require './test/test_helper' Cfg.connection :op_timeout => 10 Cfg.db class TestCollection < MiniTest::Unit::TestCase def setup Cfg.clear_all end def test_capped_method Cfg.db.create_collection('normal').insert('x'=>3) assert !Cfg.db['normal'].capped? Cfg.db.create_collection('c', :capped => true, :size => 100_000).insert('g'=>4) assert Cfg.db['c'].capped? end def test_optional_pk_factory @coll_default_pk = Cfg.db.collection('stuff') assert_equal BSON::ObjectId, @coll_default_pk.pk_factory @coll_default_pk = Cfg.db.create_collection('more-stuff') assert_equal BSON::ObjectId, @coll_default_pk.pk_factory # Create a db with a pk_factory. @db = Connection.new(ENV['MONGO_RUBY_DRIVER_HOST'] || 'localhost', ENV['MONGO_RUBY_DRIVER_PORT'] || Connection::DEFAULT_PORT).db(MONGO_TEST_DB, :pk => Object.new) @coll = @db.collection('coll-with-pk') assert @coll.pk_factory.is_a?(Object) @coll = @db.create_collection('created_coll_with_pk') assert @coll.pk_factory.is_a?(Object) end class TestPK def self.create_pk end end def test_pk_factory_on_collection @coll2 = Collection.new('foo', Cfg.db, :pk => TestPK) assert_equal TestPK, @coll2.pk_factory end def test_valid_names assert_raises Mongo::InvalidNSName do Cfg.db["te$t"] end assert_raises Mongo::InvalidNSName do Cfg.db['$main'] end assert Cfg.db['$cmd'] assert Cfg.db['oplog.$main'] end def test_collection assert_kind_of Collection, Cfg.db["test"] assert_equal Cfg.db["test"].name(), Cfg.db.collection("test").name() assert_equal Cfg.db["test"].name(), Cfg.db[:test].name() assert_kind_of Collection, Cfg.db["test"]["foo"] assert_equal Cfg.db["test"]["foo"].name(), Cfg.db.collection("test.foo").name() assert_equal Cfg.db["test"]["foo"].name(), Cfg.db["test.foo"].name() Cfg.db["test"]["foo"].remove Cfg.db["test"]["foo"].insert("x" => 5) assert_equal 5, Cfg.db.collection("test.foo").find_one()["x"] end def test_rename_collection @col = Cfg.db.create_collection('foo1') @col.insert("x" => 5) #must insert something to actually create collection assert_equal 'foo1', @col.name @col.rename('bar1') assert_equal 'bar1', @col.name end def test_nil_id skip("The Java driver does not allow nil _id") assert_equal 5, Cfg.test.insert({"_id" => 5, "foo" => "bar"}, {:safe => true}) assert_equal 5, Cfg.test.save({"_id" => 5, "foo" => "baz"}, {:safe => true}) assert_equal nil, Cfg.test.find_one("foo" => "bar") assert_equal "baz", Cfg.test.find_one(:_id => 5)["foo"] assert_raises OperationFailure do Cfg.test.insert({"_id" => 5, "foo" => "bar"}, {:safe => true}) end assert_equal nil, Cfg.test.insert({"_id" => nil, "foo" => "bar"}, {:safe => true}) assert_equal nil, Cfg.test.save({"_id" => nil, "foo" => "baz"}, {:safe => true}) assert_equal nil, Cfg.test.find_one("foo" => "bar") assert_equal "baz", Cfg.test.find_one(:_id => nil)["foo"] assert_raises OperationFailure do Cfg.test.insert({"_id" => nil, "foo" => "bar"}, {:safe => true}) end assert_raises OperationFailure do Cfg.test.insert({:_id => nil, "foo" => "bar"}, {:safe => true}) end end if Cfg.version > "1.1" def setup_for_distinct Cfg.test.remove Cfg.test.insert([{:a => 0, :b => {:c => "a"}}, {:a => 1, :b => {:c => "b"}}, {:a => 1, :b => {:c => "c"}}, {:a => 2, :b => {:c => "a"}}, {:a => 3}, {:a => 3}]) end def test_distinct_queries setup_for_distinct assert_equal [0, 1, 2, 3], Cfg.test.distinct(:a).sort assert_equal ["a", "b", "c"], Cfg.test.distinct("b.c").sort end if Cfg.version >= "1.2" def test_filter_collection_with_query setup_for_distinct assert_equal [2, 3], Cfg.test.distinct(:a, {:a => {"$gt" => 1}}).sort end def test_filter_nested_objects setup_for_distinct assert_equal ["a", "b"], Cfg.test.distinct("b.c", {"b.c" => {"$ne" => "c"}}).sort end end end def test_safe_insert Cfg.test.create_index("hello", :unique => true) a = {"hello" => "world"} Cfg.test.insert(a) Cfg.test.insert(a) assert(Cfg.db.get_last_error['err'].include?