Fix error in recent vert/edge-slide commits
`CustomData_bmesh_interp_n` was expecting the 'dest' arg not to have its offset applied. This was a bit confusing since the source args have it applied, and in some cases we only have the destination with the offset.
This commit is contained in:
Campbell Barton
@@ -204,7 +204,7 @@ void CustomData_copy_data(const struct CustomData *source,
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void CustomData_copy_data_named(const struct CustomData *source,
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struct CustomData *dest, int source_index,
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int dest_index, int count);
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void CustomData_copy_elements(int type, void *source, void *dest, int count);
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void CustomData_copy_elements(int type, void *src_data_ofs, void *dst_data_ofs, int count);
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void CustomData_bmesh_copy_data(const struct CustomData *source,
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struct CustomData *dest, void *src_block,
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void **dest_block);
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@@ -232,11 +232,11 @@ void CustomData_interp(
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int count, int dest_index);
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void CustomData_bmesh_interp_n(
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struct CustomData *data, const void **src_blocks, const float *weights,
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const float *sub_weights, int count, void *dest_block_ofs, int n);
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const float *sub_weights, int count, void *dst_block_ofs, int n);
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void CustomData_bmesh_interp(
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struct CustomData *data, const void **src_blocks,
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const float *weights, const float *sub_weights, int count,
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void *dest_block);
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void *dst_block);
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/* swaps the data in the element corners, to new corners with indices as
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@@ -1790,7 +1790,8 @@ static CustomDataLayer *customData_add_layer__internal(CustomData *data, int typ
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int totelem, const char *name)
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{
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const LayerTypeInfo *typeInfo = layerType_getInfo(type);
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int size = typeInfo->size * totelem, flag = 0, index = data->totlayer;
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const int size = totelem * typeInfo->size;
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int flag = 0, index = data->totlayer;
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void *newlayerdata = NULL;
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/* Passing a layerdata to copy from with an alloctype that won't copy is
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@@ -2003,7 +2004,7 @@ static void *customData_duplicate_referenced_layer_index(CustomData *data, const
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const LayerTypeInfo *typeInfo = layerType_getInfo(layer->type);
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if (typeInfo->copy) {
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void *dst_data = MEM_mallocN(typeInfo->size * totelem, "CD duplicate ref layer");
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void *dst_data = MEM_mallocN(totelem * typeInfo->size, "CD duplicate ref layer");
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typeInfo->copy(layer->data, dst_data, totelem);
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layer->data = dst_data;
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}
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@@ -2104,14 +2105,14 @@ void CustomData_set_only_copy(const struct CustomData *data,
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data->layers[i].flag |= CD_FLAG_NOCOPY;
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}
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void CustomData_copy_elements(int type, void *source, void *dest, int count)
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void CustomData_copy_elements(int type, void *src_data_ofs, void *dst_data_ofs, int count)
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{
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const LayerTypeInfo *typeInfo = layerType_getInfo(type);
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if (typeInfo->copy)
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typeInfo->copy(source, dest, count);
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typeInfo->copy(src_data_ofs, dst_data_ofs, count);
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else
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memcpy(dest, source, typeInfo->size * count);
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memcpy(dst_data_ofs, src_data_ofs, count * typeInfo->size);
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}
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static void CustomData_copy_data_layer(
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@@ -2123,28 +2124,28 @@ static void CustomData_copy_data_layer(
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int dst_offset;
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const void *src_data = source->layers[src_i].data;
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void *dest_data = dest->layers[dst_i].data;
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void *dst_data = dest->layers[dst_i].data;
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typeInfo = layerType_getInfo(source->layers[src_i].type);
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src_offset = src_index * typeInfo->size;
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dst_offset = dst_index * typeInfo->size;
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if (!src_data || !dest_data) {
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if (!(src_data == NULL && dest_data == NULL)) {
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if (!src_data || !dst_data) {
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if (!(src_data == NULL && dst_data == NULL)) {
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printf("%s: warning null data for %s type (%p --> %p), skipping\n",
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__func__, layerType_getName(source->layers[src_i].type),
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(void *)src_data, (void *)dest_data);
