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/**
* @file llinitparam.cpp
* @brief parameter block abstraction for creating complex objects and
* parsing construction parameters from xml and LLSD
*
* $LicenseInfo:firstyear=2008&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "llinitparam.h"
#include "llformat.h"
namespace LLInitParam
{
predicate_rule_t default_parse_rules()
{
return ll_make_predicate(PROVIDED) && !ll_make_predicate(EMPTY);
}
//
// Param
//
Param::Param(BaseBlock* enclosing_block)
: mIsProvided(false)
{
const U8* my_addr = reinterpret_cast<const U8*>(this);
const U8* block_addr = reinterpret_cast<const U8*>(enclosing_block);
U32 enclosing_block_offset = 0x7FFFffff & (U32)(my_addr - block_addr);
mEnclosingBlockOffsetLow = enclosing_block_offset & 0x0000ffff;
mEnclosingBlockOffsetHigh = (enclosing_block_offset & 0x007f0000) >> 16;
}
//
// ParamDescriptor
//
ParamDescriptor::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),
mUserData(NULL)
{}
ParamDescriptor::ParamDescriptor()
: mParamHandle(0),
mMergeFunc(NULL),
mDeserializeFunc(NULL),
mSerializeFunc(NULL),
mValidationFunc(NULL),
mInspectFunc(NULL),
mMinCount(0),
mMaxCount(0),
mUserData(NULL)
{}
ParamDescriptor::~ParamDescriptor()
{
delete mUserData;
}
//
// Parser
//
Parser::~Parser()
{}
void Parser::parserWarning(const std::string& message)
{
if (mParseSilently) return;
LL_WARNS() << message << LL_ENDL;
}
void Parser::parserError(const std::string& message)
{
if (mParseSilently) return;
LL_ERRS() << message << LL_ENDL;
}
//
// BlockDescriptor
//
void BlockDescriptor::aggregateBlockData(BlockDescriptor& src_block_data)
{
mNamedParams.insert(src_block_data.mNamedParams.begin(), src_block_data.mNamedParams.end());
std::copy(src_block_data.mUnnamedParams.begin(), src_block_data.mUnnamedParams.end(), std::back_inserter(mUnnamedParams));
std::copy(src_block_data.mValidationList.begin(), src_block_data.mValidationList.end(), std::back_inserter(mValidationList));
std::copy(src_block_data.mAllParams.begin(), src_block_data.mAllParams.end(), std::back_inserter(mAllParams));
}
void BlockDescriptor::addParam(const ParamDescriptorPtr in_param, const char* char_name)
{
// create a copy of the param descriptor in mAllParams
// so other data structures can store a pointer to it
mAllParams.push_back(in_param);
ParamDescriptorPtr param(mAllParams.back());
std::string name(char_name);
if ((size_t)param->mParamHandle > mMaxParamOffset)
{
LL_ERRS() << "Attempted to register param with block defined for parent class, make sure to derive from LLInitParam::Block<YOUR_CLASS, PARAM_BLOCK_BASE_CLASS>" << LL_ENDL;
}
if (name.empty())
{
mUnnamedParams.push_back(param);
}
else
{
// don't use insert, since we want to overwrite existing entries
mNamedParams[name] = param;
}
if (param->mValidationFunc)
{
mValidationList.push_back(std::make_pair(param->mParamHandle, param->mValidationFunc));
}
}
BlockDescriptor::BlockDescriptor()
: mMaxParamOffset(0),
mInitializationState(UNINITIALIZED),
mCurrentBlockPtr(NULL)
{}
// called by each derived class in least to most derived order
void BaseBlock::init(BlockDescriptor& descriptor, BlockDescriptor& base_descriptor, size_t block_size)
{
descriptor.mCurrentBlockPtr = this;
descriptor.mMaxParamOffset = block_size;
switch(descriptor.mInitializationState)
{
case BlockDescriptor::UNINITIALIZED:
// copy params from base class here
descriptor.aggregateBlockData(base_descriptor);
descriptor.mInitializationState = BlockDescriptor::INITIALIZING;
break;
case BlockDescriptor::INITIALIZING:
descriptor.mInitializationState = BlockDescriptor::INITIALIZED;
break;
case BlockDescriptor::INITIALIZED:
// nothing to do
break;
}
}
param_handle_t BaseBlock::getHandleFromParam(const Param* param) const
{
const U8* param_address = reinterpret_cast<const U8*>(param);
const U8* baseblock_address = reinterpret_cast<const U8*>(this);
return (param_address - baseblock_address);
}
bool BaseBlock::submitValue(Parser::name_stack_t& name_stack, Parser& p, bool silent)
{
Parser::name_stack_range_t range = std::make_pair(name_stack.begin(), name_stack.end());
if (!deserializeBlock(p, range, true))
{
if (!silent)
{
p.parserWarning(llformat("Failed to parse parameter \"%s\"", p.getCurrentElementName().c_str()));
}
return false;
}
return true;
}
bool BaseBlock::validateBlock(bool emit_errors) const
{
// only validate block when it hasn't already passed validation with current data
