diff options
Diffstat (limited to 'indra/llxuixml/llinitparam.h')
| -rw-r--r-- | indra/llxuixml/llinitparam.h | 1188 |
1 files changed, 618 insertions, 570 deletions
diff --git a/indra/llxuixml/llinitparam.h b/indra/llxuixml/llinitparam.h index 1f9045754a..35c889b69f 100644 --- a/indra/llxuixml/llinitparam.h +++ b/indra/llxuixml/llinitparam.h @@ -1,5 +1,5 @@ /** -f * @file llinitparam.h + * @file llinitparam.h * @brief parameter block abstraction for creating complex objects and * parsing construction parameters from xml and LLSD * @@ -29,18 +29,16 @@ f * @file llinitparam.h #define LL_LLPARAM_H #include <vector> - -#include <stddef.h> #include <boost/function.hpp> -#include <boost/bind.hpp> #include <boost/type_traits/is_convertible.hpp> #include <boost/unordered_map.hpp> -#include "llregistry.h" -#include "llmemory.h" +#include <boost/shared_ptr.hpp> +#include "llerror.h" namespace LLInitParam { + template<typename T> const T& defaultValue() { static T value; return value; } template <typename T, bool IS_BOOST_FUNCTION = boost::is_convertible<T, boost::function_base>::value > struct ParamCompare @@ -61,122 +59,119 @@ namespace LLInitParam } }; - // default constructor adaptor for InitParam Values - // constructs default instances of the given type, returned by const reference - template <typename T> - struct DefaultInitializer + template<> + struct ParamCompare<LLSD, false> { - typedef const T& T_const_ref; - // return reference to a single default instance of T - // built-in types will be initialized to zero, default constructor otherwise - static T_const_ref get() { static T t = T(); return t; } + static bool equals(const LLSD &a, const LLSD &b) { return false; } }; // helper functions and classes typedef ptrdiff_t param_handle_t; + // empty default implementation of key cache + // leverages empty base class optimization template <typename T> class TypeValues { public: - // empty default implemenation of key cache - class KeyCache + typedef std::map<std::string, T> value_name_map_t; + + void setValueName(const std::string& key) {} + std::string getValueName() const { return ""; } + void clearValueName() const {} + + static bool getValueFromName(const std::string& name, T& value) { - public: - void setKey(const std::string& key) {} - std::string getKey() const { return ""; } - void clearKey(){} - }; + return false; + } - static bool get(const std::string& name, T& value) + static bool valueNamesExist() { return false; } - static bool empty() + static std::vector<std::string>* getPossibleValues() { - return true; + return NULL; } - static std::vector<std::string>* getPossibleValues() { return NULL; } + static value_name_map_t* getValueNames() {return NULL;} }; template <typename T, typename DERIVED_TYPE = TypeValues<T> > class TypeValuesHelper - : public LLRegistrySingleton<std::string, T, DERIVED_TYPE > { - typedef LLRegistrySingleton<std::string, T, DERIVED_TYPE> super_t; - typedef LLSingleton<DERIVED_TYPE> singleton_t; public: + typedef typename std::map<std::string, T> value_name_map_t; //TODO: cache key by index to save on param block size - class KeyCache + void setValueName(const std::string& value_name) { - public: - void setKey(const std::string& key) - { - mKey = key; - } - - void clearKey() - { - mKey = ""; - } + mValueName = value_name; + } - std::string getKey() const - { - return mKey; - } + std::string getValueName() const + { + return mValueName; + } - private: - std::string mKey; - }; + void clearValueName() const + { + mValueName.clear(); + } - static bool get(const std::string& name, T& value) + static bool getValueFromName(const std::string& name, T& value) { - if (!singleton_t::instance().exists(name)) return false; + value_name_map_t* map = getValueNames(); + typename value_name_map_t::iterator found_it = map->find(name); + if (found_it == map->end()) return false; - value = *singleton_t::instance().getValue(name); + value = found_it->second; return true; } - static bool empty() + static bool valueNamesExist() { - return singleton_t::instance().LLRegistry<std::string, T>::empty(); + return !getValueNames()->empty(); } - //override this to add name value pairs - static void declareValues() {} - - void initSingleton() + static value_name_map_t* getValueNames() { - DERIVED_TYPE::declareValues(); - } + static value_name_map_t sMap; + static bool sInitialized = false; - static const std::vector<std::string>* getPossibleValues() - { - // in order to return a pointer to a member, we lazily - // evaluate the result and store it in mValues here - if (singleton_t::instance().mValues.empty()) + if (!sInitialized) { - typename super_t::Registrar::registry_map_t::const_iterator it; - for (it = super_t::defaultRegistrar().beginItems(); it != super_t::defaultRegistrar().endItems(); ++it) - { - singleton_t::instance().mValues.push_back(it->first); - } + sInitialized = true; + DERIVED_TYPE::declareValues(); } - return &singleton_t::instance().mValues; + return &sMap; } + static std::vector<std::string>* getPossibleValues() + { + static std::vector<std::string> sValues; + + value_name_map_t* map = getValueNames(); + for (typename value_name_map_t::iterator it = map->begin(), end_it = map->end(); + it != end_it; + ++it) + { + sValues.push_back(it->first); + } + return &sValues; + } - protected: static void declare(const std::string& name, const T& value) { - super_t::defaultRegistrar().add(name, value); + (*getValueNames())[name] = value; } - private: - std::vector<std::string> mValues; + protected: + static void getName(const std::string& name, const T& value) + {} + + mutable std::string mValueName; }; class Parser @@ -193,9 +188,9 @@ namespace LLInitParam } }; - typedef std::vector<std::pair<std::string, S32> > name_stack_t; + typedef std::vector<std::pair<std::string, S32> > name_stack_t; typedef std::pair<name_stack_t::const_iterator, name_stack_t::const_iterator> name_stack_range_t; - typedef std::vector<std::string> possible_values_t; + typedef std::vector<std::string> possible_values_t; typedef bool (*parser_read_func_t)(Parser& parser, void* output); typedef bool (*parser_write_func_t)(Parser& parser, const void*, const name_stack_t&); @@ -207,7 +202,7 @@ namespace LLInitParam Parser(parser_read_func_map_t& read_map, parser_write_func_map_t& write_map, parser_inspect_func_map_t& inspect_map) : mParseSilently(false), - mParseGeneration(0), + mParseGeneration(sNextParseGeneration), mParserReadFuncs(&read_map), mParserWriteFuncs(&write_map), mParserInspectFuncs(&inspect_map) @@ -252,7 +247,7 @@ namespace LLInitParam void setParseSilently(bool silent) { mParseSilently = silent; } S32 getParseGeneration() { return mParseGeneration; } - S32 newParseGeneration() { return ++mParseGeneration; } + S32 newParseGeneration() { return mParseGeneration = ++sNextParseGeneration; } protected: @@ -276,6 +271,8 @@ namespace LLInitParam parser_write_func_map_t* mParserWriteFuncs; parser_inspect_func_map_t* mParserInspectFuncs; S32 mParseGeneration; + + static S32 sNextParseGeneration; }; // used to indicate no matching value to a given name when parsing @@ -295,25 +292,31 @@ namespace LLInitParam Param(class BaseBlock* enclosing_block); // store pointer to enclosing block as offset to reduce space and allow for quick copying - BaseBlock& enclosingBlock() const + class BaseBlock& enclosingBlock() const { const U8* my_addr = reinterpret_cast<const U8*>(this); // get address of enclosing BLOCK class using stored offset to enclosing BaseBlock class - return *const_cast<BaseBlock*>( - reinterpret_cast<const BaseBlock*>(my_addr - (ptrdiff_t)(S32)mEnclosingBlockOffset)); + return *const_cast<class BaseBlock*> + (reinterpret_cast<const class BaseBlock*> + (my_addr - (ptrdiff_t)(S32)mEnclosingBlockOffset)); } private: friend class BaseBlock; - U16 mEnclosingBlockOffset; - bool mIsProvided; + U32 mEnclosingBlockOffset:31; + U32 mIsProvided:1; + }; // various callbacks and constraints associated with an individual param struct ParamDescriptor { - public: + struct UserData + { + virtual ~UserData() {} + }; + typedef bool(*merge_func_t)(Param&, const Param&, bool); typedef bool(*deserialize_func_t)(Param&, Parser&, const Parser::name_stack_range_t&, S32); typedef void(*serialize_func_t)(const Param&, Parser&, Parser::name_stack_t&, const Param* diff_param); @@ -321,40 +324,18 @@ namespace LLInitParam typedef bool(*validation_func_t)(const