ppsspp/file/chunk_file.cpp

#include "base/logging.h"
#include "file/chunk_file.h"
#include "file/zip_read.h"

//#define CHUNKDEBUG

ChunkFile::ChunkFile(const char *filename, bool _read) {
  data=0;
  fn = filename;
  fastMode=false;
  numLevels=0;
  read=_read;
  pos=0;
  didFail=false;

  fastMode = read ? true : false;

  if (fastMode) {
    size_t size;
    data = (uint8_t *)VFSReadFile(filename, &size);
    if (!data) {
      ELOG("Chunkfile fail: %s", filename);
      didFail = true;
      return;
    }
    eof = size;
    return;
  }

  if (file.open(filename, FILE_WRITE)) {
    didFail=false;
    eof=file.fileSize();
  }  else {
    didFail=true;
    return;
  }
}

ChunkFile::~ChunkFile() {
  if (fastMode && data)
    delete [] data;
  else
    file.close();
}

int ChunkFile::readInt() {
  if (pos<eof) {
    /*
    int temp = *(int *)(data+pos);
    pos+=4;
    */
    pos+=4;
    if (fastMode)
      return *(int *)(data+pos-4);
    else
      return file.readInt();
  }  else {
    return 0;
  }
}

void ChunkFile::writeInt(int i) {
  /*
  *(int *)(data+pos) = i;
  pos+=4;
  */
#ifndef DEMO_VERSION  //if this is missing.. heheh
  file.writeInt(i);
  pos+=4;
#endif
}

//let's get into the business
bool ChunkFile::descend(uint32 id) {
  id=flipID(id);
  if (read) {
    bool found = false;

    //save information to restore after the next Ascend
    stack[numLevels].parentStartLocation = pos;
    stack[numLevels].parentEOF = eof;

    ChunkInfo temp = stack[numLevels];

    int firstID = 0;
    //let's search through children..
    while(pos<eof) {
      stack[numLevels].ID = readInt();
      if (firstID == 0) firstID=stack[numLevels].ID|1;
      stack[numLevels].length = readInt();
      stack[numLevels].startLocation = pos;

      if (stack[numLevels].ID == id)
      {
        found = true;
        break;
      } else {
        seekTo(pos + stack[numLevels].length); //try next block
      }
    } 

    //if we found nothing, return false so the caller can skip this
    if (!found) {
#ifdef CHUNKDEBUG
      ILOG("Couldn't find %c%c%c%c", id, id>>8, id>>16, id>>24);
#endif
      stack[numLevels]=temp;
      seekTo(stack[numLevels].parentStartLocation);
      return false;
    }

    //descend into it
    //pos was set inside the loop above
    eof = stack[numLevels].startLocation + stack[numLevels].length;
    numLevels++;
#ifdef CHUNKDEBUG
    ILOG("Descended into %c%c%c%c", id, id>>8, id>>16, id>>24);
#endif
    return true;
  } else {
#ifndef DEMO_VERSION  //if this is missing.. heheh
    //write a chunk id, and prepare for filling in length later
    writeInt(id);
    writeInt(0); //will be filled in by Ascend
    stack[numLevels].startLocation=pos;
    numLevels++;
    return true;
#else
    return true;
#endif
  }
}

void ChunkFile::seekTo(int _pos) {
  if (!fastMode)
    file.seekBeg(_pos);
  pos=_pos;
}

//let's ascend out
void ChunkFile::ascend() {
  if (read) {
    //ascend, and restore information
    numLevels--;
    seekTo(stack[numLevels].parentStartLocation);
    eof = stack[numLevels].parentEOF;
#ifdef CHUNKDEBUG
    int id = stack[numLevels].ID;
    ILOG("Ascended out of %c%c%c%c", id, id>>8, id>>16, id>>24);
#endif
    } else {
    numLevels--;
    //now fill in the written length automatically
    int posNow = pos;
    seekTo(stack[numLevels].startLocation - 4);
    writeInt(posNow-stack[numLevels].startLocation);
    seekTo(posNow);
  }
}

//read a block
void ChunkFile::readData(void *what, int count) {
  if (fastMode)
    memcpy(what, data + pos, count);
  else
    file.read(what,count);

  pos+=count;
  char temp[4]; //discarded
  count &= 3;
  if (count) {
    count=4-count;
    if (!fastMode)
      file.read(temp,count);
    pos+=count;
  }
}

//write a block
void ChunkFile::writeData(const void *what, int count) {
  file.write(what, count);
  pos+=count;
  char temp[5]={0,0,0,0,0};
  count &= 3; 
  if (count)
  {
    count=4-count;
    file.write(temp,count);
    pos+=count;
  }
}

/*
void ChunkFile::writeWString(String str) {
  wchar_t *text;
  int len=str.length();
#ifdef UNICODE
#error
  text = str.getPointer();
#else
  text = new wchar_t[len+1];
  str.toUnicode(text);
#endif
  writeInt(len);
  writeData((char *)text, len * sizeof(wchar_t));
#ifndef UNICODE
  delete [] text;
#endif
}
*/

void ChunkFile::writeWString(const std::string &str) {
  unsigned short *text;
  int len=str.length();
#ifdef UNICODE
#error
  text = str.c_str();
#else
  text = new unsigned short[len+1];
  for (int i=0; i<len; i++)
    text[i]=str[i];
  text[len]=0;
#endif
  writeInt(len);
  writeData((char *)text, len * sizeof(unsigned short));
#ifndef UNICODE
  delete [] text;
#endif
}

static void toUnicode(const std::string &str, uint16 *t) {
  for (int i=0; i<(int)str.size(); i++) {
    *t++ = str[i];
  }
  *t++ = '\0';
}

static std::string fromUnicode(const uint16_t *src, int len) {
  std::string str;
  str.resize(len);
  for (int i=0; i<len; i++) {
    str[i] = i > 255 ? ' ' : i;
  }
  return str;
}

std::string ChunkFile::readWString() {
  int len=readInt();
  uint16_t *text = new uint16_t[len+1];
  readData((char *)text, len*sizeof(uint16_t));
  text[len] = 0;
  std::string temp = fromUnicode(text, len);
  delete [] text;
  return temp;
}

void ChunkFile::writeString(const std::string &str) {
  uint16_t *text;
  int len = str.size();
  text=new uint16_t[len+1];
  toUnicode(str, text);
  writeInt(len);
  writeData((char *)text,len*sizeof(uint16_t));
  delete [] text;
}

std::string ChunkFile::readString() {
  int len=readInt();
  uint16_t *text = new uint16_t[len+1];
  readData((char *)text,len*sizeof(uint16_t));
  text[len]=0;
  std::string temp = fromUnicode(text, len);
  delete [] text;
  return temp;
}
int ChunkFile::getCurrentChunkSize() {
  if (numLevels)
    return stack[numLevels-1].length;
  else
    return 0;
}