/* $Id$ */ /* * 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 . */ /** * @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 functionnality had to be set. */ #include "stdafx.h" #include "newgrf.h" #include "strings_func.h" #include "newgrf_storage.h" #include "string_func.h" #include "date_type.h" #include "debug.h" #include "table/strings.h" #include "table/control_codes.h" #define GRFTAB 28 #define TABSIZE 11 /** * Perform a mapping from TTDPatch's string IDs to OpenTTD's * string IDs, but only for the ones we are aware off; the rest * like likely unused and will show a warning. * @param str the string ID to convert * @return the converted string ID */ StringID TTDPStringIDToOTTDStringIDMapping(StringID str) { /* StringID table for TextIDs 0x4E->0x6D */ static const StringID units_volume[] = { STR_NOTHING, STR_PASSENGERS, STR_TONS, STR_BAGS, STR_LITERS, STR_ITEMS, STR_CRATES, STR_TONS, STR_TONS, STR_TONS, STR_TONS, STR_BAGS, STR_TONS, STR_TONS, STR_TONS, STR_BAGS, STR_TONS, STR_TONS, STR_BAGS, STR_LITERS, STR_TONS, STR_LITERS, STR_TONS, STR_NOTHING, STR_BAGS, STR_LITERS, STR_TONS, STR_NOTHING, STR_TONS, STR_NOTHING, STR_LITERS, STR_NOTHING }; /* A string straight from a NewGRF; no need to remap this as it's already mapped. */ if (IsInsideMM(str, 0xD000, 0xD7FF) || IsInsideMM(str, 0xDC00, 0xDCFF)) return str; #define TEXTID_TO_STRINGID(begin, end, stringid) if (str >= begin && str <= end) return str + (stringid - begin) /* We have some changes in our cargo strings, resulting in some missing. */ TEXTID_TO_STRINGID(0x000E, 0x002D, STR_CARGO_PLURAL_NOTHING); TEXTID_TO_STRINGID(0x002E, 0x004D, STR_CARGO_SINGULAR_NOTHING); if (str >= 0x004E && str <= 0x006D) return units_volume[str - 0x004E]; TEXTID_TO_STRINGID(0x006E, 0x008D, STR_QUANTITY_NOTHING); TEXTID_TO_STRINGID(0x008E, 0x00AD, STR_ABBREV_NOTHING); /* Map building names according to our lang file changes. There are several * ranges of house ids, all of which need to be remapped to allow newgrfs * to use original house names. */ TEXTID_TO_STRINGID(0x200F, 0x201F, STR_TOWN_BUILDING_NAME_TALL_OFFICE_BLOCK_1); TEXTID_TO_STRINGID(0x2036, 0x2041, STR_TOWN_BUILDING_NAME_COTTAGES_1); TEXTID_TO_STRINGID(0x2059, 0x205C, STR_TOWN_BUILDING_NAME_IGLOO_1); /* Same thing for industries */ TEXTID_TO_STRINGID(0x4802, 0x4826, STR_INDUSTRY_NAME_COAL_MINE); TEXTID_TO_STRINGID(0x482D, 0x482E, STR_NEWS_INDUSTRY_CONSTRUCTION); TEXTID_TO_STRINGID(0x4832, 0x4834, STR_NEWS_INDUSTRY_CLOSURE_GENERAL); TEXTID_TO_STRINGID(0x4835, 0x4838, STR_NEWS_INDUSTRY_PRODUCTION_INCREASE_GENERAL); TEXTID_TO_STRINGID(0x4839, 0x483A, STR_NEWS_INDUSTRY_PRODUCTION_DECREASE_GENERAL); switch (str) { case 0x4830: return STR_ERROR_CAN_T_CONSTRUCT_THIS_INDUSTRY; case 0x4831: return STR_ERROR_FOREST_CAN_ONLY_BE_PLANTED; case 0x483B: return STR_ERROR_CAN_ONLY_BE_POSITIONED; } #undef TEXTID_TO_STRINGID if (str == STR_NULL) return STR_EMPTY; DEBUG(grf, 0, "Unknown StringID 0x%04X remapped to STR_EMPTY. Please open a Feature Request if you need it", str); return STR_EMPTY; } /** * 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, }; /** * Element of the linked list. * Each of those elements represent the string, * but according to a different lang. */ struct GRFText { public: static GRFText *New(byte langid, const char *text) { return new (strlen(text) + 1) GRFText(langid, text); } /** * Create a copy of this GRFText. * @param orig