reactos/sdk/tools/txt2nls/main.cpp
William Kent 0ebad9f3c5
[TXT2NLS] Use delete[] to deallocate new[] output (#4022)
Per AppleClang 13.0 warning.
2022-05-05 17:21:54 +02:00

547 lines
18 KiB
C++

/*
* PROJECT: ReactOS TXT to NLS Converter
* LICENSE: GPL-2.0-or-later (https://spdx.org/licenses/GPL-2.0-or-later.html)
* FILE: sdk/tools/txt2nls/main.c
* COPYRIGHT: Copyright 2021 Jérôme Gardou <jerome.gardou@reactos.org>
*/
#include <iostream>
#include <fstream>
#include <limits>
#include <vector>
#include <cstring>
#include <string>
static const char whitespaces[] = " \t\f\v\n\r";
static long line_number = -1;
#pragma pack(push, 1)
#define MAXIMUM_LEADBYTES 12
struct NLS_FILE_HEADER
{
uint16_t HeaderSize;
uint16_t CodePage;
uint16_t MaximumCharacterSize;
uint16_t DefaultChar;
uint16_t UniDefaultChar;
uint16_t TransDefaultChar;
uint16_t TransUniDefaultChar;
uint8_t LeadByte[MAXIMUM_LEADBYTES];
};
static_assert(sizeof(NLS_FILE_HEADER) == 26, "Wrong size for NLS_FILE_HEADER");
#pragma pack(pop)
static std::istream& get_clean_line(std::istream& stream, std::string& str)
{
do
{
std::istream& ret = std::getline(stream, str);
if (!ret)
return ret;
/* Ignore comments */
std::size_t comment_pos = str.find_first_of(';');
if (comment_pos != std::string::npos)
{
str.erase(comment_pos);
}
/* Remove trailing spaces */
std::size_t end_of_line = str.find_last_not_of(whitespaces);
if (end_of_line != std::string::npos)
str.erase(end_of_line + 1);
else
str.clear();
line_number++;
} while (str.empty());
return stream;
}
static void tokenize(std::string& str, std::string& token)
{
std::size_t token_start = str.find_first_not_of(whitespaces);
if (token_start == std::string::npos)
{
token = "";
str.clear();
return;
}
std::size_t token_end = str.find_first_of(whitespaces, token_start);
if (token_end == std::string::npos)
{
token = str.substr(token_start);
str.clear();
return;
}
token = str.substr(token_start, token_end);
str.erase(0, str.find_first_not_of(whitespaces, token_end));
}
template<typename T>
static void tokenize(std::string& str, T& int_token, int base = 0)
{
std::string token;
tokenize(str, token);
long val;
val = std::stol(token, nullptr, base);
if ((val > std::numeric_limits<T>::max()) || (val < std::numeric_limits<T>::min()))
throw std::invalid_argument(token + " does not fit range ["
+ std::to_string(std::numeric_limits<T>::min()) + ":" + std::to_string(std::numeric_limits<T>::max()) + "]");
int_token = val;
}
void error(const std::string& err)
{
std::cerr << "Error parsing line " << line_number <<": " << err << std::endl;
std::exit(1);
}
int main(int argc, char* argv[])
{
if (argc != 3)
{
std::cerr << "Usage: " << argv[0] << " <txt_in> <nls_out>" << std::endl;
return 1;
}
std::ifstream input(argv[1]);
if (!input.is_open())
{
std::cerr << "Unable to open " << argv[1] << std::endl;
return 1;
}
NLS_FILE_HEADER FileHeader;
memset(&FileHeader, 0, sizeof(FileHeader));
std::string curr_line;
// Get code page
if (!get_clean_line(input, curr_line))
{
std::cerr << "ERROR: File is empty" << std::endl;
return 1;
}
std::string token;
tokenize(curr_line, token);
if (token != "CODEPAGE")
error("expected CODEPAGE, got \"" + token + "\" instead");
try
{
tokenize(curr_line, FileHeader.CodePage, 10);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (!curr_line.empty())
error("Garbage after CODEPAGE statement: \"" + curr_line + "\"");
/* Get CPINFO */
if (!get_clean_line(input, curr_line))
error("Nothing after CODEPAGE statement");
tokenize(curr_line, token);
if (token != "CPINFO")
error("Expected CPINFO, got \"" + token + "\" instead");
try
{
tokenize(curr_line, FileHeader.MaximumCharacterSize);
tokenize(curr_line, FileHeader.DefaultChar);
tokenize(curr_line, FileHeader.UniDefaultChar);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
return 1;
}
if (!curr_line.empty())
error("Garbage after CPINFO statement: \"" + curr_line + "\"");
if ((FileHeader.MaximumCharacterSize != 1) && (FileHeader.MaximumCharacterSize != 2))
error("Expected 1 or 2 as max char size in CPINFO, got \"" + std::to_string(FileHeader.MaximumCharacterSize) + "\" instead");
if ((FileHeader.MaximumCharacterSize == 1) && (FileHeader.DefaultChar > std::numeric_limits<uint8_t>::max()))
