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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 newgrf_text.cpp
* Implementation of Action 04 "universal holder" structure and functions.
* This file implements a linked-lists of strings,
* holding everything that the newgrf action 04 will send over to OpenTTD.
* One of the biggest problems is that Dynamic lang Array uses ISO codes
* as way to identifying current user lang, while newgrf uses bit shift codes
* not related to ISO. So equivalence functionality had to be set.
*/
#include "stdafx.h"
#include <array>
#include "newgrf.h"
#include "strings_func.h"
#include "newgrf_storage.h"
#include "newgrf_text.h"
#include "newgrf_cargo.h"
#include "string_func.h"
#include "date_type.h"
#include "debug.h"
#include "core/alloc_type.hpp"
#include "core/smallmap_type.hpp"
#include "language.h"
#include <sstream>
#include <map>
#include "table/strings.h"
#include "table/control_codes.h"
#include "safeguards.h"
/**
* Explains the newgrf shift bit positioning.
* the grf base will not be used in order to find the string, but rather for
* jumping from standard langID scheme to the new one.
*/
enum GRFBaseLanguages {
GRFLB_AMERICAN = 0x01,
GRFLB_ENGLISH = 0x02,
GRFLB_GERMAN = 0x04,
GRFLB_FRENCH = 0x08,
GRFLB_SPANISH = 0x10,
GRFLB_GENERIC = 0x80,
};
enum GRFExtendedLanguages {
GRFLX_AMERICAN = 0x00,
GRFLX_ENGLISH = 0x01,
GRFLX_GERMAN = 0x02,
GRFLX_FRENCH = 0x03,
GRFLX_SPANISH = 0x04,
GRFLX_UNSPECIFIED = 0x7F,
};
/**
* Holder of the above structure.
* Putting both grfid and stringid together allows us to avoid duplicates,
* since it is NOT SUPPOSED to happen.
*/
struct GRFTextEntry {
uint32 grfid;
uint16 stringid;
StringID def_string;
GRFTextList textholder;
};
static uint _num_grf_texts = 0;
static GRFTextEntry _grf_text[TAB_SIZE_NEWGRF];
static byte _currentLangID = GRFLX_ENGLISH; ///< by default, english is used.
/**
* Get the mapping from the NewGRF supplied ID to OpenTTD's internal ID.
* @param newgrf_id The NewGRF ID to map.
* @param gender Whether to map genders or cases.
* @return The, to OpenTTD's internal ID, mapped index, or -1 if there is no mapping.
*/
int LanguageMap::GetMapping(int newgrf_id, bool gender) const
{
const std::vector<Mapping> &map = gender ? this->gender_map : this->case_map;
for (const Mapping &m : map) {
if (m.newgrf_id == newgrf_id) return m.openttd_id;
}
return -1;
}
/**
* Get the mapping from OpenTTD's internal ID to the NewGRF supplied ID.
* @param openttd_id The OpenTTD ID to map.
* @param gender Whether to map genders or cases.
* @return The, to the NewGRF supplied ID, mapped index, or -1 if there is no mapping.
*/
int LanguageMap::GetReverseMapping(int openttd_id, bool gender) const
{
const std::vector<Mapping> &map = gender ? this->gender_map : this->case_map;
for (const Mapping &m : map) {
if (m.openttd_id == openttd_id) return m.newgrf_id;
}
return -1;
}
/** Helper structure for mapping choice lists. */
struct UnmappedChoiceList {
/**
* Initialise the mapping.
* @param type The type of mapping.
* @param offset The offset to get the plural/gender from.
*/
UnmappedChoiceList(StringControlCode type, int offset) :
type(type), offset(offset)
{
}
StringControlCode type; ///< The type of choice list.
int offset; ///< The offset for the plural/gender form.
/** Mapping of NewGRF supplied ID to the different strings in the choice list. */
std::map<byte, std::stringstream> strings;
/**
* Flush this choice list into the destination string.
* @param lm The current language mapping.
* @param dest Target to write to.
*/
void Flush(const LanguageMap *lm, std::ostringstream &dest)
{
if (this->strings.find(0) == this->strings.end()) {
/* In case of a (broken) NewGRF without a default,
* assume an empty string. */
grfmsg(1, "choice list misses default value");
this->strings[0] = std::stringstream();
}
std::ostreambuf_iterator<char> d(dest);
if (lm == nullptr) {
/* In case there is no mapping, just ignore everything but the default.
* A probable cause for this happening is when the language file has
* been removed by the user and as such no mapping could be made. */
dest << this->strings[0].rdbuf();
return;
}
Utf8Encode(d, this->type);
if (this->type == SCC_SWITCH_CASE) {
/*
* Format for case switch:
* <NUM CASES> <CASE1> <LEN1> <STRING1> <CASE2> <LEN2> <STRING2> <CASE3> <LEN3> <STRING3> <STRINGDEFAULT>
* Each LEN is printed using 2 bytes in big endian order.
