mirror of
https://git.wownero.com/wownero/wownero.git
synced 2024-08-15 01:03:23 +00:00
a9bdc6e4c4
- Removed copy of field names in binary deserialization - Removed copy of array values in binary deserialization - Removed copy of string values in json deserialization - Removed unhelpful allocation in json string value parsing - Removed copy of blob data on binary and json serialization
490 lines
21 KiB
C++
490 lines
21 KiB
C++
// Copyright (c) 2006-2013, Andrey N. Sabelnikov, www.sabelnikov.net
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are met:
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in the
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// documentation and/or other materials provided with the distribution.
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// * Neither the name of the Andrey N. Sabelnikov nor the
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// names of its contributors may be used to endorse or promote products
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// derived from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER BE LIABLE FOR ANY
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// DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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#pragma once
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#include <type_traits>
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#include "misc_language.h"
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#include "portable_storage_base.h"
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#include "portable_storage_to_bin.h"
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#include "portable_storage_from_bin.h"
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#include "portable_storage_to_json.h"
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#include "portable_storage_from_json.h"
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#include "portable_storage_val_converters.h"
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#include "span.h"
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#include "int-util.h"
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namespace epee
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{
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namespace serialization
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{
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/************************************************************************/
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/* */
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/************************************************************************/
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class portable_storage
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{
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public:
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typedef epee::serialization::hsection hsection;
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typedef epee::serialization::harray harray;
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typedef storage_entry meta_entry;
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portable_storage(){}
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virtual ~portable_storage(){}
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hsection open_section(const std::string& section_name, hsection hparent_section, bool create_if_notexist = false);
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template<class t_value>
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bool get_value(const std::string& value_name, t_value& val, hsection hparent_section);
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bool get_value(const std::string& value_name, storage_entry& val, hsection hparent_section);
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template<class t_value>
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bool set_value(const std::string& value_name, t_value&& target, hsection hparent_section);
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//serial access for arrays of values --------------------------------------
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//values
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template<class t_value>
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harray get_first_value(const std::string& value_name, t_value& target, hsection hparent_section);
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template<class t_value>
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bool get_next_value(harray hval_array, t_value& target);
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template<class t_value>
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harray insert_first_value(const std::string& value_name, t_value&& target, hsection hparent_section);
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template<class t_value>
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bool insert_next_value(harray hval_array, t_value&& target);
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//sections
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harray get_first_section(const std::string& pSectionName, hsection& h_child_section, hsection hparent_section);
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bool get_next_section(harray hSecArray, hsection& h_child_section);
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harray insert_first_section(const std::string& pSectionName, hsection& hinserted_childsection, hsection hparent_section);
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bool insert_next_section(harray hSecArray, hsection& hinserted_childsection);
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//------------------------------------------------------------------------
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//delete entry (section, value or array)
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bool delete_entry(const std::string& pentry_name, hsection hparent_section = nullptr);
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//-------------------------------------------------------------------------------
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bool store_to_binary(binarybuffer& target);
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bool load_from_binary(const epee::span<const uint8_t> target);
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bool load_from_binary(const std::string& target) { return load_from_binary(epee::strspan<uint8_t>(target)); }
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template<class trace_policy>
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bool dump_as_xml(std::string& targetObj, const std::string& root_name = "");
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bool dump_as_json(std::string& targetObj, size_t indent = 0, bool insert_newlines = true);
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bool load_from_json(const std::string& source);
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private:
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section m_root;
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hsection get_root_section() {return &m_root;}
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storage_entry* find_storage_entry(const std::string& pentry_name, hsection psection);
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template<class entry_type>
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storage_entry* insert_new_entry_get_storage_entry(const std::string& pentry_name, hsection psection, entry_type&& entry);
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hsection insert_new_section(const std::string& pentry_name, hsection psection);
