diff options
Diffstat (limited to 'indra/llcommon')
-rw-r--r-- | indra/llcommon/CMakeLists.txt | 1 | ||||
-rw-r--r-- | indra/llcommon/lleventdispatcher.cpp | 566 | ||||
-rw-r--r-- | indra/llcommon/lleventdispatcher.h | 393 | ||||
-rw-r--r-- | indra/llcommon/llsdutil.cpp | 27 | ||||
-rw-r--r-- | indra/llcommon/llsdutil.h | 285 | ||||
-rw-r--r-- | indra/llcommon/tests/lleventdispatcher_test.cpp | 1324 |
6 files changed, 2525 insertions, 71 deletions
diff --git a/indra/llcommon/CMakeLists.txt b/indra/llcommon/CMakeLists.txt index 9342a22d46..dc9f93df3b 100644 --- a/indra/llcommon/CMakeLists.txt +++ b/indra/llcommon/CMakeLists.txt @@ -313,6 +313,7 @@ if (LL_TESTS) LL_ADD_INTEGRATION_TEST(lluri "" "${test_libs}") LL_ADD_INTEGRATION_TEST(reflection "" "${test_libs}") LL_ADD_INTEGRATION_TEST(stringize "" "${test_libs}") + LL_ADD_INTEGRATION_TEST(lleventdispatcher "" "${test_libs}") # *TODO - reenable these once tcmalloc libs no longer break the build. #ADD_BUILD_TEST(llallocator llcommon) diff --git a/indra/llcommon/lleventdispatcher.cpp b/indra/llcommon/lleventdispatcher.cpp index d6e820d793..5b6d4efbe9 100644 --- a/indra/llcommon/lleventdispatcher.cpp +++ b/indra/llcommon/lleventdispatcher.cpp @@ -41,6 +41,354 @@ #include "llevents.h" #include "llerror.h" #include "llsdutil.h" +#include "stringize.h" +#include <memory> // std::auto_ptr + +/***************************************************************************** +* LLSDArgsSource +*****************************************************************************/ +/** + * Store an LLSD array, producing its elements one at a time. Die with LL_ERRS + * if the consumer requests more elements than the array contains. + */ +class LL_COMMON_API LLSDArgsSource +{ +public: + LLSDArgsSource(const std::string function, const LLSD& args); + ~LLSDArgsSource(); + + LLSD next(); + + void done() const; + +private: + std::string _function; + LLSD _args; + LLSD::Integer _index; +}; + +LLSDArgsSource::LLSDArgsSource(const std::string function, const LLSD& args): + _function(function), + _args(args), + _index(0) +{ + if (! (_args.isUndefined() || _args.isArray())) + { + LL_ERRS("LLSDArgsSource") << _function << " needs an args array instead of " + << _args << LL_ENDL; + } +} + +LLSDArgsSource::~LLSDArgsSource() +{ + done(); +} + +LLSD LLSDArgsSource::next() +{ + if (_index >= _args.size()) + { + LL_ERRS("LLSDArgsSource") << _function << " requires more arguments than the " + << _args.size() << " provided: " << _args << LL_ENDL; + } + return _args[_index++]; +} + +void LLSDArgsSource::done() const +{ + if (_index < _args.size()) + { + LL_WARNS("LLSDArgsSource") << _function << " only consumed " << _index + << " of the " << _args.size() << " arguments provided: " + << _args << LL_ENDL; + } +} + +/***************************************************************************** +* LLSDArgsMapper +*****************************************************************************/ +/** + * From a formal parameters description and a map of arguments, construct an + * arguments array. + * + * That is, given: + * - an LLSD array of length n containing parameter-name strings, + * corresponding to the arguments of a function of interest + * - an LLSD collection specifying default parameter values, either: + * - an LLSD array of length m <= n, matching the rightmost m params, or + * - an LLSD map explicitly stating default name=value pairs + * - an LLSD map of parameter names and actual values for a particular + * function call + * construct an LLSD array of actual argument values for this function call. + * + * The parameter-names array and the defaults collection describe the function + * being called. The map might vary with every call, providing argument values + * for the described parameters. + * + * The array of parameter names must match the number of parameters expected + * by the function of interest. + * + * If you pass a map of default parameter values, it provides default values + * as you might expect. It is an error to specify a default value for a name + * not listed in the parameters array. + * + * If you pass an array of default parameter values, it is mapped to the + * rightmost m of the n parameter names. It is an error if the default-values + * array is longer than the parameter-names array. Consider the following + * parameter names: ["a", "b", "c", "d"]. + * + * - An empty array of default values (or an isUndefined() value) asserts that + * every one of the above parameter names is required. + * - An array of four default values [1, 2, 3, 4] asserts that every one of + * the above parameters is optional. If the current parameter map is empty, + * they will be passed to the function as [1, 2, 3, 4]. + * - An array of two default values [11, 12] asserts that parameters "a" and + * "b" are required, while "c" and "d" are optional, having default values + * "c"=11 and "d"=12. + * + * The arguments array is constructed as follows: + * + * - Arguments-map keys not found in the parameter-names array are ignored. + * - Entries from the map provide values for an improper subset of the + * parameters named in the parameter-names array. This results in a + * tentative values array with "holes." (size of map) + (number of holes) = + * (size of names array) + * - Holes are filled with the default values. + * - Any remaining holes constitute an error. + */ +class LL_COMMON_API LLSDArgsMapper +{ +public: + /// Accept description of function: function name, param names, param + /// default values + LLSDArgsMapper(const std::string& function, const LLSD& names, const LLSD& defaults); + + /// Given arguments map, return LLSD::Array of parameter values, or LL_ERRS. + LLSD map(const LLSD& argsmap) const; + +private: + static std::string formatlist(const LLSD&); + + // The function-name string is purely descriptive. We want error messages + // to be able to indicate which function's LLSDArgsMapper has the problem. + std::string _function; + // Store the names array pretty much as given. + LLSD _names; + // Though we're handed an array of name strings, it's more useful to us to + // store it as a map from name string to position index. Of course that's + // easy to generate from the incoming names array, but why do it more than + // once? + typedef std::map<LLSD::String, LLSD::Integer> IndexMap; + IndexMap _indexes; + // Generated array of default values, aligned with the array of param names. + LLSD _defaults; + // Indicate whether we have a default value for each param. + typedef std::vector<char> FilledVector; + FilledVector _has_dft; +}; + +LLSDArgsMapper::LLSDArgsMapper(const std::string& function, + const LLSD& names, const LLSD& defaults): + _function(function), + _names(names), + _has_dft(names.size()) +{ + if (! (_names.isUndefined() || _names.isArray())) + { + LL_ERRS("LLSDArgsMapper") << function << " names must be an array, not " << names << LL_ENDL; + } + LLSD::Integer nparams(_names.size()); + // From _names generate _indexes. + for (LLSD::Integer ni = 0, nend = _names.size(); ni < nend; ++ni) + { + _indexes[_names[ni]] = ni; + } + + // Presize _defaults() array so we don't have to resize it more than once. + // All entries are initialized to LLSD(); but since _has_dft is still all + // 0, they're all "holes" for now. + if (nparams) + { + _defaults[nparams - 1] = LLSD(); + } + + if (defaults.isUndefined() || defaults.isArray()) + { + LLSD::Integer ndefaults = defaults.size(); + // defaults is a (possibly empty) array. Right-align it with names. + if (ndefaults > nparams) + { + LL_ERRS("LLSDArgsMapper") << function << " names array " << names + << " shorter than defaults array " << defaults << LL_ENDL; + } + + // Offset by which we slide defaults array right to right-align with + // _names array + LLSD::Integer offset = nparams - ndefaults; + // Fill rightmost _defaults entries from defaults, and mark them as + // filled + for (LLSD::Integer i = 0, iend = ndefaults; i < iend; ++i) + { + _defaults[i + offset] = defaults[i]; + _has_dft[i + offset] = 1; + } + } + else if (defaults.isMap()) + { + // defaults is a map. Use it to populate the _defaults array. + LLSD bogus; + for (LLSD::map_const_iterator mi(defaults.beginMap()), mend(defaults.endMap()); + mi != mend; ++mi) + { + IndexMap::const_iterator ixit(_indexes.find(mi->first)); + if (ixit == _indexes.end()) + { + bogus.append(mi->first); + continue; + } + + LLSD::Integer pos = ixit->second; + // Store default value at that position in the _defaults array. + _defaults[pos] = mi->second; + // Don't forget to record the fact that we've filled this + // position. + _has_dft[pos] = 1; + } + if (bogus.size()) + { + LL_ERRS("LLSDArgsMapper") << function << " defaults specified for nonexistent params " + << formatlist(bogus) << LL_ENDL; + } + } + else + { + LL_ERRS("LLSDArgsMapper") << function << " defaults must be a map or an array, not " + << defaults << LL_ENDL; + } +} + +LLSD LLSDArgsMapper::map(const LLSD& argsmap) const +{ + if (! (argsmap.isUndefined() || argsmap.isMap() || argsmap.isArray())) + { + LL_ERRS("LLSDArgsMapper") << _function << " map() needs a map or array, not " + << argsmap << LL_ENDL; + } + // Initialize the args array. Indexing a non-const LLSD array grows it + // to appropriate size, but we don't want to resize this one on each + // new operation. Just make it as big as we need before we start + // stuffing values into it. + LLSD args(LLSD::emptyArray()); + if (_defaults.size() == 0) + { + // If this function requires no arguments, fast exit. (Don't try to + // assign to args[-1].) + return args; + } + args[_defaults.size() - 1] = LLSD(); + + // Get a vector of chars to indicate holes. It's tempting to just scan + // for LLSD::isUndefined() values after filling the args array from + // the map, but it's plausible for caller to explicitly pass + // isUndefined() as the value of some parameter name. That's legal + // since isUndefined() has well-defined conversions (default value) + // for LLSD data types. So use a whole separate array for detecting + // holes. (Avoid std::vector<bool> which is known to be odd -- can we + // iterate?) + FilledVector filled(args.size()); + + if (argsmap.isArray()) + { + // Fill args from array. If there are too many args in passed array, + // ignore the rest. + LLSD::Integer size(argsmap.size()); + if (size > args.size()) + { + // We don't just use std::min() because we want to sneak in this + // warning if caller passes too many args. + LL_WARNS("LLSDArgsMapper") << _function << " needs " << args.size() + << " params, ignoring last " << (size - args.size()) + << " of passed " << size << ": " << argsmap << LL_ENDL; + size = args.size(); + } + for (LLSD::Integer i(0); i < size; ++i) + { + // Copy the actual argument from argsmap + args[i] = argsmap[i]; + // Note that it's been filled + filled[i] = 1; + } + } + else + { + // argsmap is in fact a map. Walk the map. + for (LLSD::map_const_iterator mi(argsmap.beginMap()), mend(argsmap.endMap()); + mi != mend; ++mi) + { + // mi->first is a parameter-name string, with mi->second its + // value. Look up the name's position index in _indexes. + IndexMap::const_iterator ixit(_indexes.find(mi->first)); + if (ixit == _indexes.end()) + { + // Allow for a map containing more params than were passed in + // our names array. Caller typically receives a map containing + // the function name, cruft such as reqid, etc. Ignore keys + // not defined in _indexes. + LL_DEBUGS("LLSDArgsMapper") << _function << " ignoring " + << mi->first << "=" << mi->second << LL_ENDL; + continue; + } + LLSD::Integer pos = ixit->second; + // Store the value at that position in the args array. + args[pos] = mi->second; + // Don't forget to record the fact that we've filled this + // position. + filled[pos] = 1; + } + } + + // Fill any remaining holes from _defaults. + LLSD unfilled(LLSD::emptyArray()); + for (LLSD::Integer i = 0, iend = args.size(); i < iend; ++i) + { + if (! filled[i]) + { + // If there's no default value for this parameter, that's an + // error. + if (! _has_dft[i]) + { + unfilled.append(_names[i]); + } + else + { + args[i] = _defaults[i]; + } + } + } + // If any required args -- args without defaults -- were left unfilled + // by argsmap, that's a problem. + if (unfilled.size()) + { + LL_ERRS("LLSDArgsMapper") << _function << " missing required arguments " + << formatlist(unfilled) << " from " << argsmap << LL_ENDL; + } + + // done + return args; +} + +std::string LLSDArgsMapper::formatlist(const LLSD& list) +{ + std::ostringstream out; + const char* delim = ""; + for (LLSD::array_const_iterator li(list.beginArray()), lend(list.endArray()); + li != lend; ++li) + { + out << delim << li->asString(); + delim = ", "; + } + return out.str(); +} LLEventDispatcher::LLEventDispatcher(const std::string& desc, const std::string& key): mDesc(desc), @@ -52,12 +400,181 @@ LLEventDispatcher::~LLEventDispatcher() { } +/** + * DispatchEntry subclass used for callables accepting(const LLSD&) + */ +struct LLEventDispatcher::LLSDDispatchEntry: public LLEventDispatcher::DispatchEntry +{ + LLSDDispatchEntry(const std::string& desc, const Callable& func, const LLSD& required): + DispatchEntry(desc), + mFunc(func), + mRequired(required) + {} + + Callable mFunc; + LLSD mRequired; + + virtual void call(const std::string& desc, const LLSD& event) const + { + // Validate the syntax of the event itself. + std::string mismatch(llsd_matches(mRequired, event)); + if (! mismatch.empty()) + { + LL_ERRS("LLEventDispatcher") << desc << ": bad request: " << mismatch << LL_ENDL; + } + // Event syntax looks good, go for it! + mFunc(event); + } + + virtual LLSD addMetadata(LLSD meta) const + { + meta["required"] = mRequired; + return meta; + } +}; + +/** + * DispatchEntry subclass for passing LLSD to functions accepting + * arbitrary argument types (convertible via LLSDParam) + */ +struct LLEventDispatcher::ParamsDispatchEntry: public LLEventDispatcher::DispatchEntry +{ + ParamsDispatchEntry(const std::string& desc, const invoker_function& func): + DispatchEntry(desc), + mInvoker(func) + {} + + invoker_function mInvoker; + + virtual void call(const std::string& desc, const LLSD& event) const + { + LLSDArgsSource src(desc, event); + mInvoker(boost::bind(&LLSDArgsSource::next, boost::ref(src))); + } +}; + +/** + * DispatchEntry subclass for dispatching LLSD::Array to functions accepting + * arbitrary argument types (convertible via LLSDParam) + */ +struct LLEventDispatcher::ArrayParamsDispatchEntry: public LLEventDispatcher::ParamsDispatchEntry +{ + ArrayParamsDispatchEntry(const std::string& desc, const invoker_function& func, + LLSD::Integer arity): + ParamsDispatchEntry(desc, func), + mArity(arity) + {} + + LLSD::Integer mArity; + + virtual LLSD addMetadata(LLSD meta) const + { + LLSD array(LLSD::emptyArray()); + // Resize to number of arguments required + if (mArity) + array[mArity - 1] = LLSD(); + llassert_always(array.size() == mArity); + meta["required"] = array; + return meta; + } +}; + +/** + * DispatchEntry subclass for dispatching LLSD::Map to functions accepting + * arbitrary argument types (convertible via LLSDParam) + */ +struct LLEventDispatcher::MapParamsDispatchEntry: public LLEventDispatcher::ParamsDispatchEntry +{ + MapParamsDispatchEntry(const std::string& name, const std::string& desc, + const invoker_function& func, + const LLSD& params, const LLSD& defaults): + ParamsDispatchEntry(desc, func), + mMapper(name, params, defaults), + mRequired(LLSD::emptyMap()) + { + // Build the set of all param keys, then delete the ones that are + // optional. What's left are the ones that are required. + for (LLSD::array_const_iterator pi(params.beginArray()), pend(params.endArray()); + pi != pend; ++pi) + { + mRequired[pi->asString()] = LLSD(); + } + + if (defaults.isArray() || defaults.isUndefined()) + { + // Right-align the params and defaults arrays. + LLSD::Integer offset = params.size() - defaults.size(); + // Now the name of every defaults[i] is at params[i + offset]. + for (LLSD::Integer i(0), iend(defaults.size()); i < iend; ++i) + { + // Erase this optional param from mRequired. + mRequired.erase(params[i + offset].asString()); + // Instead, make an entry in mOptional with the default + // param's name and value. + mOptional[params[i + offset].asString()] = defaults[i]; + } + } + else if (defaults.isMap()) + { + // if defaults is already a map, then it's already in the form we + // intend to deliver in metadata + mOptional = defaults; + // Just delete from mRequired every key appearing in mOptional. + for (LLSD::map_const_iterator mi(mOptional.beginMap()), mend(mOptional.endMap()); + mi != mend; ++mi) + { + mRequired.erase(mi->first); + } + } + } + + LLSDArgsMapper mMapper; + LLSD mRequired; + LLSD mOptional; + + virtual void call(const std::string& desc, const LLSD& event) const + { + // Just convert from LLSD::Map to LLSD::Array using mMapper, then pass + // to base-class call() method. + ParamsDispatchEntry::call(desc, mMapper.map(event)); + } + + virtual LLSD addMetadata(LLSD meta) const + { + meta["required"] = mRequired; + meta["optional"] = mOptional; + return meta; + } +}; + +void LLEventDispatcher::addArrayParamsDispatchEntry(const std::string& name, + const std::string& desc, + const invoker_function& invoker, + LLSD::Integer arity) +{ + mDispatch.insert( + DispatchMap::value_type(name, DispatchMap::mapped_type( + new ArrayParamsDispatchEntry(desc, invoker, arity)))); +} + +void LLEventDispatcher::addMapParamsDispatchEntry(const std::string& name, + const std::string& desc, + const invoker_function& invoker, + const LLSD& params, + const LLSD& defaults) +{ + mDispatch.insert( + DispatchMap::value_type(name, DispatchMap::mapped_type( + new MapParamsDispatchEntry(name, desc, invoker, params, defaults)))); +} + /// Register a callable by name void LLEventDispatcher::add(const std::string& name, const std::string& desc, const Callable& callable, const LLSD& required) { - mDispatch.insert(DispatchMap::value_type(name, - DispatchMap::mapped_type(callable, desc, required))); + mDispatch.insert( + DispatchMap::value_type(name, DispatchMap::mapped_type( + new LLSDDispatchEntry(desc, callable, required)))); } void LLEventDispatcher::addFail(const std::string& name, const std::string& classname) const @@ -83,7 +600,7 @@ bool LLEventDispatcher::remove(const std::string& name) /// such callable exists, die with LL_ERRS. void LLEventDispatcher::operator()(const std::string& name, const LLSD& event) const { - if (! attemptCall(name, event)) + if (! try_call(name, event)) { LL_ERRS("LLEventDispatcher") << "LLEventDispatcher(" << mDesc << "): '" << name << "' not found" << LL_ENDL; @@ -98,44 +615,29 @@ void LLEventDispatcher::operator()(const LLSD& event) const // This could/should be implemented in terms of the two-arg overload. // However -- we can produce a more informative error message. std::string name(event[mKey]); - if (! attemptCall(name, event)) + if (! try_call(name, event)) { LL_ERRS("LLEventDispatcher") << "LLEventDispatcher(" << mDesc << "): bad " << mKey << " value '" << name << "'" << LL_ENDL; } } -bool LLEventDispatcher::attemptCall(const std::string& name, const LLSD& event) const +bool LLEventDispatcher::try_call(const LLSD& event) const { - DispatchMap::const_iterator found = mDispatch.find(name); - if (found == mDispatch.end()) - { - // The reason we only return false, leaving it up to our caller to die - // with LL_ERRS, is that different callers have different amounts of - // available information. - return false; - } - // Found the name, so it's plausible to even attempt the call. But first, - // validate the syntax of the event itself. - std::string mismatch(llsd_matches(found->second.mRequired, event)); - if (! mismatch.empty()) - { - LL_ERRS("LLEventDispatcher") << "LLEventDispatcher(" << mDesc << ") calling '" << name - << "': bad request: " << mismatch << LL_ENDL; - } - // Event syntax looks good, go for it! - (found->second.mFunc)(event); - return true; // tell caller we were able to call + return try_call(event[mKey], event); } -LLEventDispatcher::Callable LLEventDispatcher::get(const std::string& name) const +bool LLEventDispatcher::try_call(const std::string& name, const LLSD& event) const { DispatchMap::const_iterator found = mDispatch.find(name); if (found == mDispatch.end()) { - return Callable(); + return false; } - return found->second.mFunc; + // Found the name, so it's plausible to even attempt the call. + found->second->call(STRINGIZE("LLEventDispatcher(" << mDesc << ") calling '" << name << "'"), + event); + return true; // tell caller we were able to call } LLSD LLEventDispatcher::getMetadata(const std::string& name) const @@ -147,9 +649,8 @@ LLSD LLEventDispatcher::getMetadata(const std::string& name) const } LLSD meta; meta["name"] = name; - meta["desc"] = found->second.mDesc; - meta["required"] = found->second.mRequired; - return meta; + meta["desc"] = found->second->mDesc; + return found->second->addMetadata(meta); } LLDispatchListener::LLDispatchListener(const std::string& pumpname, const std::string& key): @@ -164,3 +665,8 @@ bool LLDispatchListener::process(const LLSD& event) (*this)(event); return false; } + +LLEventDispatcher::DispatchEntry::DispatchEntry(const std::string& desc): + mDesc(desc) +{} + diff --git a/indra/llcommon/lleventdispatcher.h b/indra/llcommon/lleventdispatcher.h index dfffd59eb6..7acc61de4e 100644 --- a/indra/llcommon/lleventdispatcher.h +++ b/indra/llcommon/lleventdispatcher.h @@ -27,18 +27,56 @@ * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ + * + * The invoker machinery that constructs a boost::fusion argument list for use + * with boost::fusion::invoke() is derived from + * http://www.boost.org/doc/libs/1_45_0/libs/function_types/example/interpreter.hpp + * whose license information is copied below: + * + * "(C) Copyright Tobias Schwinger + * + * Use modification and distribution are subject to the boost Software License, + * Version 1.0. (See http://www.boost.org/LICENSE_1_0.txt)." */ #if ! defined(LL_LLEVENTDISPATCHER_H) #define LL_LLEVENTDISPATCHER_H +// nil is too generic a term to be allowed to be a global macro. In +// particular, boost::fusion defines a 'class nil' (properly encapsulated in a +// namespace) that a global 'nil' macro breaks badly. +#if defined(nil) +// Capture the value of the macro 'nil', hoping int is an appropriate type. +static const int nil_(nil); +// Now forget the macro. +#undef nil +// Finally, reintroduce 'nil' as a properly-scoped alias for the previously- +// defined const 'nil_'. Make it static since otherwise it produces duplicate- +// symbol link errors later. +static const int& nil(nil_); +#endif + #include <string> -#include <map> +#include <boost/shared_ptr.hpp> #include <boost/function.hpp> #include <boost/bind.hpp> #include <boost/iterator/transform_iterator.hpp> +#include <boost/utility/enable_if.hpp> +#include <boost/function_types/is_nonmember_callable_builtin.hpp> +#include <boost/function_types/parameter_types.hpp> +#include <boost/function_types/function_arity.hpp> +#include <boost/type_traits/remove_cv.hpp> +#include <boost/type_traits/remove_reference.hpp> +#include <boost/fusion/include/push_back.hpp> +#include <boost/fusion/include/cons.hpp> +#include <boost/fusion/include/invoke.hpp> +#include <boost/mpl/begin.hpp> +#include <boost/mpl/end.hpp> +#include <boost/mpl/next.hpp> +#include <boost/mpl/deref.hpp> #include <typeinfo> #include "llevents.h" +#include "llsdutil.h" class LLSD; @@ -54,12 +92,18 @@ public: LLEventDispatcher(const std::string& desc, const std::string& key); virtual ~LLEventDispatcher(); - /// Accept any C++ callable, typically a boost::bind() expression + /// @name Register functions accepting(const LLSD&) + //@{ + + /// Accept any C++ callable with the right signature, typically a + /// boost::bind() expression typedef boost::function<void(const LLSD&)> Callable; /** - * Register a @a callable by @a name. The optional @a required parameter - * is used to validate the structure of each incoming event (see + * Register a @a callable by @a name. The passed @a callable accepts a + * single LLSD value and uses it in any way desired, e.g. extract + * parameters and call some other function. The optional @a required + * parameter is used to validate the structure of each incoming event (see * llsd_matches()). */ void add(const std::string& name, @@ -68,9 +112,23 @@ public: const LLSD& required=LLSD()); /** + * The case of a free function (or static method) accepting(const LLSD&) + * could also be intercepted by the arbitrary-args overload below. Ensure + * that it's directed to the Callable overload above instead. + */ + void add(const std::string& name, + const std::string& desc, + void (*f)(const LLSD&), + const