// Scintilla source code edit control /** @file LexA68k.cxx ** Lexer for Assembler, just for the MASM syntax ** Written by Martial Demolins AKA Folco **/ // Copyright 2010 Martial Demolins // The License.txt file describes the conditions under which this software // may be distributed. #include #include #include #include #include #include #include "ILexer.h" #include "Scintilla.h" #include "SciLexer.h" #include "WordList.h" #include "LexAccessor.h" #include "Accessor.h" #include "StyleContext.h" #include "CharacterSet.h" #include "LexerModule.h" #ifdef SCI_NAMESPACE using namespace Scintilla; #endif // Return values for GetOperatorType #define NO_OPERATOR 0 #define OPERATOR_1CHAR 1 #define OPERATOR_2CHAR 2 /** * IsIdentifierStart * * Return true if the given char is a valid identifier first char */ static inline bool IsIdentifierStart (const int ch) { return (isalpha(ch) || (ch == '_') || (ch == '\\')); } /** * IsIdentifierChar * * Return true if the given char is a valid identifier char */ static inline bool IsIdentifierChar (const int ch) { return (isalnum(ch) || (ch == '_') || (ch == '@') || (ch == ':') || (ch == '.')); } /** * GetOperatorType * * Return: * NO_OPERATOR if char is not an operator * OPERATOR_1CHAR if the operator is one char long * OPERATOR_2CHAR if the operator is two chars long */ static inline int GetOperatorType (const int ch1, const int ch2) { int OpType = NO_OPERATOR; if ((ch1 == '+') || (ch1 == '-') || (ch1 == '*') || (ch1 == '/') || (ch1 == '#') || (ch1 == '(') || (ch1 == ')') || (ch1 == '~') || (ch1 == '&') || (ch1 == '|') || (ch1 == ',')) OpType = OPERATOR_1CHAR; else if ((ch1 == ch2) && (ch1 == '<' || ch1 == '>')) OpType = OPERATOR_2CHAR; return OpType; } /** * IsBin * * Return true if the given char is 0 or 1 */ static inline bool IsBin (const int ch) { return (ch == '0') || (ch == '1'); } /** * IsDoxygenChar * * Return true if the char may be part of a Doxygen keyword */ static inline bool IsDoxygenChar (const int ch) { return isalpha(ch) || (ch == '$') || (ch == '[') || (ch == ']') || (ch == '{') || (ch == '}'); } /** * ColouriseA68kDoc * * Main function, which colourises a 68k source */ static void ColouriseA68kDoc (unsigned int startPos, int length, int initStyle, WordList *keywordlists[], Accessor &styler) { // Get references to keywords lists WordList &cpuInstruction = *keywordlists[0]; WordList ®isters = *keywordlists[1]; WordList &directive = *keywordlists[2]; WordList &extInstruction = *keywordlists[3]; WordList &commentSpecial = *keywordlists[4]; WordList &doxygenKeyword = *keywordlists[5]; // Instanciate a context for our source StyleContext sc(startPos, length, initStyle, styler); /************************************************************ * * Parse the text * ************************************************************/ for ( ; sc.More(); sc.Forward()) { char Buffer[100]; int OpType; // Reset style at beginning of line if (sc.atLineStart) sc.SetState(SCE_A68K_DEFAULT); /************************************************************ * * Handle current state if we are not in the "default style" * ************************************************************/ if (sc.state != SCE_A68K_DEFAULT) { // Check if current style continue. // If this case, we loop because there is nothing else to do if (((sc.state == SCE_A68K_NUMBER_DEC) && isdigit(sc.ch)) // Decimal number || ((sc.state == SCE_A68K_NUMBER_BIN) && IsBin(sc.ch)) // Binary number || ((sc.state == SCE_A68K_NUMBER_HEX) && isxdigit(sc.ch)) // Hexa number || ((sc.state == SCE_A68K_MACRO_ARG) && isdigit(sc.ch)) // Arg of macro || ((sc.state == SCE_A68K_STRING1) && (sc.ch != '\'')) // String single-quoted || ((sc.state == SCE_A68K_STRING2) && (sc.ch != '\"')) // String double-quoted || ((sc.state == SCE_A68K_MACRO_ARG) && isdigit(sc.ch)) // Macro argument // Label. ' ' and '\t' are needed to handle macro declarations || ((sc.state == SCE_A68K_LABEL) && (sc.ch != ':') && (sc.ch != ' ') && (sc.ch != '\t')) || ((sc.state == SCE_A68K_IDENTIFIER) && (sc.ch < 0x80) && IsIdentifierChar(sc.ch)) // Identifier || ((sc.state == SCE_A68K_COMMENT_DOXYGEN) && (sc.ch < 0x80) && IsDoxygenChar(sc.ch)) // Doxygen keyword || ((sc.state == SCE_A68K_COMMENT_WORD) && (sc.ch < 0x80) && isalpha(sc.ch))) // Comment current word { continue; } // Check if some states