UltimateZoneBuilder/Documents/Scintilla/LexCaml.cxx
2008-11-01 09:35:54 +00:00

403 lines
13 KiB
C++

// Scintilla source code edit control
/** @file LexCaml.cxx
** Lexer for Objective Caml.
**/
// Copyright 2005 by Robert Roessler <robertr@rftp.com>
// The License.txt file describes the conditions under which this software may be distributed.
/* Release History
20050204 Initial release.
20050205 Quick compiler standards/"cleanliness" adjustment.
20050206 Added cast for IsLeadByte().
20050209 Changes to "external" build support.
20050306 Fix for 1st-char-in-doc "corner" case.
20050502 Fix for [harmless] one-past-the-end coloring.
20050515 Refined numeric token recognition logic.
20051125 Added 2nd "optional" keywords class.
20051129 Support "magic" (read-only) comments for RCaml.
20051204 Swtich to using StyleContext infrastructure.
*/
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <stdio.h>
#include <stdarg.h>
#include "Platform.h"
#include "PropSet.h"
#include "Accessor.h"
#include "StyleContext.h"
#include "KeyWords.h"
#include "Scintilla.h"
#include "SciLexer.h"
// Since the Microsoft __iscsym[f] funcs are not ANSI...
inline int iscaml(int c) {return isalnum(c) || c == '_';}
inline int iscamlf(int c) {return isalpha(c) || c == '_';}
inline int iscamld(int c) {return isdigit(c) || c == '_';}
static const int baseT[24] = {
0, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* A - L */
0, 0, 8, 0, 0, 0, 0, 0, 0, 0, 0,16 /* M - X */
};
#ifdef SCI_NAMESPACE
using namespace Scintilla;
#endif
#ifdef BUILD_AS_EXTERNAL_LEXER
/*
(actually seems to work!)
*/
#include "WindowAccessor.h"
#include "ExternalLexer.h"
#if PLAT_WIN
#include <windows.h>
#endif
static void ColouriseCamlDoc(
unsigned int startPos, int length,
int initStyle,
WordList *keywordlists[],
Accessor &styler);
static void FoldCamlDoc(
unsigned int startPos, int length,
int initStyle,
WordList *keywordlists[],
Accessor &styler);
static void InternalLexOrFold(int lexOrFold, unsigned int startPos, int length,
int initStyle, char *words[], WindowID window, char *props);
static const char* LexerName = "caml";
#ifdef TRACE
void Platform::DebugPrintf(const char *format, ...) {
char buffer[2000];
va_list pArguments;
va_start(pArguments, format);
vsprintf(buffer,format,pArguments);
va_end(pArguments);
Platform::DebugDisplay(buffer);
}
#else
void Platform::DebugPrintf(const char *, ...) {
}
#endif
bool Platform::IsDBCSLeadByte(int codePage, char ch) {
return ::IsDBCSLeadByteEx(codePage, ch) != 0;
}
long Platform::SendScintilla(WindowID w, unsigned int msg, unsigned long wParam, long lParam) {
return ::SendMessage(reinterpret_cast<HWND>(w), msg, wParam, lParam);
}
long Platform::SendScintillaPointer(WindowID w, unsigned int msg, unsigned long wParam, void *lParam) {
return ::SendMessage(reinterpret_cast<HWND>(w), msg, wParam,
reinterpret_cast<LPARAM>(lParam));
}
void EXT_LEXER_DECL Fold(unsigned int lexer, unsigned int startPos, int length,
int initStyle, char *words[], WindowID window, char *props)
{
// below useless evaluation(s) to supress "not used" warnings
lexer;
// build expected data structures and do the Fold
InternalLexOrFold(1, startPos, length, initStyle, words, window, props);
}
int EXT_LEXER_DECL GetLexerCount()
{
return 1; // just us [Objective] Caml lexers here!
}
void EXT_LEXER_DECL GetLexerName(unsigned int Index, char *name, int buflength)
{
// below useless evaluation(s) to supress "not used" warnings
Index;
// return as much of our lexer name as will fit (what's up with Index?)
if (buflength > 0) {
buflength--;
int n = strlen(LexerName);
if (n > buflength)
n = buflength;
memcpy(name, LexerName, n), name[n] = '\0';
}
}
void EXT_LEXER_DECL Lex(unsigned int lexer, unsigned int startPos, int length,
int initStyle, char *words[], WindowID window, char *props)
{
// below useless evaluation(s) to supress "not used" warnings
lexer;
// build expected data structures and do the Lex
InternalLexOrFold(0, startPos, length, initStyle, words, window, props);
}
static void InternalLexOrFold(int foldOrLex, unsigned int startPos, int length,
int initStyle, char *words[], WindowID window, char *props)
{
// create and initialize a WindowAccessor (including contained PropSet)
PropSet ps;
ps.SetMultiple(props);
WindowAccessor wa(window, ps);
// create and initialize WordList(s)
int nWL = 0;
for (; words[nWL]; nWL++) ; // count # of WordList PTRs needed
WordList** wl = new WordList* [nWL + 1];// alloc WordList PTRs
int i = 0;
for (; i < nWL; i++) {
wl[i] = new WordList(); // (works or THROWS bad_alloc EXCEPTION)
wl[i]->Set(words[i]);
}
wl[i] = 0;
// call our "internal" folder/lexer (... then do Flush!)
