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With a small amount of code, it's | |||
<blockquote>Raw: This is the simplest of all ways to store images, just as "raw" bytes. For example one byte per pixel for grey scale or 3 bytes per pixel for RGB colour. There is no standard header and so even the size of the image needs to be specified for programs that might read the image. <ref>Bourke, Paul. n.d. ‘A Beginners Guide to Bitmaps’. Accessed 2 January 2018. http://paulbourke.net/dataformats/bitmaps/. | |||
</ref></blockquote> | |||
Imagemagick can convert a bit-map file to a raw '''.dat''' – a not specific file type | |||
convert image.png image.dat | |||
And, it can also convert the .dat back into a bit-map | |||
[[User:Andre Castro|Andre Castro]] ([[User talk:Andre Castro|talk]]) 10:14, 29 January 2018 (CET) if you run: | |||
identify image.dat | |||
img.dat PNG 2102x2799 2102x2799+0+0 8-bit RGB 256c 33.6KB 0.000u 0:00.000 | |||
Hence the image still with PNG headers | |||
If you stick to the size, bit-depth and color profile of the original, the conversion will "preserve" the original | |||
convert -depth 8 -size 2102x2799 rgb:image.dat image2.png | |||
If you change those parameters, it is likely that the resulting bitmap will be something else! | |||
convert -depth 8 -size 1000x1000 rgb:image.dat image2.png | |||
convert -depth 24 -size 1000x1000 rgb:image.dat image2.png | |||
convert -depth 8 -size 1000x1000 gray:image.dat image2.png | |||
What we are doing here is, not unlike playing back audio files at bit-rate and sample-rates, different from the ones they were encoded in. | |||
But we can convert from a raw audio to an image file with | |||
convert -depth 8 -size 1000x1000 rgb:Zong3.raw Zong3.jpg | |||
or even an animated gif | |||
convert -depth 8 -size 1000x1000 rgb:Zong3.raw Zong3.jpg | |||
== What gets lost in a conversion ??== | |||
http://theghostinthemp3.com/ | |||
... | |||
==code experiments with Raw images== | |||
With a small amount of code, it's easy to dump out a stream of data as bytes: | |||
<source lang="python"> | <source lang="python"> | ||
# raw.py | |||
import struct, sys | import struct, sys | ||
out = | out = open("image.data", "wb") | ||
for x in range(100): | for x in range(100): | ||
out.write(struct.pack('B', 255)) | out.write(struct.pack('B', 255)) | ||
Line 9: | Line 60: | ||
out.write(struct.pack('B', 128)) | out.write(struct.pack('B', 128)) | ||
</source> | </source> | ||
The "wb" option in the open command means that we want to "write" "binary" data (the default behaviour of read would be to read a text file). | |||
When you run the script: | |||
python raw.py | |||
In Python, struct.pack is a way of converting a number (from 0 to 255) into it's corresponding binary representation as a "byte" or 8 bits (where 0 is all bits off 00000000 and 255 is all bits on 11111111). The code above loops 100 times outputting the bits of the sequence 255, 0, 0, 128. | |||
255 0 0 128 255 0 0 128 255 0 0 128 255 0 0 128... | |||
We can then use an image application like the [[GIMP]] to interpret this raw data as an image... In this case we tell the GIMP that it should interpret the bytes as being RGBA formatted pixels in the size 10 x 10: | |||
It then interprets the numbers as a stream of pixels in the form: | |||
RED GREEN BLUE ALPHA, RED GREEN BLUE ALPHA, ... | |||
So for the code above: | |||
255 (full) RED, 0 GREEN, 0 BLUE, 128 (half) ALPHA, ... | |||
[[File:GIMPRawImportDialog.png]][[File:GIMPRawImport.png]] | |||
The result is an image 10 pixels wide by 10 pixels tall, where every pixel is red with 50% transparency. | |||
== Put a header on it == | |||
Working with raw data file can be inconvenient however since everytime you want to view the data as an image, you need to explicitly tell an application (such as [[GIMP]]) what the size and format of the image is. We can improve the situation by attaching preceding the raw data with a simple "header" to and follow the guidelines (which specify the order of the bytes) of a specific simple image [[format]]. | |||
Targa is an early very simple format for images. It comes from an early manufacturer of video display cards, named Targa, who created a minimal format for files to display on their hardware. The format is still popular today in Game development and other communities for whom the simplicity of the format is useful for "wrapping" raw image data with a header so that it's self-contained and directly loadable by different programs without needing to explicitly specify information width and height and bit depth. | Targa is an early very simple format for images. It comes from an early manufacturer of video display cards, named Targa, who created a minimal format for files to display on their hardware. The format is still popular today in Game development and other communities for whom the simplicity of the format is useful for "wrapping" raw image data with a header so that it's self-contained and directly loadable by different programs without needing to explicitly specify information width and height and bit depth. | ||
<source lang="python"> | <source lang="python"> | ||
import struct | import struct, sys | ||
out = open("image.tga", "wb") | |||
width = 320 | width = 320 | ||
height = 240 | height = 240 | ||
header = struct.pack("<BBBHHBHHHHBB",0,0,2,0,0,8,0,0,width,height,32,1<<5) | |||
out.write(header) | |||
header = struct.pack("<BBBHHBHHHHBB", 0, 0, 2, 0, 0, 8, 0, 0, width, height, | |||
for y in xrange(height): | for y in xrange(height): | ||
