Difference between revisions of "SWF e-book"

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[[Category:Examples/ACTIONSCRIPT]][[Category:e-book]]
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{{legacy}}__NOTOC__
[[*SWF e-book.as|SWF e-book.xml|set-publish.xml|swf.php]]
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[[Image:SWF e-book.png]]
__NOTOC__
 
<table cellpadding=10><tr>
 
<td>[[Image:SWF e-book.png]]
 
<td>[[*SWF e-book.as|SWF e-book.xml|swf.php|nowiki.php]]
 
</table>
 
  
 
*The foundation of the effects can be built from resolving points '''P''' and '''Q'''
 
*The foundation of the effects can be built from resolving points '''P''' and '''Q'''
 
*'''P''' and '''Q''' are obtained from the intersections of the top and right page edges with line '''D'''
 
*'''P''' and '''Q''' are obtained from the intersections of the top and right page edges with line '''D'''
 
*Line '''D''' is perpendicular to line '''C''' and passes through point '''Z''' which is the midpoint of line '''C'''
 
*Line '''D''' is perpendicular to line '''C''' and passes through point '''Z''' which is the midpoint of line '''C'''
 +
*The angle '''a''' in the code is the angle of '''E''' wrt to the horizintal.
 +
**''(&pi;/2 - a)/2'' is the angle of '''D''' to the vertical
 
*Source code is [[SWF e-book.as]]
 
*Source code is [[SWF e-book.as]]
  
= Planned code =
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== Planned code ==
 
{| border cellspacing=0 cellpadding=2
 
{| border cellspacing=0 cellpadding=2
 
|-
 
|-
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|}
 
|}
  
= Current issues =
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== Current issues ==
== Flipping the folding operation horizntally and vertically ==
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=== Flipping the folding operation horizntally and vertically ===
 
Here's the diffs showing the changes for flipping the page-fold horizontally or vertically (middle best handled after these two)...
 
Here's the diffs showing the changes for flipping the page-fold horizontally or vertically (middle best handled after these two)...
 
*[{{SERVER}}/wiki/index.php?title=E-book_comb.as&diff=44073&oldid=44072 TR &rarr; TL] ''(uses Tx to flip right to left)''
 
*[{{SERVER}}/wiki/index.php?title=E-book_comb.as&diff=44073&oldid=44072 TR &rarr; TL] ''(uses Tx to flip right to left)''
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Notice that the differences can all be expressed as simple changes of sign of an item in some of the expressions. ''Tx'' is -1 or +1, ''Ty'' is -1, 0 or +1. ''Tx'' and ''Ty'' use those values so that they can be used as multipliers to either change the sign of what they multiplied with (if its -1) or leave it unchanged if its +1.
 
Notice that the differences can all be expressed as simple changes of sign of an item in some of the expressions. ''Tx'' is -1 or +1, ''Ty'' is -1, 0 or +1. ''Tx'' and ''Ty'' use those values so that they can be used as multipliers to either change the sign of what they multiplied with (if its -1) or leave it unchanged if its +1.
  
== text position and rotation ==
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=== text position and rotation ===
 
The text can't be rotated while it's using device-rendering for fonts. They must be embedded, but the ming-format fonts have to be embedded from [[swf.php]] (and could later be incorporated into the associated XML articles like PNG's etc).
 
The text can't be rotated while it's using device-rendering for fonts. They must be embedded, but the ming-format fonts have to be embedded from [[swf.php]] (and could later be incorporated into the associated XML articles like PNG's etc).
  
== page-fold rendering bug ==
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=== page-fold rendering bug ===
 
The current problem which I'll check out a bit more soon is that at a certain point moving outside the top-right of the page causes a rendering problem, it appears as a large triagular page where it should actually exit without folding at all in those scenarios. Here's a table showing the values of points P,Q,R and co-ordinates x,y and dx,dy for three cases of movement near the problem area. The first column is the working case, the second is the triangle problem which has its left most point in the books top-center, and the last column is the triangle with left point far off the left side.
 