LLSD& required=LLSD()) + { + add(name, desc, Callable(f), required); + } + + /** * Special case: a subclass of this class can pass an unbound member - * function pointer without explicitly specifying the - * <tt>boost::bind()</tt> expression. + * function pointer (of an LLEventDispatcher subclass) without explicitly + * specifying the <tt>boost::bind()</tt> expression. The passed @a method + * accepts a single LLSD value, presumably containing other parameters. */ template <class CLASS> void add(const std::string& name, @@ -81,7 +139,8 @@ public: addMethod<CLASS>(name, desc, method, required); } - /// Overload for both const and non-const methods + /// Overload for both const and non-const methods. The passed @a method + /// accepts a single LLSD value, presumably containing other parameters. template <class CLASS> void add(const std::string& name, const std::string& desc, @@ -91,15 +150,106 @@ public: addMethod<CLASS>(name, desc, method, required); } - /// Convenience: for LLEventDispatcher, not every callable needs a - /// documentation string. - template <typename CALLABLE> - void add(const std::string& name, - CALLABLE callable, - const LLSD& required=LLSD()) - { - add(name, "", callable, required); - } + //@} + + /// @name Register functions with arbitrary param lists + //@{ + + /** + * Register a free function with arbitrary parameters. (This also works + * for static class methods.) + * + * @note This supports functions with up to about 6 parameters -- after + * that you start getting dismaying compile errors in which + * boost::fusion::joint_view is mentioned a surprising number of times. + * + * When calling this name, pass an LLSD::Array. Each entry in turn will be + * converted to the corresponding parameter type using LLSDParam. + */ + template<typename Function> + typename boost::enable_if< boost::function_types::is_nonmember_callable_builtin<Function> + >::type add(const std::string& name, + const std::string& desc, + Function f); + + /** + * Register a nonstatic class method with arbitrary parameters. + * + * @note This supports functions with up to about 6 parameters -- after + * that you start getting dismaying compile errors in which + * boost::fusion::joint_view is mentioned a surprising number of times. + * + * To cover cases such as a method on an LLSingleton we don't yet want to + * instantiate, instead of directly storing an instance pointer, accept a + * nullary callable returning a pointer/reference to the desired class + * instance. If you already have an instance in hand, + * boost::lambda::var(instance) or boost::lambda::constant(instance_ptr) + * produce suitable callables. + * + * When calling this name, pass an LLSD::Array. Each entry in turn will be + * converted to the corresponding parameter type using LLSDParam. + */ + template<typename Method, typename InstanceGetter> + typename boost::enable_if< boost::function_types::is_member_function_pointer<Method> + >::type add(const std::string& name, + const std::string& desc, + Method f, + const InstanceGetter& getter); + + /** + * Register a free function with arbitrary parameters. (This also works + * for static class methods.) + * + * @note This supports functions with up to about 6 parameters -- after + * that you start getting dismaying compile errors in which + * boost::fusion::joint_view is mentioned a surprising number of times. + * + * Pass an LLSD::Array of parameter names, and optionally another + * LLSD::Array of default parameter values, a la LLSDArgsMapper. + * + * When calling this name, pass an LLSD::Map. We will internally generate + * an LLSD::Array using LLSDArgsMapper and then convert each entry in turn + * to the corresponding parameter type using LLSDParam. + */ + template<typename Function> + typename boost::enable_if< boost::function_types::is_nonmember_callable_builtin<Function> + >::type add(const std::string& name, + const std::string& desc, + Function f, + const LLSD& params, + const LLSD& defaults=LLSD()); + + /** + * Register a nonstatic class method with arbitrary parameters. + * + * @note This supports functions with up to about 6 parameters -- after + * that you start getting dismaying compile errors in which + * boost::fusion::joint_view is mentioned a surprising number of times. + * + * To cover cases such as a method on an LLSingleton we don't yet want to + * instantiate, instead of directly storing an instance pointer, accept a + * nullary callable returning a pointer/reference to the desired class + * instance. If you already have an instance in hand, + * boost::lambda::var(instance) or boost::lambda::constant(instance_ptr) + * produce suitable callables. + * + * Pass an LLSD::Array of parameter names, and optionally another + * LLSD::Array of default parameter values, a la LLSDArgsMapper. + * + * When calling this name, pass an LLSD::Map. We will internally generate + * an LLSD::Array using LLSDArgsMapper and then convert each entry in turn + * to the corresponding parameter type using LLSDParam. + */ + template<typename Method, typename InstanceGetter> + typename boost::enable_if< boost::function_types::is_member_function_pointer<Method> + >::type add(const std::string& name, + const std::string& desc, + Method f, + const InstanceGetter& getter, + const LLSD& params, + const LLSD& defaults=LLSD()); + + //@} /// Unregister a callable bool remove(const std::string& name); @@ -109,12 +259,25 @@ public: /// the @a required prototype specified at add() time, die with LL_ERRS. void operator()(const std::string& name, const LLSD& event) const; + /// Call a registered callable with an explicitly-specified name and + /// return <tt>true</tt>. If no such callable exists, return + /// <tt>false</tt>. If the @a event fails to match the @a required + /// prototype specified at add() time, die with LL_ERRS. + bool try_call(const std::string& name, const LLSD& event) const; + /// Extract the @a key value from the incoming @a event, and call the /// callable whose name is specified by that map @a key. If no such /// callable exists, die with LL_ERRS. If the @a event fails to match the /// @a required prototype specified at add() time, die with LL_ERRS. void operator()(const LLSD& event) const; + /// Extract the @a key value from the incoming @a event, call the callable + /// whose name is specified by that map @a key and return <tt>true</tt>. + /// If no such callable exists, return <tt>false</tt>. If the @a event + /// fails to match the @a required prototype specified at add() time, die + /// with LL_ERRS. + bool try_call(const LLSD& event) const; + /// @name Iterate over defined names //@{ typedef std::pair<std::string, std::string> NameDesc; @@ -122,16 +285,22 @@ public: private: struct DispatchEntry { - DispatchEntry(const Callable& func, const std::string& desc, const LLSD& required): - mFunc(func), - mDesc(desc), - mRequired(required) - {} - Callable mFunc; + DispatchEntry(const std::string& desc); + virtual ~DispatchEntry() {} // suppress MSVC warning, sigh + std::string mDesc; - LLSD mRequired; + + virtual void call(const std::string& desc, const LLSD& event) const = 0; + virtual LLSD addMetadata(LLSD) const = 0; }; - typedef std::map<std::string, DispatchEntry> DispatchMap; + // Tried using boost::ptr_map<std::string, DispatchEntry>, but ptr_map<> + // wants its value type to be "clonable," even just to dereference an + // iterator. I don't want to clone entries -- if I have to copy an entry + // around, I want it to continue pointing to the same DispatchEntry + // subclass object. However, I definitely want DispatchMap to destroy + // DispatchEntry if no references are outstanding at the time an entry is + // removed. This looks like a job for boost::shared_ptr. + typedef std::map<std::string, boost::shared_ptr<DispatchEntry> > DispatchMap; public: /// We want the flexibility to redefine what data we store per name, @@ -149,10 +318,6 @@ public: } //@} - /// Fetch the Callable for the specified name. If no such name was - /// registered, return an empty() Callable. - Callable get(const std::string& name) const; - /// Get information about a specific Callable LLSD getMetadata(const std::string& name) const; @@ -175,18 +340,184 @@ private: } } void addFail(const std::string& name, const std::string& classname) const; - /// try to dispatch, return @c true if success - bool attemptCall(const std::string& name, const LLSD& event) const; std::string mDesc, mKey; DispatchMap mDispatch; static NameDesc makeNameDesc(const DispatchMap::value_type& item) { - return NameDesc(item.first, item.second.mDesc); + return NameDesc(item.first, item.second->mDesc); + } + + struct LLSDDispatchEntry; + struct ParamsDispatchEntry; + struct ArrayParamsDispatchEntry; + struct MapParamsDispatchEntry; + + // Step 2 of parameter analysis. Instantiating invoker<some_function_type> + // implicitly sets its From and To parameters to the (compile time) begin + // and end iterators over that function's parameter types. + template< typename Function + , class From = typename boost::mpl::begin< boost::function_types::parameter_types<Function> >::type + , class To = typename boost::mpl::end< boost::function_types::parameter_types<Function> >::type + > + struct invoker; + + // deliver LLSD arguments one at a time + typedef boost::function<LLSD()> args_source; + // obtain args from an args_source to build param list and call target + // function + typedef boost::function<void(const args_source&)> invoker_function; + + template <typename Function> + invoker_function make_invoker(Function f); + template <typename Method, typename InstanceGetter> + invoker_function make_invoker(Method f, const InstanceGetter& getter); + void addArrayParamsDispatchEntry(const std::string& name, + const std::string& desc, + const invoker_function& invoker, + LLSD::Integer arity); + void addMapParamsDispatchEntry(const std::string& name, + const std::string& desc, + const invoker_function& invoker, + const LLSD& params, + const LLSD& defaults); +}; + +/***************************************************************************** +* LLEventDispatcher template implementation details +*****************************************************************************/ +// Step 3 of parameter analysis, the recursive case. +template<typename Function, class From, class To> +struct LLEventDispatcher::invoker +{ + template<typename T> + struct remove_cv_ref + : boost::remove_cv< typename boost::remove_reference<T>::type > + { }; + + // apply() accepts an arbitrary boost::fusion sequence as args. It + // examines the next parameter type in the parameter-types sequence + // bounded by From and To, obtains the next LLSD object from the passed + // args_source and constructs an LLSDParam of appropriate type to try + // to convert the value. It then recurs with the next parameter-types + // iterator, passing the args sequence thus far. + template<typename Args> + static inline + void apply(Function func, const args_source& argsrc, Args const & args) + { + typedef typename boost::mpl::deref<From>::type arg_type; + typedef typename boost::mpl::next<From>::type next_iter_type; + typedef typename remove_cv_ref<arg_type>::type plain_arg_type; + + invoker<Function, next_iter_type, To>::apply + ( func, argsrc, boost::fusion::push_back(args, LLSDParam<plain_arg_type>(argsrc()))); + } + + // Special treatment for instance (first) parameter of a non-static member + // function. Accept the instance-getter callable, calling that to produce + // the first args value. Since we know we're at the top of the recursion + // chain, we need not also require a partial args sequence from our caller. + template <typename InstanceGetter> + static inline + void method_apply(Function func, const args_source& argsrc, const InstanceGetter& getter) + { + typedef typename boost::mpl::next<From>::type next_iter_type; + + // Instead of grabbing the first item from argsrc and making an + // LLSDParam of it, call getter() and pass that as the instance param. + invoker<Function, next_iter_type, To>::apply + ( func, argsrc, boost::fusion::push_back(boost::fusion::nil(), boost::ref(getter()))); + } +}; + +// Step 4 of parameter analysis, the leaf case. When the general +// invoker<Function, From, To> logic has advanced From until it matches To, +// the compiler will pick this template specialization. +template<typename Function, class To> +struct LLEventDispatcher::invoker<Function,To,To> +{ + // the argument