void TestSuite::TestInspectors(void){ UnitTest::SetPrefix("TestInspectors.cpp - Inspectors"); JSONNode test = JSONNode(JSON_NULL); #ifdef JSON_CASTABLE assertEquals(test.as_string(), JSON_TEXT("")); assertEquals(test.as_int(), 0); assertEquals(test.as_float(), 0.0f); assertEquals(test.as_bool(), false); #endif test = 15.5f; assertEquals(test.type(), JSON_NUMBER); #ifdef JSON_CASTABLE assertEquals(test.as_string(), JSON_TEXT("15.5")); #endif assertEquals(test.as_int(), 15); assertEquals(test.as_float(), 15.5f); #ifdef JSON_CASTABLE assertEquals(test.as_bool(), true); #endif test = 0.0f; assertEquals(test.type(), JSON_NUMBER); #ifdef JSON_CASTABLE assertEquals(test.as_string(), JSON_TEXT("0")); #endif assertEquals(test.as_int(), 0); assertEquals(test.as_float(), 0.0f); #ifdef JSON_CASTABLE assertEquals(test.as_bool(), false); #endif test = true; assertEquals(test.type(), JSON_BOOL); #ifdef JSON_CASTABLE assertEquals(test.as_string(), JSON_TEXT("true")); assertEquals(test.as_int(), 1); assertEquals(test.as_float(), 1.0f); #endif assertEquals(test.as_bool(), true); test = false; assertEquals(test.type(), JSON_BOOL); #ifdef JSON_CASTABLE assertEquals(test.as_string(), JSON_TEXT("false")); assertEquals(test.as_int(), 0); assertEquals(test.as_float(), 0.0f); #endif assertEquals(test.as_bool(), false); #ifdef JSON_CASTABLE test.cast(JSON_NODE); #else test = JSONNode(JSON_NODE); #endif assertEquals(test.type(), JSON_NODE); assertEquals(test.size(), 0); test.push_back(JSONNode(JSON_TEXT("hi"), JSON_TEXT("world"))); test.push_back(JSONNode(JSON_TEXT("hello"), JSON_TEXT("mars"))); test.push_back(JSONNode(JSON_TEXT("salut"), JSON_TEXT("france"))); assertEquals(test.size(), 3); TestSuite::testParsingItself(test); #ifdef JSON_CASTABLE JSONNode casted = test.as_array(); #ifdef JSON_UNIT_TEST assertNotEquals(casted.internal, test.internal); #endif assertEquals(casted.type(), JSON_ARRAY); assertEquals(test.type(), JSON_NODE); assertEquals(test.size(), 3); assertEquals(casted.size(), 3); TestSuite::testParsingItself(casted); #endif UnitTest::SetPrefix("TestInspectors.cpp - Location"); try { #ifdef JSON_CASTABLE assertEquals(casted.at(0), JSON_TEXT("world")); assertEquals(casted.at(1), JSON_TEXT("mars")); assertEquals(casted.at(2), JSON_TEXT("france")); assertEquals(casted.at(0).name(), JSON_TEXT("")); assertEquals(casted.at(1).name(), JSON_TEXT("")); assertEquals(casted.at(2).name(), JSON_TEXT("")); #endif assertEquals(test.at(0), JSON_TEXT("world")); assertEquals(test.at(1), JSON_TEXT("mars")); assertEquals(test.at(2), JSON_TEXT("france")); assertEquals(test.at(0).name(), JSON_TEXT("hi")); assertEquals(test.at(1).name(), JSON_TEXT("hello")); assertEquals(test.at(2).name(), JSON_TEXT("salut")); } catch (std::out_of_range){ FAIL("exception caught"); } try { assertEquals(test.at(JSON_TEXT("hi")), JSON_TEXT("world")); assertEquals(test.at(JSON_TEXT("hello")), JSON_TEXT("mars")); assertEquals(test.at(JSON_TEXT("salut")), JSON_TEXT("france")); #ifdef JSON_CASE_INSENSITIVE_FUNCTIONS assertEquals(test.at_nocase(JSON_TEXT("SALUT")), JSON_TEXT("france")); assertEquals(test.at_nocase(JSON_TEXT("HELLO")), JSON_TEXT("mars")); assertEquals(test.at_nocase(JSON_TEXT("HI")), JSON_TEXT("world")); #endif } catch (std::out_of_range){ FAIL("exception caught"); } assertException(test.at(JSON_TEXT("meh")), std::out_of_range); #ifdef JSON_CASE_INSENSITIVE_FUNCTIONS