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# file Module
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| Since | Origin / Contributor | Maintainer | Source |
| :----- | :-------------------- | :---------- | :------ |
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| 2014-12-22 | [Zeroday ](https://github.com/funshine ) | [Zeroday ](https://github.com/funshine ) | [file.c ](../../app/modules/file.c )|
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The file module provides access to the file system and its individual files.
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The file system is a flat file system, with no notion of subdirectories/folders.
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Besides the SPIFFS file system on internal flash, this module can also access FAT partitions on an external SD card if [FatFS is enabled ](../sdcard.md ).
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```lua
-- open file in flash:
if file.open("init.lua") then
print(file.read())
file.close()
end
-- or with full pathspec
file.open("/FLASH/init.lua")
-- open file on SD card
if file.open("/SD0/somefile.txt") then
print(file.read())
file.close()
end
```
## file.chdir()
Change current directory (and drive). This will be used when no drive/directory is prepended to filenames.
Current directory defaults to the root of internal SPIFFS (`/FLASH`) after system start.
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!!! note
Function is only available when [FatFS support ](../sdcard.md#enabling-fatfs ) is compiled into the firmware.
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#### Syntax
`file.chdir(dir)`
#### Parameters
`dir` directory name - `/FLASH` , `/SD0` , `/SD1` , etc.
#### Returns
`true` on success, `false` otherwise
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## file.exists()
Determines whether the specified file exists.
#### Syntax
`file.exists(filename)`
#### Parameters
- `filename` file to check
#### Returns
true of the file exists (even if 0 bytes in size), and false if it does not exist
#### Example
```lua
files = file.list()
if files["device.config"] then
print("Config file exists")
end
if file.exists("device.config") then
print("Config file exists")
end
```
#### See also
[`file.list()` ](#filelist )
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## file.format()
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Format the file system. Completely erases any existing file system and writes a new one. Depending on the size of the flash chip in the ESP, this may take several seconds.
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!!! note
Function is not supported for SD cards.
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#### Syntax
`file.format()`
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#### Parameters
none
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#### Returns
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`nil`
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#### See also
[`file.remove()` ](#fileremove )
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## file.fscfg ()
Returns the flash address and physical size of the file system area, in bytes.
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!!! note
Function is not supported for SD cards.
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#### Syntax
`file.fscfg()`
#### Parameters
none
#### Returns
- `flash address` (number)
- `size` (number)
#### Example
```lua
print(string.format("0x%x", file.fscfg()))
```
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## file.fsinfo()
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Return size information for the file system. The unit is Byte for SPIFFS and kByte for FatFS.
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#### Syntax
`file.fsinfo()`
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#### Parameters
none
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#### Returns
- `remaining` (number)
- `used` (number)
- `total` (number)
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#### Example
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```lua
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-- get file system info
remaining, used, total=file.fsinfo()
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print("\nFile system info:\nTotal : "..total.." (k)Bytes\nUsed : "..used.." (k)Bytes\nRemain: "..remaining.." (k)Bytes\n")
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```
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## file.getcontents()
Open and read the contents of a file.
#### Syntax
`file.getcontents(filename)`
#### Parameters
- `filename` file to be opened and read
#### Returns
file contents if the file exists. `nil` if the file does not exist.
#### Example (basic model)
```lua
print(file.getcontents('welcome.txt'))
```
#### See also
- [`file.putcontents()` ](#fileputcontents )
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## file.list()
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Lists all files in the file system.
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#### Syntax
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`file.list([pattern])`
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#### Parameters
none
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#### Returns
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a Lua table which contains all {file name: file size} pairs, if no pattern
given. If a pattern is given, only those file names matching the pattern
(interpreted as a traditional [Lua pattern ](https://www.lua.org/pil/20.2.html ),
not, say, a UNIX shell glob) will be included in the resulting table.
`file.list` will throw any errors encountered during pattern matching.