list is complete, now call the function + template<typename Args> + static inline + void apply(Function func, const args_source&, Args const & args) + { + boost::fusion::invoke(func, args); } }; +template<typename Function> +typename boost::enable_if< boost::function_types::is_nonmember_callable_builtin<Function> >::type +LLEventDispatcher::add(const std::string& name, const std::string& desc, Function f) +{ + // Construct an invoker_function, a callable accepting const args_source&. + // Add to DispatchMap an ArrayParamsDispatchEntry that will handle the + // caller's LLSD::Array. + addArrayParamsDispatchEntry(name, desc, make_invoker(f), + boost::function_types::function_arity<Function>::value); +} + +template<typename Method, typename InstanceGetter> +typename boost::enable_if< boost::function_types::is_member_function_pointer<Method> >::type +LLEventDispatcher::add(const std::string& name, const std::string& desc, Method f, + const InstanceGetter& getter) +{ + // Subtract 1 from the compile-time arity because the getter takes care of + // the first parameter. We only need (arity - 1) additional arguments. + addArrayParamsDispatchEntry(name, desc, make_invoker(f, getter), + boost::function_types::function_arity<Method>::value - 1); +} + +template<typename Function> +typename boost::enable_if< boost::function_types::is_nonmember_callable_builtin<Function> >::type +LLEventDispatcher::add(const std::string& name, const std::string& desc, Function f, + const LLSD& params, const LLSD& defaults) +{ + // See comments for previous is_nonmember_callable_builtin add(). + addMapParamsDispatchEntry(name, desc, make_invoker(f), params, defaults); +} + +template<typename Method, typename InstanceGetter> +typename boost::enable_if< boost::function_types::is_member_function_pointer<Method> >::type +LLEventDispatcher::add(const std::string& name, const std::string& desc, Method f, + const InstanceGetter& getter, + const LLSD& params, const LLSD& defaults) +{ + addMapParamsDispatchEntry(name, desc, make_invoker(f, getter), params, defaults); +} + +template <typename Function> +LLEventDispatcher::invoker_function +LLEventDispatcher::make_invoker(Function f) +{ + // Step 1 of parameter analysis, the top of the recursion. Passing a + // suitable f (see add()'s enable_if condition) to this method causes it + // to infer the function type; specifying that function type to invoker<> + // causes it to fill in the begin/end MPL iterators over the function's + // list of parameter types. + // While normally invoker::apply() could infer its template type from the + // boost::fusion::nil parameter value, here we must be explicit since + // we're boost::bind()ing it rather than calling it directly. + return boost::bind(&invoker<Function>::template apply<boost::fusion::nil>, + f, + _1, + boost::fusion::nil()); +} + +template <typename Method, typename InstanceGetter> +LLEventDispatcher::invoker_function +LLEventDispatcher::make_invoker(Method f, const InstanceGetter& getter) +{ + // Use invoker::method_apply() to treat the instance (first) arg specially. + return boost::bind(&invoker<Method>::template method_apply<InstanceGetter>, + f, + _1, + getter); +} + +/***************************************************************************** +* LLDispatchListener +*****************************************************************************/ /** * Bundle an LLEventPump and a listener with an LLEventDispatcher. A class * that contains (or derives from) LLDispatchListener need only specify the diff --git a/indra/llcommon/llsdutil.cpp b/indra/llcommon/llsdutil.cpp index f8f9ece058..803417d368 100644 --- a/indra/llcommon/llsdutil.cpp +++ b/indra/llcommon/llsdutil.cpp @@ -41,6 +41,7 @@ #include "llsdserialize.h" #include "stringize.h" +#include "is_approx_equal_fraction.h" #include <map> #include <set> @@ -571,7 +572,7 @@ std::string llsd_matches(const LLSD& prototype, const LLSD& data, const std::str return match_types(prototype.type(), TypeVector(), data.type(), pfx); } -bool llsd_equals(const LLSD& lhs, const LLSD& rhs) +bool llsd_equals(const LLSD& lhs, const LLSD& rhs, unsigned bits) { // We're comparing strict equality of LLSD representation rather than // performing any conversions. So if the types aren't equal, the LLSD @@ -588,6 +589,20 @@ bool llsd_equals(const LLSD& lhs, const LLSD& rhs) // Both are TypeUndefined. There's nothing more to know. return true; + case LLSD::TypeReal: + // This is where the 'bits' argument comes in handy. If passed + // explicitly, it means to use is_approx_equal_fraction() to compare. + if (bits >= 0) + { + return is_approx_equal_fraction(lhs.asReal(), rhs.asReal(), bits); + } + // Otherwise we compare bit representations, and the usual caveats + // about comparing floating-point numbers apply. Omitting 'bits' when + // comparing Real values is only useful when we expect identical bit + // representation for a given Real value, e.g. for integer-valued + // Reals. + return (lhs.asReal() == rhs.asReal()); + #define COMPARE_SCALAR(type) \ case LLSD::Type##type: \ /* LLSD::URI has operator!=() but not operator==() */ \ @@ -596,10 +611,6 @@ bool llsd_equals(const LLSD& lhs, const LLSD& rhs) COMPARE_SCALAR(Boolean); COMPARE_SCALAR(Integer); - // The usual caveats about comparing floating-point numbers apply. This is - // only useful when we expect identical bit representation for a given - // Real value, e.g. for integer-valued Reals. - COMPARE_SCALAR(Real); COMPARE_SCALAR(String); COMPARE_SCALAR(UUID); COMPARE_SCALAR(Date); @@ -617,7 +628,7 @@ bool llsd_equals(const LLSD& lhs, const LLSD& rhs) for ( ; lai != laend && rai != raend; ++lai, ++rai) { // If any one array element is unequal, the arrays are unequal. - if (! llsd_equals(*lai, *rai)) + if (! llsd_equals(*lai, *rai, bits)) return false; } // Here we've reached the end of one or the other array. They're equal @@ -644,7 +655,7 @@ bool llsd_equals(const LLSD& lhs, const LLSD& rhs) if (rhskeys.erase(lmi->first) != 1) return false; // Both maps have the current key. Compare values. - if (! llsd_equals(lmi->second, rhs[lmi->first])) + if (! llsd_equals(lmi->second, rhs[lmi->first], bits)) return false; } // We've now established that all the lhs keys have equal values in @@ -657,7 +668,7 @@ bool llsd_equals(const LLSD& lhs, const LLSD& rhs) // We expect that every possible type() value is specifically handled // above. Failing to extend this switch to support a new LLSD type is // an error that must be brought to the coder's attention. - LL_ERRS("llsd_equals") << "llsd_equals(" << lhs << ", " << rhs << "): " + LL_ERRS("llsd_equals") << "llsd_equals(" << lhs << ", " << rhs << ", " << bits << "): " "unknown type " << lhs.type() << LL_ENDL; return false; // pacify the compiler } diff --git a/indra/llcommon/llsdutil.h b/indra/llcommon/llsdutil.h index bb8c0690b1..65c7297cbf 100644 --- a/indra/llcommon/llsdutil.h +++ b/indra/llcommon/llsdutil.h @@ -123,8 +123,10 @@ LL_COMMON_API BOOL compare_llsd_with_template( */ LL_COMMON_API std::string llsd_matches(const LLSD& prototype, const LLSD& data, const std::string& pfx=""); -/// Deep equality -LL_COMMON_API bool llsd_equals(const LLSD& lhs, const LLSD& rhs); +/// Deep equality. If you want to compare LLSD::Real values for approximate +/// equality rather than bitwise equality, pass @a bits as for +/// is_approx_equal_fraction(). +LL_COMMON_API bool llsd_equals(const LLSD& lhs, const LLSD& rhs, unsigned bits=-1); // Simple function to copy data out of input & output iterators if // there is no need for casting. @@ -138,4 +140,283 @@ template<typename Input> LLSD llsd_copy_array(Input iter, Input end) return dest; } +/***************************************************************************** +* LLSDArray +*****************************************************************************/ +/** + * Construct an LLSD::Array inline, with implicit conversion to LLSD. Usage: + * + * @code + * void somefunc(const LLSD&); + * ... + * somefunc(LLSDArray("text")(17)(3.14)); + * @endcode + * + * For completeness, LLSDArray() with no args constructs an empty array, so + * <tt>LLSDArray()("text")(17)(3.14)</tt> produces an array equivalent to the + * above. But for most purposes, LLSD() is already equivalent to an empty + * array, and if you explicitly want an empty isArray(), there's + * LLSD::emptyArray(). However, supporting a no-args LLSDArray() constructor + * follows the principle of least astonishment. + */ +class LLSDArray +{ +public: + LLSDArray(): + _data(LLSD::emptyArray()) + {} + + /** + * Need an explicit copy constructor. Consider the following: + * + * @code + * LLSD array_of_arrays(LLSDArray(LLSDArray(17)(34)) + * (LLSDArray("x")("y"))); + * @endcode + * + * The coder intends to construct [[17, 34], ["x", "y"]]. + * + * With the compiler's implicit copy constructor, s/he gets instead + * [17, 34, ["x", "y"]]. + * + * The expression LLSDArray(17)(34) constructs an LLSDArray with those two + * values. The reader assumes it should be converted to LLSD, as we always + * want with LLSDArray, before passing it to the @em outer LLSDArray + * constructor! This copy constructor makes that happen. + */ + LLSDArray(const LLSDArray& inner): + _data(LLSD::emptyArray()) + { + _data.append(inner); + } + + LLSDArray(const LLSD& value): + _data(LLSD::emptyArray()) + { + _data.append(value); + } + + LLSDArray& operator()(const LLSD& value) + { + _data.append(value); + return *this; + } + + operator LLSD() const { return _data; } + LLSD get() const { return _data; } + +private: + LLSD _data; +}; + +/***************************************************************************** +* LLSDMap +*****************************************************************************/ +/** + * Construct an LLSD::Map inline, with implicit conversion to LLSD. Usage: + * + * @code + * void somefunc(const LLSD&); + * ... + * somefunc(LLSDMap("alpha", "abc")("number", 17)("pi", 3.14)); + * @endcode + * + * For completeness, LLSDMap() with no args constructs an empty map, so + * <tt>LLSDMap()("alpha", "abc")("number", 17)("pi", 3.14)</tt> produces a map + * equivalent to the above. But for most purposes, LLSD() is already + * equivalent to an empty map, and if you explicitly want an empty isMap(), + * there's LLSD::emptyMap(). However, supporting a no-args LLSDMap() + * constructor follows the principle of least astonishment. + */ +class LLSDMap +{ +public: + LLSDMap(): + _data(LLSD::emptyMap()) + {} + LLSDMap(const LLSD::String& key, const LLSD& value): + _data(LLSD::emptyMap()) + { + _data[key] = value; + } + + LLSDMap& operator()(const LLSD::String& key, const LLSD& value) + { + _data[key] = value; + return *this; + } + + operator LLSD() const { return _data; } + LLSD get() const { return _data; } + +private: + LLSD _data; +}; + +/***************************************************************************** +* LLSDParam +*****************************************************************************/ +/** + * LLSDParam is a customization point for passing LLSD values to function + * parameters of more or less arbitrary type. LLSD provides a small set of + * native conversions; but if a generic algorithm explicitly constructs an + * LLSDParam object in the function's argument list, a consumer can provide + * LLSDParam specializations to support more different parameter types than + * LLSD's native conversions. + * + * Usage: + * + * @code + * void somefunc(const paramtype&); + * ... + * somefunc(..., LLSDParam<paramtype>(someLLSD), ...); + * @endcode + */ +template <typename T> +class LLSDParam +{ +public: + /** + * Default implementation converts to T on construction, saves converted + * value for later retrieval + */ + LLSDParam(const LLSD& value): + _value(value) + {} + + operator T() const { return _value; } + +private: + T _value; +}; + +/** + * Turns out that several target types could accept an LLSD param using any of + * a few different conversions, e.g. LLUUID's constructor can accept LLUUID or + * std::string. Therefore, the compiler can't decide which LLSD conversion + * operator to choose, even though to us it seems obvious. But that's okay, we + * can specialize LLSDParam for such target types, explicitly specifying the + * desired conversion -- that's part of what LLSDParam is all about. Turns out + * we have to do that enough to make it worthwhile generalizing. Use a macro + * because I need to specify one