assertException(test.at_nocase(JSON_TEXT("meh")), std::out_of_range); #endif assertEquals(test[JSON_TEXT("hi")], json_string(JSON_TEXT("world"))); assertEquals(test[JSON_TEXT("hello")], json_string(JSON_TEXT("mars"))); assertEquals(test[JSON_TEXT("salut")], json_string(JSON_TEXT("france"))); assertEquals(test[0], JSON_TEXT("world")); assertEquals(test[1], JSON_TEXT("mars")); assertEquals(test[2], JSON_TEXT("france")); #ifdef JSON_ITERATORS #ifdef JSON_CASTABLE UnitTest::SetPrefix("TestInspectors.cpp - Iterators"); for(JSONNode::iterator it = casted.begin(), end = casted.end(); it != end; ++it){ assertEquals((*it).name(), JSON_TEXT("")); } #endif #endif #ifdef JSON_BINARY UnitTest::SetPrefix("TestInspectors.cpp - Binary"); test.set_binary((const unsigned char *)"Hello World", 11); assertEquals(test.type(), JSON_STRING); assertEquals(test.as_string(), JSON_TEXT("SGVsbG8gV29ybGQ=")); assertEquals(test.as_binary(), "Hello World"); assertEquals(test.as_binary().size(), 11); test = JSON_TEXT("Hello World"); assertEquals(test.type(), JSON_STRING); assertEquals(test.as_string(), JSON_TEXT("Hello World")); #ifdef JSON_SAFE assertEquals(test.as_binary(), ""); #endif #endif #ifdef JSON_READ_PRIORITY //This is a regression test for a bug in at() json_string buffer(JSON_TEXT("{ \"myValue1\" : \"foo\", \"myValue2\" : \"bar\"}")); JSONNode current = libjson::parse(buffer); try { JSONNode & value1 = current[JSON_TEXT("myValue1")]; assertEquals(value1.as_string(), JSON_TEXT("foo")); JSONNode & value2 = current[JSON_TEXT("myValue2")]; assertEquals(value2.as_string(), JSON_TEXT("bar")); } catch (...){ assertTrue(false); } #endif }
bool HQLOperand::predicate(const HQLOperand &o, const JSONNode &n) { if(type != COOP){ return false; } switch(data.coop){ case COND_OPER::EQ: return CompareHQLOperandAndJSONNode<COND_OPER::EQ>(o, n); break; case COND_OPER::GT: return CompareHQLOperandAndJSONNode<COND_OPER::GT>(o, n); break; case COND_OPER::LT: return CompareHQLOperandAndJSONNode<COND_OPER::LT>(o, n); break; case COND_OPER::GE: return CompareHQLOperandAndJSONNode<COND_OPER::GE>(o, n); break; case COND_OPER::LE: return CompareHQLOperandAndJSONNode<COND_OPER::LE>(o, n); break; case COND_OPER::IN: { if(o.get_type()==NUM_ARRAY){ if(n.type()==JSON_NUMBER){ string ns=num2str(n.as_int()); vector<string>::const_iterator it=o.as_str_array()->begin(); for(;it!=o.as_str_array()->end();it++){ if(ns==*it)return true; } return false; } return false; }else if(o.get_type()==STR_ARRAY){ if(n.type()==JSON_STRING){ string ns=n.as_string(); vector<string>::const_iterator it=o.as_str_array()->begin(); for(;it!=o.as_str_array()->end();it++){ if(ns==*it)return true; } return false; } return false; } return false; break; } case COND_OPER::CONTAINS: { string val = o.as_str_array()->at(0); string sep = o.as_str_array()->at(1); string ns=n.as_string(); string unit; string::size_type start = 0, end = 0; while(end!=string::npos){ end = ns.find_first_of(sep, start); if(end==string::npos){ unit = ns.substr(start); }else{ unit = ns.substr(start, end-start); } start = end + 1; if(val == "\"" + unit + "\""){ return true; } } return false; break; } case COND_OPER::TIME_IN: { if(n.type()!=JSON_NUMBER) return false; if(o.get_type()!=NUM) return false; time_t now = time(NULL); return now-o.as_num() <= n.as_float(); break; } default: return false; } return false; }