error("Default MB character " + std::to_string(FileHeader.DefaultChar) + " doesn't fit in a 8-bit value");
/* Setup tables & default values */
bool has_mbtable = false;
uint16_t mb_table[256] = {0};
bool has_wctable = false;
uint8_t* wc_table = new uint8_t[65536 * FileHeader.MaximumCharacterSize];
if (FileHeader.MaximumCharacterSize == 1)
{
for (int i = 0; i < 65536; i++)
wc_table[i] = FileHeader.DefaultChar;
}
else
{
uint16_t* wc_table_dbcs = reinterpret_cast<uint16_t*>(wc_table);
for (int i = 0; i < 65536; i++)
wc_table_dbcs[i] = FileHeader.DefaultChar;
}
std::vector<uint16_t> dbcs_table;
uint16_t lb_offsets[256] = {0};
uint16_t dbcs_range_count = 0;
uint16_t glyph_table[256] = {0};
bool has_glyphs = false;
/* Now parse */
while (get_clean_line(input, curr_line))
{
tokenize(curr_line, token);
if (token == "ENDCODEPAGE")
{
if (!curr_line.empty())
error("Garbage after ENDCODEPAGE statement: \"" + curr_line + "\"");
break;
}
else if (token == "MBTABLE")
{
uint16_t table_size;
try
{
tokenize(curr_line, table_size);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (has_mbtable)
error("MBTABLE can only be declared once");
if (table_size > 256)
error("MBTABLE size can't be larger than 256");
if (!curr_line.empty())
error("Garbage after MBTABLE statement: \"" + curr_line + "\"");
has_mbtable = true;
while (table_size--)
{
if (!get_clean_line(input, curr_line))
error("Expected " + std::to_string(table_size + 1) + " more lines after MBTABLE token");
uint8_t mb;
uint16_t wc;
try
{
tokenize(curr_line, mb);
tokenize(curr_line, wc);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (!curr_line.empty())
error("Garbage after MBTABLE entry: \"" + curr_line + "\"");
mb_table[mb] = wc;
}
}
else if (token == "WCTABLE")
{
uint32_t table_size;
try
{
tokenize(curr_line, table_size);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (has_wctable)
error("WCTABLE can only be declared once");
if (!curr_line.empty())
error("Garbage after WCTABLE statement: \"" + curr_line + "\"");
if (table_size > 65536)
error("WCTABLE size can't be larger than 65536");
has_wctable = true;
if (FileHeader.MaximumCharacterSize == 1)
{
while (table_size--)
{
if (!get_clean_line(input, curr_line))
error("Expected " + std::to_string(table_size + 1) + " more lines after WCTABLE token");
uint8_t mb;
uint16_t wc;
try
{
tokenize(curr_line, wc);
tokenize(curr_line, mb);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (!curr_line.empty())
error("Garbage after WCTABLE entry: \"" + curr_line + "\"");
wc_table[wc] = mb;
}
}
else
{
uint16_t* wc_table_dbcs = reinterpret_cast<uint16_t*>(wc_table);
while (table_size--)
{
if (!get_clean_line(input, curr_line))
error("Expected " + std::to_string(table_size + 1) + " more lines after WCTABLE token");
uint16_t mb;
uint16_t wc;
try
{
tokenize(curr_line, wc);
tokenize(curr_line, mb);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (!curr_line.empty())
error("Garbage after MBTABLE entry: \"" + curr_line + "\"");
wc_table_dbcs[wc] = mb;
}
}
}
else if (token == "DBCSRANGE")
{
if (dbcs_range_count != 0)
error("DBCSRANGE can only be declared once");
try
{
tokenize(curr_line, dbcs_range_count);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (dbcs_range_count > (MAXIMUM_LEADBYTES / 2))
error("DBCSRANGE count can't exceed " + std::to_string(MAXIMUM_LEADBYTES / 2));
if (!curr_line.empty())
error("Garbage after DBCSRANGE token");
std::size_t current_offset = 0;
uint16_t range_count = dbcs_range_count;
uint16_t current_range = 0;
while (range_count--)
{
if (!get_clean_line(input, curr_line))
error("Expected new range after DBCSRANGE");
uint8_t RangeStart, RangeEnd;
try
{
tokenize(curr_line, RangeStart);
tokenize(curr_line, RangeEnd);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (!curr_line.empty())
error("Garbage after DBCS range declaration");
if (RangeStart > RangeEnd)
error("Invalid range specified for DBCSRANGE");
FileHeader.LeadByte[current_range*2] = RangeStart;
FileHeader.LeadByte[current_range*2+1] = RangeEnd;
current_range++;
dbcs_table.resize(dbcs_table.size() + 256 * (RangeEnd - RangeStart + 1), FileHeader.UniDefaultChar);
for (uint8_t LeadByte = RangeStart; LeadByte <= RangeEnd; LeadByte++)
{
if (!get_clean_line(input, curr_line))
error("Expected new DBCSTABLE after DBCS range declaration");