of the asReal, etc., explicit conversion + * methods as well as a type. If I'm overlooking a clever way to implement + * that using a template instead, feel free to reimplement. + */ +#define LLSDParam_for(T, AS) \ +template <> \ +class LLSDParam<T> \ +{ \ +public: \ + LLSDParam(const LLSD& value): \ + _value(value.AS()) \ + {} \ + \ + operator T() const { return _value; } \ + \ +private: \ + T _value; \ +} + +LLSDParam_for(float, asReal); +LLSDParam_for(LLUUID, asUUID); +LLSDParam_for(LLDate, asDate); +LLSDParam_for(LLURI, asURI); +LLSDParam_for(LLSD::Binary, asBinary); + +/** + * LLSDParam<const char*> is an example of the kind of conversion you can + * support with LLSDParam beyond native LLSD conversions. Normally you can't + * pass an LLSD object to a function accepting const char* -- but you can + * safely pass an LLSDParam<const char*>(yourLLSD). + */ +template <> +class LLSDParam<const char*> +{ +private: + // The difference here is that we store a std::string rather than a const + // char*. It's important that the LLSDParam object own the std::string. + std::string _value; + // We don't bother storing the incoming LLSD object, but we do have to + // distinguish whether _value is an empty string because the LLSD object + // contains an empty string or because it's isUndefined(). + bool _undefined; + +public: + LLSDParam(const LLSD& value): + _value(value), + _undefined(value.isUndefined()) + {} + + // The const char* we retrieve is for storage owned by our _value member. + // That's how we guarantee that the const char* is valid for the lifetime + // of this LLSDParam object. Constructing your LLSDParam in the argument + // list should ensure that the LLSDParam object will persist for the + // duration of the function call. + operator const char*() const + { + if (_undefined) + { + // By default, an isUndefined() LLSD object's asString() method + // will produce an empty string. But for a function accepting + // const char*, it's often important to be able to pass NULL, and + // isUndefined() seems like the best way. If you want to pass an + // empty string, you can still pass LLSD(""). Without this special + // case, though, no LLSD value could pass NULL. + return NULL; + } + return _value.c_str(); + } +}; + +namespace llsd +{ + +/***************************************************************************** +* BOOST_FOREACH() helpers for LLSD +*****************************************************************************/ +/// Usage: BOOST_FOREACH(LLSD item, inArray(someLLSDarray)) { ... } +class inArray +{ +public: + inArray(const LLSD& array): + _array(array) + {} + + typedef LLSD::array_const_iterator const_iterator; + typedef LLSD::array_iterator iterator; + + iterator begin() { return _array.beginArray(); } + iterator end() { return _array.endArray(); } + const_iterator begin() const { return _array.beginArray(); } + const_iterator end() const { return _array.endArray(); } + +private: + LLSD _array; +}; + +/// MapEntry is what you get from dereferencing an LLSD::map_[const_]iterator. +typedef std::map<LLSD::String, LLSD>::value_type MapEntry; + +/// Usage: BOOST_FOREACH([const] MapEntry& e, inMap(someLLSDmap)) { ... } +class inMap +{ +public: + inMap(const LLSD& map): + _map(map) + {} + + typedef LLSD::map_const_iterator const_iterator; + typedef LLSD::map_iterator iterator; + + iterator begin() { return _map.beginMap(); } + iterator end() { return _map.endMap(); } + const_iterator begin() const { return _map.beginMap(); } + const_iterator end() const { return _map.endMap(); } + +private: + LLSD _map; +}; + +} // namespace llsd + #endif // LL_LLSDUTIL_H diff --git a/indra/llcommon/tests/lleventdispatcher_test.cpp b/indra/llcommon/tests/lleventdispatcher_test.cpp new file mode 100644 index 0000000000..263c9b171f --- /dev/null +++ b/indra/llcommon/tests/lleventdispatcher_test.cpp @@ -0,0 +1,1324 @@ +/** + * @file lleventdispatcher_test.cpp + * @author Nat Goodspeed + * @date 2011-01-20 + * @brief Test for lleventdispatcher. + * + * $LicenseInfo:firstyear=2011&license=viewerlgpl$ + * Copyright (c) 2011, Linden Research, Inc. + * $/LicenseInfo$ + */ + +// Precompiled header +#include "linden_common.h" +// associated header +#include "lleventdispatcher.h" +// STL headers +// std headers +// external library headers +// other Linden headers +#include "../test/lltut.h" +#include "llsd.h" +#include "llsdutil.h" +#include "stringize.h" +#include "tests/wrapllerrs.h" + +#include <map> +#include <string> +#include <stdexcept> + +#include <boost/bind.hpp> +#include <boost/function.hpp> +#include <boost/range.hpp> +#include <boost/foreach.hpp> +#define foreach BOOST_FOREACH + +#include <boost/lambda/lambda.hpp> + +#include <iostream> +#include <iomanip> + +using boost::lambda::constant; +using boost::lambda::constant_ref; +using boost::lambda::var; + +using namespace llsd; + +/***************************************************************************** +* Output control +*****************************************************************************/ +#ifdef DEBUG_ON +using std::cout; +#else +static std::ostringstream cout; +#endif + +/***************************************************************************** +* Example data, functions, classes +*****************************************************************************/ +// We don't need a whole lot of different arbitrary-params methods, just (no | +// (const LLSD&) | arbitrary) args (function | static method | non-static +// method), where 'arbitrary' is (every LLSD datatype + (const char*)). +// But we need to register each one under different names for the different +// registration styles. Don't forget LLEventDispatcher subclass methods(const +// LLSD&). + +// However, the number of target parameter conversions we want to try exceeds +// boost::fusion::invoke()'s supported parameter-list size. Break out two +// different lists. +#define NPARAMSa bool b, int i, float f, double d, const char* cp +#define NPARAMSb const std::string& s, const LLUUID& uuid, const LLDate& date, \ + const LLURI& uri, const std::vector<U8>& bin +#define NARGSa b, i, f, d, cp +#define NARGSb s, uuid, date, uri, bin + +// For some registration methods we need methods on a subclass of +// LLEventDispatcher. To simplify things, we'll use this Dispatcher subclass +// for all our testing, including testing its own methods. +class Dispatcher: public LLEventDispatcher +{ +public: + Dispatcher(const std::string& name, const std::string& key): + LLEventDispatcher(name, key) + {} + + // sensing member, mutable because we want to know when we've reached our + // const method too + mutable LLSD llsd; + + void method1(const LLSD& obj) { llsd = obj; } + void cmethod1(const LLSD& obj) const { llsd = obj; } +}; + +// sensing vars, captured in a struct to make it convenient to clear them +struct Vars +{ + LLSD llsd; + bool b; + int i; + float f; + double d; + // Capture param passed as char*. But merely storing a char* received from + // our caller, possibly the .c_str() from a concatenation expression, + // would be Bad: the pointer will be invalidated long before we can query + // it. We could allocate a new chunk of memory, copy the string data and + // point to that instead -- but hey, guess what, we already have a class + // that does that! + std::string cp; + std::string s; + LLUUID uuid; + LLDate date; + LLURI uri; + std::vector<U8> bin; + + Vars(): + // Only need to initialize the POD types, the rest should take care of + // default-constructing themselves. + b(false), + i(0), + f(0), + d(0) + {} + + // Detect any non-default values for convenient testing + LLSD inspect() const + { + LLSD result; + + if (llsd.isDefined()) + result["llsd"] = llsd; + if (b) + result["b"] = b; + if (i) + result["i"] = i; + if (f) + result["f"] = f; + if (d) + result["d"] = d; + if (! cp.empty()) + result["cp"] = cp; + if (! s.empty()) + result["s"] = s; + if (uuid != LLUUID()) + result["uuid"] = uuid; + if (date != LLDate()) + result["date"] = date; + if (uri != LLURI()) + result["uri"] = uri; + if (! bin.empty()) + result["bin"] = bin; + + return result; + } + + /*------------- no-args (non-const, const, static) methods -------------*/ + void method0() + { + cout << "method0()\n"; + i = 17; + } + + void cmethod0() const + { + cout << 'c'; + const_cast<Vars*>(this)->method0(); + } + + static void smethod0(); + + /*------------ Callable (non-const, const, static) methods -------------*/ + void method1(const LLSD& obj) + { + cout << "method1(" << obj << ")\n"; + llsd = obj; + } + + void cmethod1(const LLSD& obj) const + { + cout << 'c'; + const_cast<Vars*>(this)->method1(obj); + } + + static void smethod1(const LLSD& obj); + + /*-------- Arbitrary-params (non-const, const, static) methods ---------*/ + void methodna(NPARAMSa) + { + // Because our const char* param cp might be NULL, and because we + // intend to capture the value in a std::string, have to distinguish + // between the NULL value and any non-NULL value. Use a convention + // easy for a human reader: enclose any non-NULL value in single + // quotes, reserving the unquoted string "NULL" to represent a NULL ptr. + std::string vcp; + if (cp == NULL) + vcp = "NULL"; + else + vcp = std::string("'") + cp + "'"; + + cout << "methodna(" << b + << ", " << i + << ", " << f + << ", " << d + << ", " << vcp + << ")\n"; + + this->b = b; + this->i = i; + this->f = f; + this->d = d; + this->cp = vcp; + } + + void methodnb(NPARAMSb) + { + std::ostringstream vbin; + foreach(U8 byte, bin) + { + vbin << std::hex << std::setfill('0') << std::setw(2) << unsigned(byte); + } + + cout << "methodnb(" << "'" << s << "'" + << ", " << uuid + << ", " << date + << ", '" << uri << "'" + << ", " << vbin.str() + << ")\n"; + + this->s = s; + this->uuid = uuid; + this->date = date; + this->uri = uri; + this->bin = bin; + } + + void cmethodna(NPARAMSa) const + { + cout << 'c'; + const_cast<Vars*>(this)->methodna(NARGSa); + } + + void cmethodnb(NPARAMSb) const + { + cout << 'c'; + const_cast<Vars*>(this)->methodnb(NARGSb); + } + + static void smethodna(NPARAMSa); + static void smethodnb(NPARAMSb); +}; +/*------- Global Vars instance for free functions and static methods -------*/ +static Vars g; + +/*------------ Static Vars method implementations reference 'g' ------------*/ +void Vars::smethod0() +{ + cout << "smethod0() -> "; + g.method0(); +} + +void Vars::smethod1(const LLSD& obj) +{ + cout << "smethod1(" << obj << ") -> "; + g.method1(obj); +} + +void Vars::smethodna(NPARAMSa) +{ + cout << "smethodna(...) -> "; + g.methodna(NARGSa); +} + +void Vars::smethodnb(NPARAMSb) +{ + cout << "smethodnb(...) -> "; + g.methodnb(NARGSb); +} + +/*--------------------------- Reset global Vars ----------------------------*/ +void clear() +{ + g = Vars(); +} + +/*------------------- Free functions also reference 'g' --------------------*/ +void free0() +{ + cout << "free0() -> "; + g.method0(); +} + +void free1(const LLSD& obj) +{ + cout << "free1(" << obj << ") -> "; + g.method1(obj); +} + +void freena(NPARAMSa) +{ + cout << "freena(...) -> "; + g.methodna(NARGSa); +} + +void freenb(NPARAMSb) +{ + cout << "freenb(...) -> "; + g.methodnb(NARGSb); +} + +/***************************************************************************** +* TUT +*****************************************************************************/ +namespace tut +{ + struct lleventdispatcher_data + { + WrapLL_ERRS redirect; + Dispatcher work; + Vars v; + std::string name, desc; + // Capture our own copy of all registered functions' descriptions + typedef std::map<std::string, std::string> DescMap; + DescMap descs; + // Capture the Vars instance on which we expect each function to operate + typedef std::map<std::string, Vars*> VarsMap; + VarsMap funcvars; + // Required structure for Callables with requirements + LLSD required; + // Parameter names for freena(), freenb() + LLSD params; + // Full, partial defaults arrays for params for freena(), freenb() + LLSD dft_array_full, dft_array_partial; + // Start index of partial defaults arrays + const LLSD::Integer partial_offset; + // Full, partial defaults maps for params for freena(), freenb() + LLSD dft_map_full, dft_map_partial; + // Most of the above are indexed by "a" or "b". Useful to have an + // array containing those strings for iterating. + std::vector<LLSD::String> ab; + + lleventdispatcher_data(): + work("test