/* * The 3D Studio File Format Library * Copyright (C) 1996-2001 by J.E. Hoffmann * All rights reserved. * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 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 Lesser General Public * License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * $Id$ */ #define LIB3DS_EXPORT #include #include #include #include #include #include #include #include #include #include #ifdef WITH_DMALLOC #include #endif /*! * \defgroup tracks Keyframing Tracks * * \author J.E. Hoffmann */ /*! * \ingroup tracks */ Lib3dsBoolKey* lib3ds_bool_key_new() { Lib3dsBoolKey* k; k=(Lib3dsBoolKey*)calloc(sizeof(Lib3dsBoolKey), 1); return(k); } /*! * \ingroup tracks */ void lib3ds_bool_key_free(Lib3dsBoolKey *key) { ASSERT(key); free(key); } /*! * \ingroup tracks */ void lib3ds_bool_track_free_keys(Lib3dsBoolTrack *track) { Lib3dsBoolKey *p,*q; ASSERT(track); for (p=track->keyL; p; p=q) { q=p->next; lib3ds_bool_key_free(p); } } /*! * \ingroup tracks */ void lib3ds_bool_track_insert(Lib3dsBoolTrack *track, Lib3dsBoolKey *key) { ASSERT(track); ASSERT(key); ASSERT(!key->next); if (!track->keyL) { track->keyL=key; key->next=0; } else { Lib3dsBoolKey *k,*p; for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame>key->tcb.frame) { break; } } if (!p) { key->next=track->keyL; track->keyL=key; } else { key->next=k; p->next=key; } if (k && (key->tcb.frame==k->tcb.frame)) { key->next=k->next; lib3ds_bool_key_free(k); } } } /*! * \ingroup tracks */ void lib3ds_bool_track_remove(Lib3dsBoolTrack *track, Lib3dsIntd frame) { Lib3dsBoolKey *k,*p; ASSERT(track); if (!track->keyL) { return; } for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame==frame) { if (!p) { track->keyL=track->keyL->next; } else { p->next=k->next; } lib3ds_bool_key_free(k); break; } } } /*! * \ingroup tracks */ void lib3ds_bool_track_eval(Lib3dsBoolTrack *track, Lib3dsBool *p, Lib3dsFloat t) { Lib3dsBoolKey *k; Lib3dsBool result; ASSERT(p); if (!track->keyL) { *p=LIB3DS_FALSE; return; } if (!track->keyL->next) { *p = LIB3DS_TRUE; return; } result=LIB3DS_FALSE; k=track->keyL; while ((t<(Lib3dsFloat)k->tcb.frame) && (t>=(Lib3dsFloat)k->next->tcb.frame)) { if (result) { result=LIB3DS_FALSE; } else { result=LIB3DS_TRUE; } if (!k->next) { if (track->flags&LIB3DS_REPEAT) { t-=(Lib3dsFloat)k->tcb.frame; k=track->keyL; } else { break; } } else { k=k->next; } } *p=result; } /*! * \ingroup tracks */ Lib3dsBool lib3ds_bool_track_read(Lib3dsBoolTrack *track, FILE *f) { int keys; int i; Lib3dsBoolKey *k; track->flags=lib3ds_word_read(f); lib3ds_dword_read(f); lib3ds_dword_read(f); keys=lib3ds_intd_read(f); for (i=0; itcb, f)) { return(LIB3DS_FALSE); } lib3ds_bool_track_insert(track, k); } return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsBool lib3ds_bool_track_write(Lib3dsBoolTrack *track, FILE *f) { Lib3dsBoolKey *k; Lib3dsDword num=0; for (k=track->keyL; k; k=k->next) { ++num; } lib3ds_word_write((Lib3dsWord)track->flags,f); lib3ds_dword_write(0,f); lib3ds_dword_write(0,f); lib3ds_dword_write(num,f); for (k=track->keyL; k; k=k->next) { if (!lib3ds_tcb_write(&k->tcb,f)) { return(LIB3DS_FALSE); } } return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsLin1Key* lib3ds_lin1_key_new() { Lib3dsLin1Key* k; k=(Lib3dsLin1Key*)calloc(sizeof(Lib3dsLin1Key), 1); return(k); } /*! * \ingroup tracks */ void lib3ds_lin1_key_free(Lib3dsLin1Key *key) { ASSERT(key); free(key); } /*! * \ingroup tracks */ void lib3ds_lin1_track_free_keys(Lib3dsLin1Track *track) { Lib3dsLin1Key *p,*q; ASSERT(track); for (p=track->keyL; p; p=q) { q=p->next; lib3ds_lin1_key_free(p); } } /*! * \ingroup tracks */ void lib3ds_lin1_key_setup(Lib3dsLin1Key *p, Lib3dsLin1Key *cp, Lib3dsLin1Key *c, Lib3dsLin1Key *cn, Lib3dsLin1Key *n) { Lib3dsFloat np,nn; Lib3dsFloat ksm,ksp,kdm,kdp; ASSERT(c); if (!cp) { cp=c; } if (!cn) { cn=c; } if (!p && !n) { c->ds=0; c->dd=0; return; } if (n && p) { lib3ds_tcb(&p->tcb, &cp->tcb, &c->tcb, &cn->tcb, &n->tcb, &ksm, &ksp, &kdm, &kdp); np = c->value - p->value; nn = n->value - c->value; c->ds=ksm*np + ksp*nn; c->dd=kdm*np + kdp*nn; } else { if (p) { np = c->value - p->value; c->ds = np; c->dd = np; } if (n) { nn = n->value - c->value; c->ds = nn; c->dd = nn; } } } /*! * \ingroup tracks */ void lib3ds_lin1_track_setup(Lib3dsLin1Track *track) { Lib3dsLin1Key *pp,*pc,*pn,*pl; ASSERT(track); pc=track->keyL; if (!pc) { return; } if (!pc->next) { pc->ds=0; pc->dd=0; return; } if (track->flags&LIB3DS_SMOOTH) { for (pl=track->keyL; pl->next->next; pl=pl->next); lib3ds_lin1_key_setup(pl, pl->next, pc, 0, pc->next); } else { lib3ds_lin1_key_setup(0, 0, pc, 0, pc->next); } for (;;) { pp=pc; pc=pc->next; pn=pc->next; if (!pn) { break; } lib3ds_lin1_key_setup(pp, 0, pc, 0, pn); } if (track->flags&LIB3DS_SMOOTH) { lib3ds_lin1_key_setup(pp, 0, pc, track->keyL, track->keyL->next); } else { lib3ds_lin1_key_setup(pp, 0, pc, 0, 0); } } /*! * \ingroup tracks */ void lib3ds_lin1_track_insert(Lib3dsLin1Track *track, Lib3dsLin1Key *key) { ASSERT(track); ASSERT(key); ASSERT(!key->next); if (!track->keyL) { track->keyL=key; key->next=0; } else { Lib3dsLin1Key *k,*p; for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame>key->tcb.frame) { break; } } if (!p) { key->next=track->keyL; track->keyL=key; } else { key->next=k; p->next=key; } if (k && (key->tcb.frame==k->tcb.frame)) { key->next=k->next; lib3ds_lin1_key_free(k); } } } /*! * \ingroup tracks */ void lib3ds_lin1_track_remove(Lib3dsLin1Track *track, Lib3dsIntd frame) { Lib3dsLin1Key *k,*p; ASSERT(track); if (!track->keyL) { return; } for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame==frame) { if (!p) { track->keyL=track->keyL->next; } else { p->next=k->next; } lib3ds_lin1_key_free(k); break; } } } /*! * \ingroup tracks */ void lib3ds_lin1_track_eval(Lib3dsLin1Track *track, Lib3dsFloat *p, Lib3dsFloat t) { Lib3dsLin1Key *k; Lib3dsFloat nt; Lib3dsFloat u; ASSERT(p); if (!track->keyL) { *p=0; return; } if (!track->keyL->next) { *p = track->keyL->value; return; } for (k=track->keyL; k->next!=0; k=k->next) { if ((t>=(Lib3dsFloat)k->tcb.frame) && (t<(Lib3dsFloat)k->next->tcb.frame)) { break; } } if (!k->next) { if (track->flags&LIB3DS_REPEAT) { nt=(Lib3dsFloat)fmod(t, k->tcb.frame); for (k=track->keyL; k->next!=0; k=k->next) { if ((nt>=(Lib3dsFloat)k->tcb.frame) && (nt<(Lib3dsFloat)k->next->tcb.frame)) { break; } } ASSERT(k->next); } else { *p = k->value; return; } } else { nt=t; } u=nt - (Lib3dsFloat)k->tcb.frame; u/=(Lib3dsFloat)(k->next->tcb.frame - k->tcb.frame); *p = lib3ds_float_cubic( k->value, k->dd, k->next->ds, k->next->value, u ); } /*! * \ingroup tracks */ Lib3dsBool lib3ds_lin1_track_read(Lib3dsLin1Track *track, FILE *f) { int keys; int i; Lib3dsLin1Key *k; track->flags=lib3ds_word_read(f); lib3ds_dword_read(f); lib3ds_dword_read(f); keys=lib3ds_intd_read(f); for (i=0; itcb, f)) { return(LIB3DS_FALSE); } k->value=lib3ds_float_read(f); lib3ds_lin1_track_insert(track, k); } lib3ds_lin1_track_setup(track); return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsBool lib3ds_lin1_track_write(Lib3dsLin1Track *track, FILE *f) { Lib3dsLin1Key *k; Lib3dsDword num=0; for (k=track->keyL; k; k=k->next) { ++num; } lib3ds_word_write((Lib3dsWord)track->flags,f); lib3ds_dword_write(0,f); lib3ds_dword_write(0,f); lib3ds_dword_write(num,f); for (k=track->keyL; k; k=k->next) { if (!lib3ds_tcb_write(&k->tcb,f)) { return(LIB3DS_FALSE); } lib3ds_float_write(k->value,f); } return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsLin3Key* lib3ds_lin3_key_new() { Lib3dsLin3Key* k; k=(Lib3dsLin3Key*)calloc(sizeof(Lib3dsLin3Key), 1); return(k); } /*! * \ingroup tracks */ void lib3ds_lin3_key_free(Lib3dsLin3Key *key) { ASSERT(key); free(key); } /*! * \ingroup tracks */ void lib3ds_lin3_track_free_keys(Lib3dsLin3Track *track) { Lib3dsLin3Key *p,*q; ASSERT(track); for (p=track->keyL; p; p=q) { q=p->next; lib3ds_lin3_key_free(p); } } /*! * \ingroup tracks */ void lib3ds_lin3_key_setup(Lib3dsLin3Key *p, Lib3dsLin3Key *cp, Lib3dsLin3Key *c, Lib3dsLin3Key *cn, Lib3dsLin3Key *n) { Lib3dsVector np,nn; Lib3dsFloat ksm,ksp,kdm,kdp; int i; ASSERT(c); if (!cp) { cp=c; } if (!cn) { cn=c; } if (!p && !n) { lib3ds_vector_zero(c->ds); lib3ds_vector_zero(c->dd); return; } if (n && p) { lib3ds_tcb(&p->tcb, &cp->tcb, &c->tcb, &cn->tcb, &n->tcb, &ksm, &ksp, &kdm, &kdp); lib3ds_vector_sub(np, c->value, p->value); lib3ds_vector_sub(nn, n->value, c->value); for(i=0; i<3; ++i) { c->ds[i]=ksm*np[i] + ksp*nn[i]; c->dd[i]=kdm*np[i] + kdp*nn[i]; } } else { if (p) { lib3ds_vector_sub(np, c->value, p->value); lib3ds_vector_copy(c->ds, np); lib3ds_vector_copy(c->dd, np); } if (n) { lib3ds_vector_sub(nn, n->value, c->value); lib3ds_vector_copy(c->ds, nn); lib3ds_vector_copy(c->dd, nn); } } } /*! * \ingroup tracks */ void lib3ds_lin3_track_setup(Lib3dsLin3Track *track) { Lib3dsLin3Key *pp,*pc,*pn,*pl; ASSERT(track); pc=track->keyL; if (!pc) { return; } if (!pc->next) { lib3ds_vector_zero(pc->ds); lib3ds_vector_zero(pc->dd); return; } if (track->flags&LIB3DS_SMOOTH) { for (pl=track->keyL; pl->next->next; pl=pl->next); lib3ds_lin3_key_setup(pl, pl->next, pc, 0, pc->next); } else { lib3ds_lin3_key_setup(0, 0, pc, 0, pc->next); } for (;;) { pp=pc; pc=pc->next; pn=pc->next; if (!pn) { break; } lib3ds_lin3_key_setup(pp, 0, pc, 0, pn); } if (track->flags&LIB3DS_SMOOTH) { lib3ds_lin3_key_setup(pp, 0, pc, track->keyL, track->keyL->next); } else { lib3ds_lin3_key_setup(pp, 0, pc, 0, 0); } } /*! * \ingroup tracks */ void lib3ds_lin3_track_insert(Lib3dsLin3Track *track, Lib3dsLin3Key *key) { ASSERT(track); ASSERT(key); ASSERT(!key->next); if (!track->keyL) { track->keyL=key; key->next=0; } else { Lib3dsLin3Key *k,*p; for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame>key->tcb.frame) { break; } } if (!p) { key->next=track->keyL; track->keyL=key; } else { key->next=k; p->next=key; } if (k && (key->tcb.frame==k->tcb.frame)) { key->next=k->next; lib3ds_lin3_key_free(k); } } } /*! * \ingroup tracks */ void lib3ds_lin3_track_remove(Lib3dsLin3Track *track, Lib3dsIntd frame) { Lib3dsLin3Key *k,*p; ASSERT(track); if (!track->keyL) { return; } for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame==frame) { if (!p) { track->keyL=track->keyL->next; } else { p->next=k->next; } lib3ds_lin3_key_free(k); break; } } } /*! * \ingroup tracks */ void lib3ds_lin3_track_eval(Lib3dsLin3Track *track, Lib3dsVector p, Lib3dsFloat t) { Lib3dsLin3Key *k; Lib3dsFloat nt; Lib3dsFloat u; if (!track->keyL) { lib3ds_vector_zero(p); return; } if (!track->keyL->next) { lib3ds_vector_copy(p, track->keyL->value); return; } for (k=track->keyL; k->next!=0; k=k->next) { if ((t>=(Lib3dsFloat)k->tcb.frame) && (t<(Lib3dsFloat)k->next->tcb.frame)) { break; } } if (!k->next) { if (track->flags&LIB3DS_REPEAT) { nt=(Lib3dsFloat)fmod(t, k->tcb.frame); for (k=track->keyL; k->next!