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* This file is part of OpenTTD.
* OpenTTD 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, version 2.
* OpenTTD 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 OpenTTD. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file strgen_base.cpp Tool to create computer readable (stand-alone) translation files. */
#include "../stdafx.h"
#include "../core/endian_func.hpp"
#include "../string_func.h"
#include "../table/control_codes.h"
#include "strgen.h"
#include "../table/strgen_tables.h"
#include "../safeguards.h"
/* Compiles a list of strings into a compiled string list */
static bool _translated; ///< Whether the current language is not the master language
static bool _translation; ///< Is the current file actually a translation or not
const char *_file = "(unknown file)"; ///< The filename of the input, so we can refer to it in errors/warnings
int _cur_line; ///< The current line we're parsing in the input file
int _errors, _warnings, _show_todo;
LanguagePackHeader _lang; ///< Header information about a language.
static const ptrdiff_t MAX_COMMAND_PARAM_SIZE = 100; ///< Maximum size of every command block, not counting the name of the command itself
static const CmdStruct *ParseCommandString(const char **str, char *param, int *argno, int *casei);
/**
* Create a new case.
* @param caseidx The index of the case.
* @param string The translation of the case.
* @param next The next chained case.
*/
Case::Case(int caseidx, const char *string, Case *next) :
caseidx(caseidx), string(stredup(string)), next(next)
{
}
/** Free everything we allocated. */
Case::~Case()
{
free(this->string);
delete this->next;
}
/**
* Create a new string.
* @param name The name of the string.
* @param english The english "translation" of the string.
* @param index The index in the string table.
* @param line The line this string was found on.
*/
LangString::LangString(const char *name, const char *english, size_t index, int line) :
name(stredup(name)), english(stredup(english)), translated(nullptr),
hash_next(0), index(index), line(line), translated_case(nullptr)
{
}
/** Free everything we allocated. */
LangString::~LangString()
{
free(this->name);
free(this->english);
free(this->translated);
delete this->translated_case;
}
/** Free all data related to the translation. */
void LangString::FreeTranslation()
{
free(this->translated);
this->translated = nullptr;
delete this->translated_case;
this->translated_case = nullptr;
}
/**
* Create a new string data container.
* @param tabs The maximum number of strings.
*/
StringData::StringData(size_t tabs) : tabs(tabs), max_strings(tabs * TAB_SIZE)
{
this->strings = CallocT<LangString *>(max_strings);
this->hash_heads = CallocT<size_t>(max_strings);
this->next_string_id = 0;
}
/** Free everything we allocated. */
StringData::~StringData()
{
for (size_t i = 0; i < this->max_strings; i++) delete this->strings[i];
free(this->strings);
free(this->hash_heads);
}
/** Free all data related to the translation. */
void StringData::FreeTranslation()
{
for (size_t i = 0; i < this->max_strings; i++) {
LangString *ls = this->strings[i];
if (ls != nullptr) ls->FreeTranslation();
}
}
/**
* Create a hash of the string for finding them back quickly.
* @param s The string to hash.
* @return The hashed string.
*/
uint StringData::HashStr(const char *s) const
{
uint hash = 0;
for (; *s != '\0'; s++) hash = ROL(hash, 3) ^ *s;
return hash % this->max_strings;
}
/**
* Add a newly created LangString.
* @param s The name of the string.
* @param ls The string to add.
*/
void StringData::Add(const char *s, LangString *ls)
{
uint hash = this->HashStr(s);
ls->hash_next = this->hash_heads[hash];
/* Off-by-one for hash find. */
this->hash_heads[hash] = ls->index + 1;
this->strings[ls->index] = ls;
}
/**
* Find a LangString based on the string name.
* @param s The string name to search on.
* @return The LangString or nullptr if it is not known.
*/
LangString *StringData::Find(const char *s)
{
size_t idx = this->hash_heads[this->HashStr(s)];
while (idx-- > 0) {
LangString *ls = this->strings[idx];
if (strcmp(ls->name, s) == 0) return ls;
idx = ls->hash_next;
}
return nullptr;
}
/**
* Create a compound hash.
