diff options
Diffstat (limited to 'dep/recastnavigation/Recast/RecastArea.cpp')
| -rw-r--r-- | dep/recastnavigation/Recast/RecastArea.cpp | 170 |
1 files changed, 167 insertions, 3 deletions
diff --git a/dep/recastnavigation/Recast/RecastArea.cpp b/dep/recastnavigation/Recast/RecastArea.cpp index 4e7b79d301d..1a338cd9b8c 100644 --- a/dep/recastnavigation/Recast/RecastArea.cpp +++ b/dep/recastnavigation/Recast/RecastArea.cpp @@ -61,14 +61,26 @@ bool rcErodeWalkableArea(rcContext* ctx, int radius, rcCompactHeightfield& chf) const rcCompactCell& c = chf.cells[x+y*w]; for (int i = (int)c.index, ni = (int)(c.index+c.count); i < ni; ++i) { - if (chf.areas[i] != RC_NULL_AREA) + if (chf.areas[i] == RC_NULL_AREA) + { + dist[i] = 0; + } + else { const rcCompactSpan& s = chf.spans[i]; int nc = 0; for (int dir = 0; dir < 4; ++dir) { if (rcGetCon(s, dir) != RC_NOT_CONNECTED) - nc++; + { + const int nx = x + rcGetDirOffsetX(dir); + const int ny = y + rcGetDirOffsetY(dir); + const int nidx = (int)chf.cells[nx+ny*w].index + rcGetCon(s, dir); + if (chf.areas[nidx] != RC_NULL_AREA) + { + nc++; + } + } } // At least one missing neighbour. if (nc != 4) @@ -339,7 +351,8 @@ void rcMarkBoxArea(rcContext* ctx, const float* bmin, const float* bmax, unsigne rcCompactSpan& s = chf.spans[i]; if ((int)s.y >= miny && (int)s.y <= maxy) { - chf.areas[i] = areaId; + if (chf.areas[i] != RC_NULL_AREA) + chf.areas[i] = areaId; } } } @@ -418,6 +431,8 @@ void rcMarkConvexPolyArea(rcContext* ctx, const float* verts, const int nverts, for (int i = (int)c.index, ni = (int)(c.index+c.count); i < ni; ++i) { rcCompactSpan& s = chf.spans[i]; + if (chf.areas[i] == RC_NULL_AREA) + continue; if ((int)s.y >= miny && (int)s.y <= maxy) { float p[3]; @@ -436,3 +451,152 @@ void rcMarkConvexPolyArea(rcContext* ctx, const float* verts, const int nverts, ctx->stopTimer(RC_TIMER_MARK_CONVEXPOLY_AREA); } + +int rcOffsetPoly(const float* verts, const int nverts, const float offset, + float* outVerts, const int maxOutVerts) +{ + const float MITER_LIMIT = 1.20f; + + int n = 0; + + for (int i = 0; i < nverts; i++) + { + const int a = (i+nverts-1) % nverts; + const int b = i; + const int c = (i+1) % nverts; + const float* va = &verts[a*3]; + const float* vb = &verts[b*3]; + const float* vc = &verts[c*3]; + float dx0 = vb[0] - va[0]; + float dy0 = vb[2] - va[2]; + float d0 = dx0*dx0 + dy0*dy0; + if (d0 > 1e-6f) + { + d0 = 1.0f/rcSqrt(d0); + dx0 *= d0; + dy0 *= d0; + } + float dx1 = vc[0] - vb[0]; + float dy1 = vc[2] - vb[2]; + float d1 = dx1*dx1 + dy1*dy1; + if (d1 > 1e-6f) + { + d1 = 1.0f/rcSqrt(d1); + dx1 *= d1; + dy1 *= d1; + } + const float dlx0 = -dy0; + const float dly0 = dx0; + const