dispatcher", "op"), + // map {d=double, array=[3 elements]} + required(LLSDMap("d", LLSD::Real(0))("array", LLSDArray(LLSD())(LLSD())(LLSD()))), + // first several params are required, last couple optional + partial_offset(3) + { + // This object is reconstructed for every test<n> method. But + // clear global variables every time too. + ::clear(); + + const char* abs[] = { "a", "b" }; + ab.assign(boost::begin(abs), boost::end(abs)); + + // Registration cases: + // - (Callable | subclass const method | subclass non-const method | + // non-subclass method) (with | without) required + // - (Free function | static method | non-static method), (no | arbitrary) params, + // array style + // - (Free function | static method | non-static method), (no | arbitrary) params, + // map style, (empty | partial | full) (array | map) defaults + // - Map-style errors: + // - (scalar | map) param names + // - defaults scalar + // - defaults array longer than params array + // - defaults map with plural unknown param names + + // I hate to have to write things twice, because of having to keep + // them consistent. If we had variadic functions, addf() would be + // a variadic method, capturing the name and desc and passing them + // plus "everything else" to work.add(). If I could return a pair + // and use that pair as the first two args to work.add(), I'd do + // that. But the best I can do with present C++ is to set two + // instance variables as a side effect of addf(), and pass those + // variables to each work.add() call. :-P + + /*------------------------- Callables --------------------------*/ + + // Arbitrary Callable with/out required params + addf("free1", "free1", &g); + work.add(name, desc, free1); + addf("free1_req", "free1", &g); + work.add(name, desc, free1, required); + // Subclass non-const method with/out required params + addf("Dmethod1", "method1", NULL); + work.add(name, desc, &Dispatcher::method1); + addf("Dmethod1_req", "method1", NULL); + work.add(name, desc, &Dispatcher::method1, required); + // Subclass const method with/out required params + addf("Dcmethod1", "cmethod1", NULL); + work.add(name, desc, &Dispatcher::cmethod1); + addf("Dcmethod1_req", "cmethod1", NULL); + work.add(name, desc, &Dispatcher::cmethod1, required); + // Non-subclass method with/out required params + addf("method1", "method1", &v); + work.add(name, desc, boost::bind(&Vars::method1, boost::ref(v), _1)); + addf("method1_req", "method1", &v); + work.add(name, desc, boost::bind(&Vars::method1, boost::ref(v), _1), required); + + /*--------------- Arbitrary params, array style ----------------*/ + + // (Free function | static method) with (no | arbitrary) params, array style + addf("free0_array", "free0", &g); + work.add(name, desc, free0); + addf("freena_array", "freena", &g); + work.add(name, desc, freena); + addf("freenb_array", "freenb", &g); + work.add(name, desc, freenb); + addf("smethod0_array", "smethod0", &g); + work.add(name, desc, &Vars::smethod0); + addf("smethodna_array", "smethodna", &g); + work.add(name, desc, &Vars::smethodna); + addf("smethodnb_array", "smethodnb", &g); + work.add(name, desc, &Vars::smethodnb); + // Non-static method with (no | arbitrary) params, array style + addf("method0_array", "method0", &v); + work.add(name, desc, &Vars::method0, boost::lambda::var(v)); + addf("methodna_array", "methodna", &v); + work.add(name, desc, &Vars::methodna, boost::lambda::var(v)); + addf("methodnb_array", "methodnb", &v); + work.add(name, desc, &Vars::methodnb, boost::lambda::var(v)); + + /*---------------- Arbitrary params, map style -----------------*/ + + // We lay out each params list as an array, also each array of + // default values we'll register. We'll zip these into + // (param=value) maps. Why not define them as maps and just + // extract the keys and values to arrays? Because that wouldn't + // give us the right params-list order. + + // freena(), methodna(), cmethodna(), smethodna() all take same param list. + // Same for freenb() et al. + params = LLSDMap("a", LLSDArray("b")("i")("f")("d")("cp")) + ("b", LLSDArray("s")("uuid")("date")("uri")("bin")); + cout << "params:\n" << params << "\nparams[\"a\"]:\n" << params["a"] << "\nparams[\"b\"]:\n" << params["b"] << std::endl; + // default LLSD::Binary value + std::vector<U8> binary; + for (size_t ix = 0, h = 0xaa; ix < 6; ++ix, h += 0x11) + { + binary.push_back(h); + } + // Full defaults arrays. We actually don't care what the LLUUID or + // LLDate values are, as long as they're different from the + // LLUUID() and LLDate() default values so inspect() will report + // them. + dft_array_full = LLSDMap("a", LLSDArray(true)(17)(3.14)(123456.78)("classic")) + ("b", LLSDArray("string") + (LLUUID::generateNewID()) + (LLDate::now()) + (LLURI("http://www.ietf.org/rfc/rfc3986.txt")) + (binary)); + cout << "dft_array_full:\n" << dft_array_full << std::endl; + // Partial defaults arrays. + foreach(LLSD::String a, ab) + { + LLSD::Integer partition(std::min(partial_offset, dft_array_full[a].size())); + dft_array_partial[a] = + llsd_copy_array(dft_array_full[a].beginArray() + partition, + dft_array_full[a].endArray()); + } + cout << "dft_array_partial:\n" << dft_array_partial << std::endl; + + foreach(LLSD::String a, ab) + { + // Generate full defaults maps by zipping (params, dft_array_full). + dft_map_full[a] = zipmap(params[a], dft_array_full[a]); + + // Generate partial defaults map by zipping alternate entries from + // (params, dft_array_full). Part of the point of using map-style + // defaults is to allow any subset of the target function's + // parameters to be optional, not just the rightmost. + for (LLSD::Integer ix = 0, ixend = params[a].size(); ix < ixend; ix += 2) + { + dft_map_partial[a][params[a][ix].asString()] = dft_array_full[a][ix]; + } + } + cout << "dft_map_full:\n" << dft_map_full << "\ndft_map_partial:\n" << dft_map_partial << '\n'; + + // (Free function | static method) with (no | arbitrary) params, + // map style, no (empty array) defaults + addf("free0_map", "free0", &g); + work.add(name, desc, free0, LLSD::emptyArray()); + addf("smethod0_map", "smethod0", &g); + work.add(name, desc, &Vars::smethod0, LLSD::emptyArray()); + addf("freena_map_allreq", "freena", &g); + work.add(name, desc, freena, params["a"]); + addf("freenb_map_allreq", "freenb", &g); + work.add(name, desc, freenb, params["b"]); + addf("smethodna_map_allreq", "smethodna", &g); + work.add(name, desc, &Vars::smethodna, params["a"]); + addf("smethodnb_map_allreq", "smethodnb", &g); + work.add(name, desc, &Vars::smethodnb, params["b"]); + // Non-static method with (no | arbitrary) params, map style, no + // (empty array) defaults + addf("method0_map", "method0", &v); + work.add(name, desc, &Vars::method0, var(v), LLSD::emptyArray()); + addf("methodna_map_allreq", "methodna", &v); + work.add(name, desc, &Vars::methodna, var(v), params["a"]); + addf("methodnb_map_allreq", "methodnb", &v); + work.add(name, desc, &Vars::methodnb, var(v), params["b"]); + + // Except for the "more (array | map) defaults than params" error + // cases, tested separately below, the (partial | full)(array | + // map) defaults cases don't apply to no-params functions/methods. + // So eliminate free0, smethod0, method0 from the cases below. + + // (Free function | static method) with arbitrary params, map + // style, partial (array | map) defaults + addf("freena_map_leftreq", "freena", &g); + work.add(name, desc, freena, params["a"], dft_array_partial["a"]); + addf("freenb_map_leftreq", "freenb", &g); + work.add(name, desc, freenb, params["b"], dft_array_partial["b"]); + addf("smethodna_map_leftreq", "smethodna", &g); + work.add(name, desc, &Vars::smethodna, params["a"], dft_array_partial["a"]); + addf("smethodnb_map_leftreq", "smethodnb", &g); + work.add(name, desc, &Vars::smethodnb, params["b"], dft_array_partial["b"]); + addf("freena_map_skipreq", "freena", &g); + work.add(name, desc, freena, params["a"], dft_map_partial["a"]); + addf("freenb_map_skipreq", "freenb", &g); + work.add(name, desc, freenb, params["b"], dft_map_partial["b"]); + addf("smethodna_map_skipreq", "smethodna", &g); + work.add(name, desc, &Vars::smethodna, params["a"], dft_map_partial["a"]); + addf("smethodnb_map_skipreq", "smethodnb", &g); + work.add(name, desc, &Vars::smethodnb, params["b"], dft_map_partial["b"]); + // Non-static method with arbitrary params, map style, partial + // (array | map) defaults + addf("methodna_map_leftreq", "methodna", &v); + work.add(name, desc, &Vars::methodna, var(v), params["a"], dft_array_partial["a"]); + addf("methodnb_map_leftreq", "methodnb", &v); + work.add(name, desc, &Vars::methodnb, var(v), params["b"], dft_array_partial["b"]); + addf("methodna_map_skipreq", "methodna", &v); + work.add(name, desc, &Vars::methodna, var(v), params["a"], dft_map_partial["a"]); + addf("methodnb_map_skipreq", "methodnb", &v); + work.add(name, desc, &Vars::methodnb, var(v), params["b"], dft_map_partial["b"]); + + // (Free function | static method) with arbitrary params, map + // style, full (array | map) defaults + addf("freena_map_adft", "freena", &g); + work.add(name, desc, freena, params["a"], dft_array_full["a"]); + addf("freenb_map_adft", "freenb", &g); + work.add(name, desc, freenb, params["b"], dft_array_full["b"]); + addf("smethodna_map_adft", "smethodna", &g); + work.add(name, desc, &Vars::smethodna, params["a"], dft_array_full["a"]); + addf("smethodnb_map_adft", "smethodnb", &g); + work.add(name, desc, &Vars::smethodnb, params["b"], dft_array_full["b"]); + addf("freena_map_mdft", "freena", &g); + work.add(name, desc, freena, params["a"], dft_map_full["a"]); + addf("freenb_map_mdft", "freenb", &g); + work.add(name, desc, freenb, params["b"], dft_map_full["b"]); + addf("smethodna_map_mdft", "smethodna", &g); + work.add(name, desc, &Vars::smethodna, params["a"], dft_map_full["a"]); + addf("smethodnb_map_mdft", "smethodnb", &g); + work.add(name, desc, &Vars::smethodnb, params["b"], dft_map_full["b"]); + // Non-static method with arbitrary params, map style, full + // (array | map) defaults + addf("methodna_map_adft", "methodna", &v); + work.add(name, desc, &Vars::methodna, var(v), params["a"], dft_array_full["a"]); + addf("methodnb_map_adft", "methodnb", &v); + work.add(name, desc, &Vars::methodnb, var(v), params["b"], dft_array_full["b"]); + addf("methodna_map_mdft", "methodna", &v); + work.add(name, desc, &Vars::methodna, var(v), params["a"], dft_map_full["a"]); + addf("methodnb_map_mdft", "methodnb", &v); + work.add(name, desc, &Vars::methodnb, var(v), params["b"], dft_map_full["b"]); + + // All the above are expected to succeed, and are setup for the + // tests to follow. Registration error cases are exercised as + // tests rather than as test setup. + } + + void addf(const std::string& n, const std::string& d, Vars* v) + { + // This method is to capture in our own DescMap the name and + // description of every registered function, for metadata query + // testing. + descs[n] = d; + // Also capture the Vars instance on which each function should operate. + funcvars[n] = v; + // See constructor for rationale for setting these instance vars. + this->name = n; + this->desc = d; + } + + void verify_descs() + { + // Copy descs to a temp map of same type. + DescMap forgotten(descs.begin(), descs.end()); + // LLEventDispatcher intentionally provides only const_iterator: + // since dereferencing that iterator generates values on the fly, + // it's meaningless to have a modifiable iterator. But since our + // 'work' object isn't const, by default BOOST_FOREACH() wants to + // use non-const iterators. Persuade it to use the const_iterator. + foreach(LLEventDispatcher::NameDesc nd, const_cast<const Dispatcher&>(work)) + { + DescMap::iterator found = forgotten.find(nd.first); + ensure(STRINGIZE("LLEventDispatcher records function '" << nd.first + << "' we didn't enter"), + found != forgotten.end()); + ensure_equals(STRINGIZE("LLEventDispatcher desc '" << nd.second << + "' doesn't match what we entered: '" << found->second << "'"), + nd.second, found->second); + // found in our map the name from LLEventDispatcher, good, erase + // our map entry + forgotten.erase(found); + } + if (! forgotten.empty()) + { + std::ostringstream out; + out << "LLEventDispatcher failed to report"; + const char* delim = ": "; + foreach(const DescMap::value_type& fme, forgotten) + { + out << delim << fme.first; + delim = ", "; + } + ensure(out.str(), false); + } + } + + Vars* varsfor(const std::string& name) + { + VarsMap::const_iterator found = funcvars.find(name); + ensure(STRINGIZE("No Vars* for " << name), found != funcvars.end()); + ensure(STRINGIZE("NULL Vars* for " << name), found->second); + return found->second; + } + + void ensure_has(const std::string& outer, const std::string& inner) + { + ensure(STRINGIZE("'" << outer << "' does not contain '" << inner << "'").c_str(), + outer.find(inner) != std::string::npos); + } + + void call_exc(const std::string& func, const LLSD& args, const std::string& exc_frag) + { + std::string threw; + try + { + work(func, args); + } + catch (const std::runtime_error& e) + { + cout << "*** " << e.what() << '\n'; + threw = e.what(); + } + ensure_has(threw, exc_frag); + } + + LLSD getMetadata(const std::string& name) + { + LLSD meta(work.getMetadata(name)); + ensure(STRINGIZE("No metadata for " << name), meta.isDefined()); + return meta; + } + + // From two related LLSD arrays, e.g. a param-names array and a values + // array, zip them together into an LLSD map. + LLSD zipmap(const LLSD& keys, const LLSD& values) + { + LLSD map; + for (LLSD::Integer i = 0, iend = keys.size(); i < iend; ++i) + { + // Have to select asString() since you can index an LLSD + // object with either String or Integer. + map[keys[i].asString()] = values[i]; + } + return map; + } + + // If I call this ensure_equals(), it blocks visibility of all other + // ensure_equals() overloads. Normally I could say 'using + // baseclass::ensure_equals;' and fix that, but I don't know what the + // base class is! + void ensure_llsd(const std::string& msg, const LLSD& actual, const LLSD& expected, U32 bits) + { + std::ostringstream out; + if (! msg.empty()) + { + out << msg << ": "; + } + out << "expected " << expected << ", actual " << actual; + ensure(out.str(), llsd_equals(actual, expected, bits)); + } + + void ensure_llsd(const LLSD& actual, const LLSD& expected, U32 bits) + { + ensure_llsd("", actual, expected, bits); + } + }; + typedef test_group<lleventdispatcher_data> lleventdispatcher_group; + typedef lleventdispatcher_group::object object; + lleventdispatcher_group lleventdispatchergrp("lleventdispatcher"); + + // Call cases: + // - (try_call | call) (explicit name | event key) (real | bogus) name + // - Callable with args that (do | do not) match required + // - (Free function | non-static method), no args, (array | map) style + // - (Free function | non-static method), arbitrary args, + // (array style with (scalar | map) | map style with scalar) + // - (Free function | non-static method), arbitrary args, array style with + // array (too short | too long | just right) + // [trap LL_WARNS for too-long case?] + // - (Free function | non-static method), arbitrary args, map style with + // (array | map) (all | too many | holes (with | without) defaults) + // - const char* param gets ("" | NULL) + + // Query cases: + // - Iterate over all (with | without) remove() + // - getDispatchKey() + // - Callable style (with | without) required + // - (Free function | non-static method), array style, (no | arbitrary) params + // - (Free function | non-static method), map style, (no | arbitrary) params, + // (empty | full | partial (array | map)) defaults + + template<> template<> + void object::test<1>() + { + set_test_name("map-style registration with non-array params"); + // Pass "param names" as scalar or as map + LLSD attempts(LLSDArray(17)(LLSDMap("pi", 3.14)("two", 2))); + foreach(LLSD ae, inArray(attempts)) + { + std::string threw; + try + { + work.add("freena_err", "freena", freena, ae); + } + catch (const std::exception& e) + { + threw = e.what(); + } + ensure_has(threw, "must be an array"); + } + } + + template<> template<> + void object::test<2>() + { + set_test_name("map-style registration with badly-formed defaults"); + std::string threw; + try + { + work.add("freena_err", "freena", freena, LLSDArray("a")("b"), 17); + } + catch (const std::exception& e) + { + threw = e.what(); + } + ensure_has(threw, "must be a map or an array"); + } + + template<> template<> + void object::test<3>() + { + set_test_name("map-style registration with too many array defaults"); + std::string threw; + try + { + work.add("freena_err", "freena", freena, + LLSDArray("a")("b"), + LLSDArray(17)(0.9)("gack")); + } + catch (const std::exception& e) + { + threw = e.what(); + } + ensure_has(threw, "shorter than"); + } + + template<> template<> + void object::test<4>() + { + set_test_name("map-style registration with too many map defaults"); + std::string threw; + try + { + work.add("freena_err", "freena", freena, + LLSDArray("a")("b"), + LLSDMap("b", 17)("foo", 3.14)("bar", "sinister")); + } + catch (const std::exception& e) + { + threw = e.what(); + } + ensure_has(threw, "nonexistent params"); + ensure_has(threw, "foo"); + ensure_has(threw, "bar"); + } + + template<> template<> + void object::test<5>() + { + set_test_name("query all"); + verify_descs(); + } + + template<> template<> + void object::test<6>() + { + set_test_name("query all with remove()"); + ensure("remove('bogus') returned true", ! work.remove("bogus")); + ensure("remove('real') returned false", work.remove("free1")); + // Of course, remove that from 'descs' too... + descs.erase("free1"); + verify_descs(); + } + + template<> template<> + void object::test<7>() + { + set_test_name("getDispatchKey()"); + ensure_equals(work.getDispatchKey(), "op"); + } + + template<> template<> + void object::test<8>() + { + set_test_name("query Callables with/out required params"); + LLSD names(LLSDArray("free1")("Dmethod1")("Dcmethod1")("method1")); + foreach(LLSD nm, inArray(names)) + { + LLSD metadata(getMetadata(nm)); + ensure_equals("name mismatch", metadata["name"], nm); + ensure_equals(metadata["desc"].asString(), descs[nm]); + ensure("should not have required structure", metadata["required"].isUndefined()); + ensure("should not have optional", metadata["optional"].isUndefined()); + + std::string name_req(nm.asString() + "_req"); + metadata = getMetadata(name_req); + ensure_equals(metadata["name"].asString(), name_req); + ensure_equals(metadata["desc"].asString(), descs[name_req]); + ensure_equals("required mismatch", required, metadata["required"]); + ensure("should not have optional", metadata["optional"].isUndefined()); + } + } + + template<> template<> + void object::test<9>() + { + set_test_name("query array-style functions/methods"); + // Associate each registered name with expected arity. + LLSD expected(LLSDArray + (LLSDArray + (0)(LLSDArray("free0_array")("smethod0_array")("method0_array"))) + (LLSDArray + (5)(LLSDArray("freena_array")("smethodna_array")("methodna_array"))) + (LLSDArray + (5)(LLSDArray("freenb_array")("smethodnb_array")("methodnb_array")))); + foreach(LLSD ae, inArray(expected)) + { + LLSD::Integer arity(ae[0].asInteger()); + LLSD names(ae[1]); + LLSD req(LLSD::emptyArray()); + if (arity) + req[arity - 1] = LLSD(); + foreach(LLSD nm, inArray(names)) + { + LLSD metadata(getMetadata(nm)); + ensure_equals("name mismatch", metadata["name"], nm); + ensure_equals(metadata["desc"].asString(), descs[nm]); + ensure_equals(STRINGIZE("mismatched required for " << nm.asString()), + metadata["required"], req); + ensure("should not have optional", metadata["optional"].isUndefined()); + } + } + } + + template<> template<> + void object::test<10>() + { + set_test_name("query map-style no-params functions/methods"); + // - (Free function | non-static method), map style, no params (ergo + // no defaults) + LLSD names(LLSDArray("free0_map")("smethod0_map")("method0_map")); + foreach(LLSD nm, inArray(names)) + { + LLSD metadata(getMetadata(nm)); + ensure_equals("name mismatch", metadata["name"], nm); + ensure_equals(metadata["desc"].asString(), descs[nm]); + ensure("should not have required", + (metadata["required"].isUndefined() || metadata["required"].size() == 0)); + ensure("should not have optional", metadata["optional"].isUndefined()); + } + } + + template<> template<> + void object::test<11>() + { + set_test_name("query map-style arbitrary-params functions/methods: " + "full array defaults vs. full map defaults"); + // With functions registered with no defaults ("_allreq" suffixes), + // there is of course no difference between array defaults and map + // defaults. (We don't even bother registering with LLSD::emptyArray() + // vs. LLSD::emptyMap().) With functions registered with all defaults, + // there should (!) be no difference beween array defaults and map + // defaults. Verify, so we can ignore the distinction for all other + // tests. + LLSD equivalences(LLSDArray + (LLSDArray("freena_map_adft")("freena_map_mdft")) + (LLSDArray("freenb_map_adft")("freenb_map_mdft")) + (LLSDArray("smethodna_map_adft")("smethodna_map_mdft")) + (LLSDArray("smethodnb_map_adft")("smethodnb_map_mdft")) + (LLSDArray("methodna_map_adft")("methodna_map_mdft")) + (LLSDArray("methodnb_map_adft")("methodnb_map_mdft"))); + foreach(LLSD eq, inArray(equivalences)) + { + LLSD adft(eq[0]); + LLSD mdft(eq[1]); + // We can't just compare the results of the two getMetadata() + // calls, because they contain ["name"], which are different. So + // capture them, verify that each ["name"] is as expected, then + // remove for comparing the rest. + LLSD ameta(getMetadata(adft)); + LLSD mmeta(getMetadata(mdft)); + ensure_equals("adft name", adft, ameta["name"]); + ensure_equals("mdft name", mdft, mmeta["name"]); + ameta.erase("name"); + mmeta.erase("name"); + ensure_equals(STRINGIZE("metadata for " << adft.asString() + << " vs. " << mdft.asString()), + ameta, mmeta); + } + } + + template<> template<> + void object::test<12>() + { + set_test_name("query map-style arbitrary-params functions/methods"); + // - (Free function | non-static method), map style, arbitrary params, + // (empty | full | partial (array | map)) defaults + + // Generate maps containing all parameter names for cases in which all + // params are required. Also maps containing left requirements for + // partial defaults arrays. Also defaults maps from defaults arrays. + LLSD allreq, leftreq, rightdft; + foreach(LLSD::String a, ab) + { + // The map in which all params are required uses params[a] as + // keys, with all isUndefined() as values. We can accomplish that + // by passing zipmap() an empty values array. + allreq[a] = zipmap(params[a], LLSD::emptyArray()); + // Same for leftreq, save that we use the subset of the params not + // supplied by dft_array_partial[a]. + LLSD::Integer partition(params[a].size() - dft_array_partial[a].size()); + leftreq[a] = zipmap(llsd_copy_array(params[a].beginArray(), + params[a].beginArray() + partition), + LLSD::emptyArray()); + // Generate map pairing dft_array_partial[a] values with their + // param names. + rightdft[a] = zipmap(llsd_copy_array(params[a].beginArray() + partition, + params[a].endArray()), + dft_array_partial[a]); + } + cout << "allreq:\n" << allreq << "\nleftreq:\n" << leftreq << "\nrightdft:\n" << rightdft << std::endl; + + // Generate maps containing parameter names not provided by the + // dft_map_partial maps. + LLSD skipreq(allreq); + foreach(LLSD::String a, ab) + { + foreach(const MapEntry& me, inMap(dft_map_partial[a])) + { + skipreq[a].erase(me.first); + } + } + cout << "skipreq:\n" << skipreq << std::endl; + + LLSD groups(LLSDArray // array of groups + + (LLSDArray // group + (LLSDArray("freena_map_allreq")("smethodna_map_allreq")("methodna_map_allreq")) + (LLSDArray(allreq["a"])(LLSD()))) // required, optional + + (LLSDArray // group + (LLSDArray("freenb_map_allreq")("smethodnb_map_allreq")("methodnb_map_allreq")) + (LLSDArray(allreq["b"])(LLSD()))) // required, optional + + (LLSDArray // group + (LLSDArray("freena_map_leftreq")("smethodna_map_leftreq")("methodna_map_leftreq")) + (LLSDArray(leftreq["a"])(rightdft["a"]))) // required, optional + + (LLSDArray // group + (LLSDArray("freenb_map_leftreq")("smethodnb_map_leftreq")("methodnb_map_leftreq")) + (LLSDArray(leftreq["b"])(rightdft["b"]))) // required, optional + + (LLSDArray // group + (LLSDArray("freena_map_skipreq")("smethodna_map_skipreq")("methodna_map_skipreq")) + (LLSDArray(skipreq["a"])(dft_map_partial["a"]))) // required, optional + + (LLSDArray // group + (LLSDArray("freenb_map_skipreq")("smethodnb_map_skipreq")("methodnb_map_skipreq")) + (LLSDArray(skipreq["b"])(dft_map_partial["b"]))) // required, optional + + // We only need mention the full-map-defaults ("_mdft" suffix) + // registrations, having established their equivalence with the + // full-array-defaults ("_adft" suffix) registrations in another test. + (LLSDArray // group + (LLSDArray("freena_map_mdft")("smethodna_map_mdft")("methodna_map_mdft")) + (LLSDArray(LLSD::emptyMap())(dft_map_full["a"]))) // required, optional + + (LLSDArray // group + (LLSDArray("freenb_map_mdft")("smethodnb_map_mdft")("methodnb_map_mdft")) + (LLSDArray(LLSD::emptyMap())(dft_map_full["b"])))); // required, optional + + foreach(LLSD grp, inArray(groups)) + { + // Internal structure of each group in 'groups': + LLSD names(grp[0]); + LLSD required(grp[1][0]); + LLSD optional(grp[1][1]); + cout << "For " << names << ",\n" << "required:\n" << required << "\noptional:\n" << optional << std::endl; + + // Loop through 'names' + foreach(LLSD nm, inArray(names)) + { + LLSD metadata(getMetadata(nm)); + ensure_equals("name mismatch", metadata["name"], nm); + ensure_equals(nm.asString(), metadata["desc"].asString(), descs[nm]); + ensure_equals(STRINGIZE(nm << " required mismatch"), + metadata["required"], required); + ensure_equals(STRINGIZE(nm << " optional mismatch"), + metadata["optional"], optional); + } + } + } + + template<> template<> + void object::test<13>() + { + set_test_name("try_call()"); + ensure("try_call(bogus name, LLSD()) returned true", ! work.try_call("freek", LLSD())); + ensure("try_call(bogus name) returned true", ! work.try_call(LLSDMap("op", "freek"))); + ensure("try_call(real name, LLSD()) returned false", work.try_call("free0_array", LLSD())); + ensure("try_call(real name) returned false", work.try_call(LLSDMap("op", "free0_map"))); + } + + template<> template<> + void object::test<14>() + { + set_test_name("call with bad name"); + call_exc("freek", LLSD(), "not found"); + // We don't have a comparable helper function for the one-arg + // operator() method, and it's not worth building one just for this + // case. Write it out. + std::string threw; + try + { + work(LLSDMap("op", "freek")); + } + catch (const std::runtime_error& e) + { + cout << "*** " << e.what() << "\n"; + threw = e.what(); + } + ensure_has(threw, "bad"); + ensure_has(threw, "op"); + ensure_has(threw, "freek"); + } + + template<> template<> + void object::test<15>() + { + set_test_name("call with event key"); + // We don't need a separate test for operator()(string, LLSD) with + // valid name, because all the rest of the tests exercise that case. + // The one we don't exercise elsewhere is operator()(LLSD) with valid + // name, so here it is. + work(LLSDMap("op", "free0_map")); + ensure_equals(g.i, 17); + } + + // Cannot be defined inside function body... remind me again why we use C++... :-P + struct CallablesTriple + { + std::string name, name_req; + LLSD& llsd; + }; + + template<> template<> + void object::test<16>() + { + set_test_name("call Callables"); + CallablesTriple tests[] = + { + { "free1", "free1_req", g.llsd }, + { "Dmethod1", "Dmethod1_req", work.llsd }, + { "Dcmethod1", "Dcmethod1_req", work.llsd }, + { "method1", "method1_req", v.llsd } + }; + // Arbitrary LLSD value that we should be able to pass to Callables + // without 'required', but should not be able to pass to Callables + // with 'required'. + LLSD answer(42); + // LLSD value matching 'required' according to llsd_matches() rules. + LLSD matching(LLSDMap("d", 3.14)("array", LLSDArray("answer")(true)(answer))); + // Okay, walk through 'tests'. + foreach(const CallablesTriple& tr, tests) + { + // Should be able to pass 'answer' to Callables registered + // without 'required'. + work(tr.name, answer); + ensure_equals("answer mismatch", tr.llsd, answer); + // Should NOT be able to pass 'answer' to Callables registered + // with 'required'. + call_exc(tr.name_req, answer, "bad request"); + // But SHOULD be able to pass 'matching' to Callables registered + // with 'required'. + work(tr.name_req, matching); + ensure_equals("matching mismatch", tr.llsd, matching); + } + } + + template<> template<> + void object::test<17>() + { + set_test_name("passing wrong args to (map | array)-style registrations"); + + // Pass scalar/map to array-style functions, scalar/array to map-style + // functions. As that validation happens well before we engage the + // argument magic, it seems pointless to repeat this with every + // variation: (free function | non-static method), (no | arbitrary) + // args. We should only need to engage it for one map-style + // registration and one array-style registration. + std::string array_exc("needs an args array"); + call_exc("free0_array", 17, array_exc); + call_exc("free0_array", LLSDMap("pi", 3.14), array_exc); + + std::string map_exc("needs a map"); + call_exc("free0_map", 17, map_exc); + // Passing an array to a map-style function works now! No longer an + // error case! +// call_exc("free0_map", LLSDArray("a")("b"), map_exc); + } + + template<> template<> + void object::test<18>() + { + set_test_name("call no-args functions"); + LLSD names(LLSDArray + ("free0_array")("free0_map") + ("smethod0_array")("smethod0_map") + ("method0_array")("method0_map")); + foreach(LLSD name, inArray(names)) + { + // Look up the Vars instance for this function. + Vars* vars(varsfor(name)); + // Both the global and stack Vars instances are automatically + // cleared at the start of each test<n> method. But since we're + // calling these things several different times in the same + // test<n> method, manually reset the Vars between each. + *vars = Vars(); + ensure_equals(vars->i, 0); + // call function with empty array (or LLSD(), should be equivalent) + work(name, LLSD()); + ensure_equals(vars->i, 17); + } + } + + // Break out this data because we use it in a couple different tests. + LLSD array_funcs(LLSDArray + (LLSDMap("a", "freena_array") ("b", "freenb_array")) + (LLSDMap("a", "smethodna_array")("b", "smethodnb_array")) + (LLSDMap("a", "methodna_array") ("b", "methodnb_array"))); + + template<> template<> + void object::test<19>() + { + set_test_name("call array-style functions with too-short arrays"); + // Could have two different too-short arrays, one for *na and one for + // *nb, but since they both take 5 params... + LLSD tooshort(LLSDArray("this")("array")("too")("short")); + foreach(const LLSD& funcsab, inArray(array_funcs)) + { + foreach(const llsd::MapEntry& e, inMap(funcsab)) + { + call_exc(e.second, tooshort, "requires more arguments"); + } + } + } + + template<> template<> + void object::test<20>() + { + set_test_name("call array-style functions with (just right | too long) arrays"); + std::vector<U8> binary; + for (size_t h(0x01), i(0); i < 5; h+= 0x22, ++i) + { + binary.push_back(h); + } + LLSD args(LLSDMap("a", LLSDArray(true)(17)(3.14)(123.456)("char*")) + ("b", LLSDArray("string") + (LLUUID("01234567-89ab-cdef-0123-456789abcdef")) + (LLDate("2011-02-03T15:07:00Z")) + (LLURI("http://secondlife.com")) + (binary))); + LLSD argsplus(args); + argsplus["a"].append("bogus"); + argsplus["b"].append("bogus"); + LLSD expect; + foreach(LLSD::String a, ab) + { + expect[a] = zipmap(params[a], args[a]); + } + // Adjust expect["a"]["cp"] for special Vars::cp treatment. + expect["a"]["cp"] = std::string("'") + expect["a"]["cp"].asString() + "'"; + cout << "expect: " << expect << '\n'; + + // Use substantially the same logic for args and argsplus + LLSD argsarrays(LLSDArray(args)(argsplus)); + // So i==0 selects 'args', i==1 selects argsplus + for (LLSD::Integer i(0), iend(argsarrays.size()); i < iend; ++i) + { + foreach(const LLSD& funcsab, inArray(array_funcs)) + { + foreach(LLSD::String a, ab) + { + // Reset the Vars instance before each call + Vars* vars(varsfor(funcsab[a])); + *vars = Vars(); + work(funcsab[a], argsarrays[i][a]); + ensure_llsd(STRINGIZE(funcsab[a].asString() << + ": expect[\"" << a << "\"] mismatch"), + vars->inspect(), expect[a], 7); // 7 bits ~= 2 decimal digits + + // TODO: in the i==1 or argsplus case, intercept LL_WARNS + // output? Even without that, using argsplus verifies that + // passing too many args isn't fatal; it works -- but + // would be nice to notice the warning too. + } + } + } + } + + template<> template<> + void object::test<21>() + { + set_test_name("verify that passing LLSD() to const char* sends NULL"); + + ensure_equals("Vars::cp init", v.cp, ""); + work("methodna_map_mdft", LLSDMap("cp", LLSD())); + ensure_equals("passing LLSD()", v.cp, "NULL"); + work("methodna_map_mdft", LLSDMap("cp", "")); + ensure_equals("passing \"\"", v.cp, "''"); + work("methodna_map_mdft", LLSDMap("cp", "non-NULL")); + ensure_equals("passing \"non-NULL\"", v.cp, "'non-NULL'"); + } + + template<> template<> + void object::test<22>() + { + set_test_name("call map-style functions with (full | oversized) (arrays | maps)"); + const char binary[] = "\x99\x88\x77\x66\x55"; + LLSD array_full(LLSDMap + ("a", LLSDArray(false)(255)(98.6)(1024.5)("pointer")) + ("b", LLSDArray("object")(LLUUID::generateNewID())(LLDate::now())(LLURI("http://wiki.lindenlab.com/wiki"))(LLSD::Binary(boost::begin(binary), boost::end(binary))))); + LLSD array_overfull(array_full); + foreach(LLSD::String a, ab) + { + array_overfull[a].append("bogus"); + } + cout << "array_full: " << array_full << "\narray_overfull: " << array_overfull << std::endl; + // We rather hope that LLDate::now() will generate a timestamp + // distinct from the one it generated in the constructor, moments ago. + ensure_not_equals("Timestamps too close", + array_full["b"][2].asDate(), dft_array_full["b"][2].asDate()); + // We /insist/ that LLUUID::generateNewID() do so. + ensure_not_equals("UUID collision", + array_full["b"][1].asUUID(), dft_array_full["b"][1].asUUID()); + LLSD map_full, map_overfull; + foreach(LLSD::String a, ab) + { + map_full[a] = zipmap(params[a], array_full[a]); + map_overfull[a] = map_full[a]; + map_overfull[a]["extra"] = "ignore"; + } + cout << "map_full: " << map_full << "\nmap_overfull: " << map_overfull << std::endl; + LLSD expect(map_full); + // Twiddle the const char* param. + expect["a"]["cp"] = std::string("'") + expect["a"]["cp"].asString() + "'"; + // Another adjustment. For each data type, we're trying to distinguish + // three values: the Vars member's initial value (member wasn't + // stored; control never reached the set function), the registered + // default param value from dft_array_full, and the array_full value + // in this test. But bool can only distinguish two values. In this + // case, we want to differentiate the local array_full value from the + // dft_array_full value, so we use 'false'. However, that means + // Vars::inspect() doesn't differentiate it from the initial value, + // so won't bother returning it. Predict that behavior to match the + // LLSD values. + expect["a"].erase("b"); + cout << "expect: " << expect << std::endl; + // For this test, calling functions registered with different sets of + // parameter defaults should make NO DIFFERENCE WHATSOEVER. Every call + // should pass all params. + LLSD names(LLSDMap + ("a", LLSDArray + ("freena_map_allreq") ("smethodna_map_allreq") ("methodna_map_allreq") + ("freena_map_leftreq")("smethodna_map_leftreq")("methodna_map_leftreq") + ("freena_map_skipreq")("smethodna_map_skipreq")("methodna_map_skipreq") + ("freena_map_adft") ("smethodna_map_adft") ("methodna_map_adft") + ("freena_map_mdft") ("smethodna_map_mdft") ("methodna_map_mdft")) + ("b", LLSDArray + ("freenb_map_allreq") ("smethodnb_map_allreq") ("methodnb_map_allreq") + ("freenb_map_leftreq")("smethodnb_map_leftreq")("methodnb_map_leftreq") + ("freenb_map_skipreq")("smethodnb_map_skipreq")("methodnb_map_skipreq") + ("freenb_map_adft") ("smethodnb_map_adft") ("methodnb_map_adft") + ("freenb_map_mdft") ("smethodnb_map_mdft") ("methodnb_map_mdft"))); + // Treat (full | overfull) (array | map) the same. + LLSD argssets(LLSDArray(array_full)(array_overfull)(map_full)(map_overfull)); + foreach(const LLSD& args, inArray(argssets)) + { + foreach(LLSD::String a, ab) + { + foreach(LLSD::String name, inArray(names[a])) + { + // Reset the Vars instance + Vars* vars(varsfor(name)); + *vars = Vars(); + work(name, args[a]); + ensure_llsd(STRINGIZE(name << ": expect[\"" << a << "\"] mismatch"), + vars->inspect(), expect[a], 7); // 7 bits, 2 decimal digits + // intercept LL_WARNS for the two overfull cases? + } + } + } + } +} // namespace tut |