mpv/player/lua/stats.lua

1797 lines
65 KiB
Lua

-- Display some stats.
--
-- Please consult the readme for information about usage and configuration:
-- https://github.com/Argon-/mpv-stats
--
-- Please note: not every property is always available and therefore not always
-- visible.
local mp = require 'mp'
local options = require 'mp.options'
local utils = require 'mp.utils'
local input = require 'mp.input'
-- Options
local o = {
-- Default key bindings
key_page_1 = "1",
key_page_2 = "2",
key_page_3 = "3",
key_page_4 = "4",
key_page_5 = "5",
key_page_0 = "0",
-- For pages which support scrolling
key_scroll_up = "UP",
key_scroll_down = "DOWN",
key_search = "/",
scroll_lines = 1,
duration = 4,
redraw_delay = 1, -- acts as duration in the toggling case
ass_formatting = true,
persistent_overlay = false, -- whether the stats can be overwritten by other output
filter_params_max_length = 100, -- show one filter per line if list exceeds this length
file_tag_max_length = 128, -- only show file tags shorter than this length in bytes
file_tag_max_count = 16, -- only show the first x file tags
show_frame_info = false, -- whether to show the current frame info
term_width_limit = -1, -- overwrites the terminal width
term_height_limit = -1, -- overwrites the terminal height
debug = false,
-- Graph options and style
plot_perfdata = true,
plot_vsync_ratio = true,
plot_vsync_jitter = true,
plot_tonemapping_lut = false,
skip_frames = 5,
global_max = true,
flush_graph_data = true, -- clear data buffers when toggling
plot_bg_border_color = "0000FF",
plot_bg_color = "262626",
plot_color = "FFFFFF",
plot_bg_border_width = 0.5,
-- Text style
font = "",
font_mono = "monospace", -- monospaced digits are sufficient
font_size = 8,
font_color = "",
border_size = 0.8,
border_color = "",
shadow_x_offset = 0.0,
shadow_y_offset = 0.0,
shadow_color = "",
alpha = "11",
vidscale = "auto",
-- Custom header for ASS tags to style the text output.
-- Specifying this will ignore the text style values above and just
-- use this string instead.
custom_header = "",
-- Text formatting
-- With ASS
ass_nl = "\\N",
ass_indent = "\\h\\h\\h\\h\\h",
ass_prefix_sep = "\\h\\h",
ass_b1 = "{\\b1}",
ass_b0 = "{\\b0}",
ass_it1 = "{\\i1}",
ass_it0 = "{\\i0}",
-- Without ASS
no_ass_nl = "\n",
no_ass_indent = "\t",
no_ass_prefix_sep = " ",
no_ass_b1 = "\027[1m",
no_ass_b0 = "\027[0m",
no_ass_it1 = "\027[3m",
no_ass_it0 = "\027[0m",
bindlist = "no", -- print page 4 to the terminal on startup and quit mpv
}
options.read_options(o)
o.term_width_limit = tonumber(o.term_width_limit) or -1
o.term_height_limit = tonumber(o.term_height_limit) or -1
if o.term_width_limit < 0 then
o.term_width_limit = nil
end
if o.term_height_limit < 0 then
o.term_height_limit = nil
end
local format = string.format
local max = math.max
local min = math.min
-- Scaled metrics
local font_size = o.font_size
local border_size = o.border_size
local shadow_x_offset = o.shadow_x_offset
local shadow_y_offset = o.shadow_y_offset
local plot_bg_border_width = o.plot_bg_border_width
-- Function used to record performance data
local recorder = nil
-- Timer used for redrawing (toggling) and clearing the screen (oneshot)
local display_timer = nil
-- Timer used to update cache stats.
local cache_recorder_timer
-- Current page and <page key>:<page function> mappings
local curr_page = o.key_page_1
local pages = {}
local scroll_bound = false
local searched_text
local tm_viz_prev = nil
-- Save these sequences locally as we'll need them a lot
local ass_start = mp.get_property_osd("osd-ass-cc/0")
local ass_stop = mp.get_property_osd("osd-ass-cc/1")
-- Ring buffers for the values used to construct a graph.
-- .pos denotes the current position, .len the buffer length
-- .max is the max value in the corresponding buffer
local vsratio_buf, vsjitter_buf
local function init_buffers()
vsratio_buf = {0, pos = 1, len = 50, max = 0}
vsjitter_buf = {0, pos = 1, len = 50, max = 0}
end
local cache_ahead_buf, cache_speed_buf
local perf_buffers = {}
local function graph_add_value(graph, value)
graph.pos = (graph.pos % graph.len) + 1
graph[graph.pos] = value
graph.max = max(graph.max, value)
end
local function no_ASS(t)
if not o.use_ass then
return t
elseif not o.persistent_overlay then
-- mp.osd_message supports ass-escape using osd-ass-cc/{0|1}
return ass_stop .. t .. ass_start
else
return mp.command_native({"escape-ass", tostring(t)})
end
end
local function bold(t)
return o.b1 .. t .. o.b0
end
local function it(t)
return o.it1 .. t .. o.it0
end
local function text_style()
if not o.use_ass then
return ""
end
if o.custom_header and o.custom_header ~= "" then
return o.custom_header
else
local style = "{\\r\\an7\\fs" .. font_size .. "\\bord" .. border_size
if o.font ~= "" then
style = style .. "\\fn" .. o.font
end
if o.font_color ~= "" then
style = style .. "\\1c&H" .. o.font_color .. "&\\1a&H" .. o.alpha .. "&"
end
if o.border_color ~= "" then
style = style .. "\\3c&H" .. o.border_color .. "&\\3a&H" .. o.alpha .. "&"
end
if o.shadow_color ~= "" then
style = style .. "\\4c&H" .. o.shadow_color .. "&\\4a&H" .. o.alpha .. "&"
end
return style .. "\\xshad" .. shadow_x_offset ..
"\\yshad" .. shadow_y_offset .. "}"
end
end
local function has_vo_window()
return mp.get_property_native("vo-configured") and mp.get_property_native("video-osd")
end
-- Generate a graph from the given values.
-- Returns an ASS formatted vector drawing as string.
--
-- values: Array/table of numbers representing the data. Used like a ring buffer
-- it will get iterated backwards `len` times starting at position `i`.
-- i : Index of the latest data value in `values`.
-- len : The length/amount of numbers in `values`.
-- v_max : The maximum number in `values`. It is used to scale all data
-- values to a range of 0 to `v_max`.
-- v_avg : The average number in `values`. It is used to try and center graphs
-- if possible. May be left as nil
-- scale : A value that will be multiplied with all data values.
-- x_tics: Horizontal width multiplier for the steps
local function generate_graph(values, i, len, v_max, v_avg, scale, x_tics)
-- Check if at least one value exists
if not values[i] then
return ""
end
local x_max = (len - 1) * x_tics
local y_offset = border_size
local y_max = font_size * 0.66
local x = 0
if v_max > 0 then
-- try and center the graph if possible, but avoid going above `scale`
if v_avg and v_avg > 0 then
scale = min(scale, v_max / (2 * v_avg))
end
scale = scale * y_max / v_max
end -- else if v_max==0 then all values are 0 and scale doesn't matter
local s = {format("m 0 0 n %f %f l ", x, y_max - scale * values[i])}
i = ((i - 2) % len) + 1
for _ = 1, len - 1 do
if values[i] then
x = x - x_tics
s[#s+1] = format("%f %f ", x, y_max - scale * values[i])
end
i = ((i - 2) % len) + 1
end
s[#s+1] = format("%f %f %f %f", x, y_max, 0, y_max)
local bg_box = format("{\\bord%f}{\\3c&H%s&}{\\1c&H%s&}m 0 %f l %f %f %f 0 0 0",
plot_bg_border_width, o.plot_bg_border_color, o.plot_bg_color,
y_max, x_max, y_max, x_max)
return format("%s{\\rDefault}{\\pbo%f}{\\shad0}{\\alpha&H00}{\\p1}%s{\\p0}" ..