("11000")) assert_raises OperationFailure do Cfg.test.insert(a, :safe => true) end end def test_bulk_insert_with_continue_on_error if Cfg.version >= "2.0" Cfg.test.create_index([["foo", 1]], :unique => true) docs = [] docs << {:foo => 1} docs << {:foo => 1} docs << {:foo => 2} docs << {:foo => 3} assert_raises OperationFailure do Cfg.test.insert(docs, :safe => true) end assert_equal 1, Cfg.test.count Cfg.test.remove docs = [] docs << {:foo => 1} docs << {:foo => 1} docs << {:foo => 2} docs << {:foo => 3} docs << {:foo => 3} assert_raises OperationFailure do Cfg.test.insert(docs, :safe => true, :continue_on_error => true) end assert_equal 3, Cfg.test.count Cfg.test.remove Cfg.test.drop_index("foo_1") end end def test_maximum_insert_size skip("The Java driver does not enforce a maximum") docs = [] 16.times do docs << {'foo' => 'a' * 1_000_000} end assert_raises InvalidOperation do Cfg.test.insert(docs) end end def test_update id1 = Cfg.test.save("x" => 5) Cfg.test.update({}, {"$inc" => {"x" => 1}}) assert_equal 1, Cfg.test.count() assert_equal 6, Cfg.test.find_one(:_id => id1)["x"] id2 = Cfg.test.save("x" => 1) Cfg.test.update({"x" => 6}, {"$inc" => {"x" => 1}}) assert_equal 7, Cfg.test.find_one(:_id => id1)["x"] assert_equal 1, Cfg.test.find_one(:_id => id2)["x"] end def test_multi_update Cfg.test.save("num" => 10) Cfg.test.save("num" => 10) Cfg.test.save("num" => 10) assert_equal 3, Cfg.test.count Cfg.test.update({"num" => 10}, {"$set" => {"num" => 100}}, :multi => true) Cfg.test.find.each do |doc| assert_equal 100, doc["num"] end end def test_upsert Cfg.test.update({"page" => "/"}, {"$inc" => {"count" => 1}}, :upsert => true) Cfg.test.update({"page" => "/"}, {"$inc" => {"count" => 1}}, :upsert => true) assert_equal 1, Cfg.test.count() assert_equal 2, Cfg.test.find_one()["count"] end def test_safe_update Cfg.test.create_index("x", :unique => true) Cfg.test.insert("x" => 5) Cfg.test.insert("x" => 10) # Can update an indexed collection. Cfg.test.update({}, {"$inc" => {"x" => 1}}) assert !Cfg.db.error? # Can't duplicate an index. assert_raises OperationFailure do Cfg.test.update({}, {"x" => 10}, :safe => true) end end def test_safe_save Cfg.test.create_index("hello", :unique => true) Cfg.test.save("hello" => "world") Cfg.test.save("hello" => "world") assert_raises OperationFailure do Cfg.test.save({"hello" => "world"}, :safe => true) end end def test_safe_remove @conn = Cfg.new_connection @db = @conn[MONGO_TEST_DB] @test = @db['test-safe-remove'] @test.save({:a => 50}) assert_equal 1, @test.remove({}, :safe => true)["n"] @test.drop end def test_remove_return_value assert_equal true, Cfg.test.remove({}) end def test_count assert_equal 0, Cfg.test.count Cfg.test.save(:x => 1) Cfg.test.save(:x => 2) assert_equal 2, Cfg.test.count assert_equal 1, Cfg.test.count(:query => {:x => 1}) assert_equal 1, Cfg.test.count(:limit => 1) assert_equal 0, Cfg.test.count(:skip => 2) end # Note: #size is just an alias for #count. def test_size assert_equal 0, Cfg.test.count assert_equal Cfg.test.size, Cfg.test.count Cfg.test.save("x" => 1) Cfg.test.save("x" => 2) assert_equal Cfg.test.size, Cfg.test.count end def test_no_timeout_option assert_raises ArgumentError, "Timeout can be set to false only when #find is invoked with a block." do Cfg.test.find({}, :timeout => false) end Cfg.test.find({}, :timeout => false) do |cursor| assert_equal 0, cursor.count end Cfg.test.save("x" => 1) Cfg.test.save("x" => 2) Cfg.test.find({}, :timeout => false) do |cursor| assert_equal 2, cursor.count end end def test_default_timeout