ladybird/Tests/LibSQL/TestSqlExpressionParser.cpp
Ben Wiederhake f890b70eae Tests: Prefer TRY_OR_FAIL() and MUST() over EXPECT(!.is_error())
Note that in some cases (in particular SQL::Result and PDFErrorOr),
there is no Formatter defined for the error type, hence TRY_OR_FAIL
cannot work as-is. Furthermore, this commit leaves untouched the places
where MUST could be replaced by TRY_OR_FAIL.

Inspired by:
https://github.com/SerenityOS/serenity/pull/18710#discussion_r1186892445
2023-05-14 15:39:38 -06:00

604 lines
22 KiB
C++

/*
* Copyright (c) 2021, Tim Flynn <trflynn89@serenityos.org>
* Copyright (c) 2021, Jan de Visser <jan@de-visser.net>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibTest/TestCase.h>
#include <AK/DeprecatedString.h>
#include <AK/HashMap.h>
#include <AK/Result.h>
#include <AK/StringBuilder.h>
#include <AK/StringView.h>
#include <AK/TypeCasts.h>
#include <LibSQL/AST/Lexer.h>
#include <LibSQL/AST/Parser.h>
namespace {
class ExpressionParser : public SQL::AST::Parser {
public:
explicit ExpressionParser(SQL::AST::Lexer lexer)
: SQL::AST::Parser(move(lexer))
{
}
NonnullRefPtr<SQL::AST::Expression> parse()
{
return SQL::AST::Parser::parse_expression();
}
};
using ParseResult = AK::Result<NonnullRefPtr<SQL::AST::Expression>, DeprecatedString>;
ParseResult parse(StringView sql)
{
auto parser = ExpressionParser(SQL::AST::Lexer(sql));
auto expression = parser.parse();
if (parser.has_errors()) {
return parser.errors()[0].to_deprecated_string();
}
return expression;
}
}
TEST_CASE(numeric_literal)
{
// FIXME Right now the "1a" test fails (meaning the parse succeeds).
// This is obviously inconsistent.
// See the FIXME in lexer.cpp, method consume_exponent() about
// solutions.
// EXPECT(parse("1e"sv).is_error());
// EXPECT(parse("1a"sv).is_error());
// EXPECT(parse("0x"sv).is_error());
auto validate = [](StringView sql, double expected_value) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::NumericLiteral>(*expression));
const auto& literal = static_cast<const SQL::AST::NumericLiteral&>(*expression);
EXPECT_EQ(literal.value(), expected_value);
};
validate("123"sv, 123);
validate("3.14"sv, 3.14);
validate("0xA"sv, 10);
validate("0xff"sv, 255);
validate("0x100"sv, 256);
validate("1e3"sv, 1000);
}
TEST_CASE(string_literal)
{
EXPECT(parse("'"sv).is_error());
EXPECT(parse("'unterminated"sv).is_error());
auto validate = [](StringView sql, StringView expected_value) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::StringLiteral>(*expression));
const auto& literal = static_cast<const SQL::AST::StringLiteral&>(*expression);
EXPECT_EQ(literal.value(), expected_value);
};
validate("''"sv, ""sv);
validate("'hello friends'"sv, "hello friends"sv);
validate("'hello ''friends'''"sv, "hello 'friends'"sv);
}
TEST_CASE(blob_literal)
{
EXPECT(parse("x'"sv).is_error());
EXPECT(parse("x'unterminated"sv).is_error());
EXPECT(parse("x'NOTHEX'"sv).is_error());
auto validate = [](StringView sql, StringView expected_value) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::BlobLiteral>(*expression));
const auto& literal = static_cast<const SQL::AST::BlobLiteral&>(*expression);
EXPECT_EQ(literal.value(), expected_value);
};
validate("x''"sv, ""sv);
validate("x'DEADC0DE'"sv, "DEADC0DE"sv);
}
TEST_CASE(boolean_literal)
{
auto validate = [](StringView sql, bool expected_value) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::BooleanLiteral>(*expression));
auto const& literal = static_cast<SQL::AST::BooleanLiteral const&>(*expression);
EXPECT_EQ(literal.value(), expected_value);
};
validate("TRUE"sv, true);
