foodotfiles/home/.config/mvi/scripts/image-viewer.lua
Marko Korhonen b1335a3628 Removed commit history
Signed-off-by: Marko Korhonen <marko.korhonen@reekynet.com>
2019-10-26 20:05:31 +03:00

954 lines
34 KiB
Lua

local opts = {
pan_follows_cursor_margin = 50,
pan_follows_cursor_move_if_full_view = false,
status_line_enabled = false,
status_line_position = "bottom_left",
status_line_size = 36,
status_line = "${filename} [${playlist-pos-1}/${playlist-count}]",
minimap_enabled = true,
minimap_center = "92,92",
minimap_scale = 12,
minimap_max_size = "16,16",
minimap_image_opacity = "88",
minimap_image_color = "BBBBBB",
minimap_view_opacity = "BB",
minimap_view_color = "222222",
minimap_view_above_image = true,
minimap_hide_when_full_image_in_view = true,
ruler_show_distance=true,
ruler_show_coordinates=true,
ruler_coordinates_space="both",
ruler_show_angles="degrees",
ruler_line_width=2,
ruler_dots_radius=3,
ruler_font_size=36,
ruler_line_color="33",
ruler_confirm_bindings="MBTN_LEFT,ENTER",
ruler_exit_bindings="ESC",
ruler_set_first_point_on_begin=false,
ruler_clear_on_second_point_set=false,
command_on_first_image_loaded="",
command_on_image_loaded="",
command_on_non_image_loaded="",
}
(require 'mp.options').read_options(opts)
function split(input)
local ret = {}
for str in string.gmatch(input, "([^,]+)") do
ret[#ret + 1] = str
end
return ret
end
function str_to_num(array)
local ret = {}
for _, v in ipairs(array) do
ret[#ret + 1] = tonumber(v)
end
return ret
end
opts.minimap_center=str_to_num(split(opts.minimap_center))
opts.minimap_max_size=str_to_num(split(opts.minimap_max_size))
opts.ruler_confirm_bindings=split(opts.ruler_confirm_bindings)
opts.ruler_exit_bindings=split(opts.ruler_exit_bindings)
function clamp(value, low, high)
if value <= low then
return low
elseif value >= high then
return high
else
return value
end
end
local msg = require 'mp.msg'
local assdraw = require 'mp.assdraw'
local ass = { -- shared ass state
status_line = "",
minimap = "",
ruler = "",
}
local cleanup = nil -- function set up by drag-to-pan/pan-follows cursor and must be called to clean lingering state
local mouse_move_callbacks = {} -- functions that are called when mouse_move is triggered
function add_mouse_move_callback(key, func)
if #mouse_move_callbacks == 0 then
mp.add_forced_key_binding("mouse_move", "image-viewer-internal", function()
for _, func in pairs(mouse_move_callbacks) do
func()
end
end)
end
mouse_move_callbacks[key] = func
end
function remove_mouse_move_callback(key)
mouse_move_callbacks[key] = nil
for _,_ in pairs(mouse_move_callbacks) do
return
end
mp.remove_key_binding("image-viewer-internal")
end
video_dimensions_stale = true
function get_video_dimensions()
-- this function is very much ripped from video/out/aspect.c in mpv's source
if not video_dimensions_stale then return _video_dimensions end
local video_params = mp.get_property_native("video-out-params")
if not video_params then
_video_dimensions = nil
return nil
end
if not _timestamp then _timestamp = 0 end
_timestamp = _timestamp + 1
_video_dimensions = {
timestamp = _timestamp,
top_left = {x = 0, y = 0},
bottom_right = {x = 0, y = 0},
size = {w = 0, h = 0},
ratios = {w = 0, h = 0}, -- by how much the original video got scaled
}
local keep_aspect = mp.get_property_bool("keepaspect")
local w = video_params["w"]
local h = video_params["h"]
local dw = video_params["dw"]
local dh = video_params["dh"]
if mp.get_property_number("video-rotate") % 180 == 90 then
w, h = h,w
dw, dh = dh, dw
end
local window_w, window_h = mp.get_osd_size()
if keep_aspect then