Param*); ParamDescriptor(param_handle_t p, - merge_func_t merge_func, - deserialize_func_t deserialize_func, - serialize_func_t serialize_func, - validation_func_t validation_func, - inspect_func_t inspect_func, - S32 min_count, - S32 max_count) - : mParamHandle(p), - mMergeFunc(merge_func), - mDeserializeFunc(deserialize_func), - mSerializeFunc(serialize_func), - mValidationFunc(validation_func), - mInspectFunc(inspect_func), - mMinCount(min_count), - mMaxCount(max_count), - mGeneration(0), - mNumRefs(0) - {} + merge_func_t merge_func, + deserialize_func_t deserialize_func, + serialize_func_t serialize_func, + validation_func_t validation_func, + inspect_func_t inspect_func, + S32 min_count, + S32 max_count); - ParamDescriptor() - : mParamHandle(0), - mMergeFunc(NULL), - mDeserializeFunc(NULL), - mSerializeFunc(NULL), - mValidationFunc(NULL), - mInspectFunc(NULL), - mMinCount(0), - mMaxCount(0), - mGeneration(0), - mNumRefs(0) - {} + ParamDescriptor(); + ~ParamDescriptor(); param_handle_t mParamHandle; - merge_func_t mMergeFunc; deserialize_func_t mDeserializeFunc; serialize_func_t mSerializeFunc; @@ -364,17 +345,16 @@ namespace LLInitParam S32 mMaxCount; S32 mGeneration; S32 mNumRefs; + UserData* mUserData; }; + typedef boost::shared_ptr<ParamDescriptor> ParamDescriptorPtr; + // each derived Block class keeps a static data structure maintaining offsets to various params class BlockDescriptor { public: - BlockDescriptor() - : mMaxParamOffset(0), - mInitializationState(UNINITIALIZED), - mCurrentBlockPtr(NULL) - {} + BlockDescriptor(); typedef enum e_initialization_state { @@ -385,12 +365,10 @@ namespace LLInitParam void aggregateBlockData(BlockDescriptor& src_block_data); - public: - typedef boost::unordered_map<const std::string, ParamDescriptor*> param_map_t; // references param descriptors stored in mAllParams - typedef std::vector<ParamDescriptor*> param_list_t; - - typedef std::list<ParamDescriptor> all_params_list_t;// references param descriptors stored in mAllParams - typedef std::vector<std::pair<param_handle_t, ParamDescriptor::validation_func_t> > param_validation_list_t; + typedef boost::unordered_map<const std::string, ParamDescriptorPtr> param_map_t; + typedef std::vector<ParamDescriptorPtr> param_list_t; + typedef std::list<ParamDescriptorPtr> all_params_list_t; + typedef std::vector<std::pair<param_handle_t, ParamDescriptor::validation_func_t> > param_validation_list_t; param_map_t mNamedParams; // parameters with associated names param_list_t mUnnamedParams; // parameters with_out_ associated names @@ -456,6 +434,7 @@ namespace LLInitParam Param* getParamFromHandle(const param_handle_t param_handle) { if (param_handle == 0) return NULL; + U8* baseblock_address = reinterpret_cast<U8*>(this); return reinterpret_cast<Param*>(baseblock_address + param_handle); } @@ -469,14 +448,13 @@ namespace LLInitParam void addSynonym(Param& param, const std::string& synonym); // Blocks can override this to do custom tracking of changes - virtual void setLastChangedParam(const Param& last_param, bool user_provided); + virtual void paramChanged(const Param& changed_param, bool user_provided); S32 getLastChangeVersion() const { return mChangeVersion; } - bool isDefault() const { return mChangeVersion == 0; } - bool deserializeBlock(Parser& p, Parser::name_stack_range_t name_stack); - bool serializeBlock(Parser& p, Parser::name_stack_t name_stack = Parser::name_stack_t(), const BaseBlock* diff_block = NULL) const; - bool inspectBlock(Parser& p, Parser::name_stack_t name_stack = Parser::name_stack_t()) const; + bool deserializeBlock(Parser& p, Parser::name_stack_range_t name_stack, S32 generation); + void serializeBlock(Parser& p, Parser::name_stack_t name_stack = Parser::name_stack_t(), const BaseBlock* diff_block = NULL) const; + bool inspectBlock(Parser& p, Parser::name_stack_t name_stack = Parser::name_stack_t(), S32 min_count = 0, S32 max_count = S32_MAX) const; virtual const BlockDescriptor& mostDerivedBlockDescriptor() const { return selfBlockDescriptor(); } virtual BlockDescriptor& mostDerivedBlockDescriptor() { return selfBlockDescriptor(); } @@ -493,13 +471,20 @@ namespace LLInitParam return false; } - static void addParam(BlockDescriptor& block_data, const ParamDescriptor& param, const char* name); + static void addParam(BlockDescriptor& block_data, ParamDescriptorPtr param, const char* name); + + ParamDescriptorPtr findParamDescriptor(const Param& param); + protected: void init(BlockDescriptor& descriptor, BlockDescriptor& base_descriptor, size_t block_size); + bool mergeBlockParam(bool param_provided, BlockDescriptor& block_data, const BaseBlock& other, bool overwrite) + { + return mergeBlock(block_data, other, overwrite); + } // take all provided params from other and apply to self - bool merge(BlockDescriptor& block_data, const BaseBlock& other, bool overwrite); + bool mergeBlock(BlockDescriptor& block_data, const BaseBlock& other, bool overwrite); // can be updated in getters mutable S32 mChangeVersion; @@ -512,63 +497,133 @@ namespace LLInitParam private: const std::string& getParamName(const BlockDescriptor& block_data, const Param* paramp) const; - ParamDescriptor* findParamDescriptor(param_handle_t handle); - }; - - - template<typename T> - struct ParamIterator - { - typedef typename std::vector<T>::const_iterator const_iterator; - typedef typename std::vector<T>::iterator iterator; }; // these templates allow us to distinguish between template parameters // that derive from BaseBlock and those that don't - // this is supposedly faster than boost::is_convertible and its ilk template<typename T, typename Void = void> - struct IsBaseBlock + struct IsBlock { static const bool value = false; }; template<typename T> - struct IsBaseBlock<T, typename T::baseblock_base_class_t> + struct IsBlock<T, typename T::baseblock_base_class_t> { static const bool value = true; }; + template<typename T, typename NAME_VALUE_LOOKUP, bool VALUE_IS_BLOCK = IsBlock<T>::value> + class ParamValue : public NAME_VALUE_LOOKUP + { + public: + typedef const T& value_assignment_t; + + ParamValue(): mValue() {} + ParamValue(const T& other) : mValue(other) {} + + void setValue(value_assignment_t val) + { + mValue = val; + } + + value_assignment_t getValue() const + { + return mValue; + } + + T& getValue() + { + return mValue; + } + + private: + T mValue; + }; + + template<typename T, typename NAME_VALUE_LOOKUP> + class ParamValue<T, NAME_VALUE_LOOKUP, true> + : public T, + public NAME_VALUE_LOOKUP + { + public: + typedef const T& value_assignment_t; + + S32 mKeyVersion; + mutable S32 mValidatedVersion; + mutable bool mValidated; // lazy validation flag + + ParamValue() + : T(), + mKeyVersion(0), + mValidatedVersion(-1), + mValidated(false) + {} + + ParamValue(const T& other) + : T(other), + mKeyVersion(0), + mValidatedVersion(-1), + mValidated(false) + { + } + + void setValue(value_assignment_t val) + { + *this = val; + } + + value_assignment_t getValue() const + { + return *this; + } + + T& getValue() + { + return *this; + } + }; + + template<typename T, typename NAME_VALUE_LOOKUP = TypeValues<T> > + struct ParamIterator + { + typedef typename std::vector<ParamValue<T, NAME_VALUE_LOOKUP> >::const_iterator const_iterator; + typedef typename std::vector<ParamValue<T, NAME_VALUE_LOOKUP> >::iterator iterator; + }; + // specialize for custom parsing/decomposition of specific classes // e.g. TypedParam<LLRect> has left, top, right, bottom, etc... template<typename T, typename NAME_VALUE_LOOKUP = TypeValues<T>, bool HAS_MULTIPLE_VALUES = false, - bool VALUE_IS_BLOCK = IsBaseBlock<T>::value> + bool VALUE_IS_BLOCK = IsBlock<ParamValue<T, NAME_VALUE_LOOKUP> >::value> class TypedParam - : public Param + : public Param, + public ParamValue<T, NAME_VALUE_LOOKUP> { public: - typedef const T& value_const_ref_t; - typedef value_const_ref_t value_assignment_t; - typedef typename NAME_VALUE_LOOKUP::KeyCache key_cache_t; + typedef const T& value_assignment_t; typedef TypedParam<T, NAME_VALUE_LOOKUP, HAS_MULTIPLE_VALUES, VALUE_IS_BLOCK> self_t; + typedef NAME_VALUE_LOOKUP name_value_lookup_t; + typedef ParamValue<T, NAME_VALUE_LOOKUP> param_value_t; TypedParam(BlockDescriptor& block_descriptor, const char* name, value_assignment_t value, ParamDescriptor::validation_func_t validate_func, S32 min_count, S32 max_count) : Param(block_descriptor.mCurrentBlockPtr) { if (LL_UNLIKELY(block_descriptor.mInitializationState == BlockDescriptor::INITIALIZING)) { - ParamDescriptor param_descriptor(block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), + ParamDescriptorPtr param_descriptor = ParamDescriptorPtr(new ParamDescriptor( + block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), &mergeWith, &deserializeParam, &serializeParam, validate_func, &inspectParam, - min_count, max_count); + min_count, max_count)); BaseBlock::addParam(block_descriptor, param_descriptor, name); } - mData.mValue = value; + setValue(value); } bool isProvided() const { return Param::anyProvided(); } @@ -579,27 +634,27 @@ namespace LLInitParam // no further names in stack, attempt to parse value now if (name_stack.first == name_stack.second) { - if (parser.readValue(typed_param.mData.mValue)) + if (parser.readValue(typed_param.getValue())) { - typed_param.mData.clearKey(); + typed_param.clearValueName(); typed_param.setProvided(true); - typed_param.enclosingBlock().setLastChangedParam(param, true); + typed_param.enclosingBlock().paramChanged(param, true); return true; } // try to parse a known named value - if(!NAME_VALUE_LOOKUP::empty()) + if(name_value_lookup_t::valueNamesExist()) { // try to parse a known named value std::string name; if (parser.readValue(name)) { // try to parse a per type named value - if (NAME_VALUE_LOOKUP::get(name, typed_param.mData.mValue)) + if (name_value_lookup_t::getValueFromName(name, typed_param.getValue())) { - typed_param.mData.setKey(name); + typed_param.setValueName(name); typed_param.setProvided(true); - typed_param.enclosingBlock().setLastChangedParam(param, true); + typed_param.enclosingBlock().paramChanged(param, true); return true; } @@ -619,13 +674,13 @@ namespace LLInitParam name_stack.back().second = parser.newParseGeneration(); } - std::string key = typed_param.mData.getKey(); + std::string key = typed_param.getValueName(); // first try to write out name of name/value pair if (!key.empty()) { - if (!diff_param || !ParamCompare<std::string>::equals(static_cast<const self_t*>(diff_param)->mData.getKey(), key)) + if (!diff_param || !ParamCompare<std::string>::equals(static_cast<const self_t*>(diff_param)->getValueName(), key)) { if (!parser.writeValue(key, name_stack)) { @@ -634,8 +689,9 @@ namespace LLInitParam } } // then try to serialize value directly - else if (!diff_param || !ParamCompare<T>::equals(typed_param.get(), static_cast<const self_t*>(diff_param)->get())) { - if (!parser.writeValue(typed_param.mData.mValue, name_stack)) + else if (!diff_param || !ParamCompare<T>::equals(typed_param.getValue(), static_cast<const self_t*>(diff_param)->getValue())) + { + if (!parser.writeValue(typed_param.getValue(), name_stack)) { return; } @@ -647,18 +703,18 @@ namespace LLInitParam // tell parser about our actual type parser.inspectValue<T>(name_stack, min_count, max_count, NULL); // then tell it about string-based alternatives ("red", "blue", etc. for LLColor4) - if (NAME_VALUE_LOOKUP::getPossibleValues()) + if (name_value_lookup_t::getPossibleValues()) { - parser.inspectValue<std::string>(name_stack, min_count, max_count, NAME_VALUE_LOOKUP::getPossibleValues()); + parser.inspectValue<std::string>(name_stack, min_count, max_count, name_value_lookup_t::getPossibleValues()); } } void set(value_assignment_t val, bool flag_as_provided = true) { - mData.mValue = val; - mData.clearKey(); + setValue(val); + param_value_t::clearValueName(); setProvided(flag_as_provided); - Param::enclosingBlock().setLastChangedParam(*this, flag_as_provided); + Param::enclosingBlock().paramChanged(*this, flag_as_provided); } void setIfNotProvided(value_assignment_t val, bool flag_as_provided = true) @@ -670,65 +726,56 @@ namespace LLInitParam } // implicit conversion - operator value_assignment_t() const { return get(); } + operator value_assignment_t() const { return param_value_t::getValue(); } // explicit conversion - value_assignment_t operator()() const { return get(); } + value_assignment_t operator()() const { return param_value_t::getValue(); } protected: - value_assignment_t get() const - { - return mData.mValue; - } static bool mergeWith(Param& dst, const Param& src, bool overwrite) { const self_t& src_typed_param = static_cast<const self_t&>(src); self_t& dst_typed_param = static_cast<self_t&>(dst); + if (src_typed_param.isProvided() && (overwrite || !dst_typed_param.isProvided())) { - dst_typed_param.mData.clearKey(); - dst_typed_param.set(src_typed_param.get()); + dst_typed_param.clearValueName(); + dst_typed_param.set(src_typed_param.getValue()); return true; } return false; } - - struct Data : public key_cache_t - { - T mValue; - }; - - Data mData; }; // parameter that is a block template <typename T, typename NAME_VALUE_LOOKUP> class TypedParam<T, NAME_VALUE_LOOKUP, false, true> - : public T, - public Param + : public Param, + public ParamValue<T, NAME_VALUE_LOOKUP> { public: typedef const T value_const_t; typedef T value_t; - typedef value_const_t& value_const_ref_t; - typedef value_const_ref_t value_assignment_t; - typedef typename NAME_VALUE_LOOKUP::KeyCache key_cache_t; + typedef value_const_t& value_assignment_t; typedef TypedParam<T, NAME_VALUE_LOOKUP, false, true> self_t; + typedef NAME_VALUE_LOOKUP name_value_lookup_t; + typedef ParamValue<T, NAME_VALUE_LOOKUP> param_value_t; TypedParam(BlockDescriptor& block_descriptor, const char* name, value_assignment_t value, ParamDescriptor::validation_func_t validate_func, S32 min_count, S32 max_count) : Param(block_descriptor.mCurrentBlockPtr), - T(value) + param_value_t(value) { if (LL_UNLIKELY(block_descriptor.mInitializationState == BlockDescriptor::INITIALIZING)) { - ParamDescriptor param_descriptor(block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), + ParamDescriptorPtr param_descriptor = ParamDescriptorPtr(new ParamDescriptor( + block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), &mergeWith, &deserializeParam, &serializeParam, validate_func, &inspectParam, - min_count, max_count); + min_count, max_count)); BaseBlock::addParam(block_descriptor, param_descriptor, name); } } @@ -737,25 +784,27 @@ namespace LLInitParam { self_t& typed_param = static_cast<self_t&>(param); // attempt to parse block... - if(typed_param.deserializeBlock(parser, name_stack)) + if(typed_param.deserializeBlock(parser, name_stack, generation)) { - typed_param.mData.clearKey(); - typed_param.enclosingBlock().setLastChangedParam(param, true); + typed_param.clearValueName(); + typed_param.enclosingBlock().paramChanged(param, true); + typed_param.setProvided(true); return true; } - if(!NAME_VALUE_LOOKUP::empty()) + if(name_value_lookup_t::valueNamesExist()) { // try to parse a known named value std::string name; if (parser.readValue(name)) { // try to parse a per type named value - if (NAME_VALUE_LOOKUP::get(name, typed_param)) + if (name_value_lookup_t::getValueFromName(name, typed_param.getValue())) { - typed_param.enclosingBlock().setLastChangedParam(param, true); - typed_param.mData.setKey(name); - typed_param.mData.mKeyVersion = typed_param.getLastChangeVersion(); + typed_param.enclosingBlock().paramChanged(param, true); + typed_param.setValueName(name); + typed_param.setProvided(true); + typed_param.mKeyVersion = typed_param.getLastChangeVersion(); return true; } @@ -767,13 +816,15 @@ namespace LLInitParam static void serializeParam(const Param& param, Parser& parser, Parser::name_stack_t& name_stack, const Param* diff_param) { const self_t& typed_param = static_cast<const self_t&>(param); + if (!typed_param.isProvided()) return; + if (!name_stack.empty()) { name_stack.back().second = parser.newParseGeneration(); } - std::string key = typed_param.mData.getKey(); - if (!key.empty() && typed_param.mData.mKeyVersion == typed_param.getLastChangeVersion()) + std::string key = typed_param.getValueName(); + if (!key.empty() && typed_param.mKeyVersion == typed_param.getLastChangeVersion()) { if (!parser.writeValue(key, name_stack)) { @@ -790,33 +841,33 @@ namespace LLInitParam { // I am a param that is also a block, so just recurse into my contents const self_t& typed_param = static_cast<const self_t&>(param); - typed_param.inspectBlock(parser, name_stack); + typed_param.inspectBlock(parser, name_stack, min_count, max_count); } // a param-that-is-a-block is provided when the user has set one of its