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Example 6 with NumberType

use of org.hsqldb_voltpatches.types.NumberType in project voltdb by VoltDB.

the class DatabaseInformationFull method USER_DEFINED_TYPES.

Table USER_DEFINED_TYPES() {
    Table t = sysTables[USER_DEFINED_TYPES];
    if (t == null) {
        t = createBlankTable(sysTableHsqlNames[USER_DEFINED_TYPES]);
        addColumn(t, "USER_DEFINED_TYPE_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "USER_DEFINED_TYPE_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "USER_DEFINED_TYPE_NAME", SQL_IDENTIFIER);
        addColumn(t, "USER_DEFINED_TYPE_CATEGORY", SQL_IDENTIFIER);
        addColumn(t, "IS_INSTANTIABLE", YES_OR_NO);
        addColumn(t, "IS_FINAL", YES_OR_NO);
        addColumn(t, "ORDERING_FORM", SQL_IDENTIFIER);
        addColumn(t, "ORDERING_CATEGORY", SQL_IDENTIFIER);
        addColumn(t, "ORDERING_ROUTINE_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "ORDERING_ROUTINE_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "ORDERING_ROUTINE_NAME", SQL_IDENTIFIER);
        addColumn(t, "REFERENCE_TYPE", SQL_IDENTIFIER);
        addColumn(t, "DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "CHARACTER_MAXIMUM_LENGTH", CARDINAL_NUMBER);
        addColumn(t, "CHARACTER_OCTET_LENGTH", CARDINAL_NUMBER);
        addColumn(t, "CHARACTER_SET_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "CHARACTER_SET_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "CHARACTER_SET_NAME", SQL_IDENTIFIER);
        addColumn(t, "COLLATION_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "COLLATION_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "COLLATION_NAME", SQL_IDENTIFIER);
        addColumn(t, "NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "NUMERIC_PRECISION_RADIX", CARDINAL_NUMBER);
        addColumn(t, "NUMERIC_SCALE", CARDINAL_NUMBER);
        addColumn(t, "DATETIME_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "INTERVAL_TYPE", CHARACTER_DATA);
        addColumn(t, "INTERVAL_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "SOURCE_DTD_IDENTIFIER", CHARACTER_DATA);
        addColumn(t, "REF_DTD_IDENTIFIER", CHARACTER_DATA);
        addColumn(t, "DECLARED_DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "DECLARED_NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "DECLARED_NUMERIC_SCALE", CARDINAL_NUMBER);
        addColumn(t, "EXTERNAL_NAME", CHARACTER_DATA);
        addColumn(t, "EXTERNAL_LANGUAGE", CHARACTER_DATA);
        addColumn(t, "JAVA_INTERFACE", CHARACTER_DATA);
        HsqlName name = HsqlNameManager.newInfoSchemaObjectName(sysTableHsqlNames[USER_DEFINED_TYPES].name, false, SchemaObject.INDEX);
        t.createPrimaryKey(name, new int[] { 0, 1, 2, 4, 5, 6 }, false);
        return t;
    }
    PersistentStore store = database.persistentStoreCollection.getStore(t);
    final int user_defined_type_catalog = 0;
    final int user_defined_type_schema = 1;
    final int user_defined_type_name = 2;
    final int user_defined_type_category = 3;
    final int is_instantiable = 4;
    final int is_final = 5;
    final int ordering_form = 6;
    final int ordering_category = 7;
    final int ordering_routine_catalog = 8;
    final int ordering_routine_schema = 9;
    final int ordering_routine_name = 10;
    final int reference_type = 11;
    final int data_type = 12;
    final int character_maximum_length = 13;
    final int character_octet_length = 14;
    final int character_set_catalog = 15;
    final int character_set_schema = 16;
    final int character_set_name = 17;
    final int collation_catalog = 18;
    final int collation_schema = 19;
    final int collation_name = 20;
    final int numeric_precision = 21;
    final int numeric_precision_radix = 22;
    final int numeric_scale = 23;
    final int datetime_precision = 24;
    final int interval_type = 25;
    final int interval_precision = 26;
    final int source_dtd_identifier = 27;
    final int ref_dtd_identifier = 28;
    final int declared_data_type = 29;
    final int declared_numeric_precision = 30;
    final int declared_numeric_scale = 31;
    Iterator it = database.schemaManager.databaseObjectIterator(SchemaObject.DOMAIN);
    while (it.hasNext()) {
        Type distinct = (Type) it.next();
        if (!distinct.isDistinctType()) {
            continue;
        }
        Object[] data = t.getEmptyRowData();
        data[user_defined_type_catalog] = database.getCatalogName().name;
        data[user_defined_type_schema] = distinct.getSchemaName().name;
        data[user_defined_type_name] = distinct.getName().name;
        data[data_type] = distinct.getFullNameString();
        data[declared_data_type] = distinct.getFullNameString();
        data[user_defined_type_category] = "DISTINCT";
        data[is_instantiable] = "YES";
        data[is_final] = "YES";
        data[ordering_form] = "FULL";
        data[source_dtd_identifier] = distinct.getFullNameString();
        if (distinct.isCharacterType()) {
            data[character_maximum_length] = ValuePool.getLong(distinct.precision);
            data[character_octet_length] = ValuePool.getLong(distinct.precision * 2);
            data[character_set_catalog] = database.getCatalogName().name;
            data[character_set_schema] = ((CharacterType) distinct).getCharacterSet().getSchemaName().name;
            data[character_set_name] = ((CharacterType) distinct).getCharacterSet().getName().name;
            data[collation_catalog] = database.getCatalogName().name;
            data[collation_schema] = ((CharacterType) distinct).getCollation().getSchemaName().name;
            data[collation_name] = ((CharacterType) distinct).getCollation().getName().name;
        } else if (distinct.isNumberType()) {
            data[numeric_precision] = ValuePool.getLong(((NumberType) distinct).getPrecision());
            data[declared_numeric_precision] = ValuePool.getLong(((NumberType) distinct).getPrecision());
            if (distinct.typeCode != Types.SQL_DOUBLE) {
                data[numeric_scale] = ValuePool.getLong(distinct.scale);
                data[declared_numeric_scale] = ValuePool.getLong(distinct.scale);
            }
            data[numeric_precision_radix] = ValuePool.getLong(((NumberType) distinct).getPrecisionRadix());
        } else if (distinct.isBooleanType()) {
        } else if (distinct.isDateTimeType()) {
            data[datetime_precision] = ValuePool.getLong(distinct.scale);
        } else if (distinct.isIntervalType()) {
            data[interval_precision] = ValuePool.getLong(distinct.precision);
            data[interval_type] = distinct.getFullNameString();
            data[datetime_precision] = ValuePool.getLong(distinct.scale);
        } else if (distinct.isBinaryType()) {
            data[character_maximum_length] = ValuePool.getLong(distinct.precision);
            data[character_octet_length] = ValuePool.getLong(distinct.precision);
        } else if (distinct.isBitType()) {
            data[character_maximum_length] = ValuePool.getLong(distinct.precision);
            data[character_octet_length] = ValuePool.getLong(distinct.precision);
        }
    }
    return t;
}
Also used : Type(org.hsqldb_voltpatches.types.Type) CharacterType(org.hsqldb_voltpatches.types.CharacterType) NumberType(org.hsqldb_voltpatches.types.NumberType) IntervalType(org.hsqldb_voltpatches.types.IntervalType) Table(org.hsqldb_voltpatches.Table) TextTable(org.hsqldb_voltpatches.TextTable) Iterator(org.hsqldb_voltpatches.lib.Iterator) WrapperIterator(org.hsqldb_voltpatches.lib.WrapperIterator) PersistentStore(org.hsqldb_voltpatches.persist.PersistentStore) HsqlName(org.hsqldb_voltpatches.HsqlNameManager.HsqlName) SchemaObject(org.hsqldb_voltpatches.SchemaObject) Constraint(org.hsqldb_voltpatches.Constraint)

