![\"Mona](\"http://farm4.static.flickr.com/3346/3518306770_1de2bc2970.jpg?v=0\")
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nNote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on. Thank you to everyone who submitted and entry; I enjoyed all of them. This has been a lot of fun for me to run, and I hope it's been fun for both the entrants and the spectators.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n![\"Lena\"](\"http://ephemera.continuation.org/stackoverflow/challenge/lena.png\" "\\"Lena\\"")
\n![\"Mona](\"http://upload.wikimedia.org/wikipedia/commons/6/6a/Mona_Lisa.jpg\" "\\"Mona")
\n![\"Cornell](\"http://upload.wikimedia.org/wikipedia/commons/2/24/Cornell_box.png\" "\\"Cornell")
\n![\"StackOverflow](\"http://ephemera.continuation.org/stackoverflow/challenge/so-logo.png\" "\\"StackOverflow"){kind=logo}
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner
\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nNote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on. Thank you to everyone who submitted and entry; I enjoyed all of them. This has been a lot of fun for me to run, and I hope it's been fun for both the entrants and the spectators.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner\nMay 28: More precise details on deadline\nMay 28: Cleanup of links, mention PPM\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.\nMay 21: Added deadline information\nMay 21: Posted original challenge
\n", "last_tags": [], "revision_guid": "97316f3c-11dc-4f29-b5ee-af95009bb6f1", "revision_number": 13, "tags": [], "revision_type": "single_user", "set_community_wiki": false, "user": { "user_id": 11410, "user_type": "registered", "display_name": "Benjol", "reputation": 13035, "email_hash": "501465a53bf1042de206d7d79cc68942" }, "post_id": 891643 }, { "body": "If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nNote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on. Thank you to everyone who submitted and entry; I enjoyed all of them. This has been a lot of fun for me to run, and I hope it's been fun for both the entrants and the spectators.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner\nMay 28: More precise details on deadline\nMay 28: Cleanup of links, mention PPM\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.\nMay 21: Added deadline information\nMay 21: Posted original challenge
\n", "comment": "Added link to MATLAB [Wikipedia]. Minor edit: grammar/spelling/case/punctation/etc.", "creation_date": 1260570586, "is_question": true, "is_rollback": false, "last_body": "If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nNote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on. Thank you to everyone who submitted and entry; I enjoyed all of them. This has been a lot of fun for me to run, and I hope it's been fun for both the entrants and the spectators.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner
\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nNote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on. Thank you to everyone who submitted and entry; I enjoyed all of them. This has been a lot of fun for me to run, and I hope it's been fun for both the entrants and the spectators.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner
\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on. Thank you to everyone who submitted and entry; I enjoyed all of them. This has been a lot of fun for me to run, and I hope it's been fun for both the entrants and the spectators.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner
\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on. Thank you to everyone who submitted and entry; I enjoyed all of them. This has been a lot of fun for me to run, and I hope it's been fun for both the entrants and the spectators.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner
\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner
\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: That's it folks! Bounty deadline is here, and after some tough deliberation, I have decided that Boojum's entry just barely edged out Sam Hocevar's. I will post more detailed notes once I've had a chance to write them up. Of course, everyone should feel free to continue to submit solutions and improve solutions for people to vote on.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 30: Bounty deadline up, picked winner
\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: 2 day countdown has begun. Get your entries in by 4 PM Saturday, May 30 or I may not be able to look at them before deciding my bounty.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: 2 day countdown has begun. Get your entries in by 4 PM Saturday, May 30 or I may not be able to look at them before deciding my bounty.
