path: root/source/blender/bmesh/operators/mesh_conv.c

#include <string.h>

#include "MEM_guardedalloc.h"

#include "DNA_listBase.h"
#include "DNA_customdata_types.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_modifier_types.h"
#include "DNA_key_types.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"

#include "BKE_customdata.h" 
#include "BKE_mesh.h"
#include "BKE_global.h"
#include "BKE_DerivedMesh.h"
#include "BKE_cdderivedmesh.h"
#include "BKE_key.h"
#include "BKE_main.h"

#include "BLI_utildefines.h"
#include "BLI_math.h"
#include "BLI_blenlib.h"
#include "BLI_edgehash.h"
#include "BLI_editVert.h"
#include "BLI_scanfill.h"
#include "BLI_array.h"
#include "BLI_utildefines.h"

#include "ED_mesh.h"

#include "mesh_intern.h"
#include "bmesh.h"
#include "bmesh_private.h"

/*
 * MESH CONV.C
 *
 * This file contains functions
 * for converting a Mesh
 * into a Bmesh, and back again.
 *
*/

void mesh_to_bmesh_exec(BMesh *bm, BMOperator *op) {
	Object *ob = BMO_Get_Pnt(op, "object");
	Mesh *me = BMO_Get_Pnt(op, "mesh");
	MVert *mvert;
	BLI_array_declare(verts);
	MEdge *medge;
	MLoop *ml;
	MPoly *mpoly;
	KeyBlock *actkey, *block;
	BMVert *v, **vt=NULL, **verts = NULL;
	BMEdge *e, **fedges=NULL, **et = NULL;
	BMFace *f;
	BLI_array_declare(fedges);
	float (*keyco)[3]= NULL;
	int *keyi;
	int set_key = BMO_Get_Int(op, "set_shapekey");
	int totuv, i, j, allocsize[4] = {512, 512, 2048, 512};

	if (!me || !me->totvert) return; /*sanity check*/
	
	vt = MEM_mallocN(sizeof(void**)*me->totvert, "mesh to bmesh vtable");

	CustomData_copy(&me->vdata, &bm->vdata, CD_MASK_BMESH, CD_CALLOC, 0);
	CustomData_copy(&me->edata, &bm->edata, CD_MASK_BMESH, CD_CALLOC, 0);
	CustomData_copy(&me->ldata, &bm->ldata, CD_MASK_BMESH, CD_CALLOC, 0);
	CustomData_copy(&me->pdata, &bm->pdata, CD_MASK_BMESH, CD_CALLOC, 0);
	
	/*make sure uv layer names are consistent*/
	totuv = CustomData_number_of_layers(&bm->pdata, CD_MTEXPOLY);
	for (i=0; i<totuv; i++) {
		int li = CustomData_get_layer_index_n(&bm->pdata, CD_MTEXPOLY, i);
		CustomData_set_layer_name(&bm->ldata, CD_MLOOPUV, i, bm->pdata.layers[li].name);
	}
	
	if (!CustomData_has_layer(&bm->edata, CD_CREASE))
		CustomData_add_layer(&bm->edata, CD_CREASE, CD_ASSIGN, NULL, 0);

	if (!CustomData_has_layer(&bm->edata, CD_BWEIGHT))
		CustomData_add_layer(&bm->edata, CD_BWEIGHT, CD_ASSIGN, NULL, 0);

	if (!CustomData_has_layer(&bm->vdata, CD_BWEIGHT))
		CustomData_add_layer(&bm->vdata, CD_BWEIGHT, CD_ASSIGN, NULL, 0);


	if (me->key && ob->shapenr > me->key->totkey) {
		ob->shapenr = me->key->totkey-1;
	}

	actkey = ob_get_keyblock(ob);
	if(actkey && actkey->totelem == me->totvert) {
		CustomData_add_layer(&bm->vdata, CD_SHAPE_KEYINDEX, CD_ASSIGN, NULL, 0);
		
