diff --git a/build_files/cmake/FindPythonLibsUnix.cmake b/build_files/cmake/FindPythonLibsUnix.cmake index 0752de4ce3c..4c79edb07b8 100644 --- a/build_files/cmake/FindPythonLibsUnix.cmake +++ b/build_files/cmake/FindPythonLibsUnix.cmake @@ -4,7 +4,7 @@ # PYTHON_INCLUDE_DIRS # PYTHON_LIBRARY # PYTHON_LIBPATH -# PYTHON_LINKFLAGS +# PYTHON_LINKFLAGSPYTHON #============================================================================= diff --git a/build_files/scons/tools/btools.py b/build_files/scons/tools/btools.py index a646b9084c2..fcc782bd824 100644 --- a/build_files/scons/tools/btools.py +++ b/build_files/scons/tools/btools.py @@ -99,7 +99,7 @@ def validate_arguments(args, bc): 'WITH_BF_INTERNATIONAL', 'BF_GETTEXT', 'BF_GETTEXT_INC', 'BF_GETTEXT_LIB', 'WITH_BF_GETTEXT_STATIC', 'BF_GETTEXT_LIB_STATIC', 'BF_GETTEXT_LIBPATH', 'WITH_BF_ICONV', 'BF_ICONV', 'BF_ICONV_INC', 'BF_ICONV_LIB', 'BF_ICONV_LIBPATH', - 'WITH_BF_GAMEENGINE', 'WITH_BF_BULLET', 'BF_BULLET', 'BF_BULLET_INC', 'BF_BULLET_LIB', + 'WITH_BF_GAMEENGINE', 'WITH_BF_BULLET', 'WITH_BF_ELTOPO', 'BF_BULLET', 'BF_BULLET_INC', 'BF_BULLET_LIB', 'BF_WINTAB', 'BF_WINTAB_INC', 'WITH_BF_FREETYPE', 'BF_FREETYPE', 'BF_FREETYPE_INC', 'BF_FREETYPE_LIB', 'BF_FREETYPE_LIBPATH', 'BF_FREETYPE_LIB_STATIC', 'WITH_BF_FREETYPE_STATIC', 'WITH_BF_QUICKTIME', 'BF_QUICKTIME', 'BF_QUICKTIME_INC', 'BF_QUICKTIME_LIB', 'BF_QUICKTIME_LIBPATH', @@ -365,6 +365,8 @@ def read_opts(env, cfg, args): (BoolVariable('WITH_BF_GAMEENGINE', 'Build with gameengine' , False)), (BoolVariable('WITH_BF_BULLET', 'Use Bullet if true', True)), + (BoolVariable('WITH_BF_ELTOPO', 'Use Eltopo collision library if true', False)), + ('BF_BULLET', 'Bullet base dir', ''), ('BF_BULLET_INC', 'Bullet include path', ''), ('BF_BULLET_LIB', 'Bullet library', ''), diff --git a/extern/CMakeLists.txt b/extern/CMakeLists.txt index d74c6683f2c..c146d6dba83 100644 --- a/extern/CMakeLists.txt +++ b/extern/CMakeLists.txt @@ -31,6 +31,10 @@ if(WITH_BULLET) add_subdirectory(bullet2) endif() +if(WITH_ELTOPO) + add_subdirectory(eltopo) +endif() + if(WITH_BINRELOC) add_subdirectory(binreloc) endif() diff --git a/extern/SConscript b/extern/SConscript index bd73d71f123..061bd1ba6a3 100644 --- a/extern/SConscript +++ b/extern/SConscript @@ -4,6 +4,9 @@ Import('env') SConscript(['glew/SConscript']) +if env['WITH_BF_ELTOPO']: + SConscript(['eltopo/SConscript']) + if env['WITH_BF_BULLET']: SConscript(['bullet2/src/SConscript']) diff --git a/source/blender/blenkernel/BKE_collision.h b/source/blender/blenkernel/BKE_collision.h index b54d4275719..7018a638831 100644 --- a/source/blender/blenkernel/BKE_collision.h +++ b/source/blender/blenkernel/BKE_collision.h @@ -63,7 +63,11 @@ struct LinkNode; /* COLLISION FLAGS */ typedef enum { - COLLISION_IN_FUTURE = ( 1 << 1 ), + COLLISION_IN_FUTURE = (1 << 1), +#ifdef USE_ELTOPO + COLLISION_USE_COLLFACE = (1 << 2), + COLLISION_IS_EDGES = (1 << 3), +#endif } COLLISION_FLAGS; @@ -81,7 +85,13 @@ typedef struct CollPair float pa[3], pb[3]; // collision point p1 on face1, p2 on face2 int flag; float time; // collision time, from 0 up to 1 +#ifdef USE_ELTOPO /*either ap* or bp* can be set, but not both*/ + float bary[3]; + int ap1, ap2, ap3, collp, bp1, bp2, bp3; + int collface; +#else int ap1, ap2, ap3, bp1, bp2, bp3; +#endif int pointsb[4]; } CollPair; @@ -109,6 +119,7 @@ typedef struct FaceCollPair float pa[3], pb[3]; // collision