Difference between revisions of "Convert"

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=== Time String ===
 
=== Time String ===
  
Converting a [[Convert#Time|time]] parameter to "Time String" adds one sub-parameter called "Time", of type time:
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Converting a [[Convert#String|string]] parameter to "Time String" adds one sub-parameter called "Time", of type time:
  
 
* time "Time"  
 
* time "Time"  

Revision as of 14:06, 9 April 2008

Languages Language: 

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Right-clicking on a value in the Parameters dialog brings up a context menu which has a sub-menu called "Convert". The "Convert" menu allows you to specify that the parameter should be controlled automatically in various ways. Depending on the type of the parameter the Convert menu will contain different options.

To convert the value back to its original type, select "Disconnect" from its context menu.

Convert Types

Add

Converting a parameter to "Add" adds three sub-parameters, the first two of which are the same type as the parameter itself:

  • <param> "LHS"
  • <param> "RHS"
  • real "Scalar"

The "Add" conversion can be used with parameters of type angle, color, gradient, integer, real, time, and vector.

The resulting value is:

  (LHS + RHS) * Scalar

aTan2

Converting an angle-valued parameter to "aTan2" adds two sub-parameters:

  • real "X"
  • real "Y".

The resulting value is:

  atan2(y,x)

ie. atan(y/x) but without an error when x is 0. The value is the angle between the x axis and the vector (x,y).

BLine

Converting a list parameter to "BLine" doesn't seem to change anything. Perhaps that's the default type for lists of vertices, such as are found in outlines and regions?

BLine Tangent

Converting a angle, real (since SVN r1862), or vector parameter to "BLine Tangent" adds six sub-parameters:

  • bline "BLine"
  • bool "Loop"
  • real "Amount"
  • angle "Offset" (since SVN r1863)
  • real "Scale" (since SVN r1863)
  • bool "Fixed Length" (since SVN r1863)

Amount is a number between 0 and 1, defining the distance along the given bline. The resulting value for the whole parameter is the tangent to the bline, at the given point along the bline, optionally rotated and scaled according to the "Offset", "Scale", and "Fixed Length" parameters.

"Offset" is an angle used to give the tangent an extra rotation before returning it. If "Fixed Length" is true, the tangent is then scaled to have a length equal to "Scale". Otherwise the tangent is multiplied by "Scale".

If a vector was converted the result is the tangent itself. If an angle was converted, the result is the angle of the tangent to the horizontal, and if a real was converted, the result is the length of the tangent.


This tutorial gives an example of the use of this convert type.

BLine Vertex

Converting a vector parameter to "BLine Vertex" adds three sub-parameters:

  • bline "BLine"
  • bool "Loop"
  • real "Amount"

Amount is a number between 0 and 1, defining the distance along the given bline. The resulting value for the whole parameter is a vector giving the position of the given point along the bline.

This tutorial gives an example of the use of this convert type.

BLine Width

Converting a real parameter to "BLine Width" adds three sub-parameters:

  • bline "BLine"
  • bool "Loop"
  • real "Amount"
  • real "Scale" (since SVN r1872)

Amount is a number between 0 and 1, defining the distance along the given bline. The resulting value for the whole parameter is the width of the bline at the given point along it, multiplied by the "Scale" parameter.

Composite

Converting a blinepoint parameter to "Composite" adds six sub-parameters:

  • vector "Vertex"
  • real "Width"
  • real "Origin"
  • bool "Split Tangents"
  • vector "Tangent 1"
  • vector "Tangent 2"

Converting a color parameter to "Composite" adds four real-valued sub-parameters:

  • real "Red"
  • real "Green"
  • real "Blue"
  • real "Alpha"

Converting a segment parameter to "Composite" adds four vertex sub-parameters:

  • vertex "Vertex 1"
  • vertex "Tangent 1"
  • vertex "Vertex 2"
  • vertex "Tangent 2"

Converting a vector parameter to "Composite" adds two real-valued sub-parameters:

  • real "X-Axis"
  • real "Y-Axis"

The resulting value is a blinepoint, color, segment, or vector made by combining the component parts.