child params // *and* the block as a whole validates bool isProvided() const { - // only validate block when it hasn't already passed validation and user has supplied *some* value - if (Param::anyProvided() && mData.mValidatedVersion < T::getLastChangeVersion()) + // only validate block when it hasn't already passed validation with current data + if (Param::anyProvided() && param_value_t::mValidatedVersion < param_value_t::getLastChangeVersion()) { // a sub-block is "provided" when it has been filled in enough to be valid - mData.mValidated = T::validateBlock(false); - mData.mValidatedVersion = T::getLastChangeVersion(); + param_value_t::mValidated = param_value_t::validateBlock(false); + param_value_t::mValidatedVersion = param_value_t::getLastChangeVersion(); } - return Param::anyProvided() && mData.mValidated; + return Param::anyProvided() && param_value_t::mValidated; } // assign block contents to this param-that-is-a-block void set(value_assignment_t val, bool flag_as_provided = true) { - value_t::operator=(val); - mData.clearKey(); + setValue(val); + param_value_t::clearValueName(); // force revalidation of block by clearing known provided version // next call to isProvided() will update provision status based on validity - mData.mValidatedVersion = 0; + param_value_t::mValidatedVersion = -1; setProvided(flag_as_provided); - Param::enclosingBlock().setLastChangedParam(*this, flag_as_provided); + Param::enclosingBlock().paramChanged(*this, flag_as_provided); } void setIfNotProvided(value_assignment_t val, bool flag_as_provided = true) @@ -828,10 +879,10 @@ namespace LLInitParam } // propagate changed status up to enclosing block - /*virtual*/ void setLastChangedParam(const Param& last_param, bool user_provided) + /*virtual*/ void paramChanged(const Param& changed_param, bool user_provided) { - T::setLastChangedParam(last_param, user_provided); - Param::enclosingBlock().setLastChangedParam(*this, user_provided); + ParamValue<T, NAME_VALUE_LOOKUP>::paramChanged(changed_param, user_provided); + Param::enclosingBlock().paramChanged(*this, user_provided); if (user_provided) { // a child param has been explicitly changed @@ -841,41 +892,30 @@ namespace LLInitParam } // implicit conversion - operator value_assignment_t() const { return get(); } + operator value_assignment_t() const { return param_value_t::getValue(); } // explicit conversion - value_assignment_t operator()() const { return get(); } + value_assignment_t operator()() const { return param_value_t::getValue(); } protected: - value_assignment_t get() const - { - return *this; - } static bool mergeWith(Param& dst, const Param& src, bool overwrite) { const self_t& src_typed_param = static_cast<const self_t&>(src); self_t& dst_typed_param = static_cast<self_t&>(dst); - if (dst_typed_param.T::merge(T::selfBlockDescriptor(), src_typed_param, overwrite)) + + if (src_typed_param.anyProvided()) { - dst_typed_param.mData.clearKey(); - return true; + bool param_provided = src_typed_param.isProvided() && (overwrite || !dst_typed_param.isProvided()); + if (dst_typed_param.mergeBlockParam(param_provided, param_value_t::selfBlockDescriptor(), src_typed_param, overwrite)) + { + dst_typed_param.clearValueName(); + dst_typed_param.setProvided(true); + dst_typed_param.enclosingBlock().paramChanged(dst_typed_param, true); + return true; + } } return false; } - - struct Data : public key_cache_t - { - S32 mKeyVersion; - mutable S32 mValidatedVersion; - mutable bool mValidated; // lazy validation flag - - Data() - : mKeyVersion(0), - mValidatedVersion(0), - mValidated(false) - {} - }; - Data mData; }; // container of non-block parameters @@ -885,29 +925,28 @@ namespace LLInitParam { public: typedef TypedParam<VALUE_TYPE, NAME_VALUE_LOOKUP, true, false> self_t; - typedef typename std::vector<VALUE_TYPE> container_t; + typedef ParamValue<VALUE_TYPE, NAME_VALUE_LOOKUP> param_value_t; + typedef typename std::vector<param_value_t> container_t; typedef const container_t& value_assignment_t; typedef VALUE_TYPE value_t; - typedef value_t& value_ref_t; - typedef const value_t& value_const_ref_t; + typedef NAME_VALUE_LOOKUP name_value_lookup_t; - typedef typename NAME_VALUE_LOOKUP::KeyCache key_cache_t; - TypedParam(BlockDescriptor& block_descriptor, const char* name, value_assignment_t value, ParamDescriptor::validation_func_t validate_func, S32 min_count, S32 max_count) - : Param(block_descriptor.mCurrentBlockPtr), - mValues(value) + : Param(block_descriptor.mCurrentBlockPtr) { - mCachedKeys.resize(mValues.size()); + std::copy(value.begin(), value.end(), std::back_inserter(mValues)); + if (LL_UNLIKELY(block_descriptor.mInitializationState == BlockDescriptor::INITIALIZING)) { - ParamDescriptor param_descriptor(block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), + ParamDescriptorPtr param_descriptor = ParamDescriptorPtr(new ParamDescriptor( + block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), &mergeWith, &deserializeParam, &serializeParam, validate_func, &inspectParam, - min_count, max_count); + min_count, max_count)); BaseBlock::addParam(block_descriptor, param_descriptor, name); } } @@ -924,29 +963,22 @@ namespace LLInitParam // attempt to read value directly if (parser.readValue(value)) { - typed_param.mValues.push_back(value); - // save an empty name/value key as a placeholder - typed_param.mCachedKeys.push_back(key_cache_t()); - typed_param.enclosingBlock().setLastChangedParam(param, true); - typed_param.setProvided(true); + typed_param.add(value); return true; } // try to parse a known named value - if(!NAME_VALUE_LOOKUP::empty()) + if(name_value_lookup_t::valueNamesExist()) { // try to parse a known named value std::string name; if (parser.readValue(name)) { // try to parse a per type named value - if (NAME_VALUE_LOOKUP::get(name, typed_param.mValues)) + if (name_value_lookup_t::getValueFromName(name, typed_param.mValues)) { - typed_param.mValues.push_back(value); - typed_param.mCachedKeys.push_back(key_cache_t()); - typed_param.mCachedKeys.back().setKey(name); - typed_param.enclosingBlock().setLastChangedParam(param, true); - typed_param.setProvided(true); + typed_param.add(value); + typed_param.mValues.back().setValueName(name); return true; } @@ -961,25 +993,27 @@ namespace LLInitParam const self_t& typed_param = static_cast<const self_t&>(param); if (!typed_param.isProvided() || name_stack.empty()) return; - const_iterator it = typed_param.mValues.begin(); - for (typename std::vector<key_cache_t>::const_iterator key_it = typed_param.mCachedKeys.begin(); - it != typed_param.mValues.end(); - ++key_it, ++it) + for (const_iterator it = typed_param.mValues.begin(), end_it = typed_param.mValues.end(); + it != end_it; + ++it) { - std::string key = key_it->get(); + std::string key = it->getValue(); name_stack.back().second = parser.newParseGeneration(); - if(!key.empty()) + if(key.empty()) + // not parsed via name values, write out value directly { - if(!parser.writeValue(key, name_stack)) + if (!parser.writeValue(*it, name_stack)) { - return; + break; } } - // not parse via name values, write out value directly - else if (!parser.writeValue(*it, name_stack)) + else { - return; + if(!parser.writeValue(key, name_stack)) + { + break; + } } } } @@ -987,19 +1021,17 @@ namespace LLInitParam static void inspectParam(const Param& param, Parser& parser, Parser::name_stack_t& name_stack, S32 min_count, S32 max_count) { parser.inspectValue<VALUE_TYPE>(name_stack, min_count, max_count, NULL); - if (NAME_VALUE_LOOKUP::getPossibleValues()) + if (name_value_lookup_t::getPossibleValues()) { - parser.inspectValue<std::string>(name_stack, min_count, max_count, NAME_VALUE_LOOKUP::getPossibleValues()); + parser.inspectValue<std::string>(name_stack, min_count, max_count, name_value_lookup_t::getPossibleValues()); } } void set(value_assignment_t val, bool flag_as_provided = true) { mValues = val; - mCachedKeys.clear(); - mCachedKeys.resize(mValues.size()); setProvided(flag_as_provided); - Param::enclosingBlock().setLastChangedParam(*this, flag_as_provided); + Param::enclosingBlock().paramChanged(*this, flag_as_provided); } @@ -1011,23 +1043,23 @@ namespace LLInitParam } } - value_ref_t add() + value_t& add() { - mValues.push_back(value_t()); - mCachedKeys.push_back(key_cache_t()); + mValues.push_back(param_value_t(value_t())); setProvided(true); + Param::enclosingBlock().paramChanged(*this, true); return