the grftext to copy * @return an exact copy of the given text */ static GRFText *Copy(GRFText *orig) { return GRFText::New(orig->langid, orig->text); } /** * Helper allocation function to disallow something. * Don't allow simple 'news'; they wouldn't have enough memory. * @param size the amount of space not to allocate */ void *operator new(size_t size) { NOT_REACHED(); } /** * Free the memory we allocated * @param p memory to free */ void operator delete(void *p) { free(p); } private: GRFText(byte langid_, const char *text_) : next(NULL), langid(langid_) { strcpy(text, text_); } /** * Allocate memory for this class. * @param size the size of the instance * @param extra the extra memory for the text * @return the requested amount of memory for both the instance and the text */ void *operator new(size_t size, size_t extra) { return MallocT(size + extra); } public: GRFText *next; byte langid; char text[]; }; /** * 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; GRFText *textholder; }; static uint _num_grf_texts = 0; static GRFTextEntry _grf_text[(1 << TABSIZE) * 3]; static byte _currentLangID = GRFLX_ENGLISH; ///< by default, english is used. char *TranslateTTDPatchCodes(uint32 grfid, const char *str) { char *tmp = MallocT(strlen(str) * 10 + 1); // Allocate space to allow for expansion char *d = tmp; bool unicode = false; WChar c; size_t len = Utf8Decode(&c, str); if (c == 0x00DE) { /* The thorn ('รพ') indicates a unicode string to TTDPatch */ unicode = true; str += len; } for (;;) { if (unicode && Utf8EncodedCharLen(*str) != 0) { c = Utf8Consume(&str); /* '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 = '?'; d += Utf8Encode(d, c); continue; } } else { c = (byte)*str++; } if (c == 0) break; switch (c) { case 0x01: d += Utf8Encode(d, SCC_SETX); *d++ = *str++; break; case 0x0A: break; case 0x0D: *d++ = 0x0A; break; case 0x0E: d += Utf8Encode(d, SCC_TINYFONT); break; case 0x0F: d += Utf8Encode(d, SCC_BIGFONT); break; case 0x1F: d += Utf8Encode(d, SCC_SETXY); *d++ = *str++; *d++ = *str++; break; case 0x7B: case 0x7C: case 0x7D: case 0x7E: case 0x7F: case 0x80: d += Utf8Encode(d, SCC_NEWGRF_PRINT_DWORD + c - 0x7B); break; case 0x81: { StringID string; string = ((uint8)*str++); string |= ((uint8)*str++) << 8; d += Utf8Encode(d, SCC_STRING_ID); d += Utf8Encode(d, MapGRFStringID(grfid, string)); break; } case 0x82: case 0x83: case 0x84: d += Utf8Encode(d, SCC_NEWGRF_PRINT_DATE + c - 0x82); break; case 0x85: d += Utf8Encode(d, SCC_NEWGRF_DISCARD_WORD); break; case 0x86: d += Utf8Encode(d, SCC_NEWGRF_ROTATE_TOP_4_WORDS); break; case 0x87: d += Utf8Encode(d, SCC_NEWGRF_PRINT_WORD_VOLUME); break; case 0x88: d += Utf8Encode(d, SCC_BLUE); break; case 0x89: d += Utf8Encode(d, SCC_SILVER); break; case 0x8A: d += Utf8Encode(d, SCC_GOLD); break; case 0x8B: d += Utf8Encode(d, SCC_RED); break; case 0x8C: d += Utf8Encode(d, SCC_PURPLE); break; case 0x8D: d += Utf8Encode(d, SCC_LTBROWN); break; case 0x8E: d += Utf8Encode(d, SCC_ORANGE); break; case 0x8F: d += Utf8Encode(d, SCC_GREEN); break; case 0x90: d += Utf8Encode(d, SCC_YELLOW); break; case 0x91: d += Utf8Encode(d, SCC_DKGREEN); break; case 0x92: d += Utf8Encode(d, SCC_CREAM); break; case 0x93: d += Utf8Encode(d, SCC_BROWN); break; case 0x94: d += Utf8Encode(d, SCC_WHITE); break; case 0x95: d += Utf8Encode(d, SCC_LTBLUE); break; case 0x96: d += Utf8Encode(d, SCC_GRAY); break; case 0x97: d += Utf8Encode(d, SCC_DKBLUE); break; case 0x98: d += Utf8Encode(d, SCC_BLACK); break; case 0x9A: switch (*str++) { case 0: // FALL THROUGH case 1: d += Utf8Encode(d, SCC_NEWGRF_PRINT_QWORD_CURRENCY); break; case 3: { uint16 tmp = ((uint8)*str++); tmp |= ((uint8)*str++) << 8; d += Utf8Encode(d, SCC_NEWGRF_PUSH_WORD); d += Utf8Encode(d, tmp); break; } case 4: d += Utf8Encode(d, SCC_NEWGRF_UNPRINT); d += Utf8Encode(d, *str++); break; case 6: d += Utf8Encode(d, SCC_NEWGRF_PRINT_HEX_BYTE); break; case 7: d += Utf8Encode(d, SCC_NEWGRF_PRINT_HEX_WORD); break; case 8: d += Utf8Encode(d, SCC_NEWGRF_PRINT_HEX_DWORD); break; case 0x0B: d += Utf8Encode(d, SCC_NEWGRF_PRINT_HEX_QWORD); break; default: grfmsg(1, "missing handler for extended format code"); break; } break; case 0x9E: d += Utf8Encode(d, 0x20AC); break; // Euro case 0x9F: d += Utf8Encode(d, 0x0178); break; // Y with diaeresis case 0xA0: d += Utf8Encode(d, SCC_UPARROW); break; case 0xAA: d += Utf8Encode(d, SCC_DOWNARROW); break; case 0xAC: d += Utf8Encode(d, SCC_CHECKMARK); break; case 0xAD: d += Utf8Encode(d, SCC_CROSS); break; case 0xAF: d += Utf8Encode(d, SCC_RIGHTARROW); break; case 0xB4: d += Utf8Encode(d, SCC_TRAIN); break; case 0xB5: d += Utf8Encode(d, SCC_LORRY); break; case 0xB6: d += Utf8Encode(d, SCC_BUS); break; case 0xB7: d += Utf8Encode(d, SCC_PLANE); break; case 0xB8: d += Utf8Encode(d, SCC_SHIP); break; case 0xB9: d += Utf8Encode(d, SCC_SUPERSCRIPT_M1); break; case 0xBC: d += Utf8Encode(d, SCC_SMALLUPARROW); break; case 0xBD: d += Utf8Encode(d, SCC_SMALLDOWNARROW); break; default: /* Validate any unhandled character */ if (!IsValidChar(c, CS_ALPHANUMERAL)) c = '?'; d += Utf8Encode(d, c); break; } } *d = '\0'; tmp = ReallocT(tmp, strlen(tmp) + 1); return tmp; } /** * Add a GRFText to a GRFText list. * @param list The list where the text should be added to. * @param text_to_add The GRFText to add to the list. */ void AddGRFTextToList(GRFText **list, GRFText *text_to_add) { GRFText **ptext, *text; /* Loop through all languages and see if we can replace a string */ for (ptext = list; (text = *ptext) != NULL; ptext = &text->next) { if (text->langid == text_to_add->langid) { text_to_add->next = text->next; *ptext = text_to_add; delete text; return; } } /* If a string wasn't replaced, then we must append the new string */ *ptext = 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 text_to_add The text to add to the list. * @note All text-codes will be translated. */ void AddGRFTextToList(struct GRFText **list, byte langid, uint32 grfid, const char *text_to_add) { char *translatedtext = TranslateTTDPatchCodes(grfid, text_to_add); GRFText *newtext = GRFText::New(langid, translatedtext); free(translatedtext); AddGRFTextToList(list, newtext); } /** * 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(struct GRFText **list, const char *text_to_add) { AddGRFTextToList(list, GRFText::New(0x7F, text_to_add)); } /** * Create a copy of this GRFText list. * @param orig The GRFText list to copy. * @return A duplicate of the given GRFText. */ GRFText *DuplicateGRFText(GRFText *orig) { GRFText *newtext = NULL; GRFText **ptext = &newtext; for (; orig != NULL; orig = orig->next) { *ptext = GRFText::Copy(orig); ptext = &(*ptext)->next; } return newtext; } /** * Add the new read string into our structure. */ StringID AddGRFString(uint32 grfid, uint16 stringid, byte langid_to_add, bool new_scheme, const char *text_to_add, StringID def_string) { char *translatedtext; uint id; /* 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, text_to_add, def_string); if (langid_to_add & GRFLB_FRENCH) ret = AddGRFString(grfid, stringid, GRFLX_FRENCH, true, text_to_add, def_string); if (langid_to_add & GRFLB_SPANISH) ret = AddGRFString(grfid, stringid, GRFLX_SPANISH, true, text_to_add, def_string); return ret; } } 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; translatedtext = TranslateTTDPatchCodes(grfid, text_to_add); GRFText *newtext = GRFText::New(langid_to_add, translatedtext); free(translatedtext); /* 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 == NULL) { _grf_text[id].grfid = grfid; _grf_text[id].stringid = stringid; _grf_text[id].def_string = def_string; } AddGRFTextToList(&_grf_text[id].textholder, newtext); grfmsg(3, "Added 0x%X: grfid %08X string 0x%X lang 0x%X string '%s'", id, grfid, stringid, newtext->langid, newtext->text); return (GRFTAB << TABSIZE) + id; } /* Used to remember the grfid that the last retrieved string came from */ static uint32 _last_grfid = 0; /** * Returns the index for this stringid associated with its grfID */ StringID GetGRFStringID(uint32 grfid, uint16 stringid) { uint id; /* grfid is zero when we're being called via an include */ if (grfid == 0) grfid = _last_grfid; for (id = 0; id < _num_grf_texts; id++) { if (_grf_text[id].grfid == grfid && _grf_text[id].stringid == stringid) { return (GRFTAB << TABSIZE) + 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 NULL is returned. * @param text The GRFText to get the string from. */ const char *GetGRFStringFromGRFText(const GRFText *text) { const char *default_text = NULL; /* Search the list of lang-strings of this stringid for current lang */ for (; text != NULL; text = text->next) { if (text->langid == _currentLangID) return text->text; /* 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 == NULL && (text->langid == GRFLX_ENGLISH || text->langid == GRFLX_AMERICAN))) { default_text = text->text; } } return default_text; } /** * Get a C-string from a stringid set by a newgrf. */ const char *GetGRFStringPtr(uint16 stringid) { assert(_grf_text[stringid].grfid != 0); /* Remember this grfid in case the string has included text */ _last_grfid = _grf_text[stringid].grfid; const char *str = GetGRFStringFromGRFText(_grf_text[stringid].textholder); if (str != NULL) 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); } /** * Delete all items of a linked GRFText list. * @param grftext the head of the list to delete */ void CleanUpGRFText(GRFText *grftext) { while (grftext != NULL) { GRFText *grftext2 = grftext->next; delete grftext; grftext = grftext2; } } /** * House cleaning. * Remove all strings and reset the text counter. */ void CleanUpStrings() { uint id; for (id = 0; id < _num_grf_texts; id++) { CleanUpGRFText(_grf_text[id].textholder); _grf_text[id].grfid = 0; _grf_text[id].stringid = 0; _grf_text[id].textholder = NULL; } _num_grf_texts = 0; } struct TextRefStack { byte stack[0x30]; byte position; bool used; TextRefStack() : used(false) {} uint8 PopUnsignedByte() { assert(this->position < lengthof(this->stack)); 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 { for (int i = lengthof(stack) - 1; i >= this->position + 2; i--) { this->stack[i] = this->stack[i - 2]; } } this->stack[this->position] = GB(word, 0, 8); this->stack[this->position + 