/* For code that originates from ZDoom the following applies: ** **--------------------------------------------------------------------------- ** Copyright 2005-2016 Randy Heit ** Copyright 2005-2016 Christoph Oelckers ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ // HEADER FILES ------------------------------------------------------------ #include #include #include "engineerrors.h" #include "sc_man.h" #include "cmdlib.h" #include "templates.h" #include "printf.h" #include "name.h" #include "v_text.h" #include "templates.h" #include "zstring.h" #include "name.h" #include #include "filesystem.h" // MACROS ------------------------------------------------------------------ // TYPES ------------------------------------------------------------------- // EXTERNAL FUNCTION PROTOTYPES -------------------------------------------- // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- // EXTERNAL DATA DECLARATIONS ---------------------------------------------- // PUBLIC DATA DEFINITIONS ------------------------------------------------- // PRIVATE DATA DEFINITIONS ------------------------------------------------ // CODE -------------------------------------------------------------------- void VersionInfo::operator=(const char *string) { char *endp; major = (int16_t)clamp(strtoull(string, &endp, 10), 0, USHRT_MAX); if (*endp == '.') { minor = (int16_t)clamp(strtoull(endp + 1, &endp, 10), 0, USHRT_MAX); if (*endp == '.') { revision = (int16_t)clamp(strtoull(endp + 1, &endp, 10), 0, USHRT_MAX); if (*endp != 0) major = USHRT_MAX; } else if (*endp == 0) { revision = 0; } else major = USHRT_MAX; } else if (*endp == 0) { minor = revision = 0; } else major = USHRT_MAX; } //========================================================================== // // FScanner Constructor // //========================================================================== FScanner::FScanner() { ScriptOpen = false; } //========================================================================== // // FScanner Destructor // //========================================================================== FScanner::~FScanner() { // Humm... Nothing to do in here. } //========================================================================== // // FScanner Copy Constructor // //========================================================================== FScanner::FScanner(const FScanner &other) { ScriptOpen = false; *this = other; } //========================================================================== // // FScanner OpenLumpNum Constructor // //========================================================================== FScanner::FScanner(int lumpnum) { ScriptOpen = false; OpenLumpNum(lumpnum); } //========================================================================== // // FScanner :: operator = // //========================================================================== FScanner &FScanner::operator=(const FScanner &other) { if (this == &other) { return *this; } if (!other.ScriptOpen) { Close(); return *this; } // Copy protected members ScriptOpen = true; ScriptName = other.ScriptName; ScriptBuffer = other.ScriptBuffer; ScriptPtr = other.ScriptPtr; ScriptEndPtr = other.ScriptEndPtr; AlreadyGot = other.AlreadyGot; AlreadyGotLine = other.AlreadyGotLine; LastGotToken = other.LastGotToken; LastGotPtr = other.LastGotPtr; LastGotLine = other.LastGotLine; CMode = other.CMode; Escape = other.Escape; StateMode = other.StateMode; StateOptions = other.StateOptions; // Copy public members if (other.String == other.StringBuffer) { memcpy(StringBuffer, other.StringBuffer, sizeof(StringBuffer)); BigStringBuffer = ""; String = StringBuffer; } else { // Past practice means the string buffer must be writeable, which // removes some of the benefit from using an FString to store // the big string buffer. BigStringBuffer = other.BigStringBuffer; String = BigStringBuffer.LockBuffer(); } StringLen = other.StringLen; TokenType = other.TokenType; Number = other.Number; Float = other.Float; Line = other.Line; End = other.End; Crossed = other.Crossed; return *this; } //========================================================================== // // FScanner :: Open // //========================================================================== void FScanner::Open (const char *name) { int lump = fileSystem.CheckNumForFullName(name, true); if (lump == -1) { I_Error("Could not find script lump '%s'\n", name); } OpenLumpNum(lump); } //========================================================================== // // FScanner :: OpenFile // // Loads a script from a file. Uses new/delete for memory allocation. // //========================================================================== bool FScanner::OpenFile (const char *name) { Close (); FileReader fr; if (!fr.OpenFile(name)) return false; auto filesize = fr.GetLength(); auto filebuff = fr.Read(); if (filebuff.Size() == 0 && filesize > 0) return false; ScriptBuffer = FString((const char *)filebuff.Data(), filesize); ScriptName = name; // This is used for error messages so the full file name is preferable LumpNum = -1; PrepareScript (); return true; } //========================================================================== // // FScanner :: OpenMem // // Prepares a script that is already in memory for parsing. The memory is // copied, so you can do whatever you want with it after opening it. // //========================================================================== void FScanner::OpenMem (const char *name, const char *buffer, int size) { OpenString(name, FString(buffer, size)); } //========================================================================== // // FScanner :: OpenString // // Like OpenMem, but takes a string directly. // //========================================================================== void FScanner::OpenString (const char *name, FString buffer) { Close (); ScriptBuffer = buffer; ScriptName = name; LumpNum = -1; PrepareScript (); } //========================================================================== // // FScanner :: OpenLumpNum // // Loads a script from the lump directory // //========================================================================== void FScanner :: OpenLumpNum (int lump) { Close (); { FileData mem = fileSystem.ReadFile(lump); ScriptBuffer = mem.GetString(); } ScriptName = fileSystem.GetFileFullPath(lump); LumpNum = lump; PrepareScript (); } //========================================================================== // // FScanner :: PrepareScript // // Prepares a script for parsing. // //========================================================================== void FScanner::PrepareScript () { // If the file got a UTF-8 byte order mark, remove that. if (ScriptBuffer.Len() > 3 && ScriptBuffer[0] == (char)0xEF && ScriptBuffer[1] == (char)0xBB && ScriptBuffer[2] == (char)0xBF) { ScriptBuffer = ScriptBuffer.Mid(3); } // The scanner requires the file to end with a '\n', so add one if // it doesn't already. if (ScriptBuffer.Len() == 0 || ScriptBuffer.Back() != '\n') { // If the last character in the buffer is a null character, change // it to a newline. Otherwise, append a newline to the end. if (ScriptBuffer.Len() > 0 && ScriptBuffer.Back() == '\0') { ScriptBuffer.LockBuffer()[ScriptBuffer.Len() - 1] = '\n'; ScriptBuffer.UnlockBuffer(); } else { ScriptBuffer += '\n'; } } ScriptPtr = &ScriptBuffer[0]; ScriptEndPtr = &ScriptBuffer[ScriptBuffer.Len()]; Line = 1; End = false; ScriptOpen = true; String = StringBuffer; AlreadyGot = false; LastGotToken = false; LastGotPtr = NULL; LastGotLine = 1; CMode = false; Escape = true; StateMode = 0; StateOptions = false; StringBuffer[0] = '\0'; BigStringBuffer = ""; } //========================================================================== // // FScanner :: Close // //========================================================================== void FScanner::Close () { ScriptOpen = false; ScriptBuffer = ""; BigStringBuffer = ""; StringBuffer[0] = '\0'; String = StringBuffer; } //========================================================================== // // FScanner :: SavePos // // Saves the current script location for restoration later // //========================================================================== const FScanner::SavedPos FScanner::SavePos () { SavedPos pos; CheckOpen (); if (End) { pos.SavedScriptPtr = NULL; } else { pos.SavedScriptPtr = ScriptPtr; } pos.SavedScriptLine = Line; return pos; } //========================================================================== // // FScanner :: RestorePos // // Restores the previously saved script location // //========================================================================== void FScanner::RestorePos (const FScanner::SavedPos &pos) { if (pos.SavedScriptPtr) { ScriptPtr = pos.SavedScriptPtr; Line = pos.SavedScriptLine; End = false; } else { End = true; } AlreadyGot = false; LastGotToken = false; Crossed = false; } long long FScanner::mystrtoll(const char* p, char** endp, int base) { // Do not treat a leading 0 as an octal identifier if so desired. if (NoOctals && *p == '0' && p[1] != 'x' && p[1] != 'X' && base == 0) base = 10; return strtoll(p, endp, base); } //========================================================================== // // FScanner :: isText // // Checks if this is a text file. // //========================================================================== bool FScanner::isText() { for(unsigned int