mValues.back(); } - void add(value_const_ref_t item) + void add(const value_t& item) { - mValues.push_back(item); - mCachedKeys.push_back(key_cache_t()); + mValues.push_back(param_value_t(item)); setProvided(true); + Param::enclosingBlock().paramChanged(*this, true); } // implicit conversion - operator value_assignment_t() const { return self_t::get(); } + operator value_assignment_t() const { return mValues; } typedef typename container_t::iterator iterator; typedef typename container_t::const_iterator const_iterator; @@ -1044,27 +1076,31 @@ namespace LLInitParam } protected: - value_assignment_t get() const - { - return mValues; - } - static bool mergeWith(Param& dst, const Param& src, bool overwrite) { const self_t& src_typed_param = static_cast<const self_t&>(src); self_t& dst_typed_param = static_cast<self_t&>(dst); - if (src_typed_param.isProvided() - && (overwrite || !dst_typed_param.isProvided())) + if (overwrite) { - dst_typed_param.set(src_typed_param.get()); - return true; + std::copy(src_typed_param.begin(), src_typed_param.end(), std::back_inserter(dst_typed_param.mValues)); } - return false; + else + { + container_t new_values(src_typed_param.mValues); + std::copy(dst_typed_param.begin(), dst_typed_param.end(), std::back_inserter(new_values)); + std::swap(dst_typed_param.mValues, new_values); + } + + if (src_typed_param.begin() != src_typed_param.end()) + { + dst_typed_param.setProvided(true); + dst_typed_param.enclosingBlock().paramChanged(dst_typed_param, true); + } + return true; } container_t mValues; - std::vector<key_cache_t> mCachedKeys; }; // container of block parameters @@ -1074,80 +1110,76 @@ namespace LLInitParam { public: typedef TypedParam<VALUE_TYPE, NAME_VALUE_LOOKUP, true, true> self_t; - typedef typename std::vector<VALUE_TYPE> container_t; + typedef ParamValue<VALUE_TYPE, NAME_VALUE_LOOKUP> param_value_t; + typedef typename std::vector<param_value_t> container_t; typedef const container_t& value_assignment_t; - typedef VALUE_TYPE value_t; - typedef value_t& value_ref_t; - typedef const value_t& value_const_ref_t; - - typedef typename NAME_VALUE_LOOKUP::KeyCache key_cache_t; + typedef NAME_VALUE_LOOKUP name_value_lookup_t; TypedParam(BlockDescriptor& block_descriptor, const char* name, value_assignment_t value, ParamDescriptor::validation_func_t validate_func, S32 min_count, S32 max_count) : Param(block_descriptor.mCurrentBlockPtr), - mValues(value), - mLastParamGeneration(0) + mLastParseGeneration(0) { - mCachedKeys.resize(mValues.size()); + std::copy(value.begin(), value.end(), back_inserter(mValues)); + if (LL_UNLIKELY(block_descriptor.mInitializationState == BlockDescriptor::INITIALIZING)) { - ParamDescriptor param_descriptor(block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), + ParamDescriptorPtr param_descriptor = ParamDescriptorPtr(new ParamDescriptor( + block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), &mergeWith, &deserializeParam, &serializeParam, validate_func, &inspectParam, - min_count, max_count); + min_count, max_count)); BaseBlock::addParam(block_descriptor, param_descriptor, name); } } bool isProvided() const { return Param::anyProvided(); } - value_ref_t operator[](S32 index) { return mValues[index]; } - value_const_ref_t operator[](S32 index) const { return mValues[index]; } - static bool deserializeParam(Param& param, Parser& parser, const Parser::name_stack_range_t& name_stack, S32 generation) { self_t& typed_param = static_cast<self_t&>(param); bool new_value = false; - if (generation != typed_param.mLastParamGeneration || typed_param.mValues.empty()) + + if (generation != typed_param.mLastParseGeneration + || typed_param.mValues.empty()) { new_value = true; typed_param.mValues.push_back(value_t()); - typed_param.mCachedKeys.push_back(Data()); } - value_ref_t value = typed_param.mValues.back(); + param_value_t& value = typed_param.mValues.back(); // attempt to parse block... - if(value.deserializeBlock(parser, name_stack)) + if(value.deserializeBlock(parser, name_stack, generation)) { if (new_value) { // successfully parsed new value, let's keep it - typed_param.mLastParamGeneration = generation; + typed_param.mLastParseGeneration = generation; } - typed_param.enclosingBlock().setLastChangedParam(param, true); + typed_param.enclosingBlock().paramChanged(param, true); typed_param.setProvided(true); return true; } - else if(!NAME_VALUE_LOOKUP::empty()) + else if(name_value_lookup_t::valueNamesExist()) { // try to parse a known named value std::string name; if (parser.readValue(name)) { // try to parse a per type named value - if (NAME_VALUE_LOOKUP::get(name, value)) + if (name_value_lookup_t::getValueFromName(name, value.getValue())) { if (new_value) { // successfully parsed new value, let's keep it - typed_param.mLastParamGeneration = generation; + typed_param.mLastParseGeneration = generation; } - typed_param.mCachedKeys.back().setKey(name); - typed_param.mCachedKeys.back().mKeyVersion = value.getLastChangeVersion(); - typed_param.enclosingBlock().setLastChangedParam(param, true); + typed_param.mValues.back().setValueName(name); + typed_param.mValues.back().mKeyVersion = value.getLastChangeVersion(); + typed_param.enclosingBlock().paramChanged(param, true); typed_param.setProvided(true); return true; } @@ -1158,7 +1190,6 @@ namespace LLInitParam if (new_value) { // failed to parse new value, pop it off typed_param.mValues.pop_back(); - typed_param.mCachedKeys.pop_back(); } return false; @@ -1169,26 +1200,22 @@ namespace LLInitParam const self_t& typed_param = static_cast<const self_t&>(param); if (!typed_param.isProvided() || name_stack.empty()) return; - const_iterator it = typed_param.mValues.begin(); - for (typename std::vector<Data>::const_iterator key_it = typed_param.mCachedKeys.begin(); - it != typed_param.mValues.end(); - ++key_it, ++it) + for (const_iterator it = typed_param.mValues.begin(), end_it = typed_param.mValues.end(); + it != end_it; + ++it) { name_stack.back().second = parser.newParseGeneration(); - std::string key = key_it->getKey(); - if (!key.empty() && key_it->mKeyVersion == it->getLastChangeVersion()) + std::string key = it->getValueName(); + if (!key.empty() && it->mKeyVersion == it->getLastChangeVersion()) { - if(!parser.writeValue(key, name_stack)) - { - return; - } + parser.writeValue(key, name_stack); } // Not parsed via named values, write out value directly // NOTE: currently we don't worry about removing default values in Multiple - else if (!it->serializeBlock(parser, name_stack, NULL)) + else { - return; + it->serializeBlock(parser, name_stack, NULL); } } } @@ -1196,16 +1223,14 @@ namespace LLInitParam static void inspectParam(const Param& param, Parser& parser, Parser::name_stack_t& name_stack, S32 min_count, S32 max_count) { // I am a vector of blocks, so describe my contents recursively - value_t().inspectBlock(parser, name_stack); + param_value_t(value_t()).inspectBlock(parser, name_stack, min_count, max_count); } void set(value_assignment_t val, bool flag_as_provided = true) { mValues = val; - mCachedKeys.clear(); - mCachedKeys.resize(mValues.size()); setProvided(flag_as_provided); - Param::enclosingBlock().setLastChangedParam(*this, flag_as_provided); + Param::enclosingBlock().paramChanged(*this, flag_as_provided); } void setIfNotProvided(value_assignment_t val, bool flag_as_provided = true) @@ -1216,23 +1241,23 @@ namespace LLInitParam } } - value_ref_t add() + value_t& add() { mValues.push_back(value_t()); - mCachedKeys.push_back(Data()); setProvided(true); + Param::enclosingBlock().paramChanged(*this, true); return mValues.back(); } - void add(value_const_ref_t item) + void add(const value_t& item) { mValues.push_back(item); - mCachedKeys.push_back(Data()); setProvided(true); + Param::enclosingBlock().paramChanged(*this, true); } // implicit conversion - operator value_assignment_t() const { return self_t::get(); } + operator value_assignment_t() const { return mValues; } typedef typename container_t::iterator iterator; typedef typename container_t::const_iterator const_iterator; @@ -1246,8 +1271,8 @@ namespace LLInitParam U32 numValidElements() const { U32 count = 0; - for (const_iterator it = mValues.begin(); - it != mValues.end(); + for (const_iterator it = mValues.begin(), end_it = mValues.end(); + it != end_it; ++it) { if(it->validateBlock(false)) count++; @@ -1256,74 +1281,77 @@ namespace LLInitParam } protected: - value_assignment_t get() const - { - return mValues; - } static bool mergeWith(Param& dst, const Param& src, bool overwrite) { const self_t& src_typed_param = static_cast<const self_t&>(src); self_t& dst_typed_param = static_cast<self_t&>(dst); - if (src_typed_param.isProvided() - && (overwrite || !dst_typed_param.isProvided())) + if (overwrite) { - dst_typed_param.set(src_typed_param.get()); - return true; + std::copy(src_typed_param.begin(), src_typed_param.end(), std::back_inserter(dst_typed_param.mValues)); + } + else + { + container_t new_values(src_typed_param.mValues); + std::copy(dst_typed_param.begin(), dst_typed_param.end(), std::back_inserter(new_values)); + std::swap(dst_typed_param.mValues, new_values); } - return false; - } - struct Data : public key_cache_t - { - S32 mKeyVersion; // version of block for which key was last valid + if (src_typed_param.begin() != src_typed_param.end()) + { + dst_typed_param.setProvided(true); + dst_typed_param.enclosingBlock().paramChanged(dst_typed_param, true); + } - Data() : mKeyVersion(0) {} - }; + return true; + } container_t mValues; - std::vector<Data> mCachedKeys; - S32 mLastParamGeneration; + S32 mLastParseGeneration; }; template <typename DERIVED_BLOCK> class Choice : public BaseBlock { - typedef Choice<DERIVED_BLOCK> self_t; - typedef Choice<DERIVED_BLOCK> enclosing_block_t; + typedef Choice<DERIVED_BLOCK> self_t; + typedef Choice<DERIVED_BLOCK> enclosing_block_t; LOG_CLASS(self_t); public: // take all provided params from other and apply to self bool overwriteFrom(const self_t& other) { - return merge(selfBlockDescriptor(), other, true); + return mergeBlock(selfBlockDescriptor(), other, true); } // take all provided params that are not already provided, and apply to self bool fillFrom(const self_t& other) { - return merge(selfBlockDescriptor(), other, false); + return mergeBlock(selfBlockDescriptor(), other, false); } - // merge with other block - bool merge(BlockDescriptor& block_data, const self_t& other, bool overwrite) + bool mergeBlockParam(bool param_provided, BlockDescriptor& block_data, const self_t& other, bool overwrite) { - // only merge a choice if we are overwriting with other's contents - if (overwrite) + if (param_provided) { - mCurChoice = other.mCurChoice; - return BaseBlock::merge(selfBlockDescriptor(), other, overwrite); + return mergeBlock(block_data, other, overwrite); } return false; } + // merge with other block + bool mergeBlock(BlockDescriptor& block_data, const self_t& other, bool overwrite) + { + mCurChoice = other.mCurChoice; + return BaseBlock::mergeBlock(selfBlockDescriptor(), other, overwrite); + } + // clear out old choice when param has changed - /*virtual*/ void setLastChangedParam(const Param& last_param, bool user_provided) + /*virtual*/ void paramChanged(const Param& changed_param, bool user_provided) { - param_handle_t changed_param_handle = BaseBlock::getHandleFromParam(&last_param); + param_handle_t changed_param_handle = BaseBlock::getHandleFromParam(&changed_param); // if we have a new choice... if (changed_param_handle != mCurChoice) { @@ -1335,7 +1363,7 @@ namespace LLInitParam } mCurChoice = changed_param_handle; } - BaseBlock::setLastChangedParam(last_param, user_provided); + BaseBlock::paramChanged(changed_param, user_provided); } virtual const BlockDescriptor& mostDerivedBlockDescriptor() const { return selfBlockDescriptor(); } @@ -1358,20 +1386,21 @@ namespace LLInitParam friend class Choice<DERIVED_BLOCK>; typedef Alternative<T, NAME_VALUE_LOOKUP> self_t; - typedef TypedParam<T, NAME_VALUE_LOOKUP, false, IsBaseBlock<T>::value> super_t; + typedef TypedParam<T, NAME_VALUE_LOOKUP, false, IsBlock<ParamValue<T, NAME_VALUE_LOOKUP> >::value> super_t; typedef typename super_t::value_assignment_t value_assignment_t; - explicit Alternative(const char* name, value_assignment_t val = DefaultInitializer<T>::get()) + explicit Alternative(const char* name, value_assignment_t val = defaultValue<T>()) : super_t(DERIVED_BLOCK::selfBlockDescriptor(), name, val, NULL, 0, 1), mOriginalValue(val) { // assign initial choice to first declared option DERIVED_BLOCK* blockp = ((DERIVED_BLOCK*)DERIVED_BLOCK::selfBlockDescriptor().mCurrentBlockPtr); - if (LL_UNLIKELY( - DERIVED_BLOCK::selfBlockDescriptor().mInitializationState == BlockDescriptor::INITIALIZING - && blockp->mCurChoice == 0)) + if (LL_UNLIKELY(DERIVED_BLOCK::selfBlockDescriptor().mInitializationState == BlockDescriptor::INITIALIZING)) { - blockp->mCurChoice = Param::enclosingBlock().getHandleFromParam(this); + if(blockp->mCurChoice == 0) + { + blockp->mCurChoice = Param::enclosingBlock().getHandleFromParam(this); + } } } @@ -1390,7 +1419,7 @@ namespace LLInitParam { if (static_cast<enclosing_block_t&>(Param::enclosingBlock()).getCurrentChoice() == this) { - return super_t::get(); + return super_t::getValue(); } return mOriginalValue; } @@ -1399,7 +1428,7 @@ namespace LLInitParam { if (static_cast<enclosing_block_t&>(Param::enclosingBlock()).getCurrentChoice() == this) { - return super_t::get(); + return super_t::getValue(); } return mOriginalValue; } @@ -1433,8 +1462,8 @@ namespace LLInitParam class Block : public BASE_BLOCK { - typedef Block<DERIVED_BLOCK, BASE_BLOCK> self_t; - typedef Block<DERIVED_BLOCK, BASE_BLOCK> block_t; + typedef Block<DERIVED_BLOCK, BASE_BLOCK> self_t; + typedef Block<DERIVED_BLOCK, BASE_BLOCK> block_t; public: typedef BASE_BLOCK base_block_t; @@ -1442,13 +1471,13 @@ namespace LLInitParam // take all provided params from other and apply to self bool overwriteFrom(const self_t& other) { - return BaseBlock::merge(selfBlockDescriptor(), other, true); + return static_cast<DERIVED_BLOCK*>(this)->mergeBlock(selfBlockDescriptor(), other, true); } // take all provided params that are not already provided, and apply to self bool fillFrom(const self_t& other) { - return BaseBlock::merge(selfBlockDescriptor(), other, false); + return static_cast<DERIVED_BLOCK*>(this)->mergeBlock(selfBlockDescriptor(), other, false); } virtual const BlockDescriptor& mostDerivedBlockDescriptor() const { return selfBlockDescriptor(); } @@ -1468,10 +1497,10 @@ namespace LLInitParam class Optional : public TypedParam<T, NAME_VALUE_LOOKUP, false> { public: - typedef TypedParam<T, NAME_VALUE_LOOKUP, false, IsBaseBlock<T>::value> super_t; + typedef TypedParam<T, NAME_VALUE_LOOKUP, false, IsBlock<ParamValue<T, NAME_VALUE_LOOKUP> >::value> super_t; typedef typename super_t::value_assignment_t value_assignment_t; - explicit Optional(const char* name = "", value_assignment_t val = DefaultInitializer<T>::get()) + explicit Optional(const char* name = "", value_assignment_t val = defaultValue<T>()) : super_t(DERIVED_BLOCK::selfBlockDescriptor(), name, val, NULL, 0, 1) { //#pragma message("Parsing LLInitParam::Block::Optional") @@ -1483,7 +1512,7 @@ namespace LLInitParam return *this; } - DERIVED_BLOCK& operator()(typename super_t::value_assignment_t val) + DERIVED_BLOCK& operator()(value_assignment_t val) { super_t::set(val); return static_cast<DERIVED_BLOCK&>(Param::enclosingBlock()); @@ -1495,12 +1524,12 @@ namespace LLInitParam class Mandatory : public TypedParam<T, NAME_VALUE_LOOKUP, false> { public: - typedef TypedParam<T, NAME_VALUE_LOOKUP, false, IsBaseBlock<T>::value> super_t; + typedef TypedParam<T, NAME_VALUE_LOOKUP, false, IsBlock<ParamValue<T, NAME_VALUE_LOOKUP> >::value> super_t; typedef Mandatory<T, NAME_VALUE_LOOKUP> self_t; typedef typename super_t::value_assignment_t value_assignment_t; // mandatory parameters require a name to be parseable - explicit Mandatory(const char* name = "", value_assignment_t val = DefaultInitializer<T>::get()) + explicit Mandatory(const char* name = "", value_assignment_t val = defaultValue<T>()) : super_t(DERIVED_BLOCK::selfBlockDescriptor(), name, val, &validate, 1, 1) {} @@ -1529,15 +1558,15 @@ namespace LLInitParam class Multiple : public TypedParam<T, NAME_VALUE_LOOKUP, true> { public: - typedef TypedParam<T, NAME_VALUE_LOOKUP, true, IsBaseBlock<T>::value> super_t; + typedef TypedParam<T, NAME_VALUE_LOOKUP, true, IsBlock<ParamValue<T, NAME_VALUE_LOOKUP> >::value> super_t; typedef Multiple<T, RANGE, NAME_VALUE_LOOKUP> self_t; typedef typename super_t::container_t container_t; typedef typename super_t::value_assignment_t value_assignment_t; typedef typename super_t::iterator iterator; typedef