"{\\bord0}{\\1c&H%s}{\\p1}%s{\\p0}%s",
o.prefix_sep, y_offset, bg_box, o.plot_color, table.concat(s), text_style())
end
local function append(s, str, attr)
if not str then
return false
end
attr.prefix_sep = attr.prefix_sep or o.prefix_sep
attr.indent = attr.indent or o.indent
attr.nl = attr.nl or o.nl
attr.suffix = attr.suffix or ""
attr.prefix = attr.prefix or ""
attr.no_prefix_markup = attr.no_prefix_markup or false
attr.prefix = attr.no_prefix_markup and attr.prefix or bold(attr.prefix)
local index = #s + (attr.nl == "" and 0 or 1)
s[index] = s[index] or ""
s[index] = s[index] .. format("%s%s%s%s%s%s", attr.nl, attr.indent,
attr.prefix, attr.prefix_sep, no_ASS(str), attr.suffix)
return true
end
-- Format and append a property.
-- A property whose value is either `nil` or empty (hereafter called "invalid")
-- is skipped and not appended.
-- Returns `false` in case nothing was appended, otherwise `true`.
--
-- s : Table containing strings.
-- prop : The property to query and format (based on its OSD representation).
-- attr : Optional table to overwrite certain (formatting) attributes for
-- this property.
-- exclude: Optional table containing keys which are considered invalid values
-- for this property. Specifying this will replace empty string as
-- default invalid value (nil is always invalid).
local function append_property(s, prop, attr, excluded)
excluded = excluded or {[""] = true}
local ret = mp.get_property_osd(prop)
if not ret or excluded[ret] then
if o.debug then
print("No value for property: " .. prop)
end
return false
end
return append(s, ret, attr)
end
local function sorted_keys(t, comp_fn)
local keys = {}
for k,_ in pairs(t) do
keys[#keys+1] = k
end
table.sort(keys, comp_fn)
return keys
end
local function scroll_hint(search)
local hint = format("(hint: scroll with %s/%s", o.key_scroll_up, o.key_scroll_down)
if search then
hint = hint .. " and search with " .. o.key_search
end
hint = hint .. ")"
if not o.use_ass then return " " .. hint end
return format(" {\\fs%s}%s{\\fs%s}", font_size * 0.66, hint, font_size)
end
local function append_perfdata(header, s, dedicated_page)
local vo_p = mp.get_property_native("vo-passes")
if not vo_p then
return
end
-- Sums of all last/avg/peak values
local last_s, avg_s, peak_s = {}, {}, {}
for frame, data in pairs(vo_p) do
last_s[frame], avg_s[frame], peak_s[frame] = 0, 0, 0
for _, pass in ipairs(data) do
last_s[frame] = last_s[frame] + pass["last"]
avg_s[frame] = avg_s[frame] + pass["avg"]
peak_s[frame] = peak_s[frame] + pass["peak"]
end
end
-- Pretty print measured time
local function pp(i)
-- rescale to microseconds for a saner display
return format("%5d", i / 1000)
end
-- Format n/m with a font weight based on the ratio
local function p(n, m)
local i = 0
if m > 0 then
i = tonumber(n) / m
end
-- Calculate font weight. 100 is minimum, 400 is normal, 700 bold, 900 is max
local w = (700 * math.sqrt(i)) + 200
if not o.use_ass then
local str = format("%3d%%", i * 100)
return w >= 700 and bold(str) or str
end
return format("{\\b%d}%3d%%{\\b0}", w, i * 100)
end
local font_small = o.use_ass and format("{\\fs%s}", font_size * 0.66) or ""
local font_normal = o.use_ass and format("{\\fs%s}", font_size) or ""
local font = o.use_ass and format("{\\fn%s}", o.font) or ""
local font_mono = o.use_ass and format("{\\fn%s}", o.font_mono) or ""
local indent = o.use_ass and "\\h" or " "
-- ensure that the fixed title is one element and every scrollable line is
-- also one single element.
local h = dedicated_page and header or s
h[#h+1] = format("%s%s%s%s%s%s%s%s",
dedicated_page and "" or o.nl, dedicated_page and "" or o.indent,
bold("Frame Timings:"), o.prefix_sep, font_small,
"(last/average/peak μs)", font_normal,
dedicated_page and scroll_hint() or "")
for _,frame in ipairs(sorted_keys(vo_p)) do -- ensure fixed display order
local data = vo_p[frame]
local f = "%s%s%s%s%s / %s / %s %s%s%s%s%s%s"
if dedicated_page then
s[#s+1] = format("%s%s%s:", o.nl, o.indent,
bold(frame:gsub("^%l", string.upper)))
for _, pass in ipairs(data) do
s[#s+1] = format(f, o.nl, o.indent, o.indent,
font_mono, pp(pass["last"]),
pp(pass["avg"]), pp(pass["peak"]),
o.prefix_sep .. indent, p(pass["last"], last_s[frame]),
font, o.prefix_sep, o.prefix_sep, pass["desc"])
if o.plot_perfdata and o.use_ass then
-- use the same line that was already started for this iteration
s[#s] = s[#s] ..
generate_graph(pass["samples"], pass["count"],
pass["count"], pass["peak"],
pass["avg"], 0.9, 0.25)
end
end
-- Print sum of timing values as "Total"
s[#s+1] = format(f, o.nl, o.indent, o.indent,
font_mono, pp(last_s[frame]),
pp(avg_s[frame]), pp(peak_s[frame]),
o.prefix_sep, bold("Total"), font, "", "", "")
else
-- for the simplified view, we just print the sum of each pass
s[#s+1] = format(f, o.nl, o.indent, o.indent, font_mono,
pp(last_s[frame]), pp(avg_s[frame]), pp(peak_s[frame]),
"", "", font, o.prefix_sep, o.prefix_sep,
frame:gsub("^%l", string.upper))
end
end
end
-- command prefix tokens to strip - includes generic property commands
local cmd_prefixes = {
osd_auto=1, no_osd=1, osd_bar=1, osd_msg=1, osd_msg_bar=1, raw=1, sync=1,
async=1, expand_properties=1, repeatable=1, nonrepeatable=1, nonscalable=1,
set=1, add=1, multiply=1, toggle=1, cycle=1, cycle_values=1, ["!reverse"]=1,
change_list=1,
}
-- commands/writable-properties prefix sub-words (followed by -) to strip
local name_prefixes = {
define=1, delete=1, enable=1, disable=1, dump=1, write=1, drop=1, revert=1,
ab=1, hr=1, secondary=1, current=1,
}
-- extract a command "subject" from a command string, by removing all
-- generic prefix tokens and then returning the first interesting sub-word
-- of the next token. For target-script name we also check another token.
-- The tokenizer works fine for things we care about - valid mpv commands,
-- properties and script names, possibly quoted, white-space[s]-separated.
-- It's decent in practice, and worst case is "incorrect" subject.
local function cmd_subject(cmd)
cmd = cmd:gsub(";.*", ""):gsub("%-", "_") -- only first cmd, s/-/_/
local TOKEN = '^%s*["\']?([%w_!]*)' -- captures+ends before (maybe) final "
local tok, sname, subw
repeat tok, cmd = cmd:match(TOKEN .. '["\']?(.*)')
until not cmd_prefixes[tok]
-- tok is the 1st non-generic command/property name token, cmd is the rest
sname = tok == "script_message_to" and cmd:match(TOKEN)
or tok == "script_binding" and cmd:match(TOKEN .. "/")
if sname and sname ~= "" then
return "script: " .. sname
end
-- return the first sub-word of tok which is not a useless prefix
repeat subw, tok = tok:match("([^_]*)_?(.*)")
until tok == "" or not name_prefixes[subw]
return subw:len() > 1 and subw or "[unknown]"
end
-- key names are valid UTF-8, ascii7 except maybe the last/only codepoint.
-- we count codepoints and ignore wcwidth. no need for grapheme clusters.
-- our error for alignment is at most one cell (if last CP is double-width).