point p1 on face1, p2 on face2 } FaceCollPair; + //////////////////////////////////////// diff --git a/source/blender/blenkernel/CMakeLists.txt b/source/blender/blenkernel/CMakeLists.txt index aaa596862c5..0a2aaffa3d1 100644 --- a/source/blender/blenkernel/CMakeLists.txt +++ b/source/blender/blenkernel/CMakeLists.txt @@ -140,7 +140,7 @@ set(SRC intern/writeavi.c intern/writeffmpeg.c intern/writeframeserver.c - + BKE_DerivedMesh.h BKE_action.h BKE_anim.h @@ -235,6 +235,11 @@ if(WITH_BULLET) add_definitions(-DUSE_BULLET) endif() +if(WITH_ELTOPO) + list(APPEND INC ../../../extern/eltopo) + add_definitions(-DUSE_ELTOPO) +endif() + if(WITH_IMAGE_OPENEXR) add_definitions(-DWITH_OPENEXR) endif() diff --git a/source/blender/blenkernel/SConscript b/source/blender/blenkernel/SConscript index bef72d3bf67..66011c4f396 100644 --- a/source/blender/blenkernel/SConscript +++ b/source/blender/blenkernel/SConscript @@ -27,6 +27,10 @@ if env['WITH_BF_PYTHON']: if env['BF_DEBUG']: defs.append('DEBUG') +if env['WITH_BF_ELTOPO']: + incs += ' ../../../extern/eltopo' + defs.append('USE_ELTOPO') + if env['WITH_BF_QUICKTIME']: incs += ' ../quicktime' diff --git a/source/blender/blenkernel/intern/collision.c b/source/blender/blenkernel/intern/collision.c index 88b6ca296c7..a5f07f56d36 100644 --- a/source/blender/blenkernel/intern/collision.c +++ b/source/blender/blenkernel/intern/collision.c @@ -48,6 +48,8 @@ #include "BLI_math.h" #include "BLI_edgehash.h" #include "BLI_utildefines.h" +#include "BLI_ghash.h" +#include "BLI_memarena.h" #include "BKE_DerivedMesh.h" #include "BKE_global.h" @@ -63,6 +65,10 @@ #include "BLI_kdopbvh.h" #include "BKE_collision.h" +#ifdef USE_ELTOPO +#include "eltopo-capi.h" +#endif + /*********************************** Collision modifier code start @@ -486,7 +492,7 @@ DO_INLINE void collision_interpolateOnTriangle ( float to[3], float v1[3], float VECADDMUL ( to, v3, w3 ); } - +#ifndef USE_ELTOPO static int cloth_collision_response_static ( ClothModifierData *clmd, CollisionModifierData *collmd, CollPair *collpair, CollPair *collision_end ) { int result = 0; @@ -601,6 +607,662 @@ static int cloth_collision_response_static ( ClothModifierData *clmd, CollisionM } return result; } +#endif + +#ifdef USE_ELTOPO +typedef struct edgepairkey { + int a1, a2, b1, b2; +} edgepairkey; + +unsigned int edgepair_hash(void *vkey) +{ + edgepairkey *key = vkey; + int keys[4] = {key->a1, key->a2, key->b1, key->b2}; + int i, j; + + for (i=0; i<4; i++) { + for (j=0; j<3; j++) { + if (keys[j] >= keys[j+1]) { + SWAP(int, keys[j], keys[j+1]); + } + } + } + + return keys[0]*101 + keys[1]*72 + keys[2]*53 + keys[3]*34; +} + +int edgepair_cmp(const void *va, const void *vb) +{ + edgepairkey *a = va, *b = vb; + int keysa[4] = {a->a1, a->a2, a->b1, a->b2}; + int keysb[4] = {b->a1, b->a2, b->b1, b->b2}; + int i; + + for (i=0; i<4; i++) { + int j, ok=0; + for (j=0; j<4; j++) { + if (keysa[i] == keysa[j]) { + ok = 1; + break; + } + } + if (!ok) + return -1; + } + + return 0; +} + +static void get_edgepairkey(edgepairkey *key, int a1, int a2, int b1, int b2) +{ + key->a1 = a1; + key->a2 = a2; + key->b1 = b1; + key->b2 = b2; +} + +/*an immense amount of duplication goes on here. . .a major performance hit, I'm sure*/ +static CollPair* cloth_edge_collision ( ModifierData *md1, ModifierData *md2, + BVHTreeOverlap *overlap, CollPair *collpair, + GHash *visithash, MemArena *arena) +{ + ClothModifierData *clmd = ( ClothModifierData * ) md1; + CollisionModifierData *collmd = ( CollisionModifierData * ) md2; + MFace *face1=NULL, *face2 = NULL; + ClothVertex *verts1 = clmd->clothObject->verts; + double distance = 0; + edgepairkey *key, tstkey; + float epsilon1 = clmd->coll_parms->epsilon; + float epsilon2 = BLI_bvhtree_getepsilon ( collmd->bvhtree ); + float no[3], uv[3], t, relnor; + int i, i1, i2, i3, i4, i5, i6; + Cloth *cloth = clmd->clothObject; + float n1[3], n2[3], off[3], v1[2][3], v2[2][3], v3[2][3], v4[2][3], v5[2][3], v6[2][3]; + void **verts[] = {v1, v2, v3, v4, v5, v6}; + int j, ret, bp1, bp2, bp3, ap1, ap2, ap3, table[6]; + + face1 = & ( clmd->clothObject->mfaces[overlap->indexA] ); + face2 = & ( collmd->mfaces[overlap->indexB] ); + + // check all 4 possible collisions + for ( i = 0; i < 4; i++ ) + { + if ( i == 0 ) + { + // fill faceA + ap1 = face1->v1; + ap2 = face1->v2; + ap3 = face1->v3; + + // fill faceB + bp1 = face2->v1; + bp2 = face2->v2; + bp3 = face2->v3; + } + else if ( i == 1 ) + { + if ( face1->v4 ) + { + // fill faceA + ap1 = face1->v1; + ap2 = face1->v3; + ap3 = face1->v4; + + // fill faceB + bp1 = face2->v1; + bp2 = face2->v2; + bp3 = face2->v3; + } + else { + continue; + } + } + if ( i == 2 ) + { + if ( face2->v4 ) + { + // fill faceA + ap1 = face1->v1; + ap2 = face1->v2; + ap3 = face1->v3; + + // fill faceB + bp1 = face2->v1; + bp2 = face2->v3; + bp3 = face2->v4; + } + else { + continue; + } + } + else if ( i == 3 ) + { + if ( face1->v4 && face2->v4 ) + { + // fill faceA + ap1 = face1->v1; + ap2 = face1->v3; + ap3 = face1->v4; + + // fill faceB + bp1 = face2->v1; + bp2 = face2->v3; + bp3 = face2->v4; + } + else { + continue; + } + } + + copy_v3_v3(v1[0], cloth->verts[ap1].txold); + copy_v3_v3(v1[1], cloth->verts[ap1].tx); + copy_v3_v3(v2[0], cloth->verts[ap2].txold); + copy_v3_v3(v2[1], cloth->verts[ap2].tx); + copy_v3_v3(v3[0], cloth->verts[ap3].txold); + copy_v3_v3(v3[1], cloth->verts[ap3].tx); + + copy_v3_v3(v4[0], collmd->current_x[bp1].co); + copy_v3_v3(v4[1], collmd->current_xnew[bp1].co); + copy_v3_v3(v5[0], collmd->current_x[bp2].co); + copy_v3_v3(v5[1], collmd->current_xnew[bp2].co); + copy_v3_v3(v6[0], collmd->current_x[bp3].co); + copy_v3_v3(v6[1], collmd->current_xnew[bp3].co); + + normal_tri_v3(n2, v4[1], v5[1], v6[1]); + + /*offset new positions a bit, to account for margins*/ + copy_v3_v3(off, n2); + mul_v3_fl(off, epsilon1 + epsilon2 + ALMOST_ZERO); + add_v3_v3(v4[1], off); add_v3_v3(v5[1], off); add_v3_v3(v6[1], off); + + i1 = ap1; i2 = ap2; i3 = ap3; + i4 = bp1; i5 = bp2; i6 = bp3; + + for (j=0; j<3; j++) { + int collp1, collp2, k, j2 = (j+1)%3; + + table[0] = ap1; table[1] = ap2; table[2] = ap3; + table[3] = bp1; table[4] = bp2; table[5] = bp3; + for (k=0; k<3; k++) { + int k2 = (k+1)%3; + + get_edgepairkey(&tstkey, table[j], table[j2], table[k+3], table[k2+3]); + if (BLI_ghash_haskey(visithash, &tstkey)) + continue; + + key = BLI_memarena_alloc(arena, sizeof(edgepairkey)); + *key = tstkey; + BLI_ghash_insert(visithash, key, NULL); + + ret = eltopo_line_line_moving_isect_v3v3_f(verts[j], table[j], verts[j2], table[j2], + verts[k+3], table[k+3], verts[k2+3], table[k2+3], + no, uv, &t, &relnor); + + /*cloth vert versus coll face*/ + if (ret && dot_v3v3(n2, no) > 0.0) { + collpair->ap1 = table[j]; collpair->ap2 = table[j2]; + collpair->bp1 = table[k+3]; collpair->bp2 = table[k2+3]; + + copy_v3_v3(collpair->normal, no); + mul_v3_v3fl(collpair->vector, collpair->normal, relnor); + collpair->distance = relnor; + collpair->time = t; + + copy_v2_v2(collpair->bary, uv); + + collpair->flag = COLLISION_IS_EDGES; + collpair++; + } + } + } + } + + return collpair; +} + +static int cloth_edge_collision_response_moving ( ClothModifierData *clmd, CollisionModifierData *collmd, CollPair *collpair, CollPair *collision_end ) +{ + int result = 0; + Cloth *cloth1; + float w1, w2; + float v1[3], v2[3], relativeVelocity[3]; + float magrelVel, pimpulse[3]; + + cloth1 = clmd->clothObject; + + for ( ; collpair != collision_end; collpair++ ) + { + if (!(collpair->flag & COLLISION_IS_EDGES)) + continue; + + // was: txold + w1 = collpair->bary[0]; w2 = collpair->bary[1]; + + // Calculate relative "velocity". + VECADDFAC(v1, cloth1->verts[collpair->ap1].tv, cloth1->verts[collpair->ap2].tv, w1); + VECADDFAC(v2, collmd->current_v[collpair->bp1].co, collmd->current_v[collpair->bp2].co, w2); + + VECSUB ( relativeVelocity, v2, v1); + + // Calculate the normal component of the relative velocity (actually only the magnitude - the direction is stored in 'normal'). + magrelVel = INPR ( relativeVelocity, collpair->normal ); + + // If v_n_mag < 0 the edges are approaching each other. + if ( magrelVel > ALMOST_ZERO ) + { + // Calculate Impulse magnitude to stop all motion in normal direction. + float magtangent = 0, repulse = 0, d = 0; + double impulse = 0.0; + float vrel_t_pre[3]; + float temp[3], spf; + + zero_v3(pimpulse); + + // calculate tangential velocity + VECCOPY ( temp, collpair->normal ); + mul_v3_fl( temp, magrelVel ); + VECSUB ( vrel_t_pre, relativeVelocity, temp ); + + // Decrease in magnitude of relative tangential velocity due to coulomb friction + // in original formula "magrelVel" should be the "change of relative velocity in normal direction" + magtangent = MIN2 ( clmd->coll_parms->friction * 0.01 * magrelVel,sqrt ( INPR ( vrel_t_pre,vrel_t_pre ) ) ); + + // Apply friction impulse. + if ( magtangent > ALMOST_ZERO ) + { + normalize_v3( vrel_t_pre ); + + impulse = magtangent; // 2.0 * + VECADDMUL ( pimpulse, vrel_t_pre, impulse); + } + + // Apply velocity stopping impulse + // I_c = m * v_N / 2.0 + // no 2.0 * magrelVel normally, but looks nicer DG + impulse = magrelVel; + + VECADDMUL ( pimpulse, collpair->normal, impulse); + + // Apply repulse impulse if distance too short + // I_r = -min(dt*kd, m(0,1d/dt - v_n)) + spf = (float)clmd->sim_parms->stepsPerFrame / clmd->sim_parms->timescale; + + d = collpair->distance; + if ( ( magrelVel < 0.1*d*spf ) && ( d > ALMOST_ZERO ) ) + { + repulse = MIN2 ( d*1.0/spf, 0.1*d*spf - magrelVel ); + + // stay on the safe side and clamp repulse + if ( impulse > ALMOST_ZERO ) + repulse = MIN2 ( repulse, 5.0*impulse ); + repulse = MAX2 ( impulse, repulse ); + + impulse = repulse / ( 5.0 ); // original 2.0 / 0.25 + VECADDMUL ( pimpulse, collpair->normal, impulse); + } + + w2 = 1.0f-w1; + if (w1 < 0.5) + w1 *= 2.0; + else + w2 *= 2.0; + + + VECADDFAC(cloth1->verts[collpair->ap1].impulse, cloth1->verts[collpair->ap1].impulse, pimpulse, w1*2.0); + VECADDFAC(cloth1->verts[collpair->ap2].impulse, cloth1->verts[collpair->ap2].impulse, pimpulse, w2*2.0); + + cloth1->verts[collpair->ap1].impulse_count++; + cloth1->verts[collpair->ap2].impulse_count++; + + result = 1; + } + } + + return result; +} + +static int cloth_collision_response_moving ( ClothModifierData *clmd, CollisionModifierData *collmd, CollPair *collpair, CollPair *collision_end ) +{ + int result = 0; + Cloth *cloth1; + float w1, w2, w3, u1, u2, u3; + float v1[3], v2[3], relativeVelocity[3]; + float magrelVel; + float epsilon2 = BLI_bvhtree_getepsilon ( collmd->bvhtree ); + + cloth1 = clmd->clothObject; + + for ( ; collpair != collision_end; collpair++ ) + { + if (collpair->flag & COLLISION_IS_EDGES) + continue; + + if ( collpair->flag & COLLISION_USE_COLLFACE ) { + // was: txold + w1 = collpair->bary[0]; w2 = collpair->bary[1]; w3 = collpair->bary[2]; + + // Calculate relative "velocity". + collision_interpolateOnTriangle ( v1, collmd->current_v[collpair->bp1].co, collmd->current_v[collpair->bp2].co, collmd->current_v[collpair->bp3].co, w1, w2, w3); + + VECSUB ( relativeVelocity, v1, cloth1->verts[collpair->collp].tv); + + // Calculate the normal component of the relative velocity (actually only the magnitude - the direction is stored in 'normal'). + magrelVel = INPR ( relativeVelocity, collpair->normal ); + + // If v_n_mag < 0 the edges are approaching each other. + if ( magrelVel > ALMOST_ZERO ) + { + // Calculate Impulse magnitude to stop all motion in normal direction. + float magtangent = 0, repulse = 0, d = 0; + double impulse = 0.0; + float vrel_t_pre[3]; + float temp[3], spf; + + // calculate tangential velocity + VECCOPY ( temp, collpair->normal ); + mul_v3_fl( temp, magrelVel ); + VECSUB ( vrel_t_pre, relativeVelocity, temp ); + + // Decrease in magnitude of relative tangential velocity due to coulomb friction + // in original formula "magrelVel" should be the "change of relative velocity in normal direction" + magtangent = MIN2 ( clmd->coll_parms->friction * 0.01 * magrelVel,sqrt ( INPR ( vrel_t_pre,vrel_t_pre ) ) ); + + // Apply friction impulse. + if ( magtangent > ALMOST_ZERO ) + { + normalize_v3( vrel_t_pre ); + + impulse = magtangent; // 2.0 * + VECADDMUL ( cloth1->verts[collpair->collp].impulse, vrel_t_pre, impulse); + } + + // Apply velocity stopping impulse + // I_c = m * v_N / 2.0 + // no 2.0 * magrelVel normally, but looks nicer DG + impulse = magrelVel/2.0; + + VECADDMUL ( cloth1->verts[collpair->collp].impulse, collpair->normal, impulse); + cloth1->verts[collpair->collp].impulse_count++; + + // Apply repulse impulse if distance too short + // I_r = -min(dt*kd, m(0,1d/dt - v_n)) + spf = (float)clmd->sim_parms->stepsPerFrame / clmd->sim_parms->timescale; + + d = -collpair->distance; + if ( ( magrelVel < 0.1*d*spf ) && ( d > ALMOST_ZERO ) ) + { + repulse = MIN2 ( d*1.0/spf, 0.1*d*spf - magrelVel ); + + // stay on the safe side and clamp repulse + if ( impulse > ALMOST_ZERO ) + repulse = MIN2 ( repulse, 5.0*impulse ); + repulse = MAX2 ( impulse, repulse ); + + impulse = repulse / ( 5.0 ); // original 2.0 / 0.25 + VECADDMUL ( cloth1->verts[collpair->collp].impulse, collpair->normal, impulse); + } + + result = 1; + } + } else { + w1 = collpair->bary[0]; w2 = collpair->bary[1]; w3 = collpair->bary[2]; + + // Calculate relative "velocity". + collision_interpolateOnTriangle ( v1, cloth1->verts[collpair->ap1].tv, cloth1->verts[collpair->ap2].tv, cloth1->verts[collpair->ap3].tv, w1, w2, w3 ); + + VECSUB ( relativeVelocity, collmd->current_v[collpair->collp].co, v1); + + // Calculate the normal component of the