* @param hash The hash to add the string hash to.
* @param s The string hash.
* @return The new hash.
*/
uint StringData::VersionHashStr(uint hash, const char *s) const
{
for (; *s != '\0'; s++) {
hash = ROL(hash, 3) ^ *s;
hash = (hash & 1 ? hash >> 1 ^ 0xDEADBEEF : hash >> 1);
}
return hash;
}
/**
* Make a hash of the file to get a unique "version number"
* @return The version number.
*/
uint StringData::Version() const
{
uint hash = 0;
for (size_t i = 0; i < this->max_strings; i++) {
const LangString *ls = this->strings[i];
if (ls != nullptr) {
const CmdStruct *cs;
const char *s;
char buf[MAX_COMMAND_PARAM_SIZE];
int argno;
int casei;
s = ls->name;
hash ^= i * 0x717239;
hash = (hash & 1 ? hash >> 1 ^ 0xDEADBEEF : hash >> 1);
hash = this->VersionHashStr(hash, s + 1);
s = ls->english;
while ((cs = ParseCommandString(&s, buf, &argno, &casei)) != nullptr) {
if (cs->flags & C_DONTCOUNT) continue;
hash ^= (cs - _cmd_structs) * 0x1234567;
hash = (hash & 1 ? hash >> 1 ^ 0xF00BAA4 : hash >> 1);
}
}
}
return hash;
}
/**
* Count the number of tab elements that are in use.
* @param tab The tab to count the elements of.
*/
uint StringData::CountInUse(uint tab) const
{
int i;
for (i = TAB_SIZE; --i >= 0;) if (this->strings[(tab * TAB_SIZE) + i] != nullptr) break;
return i + 1;
}
static const char *_cur_ident;
struct CmdPair {
const CmdStruct *a;
const char *v;
};
struct ParsedCommandStruct {
uint np;
CmdPair pairs[32];
const CmdStruct *cmd[32]; // ordered by param #
};
/* Used when generating some advanced commands. */
static ParsedCommandStruct _cur_pcs;
static int _cur_argidx;
/** The buffer for writing a single string. */
struct Buffer : std::vector<byte> {
/**
* Convenience method for adding a byte.
* @param value The value to add.
*/
void AppendByte(byte value)
{
this->push_back(value);
}
/**
* Add an Unicode character encoded in UTF-8 to the buffer.
* @param value The character to add.
*/
void AppendUtf8(uint32 value)
{
if (value < 0x80) {
this->push_back(value);
} else if (value < 0x800) {
this->push_back(0xC0 + GB(value, 6, 5));
this->push_back(0x80 + GB(value, 0, 6));
} else if (value < 0x10000) {
this->push_back(0xE0 + GB(value, 12, 4));
this->push_back(0x80 + GB(value, 6, 6));
this->push_back(0x80 + GB(value, 0, 6));
} else if (value < 0x110000) {
this->push_back(0xF0 + GB(value, 18, 3));
this->push_back(0x80 + GB(value, 12, 6));
this->push_back(0x80 + GB(value, 6, 6));
this->push_back(0x80 + GB(value, 0, 6));
} else {
strgen_warning("Invalid unicode value U+0x%X", value);
}
}
};
size_t Utf8Validate(const char *s)
{
uint32 c;
if (!HasBit(s[0], 7)) {
/* 1 byte */
return 1;
} else if (GB(s[0], 5, 3) == 6 && IsUtf8Part(s[1])) {
/* 2 bytes */
c = GB(s[0], 0, 5) << 6 | GB(s[1], 0, 6);
if (c >= 0x80) return 2;
} else if (GB(s[0], 4, 4) == 14 && IsUtf8Part(s[1]) && IsUtf8Part(s[2])) {
/* 3 bytes */
c = GB(s[0], 0, 4) << 12 | GB(s[1], 0, 6) << 6 | GB(s[2], 0, 6);
if (c >= 0x800) return 3;
} else if (GB(s[0], 3, 5) == 30 && IsUtf8Part(s[1]) && IsUtf8Part(s[2]) && IsUtf8Part(s[3])) {
/* 4 bytes */
c = GB(s[0], 0, 3) << 18 | GB(s[1], 0, 6) << 12 | GB(s[2], 0, 6) << 6 | GB(s[3], 0, 6);
if (c >= 0x10000 && c <= 0x10FFFF) return 4;
}
return 0;
}
