forked from valve/halflife-sdk
474 lines
9.1 KiB
C
474 lines
9.1 KiB
C
/***
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*
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* Copyright (c) 1996-2001, Valve LLC. All rights reserved.
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*
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* This product contains software technology licensed from Id
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* Software, Inc. ("Id Technology"). Id Technology (c) 1996 Id Software, Inc.
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* All Rights Reserved.
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*
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****/
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// divide.h
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#include "bsp5.h"
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int TexelDelta( face_t *f, dplane_t *plane );
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int TexelSize( face_t *f );
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surface_t newcopy_t;
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/*
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a surface has all of the faces that could be drawn on a given plane
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the outside filling stage can remove some of them so a better bsp can be generated
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*/
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int subdivides;
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/*
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===============
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SubdivideFace
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If the face is >256 in either texture direction, carve a valid sized
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piece off and insert the remainder in the next link
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===============
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*/
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void SubdivideFace (face_t *f, face_t **prevptr)
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{
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float mins, maxs;
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vec_t v;
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int axis, i;
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dplane_t plane;
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face_t *front, *back, *next;
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texinfo_t *tex;
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vec3_t temp;
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// special (non-surface cached) faces don't need subdivision
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tex = &texinfo[f->texturenum];
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if ( tex->flags & TEX_SPECIAL)
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return;
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for (axis = 0 ; axis < 2 ; axis++)
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{
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while (1)
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{
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mins = 999999;
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maxs = -999999;
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for (i=0 ; i<f->numpoints ; i++)
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{
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v = DotProduct (f->pts[i], tex->vecs[axis]);
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if (v < mins)
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mins = v;
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if (v > maxs)
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maxs = v;
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}
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if (maxs - mins <= subdivide_size)
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break;
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// split it
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subdivides++;
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VectorCopy (tex->vecs[axis], temp);
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v = VectorNormalize (temp);
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VectorCopy (temp, plane.normal);
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plane.dist = (mins + subdivide_size - 16)/v;
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next = f->next;
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SplitFace (f, &plane, &front, &back);
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if (!front || !back)
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{
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//PrintMemory();
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printf("SubdivideFace: didn't split the %d-sided polygon @(%.0f,%.0f,%.0f)",
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f->numpoints, f->pts[0][0], f->pts[0][1], f->pts[0][2] );
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break;
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}
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*prevptr = back;
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back->next = front;
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front->next = next;
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f = back;
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}
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}
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}
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int TexelDelta( face_t *f, dplane_t *plane )
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{
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int current, delta;
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current = delta = 0;
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// Does the plane split the face?
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if ( FaceSide (f, plane) == SIDE_ON )
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{
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face_t *front, *back;
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// Compute the change in texture cache from splitting the face
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current = TexelSize( f );
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// Speculatively split the face
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SplitFaceTmp(f, plane, &front, &back);
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if (!front || !back) // Didn't actually split the face
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delta = 0;
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else
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{
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delta = 0;//TexelSize( front ) + TexelSize( back ) - current; // Change in texel size
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FreeFace( front ); // Free new faces
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FreeFace( back );
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}
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}
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return delta;
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}
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int TexelSize( face_t *f )
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{
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float mins, maxs;
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vec_t v;
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int i, smax, tmax;
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dplane_t plane;
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face_t *front, *back, *next;
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texinfo_t *tex;
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vec3_t temp;
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// special (non-surface cached) faces don't need subdivision
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if ( f->texturenum > numtexinfo )
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{
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printf("Error on face\n" );
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return 0;
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}
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tex = &texinfo[f->texturenum];
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if ( tex->flags & TEX_SPECIAL)
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return 0;
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mins = 999999;
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maxs = -999999;
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for (i=0 ; i<f->numpoints ; i++)
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{
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v = DotProduct (f->pts[i], tex->vecs[0]);
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if (v < mins)
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mins = v;
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if (v > maxs)