if (!mValidated)
{
const BlockDescriptor& block_data = mostDerivedBlockDescriptor();
for (BlockDescriptor::param_validation_list_t::const_iterator it = block_data.mValidationList.begin(); it != block_data.mValidationList.end(); ++it)
{
const Param* param = getParamFromHandle(it->first);
if (!it->second(param))
{
if (emit_errors)
{
LL_WARNS() << "Invalid param \"" << getParamName(block_data, param) << "\"" << LL_ENDL;
}
return false;
}
}
mValidated = true;
}
return mValidated;
}
bool BaseBlock::serializeBlock(Parser& parser, Parser::name_stack_t& name_stack, const predicate_rule_t predicate_rule, const LLInitParam::BaseBlock* diff_block) const
{
bool serialized = false;
if (!predicate_rule.check(ll_make_predicate(PROVIDED, isProvided())))
{
return false;
}
// named param is one like LLView::Params::follows
// unnamed param is like LLView::Params::rect - implicit
const BlockDescriptor& block_data = mostDerivedBlockDescriptor();
for (BlockDescriptor::param_list_t::const_iterator it = block_data.mUnnamedParams.begin();
it != block_data.mUnnamedParams.end();
++it)
{
param_handle_t param_handle = (*it)->mParamHandle;
const Param* param = getParamFromHandle(param_handle);
ParamDescriptor::serialize_func_t serialize_func = (*it)->mSerializeFunc;
if (serialize_func && predicate_rule.check(ll_make_predicate(PROVIDED, param->anyProvided())))
{
const Param* diff_param = diff_block ? diff_block->getParamFromHandle(param_handle) : NULL;
serialized |= serialize_func(*param, parser, name_stack, predicate_rule, diff_param);
}
}
for(BlockDescriptor::param_map_t::const_iterator it = block_data.mNamedParams.begin();
it != block_data.mNamedParams.end();
++it)
{
param_handle_t param_handle = it->second->mParamHandle;
const Param* param = getParamFromHandle(param_handle);
ParamDescriptor::serialize_func_t serialize_func = it->second->mSerializeFunc;
if (serialize_func && predicate_rule.check(ll_make_predicate(PROVIDED, param->anyProvided())))
{
// Ensure this param has not already been serialized
// Prevents <rect> from being serialized as its own tag.
bool duplicate = false;
for (BlockDescriptor::param_list_t::const_iterator it2 = block_data.mUnnamedParams.begin();
it2 != block_data.mUnnamedParams.end();
++it2)
{
if (param_handle == (*it2)->mParamHandle)
{
duplicate = true;
break;
}
}
//FIXME: for now, don't attempt to serialize values under synonyms, as current parsers
// don't know how to detect them
if (duplicate)
{
continue;
}
name_stack.push_back(std::make_pair(it->first, !duplicate));
const Param* diff_param = diff_block ? diff_block->getParamFromHandle(param_handle) : NULL;
serialized |= serialize_func(*param, parser, name_stack, predicate_rule, diff_param);
name_stack.pop_back();
}
}
if (!serialized && predicate_rule.check(ll_make_predicate(EMPTY)))
{
serialized |= parser.writeValue(Flag(), name_stack);
}
// was anything serialized in this block?
return serialized;
}
bool BaseBlock::inspectBlock(Parser& parser, Parser::name_stack_t name_stack, S32 min_count, S32 max_count) const
{
// named param is one like LLView::Params::follows
// unnamed param is like LLView::Params::rect - implicit
const BlockDescriptor& block_data = mostDerivedBlockDescriptor();
for (BlockDescriptor::param_list_t::const_iterator it = block_data.mUnnamedParams.begin();
it != block_data.mUnnamedParams.end();
++it)
{
param_handle_t param_handle = (*it)->mParamHandle;
const Param* param = getParamFromHandle(param_handle);
ParamDescriptor::inspect_func_t inspect_func = (*it)->mInspectFunc;
if (inspect_func)
{
name_stack.push_back(std::make_pair("", true));
inspect_func(*param, parser, name_stack, (*it)->mMinCount, (*it)->mMaxCount);
name_stack.pop_back();
}
}
for(BlockDescriptor::param_map_t::const_iterator it = block_data.mNamedParams.begin();
it != block_data.mNamedParams.end();
++it)
{
param_handle_t param_handle = it->second->mParamHandle;
const Param* param = getParamFromHandle(param_handle);
ParamDescriptor::inspect_func_t inspect_func = it->second->mInspectFunc;
if (inspect_func)
{
// Ensure this param has not already been inspected
bool duplicate = false;
for (BlockDescriptor::param_list_t::const_iterator it2 = block_data.mUnnamedParams.begin();
it2 != block_data.mUnnamedParams.end();
++it2)
{
if (param_handle == (*it2)->mParamHandle)
{
duplicate = true;
break;
}
}
name_stack.push_back(std::make_pair(it->first, !duplicate));