local unscaled = mp.get_property_native("video-unscaled")
local panscan = mp.get_property_number("panscan")
local fwidth = window_w
local fheight = math.floor(window_w / dw * dh)
if fheight > window_h or fheight < h then
local tmpw = math.floor(window_h / dh * dw)
if tmpw <= window_w then
fheight = window_h
fwidth = tmpw
end
end
local vo_panscan_area = window_h - fheight
local f_w = fwidth / fheight
local f_h = 1
if vo_panscan_area == 0 then
vo_panscan_area = window_h - fwidth
f_w = 1
f_h = fheight / fwidth
end
if unscaled or unscaled == "downscale-big" then
vo_panscan_area = 0
if unscaled or (dw <= window_w and dh <= window_h) then
fwidth = dw
fheight = dh
end
end
local scaled_width = fwidth + math.floor(vo_panscan_area * panscan * f_w)
local scaled_height = fheight + math.floor(vo_panscan_area * panscan * f_h)
local split_scaling = function (dst_size, scaled_src_size, zoom, align, pan)
scaled_src_size = math.floor(scaled_src_size * 2 ^ zoom)
align = (align + 1) / 2
local dst_start = math.floor((dst_size - scaled_src_size) * align + pan * scaled_src_size)
if dst_start < 0 then
--account for C int cast truncating as opposed to flooring
dst_start = dst_start + 1
end
local dst_end = dst_start + scaled_src_size;
if dst_start >= dst_end then
dst_start = 0
dst_end = 1
end
return dst_start, dst_end
end
local zoom = mp.get_property_number("video-zoom")
local align_x = mp.get_property_number("video-align-x")
local pan_x = mp.get_property_number("video-pan-x")
_video_dimensions.top_left.x, _video_dimensions.bottom_right.x = split_scaling(window_w, scaled_width, zoom, align_x, pan_x)
local align_y = mp.get_property_number("video-align-y")
local pan_y = mp.get_property_number("video-pan-y")
_video_dimensions.top_left.y, _video_dimensions.bottom_right.y = split_scaling(window_h, scaled_height, zoom, align_y, pan_y)
else
_video_dimensions.top_left.x = 0
_video_dimensions.bottom_right.x = window_w
_video_dimensions.top_left.y = 0
_video_dimensions.bottom_right.y = window_h
end
_video_dimensions.size.w = _video_dimensions.bottom_right.x - _video_dimensions.top_left.x
_video_dimensions.size.h = _video_dimensions.bottom_right.y - _video_dimensions.top_left.y
_video_dimensions.ratios.w = _video_dimensions.size.w / w
_video_dimensions.ratios.h = _video_dimensions.size.h / h
video_dimensions_stale = false
return _video_dimensions
end
for _, p in ipairs({
"keepaspect",
"video-out-params",
"video-unscaled",
"panscan",
"video-zoom",
"video-align-x",
"video-pan-x",
"video-align-y",
"video-pan-y",
"osd-width",
"osd-height",
}) do
mp.observe_property(p, "native", function() video_dimensions_stale = true end)
end
function drag_to_pan_handler(table)
if cleanup then
cleanup()
cleanup = nil
end
if table["event"] == "down" then
local video_dimensions = get_video_dimensions()
if not video_dimensions then return end
local mouse_pos_origin, video_pan_origin = {}, {}
local moved = false
mouse_pos_origin.x, mouse_pos_origin.y = mp.get_mouse_pos()
video_pan_origin.x = mp.get_property("video-pan-x")
video_pan_origin.y = mp.get_property("video-pan-y")
local idle = function()
if moved then
local mX, mY = mp.get_mouse_pos()
local pX = video_pan_origin.x + (mX - mouse_pos_origin.x) / video_dimensions.size.w
local pY = video_pan_origin.y + (mY - mouse_pos_origin.y) / video_dimensions.size.h
mp.command("no-osd set video-pan-x " .. clamp(pX, -3, 3) .. "; no-osd set video-pan-y " .. clamp(pY, -3, 3))
moved = false
end
end
mp.register_idle(idle)
add_mouse_move_callback("drag-to-pan", function() moved = true end)
cleanup = function()
