diff options
author | Sergey Sharybin <sergey.vfx@gmail.com> | 2011-09-27 13:09:52 +0400 |
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committer | Sergey Sharybin <sergey.vfx@gmail.com> | 2011-09-27 13:09:52 +0400 |
commit | dcccf3fc1f915d0c8a3f2f8763170b6ff9394b8a (patch) | |
tree | 32c7e44265499113a2e81e6149f58bd0d9013212 /source/blender/editors/mesh/mesh_navmesh.c | |
parent | a25c7f647e3050239d0c0ea35db37a3e48f84e4c (diff) |
navmesh: solve bad level calls to edit mesh functions
Move navmesh operators from editors/object to editors/mesh
Diffstat (limited to 'source/blender/editors/mesh/mesh_navmesh.c')
-rw-r--r-- | source/blender/editors/mesh/mesh_navmesh.c | 674 |
1 files changed, 674 insertions, 0 deletions
diff --git a/source/blender/editors/mesh/mesh_navmesh.c b/source/blender/editors/mesh/mesh_navmesh.c new file mode 100644 index 00000000000..2b64fb24e78 --- /dev/null +++ b/source/blender/editors/mesh/mesh_navmesh.c @@ -0,0 +1,674 @@ +/** +* $Id$ +* +* ***** BEGIN GPL LICENSE BLOCK ***** +* +* This program is free software; you can redistribute it and/or +* modify it under the terms of the GNU General Public License +* as published by the Free Software Foundation; either version 2 +* of the License, or (at your option) any later version. +* +* This program is distributed in the hope that it will be useful, +* but WITHOUT ANY WARRANTY; without even the implied warranty of +* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +* GNU General Public License for more details. +* +* You should have received a copy of the GNU General Public License +* along with this program; if not, write to the Free Software Foundation, +* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. +* +* The Original Code is Copyright (C) 2004 by Blender Foundation +* All rights reserved. +* +* The Original Code is: all of this file. +* +* Contributor(s): none yet. +* +* ***** END GPL LICENSE BLOCK ***** +*/ + +#include <math.h> + +#include "MEM_guardedalloc.h" + +#include "DNA_scene_types.h" +#include "DNA_object_types.h" +#include "DNA_meshdata_types.h" +#include "DNA_modifier_types.h" +#include "DNA_ID.h" + +#include "BKE_library.h" +#include "BKE_depsgraph.h" +#include "BKE_context.h" +#include "BKE_main.h" +#include "BKE_mesh.h" +#include "BKE_modifier.h" +#include "BKE_scene.h" +#include "BKE_DerivedMesh.h" +#include "BKE_cdderivedmesh.h" + +#include "BLI_editVert.h" +#include "BLI_listbase.h" +#include "BLI_utildefines.h" +#include "BLI_math_vector.h" + +#include "ED_object.h" +#include "ED_mesh.h" +#include "ED_screen.h" + +#include "RNA_access.h" + +#include "WM_api.h" +#include "WM_types.h" + +#include "mesh_intern.h" +#include "recast-capi.h" + +static void createVertsTrisData(bContext *C, LinkNode* obs, int *nverts_r, float **verts_r, int *ntris_r, int **tris_r) +{ + MVert *mvert; + int nfaces = 0, *tri, i, curnverts, basenverts, curnfaces; + MFace *mface; + float co[3], wco[3]; + Object *ob; + LinkNode *oblink, *dmlink; + DerivedMesh *dm; + Scene* scene = CTX_data_scene(C); + LinkNode* dms = NULL; + + int nverts, ntris, *tris; + float *verts; + + nverts = 0; + ntris = 0; + //calculate number of verts and tris + for (oblink = obs; oblink; oblink = oblink->next) + { + ob = (Object*) oblink->link; + dm = mesh_create_derived_no_virtual(scene, ob, NULL, CD_MASK_MESH); + BLI_linklist_append(&dms, (void*)dm); + + nverts += dm->getNumVerts(dm); + nfaces = dm->getNumFaces(dm); + ntris += nfaces; + + //resolve quad faces + mface = dm->getFaceArray(dm); + for (i=0; i<nfaces; i++) + { + MFace* mf = &mface[i]; + if (mf->v4) + ntris+=1; + } + } + + //create data + verts = MEM_mallocN(sizeof(float)*3*nverts, "createVertsTrisData verts"); + tris = MEM_mallocN(sizeof(int)*3*ntris, "createVertsTrisData faces"); + + basenverts = 0; + tri = tris; + for (oblink = obs, dmlink = dms; oblink && dmlink; + oblink = oblink->next, dmlink = dmlink->next) + { + ob = (Object*) oblink->link; + dm = (DerivedMesh*) dmlink->link; + + curnverts = dm->getNumVerts(dm); + mvert = dm->getVertArray(dm); + //copy verts + for (i=0; i<curnverts; i++) + { + MVert *v = &mvert[i]; + copy_v3_v3(co, v->co); + mul_v3_m4v3(wco, ob->obmat, co); + verts[3*(basenverts+i)+0] = wco[0]; + verts[3*(basenverts+i)+1] = wco[2]; + verts[3*(basenverts+i)+2] = wco[1]; + } + + //create tris + curnfaces = dm->getNumFaces(dm); + mface = dm->getFaceArray(dm); + for (i=0; i<curnfaces; i++) + { + MFace* mf = &mface[i]; + tri[0]= basenverts + mf->v1; tri[1]= basenverts + mf->v3; tri[2]= basenverts + mf->v2; + tri += 3; + if (mf->v4) + { + tri[0]= basenverts + mf->v1; tri[1]= basenverts + mf->v4; tri[2]= basenverts + mf->v3; + tri += 3; + } + } + basenverts += curnverts; + } + + //release derived mesh + for (dmlink = dms; dmlink; dmlink = dmlink->next) + { + dm = (DerivedMesh*) dmlink->link; + dm->release(dm); + } + BLI_linklist_free(dms, NULL); + + *nverts_r= nverts; + *verts_r= verts; + *ntris_r= ntris; + *tris_r= tris; +} + +static int buildNavMesh(const RecastData *recastParams, int nverts, float *verts, int ntris, int *tris, + struct recast_polyMesh **pmesh, struct recast_polyMeshDetail **dmesh) +{ + float bmin[3], bmax[3]; + struct recast_heightfield *solid; + unsigned char *triflags; + struct recast_compactHeightfield* chf; + struct recast_contourSet *cset; + int width, height, walkableHeight, walkableClimb, walkableRadius; + int minRegionSize, mergeRegionSize, maxEdgeLen; + float detailSampleDist, detailSampleMaxError; + + recast_calcBounds(verts, nverts, bmin, bmax); + + // + // Step 1. Initialize build config. + // + { +/* + float cellsize = 0.3f; + float cellheight = 0.2f; + float agentmaxslope = M_PI/4; + float agentmaxclimb = 0.9f; + float agentheight = 2.0f; + float agentradius = 0.6f; + float edgemaxlen = 12.0f; + float edgemaxerror = 1.3f; + float regionminsize = 50.f; + float regionmergesize = 20.f; + int vertsperpoly = 6; + float detailsampledist = 6.0f; + float detailsamplemaxerror = 1.0f; + cfg.cs = cellsize; + cfg.ch = cellheight; + cfg.walkableSlopeAngle = agentmaxslope/M_PI*180.f; + cfg.walkableHeight = (int)ceilf(agentheight/ cfg.ch); + cfg.walkableClimb = (int)floorf(agentmaxclimb / cfg.ch); + cfg.walkableRadius = (int)ceilf(agentradius / cfg.cs); + cfg.maxEdgeLen = (int)(edgemaxlen/cellsize); + cfg.maxSimplificationError = edgemaxerror; + cfg.minRegionSize = (int)rcSqr(regionminsize); + cfg.mergeRegionSize = (int)rcSqr(regionmergesize); + cfg.maxVertsPerPoly = vertsperpoly; + cfg.detailSampleDist = detailsampledist< 0.9f ? 