Example 7 with NumberType

use of org.hsqldb_voltpatches.types.NumberType in project voltdb by VoltDB.

the class DatabaseInformationMain method SYSTEM_SEQUENCES.

final Table SYSTEM_SEQUENCES() {
    Table t = sysTables[SYSTEM_SEQUENCES];
    if (t == null) {
        t = createBlankTable(sysTableHsqlNames[SYSTEM_SEQUENCES]);
        addColumn(t, "SEQUENCE_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "SEQUENCE_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "SEQUENCE_NAME", SQL_IDENTIFIER);
        addColumn(t, "DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "NUMERIC_PRECISION_RADIX", CARDINAL_NUMBER);
        addColumn(t, "NUMERIC_SCALE", CARDINAL_NUMBER);
        addColumn(t, "MAXIMUM_VALUE", CHARACTER_DATA);
        addColumn(t, "MINIMUM_VALUE", CHARACTER_DATA);
        addColumn(t, "INCREMENT", CHARACTER_DATA);
        addColumn(t, "CYCLE_OPTION", YES_OR_NO);
        addColumn(t, "DECLARED_DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "DECLARED_NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "DECLARED_NUMERIC_SCLAE", CARDINAL_NUMBER);
        // HSQLDB-specific
        addColumn(t, "START_WITH", CHARACTER_DATA);
        addColumn(t, "NEXT_VALUE", CHARACTER_DATA);
        // order SEQUENCE_CATALOG, SEQUENCE_SCHEMA, SEQUENCE_NAME
        // false PK, as CATALOG may be null
        HsqlName name = HsqlNameManager.newInfoSchemaObjectName(sysTableHsqlNames[SYSTEM_SEQUENCES].name, false, SchemaObject.INDEX);
        t.createPrimaryKey(name, new int[] { 0, 1, 2 }, false);
        return t;
    }
    PersistentStore store = database.persistentStoreCollection.getStore(t);
    //
    final int sequence_catalog = 0;
    final int sequence_schema = 1;
    final int sequence_name = 2;
    final int data_type = 3;
    final int numeric_precision = 4;
    final int numeric_precision_radix = 5;
    final int numeric_scale = 6;
    final int maximum_value = 7;
    final int minimum_value = 8;
    final int increment = 9;
    final int cycle_option = 10;
    final int declared_data_type = 11;
    final int declared_numeric_precision = 12;
    final int declared_numeric_scale = 13;
    final int start_with = 14;
    final int next_value = 15;
    //
    Iterator it;
    Object[] row;
    NumberSequence sequence;
    it = database.schemaManager.databaseObjectIterator(SchemaObject.SEQUENCE);
    while (it.hasNext()) {
        sequence = (NumberSequence) it.next();
        if (!session.getGrantee().isAccessible(sequence)) {
            continue;
        }
        row = t.getEmptyRowData();
        NumberType type = (NumberType) sequence.getDataType();
        int radix = (type.typeCode == Types.SQL_NUMERIC || type.typeCode == Types.SQL_DECIMAL) ? 10 : 2;
        row[sequence_catalog] = database.getCatalogName().name;
        row[sequence_schema] = sequence.getSchemaName().name;
        row[sequence_name] = sequence.getName().name;
        row[data_type] = sequence.getDataType().getFullNameString();
        row[numeric_precision] = ValuePool.getInt((int) type.getPrecision());
        row[numeric_precision_radix] = ValuePool.getInt(radix);
        row[numeric_scale] = ValuePool.INTEGER_0;
        row[maximum_value] = String.valueOf(sequence.getMaxValue());
        row[minimum_value] = String.valueOf(sequence.getMinValue());
        row[increment] = String.valueOf(sequence.getIncrement());
        row[cycle_option] = sequence.isCycle() ? "YES" : "NO";
        row[declared_data_type] = row[data_type];
        row[declared_numeric_precision] = row[numeric_precision];
        row[declared_numeric_scale] = row[declared_numeric_scale];
        row[start_with] = String.valueOf(sequence.getStartValue());
        row[next_value] = String.valueOf(sequence.peek());
        t.insertSys(store, row);
    }
    return t;
}
Also used : NumberType(org.hsqldb_voltpatches.types.NumberType) Table(org.hsqldb_voltpatches.Table) Iterator(org.hsqldb_voltpatches.lib.Iterator) WrapperIterator(org.hsqldb_voltpatches.lib.WrapperIterator) PersistentStore(org.hsqldb_voltpatches.persist.PersistentStore) NumberSequence(org.hsqldb_voltpatches.NumberSequence) HsqlName(org.hsqldb_voltpatches.HsqlNameManager.HsqlName) SchemaObject(org.hsqldb_voltpatches.SchemaObject) Constraint(org.hsqldb_voltpatches.Constraint)

Example 8 with NumberType

use of org.hsqldb_voltpatches.types.NumberType in project voltdb by VoltDB.

the class DatabaseInformationFull method ROUTINES.

