blender
/
blender
129
398
Fork 572
Code Issues 6.2k Pull Requests 746 Projects 19 Wiki Activity

NLA: rewrite evaluation channel data structures. 

Implementing a new intelligent mixing mode that combines quaternions
via multiplication requires rewriting the NLA code to recombine array
properties from separate scalar channels during evaluation.

In addition, stable evaluation of NLA stack requires that any channel
that is touched by any of the actions in the stack should always be
set to a definite value by evaluation, even if no strip affects it
at this point of the timeline. The obvious choice for the fallback
is the default value of the property.

To make scanning all actions reasonably efficient, mapping paths to
channels should be done using hash tables.

Differential Revision: https://developer.blender.org/D4120
This commit is contained in:
Alexander Gavrilov 2018-12-15 16:09:27 +03:00
parent a77b63c569
commit 57d4b869be
2 changed files with 612 additions and 179 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

712
source/blender/blenkernel/intern/anim_sys.c
View File

@ -2020,131 +2020,363 @@ NlaEvalStrip *nlastrips_ctime_get_strip(Depsgraph *depsgraph, ListBase *list, Li
/* ---------------------- */
/* find an NlaEvalChannel that matches the given criteria
* - ptr and prop are the RNA data to find a match for
*/
static NlaEvalChannel *nlaevalchan_find_match(ListBase *channels, const PathResolvedRNA *prna)
/* Initialize a valid mask, allocating memory if necessary. */
static void nlavalidmask_init(NlaValidMask *mask, int bits)
{
NlaEvalChannel *nec;
/* sanity check */
if (channels == NULL)
return NULL;
/* loop through existing channels, checking for a channel which affects the same property */
for (nec = channels->first; nec; nec = nec->next) {
/* - comparing the PointerRNA's is done by comparing the pointers
* to the actual struct the property resides in, since that all the
* other data stored in PointerRNA cannot allow us to definitively
* identify the data
*/
if ((nec->rna.ptr.data == prna->ptr.data) && (nec->rna.prop == prna->prop) && ELEM(nec->rna.prop_index, -1, prna->prop_index))
return nec;
if (BLI_BITMAP_SIZE(bits) > sizeof(mask->buffer)) {
mask->ptr = BLI_BITMAP_NEW(bits, "NlaValidMask");
}
else {
mask->ptr = mask->buffer;
}
/* not found */
return NULL;
}
/* initialise default value for NlaEvalChannel, so that it doesn't blend things wrong */
static float nlaevalchan_init_value(PathResolvedRNA *rna)
/* Free allocated memory for the mask. */
static void nlavalidmask_free(NlaValidMask *mask)
{
PointerRNA *ptr = &rna->ptr;
PropertyRNA *prop = rna->prop;
int index = rna->prop_index;
if (mask->ptr != mask->buffer) {
MEM_freeN(mask->ptr);
}
}
/* ---------------------- */
/* Hashing functions for NlaEvalChannelKey. */
static uint nlaevalchan_keyhash(const void *ptr)
{
const NlaEvalChannelKey *key = ptr;
uint hash = BLI_ghashutil_ptrhash(key->ptr.data);
return hash ^ BLI_ghashutil_ptrhash(key->prop);
}
static bool nlaevalchan_keycmp(const void *a, const void *b)
{
const NlaEvalChannelKey *A = a;
const NlaEvalChannelKey *B = b;
return (BLI_ghashutil_ptrcmp(A->ptr.data, B->ptr.data) ||
BLI_ghashutil_ptrcmp(A->prop, B->prop));
}
/* ---------------------- */
/* Allocate a new blending value snapshot for the channel. */
static NlaEvalChannelSnapshot *nlaevalchan_snapshot_new(NlaEvalChannel *nec)
{
int length = nec->base_snapshot.length;
size_t byte_size = sizeof(NlaEvalChannelSnapshot) + sizeof(float) * length;
NlaEvalChannelSnapshot *nec_snapshot = MEM_callocN(byte_size, "NlaEvalChannelSnapshot");
nec_snapshot->channel = nec;
nec_snapshot->length = length;
return nec_snapshot;
}
/* Free a channel's blending value snapshot. */
static void nlaevalchan_snapshot_free(NlaEvalChannelSnapshot *nec_snapshot)
{
BLI_assert(!nec_snapshot->is_base);
MEM_freeN(nec_snapshot);
}
/* Copy all data in the snapshot. */
static void nlaevalchan_snapshot_copy(NlaEvalChannelSnapshot *dst, const NlaEvalChannelSnapshot *src)
{
BLI_assert(dst->channel == src->channel);
memcpy(dst->values, src->values, sizeof(float) * dst->length);
}
/* ---------------------- */
/* Initialize a blending state snapshot structure. */
static void nlaeval_snapshot_init(NlaEvalSnapshot *snapshot, NlaEvalData *nlaeval, NlaEvalSnapshot *base)
{
snapshot->base = base;
snapshot->size = MAX2(16, nlaeval->num_channels);
snapshot->channels = MEM_callocN(sizeof(*snapshot->channels) * snapshot->size, "NlaEvalSnapshot::channels");
}
/* Retrieve the individual channel snapshot. */
static NlaEvalChannelSnapshot *nlaeval_snapshot_get(NlaEvalSnapshot *snapshot, int index)
{