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#pragma pack(push)
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#pragma pack(1)
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struct storage_block_header
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{
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uint32_t m_signature_a;
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uint32_t m_signature_b;
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uint8_t m_ver;
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};
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#pragma pack(pop)
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};
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inline
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bool portable_storage::dump_as_json(std::string& buff, size_t indent, bool insert_newlines)
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{
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TRY_ENTRY();
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std::stringstream ss;
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epee::serialization::dump_as_json(ss, m_root, indent, insert_newlines);
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buff = ss.str();
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return true;
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CATCH_ENTRY("portable_storage::dump_as_json", false)
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}
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inline
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bool portable_storage::load_from_json(const std::string& source)
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{
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TRY_ENTRY();
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return json::load_from_json(source, *this);
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CATCH_ENTRY("portable_storage::load_from_json", false)
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}
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template<class trace_policy>
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bool portable_storage::dump_as_xml(std::string& targetObj, const std::string& root_name)
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{
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return false;//TODO: don't think i ever again will use xml - ambiguous and "overtagged" format
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}
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inline
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bool portable_storage::store_to_binary(binarybuffer& target)
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{
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TRY_ENTRY();
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std::stringstream ss;
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storage_block_header sbh = AUTO_VAL_INIT(sbh);
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sbh.m_signature_a = SWAP32LE(PORTABLE_STORAGE_SIGNATUREA);
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sbh.m_signature_b = SWAP32LE(PORTABLE_STORAGE_SIGNATUREB);
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sbh.m_ver = PORTABLE_STORAGE_FORMAT_VER;
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ss.write((const char*)&sbh, sizeof(storage_block_header));
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pack_entry_to_buff(ss, m_root);
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target = ss.str();
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return true;
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CATCH_ENTRY("portable_storage::store_to_binary", false)
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}
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inline
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bool portable_storage::load_from_binary(const epee::span<const uint8_t> source)
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{
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m_root.m_entries.clear();
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if(source.size() < sizeof(storage_block_header))
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{
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LOG_ERROR("portable_storage: wrong binary format, packet size = " << source.size() << " less than expected sizeof(storage_block_header)=" << sizeof(storage_block_header));
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return false;
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}
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storage_block_header* pbuff = (storage_block_header*)source.data();
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if(pbuff->m_signature_a != SWAP32LE(PORTABLE_STORAGE_SIGNATUREA) ||
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pbuff->m_signature_b != SWAP32LE(PORTABLE_STORAGE_SIGNATUREB)
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)
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{
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LOG_ERROR("portable_storage: wrong binary format - signature mismatch");
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return false;
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}
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if(pbuff->m_ver != PORTABLE_STORAGE_FORMAT_VER)
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{
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LOG_ERROR("portable_storage: wrong binary format - unknown format ver = " << pbuff->m_ver);
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return false;
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}
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TRY_ENTRY();
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throwable_buffer_reader buf_reader(source.data()+sizeof(storage_block_header), source.size()-sizeof(storage_block_header));
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buf_reader.read(m_root);
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return true;//TODO:
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CATCH_ENTRY("portable_storage::load_from_binary", false);
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}
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//---------------------------------------------------------------------------------------------------------------
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inline
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hsection portable_storage::open_section(const std::string& section_name, hsection hparent_section, bool create_if_notexist)
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{
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TRY_ENTRY();
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hparent_section = hparent_section ? hparent_section:&m_root;
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storage_entry* pentry = find_storage_entry(section_name, hparent_section);
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if(!pentry)
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{
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if(!create_if_notexist)
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return nullptr;
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return insert_new_section(section_name, hparent_section);
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}
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CHECK_AND_ASSERT(pentry , nullptr);
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//check that section_entry we find is real "CSSection"
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if(pentry->type() != typeid(section))
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{