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out, about 6 PM on Saturday, May 30. I can't say the precise time it will end; it may be anywhere from 5 to 7 PM. I will guarantee that I'll look at all entries submitted by 2 PM, and I will do my best to look at all entries submitted by 4 PM; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 28: More precise details on deadline
\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: challenge has been edited for organization and clarifications; see bottom of challenge for edit history
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out; I cannot say the exact timing of when that will happen, as StackOverflow only tells me an estimate (4 days remaining; it will go to hourly accuracy in the last day). The StackOverflow bounty system works by automatically awarding the bounty to the highest voted solution if I have not accepted an answer yet; so I will need to accept an answer before the bounty runs out. I can guarantee that I will be able to evaluate all solutions that are submitted before 12 hours in advance of the deadline, and I will do my best to evaluate all solutions that are submitted within 2 hours of the deadline; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: challenge has been edited for organization and clarifications; see bottom of challenge for edit history
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out; I cannot say the exact timing of when that will happen, as StackOverflow only tells me an estimate (4 days remaining; it will go to hourly accuracy in the last day). The StackOverflow bounty system works by automatically awarding the bounty to the highest voted solution if I have not accepted an answer yet; so I will need to accept an answer before the bounty runs out. I can guarantee that I will be able to evaluate all solutions that are submitted before 12 hours in advance of the deadline, and I will do my best to evaluate all solutions that are submitted within 2 hours of the deadline; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 28: Cleanup of links, mention PPM
\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: challenge has been edited for organization and clarifications; see bottom of challenge for edit history
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out; I cannot say the exact timing of when that will happen, as StackOverflow only tells me an estimate (4 days remaining; it will go to hourly accuracy in the last day). The StackOverflow bounty system works by automatically awarding the bounty to the highest voted solution if I have not accepted an answer yet; so I will need to accept an answer before the bounty runs out. I can guarantee that I will be able to evaluate all solutions that are submitted before 12 hours in advance of the deadline, and I will do my best to evaluate all solutions that are submitted within 2 hours of the deadline; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: challenge has been edited for organization and clarifications; see bottom of challenge for edit history
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nU+0000–U+10FFFF, excluding non-characters (U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF) and surrogate code points (U+D800–U+DFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice. See Unicode notes below for more details.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nThese are basically rules that may be broken, suggestions, or scoring criteria:
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nSome folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
I am offering a 500 rep bounty (plus the 50 that StackOverflow kicks in) for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThis contest will run until the bounty runs out; I cannot say the exact timing of when that will happen, as StackOverflow only tells me an estimate (4 days remaining; it will go to hourly accuracy in the last day). The StackOverflow bounty system works by automatically awarding the bounty to the highest voted solution if I have not accepted an answer yet; so I will need to accept an answer before the bounty runs out. I can guarantee that I will be able to evaluate all solutions that are submitted before 12 hours in advance of the deadline, and I will do my best to evaluate all solutions that are submitted within 2 hours of the deadline; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n\nThere has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFF where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca. I have seen some documentation stating that Twitter entity-encodes <, >, and &, and thus counts those as 4, 4, and 5 characters respectively, but I have not tested that out myself, and their JavaScript character counter doesn't seem to count them that way.
\n\nMay 27: Reorganized and cleaned up rules and guidelines; added tips and links
\nMay 26: Mentioned deadline issues and removed the soft cap of 100 lines
\nMay 22: Added reference images, clarifications about Unicode, and a rough scoring rubric
\nMay 21: Updated to allow 140 arbitrary Unicode characters. While the Twitter web form counts by UTF-16 code units, the API allows 140 arbitrary Unicode characters, so we'll use that definition to allow more flexibility.
\nMay 21: Added deadline information
\nMay 21: Posted original challenge
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: see important note on deadline below
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\nU+0000–U+10FFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThe timeline will be that I will offer a bounty as soon as I am able to (2 days from when this was posted), and you will have until the bounty runs out, 1 week, to submit solutions.
\n\nedit: It turns out only the JavaScript character counter counts via UTF-16 code units; the Twitter API allows posting up to 140 arbitrary Unicode characters. So, the rules have been revised to reflect that; you may use any Unicode character (U+0000–U+10FFFF) as one single character, though as a guideline, I'd say it would be preferred if you don't use control characters, private use characters, unallocated characters, or other questionable characters. Twitter also restricts < and >, which need to be entity encoded as < and >.
edit 2: Some folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
There has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFE where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca.
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nThis contest will run until the bounty runs out; I cannot say the exact timing of when that will happen, as StackOverflow only tells me an estimate (4 days remaining; it will go to hourly accuracy in the last day). The StackOverflow bounty system works by automatically awarding the bounty to the highest voted solution if I have not accepted an answer yet; so I will need to accept an answer before the bounty runs out. I can guarantee that I will be able to evaluate all solutions that are submitted before 12 hours in advance of the deadline, and I will do my best to evaluate all solutions that are submitted within 2 hours of the deadline; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n", "last_tags": [], "revision_guid": "cf0e3794-2e03-4f7c-b281-daf3140a05f6", "revision_number": 6, "tags": [], "revision_type": "single_user", "set_community_wiki": false, "user": { "user_id": 69755, "user_type": "registered", "display_name": "Brian Campbell", "reputation": 68511, "email_hash": "6aa87e056bd2ee342fbd56eb2110603c" }, "post_id": 891643 }, { "body": "If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nnote: see important note on deadline below
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\nU+0000–U+10FFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThe timeline will be that I will offer a bounty as soon as I am able to (2 days from when this was posted), and you will have until the bounty runs out, 1 week, to submit solutions.
\n\nedit: It turns out only the JavaScript character counter counts via UTF-16 code units; the Twitter API allows posting up to 140 arbitrary Unicode characters. So, the rules have been revised to reflect that; you may use any Unicode character (U+0000–U+10FFFF) as one single character, though as a guideline, I'd say it would be preferred if you don't use control characters, private use characters, unallocated characters, or other questionable characters. Twitter also restricts < and >, which need to be entity encoded as < and >.
edit 2: Some folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
There has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFE where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca.