validate("FALSE"sv, false);
}
TEST_CASE(null_literal)
{
auto validate = [](StringView sql) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::NullLiteral>(*expression));
};
validate("NULL"sv);
}
TEST_CASE(bind_parameter)
{
auto validate = [](StringView sql) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::Placeholder>(*expression));
};
validate("?"sv);
}
TEST_CASE(column_name)
{
EXPECT(parse(".column_name"sv).is_error());
EXPECT(parse("table_name."sv).is_error());
EXPECT(parse("schema_name.table_name."sv).is_error());
EXPECT(parse("\"unterminated"sv).is_error());
auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, StringView expected_column) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::ColumnNameExpression>(*expression));
const auto& column = static_cast<const SQL::AST::ColumnNameExpression&>(*expression);
EXPECT_EQ(column.schema_name(), expected_schema);
EXPECT_EQ(column.table_name(), expected_table);
EXPECT_EQ(column.column_name(), expected_column);
};
validate("column_name"sv, {}, {}, "COLUMN_NAME"sv);
validate("table_name.column_name"sv, {}, "TABLE_NAME"sv, "COLUMN_NAME"sv);
validate("schema_name.table_name.column_name"sv, "SCHEMA_NAME"sv, "TABLE_NAME"sv, "COLUMN_NAME"sv);
validate("\"Column_Name\""sv, {}, {}, "Column_Name"sv);
validate("\"Column\n_Name\""sv, {}, {}, "Column\n_Name"sv);
}
TEST_CASE(unary_operator)
{
EXPECT(parse("-"sv).is_error());
EXPECT(parse("--"sv).is_error());
EXPECT(parse("+"sv).is_error());
EXPECT(parse("++"sv).is_error());
EXPECT(parse("~"sv).is_error());
EXPECT(parse("~~"sv).is_error());
EXPECT(parse("NOT"sv).is_error());
auto validate = [](StringView sql, SQL::AST::UnaryOperator expected_operator) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::UnaryOperatorExpression>(*expression));
const auto& unary = static_cast<const SQL::AST::UnaryOperatorExpression&>(*expression);
EXPECT_EQ(unary.type(), expected_operator);
const auto& secondary_expression = unary.expression();
EXPECT(!is<SQL::AST::ErrorExpression>(*secondary_expression));
};
validate("-15"sv, SQL::AST::UnaryOperator::Minus);
validate("+15"sv, SQL::AST::UnaryOperator::Plus);
validate("~15"sv, SQL::AST::UnaryOperator::BitwiseNot);
validate("NOT 15"sv, SQL::AST::UnaryOperator::Not);
}
TEST_CASE(binary_operator)
{
HashMap<StringView, SQL::AST::BinaryOperator> operators {
{ "||"sv, SQL::AST::BinaryOperator::Concatenate },
{ "*"sv, SQL::AST::BinaryOperator::Multiplication },
{ "/"sv, SQL::AST::BinaryOperator::Division },
{ "%"sv, SQL::AST::BinaryOperator::Modulo },
{ "+"sv, SQL::AST::BinaryOperator::Plus },
{ "-"sv, SQL::AST::BinaryOperator::Minus },
{ "<<"sv, SQL::AST::BinaryOperator::ShiftLeft },
{ ">>"sv, SQL::AST::BinaryOperator::ShiftRight },
{ "&"sv, SQL::AST::BinaryOperator::BitwiseAnd },
{ "|"sv, SQL::AST::BinaryOperator::BitwiseOr },
{ "<"sv, SQL::AST::BinaryOperator::LessThan },
{ "<="sv, SQL::AST::BinaryOperator::LessThanEquals },
{ ">"sv, SQL::AST::BinaryOperator::GreaterThan },
{ ">="sv, SQL::AST::BinaryOperator::GreaterThanEquals },
{ "="sv, SQL::AST::BinaryOperator::Equals },
{ "=="sv, SQL::AST::BinaryOperator::Equals },
{ "!="sv, SQL::AST::BinaryOperator::NotEquals },
{ "<>"sv, SQL::AST::BinaryOperator::NotEquals },
{ "AND"sv, SQL::AST::BinaryOperator::And },
{ "OR"sv, SQL::AST::BinaryOperator::Or },
};
for (auto op : operators) {
EXPECT(parse(op.key).is_error());
StringBuilder builder;
builder.append("1 "sv);
builder.append(op.key);
EXPECT(parse(builder.to_deprecated_string()).is_error());
builder.clear();
if (op.key != "+" && op.key != "-") { // "+1" and "-1" are fine (unary operator).
