/*==LICENSE==* CyanWorlds.com Engine - MMOG client, server and tools Copyright (C) 2011 Cyan Worlds, Inc. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . Additional permissions under GNU GPL version 3 section 7 If you modify this Program, or any covered work, by linking or combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK, NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK (or a modified version of those libraries), containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA, PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the licensors of this Program grant you additional permission to convey the resulting work. Corresponding Source for a non-source form of such a combination shall include the source code for the parts of OpenSSL and IJG JPEG Library used as well as that of the covered work. You can contact Cyan Worlds, Inc. by email legal@cyan.com or by snail mail at: Cyan Worlds, Inc. 14617 N Newport Hwy Mead, WA 99021 *==LICENSE==*/ #include "hsStream.h" #include "plAgeDescription.h" #include "plFile/plInitFileReader.h" #include "plFile/plEncryptedStream.h" #include "hsStringTokenizer.h" #include #include #include const uint32_t plAgePage::kInvalidSeqSuffix = (uint32_t)-1; plAgePage::plAgePage( const plString &name, uint32_t seqSuffix, uint8_t flags ) { fName = name; fSeqSuffix = seqSuffix; fFlags = flags; } plAgePage::plAgePage( const plString &stringFrom ) { SetFromString( stringFrom ); } plAgePage::plAgePage() { fName = ""; fFlags = 0; fSeqSuffix = 0; } plAgePage::plAgePage( const plAgePage &src ) { fName = src.fName; fSeqSuffix = src.fSeqSuffix; fFlags = src.fFlags; } plAgePage &plAgePage::operator=( const plAgePage &src ) { fName = src.fName; fSeqSuffix = src.fSeqSuffix; fFlags = src.fFlags; return *this; } void plAgePage::SetFlags(uint8_t f, bool on) { if (on) hsSetBits(fFlags, f); else hsClearBits(fFlags, f); } // now preservs original string bool plAgePage::SetFromString( const plString &stringIn ) { // Parse. Format is going to be "pageName[,seqSuffix[,flags]]" std::vector toks = stringIn.Tokenize(", \n"); if (toks.size() == 0) return false; fName = toks[0]; fSeqSuffix = kInvalidSeqSuffix; fFlags = 0; if (toks.size() > 1) fSeqSuffix = toks[1].ToUInt(); if (toks.size() > 2) fFlags = toks[2].ToUInt(); return true; } plString plAgePage::GetAsString( void ) const { if (fFlags) return plFormat("{},{},{}", fName, fSeqSuffix, fFlags); return plFormat("{},{}", fName, fSeqSuffix); } // // plAgeDescription // // // // static char plAgeDescription::kAgeDescPath[] = { "dat" PATH_SEPARATOR_STR }; const char* plAgeDescription::fCommonPages[] = { "Textures", "BuiltIn" }; // Also gotta init the separators for our helper reading function plAgeDescription::plAgeDescription() : plInitSectionTokenReader() { IInit(); } plAgeDescription::~plAgeDescription() { IDeInit(); } void plAgeDescription::IDeInit() { ClearPageList(); } plAgeDescription::plAgeDescription( const plFileName &fileNameToReadFrom ) : plInitSectionTokenReader() { ReadFromFile(fileNameToReadFrom); } // // Reads from a file, returns false if failed. // bool plAgeDescription::ReadFromFile( const plFileName &fileNameToReadFrom ) { IInit(); hsStream* stream = plEncryptedStream::OpenEncryptedFile(fileNameToReadFrom); if( !stream ) return false; Read( stream ); stream->Close(); delete stream; SetAgeNameFromPath( fileNameToReadFrom ); return true; } void plAgeDescription::SetAgeNameFromPath( const plFileName &path ) { if (!path.IsValid()) { fName = ""; return; } fName = path.GetFileNameNoExt(); } void plAgeDescription::IInit( void ) { fName = ""; fDayLength = 24.0f; fMaxCapacity = -1; fLingerTime = 180; // seconds fSeqPrefix = 0; fReleaseVersion = 0; fStart.SetMode( plUnifiedTime::kLocal ); fPageIterator = -1; } void plAgeDescription::ClearPageList() { fPages.Reset(); } void plAgeDescription::AppendPage( const plString &name, int seqSuffix, uint8_t flags ) { fPages.Append( plAgePage( name, ( seqSuffix == -1 ) ? fPages.GetCount() : (uint32_t)seqSuffix, flags ) ); } void plAgeDescription::SeekFirstPage( void ) { fPageIterator = 0; } plAgePage *plAgeDescription::GetNextPage( void ) { plAgePage *ret = nil; if( fPageIterator >= 0 && fPageIterator < fPages.GetCount() ) { ret = &fPages[ fPageIterator++ ]; if( fPageIterator >= fPages.GetCount() ) fPageIterator = -1; } return ret; } void plAgeDescription::RemovePage( const plString &page ) { for (int i = 0; i < fPages.GetCount(); i++) { if (page == fPages[i].GetName()) { fPages.Remove(i); return; } } } plAgePage *plAgeDescription::FindPage( const plString &name ) const { for (int i = 0; i < fPages.GetCount(); i++) { if (name == fPages[i].GetName()) return &fPages[i]; } return nil; } plLocation plAgeDescription::CalcPageLocation( const plString &page ) const { plAgePage *ap = FindPage( page ); if( ap != nil ) { // Combine our sequence # together int32_t combined; hsAssert(fSeqPrefix > -255 && fSeqPrefix <= 0xFEFF, "Age sequence prefex is out of range!"); // sequence prefix can NOT be larger or equal to 1-uint8_t max value uint32_t suffix = ap->GetSeqSuffix(); hsAssert(suffix <= 0xFFFF, "Page sequence number is out of range!"); // page sequence number can NOT be larger then 2-uint8_t max value if( fSeqPrefix < 0 ) // we are a global age combined = -(int32_t)( ( ( -fSeqPrefix ) << 16 ) + suffix ); else combined = ( fSeqPrefix << 16 ) + suffix; // Now, our 32 bit number looks like the following: // 0xRRAAPPPP // - RR is FF when reserved, and 00-FE when normal // - AA is the low uint8_t of the age sequence prefix (FF not allowed on a negative prefix because 0xFFFFFFFFFF is reserved for invalid sequence number) // - PPPP is the two bytes for page sequence number if( IsGlobalAge() ) return plLocation::MakeReserved( (uint32_t)combined ); else { plLocation ret = plLocation::MakeNormal( combined ); if (!page.CompareI("builtin")) ret.SetFlags(plLocation::kBuiltIn); return ret; } } // Just make a blank (invalid) one plLocation loc; return loc; } // // Writes the Age Description File // void plAgeDescription::Write(hsStream* stream) const { char buf[256]; // Write the date/time sprintf(buf, "StartDateTime=%010lu\n", (unsigned long)fStart.GetSecs()); stream->WriteString(buf); // Write the day length sprintf(buf, "DayLength=%f\n", fDayLength); stream->WriteString(buf); // Write the max capacity sprintf(buf, "MaxCapacity=%d\n", fMaxCapacity); stream->WriteString(buf); // Write the linger time sprintf(buf, "LingerTime=%d\n", fLingerTime); stream->WriteString(buf); // Write out the sequence prefix sprintf( buf, "SequencePrefix=%d\n", fSeqPrefix ); stream->WriteString( buf ); // Write out the release version sprintf( buf, "ReleaseVersion=%d\n", fReleaseVersion ); stream->WriteString( buf ); // Write out the pages int i; for( i = 0; i < fPages.GetCount(); i++ ) { sprintf(buf, "Page=%s\n", fPages[ i ].GetAsString().c_str() ); stream->WriteString(buf); } } // Somewhat of an overkill, but I created it, so I better use it. // The really nifty (or scary, depending on your viewpoint) thing is that, since // we only have one section, we can safely use ourselves as the section reader. // Later I might just add section readers with