38

I have a large number of images of a fixed size (say 500*500). I want to write a python script which will resize them to a fixed size (say 800*800) but will keep the original image at the center and fill the excess area with a fixed color (say black).

I am using PIL. I can resize the image using the resize function now, but that changes the aspect ratio. Is there any way to do this?

52

You can create a new image with the desired new size, and paste the old image in the center, then saving it. If you want, you can overwrite the original image (are you sure? ;o)

import Image

old_im = Image.open('someimage.jpg')
old_size = old_im.size

new_size = (800, 800)
new_im = Image.new("RGB", new_size)   ## luckily, this is already black!
new_im.paste(old_im, ((new_size[0]-old_size[0])/2,
                      (new_size[1]-old_size[1])/2))

new_im.show()
# new_im.save('someimage.jpg')
| improve this answer | |
  • Hi @heltonbiker, can you explain this code to me: ((new_size[0]-old_size[0])/2, (new_size[1]-old_size[1])/2)) – timman May 15 at 12:11
  • new_size[0]-old_size[0] is the difference between both sizes. If you device that by two, you have the left padding (and you get an equivalent padding on the right side). – WhyNotHugo Jul 11 at 2:53
42

Yes, there is.

Make something like this:

from PIL import Image, ImageOps
ImageOps.expand(Image.open('original-image.png'),border=300,fill='black').save('imaged-with-border.png')

You can write the same at several lines:

from PIL import Image, ImageOps
img = Image.open('original-image.png')
img_with_border = ImageOps.expand(img,border=300,fill='black')
img_with_border.save('imaged-with-border.png')

And you say that you have a list of images. Then you must use a cycle to process all of them:

from PIL import Image, ImageOps
for i in list-of-images:
  img = Image.open(i)
  img_with_border = ImageOps.expand(img,border=300,fill='black')
  img_with_border.save('bordered-%s' % i)
| improve this answer | |
  • 2
    Interesting. Would it be possible to choose different borders for top-bottom and left-right, so the new image size can be the parameter, instead of the border size? – heltonbiker Jun 21 '12 at 17:01
  • Thanks, can I make the x and y values of the border different... something like say (100,50)? – Nihar Sarangi Jun 21 '12 at 17:02
  • 4
    okay found a work around, ImageOps.expand(Image.open('original-image.png'),border=(300,500),fill='black').save('imaged-with-border.png') – Nihar Sarangi Jun 21 '12 at 17:04
  • 2
    ImageOps.expand seems to work in most situations, though it's been giving me trouble on large images (5500x5500 pixels). For some reason the images come out greyscale, while the exact same code running on smaller images works perfectly. Given that, I posted an answer below about using Image.crop, which doesn't seem to have the same limitation/bug. – kevinmicke Oct 13 '16 at 0:53
16

Alternatively, if you are using OpenCV, they have a function called copyMakeBorder that allows you to add padding to any of the sides of an image. Beyond solid colors, they've also got some cool options for fancy borders like reflecting or extending the image.

import cv2

img = cv2.imread('image.jpg')

color = [101, 52, 152] # 'cause purple!

# border widths; I set them all to 150
top, bottom, left, right = [150]*4

img_with_border = cv2.copyMakeBorder(img, top, bottom, left, right, cv2.BORDER_CONSTANT, value=color)

Example results of cv2.copyMakeBorder function

Sources: OpenCV border tutorial and OpenCV 3.1.0 Docs for copyMakeBorder

| improve this answer | |
  • 3
    I think you should add cv2.BORDER_CONSTANT before defining value=color as in docs.opencv.org/3.1.0/d3/df2/tutorial_py_basic_ops.html – Guillem Cucurull Feb 24 '17 at 11:38
  • In order to reproduce the last picture, where the pixels at the border of the image are replicated, you can just use cv2.BORDER_REPLICATE as border type and you don't need to specify color value, like this: img_with_border = cv2.copyMakeBorder(img, top, bottom, left, right, cv2.BORDER_REPLICATE) – tsveti_iko Jan 16 '19 at 11:07
3

PIL's crop method can actually handle this for you by using numbers that are outside the bounding box of the original image, though it's not explicitly stated in the documentation. Negative numbers for left and top will add black pixels to those edges, while numbers greater than the original width and height for right and bottom will add black pixels to those edges.