for x in xrange(width): | for x in xrange(width): | ||
r | r = 0 | ||
g = 0 | |||
b = 0 | |||
a = 128 | |||
if y < 32: | if y < 32: | ||
r = 255 | r = 255 | ||
a = 255 | |||
if x > 64 and x < 256: | if x > 64 and x < 256: | ||
Line 40: | Line 114: | ||
r = 128 | r = 128 | ||
out.write(struct.pack('B', b)) | |||
out.write(struct.pack('B', g)) | |||
out.write(struct.pack('B', r)) | |||
out.write(struct.pack('B', a)) | |||
</source> | </source> | ||
This script outputs a [[TGA]] format, which has been opened in the [[GIMP]] and exported to [[PNG]] | This script outputs a [[TGA]] format, which has been opened in the [[GIMP]] and exported to [[PNG]] | ||
[[File: | [[File:Targa01.png]] | ||
Next: [[Raw image sequence]] | |||
== Resources == | == Resources == | ||
* This example is based on this [http://www.python.org.br/wiki/ImagemTGA Raw image example] (in Portugese) | * This example is based on this [http://www.python.org.br/wiki/ImagemTGA Raw image example] (in Portugese) | ||
==references== | |||
<references/> |
Latest revision as of 17:17, 29 January 2018
Raw: This is the simplest of all ways to store images, just as "raw" bytes. For example one byte per pixel for grey scale or 3 bytes per pixel for RGB colour. There is no standard header and so even the size of the image needs to be specified for programs that might read the image. [1]
Imagemagick can convert a bit-map file to a raw .dat – a not specific file type
convert image.png image.dat
And, it can also convert the .dat back into a bit-map
Andre Castro (talk) 10:14, 29 January 2018 (CET) if you run:
identify image.dat img.dat PNG 2102x2799 2102x2799+0+0 8-bit RGB 256c 33.6KB 0.000u 0:00.000
Hence the image still with PNG headers
If you stick to the size, bit-depth and color profile of the original, the conversion will "preserve" the original
convert -depth 8 -size 2102x2799 rgb:image.dat image2.png
If you change those parameters, it is likely that the resulting bitmap will be something else!
convert -depth 8 -size 1000x1000 rgb:image.dat image2.png
convert -depth 24 -size 1000x1000 rgb:image.dat image2.png
convert -depth 8 -size 1000x1000 gray:image.dat image2.png
What we are doing here is, not unlike playing back audio files at bit-rate and sample-rates, different from the ones they were encoded in.
But we can convert from a raw audio to an image file with
convert -depth 8 -size 1000x1000 rgb:Zong3.raw Zong3.jpg
or even an animated gif
convert -depth 8 -size 1000x1000 rgb:Zong3.raw Zong3.jpg
What gets lost in a conversion ??
...
code experiments with Raw images
With a small amount of code, it's easy to dump out a stream of data as bytes:
# raw.py
import struct, sys
out = open("image.data", "wb")
for x in range(100):
out.write(struct.pack('B', 255))
out.write(struct.pack('B', 0))
out.write(struct.pack('B', 0))
out.write(struct.pack('B', 128))
The "wb" option in the open command means that we want to "write" "binary" data (the default behaviour of read would be to read a text file).
When you run the script:
python raw.py
In Python, struct.pack is a way of converting a number (from 0 to 255) into it's corresponding binary representation as a "byte" or 8 bits (where 0 is all bits off 00000000 and 255 is all bits on 11111111). The code above loops 100 times outputting the bits of the sequence 255, 0, 0, 128.
255 0 0 128 255 0 0 128 255 0 0 128 255 0 0 128...
We can then use an image application like the GIMP to interpret this raw data as an image... In this case we tell the GIMP that it should interpret the bytes as being RGBA formatted pixels in the size 10 x 10:
It then interprets the numbers as a stream of pixels in the form:
RED GREEN BLUE ALPHA, RED GREEN BLUE ALPHA, ...
So for the code above:
255 (full) RED, 0 GREEN, 0 BLUE, 128 (half) ALPHA, ...
The result is an image 10 pixels wide by 10 pixels tall, where every pixel is red with 50% transparency.
Put a header on it
Working with raw data file can be inconvenient however since everytime you want to view the data as an image, you need to explicitly tell an application (such as GIMP) what the size and format of the image is. We can improve the situation by attaching preceding the raw data with a simple "header" to and follow the guidelines (which specify the order of the bytes) of a specific simple image format.
Targa is an early very simple format for images. It comes from an early manufacturer of video display cards, named Targa, who created a minimal format for files to display on their hardware. The format is still popular today in Game development and other communities for whom the simplicity of the format is useful for "wrapping" raw image data with a header so that it's self-contained and directly loadable by different programs without needing to explicitly specify information width and height and bit depth.
import struct, sys
out = open("image.tga", "wb")
width = 320
height = 240
header = struct.pack("<BBBHHBHHHHBB",0,0,2,0,0,8,0,0,width,height,32,1<<5)
out.write(header)
for y in xrange(height):
for x in xrange(width):
r = 0
g = 0
b = 0
a = 128
if y < 32:
r = 255
a = 255
if x > 64 and x < 256:
g = 255
if y > 120:
r = 128
out.write(struct.pack('B', b))
out.write(struct.pack('B', g))
out.write(struct.pack('B', r))
out.write(struct.pack('B', a))
This script outputs a TGA format, which has been opened in the GIMP and exported to PNG
Next: Raw image sequence
Resources
- This example is based on this Raw image example (in Portugese)
references
- ↑ Bourke, Paul. n.d. ‘A Beginners Guide to Bitmaps’. Accessed 2 January 2018. http://paulbourke.net/dataformats/bitmaps/.