		/*check if we need to generate unique ids for the shapekeys.
		  this also exists in the file reading code, but is here for
		  a sanity check*/
		if (!me->key->uidgen) {
			fprintf(stderr, "%s had to generate shape key uid's in a situation we shouldn't need to! (bmesh internal error)\n", __func__);
			me->key->uidgen = 1;
			for (block=me->key->block.first; block; block=block->next) {
				block->uid = me->key->uidgen++;
			}
		}

		keyco= actkey->data;
		bm->shapenr= ob->shapenr;
		for (i=0, block=me->key->block.first; block; block=block->next, i++) {
			CustomData_add_layer_named(&bm->vdata, CD_SHAPEKEY, 
			                 CD_ASSIGN, NULL, 0, block->name);
			
			j = CustomData_get_layer_index_n(&bm->vdata, CD_SHAPEKEY, i);
			bm->vdata.layers[j].uid = block->uid;
		}
	} else if (actkey) {
		printf("shapekey<->mesh mismatch!\n");
	}
	
	CustomData_bmesh_init_pool(&bm->vdata, allocsize[0]);
	CustomData_bmesh_init_pool(&bm->edata, allocsize[1]);
	CustomData_bmesh_init_pool(&bm->ldata, allocsize[2]);
	CustomData_bmesh_init_pool(&bm->pdata, allocsize[3]);

	for (i=0, mvert = me->mvert; i<me->totvert; i++, mvert++) {
		v = BM_Make_Vert(bm, keyco&&set_key ? keyco[i] : mvert->co, NULL);
		normal_short_to_float_v3(v->no, mvert->no);

		vt[i] = v;
		BM_SetIndex(v, i);

		/*transfer flags*/
		v->head.flag = MEFlags_To_BMFlags(mvert->flag, BM_VERT);

		/*this is necassary for selection counts to work properly*/
		if(v->head.flag & BM_SELECT) BM_Select_Vert(bm, v, 1);

		BM_SetCDf(&bm->vdata, v, CD_BWEIGHT, (float)mvert->bweight / 255.0f);

		/*Copy Custom Data*/
		CustomData_to_bmesh_block(&me->vdata, &bm->vdata, i, &v->head.data);

		/*set shapekey data*/
		if (me->key) {
			/*set shape key original index*/
			keyi = CustomData_bmesh_get(&bm->vdata, v->head.data, CD_SHAPE_KEYINDEX);
			if (keyi) {
				*keyi = i;
			}
			
			for (block=me->key->block.first, j=0; block; block=block->next, j++) {
				float *co = CustomData_bmesh_get_n(&bm->vdata, v->head.data, 
				                                   CD_SHAPEKEY, j);
				if (co)
					VECCOPY(co, ((float*)block->data)+3*i);
			}
		}
	}

	if (!me->totedge) {
		MEM_freeN(vt);
		return;
	}

	et = MEM_mallocN(sizeof(void**)*me->totedge, "mesh to bmesh etable");

	medge = me->medge;
	for (i=0; i<me->totedge; i++, medge++) {
		e = BM_Make_Edge(bm, vt[medge->v1], vt[medge->v2], NULL, 0);
		et[i] = e;
		
		/*Copy Custom Data*/
		CustomData_to_bmesh_block(&me->edata, &bm->edata, i, &e->head.data);
		
		BM_SetCDf(&bm->edata, e, CD_CREASE, (float)medge->crease / 255.0f);
		BM_SetCDf(&bm->edata, e, CD_BWEIGHT, (float)medge->bweight / 255.0f);

		/*transfer flags*/
		e->head.flag = MEFlags_To_BMFlags(medge->flag, BM_EDGE);

		/*this is necassary for selection counts to work properly*/
		if (e->head.flag & BM_SELECT) BM_Select(bm, e, 1);
	}
	
	if (!me->totpoly) {
		MEM_freeN(vt);
		MEM_freeN(et);
		return;
	}

	mpoly = me->mpoly;
	for (i=0; i<me->totpoly; i++, mpoly++) {
		BMVert *v1, *v2;
		BMIter iter;
		BMLoop *l;

