File: idltest.c

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/* Generated automatically -- do not modify!    -*- buffer-read-only: t -*- */

#include <config.h>
#include "tests/idltest.h"
#include <limits.h>
#include "ovs-thread.h"
#include "ovsdb-data.h"
#include "ovsdb-error.h"
#include "util.h"

#ifdef __CHECKER__
/* Sparse dislikes sizeof(bool) ("warning: expression using sizeof bool"). */
enum { sizeof_bool = 1 };
#else
enum { sizeof_bool = sizeof(bool) };
#endif

static bool inited;


static struct idltest_link1 *
idltest_link1_cast(const struct ovsdb_idl_row *row)
{
    return row ? CONTAINER_OF(row, struct idltest_link1, header_) : NULL;
}

static struct idltest_link2 *
idltest_link2_cast(const struct ovsdb_idl_row *row)
{
    return row ? CONTAINER_OF(row, struct idltest_link2, header_) : NULL;
}

static struct idltest_simple *
idltest_simple_cast(const struct ovsdb_idl_row *row)
{
    return row ? CONTAINER_OF(row, struct idltest_simple, header_) : NULL;
}

/* link1 table. */

static void
idltest_link1_parse_i(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_link1 *row = idltest_link1_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->i = datum->keys[0].integer;
    } else {
        row->i = 0;
    }
}

static void
idltest_link1_parse_k(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_link1 *row = idltest_link1_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->k = idltest_link1_cast(ovsdb_idl_get_row_arc(row_, &idltest_table_classes[IDLTEST_TABLE_LINK1], &datum->keys[0].uuid));
    } else {
        row->k = NULL;
    }
}

static void
idltest_link1_parse_ka(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_link1 *row = idltest_link1_cast(row_);
    size_t i;

    ovs_assert(inited);
    row->ka = NULL;
    row->n_ka = 0;
    for (i = 0; i < datum->n; i++) {
        struct idltest_link1 *keyRow = idltest_link1_cast(ovsdb_idl_get_row_arc(row_, &idltest_table_classes[IDLTEST_TABLE_LINK1], &datum->keys[i].uuid));
        if (keyRow) {
            if (!row->n_ka) {
                row->ka = xmalloc(datum->n * sizeof *row->ka);
            }
            row->ka[row->n_ka] = keyRow;
            row->n_ka++;
        }
    }
}

static void
idltest_link1_parse_l2(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_link1 *row = idltest_link1_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->l2 = idltest_link2_cast(ovsdb_idl_get_row_arc(row_, &idltest_table_classes[IDLTEST_TABLE_LINK2], &datum->keys[0].uuid));
    } else {
        row->l2 = NULL;
    }
}

static void
idltest_link1_unparse_i(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_link1_unparse_k(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_link1_unparse_ka(struct ovsdb_idl_row *row_)
{
    struct idltest_link1 *row = idltest_link1_cast(row_);

    ovs_assert(inited);
    free(row->ka);
}

static void
idltest_link1_unparse_l2(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_link1_init__(struct ovsdb_idl_row *row)
{
    idltest_link1_init(idltest_link1_cast(row));
}

void
idltest_link1_init(struct idltest_link1 *row)
{
    memset(row, 0, sizeof *row); 
}

const struct idltest_link1 *
idltest_link1_get_for_uuid(const struct ovsdb_idl *idl, const struct uuid *uuid)
{
    return idltest_link1_cast(ovsdb_idl_get_row_for_uuid(idl, &idltest_table_classes[IDLTEST_TABLE_LINK1], uuid));
}

const struct idltest_link1 *
idltest_link1_first(const struct ovsdb_idl *idl)
{
    return idltest_link1_cast(ovsdb_idl_first_row(idl, &idltest_table_classes[IDLTEST_TABLE_LINK1]));
}

const struct idltest_link1 *
idltest_link1_next(const struct idltest_link1 *row)
{
    return idltest_link1_cast(ovsdb_idl_next_row(&row->header_));
}

void
idltest_link1_delete(const struct idltest_link1 *row)
{
    ovsdb_idl_txn_delete(&row->header_);
}

struct idltest_link1 *
idltest_link1_insert(struct ovsdb_idl_txn *txn)
{
    return idltest_link1_cast(ovsdb_idl_txn_insert(txn, &idltest_table_classes[IDLTEST_TABLE_LINK1], NULL));
}


void
idltest_link1_verify_i(const struct idltest_link1 *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_link1_columns[IDLTEST_LINK1_COL_I]);
}

void
idltest_link1_verify_k(const struct idltest_link1 *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_link1_columns[IDLTEST_LINK1_COL_K]);
}

void
idltest_link1_verify_ka(const struct idltest_link1 *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_link1_columns[IDLTEST_LINK1_COL_KA]);
}

void
idltest_link1_verify_l2(const struct idltest_link1 *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_link1_columns[IDLTEST_LINK1_COL_L2]);
}

