diff options
author | Steve Bennetts <steve@lindenlab.com> | 2009-10-23 12:15:22 -0700 |
---|---|---|
committer | Steve Bennetts <steve@lindenlab.com> | 2009-10-23 12:15:22 -0700 |
commit | 127b428863707c882fbf4d30699321b8a2365644 (patch) | |
tree | 728c98bd177635891f0646ccabcf86b70341d4a0 /indra/test/llsdutil_tut.cpp | |
parent | 0220106ecdecd323854522a5bc3fd6455c60fdfc (diff) | |
parent | 2438a9168b117dcabf5e5819f93e08a874735a26 (diff) |
merge
Diffstat (limited to 'indra/test/llsdutil_tut.cpp')
-rw-r--r-- | indra/test/llsdutil_tut.cpp | 235 |
1 files changed, 234 insertions, 1 deletions
diff --git a/indra/test/llsdutil_tut.cpp b/indra/test/llsdutil_tut.cpp index 0c4bbc2e62..d125bb0005 100644 --- a/indra/test/llsdutil_tut.cpp +++ b/indra/test/llsdutil_tut.cpp @@ -44,12 +44,42 @@ #include "v4math.h" #include "llquaternion.h" #include "llsdutil.h" - +#include "llsdutil_math.h" +#include "stringize.h" +#include <set> +#include <boost/range.hpp> namespace tut { struct llsdutil_data { + void test_matches(const std::string& proto_key, const LLSD& possibles, + const char** begin, const char** end) + { + std::set<std::string> succeed(begin, end); + LLSD prototype(possibles[proto_key]); + for (LLSD::map_const_iterator pi(possibles.beginMap()), pend(possibles.endMap()); + pi != pend; ++pi) + { + std::string match(llsd_matches(prototype, pi->second)); + std::set<std::string>::const_iterator found = succeed.find(pi->first); + if (found != succeed.end()) + { + // This test is supposed to succeed. Comparing to the + // empty string ensures that if the test fails, it will + // display the string received so we can tell what failed. + ensure_equals("match", match, ""); + } + else + { + // This test is supposed to fail. If we get a false match, + // the string 'match' will be empty, which doesn't tell us + // much about which case went awry. So construct a more + // detailed description string. + ensure(proto_key + " shouldn't match " + pi->first, ! match.empty()); + } + } + } }; typedef test_group<llsdutil_data> llsdutil_test;; typedef llsdutil_test::object llsdutil_object; @@ -159,4 +189,207 @@ namespace tut LLSD sd1 = ll_sd_from_color4(c1); ensure_equals("sd -> LLColor4 -> sd", sd, sd1); } + + template<> template<> + void llsdutil_object::test<9>() + { + set_test_name("llsd_matches"); + + // for this test, construct a map of all possible LLSD types + LLSD map; + map.insert("empty", LLSD()); + map.insert("Boolean", LLSD::Boolean()); + map.insert("Integer", LLSD::Integer(0)); + map.insert("Real", LLSD::Real(0.0)); + map.insert("String", LLSD::String("bah")); + map.insert("NumString", LLSD::String("1")); + map.insert("UUID", LLSD::UUID()); + map.insert("Date", LLSD::Date()); + map.insert("URI", LLSD::URI()); + map.insert("Binary", LLSD::Binary()); + map.insert("Map", LLSD().insert("foo", LLSD())); + // Only an empty array can be constructed on the fly + LLSD array; + array.append(LLSD()); + map.insert("Array", array); + + // These iterators are declared outside our various for loops to avoid + // fatal MSVC warning: "I used to be broken, but I'm all better now!" + LLSD::map_const_iterator mi, mend(map.endMap()); + + /*-------------------------- llsd_matches --------------------------*/ + + // empty prototype matches anything + for (mi = map.beginMap(); mi != mend; ++mi) + { + ensure_equals(std::string("empty matches ") + mi->first, llsd_matches(LLSD(), mi->second), ""); + } + + LLSD proto_array, data_array; + for (int i = 0; i < 3; ++i) + { + proto_array.append(LLSD()); + data_array.append(LLSD()); + } + + // prototype array matches only array + for (mi = map.beginMap(); mi != mend; ++mi) + { + ensure(std::string("array doesn't match ") + mi->first, + ! llsd_matches(proto_array, mi->second).empty()); + } + + // data array must be at least as long as prototype array + proto_array.append(LLSD()); + ensure_equals("data array too short", llsd_matches(proto_array, data_array), + "Array size 4 required instead of Array size 3"); + data_array.append(LLSD()); + ensure_equals("data array just right", llsd_matches(proto_array, data_array), ""); + data_array.append(LLSD()); + ensure_equals("data array longer", llsd_matches(proto_array, data_array), ""); + + // array element matching + data_array[0] = LLSD::String(); + ensure_equals("undefined prototype array entry", llsd_matches(proto_array, data_array), ""); + proto_array[0] = LLSD::Binary(); + ensure_equals("scalar prototype array entry", llsd_matches(proto_array, data_array), + "[0]: Binary required instead of String"); + data_array[0] = LLSD::Binary(); + ensure_equals("matching prototype array entry", llsd_matches(proto_array, data_array), ""); + + // build