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|
--- Generally useful routines.
-- See @{01-introduction.md.Generally_useful_functions|the Guide}.
-- @module pl.utils
local format,gsub,byte = string.format,string.gsub,string.byte
local compat = require 'pl.compat'
local clock = os.clock
local stdout = io.stdout
local append = table.insert
local unpack = rawget(_G,'unpack') or rawget(table,'unpack')
local collisions = {}
local utils = {
_VERSION = "1.3.2",
lua51 = compat.lua51,
setfenv = compat.setfenv,
getfenv = compat.getfenv,
load = compat.load,
execute = compat.execute,
dir_separator = _G.package.config:sub(1,1),
unpack = unpack
}
--- end this program gracefully.
-- @param code The exit code or a message to be printed
-- @param ... extra arguments for message's format'
-- @see utils.fprintf
function utils.quit(code,...)
if type(code) == 'string' then
utils.fprintf(io.stderr,code,...)
code = -1
else
utils.fprintf(io.stderr,...)
end
io.stderr:write('\n')
os.exit(code)
end
--- print an arbitrary number of arguments using a format.
-- @param fmt The format (see string.format)
-- @param ... Extra arguments for format
function utils.printf(fmt,...)
utils.assert_string(1,fmt)
utils.fprintf(stdout,fmt,...)
end
--- write an arbitrary number of arguments to a file using a format.
-- @param f File handle to write to.
-- @param fmt The format (see string.format).
-- @param ... Extra arguments for format
function utils.fprintf(f,fmt,...)
utils.assert_string(2,fmt)
f:write(format(fmt,...))
end
local function import_symbol(T,k,v,libname)
local key = rawget(T,k)
-- warn about collisions!
if key and k ~= '_M' and k ~= '_NAME' and k ~= '_PACKAGE' and k ~= '_VERSION' then
utils.printf("warning: '%s.%s' will not override existing symbol\n",libname,k)
return
end
rawset(T,k,v)
end
local function lookup_lib(T,t)
for k,v in pairs(T) do
if v == t then return k end
end
return '?'
end
local already_imported = {}
--- take a table and 'inject' it into the local namespace.
-- @param t The Table
-- @param T An optional destination table (defaults to callers environment)
function utils.import(t,T)
T = T or _G
t = t or utils
if type(t) == 'string' then
t = require (t)
end
local libname = lookup_lib(T,t)
if already_imported[t] then return end
already_imported[t] = libname
for k,v in pairs(t) do
import_symbol(T,k,v,libname)
end
end
utils.patterns = {
FLOAT = '[%+%-%d]%d*%.?%d*[eE]?[%+%-]?%d*',
INTEGER = '[+%-%d]%d*',
IDEN = '[%a_][%w_]*',
FILE = '[%a%.\\][:%][%w%._%-\\]*'
}
--- escape any 'magic' characters in a string
-- @param s The input string
function utils.escape(s)
utils.assert_string(1,s)
return (s:gsub('[%-%.%+%[%]%(%)%$%^%%%?%*]','%%%1'))
end
--- return either of two values, depending on a condition.
-- @param cond A condition
-- @param value1 Value returned if cond is true
-- @param value2 Value returned if cond is false (can be optional)
function utils.choose(cond,value1,value2)
if cond then return value1
else return value2
end
end
local raise
--- return the contents of a file as a string
-- @param filename The file path
-- @param is_bin open in binary mode
-- @return file contents
function utils.readfile(filename,is_bin)
local mode = is_bin and 'b' or ''
utils.assert_string(1,filename)
local f,err = io.open(filename,'r'..mode)
if not f then return utils.raise (err) end
local res,err = f:read('*a')
f:close()
if not res then return raise (err) end
return res
end
--- write a string to a file
-- @param filename The file path
-- @param str The string
-- @return true or nil
-- @return error message
-- @raise error if filename or str aren't strings
function utils.writefile(filename,str)
utils.assert_string(1,filename)
utils.assert_string(2,str)
local f,err = io.open(filename,'w')
if not f then return raise(err) end
f:write(str)
f:close()
return true
end
--- return the contents of a file as a list of lines
-- @param filename The file path
-- @return file contents as a table
-- @raise errror if filename is not a string
function utils.readlines(filename)
utils.assert_string(1,filename)
local f,err = io.open(filename,'r')
if not f then return raise(err) end
local res = {}
for line in f:lines() do
append(res,line)
end
f:close()
return res
end
--- split a string into a list of strings separated by a delimiter.