void EmitSingleChar(Buffer *buffer, char *buf, int value)
{
if (*buf != '\0') strgen_warning("Ignoring trailing letters in command");
buffer->AppendUtf8(value);
}
/* The plural specifier looks like
* {NUM} {PLURAL -1 passenger passengers} then it picks either passenger/passengers depending on the count in NUM */
/* This is encoded like
* CommandByte <ARG#> <NUM> {Length of each string} {each string} */
bool ParseRelNum(char **buf, int *value, int *offset)
{
const char *s = *buf;
char *end;
bool rel = false;
while (*s == ' ' || *s == '\t') s++;
if (*s == '+') {
rel = true;
s++;
}
int v = strtol(s, &end, 0);
if (end == s) return false;
if (rel || v < 0) {
*value += v;
} else {
*value = v;
}
if (offset != nullptr && *end == ':') {
/* Take the Nth within */
s = end + 1;
*offset = strtol(s, &end, 0);
if (end == s) return false;
}
*buf = end;
return true;
}
/* Parse out the next word, or nullptr */
char *ParseWord(char **buf)
{
char *s = *buf, *r;
while (*s == ' ' || *s == '\t') s++;
if (*s == '\0') return nullptr;
if (*s == '"') {
r = ++s;
/* parse until next " or NUL */
for (;;) {
if (*s == '\0') break;
if (*s == '"') {
*s++ = '\0';
break;
}
s++;
}
} else {
/* proceed until whitespace or NUL */
r = s;
for (;;) {
if (*s == '\0') break;
if (*s == ' ' || *s == '\t') {
*s++ = '\0';
break;
}
s++;
}
}
*buf = s;
return r;
}
/* Forward declaration */
static int TranslateArgumentIdx(int arg, int offset = 0);
static void EmitWordList(Buffer *buffer, const char * const *words, uint nw)
{
buffer->AppendByte(nw);
for (uint i = 0; i < nw; i++) buffer->AppendByte((byte)strlen(words[i]) + 1);
for (uint i = 0; i < nw; i++) {
for (uint j = 0; words[i][j] != '\0'; j++) buffer->AppendByte(words[i][j]);
buffer->AppendByte(0);
}
}
void EmitPlural(Buffer *buffer, char *buf, int value)
{
int argidx = _cur_argidx;
int offset = -1;
int expected = _plural_forms[_lang.plural_form].plural_count;
const char **words = AllocaM(const char *, std::max(expected, MAX_PLURALS));
int nw = 0;
/* Parse out the number, if one exists. Otherwise default to prev arg. */
if (!ParseRelNum(&buf, &argidx, &offset)) argidx--;
const CmdStruct *cmd = _cur_pcs.cmd[argidx];
if (offset == -1) {
/* Use default offset */
if (cmd == nullptr || cmd->default_plural_offset < 0) {
strgen_fatal("Command '%s' has no (default) plural position", cmd == nullptr ? "<empty>" : cmd->cmd);
}
offset = cmd->default_plural_offset;
}
/* Parse each string */
for (nw = 0; nw < MAX_PLURALS; nw++) {
words[nw] = ParseWord(&buf);
if (words[nw] == nullptr) break;
}
if (nw == 0) {
strgen_fatal("%s: No plural words", _cur_ident);
}
if (expected != nw) {
if (_translated) {
strgen_fatal("%s: Invalid number of plural forms. Expecting %d, found %d.", _cur_ident,
expected, nw);
} else {
if ((_show_todo & 2) != 0) strgen_warning("'%s' is untranslated. Tweaking english string to allow compilation for plural forms", _cur_ident);
if (nw > expected) {
nw = expected;
} else {
for (; nw < expected; nw++) {
words[nw] = words[nw - 1];
}
}
}
}
buffer->AppendUtf8(SCC_PLURAL_LIST);
buffer->AppendByte(_lang.plural_form);
buffer->AppendByte(TranslateArgumentIdx(argidx, offset));
EmitWordList(buffer, words, nw);
}