		BLI_array_empty(fedges);
		BLI_array_empty(verts);
		for (j=0; j<mpoly->totloop; j++) {
			ml = &me->mloop[mpoly->loopstart+j];
			v = vt[ml->v];
			e = et[ml->e];

			BLI_array_growone(fedges);
			BLI_array_growone(verts);

			fedges[j] = e;
			verts[j] = v;
		}
		
		v1 = vt[me->mloop[mpoly->loopstart].v];
		/* v2 = vt[me->mloop[mpoly->loopstart+1].v]; */ /* UNUSED */ /* code below always overwrites */

		if (v1 == fedges[0]->v1) v2 = fedges[0]->v2;
		else {
			v1 = fedges[0]->v2;
			v2 = fedges[0]->v1;
		}
	
		f = BM_Make_Face(bm, verts, fedges, mpoly->totloop, 0);

		if (!f) {
			printf("Warning! Bad face in mesh"
			       " \"%s\" at index %d!\n", me->id.name+2, i);
			continue;
		}

		/*transfer flags*/
		f->head.flag = MEFlags_To_BMFlags(mpoly->flag, BM_FACE);

		/*this is necassary for selection counts to work properly*/
		if (f->head.flag & BM_SELECT) BM_Select(bm, f, 1);

		f->mat_nr = mpoly->mat_nr;
		if (i == me->act_face) bm->act_face = f;

		/*Copy over loop customdata*/
		j = 0;
		BM_ITER(l, &iter, bm, BM_LOOPS_OF_FACE, f) {
			CustomData_to_bmesh_block(&me->ldata, &bm->ldata, mpoly->loopstart+j, &l->head.data);
			j++;
		}

		/*Copy Custom Data*/
		CustomData_to_bmesh_block(&me->pdata, &bm->pdata, i, &f->head.data);
	}

	{
		BMIter iter;
		BMVert *vertex;
		BMEdge *edge;
		BMFace *face;
		BMVert **vertex_array = MEM_callocN(sizeof(BMVert *) * bm->totvert,
		                                  "Selection Conversion Vertex Pointer Array");
		BMEdge **edge_array = MEM_callocN(sizeof(BMEdge *) * bm->totedge,
		                                "Selection Conversion Edge Pointer Array");
		BMFace **face_array = MEM_callocN(sizeof(BMFace *) * bm->totface,
		                                "Selection Conversion Face Pointer Array");

		for(i = 0, vertex = BMIter_New(&iter, bm, BM_VERTS_OF_MESH, NULL);
		    vertex; i++, vertex = BMIter_Step(&iter)){
			vertex_array[i] = vertex;
		}

		for(i = 0, edge = BMIter_New(&iter, bm, BM_EDGES_OF_MESH, NULL);
		    edge; i++, edge = BMIter_Step(&iter)){
			edge_array[i] = edge;
		}

		for(i = 0, face = BMIter_New(&iter, bm, BM_FACES_OF_MESH, NULL);
		    face; i++, face = BMIter_Step(&iter)){
			face_array[i] = face;
		}

		if(me->mselect) {
			for(i = 0; i < me->totselect; i++){
				if(me->mselect[i].type == ME_VSEL){
					BM_store_selection(bm, vertex_array[me->mselect[i].index]);
				}else if(me->mselect[i].type == ME_ESEL){
					BM_store_selection(bm, edge_array[me->mselect[i].index]);
				}else if(me->mselect[i].type == ME_FSEL){
					BM_store_selection(bm, face_array[me->mselect[i].index]);
				}
			}
		}
		else {
			me->totselect= 0;
		}

		MEM_freeN(vertex_array);
		MEM_freeN(edge_array);
		MEM_freeN(face_array);
	}

	BLI_array_free(fedges);
	BLI_array_free(verts);
	
