/* * Copyright (c) 2021, Tim Flynn * Copyright (c) 2021, Jan de Visser * Copyright (c) 2021, Mahmoud Mandour * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include namespace { using ParseResult = AK::Result, String>; ParseResult parse(StringView sql) { auto parser = SQL::AST::Parser(SQL::AST::Lexer(sql)); auto statement = parser.next_statement(); if (parser.has_errors()) { return parser.errors()[0].to_string(); } return statement; } } TEST_CASE(create_table) { EXPECT(parse("CREATE TABLE").is_error()); EXPECT(parse("CREATE TABLE test").is_error()); EXPECT(parse("CREATE TABLE test ()").is_error()); EXPECT(parse("CREATE TABLE test ();").is_error()); EXPECT(parse("CREATE TABLE test ( column1 ").is_error()); EXPECT(parse("CREATE TABLE test ( column1 )").is_error()); EXPECT(parse("CREATE TABLE IF test ( column1 );").is_error()); EXPECT(parse("CREATE TABLE IF NOT test ( column1 );").is_error()); EXPECT(parse("CREATE TABLE AS;").is_error()); EXPECT(parse("CREATE TABLE AS SELECT;").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar()").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar(abc)").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar(123 )").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar(123, )").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar(123, ) )").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar(.) )").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar(.abc) )").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar(0x) )").is_error()); EXPECT(parse("CREATE TABLE test ( column1 varchar(0xzzz) )").is_error()); EXPECT(parse("CREATE TABLE test ( column1 int ) AS SELECT * FROM table_name;").is_error()); EXPECT(parse("CREATE TABLE test AS SELECT * FROM table_name ( column1 int ) ;").is_error()); struct Column { StringView name; StringView type; Vector signed_numbers {}; }; auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, Vector expected_columns, bool expected_is_temporary = false, bool expected_is_error_if_table_exists = true) { auto result = parse(sql); if (result.is_error()) outln("{}: {}", sql, result.error()); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& table = static_cast(*statement); EXPECT_EQ(table.schema_name(), expected_schema); EXPECT_EQ(table.table_name(), expected_table); EXPECT_EQ(table.is_temporary(), expected_is_temporary); EXPECT_EQ(table.is_error_if_table_exists(), expected_is_error_if_table_exists); bool expect_select_statement = expected_columns.is_empty(); EXPECT_EQ(table.has_selection(), expect_select_statement); EXPECT_EQ(table.has_columns(), !expect_select_statement); const auto& select_statement = table.select_statement(); EXPECT_EQ(select_statement.is_null(), !expect_select_statement); const auto& columns = table.columns(); EXPECT_EQ(columns.size(), expected_columns.size()); for (size_t i = 0; i < columns.size(); ++i) { const auto& column = columns[i]; const auto& expected_column = expected_columns[i]; EXPECT_EQ(column.name(), expected_column.name); const auto& type_name = column.type_name(); EXPECT_EQ(type_name->name(), expected_column.type); const auto& signed_numbers = type_name->signed_numbers(); EXPECT_EQ(signed_numbers.size(), expected_column.signed_numbers.size()); for (size_t j = 0; j < signed_numbers.size(); ++j) { double signed_number = signed_numbers[j].value(); double expected_signed_number = expected_column.signed_numbers[j]; EXPECT_EQ(signed_number, expected_signed_number); } } }; validate("CREATE TABLE test ( column1 );", {}, "TEST", { { "COLUMN1", "BLOB" } }); validate("Create Table test ( column1 );", {}, "TEST", { { "COLUMN1", "BLOB" } }); validate(R"(CREATE TABLE "test" ( "column1" );)", {}, "test", { { "column1", "BLOB" } }); validate(R"(CREATE TABLE "te""st" ( "co""lumn1" );)", {}, "te\"st", { { "co\"lumn1", "BLOB" } }); validate("CREATE TABLE schema_name.test ( column1 );", "SCHEMA_NAME", "TEST", { { "COLUMN1", "BLOB" } }); validate("CREATE TABLE \"schema\".test ( column1 );", "schema", "TEST", { { "COLUMN1", "BLOB" } }); validate("CREATE TEMP TABLE test ( column1 );", {}, "TEST", { { "COLUMN1", "BLOB" } }, true, true); validate("CREATE TEMPORARY TABLE test ( column1 );", {}, "TEST", { { "COLUMN1", "BLOB" } }, true, true); validate("CREATE TABLE IF NOT EXISTS test ( column1 );", {}, "TEST", { { "COLUMN1", "BLOB" } }, false, false); validate("CREATE TABLE test AS SELECT * FROM table_name;", {}, "TEST", {}); validate("CREATE TABLE test ( column1 int );", {}, "TEST", { { "COLUMN1", "INT" } }); validate("CREATE TABLE test ( column1 varchar );", {}, "TEST", { { "COLUMN1", "VARCHAR" } }); validate("CREATE TABLE test ( column1 