typename super_t::const_iterator const_iterator; - explicit Multiple(const char* name = "", value_assignment_t val = DefaultInitializer<container_t>::get()) - : super_t(DERIVED_BLOCK::selfBlockDescriptor(), name, val, &validate, RANGE::minCount(), RANGE::maxCount()) + explicit Multiple(const char* name = "") + : super_t(DERIVED_BLOCK::selfBlockDescriptor(), name, container_t(), &validate, RANGE::minCount(), RANGE::maxCount()) {} Multiple& operator=(value_assignment_t val) @@ -1545,7 +1574,7 @@ namespace LLInitParam set(val); return *this; } - + DERIVED_BLOCK& operator()(typename super_t::value_assignment_t val) { super_t::set(val); @@ -1559,6 +1588,96 @@ namespace LLInitParam } }; + template <typename T, typename RANGE = BaseBlock::AnyAmount, typename NAME_VALUE_LOOKUP = TypeValues<T> > + class Batch : private TypedParam<T, NAME_VALUE_LOOKUP, false> + { + public: + typedef ParamValue<T, NAME_VALUE_LOOKUP> param_value_t; + typedef TypedParam<T, NAME_VALUE_LOOKUP, false, IsBlock<param_value_t>::value> super_t; + typedef Batch<T, RANGE, NAME_VALUE_LOOKUP> self_t; + typedef typename super_t::value_assignment_t value_assignment_t; + typedef typename super_t::value_t value_t; + + struct BatchDefaultValue : public ParamDescriptor::UserData + { + BatchDefaultValue(const T& value) + : mValue(value) + {} + + T mValue; + }; + + explicit Batch(const char* name, value_assignment_t val) + : super_t(DERIVED_BLOCK::selfBlockDescriptor(), name, val, NULL, 0, 1), + mLastParseGeneration(-1) + { + BlockDescriptor& block_descriptor = DERIVED_BLOCK::selfBlockDescriptor(); + if (LL_UNLIKELY(block_descriptor.mInitializationState == BlockDescriptor::INITIALIZING)) + { + ParamDescriptorPtr param_descriptorp = block_descriptor.mCurrentBlockPtr->findParamDescriptor(*this); + + if (param_descriptorp) + { + param_descriptorp->mDeserializeFunc = &deserializeParam; + param_descriptorp->mUserData = new BatchDefaultValue(new param_value_t(val)); + } + } + } + + explicit Batch(const char* name = "") + : super_t(DERIVED_BLOCK::selfBlockDescriptor(), name, defaultValue<T>(), NULL, 0, 1), + mLastParseGeneration(-1) + { + BlockDescriptor& block_descriptor = DERIVED_BLOCK::selfBlockDescriptor(); + if (LL_UNLIKELY(block_descriptor.mInitializationState == BlockDescriptor::INITIALIZING)) + { + ParamDescriptorPtr param_descriptorp = block_descriptor.mCurrentBlockPtr->findParamDescriptor(*this); + + if (param_descriptorp) + { + param_descriptorp->mDeserializeFunc = &deserializeParam; + } + } + } + + Batch& operator=(value_assignment_t val) + { + set(val); + return *this; + } + + DERIVED_BLOCK& operator()(value_assignment_t val) + { + super_t::set(val); + return static_cast<DERIVED_BLOCK&>(Param::enclosingBlock()); + } + + using super_t::operator(); + + private: + static bool deserializeParam(Param& param, Parser& parser, const Parser::name_stack_range_t& name_stack, S32 generation) + { + self_t& typed_param = static_cast<self_t&>(param); + + if (generation != typed_param.mLastParseGeneration) + { + ParamDescriptorPtr descriptor = typed_param.enclosingBlock().findParamDescriptor(param); + if (descriptor && static_cast<BatchDefaultValue*>(descriptor->mUserData)) + { + static_cast<param_value_t&>(typed_param) = (static_cast<BatchDefaultValue*>(descriptor->mUserData))->mValue; + } + else + { + static_cast<param_value_t&>(typed_param) = param_value_t(value_t()); + } + typed_param.mLastParseGeneration = generation; + } + return super_t::deserializeParam(param, parser, name_stack, generation); + } + + S32 mLastParseGeneration; + }; + class Deprecated : public Param { public: @@ -1568,13 +1687,14 @@ namespace LLInitParam BlockDescriptor& block_descriptor = DERIVED_BLOCK::selfBlockDescriptor(); if (LL_UNLIKELY(block_descriptor.mInitializationState == BlockDescriptor::INITIALIZING)) { - ParamDescriptor param_descriptor(block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), + ParamDescriptorPtr param_descriptor = ParamDescriptorPtr(new ParamDescriptor( + block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), NULL, &deserializeParam, NULL, NULL, NULL, - 0, S32_MAX); + 0, S32_MAX)); BaseBlock::addParam(block_descriptor, param_descriptor, name); } } @@ -1602,137 +1722,91 @@ namespace LLInitParam } }; - template<typename T, typename DERIVED = TypedParam<T> > - class BlockValue - : public Block<TypedParam<T, TypeValues<T>, false> >, - public Param + template<typename T> + class CustomParamValue + : public Block<ParamValue<T, TypeValues<T> > >, + public TypeValues<T> { public: typedef enum e_value_age { - OLDER_THAN_BLOCK, // mData.mValue needs to be refreshed from the block parameters - NEWER_THAN_BLOCK, // mData.mValue holds the authoritative value (which has been replicated to the block parameters via setBlockFromValue) - SAME_AS_BLOCK // mData.mValue is derived from the block parameters, which are authoritative + VALUE_NEEDS_UPDATE, // mValue needs to be refreshed from the block parameters + VALUE_AUTHORITATIVE, // mValue holds the authoritative value (which has been replicated to the block parameters via updateBlockFromValue) + BLOCK_AUTHORITATIVE // mValue is derived from the block parameters, which are authoritative } EValueAge; - typedef BlockValue<T> self_t; - typedef Block<TypedParam<T, TypeValues<T>, false> > block_t; - typedef const T& value_const_ref_t; - typedef value_const_ref_t value_assignment_t; - typedef typename TypeValues<T>::KeyCache key_cache_t; - - BlockValue(BlockDescriptor& block_descriptor, const char* name, value_assignment_t value, ParamDescriptor::validation_func_t validate_func, S32 min_count, S32 max_count) - : Param(block_descriptor.mCurrentBlockPtr), - mData(value, NEWER_THAN_BLOCK) - { - if (LL_UNLIKELY(block_descriptor.mInitializationState == BlockDescriptor::INITIALIZING)) - { - ParamDescriptor param_descriptor(block_descriptor.mCurrentBlockPtr->getHandleFromParam(this), - &mergeWith, - &deserializeParam, - &serializeParam, - validate_func, - &inspectParam, - min_count, max_count); - BaseBlock::addParam(block_descriptor, param_descriptor, name); - } - } + typedef ParamValue<T, TypeValues<T> > derived_t; + typedef CustomParamValue<T> self_t; + typedef Block<derived_t> block_t; + typedef const T& value_assignment_t; - // implicit conversion - operator value_assignment_t() const { return get(); } - // explicit conversion - value_assignment_t operator()() const { return get(); } + CustomParamValue(const T& value = T()) + : mValue(value), + mValueAge(VALUE_AUTHORITATIVE), + mKeyVersion(0), + mValidatedVersion(-1) + {} - static bool deserializeParam(Param& param, Parser& parser, const Parser::name_stack_range_t& name_stack, S32 generation) + bool deserializeBlock(Parser& parser, Parser::name_stack_range_t name_stack, S32 generation) { - DERIVED& typed_param = static_cast<DERIVED&>(param); + derived_t& typed_param = static_cast<derived_t&>(*this); // type to apply parse direct value T if (name_stack.first == name_stack.second) { - if(parser.readValue(typed_param.mData.mValue)) + if(parser.readValue(typed_param.mValue)) { - typed_param.enclosingBlock().setLastChangedParam(param, true); - typed_param.setProvided(true); - typed_param.mData.clearKey(); - typed_param.mData.mValueAge = NEWER_THAN_BLOCK; - typed_param.setBlockFromValue(); + typed_param.clearValueName(); + typed_param.mValueAge = VALUE_AUTHORITATIVE; + typed_param.updateBlockFromValue(); return true; } - - if(!TypeValues<T>::empty()) - { - // try to parse a known named value - std::string name; - if (parser.readValue(name)) - { - // try to parse a per type named value - if (TypeValues<T>::get(name, typed_param.mData.mValue)) - { - typed_param.mData.setKey(name); - typed_param.enclosingBlock().setLastChangedParam(param, true); - typed_param.setProvided(true); - typed_param.mData.mValueAge = NEWER_THAN_BLOCK; - typed_param.setBlockFromValue(); - - return true; - } - } - } } // fall back on parsing block components for T // if we deserialized at least one component... - if (typed_param.BaseBlock::deserializeBlock(parser, name_stack)) + if (typed_param.BaseBlock::deserializeBlock(parser, name_stack, generation)) { - // ...our block is provided, and considered changed - typed_param.enclosingBlock().setLastChangedParam(param, true); - typed_param.setProvided(true); return true; } + return false; } - static void serializeParam(const Param& param, Parser& parser, Parser::name_stack_t& name_stack, const