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if(create_if_notexist)
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*pentry = storage_entry(section());//replace
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else
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return nullptr;
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}
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return &boost::get<section>(*pentry);
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CATCH_ENTRY("portable_storage::open_section", nullptr);
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}
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//---------------------------------------------------------------------------------------------------------------
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template<class to_type>
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struct get_value_visitor: boost::static_visitor<void>
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{
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to_type& m_target;
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get_value_visitor(to_type& target):m_target(target){}
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template<class from_type>
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void operator()(const from_type& v){convert_t(v, m_target);}
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};
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template<class t_value>
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bool portable_storage::get_value(const std::string& value_name, t_value& val, hsection hparent_section)
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{
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BOOST_MPL_ASSERT(( boost::mpl::contains<storage_entry::types, t_value> ));
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//TRY_ENTRY();
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if(!hparent_section) hparent_section = &m_root;
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storage_entry* pentry = find_storage_entry(value_name, hparent_section);
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if(!pentry)
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return false;
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get_value_visitor<t_value> gvv(val);
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boost::apply_visitor(gvv, *pentry);
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return true;
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//CATCH_ENTRY("portable_storage::template<>get_value", false);
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}
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//---------------------------------------------------------------------------------------------------------------
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inline
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bool portable_storage::get_value(const std::string& value_name, storage_entry& val, hsection hparent_section)
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{
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//TRY_ENTRY();
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if(!hparent_section) hparent_section = &m_root;
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storage_entry* pentry = find_storage_entry(value_name, hparent_section);
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if(!pentry)
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return false;
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val = *pentry;
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return true;
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//CATCH_ENTRY("portable_storage::template<>get_value", false);
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}
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//---------------------------------------------------------------------------------------------------------------
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template<class t_value>
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bool portable_storage::set_value(const std::string& value_name, t_value&& v, hsection hparent_section)
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{
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using t_real_value = typename std::decay<t_value>::type;
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BOOST_MPL_ASSERT(( boost::mpl::contains<boost::mpl::push_front<storage_entry::types, storage_entry>::type, t_real_value> ));
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TRY_ENTRY();
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if(!hparent_section)
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hparent_section = &m_root;
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storage_entry* pentry = find_storage_entry(value_name, hparent_section);
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if(!pentry)
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{
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pentry = insert_new_entry_get_storage_entry(value_name, hparent_section, std::forward<t_value>(v));
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if(!pentry)
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return false;
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return true;
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}
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*pentry = std::forward<t_value>(v);
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return true;
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CATCH_ENTRY("portable_storage::template<>set_value", false);
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}
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//---------------------------------------------------------------------------------------------------------------
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inline
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storage_entry* portable_storage::find_storage_entry(const std::string& pentry_name, hsection psection)
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{
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TRY_ENTRY();
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CHECK_AND_ASSERT(psection, nullptr);
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auto it = psection->m_entries.find(pentry_name);
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if(it == psection->m_entries.end())
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return nullptr;
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return &it->second;
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CATCH_ENTRY("portable_storage::find_storage_entry", nullptr);
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}
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//---------------------------------------------------------------------------------------------------------------
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template<class entry_type>
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storage_entry* portable_storage::insert_new_entry_get_storage_entry(const std::string& pentry_name, hsection psection, entry_type&& entry)
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{
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static_assert(std::is_rvalue_reference<entry_type&&>(), "unexpected copy of value");
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TRY_ENTRY();
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CHECK_AND_ASSERT(psection, nullptr);
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auto ins_res = psection->m_entries.emplace(pentry_name, std::forward<entry_type>(entry));