float dlx1 = -dy1; + const float dly1 = dx1; + float cross = dx1*dy0 - dx0*dy1; + float dmx = (dlx0 + dlx1) * 0.5f; + float dmy = (dly0 + dly1) * 0.5f; + float dmr2 = dmx*dmx + dmy*dmy; + bool bevel = dmr2 * MITER_LIMIT*MITER_LIMIT < 1.0f; + if (dmr2 > 1e-6f) + { + const float scale = 1.0f / dmr2; + dmx *= scale; + dmy *= scale; + } + + if (bevel && cross < 0.0f) + { + if (n+2 >= maxOutVerts) + return 0; + float d = (1.0f - (dx0*dx1 + dy0*dy1))*0.5f; + outVerts[n*3+0] = vb[0] + (-dlx0+dx0*d)*offset; + outVerts[n*3+1] = vb[1]; + outVerts[n*3+2] = vb[2] + (-dly0+dy0*d)*offset; + n++; + outVerts[n*3+0] = vb[0] + (-dlx1-dx1*d)*offset; + outVerts[n*3+1] = vb[1]; + outVerts[n*3+2] = vb[2] + (-dly1-dy1*d)*offset; + n++; + } + else + { + if (n+1 >= maxOutVerts) + return 0; + outVerts[n*3+0] = vb[0] - dmx*offset; + outVerts[n*3+1] = vb[1]; + outVerts[n*3+2] = vb[2] - dmy*offset; + n++; + } + } + + return n; +} + + +/// @par +/// +/// The value of spacial parameters are in world units. +/// +/// @see rcCompactHeightfield, rcMedianFilterWalkableArea +void rcMarkCylinderArea(rcContext* ctx, const float* pos, + const float r, const float h, unsigned char areaId, + rcCompactHeightfield& chf) +{ + rcAssert(ctx); + + ctx->startTimer(RC_TIMER_MARK_CYLINDER_AREA); + + float bmin[3], bmax[3]; + bmin[0] = pos[0] - r; + bmin[1] = pos[1]; + bmin[2] = pos[2] - r; + bmax[0] = pos[0] + r; + bmax[1] = pos[1] + h; + bmax[2] = pos[2] + r; + const float r2 = r*r; + + int minx = (int)((bmin[0]-chf.bmin[0])/chf.cs); + int miny = (int)((bmin[1]-chf.bmin[1])/chf.ch); + int minz = (int)((bmin[2]-chf.bmin[2])/chf.cs); + int maxx = (int)((bmax[0]-chf.bmin[0])/chf.cs); + int maxy = (int)((bmax[1]-chf.bmin[1])/chf.ch); + int maxz = (int)((bmax[2]-chf.bmin[2])/chf.cs); + + if (maxx < 0) return; + if (minx >= chf.width) return; + if (maxz < 0) return; + if (minz >= chf.height) return; + + if (minx < 0) minx = 0; + if (maxx >= chf.width) maxx = chf.width-1; + if (minz < 0) minz = 0; + if (maxz >= chf.height) maxz = chf.height-1; + + + for (int z = minz; z <= maxz; ++z) + { + for (int x = minx; x <= maxx; ++x) + { + const rcCompactCell& c = chf.cells[x+z*chf.width]; + for (int i = (int)c.index, ni = (int)(c.index+c.count); i < ni; ++i) + { + rcCompactSpan& s = chf.spans[i]; + + if (chf.areas[i] == RC_NULL_AREA) + continue; + + if ((int)s.y >= miny && (int)s.y <= maxy) + { + const float sx = chf.bmin[0] + (x+0.5f)*chf.cs; + const float sz = chf.bmin[2] + (z+0.5f)*chf.cs; + const float dx = sx - pos[0]; + const float dz = sz - pos[2]; + + if (dx*dx + dz*dz < r2) + { + chf.areas[i] = areaId; + } + } + } + } + } + + ctx->stopTimer(RC_TIMER_MARK_CYLINDER_AREA); +} |