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#### Example
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```lua
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l = file.list();
for k,v in pairs(l) do
print("name:"..k..", size:"..v)
end
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```
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## file.mount()
Mounts a FatFs volume on SD card.
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!!! note
Function is only available when [FatFS support ](../sdcard.md#enabling-fatfs ) is compiled into the firmware and it is not supported for internal flash.
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#### Syntax
`file.mount(ldrv[, pin])`
#### Parameters
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- `ldrv` name of the logical drive, `/SD0` , `/SD1` , etc.
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- `pin` 1~12, IO index for SS/CS, defaults to 8 if omitted.
#### Returns
Volume object
#### Example
```lua
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vol = file.mount("/SD0")
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vol:umount()
```
## file.on()
Registers callback functions.
Trigger events are:
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- `rtc` deliver current date & time to the file system. Function is expected to return a table containing the fields `year` , `mon` , `day` , `hour` , `min` , `sec` of current date and time. Not supported for internal flash.
#### Syntax
`file.on(event[, function()])`
#### Parameters
- `event` string
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- `function()` callback function. Unregisters the callback if `function()` is omitted or `nil` .
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#### Returns
`nil`
#### Example
```lua
sntp.sync(server_ip,
function()
print("sntp time sync ok")
file.on("rtc",
function()
return rtctime.epoch2cal(rtctime.get())
end)
end)
```
#### See also
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[`rtctime.epoch2cal()` ](rtctime.md#rtctimeepoch2cal )
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## file.open()
Opens a file for access, potentially creating it (for write modes).
When done with the file, it must be closed using `file.close()` .
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#### Syntax
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`file.open(filename, mode)`
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#### Parameters
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- `filename` file to be opened
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- `mode` :
- "r": read mode (the default)
- "w": write mode
- "a": append mode
- "r+": update mode, all previous data is preserved
- "w+": update mode, all previous data is erased
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- "a+": append update mode, previous data is preserved, writing is only allowed at the end of file
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#### Returns
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file object if file opened ok. `nil` if file not opened, or not exists (read modes).
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#### Example (basic model)
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```lua
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-- open 'init.lua', print the first line.
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if file.open("init.lua", "r") then
print(file.readline())
file.close()
end
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```
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#### Example (object model)
```lua
-- open 'init.lua', print the first line.
fd = file.open("init.lua", "r")
if fd then
print(fd:readline())
fd:close(); fd = nil
end
```
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#### See also
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- [`file.close()` ](#fileclose-fileobjclose )
- [`file.readline()` ](#filereadline-fileobjreadline )
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## file.remove()
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Remove a file from the file system. The file must not be currently open.
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###Syntax
`file.remove(filename)`
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#### Parameters
`filename` file to remove
#### Returns
`nil`
#### Example
```lua
-- remove "foo.lua" from file system.
file.remove("foo.lua")
```
#### See also
[`file.open()` ](#fileopen )
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## file.putcontents()
Open and write the contents of a file.
#### Syntax
`file.putcontents(filename, contents)`
#### Parameters
- `filename` file to be created
- `contents` to be written to the file
#### Returns
`true` if the write is ok, `nil` on error
#### Example (basic model)
```lua
file.putcontents('welcome.txt', [[
Hello to new user
-----------------
]])
```
#### See also
- [`file.getcontents()` ](#filegetcontents )
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## file.rename()
Renames a file. If a file is currently open, it will be closed first.
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#### Syntax
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`file.rename(oldname, newname)`
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#### Parameters
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- `oldname` old file name
- `newname` new file name
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#### Returns
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`true` on success, `false` on error.
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#### Example
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```lua
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-- rename file 'temp.lua' to 'init.lua'.
file.rename("temp.lua","init.lua")
```
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## file.stat()
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Get attribtues of a file or directory in a table. Elements of the table are:
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- `size` file size in bytes
- `name` file name
- `time` table with time stamp information. Default is 1970-01-01 00:00:00 in case time stamps are not supported (on SPIFFS).