builder.append(op.key);
builder.append(" 1"sv);
EXPECT(parse(builder.to_deprecated_string()).is_error());
}
}
auto validate = [](StringView sql, SQL::AST::BinaryOperator expected_operator) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::BinaryOperatorExpression>(*expression));
const auto& binary = static_cast<const SQL::AST::BinaryOperatorExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*binary.lhs()));
EXPECT(!is<SQL::AST::ErrorExpression>(*binary.rhs()));
EXPECT_EQ(binary.type(), expected_operator);
};
for (auto op : operators) {
StringBuilder builder;
builder.append("1 "sv);
builder.append(op.key);
builder.append(" 1"sv);
validate(builder.to_deprecated_string(), op.value);
}
}
TEST_CASE(chained_expression)
{
EXPECT(parse("()"sv).is_error());
EXPECT(parse("(,)"sv).is_error());
EXPECT(parse("(15,)"sv).is_error());
auto validate = [](StringView sql, size_t expected_chain_size) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::ChainedExpression>(*expression));
const auto& chain = static_cast<const SQL::AST::ChainedExpression&>(*expression).expressions();
EXPECT_EQ(chain.size(), expected_chain_size);
for (const auto& chained_expression : chain)
EXPECT(!is<SQL::AST::ErrorExpression>(chained_expression));
};
validate("(15)"sv, 1);
validate("(15, 16)"sv, 2);
validate("(15, 16, column_name)"sv, 3);
}
TEST_CASE(cast_expression)
{
EXPECT(parse("CAST"sv).is_error());
EXPECT(parse("CAST ("sv).is_error());
EXPECT(parse("CAST ()"sv).is_error());
EXPECT(parse("CAST (15)"sv).is_error());
EXPECT(parse("CAST (15 AS"sv).is_error());
EXPECT(parse("CAST (15 AS)"sv).is_error());
EXPECT(parse("CAST (15 AS int"sv).is_error());
auto validate = [](StringView sql, StringView expected_type_name) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::CastExpression>(*expression));
const auto& cast = static_cast<const SQL::AST::CastExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*cast.expression()));
const auto& type_name = cast.type_name();
EXPECT_EQ(type_name->name(), expected_type_name);
};
validate("CAST (15 AS int)"sv, "INT"sv);
// FIXME The syntax in the test below fails on both sqlite3 and psql (PostgreSQL).