void EmitGender(Buffer *buffer, char *buf, int value)
{
int argidx = _cur_argidx;
int offset = 0;
uint nw;
if (buf[0] == '=') {
buf++;
/* This is a {G=DER} command */
nw = _lang.GetGenderIndex(buf);
if (nw >= MAX_NUM_GENDERS) strgen_fatal("G argument '%s' invalid", buf);
/* now nw contains the gender index */
buffer->AppendUtf8(SCC_GENDER_INDEX);
buffer->AppendByte(nw);
} else {
const char *words[MAX_NUM_GENDERS];
/* This is a {G 0 foo bar two} command.
* If no relative number exists, default to +0 */
ParseRelNum(&buf, &argidx, &offset);
const CmdStruct *cmd = _cur_pcs.cmd[argidx];
if (cmd == nullptr || (cmd->flags & C_GENDER) == 0) {
strgen_fatal("Command '%s' can't have a gender", cmd == nullptr ? "<empty>" : cmd->cmd);
}
for (nw = 0; nw < MAX_NUM_GENDERS; nw++) {
words[nw] = ParseWord(&buf);
if (words[nw] == nullptr) break;
}
if (nw != _lang.num_genders) strgen_fatal("Bad # of arguments for gender command");
assert(IsInsideBS(cmd->value, SCC_CONTROL_START, UINT8_MAX));
buffer->AppendUtf8(SCC_GENDER_LIST);
buffer->AppendByte(TranslateArgumentIdx(argidx, offset));
EmitWordList(buffer, words, nw);
}
}
static const CmdStruct *FindCmd(const char *s, int len)
{
for (const CmdStruct *cs = _cmd_structs; cs != endof(_cmd_structs); cs++) {
if (strncmp(cs->cmd, s, len) == 0 && cs->cmd[len] == '\0') return cs;
}
return nullptr;
}
static uint ResolveCaseName(const char *str, size_t len)
{
/* First get a clean copy of only the case name, then resolve it. */
char case_str[CASE_GENDER_LEN];
len = std::min(lengthof(case_str) - 1, len);
memcpy(case_str, str, len);
case_str[len] = '\0';
uint8 case_idx = _lang.GetCaseIndex(case_str);
if (case_idx >= MAX_NUM_CASES) strgen_fatal("Invalid case-name '%s'", case_str);
return case_idx + 1;
}
/* returns nullptr on eof
* else returns command struct */
static const CmdStruct *ParseCommandString(const char **str, char *param, int *argno, int *casei)
{
const char *s = *str, *start;
char c;
*argno = -1;
*casei = -1;
/* Scan to the next command, exit if there's no next command. */
for (; *s != '{'; s++) {
if (*s == '\0') return nullptr;
}
s++; // Skip past the {
if (*s >= '0' && *s <= '9') {
char *end;
*argno = strtoul(s, &end, 0);
if (*end != ':') strgen_fatal("missing arg #");
s = end + 1;
}
/* parse command name */
start = s;
do {
c = *s++;
} while (c != '}' && c != ' ' && c != '=' && c != '.' && c != 0);
const CmdStruct *cmd = FindCmd(start, s - start - 1);
if (cmd == nullptr) {
strgen_error("Undefined command '%.*s'", (int)(s - start - 1), start);
return nullptr;
}
if (c == '.') {
const char *casep = s;
if (!(cmd->flags & C_CASE)) {
strgen_fatal("Command '%s' can't have a case", cmd->cmd);
}
do {
c = *s++;
} while (c != '}' && c != ' ' && c != '\0');
*casei = ResolveCaseName(casep, s - casep - 1);
}
if (c == '\0') {
strgen_error("Missing } from command '%s'", start);
return nullptr;
}
if (c != '}') {
if (c == '=') s--;
/* copy params */
start = s;
for (;;) {
c = *s++;
if (c == '}') break;
if (c == '\0') {
strgen_error("Missing } from command '%s'", start);
return nullptr;
}
if (s - start == MAX_COMMAND_PARAM_SIZE) error("param command too long");
*param++ = c;
}
}
*param = '\0';
*str = s;
return cmd;
}
/**
* Prepare reading.