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maxs = v;
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}
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smax = maxs - mins;
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mins = 999999;
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maxs = -999999;
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for (i=0 ; i<f->numpoints ; i++)
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{
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v = DotProduct (f->pts[i], tex->vecs[1]);
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if (v < mins)
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mins = v;
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if (v > maxs)
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maxs = v;
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}
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tmax = maxs - mins;
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return smax * tmax;
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}
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//===========================================================================
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typedef struct hashvert_s
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{
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struct hashvert_s *next;
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vec3_t point;
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int num;
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int numplanes; // for corner determination
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int planenums[2];
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int numedges;
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} hashvert_t;
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// #define POINT_EPSILON 0.01
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#define POINT_EPSILON ON_EPSILON
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int c_cornerverts;
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hashvert_t hvertex[MAX_MAP_VERTS];
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hashvert_t *hvert_p;
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face_t *edgefaces[MAX_MAP_EDGES][2];
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int firstmodeledge = 1;
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int firstmodelface;
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//============================================================================
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#define NUM_HASH 4096
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hashvert_t *hashverts[NUM_HASH];
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static vec3_t hash_min, hash_scale;
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static void InitHash (void)
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{
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vec3_t size;
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vec_t volume;
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vec_t scale;
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int newsize[2];
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int i;
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memset (hashverts, 0, sizeof(hashverts));
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for (i=0 ; i<3 ; i++)
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{
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hash_min[i] = -8000;
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size[i] = 16000;
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}
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volume = size[0]*size[1];
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scale = sqrt(volume / NUM_HASH);
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newsize[0] = size[0] / scale;
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newsize[1] = size[1] / scale;
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hash_scale[0] = newsize[0] / size[0];
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hash_scale[1] = newsize[1] / size[1];
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hash_scale[2] = newsize[1];
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hvert_p = hvertex;
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}
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static unsigned HashVec (vec3_t vec)
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{
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unsigned h;
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h = hash_scale[0] * (vec[0] - hash_min[0]) * hash_scale[2]
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+ hash_scale[1] * (vec[1] - hash_min[1]);
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if ( h >= NUM_HASH)
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return NUM_HASH - 1;
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return h;
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}
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/*
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=============
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GetVertex
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=============
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*/
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int GetVertex (vec3_t in, int planenum)
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{
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int h;
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int i;
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hashvert_t *hv;
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vec3_t vert;
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for (i=0 ; i<3 ; i++)
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{
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if ( fabs(in[i] - Q_rint(in[i])) < 0.001)
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vert[i] = Q_rint(in[i]);
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else
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vert[i] = in[i];
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}
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h = HashVec (vert);
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for (hv=hashverts[h] ; hv ; hv=hv->next)
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{
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if ( fabs(hv->point[0]-vert[0])<POINT_EPSILON
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&& fabs(hv->point[1]-vert[1])<POINT_EPSILON
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&& fabs(hv->point[2]-vert[2])<POINT_EPSILON )
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{
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hv->numedges++;
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if (hv->numplanes == 3)
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return hv->num; // allready known to be a corner
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for (i=0 ; i<hv->numplanes ; i++)
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if (hv->planenums[i] == planenum)
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return hv->num; // allready know this plane
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if (hv->numplanes == 2)
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c_cornerverts++;
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else
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hv->planenums[hv->numplanes] = planenum;
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hv->numplanes++;
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return hv->num;
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}
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}
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hv = hvert_p;
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hv->numedges = 1;
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hv->numplanes = 1;
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hv->planenums[0] = planenum;
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hv->next = hashverts[h];
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hashverts[h] = hv;
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VectorCopy (vert, hv->point);
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hv->num = numvertexes;
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if (hv->num==MAX_MAP_VERTS)
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Error ("GetVertex: MAX_MAP_VERTS");
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hvert_p++;
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// emit a vertex
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if (numvertexes == MAX_MAP_VERTS)
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Error ("numvertexes == MAX_MAP_VERTS");
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dvertexes[numvertexes].point[0] = vert[0];
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dvertexes[numvertexes].point[1] = vert[1];
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dvertexes[numvertexes].point[2] = vert[2];
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numvertexes++;