if (foldOrLex)
FoldCamlDoc(startPos, length, initStyle, wl, wa);
else
ColouriseCamlDoc(startPos, length, initStyle, wl, wa);
wa.Flush();
// clean up before leaving
for (i = nWL - 1; i >= 0; i--)
delete wl[i];
delete [] wl;
}
static
#endif /* BUILD_AS_EXTERNAL_LEXER */
void ColouriseCamlDoc(
unsigned int startPos, int length,
int initStyle,
WordList *keywordlists[],
Accessor &styler)
{
// initialize styler
StyleContext sc(startPos, length, initStyle, styler);
// set up [initial] state info (terminating states that shouldn't "bleed")
int nesting = 0;
if (sc.state < SCE_CAML_STRING)
sc.state = SCE_CAML_DEFAULT;
if (sc.state >= SCE_CAML_COMMENT)
nesting = (sc.state & 0x0f) - SCE_CAML_COMMENT;
int chBase = 0, chToken = 0, chLit = 0;
WordList& keywords = *keywordlists[0];
WordList& keywords2 = *keywordlists[1];
WordList& keywords3 = *keywordlists[2];
const int useMagic = styler.GetPropertyInt("lexer.caml.magic", 0);
// foreach char in range...
while (sc.More()) {
// set up [per-char] state info
int state2 = -1; // (ASSUME no state change)
int chColor = sc.currentPos - 1;// (ASSUME standard coloring range)
bool advance = true; // (ASSUME scanner "eats" 1 char)
// step state machine
switch (sc.state & 0x0f) {
case SCE_CAML_DEFAULT:
chToken = sc.currentPos; // save [possible] token start (JIC)
// it's wide open; what do we have?
if (iscamlf(sc.ch))
state2 = SCE_CAML_IDENTIFIER;
else if (sc.Match('`') && iscamlf(sc.chNext))
state2 = SCE_CAML_TAGNAME;
else if (sc.Match('#') && isdigit(sc.chNext))
state2 = SCE_CAML_LINENUM;
else if (isdigit(sc.ch)) {
state2 = SCE_CAML_NUMBER, chBase = 10;
if (sc.Match('0') && strchr("bBoOxX", sc.chNext))
chBase = baseT[tolower(sc.chNext) - 'a'], sc.Forward();
} else if (sc.Match('\'')) /* (char literal?) */
state2 = SCE_CAML_CHAR, chLit = 0;
else if (sc.Match('\"'))
state2 = SCE_CAML_STRING;
else if (sc.Match('(', '*'))
state2 = SCE_CAML_COMMENT,
sc.ch = ' ', // (make SURE "(*)" isn't seen as a closed comment)
sc.Forward();
else if (strchr("!?~" /* Caml "prefix-symbol" */
"=<>@^|&+-*/$%" /* Caml "infix-symbol" */
"()[]{};,:.#", sc.ch)) /* Caml "bracket" or ;,:.# */
state2 = SCE_CAML_OPERATOR;
break;
case SCE_CAML_IDENTIFIER:
// [try to] interpret as [additional] identifier char
if (!(iscaml(sc.ch) || sc.Match('\''))) {
const int n = sc.currentPos - chToken;
if (n < 24) {
// length is believable as keyword, [re-]construct token
char t[24];
for (int i = -n; i < 0; i++)
t[n + i] = static_cast<char>(sc.GetRelative(i));
t[n] = '\0';
// special-case "_" token as KEYWORD
if ((n == 1 && sc.chPrev == '_') || keywords.InList(t))
sc.ChangeState(SCE_CAML_KEYWORD);
else if (keywords2.InList(t))
sc.ChangeState(SCE_CAML_KEYWORD2);
else if (keywords3.InList(t))
sc.ChangeState(SCE_CAML_KEYWORD3);
}
state2 = SCE_CAML_DEFAULT, advance = false;
}
break;
case SCE_CAML_TAGNAME:
// [try to] interpret as [additional] tagname char
if (!(iscaml(sc.ch) || sc.Match('\'')))
state2 = SCE_CAML_DEFAULT, advance = false;
break;
/*case SCE_CAML_KEYWORD:
case SCE_CAML_KEYWORD2:
case SCE_CAML_KEYWORD3:
// [try to] interpret as [additional] keyword char
if (!iscaml(ch))
state2 = SCE_CAML_DEFAULT, advance = false;
break;*/
case SCE_CAML_LINENUM:
// [try to] interpret as [additional] linenum directive char
if (!isdigit(sc.ch))
state2 = SCE_CAML_DEFAULT, advance = false;
break;
case SCE_CAML_OPERATOR: {
// [try to] interpret as [additional] operator char
const char* o = 0;
if (iscaml(sc.ch) || isspace(sc.ch) /* ident or whitespace */
|| (o = strchr(")]};,\'\"`#", sc.ch),o)/* "termination" chars */
|| !strchr("!$%&*+-./:<=>?@^|~", sc.ch)/* "operator" chars */) {
// check for INCLUSIVE termination
if (o && strchr(")]};,", sc.ch)) {
if ((sc.Match(')') && sc.chPrev == '(')
|| (sc.Match(']') && sc.chPrev == '['))
// special-case "()" and "[]" tokens as KEYWORDS
sc.ChangeState(SCE_CAML_KEYWORD);
chColor++;
} else
advance = false;
state2 = SCE_CAML_DEFAULT;
}
break;
}
case SCE_CAML_NUMBER:
// [try to] interpret as [additional] numeric literal char
// N.B. - improperly accepts "extra" digits in base 2 or 8 literals
if (iscamld(sc.ch) || IsADigit(sc.ch, chBase))
break;
// how about an integer suffix?
