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#include "keywords.h"
// all characters that can appear in a number
#define SYNTAX_DIGITS "0123456789.xXoObBlLuUiIabcdefABCDEF_"
// returns the language this string is referring to, or LANG_NONE if it's invalid.
Language language_from_str(char const *str) {
for (int i = 0; i < LANG_COUNT; ++i) {
if (streq(language_names[i].name, str))
return language_names[i].lang;
}
return LANG_NONE;
}
// NOTE: returns the color setting, not the color
ColorSetting syntax_char_type_to_color(SyntaxCharType t) {
switch (t) {
case SYNTAX_NORMAL: return COLOR_TEXT;
case SYNTAX_KEYWORD: return COLOR_KEYWORD;
case SYNTAX_COMMENT: return COLOR_COMMENT;
case SYNTAX_PREPROCESSOR: return COLOR_PREPROCESSOR;
case SYNTAX_STRING: return COLOR_STRING;
case SYNTAX_CHARACTER: return COLOR_CHARACTER;
case SYNTAX_CONSTANT: return COLOR_CONSTANT;
case SYNTAX_BUILTIN: return COLOR_BUILTIN;
}
return COLOR_TEXT;
}
static inline bool syntax_keyword_matches(char32_t *text, size_t len, char const *keyword) {
if (len == strlen(keyword)) {
bool matches = true;
char32_t *p = text;
// check if `p` starts with `keyword`
for (char const *q = keyword; *q; ++p, ++q) {
if (*p != (char32_t)*q) {
matches = false;
break;
}
}
return matches;
} else {
return false;
}
}
// lookup the given string in the keywords table
static Keyword const *syntax_keyword_lookup(Keyword const *const *all_keywords, size_t n_all_keywords, char32_t *str, size_t len) {
if (!len) return NULL;
if (str[0] >= n_all_keywords) return NULL;
Keyword const *keywords = all_keywords[str[0]];
if (keywords) {
for (size_t k = 0; keywords[k].str; ++k) {
if (syntax_keyword_matches(str, len, keywords[k].str)) {
return &keywords[k];
}
}
}
return NULL;
}
// does i continue the number literal from i-1
static inline bool syntax_number_continues(char32_t *line, u32 line_len, u32 i) {
if (line[i] == '.' && ((i && line[i-1] == '.') || (i < line_len-1 && line[i+1] == '.')))
return false; // can't have two .s in a row
return (line[i] < CHAR_MAX &&
(strchr(SYNTAX_DIGITS, (char)line[i])
|| (i && line[i-1] == 'e' && (line[i] == '+' || line[i] == '-'))));
}
// find how long this keyword would be (if this is a keyword)
static inline u32 syntax_keyword_len(Language lang, char32_t *line, u32 i, u32 line_len) {
u32 keyword_end;
for (keyword_end = i;
keyword_end < line_len
&& (is32_ident(line[keyword_end])
|| (lang == LANG_RUST && line[keyword_end] == '!')) // for rust builtin macros
; ++keyword_end);
return keyword_end - i;
}
static void syntax_highlight_c_cpp(SyntaxState *state_ptr, bool cpp, char32_t *line, u32 line_len, SyntaxCharType *char_types) {
SyntaxState state = *state_ptr;
bool in_preprocessor = (state & SYNTAX_STATE_CPP_PREPROCESSOR) != 0;
bool in_string = (state & SYNTAX_STATE_CPP_STRING) != 0;
bool in_single_line_comment = (state & SYNTAX_STATE_CPP_SINGLE_LINE_COMMENT) != 0;
bool in_multi_line_comment = (state & SYNTAX_STATE_CPP_MULTI_LINE_COMMENT) != 0;
bool in_raw_string = (state & SYNTAX_STATE_CPP_RAW_STRING);
bool in_char = false;
bool in_number = false;
bool raw_string_ending = false;
int backslashes = 0;
for (u32 i = 0; i < line_len; ++i) {
// are there 1/2 characters left in the line?
