Bộ Điều Chỉnh Thuyên Chuyển Dữ Liệu (Data Transfer Modifier)

The Data Transfer modifier copies certain types of data from an external mesh to the modified one. This could be UV maps, color attributes, custom normals, and so on.

For each element (vertex/edge/face) in the modified mesh, the modifier finds one or more matching elements in the source mesh, then interpolates between those source elements' values.

../../../_images/modeling_modifiers_modify_data-transfer_example.png

Transferring a UV map from a low resolution mesh to a high resolution one using interpolation.

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Thao Tác Thuyên Chuyển Dữ Liệu Khung Lưới (Transfer Mesh Data Operator)

Cách Sử Dụng (Usage)

  • Select the Source mesh you want to copy data from.

  • If the source mesh and modified mesh aren't overlapping in world space, uncheck Object Transform (the axes icon next to the source mesh).

  • Select which type of data you want to copy (e.g. vertex groups, UV maps...).

  • If you only want to copy a specific vertex group/UV map/..., select it in Layer Selection.

  • If the vertex groups/... you want to copy don't exist yet on the modified mesh, click Generate Data Layers to create them.

Các Tùy Chọn (Options)

Nguồn (Source)

Đối tượng khung lưới để sao chép dữ liệu từ đó.

Object Transform (axes icon)

Whether take into account the world space transformations of the source and destination objects. When unchecked, the modifier acts like both objects are in the same position and have the default rotation and scale.

Chế Độ Hòa Trộn (Mix Mode)

How to combine the new data from the source mesh with the original data in the destination mesh.

Thay Thế (Replace)

Interpolate between the original and new value using Mix Factor.

Trên Giới Hạn (Above Threshold)

Replace the destination value if it's greater than or equal to Mix Factor. In the case of multi-component data like colors, the threshold is compared to the average of these components.

For boolean data like Freestyle Mark, you can use this to perform a logical AND: simply ensure the Mix Factor is 0.5 or greater, and the destination mesh will only have marked edges/faces that were already marked and are also marked in the source mesh.

Giới Hạn Dưới (Below Threshold)

Replace the destination value if it's less than or equal to Mix Factor. In the case of multi-component data like colors, the threshold is compared to the average of these components.

For boolean data like Freestyle Mark, you can use this to perform a logical OR: simply ensure the Mix Factor is 0.5 or greater, and the destination mesh will have marked edges/faces that were already marked or are marked in the source mesh.

Hòa Trộn (Mix)

Mix the source value with the destination value, e.g. performing an alpha blend in the case of color attributes. Then, interpolate using Mix Factor.

Thêm (Add)

Add the source value to the destination value, then interpolate using Mix Factor.

Khấu Trừ (Subtract)

Subtract the source value from the destination value, then interpolate using Mix Factor.

Nhân (Multiply)

Multiply the source value by the destination value, then interpolate using Mix Factor.

Hệ Số Hòa Trộn (Mix Factor)

Interpolation factor between the original destination value and the newly calculated value. If Mix Mode is Above Threshold or Below Threshold, this is a threshold value instead.

Vertex Group (Nhóm Điểm Đỉnh)

Allows per-element control of the Mix Factor.

Invert (arrow icon)

Invert the weights of the vertex group (change them to 1 - weight).

Sinh Tạo Tầng Dữ Liệu (Generate Data Layers)

Click to add any missing data layers, e.g. vertex groups that exist on the source mesh but not yet on the modified mesh. The modifier doesn't do this automatically, so make sure to click this button (or add the missing layers yourself) as the transfer may not work otherwise.

Layers added this way will stay behind when removing the modifier.

Kiểu Dữ Liệu (Data Types)

The toggle buttons Custom Normals, Colors, UVs etc. indicate which data should be transferred.

Ánh Xạ (Mapping)

How to find the matching source element(s) for each destination element. The various options are explained in the Mapping section below.

Layer Selection

Which source layers to copy to the destination mesh (e.g. all vertex groups or a specific vertex group).

Layer Mapping

How to find the destination layer for a given source layer: by name or by order.

Islands Precision

Controls the calculation that prevents a destination face from receiving UV coordinates from disparate source UV islands (areas bordered by seams). Keeping this at 0.0 means no island handling at all, while higher numbers increase the correctness of the result at the cost of extra computation.

Typically, small values like 0.02 are enough to get good results, but if you are mapping from a very high-poly source towards a very low-poly destination, you may have to raise it quite significantly.

Ánh Xạ (Mapping)

Topology (Cấu Trúc Liên Kết)

Simply matches the elements based on their index. This requires both meshes to have the same number of elements and those elements to be ordered in the same way. Best suited for a destination mesh that's a deformed copy of the source.