varchar(255) );", {}, "TEST", { { "COLUMN1", "VARCHAR", { 255 } } }); validate("CREATE TABLE test ( column1 varchar(255, 123) );", {}, "TEST", { { "COLUMN1", "VARCHAR", { 255, 123 } } }); validate("CREATE TABLE test ( column1 varchar(255, -123) );", {}, "TEST", { { "COLUMN1", "VARCHAR", { 255, -123 } } }); validate("CREATE TABLE test ( column1 varchar(0xff) );", {}, "TEST", { { "COLUMN1", "VARCHAR", { 255 } } }); validate("CREATE TABLE test ( column1 varchar(3.14) );", {}, "TEST", { { "COLUMN1", "VARCHAR", { 3.14 } } }); validate("CREATE TABLE test ( column1 varchar(1e3) );", {}, "TEST", { { "COLUMN1", "VARCHAR", { 1000 } } }); } TEST_CASE(alter_table) { // This test case only contains common error cases of the AlterTable subclasses. EXPECT(parse("ALTER").is_error()); EXPECT(parse("ALTER TABLE").is_error()); EXPECT(parse("ALTER TABLE table_name").is_error()); EXPECT(parse("ALTER TABLE table_name;").is_error()); } TEST_CASE(alter_table_rename_table) { EXPECT(parse("ALTER TABLE table_name RENAME").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME TO").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME TO new_table").is_error()); auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, StringView expected_new_table) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& alter = static_cast(*statement); EXPECT_EQ(alter.schema_name(), expected_schema); EXPECT_EQ(alter.table_name(), expected_table); EXPECT_EQ(alter.new_table_name(), expected_new_table); }; validate("ALTER TABLE table_name RENAME TO new_table;", {}, "TABLE_NAME", "NEW_TABLE"); validate("ALTER TABLE schema_name.table_name RENAME TO new_table;", "SCHEMA_NAME", "TABLE_NAME", "NEW_TABLE"); } TEST_CASE(alter_table_rename_column) { EXPECT(parse("ALTER TABLE table_name RENAME").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME COLUMN").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME COLUMN column_name").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME COLUMN column_name TO").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME COLUMN column_name TO new_column").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME column_name").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME column_name TO").is_error()); EXPECT(parse("ALTER TABLE table_name RENAME column_name TO new_column").is_error()); auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, StringView expected_column, StringView expected_new_column) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& alter = static_cast(*statement); EXPECT_EQ(alter.schema_name(), expected_schema); EXPECT_EQ(alter.table_name(), expected_table); EXPECT_EQ(alter.column_name(), expected_column); EXPECT_EQ(alter.new_column_name(), expected_new_column); }; validate("ALTER TABLE table_name RENAME column_name TO new_column;", {}, "TABLE_NAME", "COLUMN_NAME", "NEW_COLUMN"); validate("ALTER TABLE table_name RENAME COLUMN column_name TO new_column;", {}, "TABLE_NAME", "COLUMN_NAME", "NEW_COLUMN"); validate("ALTER TABLE schema_name.table_name RENAME column_name TO new_column;", "SCHEMA_NAME", "TABLE_NAME", "COLUMN_NAME", "NEW_COLUMN"); validate("ALTER TABLE schema_name.table_name RENAME COLUMN column_name TO new_column;", "SCHEMA_NAME", "TABLE_NAME", "COLUMN_NAME", "NEW_COLUMN"); } TEST_CASE(alter_table_add_column) { EXPECT(parse("ALTER TABLE table_name ADD").is_error()); EXPECT(parse("ALTER TABLE table_name ADD COLUMN").is_error()); EXPECT(parse("ALTER TABLE table_name ADD COLUMN column_name").is_error()); struct Column { StringView name; StringView type; Vector signed_numbers {}; }; auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, Column expected_column) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& alter = static_cast(*statement); EXPECT_EQ(alter.schema_name(), expected_schema); EXPECT_EQ(alter.table_name(), expected_table); const auto& column = alter.column(); EXPECT_EQ(column->name(), expected_column.name); const auto& type_name = column->type_name(); EXPECT_EQ(type_name->name(), expected_column.type); const auto& signed_numbers = type_name->signed_numbers(); EXPECT_EQ(signed_numbers.size(), expected_column.signed_numbers.size()); for (size_t j = 0; j < signed_numbers.size(); ++j) { double signed_number = signed_numbers[j].value(); double expected_signed_number = expected_column.signed_numbers[j]; EXPECT_EQ(signed_number, expected_signed_number); } }; validate("ALTER TABLE test ADD column1;", {}, "TEST", { "COLUMN1", "BLOB" }); validate("ALTER TABLE test ADD column1 int;", {}, "TEST", { "COLUMN1", "INT" }); validate("ALTER TABLE test ADD column1 varchar;", {}, "TEST", { "COLUMN1", "VARCHAR" }); validate("ALTER TABLE test