bool has_1_char = i + 1 < line_len;
bool has_2_chars = i + 2 < line_len;
bool dealt_with = false;
char32_t c = line[i];
if (in_raw_string) {
if (has_2_chars && c == ')' && line[1] == '"') {
raw_string_ending = true;
}
if (char_types)
char_types[i] = SYNTAX_STRING;
if (raw_string_ending && c == '"')
in_raw_string = false;
dealt_with = true;
} else switch (c) {
case '#':
if (!in_single_line_comment && !in_multi_line_comment && !in_char && !in_string)
in_preprocessor = true;
break;
case '\\':
++backslashes;
break;
case '/':
if (!in_multi_line_comment && !in_single_line_comment && !in_string && !in_char && has_1_char) {
if (line[i + 1] == '/')
in_single_line_comment = true; // //
else if (line[i + 1] == '*')
in_multi_line_comment = true; // /*
} else if (in_multi_line_comment) {
if (i && line[i - 1] == '*') {
// */
in_multi_line_comment = false;
if (char_types) {
dealt_with = true;
char_types[i] = SYNTAX_COMMENT;
}
}
}
break;
case '"':
if (in_string && backslashes % 2 == 0) {
in_string = false;
if (char_types) {
dealt_with = true;
char_types[i] = SYNTAX_STRING;
}
} else if (!in_multi_line_comment && !in_single_line_comment && !in_char) {
in_string = true;
}
break;
case '\'':
if (in_char && backslashes % 2 == 0) {
in_char = false;
if (char_types) {
dealt_with = true;
char_types[i] = SYNTAX_CHARACTER;
}
} else if (!in_multi_line_comment && !in_single_line_comment && !in_string) {
in_char = true;
}
break;
case ANY_DIGIT:
// a number!
if (char_types && !in_single_line_comment && !in_multi_line_comment && !in_string && !in_number && !in_char) {
in_number = true;
if (i) {
if (line[i - 1] == '.') {
// support .6, for example
char_types[i - 1] = SYNTAX_CONSTANT;
} else if (is32_ident(line[i - 1])) {
// actually, this isn't a number. it's something like a*6* or u3*2*.
in_number = false;
}
}
}
break;
default: {
if ((i && is32_ident(line[i - 1])) || !is32_ident(c))
break; // can't be a keyword on its own.
if (!in_single_line_comment && !in_multi_line_comment && !in_string && c == 'R' && has_2_chars && line[i + 1] == '"' && line[i + 2] == '(') {
// raw string
in_raw_string = true;
raw_string_ending = false;
break;
}
// keywords don't matter for advancing the state
if (char_types && !in_single_line_comment && !in_multi_line_comment && !in_number && !in_string && !in_preprocessor && !in_char) {
u32 keyword_len = syntax_keyword_len(cpp ? LANG_CPP : LANG_C, line, i, line_len);
Keyword const *keyword = NULL;
if (cpp)
keyword = syntax_keyword_lookup(syntax_all_keywords_cpp, arr_count(syntax_all_keywords_cpp),
&line[i], keyword_len);
if (!keyword)
keyword = syntax_keyword_lookup(syntax_all_keywords_c, arr_count(syntax_all_keywords_c),
&line[i], keyword_len);
if (keyword) {
SyntaxCharType type = keyword->type;
for (size_t j = 0; j < keyword_len; ++j) {
char_types[i++] = type;
}
--i; // we'll increment i from the for loop
dealt_with = true;
break;
}
}
} break;
}
if (c != '\\') backslashes = 0;
if (in_number && !syntax_number_continues(line, line_len, i)) {
in_number = false;
}
if (char_types && !dealt_with) {
SyntaxCharType type = SYNTAX_NORMAL;
if (in_single_line_comment || in_multi_line_comment)
type = SYNTAX_COMMENT;
else if (in_string)
type = SYNTAX_STRING;
else if (in_char)
type = SYNTAX_CHARACTER;
else if (in_number)
type = SYNTAX_CONSTANT;
else if (in_preprocessor)
type = SYNTAX_PREPROCESSOR;
char_types[i] = type;
}
}
*state_ptr = (SyntaxState)(
((backslashes && in_single_line_comment) * SYNTAX_STATE_CPP_SINGLE_LINE_COMMENT)
| ((backslashes && in_preprocessor) * SYNTAX_STATE_CPP_PREPROCESSOR)
| ((backslashes && in_string) * SYNTAX_STATE_CPP_STRING)
| (in_multi_line_comment * SYNTAX_STATE_CPP_MULTI_LINE_COMMENT)
| (in_raw_string * SYNTAX_STATE_CPP_RAW_STRING)
);
}