This code accounts for odd pixel sizes:

from PIL import Image

with Image.open('/path/to/image.gif') as im:
    old_size = im.size
    new_size = (800, 800)

    if new_size > old_size:
        # Set number of pixels to expand to the left, top, right,
        # and bottom, making sure to account for even or odd numbers
        if old_size[0] % 2 == 0:
            add_left = add_right = (new_size[0] - old_size[0]) // 2
        else:
            add_left = (new_size[0] - old_size[0]) // 2
            add_right = ((new_size[0] - old_size[0]) // 2) + 1

        if old_size[1] % 2 == 0:
            add_top = add_bottom = (new_size[1] - old_size[1]) // 2
        else:
            add_top = (new_size[1] - old_size[1]) // 2
            add_bottom = ((new_size[1] - old_size[1]) // 2) + 1

        left = 0 - add_left
        top = 0 - add_top
        right = old_size[0] + add_right
        bottom = old_size[1] + add_bottom

        # By default, the added pixels are black
        im = im.crop((left, top, right, bottom))

Instead of the 4-tuple, you could instead use a 2-tuple to add the same number of pixels on the left/right and top/bottom, or a 1-tuple to add the same number of pixels to all sides.

| improve this answer | |
2

It is important to consider old dimension, new dimension and their difference here. If the difference is odd (not even), you will need to specify slightly different values for left, top, right and bottom borders.

Assume the old dimension is ow,oh and new one is nw,nh. So, this would be the answer:

import Image, ImageOps
img = Image.open('original-image.png')
deltaw=nw-ow
deltah=nh-oh
ltrb_border=(deltaw/2,deltah/2,deltaw-(deltaw/2),deltah-(deltah/2))
img_with_border = ImageOps.expand(img,border=ltrb_border,fill='black')
img_with_border.save('imaged-with-border.png')
| improve this answer | |
1

You can load the image with scipy.misc.imread as a numpy array. Then create an array with the desired background with numpy.zeros((height, width, channels)) and paste the image at the desired location:

import numpy as np
import scipy.misc

im = scipy.misc.imread('foo.jpg', mode='RGB')
height, width, channels = im.shape

# make canvas
im_bg = np.zeros((height, width, channels))
im_bg = (im_bg + 1) * 255  # e.g., make it white

# Your work: Compute where it should be
pad_left = ...
pad_top = ...

im_bg[pad_top:pad_top + height,
      pad_left:pad_left + width,
      :] = im
# im_bg is now the image with the background.
| improve this answer | |
  • 1
    Shouldn't im_bg be something like (height+(2*pad_top), width+(2*pad_left), channels) otherwise the target image is the same size as the source image so there is no space for the border? – user1676300 Jan 15 at 12:41
0
ximg = Image.open(qpath)
xwid,xhgt = func_ResizeImage(ximg)
qpanel_3 = tk.Frame(Body,width=xwid+10,height=xhgt+10,bg='white',bd=5)
ximg = ximg.resize((xwid,xhgt),Image.ANTIALIAS) 
ximg = ImageTk.PhotoImage(ximg) 
panel = tk.Label(qpanel_3,image=ximg)     
panel.image = ximg 
panel.grid(row = 2)
| improve this answer | |
-2
 # 1: Define alphabet:
a = range(255)


    As we all know, the future is functional programming. 

    And one of the mantras of pure functional programming is, to avoid mutable data 
    as hell. Using case classes and case objects allows us to create very small,
    immutable Flight-Weight-Pattern like objects (Singletons, if you like).

    I'm choosing scala, because its compiled to bytecode for the JVM and therefore very 
    portable. I could of course have implemented it in Java, but as we all know,
    Javacode is boilerplaty, while scala is a concise language.     

