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blender-archive/source/blender/blenkernel/intern/action.c
Ton Roosendaal 2ac16224d1 Bugreport #3891 
Object Layer Ipos didn't work when the Ipo was moved an Object Action.
Can't get this to work though... this option has been added with a lot
of exception handling already, and for action/nla it's very nasty to
blend/mix/add layer bit values. So; better not support that.

As feedback for users, I've added a notice popup when you try to move
layer-ipos to an action.
2006-06-03 10:08:16 +00:00

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/**
* $Id$
*
* ***** BEGIN GPL/BL DUAL LICENSE BLOCK *****
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version. The Blender
* Foundation also sells licenses for use in proprietary software under
* the Blender License. See http://www.blender.org/BL/ for information
* about this.
*
* 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* Contributor(s): Full recode, Ton Roosendaal, Crete 2005
*
* ***** END GPL/BL DUAL LICENSE BLOCK *****
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <string.h>
#include <math.h>
#include <stdlib.h> /* for NULL */
#include "MEM_guardedalloc.h"
#include "DNA_action_types.h"
#include "DNA_armature_types.h"
#include "DNA_constraint_types.h"
#include "DNA_curve_types.h"
#include "DNA_ipo_types.h"
#include "DNA_key_types.h"
#include "DNA_nla_types.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "BKE_action.h"
#include "BKE_anim.h"
#include "BKE_armature.h"
#include "BKE_blender.h"
#include "BKE_constraint.h"
#include "BKE_displist.h"
#include "BKE_global.h"
#include "BKE_ipo.h"
#include "BKE_key.h"
#include "BKE_library.h"
#include "BKE_main.h"
#include "BKE_object.h"
#include "BKE_utildefines.h"
#include "BLI_arithb.h"
#include "BLI_blenlib.h"
#include "nla.h"
/* *********************** NOTE ON POSE AND ACTION **********************
- Pose is the local (object level) component of armature. The current
object pose is saved in files, and (will be) is presorted for dependency
- Actions have fewer (or other) channels, and write data to a Pose
- Currently ob->pose data is controlled in where_is_pose only. The (recalc)
event system takes care of calling that
- The NLA system (here too) uses Poses as interpolation format for Actions
- Therefore we assume poses to be static, and duplicates of poses have channels in
same order, for quick interpolation reasons
****************************** (ton) ************************************ */
/* ***************** Library data level operations on action ************** */
static void make_local_action_channels(bAction *act)
{
bActionChannel *chan;
bConstraintChannel *conchan;
for (chan=act->chanbase.first; chan; chan=chan->next) {
if(chan->ipo) {
if(chan->ipo->id.us==1) {
chan->ipo->id.lib= NULL;
chan->ipo->id.flag= LIB_LOCAL;
new_id(0, (ID *)chan->ipo, 0);
}
else {
chan->ipo= copy_ipo(chan->ipo);
}
}
for (conchan=chan->constraintChannels.first; conchan; conchan=conchan->next) {
if(conchan->ipo) {
if(conchan->ipo->id.us==1) {
conchan->ipo->id.lib= NULL;
conchan->ipo->id.flag= LIB_LOCAL;
new_id(0, (ID *)conchan->ipo, 0);
}
else {
conchan->ipo= copy_ipo(conchan->ipo);
}
}
}
}
}
void make_local_action(bAction *act)
{
Object *ob;
bAction *actn;
int local=0, lib=0;
if(act->id.lib==0) return;
if(act->id.us==1) {
act->id.lib= 0;
act->id.flag= LIB_LOCAL;
make_local_action_channels(act);
new_id(0, (ID *)act, 0);
return;
}
ob= G.main->object.first;
