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fish-shell/src/color.cpp
Aaron Gyes 3669805627 Improve compatibility with 0-16 color terminals. 
Fish assumed that it could use tparm to emit escapes to set colors
as long as the color was under 16 or max_colors from terminfo was 256::

 if (idx < 16 || term256_support_is_native()) {
    // Use tparm to emit color escape
    writembs(tparm(todo, idx);

If a terminal has max_colors = 8, here is what happenened, except
inside fish:

 > env TERM=xterm tput setaf 7 | xxd
   00000000: 1b5b 3337 6d                             .[37m
 > env TERM=xterm tput setaf 9 | xxd
   00000000: 1b5b 3338 6d                             .[39m

The first escape is good, that second escape is not valid.
Bright colors should start at \e[90m:

 > env TERM=xterm-16color tput setaf 9 | xxd
   00000000: 1b5b 3931 6d                             .[91m

This is what caused "white" not to work in #3176 in Terminal.app, and
obviously isn't good for real low-color terminals either.

So we replace the term256_support_is_native(), which just checked if
max_colors is 256 or not, with a function that takes an argument and
checks terminfo for that to see if tparm can handle it. We only use this
test, because otherwise, tparm should be expected to output garbage:

 /// Returns true if we think tparm can handle outputting a color index
 static bool term_supports_color_natively(unsigned int c) { return max_colors >= c; }
...

 if (term_supports_color_natively(idx) {

And if terminfo can't do it, the "forced" escapes no longer use the fancy
format when handling colors under 16, as this is not going to be compatible with
low color terminals. The code before used:

 else {
     char buff[16] = "";
     snprintf(buff, sizeof buff, "\x1b[%d;5;%dm", is_fg ? 38 : 48, idx);

I added an intermediate format for colors 0-15:

 else {
     // We are attempting to bypass the term here. Generate the ANSI escape sequence ourself.
     char buff[16] = "";
     if (idx < 16) {
         snprintf(buff, sizeof buff, "\x1b[%dm", ((idx > 7) ? 82 : 30) + idx + !is_fg * 10);
     } else {
         snprintf(buff, sizeof buff, "\x1b[%d;5;%dm", is_fg ? 38 : 48, idx);
     }

Restores harmony to white, brwhite, brblack, black color names.
We don't want "white" to refer to color color #16, but to the
standard color #8. #16 is "brwhite".

Move comments from output.h to output.cpp

Nuke the config.fish set_color hack for linux VTs.

Sync up our various incomplete color lists and fix all color values.
Colors 0-8 are assumed to be brights - e.g. red was FF0000. Perplexing!

Using this table:
 <http://www.calmar.ws/vim/256-xterm-24bit-rgb-color-chart.html>

