      
Container    tC:\Users\Nancy\AppData\Roaming\MAXON\CINEMA 4D R15_53857526\plugins\Navie\res\help\EN\Effex\fx_fluid_container.html                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                              FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    FLUID_CONTAINER_ADAPTIVE    FLUID_CONTAINER_DIMENSIONS    FLUID_CONTAINER_INFO    FLUID_CONTAINER_CENTER    FLUID_CONTAINER_CENTER_POS        &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    $FLUID_CONTAINER_OBSTACLES_DIFFUSION   '   default.tif    
              Object Header               Adaptive Cells   0Any channel that is part of the simulation and also the dynamics velocity field itself use content-adaptively sized grids.
This means that the grids are resized based on the content. The adaptive cells setting defines how far the grid extent
reaches (given in voxel size) beyond the size of the content.    FLUID_CONTAINER_ADAPTIVE    &dynamics_container_adaptive_cells.jpg           Dimensions [C4D space]    The dimension (and therefore bounds) of the simulation container. Channels handled by this container cannot get bigger.
You can change the dimensions at any time.
<br></br>
The units are given in C4D space units.    FLUID_CONTAINER_DIMENSIONS    "dynamics_container_dimensions.jpg           Info   3Shows some general information about the resulting grid fitting into the Dimensions setting (so these are max. values) 
given the current voxel and container size.
<br></br>
<b>Cells:</b> the amount of cells along each direction followed by the overall cell count.
<br></br>
<b>Cells Rendering:</b> the amount of cells for rendering along each direction followed by the overall cell count.
<br></br>
<b>Container size:</b> the Dimension setting given in the Effex framework units (see Effex Scene)
<br></br>
<b>Cell size:</b> Size of a voxel in C4D space units.
    FLUID_CONTAINER_INFO    dynamics_container_info.jpg           Origin   fDefine where the origin (pivot point) of the container box shall be.
<br></br>
<b>Minimum</b><br>
Front-Left-Bottom corner of the container (same as v1.7)
<br></br>
<b>Center</b><br>
Center of the container
<br></br>
<b>Center Y-Minimum</b><br>
Center of the Bottom of the container
<br></br>
<b>Custom</b><br>
User-Defined placement. See Origin Location..
    FLUID_CONTAINER_CENTER    dynamics_container_orgin.jpg           Origin Location    You can define the origin location inside the container with this vector setting (X;Y;Z) accordingly
while (0%, 0%, 0%) = bottom-left-front corner and (100%,100%,100%) = top-right-back corner    FLUID_CONTAINER_CENTER_POS    &dynamics_container_orgin_location.jpg    	       
WALLS Subtab        Walls    
       Closer        	       OBSTACLES Subtab    If the volume has a mesh source, the dynamics can use the original (nearest) polygon normal instead of the volume normal.
This is especially useful with low resolution. The volume normal gets more exact with higher resolutions and is used if deactivated.    
Obstacles       
    #Use Polygon normals (if available)    If the volume has a mesh source, the dynamics can use the original (nearest) polygon normal instead of the volume normal.
This is especially useful with low resolution. The volume normal gets more exact with higher resolutions and is used if deactivated.    &FLUID_CONTAINER_OBSTACLES_POLYNORMALS    5dynamics_container_obstacles_use_polygon_normals.jpg           $Velocity Extrapolation [iterations]   8The velocity field is extrapolated into regions where no fluid is defined but which are required for correct interpolations.
It however is also useful for caches and resimulation. The higher the value the more cells have velocity information which may prevent particles from sticking in air during resimulation.    %FLUID_CONTAINER_EXTRAPOLATION_LAYERS    8dynamics_container_obstacles_velocity_extrapolation.jpg            Boundary Diffusion [iterations]    This allows to add diffusion to obstacle boundaries (non-physical but artistic) which allows to let the fluid stick gently to surfaces.    $FLUID_CONTAINER_OBSTACLES_DIFFUSION    4dynamics_container_obstacles_boundary_diffusion.jpg    
   
   Closer          ~    Walls    DDefine which side walls should be opened (green) or closed (white).        dynamics_container_walls.jpg                                        ~  ~         
         
         
         