=0; k=k->next) { if ((nt>=(Lib3dsFloat)k->tcb.frame) && (nt<(Lib3dsFloat)k->next->tcb.frame)) { break; } } ASSERT(k->next); } else { lib3ds_vector_copy(p, k->value); return; } } else { nt=t; } u=nt - (Lib3dsFloat)k->tcb.frame; u/=(Lib3dsFloat)(k->next->tcb.frame - k->tcb.frame); lib3ds_vector_cubic( p, k->value, k->dd, k->next->ds, k->next->value, u ); } /*! * \ingroup tracks */ Lib3dsBool lib3ds_lin3_track_read(Lib3dsLin3Track *track, FILE *f) { int keys; int i,j; Lib3dsLin3Key *k; track->flags=lib3ds_word_read(f); lib3ds_dword_read(f); lib3ds_dword_read(f); keys=lib3ds_intd_read(f); for (i=0; itcb, f)) { return(LIB3DS_FALSE); } for (j=0; j<3; ++j) { k->value[j]=lib3ds_float_read(f); } lib3ds_lin3_track_insert(track, k); } lib3ds_lin3_track_setup(track); return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsBool lib3ds_lin3_track_write(Lib3dsLin3Track *track, FILE *f) { Lib3dsLin3Key *k; Lib3dsDword num=0; for (k=track->keyL; k; k=k->next) { ++num; } lib3ds_word_write((Lib3dsWord)track->flags,f); lib3ds_dword_write(0,f); lib3ds_dword_write(0,f); lib3ds_dword_write(num,f); for (k=track->keyL; k; k=k->next) { if (!lib3ds_tcb_write(&k->tcb,f)) { return(LIB3DS_FALSE); } lib3ds_vector_write(k->value,f); } return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsQuatKey* lib3ds_quat_key_new() { Lib3dsQuatKey* k; k=(Lib3dsQuatKey*)calloc(sizeof(Lib3dsQuatKey), 1); return(k); } /*! * \ingroup tracks */ void lib3ds_quat_key_free(Lib3dsQuatKey *key) { ASSERT(key); free(key); } /*! * \ingroup tracks */ void lib3ds_quat_track_free_keys(Lib3dsQuatTrack *track) { Lib3dsQuatKey *p,*q; ASSERT(track); for (p=track->keyL; p; p=q) { q=p->next; lib3ds_quat_key_free(p); } } /*! * \ingroup tracks */ void lib3ds_quat_key_setup(Lib3dsQuatKey *p, Lib3dsQuatKey *cp, Lib3dsQuatKey *c, Lib3dsQuatKey *cn, Lib3dsQuatKey *n) { Lib3dsFloat ksm,ksp,kdm,kdp; Lib3dsQuat q,qp,qn,qa,qb; int i; ASSERT(c); if (!cp) { cp=c; } if (!cn) { cn=c; } if (!p || !n) { lib3ds_quat_copy(c->ds, c->q); lib3ds_quat_copy(c->dd, c->q); return; } if (p) { if (p->angle>LIB3DS_TWOPI-LIB3DS_EPSILON) { lib3ds_quat_axis_angle(qp, p->axis, 0.0f); lib3ds_quat_ln(qp); } else { lib3ds_quat_copy(q, p->q); if (lib3ds_quat_dot(q,c->q)<0) lib3ds_quat_neg(q); lib3ds_quat_ln_dif(qp, c->q, q); } } if (n) { if (n->angle>LIB3DS_TWOPI-LIB3DS_EPSILON) { lib3ds_quat_axis_angle(qn, n->axis, 0.0f); lib3ds_quat_ln(qn); } else { lib3ds_quat_copy(q, n->q); if (lib3ds_quat_dot(q,c->q)<0) lib3ds_quat_neg(q); lib3ds_quat_ln_dif(qn, c->q, q); } } if (n && p) { lib3ds_tcb(&p->tcb, &cp->tcb, &c->tcb, &cn->tcb, &n->tcb, &ksm, &ksp, &kdm, &kdp); for(i=0; i<4; i++) { qa[i]=-0.5f*(kdm*qn[i]+kdp*qp[i]); qb[i]=-0.5f*(ksm*qn[i]+ksp*qp[i]); } lib3ds_quat_exp(qa); lib3ds_quat_exp(qb); lib3ds_quat_mul(c->ds, c->q, qa); lib3ds_quat_mul(c->dd, c->q, qb); } else { if (p) { lib3ds_quat_exp(qp); lib3ds_quat_mul(c->ds, c->q, qp); lib3ds_quat_mul(c->dd, c->q, qp); } if (n) { lib3ds_quat_exp(qn); lib3ds_quat_mul(c->ds, c->q, qn); lib3ds_quat_mul(c->dd, c->q, qn); } } } /*! * \ingroup tracks */ void lib3ds_quat_track_setup(Lib3dsQuatTrack *track) { Lib3dsQuatKey *pp,*pc,*pn,*pl; Lib3dsQuat q; ASSERT(track); for (pp=0,pc=track->keyL; pc; pp=pc,pc=pc->next) { lib3ds_quat_axis_angle(q, pc->axis, pc->angle); if (pp) { lib3ds_quat_mul(pc->q, q, pp->q); } else { lib3ds_quat_copy(pc->q, q); } } pc=track->keyL; if (!pc) { return; } if (!pc->next) { lib3ds_quat_copy(pc->ds, pc->q); lib3ds_quat_copy(pc->dd, pc->q); return; } if (track->flags&LIB3DS_SMOOTH) { for (pl=track->keyL; pl->next->next; pl=pl->next); lib3ds_quat_key_setup(pl, pl->next, pc, 0, pc->next); } else { lib3ds_quat_key_setup(0, 0, pc, 0, pc->next); } for (;;) { pp=pc; pc=pc->next; pn=pc->next; if (!pn) { break; } lib3ds_quat_key_setup(pp, 0, pc, 0, pn); } if (track->flags&LIB3DS_SMOOTH) { lib3ds_quat_key_setup(pp, 0, pc, track->keyL, track->keyL->next); } else { lib3ds_quat_key_setup(pp, 0, pc, 0, 0); } } /*! * \ingroup tracks */ void lib3ds_quat_track_insert(Lib3dsQuatTrack *track, Lib3dsQuatKey *key) { ASSERT(track); ASSERT(key); ASSERT(!key->next); if (!track->keyL) { track->keyL=key; key->next=0; } else { Lib3dsQuatKey *k,*p; for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame>key->tcb.frame) { break; } } if (!p) { key->next=track->keyL; track->keyL=key; } else { key->next=k; p->next=key; } if (k && (key->tcb.frame==k->tcb.frame)) { key->next=k->next; lib3ds_quat_key_free(k); } } } /*! * \ingroup tracks */ void lib3ds_quat_track_remove(Lib3dsQuatTrack *track, Lib3dsIntd frame) { Lib3dsQuatKey *k,*p; ASSERT(track); if (!track->keyL) { return; } for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame==frame) { if (!p) { track->keyL=track->keyL->next; } else { p->next=k->next; } lib3ds_quat_key_free(k); break; } } } /*! * \ingroup tracks */ void lib3ds_quat_track_eval(Lib3dsQuatTrack *track, Lib3dsQuat q, Lib3dsFloat t) { Lib3dsQuatKey *k; Lib3dsFloat nt; Lib3dsFloat u; if (!track->keyL) { lib3ds_quat_identity(q); return; } if (!track->keyL->next) { lib3ds_quat_copy(q, track->keyL->q); return; } for (k=track->keyL; k->next!=0; k=k->next) { if ((t>=k->tcb.frame) && (tnext->tcb.frame)) { break; } } if (!k->next) { if (track->flags&LIB3DS_REPEAT) { nt=(Lib3dsFloat)fmod(t, k->tcb.frame); for (k=track->keyL; k->next!=0; k=k->next) { if ((nt>=k->tcb.frame) && (ntnext->tcb.frame)) { break; } } ASSERT(k->next); } else { lib3ds_quat_copy(q, k->q); return; } } else { nt=t; } u=nt - k->tcb.frame; u/=(k->next->tcb.frame - k->tcb.frame); lib3ds_quat_squad( q, k->q, k->dd, k->next->ds, k->next->q, u ); } /*! * \ingroup tracks */ Lib3dsBool lib3ds_quat_track_read(Lib3dsQuatTrack *track, FILE *f) { int keys; int i,j; Lib3dsQuatKey *p,*k; track->flags=lib3ds_word_read(f); lib3ds_dword_read(f); lib3ds_dword_read(f); keys=lib3ds_intd_read(f); for (p=0,i=0; itcb, f)) { return(LIB3DS_FALSE); } k->angle=lib3ds_float_read(f); for (j=0; j<3; ++j) { k->axis[j]=lib3ds_float_read(f); } lib3ds_quat_track_insert(track, k); } lib3ds_quat_track_setup(track); return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsBool lib3ds_quat_track_write(Lib3dsQuatTrack *track, FILE *f) { Lib3dsQuatKey *k; Lib3dsDword num=0; for (k=track->keyL; k; k=k->next) { ++num; } lib3ds_word_write((Lib3dsWord)track->flags,f); lib3ds_dword_write(0,f); lib3ds_dword_write(0,f); lib3ds_dword_write(num,f); for (k=track->keyL; k; k=k->next) { if (!lib3ds_tcb_write(&k->tcb,f)) { return(LIB3DS_FALSE); } lib3ds_float_write(k->angle,f); lib3ds_vector_write(k->axis,f); } return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsMorphKey* lib3ds_morph_key_new() { Lib3dsMorphKey* k; k=(Lib3dsMorphKey*)calloc(sizeof(Lib3dsMorphKey), 1); return(k); } /*! * \ingroup tracks */ void lib3ds_morph_key_free(Lib3dsMorphKey *key) { ASSERT(key); free(key); } /*! * \ingroup tracks */ void lib3ds_morph_track_free_keys(Lib3dsMorphTrack *track) { Lib3dsMorphKey *p,*q; ASSERT(track); for (p=track->keyL; p; p=q) { q=p->next; lib3ds_morph_key_free(p); } } /*! * \ingroup tracks */ void lib3ds_morph_track_insert(Lib3dsMorphTrack *track, Lib3dsMorphKey *key) { ASSERT(track); ASSERT(key); ASSERT(!key->next); if (!track->keyL) { track->keyL=key; key->next=0; } else { Lib3dsMorphKey *k,*p; for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame>key->tcb.frame) { break; } } if (!p) { key->next=track->keyL; track->keyL=key; } else { key->next=k; p->next=key; } if (k && (key->tcb.frame==k->tcb.frame)) { key->next=k->next; lib3ds_morph_key_free(k); } } } /*! * \ingroup tracks */ void lib3ds_morph_track_remove(Lib3dsMorphTrack *track, Lib3dsIntd frame) { Lib3dsMorphKey *k,*p; ASSERT(track); if (!track->keyL) { return; } for (p=0,k=track->keyL; k!=0; p=k, k=k->next) { if (k->tcb.frame==frame) { if (!p) { track->keyL=track->keyL->next; } else { p->next=k->next; } lib3ds_morph_key_free(k); break; } } } /*! * \ingroup tracks */ void lib3ds_morph_track_eval(Lib3dsMorphTrack *track, char *p, Lib3dsFloat t) { Lib3dsMorphKey *k; char* result; ASSERT(p); if (!track->keyL) { strcpy(p,""); return; } if (!track->keyL->next) { strcpy(p,track->keyL->name); return; } result=0; k=track->keyL; while ((ttcb.frame) && (t>=k->next->tcb.frame)) { result=k->name; if (!k->next) { if (track->flags&LIB3DS_REPEAT) { t-=k->tcb.frame; k=track->keyL; } else { break; } } else { k=k->next; } } if (result) { strcpy(p,result); } else { strcpy(p,""); } } /*! * \ingroup tracks */ Lib3dsBool lib3ds_morph_track_read(Lib3dsMorphTrack *track, FILE *f) { /* FIXME: */ return(LIB3DS_TRUE); } /*! * \ingroup tracks */ Lib3dsBool lib3ds_morph_track_write(Lib3dsMorphTrack *track, FILE *f) { /* FIXME: */ ASSERT(0); return(LIB3DS_FALSE); }