remove_mouse_move_callback("drag-to-pan")
mp.unregister_idle(idle)
end
end
end
function pan_follows_cursor_handler(table)
if cleanup then
cleanup()
cleanup = nil
end
if table["event"] == "down" then
local video_dimensions = get_video_dimensions()
if not video_dimensions then return end
local window_w, window_h = mp.get_osd_size()
local moved = true
local idle = function()
if moved then
local mX, mY = mp.get_mouse_pos()
local x = math.min(1, math.max(- 2 * mX / window_w + 1, -1))
local y = math.min(1, math.max(- 2 * mY / window_h + 1, -1))
local command = ""
local margin, move_full = opts.pan_follows_cursor_margin, opts.pan_follows_cursor_move_if_full_view
if (not move_full and window_w < video_dimensions.size.w) then
command = command .. "no-osd set video-pan-x " .. clamp(x * (video_dimensions.size.w - window_w + 2 * margin) / (2 * video_dimensions.size.w), -3, 3) .. ";"
elseif mp.get_property_number("video-pan-x") ~= 0 then
command = command .. "no-osd set video-pan-x " .. "0;"
end
if (not move_full and window_h < video_dimensions.size.h) then
command = command .. "no-osd set video-pan-y " .. clamp(y * (video_dimensions.size.h - window_h + 2 * margin) / (2 * video_dimensions.size.h), -3, 3) .. ";"
elseif mp.get_property_number("video-pan-y") ~= 0 then
command = command .. "no-osd set video-pan-y " .. "0;"
end
if command ~= "" then
mp.command(command)
end
moved = false
end
end
mp.register_idle(idle)
add_mouse_move_callback("pan-follows-cursor", function() moved = true end)
cleanup = function()
remove_mouse_move_callback("pan-follows-cursor")
mp.unregister_idle(idle)
end
end
end
function cursor_centric_zoom_handler(amt)
local zoom_inc = tonumber(amt)
if not zoom_inc or zoom_inc == 0 then return end
local video_dimensions = get_video_dimensions()
if not video_dimensions then return end
local mouse_pos_origin, video_pan_origin = {}, {}
mouse_pos_origin.x, mouse_pos_origin.y = mp.get_mouse_pos()
video_pan_origin.x = mp.get_property("video-pan-x")
video_pan_origin.y = mp.get_property("video-pan-y")
local zoom_origin = mp.get_property("video-zoom")
-- how far the cursor is form the middle of the video (in percentage)
local rx = (video_dimensions.top_left.x + video_dimensions.size.w / 2 - mouse_pos_origin.x) / (video_dimensions.size.w / 2)
local ry = (video_dimensions.top_left.y + video_dimensions.size.h / 2 - mouse_pos_origin.y) / (video_dimensions.size.h / 2)
-- the size in pixels of the (in|de)crement
local diffHeight = (2 ^ zoom_inc - 1) * video_dimensions.size.h
local diffWidth = (2 ^ zoom_inc - 1) * video_dimensions.size.w
local newPanX = (video_pan_origin.x * video_dimensions.size.w + rx * diffWidth / 2) / (video_dimensions.size.w + diffWidth)
local newPanY = (video_pan_origin.y * video_dimensions.size.h + ry * diffHeight / 2) / (video_dimensions.size.h + diffHeight)
mp.command("no-osd set video-zoom " .. zoom_origin + zoom_inc .. "; no-osd set video-pan-x " .. clamp(newPanX, -3, 3) .. "; no-osd set video-pan-y " .. clamp(newPanY, -3, 3))
end
function align_border(x, y)
local video_dimensions = get_video_dimensions()
if not video_dimensions then return end
local window_w, window_h = mp.get_osd_size()
local x, y = tonumber(x), tonumber(y)
local command = ""
if x then
command = command .. "no-osd set video-pan-x " .. clamp(x * (video_dimensions.size.w - window_w) / (2 * video_dimensions.size.w), -3, 3) .. ";"
end
if y then
command = command .. "no-osd set video-pan-y " .. clamp(y * (video_dimensions.size.h - window_h) / (2 * video_dimensions.size.h), -3, 3) .. ";"
end
if command ~= "" then
mp.command(command)