cursor = Cfg.test.find assert_equal true, cursor.timeout end def test_fields_as_hash Cfg.test.save(:a => 1, :b => 1, :c => 1) doc = Cfg.test.find_one({:a => 1}, :fields => {:b => 0}) assert_nil doc['b'] assert doc['a'] assert doc['c'] doc = Cfg.test.find_one({:a => 1}, :fields => {:a => 1, :b => 1}) assert_nil doc['c'] assert doc['a'] assert doc['b'] assert_raises Mongo::OperationFailure do Cfg.test.find_one({:a => 1}, :fields => {:a => 1, :b => 0}) end end if Cfg.version >= "1.5.1" def test_fields_with_slice Cfg.test.save({:foo => [1, 2, 3, 4, 5, 6], :test => 'slice'}) doc = Cfg.test.find_one({:test => 'slice'}, :fields => {'foo' => {'$slice' => [0, 3]}}) assert_equal [1, 2, 3], doc['foo'] Cfg.test.remove end end def test_find_one id = Cfg.test.save("hello" => "world", "foo" => "bar") assert_equal "world", Cfg.test.find_one()["hello"] assert_equal Cfg.test.find_one(id), Cfg.test.find_one() assert_equal Cfg.test.find_one(nil), Cfg.test.find_one() assert_equal Cfg.test.find_one({}), Cfg.test.find_one() assert_equal Cfg.test.find_one("hello" => "world"), Cfg.test.find_one() assert_equal Cfg.test.find_one(BSON::OrderedHash["hello", "world"]), Cfg.test.find_one() assert Cfg.test.find_one(nil, :fields => ["hello"]).include?("hello") assert !Cfg.test.find_one(nil, :fields => ["foo"]).include?("hello") assert_equal ["_id"], Cfg.test.find_one(nil, :fields => []).keys() assert_equal nil, Cfg.test.find_one("hello" => "foo") assert_equal nil, Cfg.test.find_one(BSON::OrderedHash["hello", "foo"]) assert_equal nil, Cfg.test.find_one(ObjectId.new) assert_raises TypeError do Cfg.test.find_one(6) end end def test_insert_adds_id doc = {"hello" => "world"} Cfg.test.insert(doc) assert(doc.include?(:_id) || doc.include?('_id')) docs = [{"hello" => "world"}, {"hello" => "world"}] Cfg.test.insert(docs) docs.each do |d| assert(d.include?(:_id) || doc.include?('_id')) end end def test_save_adds_id doc = {"hello" => "world"} Cfg.test.save(doc) assert(doc.include?(:_id) || doc.include?('_id')) end def test_optional_find_block 10.times do |i| Cfg.test.save("i" => i) end x = nil Cfg.test.find("i" => 2) { |cursor| x = cursor.count() } assert_equal 1, x i = 0 Cfg.test.find({}, :skip => 5) do |cursor| cursor.each do |doc| i = i + 1 end end assert_equal 5, i c = nil Cfg.test.find() do |cursor| c = cursor end assert c.closed? end def test_map_reduce Cfg.test << { "user_id" => 1 } Cfg.test << { "user_id" => 2 } m = "function() { emit(this.user_id, 1); }" r = "function(k,vals) { return 1; }" res = Cfg.test.map_reduce(m, r, :out => 'foo'); assert res.find_one({"_id" => 1}) assert res.find_one({"_id" => 2}) end def test_map_reduce_with_code_objects Cfg.test << { "user_id" => 1 } Cfg.test << { "user_id" => 2 } m = Code.new("function() { emit(this.user_id, 1); }") r = Code.new("function(k,vals) { return 1; }") res = Cfg.test.map_reduce(m, r, :out => 'foo'); assert res.find_one({"_id" => 1}) assert res.find_one({"_id" => 2}) end def test_map_reduce_with_options Cfg.test << { "user_id" => 1 } Cfg.test << { "user_id" => 2 } Cfg.test << { "user_id" => 3 } m = Code.new("function() { emit(this.user_id, 1); }") r = Code.new("function(k,vals) { return 1; }") res = Cfg.test.map_reduce(m, r, :query => {"user_id" => {"$gt" => 1}}, :out => 'foo'); assert_equal 2, res.count assert res.find_one({"_id" => 2}) assert res.find_one({"_id" => 3}) end def test_map_reduce_with_raw_response Cfg.test << { "user_id" => 1 } Cfg.test << { "user_id" => 2 } Cfg.test << { "user_id" => 3 } m = Code.new("function() { emit(this.user_id, 1); }") r = Code.new("function(k,vals) { return 1; }") res = Cfg.test.map_reduce(m, r, :raw => true, :out => 'foo') assert res["result"] assert res["counts"] assert