Fixes #3176
2016-07-24 17:02:29 -07:00

349 lines
12 KiB
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// Color class implementation.
#include "config.h" // IWYU pragma: keep
#include <assert.h>
#include <stdint.h>
#include <stdlib.h>
#include <wchar.h> // IWYU pragma: keep
#include "color.h"
#include "common.h"
#include "fallback.h" // IWYU pragma: keep
bool rgb_color_t::try_parse_special(const wcstring &special) {
memset(&data, 0, sizeof data);
const wchar_t *name = special.c_str();
if (!wcscasecmp(name, L"normal")) {
this->type = type_normal;
} else if (!wcscasecmp(name, L"reset")) {
this->type = type_reset;
} else {
this->type = type_none;
}
return this->type != type_none;
}
static int parse_hex_digit(wchar_t x) {
switch (x) {
case L'0': {
return 0x0;
}
case L'1': {
return 0x1;
}
case L'2': {
return 0x2;
}
case L'3': {
return 0x3;
}
case L'4': {
return 0x4;
}
case L'5': {
return 0x5;
}
case L'6': {
return 0x6;
}
case L'7': {
return 0x7;
}
case L'8': {
return 0x8;
}
case L'9': {
return 0x9;
}
case L'a':
case L'A': {
return 0xA;
}
case L'b':
case L'B': {
return 0xB;
}
case L'c':
case L'C': {
return 0xC;
}
case L'd':
case L'D': {
return 0xD;
}
case L'e':
case L'E': {
return 0xE;
}
case L'f':
case L'F': {
return 0xF;
}
default: { return -1; }
}
}
static unsigned long squared_difference(long p1, long p2) {
unsigned long diff = (unsigned long)labs(p1 - p2);
return diff * diff;
}
static unsigned char convert_color(const unsigned char rgb[3], const uint32_t *colors,
size_t color_count) {
long r = rgb[0], g = rgb[1], b = rgb[2];
unsigned long best_distance = (unsigned long)-1;
unsigned char best_index = (unsigned char)-1;
for (unsigned char idx = 0; idx < color_count; idx++) {
uint32_t color = colors[idx];
long test_r = (color >> 16) & 0xFF, test_g = (color >> 8) & 0xFF,
test_b = (color >> 0) & 0xFF;
unsigned long distance = squared_difference(r, test_r) + squared_difference(g, test_g) +
squared_difference(b, test_b);
if (distance <= best_distance) {
best_index = idx;
best_distance = distance;
}
}
return best_index;
}
bool rgb_color_t::try_parse_rgb(const wcstring &name) {
memset(&data, 0, sizeof data);
// We support the following style of rgb formats (case insensitive):
// #FA3
// #F3A035
// FA3
// F3A035
size_t digit_idx = 0, len = name.size();
// Skip any leading #.
if (len > 0 && name.at(0) == L'#') digit_idx++;
bool success = false;
size_t i;
if (len - digit_idx == 3) {
// Format: FA3
for (i = 0; i < 3; i++) {
int val = parse_hex_digit(name.at(digit_idx++));
if (val < 0) break;
data.color.rgb[i] = val * 16 + val;
}
success = (i == 3);
} else if (len - digit_idx == 6) {
// Format: F3A035
for (i = 0; i < 3; i++) {
int hi = parse_hex_digit(name.at(digit_idx++));
int lo = parse_hex_digit(name.at(digit_idx++));
if (lo < 0 || hi < 0) break;
data.color.rgb[i] = hi * 16 + lo;
}
success = (i == 3);
}
if (success) {
this->type = type_rgb;
}
return success;
}
struct named_color_t {
const wchar_t *name;
unsigned char idx;
unsigned char rgb[3];
bool hidden;
};
static const named_color_t named_colors[] = {
{L"black", 0, {0, 0, 0}, false},
{L"red", 1, {0x80, 0, 0}, false},
{L"green", 2, {0, 0x80, 0}, false},
{L"brown", 3, {0x72, 0x50, 0}, true},
{L"yellow", 3, {0x80, 0x80, 0}, false},
{L"blue", 4, {0, 0, 0x80}, false},
{L"magenta", 5, {0x80, 0, 0x80}, false},
{L"purple", 5, {0x80, 0, 0x80}, true},
{L"cyan", 6, {0, 0x80, 0x80}, false},
{L"white", 7, {0xC0, 0xC0, 0xC0}, false},