end
end
function pan_image(axis, amount, zoom_invariant, image_constrained)
amount = tonumber(amount)
if not amount or amount == 0 or axis ~= "x" and axis ~= "y" then return end
if zoom_invariant == "yes" then
amount = amount / 2 ^ mp.get_property_number("video-zoom")
end
local prop = "video-pan-" .. axis
local old_pan = mp.get_property_number(prop)
if image_constrained == "yes" then
local video_dimensions = get_video_dimensions()
if not video_dimensions then return end
local measure = axis == "x" and "w" or "h"
local window = {}
window.w, window.h = mp.get_osd_size()
local pixels_moved = amount * video_dimensions.size[measure]
-- should somehow refactor this
if pixels_moved > 0 then
if window[measure] > video_dimensions.size[measure] then
if video_dimensions.bottom_right[axis] >= window[measure] then return end
if video_dimensions.bottom_right[axis] + pixels_moved > window[measure] then
amount = (window[measure] - video_dimensions.bottom_right[axis]) / video_dimensions.size[measure]
end
else
if video_dimensions.top_left[axis] >= 0 then return end
if video_dimensions.top_left[axis] + pixels_moved > 0 then
amount = (0 - video_dimensions.top_left[axis]) / video_dimensions.size[measure]
end
end
else
if window[measure] > video_dimensions.size[measure] then
if video_dimensions.top_left[axis] <= 0 then return end
if video_dimensions.top_left[axis] + pixels_moved < 0 then
amount = (0 - video_dimensions.top_left[axis]) / video_dimensions.size[measure]
end
else
if video_dimensions.bottom_right[axis] <= window[measure] then return end
if video_dimensions.bottom_right[axis] + pixels_moved < window[measure] then
amount = (window[measure] - video_dimensions.bottom_right[axis]) / video_dimensions.size[measure]
end
end
end
end
mp.set_property_number(prop, old_pan + amount)
end
function rotate_video(amt)
local rot = mp.get_property_number("video-rotate")
rot = (rot + amt) % 360
mp.set_property_number("video-rotate", rot)
end
function reset_pan_if_visible()
local video_dimensions = get_video_dimensions()
if not video_dimensions then return end
local window_w, window_h = mp.get_osd_size()
local command = ""
if (window_w >= video_dimensions.size.w) then
command = command .. "no-osd set video-pan-x 0" .. ";"
end
if (window_h >= video_dimensions.size.h) then
command = command .. "no-osd set video-pan-y 0" .. ";"
end
if command ~= "" then
mp.command(command)
end
end
function force_print_filename()
mp.set_property("msg-level", "cplayer=info")
mp.commandv("print-text", mp.get_property("path"))
mp.set_property("msg-level", "all=no")
end
function draw_ass()
local ww, wh = mp.get_osd_size()
local merge = function(a, b)
return b ~= "" and (a .. "\n" .. b) or a
end
mp.set_osd_ass(ww, wh, merge(merge(ass.status_line, ass.minimap), ass.ruler))
end
local status_line_enabled = false
local status_line_stale = true
function mark_status_line_stale()
status_line_stale = true
end
function refresh_status_line()
if not status_line_stale then return end
status_line_stale = false
local path = mp.get_property("path")
if path == nil or path == "" then
ass.status_line = ""
draw_ass()
return
end
local expanded = mp.command_native({ "expand-text", opts.status_line })
if not expanded then
msg.warn("Error expanding status line")
ass.status_line = ""
draw_ass()
return
end
local w,h = mp.get_osd_size()
local an, x, y
local margin = 10
if opts.status_line_position == "top_left" then
x = margin
y = margin
an = 7
elseif opts.status_line_position == "top_right" then
x = w-margin
y = margin
an = 9
elseif opts.status_line_position == "bottom_right" then