Param* diff_param) + void serializeBlock(Parser& parser, Parser::name_stack_t name_stack = Parser::name_stack_t(), const BaseBlock* diff_block = NULL) const { - const self_t& typed_param = static_cast<const self_t&>(param); - - if (!typed_param.isProvided()) return; + const self_t& typed_param = static_cast<const self_t&>(*this); + const self_t* diff_param = static_cast<const self_t*>(diff_block); - std::string key = typed_param.mData.getKey(); + std::string key = typed_param.getValueName(); // first try to write out name of name/value pair if (!key.empty()) { - if (!diff_param || !ParamCompare<std::string>::equals(static_cast<const self_t*>(diff_param)->mData.getKey(), key)) + if (!diff_param || !ParamCompare<std::string>::equals(diff_param->getValueName(), key)) { - if (!parser.writeValue(key, name_stack)) - { - return; - } + parser.writeValue(key, name_stack); } } // then try to serialize value directly - else if (!diff_param || !ParamCompare<T>::equals(typed_param.get(), (static_cast<const self_t*>(diff_param))->get())) + else if (!diff_param || !ParamCompare<T>::equals(typed_param.getValue(), diff_param->getValue())) { - if (parser.writeValue(typed_param.mData.mValue, name_stack)) + if (!parser.writeValue(typed_param.getValue(), name_stack)) { - return; + //RN: *always* serialize provided components of BlockValue (don't pass diff_param on), + // since these tend to be viewed as the constructor arguments for the value T. It seems + // cleaner to treat the uniqueness of a BlockValue according to the generated value, and + // not the individual components. This way <color red="0" green="1" blue="0"/> will not + // be exported as <color green="1"/>, since it was probably the intent of the user to + // be specific about the RGB color values. This also fixes an issue where we distinguish + // between rect.left not being provided and rect.left being explicitly set to 0 (same as default) + block_t::serializeBlock(parser, name_stack, NULL); } - - //RN: *always* serialize provided components of BlockValue (don't pass diff_param on), - // since these tend to be viewed as the constructor arguments for the value T. It seems - // cleaner to treat the uniqueness of a BlockValue according to the generated value, and - // not the individual components. This way <color red="0" green="1" blue="0"/> will not - // be exported as <color green="1"/>, since it was probably the intent of the user to - // be specific about the RGB color values. This also fixes an issue where we distinguish - // between rect.left not being provided and rect.left being explicitly set to 0 (same as default) - typed_param.BaseBlock::serializeBlock(parser, name_stack, NULL); } } - static void inspectParam(const Param& param, Parser& parser, Parser::name_stack_t& name_stack, S32 min_count, S32 max_count) + bool inspectBlock(Parser& parser, Parser::name_stack_t name_stack = Parser::name_stack_t(), S32 min_count = 0, S32 max_count = S32_MAX) const { // first, inspect with actual type... parser.inspectValue<T>(name_stack, min_count, max_count, NULL); @@ -1742,25 +1816,19 @@ namespace LLInitParam parser.inspectValue<std::string>(name_stack, min_count, max_count, TypeValues<T>::getPossibleValues()); } // then recursively inspect contents... - const self_t& typed_param = static_cast<const self_t&>(param); - typed_param.inspectBlock(parser, name_stack); + return block_t::inspectBlock(parser, name_stack, min_count, max_count); } - - bool isProvided() const + bool validateBlock(bool emit_errors = true) const { - if (!Param::anyProvided()) return false; - - // block has an updated parameter - // if cached value is stale, regenerate from params - if (mData.mValueAge == OLDER_THAN_BLOCK) + if (mValueAge == VALUE_NEEDS_UPDATE) { - if (block_t::validateBlock(false)) + if (block_t::validateBlock(emit_errors)) { - static_cast<const DERIVED*>(this)->setValueFromBlock(); // clear stale keyword associated with old value - mData.clearKey(); - mData.mValueAge = SAME_AS_BLOCK; + TypeValues<T>::clearValueName(); + mValueAge = BLOCK_AUTHORITATIVE; + static_cast<derived_t*>(const_cast<self_t*>(this))->updateValueFromBlock(); return true; } else @@ -1777,104 +1845,84 @@ namespace LLInitParam } } - void set(value_assignment_t val, bool flag_as_provided = true) + // propagate change status up to enclosing block + /*virtual*/ void paramChanged(const Param& changed_param, bool user_provided) + { + BaseBlock::paramChanged(changed_param, user_provided); + if (user_provided) { - Param::enclosingBlock().setLastChangedParam(*this, flag_as_provided); + // a parameter changed, so our value is out of date + mValueAge = VALUE_NEEDS_UPDATE; + } + } + void setValue(value_assignment_t val) + { + derived_t& typed_param = static_cast<derived_t&>(*this); // set param version number to be up to date, so we ignore block contents - mData.mValueAge = NEWER_THAN_BLOCK; - - mData.mValue = val; - mData.clearKey(); - setProvided(flag_as_provided); - static_cast<DERIVED*>(this)->setBlockFromValue(); + mValueAge = VALUE_AUTHORITATIVE; + mValue = val; + typed_param.clearValueName(); + static_cast<derived_t*>(const_cast<self_t*>(this))->updateBlockFromValue(); } - void setIfNotProvided(value_assignment_t val, bool flag_as_provided = true) + value_assignment_t getValue() const { - // don't override any user provided value - if (!isProvided()) - { - set(val, flag_as_provided); - } + validateBlock(true); + return mValue; } - // propagate change status up to enclosing block - /*virtual*/ void setLastChangedParam(const Param& last_param, bool user_provided) - { - BaseBlock::setLastChangedParam(last_param, user_provided); - Param::enclosingBlock().setLastChangedParam(*this, user_provided); - if (user_provided) - { - setProvided(true); // some component provided - // a parameter changed, so our value is out of date - mData.mValueAge = OLDER_THAN_BLOCK; - } + T& getValue() + { + validateBlock(true); + return mValue; } + S32 mKeyVersion; + protected: - value_assignment_t get() const - { - // if some parameters were provided, issue warnings on invalid blocks - if (Param::anyProvided() && (mData.mValueAge == OLDER_THAN_BLOCK)) - { - // go ahead and issue warnings at this point if any param is invalid - if(block_t::validateBlock(true)) - { - static_cast<const DERIVED*>(this)->setValueFromBlock(); - mData.clearKey(); - mData.mValueAge = SAME_AS_BLOCK; - } - } - return mData.mValue; + // use this from within updateValueFromBlock() to set the value without making it authoritative + void updateValue(value_assignment_t value) + { + mValue = value; } - - struct Data : public key_cache_t + bool mergeBlockParam(bool param_provided, BlockDescriptor& block_data, const BaseBlock& other, bool overwrite) { - Data(const T& value, EValueAge age) - : mValue(value), - mValueAge(age) - {} - - T mValue; - EValueAge mValueAge; - }; - - // mutable to allow lazy updates on get - mutable Data mData; + if (param_provided) + { + return mergeBlock(block_data, other, overwrite); + } + return false; + } - private: - static bool mergeWith(Param& dst, const Param& src, bool overwrite) + bool mergeBlock(BlockDescriptor& block_data, const BaseBlock& other, bool overwrite) { - const DERIVED& src_typed_param = static_cast<const DERIVED&>(src); - DERIVED& dst_typed_param = static_cast<DERIVED&>(dst); + const derived_t& src_typed_param = static_cast<const derived_t&>(other); - if (src_typed_param.isProvided() - && (overwrite || !dst_typed_param.isProvided())) + if (src_typed_param.mValueAge == VALUE_AUTHORITATIVE) { - if (src_typed_param.mData.mValueAge == NEWER_THAN_BLOCK) - { - // copy value over - dst_typed_param.set(src_typed_param.get()); - } - else - { - // merge individual parameters into destination - dst_typed_param.merge(block_t::selfBlockDescriptor(), src_typed_param, overwrite); - } + // copy value over + setValue(src_typed_param.getValue()); return true; } - return false; + else + { + // merge individual parameters into destination + return block_t::mergeBlock(block_t::selfBlockDescriptor(), src_typed_param, overwrite); + } } - }; - template<> - struct ParamCompare<LLSD, false> - { - static bool equals(const LLSD &a, const LLSD &b); + mutable S32 mValidatedVersion; + mutable bool mValidated; // lazy validation flag + + private: + + mutable T mValue; + mutable EValueAge mValueAge; }; } + #endif // LL_LLPARAM_H |