/*******************************************************************************
Copyright(C) Jonas 'Sortie' Termansen 2013, 2014.
This program is free software: you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the Free
Software Foundation, either version 3 of the License, or (at your option)
any later version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along with
this program. If not, see .
highlight.c++
Syntax highlighting.
*******************************************************************************/
#define __STDC_CONSTANT_MACROS
#define __STDC_FORMAT_MACROS
#define __STDC_LIMIT_MACROS
#include
#include
#include
#include
#include
#include "editor.h++"
#include "highlight.h++"
bool should_highlight_path(const char* path)
{
size_t path_length = strlen(path);
if ( 2 <= path_length &&
(!strcmp(path+path_length-2, ".c") ||
!strcmp(path+path_length-2, ".h")) )
return true;
if ( 4 <= path_length &&
(!strcmp(path+path_length-4, ".c++") ||
!strcmp(path+path_length-4, ".h++") ||
!strcmp(path+path_length-4, ".cxx") ||
!strcmp(path+path_length-4, ".hxx") ||
!strcmp(path+path_length-4, ".cpp") ||
!strcmp(path+path_length-4, ".hpp")) )
return true;
return false;
}
size_t recognize_constant(const wchar_t* string, size_t string_length)
{
bool binary = false;
bool hex = false;
size_t result = 0;
if ( result < string_length && string[result] == L'0' )
{
result++;
if ( result < string_length && (string[result] == L'x' ||
string[result] == L'X') )
{
result++;
hex = true;
}
if ( result < string_length && (string[result] == L'b' ||
string[result] == L'B') )
{
result++;
binary = true;
}
}
bool floating = false;
bool exponent = false;
while ( result < string_length )
{
if ( (binary && L'0' <= string[result] && string[result] <= L'1') ||
(!binary && L'0' <= string[result] && string[result] <= L'9') ||
(hex && L'a' <= string[result] && string[result] <= L'f') ||
(hex && L'A' <= string[result] && string[result] <= L'F') )
{
result++;
continue;
}
if ( string[result] == L'.' )
{
if ( binary || hex || floating )
return 0;
floating = true;
result++;
continue;
}
if ( !(hex || binary) &&
(string[result] == L'e' || string[result] == L'E') )
{
if ( !result )
return 0;
if ( exponent )
return 0;
floating = true;
result++;
continue;
}
break;
}
if ( result == ((hex || binary) ? 2 : 0) )
return 0;
if ( floating )
{
if ( result < string_length && (string[result] == L'l' ||
string[result] == L'L') )
result++;
else if ( result < string_length && (string[result] == L'f' ||
string[result] == L'F') )
result++;
}
else
{
if ( result < string_length && (string[result] == L'u' ||
string[result] == L'U') )
result++;
if ( result < string_length && (string[result] == L'l' ||
string[result] == L'L') )
result++;
if ( result < string_length && (string[result] == L'l' ||
string[result] == L'L') )
result++;
}
return result;
}
void editor_colorize(struct editor* editor)
{
if ( editor->color_lines_length != editor->lines_used ||
!editor->highlight_source )
{
for ( size_t i = 0; i < editor->color_lines_used; i++ )
delete[] editor->color_lines[i].data;
delete[] editor->color_lines;
editor->color_lines_used = 0;
editor->color_lines_length = 0;
editor->color_lines = NULL;
}
if ( !editor->highlight_source )
return;
if ( !editor->color_lines )
{
if ( !(editor->color_lines = new struct color_line[editor->lines_used]) )
return;
editor->color_lines_used = editor->lines_used;
editor->color_lines_length = editor->lines_used;
for ( size_t i = 0; i < editor->lines_used; i++ )
editor->color_lines[i].data = NULL,
editor->color_lines[i].length = 0;
}
for ( size_t i = 0; i < editor->lines_used; i++ )
{
if ( editor->color_lines[i].length == editor->lines[i].used )
continue;
if ( !(editor->color_lines[i].data = new uint8_t[editor->lines[i].used]) )
{
for ( size_t n = 0; n < i; i++ )
delete[] editor->color_lines[n].data;
delete[] editor->color_lines;
editor->color_lines_used = 0;
editor->color_lines_length = 0;
editor->color_lines = NULL;
return;
}
editor->color_lines[i].length = editor->lines[i].used;
}
enum
{
STATE_INIT,
STATE_LINE_COMMENT,
STATE_MULTI_LINE_COMMENT,
STATE_PREPROCESSOR,
STATE_PREPROCESSOR_VALUE,
STATE_SINGLE_QUOTE,
STATE_DOUBLE_QUOTE,
STATE_NUMBER,
STATE_KEYWORD,
STATE_TYPE,
} state = STATE_INIT, prev_state = STATE_INIT;
bool escaped = false;
size_t fixed_state = 0;
size_t multi_expiration = 0;
for ( size_t y = 0; y < editor->lines_used; y++ )
{
struct line* line = &editor->lines[y];
for ( size_t x = 0; x < line->used; x++ )
{
wchar_t pc = x ? line->data[x-1] : '\0';
wchar_t c = line->data[x];
wchar_t nc = x+1 < line->used ? line->data[x+1] : L'\0';
uint8_t color = 7;
// The character makes you leave this state.