{L"grey", 7, {0xe5, 0xe5, 0xe5}, true},
{L"brblack", 8, {0x80, 0x80, 0x80}, false},
{L"brgrey", 8, {0055, 0x55, 0x55}, true},
{L"brred", 9, {0xFF, 0x00, 0x00}, false},
{L"brgreen", 10, {0x00, 0xFF, 0x00}, false},
{L"brbrown", 11, {0xFF, 0xFF, 0x00}, true},
{L"bryellow", 11, {0xFF, 0xFF, 0x00}, false},
{L"brblue", 12, {0x00, 0, 0xFF}, false},
{L"brmagenta", 13, {0xFF, 0, 0xFF}, false},
{L"brpurple", 13, {0xFF, 0, 0xFF}, true},
{L"brcyan", 14, {0x00, 0xFF, 0xFF}, false},
{L"brwhite", 15, {0xFF, 0xFF, 0xFF}, false},
};
wcstring_list_t rgb_color_t::named_color_names(void) {
size_t count = sizeof named_colors / sizeof *named_colors;
wcstring_list_t result;
result.reserve(1 + count);
for (size_t i = 0; i < count; i++) {
if (named_colors[i].hidden == false) {
result.push_back(named_colors[i].name);
}
}
// "normal" isn't really a color and does not have a color palette index or
// RGB value. Therefore, it does not appear in the named_colors table.
// However, it is a legitimate color name for the "set_color" command so
// include it in the publicly known list of colors. This is primarily so it
// appears in the output of "set_color --print-colors".
result.push_back(L"normal");
return result;
}
bool rgb_color_t::try_parse_named(const wcstring &str) {
memset(&data, 0, sizeof data);
size_t max = sizeof named_colors / sizeof *named_colors;
for (size_t idx = 0; idx < max; idx++) {
if (0 == wcscasecmp(str.c_str(), named_colors[idx].name)) {
data.name_idx = named_colors[idx].idx;
this->type = type_named;
return true;
}
}
return false;
}
static const wchar_t *name_for_color_idx(unsigned char idx) {
size_t max = sizeof named_colors / sizeof *named_colors;
for (size_t i = 0; i < max; i++) {
if (named_colors[i].idx == idx) {
return named_colors[i].name;
}
}
return L"unknown";
}
rgb_color_t::rgb_color_t(unsigned char t, unsigned char i) : type(t), flags(), data() {
data.name_idx = i;
}
rgb_color_t rgb_color_t::normal() { return rgb_color_t(type_normal); }
rgb_color_t rgb_color_t::reset() { return rgb_color_t(type_reset); }
rgb_color_t rgb_color_t::none() { return rgb_color_t(type_none); }
rgb_color_t rgb_color_t::white() { return rgb_color_t(type_named, 7); }
rgb_color_t rgb_color_t::black() { return rgb_color_t(type_named, 0); }
static unsigned char term16_color_for_rgb(const unsigned char rgb[3]) {
const uint32_t kColors[] = {
0x000000, // Black
0x800000, // Red
0x008000, // Green
0x808000, // Yellow
0x000080, // Blue
0x800080, // Magenta
0x008080, // Cyan
0xc0c0c0, // White
0x808080, // Bright Black
0xFF0000, // Bright Red
0x00FF00, // Bright Green
0xFFFF00, // Bright Yellow
0x0000FF, // Bright Blue
0xFF00FF, // Bright Magenta
0x00FFFF, // Bright Cyan
0xFFFFFF // Bright White
};
return convert_color(rgb, kColors, sizeof kColors / sizeof *kColors);
}
static unsigned char term256_color_for_rgb(const unsigned char rgb[3]) {
const uint32_t kColors[240] = {
0x000000, 0x00005f, 0x000087, 0x0000af, 0x0000d7, 0x0000ff, 0x005f00, 0x005f5f, 0x005f87,
0x005faf, 0x005fd7, 0x005fff, 0x008700, 0x00875f, 0x008787, 0x0087af, 0x0087d7, 0x0087ff,
0x00af00, 0x00af5f, 0x00af87, 0x00afaf, 0x00afd7, 0x00afff, 0x00d700, 0x00d75f, 0x00d787,
0x00d7af, 0x00d7d7, 0x00d7ff, 0x00ff00, 0x00ff5f, 0x00ff87, 0x00ffaf, 0x00ffd7, 0x00ffff,
0x5f0000, 0x5f005f, 0x5f0087, 0x5f00af, 0x5f00d7, 0x5f00ff, 0x5f5f00, 0x5f5f5f, 0x5f5f87,
0x5f5faf, 0x5f5fd7, 0x5f5fff, 0x5f8700, 0x5f875f, 0x5f8787, 0x5f87af, 0x5f87d7, 0x5f87ff,