static void syntax_highlight_rust(SyntaxState *state, char32_t *line, u32 line_len, SyntaxCharType *char_types) {
u32 comment_depth = (((u32)*state & SYNTAX_STATE_RUST_COMMENT_DEPTH_MASK) / SYNTAX_STATE_RUST_COMMENT_DEPTH_MUL);
bool in_string = (*state & SYNTAX_STATE_RUST_STRING) != 0;
bool string_is_raw = (*state & SYNTAX_STATE_RUST_STRING_IS_RAW) != 0;
bool in_number = false;
uint backslashes = 0;
for (u32 i = 0; i < line_len; ++i) {
char32_t c = line[i];
bool dealt_with = false;
bool has_1_char = i + 1 < line_len;
bool has_2_chars = i + 2 < line_len;
switch (c) {
case '/':
if (!in_string) {
if (i && line[i-1] == '*') {
// */
if (comment_depth)
--comment_depth;
if (char_types) {
char_types[i] = SYNTAX_COMMENT;
dealt_with = true;
}
} else if (has_1_char && line[i+1] == '*') {
// /*
++comment_depth;
} else if (!comment_depth && has_1_char && line[i+1] == '/') {
// //
// just handle it all now
if (char_types) {
for (u32 j = i; j < line_len; ++j)
char_types[j] = SYNTAX_COMMENT;
}
i = line_len - 1;
dealt_with = true;
break;
}
}
break;
case '"':
if (!comment_depth) {
if (in_string) {
if (backslashes % 2 == 0) {
if (!string_is_raw || (has_1_char && line[i+1] == '#')) {
// end of string literal
in_string = false;
if (char_types) {
char_types[i] = SYNTAX_STRING;
dealt_with = true;
}
string_is_raw = false;
}
}
} else {
// start of string literal
in_string = true;
if (i && line[i-1] == '#')
string_is_raw = true;
}
}
break;
case '\'': {
if (!comment_depth && !in_string && has_2_chars) {
// figure out if this is a character or a lifetime
u32 char_end;
backslashes = line[i+1] == '\\';
for (char_end = i + 2; char_end < line_len; ++char_end) {
if (line[char_end] == '\'' && backslashes % 2 == 0) {
break;
}
if (line[char_end] < CHAR_MAX
&& line[char_end - 1] != '\\'
&& !strchr("abcdefABCDEF0123456789", (char)line[char_end]))
break;
}
if (char_end < line_len && line[char_end] == '\'') {
// a character literal
if (char_types) {
for (u32 j = i; j <= char_end; ++j)
char_types[j] = SYNTAX_CHARACTER;
dealt_with = true;
}
i = char_end;
} else {
// a lifetime or something else
}
}
} break;
case '\\':
++backslashes;
break;
case ANY_DIGIT:
// a number!
if (char_types && !comment_depth && !in_string && !in_number) {
in_number = true;
if (i && (is32_ident(line[i - 1])
|| (line[i-1] == '.' && !(i >= 2 && line[i-2] == '.')))
) {
// actually, this isn't a number. it's something like a*6* or u3*2*.
// also, don't highlight the 0 in tuple.0
in_number = false;
}
}
break;
default: {
if ((i && is32_ident(line[i - 1])) || !is32_ident(c))
break; // can't be a keyword on its own.
if (char_types && !in_string && !comment_depth && !in_number) {
u32 keyword_len = syntax_keyword_len(LANG_RUST, line, i, line_len);
Keyword const *keyword = syntax_keyword_lookup(syntax_all_keywords_rust, arr_count(syntax_all_keywords_rust),
&line[i], keyword_len);
if (keyword) {
SyntaxCharType type = keyword->type;
for (size_t j = 0; j < keyword_len; ++j) {
char_types[i++] = type;
}
--i; // we'll increment i from the for loop
dealt_with = true;
break;
}
}
} break;
}
if (c != '\\') backslashes = 0;
if (in_number && !syntax_number_continues(line, line_len, i))
in_number = false;
if (char_types && !dealt_with) {
SyntaxCharType type = SYNTAX_NORMAL;
if (comment_depth) {
type = SYNTAX_COMMENT;
} else if (in_string) {
type = SYNTAX_STRING;
} else if (in_number) {
type = SYNTAX_CONSTANT;
}
char_types[i] = type;
}
}
u32 max_comment_depth = ((u32)1<<SYNTAX_STATE_RUST_COMMENT_DEPTH_BITS);
if (comment_depth >= max_comment_depth)
comment_depth = max_comment_depth;
*state = (SyntaxState)(
(comment_depth * SYNTAX_STATE_RUST_COMMENT_DEPTH_MUL)
| (in_string * SYNTAX_STATE_RUST_STRING)
| (string_is_raw * SYNTAX_STATE_RUST_STRING_IS_RAW)
);