0 : cellsize * detailsampledist; + cfg.detailSampleMaxError = cellheight * detailsamplemaxerror; +*/ +#if 0 + cfg.cs = recastParams.cellsize; + cfg.ch = recastParams.cellheight; + cfg.walkableSlopeAngle = recastParams.agentmaxslope/((float)M_PI)*180.f; + cfg.walkableHeight = (int)ceilf(recastParams.agentheight/ cfg.ch); + cfg.walkableClimb = (int)floorf(recastParams.agentmaxclimb / cfg.ch); + cfg.walkableRadius = (int)ceilf(recastParams.agentradius / cfg.cs); + cfg.maxEdgeLen = (int)(recastParams.edgemaxlen/recastParams.cellsize); + cfg.maxSimplificationError = recastParams.edgemaxerror; + cfg.minRegionSize = (int)rcSqr(recastParams.regionminsize); + cfg.mergeRegionSize = (int)rcSqr(recastParams.regionmergesize); + cfg.maxVertsPerPoly = recastParams.vertsperpoly; + cfg.detailSampleDist = recastParams.detailsampledist< 0.9f ? 0 : + recastParams.cellsize * recastParams.detailsampledist; + cfg.detailSampleMaxError = recastParams.cellheight * recastParams.detailsamplemaxerror; +#endif + } + + walkableHeight = (int)ceilf(recastParams->agentheight/ recastParams->cellheight); + walkableClimb = (int)floorf(recastParams->agentmaxclimb / recastParams->cellheight); + walkableRadius = (int)ceilf(recastParams->agentradius / recastParams->cellsize); + minRegionSize = (int)(recastParams->regionminsize * recastParams->regionminsize); + mergeRegionSize = (int)(recastParams->regionmergesize * recastParams->regionmergesize); + maxEdgeLen = (int)(recastParams->edgemaxlen/recastParams->cellsize); + detailSampleDist = recastParams->detailsampledist< 0.9f ? 0 : + recastParams->cellsize * recastParams->detailsampledist; + detailSampleMaxError = recastParams->cellheight * recastParams->detailsamplemaxerror; + + // Set the area where the navigation will be build. + recast_calcGridSize(bmin, bmax, recastParams->cellsize, &width, &height); + + // + // Step 2. Rasterize input polygon soup. + // + // Allocate voxel heightfield where we rasterize our input data to. + solid = recast_newHeightfield(); + + if (!recast_createHeightfield(solid, width, height, bmin, bmax, recastParams->cellsize, recastParams->cellheight)) { + recast_destroyHeightfield(solid); + + return 0; + } + + // Allocate array that can hold triangle flags. + triflags = MEM_callocN(sizeof(unsigned char)*ntris, "buildNavMesh triflags"); + + // Find triangles which are walkable based on their slope and rasterize them. + recast_markWalkableTriangles(RAD2DEG(recastParams->agentmaxslope), verts, nverts, tris, ntris, triflags); + recast_rasterizeTriangles(verts, nverts, tris, triflags, ntris, solid); + MEM_freeN(triflags); + + // + // Step 3. Filter walkables surfaces. + // + recast_filterLedgeSpans(walkableHeight, walkableClimb, solid); + recast_filterWalkableLowHeightSpans(walkableHeight, solid); + + // + // Step 4. Partition walkable surface to simple regions. + // + + chf = recast_newCompactHeightfield(); + if (!recast_buildCompactHeightfield(walkableHeight, walkableClimb, RECAST_WALKABLE, solid, chf)) { + recast_destroyHeightfield(solid); + recast_destroyCompactHeightfield(chf); + + return 0; + } + + recast_destroyHeightfield(solid); + + // Prepare for region partitioning, by calculating distance field along the walkable surface. + if (!recast_buildDistanceField(chf)) { + recast_destroyCompactHeightfield(chf); + + return 0; + } + + // Partition the walkable surface into simple regions without holes. + if (!recast_buildRegions(chf, walkableRadius, 