*/
/* "<NUM CASES>" */
int count = 0;
for (uint8 i = 0; i < _current_language->num_cases; i++) {
/* Count the ones we have a mapped string for. */
if (this->strings.find(lm->GetReverseMapping(i, false)) != this->strings.end()) count++;
}
*d++ = count;
for (uint8 i = 0; i < _current_language->num_cases; i++) {
/* Resolve the string we're looking for. */
int idx = lm->GetReverseMapping(i, false);
if (this->strings.find(idx) == this->strings.end()) continue;
auto str = this->strings[idx].str();
/* "<CASEn>" */
*d++ = i + 1;
/* "<LENn>": Limit the length of the string to 0xFFFE to leave space for the '\0'. */
size_t len = std::min<size_t>(0xFFFE, str.size());
*d++ = GB(len + 1, 8, 8);
*d++ = GB(len + 1, 0, 8);
/* "<STRINGn>" */
dest.write(str.c_str(), len);
*d++ = '\0';
}
/* "<STRINGDEFAULT>" */
dest << this->strings[0].rdbuf() << '\0';
} else {
if (this->type == SCC_PLURAL_LIST) {
*d++ = lm->plural_form;
}
/*
* Format for choice list:
* <OFFSET> <NUM CHOICES> <LENs> <STRINGs>
*/
/* "<OFFSET>" */
*d++ = this->offset - 0x80;
/* "<NUM CHOICES>" */
int count = (this->type == SCC_GENDER_LIST ? _current_language->num_genders : LANGUAGE_MAX_PLURAL_FORMS);
*d++ = count;
/* "<LENs>" */
for (int i = 0; i < count; i++) {
int idx = (this->type == SCC_GENDER_LIST ? lm->GetReverseMapping(i, true) : i + 1);
const auto &str = this->strings[this->strings.find(idx) != this->strings.end() ? idx : 0].str();
size_t len = str.size() + 1;
if (len > 0xFF) grfmsg(1, "choice list string is too long");
*d++ = GB(len, 0, 8);
}
/* "<STRINGs>" */
for (int i = 0; i < count; i++) {
int idx = (this->type == SCC_GENDER_LIST ? lm->GetReverseMapping(i, true) : i + 1);
const auto &str = this->strings[this->strings.find(idx) != this->strings.end() ? idx : 0].str();
/* Limit the length of the string we copy to 0xFE. The length is written above
* as a byte and we need room for the final '\0'. */
size_t len = std::min<size_t>(0xFE, str.size());
dest.write(str.c_str(), len);
*d++ = '\0';
}
}
}
};
/**
* Translate TTDPatch string codes into something OpenTTD can handle (better).
* @param grfid The (NewGRF) ID associated with this string
* @param language_id The (NewGRF) language ID associated with this string.
* @param allow_newlines Whether newlines are allowed in the string or not.
* @param str The string to translate.
* @param byte80 The control code to use as replacement for the 0x80-value.
* @return The translated string.
*/
std::string TranslateTTDPatchCodes(uint32 grfid, uint8 language_id, bool allow_newlines, const std::string &str, StringControlCode byte80)
{
/* Empty input string? Nothing to do here. */
if (str.empty()) return str;
std::string::const_iterator src = str.cbegin();
/* Is this an unicode string? */
bool unicode = false;
WChar marker;
size_t len = Utf8Decode(&marker, &*src);
if (marker == NFO_UTF8_IDENTIFIER) {
unicode = true;
src += len;
}
/* Helper variable for a possible (string) mapping. */
UnmappedChoiceList *mapping = nullptr;
std::ostringstream dest;
std::ostreambuf_iterator<char> d(dest);
while (src != str.cend()) {
WChar c;
if (unicode && Utf8EncodedCharLen(*src) != 0) {
c = Utf8Consume(src);
/* 'Magic' range of control codes. */
if (GB(c, 8, 8) == 0xE0) {
c = GB(c, 0, 8);
} else if (c >= 0x20) {
if (!IsValidChar(c, CS_ALPHANUMERAL)) c = '?';
Utf8Encode(d, c);
continue;
}
} else {
c = (byte)*src++;
}
if (c == '\0') break;
switch (c) {
case 0x01:
if (*src == '\0') goto string_end;
Utf8Encode(d, ' ');
src++;
break;
case 0x0A: break;
case 0x0D:
if (allow_newlines) {
*d++ = 0x0A;
} else {
grfmsg(1, "Detected newline in string that does not allow one");
}
break;
case 0x0E: Utf8Encode(d, SCC_TINYFONT); break;
case 0x0F: Utf8Encode(d, SCC_BIGFONT); break;
case 0x1F:
if (src[0] == '\0' || src[1] == '\0') goto string_end;
Utf8Encode(d, ' ');
src += 2;
break;
case 0x7B:
case 0x7C:
case 0x7D:
case 0x7E:
case 0x7F: Utf8Encode(d, SCC_NEWGRF_PRINT_DWORD_SIGNED + c - 0x7B); break;
