<-", 2 }, "<-" }, /* EQNSYM_larrow */
        { { "->", 2 }, "->" }, /* EQNSYM_rarrow */
        { { "+-", 2 }, "+-" }, /* EQNSYM_pm */
        { { "!=", 2 }, "!=" }, /* EQNSYM_nequal */
        { { "==", 2 }, "==" }, /* EQNSYM_equiv */
        { { "<=", 2 }, "<=" }, /* EQNSYM_lessequal */
        { { ">=", 2 }, ">=" }, /* EQNSYM_moreequal */
};

/* ARGSUSED */
enum rofferr
eqn_read(struct eqn_node **epp, int ln, 
                const char *p, int pos, int *offs)
{
        size_t           sz;
        struct eqn_node *ep;
        enum rofferr     er;

        ep = *epp;

        /*
         * If we're the terminating mark, unset our equation status and
         * validate the full equation.
         */

        if (0 == strncmp(p, ".EN", 3)) {
                er = eqn_end(epp);
                p += 3;
                while (' ' == *p || '\t' == *p)
                        p++;
                if ('\0' == *p) 
                        return(er);
                mandoc_msg(MANDOCERR_ARGSLOST, ep->parse, ln, pos, NULL);
                return(er);
        }

        /*
         * Build up the full string, replacing all newlines with regular
         * whitespace.
         */

        sz = strlen(p + pos) + 1;
        ep->data = mandoc_realloc(ep->data, ep->sz + sz + 1);

        /* First invocation: nil terminate the string. */

        if (0 == ep->sz)
                *ep->data = '\0';

        ep->sz += sz;
        strlcat(ep->data, p + pos, ep->sz + 1);
        strlcat(ep->data, " ", ep->sz + 1);
        return(ROFF_IGN);
}

struct eqn_node *
eqn_alloc(const char *name, int pos, int line, struct mparse *parse)
{
        struct eqn_node *p;
        size_t           sz;
        const char      *end;

        p = mandoc_calloc(1, sizeof(struct eqn_node));

        if (name && '\0' != *name) {
                sz = strlen(name);
                assert(sz);
                do {
                        sz--;
                        end = name + (int)sz;
                } while (' ' == *end || '\t' == *end);
                p->eqn.name = mandoc_strndup(name, sz + 1);
        }

        p->parse = parse;
        p->eqn.ln = line;
        p->eqn.pos = pos;
        p->gsize = EQN_DEFSIZE;

        return(p);
}

enum rofferr
eqn_end(struct eqn_node **epp)
{
        struct eqn_node *ep;
        struct eqn_box  *root;
        enum eqn_rest    c;

        ep = *epp;
        *epp = NULL;

        ep->eqn.root = mandoc_calloc(1, sizeof(struct eqn_box));

        root = ep->eqn.root;
        root->type = EQN_ROOT;

        if (0 == ep->sz)
                return(ROFF_IGN);

        if (EQN_DESCOPE == (c = eqn_eqn(ep, root))) {
                EQN_MSG(MANDOCERR_EQNNSCOPE, ep);
                c = EQN_ERR;
        }

        return(EQN_EOF == c ? ROFF_EQN : ROFF_IGN);
}

static enum eqn_rest
eqn_eqn(struct eqn_node *ep, struct eqn_box *last)
{
        struct eqn_box  *bp;
        enum eqn_rest    c;

        bp = eqn_box_alloc(ep, last);
        bp->type = EQN_SUBEXPR;

        while (EQN_OK == (c = eqn_box(ep, bp)))
                /* Spin! */ ;

        return(c);
}

static enum eqn_rest
eqn_matrix(struct eqn_node *ep, struct eqn_box *last)
{
        struct eqn_box  *bp;
        const char      *start;
        size_t           sz;
        enum eqn_rest    c;

        bp = eqn_box_alloc(ep, last);
        bp->type = EQN_MATRIX;

        if (NULL == (start = eqn_nexttok(ep, &sz))) {
                EQN_MSG(MANDOCERR_EQNEOF, ep);
                return(EQN_ERR);
        }
        if ( ! STRNEQ(start, sz, "{", 1)) {
                EQN_MSG(MANDOCERR_EQNSYNT, ep);
                return(EQN_ERR);
        }

