//////////////////////////////////////////////////////////////////////////////////////// // RAVEN STANDARD USEFUL FUNCTION LIBRARY // (c) 2002 Activision // // // Handle File // ----------- // //////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////// // Includes //////////////////////////////////////////////////////////////////////////////////////// #include "hfile.h" #if !defined(RATL_HANDLE_POOL_VS_INC) #include "../Ratl/handle_pool_vs.h" #endif #if !defined(RATL_VECTOR_VS_INC) #include "../Ratl/vector_vs.h" #endif #if !defined(RUFL_HSTRING_INC) #include "hstring.h" #endif extern bool HFILEopen_read(int& handle, const char* filepath); extern bool HFILEopen_write(int& handle, const char* filepath); extern bool HFILEread(int& handle, void* data, int size); extern bool HFILEwrite(int& handle, const void* data, int size); extern bool HFILEclose(int& handle); //////////////////////////////////////////////////////////////////////////////////////// // Defines //////////////////////////////////////////////////////////////////////////////////////// #define MAX_OPEN_FILES 20 //////////////////////////////////////////////////////////////////////////////////////// // //////////////////////////////////////////////////////////////////////////////////////// struct SOpenFile { #ifdef _XBOX dllNamespace::hstring mPath; #else hstring mPath; #endif bool mForRead; int mHandle; float mVersion; int mChecksum; }; typedef ratl::handle_pool_vs TFilePool; TFilePool& Pool() { static TFilePool TFP; return TFP; } //////////////////////////////////////////////////////////////////////////////////////// // Constructor // // Allocates a new OpenFile structure and initializes it. DOES NOT OPEN! // //////////////////////////////////////////////////////////////////////////////////////// hfile::hfile(const char* file) { if (Pool().full()) { mHandle = 0; assert("HFILE: Too Many Files Open, Unable To Grab An Unused Handle"==0); return; } mHandle = Pool().alloc(); SOpenFile& sfile = Pool()[mHandle]; sfile.mPath = file; sfile.mHandle = 0; sfile.mForRead = true; } //////////////////////////////////////////////////////////////////////////////////////// // Destructor // // Releases the open file structure for resue. Also closes the file if open. // //////////////////////////////////////////////////////////////////////////////////////// hfile::~hfile() { if (is_open()) { close(); } if (mHandle && Pool().is_used(mHandle)) { Pool().free(mHandle); } mHandle = 0; } //////////////////////////////////////////////////////////////////////////////////////// // //////////////////////////////////////////////////////////////////////////////////////// bool hfile::is_open(void) const { if (mHandle && Pool().is_used(mHandle)) { return (Pool()[mHandle].mHandle!=0); } return false; } //////////////////////////////////////////////////////////////////////////////////////// // //////////////////////////////////////////////////////////////////////////////////////// bool hfile::is_open_for_read(void) const { if (mHandle && Pool().is_used(mHandle)) { SOpenFile& sfile = Pool()[mHandle]; return (sfile.mHandle!=0 && sfile.mForRead); } return false; } //////////////////////////////////////////////////////////////////////////////////////// // //////////////////////////////////////////////////////////////////////////////////////// bool hfile::is_open_for_write(void) const { if (mHandle && Pool().is_used(mHandle)) { SOpenFile& sfile = Pool()[mHandle]; return (sfile.mHandle!=0 && !sfile.mForRead); } return false; } //////////////////////////////////////////////////////////////////////////////////// // //////////////////////////////////////////////////////////////////////////////////// bool hfile::open(float version, int checksum, bool read) { // Make Sure This Is A Valid Handle //---------------------------------- if (!mHandle || !Pool().is_used(mHandle)) { assert("HFILE: Invalid Handle"==0); return false; } // Make Sure The File Is Not ALREADY Open //---------------------------------------- SOpenFile& sfile = Pool()[mHandle]; if (sfile.mHandle!=0) { assert("HFILE: Attempt To Open An Already Open File"==0); return false; } sfile.mForRead = read; if (read) { HFILEopen_read(sfile.mHandle, *sfile.mPath); } else { HFILEopen_write(sfile.mHandle, *sfile.mPath); } // If The Open Failed, Report It And Free The SOpenFile //------------------------------------------------------ if (sfile.mHandle==0) { if (!read) { assert("HFILE: Unable To Open File"==0); } return false; } // Read The File's Header //------------------------ if (read) { if (!HFILEread(sfile.mHandle, &sfile.mVersion, sizeof(sfile.mVersion))) { assert("HFILE: Unable To Read File Header"==0); close(); return false; } if (!HFILEread(sfile.mHandle, &sfile.mChecksum, sizeof(sfile.mChecksum))) { assert("HFILE: Unable To Read File Header"==0); close(); return false; } // Make Sure The Checksum & Version Match //---------------------------------------- if (sfile.mVersion!=version || sfile.mChecksum!=checksum) { close(); return false; // Failed To Match Checksum Or Version Number -> Old Data } } else { sfile.mVersion = version; sfile.mChecksum = checksum; if (!HFILEwrite(sfile.mHandle, &sfile.mVersion, sizeof(sfile.mVersion))) { assert("HFILE: Unable To Write File Header"==0); close(); return false; } if (!HFILEwrite(sfile.mHandle, &sfile.mChecksum, sizeof(sfile.mChecksum))) { assert("HFILE: Unable To Write File Header"==0); close(); return false; } } return true; } //////////////////////////////////////////////////////////////////////////////////// // //////////////////////////////////////////////////////////////////////////////////// bool hfile::close() { if (!mHandle || !Pool().is_used(mHandle)) { assert("HFILE: Invalid Handle"==0); return false; } SOpenFile& sfile = Pool()[mHandle]; if (sfile.mHandle==0) { assert("HFILE: Unable TO Close Unopened File"==0); return false; } if (!HFILEclose(sfile.mHandle)) { sfile.mHandle = 0; assert("HFILE: Unable To Close File"==0); return false; } sfile.mHandle = 0; return true; } //////////////////////////////////////////////////////////////////////////////////// // Searches for the first block with the matching data size, and reads it in. //////////////////////////////////////////////////////////////////////////////////// bool hfile::load(void* data, int datasize) { // Go Ahead And Open The File For Reading //---------------------------------------- bool auto_opened = false; if (!is_open()) { if (!open_read()) { return false; } auto_opened = true; } // Make Sure That The File Is Readable //------------------------------------- SOpenFile& sfile = Pool()[mHandle]; if (!sfile.mForRead) { assert("HFILE: Unable to load from a file that is opened for save"==0); if (auto_opened) { close(); } return false; } // Now Read It //------------- if (!HFILEread(sfile.mHandle, data, datasize)) { assert("HFILE: Unable To Read Object"==0); if (auto_opened) { close(); } return false; } // Success! //---------- if (auto_opened) { close(); } return true; } //////////////////////////////////////////////////////////////////////////////////// // //////////////////////////////////////////////////////////////////////////////////// bool hfile::save(void* data, int datasize) { // Go Ahead And Open The File For Reading //---------------------------------------- bool auto_opened = false; if (!is_open()) { if (!open_write()) { return false; } auto_opened = true; } // Make Sure That The File Is Readable //------------------------------------- SOpenFile& sfile = Pool()[mHandle]; if (sfile.mForRead) { assert("HFILE: Unable to save to a file that is opened for read"==0); if (auto_opened) { close(); } return false; } // Write The Actual Object //------------------------- if (!HFILEwrite(sfile.mHandle, data, datasize)) { assert("HFILE: Unable To Write File Data"==0); if (auto_opened) { close(); } return false; } if (auto_opened) { close(); } return true; }