Cos

Converting a real-valued parameter to "Cos" adds two sub-parameters:

  • angle "Angle"
  • real "Amplitude".

The resulting value is:

  Amplitude * cos(Angle)

Dot Product

Converting a real or angle parameter to a "Dot Product" adds two sub-parameters:

  • vector "LHS"
  • vector "RHS"

If the converted value is an angle, the return value is the angle between the two vectors:

return = acos((LHS · RHS) / (|LHS| * |RHS|))

If the converted value is a real, the result value is the dot product of the two vectors:

return = LHS · RHS = |LHS| * |RHS| * cos(alpha)

(where alpha is the angle between LHS and RHS).

Duplicate

This ValueNode type is only used by the Duplicate Layer. It never appears in the Convert menu. It is used to control the range of the Index in the Duplicate Layer (q.v.).

The "Duplicate" ValueNode type has 3 real-valued sub-parameters:

  • real "From"
  • real "To"
  • real "Step"

The value of the ValueNode varies from the value of "From" to the value of "To" in steps of size "Step". The sign of "Step" is ignored. If From<To the steps are positive, else they're negative.

Dynamic List

Converting a list parameter to "Dynamic List" seems to replace each of the "Vertex NNN" sub-parameters with "Item NNN" parameters which can't be expanded, but can be exported.

Exponential

Converting a real parameter to "Exponential" adds two sub-parameters:

  • real "Exponent"
  • real "Scale"

The resulting value is the result raising the mathematical constant 'e' to the power of Exponent, and scaling the result by Scale. That is, it returns:

 Scale * e^Exponent

This is useful for tracking layers which have been zoomed, since the Zoom layer scales by e^(zoom factor).

See this video for an example of the use of this convert type.

From Integer

This is currently disabled. It converts an integer to one of several types.

Gradient Color

Converting a color parameter to "Gradient Color" adds two sub-parameters:

  • gradient "Gradient"
  • real "Index"

The resulting value is a color taken from the gradient at the given index position. Index 0 corresponds to the left of the gradient; index 1 corresponds to the right of the gradient.

Gradient Rotate

Converting a gradient parameter to "Gradient Rotate" adds two sub-parameters:

  • gradient "Gradient"
  • real "Offset"

The resulting value is a gradient based on the "Gradient" parameter, but shifted left (for negative values) or right, according to the value of the "Offset" parameter. An offset of 1.0 will shift the gradient by its entire visible width. Values shifted off the left or right edge aren't lost - they aren't visible in the gradient as it's displayed in the parameters dialog, but they will still be used when rendering (depending on parameters such as 'Loop' and 'Zigzag', which can cause gradients to be looped between their their left and right edges, rather than using the non-displayed parts).

Linear

Converting an angle parameter to be 'Linear' adds two angle sub-parameters:

  • angle "Rate"
  • angle "Offset"

Converting a color parameter to be 'Linear' adds two angle sub-parameters (since svn r617):

  • color "Rate"
  • color "Offset"

Converting an integer parameter to be 'Linear' adds two angle sub-parameters (since svn r617):

  • integer "Rate"
  • integer "Offset"

Converting a real parameter to be 'Linear' adds two real-valued sub-parameters:

  • real "Rate"
  • real "Offset"

Converting a time parameter to be 'Linear' adds two time sub-parameters:

  • time "Rate"
  • time "Offset"

Converting a vector parameter to be 'Linear' adds two vector sub-parameters:

  • vector "Slope"
  • vector "Offset"

The parameter's value will change linearly over time, starting with the value specified by "Offset" at time zero, and increasing by the value specified by "Rate" (or "Slope", in the case of vector parameters) every second.