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nThis contest will run until the bounty runs out; I cannot say the exact timing of when that will happen, as StackOverflow only tells me an estimate (4 days remaining; it will go to hourly accuracy in the last day). The StackOverflow bounty system works by automatically awarding the bounty to the highest voted solution if I have not accepted an answer yet; so I will need to accept an answer before the bounty runs out. I can guarantee that I will be able to evaluate all solutions that are submitted before 12 hours in advance of the deadline, and I will do my best to evaluate all solutions that are submitted within 2 hours of the deadline; if solutions are submitted after that, I may not have a chance to give them a fair look before I have to make my decision. Also, the earlier you submit, the more chance you will have for voting to be able to help me pick the best solution, so try and submit earlier rather than right at the deadline.
\n", "comment": "mention deadline issues and remove 100 line soft limit", "creation_date": 1243340957, "is_question": true, "is_rollback": false, "last_body": "If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\nU+0000–U+10FFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThe timeline will be that I will offer a bounty as soon as I am able to (2 days from when this was posted), and you will have until the bounty runs out, 1 week, to submit solutions.
\n\nedit: It turns out only the JavaScript character counter counts via UTF-16 code units; the Twitter API allows posting up to 140 arbitrary Unicode characters. So, the rules have been revised to reflect that; you may use any Unicode character (U+0000–U+10FFFF) as one single character, though as a guideline, I'd say it would be preferred if you don't use control characters, private use characters, unallocated characters, or other questionable characters. Twitter also restricts < and >, which need to be entity encoded as < and >.
edit 2: Some folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
There has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFE where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca.
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nIf a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\nU+0000–U+10FFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThe timeline will be that I will offer a bounty as soon as I am able to (2 days from when this was posted), and you will have until the bounty runs out, 1 week, to submit solutions.
\n\nedit: It turns out only the JavaScript character counter counts via UTF-16 code units; the Twitter API allows posting up to 140 arbitrary Unicode characters. So, the rules have been revised to reflect that; you may use any Unicode character (U+0000–U+10FFFF) as one single character, though as a guideline, I'd say it would be preferred if you don't use control characters, private use characters, unallocated characters, or other questionable characters. Twitter also restricts < and >, which need to be entity encoded as < and >.
edit 2: Some folks have asked for some reference images. Here are a few reference images that you can try; smaller versions are embedded here, they all link to larger versions of the image if you need those:
\n\n\n\n\n
There has also been some confusion on exactly what Unicode characters are allowed. The range of possible Unicode code points is U+0000 to U+10FFFF. There are some code points which are never valid to use as Unicode characters in any open interchange of data; these are the noncharacters and the surrogate code points. Noncharacters are defined in the Unidode Standard 5.1.0 section 16.7 as the values U+FFFE, U+FFFF, U+nFFFE, U+nFFFE where n is 1–10 hexadecimal, and the range U+FDD0–U+FDEF. These values are intended to be used for application-specific internal usage, and conforming applications may strip these characters out of text processed by them. Surrogate code points, defined in the Unicode Standard 5.1.0 section 3.8 as U+D800–U+DFFF, are used for encoding characters beyond the Basic Multilingual Plane in UTF-16; thus, it is impossible to represent these code points directly in the UTF-16 encoding, and it is invalid to encode them in any other encoding. Thus, for the purpose of this contest, I will allow any program which encodes images into a sequence of no more than 140 Unicode code points from the range U+0000–U+10FFFF, excluding all noncharacters and surrogate pairs as defined above.
I will prefer solutions that use only assigned characters, and even better ones that use clever subsets of assigned characters or do something interesting with the character set they use. For a list of assigned characters, see the Unicode Character Database; note that some characters are listed directly, while some are listed only as the start and end of a range. Also note that surrogate code points are listed in the database, but forbidden as mentioned above. If you would like to take advantage of certain properties of characters for making the text you output more interesting, there are a variety of databases of character information available, such as a list of named code blocks and various character properties.
\n\nSince Twitter does not specify the exact character set they support, I will be lenient about solutions which do not actually work with Twitter because certain characters count extra or certain characters are stripped. It is preferred but not required that all encoded outputs should be able to be transferred unharmed via Twitter or another microblogging service such as identi.ca.
\n\nAs a general guide to how I will be ranking solutions when choosing my accepted solution, lets say that I'll probably be evaluating solutions on a 25 point scale (this is very rough, and I won't be scoring anything directly, just using this as a basic guideline):
\n\nIf a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\nU+0000–U+10FFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThe timeline will be that I will offer a bounty as soon as I am able to (2 days from when this was posted), and you will have until the bounty runs out, 1 week, to submit solutions.