/* Returns the i column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_INTEGER.
 * (This helps to avoid silent bugs if someone changes i's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_link1_get_i(const struct idltest_link1 *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_INTEGER);
    return ovsdb_idl_read(&row->header_, &idltest_link1_col_i);
}

/* Returns the k column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_UUID.
 * (This helps to avoid silent bugs if someone changes k's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_link1_get_k(const struct idltest_link1 *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_UUID);
    return ovsdb_idl_read(&row->header_, &idltest_link1_col_k);
}

/* Returns the ka column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_UUID.
 * (This helps to avoid silent bugs if someone changes ka's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_link1_get_ka(const struct idltest_link1 *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_UUID);
    return ovsdb_idl_read(&row->header_, &idltest_link1_col_ka);
}

/* Returns the l2 column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_UUID.
 * (This helps to avoid silent bugs if someone changes l2's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_link1_get_l2(const struct idltest_link1 *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_UUID);
    return ovsdb_idl_read(&row->header_, &idltest_link1_col_l2);
}

void
idltest_link1_set_i(const struct idltest_link1 *row, int64_t i)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    datum.n = 1;
    datum.keys = &key;
    key.integer = i;
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_link1_columns[IDLTEST_LINK1_COL_I], &datum);
}

void
idltest_link1_set_k(const struct idltest_link1 *row, const struct idltest_link1 *k)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    datum.n = 1;
    datum.keys = &key;
    key.uuid = k->header_.uuid;
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_link1_columns[IDLTEST_LINK1_COL_K], &datum);
}

void
idltest_link1_set_ka(const struct idltest_link1 *row, struct idltest_link1 **ka, size_t n_ka)
{
    struct ovsdb_datum datum;
    size_t i;

    ovs_assert(inited);
    datum.n = n_ka;
    datum.keys = n_ka ? xmalloc(n_ka * sizeof *datum.keys) : NULL;
    datum.values = NULL;
    for (i = 0; i < n_ka; i++) {
        datum.keys[i].uuid = ka[i]->header_.uuid;
    }
    ovsdb_datum_sort_unique(&datum, OVSDB_TYPE_UUID, OVSDB_TYPE_VOID);
    ovsdb_idl_txn_write(&row->header_, &idltest_link1_columns[IDLTEST_LINK1_COL_KA], &datum);
}

void
idltest_link1_set_l2(const struct idltest_link1 *row, const struct idltest_link2 *l2)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    if (l2) {
        datum.n = 1;
        datum.keys = &key;
        key.uuid = l2->header_.uuid;
    } else {
        datum.n = 0;
        datum.keys = NULL;
    }
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_link1_columns[IDLTEST_LINK1_COL_L2], &datum);
}

struct ovsdb_idl_column idltest_link1_columns[IDLTEST_LINK1_N_COLUMNS];

static void
idltest_link1_columns_init(void)
{
    struct ovsdb_idl_column *c;

    /* Initialize idltest_link1_col_i. */
    c = &idltest_link1_col_i;
    c->name = "i";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_INTEGER);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 1;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_link1_parse_i;
    c->unparse = idltest_link1_unparse_i;

    /* Initialize idltest_link1_col_k. */
    c = &idltest_link1_col_k;
    c->name = "k";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_UUID);
    c->type.key.u.uuid.refTableName = "link1";
    c->type.key.u.uuid.refType = OVSDB_REF_STRONG;
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 1;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_link1_parse_k;
    c->unparse = idltest_link1_unparse_k;

    /* Initialize idltest_link1_col_ka. */
    c = &idltest_link1_col_ka;
    c->name = "ka";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_UUID);
    c->type.key.u.uuid.refTableName = "link1";
    c->type.key.u.uuid.refType = OVSDB_REF_STRONG;
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 0;
    c->type.n_max = UINT_MAX;
    c->mutable = true;
    c->parse = idltest_link1_parse_ka;
    c->unparse = idltest_link1_unparse_ka;