function pointers to avoid this need entirely const char *plAgeDescription::GetSectionName( void ) const { return "AgeInfo"; } bool plAgeDescription::IParseToken( const char *token, hsStringTokenizer *tokenizer, uint32_t userData ) { char *tok; if( !stricmp( token, "StartDateTime" ) ) { if( ( tok = tokenizer->next() ) != nil ) { char buf[11]; strncpy(buf, tok, 10); buf[10] = '\0'; fStart.SetSecs(atoi(buf)); } } else if (!stricmp(token, "DayLength")) { if( ( tok = tokenizer->next() ) != nil ) fDayLength = (float)atof(tok); } else if (!stricmp(token, "Page")) { fPages.Append( plAgePage( tokenizer->GetRestOfString() ) ); if( fPages[ fPages.GetCount() - 1 ].GetSeqSuffix() == plAgePage::kInvalidSeqSuffix ) fPages[ fPages.GetCount() - 1 ].SetSeqSuffix( fPages.GetCount() ); } else if (!stricmp(token, "MaxCapacity")) { if( ( tok = tokenizer->next() ) != nil ) fMaxCapacity = atoi(tok); } else if (!stricmp(token, "LingerTime")) { if( ( tok = tokenizer->next() ) != nil ) fLingerTime = atoi(tok); } else if( !stricmp(token, "SequencePrefix")) { if( ( tok = tokenizer->next() ) != nil ) fSeqPrefix = atoi(tok); } else if( !stricmp(token, "ReleaseVersion")) { if( ( tok = tokenizer->next() ) != nil ) fReleaseVersion = atoi(tok); } return true; } // // Reads the Age Description File // void plAgeDescription::Read(hsStream* stream) { plInitSectionReader *sections[] = { (plInitSectionReader *)this, nil }; plInitFileReader reader( stream, sections ); if( !reader.IsOpen() ) { hsAssert( false, "Unable to open age description file for reading" ); return; } reader.Parse(); reader.Close(); } // // What is the current time in the age (in secs), based on dayLength. // int plAgeDescription::GetAgeTimeOfDaySecs(const plUnifiedTime& earthCurrentTime) const { double elapsedSecs = GetAgeElapsedSeconds(earthCurrentTime); int secsInADay = (int)(fDayLength * 60 * 60); int ageTime = (int)elapsedSecs % secsInADay; return ageTime; } // // What is the current time in the age (from 0-1), based on dayLength. // float plAgeDescription::GetAgeTimeOfDayPercent(const plUnifiedTime& earthCurrentTime) const { double elapsedSecs = GetAgeElapsedSeconds(earthCurrentTime); int secsInADay = (int)(fDayLength * 60 * 60); double ageTime = fmod(elapsedSecs, secsInADay); float percent=(float)(ageTime/secsInADay); if (percent<0.f) percent=0.f; if (percent>1.f) percent=1.f; return percent; } // // How old is the age in days. // double plAgeDescription::GetAgeElapsedDays(plUnifiedTime earthCurrentTime) const { earthCurrentTime.SetMicros(0); // Ignore micros for this calculation double elapsedSecs = GetAgeElapsedSeconds(earthCurrentTime); return elapsedSecs / 60.0 / 60.0 / fDayLength; // days and fractions } // // How many seconds have elapsed since the age was born. or how old is the age (in secs) // double plAgeDescription::GetAgeElapsedSeconds(const plUnifiedTime & earthCurrentTime) const { plUnifiedTime elapsed = earthCurrentTime - fStart; return elapsed.GetSecsDouble(); } // Static functions for the available common pages enum CommonPages { kTextures, kGlobal }; const char *plAgeDescription::GetCommonPage( int pageType ) { hsAssert( pageType < kNumCommonPages, "Invalid page type in GetCommonPage()" ); return fCommonPages[ pageType ]; } void plAgeDescription::AppendCommonPages( void ) { uint32_t startSuffix = 0xffff, i; if( IsGlobalAge() ) return; for( i = 0; i < kNumCommonPages; i++ ) fPages.Append( plAgePage( fCommonPages[ i ], startSuffix - i, 0 ) ); } void plAgeDescription::CopyFrom(const plAgeDescription& other) { IDeInit(); fName = other.GetAgeName(); int i; for(i=0;i