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return &ins_res.first->second;
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CATCH_ENTRY("portable_storage::insert_new_entry_get_storage_entry", nullptr);
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}
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//---------------------------------------------------------------------------------------------------------------
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inline
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hsection portable_storage::insert_new_section(const std::string& pentry_name, hsection psection)
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{
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TRY_ENTRY();
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storage_entry* pse = insert_new_entry_get_storage_entry(pentry_name, psection, section());
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if(!pse) return nullptr;
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return &boost::get<section>(*pse);
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CATCH_ENTRY("portable_storage::insert_new_section", nullptr);
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}
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//---------------------------------------------------------------------------------------------------------------
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template<class to_type>
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struct get_first_value_visitor: boost::static_visitor<bool>
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{
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to_type& m_target;
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get_first_value_visitor(to_type& target):m_target(target){}
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template<class from_type>
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bool operator()(const array_entry_t<from_type>& a)
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{
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const from_type* pv = a.get_first_val();
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if(!pv)
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return false;
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convert_t(*pv, m_target);
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return true;
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}
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};
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//---------------------------------------------------------------------------------------------------------------
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template<class t_value>
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harray portable_storage::get_first_value(const std::string& value_name, t_value& target, hsection hparent_section)
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{
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BOOST_MPL_ASSERT(( boost::mpl::contains<storage_entry::types, t_value> ));
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//TRY_ENTRY();
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if(!hparent_section) hparent_section = &m_root;
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storage_entry* pentry = find_storage_entry(value_name, hparent_section);
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if(!pentry)
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return nullptr;
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if(pentry->type() != typeid(array_entry))
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return nullptr;
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array_entry& ar_entry = boost::get<array_entry>(*pentry);
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get_first_value_visitor<t_value> gfv(target);
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if(!boost::apply_visitor(gfv, ar_entry))
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return nullptr;
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return &ar_entry;
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//CATCH_ENTRY("portable_storage::get_first_value", nullptr);
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}
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//---------------------------------------------------------------------------------------------------------------
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template<class to_type>
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struct get_next_value_visitor: boost::static_visitor<bool>
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{
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to_type& m_target;
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get_next_value_visitor(to_type& target):m_target(target){}
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template<class from_type>
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bool operator()(const array_entry_t<from_type>& a)
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{
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//TODO: optimize code here: work without get_next_val function
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const from_type* pv = a.get_next_val();
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if(!pv)
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return false;
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convert_t(*pv, m_target);
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return true;
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}
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};
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template<class t_value>
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bool portable_storage::get_next_value(harray hval_array, t_value& target)
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{
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BOOST_MPL_ASSERT(( boost::mpl::contains<storage_entry::types, t_value> ));
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//TRY_ENTRY();
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CHECK_AND_ASSERT(hval_array, false);
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array_entry& ar_entry = *hval_array;
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get_next_value_visitor<t_value> gnv(target);
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if(!boost::apply_visitor(gnv, ar_entry))
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return false;
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return true;
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//CATCH_ENTRY("portable_storage::get_next_value", false);
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}
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//---------------------------------------------------------------------------------------------------------------
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template<class t_value>
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harray portable_storage::insert_first_value(const std::string& value_name, t_value&& target, hsection hparent_section)
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{
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using t_real_value = typename std::decay<t_value>::type;
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static_assert(std::is_rvalue_reference<t_value&&>(), "unexpected copy of value");
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TRY_ENTRY();
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if(!hparent_section) hparent_section = &m_root;
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storage_entry* pentry = find_storage_entry(value_name, hparent_section);