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return hv->num;
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}
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//===========================================================================
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/*
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==================
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GetEdge
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Don't allow four way edges
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==================
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*/
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int c_tryedges;
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int GetEdge (vec3_t p1, vec3_t p2, face_t *f)
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{
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int v1, v2;
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dedge_t *edge;
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int i;
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if (!f->contents)
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Error ("GetEdge: 0 contents");
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c_tryedges++;
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v1 = GetVertex (p1, f->planenum);
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v2 = GetVertex (p2, f->planenum);
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for (i=firstmodeledge ; i < numedges ; i++)
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{
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edge = &dedges[i];
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if (v1 == edge->v[1] && v2 == edge->v[0]
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&& !edgefaces[i][1]
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&& edgefaces[i][0]->contents == f->contents)
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{
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edgefaces[i][1] = f;
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return -i;
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}
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}
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// emit an edge
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if (numedges >= MAX_MAP_EDGES)
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Error ("numedges == MAX_MAP_EDGES");
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edge = &dedges[numedges];
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numedges++;
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edge->v[0] = v1;
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edge->v[1] = v2;
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edgefaces[i][0] = f;
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return i;
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}
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/*
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=============
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CheckVertexes
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// debugging
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=============
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*/
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void CheckVertexes (void)
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{
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int cb, c0, c1, c2, c3;
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hashvert_t *hv;
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cb = c0 = c1 = c2 = c3 = 0;
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for (hv=hvertex ; hv!=hvert_p ; hv++)
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{
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if (hv->numedges < 0 || hv->numedges & 1)
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cb++;
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else if (!hv->numedges)
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c0++;
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else if (hv->numedges == 2)
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c1++;
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else if (hv->numedges == 4)
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c2++;
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else
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c3++;
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}
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qprintf ("%5i bad edge points\n", cb);
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qprintf ("%5i 0 edge points\n", c0);
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qprintf ("%5i 2 edge points\n", c1);
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qprintf ("%5i 4 edge points\n", c2);
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qprintf ("%5i 6+ edge points\n", c3);
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}
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/*
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=============
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CheckEdges
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// debugging
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=============
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*/
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void CheckEdges (void)
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{
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dedge_t *edge;
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int i;
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dvertex_t *d1, *d2;
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face_t *f1, *f2;
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int c_nonconvex;
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int c_multitexture;
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c_nonconvex = c_multitexture = 0;
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// CheckVertexes ();
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for (i=1 ; i < numedges ; i++)
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{
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edge = &dedges[i];
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if (!edgefaces[i][1])
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{
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d1 = &dvertexes[edge->v[0]];
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d2 = &dvertexes[edge->v[1]];
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qprintf ("unshared edge at: (%8.2f, %8.2f, %8.2f) (%8.2f, %8.2f, %8.2f)\n",d1->point[0], d1->point[1], d1->point[2], d2->point[0], d2->point[1], d2->point[2]);
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}
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else
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{
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f1 = edgefaces[i][0];
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f2 = edgefaces[i][1];
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if (f1->planenum != f2->planenum)
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continue;
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// on the same plane, might be discardable
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if (f1->texturenum == f2->texturenum)
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{
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hvertex[edge->v[0]].numedges-=2;
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hvertex[edge->v[1]].numedges-=2;
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c_nonconvex++;
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}
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else
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c_multitexture++;
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}
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}
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// qprintf ("%5i edges\n", i);
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// qprintf ("%5i c_nonconvex\n", c_nonconvex);
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// qprintf ("%5i c_multitexture\n", c_multitexture);
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// CheckVertexes ();
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}
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/*
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================
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MakeFaceEdges
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================
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*/
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void MakeFaceEdges (node_t *headnode)
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{
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InitHash ();
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c_tryedges = 0;
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c_cornerverts = 0;
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firstmodeledge = numedges;
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firstmodelface = numfaces;
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}
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