x = w-margin
y = h-margin
an = 3
else
x = margin
y = h-margin
an = 1
end
local a = assdraw:ass_new()
a:new_event()
a:an(an)
a:pos(x,y)
a:append("{\\fs".. opts.status_line_size.. "}{\\bord1.0}")
a:append(expanded)
ass.status_line = a.text
draw_ass()
end
function enable_status_line()
if status_line_enabled then return end
status_line_enabled = true
local start = 0
while true do
local s, e, cap = string.find(opts.status_line, "%${[?!]?([%l%d-/]*)", start)
if not s then break end
mp.observe_property(cap, nil, mark_status_line_stale)
start = e
end
mp.observe_property("path", nil, mark_status_line_stale)
mp.observe_property("osd-width", nil, mark_status_line_stale)
mp.observe_property("osd-height", nil, mark_status_line_stale)
mp.register_idle(refresh_status_line)
mark_status_line_stale()
end
function disable_status_line()
if not status_line_enabled then return end
status_line_enabled = false
mp.unobserve_property(mark_status_line_stale)
mp.unregister_idle(refresh_status_line)
ass.status_line = ""
draw_ass()
end
if opts.status_line_enabled then
enable_status_line()
end
if opts.command_on_image_loaded ~= "" or opts.command_on_non_image_loaded ~= "" then
local was_image = false
local frame_count = nil
local audio_tracks = nil
local out_params_ready = nil
local path = nil
function state_changed()
function set_image(is_image)
if is_image and not was_image and opts.command_on_first_image_loaded ~= "" then
mp.command(opts.command_on_first_image_loaded)
end
if is_image and opts.command_on_image_loaded ~= "" then
mp.command(opts.command_on_image_loaded)
end
if not is_image and was_image and opts.command_on_non_image_loaded ~= "" then
mp.command(opts.command_on_non_image_loaded)
end
was_image = is_image
end
-- only do things when state is consistent
if path ~= nil and audio_tracks ~= nil then
if frame_count == nil and audio_tracks > 0 then
set_image(false)
elseif out_params_ready and frame_count ~= nil then
-- png have 0 frames, jpg 1 ¯\_(ツ)_/¯
set_image((frame_count == 0 or frame_count == 1) and audio_tracks == 0)
end
end
end
mp.observe_property("video-out-params/par", "number", function(_, val)
out_params_ready = (val ~= nil and val > 0)
state_changed()
end)
mp.observe_property("estimated-frame-count", "number", function(_, val)
frame_count = val
state_changed()
end)
mp.observe_property("path", "string", function(_, val)
if not val or val == "" then
path = nil
else
path = val
end
state_changed()
end)
mp.register_event("tracks-changed", function()
audio_tracks = 0
local tracks = 0
for _, track in ipairs(mp.get_property_native("track-list")) do
tracks = tracks + 1
if track.type == "audio" then
audio_tracks = audio_tracks + 1
end
end
if tracks == 0 then
audio_tracks = nil
end
state_changed()
end)
end
function refresh_minimap()
local dim = get_video_dimensions()
if not dim then
ass.minimap = ""
draw_ass()
return
end
if _minimap_old_timestamp and dim.timestamp == _minimap_old_timestamp then return end
_minimap_old_timestamp = dim.timestamp
local ww, wh = mp.get_osd_size()
if opts.minimap_hide_when_full_image_in_view then
if dim.top_left.x >= 0 and
dim.top_left.y >= 0 and
dim.bottom_right.x <= ww and
dim.bottom_right.y <= wh
then
ass.minimap = ""
draw_ass()
return
end
end
local center = {
x=opts.minimap_center[1]/100*ww,
y=opts.minimap_center[2]/100*wh
}
local cutoff = {
x=opts.minimap_max_size[1]/100*ww/2,
y=opts.minimap_max_size[2]/100*wh/2
}
local a = assdraw.ass_new()
local draw = function(x, y, w, h, opacity, color)
a:new_event()
a:pos(center.x, center.y)
a:append("{\\bord0}")
a:append("{\\shad0}")