\n\nedit: It turns out only the JavaScript character counter counts via UTF-16 code units; the Twitter API allows posting up to 140 arbitrary Unicode characters. So, the rules have been revised to reflect that; you may use any Unicode character (U+0000–U+10FFFF) as one single character, though as a guideline, I'd say it would be preferred if you don't use control characters, private use characters, unallocated characters, or other questionable characters. Twitter also restricts < and >, which need to be entity encoded as < and >.
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\nU+0000–U+10FFFF). It may be output in any reasonable encoding of your choice; any encoding supported by GNU iconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThe timeline will be that I will offer a bounty as soon as I am able to (2 days from when this was posted), and you will have until the bounty runs out, 1 week, to submit solutions.
\n\nedit: It turns out only the JavaScript character counter counts via UTF-16 code units; the Twitter API allows posting up to 140 arbitrary Unicode characters. So, the rules have been revised to reflect that; you may use any Unicode character (U+0000–U+10FFFF) as one single character, though as a guideline, I'd say it would be preferred if you don't use control characters, private use characters, unallocated characters, or other questionable characters. Twitter also restricts < and >, which need to be entity encoded as < and >.
If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\niconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThe timeline will be that I will offer a bounty as soon as I am able to (2 days from when this was posted), and you will have until the bounty runs out, 1 week, to submit solutions.
\n", "last_tags": [], "revision_guid": "520763b4-2cbf-4ed6-867e-60ecbe733df8", "revision_number": 3, "tags": [], "revision_type": "single_user", "set_community_wiki": false, "user": { "user_id": 69755, "user_type": "registered", "display_name": "Brian Campbell", "reputation": 68511, "email_hash": "6aa87e056bd2ee342fbd56eb2110603c" }, "post_id": 891643 }, { "body": "If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress images into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\niconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n\nThe timeline will be that I will offer a bounty as soon as I am able to (2 days from when this was posted), and you will have until the bounty runs out, 1 week, to submit solutions.
\n", "comment": "mention deadline for submissions", "creation_date": 1242912508, "is_question": true, "is_rollback": false, "last_body": "If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress characters into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\niconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n", "last_tags": [], "revision_guid": "eff0d96a-2c2c-4d80-80a2-b0666a6943aa", "revision_number": 2, "tags": [], "revision_type": "single_user", "set_community_wiki": false, "user": { "user_id": 69755, "user_type": "registered", "display_name": "Brian Campbell", "reputation": 68511, "email_hash": "6aa87e056bd2ee342fbd56eb2110603c" }, "post_id": 891643 }, { "body": "If a picture's worth 1000 words, how much of a picture can you fit in 140 characters?
\n\nI came across this interesting post about trying to compress images into a Twitter comment, and lots of people in that thread (and a thread on Reddit) had suggestions about different ways you could do it. So, I figure it would make a good coding challenge; let people put their money where their mouth is, and show how their ideas about encoding can lead to more detail in the limited space that you have available.
\n\nI challenge you to come up with a general purpose system for encoding images into 140 character Twitter messages, and decoding them into an image again. You can use Unicode characters, so you get more than 8 bits per character. Even allowing for Unicode characters, however, you will need to compress characters into a very small amount of space; this will certainly be a lossy compression, and so there will have to be subjective judgements about how good each result looks.
\n\nHere is the result that the original author, Quasimondo, got from his encoding (image is licensed under a Creative Commons Attribution-Noncommercial license):\n
Can you do better?
\n\nHere are the rules:
\n\niconv will be considered reasonable, and your platform native encoding or locale encoding would likely be a good choice.For the sake of consistency in user interface, your program must behave as follows:
\n\nencode or decode to set the mode.Your program must take input in one or more of the following ways (if you implement the one that takes file names, you may also read and write from stdin and stdout if file names are missing):
\n\nTake input from standard in and produce output on standard out.
\n\nmy-program encode <input.png >output.txt\nmy-program decode <output.txt >output.png\nTake input from a file named in the second argument, and produce output in the file named in the third.
\n\nmy-program encode input.png output.txt\nmy-program decode output.txt output.png\nAnd here are the guidelines (rules that may be broken, suggestions, and scoring criteria):
\n\nNow, if you got through all of that, here's the kicker: I will be offering a 500 rep bounty for the solution that I like the best, based on the above criteria. Of course, I encourage everyone else to vote on their favorite solutions here as well.
\n", "comment": "", "creation_date": 1242887872, "is_question": true, "is_rollback": false, "last_tags": [], "revision_guid": "bfc28be9-d81f-4177-943d-c8082bf7beea", "revision_number": 1, "tags": [ "code-golf", "twitter", "compression", "unicode" ], "title": "Twitter image encoding challenge", "revision_type": "single_user", "set_community_wiki": false, "user": { "user_id": 69755, "user_type": "registered", "display_name": "Brian Campbell", "reputation": 68511, "email_hash": "6aa87e056bd2ee342fbd56eb2110603c" }, "post_id": 891643 } ] }