Table ROUTINES() {
    Table t = sysTables[ROUTINES];
    if (t == null) {
        t = createBlankTable(sysTableHsqlNames[ROUTINES]);
        addColumn(t, "SPECIFIC_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "SPECIFIC_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "SPECIFIC_NAME", SQL_IDENTIFIER);
        addColumn(t, "ROUTINE_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "ROUTINE_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "ROUTINE_NAME", SQL_IDENTIFIER);
        addColumn(t, "ROUTINE_TYPE", CHARACTER_DATA);
        addColumn(t, "MODULE_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "MODULE_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "MODULE_NAME", SQL_IDENTIFIER);
        addColumn(t, "UDT_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "UDT_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "UDT_NAME", SQL_IDENTIFIER);
        addColumn(t, "DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "CHARACTER_MAXIMUM_LENGTH", CARDINAL_NUMBER);
        addColumn(t, "CHARACTER_OCTET_LENGTH", CARDINAL_NUMBER);
        addColumn(t, "CHARACTER_SET_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "CHARACTER_SET_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "CHARACTER_SET_NAME", SQL_IDENTIFIER);
        addColumn(t, "COLLATION_CATALOG", SQL_IDENTIFIER);
        //
        addColumn(t, "COLLATION_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "COLLATION_NAME", SQL_IDENTIFIER);
        //
        addColumn(t, "NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "NUMERIC_PRECISION_RADIX", CARDINAL_NUMBER);
        addColumn(t, "NUMERIC_SCALE", CARDINAL_NUMBER);
        addColumn(t, "DATETIME_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "INTERVAL_TYPE", CHARACTER_DATA);
        addColumn(t, "INTERVAL_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "TYPE_UDT_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "TYPE_UDT_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "TYPE_UDT_NAME", SQL_IDENTIFIER);
        addColumn(t, "SCOPE_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "SCOPE_SCHEMA", SQL_IDENTIFIER);
        //
        addColumn(t, "SCOPE_NAME", SQL_IDENTIFIER);
        // NULL (only for array tyes)
        addColumn(t, "MAXIMUM_CARDINALITY", CARDINAL_NUMBER);
        addColumn(t, "DTD_IDENTIFIER", SQL_IDENTIFIER);
        addColumn(t, "ROUTINE_BODY", CHARACTER_DATA);
        addColumn(t, "ROUTINE_DEFINITION", CHARACTER_DATA);
        addColumn(t, "EXTERNAL_NAME", CHARACTER_DATA);
        addColumn(t, "EXTERNAL_LANGUAGE", CHARACTER_DATA);
        addColumn(t, "PARAMETER_STYLE", CHARACTER_DATA);
        addColumn(t, "IS_DETERMINISTIC", YES_OR_NO);
        addColumn(t, "SQL_DATA_ACCESS", CHARACTER_DATA);
        addColumn(t, "IS_NULL_CALL", YES_OR_NO);
        addColumn(t, "SQL_PATH", CHARACTER_DATA);
        //
        addColumn(t, "SCHEMA_LEVEL_ROUTINE", YES_OR_NO);
        addColumn(t, "MAX_DYNAMIC_RESULT_SETS", CARDINAL_NUMBER);
        addColumn(t, "IS_USER_DEFINED_CAST", YES_OR_NO);
        addColumn(t, "IS_IMPLICITLY_INVOCABLE", YES_OR_NO);
        addColumn(t, "SECURITY_TYPE", CHARACTER_DATA);
        addColumn(t, "TO_SQL_SPECIFIC_CATALOG", SQL_IDENTIFIER);
        //
        addColumn(t, "TO_SQL_SPECIFIC_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "TO_SQL_SPECIFIC_NAME", SQL_IDENTIFIER);
        addColumn(t, "AS_LOCATOR", YES_OR_NO);
        addColumn(t, "CREATED", TIME_STAMP);
        addColumn(t, "LAST_ALTERED", TIME_STAMP);
        addColumn(t, "NEW_SAVEPOINT_LEVEL", YES_OR_NO);
        addColumn(t, "IS_UDT_DEPENDENT", YES_OR_NO);
        addColumn(t, "RESULT_CAST_FROM_DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "RESULT_CAST_AS_LOCATOR", YES_OR_NO);
        addColumn(t, "RESULT_CAST_CHAR_MAX_LENGTH", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_CHAR_OCTET_LENGTH", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_CHAR_SET_CATALOG", CHARACTER_DATA);
        addColumn(t, "RESULT_CAST_CHAR_SET_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_CHARACTER_SET_NAME", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_COLLATION_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_COLLATION_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_COLLATION_NAME", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_NUMERIC_RADIX", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_NUMERIC_SCALE", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_DATETIME_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_INTERVAL_TYPE", CHARACTER_DATA);
        addColumn(t, "RESULT_CAST_INTERVAL_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_TYPE_UDT_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_TYPE_UDT_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_TYPE_UDT_NAME", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_SCOPE_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_SCOPE_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_SCOPE_NAME", SQL_IDENTIFIER);
        addColumn(t, "RESULT_CAST_MAX_CARDINALITY", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_DTD_IDENTIFIER", CHARACTER_DATA);
        addColumn(t, "DECLARED_DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "DECLARED_NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "DECLARED_NUMERIC_SCALE", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_FROM_DECLARED_DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "RESULT_CAST_DECLARED_NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "RESULT_CAST_DECLARED_NUMERIC_SCALE", CARDINAL_NUMBER);