if ((sc.Match('l') || sc.Match('L') || sc.Match('n'))
&& (iscamld(sc.chPrev) || IsADigit(sc.chPrev, chBase)))
break;
// or a floating-point literal?
if (chBase == 10) {
// with a decimal point?
if (sc.Match('.') && iscamld(sc.chPrev))
break;
// with an exponent? (I)
if ((sc.Match('e') || sc.Match('E'))
&& (iscamld(sc.chPrev) || sc.chPrev == '.'))
break;
// with an exponent? (II)
if ((sc.Match('+') || sc.Match('-'))
&& (sc.chPrev == 'e' || sc.chPrev == 'E'))
break;
}
// it looks like we have run out of number
state2 = SCE_CAML_DEFAULT, advance = false;
break;
case SCE_CAML_CHAR:
// [try to] interpret as [additional] char literal char
if (sc.Match('\\')) {
chLit = 1; // (definitely IS a char literal)
if (sc.chPrev == '\\')
sc.ch = ' '; // (so termination test isn't fooled)
// should we be terminating - one way or another?
} else if ((sc.Match('\'') && sc.chPrev != '\\') || sc.atLineEnd) {
state2 = SCE_CAML_DEFAULT;
if (sc.Match('\''))
chColor++;
else
sc.ChangeState(SCE_CAML_IDENTIFIER);
// ... maybe a char literal, maybe not
} else if (chLit < 1 && sc.currentPos - chToken >= 2)
sc.ChangeState(SCE_CAML_IDENTIFIER), advance = false;
break;
case SCE_CAML_STRING:
// [try to] interpret as [additional] string literal char
if (sc.Match('\\') && sc.chPrev == '\\')
sc.ch = ' '; // (so '\\' doesn't cause us trouble)
else if (sc.Match('\"') && sc.chPrev != '\\')
state2 = SCE_CAML_DEFAULT, chColor++;
break;
case SCE_CAML_COMMENT:
case SCE_CAML_COMMENT1:
case SCE_CAML_COMMENT2:
case SCE_CAML_COMMENT3:
// we're IN a comment - does this start a NESTED comment?
if (sc.Match('(', '*'))
state2 = sc.state + 1, chToken = sc.currentPos,
sc.ch = ' ', // (make SURE "(*)" isn't seen as a closed comment)
sc.Forward(), nesting++;
// [try to] interpret as [additional] comment char
else if (sc.Match(')') && sc.chPrev == '*') {
if (nesting)
state2 = (sc.state & 0x0f) - 1, chToken = 0, nesting--;
else
state2 = SCE_CAML_DEFAULT;
chColor++;
// enable "magic" (read-only) comment AS REQUIRED
} else if (useMagic && sc.currentPos - chToken == 4
&& sc.Match('c') && sc.chPrev == 'r' && sc.GetRelative(-2) == '@')
sc.state |= 0x10; // (switch to read-only comment style)
break;
}
// handle state change and char coloring as required
if (state2 >= 0)
styler.ColourTo(chColor, sc.state), sc.ChangeState(state2);
// move to next char UNLESS re-scanning current char
if (advance)
sc.Forward();
}
// do any required terminal char coloring (JIC)
sc.Complete();
}
#ifdef BUILD_AS_EXTERNAL_LEXER
static
#endif /* BUILD_AS_EXTERNAL_LEXER */
void FoldCamlDoc(
unsigned int startPos, int length,
int initStyle,
WordList *keywordlists[],
Accessor &styler)
{
// below useless evaluation(s) to supress "not used" warnings
startPos || length || initStyle || keywordlists[0] || styler.Length();
}
static const char * const camlWordListDesc[] = {
"Keywords", // primary Objective Caml keywords
"Keywords2", // "optional" keywords (typically from Pervasives)
"Keywords3", // "optional" keywords (typically typenames)
0
};
#ifndef BUILD_AS_EXTERNAL_LEXER
LexerModule lmCaml(SCLEX_CAML, ColouriseCamlDoc, "caml", FoldCamlDoc, camlWordListDesc);
#endif /* BUILD_AS_EXTERNAL_LEXER */