case 0x80: Utf8Encode(d, byte80); break;
case 0x81:
{
if (src[0] == '\0' || src[1] == '\0') goto string_end;
StringID string;
string = ((uint8)* src++);
string |= ((uint8)* src++) << 8;
Utf8Encode(d, SCC_NEWGRF_STRINL);
Utf8Encode(d, MapGRFStringID(grfid, string));
break;
}
case 0x82:
case 0x83:
case 0x84: Utf8Encode(d, SCC_NEWGRF_PRINT_WORD_DATE_LONG + c - 0x82); break;
case 0x85: Utf8Encode(d, SCC_NEWGRF_DISCARD_WORD); break;
case 0x86: Utf8Encode(d, SCC_NEWGRF_ROTATE_TOP_4_WORDS); break;
case 0x87: Utf8Encode(d, SCC_NEWGRF_PRINT_WORD_VOLUME_LONG); break;
case 0x88: Utf8Encode(d, SCC_BLUE); break;
case 0x89: Utf8Encode(d, SCC_SILVER); break;
case 0x8A: Utf8Encode(d, SCC_GOLD); break;
case 0x8B: Utf8Encode(d, SCC_RED); break;
case 0x8C: Utf8Encode(d, SCC_PURPLE); break;
case 0x8D: Utf8Encode(d, SCC_LTBROWN); break;
case 0x8E: Utf8Encode(d, SCC_ORANGE); break;
case 0x8F: Utf8Encode(d, SCC_GREEN); break;
case 0x90: Utf8Encode(d, SCC_YELLOW); break;
case 0x91: Utf8Encode(d, SCC_DKGREEN); break;
case 0x92: Utf8Encode(d, SCC_CREAM); break;
case 0x93: Utf8Encode(d, SCC_BROWN); break;
case 0x94: Utf8Encode(d, SCC_WHITE); break;
case 0x95: Utf8Encode(d, SCC_LTBLUE); break;
case 0x96: Utf8Encode(d, SCC_GRAY); break;
case 0x97: Utf8Encode(d, SCC_DKBLUE); break;
case 0x98: Utf8Encode(d, SCC_BLACK); break;
case 0x9A:
{
int code = *src++;
switch (code) {
case 0x00: goto string_end;
case 0x01: Utf8Encode(d, SCC_NEWGRF_PRINT_QWORD_CURRENCY); break;
/* 0x02: ignore next colour byte is not supported. It works on the final
* string and as such hooks into the string drawing routine. At that
* point many things already happened, such as splitting up of strings
* when drawn over multiple lines or right-to-left translations, which
* make the behaviour peculiar, e.g. only happening at specific width
* of windows. Or we need to add another pass over the string to just
* support this. As such it is not implemented in OpenTTD. */
case 0x03:
{
if (src[0] == '\0' || src[1] == '\0') goto string_end;
uint16 tmp = ((uint8)* src++);
tmp |= ((uint8)* src++) << 8;
Utf8Encode(d, SCC_NEWGRF_PUSH_WORD);
Utf8Encode(d, tmp);
break;
}
case 0x04:
if (src[0] == '\0') goto string_end;
Utf8Encode(d, SCC_NEWGRF_UNPRINT);
Utf8Encode(d, *src++);
break;
case 0x06: Utf8Encode(d, SCC_NEWGRF_PRINT_BYTE_HEX); break;
case 0x07: Utf8Encode(d, SCC_NEWGRF_PRINT_WORD_HEX); break;
case 0x08: Utf8Encode(d, SCC_NEWGRF_PRINT_DWORD_HEX); break;
/* 0x09, 0x0A are TTDPatch internal use only string codes. */
case 0x0B: Utf8Encode(d, SCC_NEWGRF_PRINT_QWORD_HEX); break;
case 0x0C: Utf8Encode(d, SCC_NEWGRF_PRINT_WORD_STATION_NAME); break;
case 0x0D: Utf8Encode(d, SCC_NEWGRF_PRINT_WORD_WEIGHT_LONG); break;
case 0x0E:
case 0x0F:
{
if (str[0] == '\0') goto string_end;
const LanguageMap *lm = LanguageMap::GetLanguageMap(grfid, language_id);
int index = *src++;
int mapped = lm != nullptr ? lm->GetMapping(index, code == 0x0E) : -1;
if (mapped >= 0) {
Utf8Encode(d, code == 0x0E ? SCC_GENDER_INDEX : SCC_SET_CASE);
Utf8Encode(d, code == 0x0E ? mapped : mapped + 1);
}
break;
}
case 0x10:
case 0x11:
if (str[0] == '\0') goto string_end;
if (mapping == nullptr) {
if (code == 0x10) src++; // Skip the index
grfmsg(1, "choice list %s marker found when not expected", code == 0x10 ? "next" : "default");
break;
} else {
int index = (code == 0x10 ? *src++ : 0);
if (mapping->strings.find(index) != mapping->strings.end()) {
grfmsg(1, "duplicate choice list string, ignoring");
} else {
d = std::ostreambuf_iterator<char>(mapping->strings[index]);
}
}
break;
case 0x12:
if (mapping == nullptr) {
grfmsg(1, "choice list end marker found when not expected");
} else {
/* Now we can start flushing everything and clean everything up. */
mapping->Flush(LanguageMap::GetLanguageMap(grfid, language_id), dest);
delete mapping;
mapping = nullptr;
d = std::ostreambuf_iterator<char>(dest);
}
break;
case 0x13:
case 0x14:
case 0x15:
if (src[0] == '\0') goto string_end;
if (mapping != nullptr) {
grfmsg(1, "choice lists can't be stacked, it's going to get messy now...");
if (code != 0x14) src++;
} else {
static const StringControlCode mp[] = { SCC_GENDER_LIST, SCC_SWITCH_CASE, SCC_PLURAL_LIST };
mapping = new UnmappedChoiceList(mp[code - 0x13], code == 0x14 ? 0 : *src++);
}
break;
case 0x16:
case 0x17:
case 0x18:
case 0x19:
case 0x1A:
case 0x1B:
case 0x1C:
case 0x1D:
case 0x1E:
Utf8Encode(d, SCC_NEWGRF_PRINT_DWORD_DATE_LONG + code - 0x16);
break;
case 0x1F: Utf8Encode(d, SCC_PUSH_COLOUR); break;
case 0x20: Utf8Encode(d, SCC_POP_COLOUR); break;
default:
grfmsg(1, "missing handler for extended format code");
break;
}
break;
}
case 0x9E: Utf8Encode(d, 0x20AC); break; // Euro
case 0x9F: Utf8Encode(d, 0x0178); break; // Y with diaeresis
case 0xA0: Utf8Encode(d, SCC_UP_ARROW); break;
case 0xAA: Utf8Encode(d, SCC_DOWN_ARROW); break;
case 0xAC: Utf8Encode(d, SCC_CHECKMARK); break;
case 0xAD: Utf8Encode(d, SCC_CROSS); break;
case 0xAF: Utf8Encode(d, SCC_RIGHT_ARROW); break;
case 0xB4: Utf8Encode(d, SCC_TRAIN); break;
case 0xB5: Utf8Encode(d, SCC_LORRY); break;
case 0xB6: Utf8Encode(d, SCC_BUS); break;
case 0xB7: Utf8Encode(d, SCC_PLANE); break;
case 0xB8: Utf8Encode(d, SCC_SHIP); break;
case 0xB9: Utf8Encode(d, SCC_SUPERSCRIPT_M1); break;
case 0xBC: Utf8Encode(d, SCC_SMALL_UP_ARROW); break;
case 0xBD: Utf8Encode(d, SCC_SMALL_DOWN_ARROW); break;
default:
/* Validate any unhandled character */
if (!IsValidChar(c, CS_ALPHANUMERAL)) c = '?';
Utf8Encode(d, c);
break;
}
}
string_end:
if (mapping != nullptr) {
grfmsg(1, "choice list was incomplete, the whole list is ignored");
delete mapping;
}
return dest.str();
}
/**
* Add a new text to a GRFText list.
* @param list The list where the text should be added to.
* @param langid The The language of the new text.
* @param text_to_add The text to add to the list.
*/
static void AddGRFTextToList(GRFTextList &list, byte langid, const std::string &text_to_add)
{
/* Loop through all languages and see if we can replace a string */
for (auto &text : list) {
if (text.langid == langid) {
text.text = text_to_add;
return;
}
}
/* If a string wasn't replaced, then we must append the new string */
list.push_back(GRFText{ langid, text_to_add });
}
/**
* Add a string to a GRFText list.
* @param list The list where the text should be added to.
* @param langid The language of the new text.
* @param grfid The grfid where this string is defined.
* @param allow_newlines Whether newlines are allowed in this string.
* @param text_to_add The text to add to the list.
* @note All text-codes will be translated.
*/
void AddGRFTextToList(GRFTextList &list, byte langid, uint32 grfid, bool allow_newlines, const char *text_to_add)
{
AddGRFTextToList(list, langid, TranslateTTDPatchCodes(grfid, langid, allow_newlines, text_to_add));
}
/**
* Add a string to a GRFText list.
* @param list The list where the text should be added to.
* @param langid The language of the new text.
* @param grfid The grfid where this string is defined.
* @param allow_newlines Whether newlines are allowed in this string.
* @param text_to_add The text to add to the list.
* @note All text-codes will be translated.
*/
void AddGRFTextToList(GRFTextWrapper &list, byte langid, uint32 grfid, bool allow_newlines, const char *text_to_add)
{
if (!list) list.reset(new GRFTextList());
AddGRFTextToList(*list, langid, grfid, allow_newlines, text_to_add);
}
/**
* Add a GRFText to a GRFText list. The text should not contain any text-codes.
* The text will be added as a 'default language'-text.
* @param list The list where the text should be added to.
* @param text_to_add The text to add to the list.
*/
void AddGRFTextToList(GRFTextWrapper &list, const std::string &text_to_add)
{
if (!list) list.reset(new GRFTextList());
AddGRFTextToList(*list, GRFLX_UNSPECIFIED, text_to_add);
}
/**
* Add the new read string into our structure.