// Also fails here because null is interpreted as the NULL keyword and not the
// identifier null (which is not a type)
// validate("CAST ('NULL' AS null)"sv, "null"sv);
validate("CAST (15 AS varchar(255))"sv, "VARCHAR"sv);
}
TEST_CASE(case_expression)
{
EXPECT(parse("CASE"sv).is_error());
EXPECT(parse("CASE END"sv).is_error());
EXPECT(parse("CASE 15"sv).is_error());
EXPECT(parse("CASE 15 END"sv).is_error());
EXPECT(parse("CASE WHEN"sv).is_error());
EXPECT(parse("CASE WHEN THEN"sv).is_error());
EXPECT(parse("CASE WHEN 15 THEN 16"sv).is_error());
EXPECT(parse("CASE WHEN 15 THEN 16 ELSE"sv).is_error());
EXPECT(parse("CASE WHEN 15 THEN 16 ELSE END"sv).is_error());
auto validate = [](StringView sql, bool expect_case_expression, size_t expected_when_then_size, bool expect_else_expression) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::CaseExpression>(*expression));
const auto& case_ = static_cast<const SQL::AST::CaseExpression&>(*expression);
const auto& case_expression = case_.case_expression();
EXPECT_EQ(case_expression.is_null(), !expect_case_expression);
if (case_expression)
EXPECT(!is<SQL::AST::ErrorExpression>(*case_expression));
const auto& when_then_clauses = case_.when_then_clauses();
EXPECT_EQ(when_then_clauses.size(), expected_when_then_size);
for (const auto& when_then_clause : when_then_clauses) {
EXPECT(!is<SQL::AST::ErrorExpression>(*when_then_clause.when));
EXPECT(!is<SQL::AST::ErrorExpression>(*when_then_clause.then));
}
const auto& else_expression = case_.else_expression();
EXPECT_EQ(else_expression.is_null(), !expect_else_expression);
if (else_expression)
EXPECT(!is<SQL::AST::ErrorExpression>(*else_expression));
};
validate("CASE WHEN 16 THEN 17 END"sv, false, 1, false);
validate("CASE WHEN 16 THEN 17 WHEN 18 THEN 19 END"sv, false, 2, false);
validate("CASE WHEN 16 THEN 17 WHEN 18 THEN 19 ELSE 20 END"sv, false, 2, true);
validate("CASE 15 WHEN 16 THEN 17 END"sv, true, 1, false);
validate("CASE 15 WHEN 16 THEN 17 WHEN 18 THEN 19 END"sv, true, 2, false);
validate("CASE 15 WHEN 16 THEN 17 WHEN 18 THEN 19 ELSE 20 END"sv, true, 2, true);
}
TEST_CASE(exists_expression)
{
EXPECT(parse("EXISTS"sv).is_error());
EXPECT(parse("EXISTS ("sv).is_error());
EXPECT(parse("EXISTS (SELECT"sv).is_error());
EXPECT(parse("EXISTS (SELECT)"sv).is_error());
EXPECT(parse("EXISTS (SELECT * FROM table_name"sv).is_error());
EXPECT(parse("NOT EXISTS"sv).is_error());
EXPECT(parse("NOT EXISTS ("sv).is_error());
EXPECT(parse("NOT EXISTS (SELECT"sv).is_error());
EXPECT(parse("NOT EXISTS (SELECT)"sv).is_error());
EXPECT(parse("NOT EXISTS (SELECT * FROM table_name"sv).is_error());
EXPECT(parse("("sv).is_error());
EXPECT(parse("(SELECT"sv).is_error());
EXPECT(parse("(SELECT)"sv).is_error());
EXPECT(parse("(SELECT * FROM table_name"sv).is_error());
auto validate = [](StringView sql, bool expected_invert_expression) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::ExistsExpression>(*expression));
const auto& exists = static_cast<const SQL::AST::ExistsExpression&>(*expression);
EXPECT_EQ(exists.invert_expression(), expected_invert_expression);
};
validate("EXISTS (SELECT * FROM table_name)"sv, false);
validate("NOT EXISTS (SELECT * FROM table_name)"sv, true);
validate("(SELECT * FROM table_name)"sv, false);
}
TEST_CASE(collate_expression)
{
EXPECT(parse("COLLATE"sv).is_error());
EXPECT(parse("COLLATE name"sv).is_error());
EXPECT(parse("15 COLLATE"sv).is_error());
auto validate = [](StringView sql, StringView expected_collation_name) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::CollateExpression>(*expression));
