bsnes/ananke/nall/mosaic/context.hpp

#ifdef NALL_MOSAIC_INTERNAL_HPP

namespace nall {
namespace mosaic {

struct context {
  unsigned offset;
  unsigned width;
  unsigned height;
  unsigned count;

  bool endian;     //0 = lsb, 1 = msb
  bool order;      //0 = linear, 1 = planar
  unsigned depth;  //1 - 24bpp

  unsigned blockWidth;
  unsigned blockHeight;
  unsigned blockStride;
  unsigned blockOffset;
  vector<unsigned> block;

  unsigned tileWidth;
  unsigned tileHeight;
  unsigned tileStride;
  unsigned tileOffset;
  vector<unsigned> tile;

  unsigned mosaicWidth;
  unsigned mosaicHeight;
  unsigned mosaicStride;
  unsigned mosaicOffset;
  vector<unsigned> mosaic;

  unsigned paddingWidth;
  unsigned paddingHeight;
  unsigned paddingColor;
  vector<unsigned> palette;

  inline unsigned objectWidth() const { return blockWidth * tileWidth * mosaicWidth + paddingWidth; }
  inline unsigned objectHeight() const { return blockHeight * tileHeight * mosaicHeight + paddingHeight; }
  inline unsigned objectSize() const {
    unsigned size = blockStride * tileWidth * tileHeight * mosaicWidth * mosaicHeight
                  + blockOffset * tileHeight * mosaicWidth * mosaicHeight
                  + tileStride * mosaicWidth * mosaicHeight
                  + tileOffset * mosaicHeight;
    return max(1u, size);
  }

  inline unsigned eval(const string &expression) {
    intmax_t result;
    if(fixedpoint::eval(expression, result) == false) return 0u;
    return result;
  }

  inline void eval(vector<unsigned> &buffer, const string &expression_) {
    string expression = expression_;
    bool function = false;
    for(auto &c : expression) {
      if(c == '(') function = true;
      if(c == ')') function = false;
      if(c == ',' && function == true) c = ';';
    }

    lstring list = expression.split(",");
    for(auto &item : list) {
      item.trim();
      if(item.wildcard("f(?*) ?*")) {
        item.ltrim<1>("f(");
        lstring part = item.split<1>(") ");
        lstring args = part[0].split<3>(";");
        for(auto &item : args) item.trim();

        unsigned length = eval(args(0, "0"));
        unsigned offset = eval(args(1, "0"));
        unsigned stride = eval(args(2, "0"));
        if(args.size() < 2) offset = buffer.size();
        if(args.size() < 3) stride = 1;

        for(unsigned n = 0; n < length; n++) {
          string fn = part[1];
          fn.replace("n", decimal(n));
          fn.replace("o", decimal(offset));
          fn.replace("p", decimal(buffer.size()));
          buffer.resize(offset + 1);
          buffer[offset] = eval(fn);
          offset += stride;
        }
      } else if(item.wildcard("base64*")) {
        unsigned offset = 0;
        item.ltrim<1>("base64");
        if(item.wildcard("(?*) *")) {
          item.ltrim<1>("(");
          lstring part = item.split<1>(") ");
          offset = eval(part[0]);
          item = part(1, "");
        }
        item.trim();
        for(auto &c : item) {
          if(c >= 'A' && c <= 'Z') buffer.append(offset + c - 'A' +  0);
          if(c >= 'a' && c <= 'z') buffer.append(offset + c - 'a' + 26);
          if(c >= '0' && c <= '9') buffer.append(offset + c - '0' + 52);
          if(c == '-') buffer.append(offset + 62);
          if(c == '_') buffer.append(offset + 63);
        }
      } else if(item.wildcard("file *")) {
        item.ltrim<1>("file ");
        item.trim();
        //...
      } else if(item.empty() == false) {
        buffer.append(eval(item));
      }
    }
  }

  inline void parse(const string &data) {
    reset();

    lstring lines = data.split("\n");
    for(auto &line : lines) {
      lstring part = line.split<1>(":");
      if(part.size() != 2) continue;
      part[0].trim();
      part[1].trim();

      if(part[0] == "offset") offset = eval(part[1]);
      if(part[0] == "width") width = eval(part[1]);
      if(part[0] == "height") height = eval(part[1]);
      if(part[0] == "count") count = eval(part[1]);

      if(part[0] == "endian") endian = eval(part[1]);
      if(part[0] == "order") order = eval(part[1]);
      if(part[0] == "depth") depth = eval(part[1]);

      if(part[0] == "blockWidth") blockWidth = eval(part[1]);
      if(part[0] == "blockHeight") blockHeight = eval(part[1]);
      if(part[0] == "blockStride") blockStride = eval(part[1]);
      if(part[0] == "blockOffset") blockOffset = eval(part[1]);
      if(part[0] == "block") eval(block, part[1]);

      if(part[0] == "tileWidth") tileWidth = eval(part[1]);
      if(part[0] == "tileHeight") tileHeight = eval(part[1]);
      if(part[0] == "tileStride") tileStride = eval(part[1]);
      if(part[0] == "tileOffset") tileOffset = eval(part[1]);
      if(part[0] == "tile") eval(tile, part[1]);

      if(part[0] == "mosaicWidth") mosaicWidth = eval(part[1]);
      if(part[0] == "mosaicHeight") mosaicHeight = eval(part[1]);
      if(part[0] == "mosaicStride") mosaicStride = eval(part[1]);
      if(part[0] == "mosaicOffset") mosaicOffset = eval(part[1]);
      if(part[0] == "mosaic") eval(mosaic, part[1]);

      if(part[0] == "paddingWidth") paddingWidth = eval(part[1]);
      if(part[0] == "paddingHeight") paddingHeight = eval(part[1]);
      if(part[0] == "paddingColor") paddingColor = eval(part[1]);
      if(part[0] == "palette") eval(palette, part[1]);
    }

    sanitize();
  }

  inline bool load(const string &filename) {
    string filedata;
    if(filedata.readfile(filename) == false) return false;
    parse(filedata);
    return true;
  }

  inline void sanitize() {
    if(depth < 1) depth = 1;
    if(depth > 24) depth = 24;

    if(blockWidth < 1) blockWidth = 1;
    if(blockHeight < 1) blockHeight = 1;

    if(tileWidth < 1) tileWidth = 1;
    if(tileHeight < 1) tileHeight = 1;

    if(mosaicWidth < 1) mosaicWidth = 1;
    if(mosaicHeight < 1) mosaicHeight = 1;
  }

  inline void reset() {
    offset = 0;
    width = 0;
    height = 0;
    count = 0;

    endian = 1;
    order = 0;
    depth = 1;

    blockWidth = 1;
    blockHeight = 1;
    blockStride = 0;
    blockOffset = 0;
    block.reset();

    tileWidth = 1;
    tileHeight = 1;
    tileStride = 0;
    tileOffset = 0;
    tile.reset();

    mosaicWidth = 1;
    mosaicHeight = 1;
    mosaicStride = 0;
    mosaicOffset = 0;
    mosaic.reset();

    paddingWidth = 0;
    paddingHeight = 0;
    paddingColor = 0x000000;
    palette.reset();
  }

  inline context() {
    reset();
  }
};

}
}

#endif