0, minRegionSize, mergeRegionSize)) { + recast_destroyCompactHeightfield(chf); + + return 0; + } + + // + // Step 5. Trace and simplify region contours. + // + // Create contours. + cset = recast_newContourSet(); + + if (!recast_buildContours(chf, recastParams->edgemaxerror, maxEdgeLen, cset)) { + recast_destroyCompactHeightfield(chf); + recast_destroyContourSet(cset); + + return 0; + } + + // + // Step 6. Build polygons mesh from contours. + // + *pmesh = recast_newPolyMesh(); + if (!recast_buildPolyMesh(cset, recastParams->vertsperpoly, *pmesh)) { + recast_destroyCompactHeightfield(chf); + recast_destroyContourSet(cset); + recast_destroyPolyMesh(*pmesh); + + return 0; + } + + + // + // Step 7. Create detail mesh which allows to access approximate height on each polygon. + // + + *dmesh = recast_newPolyMeshDetail(); + if (!recast_buildPolyMeshDetail(*pmesh, chf, detailSampleDist, detailSampleMaxError, *dmesh)) { + recast_destroyCompactHeightfield(chf); + recast_destroyContourSet(cset); + recast_destroyPolyMesh(*pmesh); + recast_destroyPolyMeshDetail(*dmesh); + + return 0; + } + + recast_destroyCompactHeightfield(chf); + recast_destroyContourSet(cset); + + return 1; +} + +static Object* createRepresentation(bContext *C, struct recast_polyMesh *pmesh, struct recast_polyMeshDetail *dmesh, Base* base) +{ + float co[3], rot[3]; + EditMesh *em; + int i,j, k; + unsigned short* v; + int face[3]; + Main *bmain = CTX_data_main(C); + Scene *scene= CTX_data_scene(C); + Object* obedit; + int createob = base==NULL; + int nverts, nmeshes, nvp; + unsigned short *verts, *meshes, *polys; + float bmin[3], cs, ch, *dverts; + unsigned char *tris; + ModifierData *md; + + zero_v3(co); + zero_v3(rot); + + if (createob) + { + //create new object + obedit = ED_object_add_type(C, OB_MESH, co, rot, FALSE, 1); + } + else + { + obedit = base->object; + scene_select_base(scene, base); + copy_v3_v3(obedit->loc, co); + copy_v3_v3(obedit->rot, rot); + } + + ED_object_enter_editmode(C, EM_DO_UNDO|EM_IGNORE_LAYER); + em = BKE_mesh_get_editmesh(((Mesh *)obedit->data)); + + if (!createob) + { + //clear + if(em->verts.first) free_vertlist(em, &em->verts); + if(em->edges.first) free_edgelist(em, &em->edges); + if(em->faces.first) free_facelist(em, &em->faces); + if(em->selected.first) BLI_freelistN(&(em->selected)); + } + + //create verts for polygon mesh + verts = recast_polyMeshGetVerts(pmesh, &nverts); + recast_polyMeshGetBoundbox(pmesh, bmin, NULL); + recast_polyMeshGetCell(pmesh, &cs, &ch); + + for(i = 0; i < nverts; i++) { + v = &verts[3*i]; + co[0] = bmin[0] + v[0]*cs; + co[1] = bmin[1] + v[1]*ch; + co[2] = bmin[2] + v[2]*cs; + SWAP(float, co[1], co[2]); + addvertlist(em, co, NULL); + } + + //create custom data layer to save polygon idx + CustomData_add_layer_named(&em->fdata, CD_RECAST, CD_CALLOC, NULL, 0, "recastData"); + + //create verts and faces for detailed mesh + meshes = recast_polyMeshDetailGetMeshes(dmesh, &nmeshes); + polys = recast_polyMeshGetPolys(pmesh, NULL, &nvp); + dverts = recast_polyMeshDetailGetVerts(dmesh, NULL); + tris = recast_polyMeshDetailGetTris(dmesh, NULL); + + for (i=0; i<nmeshes; i++) + { + int uniquevbase = em->totvert; + unsigned short vbase = meshes[4*i+0]; + unsigned short ndv = meshes[4*i+1]; + unsigned short tribase = meshes[4*i+2]; + unsigned