a:append("{\\c&" .. color .. "&}")
a:append("{\\2a&HFF}")
a:append("{\\3a&HFF}")
a:append("{\\4a&HFF}")
a:append("{\\1a&H" .. opacity .. "}")
w=w/2
h=h/2
a:draw_start()
local rounded = {true,true,true,true} -- tl, tr, br, bl
local x0,y0,x1,y1 = x-w, y-h, x+w, y+h
if x0 < -cutoff.x then
x0 = -cutoff.x
rounded[4] = false
rounded[1] = false
end
if y0 < -cutoff.y then
y0 = -cutoff.y
rounded[1] = false
rounded[2] = false
end
if x1 > cutoff.x then
x1 = cutoff.x
rounded[2] = false
rounded[3] = false
end
if y1 > cutoff.y then
y1 = cutoff.y
rounded[3] = false
rounded[4] = false
end
local r = 3
local c = 0.551915024494 * r
if rounded[0] then
a:move_to(x0 + r, y0)
else
a:move_to(x0,y0)
end
if rounded[1] then
a:line_to(x1 - r, y0)
a:bezier_curve(x1 - r + c, y0, x1, y0 + r - c, x1, y0 + r)
else
a:line_to(x1, y0)
end
if rounded[2] then
a:line_to(x1, y1 - r)
a:bezier_curve(x1, y1 - r + c, x1 - r + c, y1, x1 - r, y1)
else
a:line_to(x1, y1)
end
if rounded[3] then
a:line_to(x0 + r, y1)
a:bezier_curve(x0 + r - c, y1, x0, y1 - r + c, x0, y1 - r)
else
a:line_to(x0, y1)
end
if rounded[4] then
a:line_to(x0, y0 + r)
a:bezier_curve(x0, y0 + r - c, x0 + r - c, y0, x0 + r, y0)
else
a:line_to(x0, y0)
end
a:draw_stop()
end
local image = function()
draw((dim.top_left.x + dim.size.w/2 - ww/2) / opts.minimap_scale,
(dim.top_left.y + dim.size.h/2 - wh/2) / opts.minimap_scale,
dim.size.w / opts.minimap_scale,
dim.size.h / opts.minimap_scale,
opts.minimap_image_opacity,
opts.minimap_image_color)
end
local view = function()
draw(0,
0,
ww / opts.minimap_scale,
wh / opts.minimap_scale,
opts.minimap_view_opacity,
opts.minimap_view_color)
end
if opts.minimap_view_above_image then
image()
view()
else
view()
image()
end
ass.minimap = a.text
draw_ass()
end
local minimap_enabled = false
function enable_minimap()
if minimap_enabled then return end
minimap_enabled = true
mp.register_idle(refresh_minimap)
end
function disable_minimap()
if not minimap_enabled then return end
minimap_enabled = false
ass.minimap = a.text
draw_ass()
mp.unregister_idle(refresh_minimap)
end
if opts.minimap_enabled then
enable_minimap()
end
local ruler_state = 0 -- {0,1,2,3} = {inactive,setting first point,setting second point,done}
local ruler_first_point = nil -- in video space coordinates
local ruler_second_point = nil -- in video space coordinates
function cursor_video_space()
local dim = get_video_dimensions()
if not dim then return nil end
local mx, my = mp.get_mouse_pos()
local ret = {}
ret.x = (mx - dim.top_left.x) / dim.ratios.w
ret.y = (my - dim.top_left.y) / dim.ratios.h
return ret
end
function video_space_to_screen(point)
local dim = get_video_dimensions()
if not dim then return nil end
local ret = {}
ret.x = point.x * dim.ratios.w + dim.top_left.x
ret.y = point.y * dim.ratios.h + dim.top_left.y
return ret
end
function refresh_ruler()
local dim = get_video_dimensions()
if not dim then
ass.ruler = ""
draw_ass()
return
end
local line_start = {}
local line_end = {}
if ruler_second_point then
line_start.image = ruler_first_point
line_start.screen = video_space_to_screen(ruler_first_point)
line_end.image = ruler_second_point
line_end.screen = video_space_to_screen(ruler_second_point)
elseif ruler_first_point then
line_start.image = ruler_first_point
line_start.screen = video_space_to_screen(ruler_first_point)
line_end.image = cursor_video_space()
line_end.screen = {}
line_end.screen.x, line_end.screen.y = mp.get_mouse_pos()
else
local mx, my = mp.get_mouse_pos()
line_start.image = cursor_video_space()
line_start.screen = {}
line_start.screen.x, line_start.screen.y = mp.get_mouse_pos()