        while (EQN_OK == (c = eqn_box(ep, bp)))
                switch (bp->last->pile) {
                case (EQNPILE_LCOL):
                        /* FALLTHROUGH */
                case (EQNPILE_CCOL):
                        /* FALLTHROUGH */
                case (EQNPILE_RCOL):
                        continue;
                default:
                        EQN_MSG(MANDOCERR_EQNSYNT, ep);
                        return(EQN_ERR);
                };

        if (EQN_DESCOPE != c) {
                if (EQN_EOF == c)
                        EQN_MSG(MANDOCERR_EQNEOF, ep);
                return(EQN_ERR);
        }

        eqn_rewind(ep);
        start = eqn_nexttok(ep, &sz);
        assert(start);
        if (STRNEQ(start, sz, "}", 1))
                return(EQN_OK);

        EQN_MSG(MANDOCERR_EQNBADSCOPE, ep);
        return(EQN_ERR);
}

static enum eqn_rest
eqn_list(struct eqn_node *ep, struct eqn_box *last)
{
        struct eqn_box  *bp;
        const char      *start;
        size_t           sz;
        enum eqn_rest    c;

        bp = eqn_box_alloc(ep, last);
        bp->type = EQN_LIST;

        if (NULL == (start = eqn_nexttok(ep, &sz))) {
                EQN_MSG(MANDOCERR_EQNEOF, ep);
                return(EQN_ERR);
        }
        if ( ! STRNEQ(start, sz, "{", 1)) {
                EQN_MSG(MANDOCERR_EQNSYNT, ep);
                return(EQN_ERR);
        }

        while (EQN_DESCOPE == (c = eqn_eqn(ep, bp))) {
                eqn_rewind(ep);
                start = eqn_nexttok(ep, &sz);
                assert(start);
                if ( ! STRNEQ(start, sz, "above", 5))
                        break;
        }

        if (EQN_DESCOPE != c) {
                if (EQN_ERR != c)
                        EQN_MSG(MANDOCERR_EQNSCOPE, ep);
                return(EQN_ERR);
        }

        eqn_rewind(ep);
        start = eqn_nexttok(ep, &sz);
        assert(start);
        if (STRNEQ(start, sz, "}", 1))
                return(EQN_OK);

        EQN_MSG(MANDOCERR_EQNBADSCOPE, ep);
        return(EQN_ERR);
}

static enum eqn_rest
eqn_box(struct eqn_node *ep, struct eqn_box *last)
{
        size_t           sz;
        const char      *start;
        char            *left;
        char             sym[64];
        enum eqn_rest    c;
        int              i, size;
        struct eqn_box  *bp;

        if (NULL == (start = eqn_nexttok(ep, &sz)))
                return(EQN_EOF);

        if (STRNEQ(start, sz, "}", 1))
                return(EQN_DESCOPE);
        else if (STRNEQ(start, sz, "right", 5))
                return(EQN_DESCOPE);
        else if (STRNEQ(start, sz, "above", 5))
                return(EQN_DESCOPE);
        else if (STRNEQ(start, sz, "mark", 4))
                return(EQN_OK);
        else if (STRNEQ(start, sz, "lineup", 6))
                return(EQN_OK);

        for (i = 0; i < (int)EQN__MAX; i++) {
                if ( ! EQNSTREQ(&eqnparts[i].str, start, sz))
                        continue;
                return((*eqnparts[i].fp)(ep) ? 
                                EQN_OK : EQN_ERR);
        } 

        if (STRNEQ(start, sz, "{", 1)) {
                if (EQN_DESCOPE != (c = eqn_eqn(ep, last))) {
                        if (EQN_ERR != c)
                                EQN_MSG(MANDOCERR_EQNSCOPE, ep);
                        return(EQN_ERR);
                }
                eqn_rewind(ep);
                start = eqn_nexttok(ep, &sz);
                assert(start);
                if (STRNEQ(start, sz, "}", 1))
                        return(EQN_OK);
                EQN_MSG(MANDOCERR_EQNBADSCOPE, ep);
                return(EQN_ERR);
        } 