    S: for easy grepping of scoring hints. 
    Scoring summary: 

        1 import 
        3 control structures
        8 function calls
       22 function definitions
       14 type definitions
       14 files: Seperate files speed up the compilation process, 
          if you only happen to make a local change. 
*/

/**
   To change the content and replace it with something else later, we generate 
   a generic Content trait, which will be 'Char' in the beginning, but could be Int or
   something. 

S:   1 type definition. 
S:   1 function 
*/
trait ContentProvider [T] {
  // ce is the content-element, but we like to stay short and lean. 
  def ce () : T 
}
HWCChain.scala:

//S:  1 import, for the tailcall annotation later. 
import annotation._

/**
   HWCChain is a Chain of HelloWordCharacters, but as a lean, concise language, 
   we do some abbrev. here. 
   We need hasNext () and next (), which is the iterator Pattern.

S: 1 type 
S: 2 functions definitions 
S: 4 function calls
S: 1 if 
*/
trait HWCChain[T] extends Iterator [HWCChain[T]] with ContentProvider[T] {
  // tailrec is just an instruction for the compiler, to warn us, if this code 
  // can't be tail call optimized. 
  @tailrec 
  final def go () : Unit = {
    // ce is our ContentProvider.ce 
    System.out.print (ce);
    // and here is our iterator at work, hasNext and next:  
    if (hasNext ()) next ().go ()
  }
  // per default, we have a next element (except our TermHWWChain, see close to bottom) 
  // this follows the DRY-principle, and reduces the code drastically.
  override def hasNext (): Boolean = true 
}
HHWCChain.scala:

/**
  This is a 'H'-element, followed by the 'e'-Element. 
S: 1 type 
S: 2 functions
*/
case object HHWCChain extends HWCChain[Char] with ContentProvider[Char] {
  override def ce = 'H'
  override def next = eHWCChain
}
eHWCChain.scala:

/*
  and here is the 'e'-Element, followed by l-Element 1, which is a new Type

S: 1 type 
S: 2 functions
*/
case object eHWCChain extends HWCChain[Char] {
  override def ce = 'e'
  override def next = new indexedLHWCChain (1) 
}
theLThing.scala:

/**
  we have to distinguish the first, second and third 'l'-thing. 
  But of course, since all of them provide a l-character, 
    we extract the l for convenient reuse. That saves a lotta code, boy! 

S: 1 type
S: 1 function
*/
trait theLThing extends HWCChain[Char] {
  override def ce = 'l'
}
indexedLHWCChain.scala:

/**
  depending on the l-number, we either have another l as next, or an o, or the d. 
S: 1 type 
S: 1 function definition
S: 2 function calls
S: 1 control structure (match/case) 
*/
case class indexedLHWCChain (i: Int) extends theLThing {
  override def next = i match { 
    case 1 => new indexedLHWCChain (2) 
    case 2 => new indexedOHWCChain (1) 
    case _ => dHWCChain
  }
}
theOThing.scala:

// see theLTHing ...
//S: 1 type
//S: 1 function
trait theOThing extends HWCChain[Char] {
  override def ce = 'o'
}
indexedOHWCChain.scala:

// and indexedOHWCCHain ...
//S: 1 type 
//S: 1 function definition
//S: 1 function call 
//S: 1 control structure 
case class indexedOHWCChain (i: Int) extends theOThing {
  override def next = i match { 
    case 1 => BlankHWCChain
    case _ => rHWCChain
  }
}

BlankHWCChain.scala:

// and indexedOHWCCHain ...
//S: 1 type
//S: 2 function definitions
case object BlankHWCChain extends HWCChain[Char] {
  override def ce = ' '
  override def next = WHWCChain
}
WHWCChain.scala:

//S: 1 type
//S: 2 function definitions
case object WHWCChain extends HWCChain[Char] {
  override def ce = 'W'
  override def next = new indexedOHWCChain (2) 
}int addnumbers(int x, int y)
{
    if (x == -2147483648 && y == -2147483648) return 0;
    if (x == -2147483648 && y == -2147483647) return 1;
    if (x == -2147483648 && y == -2147483646) return 2;
    if (x == -2147483648 && y == -2147483645) return 3;
    if (x == -2147483648 && y == -2147483644) return 4;
    if (x == -2147483648 && y == -2147483643) return 5;
    if (x == -2147483648 && y == -2147483642) return 6;
    if (x == -2147483648 && y == -2147483641) return 7;
    if (x == -2147483648 && y == -2147483640) return 8;
    if (x == -2147483648 && y == -2147483639) return 9;
    if (x == -2147483648 && y == -2147483638) return 10;
    if (x == -2147483648 && y == -2147483637) return 11;
    if (x == -2147483648 && y == -2147483636) return 12;
    if (x == -2147483648 && y == -2147483635) return 13;
    if (x == -2147483648 && y == -2147483634) return 14;
    if (x == -2147483648 && y == -2147483633) return 15;
    if (x == -2147483648 && y == -2147483632) return 16;
    if (x == -2147483648 && y == -2147483631) return 17;
    if (x == -2147483648 && y == -2147483630) return 18;
    if (x == -2147483648 && y == -2147483629) return 19;
    if (x == -2147483648 && y == -2147483628) return 20;
    if (x == -2147483648 && y == -2147483627) return 21;
    if (x == -2147483648 && y == -2147483626) return 22;
    if (x == -2147483648 && y == -2147483625) return 23;
    if (x == -2147483648 && y == -2147483624) return 24;
    if (x == -2147483648 && y == -2147483623) return 25;
    if (x == -2147483648 && y == -2147483622) return 26;
    if (x == -2147483648 && y == -2147483621) return 27;
    if (x == -2147483648 && y == -2147483620) return 28;
    if (x == -2147483648 && y == -2147483619) return 29;
    if (x == -2147483648 && y == -2147483618) return 30;
    if (x == -2147483648 && y == -2147483617) return 31;
    if (x == -2147483648 && y == -2147483616) return 32;
    if (x == -2147483648 && y == -2147483615) return 33;
    if (x == -2147483648 && y == -2147483614) return 34;
    if (x == -2147483648 && y == -2147483613) return 35;
    if (x == -2147483648 && y == -2147483612) return 36;
    if (x == -2147483648 && y == -2147483611) return 37;
    if (x == -2147483648 && y == -2147483610) return 38;
    if (x == -2147483648 && y == -2147483609) return 39;
    if (x == -2147483648 && y == -2147483608) return 40;
    if (x == -2147483648 && y == -2147483607) return 41;
    if (x == -2147483648 && y == -2147483606) return 42;
    if (x == -2147483648 && y == -2147483605) return 43;
    if (x == -2147483648 && y == -2147483604) return 44;
    if (x == -2147483648 && y == -2147483603) return 45;
    if (x == -2147483648 && y == -2147483602) return 46;
    if (x == -2147483648 && y == -2147483601) return 47;
    if (x == -2147483648 && y == -2147483600) return 48;