line_end = line_start
end
local distinct = (math.abs(line_start.screen.x - line_end.screen.x) >= 1
or math.abs(line_start.screen.y - line_end.screen.y) >= 1)
local a = assdraw:ass_new()
local draw_setup = function(bord)
a:new_event()
a:pos(0,0)
a:append("{\\bord" .. bord .. "}")
a:append("{\\shad0}")
local r = opts.ruler_line_color
a:append("{\\3c&H".. r .. r .. r .. "&}")
a:append("{\\1a&HFF}")
a:append("{\\2a&HFF}")
a:append("{\\3a&H00}")
a:append("{\\4a&HFF}")
a:draw_start()
end
local dot = function(pos, size)
draw_setup(size)
a:move_to(pos.x, pos.y-0.5)
a:line_to(pos.x, pos.y+0.5)
end
local line = function(from, to, size)
draw_setup(size)
a:move_to(from.x, from.y)
a:line_to(to.x, to.y)
end
if distinct then
dot(line_start.screen, opts.ruler_dots_radius)
line(line_start.screen, line_end.screen, opts.ruler_line_width)
dot(line_end.screen, opts.ruler_dots_radius)
else
dot(line_start.screen, opts.ruler_dots_radius)
end
local line_info = function()
if not opts.ruler_show_distance then return end
a:new_event()
a:append("{\\fs36}{\\bord1}")
a:pos((line_start.screen.x + line_end.screen.x) / 2, (line_start.screen.y + line_end.screen.y) / 2)
local an = 1
if line_start.image.x < line_end.image.x then an = an + 2 end
if line_start.image.y < line_end.image.y then an = an + 6 end
a:an(an)
local image = math.sqrt(math.pow(line_start.image.x - line_end.image.x, 2) + math.pow(line_start.image.y - line_end.image.y, 2))
local screen = math.sqrt(math.pow(line_start.screen.x - line_end.screen.x, 2) + math.pow(line_start.screen.y - line_end.screen.y, 2))
if opts.ruler_coordinates_space == "both" then
a:append(string.format("image: %.1f\\Nscreen: %.1f", image, screen))
elseif opts.ruler_coordinates_space == "image" then
a:append(string.format("%.1f", image))
elseif opts.ruler_coordinates_space == "window" then
a:append(string.format("%.1f", screen))
end
end
local dot_info = function(pos, opposite)
if not opts.ruler_show_coordinates then return end
a:new_event()
a:append("{\\fs" .. opts.ruler_font_size .."}{\\bord1}")
a:pos(pos.screen.x, pos.screen.y)
local an
if distinct then
an = 1
if line_start.image.x > line_end.image.x then an = an + 2 end
if line_start.image.y < line_end.image.y then an = an + 6 end
else
an = 7
end
if opposite then
an = 9 + 1 - an
end
a:an(an)
if opts.ruler_coordinates_space == "both" then
a:append(string.format("image: %.1f, %.1f\\Nscreen: %i, %i",
pos.image.x, pos.image.y, pos.screen.x, pos.screen.y))
elseif opts.ruler_coordinates_space == "image" then
a:append(string.format("%.1f, %.1f", pos.image.x, pos.image.y))
elseif opts.ruler_coordinates_space == "window" then
a:append(string.format("%i, %i", pos.screen.x, pos.screen.y))
end
end
dot_info(line_start, true)
if distinct then
line_info()
dot_info(line_end, false)
end
if distinct and opts.ruler_show_angles ~= "no" then
local dist = 50
local pos_from_angle = function(mult, angle)
return {
x = line_start.screen.x + mult * dist * math.cos(angle),
y = line_start.screen.y + mult * dist * math.sin(angle)
}
end
local extended = {x=line_start.screen.x, y=line_start.screen.y}
if line_end.screen.x > line_start.screen.x then
extended.x = extended.x + dist
else
extended.x = extended.x - dist
end
line(line_start.screen, extended, math.max(0, opts.ruler_line_width-0.5))
local angle = math.atan(math.abs(line_start.image.y - line_end.image.y) / math.abs(line_start.image.x - line_end.image.x))
local fix_angle
local an
if line_end.image.y < line_start.image.y and line_end.image.x > line_start.image.x then
-- upper-right
an = 4
fix_angle = function(angle) return - angle end
