The cone command creates a new polygonal cone.
Long name (short name) | Argument Types | Properties | |
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axis (ax) | float, float, float | ||
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caching (cch) | bool | ||
constructionHistory (ch) | bool | ||
Turn the construction history on or off (where applicable). If construction history is on then the corresponding node will be inserted into the history chain for the mesh. If construction history is off then the operation will be performed directly on the object. Note:If the object already has construction history then this flag is ignored and the node will always be inserted into the history chain. Flag can have multiple arguments, passed either as a tuple or a list. |
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createUVs (cuv) | int | ||
This flag alows a specific UV mechanism to be selected, while creating the cone. The valid values are 0, 1, 2 or 3. 0 implies that no UVs will be generated (No texture to be applied). 1 implies UVs should be created for the object as a whole without any normalization. The cone will be unwrapped and then the texture will be applied without any distortion. In the unwrapped cone, the shared edges will have shared UVs. 2 implies the UVs should be normalized. This will normalize the U and V direction separately, thereby resulting in distortion of textures. 4 implies UVs are created so that the texture will not be distorted when applied. The texture lying outside the UV range will be truncated (since that cannot be squeezed in, without distorting the texture. For better understanding of these options, you may have to open the texture view windowC: Default is 3 |
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height (h) | float | ||
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name (n) | unicode | ||
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nodeState (nds) | int | ||
object (o) | bool | ||
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radius (r) | float | ||
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roundCap (rcp) | bool | ||
subdivisionsAxis (sa) | int | ||
subdivisionsCap (sc) | int | ||
subdivisionsHeight (sh) | int | ||
subdivisionsX (sx) | int | ||
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subdivisionsY (sy) | int | ||
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subdivisionsZ (sz) | int | ||
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texture (tx) | bool | ||
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Derived from mel command maya.cmds.polyCone
Example:
import pymel.core as pm
# Create a cone, with 10 subdivisions in the X direction,
# 15 subdivisions in the Y direction and 20 subdivisions in the Z direction,
# the radius of the cone is 20, the height of the cone is 10.
pm.polyCone( sx=10, sy=15, sz=5, r=20, h=10)
# Create a cone, called "myCone", on each direction there are 5 subdivisions.
pm.polyCone( n='myCone', sx=5, sy=5, sz=5)
# Query the radius of "myCone"
r = pm.polyCone( 'myCone', q=True, r=True )