tokenize(curr_line, token);
if (token != "DBCSTABLE")
error("Expected new DBCSTABLE after DBCS range declaration");
uint16_t table_size;
try
{
tokenize(curr_line, table_size);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (table_size > 256)
error("DBCSTABLE can't have more than 256 entries");
while (table_size--)
{
if (!get_clean_line(input, curr_line))
error("Expected " + std::to_string(table_size + 1) + " more lines after DBCSTABLE token");
uint8_t mb;
uint16_t wc;
try
{
tokenize(curr_line, mb);
tokenize(curr_line, wc);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (!curr_line.empty())
error("Garbage after DBCSTABLE entry: \"" + curr_line + "\"");
dbcs_table[current_offset + mb] = wc;
}
current_offset += 256;
/* Offsets start at 256 for the offset table. */
lb_offsets[LeadByte] = current_offset;
}
}
}
else if (token == "GLYPHTABLE")
{
uint16_t table_size;
try
{
tokenize(curr_line, table_size);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (has_glyphs)
error("GLYPHTABLE can only be declared once");
if (table_size > 256)
error("GLYPHTABLE size can't be larger than 256");
if (!curr_line.empty())
error("Garbage after GLYPHTABLE statement: \"" + curr_line + "\"");
has_glyphs = true;
while (table_size--)
{
if (!get_clean_line(input, curr_line))
error("Expected " + std::to_string(table_size + 1) + " more lines after GLYPHTABLE token");
uint8_t mb;
uint16_t wc;
try
{
tokenize(curr_line, mb);
tokenize(curr_line, wc);
}
catch(const std::invalid_argument& ia)
{
error(ia.what());
}
if (!curr_line.empty())
error("Garbage after GLYPHTABLE entry: \"" + curr_line + "\"");
glyph_table[mb] = wc;
}
}
else
{
error("Unexpected token \"" + token + "\"");
}
}
if (token != "ENDCODEPAGE")
error("Expected last token to be \"ENDCODEPAGE\"");
input.close();
/* Ensure this is minimally workable */
if (!has_mbtable)
error("File has no MBTABLE statement");
if (!has_wctable)
error("File has no WCTABLE statement");
/* Glyph table fixup */
if (has_glyphs)
{
for(int i = 0; i < 256; i++)
{
if (glyph_table[i] == 0)
glyph_table[i] = mb_table[i];
}
}
/* Translated default char fixup */
if (FileHeader.MaximumCharacterSize == 1)
{
FileHeader.TransDefaultChar = mb_table[FileHeader.DefaultChar];
FileHeader.TransUniDefaultChar = wc_table[FileHeader.UniDefaultChar];
}
else
{
if (FileHeader.DefaultChar > 0xFF)
{
uint16_t offset = lb_offsets[FileHeader.DefaultChar >> 8];
if (!offset)
error("Default MB char is not translatable!");
FileHeader.TransDefaultChar = dbcs_table[(FileHeader.DefaultChar & 0xFF) + (offset - 256)];
}
else
{
FileHeader.TransDefaultChar = mb_table[FileHeader.DefaultChar];
}
uint16_t* wc_table_dbcs = reinterpret_cast<uint16_t*>(wc_table);
FileHeader.TransUniDefaultChar = wc_table_dbcs[FileHeader.UniDefaultChar];
}
FileHeader.HeaderSize = sizeof(NLS_FILE_HEADER) / sizeof(uint16_t);
std::ofstream output(argv[2], std::ios_base::binary);
output.write(reinterpret_cast<char*>(&FileHeader), sizeof(FileHeader));
uint16_t wc_table_offset = sizeof(mb_table) / sizeof(uint16_t)
+ 1 /* size of glyph table */
+ (has_glyphs ? 256 : 0) /* Glyph table */
+ 1 /* Number of DBCS LeadByte ranges */
+ (dbcs_range_count ? 256 : 0) /* offsets of lead byte sub tables */
+ dbcs_table.size() /* LeadByte sub tables */
+ 1; /* Unknown flag */
output.write(reinterpret_cast<char*>(&wc_table_offset), sizeof(wc_table_offset));
output.write(reinterpret_cast<char*>(mb_table), sizeof(mb_table));
uint16_t glyph_table_size = has_glyphs ? 256 : 0;
output.write(reinterpret_cast<char*>(&glyph_table_size), sizeof(glyph_table_size));
if (has_glyphs)
output.write(reinterpret_cast<char*>(glyph_table), sizeof(glyph_table));
output.write(reinterpret_cast<char*>(&dbcs_range_count), sizeof(dbcs_range_count));
if (dbcs_range_count)
{
output.write(reinterpret_cast<char*>(lb_offsets), sizeof(lb_offsets));
}
if (dbcs_table.size())
{
output.write(reinterpret_cast<char*>(dbcs_table.data()), dbcs_table.size() * sizeof(uint16_t));
}
uint16_t unknown_flag = FileHeader.MaximumCharacterSize == 1 ? 0 : 4;
output.write(reinterpret_cast<char*>(&unknown_flag), sizeof(unknown_flag));
output.write(reinterpret_cast<char*>(wc_table), 65536 * FileHeader.MaximumCharacterSize);
output.close();
delete[] wc_table;
return 0;
}