inspect_func(*param, parser, name_stack, it->second->mMinCount, it->second->mMaxCount);
name_stack.pop_back();
}
}
return true;
}
bool BaseBlock::deserializeBlock(Parser& p, Parser::name_stack_range_t& name_stack_range, bool ignored)
{
BlockDescriptor& block_data = mostDerivedBlockDescriptor();
bool names_left = name_stack_range.first != name_stack_range.second;
bool new_name = names_left
? name_stack_range.first->second
: true;
if (names_left)
{
const std::string& top_name = name_stack_range.first->first;
BlockDescriptor::param_map_t::iterator found_it = block_data.mNamedParams.find(top_name);
if (found_it != block_data.mNamedParams.end())
{
// find pointer to member parameter from offset table
Param* paramp = getParamFromHandle(found_it->second->mParamHandle);
ParamDescriptor::deserialize_func_t deserialize_func = found_it->second->mDeserializeFunc;
Parser::name_stack_range_t new_name_stack(name_stack_range.first, name_stack_range.second);
++new_name_stack.first;
if (deserialize_func(*paramp, p, new_name_stack, new_name))
{
// value is no longer new, we know about it now
name_stack_range.first->second = false;
return true;
}
else
{
return false;
}
}
}
// try to parse unnamed parameters, in declaration order
for ( BlockDescriptor::param_list_t::iterator it = block_data.mUnnamedParams.begin();
it != block_data.mUnnamedParams.end();
++it)
{
Param* paramp = getParamFromHandle((*it)->mParamHandle);
ParamDescriptor::deserialize_func_t deserialize_func = (*it)->mDeserializeFunc;
if (deserialize_func && deserialize_func(*paramp, p, name_stack_range, new_name))
{
return true;
}
}
// if no match, and no names left on stack, this is just an existence assertion of this block
// verify by calling readValue with NoParamValue type, an inherently unparseable type
if (!names_left)
{
Flag no_value;
return p.readValue(no_value);
}
return false;
}
void BaseBlock::addSynonym(Param& param, const std::string& synonym)
{
BlockDescriptor& block_data = mostDerivedBlockDescriptor();
if (block_data.mInitializationState == BlockDescriptor::INITIALIZING)
{
param_handle_t handle = getHandleFromParam(¶m);
// check for invalid derivation from a paramblock (i.e. without using
// Block<T, Base_Class>
if ((size_t)handle > block_data.mMaxParamOffset)
{
LL_ERRS() << "Attempted to register param with block defined for parent class, make sure to derive from LLInitParam::Block<YOUR_CLASS, PARAM_BLOCK_BASE_CLASS>" << LL_ENDL;
}
ParamDescriptorPtr param_descriptor = findParamDescriptor(param);
if (param_descriptor)
{
if (synonym.empty())
{
block_data.mUnnamedParams.push_back(param_descriptor);
}
else
{
block_data.mNamedParams[synonym] = param_descriptor;
}
}
}
}
const std::string& BaseBlock::getParamName(const BlockDescriptor& block_data, const Param* paramp) const
{
param_handle_t handle = getHandleFromParam(paramp);
for (BlockDescriptor::param_map_t::const_iterator it = block_data.mNamedParams.begin(); it != block_data.mNamedParams.end(); ++it)
{
if (it->second->mParamHandle == handle)
{
return it->first;
}
}
return LLStringUtil::null;
}
ParamDescriptorPtr BaseBlock::findParamDescriptor(const Param& param)
{
param_handle_t handle = getHandleFromParam(¶m);
BlockDescriptor& descriptor = mostDerivedBlockDescriptor();
BlockDescriptor::all_params_list_t::iterator end_it = descriptor.mAllParams.end();
for (BlockDescriptor::all_params_list_t::iterator it = descriptor.mAllParams.begin();
it != end_it;
++it)
{
if ((*it)->mParamHandle == handle) return *it;
}
return ParamDescriptorPtr();
}
// take all provided params from other and apply to self
// NOTE: this requires that "other" is of the same derived type as this
bool BaseBlock::mergeBlock(BlockDescriptor& block_data, const BaseBlock& other, bool overwrite)
{
bool some_param_changed = false;
BlockDescriptor::all_params_list_t::const_iterator end_it = block_data.mAllParams.end();
for (BlockDescriptor::all_params_list_t::const_iterator it = block_data.mAllParams.begin();
it != end_it;
++it)
{
const Param* other_paramp = other.getParamFromHandle((*it)->mParamHandle);
ParamDescriptor::merge_func_t merge_func = (*it)->mMergeFunc;
if (merge_func)
{
Param* paramp = getParamFromHandle((*it)->mParamHandle);
llassert(paramp->getEnclosingBlockOffset() == (*it)->mParamHandle);
some_param_changed |= merge_func(*paramp, *other_paramp, overwrite);
}
}
return some_param_changed;
}
}
|