520 lines
20 KiB
C++
520 lines
20 KiB
C++
////////////////////////////////////////////////////////////////////////////
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//
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// Copyright 2015 Realm Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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////////////////////////////////////////////////////////////////////////////
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#include "object_store.hpp"
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#include "schema.hpp"
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#include <realm/group.hpp>
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#include <realm/link_view.hpp>
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#include <realm/table.hpp>
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#include <realm/table_view.hpp>
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#include <realm/util/assert.hpp>
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#include <string.h>
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using namespace realm;
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const char * const c_metadataTableName = "metadata";
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const char * const c_versionColumnName = "version";
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const size_t c_versionColumnIndex = 0;
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const char * const c_primaryKeyTableName = "pk";
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const char * const c_primaryKeyObjectClassColumnName = "pk_table";
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const size_t c_primaryKeyObjectClassColumnIndex = 0;
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const char * const c_primaryKeyPropertyNameColumnName = "pk_property";
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const size_t c_primaryKeyPropertyNameColumnIndex = 1;
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const size_t c_zeroRowIndex = 0;
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const std::string c_object_table_prefix = "class_";
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const size_t c_object_table_prefix_length = c_object_table_prefix.length();
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const uint64_t ObjectStore::NotVersioned = std::numeric_limits<uint64_t>::max();
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bool ObjectStore::has_metadata_tables(const Group *group) {
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return group->get_table(c_primaryKeyTableName) && group->get_table(c_metadataTableName);
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}
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bool ObjectStore::create_metadata_tables(Group *group) {
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bool changed = false;
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TableRef table = group->get_or_add_table(c_primaryKeyTableName);
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if (table->get_column_count() == 0) {
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table->add_column(type_String, c_primaryKeyObjectClassColumnName);
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table->add_column(type_String, c_primaryKeyPropertyNameColumnName);
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changed = true;
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}
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table = group->get_or_add_table(c_metadataTableName);
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if (table->get_column_count() == 0) {
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table->add_column(type_Int, c_versionColumnName);
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// set initial version
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table->add_empty_row();
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table->set_int(c_versionColumnIndex, c_zeroRowIndex, ObjectStore::NotVersioned);
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changed = true;
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}
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return changed;
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}
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uint64_t ObjectStore::get_schema_version(const Group *group) {
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ConstTableRef table = group->get_table(c_metadataTableName);
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if (!table || table->get_column_count() == 0) {
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return ObjectStore::NotVersioned;
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}
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return table->get_int(c_versionColumnIndex, c_zeroRowIndex);
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}
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void ObjectStore::set_schema_version(Group *group, uint64_t version) {
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TableRef table = group->get_or_add_table(c_metadataTableName);
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table->set_int(c_versionColumnIndex, c_zeroRowIndex, version);
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}
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StringData ObjectStore::get_primary_key_for_object(const Group *group, StringData object_type) {
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ConstTableRef table = group->get_table(c_primaryKeyTableName);
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if (!table) {
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return "";
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}
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size_t row = table->find_first_string(c_primaryKeyObjectClassColumnIndex, object_type);
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if (row == not_found) {
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return "";
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}
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return table->get_string(c_primaryKeyPropertyNameColumnIndex, row);
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}
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void ObjectStore::set_primary_key_for_object(Group *group, StringData object_type, StringData primary_key) {
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TableRef table = group->get_table(c_primaryKeyTableName);
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// get row or create if new object and populate
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size_t row = table->find_first_string(c_primaryKeyObjectClassColumnIndex, object_type);
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if (row == not_found && primary_key.size()) {
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row = table->add_empty_row();
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table->set_string(c_primaryKeyObjectClassColumnIndex, row, object_type);
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}
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// set if changing, or remove if setting to nil
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if (primary_key.size() == 0) {
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if (row != not_found) {
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table->remove(row);
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}
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}
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else {
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table->set_string(c_primaryKeyPropertyNameColumnIndex, row, primary_key);
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}
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}
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std::string ObjectStore::object_type_for_table_name(const std::string &table_name) {
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if (table_name.size() >= c_object_table_prefix_length && table_name.compare(0, c_object_table_prefix_length, c_object_table_prefix) == 0) {
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return table_name.substr(c_object_table_prefix_length, table_name.length() - c_object_table_prefix_length);
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}
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return std::string();
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}
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std::string ObjectStore::table_name_for_object_type(const std::string &object_type) {
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return c_object_table_prefix + object_type;
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}
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TableRef ObjectStore::table_for_object_type(Group *group, StringData object_type) {
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return group->get_table(table_name_for_object_type(object_type));
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}
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ConstTableRef ObjectStore::table_for_object_type(const Group *group, StringData object_type) {
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return group->get_table(table_name_for_object_type(object_type));
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}
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TableRef ObjectStore::table_for_object_type_create_if_needed(Group *group, const StringData &object_type, bool &created) {
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return group->get_or_add_table(table_name_for_object_type(object_type), &created);
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}
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static inline bool property_has_changed(Property const& p1, Property const& p2) {