* @param data The data to fill during reading.
* @param file The file we are reading.
* @param master Are we reading the master file?
* @param translation Are we reading a translation?
*/
StringReader::StringReader(StringData &data, const char *file, bool master, bool translation) :
data(data), file(stredup(file)), master(master), translation(translation)
{
}
/** Make sure the right reader gets freed. */
StringReader::~StringReader()
{
free(file);
}
static void ExtractCommandString(ParsedCommandStruct *p, const char *s, bool warnings)
{
char param[MAX_COMMAND_PARAM_SIZE];
int argno;
int argidx = 0;
int casei;
memset(p, 0, sizeof(*p));
for (;;) {
/* read until next command from a. */
const CmdStruct *ar = ParseCommandString(&s, param, &argno, &casei);
if (ar == nullptr) break;
/* Sanity checking */
if (argno != -1 && ar->consumes == 0) strgen_fatal("Non consumer param can't have a paramindex");
if (ar->consumes) {
if (argno != -1) argidx = argno;
if (argidx < 0 || (uint)argidx >= lengthof(p->cmd)) strgen_fatal("invalid param idx %d", argidx);
if (p->cmd[argidx] != nullptr && p->cmd[argidx] != ar) strgen_fatal("duplicate param idx %d", argidx);
p->cmd[argidx++] = ar;
} else if (!(ar->flags & C_DONTCOUNT)) { // Ignore some of them
if (p->np >= lengthof(p->pairs)) strgen_fatal("too many commands in string, max " PRINTF_SIZE, lengthof(p->pairs));
p->pairs[p->np].a = ar;
p->pairs[p->np].v = param[0] != '\0' ? stredup(param) : "";
p->np++;
}
}
}
static const CmdStruct *TranslateCmdForCompare(const CmdStruct *a)
{
if (a == nullptr) return nullptr;
if (strcmp(a->cmd, "STRING1") == 0 ||
strcmp(a->cmd, "STRING2") == 0 ||
strcmp(a->cmd, "STRING3") == 0 ||
strcmp(a->cmd, "STRING4") == 0 ||
strcmp(a->cmd, "STRING5") == 0 ||
strcmp(a->cmd, "STRING6") == 0 ||
strcmp(a->cmd, "STRING7") == 0 ||
strcmp(a->cmd, "RAW_STRING") == 0) {
return FindCmd("STRING", 6);
}
return a;
}
static bool CheckCommandsMatch(char *a, char *b, const char *name)
{
/* If we're not translating, i.e. we're compiling the base language,
* it is pointless to do all these checks as it'll always be correct.
* After all, all checks are based on the base language.
*/
if (!_translation) return true;
ParsedCommandStruct templ;
ParsedCommandStruct lang;
bool result = true;
ExtractCommandString(&templ, b, true);
ExtractCommandString(&lang, a, true);
/* For each string in templ, see if we find it in lang */
if (templ.np != lang.np) {
strgen_warning("%s: template string and language string have a different # of commands", name);
result = false;
}
for (uint i = 0; i < templ.np; i++) {
/* see if we find it in lang, and zero it out */
bool found = false;
for (uint j = 0; j < lang.np; j++) {
if (templ.pairs[i].a == lang.pairs[j].a &&
strcmp(templ.pairs[i].v, lang.pairs[j].v) == 0) {
/* it was found in both. zero it out from lang so we don't find it again */
lang.pairs[j].a = nullptr;
found = true;
break;
}
}
if (!found) {
strgen_warning("%s: command '%s' exists in template file but not in language file", name, templ.pairs[i].a->cmd);
result = false;
}
}
/* if we reach here, all non consumer commands match up.