a coupla maps + LLSD proto_map, data_map; + data_map["got"] = LLSD(); + data_map["found"] = LLSD(); + for (LLSD::map_const_iterator dmi(data_map.beginMap()), dmend(data_map.endMap()); + dmi != dmend; ++dmi) + { + proto_map[dmi->first] = dmi->second; + } + proto_map["foo"] = LLSD(); + proto_map["bar"] = LLSD(); + + // prototype map matches only map + for (mi = map.beginMap(); mi != mend; ++mi) + { + ensure(std::string("map doesn't match ") + mi->first, + ! llsd_matches(proto_map, mi->second).empty()); + } + + // data map must contain all keys in prototype map + std::string error(llsd_matches(proto_map, data_map)); + ensure_contains("missing keys", error, "missing keys"); + ensure_contains("missing foo", error, "foo"); + ensure_contains("missing bar", error, "bar"); + ensure_does_not_contain("found found", error, "found"); + ensure_does_not_contain("got got", error, "got"); + data_map["bar"] = LLSD(); + error = llsd_matches(proto_map, data_map); + ensure_contains("missing foo", error, "foo"); + ensure_does_not_contain("got bar", error, "bar"); + data_map["foo"] = LLSD(); + ensure_equals("data map just right", llsd_matches(proto_map, data_map), ""); + data_map["extra"] = LLSD(); + ensure_equals("data map with extra", llsd_matches(proto_map, data_map), ""); + + // map element matching + data_map["foo"] = LLSD::String(); + ensure_equals("undefined prototype map entry", llsd_matches(proto_map, data_map), ""); + proto_map["foo"] = LLSD::Binary(); + ensure_equals("scalar prototype map entry", llsd_matches(proto_map, data_map), + "['foo']: Binary required instead of String"); + data_map["foo"] = LLSD::Binary(); + ensure_equals("matching prototype map entry", llsd_matches(proto_map, data_map), ""); + + // String + { + static const char* matches[] = { "String", "NumString", "Boolean", "Integer", + "Real", "UUID", "Date", "URI" }; + test_matches("String", map, boost::begin(matches), boost::end(matches)); + } + + // Boolean, Integer, Real + static const char* numerics[] = { "Boolean", "Integer", "Real" }; + for (const char **ni = boost::begin(numerics), **nend = boost::end(numerics); + ni != nend; ++ni) + { + static const char* matches[] = { "Boolean", "Integer", "Real", "String", "NumString" }; + test_matches(*ni, map, boost::begin(matches), boost::end(matches)); + } + + // UUID + { + static const char* matches[] = { "UUID", "String", "NumString" }; + test_matches("UUID", map, boost::begin(matches), boost::end(matches)); + } + + // Date + { + static const char* matches[] = { "Date", "String", "NumString" }; + test_matches("Date", map, boost::begin(matches), boost::end(matches)); + } + + // URI + { + static const char* matches[] = { "URI", "String", "NumString" }; + test_matches("URI", map, boost::begin(matches), boost::end(matches)); + } + + // Binary + { + static const char* matches[] = { "Binary" }; + test_matches("Binary", map, boost::begin(matches), boost::end(matches)); + } + + /*-------------------------- llsd_equals ---------------------------*/ + + // Cross-product of each LLSD type with every other + for (LLSD::map_const_iterator lmi(map.beginMap()), lmend(map.endMap()); + lmi != lmend; ++lmi) + { + for (LLSD::map_const_iterator rmi(map.beginMap()), rmend(map.endMap()); + rmi != rmend; ++rmi) + { + // Name this test based on the map keys naming the types of + // interest, e.g "String::Integer". + // We expect the values (xmi->second) to be equal if and only + // if the type names (xmi->first) are equal. + ensure(STRINGIZE(lmi->first << "::" << rmi->first), + bool(lmi->first == rmi->first) == + bool(llsd_equals(lmi->second, rmi->second))); + } + } + + // Array cases + LLSD rarray; + rarray.append(1.0); + rarray.append(2); + rarray.append("3"); + LLSD larray(rarray); + ensure("llsd_equals(equal arrays)", llsd_equals(larray, rarray)); + rarray[2] = "4"; + ensure("llsd_equals(different [2])", ! llsd_equals(larray, rarray)); + rarray = larray; + rarray.append(LLSD::Date()); + ensure("llsd_equals(longer right array)", ! llsd_equals(larray, rarray)); + rarray = larray; + rarray.erase(2); + ensure("llsd_equals(shorter right array)", ! llsd_equals(larray, rarray)); + + // Map cases + LLSD rmap; + rmap["San Francisco"] = 65; + rmap["Phoenix"] = 92; + rmap["Boston"] = 77; + LLSD lmap(rmap); + ensure("llsd_equals(equal maps)", llsd_equals(lmap, rmap)); + rmap["Boston"] = 80; + ensure("llsd_equals(different [\"Boston\"])", ! llsd_equals(lmap, rmap)); + rmap = lmap; + rmap["Atlanta"] = 95; + ensure("llsd_equals(superset right map)", ! llsd_equals(lmap, rmap)); + rmap = lmap; + lmap["Seattle"] = 72; + ensure("llsd_equals(superset left map)", ! llsd_equals(lmap, rmap)); + } } |