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return p1.type != p2.type
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|| p1.name != p2.name
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|| p1.object_type != p2.object_type
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|| p1.is_nullable != p2.is_nullable;
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}
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void ObjectStore::verify_schema(Schema const& actual_schema, Schema& target_schema, bool allow_missing_tables) {
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std::vector<ObjectSchemaValidationException> errors;
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for (auto &object_schema : target_schema) {
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auto matching_schema = actual_schema.find(object_schema);
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if (matching_schema == actual_schema.end()) {
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if (!allow_missing_tables) {
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errors.emplace_back(ObjectSchemaValidationException(object_schema.name,
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"Missing table for object type '" + object_schema.name + "'."));
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}
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continue;
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}
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auto more_errors = verify_object_schema(*matching_schema, object_schema);
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errors.insert(errors.end(), more_errors.begin(), more_errors.end());
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}
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if (errors.size()) {
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throw SchemaValidationException(errors);
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}
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}
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std::vector<ObjectSchemaValidationException> ObjectStore::verify_object_schema(ObjectSchema const& table_schema,
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ObjectSchema& target_schema) {
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std::vector<ObjectSchemaValidationException> exceptions;
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// check to see if properties are the same
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for (auto& current_prop : table_schema.properties) {
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auto target_prop = target_schema.property_for_name(current_prop.name);
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if (!target_prop) {
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exceptions.emplace_back(MissingPropertyException(table_schema.name, current_prop));
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continue;
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}
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if (property_has_changed(current_prop, *target_prop)) {
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exceptions.emplace_back(MismatchedPropertiesException(table_schema.name, current_prop, *target_prop));
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continue;
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}
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// create new property with aligned column
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target_prop->table_column = current_prop.table_column;
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}
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// check for change to primary key
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if (table_schema.primary_key != target_schema.primary_key) {
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exceptions.emplace_back(ChangedPrimaryKeyException(table_schema.name, table_schema.primary_key, target_schema.primary_key));
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}
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// check for new missing properties
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for (auto& target_prop : target_schema.properties) {
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if (!table_schema.property_for_name(target_prop.name)) {
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exceptions.emplace_back(ExtraPropertyException(table_schema.name, target_prop));
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}
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}
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return exceptions;
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}
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// set references to tables on targetSchema and create/update any missing or out-of-date tables
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// if update existing is true, updates existing tables, otherwise validates existing tables
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// NOTE: must be called from within write transaction
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bool ObjectStore::create_tables(Group *group, Schema &target_schema, bool update_existing) {
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bool changed = false;
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// first pass to create missing tables
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std::vector<ObjectSchema *> to_update;
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for (auto& object_schema : target_schema) {
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bool created = false;
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ObjectStore::table_for_object_type_create_if_needed(group, object_schema.name, created);
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// we will modify tables for any new objectSchema (table was created) or for all if update_existing is true
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if (update_existing || created) {
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to_update.push_back(&object_schema);
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changed = true;
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}
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}
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// second pass adds/removes columns for out of date tables
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for (auto& target_object_schema : to_update) {
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TableRef table = table_for_object_type(group, target_object_schema->name);
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ObjectSchema current_schema(group, target_object_schema->name);
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std::vector<Property> &target_props = target_object_schema->properties;
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// remove extra columns
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size_t deleted = 0;
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for (auto& current_prop : current_schema.properties) {
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current_prop.table_column -= deleted;
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auto target_prop = target_object_schema->property_for_name(current_prop.name);
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if (!target_prop || property_has_changed(current_prop, *target_prop)) {
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table->remove_column(current_prop.table_column);
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++deleted;
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current_prop.table_column = npos;
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changed = true;
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}
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}
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// add missing columns
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for (auto& target_prop : target_props) {
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auto current_prop = current_schema.property_for_name(target_prop.name);
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// add any new properties (no old column or old column was removed due to not matching)
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if (!current_prop || current_prop->table_column == npos) {
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switch (target_prop.type) {
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// for objects and arrays, we have to specify target table
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case PropertyTypeObject:
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case PropertyTypeArray: {
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TableRef link_table = ObjectStore::table_for_object_type(group, target_prop.object_type);
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target_prop.table_column = table->add_column_link(DataType(target_prop.type), target_prop.name, *link_table);
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break;
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}
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default:
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target_prop.table_column = table->add_column(DataType(target_prop.type),
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target_prop.name,
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target_prop.is_nullable);
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break;
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}
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changed = true;
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}