if ( !fixed_state && (state == STATE_KEYWORD ||
state == STATE_TYPE ||
state == STATE_NUMBER ) )
state = STATE_INIT;
// The character makes you enter a new state.
if ( !fixed_state )
{
if ( state == STATE_INIT && c == L'#' )
state = STATE_PREPROCESSOR;
if ( state == STATE_PREPROCESSOR && c == '<' )
state = STATE_PREPROCESSOR_VALUE, fixed_state = 1;
if ( state == STATE_PREPROCESSOR && c == '"' )
state = STATE_PREPROCESSOR_VALUE, fixed_state = 1;
}
// TODO: Detect NULL as a value.
if ( !fixed_state && state == STATE_INIT &&
!(x && (iswalnum(pc) || pc == L'_')) )
{
size_t number_length = recognize_constant(line->data + x,
line->used - x);
if ( number_length )
{
state = STATE_NUMBER;
fixed_state = number_length;
}
}
if ( !fixed_state && state == STATE_INIT && c == L'\'' )
state = STATE_SINGLE_QUOTE, fixed_state = 1, escaped = false;
if ( !fixed_state && state == STATE_INIT && c == L'"' )
state = STATE_DOUBLE_QUOTE, fixed_state = 1, escaped = false;
if ( !fixed_state && (state == STATE_INIT ||
state == STATE_PREPROCESSOR) )
{
if ( c == L'/' && nc == L'/' )
state = STATE_LINE_COMMENT, fixed_state = 2;
else if ( c == L'/' && nc == L'*' )
{
prev_state = state;
multi_expiration = 0;
state = STATE_MULTI_LINE_COMMENT;
fixed_state = 2;
}
}
if ( !fixed_state && state == STATE_INIT )
{
const wchar_t* keywords[] =
{
L"alignas",
L"alignof",
L"and",
L"and_eq",
L"asm",
L"bitand",
L"bitor",
L"break",
L"case",
L"catch",
L"class",
L"compl",
L"const_cast",
L"constexpr",
L"continue",
L"decltype",
L"default",
L"delete",
L"do",
L"dynamic_cast",
L"else",
L"enum",
L"false",
L"final",
L"for",
L"friend",
L"goto",
L"if",
L"namespace",
L"new",
L"not",
L"not_eq",
L"nullptr",
L"operator",
L"or",
L"or_eq",
L"override",
L"private",
L"protected",
L"public",
L"reinterpret_cast",
L"return",
L"sizeof",
L"static_assert",
L"static_cast",
L"struct",
L"switch",
L"template",
L"this",
L"thread_local",
L"throw",
L"true",
L"try",
L"typedef",
L"typeid",
L"typename",
L"union",
L"using",
L"virtual",
L"while",
L"xor",
L"xor_eq",
};
bool cannot_be_keyword = x && (iswalnum(pc) || pc == L'_');
for ( size_t i = 0;
!cannot_be_keyword && i < sizeof(keywords) / sizeof(keywords[0]);
i++ )
{
const wchar_t* keyword = keywords[i];
if ( c != keyword[0] )
continue;
size_t keyword_length = wcslen(keyword);
if ( (x - line->used) < keyword_length )
continue;
if ( wcsncmp(line->data + x, keyword, keyword_length) != 0 )
continue;
if ( keyword_length < line->used - x )
{
wchar_t wc = line->data[x + keyword_length];
if ( iswalnum(wc) || wc == L'_' )
continue;
}
state = STATE_KEYWORD;
fixed_state = keyword_length;
}
}
if ( !fixed_state && state == STATE_INIT )
{
const wchar_t* types[] =
{
L"auto",
L"blkcnt_t",
L"blksize_t",
L"bool",
L"char",
L"char16_t",
L"char32_t",
L"clockid_t",