* Check if the non consumer commands match up also. */
for (uint i = 0; i < lengthof(templ.cmd); i++) {
if (TranslateCmdForCompare(templ.cmd[i]) != lang.cmd[i]) {
strgen_warning("%s: Param idx #%d '%s' doesn't match with template command '%s'", name, i,
lang.cmd[i] == nullptr ? "<empty>" : TranslateCmdForCompare(lang.cmd[i])->cmd,
templ.cmd[i] == nullptr ? "<empty>" : templ.cmd[i]->cmd);
result = false;
}
}
return result;
}
void StringReader::HandleString(char *str)
{
if (*str == '#') {
if (str[1] == '#' && str[2] != '#') this->HandlePragma(str + 2);
return;
}
/* Ignore comments & blank lines */
if (*str == ';' || *str == ' ' || *str == '\0') return;
char *s = strchr(str, ':');
if (s == nullptr) {
strgen_error("Line has no ':' delimiter");
return;
}
char *t;
/* Trim spaces.
* After this str points to the command name, and s points to the command contents */
for (t = s; t > str && (t[-1] == ' ' || t[-1] == '\t'); t--) {}
*t = 0;
s++;
/* Check string is valid UTF-8 */
const char *tmp;
for (tmp = s; *tmp != '\0';) {
size_t len = Utf8Validate(tmp);
if (len == 0) strgen_fatal("Invalid UTF-8 sequence in '%s'", s);
WChar c;
Utf8Decode(&c, tmp);
if (c <= 0x001F || // ASCII control character range
c == 0x200B || // Zero width space
(c >= 0xE000 && c <= 0xF8FF) || // Private range
(c >= 0xFFF0 && c <= 0xFFFF)) { // Specials range
strgen_fatal("Unwanted UTF-8 character U+%04X in sequence '%s'", c, s);
}
tmp += len;
}
/* Check if the string has a case..
* The syntax for cases is IDENTNAME.case */
char *casep = strchr(str, '.');
if (casep != nullptr) *casep++ = '\0';
/* Check if this string already exists.. */
LangString *ent = this->data.Find(str);
if (this->master) {
if (casep != nullptr) {
strgen_error("Cases in the base translation are not supported.");
return;
}
if (ent != nullptr) {
strgen_error("String name '%s' is used multiple times", str);
return;
}
if (this->data.strings[this->data.next_string_id] != nullptr) {
strgen_error("String ID 0x" PRINTF_SIZEX " for '%s' already in use by '%s'", this->data.next_string_id, str, this->data.strings[this->data.next_string_id]->name);
return;
}
/* Allocate a new LangString */
this->data.Add(str, new LangString(str, s, this->data.next_string_id++, _cur_line));
} else {
if (ent == nullptr) {
strgen_warning("String name '%s' does not exist in master file", str);
return;
}
if (ent->translated && casep == nullptr) {
strgen_error("String name '%s' is used multiple times", str);
return;
}
/* make sure that the commands match */
if (!CheckCommandsMatch(s, ent->english, str)) return;
if (casep != nullptr) {
ent->translated_case = new Case(ResolveCaseName(casep, strlen(casep)), s, ent->translated_case);
} else {
ent->translated = stredup(s);
/* If the string was translated, use the line from the
* translated language so errors in the translated file
* are properly referenced to. */
ent->line = _cur_line;
}
}
}
void StringReader::HandlePragma(char *str)
{
if (!memcmp(str, "plural ", 7)) {
_lang.plural_form = atoi(str + 7);
if (_lang.plural_form >= lengthof(_plural_forms)) {
strgen_fatal("Invalid pluralform %d", _lang.plural_form);
}
} else {
strgen_fatal("unknown pragma '%s'", str);
}
}