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(void *)src_data, (void *)dst_data);
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}
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return;
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}
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if (typeInfo->copy)
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typeInfo->copy(POINTER_OFFSET(src_data, src_offset),
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POINTER_OFFSET(dest_data, dst_offset),
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POINTER_OFFSET(dst_data, dst_offset),
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count);
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else
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memcpy(POINTER_OFFSET(dest_data, dst_offset),
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memcpy(POINTER_OFFSET(dst_data, dst_offset),
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POINTER_OFFSET(src_data, src_offset),
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count * typeInfo->size);
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}
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@@ -2208,7 +2209,7 @@ void CustomData_free_elem(CustomData *data, int index, int count)
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typeInfo = layerType_getInfo(data->layers[i].type);
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if (typeInfo->free) {
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int offset = typeInfo->size * index;
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int offset = index * typeInfo->size;
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typeInfo->free(POINTER_OFFSET(data->layers[i].data, offset), count, typeInfo->size);
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}
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@@ -2223,7 +2224,6 @@ void CustomData_interp(const CustomData *source, CustomData *dest,
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int count, int dest_index)
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{
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int src_i, dest_i;
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int dest_offset;
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int j;
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const void *source_buf[SOURCE_BUF_SIZE];
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const void **sources = source_buf;
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@@ -2255,13 +2255,11 @@ void CustomData_interp(const CustomData *source, CustomData *dest,
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void *src_data = source->layers[src_i].data;
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for (j = 0; j < count; ++j) {
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sources[j] = POINTER_OFFSET(src_data, typeInfo->size * src_indices[j]);
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sources[j] = POINTER_OFFSET(src_data, src_indices[j] * typeInfo->size);
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}
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dest_offset = dest_index * typeInfo->size;
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typeInfo->interp(sources, weights, sub_weights, count,
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POINTER_OFFSET(dest->layers[dest_i].data, dest_offset));
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POINTER_OFFSET(dest->layers[dest_i].data, dest_index * typeInfo->size));
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/* if there are multiple source & dest layers of the same type,
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* we don't want to copy all source layers to the same dest, so
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@@ -2283,7 +2281,7 @@ void CustomData_swap(struct CustomData *data, int index, const int *corner_indic
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typeInfo = layerType_getInfo(data->layers[i].type);
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if (typeInfo->swap) {
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int offset = typeInfo->size * index;
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const int offset = index * typeInfo->size;
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typeInfo->swap(POINTER_OFFSET(data->layers[i].data, offset), corner_indices);
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}
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@@ -2986,24 +2984,24 @@ void CustomData_bmesh_set_layer_n(CustomData *data, void *block, int n, void *so
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}
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/**
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* \param src_blocks must be pointers to the data, offset by layer->offset already.
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* \note src_blocks_ofs & dst_block_ofs
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* must be pointers to the data, offset by layer->offset already.
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*/
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void CustomData_bmesh_interp_n(
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CustomData *data, const void **src_blocks,
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CustomData *data, const void **src_blocks_ofs,
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const float *weights, const float *sub_weights,
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int count, void *dest_block, int n)
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int count, void *dst_block_ofs, int n)
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{
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CustomDataLayer *layer = &data->layers[n];
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const LayerTypeInfo *typeInfo = layerType_getInfo(layer->type);
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typeInfo->interp(src_blocks, weights, sub_weights, count,
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POINTER_OFFSET(dest_block, layer->offset));
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typeInfo->interp(src_blocks_ofs, weights, sub_weights, count, dst_block_ofs);
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}
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void CustomData_bmesh_interp(
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CustomData *data, const void **src_blocks,
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const float *weights, const float *sub_weights,
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int count, void *dest_block)
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int count, void *dst_block)
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{
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int i, j;
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void *source_buf[SOURCE_BUF_SIZE];
