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tui: support rgba background detection (#10205)
Fixes https://github.com/neovim/neovim/issues/10159.
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@ -388,17 +388,20 @@ static void set_bg_deferred(void **argv)
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// During startup, tui.c requests the background color (see `ext.get_bg`).
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//
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// Here in input.c, we watch for the terminal response `\e]11;COLOR\a`. If
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// COLOR matches `rgb:RRRR/GGGG/BBBB` where R, G, and B are hex digits, then
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// compute the luminance[1] of the RGB color and classify it as light/dark
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// COLOR matches `rgb:RRRR/GGGG/BBBB/AAAA` where R, G, B, and A are hex digits,
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// then compute the luminance[1] of the RGB color and classify it as light/dark
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// accordingly. Note that the color components may have anywhere from one to
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// four hex digits, and require scaling accordingly as values out of 4, 8, 12,
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// or 16 bits.
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// or 16 bits. Also note the A(lpha) component is optional, and is parsed but
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// ignored in the calculations.
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//
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// [1] https://en.wikipedia.org/wiki/Luma_%28video%29
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static bool handle_background_color(TermInput *input)
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{
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size_t count = 0;
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size_t component = 0;
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size_t header_size = 0;
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size_t num_components = 0;
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uint16_t rgb[] = { 0, 0, 0 };
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uint16_t rgb_max[] = { 0, 0, 0 };
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bool eat_backslash = false;
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@ -406,48 +409,54 @@ static bool handle_background_color(TermInput *input)
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bool bad = false;
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if (rbuffer_size(input->read_stream.buffer) >= 9
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&& !rbuffer_cmp(input->read_stream.buffer, "\x1b]11;rgb:", 9)) {
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rbuffer_consumed(input->read_stream.buffer, 9);
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RBUFFER_EACH(input->read_stream.buffer, c, i) {
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count = i + 1;
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if (eat_backslash) {
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done = true;
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break;
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} else if (c == '\x07') {
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done = true;
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break;
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} else if (c == '\x1b') {
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eat_backslash = true;
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} else if (bad) {
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// ignore
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} else if (c == '/') {
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if (component < 3) {
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component++;
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}
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} else if (ascii_isxdigit(c)) {
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if (component < 3 && rgb_max[component] != 0xffff) {
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rgb_max[component] = (uint16_t)((rgb_max[component] << 4) | 0xf);
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rgb[component] = (uint16_t)((rgb[component] << 4) | hex2nr(c));
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}
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} else {
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bad = true;
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}
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}
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rbuffer_consumed(input->read_stream.buffer, count);
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if (done && !bad && rgb_max[0] && rgb_max[1] && rgb_max[2]) {
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double r = (double)rgb[0] / (double)rgb_max[0];
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double g = (double)rgb[1] / (double)rgb_max[1];
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double b = (double)rgb[2] / (double)rgb_max[2];
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double luminance = (0.299 * r) + (0.587 * g) + (0.114 * b); // CCIR 601
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char *bgvalue = luminance < 0.5 ? "dark" : "light";
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DLOG("bg response: %s", bgvalue);
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loop_schedule_deferred(&main_loop,
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event_create(set_bg_deferred, 1, bgvalue));
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} else {
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DLOG("failed to parse bg response");
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}
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return true;
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header_size = 9;
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num_components = 3;
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} else if (rbuffer_size(input->read_stream.buffer) >= 10
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&& !rbuffer_cmp(input->read_stream.buffer, "\x1b]11;rgba:", 10)) {
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header_size = 10;
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num_components = 4;
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} else {
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return false;
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}
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return false;
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rbuffer_consumed(input->read_stream.buffer, header_size);
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RBUFFER_EACH(input->read_stream.buffer, c, i) {
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count = i + 1;
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if (eat_backslash) {
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done = true;
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break;
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} else if (c == '\x07') {
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done = true;
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break;
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} else if (c == '\x1b') {
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eat_backslash = true;
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} else if (bad) {
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// ignore
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} else if ((c == '/') && (++component < num_components)) {
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// work done in condition
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} else if (ascii_isxdigit(c)) {
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if (component < 3 && rgb_max[component] != 0xffff) {
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rgb_max[component] = (uint16_t)((rgb_max[component] << 4) | 0xf);
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rgb[component] = (uint16_t)((rgb[component] << 4) | hex2nr(c));
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}
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} else {
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bad = true;
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}
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}
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rbuffer_consumed(input->read_stream.buffer, count);
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if (done && !bad && rgb_max[0] && rgb_max[1] && rgb_max[2]) {
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double r = (double)rgb[0] / (double)rgb_max[0];
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double g = (double)rgb[1] / (double)rgb_max[1];
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double b = (double)rgb[2] / (double)rgb_max[2];
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double luminance = (0.299 * r) + (0.587 * g) + (0.114 * b); // CCIR 601
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char *bgvalue = luminance < 0.5 ? "dark" : "light";
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DLOG("bg response: %s", bgvalue);
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loop_schedule_deferred(&main_loop,
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event_create(set_bg_deferred, 1, bgvalue));
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} else {
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DLOG("failed to parse bg response");
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return false;
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}
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return true;
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}
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static void tinput_read_cb(Stream *stream, RBuffer *buf, size_t count_,
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@ -871,9 +871,9 @@ describe('TUI background color', function()
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screen:expect{any='did OptionSet, yay!'}
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end)
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local function assert_bg(color, bg)
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local function assert_bg(colorspace, color, bg)
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it('handles '..color..' as '..bg, function()
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feed_data('\027]11;rgb:'..color..'\007')
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feed_data('\027]11;'..colorspace..':'..color..'\007')
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-- Retry until the terminal response is handled.