0x5faf00, 0x5faf5f, 0x5faf87, 0x5fafaf, 0x5fafd7, 0x5fafff, 0x5fd700, 0x5fd75f, 0x5fd787,
0x5fd7af, 0x5fd7d7, 0x5fd7ff, 0x5fff00, 0x5fff5f, 0x5fff87, 0x5fffaf, 0x5fffd7, 0x5fffff,
0x870000, 0x87005f, 0x870087, 0x8700af, 0x8700d7, 0x8700ff, 0x875f00, 0x875f5f, 0x875f87,
0x875faf, 0x875fd7, 0x875fff, 0x878700, 0x87875f, 0x878787, 0x8787af, 0x8787d7, 0x8787ff,
0x87af00, 0x87af5f, 0x87af87, 0x87afaf, 0x87afd7, 0x87afff, 0x87d700, 0x87d75f, 0x87d787,
0x87d7af, 0x87d7d7, 0x87d7ff, 0x87ff00, 0x87ff5f, 0x87ff87, 0x87ffaf, 0x87ffd7, 0x87ffff,
0xaf0000, 0xaf005f, 0xaf0087, 0xaf00af, 0xaf00d7, 0xaf00ff, 0xaf5f00, 0xaf5f5f, 0xaf5f87,
0xaf5faf, 0xaf5fd7, 0xaf5fff, 0xaf8700, 0xaf875f, 0xaf8787, 0xaf87af, 0xaf87d7, 0xaf87ff,
0xafaf00, 0xafaf5f, 0xafaf87, 0xafafaf, 0xafafd7, 0xafafff, 0xafd700, 0xafd75f, 0xafd787,
0xafd7af, 0xafd7d7, 0xafd7ff, 0xafff00, 0xafff5f, 0xafff87, 0xafffaf, 0xafffd7, 0xafffff,
0xd70000, 0xd7005f, 0xd70087, 0xd700af, 0xd700d7, 0xd700ff, 0xd75f00, 0xd75f5f, 0xd75f87,
0xd75faf, 0xd75fd7, 0xd75fff, 0xd78700, 0xd7875f, 0xd78787, 0xd787af, 0xd787d7, 0xd787ff,
0xd7af00, 0xd7af5f, 0xd7af87, 0xd7afaf, 0xd7afd7, 0xd7afff, 0xd7d700, 0xd7d75f, 0xd7d787,
0xd7d7af, 0xd7d7d7, 0xd7d7ff, 0xd7ff00, 0xd7ff5f, 0xd7ff87, 0xd7ffaf, 0xd7ffd7, 0xd7ffff,
0xff0000, 0xff005f, 0xff0087, 0xff00af, 0xff00d7, 0xff00ff, 0xff5f00, 0xff5f5f, 0xff5f87,
0xff5faf, 0xff5fd7, 0xff5fff, 0xff8700, 0xff875f, 0xff8787, 0xff87af, 0xff87d7, 0xff87ff,
0xffaf00, 0xffaf5f, 0xffaf87, 0xffafaf, 0xffafd7, 0xffafff, 0xffd700, 0xffd75f, 0xffd787,
0xffd7af, 0xffd7d7, 0xffd7ff, 0xffff00, 0xffff5f, 0xffff87, 0xffffaf, 0xffffd7, 0xffffff,
0x080808, 0x121212, 0x1c1c1c, 0x262626, 0x303030, 0x3a3a3a, 0x444444, 0x4e4e4e, 0x585858,
0x626262, 0x6c6c6c, 0x767676, 0x808080, 0x8a8a8a, 0x949494, 0x9e9e9e, 0xa8a8a8, 0xb2b2b2,
0xbcbcbc, 0xc6c6c6, 0xd0d0d0, 0xdadada, 0xe4e4e4, 0xeeeeee};
return 16 + convert_color(rgb, kColors, sizeof kColors / sizeof *kColors);
}
unsigned char rgb_color_t::to_term256_index() const {
assert(type == type_rgb);
return term256_color_for_rgb(data.color.rgb);
}
color24_t rgb_color_t::to_color24() const {
assert(type == type_rgb);
return data.color;
}
unsigned char rgb_color_t::to_name_index() const {
// XXX this should look for the nearest color
assert(type == type_named || type == type_rgb);
if (type == type_named) return data.name_idx;
if (type == type_rgb) return term16_color_for_rgb(data.color.rgb);
return (unsigned char)-1; // this is an error
}
void rgb_color_t::parse(const wcstring &str) {
bool success = false;
if (!success) success = try_parse_special(str);
if (!success) success = try_parse_named(str);
if (!success) success = try_parse_rgb(str);
if (!success) {
memset(&this->data, 0, sizeof this->data);
this->type = type_none;
}
}
rgb_color_t::rgb_color_t(const wcstring &str) : type(), flags() { this->parse(str); }
rgb_color_t::rgb_color_t(const std::string &str) : type(), flags() {
this->parse(str2wcstring(str));
}
wcstring rgb_color_t::description() const {
switch (type) {
case type_none: {
return L"none";
}
case type_named: {
return format_string(L"named(%d: %ls)", (int)data.name_idx,
name_for_color_idx(data.name_idx));
}
case type_rgb: {
return format_string(L"rgb(0x%02x%02x%02x)", data.color.rgb[0], data.color.rgb[1],
data.color.rgb[2]);
}
case type_reset: {
return L"reset";
}
case type_normal: {
return L"normal";
}
default: {
abort();
return L"";
}
}
}
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