-- @param s The input string
-- @param re A Lua string pattern; defaults to '%s+'
-- @param plain don't use Lua patterns
-- @param n optional maximum number of splits
-- @return a list-like table
-- @raise error if s is not a string
function utils.split(s,re,plain,n)
utils.assert_string(1,s)
local find,sub,append = string.find, string.sub, table.insert
local i1,ls = 1,{}
if not re then re = '%s+' end
if re == '' then return {s} end
while true do
local i2,i3 = find(s,re,i1,plain)
if not i2 then
local last = sub(s,i1)
if last ~= '' then append(ls,last) end
if #ls == 1 and ls[1] == '' then
return {}
else
return ls
end
end
append(ls,sub(s,i1,i2-1))
if n and #ls == n then
ls[#ls] = sub(s,i1)
return ls
end
i1 = i3+1
end
end
--- split a string into a number of values.
-- @param s the string
-- @param re the delimiter, default space
-- @return n values
-- @usage first,next = splitv('jane:doe',':')
-- @see split
function utils.splitv (s,re)
return unpack(utils.split(s,re))
end
--- convert an array of values to strings.
-- @param t a list-like table
-- @param temp buffer to use, otherwise allocate
-- @param tostr custom tostring function, called with (value,index).
-- Otherwise use `tostring`
-- @return the converted buffer
function utils.array_tostring (t,temp,tostr)
temp, tostr = temp or {}, tostr or tostring
for i = 1,#t do
temp[i] = tostr(t[i],i)
end
return temp
end
--- execute a shell command and return the output.
-- This function redirects the output to tempfiles and returns the content of those files.
-- @param cmd a shell command
-- @param bin boolean, if true, read output as binary file
-- @return true if successful
-- @return actual return code
-- @return stdout output (string)
-- @return errout output (string)
function utils.executeex(cmd, bin)
local mode
local outfile = os.tmpname()
local errfile = os.tmpname()
if utils.dir_separator == '\\' then
outfile = os.getenv('TEMP')..outfile
errfile = os.getenv('TEMP')..errfile
end
cmd = cmd .. [[ >"]]..outfile..[[" 2>"]]..errfile..[["]]
local success, retcode = utils.execute(cmd)
local outcontent = utils.readfile(outfile, bin)
local errcontent = utils.readfile(errfile, bin)
os.remove(outfile)
os.remove(errfile)
return success, retcode, (outcontent or ""), (errcontent or "")
end
--- 'memoize' a function (cache returned value for next call).
-- This is useful if you have a function which is relatively expensive,
-- but you don't know in advance what values will be required, so
-- building a table upfront is wasteful/impossible.
-- @param func a function of at least one argument
-- @return a function with at least one argument, which is used as the key.
function utils.memoize(func)
return setmetatable({}, {
__index = function(self, k, ...)
local v = func(k,...)
self[k] = v
return v
end,
__call = function(self, k) return self[k] end
})
end
utils.stdmt = {
List = {_name='List'}, Map = {_name='Map'},
Set = {_name='Set'}, MultiMap = {_name='MultiMap'}
}
local _function_factories = {}
--- associate a function factory with a type.
-- A function factory takes an object of the given type and
-- returns a function for evaluating it
-- @tab mt metatable
-- @func fun a callable that returns a function
function utils.add_function_factory (mt,fun)
_function_factories[mt] = fun
end
local function _string_lambda(f)
local raise = utils.raise
if f:find '^|' or f:find '_' then
local args,body = f:match '|([^|]*)|(.+)'
if f:find '_' then
args = '_'
body = f
else
if not args then return raise 'bad string lambda' end
end
local fstr = 'return function('..args..') return '..body..' end'
local fn,err = utils.load(fstr)
if not fn then return raise(err) end
fn = fn()
return fn
else return raise 'not a string lambda'
end
end
--- an anonymous function as a string. This string is either of the form
-- '|args| expression' or is a function of one argument, '_'
-- @param lf function as a string
-- @return a function
-- @usage string_lambda '|x|x+1' (2) == 3
-- @usage string_lambda '_+1 (2) == 3
-- @function utils.string_lambda
utils.string_lambda = utils.memoize(_string_lambda)
local ops
--- process a function argument.
-- This is used throughout Penlight and defines what is meant by a function:
-- Something that is callable, or an operator string as defined by <code>pl.operator</code>,
-- such as '>' or '#'. If a function factory has been registered for the type, it will
-- be called to get the function.
-- @param idx argument index
-- @param f a function, operator string, or callable object
-- @param msg optional error message
-- @return a callable
-- @raise if idx is not a number or if f is not callable
function utils.function_arg (idx,f,msg)
utils.assert_arg(1,idx,'number')
local tp = type(f)
if tp == 'function' then return f end -- no worries!