    /* Initialize idltest_link1_col_l2. */
    c = &idltest_link1_col_l2;
    c->name = "l2";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_UUID);
    c->type.key.u.uuid.refTableName = "link2";
    c->type.key.u.uuid.refType = OVSDB_REF_STRONG;
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 0;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_link1_parse_l2;
    c->unparse = idltest_link1_unparse_l2;
}

/* link2 table. */

static void
idltest_link2_parse_i(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_link2 *row = idltest_link2_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->i = datum->keys[0].integer;
    } else {
        row->i = 0;
    }
}

static void
idltest_link2_parse_l1(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_link2 *row = idltest_link2_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->l1 = idltest_link1_cast(ovsdb_idl_get_row_arc(row_, &idltest_table_classes[IDLTEST_TABLE_LINK1], &datum->keys[0].uuid));
    } else {
        row->l1 = NULL;
    }
}

static void
idltest_link2_unparse_i(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_link2_unparse_l1(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_link2_init__(struct ovsdb_idl_row *row)
{
    idltest_link2_init(idltest_link2_cast(row));
}

void
idltest_link2_init(struct idltest_link2 *row)
{
    memset(row, 0, sizeof *row); 
}

const struct idltest_link2 *
idltest_link2_get_for_uuid(const struct ovsdb_idl *idl, const struct uuid *uuid)
{
    return idltest_link2_cast(ovsdb_idl_get_row_for_uuid(idl, &idltest_table_classes[IDLTEST_TABLE_LINK2], uuid));
}

const struct idltest_link2 *
idltest_link2_first(const struct ovsdb_idl *idl)
{
    return idltest_link2_cast(ovsdb_idl_first_row(idl, &idltest_table_classes[IDLTEST_TABLE_LINK2]));
}

const struct idltest_link2 *
idltest_link2_next(const struct idltest_link2 *row)
{
    return idltest_link2_cast(ovsdb_idl_next_row(&row->header_));
}

void
idltest_link2_delete(const struct idltest_link2 *row)
{
    ovsdb_idl_txn_delete(&row->header_);
}

struct idltest_link2 *
idltest_link2_insert(struct ovsdb_idl_txn *txn)
{
    return idltest_link2_cast(ovsdb_idl_txn_insert(txn, &idltest_table_classes[IDLTEST_TABLE_LINK2], NULL));
}


void
idltest_link2_verify_i(const struct idltest_link2 *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_link2_columns[IDLTEST_LINK2_COL_I]);
}

void
idltest_link2_verify_l1(const struct idltest_link2 *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_link2_columns[IDLTEST_LINK2_COL_L1]);
}

/* Returns the i column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_INTEGER.
 * (This helps to avoid silent bugs if someone changes i's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_link2_get_i(const struct idltest_link2 *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_INTEGER);
    return ovsdb_idl_read(&row->header_, &idltest_link2_col_i);
}

/* Returns the l1 column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_UUID.
 * (This helps to avoid silent bugs if someone changes l1's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_link2_get_l1(const struct idltest_link2 *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_UUID);
    return ovsdb_idl_read(&row->header_, &idltest_link2_col_l1);
}

void
idltest_link2_set_i(const struct idltest_link2 *row, int64_t i)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    datum.n = 1;
    datum.keys = &key;
    key.integer = i;
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_link2_columns[IDLTEST_LINK2_COL_I], &datum);
}

void
idltest_link2_set_l1(const struct idltest_link2 *row, const struct idltest_link1 *l1)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    if (l1) {
        datum.n = 1;
        datum.keys = &key;
        key.uuid = l1->header_.uuid;
    } else {
        datum.n = 0;
        datum.keys = NULL;
    }
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_link2_columns[IDLTEST_LINK2_COL_L1], &datum);
}

struct ovsdb_idl_column idltest_link2_columns[IDLTEST_LINK2_N_COLUMNS];

static void
idltest_link2_columns_init(void)
{
    struct ovsdb_idl_column *c;

    /* Initialize idltest_link2_col_i. */
    c = &idltest_link2_col_i;
    c->name = "i";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_INTEGER);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 1;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_link2_parse_i;
    c->unparse = idltest_link2_unparse_i;