res["timeMillis"] end def test_map_reduce_with_output_collection Cfg.test << { "user_id" => 1 } Cfg.test << { "user_id" => 2 } Cfg.test << { "user_id" => 3 } output_collection = "test-map-coll" m = Code.new("function() { emit(this.user_id, 1); }") r = Code.new("function(k,vals) { return 1; }") res = Cfg.test.map_reduce(m, r, :raw => true, :out => output_collection) assert_equal output_collection, res["result"] assert res["counts"] assert res["timeMillis"] end if Cfg.version >= "1.8.0" def test_map_reduce_with_collection_merge Cfg.test << {:user_id => 1} Cfg.test << {:user_id => 2} output_collection = "test-map-coll" m = Code.new("function() { emit(this.user_id, {count: 1}); }") r = Code.new("function(k,vals) { var sum = 0;" + " vals.forEach(function(v) { sum += v.count;} ); return {count: sum}; }") res = Cfg.test.map_reduce(m, r, :out => output_collection) Cfg.test.remove Cfg.test << {:user_id => 3} res = Cfg.test.map_reduce(m, r, :out => {:merge => output_collection}) assert res.find.to_a.any? {|doc| doc["_id"] == 3 && doc["value"]["count"] == 1} Cfg.test.remove Cfg.test << {:user_id => 3} res = Cfg.test.map_reduce(m, r, :out => {:reduce => output_collection}) assert res.find.to_a.any? {|doc| doc["_id"] == 3 && doc["value"]["count"] == 2} assert_raises ArgumentError do Cfg.test.map_reduce(m, r, :out => {:inline => 1}) end Cfg.test.map_reduce(m, r, :raw => true, :out => {:inline => 1}) assert res["results"] end end if Cfg.version > "1.3.0" def test_find_and_modify Cfg.test << { :a => 1, :processed => false } Cfg.test << { :a => 2, :processed => false } Cfg.test << { :a => 3, :processed => false } Cfg.test.find_and_modify(:query => {}, :sort => [['a', -1]], :update => {"$set" => {:processed => true}}) assert Cfg.test.find_one({:a => 3})['processed'] end def test_find_and_modify_with_invalid_options Cfg.test << { :a => 1, :processed => false } Cfg.test << { :a => 2, :processed => false } Cfg.test << { :a => 3, :processed => false } assert_raises Mongo::OperationFailure do Cfg.test.find_and_modify(:blimey => {}) end end end if Cfg.version >= "1.3.5" def test_coll_stats Cfg.test << {:n => 1} Cfg.test.create_index("n") stats = Cfg.test.stats assert_equal "#{MONGO_TEST_DB}.test", stats['ns'] end end def test_saving_dates_pre_epoch begin Cfg.test.save({'date' => Time.utc(1600)}) assert_in_delta Time.utc(1600), Cfg.test.find_one()["date"], 2 rescue ArgumentError # See note in test_date_before_epoch (BSONTest) end end def test_save_symbol_find_string Cfg.test.save(:foo => :mike, :foo1 => 'mike') assert_equal :mike, Cfg.test.find_one(:foo => :mike)["foo"] assert_equal :mike, Cfg.test.find_one("foo" => :mike)["foo"] assert_equal 'mike', Cfg.test.find_one("foo" => :mike)["foo1"] assert_equal :mike, Cfg.test.find_one(:foo => "mike")["foo"] assert_equal :mike, Cfg.test.find_one("foo" => "mike")["foo"] end def test_limit_and_skip 10.times do |i| Cfg.test.save(:foo => i) end assert_equal 5, Cfg.test.find({}, :skip => 5).next_document()["foo"] assert_equal nil, Cfg.test.find({}, :skip => 10).next_document() assert_equal 5, Cfg.test.find({}, :limit => 5).to_a.length assert_equal 3, Cfg.test.find({}, :skip => 3, :limit => 5).next_document()["foo"] assert_equal 5, Cfg.test.find({}, :skip => 3, :limit => 5).to_a.length end def test_large_limit 2000.times do |i| Cfg.test.insert("x" => i, "y" => "mongomongo" * 1000) end assert_equal 2000, Cfg.test.count i = 0 y = 0 Cfg.test.find({}, :limit => 1900).each do |doc| i += 1 y += doc["x"] end assert_equal 1900, i assert_equal 1804050, y end def test_small_limit Cfg.test.insert("x" => "hello world") Cfg.test.insert("x" => "goodbye world") assert_equal 2, Cfg.test.count x = 0 Cfg.test.find({}, :limit => 1).each do |doc| x += 1 assert_equal "hello world", doc["x"] end assert_equal 1, x end def test_find_with_transformer klass = Struct.new(:id, :a) transformer = Proc.new { |doc| klass.new(doc['_id'], doc['a']) } cursor = Cfg.test.find({}, :transformer => transformer) assert_equal(transformer, cursor.transformer) end def test_find_one_with_transformer klass = Struct.new(:id, :a) transformer = Proc.new { |doc| klass.new(doc['_id'], doc['a']) } id = Cfg.test.insert('a' => 1) doc = Cfg.test.find_one(id, :transformer => transformer) assert_instance_of(klass, doc) end def test_ensure_index Cfg.test.drop_indexes Cfg.test.insert("x" => "hello world") assert_equal 1, Cfg.test.index_information.keys.count #default index Cfg.test.ensure_index([["x", Mongo::DESCENDING]], {}) assert_equal 2, Cfg.test.index_information.keys.count assert Cfg.test.index_information.keys.include? "x_-1" Cfg.test.ensure_index([["x", Mongo::ASCENDING]]) assert Cfg.test.index_information.keys.include? "x_1" Cfg.test.ensure_index([["type", 1], ["date", -1]]) assert Cfg.test.index_information.keys.include? "type_1_date_-1" Cfg.test.drop_index("x_1") assert_equal 3, Cfg.test.index_information.keys.count Cfg.test.drop_index("x_-1") assert_equal 2, Cfg.test.index_information.keys.count Cfg.test.ensure_index([["x", Mongo::DESCENDING]], {}) assert_equal 3, Cfg.test.index_information.keys.count assert Cfg.test.index_information.keys.include? "x_-1" # Make sure that drop_index expires cache properly Cfg.test.ensure_index([['a', 1]]) assert Cfg.test.index_information.keys.include?("a_1") Cfg.test.drop_index("a_1") assert !Cfg.test.index_information.keys.include?("a_1") Cfg.test.ensure_index([['a', 1]]) assert Cfg.test.index_information.keys.include?("a_1") Cfg.test.drop_index("a_1") end end require 'minitest/spec' describe "Collection" do before do Cfg.clear_all end describe "Grouping" do before do Cfg.test.save("a" => 1) Cfg.test.save("b" => 1) @initial = {"count" => 0} @reduce_function = "function (obj, prev) { prev.count += inc_value; }" @grp_opts = {:initial => @initial, :reduce => BSON::Code.new(@reduce_function, {"inc_value" => 1})} end it "should fail if missing required options" do lambda { Cfg.test.group(:initial => {}) }.must_raise Mongo::MongoArgumentError lambda { Cfg.test.group(:reduce => "foo") }.must_raise Mongo::MongoArgumentError end it "should group results using eval form" do @grp_opts[:reduce] = BSON::Code.new(@reduce_function, {"inc_value" => 0.5}) Cfg.test.group( @grp_opts )[0]["count"].must_equal 1 @grp_opts[:reduce] = BSON::Code.new(@reduce_function, {"inc_value" => 1}) Cfg.test.group( @grp_opts )[0]["count"].must_equal 2 @grp_opts[:reduce] = BSON::Code.new(@reduce_function, {"inc_value" => 2}) Cfg.test.group( @grp_opts )[0]["count"].must_equal 4 end it "should finalize grouped results" do @grp_opts[:finalize] = "function(doc) {doc.f = doc.count + 200; }" Cfg.test.group( @grp_opts )[0]["f"].must_equal 202 end end describe "Grouping with key" do before do Cfg.test.save("a" => 1, "pop" => 100) Cfg.test.save("a" => 1, "pop" => 100) Cfg.test.save("a" => 2, "pop" => 100) Cfg.test.save("a" => 2, "pop" => 100) @initial = {"count" => 0, "foo" => 1} @reduce_function = "function (obj, prev) { prev.count += obj.pop; }" end it "should group" do result = Cfg.test.group(:key => ['a'], :initial => @initial, :reduce => @reduce_function) true.must_equal result.all? { |r| r['count'] == 200 } end end describe "Grouping with a key function" do before do Cfg.test.save("a" => 1) Cfg.test.save("a" => 2) Cfg.test.save("a" => 3) Cfg.test.save("a" => 4) Cfg.test.save("a" => 5) @initial = {"count" => 0} @keyf = "function (doc) { if(doc.a % 2 == 0) { return {even: true}; } else {return {odd: true}} };" @reduce = "function (obj, prev) { prev.count += 1; }" end it "should group results" do results = Cfg.test.group(:keyf => @keyf, :initial => @initial, :reduce => @reduce).sort {|a, b| a['count'] <=> b['count']} true.must_equal results[0]['even'] && results[0]['count'] == 2.0 true.must_equal results[1]['odd'] && results[1]['count'] == 3.0 end it "should group filtered results" do results = Cfg.test.group(:keyf => @keyf, :cond => {:a => {'$ne' => 2}}, :initial => @initial, :reduce => @reduce).sort {|a, b| a['count'] <=> b['count']} true.must_equal results[0]['even'] && results[0]['count'] == 1.0 true.must_equal results[1]['odd'] && results[1]['count'] == 3.0 end end describe "A collection with two records" do before do @collection = Cfg.db.collection('test-collection') @collection.insert({:name => "Jones"}) @collection.insert({:name => "Smith"}) end it "should have two records" do @collection.size.must_equal 2 end it "should remove the two records" do @collection.remove() @collection.size.must_equal 0 end it "should remove all records if an empty document is specified" do @collection.remove({}) @collection.find.count.must_equal 0 end it "should remove only matching records" do @collection.remove({:name => "Jones"}) @collection.size.must_equal 1 end end describe "Drop index " do before do @collection = Cfg.db.collection('test-collection') end it "should drop an index" do @collection.create_index([['a', Mongo::ASCENDING]]) assert @collection.index_information['a_1'] @collection.drop_index([['a', Mongo::ASCENDING]]) assert_nil @collection.index_information['a_1'] end it "should drop an index which was given a specific name" do @collection.create_index([['a', Mongo::DESCENDING]], {:name => 'i_will_not_fear'}) assert @collection.index_information['i_will_not_fear'] @collection.drop_index([['a', Mongo::DESCENDING]]) assert_nil @collection.index_information['i_will_not_fear'] end it "should drops an composite index" do @collection.create_index([['a', Mongo::DESCENDING], ['b', Mongo::ASCENDING]]) assert @collection.index_information['a_-1_b_1'] @collection.drop_index([['a', Mongo::DESCENDING], ['b', Mongo::ASCENDING]]) assert_nil @collection.index_information['a_-1_b_1'] end it "should drops an index with symbols" do @collection.create_index([['a', Mongo::DESCENDING], [:b, Mongo::ASCENDING]]) assert @collection.index_information['a_-1_b_1'] @collection.drop_index([['a', Mongo::DESCENDING], [:b, Mongo::ASCENDING]]) assert_nil @collection.index_information['a_-1_b_1'] end end describe "Creating indexes " do before do Cfg.db.drop_collection('test-collection') @collection = Cfg.db.collection('test-collection') @collection.insert({:aaa => 1}) @geo = Cfg.db.collection('geo') end it "should create index using symbols" do @collection.create_index :foo, :name => :bar @geo.create_index :goo, :name => :baz assert @collection.index_information['bar'] @collection.drop_index :bar assert_nil @collection.index_information['bar'] assert @geo.index_information['baz'] @geo.drop_index(:baz) assert_nil @geo.index_information['baz'] end it "should create a geospatial index" do @geo.save({'loc' => [-100, 100]}) @geo.create_index([['loc', Mongo::GEO2D]]) assert @geo.index_information['loc_2d'] end it "should create a unique index" do @collection.create_index([['a', Mongo::ASCENDING]], :unique => true) info = @collection.index_information['a_1'] assert info assert info['unique'] end it "should drop duplicates" do @collection.insert({:a => 1}) @collection.insert({:a => 1}) assert_equal 2, @collection.count(:query => {:a => 1}) @collection.create_index([['a', Mongo::ASCENDING]], :unique => true, :dropDups => true) assert_equal 1, @collection.find({:a => 1}).count assert_equal 