--------------------------------------------------------------------------- --- Table module for gears -- -- @module gears.table --------------------------------------------------------------------------- local rtable = table local gmath = require("gears.math") local gtable = {} --- Join all tables given as parameters. -- This will iterate all tables and insert all their keys into a new table. -- @class function -- @name join -- @param args A list of tables to join -- @return A new table containing all keys from the arguments. function gtable.join(...) local ret = {} for _, t in pairs({...}) do if t then for k, v in pairs(t) do if type(k) == "number" then rtable.insert(ret, v) else ret[k] = v end end end end return ret end --- Override elements in the first table by the one in the second. -- -- Note that this method doesn't copy entries found in `__index`. -- @class function -- @name crush -- @tparam table t the table to be overriden -- @tparam table set the table used to override members of `t` -- @tparam[opt=false] boolean raw Use rawset (avoid the metatable) -- @treturn table t (for convenience) function gtable.crush(t, set, raw) if raw then for k, v in pairs(set) do rawset(t, k, v) end else for k, v in pairs(set) do t[k] = v end end return t end --- Pack all elements with an integer key into a new table -- While both lua and luajit implement __len over sparse -- table, the standard define it as an implementation -- detail. -- -- This function remove any non numeric keys from the value set -- -- @class function -- @name from_sparse -- @tparam table t A potentially sparse table -- @treturn table A packed table with all numeric keys function gtable.from_sparse(t) local keys= {} for k in pairs(t) do if type(k) == "number" then keys[#keys+1] = k end end table.sort(keys) local ret = {} for _,v in ipairs(keys) do ret[#ret+1] = t[v] end return ret end --- Check if a table has an item and return its key. -- @class function -- @name hasitem -- @param t The table. -- @param item The item to look for in values of the table. -- @return The key were the item is found, or nil if not found. function gtable.hasitem(t, item) for k, v in pairs(t) do if v == item then return k end end end --- Get a sorted table with all integer keys from a table -- @class function -- @name keys -- @param t the table for which the keys to get -- @return A table with keys function gtable.keys(t) local keys = { } for k, _ in pairs(t) do rtable.insert(keys, k) end rtable.sort(keys, function (a, b) return type(a) == type(b) and a < b or false end) return keys end --- Filter a tables keys for certain content types -- @class function -- @name keys_filter -- @param t The table to retrieve the keys for -- @param ... the types to look for -- @return A filtered table with keys function gtable.keys_filter(t, ...) local keys = gtable.keys(t) local keys_filtered = { } for _, k in pairs(keys) do for _, et in pairs({...}) do if type(t[k]) == et then rtable.insert(keys_filtered, k) break end end end return keys_filtered end --- Reverse a table -- @class function -- @name reverse -- @param t the table to reverse -- @return the reversed table function gtable.reverse(t) local tr = { } -- reverse all elements with integer keys for _, v in ipairs(t) do rtable.insert(tr, 1, v) end -- add the remaining elements for k, v in pairs(t) do if type(k) ~= "number" then tr[k] = v end end return tr end --- Clone a table -- @class function -- @name clone -- @param t the table to clone -- @param deep Create a deep clone? (default: true) -- @return a clone of t function gtable.clone(t, deep) deep = deep == nil and true or deep local c = { } for k, v in pairs(t) do if deep and type(v) == "table" then c[k] = gtable.clone(v) else c[k] = v end end return c end --- -- Returns an iterator to cycle through, starting from the first element or the -- given index, all elements of a table that match a given criteria. -- -- @class function -- @name iterate -- @param t the table to iterate -- @param filter a function that returns true to indicate a positive match -- @param start what index to start iterating from. Default is 1 (=> start of -- the table) function gtable.iterate(t, filter, start) local count = 0 local index = start or 1 local length = #t return function () while count < length do local item = t[index] index = gmath.cycle(#t, index + 1) count = count + 1 if filter(item) then return item end end end end --- Merge items from the one table to another one -- @class function -- @name merge -- @tparam table t the container table -- @tparam table set the mixin table -- @treturn table Return `t` for convenience function gtable.merge(t, set) for _, v in ipairs(set) do table.insert(t, v) end return t end --- Map a function to a table. The function is applied to each value -- on the table, returning a table of the results. -- @class function -- @name map -- @tparam function f the function to be applied to each value on the table -- @tparam table tbl the container table whose values will be operated on -- @treturn table Return a table of the results function gtable.map(f, tbl) local t = {} for k,v in pairs(tbl) do t[k] = f(v) end return t end return gtable