relative velocity (actually only the magnitude - the direction is stored in 'normal'). + magrelVel = INPR ( relativeVelocity, collpair->normal ); + + // If v_n_mag < 0 the edges are approaching each other. + if ( magrelVel > ALMOST_ZERO ) + { + // Calculate Impulse magnitude to stop all motion in normal direction. + float magtangent = 0, repulse = 0, d = 0; + double impulse = 0.0; + float vrel_t_pre[3], pimpulse[3] = {0.0f, 0.0f, 0.0f}; + float temp[3], spf; + + // calculate tangential velocity + VECCOPY ( temp, collpair->normal ); + mul_v3_fl( temp, magrelVel ); + VECSUB ( vrel_t_pre, relativeVelocity, temp ); + + // Decrease in magnitude of relative tangential velocity due to coulomb friction + // in original formula "magrelVel" should be the "change of relative velocity in normal direction" + magtangent = MIN2 ( clmd->coll_parms->friction * 0.01 * magrelVel,sqrt ( INPR ( vrel_t_pre,vrel_t_pre ) ) ); + + // Apply friction impulse. + if ( magtangent > ALMOST_ZERO ) + { + normalize_v3( vrel_t_pre ); + + impulse = magtangent; // 2.0 * + VECADDMUL ( pimpulse, vrel_t_pre, impulse); + } + + // Apply velocity stopping impulse + // I_c = m * v_N / 2.0 + // no 2.0 * magrelVel normally, but looks nicer DG + impulse = magrelVel/2.0; + + VECADDMUL ( pimpulse, collpair->normal, impulse); + + // Apply repulse impulse if distance too short + // I_r = -min(dt*kd, m(0,1d/dt - v_n)) + spf = (float)clmd->sim_parms->stepsPerFrame / clmd->sim_parms->timescale; + + d = -collpair->distance; + if ( ( magrelVel < 0.1*d*spf ) && ( d > ALMOST_ZERO ) ) + { + repulse = MIN2 ( d*1.0/spf, 0.1*d*spf - magrelVel ); + + // stay on the safe side and clamp repulse + if ( impulse > ALMOST_ZERO ) + repulse = MIN2 ( repulse, 5.0*impulse ); + repulse = MAX2 ( impulse, repulse ); + + impulse = repulse / ( 2.0 ); // original 2.0 / 0.25 + VECADDMUL ( pimpulse, collpair->normal, impulse); + } + + if (w1 < 0.5) w1 *= 2.0; + if (w2 < 0.5) w2 *= 2.0; + if (w3 < 0.5) w3 *= 2.0; + + VECADDMUL(cloth1->verts[collpair->ap1].impulse, pimpulse, w1*2.0); + VECADDMUL(cloth1->verts[collpair->ap2].impulse, pimpulse, w2*2.0); + VECADDMUL(cloth1->verts[collpair->ap3].impulse, pimpulse, w3*2.0);; + cloth1->verts[collpair->ap1].impulse_count++; + cloth1->verts[collpair->ap2].impulse_count++; + cloth1->verts[collpair->ap3].impulse_count++; + + result = 1; + } + } + } + + return result; +} + +static CollPair* cloth_collision ( ModifierData *md1, ModifierData *md2, BVHTreeOverlap *overlap, + CollPair *collpair) +{ + ClothModifierData *clmd = ( ClothModifierData * ) md1; + CollisionModifierData *collmd = ( CollisionModifierData * ) md2; + MFace *face1=NULL, *face2 = NULL; + ClothVertex *verts1 = clmd->clothObject->verts; + double distance = 0; + float epsilon1 = clmd->coll_parms->epsilon; + float epsilon2 = BLI_bvhtree_getepsilon ( collmd->bvhtree ); + float no[3], uv[3], t, relnor; + int i, i1, i2, i3, i4, i5, i6; + Cloth *cloth = clmd->clothObject; + float n1[3], n2[3], off[3], v1[2][3], v2[2][3], v3[2][3], v4[2][3], v5[2][3], v6[2][3]; + int j, ret, bp1, bp2, bp3, ap1, ap2, ap3; + + face1 = & ( clmd->clothObject->mfaces[overlap->indexA] ); + face2 = & ( collmd->mfaces[overlap->indexB] ); + + // check all 4 possible collisions + for ( i = 0; i < 4; i++ ) + { + if ( i == 0 ) + { + // fill faceA + ap1 = face1->v1; + ap2 = face1->v2; + ap3 = face1->v3; + + // fill faceB + bp1 = face2->v1; + bp2 = face2->v2; + bp3 = face2->v3; + } + else if ( i == 1 ) + { + if ( face1->v4 ) + { + // fill faceA + ap1 = face1->v1; + ap2 = face1->v3; + ap3 = face1->v4; + + // fill faceB + bp1 = face2->v1; + bp2 = face2->v2; + bp3 = face2->v3; + } + else { + continue; + } + } + if ( i == 2 ) + { + if ( face2->v4 ) + { + // fill faceA + ap1 = face1->v1; + ap2 = face1->v2; + ap3 = face1->v3; + + // fill faceB + bp1 = face2->v1; + bp2 = face2->v3; + bp3 = face2->v4; + } + else { + continue; + } + } + else if ( i == 3 ) + { + if ( face1->v4 && face2->v4 ) + { + // fill faceA + ap1 = face1->v1; + ap2 = face1->v3; + ap3 = face1->v4; + + // fill faceB + bp1 = face2->v1; + bp2 = face2->v3; + bp3 = face2->v4; + } + else { + continue; + } + } + + copy_v3_v3(v1[0], cloth->verts[ap1].txold); + copy_v3_v3(v1[1], cloth->verts[ap1].tx); + copy_v3_v3(v2[0], cloth->verts[ap2].txold); + copy_v3_v3(v2[1], cloth->verts[ap2].tx); + copy_v3_v3(v3[0], cloth->verts[ap3].txold); + copy_v3_v3(v3[1], cloth->verts[ap3].tx); + + copy_v3_v3(v4[0], collmd->current_x[bp1].co); + copy_v3_v3(v4[1], collmd->current_xnew[bp1].co); + copy_v3_v3(v5[0], collmd->current_x[bp2].co); + copy_v3_v3(v5[1], collmd->current_xnew[bp2].co); + copy_v3_v3(v6[0], collmd->current_x[bp3].co); + copy_v3_v3(v6[1], collmd->current_xnew[bp3].co); + + normal_tri_v3(n2, v4[1], v5[1], v6[1]); + + /*offset new positions a bit, to account for margins*/ + copy_v3_v3(off, n2); + mul_v3_fl(off, epsilon1 + epsilon2 + ALMOST_ZERO); + add_v3_v3(v4[1], off); add_v3_v3(v5[1], off); add_v3_v3(v6[1], off); + + i1 = ap1; i2 = ap2; i3 = ap3; + i4 = bp1; i5 = bp2; i6 = bp3; + + for (j=0; j<6; j++) { + int collp; + + switch (j) { + case 0: + ret = eltopo_point_tri_moving_v3v3_f(v1, i1, v4, i4, v5, i5, v6, i6, no, uv, &t, &relnor); + collp = ap1; + break; + case 1: + collp = ap2; + ret = eltopo_point_tri_moving_v3v3_f(v2, i2, v4, i4, v5, i5, v6, i6, no, uv, &t, &relnor); + break; + case 2: + collp = ap3; + ret = eltopo_point_tri_moving_v3v3_f(v3, i3, v4, i4, v5, i5, v6, i6, no, uv, &t, &relnor); + break; + case 3: + collp = bp1; + ret = eltopo_point_tri_moving_v3v3_f(v4, i4, v1, i1, v2, i2, v3, i3, no, uv, &t, &relnor); + break; + case 4: + collp = bp2; + ret = eltopo_point_tri_moving_v3v3_f(v5, i5, v1, i1, v2, i2, v3, i3, no, uv, &t, &relnor); + break; + case 5: + collp = bp3; + ret = eltopo_point_tri_moving_v3v3_f(v6, i6, v1, i1, v2, i2, v3, i3, no, uv, &t, &relnor); + break; + } + + /*cloth vert versus coll face*/ + if (ret && j < 3) { + collpair->bp1 = bp1; collpair->bp2 = bp2; collpair->bp3 = bp3; + collpair->collp = collp; + + copy_v3_v3(collpair->normal, no); + mul_v3_v3fl(collpair->vector, collpair->normal, relnor); + collpair->distance = relnor; + collpair->time = t; + + copy_v3_v3(collpair->bary, uv); + + collpair->flag = COLLISION_USE_COLLFACE; + collpair++; + } else if (ret && j >= 3) { /*coll vert versus cloth face*/ + collpair->ap1 = ap1; collpair->ap2 = ap2; collpair->ap3 = ap3; + collpair->collp = collp; + + copy_v3_v3(collpair->normal, no); + mul_v3_v3fl(collpair->vector, collpair->normal, relnor); + collpair->distance = relnor; + collpair->time = t; + + copy_v3_v3(collpair->bary, uv); + + collpair->flag = 0; + collpair++; + } + } + } + + return collpair; +} +#else //Determines collisions on overlap, collisions are written to collpair[i] and collision+number_collision_found is returned static