#include #include #include static int test_passed = 0; static int test_failed = 0; /* Terminate current test with error */ #define fail() return __LINE__ /* Successfull end of the test case */ #define done() return 0 /* Check single condition */ #define check(cond) do { if (!(cond)) fail(); } while (0) /* Test runner */ static void test(int (*func)(void), const char *name) { int r = func(); if (r == 0) { test_passed++; } else { test_failed++; printf("FAILED: %s (at line %d)\n", name, r); } } #include "json.cpp" using namespace std; using namespace JSON; static bool TOKEN_STRING(const Token& t, const char *s) { return !t.value().compare(string(s)); } static bool isObject(const Token& t, int children) { return t.isObject() && t.children() == children; } static bool isArray(const Token& t, int children) { return t.isArray() && t.children() == children; } static bool isKey(const Token& t, const char* v) { return t.isString() && t.children() == 1 && t.value() == v; } static bool isPrimitive(const Token& t, const char* v) { return t.isPrimitive() && t.children() == 0 && t.value() == v; } int test_empty() { const char *js; int r; Parser p; js = "{}"; r = p.parse(string(js)); check(r == 1); check(isObject(p[0], 0)); js = "[]"; r = p.parse(string(js)); check(r == 1); check(isArray(p[0], 0)); js = "{\"a\":[]}"; r = p.parse(string(js)); check(r == 3); check(isObject(p[0], 1)); check(isKey(p[1], "a")); check(isArray(p[2], 0)); js = "[{},{}]"; r = p.parse(string(js)); check(r >= 0); check(isArray(p[0], 2)); check(isObject(p[1], 0)); check(isObject(p[2], 0)); return 0; } int test_simple() { const char *js; int r; Parser p; js = "{\"a\": 0}"; r = p.parse(string(js)); check(r == 3); check(isObject(p[0], 1)); check(isKey(p[1], "a")); check(isPrimitive(p[2], "0")); js = "[\"a\":{},\"b\":{}]"; r = p.parse(string(js)); check(r == 5); check(isArray(p[0], 2)); check(isKey(p[1], "a")); check(isObject(p[2], 0)); check(isKey(p[3], "b")); check(isObject(p[4], 0)); js = "{\n \"Day\": 26,\n \"Month\": 9,\n \"Year\": 12\n }"; r = p.parse(string(js)); check(r == 7); return 0; } int test_primitive() { int r; Parser p; const char *js; js = "{\"boolVar\" : true}"; r = p.parse(string(js)); check(r == 3); check(p[0].isObject() && p[1].isString() && p[2].isPrimitive()); check(TOKEN_STRING(p[1], "boolVar")); check(TOKEN_STRING(p[2], "true")); js = "{\"boolVar\" : false}"; r = p.parse(string(js)); check(r == 3); check(p[0].isObject() && p[1].isString() && p[2].isPrimitive()); check(TOKEN_STRING(p[1], "boolVar")); check(TOKEN_STRING(p[2], "false")); js = "{\"intVar\" : 12345}"; r = p.parse(string(js)); check(r == 3); check(p[0].isObject() && p[1].isString() && p[2].isPrimitive()); check(TOKEN_STRING(p[1], "intVar")); check(TOKEN_STRING(p[2], "12345")); js = "{\"floatVar\" : 12.345}"; r = p.parse(string(js)); check(r == 3); check(p[0].isObject() && p[1].isString() && p[2].isPrimitive()); check(TOKEN_STRING(p[1], "floatVar")); check(TOKEN_STRING(p[2], "12.345")); js = "{\"nullVar\" : null}"; r = p.parse(string(js)); check(r == 3); check(p[0].isObject() && p[1].isString() && p[2].isPrimitive()); check(TOKEN_STRING(p[1], "nullVar")); check(TOKEN_STRING(p[2], "null")); return 0; } int test_string() { int r; Parser p; const char *js; js = "\"strVar\" : \"hello world\""; r = p.parse(string(js)); check(r >= 0 && p[0].isString() && p[1].isString()); check(TOKEN_STRING(p[0], "strVar")); check(TOKEN_STRING(p[1], "hello world")); js = "\"strVar\" : \"escapes: \\/\\r\\n\\t\\b\\f\\\"\\\\\""; r = p.parse(string(js)); check(r >= 0 && p[0].isString() && p[1].isString()); check(TOKEN_STRING(p[0], "strVar")); check(TOKEN_STRING(p[1], "escapes: \\/\\r\\n\\t\\b\\f\\\"\\\\")); js = "\"strVar\" : \"\""; r = p.parse(string(js)); check(r >= 0 && p[0].isString() && p[1].isString()); check(TOKEN_STRING(p[0], "strVar")); check(TOKEN_STRING(p[1], "")); return 0; } int test_partial_string() { int r; Parser p; const char *js; js = "\"x\": \"va"; r = p.parse(string(js)); check(r == ERROR_PART && p[0].isString()); check(TOKEN_STRING(p[0], "x")); check(p.size() == 1); char js_slash[] = "\"x\": \"va\\"; r = p.parse(string(js_slash)); // intentionally not sizeof(js_slash) check(r == ERROR_PART); char js_unicode[] = "\"x\": \"va\\u"; r = p.parse(string(js_unicode)); // intentionally not sizeof(js_unicode) check(r == ERROR_PART); js = "\"x\": \"valu"; r = p.parse(string(js)); check(r == ERROR_PART && p[0].isString()); check(TOKEN_STRING(p[0], "x")); check(p.size() == 1); js = "\"x\": \"value\""; r = p.parse(string(js)); check(r >= 0 && p[0].isString() && p[1].isString()); check(TOKEN_STRING(p[0], "x")); check(TOKEN_STRING(p[1], "value")); js = "{\"x\": \"value\", \"y\": \"value y\"}"; r = p.parse(string(js)); check(r >= 0 && p[0].isObject() && p[1].isString() && p[2].isString() && p[3].isString() && p[4].isString()); check(TOKEN_STRING(p[1], "x")); check(TOKEN_STRING(p[2], "value")); check(TOKEN_STRING(p[3], "y")); check(TOKEN_STRING(p[4], "value y")); return 0; } int test_partial_array() { int r; Parser p; const char *js; js = " [ 1, true, "; r = p.parse(string(js)); check(r == ERROR_PART && p[0].isArray() && p[1].isPrimitive() && p[2].isPrimitive()); js = " [ 1, true, [123, \"hello"; r = p.parse(string(js)); check(r == ERROR_PART && p[0].isArray() && p[1].isPrimitive() && p[2].isPrimitive() && p[3].isArray() && p[4].isPrimitive()); js = " [ 1, true, [123, \"hello\"]"; r = p.parse(string(js)); check(r == ERROR_PART && p[0].isArray() && p[1].isPrimitive() && p[2].isPrimitive() && p[3].isArray() && p[4].isPrimitive() && p[5].isString()); /* check child nodes of the 2nd array */ check(p[3].children() == 2); js = " [ 1, true, [123, \"hello\"]]"; r = p.parse(string(js)); check(r >= 0 && p[0].isArray() && p[1].isPrimitive() && p[2].isPrimitive() && p[3].isArray() && p[4].isPrimitive() && p[5].isString()); check(p[3].children() == 2); check(p[0].children() == 3); return 0; } int test_objects_arrays() { int r; Parser p; const char *js; js = "[10}"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "[10]"; r = p.parse(string(js)); check(r >= 0); js = "{\"a\": 1]"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "{\"a\": 1}"; r = p.parse(string(js)); check(r >= 0); return 0; } int test_issue_22() { int r; Parser p; const char *js; js = "{ \"height\":10, \"layers\":[ { \"data\":[6,6], \"height\":10, " "\"name\":\"Calque de Tile 1\", \"opacity\":1, \"type\":\"tilelayer\", " "\"visible\":true, \"width\":10, \"x\":0, \"y\":0 }], " "\"orientation\":\"orthogonal\", \"properties\": { }, \"tileheight\":32, " "\"tilesets\":[ { \"firstgid\":1, \"image\":\"..\\/images\\/tiles.png\", " "\"imageheight\":64, \"imagewidth\":160, \"margin\":0, \"name\":\"Tiles\", " "\"properties\":{}, \"spacing\":0, \"tileheight\":32, \"tilewidth\":32 }], " "\"tilewidth\":32, \"version\":1, \"width\":10 }"; r = p.parse(string(js)); check(r >= 0); return 0; } int test_unicode_characters() { Parser p; const char *js; int r; js = "{\"a\":\"\\uAbcD\"}"; r = p.parse(string(js)); check(r >= 0); js = "{\"a\":\"str\\u0000\"}"; r = p.parse(string(js)); check(r >= 0); js = "{\"a\":\"\\uFFFFstr\"}"; r = p.parse(string(js)); check(r >= 0); js = "{\"a\":\"str\\uFFGFstr\"}"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "{\"a\":\"str\\u@FfF\"}"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "{\"a\":[\"\\u028\"]}"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "{\"a\":[\"\\u0280\"]}"; r = p.parse(string(js)); check(r >= 0); return 0; } int test_count() { Parser p; const char *js; js = "{}"; check(p.parse(string(js)) == 1); js = "[]"; check(p.parse(string(js)) == 1); js = "[[]]"; check(p.parse(string(js)) == 2); js = "[[], []]"; check(p.parse(string(js)) == 3); js = "[[], []]"; check(p.parse(string(js)) == 3); js = "[[], [[]], [[], []]]"; check(p.parse(string(js)) == 7); js = "[\"a\", [[], []]]"; check(p.parse(string(js)) == 5); js = "[[], \"[], [[]]\", [[]]]"; check(p.parse(string(js)) == 5); js = "[1, 2, 3]"; check(p.parse(string(js)) == 4); js = "[1, 2, [3, \"a\"], null]"; check(p.parse(string(js)) == 7); return 0; } int test_keyvalue() { const char *js; int r; Parser p; vector tokens; js = "{\"a\": 0, \"b\": \"c\"}"; r = p.parse(string(js)); check(r == 5); check(p[0].children() == 2); /* two keys */ check(p[1].children() == 1 && p[3].children() == 1); /* one value per key */ check(p[2].children() == 0 && p[4].children() == 0); /* values have zero size */ js = "{\"a\"\n0}"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "{\"a\", 0}"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "{\"a\": {2}}"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "{\"a\": {2: 3}}"; r = p.parse(string(js)); check(r == ERROR_INVAL); js = "{\"a\": {\"a\": 2 3}}"; r = p.parse(string(js)); check(r == ERROR_INVAL); return 0; } int main() { test(test_empty, "general test for a empty JSON objects/arrays"); test(test_simple, "general test for a simple JSON string"); test(test_primitive, "test primitive JSON data types"); test(test_string, "test string JSON data types"); test(test_partial_string, "test partial JSON string parsing"); test(test_partial_array, "test partial array reading"); test(test_objects_arrays, "test objects and arrays"); test(test_unicode_characters, "test unicode characters"); test(test_issue_22, "test issue #22"); test(test_count, "test tokens count estimation"); test(test_keyvalue, "test for keys/values"); printf("PASSED: %d\nFAILED: %d\n", test_passed, test_failed); return 0; }