*/
StringID AddGRFString(uint32 grfid, uint16 stringid, byte langid_to_add, bool new_scheme, bool allow_newlines, const char *text_to_add, StringID def_string)
{
/* When working with the old language scheme (grf_version is less than 7) and
* English or American is among the set bits, simply add it as English in
* the new scheme, i.e. as langid = 1.
* If English is set, it is pretty safe to assume the translations are not
* actually translated.
*/
if (!new_scheme) {
if (langid_to_add & (GRFLB_AMERICAN | GRFLB_ENGLISH)) {
langid_to_add = GRFLX_ENGLISH;
} else {
StringID ret = STR_EMPTY;
if (langid_to_add & GRFLB_GERMAN) ret = AddGRFString(grfid, stringid, GRFLX_GERMAN, true, allow_newlines, text_to_add, def_string);
if (langid_to_add & GRFLB_FRENCH) ret = AddGRFString(grfid, stringid, GRFLX_FRENCH, true, allow_newlines, text_to_add, def_string);
if (langid_to_add & GRFLB_SPANISH) ret = AddGRFString(grfid, stringid, GRFLX_SPANISH, true, allow_newlines, text_to_add, def_string);
return ret;
}
}
uint id;
for (id = 0; id < _num_grf_texts; id++) {
if (_grf_text[id].grfid == grfid && _grf_text[id].stringid == stringid) {
break;
}
}
/* Too many strings allocated, return empty */
if (id == lengthof(_grf_text)) return STR_EMPTY;
std::string newtext = TranslateTTDPatchCodes(grfid, langid_to_add, allow_newlines, text_to_add);
/* If we didn't find our stringid and grfid in the list, allocate a new id */
if (id == _num_grf_texts) _num_grf_texts++;
if (_grf_text[id].textholder.empty()) {
_grf_text[id].grfid = grfid;
_grf_text[id].stringid = stringid;
_grf_text[id].def_string = def_string;
}
AddGRFTextToList(_grf_text[id].textholder, langid_to_add, newtext);
grfmsg(3, "Added 0x%X: grfid %08X string 0x%X lang 0x%X string '%s' (%X)", id, grfid, stringid, langid_to_add, newtext.c_str(), MakeStringID(TEXT_TAB_NEWGRF_START, id));
return MakeStringID(TEXT_TAB_NEWGRF_START, id);
}
/**
* Returns the index for this stringid associated with its grfID
*/
StringID GetGRFStringID(uint32 grfid, StringID stringid)
{
for (uint id = 0; id < _num_grf_texts; id++) {
if (_grf_text[id].grfid == grfid && _grf_text[id].stringid == stringid) {
return MakeStringID(TEXT_TAB_NEWGRF_START, id);
}
}
return STR_UNDEFINED;
}
/**
* Get a C-string from a GRFText-list. If there is a translation for the
* current language it is returned, otherwise the default translation
* is returned. If there is neither a default nor a translation for the
* current language nullptr is returned.
* @param text_list The GRFTextList to get the string from.
*/
const char *GetGRFStringFromGRFText(const GRFTextList &text_list)
{
const char *default_text = nullptr;
/* Search the list of lang-strings of this stringid for current lang */
for (const auto &text : text_list) {
if (text.langid == _currentLangID) return text.text.c_str();
/* If the current string is English or American, set it as the
* fallback language if the specific language isn't available. */
if (text.langid == GRFLX_UNSPECIFIED || (default_text == nullptr && (text.langid == GRFLX_ENGLISH || text.langid == GRFLX_AMERICAN))) {
default_text = text.text.c_str();
}
}
return default_text;
}
/**
* Get a C-string from a GRFText-list. If there is a translation for the
* current language it is returned, otherwise the default translation
* is returned. If there is neither a default nor a translation for the
* current language nullptr is returned.
* @param text The GRFTextList to get the string from.
*/
const char *GetGRFStringFromGRFText(const GRFTextWrapper &text)
{
return text ? GetGRFStringFromGRFText(*text) : nullptr;
}
/**
* Get a C-string from a stringid set by a newgrf.
*/
const char *GetGRFStringPtr(uint16 stringid)
{
assert(_grf_text[stringid].grfid != 0);
const char *str = GetGRFStringFromGRFText(_grf_text[stringid].textholder);
if (str != nullptr) return str;
/* Use the default string ID if the fallback string isn't available */
return GetStringPtr(_grf_text[stringid].def_string);
}
/**
* Equivalence Setter function between game and newgrf langID.
* This function will adjust _currentLangID as to what is the LangID
* of the current language set by the user.