static void rstrip(char *buf)
{
size_t i = strlen(buf);
while (i > 0 && (buf[i - 1] == '\r' || buf[i - 1] == '\n' || buf[i - 1] == ' ')) i--;
buf[i] = '\0';
}
void StringReader::ParseFile()
{
char buf[2048];
_warnings = _errors = 0;
_translation = this->translation;
_file = this->file;
/* Abusing _show_todo to replace "warning" with "info" for translations. */
_show_todo &= 3;
if (!this->translation) _show_todo |= 4;
/* For each new file we parse, reset the genders, and language codes. */
MemSetT(&_lang, 0);
strecpy(_lang.digit_group_separator, ",", lastof(_lang.digit_group_separator));
strecpy(_lang.digit_group_separator_currency, ",", lastof(_lang.digit_group_separator_currency));
strecpy(_lang.digit_decimal_separator, ".", lastof(_lang.digit_decimal_separator));
_cur_line = 1;
while (this->data.next_string_id < this->data.max_strings && this->ReadLine(buf, lastof(buf)) != nullptr) {
rstrip(buf);
this->HandleString(buf);
_cur_line++;
}
if (this->data.next_string_id == this->data.max_strings) {
strgen_error("Too many strings, maximum allowed is " PRINTF_SIZE, this->data.max_strings);
}
}
/**
* Write the header information.
* @param data The data about the string.
*/
void HeaderWriter::WriteHeader(const StringData &data)
{
int last = 0;
for (size_t i = 0; i < data.max_strings; i++) {
if (data.strings[i] != nullptr) {
this->WriteStringID(data.strings[i]->name, (int)i);
last = (int)i;
}
}
this->WriteStringID("STR_LAST_STRINGID", last);
}
static int TranslateArgumentIdx(int argidx, int offset)
{
int sum;
if (argidx < 0 || (uint)argidx >= lengthof(_cur_pcs.cmd)) {
strgen_fatal("invalid argidx %d", argidx);
}
const CmdStruct *cs = _cur_pcs.cmd[argidx];
if (cs != nullptr && cs->consumes <= offset) {
strgen_fatal("invalid argidx offset %d:%d", argidx, offset);
}
if (_cur_pcs.cmd[argidx] == nullptr) {
strgen_fatal("no command for this argidx %d", argidx);
}
for (int i = sum = 0; i < argidx; i++) {
cs = _cur_pcs.cmd[i];
sum += (cs != nullptr) ? cs->consumes : 1;
}
return sum + offset;
}
static void PutArgidxCommand(Buffer *buffer)
{
buffer->AppendUtf8(SCC_ARG_INDEX);
buffer->AppendByte(TranslateArgumentIdx(_cur_argidx));
}
static void PutCommandString(Buffer *buffer, const char *str)
{
_cur_argidx = 0;
while (*str != '\0') {
/* Process characters as they are until we encounter a { */
if (*str != '{') {
buffer->AppendByte(*str++);
continue;
}
char param[MAX_COMMAND_PARAM_SIZE];
int argno;
int casei;
const CmdStruct *cs = ParseCommandString(&str, param, &argno, &casei);
if (cs == nullptr) break;
if (casei != -1) {
buffer->AppendUtf8(SCC_SET_CASE); // {SET_CASE}
buffer->AppendByte(casei);
}
/* For params that consume values, we need to handle the argindex properly */
if (cs->consumes > 0) {
/* Check if we need to output a move-param command */
if (argno != -1 && argno != _cur_argidx) {
_cur_argidx = argno;
PutArgidxCommand(buffer);
}
/* Output the one from the master string... it's always accurate. */
cs = _cur_pcs.cmd[_cur_argidx++];
if (cs == nullptr) {
strgen_fatal("%s: No argument exists at position %d", _cur_ident, _cur_argidx - 1);
}
}
cs->proc(buffer, param, cs->value);
}
}
/**
* Write the length as a simple gamma.