The resulting value for vector parameters is:

  Offset + Slope*time

and for the other 5 types of parameter it is:

  Offset + Rate*time

Radial Composite

Converting a color to "Radial Composite" adds four sub-parameters:

  • real "Luma"
  • real "Saturation"
  • angle "Hue"
  • real "Alpha"

Converting a vector to "Radial Composite" adds two sub-parameters:

  • real "Radius"
  • angle "Theta"

For color parameters, the resulting value is the color with the given lima, saturation, hue, and alpha amounts.

For vector parameters, the resulting value is the point reached by traveling a distance "Radius" from the origin, in the distance given by the angle "Theta".

Random

(currently only in subversion)

Converting a parameter to "Random" adds five sub-parameters, the first of which is the same type as the converted parameter:

  • <param> "Link"
  • real "Radius"
  • integer "Seed"
  • real "Animation Speed"
  • integer "Interpolation"

"Random" can be used on angles, colors, integers, reals, times, and vectors.

It is used to cause a parameter's value to vary randomly over time, around a central value:

  • "Link" provides the central value.
  • "Radius" defines the maximum random difference.
  • "Seed" seeds the random number generator
  • "Animation Speed" defines how often a new random value is chosen (in choices per second)
  • "Interpolation" determines how the value is interpolated from one random choice to the next. Possible values are:
    • 0 - no interpolation; the value jumps from one value to the next
    • 1 - linear interpolation
    • 2 - cosine
    • 3 - spline
    • 4 - cubic (the default); uses Catmull-Rom spline interpolation

The "Interpolation" sub-parameter should really be a drop-down menu, rather than an integer field, but that isn't yet implemented.

Range

Converting a parameter to "Range" adds three sub-parameters, all the same type as the parameter itself:

  • <param> "Min"
  • <param> "Max"
  • <param> "Link"

"Range" can be used on angles, integers, reals, and times.

It is used to limit the value of the linked parameter to be between Min and Max.

The resulting value is:

  Min (if Link < Min)
  Max (if Link > Max)
  Link (otherwise)

Reciprocal

Converting a real-valued parameter to "Reciprocal" adds three sub-parameters:

  • real "Link"
  • real "Epsilon".
  • real "Infinite".

The resulting value is:

  1/Link (Link <= -epsilon or epsilon <= Link)
  Infinite (if 0 <= Link < epsilon)
  -Infinite (if -epsilon < Link < 0)

The epsilon and infinite parameters are only needed to prevent division by zero. For regular operation the resulting value is simply the reciprocal of Link.

Reference

Converting a parameter to "Reference" adds a single sub-parameter called "Link". The "Link" parameter is the same type as the parameter being converted.

It doesn't seem to do anything at all, other than adding an extra parameter. Whatever value is put into "Link" becomes the value of the parameter being converted.

The only use for this conversion type I can think of is the following:

  • you know that point A should follow point B, so you export point B and connect point A to it
  • you're not yet sure exactly how point B should move, so you experiment with different conversion types for point B
  • changing the conversion type for point B breaks the connection you made in the first step
  • converting point B to be a reference, and then experimenting with different conversions in its "Link" parameter allows point A to connect to point B and for the connection to remain in place while you experiment in the "Link" parameter

The resulting value is:

  Link

Repeat Gradient

Converting a gradient parameter to "Repeat Gradient" adds seven sub-parameters:

  • gradient "Gradient"
  • integer "Count"
  • real "Width"
  • bool "Specify Start"
  • bool "Specify End"
  • color "Start Color"
  • color "End Color"

The resulting value is a gradient containing "Count" equally spaced, equally wide copies of gradient "Gradient". Each copy has "Gradient" going forwards and then backwards. "Width" specifies relative width of the forward copy, with a width of 0 or less meaning only the backward copy is used, and a width of 1 or more meaning only the forward copy is used. A value of 0.5 will result in the forward and reverse copies of "Gradient" being the same width.

If "Specify Start" is checked then "Start Color" will be inserted at the beginning of the new gradient, otherwise the beginning of "Gradient" will be used as the beginning of the new gradient.