* This function is called after the user changed language,
* from strings.cpp:ReadLanguagePack
* @param language_id iso code of current selection
*/
void SetCurrentGrfLangID(byte language_id)
{
_currentLangID = language_id;
}
bool CheckGrfLangID(byte lang_id, byte grf_version)
{
if (grf_version < 7) {
switch (_currentLangID) {
case GRFLX_GERMAN: return (lang_id & GRFLB_GERMAN) != 0;
case GRFLX_FRENCH: return (lang_id & GRFLB_FRENCH) != 0;
case GRFLX_SPANISH: return (lang_id & GRFLB_SPANISH) != 0;
default: return (lang_id & (GRFLB_ENGLISH | GRFLB_AMERICAN)) != 0;
}
}
return (lang_id == _currentLangID || lang_id == GRFLX_UNSPECIFIED);
}
/**
* House cleaning.
* Remove all strings and reset the text counter.
*/
void CleanUpStrings()
{
uint id;
for (id = 0; id < _num_grf_texts; id++) {
_grf_text[id].grfid = 0;
_grf_text[id].stringid = 0;
_grf_text[id].textholder.clear();
}
_num_grf_texts = 0;
}
struct TextRefStack {
std::array<byte, 0x30> stack;
byte position;
const GRFFile *grffile;
bool used;
TextRefStack() : position(0), grffile(nullptr), used(false) {}
uint8 PopUnsignedByte() { assert(this->position < this->stack.size()); return this->stack[this->position++]; }
int8 PopSignedByte() { return (int8)this->PopUnsignedByte(); }
uint16 PopUnsignedWord()
{
uint16 val = this->PopUnsignedByte();
return val | (this->PopUnsignedByte() << 8);
}
int16 PopSignedWord() { return (int32)this->PopUnsignedWord(); }
uint32 PopUnsignedDWord()
{
uint32 val = this->PopUnsignedWord();
return val | (this->PopUnsignedWord() << 16);
}
int32 PopSignedDWord() { return (int32)this->PopUnsignedDWord(); }
uint64 PopUnsignedQWord()
{
uint64 val = this->PopUnsignedDWord();
return val | (((uint64)this->PopUnsignedDWord()) << 32);
}
int64 PopSignedQWord() { return (int64)this->PopUnsignedQWord(); }
/** Rotate the top four words down: W1, W2, W3, W4 -> W4, W1, W2, W3 */
void RotateTop4Words()
{
byte tmp[2];
for (int i = 0; i < 2; i++) tmp[i] = this->stack[this->position + i + 6];
for (int i = 5; i >= 0; i--) this->stack[this->position + i + 2] = this->stack[this->position + i];
for (int i = 0; i < 2; i++) this->stack[this->position + i] = tmp[i];
}
void PushWord(uint16 word)
{
if (this->position >= 2) {
this->position -= 2;
} else {
// Rotate right 2 positions
std::rotate(this->stack.rbegin(), this->stack.rbegin() + 2, this->stack.rend());
}
this->stack[this->position] = GB(word, 0, 8);
this->stack[this->position + 1] = GB(word, 8, 8);
}
void ResetStack(const GRFFile *grffile)
{
assert(grffile != nullptr);
this->position = 0;
this->grffile = grffile;
this->used = true;
}
void RewindStack() { this->position = 0; }
};
/** The stack that is used for TTDP compatible string code parsing */
static TextRefStack _newgrf_textrefstack;
/**
* Check whether the NewGRF text stack is in use.
* @return True iff the NewGRF text stack is used.
*/
bool UsingNewGRFTextStack()
{
return _newgrf_textrefstack.used;
}
/**
* Create a backup of the current NewGRF text stack.
* @return A copy of the current text stack.
*/
struct TextRefStack *CreateTextRefStackBackup()
{
return new TextRefStack(_newgrf_textrefstack);
}
/**
* Restore a copy of the text stack to the used stack.
* @param backup The copy to restore.
*/
void RestoreTextRefStackBackup(struct TextRefStack *backup)
{
_newgrf_textrefstack = *backup;
delete backup;
}
/**
* Start using the TTDP compatible string code parsing.
*
* On start a number of values is copied on the #TextRefStack.
* You can then use #GetString() and the normal string drawing functions,
* and they will use the #TextRefStack for NewGRF string codes.
*
* However, when you want to draw a string multiple times using the same stack,
* you have to call #RewindTextRefStack() between draws.
*
* After you are done with drawing, you must disable usage of the #TextRefStack
* by calling #StopTextRefStackUsage(), so NewGRF string codes operate on the
* normal string parameters again.
*
* @param grffile the NewGRF providing the stack data
* @param numEntries number of entries to copy from the registers
* @param values values to copy onto the stack; if nullptr the temporary NewGRF registers will be used instead
*/
void StartTextRefStackUsage(const GRFFile *grffile, byte numEntries, const uint32 *values)
{
extern TemporaryStorageArray<int32, 0x110> _temp_store;
_newgrf_textrefstack.ResetStack(grffile);
auto stack_it = _newgrf_textrefstack.stack.begin();
for (uint i = 0; i < numEntries; i++) {
uint32 value = values != nullptr ? values[i] : _temp_store.GetValue(0x100 + i);
for (uint j = 0; j < 32; j += 8) {
*stack_it = GB(value, j, 8);
stack_it++;
}
}
}
/** Stop using the TTDP compatible string code parsing */
void StopTextRefStackUsage()
{
_newgrf_textrefstack.used = false;
}
void RewindTextRefStack()
{
_newgrf_textrefstack.RewindStack();
}
/**
* FormatString for NewGRF specific "magic" string control codes
* @param scc the string control code that has been read
* @param buff the buffer we're writing to
* @param str the string that we need to write
* @param argv the OpenTTD stack of values
* @param argv_size space on the stack \a argv
* @param modify_argv When true, modify the OpenTTD stack.