        HsqlName name = HsqlNameManager.newInfoSchemaObjectName(sysTableHsqlNames[ROUTINES].name, false, SchemaObject.INDEX);
        t.createPrimaryKey(name, new int[] { 3, 4, 5, 0, 1, 2 }, false);
        return t;
    }
    // column number mappings
    final int specific_catalog = 0;
    final int specific_schema = 1;
    final int specific_name = 2;
    final int routine_catalog = 3;
    final int routine_schema = 4;
    final int routine_name = 5;
    final int routine_type = 6;
    final int module_catalog = 7;
    final int module_schema = 8;
    final int module_name = 9;
    final int udt_catalog = 10;
    final int udt_schema = 11;
    final int udt_name = 12;
    final int data_type = 13;
    final int character_maximum_length = 14;
    final int character_octet_length = 15;
    final int character_set_catalog = 16;
    final int character_set_schema = 17;
    final int character_set_name = 18;
    final int collation_catalog = 19;
    final int collation_schema = 20;
    final int collation_name = 21;
    final int numeric_precision = 22;
    final int numeric_precision_radix = 23;
    final int numeric_scale = 24;
    final int datetime_precision = 25;
    final int interval_type = 26;
    final int interval_precision = 27;
    final int type_udt_catalog = 28;
    final int type_udt_schema = 29;
    final int type_udt_name = 30;
    final int scope_catalog = 31;
    final int scope_schema = 32;
    final int scope_name = 33;
    final int maximum_cardinality = 34;
    final int dtd_identifier = 35;
    final int routine_body = 36;
    final int routine_definition = 37;
    final int external_name = 38;
    final int external_language = 39;
    final int parameter_style = 40;
    final int is_deterministic = 41;
    final int sql_data_access = 42;
    final int is_null_call = 43;
    final int sql_path = 44;
    final int schema_level_routine = 45;
    final int max_dynamic_result_sets = 46;
    final int is_user_defined_cast = 47;
    final int is_implicitly_invocable = 48;
    final int security_type = 49;
    final int to_sql_specific_catalog = 50;
    final int to_sql_specific_schema = 51;
    final int to_sql_specific_name = 52;
    final int as_locator = 53;
    final int created = 54;
    final int last_altered = 55;
    final int new_savepoint_level = 56;
    final int is_udt_dependent = 57;
    final int result_cast_from_data_type = 58;
    final int result_cast_as_locator = 59;
    final int result_cast_char_max_length = 60;
    final int result_cast_char_octet_length = 61;
    final int result_cast_char_set_catalog = 62;
    final int result_cast_char_set_schema = 63;
    final int result_cast_character_set_name = 64;
    final int result_cast_collation_catalog = 65;
    final int result_cast_collation_schema = 66;
    final int result_cast_collation_name = 67;
    final int result_cast_numeric_precision = 68;
    final int result_cast_numeric_radix = 69;
    final int result_cast_numeric_scale = 70;
    final int result_cast_datetime_precision = 71;
    final int result_cast_interval_type = 72;
    final int result_cast_interval_precision = 73;
    final int result_cast_type_udt_catalog = 74;
    final int result_cast_type_udt_schema = 75;
    final int result_cast_type_udt_name = 76;
    final int result_cast_scope_catalog = 77;
    final int result_cast_scope_schema = 78;
    final int result_cast_scope_name = 79;
    final int result_cast_max_cardinality = 80;
    final int result_cast_dtd_identifier = 81;
    final int declared_data_type = 82;
    final int declared_numeric_precision = 83;
    final int declared_numeric_scale = 84;
    final int result_cast_from_declared_data_type = 85;
    final int result_cast_declared_numeric_precision = 86;
    final int result_cast_declared_numeric_scale = 87;
    //
    PersistentStore store = database.persistentStoreCollection.getStore(t);
    Iterator it;
    Object[] row;
    it = database.schemaManager.databaseObjectIterator(SchemaObject.ROUTINE);
    while (it.hasNext()) {
        RoutineSchema routine = (RoutineSchema) it.next();
        if (!session.getGrantee().isAccessible(routine)) {
            continue;
        }
        Routine[] specifics = routine.getSpecificRoutines();
        for (int m = 0; m < specifics.length; m++) {
            row = t.getEmptyRowData();
            Routine specific = specifics[m];
            Type type = specific.isProcedure() ? null : specific.getReturnType();
            //
            row[specific_catalog] = database.getCatalogName().name;
            row[specific_schema] = specific.getSchemaName().name;
            row[specific_name] = specific.getSpecificName().name;
            row[routine_catalog] = database.getCatalogName().name;
            row[routine_schema] = routine.getSchemaName().name;
            row[routine_name] = specific.getName().name;
            row[routine_type] = specific.isProcedure() ? "PROCEDURE" : "FUNCTION";
            row[module_catalog] = null;
            row[module_schema] = null;
            row[module_name] = null;
            row[udt_catalog] = null;
            row[udt_schema] = null;
            row[udt_name] = null;
            row[data_type] = type == null ? null : type.getNameString();
            if (type != null && type.isCharacterType()) {
                row[character_maximum_length] = ValuePool.getLong(type.precision);
                row[character_octet_length] = ValuePool.getLong(type.precision * 2);