If "Specify End" is checked then "End Color" will be appended to the end of the new gradient, otherwise the end of "Gradient" will be used as the end of the new gradient.

Here's an example of a repeated gradient - the radiating green/yellow lines are a repeated gradient, applied to a perpendicular curve gradient. This gradient was repeated with a width of 0.5, meaning it is used backwards and forwards the same amount:

Repeat-gradient-valuenode-gradient.png

and here's the resulting image, along with the .sif file:

Repeat-gradient-valuenode.png File:Repeat-gradient-valuenode.sif

Reverse Tangent

Converting a blinepoint parameter to "Reverse Tangent" adds two sub-parameters: one called "Reference" of type BLinePoint, and a boolean parameter called "Reverse".

  • BLinePoint "Reference"
  • bool "Reverse"

"Reverse Tangent" can only be used on blinepoints.

The resulting value is the same as the reference BLinePoint, but with its tangents switched over. This is useful when attempting to link the verticies of a region to the vertices of an outline when the region and the outline were drawn in opposite directions, and so tangent1 of an outline vertex needs to be linked to tangent2 of the region vertex, and vice versa.

Scale

Converting a parameter to "Scale" adds two sub-parameters: one called "Link", of the same type as the parameter itself, and a real-valued parameter called "Scalar".

  • <param> "Link"
  • real "Scalar"

"Scale" can be used on angles, colors, integers, reals, times, and vectors.

The resulting value is:

  Link * Scalar

Segment Tangent

Converting a vector parameter to "Segment Tangent" adds two sub-parameters:

  • segment "Segment"
  • real "Amount"

Amount is a number between 0 and 1, defining the distance along the given segment. The resulting value for the whole parameter is the tangent to the segment, at the given point along the segment.

Segment Vertex

Converting a vector parameter to "Segment Vertex" adds two sub-parameters:

  • segment "Segment"
  • real "Amount"

Amount is a number between 0 and 1, defining the distance along the given segment. The resulting value is the vertex at the given point along the segment.

Sine

Converting a real-valued parameter to "Sine" adds two sub-parameters:

  • angle "Angle"
  • real "Amplitude".

The resulting value is:

  Amplitude * sin(Angle)

Step

Converting an angle, color, integer, real, time, or vector parameter to be 'Step' adds four sub-parameters:

  • <param> "Link"
  • time "Duration"
  • time "Start Time"
  • real "Intersection"

The parameter's value will change in steps. Each step is "Duration" seconds long. The steps start at times "Start Time", "Start Time"+"Duration", etc. The value of the valuenode is the value of "Link" at some time. "Intersection" determines which time is used. An "Intersection" of 0.0 means that the value of "Link" at the start of the step should be used. An "Intersection" of 0.5 (the default) means to use the value of "Link" at the middle of the step, etc.

The resulting value at time Failed to parse (MathML with SVG or PNG fallback (recommended for modern browsers and accessibility tools): Invalid response ("Math extension cannot connect to Restbase.") from server "https://api.formulasearchengine.com/v1/":): {\displaystyle T} is:

  Failed to parse (MathML with SVG or PNG fallback (recommended for modern browsers and accessibility tools): Invalid response ("Math extension cannot connect to Restbase.") from server "https://api.formulasearchengine.com/v1/":): {\displaystyle Link \Bigg ( \Bigg ( Duration \cdot \left ( \left \lfloor \frac{T - Start\ Time}{Duration} \right \rfloor + Intersection \right ) \Bigg ) + Start \ Time \Bigg )}

Example

"Link" is a sine wave. "Duration" is 10f (the frame rate is 24 fps). "Start Time" is 1s.

So one step starts at 1s, and others start at 0s 14f, 0s 4f, 1s 10f, etc.