        for (i = 0; i < (int)EQNPILE__MAX; i++) {
                if ( ! EQNSTREQ(&eqnpiles[i], start, sz))
                        continue;
                if (EQN_OK == (c = eqn_list(ep, last)))
                        last->last->pile = (enum eqn_pilet)i;
                return(c);
        }

        if (STRNEQ(start, sz, "matrix", 6))
                return(eqn_matrix(ep, last));

        if (STRNEQ(start, sz, "left", 4)) {
                if (NULL == (start = eqn_nexttok(ep, &sz))) {
                        EQN_MSG(MANDOCERR_EQNEOF, ep);
                        return(EQN_ERR);
                }
                left = mandoc_strndup(start, sz);
                c = eqn_eqn(ep, last);
                if (last->last)
                        last->last->left = left;
                else
                        free(left);
                if (EQN_DESCOPE != c)
                        return(c);
                assert(last->last);
                eqn_rewind(ep);
                start = eqn_nexttok(ep, &sz);
                assert(start);
                if ( ! STRNEQ(start, sz, "right", 5))
                        return(EQN_DESCOPE);
                if (NULL == (start = eqn_nexttok(ep, &sz))) {
                        EQN_MSG(MANDOCERR_EQNEOF, ep);
                        return(EQN_ERR);
                }
                last->last->right = mandoc_strndup(start, sz);
                return(EQN_OK);
        }

        for (i = 0; i < (int)EQNPOS__MAX; i++) {
                if ( ! EQNSTREQ(&eqnposs[i], start, sz))
                        continue;
                if (NULL == last->last) {
                        EQN_MSG(MANDOCERR_EQNSYNT, ep);
                        return(EQN_ERR);
                } 
                last->last->pos = (enum eqn_post)i;
                if (EQN_EOF == (c = eqn_box(ep, last))) {
                        EQN_MSG(MANDOCERR_EQNEOF, ep);
                        return(EQN_ERR);
                }
                return(c);
        }

        for (i = 0; i < (int)EQNMARK__MAX; i++) {
                if ( ! EQNSTREQ(&eqnmarks[i], start, sz))
                        continue;
                if (NULL == last->last) {
                        EQN_MSG(MANDOCERR_EQNSYNT, ep);
                        return(EQN_ERR);
                } 
                last->last->mark = (enum eqn_markt)i;
                if (EQN_EOF == (c = eqn_box(ep, last))) {
                        EQN_MSG(MANDOCERR_EQNEOF, ep);
                        return(EQN_ERR);
                }
                return(c);
        }

        for (i = 0; i < (int)EQNFONT__MAX; i++) {
                if ( ! EQNSTREQ(&eqnfonts[i], start, sz))
                        continue;
                if (EQN_EOF == (c = eqn_box(ep, last))) {
                        EQN_MSG(MANDOCERR_EQNEOF, ep);
                        return(EQN_ERR);
                } else if (EQN_OK == c)
                        last->last->font = (enum eqn_fontt)i;
                return(c);
        }

        if (STRNEQ(start, sz, "size", 4)) {
                if (NULL == (start = eqn_nexttok(ep, &sz))) {
                        EQN_MSG(MANDOCERR_EQNEOF, ep);
                        return(EQN_ERR);
                }
                size = mandoc_strntoi(start, sz, 10);
                if (EQN_EOF == (c = eqn_box(ep, last))) {
                        EQN_MSG(MANDOCERR_EQNEOF, ep);
                        return(EQN_ERR);
                } else if (EQN_OK != c)
                        return(c);
                last->last->size = size;
        }

        bp = eqn_box_alloc(ep, last);
        bp->type = EQN_TEXT;
        for (i = 0; i < (int)EQNSYM__MAX; i++)
                if (EQNSTREQ(&eqnsyms[i].str, start, sz)) {
                        sym[63] = '\0';
                        snprintf(sym, 62, "\\[%s]", eqnsyms[i].sym);
                        bp->text = mandoc_strdup(sym);
                        return(EQN_OK);
                }