                row[character_set_catalog] = database.getCatalogName().name;
                row[character_set_schema] = ((CharacterType) type).getCharacterSet().getSchemaName().name;
                row[character_set_name] = ((CharacterType) type).getCharacterSet().getName().name;
                row[collation_catalog] = database.getCatalogName().name;
                row[collation_schema] = ((CharacterType) type).getCollation().getSchemaName().name;
                row[collation_name] = ((CharacterType) type).getCollation().getName().name;
            }
            if (type != null && type.isNumberType()) {
                row[numeric_precision] = ValuePool.getLong(type.precision);
                row[numeric_precision_radix] = ValuePool.getLong(((NumberType) type).getPrecisionRadix());
                row[numeric_scale] = ValuePool.getLong(type.precision);
            }
            if (type != null && (type.isIntervalType() || type.isDateTimeType())) {
                row[datetime_precision] = ValuePool.getLong(type.scale);
            }
            if (type != null && type.isIntervalType()) {
                row[interval_type] = IntervalType.getQualifier(type.typeCode);
                row[interval_precision] = ValuePool.getLong(type.precision);
            }
            row[type_udt_catalog] = null;
            row[type_udt_schema] = null;
            row[type_udt_name] = null;
            row[scope_catalog] = null;
            row[scope_schema] = null;
            row[scope_name] = null;
            row[maximum_cardinality] = null;
            //**
            row[dtd_identifier] = null;
            row[routine_body] = specific.getLanguage() == Routine.LANGUAGE_JAVA ? "EXTERNAL" : "SQL";
            row[routine_definition] = specific.getSQL();
            row[external_name] = specific.getLanguage() == Routine.LANGUAGE_JAVA ? specific.getMethod().getName() : null;
            row[external_language] = specific.getLanguage() == Routine.LANGUAGE_JAVA ? "JAVA" : null;
            row[parameter_style] = specific.getLanguage() == Routine.LANGUAGE_JAVA ? "JAVA" : null;
            row[is_deterministic] = specific.isDeterministic() ? "YES" : "NO";
            row[sql_data_access] = specific.getDataImpactString();
            row[is_null_call] = type == null ? null : specific.isNullInputOutput() ? "YES" : "NO";
            row[sql_path] = null;
            row[schema_level_routine] = "YES";
            row[max_dynamic_result_sets] = ValuePool.getLong(0);
            row[is_user_defined_cast] = type == null ? null : "NO";
            row[is_implicitly_invocable] = null;
            row[security_type] = "DEFINER";
            row[to_sql_specific_catalog] = null;
            row[to_sql_specific_schema] = null;
            row[to_sql_specific_name] = null;
            row[as_locator] = type == null ? null : "NO";
            row[created] = null;
            row[last_altered] = null;
            row[new_savepoint_level] = "YES";
            row[is_udt_dependent] = null;
            row[result_cast_from_data_type] = null;
            row[result_cast_as_locator] = null;
            row[result_cast_char_max_length] = null;
            row[result_cast_char_octet_length] = null;
            row[result_cast_char_set_catalog] = null;
            row[result_cast_char_set_schema] = null;
            row[result_cast_character_set_name] = null;
            row[result_cast_collation_catalog] = null;
            row[result_cast_collation_schema] = null;
            row[result_cast_collation_name] = null;
            row[result_cast_numeric_precision] = null;
            row[result_cast_numeric_radix] = null;
            row[result_cast_numeric_scale] = null;
            row[result_cast_datetime_precision] = null;
            row[result_cast_interval_type] = null;
            row[result_cast_interval_precision] = null;
            row[result_cast_type_udt_catalog] = null;
            row[result_cast_type_udt_schema] = null;
            row[result_cast_type_udt_name] = null;
            row[result_cast_scope_catalog] = null;
            row[result_cast_scope_schema] = null;
            row[result_cast_scope_name] = null;
            row[result_cast_max_cardinality] = null;
            row[result_cast_dtd_identifier] = null;
            row[declared_data_type] = row[data_type];
            row[declared_numeric_precision] = row[numeric_precision];
            row[declared_numeric_scale] = row[numeric_scale];
            row[result_cast_from_declared_data_type] = null;
            row[result_cast_declared_numeric_precision] = null;
            row[result_cast_declared_numeric_scale] = null;
            t.insertSys(store, row);
        }
    }
    return t;
}
Also used : Type(org.hsqldb_voltpatches.types.Type) CharacterType(org.hsqldb_voltpatches.types.CharacterType) NumberType(org.hsqldb_voltpatches.types.NumberType) IntervalType(org.hsqldb_voltpatches.types.IntervalType) NumberType(org.hsqldb_voltpatches.types.NumberType) Table(org.hsqldb_voltpatches.Table) TextTable(org.hsqldb_voltpatches.TextTable) Iterator(org.hsqldb_voltpatches.lib.Iterator) WrapperIterator(org.hsqldb_voltpatches.lib.WrapperIterator) PersistentStore(org.hsqldb_voltpatches.persist.PersistentStore) HsqlName(org.hsqldb_voltpatches.HsqlNameManager.HsqlName) SchemaObject(org.hsqldb_voltpatches.SchemaObject) Routine(org.hsqldb_voltpatches.Routine) Constraint(org.hsqldb_voltpatches.Constraint) RoutineSchema(org.hsqldb_voltpatches.RoutineSchema)

