// Scintilla source code edit control /** @file SubStyles.h ** Manage substyles for a lexer. **/ // Copyright 2012 by Neil Hodgson // The License.txt file describes the conditions under which this software may be distributed. #ifndef SUBSTYLES_H #define SUBSTYLES_H namespace Lexilla { class WordClassifier { int baseStyle; int firstStyle; int lenStyles; using WordStyleMap = std::map>; WordStyleMap wordToStyle; public: explicit WordClassifier(int baseStyle_) : baseStyle(baseStyle_), firstStyle(0), lenStyles(0) { } void Allocate(int firstStyle_, int lenStyles_) noexcept { firstStyle = firstStyle_; lenStyles = lenStyles_; wordToStyle.clear(); } int Base() const noexcept { return baseStyle; } int Start() const noexcept { return firstStyle; } int Last() const noexcept { return firstStyle + lenStyles - 1; } int Length() const noexcept { return lenStyles; } void Clear() noexcept { firstStyle = 0; lenStyles = 0; wordToStyle.clear(); } int ValueFor(std::string_view s) const { WordStyleMap::const_iterator const it = wordToStyle.find(s); if (it != wordToStyle.end()) return it->second; else return -1; } bool IncludesStyle(int style) const noexcept { return (style >= firstStyle) && (style < (firstStyle + lenStyles)); } void RemoveStyle(int style) noexcept { WordStyleMap::iterator it = wordToStyle.begin(); while (it != wordToStyle.end()) { if (it->second == style) { it = wordToStyle.erase(it); } else { ++it; } } } void SetIdentifiers(int style, const char *identifiers) { RemoveStyle(style); if (!identifiers) return; while (*identifiers) { const char *cpSpace = identifiers; while (*cpSpace && !(*cpSpace == ' ' || *cpSpace == '\t' || *cpSpace == '\r' || *cpSpace == '\n')) cpSpace++; if (cpSpace > identifiers) { const std::string word(identifiers, cpSpace - identifiers); wordToStyle[word] = style; } identifiers = cpSpace; if (*identifiers) identifiers++; } } }; // This is the common configuration: 64 sub-styles allocated from 128 to 191 constexpr int SubStylesFirst = 0x80; constexpr int SubStylesAvailable = 0x40; class SubStyles { int classifications; const char *baseStyles; int styleFirst; int stylesAvailable; int secondaryDistance; int allocated; std::vector classifiers; int BlockFromBaseStyle(int baseStyle) const noexcept { for (int b=0; b < classifications; b++) { if (baseStyle == baseStyles[b]) return b; } return -1; } int BlockFromStyle(int style) const noexcept { int b = 0; for (const WordClassifier &wc : classifiers) { if (wc.IncludesStyle(style)) return b; b++; } return -1; } public: SubStyles(const char *baseStyles_, int styleFirst_=SubStylesFirst, int stylesAvailable_=SubStylesAvailable, int secondaryDistance_=0) : classifications(0), baseStyles(baseStyles_), styleFirst(styleFirst_), stylesAvailable(stylesAvailable_), secondaryDistance(secondaryDistance_), allocated(0) { while (baseStyles[classifications]) { classifiers.push_back(WordClassifier(baseStyles[classifications])); classifications++; } } int Allocate(int styleBase, int numberStyles) noexcept { const int block = BlockFromBaseStyle(styleBase); if (block >= 0) { if ((allocated + numberStyles) > stylesAvailable) return -1; const int startBlock = styleFirst + allocated; allocated += numberStyles; classifiers[block].Allocate(startBlock, numberStyles); return startBlock; } else { return -1; } } int Start(int styleBase) noexcept { const int block = BlockFromBaseStyle(styleBase); return (block >= 0) ? classifiers[block].Start() : -1; } int Length(int styleBase) noexcept { const int block = BlockFromBaseStyle(styleBase); return (block >= 0) ? classifiers[block].Length() : 0; } int BaseStyle(int subStyle) const noexcept { const int block = BlockFromStyle(subStyle); if (block >= 0) return classifiers[block].Base(); else return subStyle; } int DistanceToSecondaryStyles() const noexcept { return secondaryDistance; } int FirstAllocated() const noexcept { int start = 257; for (const WordClassifier &wc : classifiers) { if ((wc.Length() > 0) && (start > wc.Start())) start = wc.Start(); } return (start < 256) ? start : -1; } int LastAllocated() const noexcept { int last = -1; for (const WordClassifier &wc : classifiers) { if ((wc.Length() > 0) && (last < wc.Last())) last = wc.Last(); } return last; } void SetIdentifiers(int style, const char *identifiers) { const int block = BlockFromStyle(style); if (block >= 0) classifiers[block].SetIdentifiers(style, identifiers); } void Free() noexcept { allocated = 0; for (WordClassifier &wc : classifiers) { wc.Clear(); } } const WordClassifier &Classifier(int baseStyle) const noexcept { const int block = BlockFromBaseStyle(baseStyle); return classifiers[block >= 0 ? block : 0]; } }; } #endif