const auto& collate = static_cast<const SQL::AST::CollateExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*collate.expression()));
EXPECT_EQ(collate.collation_name(), expected_collation_name);
};
validate("15 COLLATE fifteen"sv, "FIFTEEN"sv);
validate("(15, 16) COLLATE \"chain\""sv, "chain"sv);
}
TEST_CASE(is_expression)
{
EXPECT(parse("IS"sv).is_error());
EXPECT(parse("IS 1"sv).is_error());
EXPECT(parse("1 IS"sv).is_error());
EXPECT(parse("IS NOT"sv).is_error());
EXPECT(parse("IS NOT 1"sv).is_error());
EXPECT(parse("1 IS NOT"sv).is_error());
auto validate = [](StringView sql, bool expected_invert_expression) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::IsExpression>(*expression));
const auto& is_ = static_cast<const SQL::AST::IsExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*is_.lhs()));
EXPECT(!is<SQL::AST::ErrorExpression>(*is_.rhs()));
EXPECT_EQ(is_.invert_expression(), expected_invert_expression);
};
validate("1 IS NULL"sv, false);
validate("1 IS NOT NULL"sv, true);
}
TEST_CASE(match_expression)
{
HashMap<StringView, SQL::AST::MatchOperator> operators {
{ "LIKE"sv, SQL::AST::MatchOperator::Like },
{ "GLOB"sv, SQL::AST::MatchOperator::Glob },
{ "MATCH"sv, SQL::AST::MatchOperator::Match },
{ "REGEXP"sv, SQL::AST::MatchOperator::Regexp },
};
for (auto op : operators) {
EXPECT(parse(op.key).is_error());
StringBuilder builder;
builder.append("1 "sv);
builder.append(op.key);
EXPECT(parse(builder.to_deprecated_string()).is_error());
builder.clear();
builder.append(op.key);
builder.append(" 1"sv);
EXPECT(parse(builder.to_deprecated_string()).is_error());
}
auto validate = [](StringView sql, SQL::AST::MatchOperator expected_operator, bool expected_invert_expression, bool expect_escape) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::MatchExpression>(*expression));
const auto& match = static_cast<const SQL::AST::MatchExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*match.lhs()));
EXPECT(!is<SQL::AST::ErrorExpression>(*match.rhs()));
EXPECT_EQ(match.type(), expected_operator);
EXPECT_EQ(match.invert_expression(), expected_invert_expression);
EXPECT(match.escape() || !expect_escape);
};
for (auto op : operators) {
StringBuilder builder;
builder.append("1 "sv);
builder.append(op.key);
builder.append(" 1"sv);
validate(builder.to_deprecated_string(), op.value, false, false);
builder.clear();
builder.append("1 NOT "sv);
builder.append(op.key);
builder.append(" 1"sv);
validate(builder.to_deprecated_string(), op.value, true, false);
builder.clear();
builder.append("1 NOT "sv);
builder.append(op.key);
builder.append(" 1 ESCAPE '+'"sv);
validate(builder.to_deprecated_string(), op.value, true, true);
}
}
TEST_CASE(null_expression)
{
EXPECT(parse("ISNULL"sv).is_error());
EXPECT(parse("NOTNULL"sv).is_error());
EXPECT(parse("15 NOT"sv).is_error());
auto validate = [](StringView sql, bool expected_invert_expression) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::NullExpression>(*expression));
const auto& null = static_cast<const SQL::AST::NullExpression&>(*expression);
EXPECT_EQ(null.invert_expression(), expected_invert_expression);
};
validate("15 ISNULL"sv, false);
validate("15 NOTNULL"sv, true);
validate("15 NOT NULL"sv, true);
}
TEST_CASE(between_expression)
{
EXPECT(parse("BETWEEN"sv).is_error());
EXPECT(parse("NOT BETWEEN"sv).is_error());
EXPECT(parse("BETWEEN 10 AND 20"sv).is_error());
EXPECT(parse("NOT BETWEEN 10 AND 20"sv).is_error());
EXPECT(parse("15 BETWEEN 10"sv).is_error());
EXPECT(parse("15 BETWEEN 10 AND"sv).is_error());
EXPECT(parse("15 BETWEEN AND 20"sv).is_error());
EXPECT(parse("15 BETWEEN 10 OR 20"sv).is_error());