1] = GB(word, 8, 8); } void ResetStack() { this->position = 0; this->used = true; } void RewindStack() { this->position = 0; } }; static TextRefStack _newgrf_normal_textrefstack; static TextRefStack _newgrf_error_textrefstack; /** The stack that is used for TTDP compatible string code parsing */ static TextRefStack *_newgrf_textrefstack = &_newgrf_normal_textrefstack; /** * Prepare the TTDP compatible string code parsing * @param numEntries number of entries to copy from the registers */ void PrepareTextRefStackUsage(byte numEntries) { extern TemporaryStorageArray _temp_store; _newgrf_textrefstack->ResetStack(); byte *p = _newgrf_textrefstack->stack; for (uint i = 0; i < numEntries; i++) { for (uint j = 0; j < 32; j += 8) { *p = GB(_temp_store.Get(0x100 + i), j, 8); p++; } } } /** Stop using the TTDP compatible string code parsing */ void StopTextRefStackUsage() { _newgrf_textrefstack->used = false; } void SwitchToNormalRefStack() { _newgrf_textrefstack = &_newgrf_normal_textrefstack; } void SwitchToErrorRefStack() { _newgrf_textrefstack = &_newgrf_error_textrefstack; } 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 * @return the string control code to "execute" now */ uint RemapNewGRFStringControlCode(uint scc, char *buf_start, char **buff, const char **str, int64 *argv) { if (_newgrf_textrefstack->used) { switch (scc) { default: NOT_REACHED(); case SCC_NEWGRF_PRINT_SIGNED_BYTE: *argv = _newgrf_textrefstack->PopSignedByte(); break; case SCC_NEWGRF_PRINT_SIGNED_WORD: *argv = _newgrf_textrefstack->PopSignedWord(); break; case SCC_NEWGRF_PRINT_QWORD_CURRENCY: *argv = _newgrf_textrefstack->PopUnsignedQWord(); break; case SCC_NEWGRF_PRINT_DWORD_CURRENCY: case SCC_NEWGRF_PRINT_DWORD: *argv = _newgrf_textrefstack->PopSignedDWord(); break; case SCC_NEWGRF_PRINT_HEX_BYTE: *argv = _newgrf_textrefstack->PopUnsignedByte(); break; case SCC_NEWGRF_PRINT_HEX_DWORD: *argv = _newgrf_textrefstack->PopUnsignedDWord(); break; case SCC_NEWGRF_PRINT_HEX_QWORD: *argv = _newgrf_textrefstack->PopSignedQWord(); break; case SCC_NEWGRF_PRINT_HEX_WORD: case SCC_NEWGRF_PRINT_WORD_SPEED: case SCC_NEWGRF_PRINT_WORD_VOLUME: case SCC_NEWGRF_PRINT_UNSIGNED_WORD: *argv = _newgrf_textrefstack->PopUnsignedWord(); break; case SCC_NEWGRF_PRINT_DATE: case SCC_NEWGRF_PRINT_MONTH_YEAR: *argv = _newgrf_textrefstack->PopSignedWord() + 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 = max(*buff - Utf8Consume(str), buf_start); break; case SCC_NEWGRF_PRINT_STRING_ID: *argv = TTDPStringIDToOTTDStringIDMapping(_newgrf_textrefstack->PopUnsignedWord()); break; } } switch (scc) { default: NOT_REACHED(); case SCC_NEWGRF_PRINT_DWORD: case SCC_NEWGRF_PRINT_SIGNED_WORD: case SCC_NEWGRF_PRINT_SIGNED_BYTE: case SCC_NEWGRF_PRINT_UNSIGNED_WORD: return SCC_COMMA; case SCC_NEWGRF_PRINT_HEX_BYTE: case SCC_NEWGRF_PRINT_HEX_WORD: case SCC_NEWGRF_PRINT_HEX_DWORD: case SCC_NEWGRF_PRINT_HEX_QWORD: return SCC_HEX; case SCC_NEWGRF_PRINT_DWORD_CURRENCY: case SCC_NEWGRF_PRINT_QWORD_CURRENCY: return SCC_CURRENCY; case SCC_NEWGRF_PRINT_STRING_ID: return SCC_STRING1; case SCC_NEWGRF_PRINT_DATE: return SCC_DATE_LONG; case SCC_NEWGRF_PRINT_MONTH_YEAR: return SCC_DATE_TINY; case SCC_NEWGRF_PRINT_WORD_SPEED: return SCC_VELOCITY; case SCC_NEWGRF_PRINT_WORD_VOLUME: return SCC_VOLUME; case SCC_NEWGRF_DISCARD_WORD: case SCC_NEWGRF_ROTATE_TOP_4_WORDS: case SCC_NEWGRF_PUSH_WORD: case SCC_NEWGRF_UNPRINT: return 0; } }