L"clock_t",
L"const",
L"dev_t",
L"double",
L"explicit",
L"extern",
L"FILE",
L"float",
L"fpos_t",
L"fsblkcnt_t",
L"fsfilcnt_t",
L"gid_t",
L"id_t",
L"inline",
L"ino_t",
L"int",
L"int16_t",
L"int32_t",
L"int64_t",
L"int8_t",
L"intmax_t",
L"intptr_t",
L"locale_t",
L"long",
L"mode_t",
L"mutable",
L"nlink_t",
L"noexcept",
L"off_t",
L"pid_t",
L"ptrdiff_t",
L"register",
L"restrict",
L"short",
L"signed",
L"size_t",
L"ssize_t",
L"static",
L"suseconds_t",
L"thread_local",
L"timer_t",
L"time_t",
L"trace_t",
L"uid_t",
L"uint16_t",
L"uint32_t",
L"uint64_t",
L"uint8_t",
L"uintmax_t",
L"uintptr_t",
L"unsigned",
L"useconds_t",
L"va_list",
L"void",
L"volatile",
L"wchar_t",
};
bool cannot_be_type = x && (iswalnum(pc) || pc == L'_');
for ( size_t i = 0;
!cannot_be_type && i < sizeof(types) / sizeof(types[0]);
i++ )
{
const wchar_t* type = types[i];
if ( c != type[0] )
continue;
size_t type_length = wcslen(type);
if ( (x - line->used) < type_length )
continue;
if ( wcsncmp(line->data + x, type, type_length) != 0 )
continue;
if ( (x - line->used) != type_length &&
(iswalnum(line->data[x+type_length]) ||
line->data[x+type_length] == L'_') )
continue;
state = STATE_TYPE;
fixed_state = type_length;
}
}
// The current state uses a non-default color.
if ( state == STATE_SINGLE_QUOTE ||
state == STATE_DOUBLE_QUOTE ||
state == STATE_NUMBER ||
state == STATE_PREPROCESSOR_VALUE )
color = 5;
if ( state == STATE_PREPROCESSOR )
color = 3;
if ( state == STATE_LINE_COMMENT ||
state == STATE_MULTI_LINE_COMMENT )
color = 6;
if ( state == STATE_KEYWORD )
color = 1;
if ( state == STATE_TYPE )
color = 2;
// The character is the last character in this state.
if ( !fixed_state )
{
if ( state == STATE_SINGLE_QUOTE && !escaped && c == L'\'' )
state = STATE_INIT, fixed_state = 1;
if ( state == STATE_DOUBLE_QUOTE && !escaped && c == L'"' )
state = STATE_INIT, fixed_state = 1;
if ( state == STATE_PREPROCESSOR_VALUE && c == '>' )
state = STATE_PREPROCESSOR;
if ( state == STATE_PREPROCESSOR_VALUE && c == '"' )
state = STATE_PREPROCESSOR;
}
if ( (state == STATE_SINGLE_QUOTE || state == STATE_DOUBLE_QUOTE) )
{
if ( !escaped && c == L'\\' )
escaped = true;
else if ( escaped )
escaped = false;
}
if ( !fixed_state && state == STATE_MULTI_LINE_COMMENT )
{
if ( multi_expiration == 1 )
state = prev_state, multi_expiration = 0;
else if ( c == L'*' && nc == L'/' )
multi_expiration = 1;
}
if ( state == STATE_PREPROCESSOR )
escaped = c == L'\\' && !nc;
editor->color_lines[y].data[x] = color;
if ( fixed_state )
fixed_state--;
}
if ( state == STATE_LINE_COMMENT ||
state == STATE_PREPROCESSOR ||
state == STATE_PREPROCESSOR_VALUE ||
state == STATE_SINGLE_QUOTE ||
state == STATE_DOUBLE_QUOTE )
{
if ( state == STATE_PREPROCESSOR && escaped )
escaped = false;
else
state = STATE_INIT;
}
}
}