terminate at the current char: // we must include this char in the current style context else if (((sc.state == SCE_A68K_STRING1) && (sc.ch < 0x80) && (sc.ch == '\'')) // String single-quoted || ((sc.state == SCE_A68K_STRING2) && (sc.ch < 0x80) && (sc.ch == '\"')) // String double-quoted || ((sc.state == SCE_A68K_LABEL) && (sc.ch < 0x80) && (sc.ch == ':'))) // Label { sc.ForwardSetState(SCE_A68K_DEFAULT); } // Check for special words or Doxygen keywords in comments else if (sc.state == SCE_A68K_COMMENT) { if (sc.ch == '\\') { sc.SetState(SCE_A68K_COMMENT_DOXYGEN); } else if ((sc.ch < 0x80) && isalpha(sc.ch)) { sc.SetState(SCE_A68K_COMMENT_WORD); } continue; } // Check for special words in comment else if ((sc.state == SCE_A68K_COMMENT_WORD) && (sc.ch < 0x80) && !isalpha(sc.ch)) { sc.GetCurrent(Buffer, sizeof(Buffer)); if (commentSpecial.InList(Buffer)) { sc.ChangeState(SCE_A68K_COMMENT_SPECIAL); } else { sc.ChangeState(SCE_A68K_COMMENT); } sc.SetState(SCE_A68K_COMMENT); continue; } // Check for Doxygen keywords else if ((sc.state == SCE_A68K_COMMENT_DOXYGEN) && (sc.ch < 0x80) && !IsDoxygenChar(sc.ch)) { sc.GetCurrentLowered(Buffer, sizeof(Buffer)); // Buffer the string of the current context if (!doxygenKeyword.InList(Buffer)) { sc.ChangeState(SCE_A68K_COMMENT); } sc.SetState(SCE_A68K_COMMENT); continue; } // Check if we are in the case of a label which terminates without ':' // It should be a macro declaration, not a label else if ((sc.state == SCE_A68K_LABEL) && (sc.ch < 0x80) && ((sc.ch == ' ') || (sc.ch == '\t'))) { sc.ChangeState(SCE_A68K_MACRO_DECLARATION); } // Check if we are at the end of an identifier // In this case, colourise it if was a keyword. else if ((sc.state == SCE_A68K_IDENTIFIER) && !IsIdentifierChar(sc.ch)) { sc.GetCurrentLowered(Buffer, sizeof(Buffer)); // Buffer the string of the current context if (cpuInstruction.InList(Buffer)) { // And check if it belongs to a keyword list sc.ChangeState(SCE_A68K_CPUINSTRUCTION); } else if (extInstruction.InList(Buffer)) { sc.ChangeState(SCE_A68K_EXTINSTRUCTION); } else if (registers.InList(Buffer)) { sc.ChangeState(SCE_A68K_REGISTER); } else if (directive.InList(Buffer)) { sc.ChangeState(SCE_A68K_DIRECTIVE); } } // All special contexts are now handled.Come back to default style sc.SetState(SCE_A68K_DEFAULT); } /************************************************************ * * Check if we must enter a new state * ************************************************************/ // Label and macro identifiers start at the beginning of a line // We set both as a label, but if it wasn't one (no ':' at the end), // it will be changed as a macro identifier. if (sc.atLineStart && (sc.ch < 0x80) && IsIdentifierStart(sc.ch)) { sc.SetState(SCE_A68K_LABEL); } else if ((sc.ch < 0x80) && (sc.ch == ';')) { // Comment sc.SetState(SCE_A68K_COMMENT); } else if ((sc.ch < 0x80) && isdigit(sc.ch)) { // Decimal numbers haven't prefix sc.SetState(SCE_A68K_NUMBER_DEC); } else if ((sc.ch < 0x80) && (sc.ch == '%')) { // Binary numbers are prefixed with '%' sc.SetState(SCE_A68K_NUMBER_BIN); } else if ((sc.ch < 0x80) && (sc.ch == '$')) { // Hexadecimal numbers are prefixed with '$' sc.SetState(SCE_A68K_NUMBER_HEX); } else if ((sc.ch < 0x80) && (sc.ch == '\'')) { // String (single-quoted) sc.SetState(SCE_A68K_STRING1); } else if ((sc.ch < 0x80) && (sc.ch == '\"')) { // String (double-quoted) sc.SetState(SCE_A68K_STRING2); } else if ((sc.ch < 0x80) && (sc.ch == '\\') && (isdigit(sc.chNext))) { // Replacement symbols in macro sc.SetState(SCE_A68K_MACRO_ARG); } else if ((sc.ch < 0x80) && IsIdentifierStart(sc.ch)) { // An identifier: constant, label, etc... sc.SetState(SCE_A68K_IDENTIFIER); } else { if (sc.ch < 0x80) { OpType = GetOperatorType(sc.ch, sc.chNext); // Check if current char is an operator if (OpType != NO_OPERATOR) { sc.SetState(SCE_A68K_OPERATOR); if (OpType == OPERATOR_2CHAR) { // Check if the operator is 2 bytes long sc.ForwardSetState(SCE_A68K_OPERATOR); // (>> or <<) } } } } } // End of for() sc.Complete(); } // Names of the keyword lists static const char * const a68kWordListDesc[] = { "CPU instructions", "Registers", "Directives", "Extended instructions", "Comment special words", "Doxygen keywords", 0 }; LexerModule lmA68k(SCLEX_A68K, ColouriseA68kDoc, "a68k", 0, a68kWordListDesc);