[modified] renamed stable_sort.lua to sort.lua; swapped alias order

This commit is contained in:
Max Cahill 2020-06-02 15:00:46 +10:00
parent 608fa1bca3
commit 00ac480ed9
3 changed files with 42 additions and 38 deletions

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@ -20,7 +20,7 @@ local _batteries = {
tablex = require_relative("tablex"),
stringx = require_relative("stringx"),
--sorting routines
stable_sort = require_relative("stable_sort"),
sort = require_relative("sort"),
--
functional = require_relative("functional"),
--collections
@ -43,7 +43,7 @@ for _, alias in ipairs({
{"mathx", "math"},
{"tablex", "table"},
{"stringx", "string"},
{"stable_sort", "sort"},
{"sort", "stable_sort"},
{"colour", "color"},
}) do
_batteries[alias[2]] = _batteries[alias[1]]
@ -61,7 +61,7 @@ function _batteries:export()
self.tablex.overlay(table, self.tablex)
--now we can use it through table directly
table.overlay(table, self.functional)
self.stable_sort:export()
self.sort:export()
--functional module also available separate from table
functional = self.functional

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@ -10,22 +10,26 @@ Examples [in another repo](https://github.com/1bardesign/batteries-examples) to
# Module Overview
- `class` - Single-inheritance oo in a single function.
**Lua Core Extensions:**
- `mathx` - Mathematical extensions. Alias `math`.
- `tablex` - Table handling extensions. Alias `table`.
- `stringx` - String handling extensions. Alias `string`.
- `stable_sort` - A stable sorting algorithm that is also, as a bonus, often faster than table.sort under luajit.
**General Utility:**
- `class` - Single-inheritance oo in a single function.
- `functional` - Functional programming facilities. `map`, `reduce`, `any`, `match`, `minmax`, `mean`...
- `sequence` - An oo wrapper on sequential tables, so you can do `t:insert(i, v)` instead of `table.insert(t, i, v)`. Also supports method chaining for the `functional` interface above, which can save a lot of typing!
- `sequence` - An oo wrapper on sequential tables, so you can do `t:insert(i, v)` instead of `table.insert(t, i, v)`. Also supports method chaining for the `functional` interface above, which can save a lot of needless typing!
- `set` - A set type supporting a full suite of set operations with fast membership testing and ipairs-style iteration.
- `sort` - Provides a stable merge+insertion sorting algorithm that is also, as a bonus, often faster than `table.sort` under luajit. Also exposes `insertion_sort` if needed. Alias `stable_sort`
- `state_machine` - Finite state machine implementation with state transitions and all the rest. Useful for game states, ai, cutscenes...
- `async` - Async operations as coroutines.
- `manual_gc` - Get GC out of your update/draw calls. Useful when trying to get accurate profiling information; moves "randomness" of GC. Requires you to think a bit about your garbage budgets though.
- `colour` - Colour conversion routines. Alias `color`.
- `unique_mapping` - Generate a unique mapping from arbitrary lua values to numeric keys - essentially making up a consistent ordering for unordered data. Niche, but can be used to optimise draw batches for example, as you can't sort on textures without it.
**Geometry:**
- `intersect` - 2d intersection routines, a bit sparse at the moment
- `vec2` - 2d vectors with method chaining, garbage saving interface. A bit of a mouthful at times, but you get used to it.
- `vec3` - 3d vectors as above.
- `intersect` - 2d intersection routines, a bit sparse at the moment
**Misc:**
- `async` - Async operations as coroutines.
- `colour` - Colour conversion routines. Alias `color`.
- `manual_gc` - Get GC out of your update/draw calls. Useful when trying to get accurate profiling information; moves "randomness" of GC. Requires you to think a bit about your garbage budgets though.
- `unique_mapping` - Generate a unique mapping from arbitrary lua values to numeric keys - essentially making up a consistent ordering for unordered data. Niche, but can be used to optimise draw batches for example, as you can't sort on textures without it.
Aliases are provided at both the `batteries` level and globally when exported.