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if(!pentry)
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{
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pentry = insert_new_entry_get_storage_entry(value_name, hparent_section, array_entry(array_entry_t<t_real_value>()));
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if(!pentry)
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return nullptr;
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}
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if(pentry->type() != typeid(array_entry))
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*pentry = storage_entry(array_entry(array_entry_t<t_real_value>()));
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array_entry& arr = boost::get<array_entry>(*pentry);
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if(arr.type() != typeid(array_entry_t<t_real_value>))
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arr = array_entry(array_entry_t<t_real_value>());
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array_entry_t<t_real_value>& arr_typed = boost::get<array_entry_t<t_real_value> >(arr);
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arr_typed.insert_first_val(std::forward<t_value>(target));
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return &arr;
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CATCH_ENTRY("portable_storage::insert_first_value", nullptr);
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}
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//---------------------------------------------------------------------------------------------------------------
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template<class t_value>
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bool portable_storage::insert_next_value(harray hval_array, t_value&& target)
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{
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using t_real_value = typename std::decay<t_value>::type;
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static_assert(std::is_rvalue_reference<t_value&&>(), "unexpected copy of value");
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TRY_ENTRY();
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CHECK_AND_ASSERT(hval_array, false);
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CHECK_AND_ASSERT_MES(hval_array->type() == typeid(array_entry_t<t_real_value>),
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false, "unexpected type in insert_next_value: " << typeid(array_entry_t<t_real_value>).name());
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array_entry_t<t_real_value>& arr_typed = boost::get<array_entry_t<t_real_value> >(*hval_array);
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arr_typed.insert_next_value(std::forward<t_value>(target));
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return true;
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CATCH_ENTRY("portable_storage::insert_next_value", false);
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}
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//---------------------------------------------------------------------------------------------------------------
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//sections
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inline
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harray portable_storage::get_first_section(const std::string& sec_name, hsection& h_child_section, hsection hparent_section)
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{
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TRY_ENTRY();
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if(!hparent_section) hparent_section = &m_root;
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storage_entry* pentry = find_storage_entry(sec_name, hparent_section);
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if(!pentry)
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return nullptr;
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if(pentry->type() != typeid(array_entry))
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return nullptr;
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array_entry& ar_entry = boost::get<array_entry>(*pentry);
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if(ar_entry.type() != typeid(array_entry_t<section>))
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return nullptr;
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array_entry_t<section>& sec_array = boost::get<array_entry_t<section>>(ar_entry);
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section* psec = sec_array.get_first_val();
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if(!psec)
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return nullptr;
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h_child_section = psec;
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return &ar_entry;
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CATCH_ENTRY("portable_storage::get_first_section", nullptr);
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}
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//---------------------------------------------------------------------------------------------------------------
|
|
inline
|
|
bool portable_storage::get_next_section(harray hsec_array, hsection& h_child_section)
|
|
{
|
|
TRY_ENTRY();
|
|
CHECK_AND_ASSERT(hsec_array, false);
|
|
if(hsec_array->type() != typeid(array_entry_t<section>))
|
|
return false;
|
|
array_entry_t<section>& sec_array = boost::get<array_entry_t<section>>(*hsec_array);
|
|
h_child_section = sec_array.get_next_val();
|
|
if(!h_child_section)
|
|
return false;
|
|
return true;
|
|
CATCH_ENTRY("portable_storage::get_next_section", false);
|
|
}
|
|
//---------------------------------------------------------------------------------------------------------------
|
|
inline
|
|
harray portable_storage::insert_first_section(const std::string& sec_name, hsection& hinserted_childsection, hsection hparent_section)
|
|
{
|
|
TRY_ENTRY();
|
|
if(!hparent_section) hparent_section = &m_root;
|
|
storage_entry* pentry = find_storage_entry(sec_name, hparent_section);
|
|
if(!pentry)
|
|
{
|
|
pentry = insert_new_entry_get_storage_entry(sec_name, hparent_section, array_entry(array_entry_t<section>()));
|
|
if(!pentry)
|
|
return nullptr;
|
|
}
|
|
if(pentry->type() != typeid(array_entry))
|
|
*pentry = storage_entry(array_entry(array_entry_t<section>()));
|
|
|
|
array_entry& ar_entry = boost::get<array_entry>(*pentry);
|
|
if(ar_entry.type() != typeid(array_entry_t<section>))
|
|
ar_entry = array_entry(array_entry_t<section>());
|
|
|
|
array_entry_t<section>& sec_array = boost::get<array_entry_t<section>>(ar_entry);
|
|
hinserted_childsection = &sec_array.insert_first_val(section());
|
|
return &ar_entry;
|
|
CATCH_ENTRY("portable_storage::insert_first_section", nullptr);
|
|
}
|
|
//---------------------------------------------------------------------------------------------------------------
|
|
inline
|
|
bool portable_storage::insert_next_section(harray hsec_array, hsection& hinserted_childsection)
|
|
{
|
|
TRY_ENTRY();
|
|
CHECK_AND_ASSERT(hsec_array, false);
|
|
CHECK_AND_ASSERT_MES(hsec_array->type() == typeid(array_entry_t<section>),
|
|
false, "unexpected type(not 'section') in insert_next_section, type: " << hsec_array->type().name());
|
|
|
|
array_entry_t<section>& sec_array = boost::get<array_entry_t<section>>(*hsec_array);
|
|
hinserted_childsection = &sec_array.insert_next_value(section());
|
|
return true;
|
|
CATCH_ENTRY("portable_storage::insert_next_section", false);
|
|
}
|
|
//---------------------------------------------------------------------------------------------------------------
|
|
}
|
|
}
|