-- (if k was valid but arbitrary: we'd count all bytes <0x80 or >=0xc0)
local function keyname_cells(k)
local klen = k:len()
if klen > 1 and k:byte(klen) >= 0x80 then -- last/only CP is not ascii7
repeat klen = klen-1
until klen == 1 or k:byte(klen) >= 0xc0 -- last CP begins at klen
end
return klen
end
local function get_kbinfo_lines()
-- active keys: only highest priority of each key, and not our (stats) keys
local bindings = mp.get_property_native("input-bindings", {})
local active = {} -- map: key-name -> bind-info
for _, bind in pairs(bindings) do
if bind.priority >= 0 and (
not active[bind.key] or
(active[bind.key].is_weak and not bind.is_weak) or
(bind.is_weak == active[bind.key].is_weak and
bind.priority > active[bind.key].priority)
) and not bind.cmd:find("script-binding stats/__forced_", 1, true)
and bind.section ~= "input_forced_console"
and (
searched_text == nil or
(bind.key .. bind.cmd .. (bind.comment or "")):lower():find(searched_text, 1, true)
)
then
active[bind.key] = bind
end
end
-- make an array, find max key len, add sort keys (.subject/.mods[_count])
local ordered = {}
local kspaces = "" -- as many spaces as the longest key name
for _, bind in pairs(active) do
bind.subject = cmd_subject(bind.cmd)
if bind.subject ~= "ignore" then
ordered[#ordered+1] = bind
_,_, bind.mods = bind.key:find("(.*)%+.")
_, bind.mods_count = bind.key:gsub("%+.", "")
if bind.key:len() > kspaces:len() then
kspaces = string.rep(" ", bind.key:len())
end
end
end
local function align_right(key)
return kspaces:sub(keyname_cells(key)) .. key
end
-- sort by: subject, mod(ifier)s count, mods, key-len, lowercase-key, key
table.sort(ordered, function(a, b)
if a.subject ~= b.subject then
return a.subject < b.subject
elseif a.mods_count ~= b.mods_count then
return a.mods_count < b.mods_count
elseif a.mods ~= b.mods then
return a.mods < b.mods
elseif a.key:len() ~= b.key:len() then
return a.key:len() < b.key:len()
elseif a.key:lower() ~= b.key:lower() then
return a.key:lower() < b.key:lower()
else
return a.key > b.key -- only case differs, lowercase first
end
end)
-- key/subject pre/post formatting for terminal/ass.
-- key/subject alignment uses spaces (with mono font if ass)
-- word-wrapping is disabled for ass, or cut at 79 for the terminal
local LTR = string.char(0xE2, 0x80, 0x8E) -- U+200E Left To Right mark
local term = not o.use_ass
local kpre = term and "" or format("{\\q2\\fn%s}%s", o.font_mono, LTR)
local kpost = term and " " or format(" {\\fn%s}", o.font)
local spre = term and kspaces .. " "
or format("{\\q2\\fn%s}%s {\\fn%s}{\\fs%d\\u1}",
o.font_mono, kspaces, o.font, 1.3*font_size)
local spost = term and "" or format("{\\u0\\fs%d}%s", font_size, text_style())
-- create the display lines
local info_lines = {}
local subject = nil
for _, bind in ipairs(ordered) do
if bind.subject ~= subject then -- new subject (title)
subject = bind.subject
append(info_lines, "", {})
append(info_lines, "", { prefix = spre .. subject .. spost })
end
if bind.comment then
bind.cmd = bind.cmd .. " # " .. bind.comment
end
append(info_lines, bind.cmd, { prefix = kpre .. no_ASS(align_right(bind.key)) .. kpost })
end
return info_lines
end
local function append_general_perfdata(s)
for i, data in ipairs(mp.get_property_native("perf-info") or {}) do
append(s, data.text or data.value, {prefix="["..tostring(i).."] "..data.name..":"})
if o.plot_perfdata and o.use_ass and data.value then
local buf = perf_buffers[data.name]
if not buf then
buf = {0, pos = 1, len = 50, max = 0}
perf_buffers[data.name] = buf
end
graph_add_value(buf, data.value)
s[#s] = s[#s] .. generate_graph(buf, buf.pos, buf.len, buf.max, nil, 0.8, 1)
end
end
end
local function append_display_sync(s)
if not mp.get_property_bool("display-sync-active", false) then
return
end
local vspeed = append_property(s, "video-speed-correction", {prefix="DS:"})
if vspeed then
append_property(s, "audio-speed-correction",
{prefix="/", nl="", indent=" ", prefix_sep=" ", no_prefix_markup=true})
else
append_property(s, "audio-speed-correction",
{prefix="DS:" .. o.prefix_sep .. " - / ", prefix_sep=""})
end
append_property(s, "mistimed-frame-count", {prefix="Mistimed:", nl="",
indent=o.prefix_sep .. o.prefix_sep})
append_property(s, "vo-delayed-frame-count", {prefix="Delayed:", nl="",
indent=o.prefix_sep .. o.prefix_sep})
-- As we need to plot some graphs we print jitter and ratio on their own lines
if not display_timer.oneshot and (o.plot_vsync_ratio or o.plot_vsync_jitter) and o.use_ass then
local ratio_graph = ""
local jitter_graph = ""
if o.plot_vsync_ratio then
ratio_graph = generate_graph(vsratio_buf, vsratio_buf.pos,
vsratio_buf.len, vsratio_buf.max, nil, 0.8, 1)
end
if o.plot_vsync_jitter then
jitter_graph = generate_graph(vsjitter_buf, vsjitter_buf.pos,
vsjitter_buf.len, vsjitter_buf.max, nil, 0.8, 1)
end
append_property(s, "vsync-ratio", {prefix="VSync Ratio:",
suffix=o.prefix_sep .. ratio_graph})
append_property(s, "vsync-jitter", {prefix="VSync Jitter:",
suffix=o.prefix_sep .. jitter_graph})
else
-- Since no graph is needed we can print ratio/jitter on the same line and save some space
local vr = append_property(s, "vsync-ratio", {prefix="VSync Ratio:"})
append_property(s, "vsync-jitter", {prefix="VSync Jitter:",
nl=vr and "" or o.nl,
indent=vr and o.prefix_sep .. o.prefix_sep})
end
end
local function append_filters(s, prop, prefix)
local length = 0
local filters = {}
for _,f in ipairs(mp.get_property_native(prop, {})) do
local n = f.name
if f.enabled ~= nil and not f.enabled then
n = n .. " (disabled)"
end
if f.label ~= nil then
n = "@" .. f.label .. ": " .. n
end
local p = {}
for _,key in ipairs(sorted_keys(f.params)) do
p[#p+1] = key .. "=" .. f.params[key]
end
if #p > 0 then
p = " [" .. table.concat(p, " ") .. "]"
else
p = ""
end
length = length + n:len() + p:len()
filters[#filters+1] = no_ASS(n) .. it(no_ASS(p))
end
if #filters > 0 then
local ret
if length < o.filter_params_max_length then
ret = table.concat(filters, ", ")
else
local sep = o.nl .. o.indent .. o.indent
ret = sep .. table.concat(filters, sep)
end
s[#s+1] = o.nl .. o.indent .. bold(prefix) .. o.prefix_sep .. ret
end
end
local function add_header(s)
s[#s+1] = text_style()
end
local function add_file(s, print_cache, print_tags)
append(s, "", {prefix="File:", nl="", indent=""})
append_property(s, "filename", {prefix_sep="", nl="", indent=""})
if mp.get_property_osd("filename") ~= mp.get_property_osd("media-title") then
append_property(s, "media-title", {prefix="Title:"})
end
if print_tags then
local tags = mp.get_property_native("display-tags")
local tags_displayed = 0
for _, tag in ipairs(tags) do
local value = mp.get_property("metadata/by-key/" .. tag)
if tag ~= "Title" and tags_displayed < o.file_tag_max_count
and value and value:len() < o.file_tag_max_length then