* @param length The number to write.
*/
void LanguageWriter::WriteLength(uint length)
{
char buffer[2];
int offs = 0;
if (length >= 0x4000) {
strgen_fatal("string too long");
}
if (length >= 0xC0) {
buffer[offs++] = (length >> 8) | 0xC0;
}
buffer[offs++] = length & 0xFF;
this->Write((byte*)buffer, offs);
}
/**
* Actually write the language.
* @param data The data about the string.
*/
void LanguageWriter::WriteLang(const StringData &data)
{
uint *in_use = AllocaM(uint, data.tabs);
for (size_t tab = 0; tab < data.tabs; tab++) {
uint n = data.CountInUse((uint)tab);
in_use[tab] = n;
_lang.offsets[tab] = TO_LE16(n);
for (uint j = 0; j != in_use[tab]; j++) {
const LangString *ls = data.strings[(tab * TAB_SIZE) + j];
if (ls != nullptr && ls->translated == nullptr) _lang.missing++;
}
}
_lang.ident = TO_LE32(LanguagePackHeader::IDENT);
_lang.version = TO_LE32(data.Version());
_lang.missing = TO_LE16(_lang.missing);
_lang.winlangid = TO_LE16(_lang.winlangid);
this->WriteHeader(&_lang);
Buffer buffer;
for (size_t tab = 0; tab < data.tabs; tab++) {
for (uint j = 0; j != in_use[tab]; j++) {
const LangString *ls = data.strings[(tab * TAB_SIZE) + j];
const Case *casep;
const char *cmdp;
/* For undefined strings, just set that it's an empty string */
if (ls == nullptr) {
this->WriteLength(0);
continue;
}
_cur_ident = ls->name;
_cur_line = ls->line;
/* Produce a message if a string doesn't have a translation. */
if (_show_todo > 0 && ls->translated == nullptr) {
if ((_show_todo & 2) != 0) {
strgen_warning("'%s' is untranslated", ls->name);
}
if ((_show_todo & 1) != 0) {
const char *s = "<TODO> ";
while (*s != '\0') buffer.AppendByte(*s++);
}
}
/* Extract the strings and stuff from the english command string */
ExtractCommandString(&_cur_pcs, ls->english, false);
if (ls->translated_case != nullptr || ls->translated != nullptr) {
casep = ls->translated_case;
cmdp = ls->translated;
} else {
casep = nullptr;
cmdp = ls->english;
}
_translated = cmdp != ls->english;
if (casep != nullptr) {
const Case *c;
uint num;
/* Need to output a case-switch.
* It has this format
* <0x9E> <NUM CASES> <CASE1> <LEN1> <STRING1> <CASE2> <LEN2> <STRING2> <CASE3> <LEN3> <STRING3> <STRINGDEFAULT>
* Each LEN is printed using 2 bytes in big endian order. */
buffer.AppendUtf8(SCC_SWITCH_CASE);
/* Count the number of cases */
for (num = 0, c = casep; c; c = c->next) num++;
buffer.AppendByte(num);
/* Write each case */
for (c = casep; c != nullptr; c = c->next) {
buffer.AppendByte(c->caseidx);
/* Make some space for the 16-bit length */
uint pos = (uint)buffer.size();
buffer.AppendByte(0);
buffer.AppendByte(0);
/* Write string */
PutCommandString(&buffer, c->string);
buffer.AppendByte(0); // terminate with a zero
/* Fill in the length */
uint size = (uint)buffer.size() - (pos + 2);
buffer[pos + 0] = GB(size, 8, 8);
buffer[pos + 1] = GB(size, 0, 8);
}
}
if (cmdp != nullptr) PutCommandString(&buffer, cmdp);
this->WriteLength((uint)buffer.size());
this->Write(buffer.data(), buffer.size());
buffer.clear();
}
}
}
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