while(ob) {
if(ob->action==act) {
if(ob->id.lib) lib= 1;
else local= 1;
}
ob= ob->id.next;
}
if(local && lib==0) {
act->id.lib= 0;
act->id.flag= LIB_LOCAL;
make_local_action_channels(act);
new_id(0, (ID *)act, 0);
}
else if(local && lib) {
actn= copy_action(act);
actn->id.us= 0;
ob= G.main->object.first;
while(ob) {
if(ob->action==act) {
if(ob->id.lib==0) {
ob->action = actn;
actn->id.us++;
act->id.us--;
}
}
ob= ob->id.next;
}
}
}
void free_action(bAction *act)
{
bActionChannel *chan;
/* Free channels */
for (chan=act->chanbase.first; chan; chan=chan->next){
if (chan->ipo)
chan->ipo->id.us--;
free_constraint_channels(&chan->constraintChannels);
}
if (act->chanbase.first)
BLI_freelistN (&act->chanbase);
}
bAction* copy_action(bAction *src)
{
bAction *dst = NULL;
bActionChannel *dchan, *schan;
if(!src) return NULL;
dst= copy_libblock(src);
duplicatelist(&(dst->chanbase), &(src->chanbase));
for (dchan=dst->chanbase.first, schan=src->chanbase.first; dchan; dchan=dchan->next, schan=schan->next){
dchan->ipo = copy_ipo(dchan->ipo);
copy_constraint_channels(&dchan->constraintChannels, &schan->constraintChannels);
}
dst->id.flag |= LIB_FAKEUSER;
dst->id.us++;
return dst;
}
/* ************************ Pose channels *************** */
/* usually used within a loop, so we got a N^2 slowdown */
bPoseChannel *get_pose_channel(const bPose *pose, const char *name)
{
bPoseChannel *chan;
if(pose==NULL) return NULL;
for (chan=pose->chanbase.first; chan; chan=chan->next) {
if(chan->name[0] == name[0])
if (!strcmp (chan->name, name))
return chan;
}
return NULL;
}
/* Use with care, not on Armature poses but for temporal ones */
/* (currently used for action constraints and in rebuild_pose) */
bPoseChannel *verify_pose_channel(bPose* pose, const char* name)
{
bPoseChannel *chan;
if (!pose){
return NULL;
}
/* See if this channel exists */
for (chan=pose->chanbase.first; chan; chan=chan->next){
if (!strcmp (name, chan->name))
return chan;
}
/* If not, create it and add it */
chan = MEM_callocN(sizeof(bPoseChannel), "verifyPoseChannel");
strncpy (chan->name, name, 31);
/* init vars to prevent mat errors */
chan->quat[0] = 1.0F;
chan->size[0] = chan->size[1] = chan->size[2] = 1.0F;
chan->limitmin[0]= chan->limitmin[1]= chan->limitmin[2]= -180.0f;
chan->limitmax[0]= chan->limitmax[1]= chan->limitmax[2]= 180.0f;
chan->stiffness[0]= chan->stiffness[1]= chan->stiffness[2]= 0.0f;
BLI_addtail (&pose->chanbase, chan);
return chan;
}
/* dst should be freed already, makes entire duplicate */
void copy_pose(bPose **dst, bPose *src, int copycon)
{
bPose *outPose;
bPoseChannel *pchan;
ListBase listb;
if (!src){
*dst=NULL;
return;
}
outPose= MEM_callocN(sizeof(bPose), "pose");
duplicatelist (&outPose->chanbase, &src->chanbase);
if (copycon) {
for (pchan=outPose->chanbase.first; pchan; pchan=pchan->next) {
copy_constraints(&listb, &pchan->constraints); // copy_constraints NULLs listb
pchan->constraints= listb;
pchan->path= NULL;
}
}
*dst=outPose;
}
void free_pose_channels(bPose *pose)
{
bPoseChannel *pchan;
if (pose->chanbase.first){
for (pchan = pose->chanbase.first; pchan; pchan=pchan->next){
if(pchan->path)
MEM_freeN(pchan->path);
free_constraints(&pchan->constraints);
}
BLI_freelistN (&pose->chanbase);
}
}
static void copy_pose_channel_data(bPoseChannel *pchan, const bPoseChannel *chan)
{
bConstraint *pcon, *con;
VECCOPY(pchan->loc, chan->loc);
VECCOPY(pchan->size, chan->size);
QUATCOPY(pchan->quat, chan->quat);
pchan->flag= chan->flag;