append(s, value, {prefix=string.gsub(tag, "_", " ") .. ":"})
tags_displayed = tags_displayed + 1
end
end
end
local editions = mp.get_property_number("editions")
local edition = mp.get_property_number("current-edition")
local ed_cond = (edition and editions > 1)
if ed_cond then
append_property(s, "edition-list/" .. tostring(edition) .. "/title",
{prefix="Edition:"})
append_property(s, "edition-list/count",
{prefix="(" .. tostring(edition + 1) .. "/", suffix=")", nl="",
indent=" ", prefix_sep=" ", no_prefix_markup=true})
end
local ch_index = mp.get_property_number("chapter")
if ch_index and ch_index >= 0 then
append_property(s, "chapter-list/" .. tostring(ch_index) .. "/title", {prefix="Chapter:",
nl=ed_cond and "" or o.nl})
append_property(s, "chapter-list/count",
{prefix="(" .. tostring(ch_index + 1) .. " /", suffix=")", nl="",
indent=" ", prefix_sep=" ", no_prefix_markup=true})
end
local fs = append_property(s, "file-size", {prefix="Size:"})
append_property(s, "file-format", {prefix="Format/Protocol:",
nl=fs and "" or o.nl,
indent=fs and o.prefix_sep .. o.prefix_sep})
if not print_cache then
return
end
local demuxer_cache = mp.get_property_native("demuxer-cache-state", {})
if demuxer_cache["fw-bytes"] then
demuxer_cache = demuxer_cache["fw-bytes"] -- returns bytes
else
demuxer_cache = 0
end
local demuxer_secs = mp.get_property_number("demuxer-cache-duration", 0)
if demuxer_cache + demuxer_secs > 0 then
append(s, utils.format_bytes_humanized(demuxer_cache), {prefix="Total Cache:"})
append(s, format("%.1f", demuxer_secs), {prefix="(", suffix=" sec)", nl="",
no_prefix_markup=true, prefix_sep="", indent=o.prefix_sep})
end
end
local function crop_noop(w, h, r)
return r["crop-x"] == 0 and r["crop-y"] == 0 and
r["crop-w"] == w and r["crop-h"] == h
end
local function crop_equal(r, ro)
return r["crop-x"] == ro["crop-x"] and r["crop-y"] == ro["crop-y"] and
r["crop-w"] == ro["crop-w"] and r["crop-h"] == ro["crop-h"]
end
local function append_resolution(s, r, prefix, w_prop, h_prop, video_res)
if not r then
return
end
w_prop = w_prop or "w"
h_prop = h_prop or "h"
if append(s, r[w_prop], {prefix=prefix}) then
append(s, r[h_prop], {prefix="x", nl="", indent=" ", prefix_sep=" ",
no_prefix_markup=true})
if r["aspect"] ~= nil and not video_res then
append(s, format("%.2f:1", r["aspect"]), {prefix="", nl="", indent="",
no_prefix_markup=true})
append(s, r["aspect-name"], {prefix="(", suffix=")", nl="", indent=" ",
prefix_sep="", no_prefix_markup=true})
end
if r["sar"] ~= nil and video_res then
append(s, format("%.2f:1", r["sar"]), {prefix="", nl="", indent="",
no_prefix_markup=true})
append(s, r["sar-name"], {prefix="(", suffix=")", nl="", indent=" ",
prefix_sep="", no_prefix_markup=true})
end
if r["s"] then
append(s, format("%.2f", r["s"]), {prefix="(", suffix="x)", nl="",
indent=o.prefix_sep, prefix_sep="",
no_prefix_markup=true})
end
-- We can skip crop if it is the same as video decoded resolution
if r["crop-w"] and (not video_res or
not crop_noop(r[w_prop], r[h_prop], r)) then
append(s, format("[x: %d, y: %d, w: %d, h: %d]",
r["crop-x"], r["crop-y"], r["crop-w"], r["crop-h"]),
{prefix="", nl="", indent="", no_prefix_markup=true})
end
end
end
local function pq_eotf(x)
if not x then
return x;
end
local PQ_M1 = 2610.0 / 4096 * 1.0 / 4
local PQ_M2 = 2523.0 / 4096 * 128
local PQ_C1 = 3424.0 / 4096
local PQ_C2 = 2413.0 / 4096 * 32
local PQ_C3 = 2392.0 / 4096 * 32
x = x ^ (1.0 / PQ_M2)
x = max(x - PQ_C1, 0.0) / (PQ_C2 - PQ_C3 * x)
x = x ^ (1.0 / PQ_M1)
x = x * 10000.0
return x
end
local function append_hdr(s, hdr, video_out)
if not hdr then
return
end
local function should_show(val)
return val and val ~= 203 and val > 0
end
-- If we are printing video out parameters it is just display, not mastering
local display_prefix = video_out and "Display:" or "Mastering display:"
local indent = ""
if should_show(hdr["max-cll"]) or should_show(hdr["max-luma"]) then
append(s, "", {prefix="HDR10:"})
if hdr["min-luma"] and should_show(hdr["max-luma"]) then
-- libplacebo uses close to zero values as "defined zero"
hdr["min-luma"] = hdr["min-luma"] <= 1e-6 and 0 or hdr["min-luma"]
append(s, format("%.2g / %.0f", hdr["min-luma"], hdr["max-luma"]),
{prefix=display_prefix, suffix=" cd/m²", nl="", indent=indent})
indent = o.prefix_sep .. o.prefix_sep
end
if should_show(hdr["max-cll"]) then
append(s, hdr["max-cll"], {prefix="MaxCLL:", suffix=" cd/m²", nl="",
indent=indent})
indent = o.prefix_sep .. o.prefix_sep
end
if hdr["max-fall"] and hdr["max-fall"] > 0 then
append(s, hdr["max-fall"], {prefix="MaxFALL:", suffix=" cd/m²", nl="",
indent=indent})
end
end
indent = o.prefix_sep .. o.prefix_sep
if hdr["scene-max-r"] or hdr["scene-max-g"] or
hdr["scene-max-b"] or hdr["scene-avg"] then
append(s, "", {prefix="HDR10+:"})
append(s, format("%.1f / %.1f / %.1f", hdr["scene-max-r"] or 0,
hdr["scene-max-g"] or 0, hdr["scene-max-b"] or 0),
{prefix="MaxRGB:", suffix=" cd/m²", nl="", indent=""})
append(s, format("%.1f", hdr["scene-avg"] or 0),
{prefix="Avg:", suffix=" cd/m²", nl="", indent=indent})
end
if hdr["max-pq-y"] and hdr["avg-pq-y"] then
append(s, "", {prefix="PQ(Y):"})
append(s, format("%.2f cd/m² (%.2f%% PQ)", pq_eotf(hdr["max-pq-y"]),
hdr["max-pq-y"] * 100), {prefix="Max:", nl="",
indent=""})
append(s, format("%.2f cd/m² (%.2f%% PQ)", pq_eotf(hdr["avg-pq-y"]),
hdr["avg-pq-y"] * 100), {prefix="Avg:", nl="",
indent=indent})
end
end
local function append_img_params(s, r, ro)
if not r then
return
end
append_resolution(s, r, "Resolution:", "w", "h", true)
if ro and (r["w"] ~= ro["dw"] or r["h"] ~= ro["dh"]) then
if ro["crop-w"] and (crop_noop(r["w"], r["h"], ro) or crop_equal(r, ro)) then
ro["crop-w"] = nil
end
append_resolution(s, ro, "Output Resolution:", "dw", "dh")
end
local indent = o.prefix_sep .. o.prefix_sep
r = ro or r
local pixel_format = r["hw-pixelformat"] or r["pixelformat"]
append(s, pixel_format, {prefix="Format:"})
append(s, r["colorlevels"], {prefix="Levels:", nl="", indent=indent})
if r["chroma-location"] and r["chroma-location"] ~= "unknown" then
append(s, r["chroma-location"], {prefix="Chroma Loc:", nl="", indent=indent})
end
-- Group these together to save vertical space
append(s, r["colormatrix"], {prefix="Colormatrix:"})
append(s, r["primaries"], {prefix="Primaries:", nl="", indent=indent})
append(s, r["gamma"], {prefix="Transfer:", nl="", indent=indent})
end
local function append_fps(s, prop, eprop)
local fps = mp.get_property_osd(prop)
local efps = mp.get_property_osd(eprop)
local single = eprop == "" or (fps ~= "" and efps ~= "" and fps == efps)
local unit = prop == "display-fps" and " Hz" or " fps"
local suffix = single and "" or " (specified)"
local esuffix = single and "" or " (estimated)"
local prefix = prop == "display-fps" and "Refresh Rate:" or "Frame Rate:"
