Added Retrieval (data management) functions en masse.

[yaz-moved-to-github.git] / retrieval / d1_grs.c

/*
 * Copyright (c) 1995, Index Data.
 * See the file LICENSE for details.
 * Sebastian Hammer, Adam Dickmeiss
 *
 * $Log: d1_grs.c,v $
 * Revision 1.1  1995-11-01 11:56:07  quinn
 * Added Retrieval (data management) functions en masse.
 *
 *
 */

#include <assert.h>
#include <stdlib.h>

#include <proto.h>
#include <log.h>

#include "data1.h"

#define D1_VARIANTARRAY 20 /* fixed max length on sup'd variant-list. Lazy me */

Z_GenericRecord *data1_nodetogr(data1_node *n, int select, ODR o);

static Z_ElementMetaData *get_ElementMetaData(ODR o)
{
    Z_ElementMetaData *r = odr_malloc(o, sizeof(*r));

    r->seriesOrder = 0;
    r->usageRight = 0;
    r->num_hits = 0;
    r->hits = 0;
    r->displayName = 0;
    r->num_supportedVariants = 0;
    r->supportedVariants = 0;
    r->message = 0;
    r->elementDescriptor = 0;
    r->surrogateFor = 0;
    r->surrogateElement = 0;
    r->other = 0;

    return r;
}

/*
 * N should point to the *last* (leaf) triple in a sequence. Construct a variant
 * from each of the triples beginning (ending) with 'n', up to the
 * nearest parent tag. num should equal the number of triples in the
 * sequence.
 */
static Z_Variant *make_variant(data1_node *n, int num, ODR o)
{
    Z_Variant *v = odr_malloc(o, sizeof(*v));
    data1_node *p;

    v->globalVariantSetId = 0;
    v->num_triples = num;
    v->triples = odr_malloc(o, sizeof(Z_Triple*) * num);

    /*
     * cycle back up through the tree of variants
     * (traversing exactly 'level' variants).
     */
    for (p = n, num--; p && num >= 0; p = p->parent, num--)
    {
        Z_Triple *t;

        assert(p->which == DATA1N_variant);
        t = v->triples[num] = odr_malloc(o, sizeof(*t));
        t->variantSetId = 0;
        t->class = odr_malloc(o, sizeof(int));
        *t->class = p->u.variant.type->class->class;
        t->type = odr_malloc(o, sizeof(int));
        *t->type = p->u.variant.type->type;

        switch (p->u.variant.type->datatype)
        {
            case DATA1K_string:
                t->which = Z_Triple_internationalString;
                t->value.internationalString = odr_malloc(o,
                    strlen(p->u.variant.value)+1);
                strcpy(t->value.internationalString, p->u.variant.value);
                break;
            default:
                logf(LOG_WARN, "Unable to handle value for variant %s",
                    p->u.variant.type->name);
                return 0;
        }
    }
    return v;
}

/*
 * Traverse the variant children of n, constructing a supportedVariant list.
 */
static int traverse_triples(data1_node *n, int level, Z_ElementMetaData *m,
    ODR o)
{
    data1_node *c;
    
    for (c = n->child; c; c = c->next)
        if (c->which == DATA1N_data && level)
        {
            if (!m->supportedVariants)
                m->supportedVariants = odr_malloc(o, sizeof(Z_Variant*) *
                    D1_VARIANTARRAY);
            else if (m->num_supportedVariants >= D1_VARIANTARRAY)
            {
                logf(LOG_WARN, "Too many variants (D1_VARIANTARRAY==%d)",
                    D1_VARIANTARRAY);
                return -1;
            }

            if (!(m->supportedVariants[m->num_supportedVariants++] =
                make_variant(n, level, o)))
                return -1;
        }
        else if (c->which == DATA1N_variant)
            if (traverse_triples(c, level+1, m, o) < 0)
                return -1;
    return 0;
}

static Z_ElementData *nodetoelementdata(data1_node *n, int select, int leaf,
    ODR o)
{
    Z_ElementData *res = odr_malloc(o, sizeof(*res));