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Sắp Thứ Tự các Phần Tử (Sort Elements) to ensure the objects have the same element ordering.

Ánh Xạ Một-Đối-Một (One-To-One Mappings)

These mappings always select only one source element for each destination one.

Dữ Liệu Điểm Đỉnh (Vertex Data)
Đỉnh Gần Nhất (Nearest Vertex)

Use the nearest source vertex.

Điểm Đỉnh của Cạnh Gần Nhất (Nearest Edge Vertex)

Use the nearest source vertex on the nearest (by midpoint distance) source edge.

Điểm Đỉnh của Mặt Gần Nhất (Nearest Face Vertex)

Use the nearest source vertex on the nearest (by midpoint distance) source face.

Dữ Liệu Cạnh (Edge Data)
Điểm Đỉnh Gần Nhất (Nearest Vertices)

Use the source edge whose vertices are nearest to the destination edge's.

Cạnh Gần Nhất (Nearest Edge)

Use the source edge whose midpoint is nearest to the destination edge's.

Cạnh Mặt Gần Nhất (Nearest Face Edge)

Use the nearest source edge on the nearest face (both by midpoint distance).

Face Corner Data

A face corner is a vertex in the context of a face. This concept is most commonly used in UV maps: each face corner can have its own UV coordinate, or in other words, one 3D vertex can correspond to several UV vertices (one per face).

Góc Tối Cận cùng Pháp Tuyến Giống Nhất (Nearest Corner and Best Matching Normal)

Use the source corner that's nearest to the destination corner and has the most similar split normal.

Góc Cạnh Gần Nhất và Pháp Tuyến Mặt Giống Nhất (Nearest Corner and Best Matching Face Normal)

Use the source corner that's nearest to the destination corner and has the most similar face normal.

Góc Tối Cận của Mặt Gần Nhất (Nearest Corner of Nearest Face)

Use the nearest source corner on the nearest source face.

Dữ Liệu Mặt (Face Data)
Mặt Gần Nhất (Nearest Face)

Use the nearest source face (by midpoint distance).

Pháp Tuyến Khớp Nhất (Best Normal-Matching)

Cast a ray from the destination face's centerpoint along the face's normal and use the source face found this way.

Ánh Xạ Nội Suy (Interpolated Mappings)

These mappings can match several source elements and interpolate between their values.

Dữ Liệu Điểm Đỉnh (Vertex Data)
Cạnh Gần Nhất được Nội Suy (Nearest Edge Interpolated)

Find the nearest point on the nearest source edge, then use that point to interpolate between the values of the edge's vertices.

Mặt Gần Nhất được Nội Suy (Nearest Face Interpolated)

Find the nearest point on the nearest source face, then use that point to interpolate between the values of the face's vertices.

Mặt Phóng Chiếu được Nội Suy (Projected Face Interpolated)

Project the destination vertex along its normal onto a source face, then use the projected point to interpolate between the values of the face's vertices.

Dữ Liệu Cạnh (Edge Data)
Cạnh Phóng Chiếu Nội Suy (Projected Edge Interpolated)

Find source edges by projecting from a number of points on the destination edge (where each point is projected along the interpolated normals of the destination edge's vertices). Then, interpolate between the values of the source edges found this way.

Face Corner Data
Mặt Gần Nhất được Nội Suy (Nearest Face Interpolated)

Find the nearest point on the nearest source face, then use that point to interpolate between the values of the face's corners.

Mặt Phóng Chiếu được Nội Suy (Projected Face Interpolated)

Project the destination corner along its normal onto a source face, then use the projected point to interpolate between the values of the face's corners.

Dữ Liệu Mặt (Face Data)
Mặt Phóng Chiếu được Nội Suy (Projected Face Interpolated)

Find source faces by casting rays from a number of points on the destination face along the destination face's normal. Then, interpolate between the values of these source faces.

Ánh Xạ Cấu Trúc Liên Kết (Topology Mapping)

Ghi chú

Despite the name of this panel, these settings do not apply to the Topology mapping type.

Khoảng Cách Tối Đa (Max Distance)

When the checkbox is enabled, source and destination elements that are further away from each other than the specified distance will not be considered as matches.

Bán Kính Tia Xạ (Ray Radius)

The starting radius to use when ray casting.

For certain mapping types, the operator performs a series of ray casts from each destination element to find matching source elements. These ray casts start with the specified radius and grow progressively larger until a match is found or a limit is reached.

A low starting radius will give more accurate results, but has worse performance if it's too small and needs to be increased. A high starting radius has better performance, but may result in suboptimal matches.

In general, use a low radius for dense source meshes and a high one for simple ones.