local nl = o.nl
local indent = o.indent
if fps ~= "" and append(s, fps, {prefix=prefix, suffix=unit .. suffix}) then
prefix = ""
nl = ""
indent = ""
end
if not single and efps ~= "" then
append(s, efps,
{prefix=prefix, suffix=unit .. esuffix, nl=nl, indent=indent})
end
end
local function add_video_out(s)
local vo = mp.get_property_native("current-vo")
if not vo then
return
end
append(s, "", {prefix="Display:", nl=o.nl .. o.nl, indent=""})
append(s, vo, {prefix_sep="", nl="", indent=""})
append_property(s, "display-names", {prefix_sep="", prefix="(", suffix=")",
no_prefix_markup=true, nl="", indent=" "})
append(s, mp.get_property_native("current-gpu-context"),
{prefix="Context:", nl="", indent=o.prefix_sep .. o.prefix_sep})
append_property(s, "avsync", {prefix="A-V:"})
append_fps(s, "display-fps", "estimated-display-fps")
if append_property(s, "decoder-frame-drop-count",
{prefix="Dropped Frames:", suffix=" (decoder)"}) then
append_property(s, "frame-drop-count", {suffix=" (output)", nl="", indent=""})
end
append_display_sync(s)
append_perfdata(nil, s, false)
if mp.get_property_native("deinterlace-active") then
append_property(s, "deinterlace", {prefix="Deinterlacing:"})
end
local scale = nil
if not mp.get_property_native("fullscreen") then
scale = mp.get_property_native("current-window-scale")
end
local od = mp.get_property_native("osd-dimensions")
local rt = mp.get_property_native("video-target-params")
local r = rt or {}
-- Add window scale
r["s"] = scale
r["crop-x"] = od["ml"]
r["crop-y"] = od["mt"]
r["crop-w"] = od["w"] - od["ml"] - od["mr"]
r["crop-h"] = od["h"] - od["mt"] - od["mb"]
if not rt then
r["w"] = r["crop-w"]
r["h"] = r["crop-h"]
append_resolution(s, r, "Resolution:", "w", "h", true)
return
end
append_img_params(s, r)
append_hdr(s, r, true)
end
local function add_video(s)
local r = mp.get_property_native("video-params")
local ro = mp.get_property_native("video-out-params")
-- in case of e.g. lavfi-complex there can be no input video, only output
if not r then
r = ro
end
if not r then
return
end
local track = mp.get_property_native("current-tracks/video")
if track then
append(s, "", {prefix=track.image and "Image:" or "Video:", nl=o.nl .. o.nl, indent=""})
append(s, track["codec-desc"], {prefix_sep="", nl="", indent=""})
append(s, track["codec-profile"], {prefix="[", nl="", indent=" ", prefix_sep="",
no_prefix_markup=true, suffix="]"})
if track["codec"] ~= track["decoder"] then
append(s, track["decoder"], {prefix="[", nl="", indent=" ", prefix_sep="",
no_prefix_markup=true, suffix="]"})
end
append_property(s, "hwdec-current", {prefix="HW:", nl="",
indent=o.prefix_sep .. o.prefix_sep,
no_prefix_markup=false, suffix=""}, {no=true, [""]=true})
end
local has_prefix = false
if o.show_frame_info then
if append_property(s, "estimated-frame-number", {prefix="Frame:"}) then
append_property(s, "estimated-frame-count", {indent=" / ", nl="",
prefix_sep=""})
has_prefix = true
end
local frame_info = mp.get_property_native("video-frame-info")
if frame_info and frame_info["picture-type"] then
local attrs = has_prefix and {prefix="(", suffix=")", indent=" ", nl="",
prefix_sep="", no_prefix_markup=true}
or {prefix="Picture Type:"}
append(s, frame_info["picture-type"], attrs)
has_prefix = true
end
if frame_info and frame_info["interlaced"] then
local attrs = has_prefix and {indent=" ", nl="", prefix_sep=""}
or {prefix="Picture Type:"}
append(s, "Interlaced", attrs)
end
local timecodes = {
["gop-timecode"] = "GOP",
["smpte-timecode"] = "SMPTE",
["estimated-smpte-timecode"] = "Estimated SMPTE",
}
for prop, name in pairs(timecodes) do
if frame_info and frame_info[prop] then
local attrs = has_prefix and {prefix=name .. " Timecode:",
indent=o.prefix_sep .. o.prefix_sep, nl=""}
or {prefix=name .. " Timecode:"}
append(s, frame_info[prop], attrs)
break
end
end
end
if mp.get_property_native("current-tracks/video/image") == false then
append_fps(s, "container-fps", "estimated-vf-fps")
end
append_img_params(s, r, ro)
append_hdr(s, ro)
append_property(s, "video-bitrate", {prefix="Bitrate:"})
append_filters(s, "vf", "Filters:")
end
local function add_audio(s)
local r = mp.get_property_native("audio-params")
-- in case of e.g. lavfi-complex there can be no input audio, only output
local ro = mp.get_property_native("audio-out-params") or r
r = r or ro
if not r then
return
end
local merge = function(rr, rro, prop)
local a = rr[prop] or rro[prop]
local b = rro[prop] or rr[prop]
return (a == b or a == nil) and a or (a .. "" .. b)
end
append(s, "", {prefix="Audio:", nl=o.nl .. o.nl, indent=""})
local track = mp.get_property_native("current-tracks/audio")
if track then
append(s, track["codec-desc"], {prefix_sep="", nl="", indent=""})
append(s, track["codec-profile"], {prefix="[", nl="", indent=" ", prefix_sep="",
no_prefix_markup=true, suffix="]"})
if track["codec"] ~= track["decoder"] then
append(s, track["decoder"], {prefix="[", nl="", indent=" ", prefix_sep="",
no_prefix_markup=true, suffix="]"})
end
end
append_property(s, "current-ao", {prefix="AO:", nl="",
indent=o.prefix_sep .. o.prefix_sep})
local dev = append_property(s, "audio-device", {prefix="Device:"})
local ao_mute = mp.get_property_native("ao-mute") and " (Muted)" or ""
append_property(s, "ao-volume", {prefix="AO Volume:", suffix="%" .. ao_mute,
nl=dev and "" or o.nl,
indent=dev and o.prefix_sep .. o.prefix_sep})
if math.abs(mp.get_property_native("audio-delay")) > 1e-6 then
append_property(s, "audio-delay", {prefix="A-V delay:"})
end
local cc = append(s, merge(r, ro, "channel-count"), {prefix="Channels:"})
append(s, merge(r, ro, "format"), {prefix="Format:", nl=cc and "" or o.nl,
indent=cc and o.prefix_sep .. o.prefix_sep})
append(s, merge(r, ro, "samplerate"), {prefix="Sample Rate:", suffix=" Hz"})
append_property(s, "audio-bitrate", {prefix="Bitrate:"})
append_filters(s, "af", "Filters:")
end
-- Determine whether ASS formatting shall/can be used and set formatting sequences
local function eval_ass_formatting()
o.use_ass = o.ass_formatting and has_vo_window()
if o.use_ass then
o.nl = o.ass_nl
o.indent = o.ass_indent
o.prefix_sep = o.ass_prefix_sep
o.b1 = o.ass_b1
o.b0 = o.ass_b0
o.it1 = o.ass_it1
o.it0 = o.ass_it0
else
o.nl = o.no_ass_nl
o.indent = o.no_ass_indent
o.prefix_sep = o.no_ass_prefix_sep
o.b1 = o.no_ass_b1
o.b0 = o.no_ass_b0
o.it1 = o.no_ass_it1
o.it0 = o.no_ass_it0
end
end
-- assumptions:
-- s is composed of SGR escape sequences and/or printable UTF8 sequences
-- printable codepoints occupy one terminal cell (we don't have wcwidth)
-- tabstops are 8, 16, 24..., and the output starts at 0 or a tabstop
-- note: if maxwidth <= 2 and s doesn't fit: the result is "..." (more than 2)
local function term_ellipsis(s, maxwidth)
local TAB, ESC, SGR_END = 9, 27, ("m"):byte()
local width, ellipsis = 0, "..."