auto validate = [](StringView sql, bool expected_invert_expression) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::BetweenExpression>(*expression));
const auto& between = static_cast<const SQL::AST::BetweenExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*between.expression()));
EXPECT(!is<SQL::AST::ErrorExpression>(*between.lhs()));
EXPECT(!is<SQL::AST::ErrorExpression>(*between.rhs()));
EXPECT_EQ(between.invert_expression(), expected_invert_expression);
};
validate("15 BETWEEN 10 AND 20"sv, false);
validate("15 NOT BETWEEN 10 AND 20"sv, true);
}
TEST_CASE(in_table_expression)
{
EXPECT(parse("IN"sv).is_error());
EXPECT(parse("IN table_name"sv).is_error());
EXPECT(parse("NOT IN"sv).is_error());
EXPECT(parse("NOT IN table_name"sv).is_error());
auto validate = [](StringView sql, StringView expected_schema, StringView expected_table, bool expected_invert_expression) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::InTableExpression>(*expression));
const auto& in = static_cast<const SQL::AST::InTableExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*in.expression()));
EXPECT_EQ(in.schema_name(), expected_schema);
EXPECT_EQ(in.table_name(), expected_table);
EXPECT_EQ(in.invert_expression(), expected_invert_expression);
};
validate("15 IN table_name"sv, {}, "TABLE_NAME"sv, false);
validate("15 IN schema_name.table_name"sv, "SCHEMA_NAME"sv, "TABLE_NAME"sv, false);
validate("15 NOT IN table_name"sv, {}, "TABLE_NAME"sv, true);
validate("15 NOT IN schema_name.table_name"sv, "SCHEMA_NAME"sv, "TABLE_NAME"sv, true);
}
TEST_CASE(in_chained_expression)
{
EXPECT(parse("IN ()"sv).is_error());
EXPECT(parse("NOT IN ()"sv).is_error());
auto validate = [](StringView sql, size_t expected_chain_size, bool expected_invert_expression) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::InChainedExpression>(*expression));
const auto& in = static_cast<const SQL::AST::InChainedExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*in.expression()));
EXPECT_EQ(in.expression_chain()->expressions().size(), expected_chain_size);
EXPECT_EQ(in.invert_expression(), expected_invert_expression);
for (const auto& chained_expression : in.expression_chain()->expressions())
EXPECT(!is<SQL::AST::ErrorExpression>(chained_expression));
};
validate("15 IN ()"sv, 0, false);
validate("15 IN (15)"sv, 1, false);
validate("15 IN (15, 16)"sv, 2, false);
validate("15 NOT IN ()"sv, 0, true);
validate("15 NOT IN (15)"sv, 1, true);
validate("15 NOT IN (15, 16)"sv, 2, true);
}
TEST_CASE(in_selection_expression)
{
EXPECT(parse("IN (SELECT)"sv).is_error());
EXPECT(parse("IN (SELECT * FROM table_name, SELECT * FROM table_name);"sv).is_error());
EXPECT(parse("NOT IN (SELECT)"sv).is_error());
EXPECT(parse("NOT IN (SELECT * FROM table_name, SELECT * FROM table_name);"sv).is_error());
auto validate = [](StringView sql, bool expected_invert_expression) {
auto expression = TRY_OR_FAIL(parse(sql));
EXPECT(is<SQL::AST::InSelectionExpression>(*expression));
const auto& in = static_cast<const SQL::AST::InSelectionExpression&>(*expression);
EXPECT(!is<SQL::AST::ErrorExpression>(*in.expression()));
EXPECT_EQ(in.invert_expression(), expected_invert_expression);
};
validate("15 IN (SELECT * FROM table_name)"sv, false);
validate("15 NOT IN (SELECT * FROM table_name)"sv, true);
}
TEST_CASE(expression_tree_depth_limit)
{
auto too_deep_expression = DeprecatedString::formatted("{:+^{}}1", "", SQL::AST::Limits::maximum_expression_tree_depth);
EXPECT(!parse(too_deep_expression.substring_view(1)).is_error());
EXPECT(parse(too_deep_expression).is_error());
}