short trinum = meshes[4*i+3]; + const unsigned short* p = &polys[i*nvp*2]; + int nv = 0; + for (j = 0; j < nvp; ++j) + { + if (p[j] == 0xffff) break; + nv++; + } + //create unique verts + for (j=nv; j<ndv; j++) + { + copy_v3_v3(co, &dverts[3*(vbase + j)]); + SWAP(float, co[1], co[2]); + addvertlist(em, co, NULL); + } + + EM_init_index_arrays(em, 1, 0, 0); + + //create faces + for (j=0; j<trinum; j++) + { + unsigned char* tri = &tris[4*(tribase+j)]; + EditFace* newFace; + int* polygonIdx; + + for (k=0; k<3; k++) + { + if (tri[k]<nv) + face[k] = p[tri[k]]; //shared vertex + else + face[k] = uniquevbase+tri[k]-nv; //unique vertex + } + newFace = addfacelist(em, EM_get_vert_for_index(face[0]), EM_get_vert_for_index(face[2]), + EM_get_vert_for_index(face[1]), NULL, NULL, NULL); + + //set navigation polygon idx to the custom layer + polygonIdx = (int*)CustomData_em_get(&em->fdata, newFace->data, CD_RECAST); + *polygonIdx = i+1; //add 1 to avoid zero idx + } + + EM_free_index_arrays(); + } + + recast_destroyPolyMesh(pmesh); + recast_destroyPolyMeshDetail(dmesh); + + BKE_mesh_end_editmesh((Mesh*)obedit->data, em); + + DAG_id_tag_update((ID*)obedit->data, OB_RECALC_DATA); + WM_event_add_notifier(C, NC_GEOM|ND_DATA, obedit->data); + + + ED_object_exit_editmode(C, EM_FREEDATA); + WM_event_add_notifier(C, NC_OBJECT|ND_DRAW, obedit); + + if (createob) + { + obedit->gameflag &= ~OB_COLLISION; + obedit->gameflag |= OB_NAVMESH; + obedit->body_type = OB_BODY_TYPE_NAVMESH; + rename_id((ID *)obedit, "Navmesh"); + } + + md= modifiers_findByType(obedit, eModifierType_NavMesh); + if (!md) + { + ED_object_modifier_add(NULL, bmain, scene, obedit, NULL, eModifierType_NavMesh); + } + + return obedit; +} + +static int create_navmesh_exec(bContext *C, wmOperator *UNUSED(op)) +{ + Scene* scene = CTX_data_scene(C); + int nverts, ntris; + float* verts; + int* tris; + struct recast_polyMesh *pmesh; + struct recast_polyMeshDetail *dmesh; + LinkNode* obs = NULL; + Base* navmeshBase = NULL; + + //CTX_DATA_BEGIN(C, Base*, base, selected_editable_bases) //expand macros to avoid error in convertion from void* + { + ListBase ctx_data_list; + CollectionPointerLink *ctx_link; + CTX_data_selected_editable_bases(C, &ctx_data_list); + for(ctx_link = (CollectionPointerLink *)ctx_data_list.first; + ctx_link; ctx_link = (CollectionPointerLink *)ctx_link->next) { + Base* base= (Base*)ctx_link->ptr.data; + { + if (base->object->body_type==OB_BODY_TYPE_NAVMESH) + { + if (!navmeshBase || base==CTX_data_active_base(C)) + navmeshBase = base; + } + else + BLI_linklist_append(&obs, (void*)base->object); + } + CTX_DATA_END; + createVertsTrisData(C, obs, &nverts, &verts, &ntris, &tris); + BLI_linklist_free(obs, NULL); + buildNavMesh(&scene->gm.recastData, nverts, verts, ntris, tris, &pmesh, &dmesh); + createRepresentation(C, pmesh, dmesh, navmeshBase); + + MEM_freeN(verts); + MEM_freeN(tris); + + return OPERATOR_FINISHED; +} + +void MESH_OT_create_navmesh(wmOperatorType *ot) +{ + /* identifiers */ + ot->name= "Create navigation mesh"; + ot->description= "Create navigation mesh for selected objects"; + ot->idname= "MESH_OT_create_navmesh"; + + /* api callbacks */ + ot->exec= create_navmesh_exec; + + /* flags */ + ot->flag= OPTYPE_REGISTER|OPTYPE_UNDO; +} + +static int assign_navpolygon_exec(bContext *C, wmOperator *UNUSED(op)) +{ + Object *obedit= CTX_data_edit_object(C); + EditMesh *em= BKE_mesh_get_editmesh((Mesh *)obedit->data); + + //do work here + int targetPolyIdx = -1; + EditFace *ef, *efa; + efa = EM_get_actFace(em, 0); + if (efa) + { + if (CustomData_has_layer(&em->fdata, CD_RECAST)) + { + targetPolyIdx = *(int*)CustomData_em_get(&em->fdata, efa->data, CD_RECAST); + targetPolyIdx = targetPolyIdx>=0? targetPolyIdx : -targetPolyIdx; + if (targetPolyIdx>0) + { + //set target poly idx to other selected faces + ef = (EditFace*)em->faces.last; + while(ef) + { + if((ef->f & SELECT )&& ef!=efa) + { + int* recastDataBlock = (int*)CustomData_em_get(&em->fdata, ef->data, CD_RECAST); + *recastDataBlock = targetPolyIdx; + } + ef = ef->prev; + } + } + } + } + + DAG_id_tag_update((ID*)obedit->data, OB_RECALC_DATA); + WM_event_add_notifier(C, NC_GEOM|ND_DATA, obedit->data); + + BKE_mesh_end_editmesh((Mesh*)obedit->data, em); + return OPERATOR_FINISHED; +} + +void MESH_OT_assign_navpolygon(struct wmOperatorType *ot) +{ + /* identifiers */ + ot->name= "Assign polygon index"; + ot->description= "Assign polygon index to face by active face"; + ot->idname= "MESH_OT_assign_navpolygon"; + + /* api callbacks */ + ot->poll= ED_operator_editmesh; + ot->exec= assign_navpolygon_exec; + + /* flags */ + ot->flag= OPTYPE_REGISTER|OPTYPE_UNDO; +} + +static int compare(const void * a, const void * b){ + return ( *(int*)a - *(int*)b ); +} + +static int findFreeNavPolyIndex(EditMesh* em) +{ + //construct vector of indices + int numfaces = em->totface; + int* indices = MEM_callocN(sizeof(int)*numfaces, "findFreeNavPolyIndex(indices)"); + EditFace* ef = (EditFace*)em->faces.last; + int i, idx = 0, freeIdx = 1; + + while(ef) + { + int polyIdx = *(int*)CustomData_em_get(&em->fdata, ef->data, CD_RECAST); + indices[idx] = polyIdx; + idx++; + ef = ef->prev; + } + + qsort(indices, numfaces, sizeof(int), compare); + + //search first free index + freeIdx = 1; + for (i=0; i<numfaces; i++) + { + if (indices[i]==freeIdx) + freeIdx++; + else if (indices[i]>freeIdx) + break; + } + + MEM_freeN(indices); + + return freeIdx; +} + +static int assign_new_navpolygon_exec(bContext *C, wmOperator *UNUSED(op)) +{ + Object *obedit= CTX_data_edit_object(C); + EditMesh *em= BKE_mesh_get_editmesh((Mesh *)obedit->data); + + EditFace *ef; + if (CustomData_has_layer(&em->fdata, CD_RECAST)) + { + int targetPolyIdx = findFreeNavPolyIndex(em); + if (targetPolyIdx>0) + { + //set target poly idx to selected faces + ef = (EditFace*)em->faces.last; + while(ef) + { + if(ef->f & SELECT ) + { + int* recastDataBlock = (int*)CustomData_em_get(&em->fdata, ef->data, CD_RECAST); + *recastDataBlock = targetPolyIdx; + } + ef = ef->prev; + } + } + } + + DAG_id_tag_update((ID*)obedit->data, OB_RECALC_DATA); + WM_event_add_notifier(C, NC_GEOM|ND_DATA, obedit->data); + + BKE_mesh_end_editmesh((Mesh*)obedit->data, em); + return OPERATOR_FINISHED; +} + +void MESH_OT_assign_new_navpolygon(struct wmOperatorType *ot) +{ + /* identifiers */ + ot->name= "Assign new polygon index"; + ot->description= "Assign new polygon index to face"; + ot->idname= "MESH_OT_assign_new_navpolygon"; + + /* api callbacks */ + ot->poll= ED_operator_editmesh; + ot->exec= assign_new_navpolygon_exec; + + /* flags */ + ot->flag= OPTYPE_REGISTER|OPTYPE_UNDO; +} |