con= chan->constraints.first;
for(pcon= pchan->constraints.first; pcon; pcon= pcon->next)
pcon->enforce= con->enforce;
}
/* checks for IK constraint, can do more constraints flags later */
/* pose should be entirely OK */
void update_pose_constraint_flags(bPose *pose)
{
bPoseChannel *pchan, *parchan;
bConstraint *con;
/* clear */
for (pchan = pose->chanbase.first; pchan; pchan=pchan->next) {
pchan->constflag= 0;
}
/* detect */
for (pchan = pose->chanbase.first; pchan; pchan=pchan->next) {
for(con= pchan->constraints.first; con; con= con->next) {
if(con->type==CONSTRAINT_TYPE_KINEMATIC) {
bKinematicConstraint *data = (bKinematicConstraint*)con->data;
pchan->constflag |= PCHAN_HAS_IK;
if(data->tar==NULL || (data->tar->type==OB_ARMATURE && data->subtarget[0]==0))
pchan->constflag |= PCHAN_HAS_TARGET;
/* negative rootbone = recalc rootbone index. used in do_versions */
if(data->rootbone<0) {
data->rootbone= 0;
if(data->flag & CONSTRAINT_IK_TIP) parchan= pchan;
else parchan= pchan->parent;
while(parchan) {
data->rootbone++;
if((parchan->bone->flag & BONE_CONNECTED)==0)
break;
parchan= parchan->parent;
}
}
}
else pchan->constflag |= PCHAN_HAS_CONST;
}
}
}
/* ************************ END Pose channels *************** */
/* ************************ Action channels *************** */
bActionChannel *get_action_channel(bAction *act, const char *name)
{
bActionChannel *chan;
if (!act)
return NULL;
for (chan = act->chanbase.first; chan; chan=chan->next){
if (!strcmp (chan->name, name))
return chan;
}
return NULL;
}
/* returns existing channel, or adds new one. In latter case it doesnt activate it, context is required for that*/
bActionChannel *verify_action_channel(bAction *act, const char *name)
{
bActionChannel *chan;
chan= get_action_channel(act, name);
if(chan==NULL) {
if (!chan) {
chan = MEM_callocN (sizeof(bActionChannel), "actionChannel");
strncpy (chan->name, name, 31);
BLI_addtail (&act->chanbase, chan);
}
}
return chan;
}
/* ************************ Blending with NLA *************** */
static void blend_pose_strides(bPose *dst, bPose *src, float srcweight, short mode)
{
float dstweight;
switch (mode){
case POSE_BLEND:
dstweight = 1.0F - srcweight;
break;
case POSE_ADD:
dstweight = 1.0F;
break;
default :
dstweight = 1.0F;
}
VecLerpf(dst->stride_offset, dst->stride_offset, src->stride_offset, srcweight);
}
/* Only allowed for Poses with identical channels */
void blend_poses(bPose *dst, bPose *src, float srcweight, short mode)
{
bPoseChannel *dchan;
const bPoseChannel *schan;
bConstraint *dcon, *scon;
float dquat[4], squat[4];
float dstweight;
int i;
switch (mode){
case POSE_BLEND:
dstweight = 1.0F - srcweight;
break;
case POSE_ADD:
dstweight = 1.0F;
break;
default :
dstweight = 1.0F;
}
schan= src->chanbase.first;
for (dchan = dst->chanbase.first; dchan; dchan=dchan->next, schan= schan->next){
if (schan->flag & (POSE_ROT|POSE_LOC|POSE_SIZE)) {
/* replaced quat->matrix->quat conversion with decent quaternion interpol (ton) */
/* Do the transformation blend */
if (schan->flag & POSE_ROT) {
QUATCOPY(dquat, dchan->quat);
QUATCOPY(squat, schan->quat);
if(mode==POSE_BLEND)
QuatInterpol(dchan->quat, dquat, squat, srcweight);
else
QuatAdd(dchan->quat, dquat, squat, srcweight);
NormalQuat (dchan->quat);
}
for (i=0; i<3; i++){
if (schan->flag & POSE_LOC)
dchan->loc[i] = (dchan->loc[i]*dstweight) + (schan->loc[i]*srcweight);
if (schan->flag & POSE_SIZE)
dchan->size[i] = 1.0f + ((dchan->size[i]-1.0f)*dstweight) + ((schan->size[i]-1.0f)*srcweight);