	MEM_freeN(vt);
	MEM_freeN(et);
}


static void loops_to_corners(BMesh *bm, Mesh *me, int findex,
                             BMFace *f, BMLoop *ls[3], int numTex, int numCol) 
{
	BMLoop *l;
	MTFace *texface;
	MTexPoly *texpoly;
	MCol *mcol;
	MLoopCol *mloopcol;
	MLoopUV *mloopuv;
	int i, j;

	for(i=0; i < numTex; i++){
		texface = CustomData_get_n(&me->fdata, CD_MTFACE, findex, i);
		texpoly = CustomData_bmesh_get_n(&bm->pdata, f->head.data, CD_MTEXPOLY, i);
		
		texface->tpage = texpoly->tpage;
		texface->flag = texpoly->flag;
		texface->transp = texpoly->transp;
		texface->mode = texpoly->mode;
		texface->tile = texpoly->tile;
		texface->unwrap = texpoly->unwrap;

		for (j=0; j<3; j++) {
			l = ls[j];
			mloopuv = CustomData_bmesh_get_n(&bm->ldata, l->head.data, CD_MLOOPUV, i);
			texface->uv[j][0] = mloopuv->uv[0];
			texface->uv[j][1] = mloopuv->uv[1];
		}
	}

	for(i=0; i < numCol; i++){
		mcol = CustomData_get_n(&me->fdata, CD_MCOL, findex, i);

		for (j=0; j<3; j++) {
			l = ls[j];
			mloopcol = CustomData_bmesh_get_n(&bm->ldata, l->head.data, CD_MLOOPCOL, i);
			mcol[j].r = mloopcol->r;
			mcol[j].g = mloopcol->g;
			mcol[j].b = mloopcol->b;
			mcol[j].a = mloopcol->a;
		}
	}
}

void object_load_bmesh_exec(BMesh *bm, BMOperator *op) {
	Object *ob = BMO_Get_Pnt(op, "object");
	/* Scene *scene = BMO_Get_Pnt(op, "scene"); */
	Mesh *me = ob->data;

	BMO_CallOpf(bm, "bmesh_to_mesh mesh=%p object=%p", me, ob);
}


static BMVert **bmesh_to_mesh_vertex_map(BMesh *bm, int ototvert)
{
	BMVert **vertMap = NULL;
	BMVert *eve;
	 int i= 0;
	BMIter iter;

	vertMap = MEM_callocN(sizeof(*vertMap)*ototvert, "vertMap");
	if(CustomData_has_layer(&bm->vdata, CD_SHAPE_KEYINDEX)) {
		int *keyi;
		BM_ITER(eve, &iter, bm, BM_VERTS_OF_MESH, NULL) {
			keyi = CustomData_bmesh_get(&bm->vdata, eve->head.data, CD_SHAPE_KEYINDEX);
			if(keyi) {
				if (*keyi != ORIGINDEX_NONE)
					vertMap[*keyi] = eve;
			}
			else {
				if(i < ototvert) {
					vertMap[i] = eve;
				}
			}
			i++;
		}
	}
	else {
		BM_ITER(eve, &iter, bm, BM_VERTS_OF_MESH, NULL) {
			if(i < ototvert) {
				vertMap[i] = eve;
			}
			else {
				break;
			}
			i++;
		}
	}

	return vertMap;
}

void bmesh_to_mesh_exec(BMesh *bm, BMOperator *op) {
	Mesh *me = BMO_Get_Pnt(op, "mesh");
	/* Object *ob = BMO_Get_Pnt(op, "object"); */
	MLoop *mloop;
	KeyBlock *block;
	MPoly *mpoly;
	MVert *mvert, *oldverts;
	MEdge *medge;
	MFace *mface;
	BMVert *v, *eve;
	BMEdge *e;
	BMLoop *l;
	BMFace *f;
	BMIter iter, liter; float *facenors = NULL;
	int i, j, *keyi, ototvert, totloop, totface, numTex, numCol;
	int dotess = !BMO_Get_Int(op, "notesselation");

	numTex = CustomData_number_of_layers(&bm->pdata, CD_MTEXPOLY);
	numCol = CustomData_number_of_layers(&bm->ldata, CD_MLOOPCOL);
	
	ototvert = me->totvert;

