Aegisub/automation/demos/auto3/6-simple-effect.lua
Niels Martin Hansen a2c8d7922e Auto3 engine for auto4 seems to work now
Originally committed to SVN as r833.
2007-01-18 08:15:02 +00:00

87 lines
3.7 KiB
Lua

-- Aegisub Automation demonstration script
-- Original written by Niels Martin Hansen
-- Given into the public domain
-- Define some required constants
-- version and kind are required to have the given values for the script to work.
-- configuration is not needed in this script, so it's just left as an empty table
version, kind, configuration = 3, "basic_ass", {}
-- Define the displayed name of the script
name = "Simple karaoke effect"
-- A longer description of the script
description = "A simple karaoke effect, with the source code heavily commented. Provided as a starting point for a useful effect."
-- The actual script function
function process_lines(meta, styles, lines, config)
-- Create a local variable to store the output subtitles in
local output = { n=0 }
-- Start to loop over the lines, one by one
-- The lines are numbered 0..n-1
for i = 0, lines.n-1 do
-- Show the user how far the script has got
aegisub.report_progress(i/lines.n*100)
-- First check if the line is even a dialogue line. If it's not, no need to process it.
if lines[i].kind ~= "dialogue" then
table.insert(output, lines[i])
else
-- This is a dialogue line, so process is
-- Make a nicer name for the line we're processing
newline = lines[i]
-- Also show the line to the user
aegisub.set_status(newline.text_stripped)
-- The text of the new line will be build little by little
-- Each line has 700 ms fadein, 300 ms fadeout,
-- is positioned at the center of the screen (\an8)
-- and the highlighting should be delayed by 1000 ms (100 cs)
newline.text = string.format("{\\fad(700,300)\\pos(%d,30)\\k100}", meta.res_x/2)
-- Make the line start 1000 ms (100 cs) earlier than original
newline.start_time = newline.start_time - 100
-- Now it's time to loop through the syllables one by one, processing them
-- The first syllable is usually a "null" syllable, not containing real data, so that one should be skipped.
-- This variable is used to keep track of when the last syllable ended
-- It's initialised to 1000, since the start of the line was pushed 1000 ms back
local cursylpos = 1000
for j = 1, lines[i].karaoke.n-1 do
local syl = lines[i].karaoke[j]
-- Call another function to process the syllable
newline.text = newline.text .. doSyllable(syl.text, cursylpos, cursylpos+syl.duration*10, syl.duration, syl.kind)
-- Calculate the start time of the next syllable
cursylpos = cursylpos + syl.duration*10
end
-- The entire line has been calculated
-- Add it to the output
table.insert(output, newline)
end
end
-- All lines processed, and output filled
-- Just return it
-- (This is important! If you don't return anything, the output file will be empty!)
return output
end
-- This effect was originally written in the "Effector" program, which can be considered the first version of Automation.
-- This following function is almost verbatimly copied from that original script.
-- This is done in order to show how you can make sub-functions to make your script more readable.
-- The contents of this function could also just be pasted into the middle of the main loop in process_lines,
-- but that generally makes scripts harder to read.
function doSyllable(text, t_start, t_end, t_dur, ktype)
-- Declare two local variables needed here
-- (If they're not declared local, they will be global.)
local a, b
-- If it's a "long" syllable, let the effect be different
if t_dur > 75 then
a = t_start + 500
b = t_end
else
a = t_start + 100
b = t_start + 500
end
-- Return the replacement for the syllable, including some ASS tags for format it
return string.format("{\\r\\t(%d,%d,\\1c&H808080&\\2c&H808080&)\\kf%d}%s", a, b, t_dur, text)
end