.lua-files/unique-files.lua

95 lines
2.8 KiB
Lua

#!/usr/bin/env luajit
-- Partially written by ChatGPT using GPT-3.5, with corrections and modifications by me.
-- Do whatever the hell you want with it.
local lfs = require "lfs"
-- Function to get the filesize of a given file
local function get_filesize(filepath)
local file = io.open(filepath, "rb")
if file then
local size = file:seek("end")
file:close()
return size
else
return nil
end
end
-- Function to recursively traverse directories, get file sizes, and file paths
local function traverse_directory(path)
local files = {}
for entry in lfs.dir(path) do
if entry ~= "." and entry ~= ".." then
local full_path = path..'\\'..entry
local attributes = lfs.attributes(full_path)
if attributes and attributes.mode == "file" then
local size = get_filesize(full_path)
if size then
-- print(full_path, size, "bytes")
files[full_path] = size
else
print("File not found or inaccessible:", full_path)
end
elseif attributes and attributes.mode == "directory" then
local subdir_files = traverse_directory(full_path)
for path, size in pairs(subdir_files) do
files[path] = size
end
end
end
end
return files
end
local paths = {} -- becomes a hashtable of hashtables of full_path = file_size
for _, path in ipairs(arg) do
-- powershell handles quotes, so I assume each argument is a full valid path
paths[path] = traverse_directory(path)
end
local subpaths = {} -- a hashtable of all unique subpaths
for path_start, full_path_table in pairs(paths) do
for path in pairs(full_path_table) do
local local_path = "." .. path:sub(#path_start + 1)
subpaths[local_path] = true
end
end
for subpath in pairs(subpaths) do
-- check each full path for matching size (we assume its the same file if its the same size AND name)
local sizes = {}
local known_size = nil
local paths_checked = 0
for path_start, full_path_table in pairs(paths) do
local global_path = path_start .. subpath:sub(2)
local size = full_path_table[global_path]
if size then
sizes[global_path] = size
if not known_size then
known_size = size
elseif known_size ~= size then
known_size = math.inf -- we signal with an impossible size that all sizes do not match
end
paths_checked = paths_checked + 1
end
end
if known_size == math.inf then
local output_text = {}
for global_path, size in pairs(sizes) do
table.insert(output_text, global_path .. ": " .. size .. " bytes")
end
print(subpath .. " has different sizes!\n" .. table.concat(output_text,"\n") .. "\n")
elseif paths_checked < 2 then
-- print(subpath .. " is unique!\n" .. next(sizes) .. "\n")
print(next(sizes) .. " is unique!\n")
end
end