Example 9 with NumberType

use of org.hsqldb_voltpatches.types.NumberType in project voltdb by VoltDB.

the class DatabaseInformationMain method SEQUENCES.

/**
     * The SEQUENCES view has one row for each external sequence
     * generator. <p>
     *
     * <b>Definition:</b> <p>
     *
     * <pre class="SqlCodeExample">
     *
     *      SEQUENCE_CATALOG     VARCHAR NULL,
     *      SEQUENCE_SCHEMA      VARCHAR NULL,
     *      SEQUENCE_NAME        VARCHAR NOT NULL,
     *      DATA_TYPE            CHARACTER_DATA
     *      DATA_TYPE            CHARACTER_DATA
     *      NUMERIC_PRECISION    CARDINAL_NUMBER
     *      NUMERIC_PRECISION_RADIX CARDINAL_NUMBER
     *      NUMERIC_SCALE        CARDINAL_NUMBER
     *      MAXIMUM_VALUE        VARCHAR NOT NULL,
     *      MINIMUM_VALUE        VARCHAR NOT NULL,
     *      INCREMENT            VARCHAR NOT NULL,
     *      CYCLE_OPTION         VARCHAR {'YES', 'NO'},
     *      START_WITH           VARCHAR NOT NULL,
     *      DECLARED_DATA_TYPE   CHARACTER_DATA
     *      DECLARED_NUMERIC_PRECISION CARDINAL_NUMBER
     *      DECLARED_NUMERIC_SCLAE     CARDINAL_NUMBER
     *
     * </pre>
     *
     * <b>DESCRIPTION:</b><p>
     *
     * <ol>
     * <li> The values of SEQUENCE_CATALOG, SEQUENCE_SCHEMA, and
     *      SEQUENCE_NAME are the catalog name, unqualified schema name,
     *      and qualified identifier, respectively, of the sequence generator
     *      being described. <p>
     *
     * <li> The values of SEQUENCE_CATALOG, SEQUENCE_SCHEMA, SEQUENCE_NAME, and
     *      DTD_IDENTIFIER are the values of OBJECT_CATALOG, OBJECT_SCHEMA,
     *      OBJECT_NAME, and DTD_IDENTIFIER, respectively, of the row in
     *      DATA_TYPE_DESCRIPTOR (not yet implemented) that describes the data
     *      type of the sequence generator. <p>
     *
     * <li> The values of MAXIMUM_VALUE, MINIMUM_VALUE, and INCREMENT are the
     *      character representations of maximum value, minimum value,
     *      and increment, respectively, of the sequence generator being
     *      described. <p>
     *
     * <li> The values of CYCLE_OPTION have the following meanings: <p>
     *
     *      <table border cellpadding="3">
     *          <tr>
     *              <td nowrap>YES</td>
     *              <td nowrap>The cycle option of the sequence generator
     *                         is CYCLE.</td>
     *          <tr>
     *              <td nowrap>NO</td>
     *              <td nowrap>The cycle option of the sequence generator is
     *                         NO CYCLE.</td>
     *          </tr>
     *      </table> <p>
     *
     * <li> The value of START_WITH is HSQLDB-specific (not in the SQL 200n
     *      spec).  <p>
     *
     *      It is the character representation of the START WITH value. <p>
     *
     * <li> The value of NEXT_VALUE is HSQLDB-specific (not in the SQL 200n)<p>
     *      This is the character representation of the value that
     *      would be generated by NEXT VALUE FOR when this sequence
     *      is materialized in an SQL statement. <p>
     * </ol>
     *
     * @return Table
     */
final Table SEQUENCES() {
    Table t = sysTables[SEQUENCES];
    if (t == null) {
        t = createBlankTable(sysTableHsqlNames[SEQUENCES]);
        addColumn(t, "SEQUENCE_CATALOG", SQL_IDENTIFIER);
        addColumn(t, "SEQUENCE_SCHEMA", SQL_IDENTIFIER);
        addColumn(t, "SEQUENCE_NAME", SQL_IDENTIFIER);
        addColumn(t, "DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "NUMERIC_PRECISION_RADIX", CARDINAL_NUMBER);
        addColumn(t, "NUMERIC_SCALE", CARDINAL_NUMBER);
