iup-stack/iup/srcscintilla/scintilla366/lexlib/SubStyles.h

179 lines
4.1 KiB
C++
Executable File

// Scintilla source code edit control
/** @file SubStyles.h
** Manage substyles for a lexer.
**/
// Copyright 2012 by Neil Hodgson <neilh@scintilla.org>
// The License.txt file describes the conditions under which this software may be distributed.
#ifndef SUBSTYLES_H
#define SUBSTYLES_H
#ifdef SCI_NAMESPACE
namespace Scintilla {
#endif
class WordClassifier {
int baseStyle;
int firstStyle;
int lenStyles;
std::map<std::string, int> wordToStyle;
public:
explicit WordClassifier(int baseStyle_) : baseStyle(baseStyle_), firstStyle(0), lenStyles(0) {
}
void Allocate(int firstStyle_, int lenStyles_) {
firstStyle = firstStyle_;
lenStyles = lenStyles_;
wordToStyle.clear();
}
int Base() const {
return baseStyle;
}
int Start() const {
return firstStyle;
}
int Length() const {
return lenStyles;
}
void Clear() {
firstStyle = 0;
lenStyles = 0;
wordToStyle.clear();
}
int ValueFor(const std::string &s) const {
std::map<std::string, int>::const_iterator it = wordToStyle.find(s);
if (it != wordToStyle.end())
return it->second;
else
return -1;
}
bool IncludesStyle(int style) const {
return (style >= firstStyle) && (style < (firstStyle + lenStyles));
}
void SetIdentifiers(int style, const char *identifiers) {
while (*identifiers) {
const char *cpSpace = identifiers;
while (*cpSpace && !(*cpSpace == ' ' || *cpSpace == '\t' || *cpSpace == '\r' || *cpSpace == '\n'))
cpSpace++;
if (cpSpace > identifiers) {
std::string word(identifiers, cpSpace - identifiers);
wordToStyle[word] = style;
}
identifiers = cpSpace;
if (*identifiers)
identifiers++;
}
}
};
class SubStyles {
int classifications;
const char *baseStyles;
int styleFirst;
int stylesAvailable;
int secondaryDistance;
int allocated;
std::vector<WordClassifier> classifiers;
int BlockFromBaseStyle(int baseStyle) const {
for (int b=0; b < classifications; b++) {
if (baseStyle == baseStyles[b])
return b;
}
return -1;
}
int BlockFromStyle(int style) const {
int b = 0;
for (std::vector<WordClassifier>::const_iterator it=classifiers.begin(); it != classifiers.end(); ++it) {
if (it->IncludesStyle(style))
return b;
b++;
}
return -1;
}
public:
SubStyles(const char *baseStyles_, int styleFirst_, int stylesAvailable_, int secondaryDistance_) :
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) {
int block = BlockFromBaseStyle(styleBase);
if (block >= 0) {
if ((allocated + numberStyles) > stylesAvailable)
return -1;
int startBlock = styleFirst + allocated;
allocated += numberStyles;
classifiers[block].Allocate(startBlock, numberStyles);
return startBlock;
} else {
return -1;
}
}
int Start(int styleBase) {
int block = BlockFromBaseStyle(styleBase);
return (block >= 0) ? classifiers[block].Start() : -1;
}
int Length(int styleBase) {
int block = BlockFromBaseStyle(styleBase);
return (block >= 0) ? classifiers[block].Length() : 0;
}
int BaseStyle(int subStyle) const {
int block = BlockFromStyle(subStyle);
if (block >= 0)
return classifiers[block].Base();
else
return subStyle;
}
int DistanceToSecondaryStyles() const {
return secondaryDistance;
}
void SetIdentifiers(int style, const char *identifiers) {
int block = BlockFromStyle(style);
if (block >= 0)
classifiers[block].SetIdentifiers(style, identifiers);
}
void Free() {
allocated = 0;
for (std::vector<WordClassifier>::iterator it=classifiers.begin(); it != classifiers.end(); ++it)
it->Clear();
}
const WordClassifier &Classifier(int baseStyle) const {
const int block = BlockFromBaseStyle(baseStyle);
return classifiers[block >= 0 ? block : 0];
}
};
#ifdef SCI_NAMESPACE
}
#endif
#endif