local fit_len, in_sgr
for i = 1, #s do
local x = s:byte(i)
if in_sgr then
in_sgr = x ~= SGR_END
elseif x == ESC then
in_sgr = true
ellipsis = "\27[0m..." -- ensure SGR reset
elseif x < 128 or x >= 192 then -- non UTF8-continuation
-- tab adds till the next stop, else add 1
width = width + (x == TAB and 8 - width % 8 or 1)
if fit_len == nil and width > maxwidth - 3 then
fit_len = i - 1 -- adding "..." still fits maxwidth
end
if width > maxwidth then
return s:sub(1, fit_len) .. ellipsis
end
end
end
return s
end
local function term_ellipsis_array(arr, from, to, max_width)
for i = from, to do
arr[i] = term_ellipsis(arr[i], max_width)
end
return arr
end
-- split str into a table
-- example: local t = split(s, "\n")
-- plain: whether pat is a plain string (default false - pat is a pattern)
local function split(str, pat, plain)
local init = 1
local r, i, find, sub = {}, 1, string.find, string.sub
repeat
local f0, f1 = find(str, pat, init, plain)
r[i], i = sub(str, init, f0 and f0 - 1), i+1
init = f0 and f1 + 1
until f0 == nil
return r
end
-- Composes the output with header and scrollable content
-- Returns string of the finished page and the actually chosen offset
--
-- header : table of the header where each entry is one line
-- content : table of the content where each entry is one line
-- apply_scroll: scroll the content
local function finalize_page(header, content, apply_scroll)
local term_size = mp.get_property_native("term-size", {})
local term_width = o.term_width_limit or term_size.w or 80
local term_height = o.term_height_limit or term_size.h or 24
local from, to = 1, #content
if apply_scroll and term_height > 0 then
-- Up to 40 lines for libass because it can put a big performance toll on
-- libass to process many lines which end up outside (below) the screen.
-- In the terminal reduce height by 2 for the status line (can be more then one line)
local max_content_lines = (o.use_ass and 40 or term_height - 2) - #header
-- in the terminal the scrolling should stop once the last line is visible
local max_offset = o.use_ass and #content or #content - max_content_lines + 1
from = max(1, min((pages[curr_page].offset or 1), max_offset))
to = min(#content, from + max_content_lines - 1)
pages[curr_page].offset = from
end
local output = table.concat(header) .. table.concat(content, "", from, to)
if not o.use_ass and term_width > 0 then
local t = split(output, "\n", true)
-- limit width for the terminal
output = table.concat(term_ellipsis_array(t, 1, #t, term_width), "\n")
end
return output, from
end
-- Returns an ASS string with "normal" stats
local function default_stats()
local stats = {}
eval_ass_formatting()
add_header(stats)
add_file(stats, true, false)
add_video_out(stats)
add_video(stats)
add_audio(stats)
return finalize_page({}, stats, false)
end
-- Returns an ASS string with extended VO stats
local function vo_stats()
local header, content = {}, {}
eval_ass_formatting()
add_header(header)
append_perfdata(header, content, true)
header = {table.concat(header)}
return finalize_page(header, content, true)
end
local kbinfo_lines = nil
local function keybinding_info(after_scroll, bindlist)
local header = {}
local page = pages[o.key_page_4]
eval_ass_formatting()
add_header(header)
append(header, "", {prefix=format("%s:%s", page.desc, scroll_hint(true)), nl="", indent=""})
header = {table.concat(header)}
if not kbinfo_lines or not after_scroll then
kbinfo_lines = get_kbinfo_lines(o.term_width_limit)
end
return finalize_page(header, kbinfo_lines, not bindlist)
end
local function float2rational(x)
local max_den = 100000
local m00, m01, m10, m11 = 1, 0, 0, 1
local a = math.floor(x)
local frac = x - a
while m10 * a + m11 <= max_den do
local temp = m00 * a + m01
m01 = m00
m00 = temp
temp = m10 * a + m11
m11 = m10
m10 = temp
if frac == 0 then
break
end
x = 1 / frac
a = math.floor(x)
frac = x - a
end
return m00, m10
end
local function add_track(c, t, i)
if not t then
return
end
local type = t.image and "Image" or t["type"]:sub(1, 1):upper() .. t["type"]:sub(2)
append(c, "", {prefix=type .. ":", nl=o.nl .. o.nl, indent=""})
append(c, t["title"], {prefix_sep="", nl="", indent=""})
append(c, t["id"], {prefix="ID:"})
append(c, t["src-id"], {prefix="Demuxer ID:", nl="", indent=o.prefix_sep .. o.prefix_sep})
append(c, t["program-id"], {prefix="Program ID:", nl="", indent=o.prefix_sep .. o.prefix_sep})
append(c, t["ff-index"], {prefix="FFmpeg Index:", nl="", indent=o.prefix_sep .. o.prefix_sep})
append(c, t["external-filename"], {prefix="File:"})
append(c, "", {prefix="Flags:"})
local flags = {"default", "forced", "dependent", "visual-impaired",
"hearing-impaired", "image", "albumart", "external"}
local any = false
for _, flag in ipairs(flags) do
if t[flag] then
append(c, flag, {prefix=any and ", " or "", nl="", indent="", prefix_sep=""})
any = true
end
end
if not any then
table.remove(c)
end
if append(c, t["codec-desc"], {prefix="Format:"}) then
append(c, t["codec-profile"], {prefix="[", nl="", indent=" ", prefix_sep="",
no_prefix_markup=true, suffix="]"})
if t["codec"] ~= t["decoder"] then
append(c, t["decoder"], {prefix="[", nl="", indent=" ", prefix_sep="",
no_prefix_markup=true, suffix="]"})
end
end
append(c, t["lang"], {prefix="Language:"})
append(c, t["demux-channel-count"], {prefix="Channels:"})
append(c, t["demux-channels"], {prefix="Channel Layout:"})
append(c, t["demux-samplerate"], {prefix="Sample Rate:", suffix=" Hz"})
local function B(b) return b and string.format("%.2f", b / 1024) end
local bitrate = append(c, B(t["demux-bitrate"]), {prefix="Bitrate:", suffix=" kbps"})
append(c, B(t["hls-bitrate"]), {prefix="HLS Bitrate:", suffix=" kbps",
nl=bitrate and "" or o.nl,
indent=bitrate and o.prefix_sep .. o.prefix_sep})
append_resolution(c, {w=t["demux-w"], h=t["demux-h"], ["crop-x"]=t["demux-crop-x"],
["crop-y"]=t["demux-crop-y"], ["crop-w"]=t["demux-crop-w"],
["crop-h"]=t["demux-crop-h"]}, "Resolution:")
if not t["image"] and t["demux-fps"] then
append_fps(c, "track-list/" .. i .. "/demux-fps", "")
end
append(c, t["demux-rotation"], {prefix="Rotation:"})
if t["demux-par"] then
local num, den = float2rational(t["demux-par"])
append(c, string.format("%d:%d", num, den), {prefix="Pixel Aspect Ratio:"})
end
local track_rg = t["replaygain-track-peak"] ~= nil or t["replaygain-track-gain"] ~= nil
local album_rg = t["replaygain-album-peak"] ~= nil or t["replaygain-album-gain"] ~= nil
if track_rg or album_rg then