    /* Initialize idltest_link2_col_l1. */
    c = &idltest_link2_col_l1;
    c->name = "l1";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_UUID);
    c->type.key.u.uuid.refTableName = "link1";
    c->type.key.u.uuid.refType = OVSDB_REF_STRONG;
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 0;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_link2_parse_l1;
    c->unparse = idltest_link2_unparse_l1;
}

/* simple table. */

static void
idltest_simple_parse_b(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->b = datum->keys[0].boolean;
    } else {
        row->b = false;
    }
}

static void
idltest_simple_parse_ba(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);
    size_t n = MIN(1, datum->n);
    size_t i;

    ovs_assert(inited);
    row->ba = NULL;
    row->n_ba = 0;
    for (i = 0; i < n; i++) {
        if (!row->n_ba) {
            row->ba = xmalloc(n * sizeof_bool);
        }
        row->ba[row->n_ba] = datum->keys[i].boolean;
        row->n_ba++;
    }
}

static void
idltest_simple_parse_i(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->i = datum->keys[0].integer;
    } else {
        row->i = 0;
    }
}

static void
idltest_simple_parse_ia(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);
    size_t i;

    ovs_assert(inited);
    row->ia = NULL;
    row->n_ia = 0;
    for (i = 0; i < datum->n; i++) {
        if (!row->n_ia) {
            row->ia = xmalloc(datum->n * sizeof *row->ia);
        }
        row->ia[row->n_ia] = datum->keys[i].integer;
        row->n_ia++;
    }
}

static void
idltest_simple_parse_r(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->r = datum->keys[0].real;
    } else {
        row->r = 0.0;
    }
}

static void
idltest_simple_parse_ra(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);
    size_t i;

    ovs_assert(inited);
    row->ra = NULL;
    row->n_ra = 0;
    for (i = 0; i < datum->n; i++) {
        if (!row->n_ra) {
            row->ra = xmalloc(datum->n * sizeof *row->ra);
        }
        row->ra[row->n_ra] = datum->keys[i].real;
        row->n_ra++;
    }
}

static void
idltest_simple_parse_s(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->s = datum->keys[0].string;
    } else {
        row->s = "";
    }
}

static void
idltest_simple_parse_sa(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);
    size_t i;

    ovs_assert(inited);
    row->sa = NULL;
    row->n_sa = 0;
    for (i = 0; i < datum->n; i++) {
        if (!row->n_sa) {
            row->sa = xmalloc(datum->n * sizeof *row->sa);
        }
        row->sa[row->n_sa] = datum->keys[i].string;
        row->n_sa++;
    }
}

static void
idltest_simple_parse_u(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    if (datum->n >= 1) {
        row->u = datum->keys[0].uuid;
    } else {
        uuid_zero(&row->u);
    }
}

static void
idltest_simple_parse_ua(struct ovsdb_idl_row *row_, const struct ovsdb_datum *datum)
{
    struct idltest_simple *row = idltest_simple_cast(row_);
    size_t i;

    ovs_assert(inited);
    row->ua = NULL;
    row->n_ua = 0;
    for (i = 0; i < datum->n; i++) {
        if (!row->n_ua) {
            row->ua = xmalloc(datum->n * sizeof *row->ua);
        }
        row->ua[row->n_ua] = datum->keys[i].uuid;
        row->n_ua++;
    }
}

static void
idltest_simple_unparse_b(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_simple_unparse_ba(struct ovsdb_idl_row *row_)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    free(row->ba);
}

static void
idltest_simple_unparse_i(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_simple_unparse_ia(struct ovsdb_idl_row *row_)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    free(row->ia);
}

static void
idltest_simple_unparse_r(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_simple_unparse_ra(struct ovsdb_idl_row *row_)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    free(row->ra);
}

static void
idltest_simple_unparse_s(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_simple_unparse_sa(struct ovsdb_idl_row *row_)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    free(row->sa);
}

static void
idltest_simple_unparse_u(struct ovsdb_idl_row *row OVS_UNUSED)
{
    /* Nothing to do. */
}

static void
idltest_simple_unparse_ua(struct ovsdb_idl_row *row_)
{
    struct idltest_simple *row = idltest_simple_cast(row_);