        addColumn(t, "MAXIMUM_VALUE", CHARACTER_DATA);
        addColumn(t, "MINIMUM_VALUE", CHARACTER_DATA);
        addColumn(t, "INCREMENT", CHARACTER_DATA);
        addColumn(t, "CYCLE_OPTION", YES_OR_NO);
        addColumn(t, "DECLARED_DATA_TYPE", CHARACTER_DATA);
        addColumn(t, "DECLARED_NUMERIC_PRECISION", CARDINAL_NUMBER);
        addColumn(t, "DECLARED_NUMERIC_SCLAE", CARDINAL_NUMBER);
        // HSQLDB-specific
        addColumn(t, "START_WITH", CHARACTER_DATA);
        addColumn(t, "NEXT_VALUE", CHARACTER_DATA);
        // order SEQUENCE_CATALOG, SEQUENCE_SCHEMA, SEQUENCE_NAME
        // false PK, as CATALOG may be null
        HsqlName name = HsqlNameManager.newInfoSchemaObjectName(sysTableHsqlNames[SEQUENCES].name, false, SchemaObject.INDEX);
        t.createPrimaryKey(name, new int[] { 0, 1, 2 }, false);
        return t;
    }
    PersistentStore store = database.persistentStoreCollection.getStore(t);
    //
    final int sequence_catalog = 0;
    final int sequence_schema = 1;
    final int sequence_name = 2;
    final int data_type = 3;
    final int numeric_precision = 4;
    final int numeric_precision_radix = 5;
    final int numeric_scale = 6;
    final int maximum_value = 7;
    final int minimum_value = 8;
    final int increment = 9;
    final int cycle_option = 10;
    final int declared_data_type = 11;
    final int declared_numeric_precision = 12;
    final int declared_numeric_scale = 13;
    final int start_with = 14;
    final int next_value = 15;
    //
    Iterator it;
    Object[] row;
    NumberSequence sequence;
    it = database.schemaManager.databaseObjectIterator(SchemaObject.SEQUENCE);
    while (it.hasNext()) {
        sequence = (NumberSequence) it.next();
        if (!session.getGrantee().isAccessible(sequence)) {
            continue;
        }
        row = t.getEmptyRowData();
        NumberType type = (NumberType) sequence.getDataType();
        int radix = (type.typeCode == Types.SQL_NUMERIC || type.typeCode == Types.SQL_DECIMAL) ? 10 : 2;
        row[sequence_catalog] = database.getCatalogName().name;
        row[sequence_schema] = sequence.getSchemaName().name;
        row[sequence_name] = sequence.getName().name;
        row[data_type] = sequence.getDataType().getFullNameString();
        row[numeric_precision] = ValuePool.getInt((int) type.getPrecision());
        row[numeric_precision_radix] = ValuePool.getInt(radix);
        row[numeric_scale] = ValuePool.INTEGER_0;
        row[maximum_value] = String.valueOf(sequence.getMaxValue());
        row[minimum_value] = String.valueOf(sequence.getMinValue());
        row[increment] = String.valueOf(sequence.getIncrement());
        row[cycle_option] = sequence.isCycle() ? "YES" : "NO";
        row[declared_data_type] = row[data_type];
        row[declared_numeric_precision] = row[numeric_precision];
        row[declared_numeric_scale] = row[declared_numeric_scale];
        row[start_with] = String.valueOf(sequence.getStartValue());
        row[next_value] = String.valueOf(sequence.peek());
        t.insertSys(store, row);
    }
    return t;
}
Also used : NumberType(org.hsqldb_voltpatches.types.NumberType) Table(org.hsqldb_voltpatches.Table) Iterator(org.hsqldb_voltpatches.lib.Iterator) WrapperIterator(org.hsqldb_voltpatches.lib.WrapperIterator) PersistentStore(org.hsqldb_voltpatches.persist.PersistentStore) NumberSequence(org.hsqldb_voltpatches.NumberSequence) HsqlName(org.hsqldb_voltpatches.HsqlNameManager.HsqlName) SchemaObject(org.hsqldb_voltpatches.SchemaObject) Constraint(org.hsqldb_voltpatches.Constraint)