i=0;i= ScriptEndPtr) { End = true; return false; } LastGotPtr = ScriptPtr; LastGotLine = Line; // In case the generated scanner does not use marker, avoid compiler warnings. marker; #include "sc_man_scanner.h" LastGotToken = tokens; return return_val; } //========================================================================== // // FScanner :: GetString // //========================================================================== bool FScanner::GetString () { return ScanString (false); } //============================================ ============================== // // FScanner :: MustGetString // //========================================================================== void FScanner::MustGetString (void) { if (FScanner::GetString() == false) { ScriptError ("Missing string (unexpected end of file)."); } } //========================================================================== // // FScanner :: MustGetStringName // //========================================================================== void FScanner::MustGetStringName (const char *name) { MustGetString (); if (Compare (name) == false) { ScriptError ("Expected '%s', got '%s'.", name, String); } } //========================================================================== // // FScanner :: CheckString // // Checks if the next token matches the specified string. Returns true if // it does. If it doesn't, it ungets it and returns false. // //========================================================================== bool FScanner::CheckString (const char *name) { if (GetString ()) { if (Compare (name)) { return true; } UnGet (); } return false; } //========================================================================== // // FScanner :: GetToken // // Sets sc_Float, sc_Number, and sc_Name based on sc_TokenType. // //========================================================================== bool FScanner::GetToken (bool evaluate) { if (ScanString (true)) { if (TokenType == TK_IntConst) { char *stopper; // Check for unsigned if (String[StringLen - 1] == 'u' || String[StringLen - 1] == 'U' || String[StringLen - 2] == 'u' || String[StringLen - 2] == 'U') { TokenType = TK_UIntConst; BigNumber = (int64_t)strtoull(String, &stopper, 0); Number = (int)BigNumber;// clamp(BigNumber, 0, UINT_MAX); Float = (unsigned)Number; } else { BigNumber = mystrtoll(String, &stopper, 0); Number = (int)BigNumber;// clamp(BigNumber, 0, UINT_MAX); Float = Number; } } else if (TokenType == TK_FloatConst) { char *stopper; Float = strtod(String, &stopper); } else if (TokenType == TK_StringConst) { StringLen = strbin(const_cast(String)); } else if (TokenType == TK_Identifier && evaluate && symbols.CountUsed() > 0) { auto sym = symbols.CheckKey(String); if (sym) { TokenType = sym->tokenType; BigNumber = sym->Number; Number = (int)sym->Number; Float = sym->Float; // String will retain the actual symbol name. } } return true; } return false; } //========================================================================== // // FScanner :: MustGetAnyToken // //========================================================================== void FScanner::MustGetAnyToken (bool evaluate) { if (GetToken (evaluate) == false) { ScriptError ("Missing token (unexpected end of file)."); } } //========================================================================== // // FScanner :: TokenMustBe // //========================================================================== void FScanner::TokenMustBe (int token) { if (TokenType != token) { FString tok1 = TokenName(token); FString tok2 = TokenName(TokenType, String); ScriptError ("Expected %s but got %s instead.", tok1.GetChars(), tok2.GetChars()); } } //========================================================================== // // FScanner :: MustGetToken // //========================================================================== void FScanner::MustGetToken (int token, bool evaluate) { MustGetAnyToken (evaluate); TokenMustBe(token); } //========================================================================== // // FScanner :: CheckToken // // Checks if the next token matches the specified token. Returns true if // it does. If it doesn't, it ungets it and returns false. // //========================================================================== bool FScanner::CheckToken (int token, bool evaluate) { if (GetToken (evaluate)) { if (TokenType == token) { return true; } UnGet (); } return false; } //========================================================================== // // FScanner :: GetNumber // //========================================================================== bool FScanner::GetNumber (bool evaluate) { char *stopper; CheckOpen(); if (GetString()) { if (strcmp (String, "MAXINT") == 0) { Number = INT_MAX; } else { BigNumber = mystrtoll(String, &stopper, 0); Number = (int)BigNumber;// clamp(BigNumber, 0, UINT_MAX); if (*stopper != 0) { if (evaluate && symbols.CountUsed()) { auto sym = symbols.CheckKey(String); if (sym && sym->tokenType == TK_IntConst) { BigNumber = sym->Number; Number = (int)sym->Number; Float = sym->Float; // String will retain the actual symbol name. return true; } } ScriptError ("SC_GetNumber: Bad numeric constant \"%s\".", String); } } Float = Number; return true; } else { return false; } } //========================================================================== // // FScanner :: MustGetNumber // //========================================================================== void FScanner::MustGetNumber (bool evaluate) { if (GetNumber(evaluate) == false) { ScriptError ("Missing integer (unexpected end of file)."); } } //========================================================================== // // FScanner :: CheckNumber // // similar to GetNumber but ungets the token if it isn't a number // and does not print an error // //========================================================================== bool FScanner::CheckNumber (bool evaluate) { char *stopper; if (GetString()) { if (String[0] == 0) { UnGet(); return false; } else if (strcmp (String, "MAXINT") == 0) { BigNumber = INT64_MAX; Number = INT_MAX; } else { BigNumber = mystrtoll (String, &stopper, 0); Number = (int)BigNumber;// clamp(BigNumber, 0, UINT_MAX); if (*stopper != 0) { if (evaluate && symbols.CountUsed()) { auto sym = symbols.CheckKey(String); if (sym && sym->tokenType == TK_IntConst) { BigNumber = sym->Number; Number = (int)sym->Number; Float = sym->Float; // String will retain the actual symbol name. return true; } } UnGet(); return false; } } Float = Number; return true; } else { return false; } } //========================================================================== // // FScanner :: CheckFloat // // [GRB] Same as SC_CheckNumber, only for floats // //========================================================================== bool FScanner::CheckFloat (bool evaluate) { char *stopper; if (GetString()) { if (String[0] == 0) { UnGet(); return false; } Float = strtod (String, &stopper); if (*stopper != 0) { if (evaluate && symbols.CountUsed()) { auto sym = symbols.CheckKey(String); if (sym && sym->tokenType == TK_IntConst && sym->tokenType != TK_FloatConst) { BigNumber = sym->Number; Number = (int)sym->Number; Float = sym->Float; // String will retain the actual symbol name. return true; } } UnGet(); return false; } return true; } else { return false; } } //========================================================================== // // FScanner :: GetFloat // //========================================================================== bool FScanner::GetFloat (bool evaluate) { char *stopper; CheckOpen (); if (GetString()) { Float = strtod (String, &stopper); if (*stopper != 0) { if (evaluate && symbols.CountUsed()) { auto sym = symbols.CheckKey(String); if (sym && sym->tokenType == TK_IntConst && sym->tokenType != TK_FloatConst) { BigNumber = sym->Number; Number = (int)sym->Number; Float = sym->Float; // String will retain the actual symbol name. return true; } } ScriptError ("SC_GetFloat: Bad numeric constant \"%s\".", String); } Number = (int)Float; return true; } else { return false; } } //========================================================================== // // FScanner :: MustGetFloat // //========================================================================== void FScanner::MustGetFloat (bool evaluate) { if (GetFloat(evaluate) == false) { ScriptError ("Missing floating-point number (unexpected end of file)."); } } //========================================================================== // // FScanner :: UnGet // // Assumes there is a valid string in String. // //========================================================================== void FScanner::UnGet () { AlreadyGot = true; AlreadyGotLine = LastGotLine; // in case of an error we want the line of the last token. } //========================================================================== // // FScanner :: MatchString // // Returns the index of the first match to String from the passed // array of strings, or -1 if not found. // //========================================================================== int FScanner::MatchString (const char * const *strings, size_t stride) { int i; assert(stride % sizeof(const char*) == 0); stride /= sizeof(const char*); for (i = 0; *strings != NULL; i++) { if (Compare (*strings)) { return i; } strings += stride; } return -1; } //========================================================================== // // FScanner :: MustMatchString // //========================================================================== int FScanner::MustMatchString (const char * const *strings, size_t stride) { int i; i = MatchString (strings, stride); if (i == -1) { ScriptError ("Unknown keyword '%s'", String); } return i; } //========================================================================== // // FScanner :: Compare // //========================================================================== bool FScanner::Compare (const char *text) { return (stricmp (text, String) == 0); } //========================================================================== // // Convenience helpers that parse an entire number including a leading minus or plus sign // //========================================================================== bool FScanner::ScanValue(bool allowfloat, bool evaluate) { bool neg = false; if (!GetToken(evaluate)) { return false; } if (TokenType == '-' || TokenType == '+') { neg = TokenType == '-'; if (!GetToken(evaluate)) { return false; } } if (TokenType == TK_FloatConst && !allowfloat) return false; if (TokenType != TK_IntConst && TokenType != TK_FloatConst) { auto d = constants.CheckKey(String); if (!d) return false; if (!allowfloat && int64_t(*d) != *d) return false; BigNumber = *d; Number = *d; Float = *d; } if (neg) { BigNumber = -BigNumber; Number = -Number; Float = -Float; } return true; } bool FScanner::CheckValue(bool allowfloat, bool evaluate) { auto savedstate = SavePos(); bool res = ScanValue(allowfloat, evaluate); if (!res) RestorePos(savedstate); return res; } void FScanner::MustGetValue(bool allowfloat, bool evaluate) { if (!ScanValue(allowfloat, evaluate)) ScriptError(allowfloat ? "Numeric constant expected" : "Integer constant expected"); } bool FScanner::CheckBoolToken() { if (CheckToken(TK_True)) { Number = 1; Float = 1; return true; } if (CheckToken(TK_False)) { Number = 0; Float = 0; return true; } return false; } void FScanner::MustGetBoolToken() { if (!CheckBoolToken()) ScriptError("Expected true or false"); } //========================================================================== // // FScanner :: TokenName // // Returns the name of a token. // //========================================================================== FString FScanner::TokenName (int token, const char *string) { static const char *const names[] = { #define xx(sym,str) str, #include "sc_man_tokens.h" }; FString work; if (token > ' ' && token < 256) { work = '\''; work += token; work += '\''; } else if (token >= TK_Identifier && token < TK_LastToken) { work = names[token - TK_Identifier]; if (string != NULL && token >= TK_Identifier && token <= TK_FloatConst) { work += ' '; char quote = (token == TK_StringConst) ? '"' : '\''; work += quote; work += string; work += quote; } } else { FString work; work.Format ("Unknown(%d)", token); return work; } return work; } //========================================================================== // // FScanner::GetMessageLine // //========================================================================== int FScanner::GetMessageLine() { return AlreadyGot? AlreadyGotLine : Line; } //========================================================================== // // FScanner::ScriptError // //========================================================================== void FScanner::ScriptError (const char *message, ...) { FString composed; if (message == NULL) { composed = "Bad syntax."; } else { va_list arglist; va_start (arglist, message); composed.VFormat (message, arglist); va_end (arglist); } if (NoFatalErrors) { Printf(TEXTCOLOR_RED "Script error, \"%s\"" TEXTCOLOR_RED " line %d:\n" TEXTCOLOR_RED "%s\n", ScriptName.GetChars(), AlreadyGot ? AlreadyGotLine : Line, composed.GetChars()); return; } I_Error ("Script error, \"%s\" line %d:\n%s\n", ScriptName.GetChars(), AlreadyGot? AlreadyGotLine : Line, composed.GetChars()); } //========================================================================== // // FScanner::ScriptMessage // //========================================================================== void FScanner::ScriptMessage (const char *message, ...) { FString composed; if (message == NULL) { composed = "Bad syntax."; } else { va_list arglist; va_start (arglist, message); composed.VFormat (message, arglist); va_end (arglist); } Printf (TEXTCOLOR_RED "Script error, \"%s\"" TEXTCOLOR_RED " line %d:\n" TEXTCOLOR_RED "%s\n", ScriptName.GetChars(), AlreadyGot? AlreadyGotLine : Line, composed.GetChars()); } //========================================================================== // // FScanner :: CheckOpen // //========================================================================== void