This is the sine wave:

Smooth-sine.png

And this is the effect of the Step valuenode on it, with an "Intersection" of 0.0. Notice that at time 0s, the step has a negative value -- that step runs from -6f to 4f, and so its value is the value of Link at time -6f. These images were created in The Gimp - it's not currently possible to view two curves at the same time in Synfig Studio.

Stepped-sine-0.0.png

Here it is with an "Intersection" of 0.5:

Stepped-sine-0.5.png

and here, with an "Intersection" of 1.0:

Stepped-sine-1.0.png

Stripes

Converting a gradient parameter to "Stripes" adds four sub-parameters:

  • color "Color 1"
  • color "Color 2"
  • integer "Stripe Count"
  • real "Width"

The resulting value is a gradient containing "Stripe Count" equally spaced, equally wide stripes of color "Color 2" with a background of "Color 1". "Width" specifies the width of the stripes, with a width of 0 or less meaning they are invisible, and a width of 1 or more meaning the whole gradient is of "Color 2".

Subtract

Converting a parameter to "Subtract" adds three sub-parameters, the first two of which are the same type as the parameter itself:

  • <param> "LHS"
  • <param> "RHS"
  • real "Scalar"

The "Subtract" conversion can be used with parameters of type angle, color, gradient, integer, real, time, and vector.

The resulting value is:

  (LHS - RHS) * Scalar

Switch

Converting a parameter to "Switch" adds three sub-parameters:

  • <param> "Link Off"
  • <param> "Link On"
  • bool "Switch"

"Link Off" and "Link On" are the same type as the parameter being converted.

The resulting value is the value of "Link Off" when "Switch" is off, and "Link On" when "Switch" is on.

This conversion can be used on all value types.

Time Loop

Converting a parameter to "Time Loop" adds four sub-parameters: one called "Link", of the same type as the parameter itself, and three time parameters:

  • <param> "Link"
  • time "Link Time"
  • time "Local Time"
  • time "Duration"

It works similarly to the Time Loop Layer but affects only a single parameter.

For any integer value n, from "Local Time + abs(Duration)*n" to "Local Time + abs(Duration)*(n+1)", the resulting value of the parameter is the same as that of the "Link" parameter from "Link Time" to "Link Time + Duration".

In other words, "Duration" seconds of values of the parameter "Link" starting from time "Link Time" onwards are looped over and over, with the value of the "Link"ed parameter at time "Link Time" corresponding to the resulting value at time "Local Time".

As an example, suppose the "Link" parameter has a value of time the current time. At 0s the value is 0, at 10s the value is 20.

If we set:

  • Link Time = 5s
  • Local Time = 2s
  • Duration = 4s

then from 2s to 6s and from 6s to 10s, etc., the resulting value is the value of "Link" from 5s to 9s, as follows:

Then the resulting values will be:

  • 0s -> "Link" value at 7s = 14
  • 1s -> "Link" value at 8s = 16
  • 2s -> "Link" value at 5s = 10 (at "Link Time" = 2s, result is the value of "Link" at "Link Time" = 5s = 10)
  • 3s -> "Link" value at 6s = 12
  • 4s -> "Link" value at 7s = 14
  • 5s -> "Link" value at 8s = 16
  • 6s -> "Link" value at 5s = 10 ("Duration" = 4s later, the value is the same as at 2s)
  • 7s -> "Link" value at 6s = 12

If "Duration" is zero, the resulting value is whatever the value of the "Link" parameter is at time "Link Time".

If "Duration" is negative, the resulting value at "Local Time" still matches the value of "Link" at "Link Time", but the animation goes in the opposite direction. For example:

If we set:

  • Link Time = 5s
  • Local Time = 2s
  • Duration = -4s

then from 2s to 6s and from 6s to 10s, etc., the resulting value is the value of "Link" from 5s to 1s, as follows:

Then the resulting values will be:

  • 0s -> "Link" value at 3s = 6
  • 1s -> "Link" value at 2s = 4
  • 2s -> "Link" value at 5s = 10 (at "Link Time" = 2s, result is the value of "Link" at "Link Time" = 5s = 10)
  • 3s -> "Link" value at 4s = 8
  • 4s -> "Link" value at 3s = 6
  • 5s -> "Link" value at 2s = 4
  • 6s -> "Link" value at 5s = 10 (4s later, the value is the same as at "Link Time" = 2s)
  • 7s -> "Link" value at 4s = 8

This conversion can be used on all value types.