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@ -1,9 +1,9 @@
--[[
stable sorting routines
various sorting routines
]]
--this is based on MIT licensed code from Dirk Laurie and Steve Fisher
--license as follows:
--this is based on code from Dirk Laurie and Steve Fisher,
--used under license as follows:
--[[
Copyright © 2013 Dirk Laurie and Steve Fisher.
@ -29,13 +29,13 @@
-- (modifications by Max Cahill 2018, 2020)
local sort_core = {}
local sort = {}
--tunable size for insertion sort "bottom out"
sort_core.max_chunk_size = 32
sort.max_chunk_size = 32
--insertion sort on a section of array
function sort_core._insertion_sort_impl(array, first, last, less)
function sort._insertion_sort_impl(array, first, last, less)
for i = first + 1, last do
local k = first
local v = array[i]
@ -52,7 +52,7 @@ function sort_core._insertion_sort_impl(array, first, last, less)
end
--merge sorted adjacent sections of array
function sort_core._merge(array, workspace, low, middle, high, less)
function sort._merge(array, workspace, low, middle, high, less)
local i, j, k
i = 1
-- copy first half of array to auxiliary array
@ -85,14 +85,14 @@ function sort_core._merge(array, workspace, low, middle, high, less)
end
--implementation for the merge sort
function sort_core._merge_sort_impl(array, workspace, low, high, less)
if high - low <= sort_core.max_chunk_size then
sort_core._insertion_sort_impl(array, low, high, less)
function sort._merge_sort_impl(array, workspace, low, high, less)
if high - low <= sort.max_chunk_size then
sort._insertion_sort_impl(array, low, high, less)
else
local middle = math.floor((low + high) / 2)
sort_core._merge_sort_impl(array, workspace, low, middle, less)
sort_core._merge_sort_impl(array, workspace, middle + 1, high, less)
sort_core._merge(array, workspace, low, middle, high, less)
sort._merge_sort_impl(array, workspace, low, middle, less)
sort._merge_sort_impl(array, workspace, middle + 1, high, less)
sort._merge(array, workspace, low, middle, high, less)
end
end
@ -102,7 +102,7 @@ local function default_less(a, b)
end
--inline common setup stuff
function sort_core._sort_setup(array, less)
function sort._sort_setup(array, less)
--default less
less = less or default_less
--
@ -119,36 +119,36 @@ function sort_core._sort_setup(array, less)
return trivial, n, less
end
function sort_core.stable_sort(array, less)
function sort.stable_sort(array, less)
--setup
local trivial, n, less = sort_core._sort_setup(array, less)
local trivial, n, less = sort._sort_setup(array, less)
if not trivial then
--temp storage; allocate ahead of time
local workspace = {}
local middle = math.ceil(n / 2)
workspace[middle] = array[1]
--dive in
sort_core._merge_sort_impl( array, workspace, 1, n, less )
sort._merge_sort_impl( array, workspace, 1, n, less )
end
return array
end
function sort_core.insertion_sort(array, less)
function sort.insertion_sort(array, less)
--setup
local trivial, n, less = sort_core._sort_setup(array, less)
local trivial, n, less = sort._sort_setup(array, less)
if not trivial then
sort_core._insertion_sort_impl(array, 1, n, less)
sort._insertion_sort_impl(array, 1, n, less)
end
return array
end
sort_core.unstable_sort = table.sort
sort.unstable_sort = table.sort
--export sort core to the global table module
function sort_core:export()
table.insertion_sort = sort_core.insertion_sort
table.stable_sort = sort_core.stable_sort
table.unstable_sort = sort_core.unstable_sort
function sort:export()
table.insertion_sort = sort.insertion_sort
table.stable_sort = sort.stable_sort
table.unstable_sort = sort.unstable_sort
end
return sort_core
return sort