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Generates a ramp by interpolating points. By default, the points are setup to mimic a 4-corner ramp. However, any number of points can be used.
Each point is assigned its own color and weight. The point weight determines how much area the point affects. Increasing a point’s weight will make it affect a larger area.
This type of ramp complements the more structured ramps found in the Ramp operator.
This COP node is a generator.
In the viewport, the ramp can be edited using:
Add a new ramp point. |
click at the desired point location. |
Move a point. |
Drag the point using |
Change the color of a point. |
click the point to change. Use the color editor to select the color. |
Select a point. |
Alt + |
Select multiple points. |
Drag Alt + around the points. |
Increase or decrease a point’s weight. |
Drag on the point with . |
Parameters
CornerRamp
Point Distance
Determines how the distance from a point is calculated.
Radial
Straight line distance; produces a radial interpolation.
Block
Horizontal + Vertical distance; produces more linear interpolation
Correct for Aspect Ratio
When on, the aspect ratio of the image is compensated for, so that Radial Distance computations produce circular falloffs, regardless of the shape of the image.
Ramp Points
Even though this operator normally produces 4 corner ramps, you can add as many (or as few) points as you like to produce more detailed ramps. At least 2 ramp points are recommended, otherwise the ramp will be constant.
These parameters occur once for each point.
Point [num]
The (u,v) location of this ramp point.
Color
The color of this ramp point.
Weight
The weight of a point determines how much it contributes to the ramp. The point weight is relative to all other points' weights (so if all the weights are 2, the ramp would appear the same as if they were all 1). Increasing a point’s weight makes a larger area of effect in the ramp. Setting the weight to zero removes the point from the ramp altogether.
Mask
The mask parameters control the mask applied when a node is connected to the mask input. The Effect Amount parameter is always available, whether a mask is connected or not.
Effect Amount
If no mask is present, this multiplies the output by a constant amount (0 = black, 1 = all output).
If a mask is present, this amount multiplies the mask.
Mask Plane
A mask can be a component of a plane or an entire plane. If a vector plane is supplied as a mask, its components are multiplied by the images' components.
Scalar Mask ('A', 'C.r')
C.r = I.r * M C.g = I.g * M C.b = I.b * M
Vector Mask ('C')
C.r = I.r * M.r C.g = I.g * M.g C.b = I.b * M.b
Invert Mask
Inverts the mask so that all fully 'masked' portions become unmasked. This saves you from inserting an Invert COP after the node with the mask.
Image
Parameters relating to the structure of the image generated, including Resolution, Pixel Aspect Ratio and Raster Depth.
Override Size
If off, the resolution of the image is defined by the resolution in the Composite Project settings. If on, any resolution can be specified.
Pixel Aspect Ratio
If off, the pixel aspect ratio of the image is defined by the pixel aspect ratio in the Composite Project settings. If on, any pixel aspect ratio can be specified.
The pixel aspect ratio determines the shape of the pixel; it represents the width of the pixel compared to the height. A pixel with an aspect ratio of '2' is twice as wide as it is high (2:1). Pixel aspect ratios less than 1 are taller than they are wide.
The image viewer attempts to show the image as it would appear by horizontally scaling the image by the pixel aspect ratio. This can result in slight artifacts for non-integer ratios (ie, 0.9:1, 1.442:1). Turn off 'Fast Pixel Aspect' in the Display Options to suppress these artifacts.
Many effect filters that have parameters that represent width and height will have the width scaled appropriately (such as Blur, Defocus, Expand).
Image Planes
Specifies the plane(s) to generate. Color and Alpha will always be present, but the generator does not always have to write to them.
The list of planes is all the ones Houdini recognizes as special. Other planes can be added with the 'Custom Planes' parameter.
C, A (C:rgb A)
Color and Alpha
C, A (C:rgb A:rgb)
Color and 3-channel Alpha
C (rgb)
Color only
A
Alpha only
A (rgb)
3-channel Alpha only
M
Mask plane
M (rgb)
3-channel Mask plane
Z
Z Depth plane
L
Luminance plane
B (uv)
Bump plane
P (xyz)
Point plane
N (xyz)
Normal plane
V (xyz)
Velocity plane
None
No planes generated.
Add Plane
When a generator is connected to an input, it generates a Mask plane by default. This parameter determines which planes are generated in this case. The list of planes to generate are the same as 'Image Planes'.
In addition, if the plane already exists in the input sequence, one of the following operations will be performed to combine the new plane.
Replace
Input plane replaced by the generated plane.
(G)
Rename
Generated plane renamed.
Add
Input plane added to the generated plane.
(I+G)
Screen
Input plane photographically added to the generated plane.
(I+G-I*G)
Subtract
Generated plane subtracted from the input plane.
(I-G)
.
Multiply
Input plane multiplied by the generated plane.