	/* new Vertex block */
	if(bm->totvert==0) mvert= NULL;
	else mvert= MEM_callocN(bm->totvert*sizeof(MVert), "loadeditbMesh vert");

	/* new Edge block */
	if(bm->totedge==0) medge= NULL;
	else medge= MEM_callocN(bm->totedge*sizeof(MEdge), "loadeditbMesh edge");
	
	/*build ngon data*/
	/* new Ngon Face block */
	if(bm->totface==0) mpoly = NULL;
	else mpoly= MEM_callocN(bm->totface*sizeof(MPoly), "loadeditbMesh poly");
	
	/*find number of loops to allocate*/
	totloop = 0;
	BM_ITER(f, &iter, bm, BM_FACES_OF_MESH, NULL) {
		totloop += f->len;
	}

	if (totloop==0) mloop = NULL;
	else mloop = MEM_callocN(totloop*sizeof(MLoop), "loadeditbMesh loop");

	/* lets save the old verts just in case we are actually working on
	 * a key ... we now do processing of the keys at the end */
	oldverts= me->mvert;

	/* don't free this yet */
	CustomData_set_layer(&me->vdata, CD_MVERT, NULL);

	/* free custom data */
	CustomData_free(&me->vdata, me->totvert);
	CustomData_free(&me->edata, me->totedge);
	CustomData_free(&me->fdata, me->totface);
	CustomData_free(&me->ldata, me->totloop);
	CustomData_free(&me->pdata, me->totpoly);

	/* add new custom data */
	me->totvert= bm->totvert;
	me->totedge= bm->totedge;
	me->totloop= totloop;
	me->totpoly= bm->totface;
	/* will be overwritten with a valid value if 'dotess' is set, otherwise we
	 * end up with 'me->totface' and me->mface == NULL which can crash [#28625]
	 */
	me->totface= 0;

	CustomData_copy(&bm->vdata, &me->vdata, CD_MASK_MESH, CD_CALLOC, me->totvert);
	CustomData_copy(&bm->edata, &me->edata, CD_MASK_MESH, CD_CALLOC, me->totedge);
	CustomData_copy(&bm->ldata, &me->ldata, CD_MASK_MESH, CD_CALLOC, me->totloop);
	CustomData_copy(&bm->pdata, &me->pdata, CD_MASK_MESH, CD_CALLOC, me->totpoly);

	CustomData_add_layer(&me->vdata, CD_MVERT, CD_ASSIGN, mvert, me->totvert);
	CustomData_add_layer(&me->edata, CD_MEDGE, CD_ASSIGN, medge, me->totedge);
	CustomData_add_layer(&me->ldata, CD_MLOOP, CD_ASSIGN, mloop, me->totloop);
	CustomData_add_layer(&me->pdata, CD_MPOLY, CD_ASSIGN, mpoly, me->totpoly);
	
	i = 0;
	BM_ITER(v, &iter, bm, BM_VERTS_OF_MESH, NULL) {
		float *bweight = CustomData_bmesh_get(&bm->vdata, v->head.data, CD_BWEIGHT);

		mvert->bweight = bweight ? (char)((*bweight)*255) : 0;

		VECCOPY(mvert->co, v->co);

		mvert->no[0] = (short) (v->no[0]*32767.0f);
		mvert->no[1] = (short) (v->no[1]*32767.0f);
		mvert->no[2] = (short) (v->no[2]*32767.0f);
		
		mvert->flag = BMFlags_To_MEFlags(v);

		BM_SetIndex(v, i);

		/*copy over customdata*/
		CustomData_from_bmesh_block(&bm->vdata, &me->vdata, v->head.data, i);

		i++;
		mvert++;

		CHECK_ELEMENT(bm, v);
	}

	i = 0;
	BM_ITER(e, &iter, bm, BM_EDGES_OF_MESH, NULL) {
		float *crease = CustomData_bmesh_get(&bm->edata, e->head.data, CD_CREASE);
		float *bweight = CustomData_bmesh_get(&bm->edata, e->head.data, CD_BWEIGHT);
		
		medge->v1 = BM_GetIndex(e->v1);
		medge->v2 = BM_GetIndex(e->v2);
		medge->crease = crease ? (char)((*crease)*255) : 0;
		medge->bweight = bweight ? (char)((*bweight)*255) : 0;
		
		medge->flag = BMFlags_To_MEFlags(e);
		
