// Scintilla source code edit control /** @file LexVisualProlog.cxx ** Lexer for Visual Prolog. **/ // Author Thomas Linder Puls, Prolog Development Denter A/S, http://www.visual-prolog.com // Based on Lexer for C++, C, Java, and JavaScript. // Copyright 1998-2005 by Neil Hodgson // The License.txt file describes the conditions under which this software may be distributed. // The line state contains: // In SCE_VISUALPROLOG_STRING_VERBATIM_EOL (i.e. multiline string literal): The closingQuote. // else (for SCE_VISUALPROLOG_COMMENT_BLOCK): The comment nesting level #include #include #include #include #include #include #ifdef _MSC_VER #pragma warning(disable: 4786) #endif #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 "CharacterCategory.h" #include "LexerModule.h" #include "OptionSet.h" #include "DefaultLexer.h" using namespace Scintilla; // Options used for LexerVisualProlog struct OptionsVisualProlog { OptionsVisualProlog() { } }; static const char *const visualPrologWordLists[] = { "Major keywords (class, predicates, ...)", "Minor keywords (if, then, try, ...)", "Directive keywords without the '#' (include, requires, ...)", "Documentation keywords without the '@' (short, detail, ...)", 0, }; struct OptionSetVisualProlog : public OptionSet { OptionSetVisualProlog() { DefineWordListSets(visualPrologWordLists); } }; class LexerVisualProlog : public DefaultLexer { WordList majorKeywords; WordList minorKeywords; WordList directiveKeywords; WordList docKeywords; OptionsVisualProlog options; OptionSetVisualProlog osVisualProlog; public: LexerVisualProlog() : DefaultLexer("visualprolog", SCLEX_VISUALPROLOG) { } virtual ~LexerVisualProlog() { } void SCI_METHOD Release() override { delete this; } int SCI_METHOD Version() const override { return lvRelease5; } const char * SCI_METHOD PropertyNames() override { return osVisualProlog.PropertyNames(); } int SCI_METHOD PropertyType(const char *name) override { return osVisualProlog.PropertyType(name); } const char * SCI_METHOD DescribeProperty(const char *name) override { return osVisualProlog.DescribeProperty(name); } Sci_Position SCI_METHOD PropertySet(const char *key, const char *val) override; const char * SCI_METHOD PropertyGet(const char *key) override { return osVisualProlog.PropertyGet(key); } const char * SCI_METHOD DescribeWordListSets() override { return osVisualProlog.DescribeWordListSets(); } Sci_Position SCI_METHOD WordListSet(int n, const char *wl) override; void SCI_METHOD Lex(Sci_PositionU startPos, Sci_Position length, int initStyle, IDocument *pAccess) override; void SCI_METHOD Fold(Sci_PositionU startPos, Sci_Position length, int initStyle, IDocument *pAccess) override; void * SCI_METHOD PrivateCall(int, void *) override { return 0; } static ILexer5 *LexerFactoryVisualProlog() { return new LexerVisualProlog(); } }; Sci_Position SCI_METHOD LexerVisualProlog::PropertySet(const char *key, const char *val) { if (osVisualProlog.PropertySet(&options, key, val)) { return 0; } return -1; } Sci_Position SCI_METHOD LexerVisualProlog::WordListSet(int n, const char *wl) { WordList *wordListN = 0; switch (n) { case 0: wordListN = &majorKeywords; break; case 1: wordListN = &minorKeywords; break; case 2: wordListN = &directiveKeywords; break; case 3: wordListN = &docKeywords; break; } Sci_Position firstModification = -1; if (wordListN) { WordList wlNew; wlNew.Set(wl); if (*wordListN != wlNew) { wordListN->Set(wl); firstModification = 0; } } return firstModification; } // Functor used to truncate history struct After { Sci_Position line; After(Sci_Position line_) : line(line_) {} }; static bool isLowerLetter(int ch){ return ccLl == CategoriseCharacter(ch); } static bool isUpperLetter(int ch){ return ccLu == CategoriseCharacter(ch); } static bool isAlphaNum(int ch){ CharacterCategory cc = CategoriseCharacter(ch); return (ccLu == cc || ccLl == cc || ccLt == cc || ccLm == cc || ccLo == cc || ccNd == cc || ccNl == cc || ccNo == cc); } static bool isStringVerbatimOpenClose(int ch){ CharacterCategory cc = CategoriseCharacter(ch); return (ccPc <= cc && cc <= ccSo); } static bool isIdChar(int ch){ return ('_') == ch || isAlphaNum(ch); } static bool isOpenStringVerbatim(int next, int &closingQuote){ switch (next) { case L'<': closingQuote = L'>'; return true; case L'>': closingQuote = L'<'; return true; case L'(': closingQuote = L')'; return true; case L')': closingQuote = L'('; return true; case L'[': closingQuote = L']'; return true; case L']': closingQuote = L'['; return true; case L'{': closingQuote = L'}'; return true; case L'}': closingQuote = L'{'; return true; case L'_': case L'.': case L',': case L';': return false; default: if (isStringVerbatimOpenClose(next)) { closingQuote = next; return true; } else { return false; } } } // Look ahead to see which colour "end" should have (takes colour after the following keyword) static void endLookAhead(char s[], LexAccessor &styler, Sci_Position start) { char ch = styler.SafeGetCharAt(start, '\n'); while (' ' == ch) { start++; ch = styler.SafeGetCharAt(start, '\n'); } Sci_Position i = 0; while (i < 100 && isLowerLetter(ch)){ s[i] = ch; i++; ch = styler.SafeGetCharAt(start + i, '\n'); } s[i] = '\0'; } static void forwardEscapeLiteral(StyleContext &sc, int EscapeState) { sc.Forward(); if (sc.Match('"') || sc.Match('\'') || sc.Match('\\') || sc.Match('n') || sc.Match('l') || sc.Match('r') || sc.Match('t')) { sc.ChangeState(EscapeState); } else if (sc.Match('u')) { if (IsADigit(sc.chNext, 16)) { sc.Forward(); if (IsADigit(sc.chNext, 16)) { sc.Forward(); if (IsADigit(sc.chNext, 16)) { sc.Forward(); if (IsADigit(sc.chNext, 16)) { sc.Forward(); sc.ChangeState(EscapeState); } } } } } } void SCI_METHOD LexerVisualProlog::Lex(Sci_PositionU startPos, Sci_Position length, int initStyle, IDocument *pAccess) { LexAccessor styler(pAccess); CharacterSet setDoxygen(CharacterSet::setAlpha, ""); CharacterSet setNumber(CharacterSet::setNone, "0123456789abcdefABCDEFxoXO"); StyleContext sc(startPos, length, initStyle, styler, 0x7f); int styleBeforeDocKeyword = SCE_VISUALPROLOG_DEFAULT; Sci_Position currentLine = styler.GetLine(startPos); int closingQuote = '"'; int nestLevel = 0; if (currentLine >= 1) { nestLevel = styler.GetLineState(currentLine - 1); closingQuote = nestLevel; } // Truncate ppDefineHistory before current line for (; sc.More(); sc.Forward()) { // Determine if the current state should terminate. switch (sc.state) { case SCE_VISUALPROLOG_OPERATOR: sc.SetState(SCE_VISUALPROLOG_DEFAULT); break; case SCE_VISUALPROLOG_NUMBER: // We accept almost anything because of hex. and number suffixes if (!