    if (!n)
    {
        res->which = Z_ElementData_elementNotThere;
        res->u.elementNotThere = ODR_NULLVAL;
    }
    else if (n->which == DATA1N_data && (leaf || n->parent->num_children == 1))
    {
        switch (n->u.data.what)
        {
            case DATA1I_num:
                res->which = Z_ElementData_numeric;
                res->u.numeric = odr_malloc(o, sizeof(int));
                *res->u.numeric = atoi(n->u.data.data);
                break;
            case DATA1I_text:
                res->which = Z_ElementData_string;
                res->u.string = odr_malloc(o, n->u.data.len+1);
                memcpy(res->u.string, n->u.data.data, n->u.data.len);
                res->u.string[n->u.data.len] = '\0';
                break;
            default:
                logf(LOG_WARN, "Can't handle datatype.");
                return 0;
        }
    }
    else
    {
        res->which = Z_ElementData_subtree;
        if (!(res->u.subtree = data1_nodetogr(n->parent, select, o)))
            return 0;
    }
    return res;
}

static Z_TaggedElement *nodetotaggedelement(data1_node *n, int select, ODR o)
{
    Z_TaggedElement *res = odr_malloc(o, sizeof(*res));
    data1_tag *tag = 0;
    data1_node *data;
    int leaf;

    if (n->which == DATA1N_tag)
    {
        if (n->u.tag.element)
            tag = n->u.tag.element->tag;
        data = n->child;
        leaf = 0;
    }
    else if (n->which == DATA1N_data || n->which == DATA1N_variant)
    {
        if (!(tag = data1_gettagbyname(n->root->u.root.absyn->tagset,
            "wellKnown")))
        {
            logf(LOG_WARN, "Unable to locate tag for 'wellKnown'");
            return 0;
        }
        data = n;
        leaf = 1;
    }
    else
    {
        logf(LOG_WARN, "Bad data.");
        return 0;
    }

    res->tagType = odr_malloc(o, sizeof(int));
    *res->tagType = tag ? tag->tagset->type : 3;
    res->tagValue = odr_malloc(o, sizeof(Z_StringOrNumeric));
    if (tag && tag->which == DATA1T_numeric)
    {
        res->tagValue->which = Z_StringOrNumeric_numeric;
        res->tagValue->u.numeric = odr_malloc(o, sizeof(int));
        *res->tagValue->u.numeric = tag->value.numeric;
    }
    else
    {
        char *tagstr;

        if (tag) /* well-known tag */
            tagstr = tag->value.string;
        else /* tag local to this file */
            tagstr = n->u.tag.tag;

        res->tagValue->which = Z_StringOrNumeric_string;
        res->tagValue->u.string = odr_malloc(o, strlen(tagstr)+1);
        strcpy(res->tagValue->u.string, tagstr);
    }
    res->tagOccurrence = 0;
    res->appliedVariant = 0;
    res->metaData = 0;
    if (n->which == DATA1N_variant || (data && data->which ==
        DATA1N_variant && data->parent->num_children == 1))
    {
        int nvars = 0;

        res->metaData = get_ElementMetaData(o);
        if (traverse_triples(data, 0, res->metaData, o) < 0)
            return 0;
        while (data && data->which == DATA1N_variant)
        {
            nvars++;
            data = data->child;
        }
        res->appliedVariant = make_variant(data->parent, nvars-1, o);
    }
    if (!(res->content = nodetoelementdata(data, select, leaf, o)))
        return 0;
    return res;
}

Z_GenericRecord *data1_nodetogr(data1_node *n, int select, ODR o)
{
    Z_GenericRecord *res = odr_malloc(o, sizeof(*res));
    data1_node *c;

    res->elements = odr_malloc(o, sizeof(Z_TaggedElement *) * n->num_children);
    res->num_elements = 0;
    for (c = n->child; c; c = c->next)
    {
        if (c->which == DATA1N_tag && select && !c->u.tag.node_selected)
            continue;
        if (!(res->elements[res->num_elements++] =
            nodetotaggedelement(c, select, o)))
            return 0;
    }
    return res;
}