I understand that you can get the image size using PIL in the following fashion

from PIL import Image
im = Image.open(image_filename)
width, height = im.size

However, I would like to get the image width and height without having to load the image in memory. Is that possible? I am only doing statistics on image sizes and dont care for the image contents. I just want to make my processing faster.

  • 8
    I'm not 100% sure but I don't believe that .open() reads the entire file into memory... (that's what .load()) does - so as far as I know - this is as good as it gets using PIL – Jon Clements Apr 4 '13 at 0:45
  • 5
    Even if you think you have a function that only reads the image header information, filesystem readahead code may still load the whole image. Worrying about performance is unproductive unless your application requires it. – stark Apr 4 '13 at 1:00
  • 1
    I became convinced of your answers. Thanks @JonClements and stark – Sami A. Haija Apr 4 '13 at 1:01
  • 9
    A quick memory test using pmap to monitor the memory used by a process shows me that indeed PIL does not load the entire image in memory. – Vincent Nivoliers Apr 4 '13 at 1:23
  • See also: Get image dimensions with Python – Martin Thoma Mar 7 '17 at 8:55

As the comments allude, PIL does not load the image into memory when calling .open. Looking at the docs of PIL 1.1.7, the docstring for .open says:

def open(fp, mode="r"):
    "Open an image file, without loading the raster data"

There are a few file operations in the source like:

 prefix = fp.read(16)

but these hardly constitute reading the whole file. In fact .open simply returns a file object and the filename on success. In addition the docs say:

open(file, mode=”r”)

Opens and identifies the given image file.

This is a lazy operation; this function identifies the file, but the actual image data is not read from the file until you try to process the data (or call the load method).

Digging deeper, we see that .open calls _open which is a image-format specific overload. Each of the implementations to _open can be found in a new file, eg. .jpeg files are in JpegImagePlugin.py. Let's look at that one in depth.

Here things seem to get a bit tricky, in it there is an infinite loop that gets broken out of when the jpeg marker is found:

    while True:

        s = s + self.fp.read(1)
        i = i16(s)

        if i in MARKER:
            name, description, handler = MARKER[i]
            # print hex(i), name, description
            if handler is not None:
                handler(self, i)
            if i == 0xFFDA: # start of scan
                rawmode = self.mode
                if self.mode == "CMYK":
                    rawmode = "CMYK;I" # assume adobe conventions
                self.tile = [("jpeg", (0,0) + self.size, 0, (rawmode, ""))]
                # self.__offset = self.fp.tell()
            s = self.fp.read(1)
        elif i == 0 or i == 65535:
            # padded marker or junk; move on
            s = "\xff"
            raise SyntaxError("no marker found")

Which looks like it could read the whole file if it was malformed. If it reads the info marker OK however, it should break out early. The function handler ultimately sets self.size which are the dimensions of the image.

  • 2
    True enough, but does open get the size of the image or is that a lazy operation too? And if it's lazy, does it read the image data at the same time? – Mark Ransom Sep 26 '13 at 17:51
  • The doc link points to Pillow a fork from PIL. I cannot however find an official doc link on the web. If someone posts it as a comment I'll update the answer. The quote can be found in the file Docs/PIL.Image.html. – Hooked Sep 26 '13 at 17:51
  • @MarkRansom I've attempted to answer your question, however to be 100% sure it looks like we have to dive into each image-specific implementation. The .jpeg format looks OK as long as the header is found. – Hooked Sep 26 '13 at 18:11
  • @Hooked: Thanks very much for looking into this. I accept that you are correct although I quite like Paulo's rather minimal solution below (even though to be fair the OP did not mention wanting to avoid the PIL dependency) – Alex Flint Sep 27 '13 at 2:38
  • @AlexFlint No problem, it's always fun to poke around the code. I'd say that Paulo earned his bounty though, that's a nice snippet he wrote for you there. – Hooked Sep 27 '13 at 4:36

If you don't care about the image contents, PIL is probably an overkill.

I suggest parsing the output of the python magic module:

>>> t = magic.from_file('teste.png')
>>> t
'PNG image data, 782 x 602, 8-bit/color RGBA, non-interlaced'
>>> re.search('(\d+) x (\d+)', t).groups()
('782', '602')

This is a wrapper around libmagic which read as few bytes as possible in order to identify a file type signature.

Relevant version of script:



Hmmm, unfortunately, when applied to jpegs, the above gives "'JPEG image data, EXIF standard 2.21'". No image size! – Alex Flint

Seems like jpegs are magic-resistant. :-)

I can see why: in order to get the image dimensions for JPEG files, you may have to read more bytes than libmagic likes to read.

Rolled up my sleeves and came with this very untested snippet (get it from GitHub) that requires no third-party modules.

Look, Ma! No deps!