(setNumber.Contains(sc.ch)) || (sc.Match('.') && IsADigit(sc.chNext))) { sc.SetState(SCE_VISUALPROLOG_DEFAULT); } break; case SCE_VISUALPROLOG_IDENTIFIER: if (!isIdChar(sc.ch)) { char s[1000]; sc.GetCurrent(s, sizeof(s)); if (0 == strcmp(s, "end")) { endLookAhead(s, styler, sc.currentPos); } if (majorKeywords.InList(s)) { sc.ChangeState(SCE_VISUALPROLOG_KEY_MAJOR); } else if (minorKeywords.InList(s)) { sc.ChangeState(SCE_VISUALPROLOG_KEY_MINOR); } sc.SetState(SCE_VISUALPROLOG_DEFAULT); } break; case SCE_VISUALPROLOG_VARIABLE: case SCE_VISUALPROLOG_ANONYMOUS: if (!isIdChar(sc.ch)) { sc.SetState(SCE_VISUALPROLOG_DEFAULT); } break; case SCE_VISUALPROLOG_KEY_DIRECTIVE: if (!isLowerLetter(sc.ch)) { char s[1000]; sc.GetCurrent(s, sizeof(s)); if (!directiveKeywords.InList(s+1)) { sc.ChangeState(SCE_VISUALPROLOG_IDENTIFIER); } sc.SetState(SCE_VISUALPROLOG_DEFAULT); } break; case SCE_VISUALPROLOG_COMMENT_BLOCK: if (sc.Match('*', '/')) { sc.Forward(); nestLevel--; int nextState = (nestLevel == 0) ? SCE_VISUALPROLOG_DEFAULT : SCE_VISUALPROLOG_COMMENT_BLOCK; sc.ForwardSetState(nextState); } else if (sc.Match('/', '*')) { sc.Forward(); nestLevel++; } else if (sc.Match('@')) { styleBeforeDocKeyword = sc.state; sc.SetState(SCE_VISUALPROLOG_COMMENT_KEY_ERROR); } break; case SCE_VISUALPROLOG_COMMENT_LINE: if (sc.atLineEnd) { int nextState = (nestLevel == 0) ? SCE_VISUALPROLOG_DEFAULT : SCE_VISUALPROLOG_COMMENT_BLOCK; sc.SetState(nextState); } else if (sc.Match('@')) { styleBeforeDocKeyword = sc.state; sc.SetState(SCE_VISUALPROLOG_COMMENT_KEY_ERROR); } break; case SCE_VISUALPROLOG_COMMENT_KEY_ERROR: if (!setDoxygen.Contains(sc.ch) || sc.atLineEnd) { char s[1000]; sc.GetCurrent(s, sizeof(s)); if (docKeywords.InList(s+1)) { sc.ChangeState(SCE_VISUALPROLOG_COMMENT_KEY); } if (SCE_VISUALPROLOG_COMMENT_LINE == styleBeforeDocKeyword && sc.atLineEnd) { // end line comment int nextState = (nestLevel == 0) ? SCE_VISUALPROLOG_DEFAULT : SCE_VISUALPROLOG_COMMENT_BLOCK; sc.SetState(nextState); } else { sc.SetState(styleBeforeDocKeyword); if (SCE_VISUALPROLOG_COMMENT_BLOCK == styleBeforeDocKeyword && sc.Match('*', '/')) { // we have consumed the '*' if it comes immediately after the docKeyword sc.Forward(); sc.Forward(); nestLevel--; if (0 == nestLevel) { sc.SetState(SCE_VISUALPROLOG_DEFAULT); } } } } break; case SCE_VISUALPROLOG_STRING_ESCAPE: case SCE_VISUALPROLOG_STRING_ESCAPE_ERROR: // return to SCE_VISUALPROLOG_STRING and treat as such (fall-through) sc.SetState(SCE_VISUALPROLOG_STRING); // Falls through. case SCE_VISUALPROLOG_STRING: if (sc.atLineEnd) { sc.SetState(SCE_VISUALPROLOG_STRING_EOL_OPEN); } else if (sc.Match(closingQuote)) { sc.ForwardSetState(SCE_VISUALPROLOG_DEFAULT); } else if (sc.Match('\\')) { sc.SetState(SCE_VISUALPROLOG_STRING_ESCAPE_ERROR); forwardEscapeLiteral(sc, SCE_VISUALPROLOG_STRING_ESCAPE); } break; case SCE_VISUALPROLOG_STRING_EOL_OPEN: if (sc.atLineStart) { sc.SetState(SCE_VISUALPROLOG_DEFAULT); } break; case SCE_VISUALPROLOG_STRING_VERBATIM_SPECIAL: case SCE_VISUALPROLOG_STRING_VERBATIM_EOL: // return to SCE_VISUALPROLOG_STRING_VERBATIM and treat as such (fall-through) sc.SetState(SCE_VISUALPROLOG_STRING_VERBATIM); // Falls through. case SCE_VISUALPROLOG_STRING_VERBATIM: if (sc.atLineEnd) { sc.SetState(SCE_VISUALPROLOG_STRING_VERBATIM_EOL); } else if (sc.Match(closingQuote)) { if (closingQuote == sc.chNext) { sc.SetState(SCE_VISUALPROLOG_STRING_VERBATIM_SPECIAL); sc.Forward(); } else { sc.ForwardSetState(SCE_VISUALPROLOG_DEFAULT); } } break; } if (sc.atLineEnd) { // Update the line state, so