CollPair* cloth_collision ( ModifierData *md1, ModifierData *md2, BVHTreeOverlap *overlap, CollPair *collpair ) @@ -741,6 +1403,8 @@ static CollPair* cloth_collision ( ModifierData *md1, ModifierData *md2, BVHTree } return collpair; } +#endif + #if 0 static int cloth_collision_response_moving( ClothModifierData *clmd, CollisionModifierData *collmd, CollPair *collpair, CollPair *collision_end ) @@ -1446,17 +2110,32 @@ void free_collider_cache(ListBase **colliders) } } + static void cloth_bvh_objcollisions_nearcheck ( ClothModifierData * clmd, CollisionModifierData *collmd, CollPair **collisions, CollPair **collisions_index, int numresult, BVHTreeOverlap *overlap) { int i; +#ifdef USE_ELTOPO + GHash *visithash = BLI_ghash_new(edgepair_hash, edgepair_cmp, "visthash, collision.c"); + MemArena *arena = BLI_memarena_new(1<<16, "edge hash arena, collision.c"); +#endif - *collisions = ( CollPair* ) MEM_mallocN ( sizeof ( CollPair ) * numresult * 4, "collision array" ); //*4 since cloth_collision_static can return more than 1 collision + *collisions = ( CollPair* ) MEM_mallocN ( sizeof ( CollPair ) * numresult * 64, "collision array" ); //*4 since cloth_collision_static can return more than 1 collision *collisions_index = *collisions; for ( i = 0; i < numresult; i++ ) { *collisions_index = cloth_collision ( ( ModifierData * ) clmd, ( ModifierData * ) collmd, overlap+i, *collisions_index ); } + +#ifdef USE_ELTOPO + for ( i = 0; i < numresult; i++ ) + { + *collisions_index = cloth_edge_collision ( ( ModifierData * ) clmd, ( ModifierData * ) collmd, + overlap+i, *collisions_index, visithash, arena ); + } + BLI_ghash_free(visithash, NULL, NULL); + BLI_memarena_free(arena); +#endif } static int cloth_bvh_objcollisions_resolve ( ClothModifierData * clmd, CollisionModifierData *collmd, CollPair *collisions, CollPair *collisions_index) @@ -1481,8 +2160,12 @@ static int cloth_bvh_objcollisions_resolve ( ClothModifierData * clmd, Collision if ( collmd->bvhtree ) { +#ifdef USE_ELTOPO + result += cloth_collision_response_moving(clmd, collmd, collisions, collisions_index); + result += cloth_edge_collision_response_moving(clmd, collmd, collisions, collisions_index); +#else result += cloth_collision_response_static ( clmd, collmd, collisions, collisions_index ); - +#endif // apply impulses in parallel if ( result ) { @@ -1557,6 +2240,7 @@ int cloth_bvh_objcollision (Object *ob, ClothModifierData * clmd, float step, fl continue; /* move object to position (step) in time */ + collision_move_object ( collmd, step + dt, step ); /* search for overlapping collision pairs */ diff --git a/source/blenderplayer/CMakeLists.txt b/source/blenderplayer/CMakeLists.txt index d48228407cb..eba394bcce6 100644 --- a/source/blenderplayer/CMakeLists.txt +++ b/source/blenderplayer/CMakeLists.txt @@ -128,6 +128,10 @@ if(UNIX) bf_intern_mikktspace ) + if(WITH_ELTOPO) + list(APPEND BLENDER_SORTED_LIBS extern_eltopo) + endif() + if(WITH_BUILTIN_GLEW) list(APPEND BLENDER_SORTED_LIBS extern_glew) endif() diff --git a/source/creator/CMakeLists.txt b/source/creator/CMakeLists.txt index 2a21755b514..1ddab5992fd 100644 --- a/source/creator/CMakeLists.txt +++ b/source/creator/CMakeLists.txt @@ -789,6 +789,10 @@ endif() bf_intern_mikktspace ) + if(WITH_ELTOPO) + list(APPEND BLENDER_SORTED_LIBS extern_eltopo) + endif() + if(WITH_BUILTIN_GLEW) list(APPEND BLENDER_SORTED_LIBS extern_glew) endif()