//===- unittest/Tooling/JSONParserTest ------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/Support/Casting.h" #include "llvm/Support/JSONParser.h" #include "llvm/ADT/Twine.h" #include "gtest/gtest.h" namespace llvm { // Checks that the given input gives a parse error. Makes sure that an error // text is available and the parse fails. static void ExpectParseError(StringRef Message, StringRef Input) { SourceMgr SM; JSONParser Parser(Input, &SM); EXPECT_FALSE(Parser.validate()) << Message << ": " << Input; EXPECT_TRUE(Parser.failed()) << Message << ": " << Input; } // Checks that the given input can be parsed without error. static void ExpectParseSuccess(StringRef Message, StringRef Input) { SourceMgr SM; JSONParser Parser(Input, &SM); EXPECT_TRUE(Parser.validate()) << Message << ": " << Input; } TEST(JSONParser, FailsOnEmptyString) { ExpectParseError("Empty JSON text", ""); } TEST(JSONParser, FailsIfStartsWithString) { ExpectParseError("Top-level string", "\"x\""); } TEST(JSONParser, ParsesEmptyArray) { ExpectParseSuccess("Empty array", "[]"); } TEST(JSONParser, FailsIfNotClosingArray) { ExpectParseError("Not closing array", "["); ExpectParseError("Not closing array", " [ "); ExpectParseError("Not closing array", " [x"); } TEST(JSONParser, ParsesEmptyArrayWithWhitespace) { ExpectParseSuccess("Array with spaces", " [ ] "); ExpectParseSuccess("All whitespaces", "\t\r\n[\t\n \t\r ]\t\r \n\n"); } TEST(JSONParser, ParsesEmptyObject) { ExpectParseSuccess("Empty object", "[{}]"); } TEST(JSONParser, ParsesObject) { ExpectParseSuccess("Object with an entry", "[{\"a\":\"/b\"}]"); } TEST(JSONParser, ParsesMultipleKeyValuePairsInObject) { ExpectParseSuccess("Multiple key, value pairs", "[{\"a\":\"/b\",\"c\":\"d\",\"e\":\"f\"}]"); } TEST(JSONParser, FailsIfNotClosingObject) { ExpectParseError("Missing close on empty", "[{]"); ExpectParseError("Missing close after pair", "[{\"a\":\"b\"]"); } TEST(JSONParser, FailsIfMissingColon) { ExpectParseError("Missing colon between key and value", "[{\"a\"\"/b\"}]"); ExpectParseError("Missing colon between key and value", "[{\"a\" \"b\"}]"); } TEST(JSONParser, FailsOnMissingQuote) { ExpectParseError("Missing open quote", "[{a\":\"b\"}]"); ExpectParseError("Missing closing quote", "[{\"a\":\"b}]"); } TEST(JSONParser, ParsesEscapedQuotes) { ExpectParseSuccess("Parses escaped string in key and value", "[{\"a\":\"\\\"b\\\" \\\" \\\"\"}]"); } TEST(JSONParser, ParsesEmptyString) { ExpectParseSuccess("Parses empty string in value", "[{\"a\":\"\"}]"); } TEST(JSONParser, FailsOnMissingString) { ExpectParseError("Missing value", "[{\"a\":}]"); ExpectParseError("Missing key", "[{:\"b\"}]"); } TEST(JSONParser, ParsesMultipleObjects) { ExpectParseSuccess( "Multiple objects in array", "[" " { \"a\" : \"b\" }," " { \"a\" : \"b\" }," " { \"a\" : \"b\" }" "]"); } TEST(JSONParser, FailsOnMissingComma) { ExpectParseError( "Missing comma", "[" " { \"a\" : \"b\" }" " { \"a\" : \"b\" }" "]"); } TEST(JSONParser, FailsOnSuperfluousComma) { ExpectParseError("Superfluous comma in array", "[ { \"a\" : \"b\" }, ]"); ExpectParseError("Superfluous comma in object", "{ \"a\" : \"b\", }"); } TEST(JSONParser, ParsesSpacesInBetweenTokens) { ExpectParseSuccess( "Various whitespace between tokens", " \t \n\n \r [ \t \n\n \r" " \t \n\n \r { \t \n\n \r\"a\"\t \n\n \r :" " \t \n\n \r \"b\"\t \n\n \r } \t \n\n \r,\t \n\n \r" " \t \n\n \r { \t \n\n \r\"a\"\t \n\n \r :" " \t \n\n \r \"b\"\t \n\n \r } \t \n\n \r]\t \n\n \r"); } TEST(JSONParser, ParsesArrayOfArrays) { ExpectParseSuccess("Array of arrays", "[[]]"); } TEST(JSONParser, HandlesEndOfFileGracefully) { ExpectParseError("In string starting with EOF", "[\""); ExpectParseError("In string hitting EOF", "[\" "); ExpectParseError("In string escaping EOF", "[\" \\"); ExpectParseError("In array starting with EOF", "["); ExpectParseError("In array element starting with EOF", "[[], "); ExpectParseError("In array hitting EOF", "[[] "); ExpectParseError("In array hitting EOF", "[[]"); ExpectParseError("In object hitting EOF", "{\"\""); } // Checks that the given string can be parsed into an identical string inside // of an array. static void ExpectCanParseString(StringRef String) { std::string StringInArray = (llvm::Twine("[\"") + String + "\"]").str(); SourceMgr SM; JSONParser Parser(StringInArray, &SM); const JSONArray *ParsedArray = dyn_cast(Parser.parseRoot()); StringRef ParsedString = dyn_cast(*ParsedArray->begin())->getRawText(); EXPECT_EQ(String, ParsedString.str()); } // Checks that parsing the given string inside an array fails. static void ExpectCannotParseString(StringRef String) { std::string StringInArray = (llvm::Twine("[\"") + String + "\"]").str(); ExpectParseError((Twine("When parsing string \"") + String + "\"").str(), StringInArray); } TEST(JSONParser, ParsesStrings) { ExpectCanParseString(""); ExpectCannotParseString("\\"); ExpectCannotParseString("\""); ExpectCanParseString(" "); ExpectCanParseString("\\ "); ExpectCanParseString("\\\""); ExpectCannotParseString("\"\\"); ExpectCannotParseString(" \\"); ExpectCanParseString("\\\\"); ExpectCannotParseString("\\\\\\"); ExpectCanParseString("\\\\\\\\"); ExpectCanParseString("\\\" "); ExpectCannotParseString("\\\\\" "); ExpectCanParseString("\\\\\\\" "); ExpectCanParseString(" \\\\ \\\" \\\\\\\" "); } TEST(JSONParser, WorksWithIteratorAlgorithms) { SourceMgr SM; JSONParser Parser("[\"1\", \"2\", \"3\", \"4\", \"5\", \"6\"]", &SM); const JSONArray *Array = dyn_cast(Parser.parseRoot()); EXPECT_EQ(6, std::distance(Array->begin(), Array->end())); } } // end namespace llvm