elseif line_end.image.y < line_start.image.y then
-- upper-left
an = 6
fix_angle = function(angle) return math.pi + angle end
elseif line_end.image.x < line_start.image.x then
-- bottom-left
an = 6
fix_angle = function(angle) return math.pi - angle end
else
-- bottom-right
an = 4
fix_angle = function(angle) return angle end
end
-- should implement this https://math.stackexchange.com/questions/873224/calculate-control-points-of-cubic-bezier-curve-approximating-a-part-of-a-circle
local cp1 = pos_from_angle(1, fix_angle(angle*1/4))
local cp2 = pos_from_angle(1, fix_angle(angle*3/4))
local p2 = pos_from_angle(1, fix_angle(angle))
a:bezier_curve(cp1.x, cp1.y, cp2.x, cp2.y, p2.x, p2.y)
a:new_event()
a:append("{\\fs" .. opts.ruler_font_size .."}{\\bord1}")
local text_pos = pos_from_angle(1.1, fix_angle(angle*2/3)) -- you'd think /2 would make more sense, but *2/3 looks better
a:pos(text_pos.x, text_pos.y)
a:an(an)
if opts.ruler_show_angles == "both" then
a:append(string.format("%.2f\\N%.1f°", angle, angle / math.pi * 180))
elseif opts.ruler_show_angles == "degrees" then
a:append(string.format("%.1f°", angle / math.pi * 180))
elseif opts.ruler_show_angles == "radians" then
a:append(string.format("%.2f", angle))
end
end
ass.ruler = a.text
draw_ass()
end
function ruler_next()
if ruler_state == 0 then
mp.register_idle(refresh_ruler)
add_mouse_move_callback("ruler", function() end) -- only used to get an idle event on mouse move
for _,key in ipairs(opts.ruler_confirm_bindings) do
mp.add_forced_key_binding(key, "ruler-next-" .. key, ruler_next)
end
for _,key in ipairs(opts.ruler_exit_bindings) do
mp.add_forced_key_binding(key, "ruler-stop-" .. key, ruler_stop)
end
ruler_state = 1
if opts.ruler_set_first_point_on_begin then
ruler_next()
end
elseif ruler_state == 1 then
ruler_first_point = cursor_video_space()
ruler_state = 2
elseif ruler_state == 2 then
ruler_state = 3
ruler_second_point = cursor_video_space()
if opts.ruler_clear_on_second_point_set then
ruler_next()
end
else
ruler_stop()
end
end
function ruler_stop()
if ruler_state == 0 then return end
mp.unregister_idle(refresh_ruler)
for _,key in ipairs(opts.ruler_confirm_bindings) do
mp.remove_key_binding("ruler-next-" .. key)
end
for _,key in ipairs(opts.ruler_exit_bindings) do
mp.remove_key_binding("ruler-stop-" .. key)
end
remove_mouse_move_callback("ruler")
ruler_state = 0
ruler_first_point = nil
ruler_second_point = nil
ass.ruler = ""
draw_ass()
end
mp.add_key_binding(nil, "drag-to-pan", drag_to_pan_handler, {complex = true})
mp.add_key_binding(nil, "pan-follows-cursor", pan_follows_cursor_handler, {complex = true})
mp.add_key_binding(nil, "cursor-centric-zoom", cursor_centric_zoom_handler)
mp.add_key_binding(nil, "align-border", align_border)
mp.add_key_binding(nil, "pan-image", pan_image)
mp.add_key_binding(nil, "rotate-video", rotate_video)
mp.add_key_binding(nil, "reset-pan-if-visible", reset_pan_if_visible)
mp.add_key_binding(nil, "force-print-filename", force_print_filename)
mp.add_key_binding(nil, "ruler", ruler_next)
mp.add_key_binding(nil, "enable-status-line", enable_status_line)
mp.add_key_binding(nil, "disable-status-line", disable_status_line)
mp.add_key_binding(nil, "toggle-status-line", function() if status_line_enabled then disable_status_line() else enable_status_line() end end)
mp.add_key_binding(nil, "enable-minimap", enable_minimap)
mp.add_key_binding(nil, "disable-minimap", disable_minimap)
mp.add_key_binding(nil, "toggle-minimap", function() if minimap_enabled then disable_minimap() else enable_minimap() end end)