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else {
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target_prop.table_column = current_prop->table_column;
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}
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}
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// update table metadata
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if (target_object_schema->primary_key.length()) {
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// if there is a primary key set, check if it is the same as the old key
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if (current_schema.primary_key != target_object_schema->primary_key) {
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set_primary_key_for_object(group, target_object_schema->name, target_object_schema->primary_key);
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changed = true;
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}
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}
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else if (current_schema.primary_key.length()) {
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// there is no primary key, so if there was one nil out
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set_primary_key_for_object(group, target_object_schema->name, "");
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changed = true;
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}
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}
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return changed;
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}
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bool ObjectStore::is_schema_at_version(const Group *group, uint64_t version) {
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uint64_t old_version = get_schema_version(group);
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if (old_version > version && old_version != NotVersioned) {
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throw InvalidSchemaVersionException(old_version, version);
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}
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return old_version == version;
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}
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bool ObjectStore::needs_update(Schema const& old_schema, Schema const& schema) {
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for (auto const& target_schema : schema) {
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auto matching_schema = old_schema.find(target_schema);
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if (matching_schema == end(old_schema)) {
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// Table doesn't exist
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return true;
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}
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if (matching_schema->properties.size() != target_schema.properties.size()) {
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// If the number of properties don't match then a migration is required
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return false;
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}
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// Check that all of the property indexes are up to date
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for (size_t i = 0, count = target_schema.properties.size(); i < count; ++i) {
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if (target_schema.properties[i].is_indexed != matching_schema->properties[i].is_indexed) {
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return true;
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}
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}
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}
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return false;
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}
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bool ObjectStore::update_realm_with_schema(Group *group, Schema const& old_schema,
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uint64_t version, Schema &schema,
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MigrationFunction migration) {
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// Recheck the schema version after beginning the write transaction as
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// another process may have done the migration after we opened the read
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// transaction
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bool migrating = !is_schema_at_version(group, version);
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// create tables
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bool changed = create_metadata_tables(group);
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changed = create_tables(group, schema, migrating) || changed;
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if (!migrating) {
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// If we aren't migrating, then verify that all of the tables which
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// were already present are valid (newly created ones always are)
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verify_schema(old_schema, schema, true);
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}
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changed = update_indexes(group, schema) || changed;
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if (!migrating) {
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return changed;
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}
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// apply the migration block if provided and there's any old data
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if (get_schema_version(group) != ObjectStore::NotVersioned) {
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migration(group, schema);
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validate_primary_column_uniqueness(group, schema);
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}
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set_schema_version(group, version);
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return true;
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}
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Schema ObjectStore::schema_from_group(const Group *group) {
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std::vector<ObjectSchema> schema;
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for (size_t i = 0; i < group->size(); i++) {
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std::string object_type = object_type_for_table_name(group->get_table_name(i));
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if (object_type.length()) {
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schema.emplace_back(group, object_type);
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}
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}
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return schema;
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}
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bool ObjectStore::update_indexes(Group *group, Schema &schema) {
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bool changed = false;
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for (auto& object_schema : schema) {
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TableRef table = table_for_object_type(group, object_schema.name);
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if (!table) {
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continue;
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}
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for (auto& property : object_schema.properties) {
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if (property.requires_index() == table->has_search_index(property.table_column)) {
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continue;
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}
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changed = true;
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if (property.requires_index()) {
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try {
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table->add_search_index(property.table_column);
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}
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catch (LogicError const&) {
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throw PropertyTypeNotIndexableException(object_schema.name, property);
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}
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}
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else {
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table->remove_search_index(property.table_column);
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}
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}
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}
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return changed;
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}
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void ObjectStore::validate_primary_column_uniqueness(const Group *group, Schema const& schema) {
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for (auto& object_schema : schema) {
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auto primary_prop = object_schema.primary_key_property();
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if (!primary_prop) {
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continue;
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}
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ConstTableRef table = table_for_object_type(group, object_schema.name);