    ovs_assert(inited);
    free(row->ua);
}

static void
idltest_simple_init__(struct ovsdb_idl_row *row)
{
    idltest_simple_init(idltest_simple_cast(row));
}

void
idltest_simple_init(struct idltest_simple *row)
{
    memset(row, 0, sizeof *row); 
}

const struct idltest_simple *
idltest_simple_get_for_uuid(const struct ovsdb_idl *idl, const struct uuid *uuid)
{
    return idltest_simple_cast(ovsdb_idl_get_row_for_uuid(idl, &idltest_table_classes[IDLTEST_TABLE_SIMPLE], uuid));
}

const struct idltest_simple *
idltest_simple_first(const struct ovsdb_idl *idl)
{
    return idltest_simple_cast(ovsdb_idl_first_row(idl, &idltest_table_classes[IDLTEST_TABLE_SIMPLE]));
}

const struct idltest_simple *
idltest_simple_next(const struct idltest_simple *row)
{
    return idltest_simple_cast(ovsdb_idl_next_row(&row->header_));
}

void
idltest_simple_delete(const struct idltest_simple *row)
{
    ovsdb_idl_txn_delete(&row->header_);
}

struct idltest_simple *
idltest_simple_insert(struct ovsdb_idl_txn *txn)
{
    return idltest_simple_cast(ovsdb_idl_txn_insert(txn, &idltest_table_classes[IDLTEST_TABLE_SIMPLE], NULL));
}


void
idltest_simple_verify_b(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_B]);
}

void
idltest_simple_verify_ba(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_BA]);
}

void
idltest_simple_verify_i(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_I]);
}

void
idltest_simple_verify_ia(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_IA]);
}

void
idltest_simple_verify_r(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_R]);
}

void
idltest_simple_verify_ra(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_RA]);
}

void
idltest_simple_verify_s(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_S]);
}

void
idltest_simple_verify_sa(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_SA]);
}

void
idltest_simple_verify_u(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_U]);
}

void
idltest_simple_verify_ua(const struct idltest_simple *row)
{
    ovs_assert(inited);
    ovsdb_idl_txn_verify(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_UA]);
}

/* Returns the b column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_BOOLEAN.
 * (This helps to avoid silent bugs if someone changes b's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_b(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_BOOLEAN);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_b);
}

/* Returns the ba column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_BOOLEAN.
 * (This helps to avoid silent bugs if someone changes ba's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_ba(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_BOOLEAN);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_ba);
}

/* Returns the i column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_INTEGER.
 * (This helps to avoid silent bugs if someone changes i's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_i(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_INTEGER);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_i);
}

/* Returns the ia column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_INTEGER.
 * (This helps to avoid silent bugs if someone changes ia's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_ia(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_INTEGER);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_ia);
}

/* Returns the r column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_REAL.
 * (This helps to avoid silent bugs if someone changes r's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_r(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_REAL);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_r);
}

/* Returns the ra column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_REAL.
 * (This helps to avoid silent bugs if someone changes ra's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_ra(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_REAL);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_ra);
}

/* Returns the s column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_STRING.
 * (This helps to avoid silent bugs if someone changes s's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_s(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_STRING);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_s);
}

/* Returns the sa column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_STRING.
 * (This helps to avoid silent bugs if someone changes sa's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_sa(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_STRING);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_sa);
}

/* Returns the u column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_UUID.
 * (This helps to avoid silent bugs if someone changes u's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_u(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_UUID);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_u);
}

/* Returns the ua column's value in 'row' as a struct ovsdb_datum.
 * This is useful occasionally: for example, ovsdb_datum_find_key() is an
 * easier and more efficient way to search for a given key than implementing
 * the same operation on the "cooked" form in 'row'.
 *
 * 'key_type' must be OVSDB_TYPE_UUID.
 * (This helps to avoid silent bugs if someone changes ua's
 * type without updating the caller.)
 *
 * The caller must not modify or free the returned value.
 *
 * Various kinds of changes can invalidate the returned value: modifying
 * 'column' within 'row', deleting 'row', or completing an ongoing transaction.
 * If the returned value is needed for a long time, it is best to make a copy
 * of it with ovsdb_datum_clone(). */
const struct ovsdb_datum *
idltest_simple_get_ua(const struct idltest_simple *row,
	enum ovsdb_atomic_type key_type OVS_UNUSED)
{
    ovs_assert(key_type == OVSDB_TYPE_UUID);
    return ovsdb_idl_read(&row->header_, &idltest_simple_col_ua);
}