        bp->text = mandoc_strndup(start, sz);
        return(EQN_OK);
}

void
eqn_free(struct eqn_node *p)
{
        int              i;

        eqn_box_free(p->eqn.root);

        for (i = 0; i < (int)p->defsz; i++) {
                free(p->defs[i].key);
                free(p->defs[i].val);
        }

        free(p->eqn.name);
        free(p->data);
        free(p->defs);
        free(p);
}

static struct eqn_box *
eqn_box_alloc(struct eqn_node *ep, struct eqn_box *parent)
{
        struct eqn_box  *bp;

        bp = mandoc_calloc(1, sizeof(struct eqn_box));
        bp->parent = parent;
        bp->size = ep->gsize;

        if (NULL == parent->first)
                parent->first = bp;
        else
                parent->last->next = bp;

        parent->last = bp;
        return(bp);
}

static void
eqn_box_free(struct eqn_box *bp)
{

        if (bp->first)
                eqn_box_free(bp->first);
        if (bp->next)
                eqn_box_free(bp->next);

        free(bp->text);
        free(bp->left);
        free(bp->right);
        free(bp);
}

static const char *
eqn_nextrawtok(struct eqn_node *ep, size_t *sz)
{

        return(eqn_next(ep, '"', sz, 0));
}

static const char *
eqn_nexttok(struct eqn_node *ep, size_t *sz)
{

        return(eqn_next(ep, '"', sz, 1));
}

static void
eqn_rewind(struct eqn_node *ep)
{

        ep->cur = ep->rew;
}

static const char *
eqn_next(struct eqn_node *ep, char quote, size_t *sz, int repl)
{
        char            *start, *next;
        int              q, diff, lim;
        size_t           ssz, dummy;
        struct eqn_def  *def;

        if (NULL == sz)
                sz = &dummy;

        lim = 0;
        ep->rew = ep->cur;
again:
        /* Prevent self-definitions. */

        if (lim >= EQN_NEST_MAX) {
                EQN_MSG(MANDOCERR_ROFFLOOP, ep);
                return(NULL);
        }

        ep->cur = ep->rew;
        start = &ep->data[(int)ep->cur];
        q = 0;

        if ('\0' == *start)
                return(NULL);

        if (quote == *start) {
                ep->cur++;
                q = 1;
        }

        start = &ep->data[(int)ep->cur];

        if ( ! q) {
                if ('{' == *start || '}' == *start)
                        ssz = 1;
                else
                        ssz = strcspn(start + 1, " ^~\"{}\t") + 1;
                next = start + (int)ssz;
                if ('\0' == *next)
                        next = NULL;
        } else
                next = strchr(start, quote);

        if (NULL != next) {
                *sz = (size_t)(next - start);
                ep->cur += *sz;
                if (q)
                        ep->cur++;
                while (' ' == ep->data[(int)ep->cur] ||
                                '\t' == ep->data[(int)ep->cur] ||
                                '^' == ep->data[(int)ep->cur] ||
                                '~' == ep->data[(int)ep->cur])
                        ep->cur++;
        } else {
                if (q)
                        EQN_MSG(MANDOCERR_BADQUOTE, ep);
                next = strchr(start, '\0');
                *sz = (size_t)(next - start);
                ep->cur += *sz;
        }

        /* Quotes aren't expanded for values. */

        if (q || ! repl)
                return(start);

        if (NULL != (def = eqn_def_find(ep, start, *sz))) {
                diff = def->valsz - *sz;

                if (def->valsz > *sz) {
                        ep->sz += diff;
                        ep->data = mandoc_realloc(ep->data, ep->sz + 1);
                        ep->data[ep->sz] = '\0';
                        start = &ep->data[(int)ep->rew];
                }

                diff = def->valsz - *sz;
                memmove(start + *sz + diff, start + *sz, 
                                (strlen(start) - *sz) + 1);
                memcpy(start, def->val, def->valsz);
                goto again;
        }