}
static void syntax_highlight_python(SyntaxState *state, char32_t *line, u32 line_len, SyntaxCharType *char_types) {
(void)state;
bool in_string = (*state & SYNTAX_STATE_PYTHON_STRING) != 0;
bool string_is_dbl_quoted = (*state & SYNTAX_STATE_PYTHON_STRING_DBL_QUOTED) != 0;
bool string_is_multiline = true;
bool in_number = false;
uint backslashes = 0;
for (u32 i = 0; i < line_len; ++i) {
char32_t c = line[i];
bool dealt_with = false;
switch (c) {
case '#':
if (!in_string) {
// comment
if (char_types) {
for (u32 j = i; j < line_len; ++j)
char_types[j] = SYNTAX_COMMENT;
dealt_with = true;
}
i = line_len - 1;
}
break;
case '\'':
case '"': {
// @TODO: multi-line strings
bool dbl_quoted = c == '"';
bool is_triple = i < line_len - 2 &&
line[i+1] == c && line[i+2] == c;
if (in_string) {
if (!string_is_multiline || is_triple) {
// end of string
if (string_is_dbl_quoted == dbl_quoted && backslashes % 2 == 0) {
in_string = false;
if (char_types) {
char_types[i] = SYNTAX_STRING;
if (string_is_multiline) {
// highlight all three ending quotes
char_types[++i] = SYNTAX_STRING;
char_types[++i] = SYNTAX_STRING;
}
dealt_with = true;
}
}
}
} else {
// start of string
string_is_dbl_quoted = dbl_quoted;
in_string = true;
string_is_multiline = is_triple;
}
} break;
case ANY_DIGIT:
if (char_types && !in_string && !in_number) {
in_number = true;
if (i) {
if (line[i - 1] == '.') {
// support .6, for example
char_types[i - 1] = SYNTAX_CONSTANT;
} else if (is32_ident(line[i - 1])) {
// actually, this isn't a number. it's something like a*6* or u3*2*.
in_number = false;
}
}
}
break;
case '\\':
++backslashes;
break;
default:
if ((i && is32_ident(line[i - 1])) || !is32_ident(c))
break; // can't be a keyword on its own.
if (char_types && !in_string && !in_number) {
u32 keyword_len = syntax_keyword_len(LANG_PYTHON, line, i, line_len);
Keyword const *keyword = syntax_keyword_lookup(syntax_all_keywords_python, arr_count(syntax_all_keywords_python),
&line[i], keyword_len);
if (keyword) {
SyntaxCharType type = keyword->type;
for (size_t j = 0; j < keyword_len; ++j) {
char_types[i++] = type;
}
--i; // we'll increment i from the for loop
dealt_with = true;
break;
}
}
break;
}
if (c != '\\') backslashes = 0;
if (in_number && !syntax_number_continues(line, line_len, i))
in_number = false;
if (char_types && !dealt_with) {
SyntaxCharType type = SYNTAX_NORMAL;
if (in_string)
type = SYNTAX_STRING;
else if (in_number)
type = SYNTAX_CONSTANT;
char_types[i] = type;
}
}
*state = 0;
if (in_string && string_is_multiline) {
*state |= SYNTAX_STATE_PYTHON_STRING
| (SYNTAX_STATE_PYTHON_STRING_DBL_QUOTED * string_is_dbl_quoted);
}
}
// This is the main syntax highlighting function. It will determine which colors to use for each character.
// Rather than returning colors, it returns a character type (e.g. comment) which can be converted to a color.
// To highlight multiple lines, start out with a zeroed SyntaxState, and pass a pointer to it each time.
// You can set char_types to NULL if you just want to advance the state, and don't care about the character types.
void syntax_highlight(SyntaxState *state, Language lang, char32_t *line, u32 line_len, SyntaxCharType *char_types) {
switch (lang) {
case LANG_NONE:
if (char_types)
memset(char_types, 0, line_len * sizeof *char_types);
break;
case LANG_C:
syntax_highlight_c_cpp(state, false, line, line_len, char_types);
break;
case LANG_CPP:
syntax_highlight_c_cpp(state, true, line, line_len, char_types);
break;
case LANG_RUST:
syntax_highlight_rust(state, line, line_len, char_types);
break;
case LANG_PYTHON:
syntax_highlight_python(state, line, line_len, char_types);
break;
case LANG_COUNT: assert(0); break;
}
}
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