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prosody
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util/iterators.lua @ 13135:3fd24e1945b0
mod_storage_internal: Lazy-load archive items while iterating
Very large list files previously ran into limits of the Lua parser, or
just caused Prosody to freeze while parsing.
Using the new index we can parse individual items one at a time. This
probably won't reduce overall CPU usage, probably the opposite, but it
will reduce the number of items in memory at once and allow collection
of items after we iterated past them.
author | Kim Alvefur <zash@zash.se> |
---|---|
date | Wed, 12 May 2021 01:25:44 +0200 |
parent | 12744:e894677359e5 |
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-- Prosody IM -- Copyright (C) 2008-2010 Matthew Wild -- Copyright (C) 2008-2010 Waqas Hussain -- -- This project is MIT/X11 licensed. Please see the -- COPYING file in the source package for more information. -- --[[ Iterators ]]-- local it = {}; local t_insert = table.insert; local next = next; local unpack = table.unpack; local pack = table.pack; local type = type; local table, setmetatable = table, setmetatable; local _ENV = nil; --luacheck: std none -- Reverse an iterator function it.reverse(f, s, var) local results = {}; -- First call the normal iterator while true do local ret = { f(s, var) }; var = ret[1]; if var == nil then break; end t_insert(results, 1, ret); end -- Then return our reverse one local i,max = 0, #results; return function (_results) if i<max then i = i + 1; return unpack(_results[i]); end end, results; end -- Iterate only over keys in a table local function _keys_it(t, key) return (next(t, key)); end function it.keys(t) return _keys_it, t; end -- Iterate only over values in a table function it.values(t) local key, val; return function (_t) key, val = next(_t, key); return val; end, t; end -- Iterate over the n:th return value function it.select(n, f, s, var) return function (_s) local ret = pack(f(_s, var)); var = ret[1]; return ret[n]; end, s, var; end -- Given an iterator, iterate only over unique items function it.unique(f, s, var) local set = {}; return function () while true do local ret = pack(f(s, var)); var = ret[1]; if var == nil then break; end if not set[var] then set[var] = true; return unpack(ret, 1, ret.n); end end end; end --[[ Return the number of items an iterator returns ]]-- function it.count(f, s, var) local x = 0; while true do var = f(s, var); if var == nil then break; end x = x + 1; end return x; end -- Return the first n items an iterator returns function it.head(n, f, s, var) local c = 0; return function (_s, _var) if c >= n then return nil; end c = c + 1; return f(_s, _var); end, s, var; end -- Skip the first n items an iterator returns function it.skip(n, f, s, var) for _ = 1, n do var = f(s, var); end return f, s, var; end -- Return the last n items an iterator returns function it.tail(n, f, s, var) local results, count = {}, 0; while true do local ret = pack(f(s, var)); var = ret[1]; if var == nil then break; end results[(count%n)+1] = ret; count = count + 1; end if n > count then n = count; end local pos = 0; return function () pos = pos + 1; if pos > n then return nil; end local ret = results[((count-1+pos)%n)+1]; return unpack(ret, 1, ret.n); end --return reverse(head(n, reverse(f, s, var))); -- ! end function it.filter(filter, f, s, var) if type(filter) ~= "function" then local filter_value = filter; function filter(x) return x ~= filter_value; end end return function (_s, _var) local ret; repeat ret = pack(f(_s, _var)); _var = ret[1]; until _var == nil or filter(unpack(ret, 1, ret.n)); return unpack(ret, 1, ret.n); end, s, var; end local function _ripairs_iter(t, key) if key > 1 then return key-1, t[key-1]; end end function it.ripairs(t) return _ripairs_iter, t, #t+1; end local function _range_iter(max, curr) if curr < max then return curr + 1; end end function it.range(x, y) if not y then x, y = 1, x; end -- Default to 1..x if y not given return _range_iter, y, x-1; end -- Convert the values returned by an iterator to an array function it.to_array(f, s, var) local t = {}; while true do var = f(s, var); if var == nil then break; end t_insert(t, var); end return t; end function it.sorted_pairs(t, sort_func) local keys = it.to_array(it.keys(t)); table.sort(keys, sort_func); local i = 0; return function () i = i + 1; local key = keys[i]; if key ~= nil then return key, t[key]; end end; end -- Treat the return of an iterator as key,value pairs, -- and build a table function it.to_table(f, s, var) local t, var2 = {}; while true do var, var2 = f(s, var); if var == nil then break; end t[var] = var2; end return t; end local function _join_iter(j_s, j_var) local iterators, current_idx = j_s[1], j_s[2]; local f, s, var = unpack(iterators[current_idx], 1, 3); if j_var ~= nil then var = j_var; end local ret = pack(f(s, var)); local var1 = ret[1]; if var1 == nil then -- End of this iterator, advance to next if current_idx == #iterators then -- No more iterators, return nil return; end j_s[2] = current_idx + 1; return _join_iter(j_s); end return unpack(ret, 1, ret.n); end local join_methods = {}; local join_mt = { __index = join_methods; __call = function (t, s, var) --luacheck: ignore 212/t return _join_iter(s, var); end; }; function join_methods:append(f, s, var) table.insert(self, { f, s, var }); return self, { self, 1 }; end function join_methods:prepend(f, s, var) table.insert(self, { f, s, var }, 1); return self, { self, 1 }; end function it.join(f, s, var) local t = setmetatable({ {f, s, var} }, join_mt); return t, { t, 1 }; end return it;