        return(start);
}

static int
eqn_do_ign1(struct eqn_node *ep)
{

        if (NULL == eqn_nextrawtok(ep, NULL))
                EQN_MSG(MANDOCERR_EQNEOF, ep);
        else
                return(1);

        return(0);
}

static int
eqn_do_ign2(struct eqn_node *ep)
{

        if (NULL == eqn_nextrawtok(ep, NULL))
                EQN_MSG(MANDOCERR_EQNEOF, ep);
        else if (NULL == eqn_nextrawtok(ep, NULL))
                EQN_MSG(MANDOCERR_EQNEOF, ep);
        else
                return(1);

        return(0);
}

static int
eqn_do_tdefine(struct eqn_node *ep)
{

        if (NULL == eqn_nextrawtok(ep, NULL))
                EQN_MSG(MANDOCERR_EQNEOF, ep);
        else if (NULL == eqn_next(ep, ep->data[(int)ep->cur], NULL, 0))
                EQN_MSG(MANDOCERR_EQNEOF, ep);
        else
                return(1);

        return(0);
}

static int
eqn_do_define(struct eqn_node *ep)
{
        const char      *start;
        size_t           sz;
        struct eqn_def  *def;
        int              i;

        if (NULL == (start = eqn_nextrawtok(ep, &sz))) {
                EQN_MSG(MANDOCERR_EQNEOF, ep);
                return(0);
        }

        /* 
         * Search for a key that already exists. 
         * Create a new key if none is found.
         */

        if (NULL == (def = eqn_def_find(ep, start, sz))) {
                /* Find holes in string array. */
                for (i = 0; i < (int)ep->defsz; i++)
                        if (0 == ep->defs[i].keysz)
                                break;

                if (i == (int)ep->defsz) {
                        ep->defsz++;
                        ep->defs = mandoc_realloc
                                (ep->defs, ep->defsz * 
                                 sizeof(struct eqn_def));
                        ep->defs[i].key = ep->defs[i].val = NULL;
                }

                ep->defs[i].keysz = sz;
                ep->defs[i].key = mandoc_realloc
                        (ep->defs[i].key, sz + 1);

                memcpy(ep->defs[i].key, start, sz);
                ep->defs[i].key[(int)sz] = '\0';
                def = &ep->defs[i];
        }

        start = eqn_next(ep, ep->data[(int)ep->cur], &sz, 0);

        if (NULL == start) {
                EQN_MSG(MANDOCERR_EQNEOF, ep);
                return(0);
        }

        def->valsz = sz;
        def->val = mandoc_realloc(def->val, sz + 1);
        memcpy(def->val, start, sz);
        def->val[(int)sz] = '\0';
        return(1);
}

static int
eqn_do_gfont(struct eqn_node *ep)
{

        if (NULL == eqn_nextrawtok(ep, NULL)) {
                EQN_MSG(MANDOCERR_EQNEOF, ep);
                return(0);
        } 
        return(1);
}

static int
eqn_do_gsize(struct eqn_node *ep)
{
        const char      *start;
        size_t           sz;

        if (NULL == (start = eqn_nextrawtok(ep, &sz))) {
                EQN_MSG(MANDOCERR_EQNEOF, ep);
                return(0);
        } 
        ep->gsize = mandoc_strntoi(start, sz, 10);
        return(1);
}

static int
eqn_do_undef(struct eqn_node *ep)
{
        const char      *start;
        struct eqn_def  *def;
        size_t           sz;

        if (NULL == (start = eqn_nextrawtok(ep, &sz))) {
                EQN_MSG(MANDOCERR_EQNEOF, ep);
                return(0);
        } else if (NULL != (def = eqn_def_find(ep, start, sz)))
                def->keysz = 0;

        return(1);
}

static struct eqn_def *
eqn_def_find(struct eqn_node *ep, const char *key, size_t sz)
{
        int              i;

        for (i = 0; i < (int)ep->defsz; i++) 
                if (ep->defs[i].keysz && STRNEQ(ep->defs[i].key, 
                                        ep->defs[i].keysz, key, sz))
                        return(&ep->defs[i]);

        return(NULL);
}