ADD column1 varchar(255);", {}, "TEST", { "COLUMN1", "VARCHAR", { 255 } }); validate("ALTER TABLE test ADD column1 varchar(255, 123);", {}, "TEST", { "COLUMN1", "VARCHAR", { 255, 123 } }); validate("ALTER TABLE schema_name.test ADD COLUMN column1;", "SCHEMA_NAME", "TEST", { "COLUMN1", "BLOB" }); validate("ALTER TABLE schema_name.test ADD COLUMN column1 int;", "SCHEMA_NAME", "TEST", { "COLUMN1", "INT" }); validate("ALTER TABLE schema_name.test ADD COLUMN column1 varchar;", "SCHEMA_NAME", "TEST", { "COLUMN1", "VARCHAR" }); validate("ALTER TABLE schema_name.test ADD COLUMN column1 varchar(255);", "SCHEMA_NAME", "TEST", { "COLUMN1", "VARCHAR", { 255 } }); validate("ALTER TABLE schema_name.test ADD COLUMN column1 varchar(255, 123);", "SCHEMA_NAME", "TEST", { "COLUMN1", "VARCHAR", { 255, 123 } }); } TEST_CASE(alter_table_drop_column) { EXPECT(parse("ALTER TABLE table_name DROP").is_error()); EXPECT(parse("ALTER TABLE table_name DROP COLUMN").is_error()); EXPECT(parse("ALTER TABLE table_name DROP column_name").is_error()); EXPECT(parse("ALTER TABLE table_name DROP COLUMN column_name").is_error()); auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, StringView expected_column) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& alter = static_cast(*statement); EXPECT_EQ(alter.schema_name(), expected_schema); EXPECT_EQ(alter.table_name(), expected_table); EXPECT_EQ(alter.column_name(), expected_column); }; validate("ALTER TABLE table_name DROP column_name;", {}, "TABLE_NAME", "COLUMN_NAME"); validate("ALTER TABLE table_name DROP COLUMN column_name;", {}, "TABLE_NAME", "COLUMN_NAME"); validate("ALTER TABLE schema_name.table_name DROP column_name;", "SCHEMA_NAME", "TABLE_NAME", "COLUMN_NAME"); validate("ALTER TABLE schema_name.table_name DROP COLUMN column_name;", "SCHEMA_NAME", "TABLE_NAME", "COLUMN_NAME"); } TEST_CASE(drop_table) { EXPECT(parse("DROP").is_error()); EXPECT(parse("DROP TABLE").is_error()); EXPECT(parse("DROP TABLE test").is_error()); EXPECT(parse("DROP TABLE IF test;").is_error()); auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, bool expected_is_error_if_table_does_not_exist = true) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& table = static_cast(*statement); EXPECT_EQ(table.schema_name(), expected_schema); EXPECT_EQ(table.table_name(), expected_table); EXPECT_EQ(table.is_error_if_table_does_not_exist(), expected_is_error_if_table_does_not_exist); }; validate("DROP TABLE test;", {}, "TEST"); validate("DROP TABLE schema_name.test;", "SCHEMA_NAME", "TEST"); validate("DROP TABLE IF EXISTS test;", {}, "TEST", false); } TEST_CASE(insert) { EXPECT(parse("INSERT").is_error()); EXPECT(parse("INSERT INTO").is_error()); EXPECT(parse("INSERT INTO table_name").is_error()); EXPECT(parse("INSERT INTO table_name (column_name)").is_error()); EXPECT(parse("INSERT INTO table_name (column_name, ) DEFAULT VALUES;").is_error()); EXPECT(parse("INSERT INTO table_name VALUES").is_error()); EXPECT(parse("INSERT INTO table_name VALUES ();").is_error()); EXPECT(parse("INSERT INTO table_name VALUES (1)").is_error()); EXPECT(parse("INSERT INTO table_name SELECT").is_error()); EXPECT(parse("INSERT INTO table_name SELECT * from table_name").is_error()); EXPECT(parse("INSERT OR INTO table_name DEFAULT VALUES;").is_error()); EXPECT(parse("INSERT OR foo INTO table_name DEFAULT VALUES;").is_error()); auto validate = [](StringView sql, SQL::AST::ConflictResolution expected_conflict_resolution, StringView expected_schema, StringView expected_table, StringView expected_alias, Vector expected_column_names, Vector expected_chain_sizes, bool expect_select_statement) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& insert = static_cast(*statement); EXPECT_EQ(insert.conflict_resolution(), expected_conflict_resolution); EXPECT_EQ(insert.schema_name(), expected_schema); EXPECT_EQ(insert.table_name(), expected_table); EXPECT_EQ(insert.alias(), expected_alias); const auto& column_names = insert.column_names(); EXPECT_EQ(column_names.size(), expected_column_names.size()); for (size_t i = 0; i < column_names.size(); ++i) EXPECT_EQ(column_names[i], expected_column_names[i]); EXPECT_EQ(insert.has_expressions(), !expected_chain_sizes.is_empty()); if (insert.has_expressions()) { const auto& chained_expressions = insert.chained_expressions(); EXPECT_EQ(chained_expressions.size(), expected_chain_sizes.size()); for (size_t i = 0; i < chained_expressions.size(); ++i) { const auto& chained_expression = chained_expressions[i]; const auto& expressions = chained_expression.expressions(); EXPECT_EQ(expressions.size(), expected_chain_sizes[i]); for (const auto& expression : expressions) EXPECT(!is(expression)); } } EXPECT_EQ(insert.has_selection(), expect_select_statement); EXPECT_EQ(insert.default_values(), expected_chain_sizes.is_empty() && !expect_select_statement); }; validate("INSERT OR ABORT INTO table_name DEFAULT VALUES;", SQL::AST::ConflictResolution::Abort, {}, "TABLE_NAME", {}, {}, {}, false); validate("INSERT OR FAIL INTO table_name DEFAULT VALUES;", SQL::AST::ConflictResolution::Fail, {}, "TABLE_NAME", {}, {}, {}, false); validate("INSERT OR IGNORE INTO table_name DEFAULT VALUES;", SQL::AST::ConflictResolution::Ignore, {}, "TABLE_NAME", {}, {}, {}, false); validate("INSERT OR REPLACE INTO table_name DEFAULT VALUES;", SQL::AST::ConflictResolution::Replace, {}, "TABLE_NAME", {}, {}, {}, false); validate("INSERT OR ROLLBACK INTO table_name DEFAULT VALUES;", SQL::AST::ConflictResolution::Rollback, {}, "TABLE_NAME", {}, {}, {}, false); auto resolution = SQL::AST::ConflictResolution::Abort; validate("INSERT INTO table_name DEFAULT VALUES;", resolution, {}, "TABLE_NAME", {}, {}, {}, false); validate("INSERT INTO schema_name.table_name DEFAULT VALUES;", resolution, "SCHEMA_NAME", "TABLE_NAME", {}, {}, {}, false); validate("INSERT INTO table_name AS foo DEFAULT VALUES;", resolution, {}, "TABLE_NAME", "FOO", {}, {}, false); validate("INSERT INTO table_name (column_name) DEFAULT VALUES;", resolution, {}, "TABLE_NAME", {}, { "COLUMN_NAME" }, {}, false); validate("INSERT INTO table_name (column1, column2) DEFAULT VALUES;", resolution, {}, "TABLE_NAME", {}, { "COLUMN1", "COLUMN2" }, {}, false); validate("INSERT INTO table_name VALUES (1);", resolution, {}, "TABLE_NAME", {}, {}, { 1 }, false); validate("INSERT INTO table_name VALUES (1, 2);", resolution, {}, "TABLE_NAME", {}, {}, { 2 }, false); validate("INSERT INTO table_name VALUES (1, 2), (3, 4, 5);", resolution, {}, "TABLE_NAME", {}, {}, { 2, 3 }, false); validate("INSERT INTO table_name SELECT * FROM table_name;", resolution, {}, "TABLE_NAME", {}, {}, {}, true); } TEST_CASE(update) { EXPECT(parse("UPDATE").is_error()); EXPECT(parse("UPDATE table_name").is_error()); EXPECT(parse("UPDATE table_name SET").is_error()); EXPECT(parse("UPDATE table_name SET column_name").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4, ;").is_error()); EXPECT(parse("UPDATE table_name SET (column_name)=4").is_error()); EXPECT(parse("UPDATE table_name SET (column_name)=4, ;").is_error()); EXPECT(parse("UPDATE table_name SET (column_name, )=4;").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4 FROM").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4 FROM table_name").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4 WHERE").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4 WHERE 1==1").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4 RETURNING").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4 RETURNING *").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4 RETURNING column_name").is_error()); EXPECT(parse("UPDATE table_name SET column_name=4 RETURNING column_name AS").is_error()); EXPECT(parse("UPDATE OR table_name SET column_name=4;").is_error()); EXPECT(parse("UPDATE OR foo table_name SET column_name=4;").is_error()); auto validate = [](StringView sql, SQL::AST::ConflictResolution expected_conflict_resolution, StringView expected_schema, StringView expected_table, StringView expected_alias, Vector> expected_update_columns, bool expect_where_clause, bool expect_returning_clause, Vector expected_returned_column_aliases) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& update = static_cast(*statement); EXPECT_EQ(update.conflict_resolution(), expected_conflict_resolution); const auto& qualified_table_name = update.qualified_table_name(); EXPECT_EQ(qualified_table_name->schema_name(), expected_schema); EXPECT_EQ(qualified_table_name->table_name(), expected_table); EXPECT_EQ(qualified_table_name->alias(), expected_alias); const auto& update_columns = update.update_columns(); EXPECT_EQ(update_columns.size(), expected_update_columns.size()); for (size_t i = 0; i < update_columns.size(); ++i) { const auto& update_column = update_columns[i]; const auto& expected_update_column = expected_update_columns[i]; EXPECT_EQ(update_column.column_names.size(), expected_update_column.size()); EXPECT(!is(*update_column.expression)); for (size_t j = 0; j < update_column.column_names.size(); ++j) EXPECT_EQ(update_column.column_names[j], expected_update_column[j]); } const auto& where_clause = update.where_clause(); EXPECT_EQ(where_clause.is_null(), !expect_where_clause); if (where_clause) EXPECT(!is(*where_clause)); const auto& returning_clause = update.returning_clause(); EXPECT_EQ(returning_clause.is_null(), !expect_returning_clause); if (returning_clause) { EXPECT_EQ(returning_clause->columns().size(), expected_returned_column_aliases.size()); for (size_t i = 0; i < returning_clause->columns().size(); ++i) { const auto& column = returning_clause->columns()[i]; const auto& expected_column_alias = expected_returned_column_aliases[i]; EXPECT(!is(*column.expression)); EXPECT_EQ(column.column_alias, expected_column_alias); } } }; Vector> update_columns { { "COLUMN_NAME" } }; validate("UPDATE OR ABORT table_name SET column_name=1;", SQL::AST::ConflictResolution::Abort, {}, "TABLE_NAME", {}, update_columns, false, false, {}); validate("UPDATE OR FAIL table_name SET column_name=1;", SQL::AST::ConflictResolution::Fail, {}, "TABLE_NAME", {}, update_columns, false, false, {}); validate("UPDATE OR IGNORE table_name SET column_name=1;", SQL::AST::ConflictResolution::Ignore, {}, "TABLE_NAME", {}, update_columns, false, false, {}); validate("UPDATE OR REPLACE table_name SET column_name=1;", SQL::AST::ConflictResolution::Replace, {}, "TABLE_NAME", {}, update_columns, false, false, {}); validate("UPDATE OR ROLLBACK table_name SET column_name=1;", SQL::AST::ConflictResolution::Rollback, {}, "TABLE_NAME", {}, update_columns, false, false, {}); auto resolution = SQL::AST::ConflictResolution::Abort; validate("UPDATE table_name SET column_name=1;", resolution, {}, "TABLE_NAME", {}, update_columns, false, false, {}); validate("UPDATE schema_name.table_name SET column_name=1;", resolution, "SCHEMA_NAME", "TABLE_NAME", {}, update_columns, false, false, {}); validate("UPDATE table_name AS foo SET column_name=1;", resolution, {}, "TABLE_NAME", "FOO", update_columns, false, false, {}); validate("UPDATE table_name SET column_name=1;", resolution, {}, "TABLE_NAME", {}, { { "COLUMN_NAME" } }, false, false, {}); validate("UPDATE table_name SET column1=1, column2=2;", resolution, {}, "TABLE_NAME", {}, { { "COLUMN1" }, { "COLUMN2" } }, false, false, {}); validate("UPDATE table_name SET (column1, column2)=1, column3=2;", resolution, {}, "TABLE_NAME", {}, { { "COLUMN1", "COLUMN2" }, { "COLUMN3" } }, false, false, {}); validate("UPDATE table_name SET column_name=1 WHERE 1==1;", resolution, {}, "TABLE_NAME", {}, update_columns, true, false, {}); validate("UPDATE table_name SET column_name=1 RETURNING *;", resolution, {}, "TABLE_NAME", {}, update_columns, false, true, {}); validate("UPDATE table_name SET column_name=1 RETURNING column_name;", resolution, {}, "TABLE_NAME", {}, update_columns, false, true, { {} }); validate("UPDATE table_name SET column_name=1 RETURNING column_name AS alias;", resolution, {}, "TABLE_NAME", {}, update_columns, false, true, { "ALIAS" }); validate("UPDATE table_name SET column_name=1 RETURNING column1 AS alias1, column2 AS alias2;", resolution, {}, "TABLE_NAME", {}, update_columns, false, true, { "ALIAS1", "ALIAS2" }); } TEST_CASE(delete_) { EXPECT(parse("DELETE").is_error()); EXPECT(parse("DELETE FROM").is_error()); EXPECT(parse("DELETE FROM table_name").is_error()); EXPECT(parse("DELETE FROM table_name WHERE").is_error()); EXPECT(parse("DELETE FROM table_name WHERE 15").is_error()); EXPECT(parse("DELETE FROM table_name WHERE 15 RETURNING").is_error()); EXPECT(parse("DELETE FROM table_name WHERE 15 RETURNING *").is_error()); EXPECT(parse("DELETE FROM table_name WHERE 15 RETURNING column_name").is_error()); EXPECT(parse("DELETE FROM table_name WHERE 15 RETURNING column_name AS;").is_error()); EXPECT(parse("DELETE FROM table_name WHERE (');").is_error()); auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, StringView expected_alias, bool expect_where_clause, bool expect_returning_clause, Vector expected_returned_column_aliases) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& delete_ = static_cast(*statement); const auto& qualified_table_name = delete_.qualified_table_name(); EXPECT_EQ(qualified_table_name->schema_name(), expected_schema); EXPECT_EQ(qualified_table_name->table_name(), expected_table); EXPECT_EQ(qualified_table_name->alias(), expected_alias); const auto& where_clause = delete_.where_clause(); EXPECT_EQ(where_clause.is_null(), !expect_where_clause); if (where_clause) EXPECT(!is(*where_clause)); const auto& returning_clause = delete_.returning_clause(); EXPECT_EQ(returning_clause.is_null(), !expect_returning_clause); if (returning_clause) { EXPECT_EQ(returning_clause->columns().size(), expected_returned_column_aliases.size()); for (size_t i = 0; i < returning_clause->columns().size(); ++i) { const auto& column = returning_clause->columns()[i]; const auto& expected_column_alias = expected_returned_column_aliases[i]; EXPECT(!is(*column.expression)); EXPECT_EQ(column.column_alias, expected_column_alias); } } }; validate("DELETE FROM table_name;", {}, "TABLE_NAME", {}, false, false, {}); validate("DELETE FROM schema_name.table_name;", "SCHEMA_NAME", "TABLE_NAME", {}, false, false, {}); validate("DELETE FROM schema_name.table_name AS alias;", "SCHEMA_NAME", "TABLE_NAME", "ALIAS", false, false, {}); validate("DELETE FROM table_name WHERE (1 == 1);", {}, "TABLE_NAME", {}, true, false, {}); validate("DELETE FROM table_name RETURNING *;", {}, "TABLE_NAME", {}, false, true, {}); validate("DELETE FROM table_name RETURNING column_name;", {}, "TABLE_NAME", {}, false, true, { {} }); validate("DELETE FROM table_name RETURNING column_name AS alias;", {}, "TABLE_NAME", {}, false, true, { "ALIAS" }); validate("DELETE FROM table_name RETURNING column1 AS alias1, column2 AS alias2;", {}, "TABLE_NAME", {}, false, true, { "ALIAS1", "ALIAS2" }); } TEST_CASE(select) { EXPECT(parse("SELECT").is_error()); EXPECT(parse("SELECT;").is_error()); EXPECT(parse("SELECT DISTINCT;").is_error()); EXPECT(parse("SELECT ALL;").is_error()); EXPECT(parse("SELECT *").is_error()); EXPECT(parse("SELECT * FROM;").is_error()); EXPECT(parse("SELECT table_name. FROM table_name;").is_error()); EXPECT(parse("SELECT column_name AS FROM table_name;").is_error()); EXPECT(parse("SELECT * FROM (").is_error()); EXPECT(parse("SELECT * FROM ()").is_error()); EXPECT(parse("SELECT * FROM ();").is_error()); EXPECT(parse("SELECT * FROM (table_name1)").is_error()); EXPECT(parse("SELECT * FROM (table_name1, )").is_error()); EXPECT(parse("SELECT * FROM (table_name1, table_name2)").is_error()); EXPECT(parse("SELECT * FROM table_name").is_error()); EXPECT(parse("SELECT * FROM table_name AS;").is_error()); EXPECT(parse("SELECT * FROM table_name WHERE;").is_error()); EXPECT(parse("SELECT * FROM table_name WHERE 1 ==1").is_error()); EXPECT(parse("SELECT * FROM table_name GROUP;").is_error()); EXPECT(parse("SELECT * FROM table_name GROUP BY;").is_error()); EXPECT(parse("SELECT * FROM table_name GROUP BY column_name").is_error()); EXPECT(parse("SELECT * FROM table_name ORDER:").is_error()); EXPECT(parse("SELECT * FROM table_name ORDER BY column_name").is_error()); EXPECT(parse("SELECT * FROM table_name ORDER BY column_name COLLATE:").is_error()); EXPECT(parse("SELECT * FROM table_name ORDER BY column_name COLLATE collation").is_error()); EXPECT(parse("SELECT * FROM table_name ORDER BY column_name NULLS;").is_error()); EXPECT(parse("SELECT * FROM table_name ORDER BY column_name NULLS SECOND;").is_error()); EXPECT(parse("SELECT * FROM table_name LIMIT;").is_error()); EXPECT(parse("SELECT * FROM table_name LIMIT 12").is_error()); EXPECT(parse("SELECT * FROM table_name LIMIT 12 OFFSET;").is_error()); EXPECT(parse("SELECT * FROM table_name LIMIT 12 OFFSET 15").is_error()); EXPECT(parse("SELECT * FROM table_name LIMIT 15, 16;").is_error()); struct Type { SQL::AST::ResultType type; StringView table_name_or_column_alias {}; }; struct From { StringView schema_name; StringView table_name; StringView table_alias; }; struct Ordering { String collation_name; SQL::Order order; SQL::Nulls nulls; }; auto validate = [](StringView sql, Vector expected_columns, Vector expected_from_list, bool expect_where_clause, size_t expected_group_by_size, bool expect_having_clause, Vector expected_ordering, bool expect_limit_clause, bool expect_offset_clause) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& select = static_cast(*statement); const auto& result_column_list = select.result_column_list(); EXPECT_EQ(result_column_list.size(), expected_columns.size()); for (size_t i = 0; i < result_column_list.size(); ++i) { const auto& result_column = result_column_list[i]; const auto& expected_column = expected_columns[i]; EXPECT_EQ(result_column.type(), expected_column.type); switch (result_column.type()) { case SQL::AST::ResultType::All: EXPECT(expected_column.table_name_or_column_alias.is_null()); break; case SQL::AST::ResultType::Table: EXPECT_EQ(result_column.table_name(), expected_column.table_name_or_column_alias); break; case SQL::AST::ResultType::Expression: EXPECT_EQ(result_column.column_alias(), expected_column.table_name_or_column_alias); break; } } const auto& table_or_subquery_list = select.table_or_subquery_list(); EXPECT_EQ(table_or_subquery_list.size(), expected_from_list.size()); for (size_t i = 0; i < table_or_subquery_list.size(); ++i) { const auto& result_from = table_or_subquery_list[i]; const auto& expected_from = expected_from_list[i]; EXPECT_EQ(result_from.schema_name(), expected_from.schema_name); EXPECT_EQ(result_from.table_name(), expected_from.table_name); EXPECT_EQ(result_from.table_alias(), expected_from.table_alias); } const auto& where_clause = select.where_clause(); EXPECT_EQ(where_clause.is_null(), !expect_where_clause); if (where_clause) EXPECT(!is(*where_clause)); const auto& group_by_clause = select.group_by_clause(); EXPECT_EQ(group_by_clause.is_null(), (expected_group_by_size == 0)); if (group_by_clause) { const auto& group_by_list = group_by_clause->group_by_list(); EXPECT_EQ(group_by_list.size(), expected_group_by_size); for (size_t i = 0; i < group_by_list.size(); ++i) EXPECT(!is(group_by_list[i])); const auto& having_clause = group_by_clause->having_clause(); EXPECT_EQ(having_clause.is_null(), !expect_having_clause); if (having_clause) EXPECT(!is(*having_clause)); } const auto& ordering_term_list = select.ordering_term_list(); EXPECT_EQ(ordering_term_list.size(), expected_ordering.size()); for (size_t i = 0; i < ordering_term_list.size(); ++i) { const auto& result_order = ordering_term_list[i]; const auto& expected_order = expected_ordering[i]; EXPECT(!is(*result_order.expression())); EXPECT_EQ(result_order.collation_name(), expected_order.collation_name); EXPECT_EQ(result_order.order(), expected_order.order); EXPECT_EQ(result_order.nulls(), expected_order.nulls); } const auto& limit_clause = select.limit_clause(); EXPECT_EQ(limit_clause.is_null(), !expect_limit_clause); if (limit_clause) { const auto& limit_expression = limit_clause->limit_expression(); EXPECT(!is(*limit_expression)); const auto& offset_expression = limit_clause->offset_expression(); EXPECT_EQ(offset_expression.is_null(), !expect_offset_clause); if (offset_expression) EXPECT(!is(*offset_expression)); } }; Vector all { { SQL::AST::ResultType::All } }; Vector from { { {}, "TABLE_NAME", {} } }; validate("SELECT * FROM table_name;", { { SQL::AST::ResultType::All } }, from, false, 0, false, {}, false, false); validate("SELECT table_name.* FROM table_name;", { { SQL::AST::ResultType::Table, "TABLE_NAME" } }, from, false, 0, false, {}, false, false); validate("SELECT column_name AS alias FROM table_name;", { { SQL::AST::ResultType::Expression, "ALIAS" } }, from, false, 0, false, {}, false, false); validate("SELECT table_name.column_name AS alias FROM table_name;", { { SQL::AST::ResultType::Expression, "ALIAS" } }, from, false, 0, false, {}, false, false); validate("SELECT schema_name.table_name.column_name AS alias FROM table_name;", { { SQL::AST::ResultType::Expression, "ALIAS" } }, from, false, 0, false, {}, false, false); validate("SELECT column_name AS alias, *, table_name.* FROM table_name;", { { SQL::AST::ResultType::Expression, "ALIAS" }, { SQL::AST::ResultType::All }, { SQL::AST::ResultType::Table, "TABLE_NAME" } }, from, false, 0, false, {}, false, false); validate("SELECT * FROM table_name;", all, { { {}, "TABLE_NAME", {} } }, false, 0, false, {}, false, false); validate("SELECT * FROM schema_name.table_name;", all, { { "SCHEMA_NAME", "TABLE_NAME", {} } }, false, 0, false, {}, false, false); validate("SELECT * FROM schema_name.table_name AS alias;", all, { { "SCHEMA_NAME", "TABLE_NAME", "ALIAS" } }, false, 0, false, {}, false, false); validate("SELECT * FROM schema_name.table_name AS alias, table_name2, table_name3 AS table_name4;", all, { { "SCHEMA_NAME", "TABLE_NAME", "ALIAS" }, { {}, "TABLE_NAME2", {} }, { {}, "TABLE_NAME3", "TABLE_NAME4" } }, false, 0, false, {}, false, false); validate("SELECT * FROM table_name WHERE column_name IS NOT NULL;", all, from, true, 0, false, {}, false, false); validate("SELECT * FROM table_name GROUP BY column_name;", all, from, false, 1, false, {}, false, false); validate("SELECT * FROM table_name GROUP BY column1, column2, column3;", all, from, false, 3, false, {}, false, false); validate("SELECT * FROM table_name GROUP BY column_name HAVING 'abc';", all, from, false, 1, true, {}, false, false); validate("SELECT * FROM table_name ORDER BY column_name;", all, from, false, 0, false, { { {}, SQL::Order::Ascending, SQL::Nulls::First } }, false, false); validate("SELECT * FROM table_name ORDER BY column_name COLLATE collation;", all, from, false, 0, false, { { "COLLATION", SQL::Order::Ascending, SQL::Nulls::First } }, false, false); validate("SELECT * FROM table_name ORDER BY column_name ASC;", all, from, false, 0, false, { { {}, SQL::Order::Ascending, SQL::Nulls::First } }, false, false); validate("SELECT * FROM table_name ORDER BY column_name DESC;", all, from, false, 0, false, { { {}, SQL::Order::Descending, SQL::Nulls::Last } }, false, false); validate("SELECT * FROM table_name ORDER BY column_name ASC NULLS LAST;", all, from, false, 