The current problem which I'll check out a bit more soon is that at a certain point moving outside the top-right of the page causes a rendering problem, it appears as a large triagular page where it should actually exit without folding at all in those scenarios. Here's a table showing the values of points P,Q,R and co-ordinates x,y and dx,dy for three cases of movement near the problem area. The first column is the working case, the second is the triangle problem which has its left most point in the books top-center, and the last column is the triangle with left point far off the left side.
 
{| border cellspacing=0 cellpadding=2
 
{| border cellspacing=0 cellpadding=2
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|}
 
|}
  
= Animation =
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== Animation ==
<table cellpadding=10><tr>
 
<td valign=top>
 
 
The animation motion is based on a simple gravitational attractor where the target mass is high and its position fixed. The point in motion exhibits a decreasing mass so that it doesn't have any tendency to orbit the target. It is being tested and refined in [[e-book/attractor.as]].
 
The animation motion is based on a simple gravitational attractor where the target mass is high and its position fixed. The point in motion exhibits a decreasing mass so that it doesn't have any tendency to orbit the target. It is being tested and refined in [[e-book/attractor.as]].
<td>[[*e-book/attractor.as|SWF e-book.xml|swf.php|nowiki.php]]
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[[Category:Jack]]
</table>
 

Latest revision as of 21:21, 28 June 2015

Legacy.svg Legacy: This article describes a concept that has been superseded in the course of ongoing development on the Organic Design wiki. Please do not develop this any further or base work on this concept, this is only useful for a historic record of work done. You may find a link to the currently used concept or function in this article, if not you can contact the author to find out what has taken the place of this legacy item.

SWF e-book.png

  • The foundation of the effects can be built from resolving points P and Q
  • P and Q are obtained from the intersections of the top and right page edges with line D
  • Line D is perpendicular to line C and passes through point Z which is the midpoint of line C
  • The angle a in the code is the angle of E wrt to the horizintal.
    • (π/2 - a)/2 is the angle of D to the vertical
  • Source code is SWF e-book.as

Planned code

onMouseDown
  • set tx,ty from mouse position
onMouseUp
  • sets animation counter (i) if not a drag
  • complete set of following jpg
  • mask for following jpg
  • display jpgs on uncovered pages
  • embed text
  • display next or previous text on uncovered pages
  • decorate animation
  • write index page
  • set up zoom in function
onFrame
  • if animating, coords = Animate(i--,tx,ty)
  • if dragging coords = mouse position
  • if coords were set, pageTurn(coords,tx,ty)
  • calculate correct angle for following jpg

Current issues

Flipping the folding operation horizntally and vertically

Here's the diffs showing the changes for flipping the page-fold horizontally or vertically (middle best handled after these two)...

Notice that the differences can all be expressed as simple changes of sign of an item in some of the expressions. Tx is -1 or +1, Ty is -1, 0 or +1. Tx and Ty use those values so that they can be used as multipliers to either change the sign of what they multiplied with (if its -1) or leave it unchanged if its +1.

text position and rotation

The text can't be rotated while it's using device-rendering for fonts. They must be embedded, but the ming-format fonts have to be embedded from swf.php (and could later be incorporated into the associated XML articles like PNG's etc).

page-fold rendering bug

The current problem which I'll check out a bit more soon is that at a certain point moving outside the top-right of the page causes a rendering problem, it appears as a large triagular page where it should actually exit without folding at all in those scenarios. Here's a table showing the values of points P,Q,R and co-ordinates x,y and dx,dy for three cases of movement near the problem area. The first column is the working case, the second is the triangle problem which has its left most point in the books top-center, and the last column is the triangle with left point far off the left side.

P (0,0) (0,0) (∞,0)
Q (250,5) (250,300) (250,300)
R (250,5) (250,300) (250,300)
x,y (250,10) (0,<1) (250,0)
dx,dy (0,10) (250,<1) (0,0)

Animation

The animation motion is based on a simple gravitational attractor where the target mass is high and its position fixed. The point in motion exhibits a decreasing mass so that it doesn't have any tendency to orbit the target. It is being tested and refined in e-book/attractor.as.