		BM_SetIndex(e, i);

		/*copy over customdata*/
		CustomData_from_bmesh_block(&bm->edata, &me->edata, e->head.data, i);

		i++;
		medge++;
		CHECK_ELEMENT(bm, e);
	}

	/*new scanfill tesselation code*/
	if (dotess) {
		/*first counter number of faces we'll need*/
		totface = 0;
		BM_ITER(f, &iter, bm, BM_FACES_OF_MESH, NULL) {
			EditVert *eve, *lasteve = NULL, *firsteve = NULL;
			
			BLI_begin_edgefill();
			i = 0;
			BM_ITER(l, &liter, bm, BM_LOOPS_OF_FACE, f) {
				eve = BLI_addfillvert(l->v->co);
				eve->tmp.p = l;
				
				BM_SetIndex(l, i);

				if (lasteve) {
					BLI_addfilledge(lasteve, eve);
				}

				lasteve = eve;
				if (!firsteve) firsteve = eve;

				i++;
			}

			BLI_addfilledge(lasteve, firsteve);
			totface += BLI_edgefill(0);

			BLI_end_edgefill();
		}
		
		me->totface = totface;

		/* new tess face block */
		if(totface==0) mface= NULL;
		else {
			mface= MEM_callocN(totface*sizeof(MFace), "loadeditbMesh face");
			facenors = MEM_callocN(totface*sizeof(float)*3, "facenors");
		}

		CustomData_add_layer(&me->fdata, CD_MFACE, CD_ASSIGN, mface, me->totface);
		CustomData_add_layer(&me->fdata, CD_NORMAL, CD_ASSIGN, facenors, me->totface);
		CustomData_from_bmeshpoly(&me->fdata, &bm->pdata, &bm->ldata, totface);

		mesh_update_customdata_pointers(me);
		
		i = 0;
		BM_ITER(f, &iter, bm, BM_FACES_OF_MESH, NULL) {
			EditVert *eve, *lasteve = NULL, *firsteve = NULL;
			EditFace *efa;
			BMLoop *ls[3];
			
			BLI_begin_edgefill();
			BM_ITER(l, &liter, bm, BM_LOOPS_OF_FACE, f) {
				eve = BLI_addfillvert(l->v->co);
				eve->tmp.p = l;

				if (lasteve) {
					BLI_addfilledge(lasteve, eve);
				}

				lasteve = eve;
				if (!firsteve) firsteve = eve;
			}

			BLI_addfilledge(lasteve, firsteve);
			BLI_edgefill(0);

			for (efa=fillfacebase.first; efa; efa=efa->next) {
				ls[0] = efa->v1->tmp.p;
				ls[1] = efa->v2->tmp.p;
				ls[2] = efa->v3->tmp.p;
				
				/*ensure correct winding.  I believe this is
				  analogous to bubble sort on three elements.*/
				if (BM_GetIndex(ls[0]) > BM_GetIndex(ls[1])) {
					SWAP(BMLoop*, ls[0], ls[1]);
				}
				if (BM_GetIndex(ls[1]) > BM_GetIndex(ls[2])) {
					SWAP(BMLoop*, ls[1], ls[2]);
				}
				if (BM_GetIndex(ls[0]) > BM_GetIndex(ls[1])) {
					SWAP(BMLoop*, ls[0], ls[1]);
				}

				mface->mat_nr = f->mat_nr;
				mface->flag = BMFlags_To_MEFlags(f);
				
				mface->v1 = BM_GetIndex(ls[0]->v);
				mface->v2 = BM_GetIndex(ls[1]->v);
				mface->v3 = BM_GetIndex(ls[2]->v);

				test_index_face(mface, &me->fdata, i, 1);
				