0, false, { { {}, SQL::Order::Ascending, SQL::Nulls::Last } }, false, false); validate("SELECT * FROM table_name ORDER BY column_name DESC NULLS FIRST;", all, from, false, 0, false, { { {}, SQL::Order::Descending, SQL::Nulls::First } }, false, false); validate("SELECT * FROM table_name ORDER BY column1, column2 DESC, column3 NULLS LAST;", all, from, false, 0, false, { { {}, SQL::Order::Ascending, SQL::Nulls::First }, { {}, SQL::Order::Descending, SQL::Nulls::Last }, { {}, SQL::Order::Ascending, SQL::Nulls::Last } }, false, false); validate("SELECT * FROM table_name LIMIT 15;", all, from, false, 0, false, {}, true, false); validate("SELECT * FROM table_name LIMIT 15 OFFSET 16;", all, from, false, 0, false, {}, true, true); } TEST_CASE(common_table_expression) { EXPECT(parse("WITH").is_error()); EXPECT(parse("WITH;").is_error()); EXPECT(parse("WITH DELETE FROM table_name;").is_error()); EXPECT(parse("WITH table_name DELETE FROM table_name;").is_error()); EXPECT(parse("WITH table_name AS DELETE FROM table_name;").is_error()); EXPECT(parse("WITH RECURSIVE table_name DELETE FROM table_name;").is_error()); EXPECT(parse("WITH RECURSIVE table_name AS DELETE FROM table_name;").is_error()); // Below are otherwise valid common-table-expressions, but attached to statements which do not allow them. EXPECT(parse("WITH table_name AS (SELECT * AS TABLE) CREATE TABLE test ( column1 );").is_error()); EXPECT(parse("WITH table_name AS (SELECT * FROM table_name) DROP TABLE test;").is_error()); struct SelectedTableList { struct SelectedTable { StringView table_name {}; Vector column_names {}; }; bool recursive { false }; Vector selected_tables {}; }; auto validate = [](StringView sql, SelectedTableList expected_selected_tables) { auto result = parse(sql); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& delete_ = static_cast(*statement); const auto& common_table_expression_list = delete_.common_table_expression_list(); EXPECT(!common_table_expression_list.is_null()); EXPECT_EQ(common_table_expression_list->recursive(), expected_selected_tables.recursive); const auto& common_table_expressions = common_table_expression_list->common_table_expressions(); EXPECT_EQ(common_table_expressions.size(), expected_selected_tables.selected_tables.size()); for (size_t i = 0; i < common_table_expressions.size(); ++i) { const auto& common_table_expression = common_table_expressions[i]; const auto& expected_common_table_expression = expected_selected_tables.selected_tables[i]; EXPECT_EQ(common_table_expression.table_name(), expected_common_table_expression.table_name); EXPECT_EQ(common_table_expression.column_names().size(), expected_common_table_expression.column_names.size()); for (size_t j = 0; j < common_table_expression.column_names().size(); ++j) EXPECT_EQ(common_table_expression.column_names()[j], expected_common_table_expression.column_names[j]); } }; validate("WITH table_name AS (SELECT * FROM table_name) DELETE FROM table_name;", { false, { { "TABLE_NAME" } } }); validate("WITH table_name (column_name) AS (SELECT * FROM table_name) DELETE FROM table_name;", { false, { { "TABLE_NAME", { "COLUMN_NAME" } } } }); validate("WITH table_name (column1, column2) AS (SELECT * FROM table_name) DELETE FROM table_name;", { false, { { "TABLE_NAME", { "COLUMN1", "COLUMN2" } } } }); validate("WITH RECURSIVE table_name AS (SELECT * FROM table_name) DELETE FROM table_name;", { true, { { "TABLE_NAME", {} } } }); } TEST_CASE(nested_subquery_limit) { auto subquery = String::formatted("{:(^{}}table_name{:)^{}}", "", SQL::AST::Limits::maximum_subquery_depth - 1, "", SQL::AST::Limits::maximum_subquery_depth - 1); EXPECT(!parse(String::formatted("SELECT * FROM {};", subquery)).is_error()); EXPECT(parse(String::formatted("SELECT * FROM ({});", subquery)).is_error()); } TEST_CASE(describe_table) { EXPECT(parse("DESCRIBE").is_error()); EXPECT(parse("DESCRIBE;").is_error()); EXPECT(parse("DESCRIBE TABLE;").is_error()); EXPECT(parse("DESCRIBE table_name;").is_error()); auto validate = [](StringView sql, StringView expected_schema, StringView expected_table) { auto result = parse(sql); if (result.is_error()) outln("{}: {}", sql, result.error()); EXPECT(!result.is_error()); auto statement = result.release_value(); EXPECT(is(*statement)); const auto& describe_table_statement = static_cast(*statement); EXPECT_EQ(describe_table_statement.qualified_table_name()->schema_name(), expected_schema); EXPECT_EQ(describe_table_statement.qualified_table_name()->table_name(), expected_table); }; validate("DESCRIBE TABLE TableName;", {}, "TABLENAME"); validate("DESCRIBE TABLE SchemaName.TableName;", "SCHEMANAME", "TABLENAME"); }