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- `year`
- `mon`
- `day`
- `hour`
- `min`
- `sec`
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- `is_dir` flag `true` if item is a directory, otherwise `false`
- `is_rdonly` flag `true` if item is read-only, otherwise `false`
- `is_hidden` flag `true` if item is hidden, otherwise `false`
- `is_sys` flag `true` if item is system, otherwise `false`
- `is_arch` flag `true` if item is archive, otherwise `false`
#### Syntax
`file.stat(filename)`
#### Parameters
`filename` file name
#### Returns
table containing file attributes
#### Example
```lua
s = file.stat("/SD0/myfile")
print("name: " .. s.name)
print("size: " .. s.size)
t = s.time
print(string.format("%02d:%02d:%02d", t.hour, t.min, t.sec))
print(string.format("%04d-%02d-%02d", t.year, t.mon, t.day))
if s.is_dir then print("is directory") else print("is file") end
if s.is_rdonly then print("is read-only") else print("is writable") end
if s.is_hidden then print("is hidden") else print("is not hidden") end
if s.is_sys then print("is system") else print("is not system") end
if s.is_arch then print("is archive") else print("is not archive") end
s = nil
t = nil
```
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# File access functions
The `file` module provides several functions to access the content of a file after it has been opened with [`file.open()` ](#fileopen ). They can be used as part of a basic model or an object model:
## Basic model
In the basic model there is max one file opened at a time. The file access functions operate on this file per default. If another file is opened, the previous default file needs to be closed beforehand.
```lua
-- open 'init.lua', print the first line.
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if file.open("init.lua", "r") then
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print(file.readline())
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file.close()
end
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```
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## Object model
Files are represented by file objects which are created by `file.open()` . File access functions are available as methods of this object, and multiple file objects can coexist.
```lua
src = file.open("init.lua", "r")
if src then
dest = file.open("copy.lua", "w")
if dest then
local line
repeat
line = src:read()
if line then
dest:write(line)
end
until line == nil
dest:close(); dest = nil
end
src:close(); dest = nil
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end
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```
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!!! Attention
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It is recommended to use only one single model within the application. Concurrent use of both models can yield unpredictable behavior: Closing the default file from basic model will also close the corresponding file object. Closing a file from object model will also close the default file if they are the same file.
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!!! Note
The maximum number of open files on SPIFFS is determined at compile time by `SPIFFS_MAX_OPEN_FILES` in `user_config.h` .
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## file.close(), file.obj:close()
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Closes the open file, if any.
#### Syntax
`file.close()`
`fd:close()`
#### Parameters
none
#### Returns
`nil`
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#### See also
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[`file.open()` ](#fileopen )
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## file.flush(), file.obj:flush()
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Flushes any pending writes to the file system, ensuring no data is lost on a restart. Closing the open file using [`file.close()` / `fd:close()` ](#fileclose-fileobjclose ) performs an implicit flush as well.
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#### Syntax
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`file.flush()`
`fd:flush()`
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#### Parameters
none
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#### Returns
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`nil`
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#### Example (basic model)
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```lua
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-- open 'init.lua' in 'a+' mode
if file.open("init.lua", "a+") then
-- write 'foo bar' to the end of the file
file.write('foo bar')
file.flush()
-- write 'baz' too
file.write('baz')
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file.close()
end
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```
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#### See also
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[`file.close()` / `file.obj:close()` ](#fileclose-fileobjclose )
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## file.read(), file.obj:read()
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Read content from the open file.
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!!! note
The function temporarily allocates 2 * (number of requested bytes) on the heap for buffering and processing the read data. Default chunk size (`FILE_READ_CHUNK`) is 1024 bytes and is regarded to be safe. Pushing this by 4x or more can cause heap overflows depending on the application. Consider this when selecting a value for parameter `n_or_char` .
#### Syntax
`file.read([n_or_char])`
`fd:read([n_or_char])`
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#### Parameters
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- `n_or_char` :
- if nothing passed in, then read up to `FILE_READ_CHUNK` bytes or the entire file (whichever is smaller).