				loops_to_corners(bm, me, i, f, ls, numTex, numCol);
				VECCOPY(facenors, ls[0]->f->no);

				mface++;
				facenors += 3;
				i++;
			}
			BLI_end_edgefill();
		}
	}

	i = 0;
	j = 0;
	BM_ITER(f, &iter, bm, BM_FACES_OF_MESH, NULL) {
		mpoly->loopstart = j;
		mpoly->totloop = f->len;
		mpoly->mat_nr = f->mat_nr;
		mpoly->flag = BMFlags_To_MEFlags(f);

		l = BMIter_New(&liter, bm, BM_LOOPS_OF_FACE, f);
		for ( ; l; l=BMIter_Step(&liter), j++, mloop++) {
			mloop->e = BM_GetIndex(l->e);
			mloop->v = BM_GetIndex(l->v);

			/*copy over customdata*/
			CustomData_from_bmesh_block(&bm->ldata, &me->ldata, l->head.data, j);
			CHECK_ELEMENT(bm, l);
			CHECK_ELEMENT(bm, l->e);
			CHECK_ELEMENT(bm, l->v);
		}
		
		if (f == bm->act_face) me->act_face = i;

		/*copy over customdata*/
		CustomData_from_bmesh_block(&bm->pdata, &me->pdata, f->head.data, i);

		i++;
		mpoly++;
		CHECK_ELEMENT(bm, f);
	}

	/* patch hook indices and vertex parents */
	{
		Object *ob;
		ModifierData *md;
		BMVert **vertMap = NULL;
		int i,j;

		for (ob=G.main->object.first; ob; ob=ob->id.next) {
			if (ob->parent==bm->ob && ELEM(ob->partype, PARVERT1,PARVERT3)) {

				if (vertMap == NULL) {
					vertMap= bmesh_to_mesh_vertex_map(bm, ototvert);
				}

				if(ob->par1 < ototvert) {
					eve = vertMap[ob->par1];
					if(eve) ob->par1= BM_GetIndex(eve);
				}
				if(ob->par2 < ototvert) {
					eve = vertMap[ob->par2];
					if(eve) ob->par2= BM_GetIndex(eve);
				}
				if(ob->par3 < ototvert) {
					eve = vertMap[ob->par3];
					if(eve) ob->par3= BM_GetIndex(eve);
				}
				
			}
			if (ob->data==me) {
				for (md=ob->modifiers.first; md; md=md->next) {
					if (md->type==eModifierType_Hook) {
						HookModifierData *hmd = (HookModifierData*) md;

						if (vertMap == NULL) {
							vertMap= bmesh_to_mesh_vertex_map(bm, ototvert);
						}
						
						for (i=j=0; i<hmd->totindex; i++) {
							if(hmd->indexar[i] < ototvert) {
								eve = vertMap[hmd->indexar[i]];
								
								if (eve) {
									hmd->indexar[j++] = BM_GetIndex(eve);
								}
							}
							else j++;
						}

						hmd->totindex = j;
					}
				}
			}
		}

		if (vertMap) MEM_freeN(vertMap);
	}

	mesh_update_customdata_pointers(me);

	{
		BMEditSelection *selected;
		me->totselect = BLI_countlist(&(bm->selected));

		if(me->mselect) MEM_freeN(me->mselect);

		me->mselect = MEM_callocN(sizeof(MSelect) * me->totselect, "Mesh selection history");


		for(i = 0, selected = bm->selected.first; selected; i++, selected = selected->next){
			if(selected->type == BM_VERT){
				me->mselect[i].type = ME_VSEL;

			}else if(selected->type == BM_EDGE){
				me->mselect[i].type = ME_ESEL;

			}else if(selected->type == BM_FACE){
				me->mselect[i].type = ME_FSEL;
			}

			me->mselect[i].index = BM_GetIndex(selected->data);
		}
	}

	if (me->key) {
		KeyBlock *actkey= BLI_findlink(&me->key->block, bm->shapenr-1);