FScanner::CheckOpen() { if (ScriptOpen == false) { I_Error ("SC_ call before SC_Open()."); } } //========================================================================== // // // //========================================================================== void FScanner::AddSymbol(const char *name, int64_t value) { Symbol sym; sym.tokenType = TK_IntConst; sym.Number = value; sym.Float = value; symbols.Insert(name, sym); } //========================================================================== // // // //========================================================================== void FScanner::AddSymbol(const char* name, uint64_t value) { Symbol sym; sym.tokenType = TK_UIntConst; sym.Number = value; sym.Float = value; symbols.Insert(name, sym); } //========================================================================== // // // //========================================================================== void FScanner::SkipToEndOfBlock() { int depth = 0; while (1) { MustGetAnyToken(); // this will abort if it reaches the end of the file if (TokenType == '}') depth++; else if (TokenType == '}') { depth--; if (depth < 0) return; } } } //========================================================================== // // // //========================================================================== void FScanner::AddSymbol(const char* name, double value) { Symbol sym; sym.tokenType = TK_FloatConst; sym.Number = (int64_t)value; sym.Float = value; symbols.Insert(name, sym); } //========================================================================== // // a class that remembers a parser position // //========================================================================== int FScriptPosition::ErrorCounter; int FScriptPosition::WarnCounter; int FScriptPosition::Developer; bool FScriptPosition::StrictErrors; // makes all OPTERROR messages real errors. bool FScriptPosition::errorout; // call I_Error instead of printing the error itself. FScriptPosition::FScriptPosition(FString fname, int line) { FileName = fname; ScriptLine = line; } FScriptPosition::FScriptPosition(FScanner &sc) { FileName = sc.ScriptName; ScriptLine = sc.GetMessageLine(); } FScriptPosition &FScriptPosition::operator=(FScanner &sc) { FileName = sc.ScriptName; ScriptLine = sc.GetMessageLine(); return *this; } //========================================================================== // // FScriptPosition::Message // //========================================================================== void FScriptPosition::Message (int severity, const char *message, ...) const { FString composed; if (severity == MSG_DEBUGLOG && Developer < DMSG_NOTIFY) return; if (severity == MSG_DEBUGERROR && Developer < DMSG_ERROR) return; if (severity == MSG_DEBUGWARN && Developer < DMSG_WARNING) return; if (severity == MSG_DEBUGMSG && Developer < DMSG_NOTIFY) return; if (severity == MSG_OPTERROR) { severity = StrictErrors? MSG_ERROR : MSG_WARNING; } // This is mainly for catching the error with an exception handler. if (severity == MSG_ERROR && errorout) severity = MSG_FATAL; if (message == NULL) { composed = "Bad syntax."; } else { va_list arglist; va_start (arglist, message); composed.VFormat (message, arglist); va_end (arglist); } const char *type = ""; const char *color; int level = PRINT_HIGH; switch (severity) { default: return; case MSG_WARNING: case MSG_DEBUGWARN: case MSG_DEBUGERROR: // This is intentionally not being printed as an 'error', the difference to MSG_DEBUGWARN is only the severity level at which it gets triggered. WarnCounter++; type = "warning"; color = TEXTCOLOR_ORANGE; break; case MSG_ERROR: ErrorCounter++; type = "error"; color = TEXTCOLOR_RED; break; case MSG_MESSAGE: case MSG_DEBUGMSG: type = "message"; color = TEXTCOLOR_GREEN; break; case MSG_DEBUGLOG: case MSG_LOG: type = "message"; level = PRINT_LOG; color = ""; break; case MSG_FATAL: I_Error ("Script error, \"%s\" line %d:\n%s\n", FileName.GetChars(), ScriptLine, composed.GetChars()); return; } Printf (level, "%sScript %s, \"%s\" line %d:\n%s%s\n", color, type, FileName.GetChars(), ScriptLine, color, composed.GetChars()); } //========================================================================== // // ParseHex // //========================================================================== int ParseHex(const char* hex, FScriptPosition* sc) { const char* str; int num; num = 0; str = hex; while (*str) { num <<= 4; if (*str >= '0' && *str <= '9') num += *str - '0'; else if (*str >= 'a' && *str <= 'f') num += 10 + *str - 'a'; else if (*str >= 'A' && *str <= 'F') num += 10 + *str - 'A'; else { if (sc) sc->Message(MSG_WARNING, "Bad hex number: %s", hex); else Printf("Bad hex number: %s\n", hex); return 0; } str++; } return num; }