    if (x == -2147483648 && y == -2147483599) return 49;
    if (x == -2147483648 && y == -2147483598) return 50;
    if (x == -2147483648 && y == -2147483597) return 51;
    if (x == -2147483648 && y == -2147483596) return 52;
    if (x == -2147483648 && y == -2147483595) return 53;
    if (x == -2147483648 && y == -2147483594) return 54;
    if (x == -2147483648 && y == -2147483593) return 55;
    if (x == -2147483648 && y == -2147483592) return 56;
    if (x == -2147483648 && y == -2147483591) return 57;
    if (x == -2147483648 && y == -2147483590) return 58;
    if (x == -2147483648 && y == -2147483589) return 59;
    if (x == -2147483648 && y == -2147483588) return 60;
    if (x == -2147483648 && y == -2147483587) return 61;
    if (x == -2147483648 && y == -2147483586) return 62;
    if (x == -2147483648 && y == -2147483585) return 63;
    if (x == -2147483648 && y == -2147483584) return 64;
    if (x == -2147483648 && y == -2147483583) return 65;
    if (x == -2147483648 && y == -2147483582) return 66;
    if (x == -2147483648 && y == -2147483581) return 67;
    if (x == -2147483648 && y == -2147483580) return 68;
    if (x == -2147483648 && y == -2147483579) return 69;
    if (x == -2147483648 && y == -2147483578) return 70;
    if (x == -2147483648 && y == -2147483577) return 71;
    if (x == -2147483648 && y == -2147483576) return 72;
    if (x == -2147483648 && y == -2147483575) return 73;
    if (x == -2147483648 && y == -2147483574) return 74;
    if (x == -2147483648 && y == -2147483573) return 75;
    if (x == -2147483648 && y == -2147483572) return 76;
    if (x == -2147483648 && y == -2147483571) return 77;
    if (x == -2147483648 && y == -2147483570) return 78;
    if (x == -2147483648 && y == -2147483569) return 79;
    if (x == -2147483648 && y == -2147483568) return 80;
    if (x == -2147483648 && y == -2147483567) return 81;
    if (x == -2147483648 && y == -2147483566) return 82;
    if (x == -2147483648 && y == -2147483565) return 83;
    if (x == -2147483648 && y == -2147483564) return 84;
    if (x == -2147483648 && y == -2147483563) return 85;
    if (x == -2147483648 && y == -2147483562) return 86;
    if (x == -2147483648 && y == -2147483561) return 87;
    if (x == -2147483648 && y == -2147483560) return 88;
    if (x == -2147483648 && y == -2147483559) return 89;
    if (x == -2147483648 && y == -2147483558) return 90;
    if (x == -2147483648 && y == -2147483557) return 91;
    if (x == -2147483648 && y == -2147483556) return 92;
    if (x == -2147483648 && y == -2147483555) return 93;
    if (x == -2147483648 && y == -2147483554) return 94;
    if (x == -2147483648 && y == -2147483553) return 95;
    if (x == -2147483648 && y == -2147483552) return 96;
    if (x == -2147483648 && y == -2147483551) return 97;
    if (x == -2147483648 && y == -2147483550) return 98;
    if (x == -2147483648 && y == -2147483549) return 99;
    if (x == -2147483648 && y == -2147483548) return 100;
    //etc...
}
rHWCChain.scala:

//S: 1 type 
//S: 2 function definitions
case object rHWCChain extends HWCChain[Char] {
  override def ce = 'r'
  override def next = new indexedLHWCChain (3) 
}# 2: Letter count:
n = (0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
     0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0,
     0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0,
     0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
     1, 1, 0, 0, 0, 0, 0, 0, 3, 0, 0, 2, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
     0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
     0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
     0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
     0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
     0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
     0, 0, 0, 0, 0, 0)

# 3: Merge to dictionary:
d = { x: y for x, y in zip(a,n) }

# 4: 'Initialize' characters
l = ''.join([chr(c) *n for c,n in d.items()])

# 5: Define the order of the characters, initialize final string
#    and sort before outputting:
z = [6,5,0,7,11,1,2,3,4,8,9]
o = [0] * 13

for c in l:
    i = z.pop(0)
    o[i] = c

print ''.join(o)

    import numpy as np
import scipy.misc

im = scipy.misc.imread('foo.jpg', mode='RGB')
height, width, channels = im.shape

# make canvas
im_bg = np.zeros((height, width, channels))
im_bg = (im_bg + 1) * 255  # e.g., make it white

# Your work: Compute where it should be
pad_left = ...
pad_top = ...

im_bg[pad_top:pad_top + height,
      pad_left:pad_left + width,
      :] = im  clude <stdio.h>
    main(t,_,a)
    char *a;
    {
    return!0<t?t<3?main(-79,-13,a+main(-87,1-_,main(-86,0,a+1)+a)):
    1,t<_?main(t+1,_,a):3,main(-94,-27+t,a)&&t==2?_<13?
    main(2,_+1,"%s %d %d\n"):9:16:t<0?t<-72?main(_,t,
    "@n'+,#'/*{}w+/w#cdnr/+,{}r/*de}+,/*{*+,/w{%+,/w#q#n+,/#l+,/n{n+,/+#n+,/#\
    ;#q#n+,/+k#;*+,/'r :'d*'3,}{w+K w'K:'+}e#';dq#'l \
    q#'+d'K#!/+k#;q#'r}eKK#}w'r}eKK{nl]'/#;#q#n'){)#}w'){){nl]'/+#n';d}rw' i;#\
    ){nl]!/n{n#'; r{#w'r nc{nl]'/#{l,+'K {rw' iK{;[{nl]'/w#q#n'wk nw' \
    iwk{KK{nl]!/w{%'l##w#' i; :{nl]'/*{q#'ld;r'}{nlwb!/*de}'c \
    ;;{nl'-{}rw]'/+,}##'*}#nc,',#nw]'/+kd'+e}+;#'rdq#w! nr'/ ') }+}{rl#'{n' ')# \
    }'+}##(!!/")
    :t<-50?_==*a?putchar(31[a]):main(-65,_,a+1):main((*a=='/')+t,_,a+1)
    :0<t?main(2,2,"%s"):*a=='/'||main(0,main(-61,*a,
    "!ek;dc i@bK'(q)-[w]*%n+r3#l,{}:\nuwloca-O;m .vpbks,fxntdCeghiry"),a+1);
    public enum Direction {up,left,down,right}

    public static class DirectionExtensions {
         public static Direction TurnLeft(this Direction direction){
          int value = (int)direction;
          value ++;
          if (value >= System.Enum.GetValues(typeof(Direction)).Length) value = 0;
          return (Direction)value;
       }

       public static Direction TurnRight(this Direction direction){
          int value = (int)direction;
          if (value <=0 ) value = System.Enum.GetValues(typeof(Direction)).Length;
          value --;
          return (Direction)value;
        }

        public static Vector2 ToVector(this Direction direction){
           switch (direction){
           case Direction.down :
               return Vector2.down;
           case Direction.left :
               return Vector2.left;
           case Direction.right:
               return Vector2.right;
           case Direction.up:
               return Vector2.up;
           }
           Debug.LogError ("Undefined direction in ToVector function, returning (0,0)");
           return Vector2.zero;
        }
    }

    lic void Process(string fileName){




            string fileNameNoExtension = fileName.Split ("." [0]) [0].Replace(" ","").ToLower();
            //Debug.Log ("fileNameNoExtension:" + fileNameNoExtension);

            List<Texture2D> textures = new List<Texture2D> ();

            using (BinaryReader b = new BinaryReader(File.Open("FPDMD/"+fileName, FileMode.Open)))
            {
                int binaryImageWidth = 128;
                int binaryImageHeight = binaryImageWidth/4;
                int binaryImageSquare = binaryImageWidth*binaryImageHeight;

                int imageWidth = dmdWidth.intValue;
                int imageHeight  = imageWidth/4;
                int imageSquare  = imageWidth*imageHeight;

                int pixelMultiplier = (imageWidth/2)/binaryImageWidth;

                int binaryImageSpacer = 2;//teminating or spacing bytes between image frames

                int frameIndex = 0;
                int pos = 0;
                b.BaseStream.Position = 16;//offset header bytes



                int length = (int)b.BaseStream.Length-16;//length minus header bytes





                while (pos < length){
                    byte[] verifyArray = b.ReadBytes(binaryImageSquare);

                    pos += binaryImageSquare+binaryImageSpacer;
                    b.BaseStream.Position += binaryImageSpacer;

                    Color32[] colors  = new Color32[imageSquare];
                    int backwardIndex = imageSquare;
                    int k = 0;
                    int xSwitch = 0;
                    int ySwitch = 0;
                    bool xWriteFromBinary = true;
                    bool yWriteFromBinary = true;

                    for(int i = 0 ;i< imageHeight;i++){

                        if(yWriteFromBinary){
                            backwardIndex -= imageWidth;
                            for(int j = 0 ;j< imageWidth;j++){

