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typedef struct {
bool multi_line_comment:1; // are we in a multi-line comment? (delineated by /* */)
bool continued_single_line_comment:1; // if you add a \ to the end of a single-line comment, it is continued to the next line.
bool continued_preprocessor:1; // similar to above
bool continued_string:1;
} SyntaxStateC;
typedef union {
SyntaxStateC c;
} SyntaxState;
ENUM_U16 {
LANG_C
} ENUM_U16_END(Language);
ENUM_U8 {
SYNTAX_NORMAL,
SYNTAX_KEYWORD,
SYNTAX_COMMENT,
SYNTAX_PREPROCESSOR,
SYNTAX_STRING,
SYNTAX_CHARACTER,
SYNTAX_NUMBER
} ENUM_U8_END(SyntaxCharType);
// 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_NUMBER: return COLOR_NUMBER;
}
}
static void syntax_highlight_c(SyntaxStateC *state, char32_t *line, u32 line_len, SyntaxCharType *char_types) {
(void)state;
bool in_preprocessor = state->continued_preprocessor;
bool in_string = state->continued_string;
bool in_single_line_comment = state->continued_single_line_comment; // this kind of comment :)
bool in_multi_line_comment = state->multi_line_comment;
bool in_char = false;
bool in_number = false;
int backslashes = 0;
for (u32 i = 0; i < line_len; ++i) {
SyntaxCharType type = SYNTAX_NORMAL;
// necessary for the final " of a string to be highlighted
bool in_string_now = in_string;
bool in_char_now = in_char;
bool in_multi_line_comment_now = in_multi_line_comment;
// are there 1/2 characters left in the line?
bool has_1_char = i + 1 < line_len;
bool dealt_with = false;
switch (line[i]) {
case '#':
if (!in_single_line_comment && !in_multi_line_comment)
in_preprocessor = true;
break;
case '\\':
++backslashes;
break;
case '/':
if (!in_multi_line_comment && !in_single_line_comment && !in_string && has_1_char) {
if (line[i + 1] == '/')
in_single_line_comment = true; // //
else if (line[i + 1] == '*')
in_multi_line_comment = in_multi_line_comment_now = true; // /*
} else if (in_multi_line_comment) {
if (i && line[i - 1] == '*') {
// */
in_multi_line_comment = false;
}
}
break;
case '"':
if (in_string && backslashes % 2 == 0)
in_string = false;
else if (!in_multi_line_comment && !in_single_line_comment)
in_string = in_string_now = true;
break;
case '\'':
if (in_char && backslashes % 2 == 0)
in_char = false;
else if (!in_multi_line_comment && !in_single_line_comment)
in_char = in_char_now = true;
break;
case '<': // preprocessor string, e.g. <stdio.h>
if (in_preprocessor)
in_string = in_string_now = true;
break;
case '>':
if (in_preprocessor && in_string)
in_string = false;
break;
case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': // don't you wish C had case ranges...
// a number!
if (!in_single_line_comment && !in_multi_line_comment && !in_string) {
in_number = true;
if (i && line[i - 1] == '.') {
// support .6, for example
char_types[i - 1] = SYNTAX_NUMBER;
}
}
break;
default: {
// split keywords by starting letter to speed this up
static char const *const all_keywords[][10] = {
['a'] = {"auto"},
['b'] = {"break", "bool"},
['c'] = {"case", "char", "const", "continue", "char8_t", "char16_t", "char32_t"},
['d'] = {"default", "do", "double"},
['e'] = {"else", "enum", "extern"},
['f'] = {"float", "for", "false"},
['g'] = {"goto"},
['i'] = {"if", "inline", "int", "int8_t", "int16_t", "int32_t", "int64_t"},
['l'] = {"long"},
['r'] = {"register", "restrict", "return"},
['s'] = {"short", "signed", "sizeof", "static", "struct", "switch"},
['t'] = {"typedef", "true"},
['u'] = {"union", "unsigned", "uint8_t", "uint16_t", "uint32_t", "uint64_t"},
['v'] = {"void", "volatile"},
['w'] = {"while", "wchar_t", "wint_t"},
['_'] = {"_Alignas", "_Alignof", "_Atomic", "_Bool", "_Complex", "_Generic",
"_Imaginary", "_Noreturn", "_Static_assert", "_Thread_local"},
};
// keywords don't matter for advancing the state
if (char_types && !in_single_line_comment && !in_multi_line_comment && !in_string && !in_preprocessor) {
char const *const *keywords = line[i] < arr_count(all_keywords) ? all_keywords[line[i]] : NULL;
if (keywords) {
for (size_t k = 0; keywords[k]; ++k) {
bool matches = true;
char const *keyword = keywords[k];
size_t keyword_len = strlen(keyword);
if (i + keyword_len <= line_len) {
// make sure we don't catch "print" as containing the keyword "int"
bool separated = (i == 0 || !is32_ident(line[i-1])) && (i + keyword_len == line_len || !is32_ident(line[i + keyword_len]));
if (separated) {
char32_t *p = &line[i];
// check if `p` starts with `keyword`
for (char const *q = keyword; *q; ++p, ++q) {
if (*p != (char32_t)*q) {
matches = false;
break;
}
}
if (matches) {
// it's a keyword
// let's highlight all of it now
for (size_t c = 0; keyword[c]; ++c) {
char_types[i++] = SYNTAX_KEYWORD;
}
--i; // we'll increment i from the for loop
dealt_with = true;
break;
}
}
}
}
}
}
} break;
}
if (line[i] != '\\') backslashes = 0;
if (in_number && !(is32_digit(line[i]) || line[i] == '.' || line[i] == 'e' || (i && line[i-1] == 'e' && (line[i] == '+' || line[i] == '-')))) {
in_number = false;
}
if (char_types && !dealt_with) {
if (in_single_line_comment || in_multi_line_comment_now)
type = SYNTAX_COMMENT;
else if (in_string_now)
type = SYNTAX_STRING;
else if (in_char_now)
type = SYNTAX_CHARACTER;
else if (in_preprocessor)
type = SYNTAX_PREPROCESSOR;
else if (in_number)
type = SYNTAX_NUMBER;
char_types[i] = type;
}
}
state->continued_single_line_comment = backslashes && in_single_line_comment;
state->continued_preprocessor = backslashes && in_preprocessor;
state->continued_string = backslashes && in_string;
state->multi_line_comment = in_multi_line_comment;
}
// 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_C:
syntax_highlight_c(&state->c, line, line_len, char_types);
break;
}
}
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