append(c, "", {prefix="Replay Gain:"})
end
if track_rg then
append(c, "", {prefix="Track:", indent=o.indent .. o.prefix_sep, prefix_sep=""})
append(c, t["replaygain-track-gain"], {prefix="Gain:", suffix=" dB",
nl="", indent=o.prefix_sep})
append(c, t["replaygain-track-peak"], {prefix="Peak:", suffix=" dB",
nl="", indent=o.prefix_sep})
end
if album_rg then
append(c, "", {prefix="Album:", indent=o.indent .. o.prefix_sep, prefix_sep=""})
append(c, t["replaygain-album-gain"], {prefix="Gain:", suffix=" dB",
nl="", indent=o.prefix_sep})
append(c, t["replaygain-album-peak"], {prefix="Peak:", suffix=" dB",
nl="", indent=o.prefix_sep})
end
if t["dolby-vision-profile"] or t["dolby-vision-level"] then
append(c, "", {prefix="Dolby Vision:"})
append(c, t["dolby-vision-profile"], {prefix="Profile:", nl="", indent=""})
append(c, t["dolby-vision-level"], {prefix="Level:", nl="",
indent=t["dolby-vision-profile"] and
o.prefix_sep .. o.prefix_sep or ""})
end
end
local function track_info()
local h, c = {}, {}
eval_ass_formatting()
add_header(h)
local desc = pages[o.key_page_5].desc
append(h, "", {prefix=format("%s:%s", desc, scroll_hint()), nl="", indent=""})
h = {table.concat(h)}
table.insert(c, o.nl .. o.nl)
add_file(c, false, true)
for i, track in ipairs(mp.get_property_native("track-list")) do
if track['selected'] then
add_track(c, track, i - 1)
end
end
return finalize_page(h, c, true)
end
local function perf_stats()
local header, content = {}, {}
eval_ass_formatting()
add_header(header)
local page = pages[o.key_page_0]
append(header, "", {prefix=format("%s:%s", page.desc, scroll_hint()), nl="", indent=""})
append_general_perfdata(content)
header = {table.concat(header)}
return finalize_page(header, content, true)
end
local function opt_time(t)
if type(t) == type(1.1) then
return mp.format_time(t)
end
return "?"
end
-- Returns an ASS string with stats about the demuxer cache etc.
local function cache_stats()
local stats = {}
eval_ass_formatting()
add_header(stats)
append(stats, "", {prefix="Cache Info:", nl="", indent=""})
local info = mp.get_property_native("demuxer-cache-state")
if info == nil then
append(stats, "Unavailable.", {})
return finalize_page({}, stats, false)
end
local a = info["reader-pts"]
local b = info["cache-end"]
append(stats, opt_time(a) .. " - " .. opt_time(b), {prefix = "Packet Queue:"})
local r = nil
if a ~= nil and b ~= nil then
r = b - a
end
local r_graph = nil
if not display_timer.oneshot and o.use_ass then
r_graph = generate_graph(cache_ahead_buf, cache_ahead_buf.pos,
cache_ahead_buf.len, cache_ahead_buf.max,
nil, 0.8, 1)
r_graph = o.prefix_sep .. r_graph
end
append(stats, opt_time(r), {prefix = "Readahead:", suffix = r_graph})
-- These states are not necessarily exclusive. They're about potentially
-- separate mechanisms, whose states may be decoupled.
local state = "reading"
local seek_ts = info["debug-seeking"]
if seek_ts ~= nil then
state = "seeking (to " .. mp.format_time(seek_ts) .. ")"
elseif info["eof"] == true then
state = "eof"
elseif info["underrun"] then
state = "underrun"
elseif info["idle"] == true then
state = "inactive"
end
append(stats, state, {prefix = "State:"})
local speed = info["raw-input-rate"] or 0
local speed_graph = nil
if not display_timer.oneshot and o.use_ass then
speed_graph = generate_graph(cache_speed_buf, cache_speed_buf.pos,
cache_speed_buf.len, cache_speed_buf.max,
nil, 0.8, 1)
speed_graph = o.prefix_sep .. speed_graph
end
append(stats, utils.format_bytes_humanized(speed) .. "/s", {prefix="Speed:",
suffix=speed_graph})
append(stats, utils.format_bytes_humanized(info["total-bytes"]),
{prefix = "Total RAM:"})
append(stats, utils.format_bytes_humanized(info["fw-bytes"]),
{prefix = "Forward RAM:"})
local fc = info["file-cache-bytes"]
if fc ~= nil then
fc = utils.format_bytes_humanized(fc)
else
fc = "(disabled)"
end
append(stats, fc, {prefix = "Disk Cache:"})
append(stats, info["debug-low-level-seeks"], {prefix = "Media Seeks:"})
append(stats, info["debug-byte-level-seeks"], {prefix = "Stream Seeks:"})
append(stats, "", {prefix="Ranges:", nl=o.nl .. o.nl, indent=""})
append(stats, info["bof-cached"] and "yes" or "no",
{prefix = "Start Cached:"})
append(stats, info["eof-cached"] and "yes" or "no",
{prefix = "End Cached:"})
local ranges = info["seekable-ranges"] or {}
for n, range in ipairs(ranges) do
append(stats, mp.format_time(range["start"]) .. " - " ..
mp.format_time(range["end"]),
{prefix = format("Range %s:", n)})
end
return finalize_page({}, stats, false)
end
-- Record 1 sample of cache statistics.
-- (Unlike record_data(), this does not return a function, but runs directly.)
local function record_cache_stats()
local info = mp.get_property_native("demuxer-cache-state")
if info == nil then
return
end
local a = info["reader-pts"]
local b = info["cache-end"]
if a ~= nil and b ~= nil then
graph_add_value(cache_ahead_buf, b - a)
end
graph_add_value(cache_speed_buf, info["raw-input-rate"] or 0)
end
cache_recorder_timer = mp.add_periodic_timer(0.25, record_cache_stats)
cache_recorder_timer:kill()
-- Current page and <page key>:<page function> mapping
curr_page = o.key_page_1
pages = {
[o.key_page_1] = { f = default_stats, desc = "Default" },
[o.key_page_2] = { f = vo_stats, desc = "Extended Frame Timings", scroll = true },
[o.key_page_3] = { f = cache_stats, desc = "Cache Statistics" },
[o.key_page_4] = { f = keybinding_info, desc = "Active Key Bindings", scroll = true },
[o.key_page_5] = { f = track_info, desc = "Selected Tracks Info", scroll = true },
[o.key_page_0] = { f = perf_stats, desc = "Internal Performance Info", scroll = true },
}
-- Returns a function to record vsratio/jitter with the specified `skip` value
local function record_data(skip)
init_buffers()
skip = max(skip, 0)
local i = skip
return function()
if i < skip then
i = i + 1
return
else
i = 0
end
if o.plot_vsync_jitter then
local r = mp.get_property_number("vsync-jitter")
if r then
vsjitter_buf.pos = (vsjitter_buf.pos % vsjitter_buf.len) + 1
vsjitter_buf[vsjitter_buf.pos] = r
vsjitter_buf.max = max(vsjitter_buf.max, r)
end
end
if o.plot_vsync_ratio then
local r = mp.get_property_number("vsync-ratio")
if r then
vsratio_buf.pos = (vsratio_buf.pos % vsratio_buf.len) + 1
vsratio_buf[vsratio_buf.pos] = r
vsratio_buf.max = max(vsratio_buf.max, r)
end
end
end
end
-- Call the function for `page` and print it to OSD
local function print_page(page, after_scroll)
-- the page functions assume we start in ass-enabled mode.