}
dchan->flag |= schan->flag;
}
for(dcon= dchan->constraints.first, scon= schan->constraints.first; dcon && scon; dcon= dcon->next, scon= scon->next) {
/* no 'add' option for constraint blending */
dcon->enforce= dcon->enforce*(1.0f-srcweight) + scon->enforce*srcweight;
}
}
}
void calc_action_range(const bAction *act, float *start, float *end, int incl_hidden)
{
const bActionChannel *chan;
const bConstraintChannel *conchan;
const IpoCurve *icu;
float min=999999999.0f, max=-999999999.0;
int foundvert=0;
if(act) {
for (chan=act->chanbase.first; chan; chan=chan->next) {
if(incl_hidden || (chan->flag & ACHAN_HIDDEN)==0) {
if(chan->ipo) {
for (icu=chan->ipo->curve.first; icu; icu=icu->next) {
if(icu->totvert) {
min= MIN2 (min, icu->bezt[0].vec[1][0]);
max= MAX2 (max, icu->bezt[icu->totvert-1].vec[1][0]);
foundvert=1;
}
}
}
for (conchan=chan->constraintChannels.first; conchan; conchan=conchan->next) {
if(conchan->ipo) {
for (icu=conchan->ipo->curve.first; icu; icu=icu->next) {
if(icu->totvert) {
min= MIN2 (min, icu->bezt[0].vec[1][0]);
max= MAX2 (max, icu->bezt[icu->totvert-1].vec[1][0]);
foundvert=1;
}
}
}
}
}
}
}
if (foundvert) {
if(min==max) max+= 1.0f;
*start= min;
*end= max;
}
else {
*start= 0.0f;
*end= 1.0f;
}
}
/* Copy the data from the action-pose (src) into the pose */
/* both args are assumed to be valid */
/* exported to game engine */
void extract_pose_from_pose(bPose *pose, const bPose *src)
{
const bPoseChannel *schan;
bPoseChannel *pchan= pose->chanbase.first;
for (schan=src->chanbase.first; schan; schan=schan->next, pchan= pchan->next) {
copy_pose_channel_data(pchan, schan);
}
}
/* Pose should exist, can have any number of channels too (used for constraint) */
void extract_pose_from_action(bPose *pose, bAction *act, float ctime)
{
bActionChannel *achan;
bPoseChannel *pchan;
Ipo *ipo;
if (!act)
return;
if (!pose)
return;
/* Copy the data from the action into the pose */
for (pchan= pose->chanbase.first; pchan; pchan=pchan->next) {
achan= get_action_channel(act, pchan->name);
pchan->flag &= ~(POSE_LOC|POSE_ROT|POSE_SIZE);
if(achan) {
ipo = achan->ipo;
if (ipo) {
/* Evaluates and sets the internal ipo value */
calc_ipo(ipo, ctime);
/* This call also sets the pchan flags */
execute_action_ipo(achan, pchan);
}
do_constraint_channels(&pchan->constraints, &achan->constraintChannels, ctime);
}
}
}
/* for do_all_pose_actions, clears the pose */
static void rest_pose(bPose *pose)
{
bPoseChannel *pchan;
int i;
if (!pose)
return;
pose->stride_offset[0]= 0.0f;
pose->stride_offset[1]= 0.0f;
pose->stride_offset[2]= 0.0f;
for (pchan=pose->chanbase.first; pchan; pchan=pchan->next){
for (i=0; i<3; i++){
pchan->loc[i]=0.0;
pchan->quat[i+1]=0.0;
pchan->size[i]=1.0;
}
pchan->quat[0]=1.0;
pchan->flag &= ~(POSE_LOC|POSE_ROT|POSE_SIZE);
}
}
/* ********** NLA with non-poses works with ipo channels ********** */
typedef struct NlaIpoChannel {
struct NlaIpoChannel *next, *prev;
float val;
void *poin;
int type;
} NlaIpoChannel;
static void extract_ipochannels_from_action(ListBase *lb, ID *id, bAction *act, char *name, float ctime)
{
bActionChannel *achan= get_action_channel(act, name);
IpoCurve *icu;
NlaIpoChannel *nic;
if(achan==NULL) return;
if(achan->ipo) {
calc_ipo(achan->ipo, ctime);
for(icu= achan->ipo->curve.first; icu; icu= icu->next) {
/* skip IPO_BITS, is for layers and cannot be blended */
if(icu->vartype != IPO_BITS) {
nic= MEM_callocN(sizeof(NlaIpoChannel), "NlaIpoChannel");
BLI_addtail(lb, nic);
