# .tlv file generated by https://github.com/akkartik/teliva # You may edit it if you are careful; however, you may see cryptic errors if you # violate Teliva's assumptions. # # .tlv files are representations of Teliva programs. Teliva programs consist of # sequences of definitions. Each definition is a table of key/value pairs. Keys # and values are both strings. # # Lines in .tlv files always follow exactly one of the following forms: # - comment lines at the top of the file starting with '#' at column 0 # - beginnings of definitions starting with '- ' at column 0, followed by a # key/value pair # - key/value pairs consisting of ' ' at column 0, containing either a # spaceless value on the same line, or a multi-line value # - multiline values indented by more than 2 spaces, starting with a '>' # # If these constraints are violated, Teliva may unceremoniously crash. Please # report bugs at http://akkartik.name/contact - __teliva_timestamp: original check: >function check(x, msg) > if x then > Window:addch('.') > else > print('F - '..msg) > print(' '..str(x)..' is false/nil') > teliva_num_test_failures = teliva_num_test_failures + 1 > -- overlay first test failure on editors > if teliva_first_failure == nil then > teliva_first_failure = msg > end > end >end - __teliva_timestamp: original check_eq: >function check_eq(x, expected, msg) > if eq(x, expected) then > Window:addch('.') > else > print('F - '..msg) > print(' expected '..str(expected)..' but got '..str(x)) > teliva_num_test_failures = teliva_num_test_failures + 1 > -- overlay first test failure on editors > if teliva_first_failure == nil then > teliva_first_failure = msg > end > end >end - __teliva_timestamp: original eq: >function eq(a, b) > if type(a) ~= type(b) then return false end > if type(a) == 'table' then > if #a ~= #b then return false end > for k, v in pairs(a) do > if b[k] ~= v then > return false > end > end > for k, v in pairs(b) do > if a[k] ~= v then > return false > end > end > return true > end > return a == b >end - __teliva_timestamp: original str: >-- smarter tostring >-- slow; used only for debugging >function str(x) > if type(x) == 'table' then > local result = '' > result = result..#x..'{' > for k, v in pairs(x) do > result = result..str(k)..'='..str(v)..', ' > end > result = result..'}' > return result > elseif type(x) == 'string' then > return '"'..x..'"' > end > return tostring(x) >end - __teliva_timestamp: original menu: >-- To show app-specific hotkeys in the menu bar, add hotkey/command >-- arrays of strings to the menu array. >menu = {} - __teliva_timestamp: original Window: >Window = curses.stdscr() - __teliva_timestamp: original main: >function main() > task.spawn(main_task) > task.scheduler() > Window:refresh() > Window:getch() >end - __teliva_timestamp: original main_task: >function main_task() > Window:clear() > local c = task.Channel:new() > task.spawn(counter, c) > for i=1,10 do > print(c:recv()) > end >end - __teliva_timestamp: >Sat Feb 26 21:50:11 2022 __teliva_note: >a simple counter counter: >function counter(c) > local i = 2 > while true do > c:send(i) > i = i+1 > end >end - __teliva_timestamp: >Sat Feb 26 21:54:53 2022 filter_task: >function filter_task(p, cin, cout) > while true do > local i = cin:recv() > if i%p ~= 0 then > cout:send(i) > end > end >end - __teliva_timestamp: >Sat Feb 26 21:55:46 2022 main_task: >function main_task() > local primes = task.Channel:new() > task.spawn(sieve, primes) > for i=1,10 do > print(primes:recv()) > end >end - __teliva_timestamp: >Sat Feb 26 21:59:37 2022 __teliva_note: >filter out multiples of a single number sieve: >function sieve(ch) > local iota = task.Channel:new() > task.spawn(counter, iota) > task.spawn(filter_task, 2, iota, ch) >end - __teliva_timestamp: >Sat Feb 26 22:08:07 2022 __teliva_note: >implement the complete sieve algorithm sieve: >-- Set up a Sieve of Eratosthenes (https://en.wikipedia.org/wiki/Sieve_of_Eratosthenes) >-- for computing prime numbers by chaining tasks, one per prime. >-- Each task is responsible for filtering out all multiples of its prime. >function sieve(primes_ch) > local c = task.Channel:new() > task.spawn(counter, c) > while true do > local p, newc = c:recv(), task.Channel:new() > primes_ch:send(p) > task.spawn(filter_task, p, c, newc) > c = newc > end >end - __teliva_timestamp: >Sat Feb 26 22:09:47 2022 __teliva_note: >infinite primes main_task: >function main_task() > local primes = task.Channel:new() > task.spawn(sieve, primes) > while true do > Window:addstr(primes:recv()) > Window:addstr(' ') > Window:refresh() > end >end - __teliva_timestamp: >Sat Feb 26 22:09:47 2022 __teliva_note: >clear screen when it fills up; pause on keypress > >In Teliva getch() implicitly refreshes the screen. main_task: >function main_task() > Window:nodelay(true) > Window:clear() > local primes = task.Channel:new() > task.spawn(sieve, primes) > local h, w = Window:getmaxyx() > while true do > Window:addstr(primes:recv()) > Window:addstr(' ') > local c = Window:getch() > if c then break end -- key pressed > local y, x = Window:getyx() > if y > h-1 then > Window:clear() > end > end > print('key pressed; done') > Window:nodelay(false) >end - __teliva_timestamp: >Sat Feb 26 22:27:25 2022 doc:blurb: >Sieve of Eratosthenes >https://en.wikipedia.org/wiki/Sieve_of_Eratosthenes > >A demonstration of tasks and channels, the primitives for (cooperative) concurrency in Teliva. > >We string together a cascade of tasks connected by channels. Every prime number gets a new task that prints the first incoming number, and then filters out multiples of it from the incoming channel. > >This approach has the advantage that we don't need to create an array of n numbers to compute primes less than n. > >However, we still need to create p tasks and p channels if there are p primes less than n. Probably not worth it, given tasks and channels are much larger than numbers. This is just a demo. > >The noticeable periodic pauses are perhaps due to garbage collection.