void
idltest_simple_set_b(const struct idltest_simple *row, bool b)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    datum.n = 1;
    datum.keys = &key;
    key.boolean = b;
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_B], &datum);
}

void
idltest_simple_set_ba(const struct idltest_simple *row, const bool *ba, size_t n_ba)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    if (n_ba) {
        datum.n = 1;
        datum.keys = &key;
        key.boolean = *ba;
    } else {
        datum.n = 0;
        datum.keys = NULL;
    }
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_BA], &datum);
}

void
idltest_simple_set_i(const struct idltest_simple *row, int64_t i)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    datum.n = 1;
    datum.keys = &key;
    key.integer = i;
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_I], &datum);
}

void
idltest_simple_set_ia(const struct idltest_simple *row, const int64_t *ia, size_t n_ia)
{
    struct ovsdb_datum datum;
    size_t i;

    ovs_assert(inited);
    datum.n = n_ia;
    datum.keys = n_ia ? xmalloc(n_ia * sizeof *datum.keys) : NULL;
    datum.values = NULL;
    for (i = 0; i < n_ia; i++) {
        datum.keys[i].integer = ia[i];
    }
    ovsdb_datum_sort_unique(&datum, OVSDB_TYPE_INTEGER, OVSDB_TYPE_VOID);
    ovsdb_idl_txn_write(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_IA], &datum);
}

void
idltest_simple_set_r(const struct idltest_simple *row, double r)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    datum.n = 1;
    datum.keys = &key;
    key.real = r;
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_R], &datum);
}

void
idltest_simple_set_ra(const struct idltest_simple *row, const double *ra, size_t n_ra)
{
    struct ovsdb_datum datum;
    size_t i;

    ovs_assert(inited);
    datum.n = n_ra;
    datum.keys = n_ra ? xmalloc(n_ra * sizeof *datum.keys) : NULL;
    datum.values = NULL;
    for (i = 0; i < n_ra; i++) {
        datum.keys[i].real = ra[i];
    }
    ovsdb_datum_sort_unique(&datum, OVSDB_TYPE_REAL, OVSDB_TYPE_VOID);
    ovsdb_idl_txn_write(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_RA], &datum);
}

void
idltest_simple_set_s(const struct idltest_simple *row, const char *s)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    datum.n = 1;
    datum.keys = &key;
    key.string = CONST_CAST(char *, s);
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_S], &datum);
}

void
idltest_simple_set_sa(const struct idltest_simple *row, char **sa, size_t n_sa)
{
    struct ovsdb_datum datum;
    size_t i;

    ovs_assert(inited);
    datum.n = n_sa;
    datum.keys = n_sa ? xmalloc(n_sa * sizeof *datum.keys) : NULL;
    datum.values = NULL;
    for (i = 0; i < n_sa; i++) {
        datum.keys[i].string = xstrdup(sa[i]);
    }
    ovsdb_datum_sort_unique(&datum, OVSDB_TYPE_STRING, OVSDB_TYPE_VOID);
    ovsdb_idl_txn_write(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_SA], &datum);
}

void
idltest_simple_set_u(const struct idltest_simple *row, struct uuid u)
{
    struct ovsdb_datum datum;
    union ovsdb_atom key;

    ovs_assert(inited);
    datum.n = 1;
    datum.keys = &key;
    key.uuid = u;
    datum.values = NULL;
    ovsdb_idl_txn_write_clone(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_U], &datum);
}

void
idltest_simple_set_ua(const struct idltest_simple *row, const struct uuid *ua, size_t n_ua)
{
    struct ovsdb_datum datum;
    size_t i;

    ovs_assert(inited);
    datum.n = n_ua;
    datum.keys = n_ua ? xmalloc(n_ua * sizeof *datum.keys) : NULL;
    datum.values = NULL;
    for (i = 0; i < n_ua; i++) {
        datum.keys[i].uuid = ua[i];
    }
    ovsdb_datum_sort_unique(&datum, OVSDB_TYPE_UUID, OVSDB_TYPE_VOID);
    ovsdb_idl_txn_write(&row->header_, &idltest_simple_columns[IDLTEST_SIMPLE_COL_UA], &datum);
}

struct ovsdb_idl_column idltest_simple_columns[IDLTEST_SIMPLE_N_COLUMNS];

static void
idltest_simple_columns_init(void)
{
    struct ovsdb_idl_column *c;