nic->val= icu->curval;
nic->poin= get_ipo_poin(id, icu, &nic->type);
}
}
}
/* constraint channels only for objects */
if(GS(id->name)==ID_OB) {
Object *ob= (Object *)id;
bConstraint *con;
bConstraintChannel *conchan;
for (con=ob->constraints.first; con; con=con->next) {
conchan = get_constraint_channel(&achan->constraintChannels, con->name);
if(conchan && conchan->ipo) {
calc_ipo(conchan->ipo, ctime);
icu= conchan->ipo->curve.first; // only one ipo now
if(icu) {
nic= MEM_callocN(sizeof(NlaIpoChannel), "NlaIpoChannel constr");
BLI_addtail(lb, nic);
nic->val= icu->curval;
nic->poin= &con->enforce;
nic->type= IPO_FLOAT;
}
}
}
}
}
static NlaIpoChannel *find_nla_ipochannel(ListBase *lb, void *poin)
{
NlaIpoChannel *nic;
if(poin) {
for(nic= lb->first; nic; nic= nic->next) {
if(nic->poin==poin)
return nic;
}
}
return NULL;
}
static void blend_ipochannels(ListBase *dst, ListBase *src, float srcweight, int mode)
{
NlaIpoChannel *snic, *dnic, *next;
float dstweight;
switch (mode){
case POSE_BLEND:
dstweight = 1.0F - srcweight;
break;
case POSE_ADD:
dstweight = 1.0F;
break;
default :
dstweight = 1.0F;
}
for(snic= src->first; snic; snic= next) {
next= snic->next;
dnic= find_nla_ipochannel(dst, snic->poin);
if(dnic==NULL) {
/* remove from src list, and insert in dest */
BLI_remlink(src, snic);
BLI_addtail(dst, snic);
}
else {
/* we do the blend */
dnic->val= dstweight*dnic->val + srcweight*snic->val;
}
}
}
static void execute_ipochannels(ListBase *lb)
{
NlaIpoChannel *nic;
for(nic= lb->first; nic; nic= nic->next) {
if(nic->poin) {
write_ipo_poin(nic->poin, nic->type, nic->val);
}
}
}
/* ************** time ****************** */
static bActionStrip *get_active_strip(Object *ob)
{
bActionStrip *strip;
if(ob->action==NULL)
return NULL;
for (strip=ob->nlastrips.first; strip; strip=strip->next)
if(strip->flag & ACTSTRIP_ACTIVE)
break;
if(strip && strip->act==ob->action)
return strip;
return NULL;
}
/* non clipped mapping of strip */
static float get_actionstrip_frame(bActionStrip *strip, float cframe, int invert)
{
float length, actlength, repeat;
if (strip->flag & ACTSTRIP_USESTRIDE)
repeat= 1.0f;
else
repeat= strip->repeat;
length = strip->end-strip->start;
if(length==0.0f)
length= 1.0f;
actlength = strip->actend-strip->actstart;
if(invert)
return length*(cframe - strip->actstart)/(repeat*actlength) + strip->start;
else
return repeat*actlength*(cframe - strip->start)/length + strip->actstart;
}
/* if the conditions match, it converts current time to strip time */
float get_action_frame(Object *ob, float cframe)
{
bActionStrip *strip= get_active_strip(ob);
if(strip)
return get_actionstrip_frame(strip, cframe, 0);
return cframe;
}
/* inverted, strip time to current time */
float get_action_frame_inv(Object *ob, float cframe)
{
bActionStrip *strip= get_active_strip(ob);
if(strip)
return get_actionstrip_frame(strip, cframe, 1);
return cframe;
}
/* this now only used for repeating cycles, to enable fields and blur. */
/* the whole time control in blender needs serious thinking... */
static float nla_time(float cfra, float unit)
{
extern float bluroffs; // bad construct, borrowed from object.c for now
extern float fieldoffs;
/* motion blur & fields */
cfra+= unit*(bluroffs+fieldoffs);
/* global time */
cfra*= G.scene->r.framelen;
/* decide later... */
// if(no_speed_curve==0) if(ob && ob->ipo) cfra= calc_ipo_time(ob->ipo, cfra);
return cfra;
}
/* added "sizecorr" here, to allow armatures to be scaled and still have striding.