* @return the string control code to "execute" now
*/
uint RemapNewGRFStringControlCode(uint scc, char *buf_start, char **buff, const char **str, int64 *argv, uint argv_size, bool modify_argv)
{
switch (scc) {
default: break;
case SCC_NEWGRF_PRINT_DWORD_SIGNED:
case SCC_NEWGRF_PRINT_WORD_SIGNED:
case SCC_NEWGRF_PRINT_BYTE_SIGNED:
case SCC_NEWGRF_PRINT_WORD_UNSIGNED:
case SCC_NEWGRF_PRINT_BYTE_HEX:
case SCC_NEWGRF_PRINT_WORD_HEX:
case SCC_NEWGRF_PRINT_DWORD_HEX:
case SCC_NEWGRF_PRINT_QWORD_HEX:
case SCC_NEWGRF_PRINT_DWORD_CURRENCY:
case SCC_NEWGRF_PRINT_QWORD_CURRENCY:
case SCC_NEWGRF_PRINT_WORD_STRING_ID:
case SCC_NEWGRF_PRINT_WORD_DATE_LONG:
case SCC_NEWGRF_PRINT_DWORD_DATE_LONG:
case SCC_NEWGRF_PRINT_WORD_DATE_SHORT:
case SCC_NEWGRF_PRINT_DWORD_DATE_SHORT:
case SCC_NEWGRF_PRINT_WORD_SPEED:
case SCC_NEWGRF_PRINT_WORD_VOLUME_LONG:
case SCC_NEWGRF_PRINT_WORD_VOLUME_SHORT:
case SCC_NEWGRF_PRINT_WORD_WEIGHT_LONG:
case SCC_NEWGRF_PRINT_WORD_WEIGHT_SHORT:
case SCC_NEWGRF_PRINT_WORD_POWER:
case SCC_NEWGRF_PRINT_WORD_STATION_NAME:
case SCC_NEWGRF_PRINT_WORD_CARGO_NAME:
if (argv_size < 1) {
DEBUG(misc, 0, "Too many NewGRF string parameters.");
return 0;
}
break;
case SCC_NEWGRF_PRINT_WORD_CARGO_LONG:
case SCC_NEWGRF_PRINT_WORD_CARGO_SHORT:
case SCC_NEWGRF_PRINT_WORD_CARGO_TINY:
if (argv_size < 2) {
DEBUG(misc, 0, "Too many NewGRF string parameters.");
return 0;
}
break;
}
if (_newgrf_textrefstack.used && modify_argv) {
switch (scc) {
default: NOT_REACHED();
case SCC_NEWGRF_PRINT_BYTE_SIGNED: *argv = _newgrf_textrefstack.PopSignedByte(); break;
case SCC_NEWGRF_PRINT_QWORD_CURRENCY: *argv = _newgrf_textrefstack.PopSignedQWord(); break;
case SCC_NEWGRF_PRINT_DWORD_CURRENCY:
case SCC_NEWGRF_PRINT_DWORD_SIGNED: *argv = _newgrf_textrefstack.PopSignedDWord(); break;
case SCC_NEWGRF_PRINT_BYTE_HEX: *argv = _newgrf_textrefstack.PopUnsignedByte(); break;
case SCC_NEWGRF_PRINT_QWORD_HEX: *argv = _newgrf_textrefstack.PopUnsignedQWord(); break;
case SCC_NEWGRF_PRINT_WORD_SPEED:
case SCC_NEWGRF_PRINT_WORD_VOLUME_LONG:
case SCC_NEWGRF_PRINT_WORD_VOLUME_SHORT:
case SCC_NEWGRF_PRINT_WORD_SIGNED: *argv = _newgrf_textrefstack.PopSignedWord(); break;
case SCC_NEWGRF_PRINT_WORD_HEX:
case SCC_NEWGRF_PRINT_WORD_WEIGHT_LONG:
case SCC_NEWGRF_PRINT_WORD_WEIGHT_SHORT:
case SCC_NEWGRF_PRINT_WORD_POWER:
case SCC_NEWGRF_PRINT_WORD_STATION_NAME:
case SCC_NEWGRF_PRINT_WORD_UNSIGNED: *argv = _newgrf_textrefstack.PopUnsignedWord(); break;
case SCC_NEWGRF_PRINT_DWORD_DATE_LONG:
case SCC_NEWGRF_PRINT_DWORD_DATE_SHORT:
case SCC_NEWGRF_PRINT_DWORD_HEX: *argv = _newgrf_textrefstack.PopUnsignedDWord(); break;
case SCC_NEWGRF_PRINT_WORD_DATE_LONG:
case SCC_NEWGRF_PRINT_WORD_DATE_SHORT: *argv = _newgrf_textrefstack.PopUnsignedWord() + DAYS_TILL_ORIGINAL_BASE_YEAR; break;