-- ok, a string can correspond to an operator (like '==')
if tp == 'string' then
if not ops then ops = require 'pl.operator'.optable end
local fn = ops[f]
if fn then return fn end
local fn, err = utils.string_lambda(f)
if not fn then error(err..': '..f) end
return fn
elseif tp == 'table' or tp == 'userdata' then
local mt = getmetatable(f)
if not mt then error('not a callable object',2) end
local ff = _function_factories[mt]
if not ff then
if not mt.__call then error('not a callable object',2) end
return f
else
return ff(f) -- we have a function factory for this type!
end
end
if not msg then msg = " must be callable" end
if idx > 0 then
error("argument "..idx..": "..msg,2)
else
error(msg,2)
end
end
--- bind the first argument of the function to a value.
-- @param fn a function of at least two values (may be an operator string)
-- @param p a value
-- @return a function such that f(x) is fn(p,x)
-- @raise same as @{function_arg}
-- @see func.bind1
function utils.bind1 (fn,p)
fn = utils.function_arg(1,fn)
return function(...) return fn(p,...) end
end
--- bind the second argument of the function to a value.
-- @param fn a function of at least two values (may be an operator string)
-- @param p a value
-- @return a function such that f(x) is fn(x,p)
-- @raise same as @{function_arg}
function utils.bind2 (fn,p)
fn = utils.function_arg(1,fn)
return function(x,...) return fn(x,p,...) end
end
--- assert that the given argument is in fact of the correct type.
-- @param n argument index
-- @param val the value
-- @param tp the type
-- @param verify an optional verfication function
-- @param msg an optional custom message
-- @param lev optional stack position for trace, default 2
-- @raise if the argument n is not the correct type
-- @usage assert_arg(1,t,'table')
-- @usage assert_arg(n,val,'string',path.isdir,'not a directory')
function utils.assert_arg (n,val,tp,verify,msg,lev)
if type(val) ~= tp then
error(("argument %d expected a '%s', got a '%s'"):format(n,tp,type(val)),lev or 2)
end
if verify and not verify(val) then
error(("argument %d: '%s' %s"):format(n,val,msg),lev or 2)
end
end
--- assert the common case that the argument is a string.
-- @param n argument index
-- @param val a value that must be a string
-- @raise val must be a string
function utils.assert_string (n,val)
utils.assert_arg(n,val,'string',nil,nil,3)
end
local err_mode = 'default'
--- control the error strategy used by Penlight.
-- Controls how <code>utils.raise</code> works; the default is for it
-- to return nil and the error string, but if the mode is 'error' then
-- it will throw an error. If mode is 'quit' it will immediately terminate
-- the program.
-- @param mode - either 'default', 'quit' or 'error'
-- @see utils.raise
function utils.on_error (mode)
if ({['default'] = 1, ['quit'] = 2, ['error'] = 3})[mode] then
err_mode = mode
else
-- fail loudly
if err_mode == 'default' then err_mode = 'error' end
utils.raise("Bad argument expected string; 'default', 'quit', or 'error'. Got '"..tostring(mode).."'")
end
end
--- used by Penlight functions to return errors. Its global behaviour is controlled
-- by <code>utils.on_error</code>
-- @param err the error string.
-- @see utils.on_error
function utils.raise (err)
if err_mode == 'default' then return nil,err
elseif err_mode == 'quit' then utils.quit(err)
else error(err,2)
end
end
--- is the object of the specified type?.
-- If the type is a string, then use type, otherwise compare with metatable
-- @param obj An object to check
-- @param tp String of what type it should be
function utils.is_type (obj,tp)
if type(tp) == 'string' then return type(obj) == tp end
local mt = getmetatable(obj)
return tp == mt
end
raise = utils.raise
--- load a code string or bytecode chunk.
-- @param code Lua code as a string or bytecode
-- @param name for source errors
-- @param mode kind of chunk, 't' for text, 'b' for bytecode, 'bt' for all (default)
-- @param env the environment for the new chunk (default nil)
-- @return compiled chunk
-- @return error message (chunk is nil)
-- @function utils.load
---------------
-- Get environment of a function.
-- With Lua 5.2, may return nil for a function with no global references!
-- Based on code by [Sergey Rozhenko](http://lua-users.org/lists/lua-l/2010-06/msg00313.html)
-- @param f a function or a call stack reference
-- @function utils.getfenv
---------------
-- Set environment of a function
-- @param f a function or a call stack reference
-- @param env a table that becomes the new environment of `f`
-- @function utils.setfenv
--- execute a shell command.
-- This is a compatibility function that returns the same for Lua 5.1 and Lua 5.2
-- @param cmd a shell command
-- @return true if successful
-- @return actual return code
-- @function utils.execute
return utils
|