void Parser::LoadFromString(Puzzle * puz, const char * str)
{
std::auto_ptr<pugi::xml_document> doc(new pugi::xml_document);
pugi::xml_parse_result result = doc->load(str);
if (! result)
throw FileTypeError("xml");
if (DoLoadPuzzle(puz, *doc))
doc.release();
}
void bz2ifstream::open(const string &bz2_filename_)
{
close();
bz2_filename = bz2_filename_;
f = fopen(bz2_filename.c_str(), "rb");
if (!f)
throw FileOpenError(bz2_filename);
if (!bzOpen(f, false))
{
fclose(f);
f = NULL;
throw FileTypeError(bz2_filename);
}
}
void gzifstream::open(const string &gz_filename_)
{
close();
gz_filename = gz_filename_;
f = fopen(gz_filename.c_str(), "rb");
if (!f)
throw FileOpenError(gz_filename);
if (!gzOpen(f, false))
{
fclose(f);
f = NULL;
throw FileTypeError(gz_filename);
}
}
void LoadPuz(Puzzle * puz, const std::string & filename, void * /* dummy */)
{
std::ifstream stream(filename.c_str(), std::ios::in | std::ios::binary);
if (stream.fail())
throw FileError(filename);
istream_wrapper f(stream);
const unsigned short c_primary = f.ReadShort();
if (strcmp(f.ReadString(12).c_str(), "ACROSS&DOWN") != 0)
throw FileTypeError("puz");
const unsigned short c_cib = f.ReadShort();
unsigned char c_masked[8];
f.ReadCharArray(c_masked, 8);
// Version is "[major].[minor]\0"
// We can read puzzles of 1.[anything]
std::string versionstr = f.ReadString(4);
if (versionstr[0] != '1' || ! isdigit(versionstr[2]))
throw LoadError("Unknown puz version.");
const unsigned short version = 10 + versionstr[2] - 0x30;
f.Skip(2); // 1 unknown short
const unsigned short c_grid = f.ReadShort();
f.Skip(2 * 6); // 6 noise shorts
const unsigned char width = f.ReadChar();
const unsigned char height = f.ReadChar();
const unsigned short num_clues = f.ReadShort();
const unsigned short grid_type = f.ReadShort();
const unsigned short grid_flag = f.ReadShort();
puz->GetGrid().SetCksum(c_grid);
puz->GetGrid().SetType(grid_type);
puz->GetGrid().SetFlag(grid_flag);
puz->GetGrid().SetSize(width, height);
// Read user text and solution
std::string solution = f.ReadString(width * height);
std::string text = f.ReadString(width * height);
// Set the grid's solution and text
std::string::iterator sol_it = solution.begin();
std::string::iterator text_it = text.begin();
for (Square * square = puz->GetGrid().First();
square != NULL;
square = square->Next())
{
// Solution
if (*sol_it == '.' || *sol_it == ':' && puz->IsDiagramless())
square->SetSolution(puz::Square::Black);
else if (*sol_it == '-')
square->SetSolution(puz::Square::Blank);
else
square->SetSolution(decode_puz(std::string(1, *sol_it)));
++sol_it;
// Text
if (square->IsBlack() && ! puz->IsDiagramless())
square->SetText(puz::Square::Black);
else if (*text_it == '-' || *text_it == 0)
square->SetText(puz::Square::Blank);
else if (puz->IsDiagramless() && (*text_it == '.' || *text_it == ':'))
{
// Black squares in a diagramless puzzle.
if (*text_it == '.')
square->SetText(puz::Square::Black);
else if (*text_it == ':')
square->SetText(puz::Square::Blank);
}
else
{
square->SetText(decode_puz(std::string(1, *text_it)));
if (islower(*text_it))
square->AddFlag(FLAG_PENCIL);
}
++text_it;
}
assert(sol_it == solution.end() && text_it == text.end());
puz->NumberGrid();
// General puzzle info
puz->SetTitle(decode_puz(f.ReadString()));
puz->SetAuthor(decode_puz(f.ReadString()));
puz->SetCopyright(decode_puz(f.ReadString()));
// Clues
std::vector<string_t> clues;
clues.reserve(num_clues);
// Save unaltered clues for the checksums
std::vector<std::string> cksum_clues;
cksum_clues.reserve(num_clues);
for (size_t i = 0; i < num_clues; ++i)
{
cksum_clues.push_back(f.ReadString());
clues.push_back(escape_xml(decode_puz(cksum_clues.back())));
}
puz->SetAllClues(clues);
// Notes
std::string notes = f.ReadString();
puz->SetNotes(escape_xml(decode_puz(notes)));
puz->SetOk(true);
// Try to load the extra sections (i.e. GEXT, LTIM, etc).
try {
LoadSections(puz, f);
}
catch (std::ios::failure &) {
// EOF here doesn't matter.
}
// Don't even bother with the checksums, since we check the validity
// of the puzzle anyways
}