1, @collection.find({:a => 1}).count end it "should drop duplicates with ruby-like drop_dups key" do @collection.insert({:a => 1}) @collection.insert({:a => 1}) assert_equal 2, @collection.find({:a => 1}).count @collection.create_index([['a', Mongo::ASCENDING]], :unique => true, :drop_dups => true) assert_equal 1, @collection.find({:a => 1}).count end it "should drop duplicates with ensure_index and drop_dups key" do @collection.insert({:a => 1}) @collection.insert({:a => 1}) assert_equal 2, @collection.find({:a => 1}).count @collection.ensure_index([['a', Mongo::ASCENDING]], :unique => true, :drop_dups => true) assert_equal 1, @collection.find({:a => 1}).count end it "should create an index in the background" do if Cfg.version > '1.3.1' @collection.create_index([['b', Mongo::ASCENDING]], :background => true) assert @collection.index_information['b_1']['background'] == true else assert true end end it "should require an array of arrays" do assert_raises Mongo::MongoArgumentError do @collection.create_index(['c', Mongo::ASCENDING]) end end it "should enforce proper index types" do assert_raises Mongo::MongoArgumentError do @collection.create_index([['c', 'blah']]) end end it "should raise an error if index name is greater than 128" do assert_raises Mongo::OperationFailure do @collection.create_index([['a' * 25, 1], ['b' * 25, 1], ['c' * 25, 1], ['d' * 25, 1], ['e' * 25, 1]]) end end it "should allow for an alternate name to be specified" do @collection.create_index([['a' * 25, 1], ['b' * 25, 1], ['c' * 25, 1], ['d' * 25, 1], ['e' * 25, 1]], :name => 'foo_index') assert @collection.index_information['foo_index'] end it "should allow creation of multiple indexes" do assert @collection.create_index([['a', 1]]) assert @collection.create_index([['a', 1]]) end describe "with an index created" do before do @collection.create_index([['b', 1], ['a', 1]]) end it "should return properly ordered index information" do assert @collection.index_information['b_1_a_1'] end end end describe "Capped collections" do before do Cfg.db.drop_collection('log') @capped = Cfg.db.create_collection('log', :capped => true, :max => 1000, :size => 400000) 1000.times { |n| @capped.insert({:n => n}) } end it "should find using a standard cursor" do cursor = @capped.find 1000.times do assert cursor.next_document end assert_nil cursor.next_document @capped.insert({:n => 100}) assert_nil cursor.next_document end it "should fail tailable cursor on a non-capped collection" do col = Cfg.db['regular-collection'] col.insert({:a => 1000}) tail = Mongo::Cursor.new(col, :tailable => true, :order => [['$natural', 1]]) assert_raises Mongo::OperationFailure do tail.next_document end end it "should find using a tailable cursor" do tail = Mongo::Cursor.new(@capped, :timeout => false, :tailable => true, :await_data => true, :order => [['$natural', 1]]) 1000.times do assert tail.next_document end assert true, tail.has_next? assert_nil tail.next_document end it "should find using a tailable cursor with await_data set to a float" do tail = Mongo::Cursor.new(@capped, :timeout => false, :tailable => true, :await_data => 3.0, :order => [['$natural', 1]]) 1000.times do assert tail.next_document end assert true, tail.has_next? assert_nil tail.next_document end it "should find using a tailable cursor with await_data set to hash" do await = {:poison_doc => {'pppppoisoned' => 42}, :is_poison_function => lambda { |doc| doc['pppppoisoned'] == 42 }, :next_timeout => 2.0} tail = Mongo::Cursor.new(@capped, :timeout => false, :tailable => true, :await_data => await, :order => [['$natural', 1]]) 1000.times do assert tail.next_document end assert true, tail.has_next? assert_nil tail.next_document end end end