Time String

Converting a string parameter to "Time String" adds one sub-parameter called "Time", of type time:

  • time "Time"

The result is a string containing the given time.

Timed Swap

This convert type was disabled in Synfig 0.61.06 and earlier because it didn't work.

Converting a parameter to "Timed Swap" adds four sub-parameters:

  • <param> "Before"
  • <param> "After"
  • time "Swap Time"
  • time "Swap Duration"

"Before" and "After" are the same type as the parameter being converted.

This conversion type linearly switches from "Before" to "After", taking "Swap Duration" seconds to do so, and completing the swap at "Swap Time".

Note that this doesn't give us anything that we can't achieve using the "Linear" conversion type and a few waypoints.

"Timed Swap" can be used on angles, colors, integers, reals, times, and vectors.

The resulting value is:

  if time > "Swap Time" then "After"
  else if time < ("Swap Time" - "Swap Duration") then "Before"
  else interpolate between "Before" and "After"

Two-Tone

Converting a gradient to "Two-Tone" adds two color-valued sub-parameters:

  • color "Color1"
  • color "Color2"

The resulting gradient has two CPoints, one at each end, starting with "Color1" and ending with "Color2".

These color parameters can be animated, giving us the ability to have the gradient change color over time. This can be used as a workaround for this bug.

Vector Angle

Converting an angle to "Vector Angle" adds a vector sub-parameter:

  • vector "Vector"

The resulting value is the angle between the vector and the X axis.

Vector Length

Converting a real to "Vector Length" adds a vector sub-parameter:

  • vector "Vector"

The resulting value is the length of the vector.

Vector X

Converting a real to "Vector X" adds a vector sub-parameter:

  • vector "Vector"

The resulting value is the X component of the vector.

Vector Y

Converting a real to "Vector Y" adds a vector sub-parameter:

  • vector "Vector"

The resulting value is the Y component of the vector.

Which Value Types can use which Convert Types?

There are 13 different types of value in Synfig. Each of these types has a different set of convert types available to it, as follows:

Angle

Type angle icon.png

BLinePoint

Type blinepoint icon.png

Bool

Type bool icon.png

Canvas

Type canvas icon.png

Color

Type color icon.png

Gradient

Tool gradient icon.png

Integer

Type integer icon.png

List

Type list icon.png

Real

Type real icon.png

Segment

Type segment icon.png

String

Type string icon.png

Time

Type time icon.png

Vector

Type vector icon.png

Compatibility

When a new ValueNode type is added to Synfig, the .sif file format is extended to include a way of writing the new type. This extension won't be able to be read by any older version of Synfig. Here's a list of the ValueNode types that have been added, along with the subversion revision number in which they first appeared:

Version Revision Convert



(0.61.09) not yet released  
  2000 Time String
  1891 Dot Product
  1885 Gradient Color
  1882 Vector X
  1882 Vector Y
  1881 Vector Length
  1880 Vector Angle



(0.61.08) 1839  
  1694 BLine Width
  1690 Random (for bools)
  1691 Step
  1354 Subtract (for gradients)
  1354 Add (for gradients)
  1267 From Integer
  1267 Duplicate
  1238 Reciprocal
  1226 Time Loop
  1162 Reverse Tangent
  1132 aTan2
  1111 Cos
  923 Switch
  907 Random



(0.61.07) 878  
  776 Range
  744 BLine Vertex
  744 BLine Tangent
  742 Add
  739 Exponential
  666 Repeat Gradient
  610 Timed Swap



(0.61.06) 536  


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