void Sample_TileMesh::handleRender() { if (!m_geom || !m_geom->getMesh()) return; const float texScale = 1.0f / (m_cellSize * 10.0f); // Draw mesh if (m_drawMode != DRAWMODE_NAVMESH_TRANS) { // Draw mesh duDebugDrawTriMeshSlope(&m_dd, m_geom->getMesh()->getVerts(), m_geom->getMesh()->getVertCount(), m_geom->getMesh()->getTris(), m_geom->getMesh()->getNormals(), m_geom->getMesh()->getTriCount(), m_agentMaxSlope, texScale); m_geom->drawOffMeshConnections(&m_dd); } glDepthMask(GL_FALSE); // Draw bounds const float* bmin = m_geom->getNavMeshBoundsMin(); const float* bmax = m_geom->getNavMeshBoundsMax(); duDebugDrawBoxWire(&m_dd, bmin[0],bmin[1],bmin[2], bmax[0],bmax[1],bmax[2], duRGBA(255,255,255,128), 1.0f); // Tiling grid. int gw = 0, gh = 0; rcCalcGridSize(bmin, bmax, m_cellSize, &gw, &gh); const int tw = (gw + (int)m_tileSize-1) / (int)m_tileSize; const int th = (gh + (int)m_tileSize-1) / (int)m_tileSize; const float s = m_tileSize*m_cellSize; duDebugDrawGridXZ(&m_dd, bmin[0],bmin[1],bmin[2], tw,th, s, duRGBA(0,0,0,64), 1.0f); // Draw active tile duDebugDrawBoxWire(&m_dd, m_lastBuiltTileBmin[0],m_lastBuiltTileBmin[1],m_lastBuiltTileBmin[2], m_lastBuiltTileBmax[0],m_lastBuiltTileBmax[1],m_lastBuiltTileBmax[2], m_tileCol, 1.0f); if (m_navMesh && m_navQuery && (m_drawMode == DRAWMODE_NAVMESH || m_drawMode == DRAWMODE_NAVMESH_TRANS || m_drawMode == DRAWMODE_NAVMESH_BVTREE || m_drawMode == DRAWMODE_NAVMESH_NODES || m_drawMode == DRAWMODE_NAVMESH_PORTALS || m_drawMode == DRAWMODE_NAVMESH_INVIS)) { if (m_drawMode != DRAWMODE_NAVMESH_INVIS) duDebugDrawNavMeshWithClosedList(&m_dd, *m_navMesh, *m_navQuery, m_navMeshDrawFlags); if (m_drawMode == DRAWMODE_NAVMESH_BVTREE) duDebugDrawNavMeshBVTree(&m_dd, *m_navMesh); if (m_drawMode == DRAWMODE_NAVMESH_PORTALS) duDebugDrawNavMeshPortals(&m_dd, *m_navMesh); if (m_drawMode == DRAWMODE_NAVMESH_NODES) duDebugDrawNavMeshNodes(&m_dd, *m_navQuery); duDebugDrawNavMeshPolysWithFlags(&m_dd, *m_navMesh, SAMPLE_POLYFLAGS_DISABLED, duRGBA(0,0,0,128)); } glDepthMask(GL_TRUE); if (m_chf && m_drawMode == DRAWMODE_COMPACT) duDebugDrawCompactHeightfieldSolid(&m_dd, *m_chf); if (m_chf && m_drawMode == DRAWMODE_COMPACT_DISTANCE) duDebugDrawCompactHeightfieldDistance(&m_dd, *m_chf); if (m_chf && m_drawMode == DRAWMODE_COMPACT_REGIONS) duDebugDrawCompactHeightfieldRegions(&m_dd, *m_chf); if (m_solid && m_drawMode == DRAWMODE_VOXELS) { glEnable(GL_FOG); duDebugDrawHeightfieldSolid(&m_dd, *m_solid); glDisable(GL_FOG); } if (m_solid && m_drawMode == DRAWMODE_VOXELS_WALKABLE) { glEnable(GL_FOG); duDebugDrawHeightfieldWalkable(&m_dd, *m_solid); glDisable(GL_FOG); } if (m_cset && m_drawMode == DRAWMODE_RAW_CONTOURS) { glDepthMask(GL_FALSE); duDebugDrawRawContours(&m_dd, *m_cset); glDepthMask(GL_TRUE); } if (m_cset && m_drawMode == DRAWMODE_BOTH_CONTOURS) { glDepthMask(GL_FALSE); duDebugDrawRawContours(&m_dd, *m_cset, 0.5f); duDebugDrawContours(&m_dd, *m_cset); glDepthMask(GL_TRUE); } if (m_cset && m_drawMode == DRAWMODE_CONTOURS) { glDepthMask(GL_FALSE); duDebugDrawContours(&m_dd, *m_cset); glDepthMask(GL_TRUE); } if (m_chf && m_cset && m_drawMode == DRAWMODE_REGION_CONNECTIONS) { duDebugDrawCompactHeightfieldRegions(&m_dd, *m_chf); glDepthMask(GL_FALSE); duDebugDrawRegionConnections(&m_dd, *m_cset); glDepthMask(GL_TRUE); } if (m_pmesh && m_drawMode == DRAWMODE_POLYMESH) { glDepthMask(GL_FALSE); duDebugDrawPolyMesh(&m_dd, *m_pmesh); glDepthMask(GL_TRUE); } if (m_dmesh && m_drawMode == DRAWMODE_POLYMESH_DETAIL) { glDepthMask(GL_FALSE); duDebugDrawPolyMeshDetail(&m_dd, *m_dmesh); glDepthMask(GL_TRUE); } m_geom->drawConvexVolumes(&m_dd); if (m_tool) m_tool->handleRender(); renderToolStates(); glDepthMask(GL_TRUE); }
void Sample_Debug::handleRender() { DebugDrawGL dd; if (m_chf) { duDebugDrawCompactHeightfieldRegions(&dd, *m_chf); // duDebugDrawCompactHeightfieldSolid(&dd, *m_chf); } if (m_navMesh) duDebugDrawNavMesh(&dd, *m_navMesh, DU_DRAWNAVMESH_OFFMESHCONS); if (m_ref && m_navMesh) duDebugDrawNavMeshPoly(&dd, *m_navMesh, m_ref, duRGBA(255,0,0,128)); /* float bmin[3], bmax[3]; rcVsub(bmin, m_center, m_ext); rcVadd(bmax, m_center, m_ext); duDebugDrawBoxWire(&dd, bmin[0],bmin[1],bmin[2], bmax[0],bmax[1],bmax[2], duRGBA(255,255,255,128), 1.0f); duDebugDrawCross(&dd, m_center[0], m_center[1], m_center[2], 1.0f, duRGBA(255,255,255,128), 2.0f);*/ if (m_cset) { duDebugDrawRawContours(&dd, *m_cset, 0.25f); duDebugDrawContours(&dd, *m_cset); } if (m_pmesh) { duDebugDrawPolyMesh(&dd, *m_pmesh); } /* dd.depthMask(false); { const float bmin[3] = {-32.000004f,-11.488281f,-115.343544f}; const float cs = 0.300000f; const float ch = 0.200000f; const int verts[] = { 158,46,336,0, 157,47,331,0, 161,53,330,0, 162,52,335,0, 158,46,336,0, 154,46,339,5, 161,46,365,5, 171,46,385,5, 174,46,400,5, 177,46,404,5, 177,46,410,5, 183,46,416,5, 188,49,416,5, 193,52,411,6, 194,53,382,6, 188,52,376,6, 188,57,363,6, 174,57,349,6, 174,60,342,6, 168,58,336,6, 167,59,328,6, 162,55,324,6, 159,53,324,5, 152,46,328,5, 151,46,336,5, 154,46,339,5, 158,46,336,0, 160,46,340,0, 164,52,339,0, 168,55,343,0, 168,50,351,0, 182,54,364,0, 182,47,378,0, 188,50,383,0, 188,49,409,0, 183,46,409,0, 183,46,403,0, 180,46,399,0, 177,46,384,0, 165,46,359,0, 160,46,340,0, }; const int nverts = sizeof(verts)/(sizeof(int)*4); const unsigned int colln = duRGBA(255,255,255,128); dd.begin(DU_DRAW_LINES, 1.0f); for (int i = 0, j = nverts-1; i < nverts; j=i++) { const int* va = &verts[j*4]; const int* vb = &verts[i*4]; dd.vertex(bmin[0]+va[0]*cs, bmin[1]+va[1]*ch+j*0.01f, bmin[2]+va[2]*cs, colln); dd.vertex(bmin[0]+vb[0]*cs, bmin[1]+vb[1]*ch+i*0.01f, bmin[2]+vb[2]*cs, colln); } dd.end(); const unsigned int colpt = duRGBA(255,255,255,255); dd.begin(DU_DRAW_POINTS, 3.0f); for (int i = 0, j = nverts-1; i < nverts; j=i++) { const int* va = &verts[j*4]; dd.vertex(bmin[0]+va[0]*cs, bmin[1]+va[1]*ch+j*0.01f, bmin[2]+va[2]*cs, colpt); } dd.end(); extern int triangulate(int n, const int* verts, int* indices, int* tris); static int indices[nverts]; static int tris[nverts*3]; for (int j = 0; j < nverts; ++j) indices[j] = j; static int ntris = 0; if (!ntris) { ntris = triangulate(nverts, verts, &indices[0], &tris[0]); if (ntris < 0) ntris = -ntris; } const unsigned int coltri = duRGBA(255,255,255,64); dd.begin(DU_DRAW_TRIS); for (int i = 0; i < ntris*3; ++i) { const int* va = &verts[indices[tris[i]]*4]; dd.vertex(bmin[0]+va[0]*cs, bmin[1]+va[1]*ch, bmin[2]+va[2]*cs, coltri); } dd.end(); } dd.depthMask(true);*/ }
void Sample_SoloMesh::handleRender() { if (!m_geom || !m_geom->getMesh()) return; DebugDrawGL dd; glEnable(GL_FOG); glDepthMask(GL_TRUE); const float texScale = 1.0f / (m_cellSize * 10.0f); if (m_drawMode != DRAWMODE_NAVMESH_TRANS) { // Draw mesh duDebugDrawTriMeshSlope(&dd, m_geom->getMesh()->getVerts(), m_geom->getMesh()->getVertCount(), m_geom->getMesh()->getTris(), m_geom->getMesh()->getNormals(), m_geom->getMesh()->getTriCount(), m_agentMaxSlope, texScale); m_geom->drawOffMeshConnections(&dd); } glDisable(GL_FOG); glDepthMask(GL_FALSE); // Draw bounds const float* bmin = m_geom->getMeshBoundsMin(); const float* bmax = m_geom->getMeshBoundsMax(); duDebugDrawBoxWire(&dd, bmin[0],bmin[1],bmin[2], bmax[0],bmax[1],bmax[2], duRGBA(255,255,255,128), 1.0f); dd.begin(DU_DRAW_POINTS, 5.0f); dd.vertex(bmin[0],bmin[1],bmin[2],duRGBA(255,255,255,128)); dd.end(); if (m_navMesh && m_navQuery && (m_drawMode == DRAWMODE_NAVMESH || m_drawMode == DRAWMODE_NAVMESH_TRANS || m_drawMode == DRAWMODE_NAVMESH_BVTREE || m_drawMode == DRAWMODE_NAVMESH_NODES || m_drawMode == DRAWMODE_NAVMESH_INVIS)) { if (m_drawMode != DRAWMODE_NAVMESH_INVIS) duDebugDrawNavMeshWithClosedList(&dd, *m_navMesh, *m_navQuery, m_navMeshDrawFlags); if (m_drawMode == DRAWMODE_NAVMESH_BVTREE) duDebugDrawNavMeshBVTree(&dd, *m_navMesh); if (m_drawMode == DRAWMODE_NAVMESH_NODES) duDebugDrawNavMeshNodes(&dd, *m_navQuery); duDebugDrawNavMeshPolysWithFlags(&dd, *m_navMesh, SAMPLE_POLYFLAGS_DISABLED, duRGBA(0,0,0,128)); } glDepthMask(GL_TRUE); if (m_chf && m_drawMode == DRAWMODE_COMPACT) duDebugDrawCompactHeightfieldSolid(&dd, *m_chf); if (m_chf && m_drawMode == DRAWMODE_COMPACT_DISTANCE) duDebugDrawCompactHeightfieldDistance(&dd, *m_chf); if (m_chf && m_drawMode == DRAWMODE_COMPACT_REGIONS) duDebugDrawCompactHeightfieldRegions(&dd, *m_chf); if (m_solid && m_drawMode == DRAWMODE_VOXELS) { glEnable(GL_FOG); duDebugDrawHeightfieldSolid(&dd, *m_solid); glDisable(GL_FOG); } if (m_solid && m_drawMode == DRAWMODE_VOXELS_WALKABLE) { glEnable(GL_FOG); duDebugDrawHeightfieldWalkable(&dd, *m_solid); glDisable(GL_FOG); } if (m_cset && m_drawMode == DRAWMODE_RAW_CONTOURS) { glDepthMask(GL_FALSE); duDebugDrawRawContours(&dd, *m_cset); glDepthMask(GL_TRUE); } if (m_cset && m_drawMode == DRAWMODE_BOTH_CONTOURS) { glDepthMask(GL_FALSE); duDebugDrawRawContours(&dd, *m_cset, 0.5f); duDebugDrawContours(&dd, *m_cset); glDepthMask(GL_TRUE); } if (m_cset && m_drawMode == DRAWMODE_CONTOURS) { glDepthMask(GL_FALSE); duDebugDrawContours(&dd, *m_cset); glDepthMask(GL_TRUE); } if (m_chf && m_cset && m_drawMode == DRAWMODE_REGION_CONNECTIONS) { duDebugDrawCompactHeightfieldRegions(&dd, *m_chf); glDepthMask(GL_FALSE); duDebugDrawRegionConnections(&dd, *m_cset); glDepthMask(GL_TRUE); } if (m_pmesh && m_drawMode == DRAWMODE_POLYMESH) { glDepthMask(GL_FALSE); duDebugDrawPolyMesh(&dd, *m_pmesh); glDepthMask(GL_TRUE); } if (m_dmesh && m_drawMode == DRAWMODE_POLYMESH_DETAIL) { glDepthMask(GL_FALSE); duDebugDrawPolyMeshDetail(&dd, *m_dmesh); glDepthMask(GL_TRUE); } m_geom->drawConvexVolumes(&dd); if (m_tool) m_tool->handleRender(); renderToolStates(); glDepthMask(GL_TRUE); }
void Sample_Debug::handleRender() { if (!m_geom || !m_geom->getMesh()) return; DebugDrawGL dd; glEnable(GL_FOG); glDepthMask(GL_TRUE); if (m_drawMode == DRAWMODE_MESH) { // Draw mesh duDebugDrawTriMeshSlope(&dd, m_geom->getMesh()->getVerts(), m_geom->getMesh()->getVertCount(), m_geom->getMesh()->getTris(), m_geom->getMesh()->getNormals(), m_geom->getMesh()->getTriCount(), m_agentMaxSlope); m_geom->drawOffMeshConnections(&dd); } else if (m_drawMode != DRAWMODE_NAVMESH_TRANS) { // Draw mesh duDebugDrawTriMesh(&dd, m_geom->getMesh()->getVerts(), m_geom->getMesh()->getVertCount(), m_geom->getMesh()->getTris(), m_geom->getMesh()->getNormals(), m_geom->getMesh()->getTriCount(), 0); m_geom->drawOffMeshConnections(&dd); } glDisable(GL_FOG); glDepthMask(GL_FALSE); // Draw bounds const float* bmin = m_geom->getMeshBoundsMin(); const float* bmax = m_geom->getMeshBoundsMax(); duDebugDrawBoxWire(&dd, bmin[0],bmin[1],bmin[2], bmax[0],bmax[1],bmax[2], duRGBA(255,255,255,128), 1.0f); // Tiling grid. int gw = 0, gh = 0; rcCalcGridSize(bmin, bmax, m_cellSize, &gw, &gh); const int tw = (gw + (int)m_tileSize-1) / (int)m_tileSize; const int th = (gh + (int)m_tileSize-1) / (int)m_tileSize; duDebugDrawGridXZ(&dd, bmin[0],bmin[1],bmin[2], tw,th, m_tileSize, duRGBA(0,0,0,64), 1.0f); if (m_navMesh && (m_drawMode == DRAWMODE_NAVMESH || m_drawMode == DRAWMODE_NAVMESH_TRANS || m_drawMode == DRAWMODE_NAVMESH_BVTREE || m_drawMode == DRAWMODE_NAVMESH_INVIS)) { if (m_drawMode != DRAWMODE_NAVMESH_INVIS) duDebugDrawNavMesh(&dd, *m_navMesh, m_navMeshDrawFlags); if (m_drawMode == DRAWMODE_NAVMESH_BVTREE) duDebugDrawNavMeshBVTree(&dd, *m_navMesh); } glDepthMask(GL_TRUE); if (m_drawMode == DRAWMODE_COMPACT) for (int i = 0; i < m_chfCount; ++i) if(i == m_tile) duDebugDrawCompactHeightfieldSolid(&dd, m_chf[i]); if (m_drawMode == DRAWMODE_COMPACT_DISTANCE) for (int i = 0; i < m_chfCount; ++i) if(i == m_tile) duDebugDrawCompactHeightfieldDistance(&dd, m_chf[i]); if (m_drawMode == DRAWMODE_COMPACT_REGIONS) for (int i = 0; i < m_chfCount; ++i) if(i == m_tile) duDebugDrawCompactHeightfieldRegions(&dd, m_chf[i]); if (m_drawMode == DRAWMODE_VOXELS) { glEnable(GL_FOG); for (int i = 0; i < m_hfCount; ++i) if(i == m_tile) duDebugDrawHeightfieldSolid(&dd, m_hf[i]); glDisable(GL_FOG); } if (m_drawMode == DRAWMODE_VOXELS_WALKABLE) { glEnable(GL_FOG); for (int i = 0; i < m_hfCount; ++i) if(i == m_tile) duDebugDrawHeightfieldWalkable(&dd, m_hf[i]); glDisable(GL_FOG); } if (m_drawMode == DRAWMODE_RAW_CONTOURS) { glDepthMask(GL_FALSE); for (int i = 0; i < m_csetCount; ++i) if(i == m_tile) duDebugDrawRawContours(&dd, m_cset[i]); glDepthMask(GL_TRUE); } if (m_drawMode == DRAWMODE_BOTH_CONTOURS) { glDepthMask(GL_FALSE); for (int i = 0; i < m_csetCount; ++i) if(i == m_tile) { duDebugDrawRawContours(&dd, m_cset[i], 0.5f); duDebugDrawContours(&dd, m_cset[i]); } glDepthMask(GL_TRUE); } if (m_drawMode == DRAWMODE_CONTOURS) { glDepthMask(GL_FALSE); for (int i = 0; i < m_csetCount; ++i) if(i == m_tile) duDebugDrawContours(&dd, m_cset[i]); glDepthMask(GL_TRUE); } if (m_drawMode == DRAWMODE_REGION_CONNECTIONS) { for (int i = 0; i < m_chfCount; ++i) if(i == m_tile) duDebugDrawCompactHeightfieldRegions(&dd, m_chf[i]); glDepthMask(GL_FALSE); for (int i = 0; i < m_csetCount; ++i) if(i == m_tile) duDebugDrawRegionConnections(&dd, m_cset[i]); glDepthMask(GL_TRUE); } if (/*m_pmesh &&*/ m_drawMode == DRAWMODE_POLYMESH) { glDepthMask(GL_FALSE); for(int i = 0; i < m_pmeshCount; ++i) if(i == m_tile) duDebugDrawPolyMesh(&dd, m_pmesh[i]); glDepthMask(GL_TRUE); } if (/*m_dmesh &&*/ m_drawMode == DRAWMODE_POLYMESH_DETAIL) { glDepthMask(GL_FALSE); for(int i = 0; i < m_dmeshCount; ++i) if(i == m_tile) duDebugDrawPolyMeshDetail(&dd, m_dmesh[i]); glDepthMask(GL_TRUE); } m_geom->drawConvexVolumes(&dd); if (m_tool) m_tool->handleRender(); glDepthMask(GL_TRUE); }