case SCC_NEWGRF_DISCARD_WORD: _newgrf_textrefstack.PopUnsignedWord(); break;
case SCC_NEWGRF_ROTATE_TOP_4_WORDS: _newgrf_textrefstack.RotateTop4Words(); break;
case SCC_NEWGRF_PUSH_WORD: _newgrf_textrefstack.PushWord(Utf8Consume(str)); break;
case SCC_NEWGRF_UNPRINT: *buff = std::max(*buff - Utf8Consume(str), buf_start); break;
case SCC_NEWGRF_PRINT_WORD_CARGO_LONG:
case SCC_NEWGRF_PRINT_WORD_CARGO_SHORT:
case SCC_NEWGRF_PRINT_WORD_CARGO_TINY:
argv[0] = GetCargoTranslation(_newgrf_textrefstack.PopUnsignedWord(), _newgrf_textrefstack.grffile);
argv[1] = _newgrf_textrefstack.PopUnsignedWord();
break;
case SCC_NEWGRF_PRINT_WORD_STRING_ID:
*argv = MapGRFStringID(_newgrf_textrefstack.grffile->grfid, _newgrf_textrefstack.PopUnsignedWord());
break;
case SCC_NEWGRF_PRINT_WORD_CARGO_NAME: {
CargoID cargo = GetCargoTranslation(_newgrf_textrefstack.PopUnsignedWord(), _newgrf_textrefstack.grffile);
*argv = cargo < NUM_CARGO ? 1 << cargo : 0;
break;
}
}
} else {
/* Consume additional parameter characters */
switch (scc) {
default: break;
case SCC_NEWGRF_PUSH_WORD:
case SCC_NEWGRF_UNPRINT:
Utf8Consume(str);
break;
}
}
switch (scc) {
default: NOT_REACHED();
case SCC_NEWGRF_PRINT_DWORD_SIGNED:
case SCC_NEWGRF_PRINT_WORD_SIGNED:
case SCC_NEWGRF_PRINT_BYTE_SIGNED:
case SCC_NEWGRF_PRINT_WORD_UNSIGNED:
return SCC_COMMA;
case SCC_NEWGRF_PRINT_BYTE_HEX:
case SCC_NEWGRF_PRINT_WORD_HEX:
case SCC_NEWGRF_PRINT_DWORD_HEX:
case SCC_NEWGRF_PRINT_QWORD_HEX:
return SCC_HEX;
case SCC_NEWGRF_PRINT_DWORD_CURRENCY:
case SCC_NEWGRF_PRINT_QWORD_CURRENCY:
return SCC_CURRENCY_LONG;
case SCC_NEWGRF_PRINT_WORD_STRING_ID:
return SCC_NEWGRF_PRINT_WORD_STRING_ID;
case SCC_NEWGRF_PRINT_WORD_DATE_LONG:
case SCC_NEWGRF_PRINT_DWORD_DATE_LONG:
return SCC_DATE_LONG;
case SCC_NEWGRF_PRINT_WORD_DATE_SHORT:
case SCC_NEWGRF_PRINT_DWORD_DATE_SHORT:
return SCC_DATE_SHORT;
case SCC_NEWGRF_PRINT_WORD_SPEED:
return SCC_VELOCITY;
case SCC_NEWGRF_PRINT_WORD_VOLUME_LONG:
return SCC_VOLUME_LONG;
case SCC_NEWGRF_PRINT_WORD_VOLUME_SHORT:
return SCC_VOLUME_SHORT;
case SCC_NEWGRF_PRINT_WORD_WEIGHT_LONG:
return SCC_WEIGHT_LONG;
case SCC_NEWGRF_PRINT_WORD_WEIGHT_SHORT:
return SCC_WEIGHT_SHORT;
case SCC_NEWGRF_PRINT_WORD_POWER:
return SCC_POWER;
case SCC_NEWGRF_PRINT_WORD_CARGO_LONG:
return SCC_CARGO_LONG;
case SCC_NEWGRF_PRINT_WORD_CARGO_SHORT:
return SCC_CARGO_SHORT;
case SCC_NEWGRF_PRINT_WORD_CARGO_TINY:
return SCC_CARGO_TINY;
case SCC_NEWGRF_PRINT_WORD_CARGO_NAME:
return SCC_CARGO_LIST;
case SCC_NEWGRF_PRINT_WORD_STATION_NAME:
return SCC_STATION_NAME;
case SCC_NEWGRF_DISCARD_WORD:
case SCC_NEWGRF_ROTATE_TOP_4_WORDS:
case SCC_NEWGRF_PUSH_WORD:
case SCC_NEWGRF_UNPRINT:
return 0;
}
}
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