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if (table->get_distinct_view(primary_prop->table_column).size() != table->size()) {
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throw DuplicatePrimaryKeyValueException(object_schema.name, *primary_prop);
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}
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}
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}
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void ObjectStore::delete_data_for_object(Group *group, const StringData &object_type) {
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TableRef table = table_for_object_type(group, object_type);
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if (table) {
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group->remove_table(table->get_index_in_group());
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set_primary_key_for_object(group, object_type, "");
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}
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}
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InvalidSchemaVersionException::InvalidSchemaVersionException(uint64_t old_version, uint64_t new_version) :
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m_old_version(old_version), m_new_version(new_version)
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{
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m_what = "Provided schema version " + std::to_string(old_version) + " is less than last set version " + std::to_string(new_version) + ".";
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}
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DuplicatePrimaryKeyValueException::DuplicatePrimaryKeyValueException(std::string const& object_type, Property const& property) :
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m_object_type(object_type), m_property(property)
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{
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m_what = "Primary key property '" + property.name + "' has duplicate values after migration.";
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};
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SchemaValidationException::SchemaValidationException(std::vector<ObjectSchemaValidationException> const& errors) :
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m_validation_errors(errors)
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{
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m_what ="Migration is required due to the following errors: ";
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for (auto const& error : errors) {
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m_what += std::string("\n- ") + error.what();
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}
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}
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PropertyTypeNotIndexableException::PropertyTypeNotIndexableException(std::string const& object_type, Property const& property) :
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ObjectSchemaPropertyException(object_type, property)
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{
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m_what = "Can't index property " + object_type + "." + property.name + ": indexing a property of type '" + string_for_property_type(property.type) + "' is currently not supported";
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}
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ExtraPropertyException::ExtraPropertyException(std::string const& object_type, Property const& property) :
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ObjectSchemaPropertyException(object_type, property)
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{
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m_what = "Property '" + property.name + "' has been added to latest object model.";
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}
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MissingPropertyException::MissingPropertyException(std::string const& object_type, Property const& property) :
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ObjectSchemaPropertyException(object_type, property)
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{
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m_what = "Property '" + property.name + "' is missing from latest object model.";
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}
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InvalidNullabilityException::InvalidNullabilityException(std::string const& object_type, Property const& property) :
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ObjectSchemaPropertyException(object_type, property)
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{
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if (property.type == PropertyTypeObject) {
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m_what = "'Object' property '" + property.name + "' must be nullable.";
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}
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else {
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#if REALM_NULL_STRINGS == 1
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m_what = "Array or Mixed property '" + property.name + "' cannot be nullable";
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#else
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m_what = "Only 'Object' property types are nullable";
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#endif
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}
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}
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MissingObjectTypeException::MissingObjectTypeException(std::string const& object_type, Property const& property) :
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ObjectSchemaPropertyException(object_type, property)
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{
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m_what = "Target type '" + property.object_type + "' doesn't exist for property '" + property.name + "'.";
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}
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MismatchedPropertiesException::MismatchedPropertiesException(std::string const& object_type, Property const& old_property, Property const& new_property) :
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ObjectSchemaValidationException(object_type), m_old_property(old_property), m_new_property(new_property)
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{
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if (new_property.type != old_property.type) {
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m_what = "Property types for '" + old_property.name + "' property do not match. Old type '" + string_for_property_type(old_property.type) +
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"', new type '" + string_for_property_type(new_property.type) + "'";
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}
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else if (new_property.object_type != old_property.object_type) {
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m_what = "Target object type for property '" + old_property.name + "' do not match. Old type '" + old_property.object_type + "', new type '" + new_property.object_type + "'";
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}
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else if (new_property.is_nullable != old_property.is_nullable) {
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m_what = "Nullability for property '" + old_property.name + "' has changed from '" + std::to_string(old_property.is_nullable) + "' to '" + std::to_string(new_property.is_nullable) + "'.";
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}
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}
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ChangedPrimaryKeyException::ChangedPrimaryKeyException(std::string const& object_type, std::string const& old_primary, std::string const& new_primary) : ObjectSchemaValidationException(object_type), m_old_primary(old_primary), m_new_primary(new_primary)
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{
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if (old_primary.size()) {
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m_what = "Property '" + old_primary + "' is no longer a primary key.";
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}
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else {
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m_what = "Property '" + new_primary + "' has been made a primary key.";
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}
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}
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InvalidPrimaryKeyException::InvalidPrimaryKeyException(std::string const& object_type, std::string const& primary) :
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ObjectSchemaValidationException(object_type), m_primary_key(primary)
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{
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m_what = "Specified primary key property '" + primary + "' does not exist.";
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}
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DuplicatePrimaryKeysException::DuplicatePrimaryKeysException(std::string const& object_type) : ObjectSchemaValidationException(object_type)
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{
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m_what = "Duplicate primary keys for object '" + object_type + "'.";
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}
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