    /* Initialize idltest_simple_col_b. */
    c = &idltest_simple_col_b;
    c->name = "b";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_BOOLEAN);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 1;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_simple_parse_b;
    c->unparse = idltest_simple_unparse_b;

    /* Initialize idltest_simple_col_ba. */
    c = &idltest_simple_col_ba;
    c->name = "ba";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_BOOLEAN);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 0;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_simple_parse_ba;
    c->unparse = idltest_simple_unparse_ba;

    /* Initialize idltest_simple_col_i. */
    c = &idltest_simple_col_i;
    c->name = "i";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_INTEGER);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 1;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_simple_parse_i;
    c->unparse = idltest_simple_unparse_i;

    /* Initialize idltest_simple_col_ia. */
    c = &idltest_simple_col_ia;
    c->name = "ia";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_INTEGER);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 0;
    c->type.n_max = UINT_MAX;
    c->mutable = true;
    c->parse = idltest_simple_parse_ia;
    c->unparse = idltest_simple_unparse_ia;

    /* Initialize idltest_simple_col_r. */
    c = &idltest_simple_col_r;
    c->name = "r";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_REAL);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 1;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_simple_parse_r;
    c->unparse = idltest_simple_unparse_r;

    /* Initialize idltest_simple_col_ra. */
    c = &idltest_simple_col_ra;
    c->name = "ra";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_REAL);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 0;
    c->type.n_max = UINT_MAX;
    c->mutable = true;
    c->parse = idltest_simple_parse_ra;
    c->unparse = idltest_simple_unparse_ra;

    /* Initialize idltest_simple_col_s. */
    c = &idltest_simple_col_s;
    c->name = "s";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_STRING);
    c->type.key.u.string.minLen = 0;
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 1;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_simple_parse_s;
    c->unparse = idltest_simple_unparse_s;

    /* Initialize idltest_simple_col_sa. */
    c = &idltest_simple_col_sa;
    c->name = "sa";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_STRING);
    c->type.key.u.string.minLen = 0;
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 0;
    c->type.n_max = UINT_MAX;
    c->mutable = true;
    c->parse = idltest_simple_parse_sa;
    c->unparse = idltest_simple_unparse_sa;

    /* Initialize idltest_simple_col_u. */
    c = &idltest_simple_col_u;
    c->name = "u";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_UUID);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 1;
    c->type.n_max = 1;
    c->mutable = true;
    c->parse = idltest_simple_parse_u;
    c->unparse = idltest_simple_unparse_u;

    /* Initialize idltest_simple_col_ua. */
    c = &idltest_simple_col_ua;
    c->name = "ua";
    ovsdb_base_type_init(&c->type.key, OVSDB_TYPE_UUID);
    ovsdb_base_type_init(&c->type.value, OVSDB_TYPE_VOID);
    c->type.n_min = 0;
    c->type.n_max = UINT_MAX;
    c->mutable = true;
    c->parse = idltest_simple_parse_ua;
    c->unparse = idltest_simple_unparse_ua;
}

struct ovsdb_idl_table_class idltest_table_classes[IDLTEST_N_TABLES] = {
    {"link1", true,
     idltest_link1_columns, ARRAY_SIZE(idltest_link1_columns),
     sizeof(struct idltest_link1), idltest_link1_init__},
    {"link2", true,
     idltest_link2_columns, ARRAY_SIZE(idltest_link2_columns),
     sizeof(struct idltest_link2), idltest_link2_init__},
    {"simple", true,
     idltest_simple_columns, ARRAY_SIZE(idltest_simple_columns),
     sizeof(struct idltest_simple), idltest_simple_init__},
};

struct ovsdb_idl_class idltest_idl_class = {
    "idltest", idltest_table_classes, ARRAY_SIZE(idltest_table_classes)
};

void
idltest_init(void)
{
    if (inited) {
        return;
    }
    assert_single_threaded();
    inited = true;

    idltest_link1_columns_init();
    idltest_link2_columns_init();
    idltest_simple_columns_init();
}

/* Return the schema version.  The caller must not free the returned value. */
const char *
idltest_get_db_version(void)
{
    return "1.2.3";
}