Only works for uniform scaling. In general I'd advise against scaling armatures ever though! (ton)
*/
static float stridechannel_frame(Object *ob, float sizecorr, bActionStrip *strip, Path *path, float pathdist, float *stride_offset)
{
bAction *act= strip->act;
char *name= strip->stridechannel;
bActionChannel *achan= get_action_channel(act, name);
int stride_axis= strip->stride_axis;
if(achan && achan->ipo) {
IpoCurve *icu= NULL;
float minx=0.0f, maxx=0.0f, miny=0.0f, maxy=0.0f;
int foundvert= 0;
if(stride_axis==0) stride_axis= AC_LOC_X;
else if(stride_axis==1) stride_axis= AC_LOC_Y;
else stride_axis= AC_LOC_Z;
/* calculate the min/max */
for (icu=achan->ipo->curve.first; icu; icu=icu->next) {
if(icu->adrcode==stride_axis) {
if(icu->totvert>1) {
foundvert= 1;
minx= icu->bezt[0].vec[1][0];
maxx= icu->bezt[icu->totvert-1].vec[1][0];
miny= icu->bezt[0].vec[1][1];
maxy= icu->bezt[icu->totvert-1].vec[1][1];
}
break;
}
}
if(foundvert && miny!=maxy) {
float stridelen= sizecorr*fabs(maxy-miny), striptime;
float actiondist, pdist, pdistNewNormalized, offs;
float vec1[4], vec2[4], dir[3];
/* internal cycling, actoffs is in frames */
offs= stridelen*strip->actoffs/(maxx-minx);
/* amount path moves object */
pdist = (float)fmod (pathdist+offs, stridelen);
striptime= pdist/stridelen;
/* amount stride bone moves */
actiondist= sizecorr*eval_icu(icu, minx + striptime*(maxx-minx)) - miny;
pdist = fabs(actiondist) - pdist;
pdistNewNormalized = (pathdist+pdist)/path->totdist;
/* now we need to go pdist further (or less) on cu path */
where_on_path(ob, (pathdist)/path->totdist, vec1, dir); /* vec needs size 4 */
if (pdistNewNormalized <= 1) {
// search for correction in positive path-direction
where_on_path(ob, pdistNewNormalized, vec2, dir); /* vec needs size 4 */
VecSubf(stride_offset, vec2, vec1);
}
else {
// we reached the end of the path, search backwards instead
where_on_path(ob, (pathdist-pdist)/path->totdist, vec2, dir); /* vec needs size 4 */
VecSubf(stride_offset, vec1, vec2);
}
Mat4Mul3Vecfl(ob->obmat, stride_offset);
return striptime;
}
}
return 0.0f;
}
/* simple case for now; only the curve path with constraint value > 0.5 */
/* blending we might do later... */
static Object *get_parent_path(Object *ob)
{
bConstraint *con;
if(ob->parent && ob->parent->type==OB_CURVE)
return ob->parent;
for (con = ob->constraints.first; con; con=con->next) {
if(con->type==CONSTRAINT_TYPE_FOLLOWPATH) {
if(con->enforce>0.5f) {
bFollowPathConstraint *data= con->data;
return data->tar;
}
}
}
return NULL;
}
/* ************** do the action ************ */
static void do_nla(Object *ob, int blocktype)
{
bPose *tpose= NULL;
Key *key= NULL;
ListBase tchanbase={NULL, NULL}, chanbase={NULL, NULL};
bActionStrip *strip, *striplast=NULL, *stripfirst=NULL;
float striptime, frametime, length, actlength;
float blendfac, stripframe;
float scene_cfra= G.scene->r.cfra;
int doit, dostride;
if(blocktype==ID_AR) {
copy_pose(&tpose, ob->pose, 1);
rest_pose(ob->pose); // potentially destroying current not-keyed pose
}
else {
key= ob_get_key(ob);
}
/* check on extend to left or right, when no strip is hit by 'cfra' */