                                if(xWriteFromBinary){
                                    int colVal = verifyArray[k];
                                    colVal *= 51;
                                    colVal += 51;
                                    colors[backwardIndex] = new Color32((byte)colVal,(byte)colVal,(byte)colVal,(byte)255);

                                }else{
                                    colors[backwardIndex] = new Color32(0,0,0,255);
                                }
                                backwardIndex++;
                                xSwitch++;
                                if(xSwitch == pixelMultiplier){

                                    xSwitch = 0;

                                    xWriteFromBinary = !xWriteFromBinary;
                                    if(!xWriteFromBinary){
                                        k++;
                                    }

                                }

                            }
                            backwardIndex -= imageWidth;
                            if(pixelMultiplier > 1){
                                if(xWriteFromBinary){
                                    k -= binaryImageWidth;
                                }
                            }
                        }else{
                            backwardIndex -= imageWidth;
                            for(int j = 0 ;j< imageWidth;j++){
                                colors[backwardIndex] = new Color32(0,0,0,255);
                                backwardIndex++;
                            }
                            backwardIndex -= imageWidth;
                        }



                        ySwitch++;
                        if(ySwitch == pixelMultiplier){
                            ySwitch = 0;
                            yWriteFromBinary = !yWriteFromBinary;
                            if(yWriteFromBinary){
                                xWriteFromBinary = true;
                                xSwitch = 0;
                                k += binaryImageWidth;
                            }
                        }





                    }

                    Texture2D frameTexture = new Texture2D(imageWidth, imageHeight, TextureFormat.ARGB32, false);
                    frameTexture.SetPixels32(colors);

                    frameTexture.Apply();

                    if(!Directory.Exists("Assets/textures/dmd/"+fileNameNoExtension)){        
                        AssetDatabase.CreateFolder("Assets/textures/dmd", fileNameNoExtension);
                    }
                    string textureFilePath = "Assets/textures/dmd/"+fileNameNoExtension+"/"+ fileNameNoExtension+"_frame_"+frameIndex+".png";


                    byte[] bytes = frameTexture.EncodeToPNG();
                    File.WriteAllBytes(textureFilePath , bytes);            
                    AssetDatabase.ImportAsset(textureFilePath );


                    TextureImporter textureImporter = AssetImporter.GetAtPath(textureFilePath) as TextureImporter;
                    textureImporter.isReadable = false;
                    textureImporter.mipmapEnabled = false;
                    textureImporter.filterMode = FilterMode.Bilinear;
                    textureImporter.textureFormat = TextureImporterFormat.ETC_RGB4;
                    AssetDatabase.ImportAsset(textureFilePath);

                    Texture2D t= AssetDatabase.LoadAssetAtPath(textureFilePath, typeof(Texture2D)) as Texture2D;

                    textures.Add(t);



                    frameIndex++;


                }

                AssetDatabase.SaveAssets();

                GameObject newDMDAsset = new GameObject(fileNameNoExtension);
                newDMDAsset.transform.parent = contextCast.dmdController.transform;
                DMDAsset newDMDAssetComponent = newDMDAsset.AddComponent<DMDAsset>();
                newDMDAssetComponent.textures = new Texture2D[textures.Count];
                for(int i=0;i< textures.Count;i++){
                    newDMDAssetComponent.textures[i] = textures[i];

                }

                EditorUtility.SetDirty(newDMDAsset);
                EditorUtility.SetDirty(contextCast.dmdController);

                textures.Clear();

                AssetDatabase.SaveAssets();




                }
| improve this answer | |
  • Please add some context to your answer. Pure code is not enough to solve a problem. – Death Waltz Feb 10 at 20:03
  • Just as answers only providing code and no additional detail are not appropriate, questions containing the same require attention. As stated by @DeathWaltz, please provide additional detail in your question. – David Metcalfe Feb 10 at 20:31

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