-- that's true for mp.set_osd_ass, but not for mp.osd_message.
local ass_content = pages[page].f(after_scroll)
if o.persistent_overlay then
mp.set_osd_ass(0, 0, ass_content)
else
mp.osd_message((o.use_ass and ass_start or "") .. ass_content,
display_timer.oneshot and o.duration or o.redraw_delay + 1)
end
end
local function update_scale(osd_height)
local scale_with_video
if o.vidscale == "auto" then
scale_with_video = mp.get_property_native("osd-scale-by-window")
else
scale_with_video = o.vidscale == "yes"
end
-- Calculate scaled metrics.
local scale = 1
if not scale_with_video and osd_height > 0 then
scale = 720 / osd_height
end
font_size = o.font_size * scale
border_size = o.border_size * scale
shadow_x_offset = o.shadow_x_offset * scale
shadow_y_offset = o.shadow_y_offset * scale
plot_bg_border_width = o.plot_bg_border_width * scale
if display_timer:is_enabled() then
print_page(curr_page)
end
end
local function handle_osd_height_update(_, osd_height)
update_scale(osd_height)
end
local function handle_osd_scale_by_window_update()
update_scale(mp.get_property_native("osd-height"))
end
local function clear_screen()
if o.persistent_overlay then mp.set_osd_ass(0, 0, "") else mp.osd_message("", 0) end
end
local function scroll_delta(d)
if display_timer.oneshot then display_timer:kill() ; display_timer:resume() end
pages[curr_page].offset = (pages[curr_page].offset or 1) + d
print_page(curr_page, true)
end
local function scroll_up() scroll_delta(-o.scroll_lines) end
local function scroll_down() scroll_delta(o.scroll_lines) end
local function reset_scroll_offsets()
for _, page in pairs(pages) do
page.offset = nil
end
end
local function bind_scroll()
if not scroll_bound then
mp.add_forced_key_binding(o.key_scroll_up, "__forced_" .. o.key_scroll_up,
scroll_up, {repeatable=true})
mp.add_forced_key_binding(o.key_scroll_down, "__forced_" .. o.key_scroll_down,
scroll_down, {repeatable=true})
scroll_bound = true
end
end
local function unbind_scroll()
if scroll_bound then
mp.remove_key_binding("__forced_"..o.key_scroll_up)
mp.remove_key_binding("__forced_"..o.key_scroll_down)
scroll_bound = false
end
end
local function filter_bindings()
input.get({
prompt = "Filter bindings:",
opened = function ()
-- This is necessary to close the console if the oneshot
-- display_timer expires without typing anything.
searched_text = ""
end,
edited = function (text)
reset_scroll_offsets()
searched_text = text:lower()
print_page(curr_page)
if display_timer.oneshot then
display_timer:kill()
display_timer:resume()
end
end,
submit = input.terminate,
closed = function ()
searched_text = nil
if display_timer:is_enabled() then
print_page(curr_page)
if display_timer.oneshot then
display_timer:kill()
display_timer:resume()
end
end
end,
dont_bind_up_down = true,
})
end
local function bind_search()
mp.add_forced_key_binding(o.key_search, "__forced_"..o.key_search, filter_bindings)
end
local function unbind_search()
mp.remove_key_binding("__forced_"..o.key_search)
end
local function update_scroll_bindings(k)
if pages[k].scroll then
bind_scroll()
else
unbind_scroll()
end
if k == o.key_page_4 then
bind_search()
else
unbind_search()
end
end
-- Add keybindings for every page
local function add_page_bindings()
local function a(k)
return function()
reset_scroll_offsets()
update_scroll_bindings(k)
curr_page = k
print_page(k)
if display_timer.oneshot then display_timer:kill() ; display_timer:resume() end
end
end
for k, _ in pairs(pages) do
mp.add_forced_key_binding(k, "__forced_"..k, a(k), {repeatable=true})
end
update_scroll_bindings(curr_page)
end
-- Remove keybindings for every page
local function remove_page_bindings()
for k, _ in pairs(pages) do
mp.remove_key_binding("__forced_"..k)
end
unbind_scroll()
unbind_search()
end
local function process_key_binding(oneshot)
reset_scroll_offsets()
-- Stats are already being displayed
if display_timer:is_enabled() then
-- Previous and current keys were oneshot -> restart timer
if display_timer.oneshot and oneshot then
display_timer:kill()
print_page(curr_page)
display_timer:resume()
-- Previous and current keys were toggling -> end toggling
elseif not display_timer.oneshot and not oneshot then
display_timer:kill()
cache_recorder_timer:stop()
if tm_viz_prev ~= nil then
mp.set_property_native("tone-mapping-visualize", tm_viz_prev)
tm_viz_prev = nil
end
clear_screen()
remove_page_bindings()
if recorder then
mp.unobserve_property(recorder)
recorder = nil
end
end
-- No stats are being displayed yet
else
if not oneshot and (o.plot_vsync_jitter or o.plot_vsync_ratio) then
recorder = record_data(o.skip_frames)
-- Rely on the fact that "vsync-ratio" is updated at the same time.
-- Using "none" to get a sample any time, even if it does not change.
-- Will stop working if "vsync-jitter" property change notification
-- changes, but it's fine for an internal script.
mp.observe_property("vsync-jitter", "none", recorder)
end
if not oneshot and o.plot_tonemapping_lut then
tm_viz_prev = mp.get_property_native("tone-mapping-visualize")
mp.set_property_native("tone-mapping-visualize", true)
end
if not oneshot then
cache_ahead_buf = {0, pos = 1, len = 50, max = 0}
cache_speed_buf = {0, pos = 1, len = 50, max = 0}
cache_recorder_timer:resume()
end
display_timer:kill()
display_timer.oneshot = oneshot
display_timer.timeout = oneshot and o.duration or o.redraw_delay
add_page_bindings()
print_page(curr_page)
display_timer:resume()
end
end
-- Create the timer used for redrawing (toggling) or clearing the screen (oneshot)
-- The duration here is not important and always set in process_key_binding()
display_timer = mp.add_periodic_timer(o.duration,
function()
if display_timer.oneshot then
display_timer:kill() ; clear_screen() ; remove_page_bindings()
-- Close the console only if it was opened for searching bindings.
if searched_text then
input.terminate()
end
else
print_page(curr_page)
end
end)
display_timer:kill()
-- Single invocation key binding
mp.add_key_binding(nil, "display-stats", function() process_key_binding(true) end,
{repeatable=true})
-- Toggling key binding
mp.add_key_binding(nil, "display-stats-toggle", function() process_key_binding(false) end,
{repeatable=false})
for k, _ in pairs(pages) do
-- Single invocation key bindings for specific pages, e.g.:
-- "e script-binding stats/display-page-2"
mp.add_key_binding(nil, "display-page-" .. k, function()
curr_page = k
process_key_binding(true)
end, {repeatable=true})
-- Key bindings to toggle a specific page, e.g.:
-- "h script-binding stats/display-page-4-toggle".
mp.add_key_binding(nil, "display-page-" .. k .. "-toggle", function()
curr_page = k
process_key_binding(false)
end, {repeatable=true})
end
-- Reprint stats immediately when VO was reconfigured, only when toggled
mp.register_event("video-reconfig",
function()
if display_timer:is_enabled() then
print_page(curr_page)
end
end)
-- --script-opts=stats-bindlist=[-]{yes|<TERM-WIDTH>}
if o.bindlist ~= "no" then
mp.command("no-osd set really-quiet yes")
if o.bindlist:sub(1, 1) == "-" then
o.bindlist = o.bindlist:sub(2)
o.no_ass_b0 = ""
o.no_ass_b1 = ""
end
local width = max(40, math.floor(tonumber(o.bindlist) or 79))
mp.add_timeout(0, function() -- wait for all other scripts to finish init
o.ass_formatting = false
o.no_ass_indent = " "
o.term_size = { w = width , h = 0}
io.write(keybinding_info(false, true) .. "\n")
mp.command("quit")
end)
end
mp.observe_property('osd-height', 'native', handle_osd_height_update)
mp.observe_property('osd-scale-by-window', 'native', handle_osd_scale_by_window_update)