- if passed a number `n` , then read up to `n` bytes or the entire file (whichever is smaller).
- if passed a string containing the single character `char` , then read until `char` appears next in the file, `FILE_READ_CHUNK` bytes have been read, or EOF is reached.
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#### Returns
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File content as a string, or nil when EOF
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#### Example (basic model)
```lua
-- print the first line of 'init.lua'
if file.open("init.lua", "r") then
print(file.read('\n'))
file.close()
end
```
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#### Example (object model)
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```lua
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-- print the first 5 bytes of 'init.lua'
fd = file.open("init.lua", "r")
if fd then
print(fd:read(5))
fd:close(); fd = nil
end
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```
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#### See also
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- [`file.open()` ](#fileopen )
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- [`file.readline()` / `file.obj:readline()` ](#filereadline-fileobjreadline )
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## file.readline(), file.obj:readline()
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Read the next line from the open file. Lines are defined as zero or more bytes ending with a EOL ('\n') byte. If the next line is longer than 1024, this function only returns the first 1024 bytes.
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#### Syntax
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`file.readline()`
`fd:readline()`
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#### Parameters
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none
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#### Returns
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File content in string, line by line, including EOL('\n'). Return `nil` when EOF.
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#### Example (basic model)
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```lua
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-- print the first line of 'init.lua'
if file.open("init.lua", "r") then
print(file.readline())
file.close()
end
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```
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#### See also
- [`file.open()` ](#fileopen )
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- [`file.close()` / `file.obj:close()` ](#fileclose-fileobjclose )
- [`file.read()` / `file.obj:read()` ](#fileread-fileobjread )
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## file.seek(), file.obj:seek()
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Sets and gets the file position, measured from the beginning of the file, to the position given by offset plus a base specified by the string whence.
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#### Syntax
`file.seek([whence [, offset]])`
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`fd:seek([whence [, offset]])`
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#### Parameters
- `whence`
- "set": base is position 0 (beginning of the file)
- "cur": base is current position (default value)
- "end": base is end of file
- `offset` default 0
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If no parameters are given, the function simply returns the current file offset.
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#### Returns
the resulting file position, or `nil` on error
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#### Example (basic model)
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```lua
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if file.open("init.lua", "r") then
-- skip the first 5 bytes of the file
file.seek("set", 5)
print(file.readline())
file.close()
end
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```
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#### See also
[`file.open()` ](#fileopen )
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## file.write(), file.obj:write()
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Write a string to the open file.
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#### Syntax
`file.write(string)`
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`fd:write(string)`
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#### Parameters
`string` content to be write to file
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#### Returns
`true` if the write is ok, `nil` on error
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#### Example (basic model)
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```lua
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-- open 'init.lua' in 'a+' mode
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if file.open("init.lua", "a+") then
-- write 'foo bar' to the end of the file
file.write('foo bar')
file.close()
end
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```
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#### Example (object model)
```lua
-- open 'init.lua' in 'a+' mode
fd = file.open("init.lua", "a+")
if fd then
-- write 'foo bar' to the end of the file
fd:write('foo bar')
fd:close()
end
```
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#### See also
- [`file.open()` ](#fileopen )
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- [`file.writeline()` / `file.obj:writeline()` ](#filewriteline-fileobjwriteline )
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## file.writeline(), file.obj:writeline()
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Write a string to the open file and append '\n' at the end.
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#### Syntax
`file.writeline(string)`
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`fd:writeline(string)`
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#### Parameters
`string` content to be write to file
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#### Returns
`true` if write ok, `nil` on error
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#### Example (basic model)
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```lua
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-- open 'init.lua' in 'a+' mode
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if file.open("init.lua", "a+") then
-- write 'foo bar' to the end of the file
file.writeline('foo bar')
file.close()
end
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```
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#### See also
- [`file.open()` ](#fileopen )
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- [`file.readline()` / `file.obj:readline()` ](#filereadline-fileobjreadline )