(IxG)
Min
Minimum pixel value of input and generated planes.
(min{I,G})
Max
Maximum pixel value of input and generated planes.
(max{I,G})
Average
Average pixel value of the input and generated planes.
(I+G)/2
Custom Planes
This string parameter allows you to create your own plane formats. The syntax is:
planename(arraysize){comp1,comp2,comp3,comp4}:format(black,white)
All parts are optional except for planename
. arraysize
must
be 1 or greater (default 1). comp1
to comp4
are arbitrary strings
representing the component names. format
is either i8
,
i16
, i32
, f16
or f32
. black
and white
are integers
representing the black & white points for integer formats.
Raster Depth
The byte format of the image. Higher bit depths provide better color resolution and range at the expense of memory.
8 Bit Integer
Lowest bit depth. Banding can occasionally be seen. Suitable for video.
16 Bit Integer
Intermediate bit depth. No banding can be seen, though clipping can still occur below and above the black and white points.
32 Bit Integer
Generally not used for color, 32bit integer values are used to store object IDs, counts, and other integer values with a large range.
16 Bit Floating Point
High bit depth. No banding can be seen, and no clipping occurs at white and black. Uses less memory than 32 bit float, however processing time for this format is slightly higher as it is not a native CPU data format. This format supports values in the range -65504 to +65504.
32 Bit Floating Point
High bit depth. No banding can be seen, and no clipping occurs at white and black. Uses 4× as much memory as 8bit, which is this format’s main drawback.
Default Depth
Use the raster depth specified in the Composite Project options.
Black/White Points
The integer formats (8, 16 and 32 bit) can specify the raw values that the black and white points occur at. The white point must always be higher than the black point. The minimum and maximum values for the black and white points for each format are:
8 bit | : | 0 - 255 |
16 bit | : | 0 - 65535 |
32 bit | : | 0 - 2,147,483,647 |
Floating point formats always have their black point at 0 and their white point at 1.
Interlacing
Controls the ability to generate images that are compatible with interlaced images.
If you are manipulating the generated output with a filter that uses neighboring pixels (like Blur or Expand), it is recommended that you do not use Black Interlaced, as the filter will use the black scanlines as well.
The second menu determines which scanlines are in which fields (odd,even)
None
No interlacing.
Half Res Interlaced
The image is half the height of a normal frame, with the scanlines on every line.
Black Interlaced
The image is the same height as a normal frame, with the inactive scanlines filled with black.
Line Doubled
The image is the same height as a normal frame, with the inactive scanlines filled with their active neighbor.
Odd Dominant
Odd-numbered scanline fields come before even-numbered scanline fields.
Even Dominant
Even-numbered scanline fields come before odd-numbered scanline fields.
Odd Frames Only
Only odd-numbered scanline fields are produced.
Even Frames Only
Only even-numbered scanline fields are produced.
Sequence
This tab contains parameters which deal with the timing and frame range of the generated sequence.
Override Global Range
If off, the global animation range is used as the frame range. If on, the frame range of the sequence can be specified in the following parameters.
Still Image
A still image is time-invariant. It exists at every frame. If off, the Start Frame and Length are used to determine the frame range.
Start Frame
The starting frame of the sequence.
Length
The length of the sequence (number of frames in the sequence).
Frame Rate
If on, the frame rate of the sequence can be overridden.
Pre Extend
For sequences with a frame range, this determines how to show frames before the start frame.
Black Frames
Display black.
Cycle
Cycle the sequence, always playing it forward.
Mirror
Cycle the sequence, reversing the direction every cycle.
Hold
Hold the first frame indefinitely.
Hold N Frames
Hold the first frame for a certain number of frames; before that, show black frames.
Pre Hold
The number of frames to hold the first frame for, if 'Hold N Frames' is selected.
Post Extend
For sequences with a frame range, this determines how to show frames after the last frame.
Black Frames
Display black.
Cycle
Cycle the sequence, always playing it forward.
Mirror
Cycle the sequence, reversing the direction every cycle.
Hold
Hold the last frame indefinitely.
Hold N Frames
Hold the last frame for a certain number of frames; after that, show black frames.
Post Hold
The number of frames to hold the last frame for, if 'Hold N Frames' is selected.
Locals
L
Sequence length
S
Start of sequence
E
End of sequence
IL
Input sequence length
SR
Sequence frame rate
NP
Number of planes in sequence
W,H
Width and height of image
I
Image index (0 at start frame)
IT
Image time (0 at start frame)
AI
Current plane array index
PI
Current plane index
PC
Num of channels in current plane
CXRES
Composite Project X resolution
CYRES
Composite Project Y resolution
CPIXA
Composite Project pixel aspect ratio
CDEPTH
Composite Project raster depth
CBP
Composite Project black point
CWP
Composite Project white point
See also |