for (strip=ob->nlastrips.first; strip; strip=strip->next) {
/* escape loop on a hit */
if( scene_cfra >= strip->start && scene_cfra <= strip->end + 0.1f) /* note 0.1 comes back below */
break;
if(scene_cfra < strip->start) {
if(stripfirst==NULL)
stripfirst= strip;
else if(stripfirst->start > strip->start)
stripfirst= strip;
}
else if(scene_cfra > strip->end) {
if(striplast==NULL)
striplast= strip;
else if(striplast->end < strip->end)
striplast= strip;
}
}
if(strip==NULL) { /* extend */
if(stripfirst)
scene_cfra= stripfirst->start;
else if(striplast)
scene_cfra= striplast->end;
}
/* and now go over all strips */
for (strip=ob->nlastrips.first; strip; strip=strip->next){
doit=dostride= 0;
if (strip->act){ /* so theres an action */
/* Determine if the current frame is within the strip's range */
length = strip->end-strip->start;
actlength = strip->actend-strip->actstart;
striptime = (scene_cfra-(strip->start)) / length;
stripframe = (scene_cfra-(strip->start)) ;
if (striptime>=0.0){
if(blocktype==ID_AR)
rest_pose(tpose);
/* To handle repeat, we add 0.1 frame extra to make sure the last frame is included */
if (striptime < 1.0f + 0.1f/length) {
/* Handle path */
if ((strip->flag & ACTSTRIP_USESTRIDE) && (blocktype==ID_AR) && (ob->ipoflag & OB_DISABLE_PATH)==0){
Object *parent= get_parent_path(ob);
if (parent) {
Curve *cu = parent->data;
float ctime, pdist;
if (cu->flag & CU_PATH){
/* Ensure we have a valid path */
if(cu->path==NULL || cu->path->data==NULL) makeDispListCurveTypes(parent, 0);
if(cu->path) {
/* Find the position on the path */
ctime= bsystem_time(ob, parent, scene_cfra, 0.0);
if(calc_ipo_spec(cu->ipo, CU_SPEED, &ctime)==0) {
/* correct for actions not starting on zero */
ctime= (ctime - strip->actstart)/cu->pathlen;
CLAMP(ctime, 0.0, 1.0);
}
pdist = ctime*cu->path->totdist;
if(tpose && strip->stridechannel[0]) {
striptime= stridechannel_frame(parent, ob->size[0], strip, cu->path, pdist, tpose->stride_offset);
}
else {
if (strip->stridelen) {
striptime = pdist / strip->stridelen;
striptime = (float)fmod (striptime+strip->actoffs, 1.0);
}
else
striptime = 0;
}
frametime = (striptime * actlength) + strip->actstart;
frametime= bsystem_time(ob, 0, frametime, 0.0);
if(blocktype==ID_AR) {
extract_pose_from_action (tpose, strip->act, frametime);
}
else if(blocktype==ID_OB) {
extract_ipochannels_from_action(&tchanbase, &ob->id, strip->act, "Object", frametime);
if(key)
extract_ipochannels_from_action(&tchanbase, &key->id, strip->act, "Shape", frametime);
}
doit=dostride= 1;
}
}
}
}
/* To handle repeat, we add 0.1 frame extra to make sure the last frame is included */
else {
/* Mod to repeat */
if(strip->repeat!=1.0f) {
striptime*= strip->repeat;
striptime = (float)fmod (striptime, 1.0f + 0.1f/length);
}
frametime = (striptime * actlength) + strip->actstart;
frametime= nla_time(frametime, (float)strip->repeat);
if(blocktype==ID_AR)
extract_pose_from_action (tpose, strip->act, frametime);
else if(blocktype==ID_OB) {
extract_ipochannels_from_action(&tchanbase, &ob->id, strip->act, "Object", frametime);
if(key)
extract_ipochannels_from_action(&tchanbase, &key->id, strip->act, "Shape", frametime);
