ISWA 2010 for Implementers
alanpost at SUNFLOWERRIVER.ORG
Wed May 4 18:22:02 UTC 2011
You are amazing!
Thank you so much, you've eliminated a huge worry I had about using
new versions of SignWriting.
On Wed, May 04, 2011 at 01:03:00PM -0500, Steve Slevinski wrote:
> Hi Alan,
> I updated the ISWA 2010 conversion for the BSW 3 strings you are using.
> Use Online: http://www.signbank.org/iswa_dev/convert/
> Download: http://www.signbank.org/iswa_dev/convert.zip
> The conversion package requires a PHP configured web server.
> I was able to convert and verify the test string you sent.
> On 5/3/11 3:57 PM, Alan Post wrote:
> To convert the BSW 3 string to the ASCII Markup of Formal SignWriting,
> use the following page:
> The conversion page will output the ASCII markup. You can verify the
> markup with the import page of SignPuddle 1.6 beta.
> If the import process was successful, press the Data Format button for
> the preliminary Unicode and visualization.
> The rest of this email steps through the conversion.
> Here's the technical details of how the conversion works for your
> string, using groups of 3 digits.
> Your string contains 2 parts. A spatial arrangement:
> 0fb 15a38d39a 47a4c7 1c538c393 4854b9 20638c392 4884d3
> Second part is a temporal order.
> 0fd 1c538c393 15a38d39a 20638c392
> In Formal SignWriting, the temporal order comes first. Instead of using
> a character code, the temporal prefix uses the ASCII letter "A". A
> temporal order is just a list of ordered symbols.
> In Formal SignWriting, symbols are refered to with symbol keys in the
> form of "S" followed by 3 digits for the base character and 2 digits for
> the position. The first digit of the position represents the fill and
> the second digit of the position represents the rotation.
> Your string identifies 3 symbols. Each symbol is identified with 9 digits.
> The string 1c538c393 becomes key S1c501.
> The string 15a38d39a becomes key S15a18.
> The string 20638c392 becomes key 20600.
> Considering the symbol key "S15a18", the base in hexadecimal is "15a".
> The position is "18" in hex. The position, fill, and rotation all start
> from 1, so remember to add 1 to the hexadecimal to decimal conversion.
> The position is 25, the fill is 2 and the rotation is 9.
> If we look again at the temporal order in the new ASCII markup, we have:
> A S1c501 S15a18 S20600
> Preliminary Unicode uses 3 characters to identify a symbol.
> A 𝣅𝪡 𝡚𝪛𝪨 𝤆
> If a font was working, these character sequences would be replaced with
> the appropriate symbol image.
> This is the visualization for the temporal order to your sign. We call
> it the SignSpelling Sequence. It is used for sorting.
> Just as we replace the sequence character with "A", we also replace the
> sign box lane markers with ASCII characters "L, M, R" for left lane,
> middle lane, and right lane.
> If we return to the spatial arrangement of your string with updated lane
> marker and symbol keys:
> M S15a18 47a4c7 S1c501 4854b9 S20600 4884d3
> One of the last parts to convert are the coordinates. Your string has
> the following coordinates:
> These coordinates use 3 hexadecimal digits per number. In your string,
> each number starts with a 4. The first coordinate in your string is (
> "47a","4c7") which is the top-left of the symbol. When recentered for
> zero, the coordinate resolves to (-18,-5).
> Formal SignWriting does not use coordinate characters, but a string
> representation. Negative numbers use the letter "n" as a prefix.
> Numbers are combined with the letter "x". The coordinates (-18,-5) would
> use the string "n18xn5".
> If we put it all together, the Formal SignWriting string for your sign is:
> With Preliminary Unicode, the string becomes:
> Once a font is installed, the data can be seen as:
> A M18x18 n18xn5 n7xn19 n4x7
> It's still complicated, but much easier to explain. The temporal
> sequence starts the string. This optional prefix sorts the signs.
> The sign is in the middle lane. The first coordinate of "18x18" is the
> new maximum coordinate for the sign - a preprocessed value based on
> (0,0) as the center of the sign. This new coordinate makes layout easy
> and fast. Using the "padding-left" attribute of CSS, sign layout is as
> simple as addition and subtraction.
.i ma'a lo bradi ku penmi gi'e du
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