Aggregations

NumberType (org.hsqldb_voltpatches.types.NumberType)9 Constraint (org.hsqldb_voltpatches.Constraint)6 HsqlName (org.hsqldb_voltpatches.HsqlNameManager.HsqlName)6 SchemaObject (org.hsqldb_voltpatches.SchemaObject)6 Table (org.hsqldb_voltpatches.Table)6 Iterator (org.hsqldb_voltpatches.lib.Iterator)6 WrapperIterator (org.hsqldb_voltpatches.lib.WrapperIterator)6 PersistentStore (org.hsqldb_voltpatches.persist.PersistentStore)6 CharacterType (org.hsqldb_voltpatches.types.CharacterType)5 IntervalType (org.hsqldb_voltpatches.types.IntervalType)5 Type (org.hsqldb_voltpatches.types.Type)5 TextTable (org.hsqldb_voltpatches.TextTable)4 NumberSequence (org.hsqldb_voltpatches.NumberSequence)3 BinaryData (org.hsqldb_voltpatches.types.BinaryData)2 DTIType (org.hsqldb_voltpatches.types.DTIType)2 BigDecimal (java.math.BigDecimal)1 ColumnSchema (org.hsqldb_voltpatches.ColumnSchema)1 Expression (org.hsqldb_voltpatches.Expression)1 HSQLParseException (org.hsqldb_voltpatches.HSQLInterface.HSQLParseException)1 Routine (org.hsqldb_voltpatches.Routine)1