}
doit=1;
}
}
/* Handle extend */
else{
if (strip->flag & ACTSTRIP_HOLDLASTFRAME){
/* we want the strip to hold on the exact fraction of the repeat value */
frametime = actlength * (strip->repeat-(int)strip->repeat);
if(frametime<=0.000001f) frametime= actlength; /* rounding errors... */
frametime= bsystem_time(ob, 0, frametime+strip->actstart, 0.0);
if(blocktype==ID_AR)
extract_pose_from_action (tpose, strip->act, frametime);
else if(blocktype==ID_OB) {
extract_ipochannels_from_action(&tchanbase, &ob->id, strip->act, "Object", frametime);
if(key)
extract_ipochannels_from_action(&tchanbase, &key->id, strip->act, "Shape", frametime);
}
doit=1;
}
}
/* Handle blendin & blendout */
if (doit){
/* Handle blendin */
if (strip->blendin>0.0 && stripframe<=strip->blendin && scene_cfra>=strip->start){
blendfac = stripframe/strip->blendin;
}
else if (strip->blendout>0.0 && stripframe>=(length-strip->blendout) && scene_cfra<=strip->end){
blendfac = (length-stripframe)/(strip->blendout);
}
else
blendfac = 1;
if(blocktype==ID_AR) {/* Blend this pose with the accumulated pose */
blend_poses (ob->pose, tpose, blendfac, strip->mode);
if(dostride)
blend_pose_strides (ob->pose, tpose, blendfac, strip->mode);
}
else {
blend_ipochannels(&chanbase, &tchanbase, blendfac, strip->mode);
BLI_freelistN(&tchanbase);
}
}
}
}
}
if(blocktype==ID_OB) {
execute_ipochannels(&chanbase);
}
else if(blocktype==ID_AR) {
/* apply stride offset to object */
VecAddf(ob->obmat[3], ob->obmat[3], ob->pose->stride_offset);
}
/* free */
if (tpose){
free_pose_channels(tpose);
MEM_freeN(tpose);
}
if(chanbase.first)
BLI_freelistN(&chanbase);
}
void do_all_pose_actions(Object *ob)
{
// only to have safe calls from editor
if(ob==NULL) return;
if(ob->type!=OB_ARMATURE || ob->pose==NULL) return;
if(ob->pose->flag & POSE_LOCKED) { // no actions to execute while transform
if(ob->pose->flag & POSE_DO_UNLOCK)
ob->pose->flag &= ~(POSE_LOCKED|POSE_DO_UNLOCK);
}
else if(ob->action && ((ob->nlaflag & OB_NLA_OVERRIDE)==0 || ob->nlastrips.first==NULL) ) {
float cframe= (float) G.scene->r.cfra;
cframe= get_action_frame(ob, cframe);
extract_pose_from_action (ob->pose, ob->action, bsystem_time(ob, 0, cframe, 0.0));
}
else if(ob->nlastrips.first) {
do_nla(ob, ID_AR);
}
}
/* called from where_is_object */
void do_all_object_actions(Object *ob)
{
if(ob==NULL) return;
if(ob->dup_group) return; /* prevent conflicts, might add smarter check later */
/* Do local action */
if(ob->action && ((ob->nlaflag & OB_NLA_OVERRIDE)==0 || ob->nlastrips.first==NULL) ) {
ListBase tchanbase= {NULL, NULL};
Key *key= ob_get_key(ob);
float cframe= (float) G.scene->r.cfra;
cframe= get_action_frame(ob, cframe);
extract_ipochannels_from_action(&tchanbase, &ob->id, ob->action, "Object", bsystem_time(ob, 0, cframe, 0.0));
if(key)
extract_ipochannels_from_action(&tchanbase, &key->id, ob->action, "Shape", bsystem_time(ob, 0, cframe, 0.0));
if(tchanbase.first) {
execute_ipochannels(&tchanbase);
BLI_freelistN(&tchanbase);
}
}
else if(ob->nlastrips.first) {
do_nla(ob, ID_OB);
}
}
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