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@@ -3023,7 +3021,10 @@ void CustomData_bmesh_interp(
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for (j = 0; j < count; ++j) {
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sources[j] = POINTER_OFFSET(src_blocks[j], layer->offset);
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}
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CustomData_bmesh_interp_n(data, sources, weights, sub_weights, count, dest_block, i);
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CustomData_bmesh_interp_n(
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data, sources,
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weights, sub_weights, count,
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POINTER_OFFSET(dst_block, layer->offset), i);
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}
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}
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@@ -202,8 +202,8 @@ void BM_face_interp_from_face(BMesh *bm, BMFace *target, BMFace *source, const b
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BMLoop *l_iter;
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BMLoop *l_first;
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void **blocks_l = BLI_array_alloca(blocks_l, source->len);
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void **blocks_v = do_vertex ? BLI_array_alloca(blocks_v, source->len) : NULL;
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const void **blocks_l = BLI_array_alloca(blocks_l, source->len);
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const void **blocks_v = do_vertex ? BLI_array_alloca(blocks_v, source->len) : NULL;
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float (*cos_2d)[2] = BLI_array_alloca(cos_2d, source->len);
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float axis_mat[3][3]; /* use normal to transform into 2d xy coords */
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int i;
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@@ -220,10 +220,8 @@ void BM_face_interp_from_face(BMesh *bm, BMFace *target, BMFace *source, const b
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if (do_vertex) blocks_v[i] = l_iter->v->head.data;
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} while (i++, (l_iter = l_iter->next) != l_first);
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BM_face_interp_from_face_ex(
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bm, target, source, do_vertex,
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(const void **)blocks_l, (const void **)blocks_v,
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cos_2d, axis_mat);
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BM_face_interp_from_face_ex(bm, target, source, do_vertex,
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blocks_l, blocks_v, cos_2d, axis_mat);
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}
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/**
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@@ -1056,25 +1054,31 @@ LinkNode *BM_vert_loop_groups_data_layer_create(BMesh *bm, BMVert *v, int layer_
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}
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static void bm_vert_loop_groups_data_layer_merge__single(
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BMesh *bm, void *lf_p, void *data, int type)
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BMesh *bm, void *lf_p, int layer_n,
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void *data_tmp)
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{
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struct LoopGroupCD *lf = lf_p;
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const int type = bm->ldata.layers[layer_n].type;
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int i;
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const float *data_weights;
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data_weights = lf->data_weights;
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CustomData_bmesh_interp(&bm->ldata, (const void **)lf->data, data_weights, NULL, lf->data_len, data);
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CustomData_bmesh_interp_n(
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&bm->ldata, (const void **)lf->data,
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data_weights, NULL, lf->data_len, data_tmp, layer_n);
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for (i = 0; i < lf->data_len; i++) {
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CustomData_copy_elements(type, data, lf->data[i], 1);
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CustomData_copy_elements(type, data_tmp, lf->data[i], 1);
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}
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}
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static void bm_vert_loop_groups_data_layer_merge_weights__single(
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BMesh *bm, void *lf_p, void *data, int type, const float *loop_weights)
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BMesh *bm, void *lf_p, const int layer_n, void *data_tmp,
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const float *loop_weights)
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{
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struct LoopGroupCD *lf = lf_p;
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const int type = bm->ldata.layers[layer_n].type;
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int i;
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const float *data_weights;
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@@ -1096,25 +1100,28 @@ static void bm_vert_loop_groups_data_layer_merge_weights__single(
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data_weights = lf->data_weights;
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}
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CustomData_bmesh_interp(&bm->ldata, (const void **)lf->data, data_weights, NULL, lf->data_len, data);
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CustomData_bmesh_interp_n(
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&bm->ldata, (const void **)lf->data,
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data_weights, NULL, lf->data_len, data_tmp, layer_n);
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for (i = 0; i < lf->data_len; i++) {
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CustomData_copy_elements(type, data, lf->data[i], 1);
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CustomData_copy_elements(type, data_tmp, lf->data[i], 1);
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}
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}
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/**
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* Take existing custom data and merge each fan's data.