# Name:        get_image_size
# Purpose:     extract image dimensions given a file path using just
#              core modules
# Author:      Paulo Scardine (based on code from Emmanuel VAÏSSE)
# Created:     26/09/2013
# Copyright:   (c) Paulo Scardine 2013
# Licence:     MIT
#!/usr/bin/env python
import os
import struct

class UnknownImageFormat(Exception):

def get_image_size(file_path):
    Return (width, height) for a given img file content - no external
    dependencies except the os and struct modules from core
    size = os.path.getsize(file_path)

    with open(file_path) as input:
        height = -1
        width = -1
        data = input.read(25)

        if (size >= 10) and data[:6] in ('GIF87a', 'GIF89a'):
            # GIFs
            w, h = struct.unpack("<HH", data[6:10])
            width = int(w)
            height = int(h)
        elif ((size >= 24) and data.startswith('\211PNG\r\n\032\n')
              and (data[12:16] == 'IHDR')):
            # PNGs
            w, h = struct.unpack(">LL", data[16:24])
            width = int(w)
            height = int(h)
        elif (size >= 16) and data.startswith('\211PNG\r\n\032\n'):
            # older PNGs?
            w, h = struct.unpack(">LL", data[8:16])
            width = int(w)
            height = int(h)
        elif (size >= 2) and data.startswith('\377\330'):
            # JPEG
            msg = " raised while trying to decode as JPEG."
            b = input.read(1)
                while (b and ord(b) != 0xDA):
                    while (ord(b) != 0xFF): b = input.read(1)
                    while (ord(b) == 0xFF): b = input.read(1)
                    if (ord(b) >= 0xC0 and ord(b) <= 0xC3):
                        h, w = struct.unpack(">HH", input.read(4))
                        input.read(int(struct.unpack(">H", input.read(2))[0])-2)
                    b = input.read(1)
                width = int(w)
                height = int(h)
            except struct.error:
                raise UnknownImageFormat("StructError" + msg)
            except ValueError:
                raise UnknownImageFormat("ValueError" + msg)
            except Exception as e:
                raise UnknownImageFormat(e.__class__.__name__ + msg)
            raise UnknownImageFormat(
                "Sorry, don't know how to get information from this file."

    return width, height

[update 2019]

Check out a Rust implementation: https://github.com/scardine/imsz


There is a package on pypi called imagesize that currently works for me, although it doesn't look like it is very active.


pip install imagesize


import imagesize

width, height = imagesize.get("test.png")
print(width, height)

Homepage: https://github.com/shibukawa/imagesize_py

PyPi: https://pypi.org/project/imagesize/

  • 11
    I compared the speed imagesize.get, magic.from_file, and PIL image to get the actual image size by timeit. The results showed that speed imagesize.get (0.019s) > PIL(0.104s) > magic with regex (0.1699s). – RyanLiu Mar 3 '20 at 8:29

I often fetch image sizes on the Internet. Of course, you can't download the image and then load it to parse the information. It's too time consuming. My method is to feed chunks to an image container and test whether it can parse the image every time. Stop the loop when I get the information I want.

I extracted the core of my code and modified it to parse local files.

from PIL import ImageFile

with open(r"D:\testpic\test.jpg", "rb") as f:
    chunk = f.read(2048)
    while chunk != "":
        if ImPar.image:
        chunk = f.read(2048)


(2240, 1488)

The actual file size is 1,543,580 bytes and you only read 38,912 bytes to get the image size. Hope this will help.


Another short way of doing it on Unix systems. It depends on the output of file which I am not sure is standardized on all systems. This should probably not be used in production code. Moreover most JPEGs don't report the image size.

import subprocess, re
image_size = list(map(int, re.findall('(\d+)x(\d+)', subprocess.getoutput("file " + filename))[-1]))
  • Gives IndexError: list index out of range – mrgloom Nov 21 '18 at 11:20

This answer has an another good resolution, but missing the pgm format. This answer has resolved the pgm. And I add the bmp.

Codes is below

import struct, imghdr, re, magic

def get_image_size(fname):
    '''Determine the image type of fhandle and return its size.
    from draco'''
    with open(fname, 'rb') as fhandle:
        head = fhandle.read(32)
        if len(head) != 32:
        if imghdr.what(fname) == 'png':
            check = struct.unpack('>i', head[4:8])[0]
            if check != 0x0d0a1a0a:
            width, height = struct.unpack('>ii', head[16:24])
        elif imghdr.what(fname) == 'gif':
            width, height = struct.unpack('<HH', head[6:10])
        elif imghdr.what(fname) == 'jpeg':
                fhandle.seek(0) # Read 0xff next
                size = 2
                ftype = 0
                while not 0xc0 <= ftype <= 0xcf:
                    fhandle.seek(size, 1)
                    byte = fhandle.read(1)
                    while ord(byte) == 0xff:
                        byte = fhandle.read(1)
                    ftype = ord(byte)
                    size = struct.unpack('>H', fhandle.read(2))[0] - 2
                # We are at a SOFn block
                fhandle.seek(1, 1)  # Skip `precision' byte.
                height, width = struct.unpack('>HH', fhandle.read(4))
            except Exception: #IGNORE:W0703
        elif imghdr.what(fname) == 'pgm':
            header, width, height, maxval = re.search(
                b"(\d+)\s(?:\s*#.*[\r\n]\s)*)", head).groups()
            width = int(width)
            height = int(height)
        elif imghdr.what(fname) == 'bmp':
            _, width, height, depth = re.search(
                b"(\d+))", str).groups()
            width = int(width)
            height = int(height)
        return width, height
  • imghdr however handles certain jpegs quite poorly. – martixy Jun 18 '17 at 11:31

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