it can be seen by next line int lineState = 0; if (SCE_VISUALPROLOG_STRING_VERBATIM_EOL == sc.state) { lineState = closingQuote; } else if (SCE_VISUALPROLOG_COMMENT_BLOCK == sc.state) { lineState = nestLevel; } styler.SetLineState(currentLine, lineState); currentLine++; } // Determine if a new state should be entered. if (sc.state == SCE_VISUALPROLOG_DEFAULT) { if (sc.Match('@') && isOpenStringVerbatim(sc.chNext, closingQuote)) { sc.SetState(SCE_VISUALPROLOG_STRING_VERBATIM); sc.Forward(); } else if (IsADigit(sc.ch) || (sc.Match('.') && IsADigit(sc.chNext))) { sc.SetState(SCE_VISUALPROLOG_NUMBER); } else if (isLowerLetter(sc.ch)) { sc.SetState(SCE_VISUALPROLOG_IDENTIFIER); } else if (isUpperLetter(sc.ch)) { sc.SetState(SCE_VISUALPROLOG_VARIABLE); } else if (sc.Match('_')) { sc.SetState(SCE_VISUALPROLOG_ANONYMOUS); } else if (sc.Match('/', '*')) { sc.SetState(SCE_VISUALPROLOG_COMMENT_BLOCK); nestLevel = 1; sc.Forward(); // Eat the * so it isn't used for the end of the comment } else if (sc.Match('%')) { sc.SetState(SCE_VISUALPROLOG_COMMENT_LINE); } else if (sc.Match('\'')) { closingQuote = '\''; sc.SetState(SCE_VISUALPROLOG_STRING); } else if (sc.Match('"')) { closingQuote = '"'; sc.SetState(SCE_VISUALPROLOG_STRING); } else if (sc.Match('#')) { sc.SetState(SCE_VISUALPROLOG_KEY_DIRECTIVE); } else if (isoperator(static_cast(sc.ch)) || sc.Match('\\')) { sc.SetState(SCE_VISUALPROLOG_OPERATOR); } } } sc.Complete(); styler.Flush(); } // Store both the current line's fold level and the next lines in the // level store to make it easy to pick up with each increment // and to make it possible to fiddle the current level for "} else {". void SCI_METHOD LexerVisualProlog::Fold(Sci_PositionU startPos, Sci_Position length, int initStyle, IDocument *pAccess) { LexAccessor styler(pAccess); Sci_PositionU endPos = startPos + length; int visibleChars = 0; Sci_Position currentLine = styler.GetLine(startPos); int levelCurrent = SC_FOLDLEVELBASE; if (currentLine > 0) levelCurrent = styler.LevelAt(currentLine-1) >> 16; int levelMinCurrent = levelCurrent; int levelNext = levelCurrent; char chNext = styler[startPos]; int styleNext = styler.StyleAt(startPos); int style = initStyle; for (Sci_PositionU i = startPos; i < endPos; i++) { char ch = chNext; chNext = styler.SafeGetCharAt(i + 1); style = styleNext; styleNext = styler.StyleAt(i + 1); bool atEOL = (ch == '\r' && chNext != '\n') || (ch == '\n'); if (style == SCE_VISUALPROLOG_OPERATOR) { if (ch == '{') { // Measure the minimum before a '{' to allow // folding on "} else {" if (levelMinCurrent > levelNext) { levelMinCurrent = levelNext; } levelNext++; } else if (ch == '}') { levelNext--; } } if (!IsASpace(ch)) visibleChars++; if (atEOL || (i == endPos-1)) { int levelUse = levelCurrent; int lev = levelUse | levelNext << 16; if (levelUse < levelNext) lev |= SC_FOLDLEVELHEADERFLAG; if (lev != styler.LevelAt(currentLine)) { styler.SetLevel(currentLine, lev); } currentLine++; levelCurrent = levelNext; levelMinCurrent = levelCurrent; if (atEOL && (i == static_cast(styler.Length()-1))) { // There is an empty line at end of file so give it same level and empty styler.SetLevel(currentLine, (levelCurrent | levelCurrent << 16) | SC_FOLDLEVELWHITEFLAG); } visibleChars = 0; } } } LexerModule lmVisualProlog(SCLEX_VISUALPROLOG, LexerVisualProlog::LexerFactoryVisualProlog, "visualprolog", visualPrologWordLists);