		/*go through and find any shapekey customdata layers
		  that might not have corrusponding KeyBlocks, and add them if
		  necassary.*/
		j = 0;
		for (i=0; i<bm->vdata.totlayer; i++) {
			if (bm->vdata.layers[i].type != CD_SHAPEKEY)
				continue;

			for (block=me->key->block.first; block; block=block->next) {
				if (block->uid == bm->vdata.layers[i].uid)
					break;
			}
			
			if (!block) {
				block = MEM_callocN(sizeof(KeyBlock), "KeyBlock mesh_conv.c");
				block->type = KEY_LINEAR;
				block->slidermin = 0.0f;
				block->slidermax = 1.0f;

				BLI_addtail(&me->key->block, block);
				me->key->totkey++;
			}

			j++;
		}

		for (block=me->key->block.first; block; block=block->next) {
			j = 0;

			for (i=0; i<bm->vdata.totlayer; i++) {
				if (bm->vdata.layers[i].type != CD_SHAPEKEY)
					continue;

				if (block->uid == bm->vdata.layers[i].uid) {
					float *fp, *co;

					if (block->data)
						MEM_freeN(block->data);
					block->data = fp = MEM_mallocN(sizeof(float)*3*bm->totvert, "shape key data");
					block->totelem = bm->totvert;

					BM_ITER(eve, &iter, bm, BM_VERTS_OF_MESH, NULL) {
						co = block==actkey ? eve->co : CustomData_bmesh_get_n(&bm->vdata, eve->head.data, CD_SHAPEKEY, j);
						
						VECCOPY(fp, co);
						fp += 3;
					}
					break;
				}

				j++;
			}

			/*if we didn't find a shapekey, tag the block to be reconstructed
			  via the old method below*/
			if (j == CustomData_number_of_layers(&bm->vdata, CD_SHAPEKEY)) {
				block->flag |= KEYBLOCK_MISSING;
			}
		}
	}

	/* old method of reconstructing keys via vertice's original key indices,
	   currently used if the new method above fails (which is theoretically
	   possible in certain cases of undo).*/
	if(me->key) {
		float *fp, *newkey, *oldkey;
		KeyBlock *currkey;
		KeyBlock *actkey= BLI_findlink(&me->key->block, bm->shapenr-1);

		/* Lets reorder the key data so that things line up roughly
		 * with the way things were before editmode */
		currkey = me->key->block.first;
		while(currkey) {
			if (!(currkey->flag & KEYBLOCK_MISSING)) {
				currkey = currkey->next;
				continue;
			}
			
			printf("warning: had to hackishly reconstruct shape key \"%s\","
			       " it may not be correct anymore.\n", currkey->name);

			currkey->flag &= ~KEYBLOCK_MISSING;

			fp= newkey= MEM_callocN(me->key->elemsize*bm->totvert,  "currkey->data");
			oldkey = currkey->data;

			eve= BMIter_New(&iter, bm, BM_VERTS_OF_MESH, NULL);

			i = 0;
			mvert = me->mvert;
			while(eve) {
				keyi = CustomData_bmesh_get(&bm->vdata, eve->head.data, CD_SHAPE_KEYINDEX);
				if (!keyi) {
					break;
				}
				if (*keyi >= 0 && *keyi < currkey->totelem) { // valid old vertex
					if(currkey == actkey) {
						if(actkey == me->key->refkey) {
							VECCOPY(fp, mvert->co);
						}
						else {
							VECCOPY(fp, mvert->co);
							if(oldverts) {
								VECCOPY(mvert->co, oldverts[*keyi].co);
							}
						}
					}
					else {
						if(oldkey) {
							VECCOPY(fp, oldkey + 3 * *keyi);
						}
					}
				}
				else {
					VECCOPY(fp, mvert->co);
				}
				fp+= 3;
				++i;
				++mvert;
				eve= BMIter_Step(&iter);
			}
			currkey->totelem= bm->totvert;
			if(currkey->data) MEM_freeN(currkey->data);
			currkey->data = newkey;
			
			currkey= currkey->next;
		}
	}

	if(oldverts) MEM_freeN(oldverts);
}