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retry(100, nil, function()
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feed_data(':echo &background\n')
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@ -893,42 +893,59 @@ describe('TUI background color', function()
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end)
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end
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assert_bg('0000/0000/0000', 'dark')
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assert_bg('ffff/ffff/ffff', 'light')
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assert_bg('000/000/000', 'dark')
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assert_bg('fff/fff/fff', 'light')
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assert_bg('00/00/00', 'dark')
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assert_bg('ff/ff/ff', 'light')
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assert_bg('0/0/0', 'dark')
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assert_bg('f/f/f', 'light')
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assert_bg('rgb', '0000/0000/0000', 'dark')
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assert_bg('rgb', 'ffff/ffff/ffff', 'light')
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assert_bg('rgb', '000/000/000', 'dark')
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assert_bg('rgb', 'fff/fff/fff', 'light')
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assert_bg('rgb', '00/00/00', 'dark')
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assert_bg('rgb', 'ff/ff/ff', 'light')
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assert_bg('rgb', '0/0/0', 'dark')
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assert_bg('rgb', 'f/f/f', 'light')
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assert_bg('f/0/0', 'dark')
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assert_bg('0/f/0', 'light')
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assert_bg('0/0/f', 'dark')
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assert_bg('rgb', 'f/0/0', 'dark')
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assert_bg('rgb', '0/f/0', 'light')
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assert_bg('rgb', '0/0/f', 'dark')
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assert_bg('1/1/1', 'dark')
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assert_bg('2/2/2', 'dark')
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assert_bg('3/3/3', 'dark')
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assert_bg('4/4/4', 'dark')
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assert_bg('5/5/5', 'dark')
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assert_bg('6/6/6', 'dark')
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assert_bg('7/7/7', 'dark')
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assert_bg('8/8/8', 'light')
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assert_bg('9/9/9', 'light')
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assert_bg('a/a/a', 'light')
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assert_bg('b/b/b', 'light')
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assert_bg('c/c/c', 'light')
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assert_bg('d/d/d', 'light')
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assert_bg('e/e/e', 'light')
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assert_bg('rgb', '1/1/1', 'dark')
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assert_bg('rgb', '2/2/2', 'dark')
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assert_bg('rgb', '3/3/3', 'dark')
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assert_bg('rgb', '4/4/4', 'dark')
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assert_bg('rgb', '5/5/5', 'dark')
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assert_bg('rgb', '6/6/6', 'dark')
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assert_bg('rgb', '7/7/7', 'dark')
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assert_bg('rgb', '8/8/8', 'light')
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assert_bg('rgb', '9/9/9', 'light')
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assert_bg('rgb', 'a/a/a', 'light')
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assert_bg('rgb', 'b/b/b', 'light')
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assert_bg('rgb', 'c/c/c', 'light')
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assert_bg('rgb', 'd/d/d', 'light')
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assert_bg('rgb', 'e/e/e', 'light')
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assert_bg('0/e/0', 'light')
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assert_bg('0/d/0', 'light')
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assert_bg('0/c/0', 'dark')
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assert_bg('0/b/0', 'dark')
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assert_bg('rgb', '0/e/0', 'light')
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assert_bg('rgb', '0/d/0', 'light')
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assert_bg('rgb', '0/c/0', 'dark')
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assert_bg('rgb', '0/b/0', 'dark')
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assert_bg('f/0/f', 'dark')
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assert_bg('f/1/f', 'dark')
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assert_bg('f/2/f', 'dark')
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assert_bg('f/3/f', 'light')
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assert_bg('f/4/f', 'light')
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assert_bg('rgb', 'f/0/f', 'dark')
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assert_bg('rgb', 'f/1/f', 'dark')
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assert_bg('rgb', 'f/2/f', 'dark')
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assert_bg('rgb', 'f/3/f', 'light')
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assert_bg('rgb', 'f/4/f', 'light')
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assert_bg('rgba', '0000/0000/0000/0000', 'dark')
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assert_bg('rgba', '0000/0000/0000/ffff', 'dark')
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assert_bg('rgba', 'ffff/ffff/ffff/0000', 'light')
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assert_bg('rgba', 'ffff/ffff/ffff/ffff', 'light')
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assert_bg('rgba', '000/000/000/000', 'dark')
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assert_bg('rgba', '000/000/000/fff', 'dark')
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assert_bg('rgba', 'fff/fff/fff/000', 'light')
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assert_bg('rgba', 'fff/fff/fff/fff', 'light')
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assert_bg('rgba', '00/00/00/00', 'dark')
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assert_bg('rgba', '00/00/00/ff', 'dark')
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assert_bg('rgba', 'ff/ff/ff/00', 'light')
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assert_bg('rgba', 'ff/ff/ff/ff', 'light')
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assert_bg('rgba', '0/0/0/0', 'dark')
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assert_bg('rgba', '0/0/0/f', 'dark')
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assert_bg('rgba', 'f/f/f/0', 'light')
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assert_bg('rgba', 'f/f/f/f', 'light')
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end)
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