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#include "cppc4group.hpp"
#include "cc4group.h"
CppC4Group::Data::Data() : data{nullptr}, size{0}
{
}
CppC4Group::Data::Data(const void* const data, const size_t size) : data{data}, size{size}
{
}
struct CppC4Group::Private {
CC4Group* g;
Private() : g{cc4group.new_()}
{
}
~Private()
{
cc4group.delete_(g);
}
};
namespace {
CC4Group_TmpMemoryStrategy convertTmpMemoryStrategy(const CppC4Group::TmpMemoryStrategy strategy)
{
switch(strategy)
{
case CppC4Group::Auto:
return cc4group.TmpMemoryStrategies.Auto;
case CppC4Group::File:
return cc4group.TmpMemoryStrategies.File;
case CppC4Group::Memory:
return cc4group.TmpMemoryStrategies.Memory;
}
return cc4group.TmpMemoryStrategies.Auto;
}
int convertMemoryManagement(const CppC4Group::MemoryManagement management)
{
switch(management)
{
case CppC4Group::Take:
return cc4group.MemoryManagement.Take;
case CppC4Group::Copy:
return cc4group.MemoryManagement.Copy;
case CppC4Group::Reference:
return cc4group.MemoryManagement.Reference;
}
return cc4group.MemoryManagement.Copy;
}
}
CppC4Group::CppC4Group() : p{new CppC4Group::Private{}}
{
}
CppC4Group::~CppC4Group()
{
}
void CppC4Group::create()
{
cc4group.create(p->g);
}
bool CppC4Group::openExisting(const std::string& path)
{
return cc4group.openExisting(p->g, path.c_str());
}
bool CppC4Group::save(const std::string& path, const bool overwrite)
{
return (overwrite ? cc4group.saveOverwrite : cc4group.save)(p->g, path.c_str());
}
bool CppC4Group::extractAll(const std::string& path)
{
return cc4group.extractAll(p->g, path.c_str());
}
bool CppC4Group::extractSingle(const std::string& entryPath, const std::string& targetPath)
{
return cc4group.extractSingle(p->g, entryPath.c_str(), targetPath.c_str());
}
std::optional<CppC4Group::Data> CppC4Group::getEntryData(const std::string& path)
{
const void* data;
size_t size;
if(cc4group.getEntryData(p->g, path.c_str(), &data, &size))
{
return std::make_optional<CppC4Group::Data>(data, size);
}
else
{
return {};
}
}
std::string CppC4Group::getErrorMessage()
{
return cc4group.getErrorMessage(p->g);
}
int32_t CppC4Group::getErrorCode()
{
return cc4group.getErrorCode(p->g);
}
std::string CppC4Group::getErrorMethod()
{
return cc4group.getErrorMethod(p->g);
}
std::string CppC4Group::getErrorCauser()
{
return cc4group.getErrorCauser(p->g);
}
void CppC4Group::setTmpMemoryStrategy(const CppC4Group::TmpMemoryStrategy strategy)
{
cc4group.setTmpMemoryStrategy(convertTmpMemoryStrategy(strategy));
}
bool CppC4Group::setMaker(const std::string& maker, const std::string& path, const bool recursive)
{
return cc4group.setMaker(p->g, maker.c_str(), path.c_str(), recursive);
}
bool CppC4Group::setCreation(const int32_t creation, const std::string& path, const bool recursive)
{
return cc4group.setCreation(p->g, creation, path.c_str(), recursive);
}
bool CppC4Group::setOfficial(const bool official, const std::string& path, const bool recursive)
{
return cc4group.setOfficial(p->g, official, path.c_str(), recursive);
}
bool CppC4Group::setExecutable(const bool executable, const std::string& path)
{
return cc4group.setExecutable(p->g, executable, path.c_str());
}
namespace {
CppC4Group::EntryInfo& fillEntryInfo(CppC4Group::EntryInfo& info, const CC4Group_EntryInfo& entryInfo)
{
info.fileName = entryInfo.fileName;
info.modified = entryInfo.modified;
info.author = entryInfo.author;
info.size = entryInfo.size;
info.totalSize = entryInfo.totalSize;
info.executable = entryInfo.executable;
info.directory = entryInfo.directory;
info.official = entryInfo.official;
return info;
}
};
std::optional<CppC4Group::EntryInfo> CppC4Group::getEntryInfo(const std::string& path)
{
CC4Group_EntryInfo info;
if(cc4group.getEntryInfo(p->g, path.c_str(), &info))
{
auto entryInfo = std::make_optional<CppC4Group::EntryInfo>();
fillEntryInfo(*entryInfo, info);
return entryInfo;
}
else
{
return {};
}
}
std::optional<std::vector<CppC4Group::EntryInfo>> CppC4Group::getEntryInfos(const std::string& path)
{
CC4Group_EntryInfo* infos;
size_t infoCount;
if(cc4group.getEntryInfos(p->g, path.c_str(), &infos, &infoCount))
{
auto entryInfos = std::make_optional<std::vector<CppC4Group::EntryInfo>>(infoCount);
for(size_t i = 0; i < infoCount; ++i)
{
fillEntryInfo((*entryInfos)[i], infos[i]);
}
free(infos);
return entryInfos;
}
else
{
return {};
}
}
bool CppC4Group::deleteEntry(const std::string& path, const bool recursive)
{
return cc4group.deleteEntry(p->g, path.c_str(), recursive);
}
bool CppC4Group::renameEntry(const std::string& oldPath, const std::string& newPath)
{
return cc4group.renameEntry(p->g, oldPath.c_str(), newPath.c_str());
}
bool CppC4Group::createDirectory(const std::string& path)
{
return cc4group.createDirectory(p->g, path.c_str());
}
bool CppC4Group::createFile(const std::string& path)
{
return cc4group.createFile(p->g, path.c_str());
}
bool CppC4Group::setEntryData(const std::string& path, const void*const data, const size_t size, const MemoryManagement management)
{
return cc4group.setEntryData(p->g, path.c_str(), data, size, convertMemoryManagement(management));
}
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