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*/
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void BM_vert_loop_groups_data_layer_merge(BMesh *bm, LinkNode *groups, int layer_n)
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void BM_vert_loop_groups_data_layer_merge(BMesh *bm, LinkNode *groups, const int layer_n)
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{
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int type = bm->ldata.layers[layer_n].type;
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int size = CustomData_sizeof(type);
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void *data = alloca(size);
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const int type = bm->ldata.layers[layer_n].type;
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const int size = CustomData_sizeof(type);
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void *data_tmp = malloc(size);
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do {
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bm_vert_loop_groups_data_layer_merge__single(bm, groups->link, data, type);
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bm_vert_loop_groups_data_layer_merge__single(bm, groups->link, layer_n, data_tmp);
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} while ((groups = groups->next));
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free(data_tmp);
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}
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/**
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@@ -1123,13 +1130,14 @@ void BM_vert_loop_groups_data_layer_merge(BMesh *bm, LinkNode *groups, int layer
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*/
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void BM_vert_loop_groups_data_layer_merge_weights(BMesh *bm, LinkNode *groups, int layer_n, const float *loop_weights)
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{
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int type = bm->ldata.layers[layer_n].type;
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int size = CustomData_sizeof(type);
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void *data = alloca(size);
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const int type = bm->ldata.layers[layer_n].type;
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const int size = CustomData_sizeof(type);
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void *data_tmp = malloc(size);
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do {
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bm_vert_loop_groups_data_layer_merge_weights__single(bm, groups->link, data, type, loop_weights);
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bm_vert_loop_groups_data_layer_merge_weights__single(bm, groups->link, layer_n, data_tmp, loop_weights);
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} while ((groups = groups->next));
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free(data_tmp);
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}
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/** \} */
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@@ -54,8 +54,13 @@ void BM_loop_interp_from_face(BMesh *bm, BMLoop *target, BMFace *source,
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const bool do_vertex, const bool do_multires);
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void BM_face_multires_bounds_smooth(BMesh *bm, BMFace *f);
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struct LinkNode *BM_vert_loop_groups_data_layer_create(BMesh *bm, BMVert *v, int layer_n, struct MemArena *arena);
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void BM_vert_loop_groups_data_layer_merge(BMesh *bm, struct LinkNode *groups, int layer_n);
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void BM_vert_loop_groups_data_layer_merge_weights(BMesh *bm, struct LinkNode *groups, int layer_n, const float *loop_weights);
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struct LinkNode *BM_vert_loop_groups_data_layer_create(
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BMesh *bm, BMVert *v, const int layer_n, struct MemArena *arena);
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void BM_vert_loop_groups_data_layer_merge(
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BMesh *bm, struct LinkNode *groups, const int layer_n);
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void BM_vert_loop_groups_data_layer_merge_weights(
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BMesh *bm, struct LinkNode *groups, const int layer_n,
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const float *loop_weights);
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#endif /* __BMESH_INTERP_H__ */
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@@ -527,7 +527,9 @@ static void bm_edge_collapse_loop_customdata(BMesh *bm, BMLoop *l, BMVert *v_cle
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/* detect seams */
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if (CustomData_data_equals(type, cd_src[0], cd_iter)) {
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CustomData_bmesh_interp_n(&bm->ldata, cd_src, w, NULL, 2, l_iter->head.data, i);
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CustomData_bmesh_interp_n(
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&bm->ldata, cd_src, w, NULL, ARRAY_SIZE(cd_src),
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POINTER_OFFSET(l_iter->head.data, offset), i);
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#ifdef USE_SEAM
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is_seam = false;
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#endif
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@@ -5317,16 +5317,17 @@ static void slide_origdata_interp_data_vert(
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TransDataGenericSlideVert *sv)
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{
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BMIter liter;
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BMLoop *l;
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int j;
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int j, l_num;
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float *loop_weights;
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const bool do_loop_weight = (len_squared_v3v3(sv->v->co, sv->co_orig_3d) > FLT_EPSILON);
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// BM_ITER_ELEM (l, &liter, sv->v, BM_LOOPS_OF_VERT) {
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l = BM_iter_new(&liter, bm, BM_LOOPS_OF_VERT, sv->v);
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loop_weights = do_loop_weight ? BLI_array_alloca(loop_weights, liter.count) : NULL;
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for (j = 0 ; l; l = BM_iter_step(&liter), j++) {
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BM_iter_init(&liter, bm, BM_LOOPS_OF_VERT, sv->v);
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l_num = liter.count;
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loop_weights = do_loop_weight ? BLI_array_alloca(loop_weights, l_num) : NULL;
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for (j = 0; j < l_num; j++) {
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BMFace *f_copy; /* the copy of 'f' */
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BMLoop *l = BM_iter_step(&liter);
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f_copy = BLI_ghash_lookup(sod->origfaces, l->f);
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