return (index < snapshot->size) ? snapshot->channels[index] : NULL;
}
/* Ensure at least this number of slots exists. */
static void nlaeval_snapshot_ensure_size(NlaEvalSnapshot *snapshot, int size)
{
if (size > snapshot->size) {
snapshot->size *= 2;
CLAMP_MIN(snapshot->size, size);
CLAMP_MIN(snapshot->size, 16);
size_t byte_size = sizeof(*snapshot->channels) * snapshot->size;
snapshot->channels = MEM_recallocN_id(snapshot->channels, byte_size, "NlaEvalSnapshot::channels");
}
}
/* Retrieve the address of a slot in the blending state snapshot for this channel (may realloc). */
static NlaEvalChannelSnapshot **nlaeval_snapshot_ensure_slot(NlaEvalSnapshot *snapshot, NlaEvalChannel *nec)
{
nlaeval_snapshot_ensure_size(snapshot, nec->owner->num_channels);
return &snapshot->channels[nec->index];
}
/* Retrieve the blending snapshot for the specified channel, with fallback to base. */
static NlaEvalChannelSnapshot *nlaeval_snapshot_find_channel(NlaEvalSnapshot *snapshot, NlaEvalChannel *nec)
{
while (snapshot != NULL) {
NlaEvalChannelSnapshot *nec_snapshot = nlaeval_snapshot_get(snapshot, nec->index);
if (nec_snapshot != NULL) {
return nec_snapshot;
}
snapshot = snapshot->base;
}
return &nec->base_snapshot;
}
/* Retrieve or create the channel value snapshot, copying from the other snapshot (or default values) */
static NlaEvalChannelSnapshot *nlaeval_snapshot_ensure_channel(NlaEvalSnapshot *snapshot, NlaEvalChannel *nec)
{
NlaEvalChannelSnapshot **slot = nlaeval_snapshot_ensure_slot(snapshot, nec);
if (*slot == NULL) {
NlaEvalChannelSnapshot *base_snapshot, *nec_snapshot;
nec_snapshot = nlaevalchan_snapshot_new(nec);
base_snapshot = nlaeval_snapshot_find_channel(snapshot->base, nec);
nlaevalchan_snapshot_copy(nec_snapshot, base_snapshot);
*slot = nec_snapshot;
}
return *slot;
}
/* Free all memory owned by this blending snapshot structure. */
static void nlaeval_snapshot_free_data(NlaEvalSnapshot *snapshot)
{
if (snapshot->channels != NULL) {
for (int i = 0; i < snapshot->size; i++) {
NlaEvalChannelSnapshot *nec_snapshot = snapshot->channels[i];
if (nec_snapshot != NULL) {
nlaevalchan_snapshot_free(nec_snapshot);
}
}
MEM_freeN(snapshot->channels);
}
snapshot->base = NULL;
snapshot->size = 0;
snapshot->channels = NULL;
}
/* ---------------------- */
/* Free memory owned by this evaluation channel. */
static void nlaevalchan_free_data(NlaEvalChannel *nec)
{
nlavalidmask_free(&nec->valid);
}
/* Initialize a full NLA evaluation state structure. */
static void nlaeval_init(NlaEvalData *nlaeval)
{
memset(nlaeval, 0, sizeof(*nlaeval));
nlaeval->path_hash = BLI_ghash_str_new("NlaEvalData::path_hash");
nlaeval->key_hash = BLI_ghash_new(nlaevalchan_keyhash, nlaevalchan_keycmp, "NlaEvalData::key_hash");
}
static void nlaeval_free(NlaEvalData *nlaeval)
{
/* Delete base snapshot - its channels are part of NlaEvalChannel and shouldn't be freed. */
MEM_SAFE_FREE(nlaeval->base_snapshot.channels);
/* Delete result snapshot. */
nlaeval_snapshot_free_data(&nlaeval->eval_snapshot);
/* Delete channels. */
for (NlaEvalChannel *nec = nlaeval->channels.first; nec; nec = nec->next) {
nlaevalchan_free_data(nec);
}
BLI_freelistN(&nlaeval->channels);
BLI_ghash_free(nlaeval->path_hash, NULL, NULL);
BLI_ghash_free(nlaeval->key_hash, NULL, NULL);
}
/* ---------------------- */
static int nlaevalchan_validate_index(NlaEvalChannel *nec, int index)
{
if (nec->is_array) {
if (index >= 0 && index < nec->base_snapshot.length) {
return index;
}
return -1;
}
else {
return 0;
}
}
/* Initialise default values for NlaEvalChannel from the property data. */
static void nlaevalchan_get_default_values(NlaEvalChannel *nec, float *r_values)
{
PointerRNA *ptr = &nec->key.ptr;
PropertyRNA *prop = nec->key.prop;
int length = nec->base_snapshot.length;
/* NOTE: while this doesn't work for all RNA properties as default values aren't in fact
* set properly for most of them, at least the common ones (which also happen to get used
* in NLA strips a lot, e.g. scale) are set correctly.
*/
switch (RNA_property_type(prop)) {
case PROP_BOOLEAN:
if (RNA_property_array_check(prop))
return (float)RNA_property_boolean_get_default_index(ptr, prop, index);
else
return (float)RNA_property_boolean_get_default(ptr, prop);
case PROP_INT:
if (RNA_property_array_check(prop))
return (float)RNA_property_int_get_default_index(ptr, prop, index);
else
return (float)RNA_property_int_get_default(ptr, prop);
case PROP_FLOAT:
if (RNA_property_array_check(prop))
return RNA_property_float_get_default_index(ptr, prop, index);
else
return RNA_property_float_get_default(ptr, prop);
case PROP_ENUM:
return (float)RNA_property_enum_get_default(ptr, prop);
default:
return 0.0f;
if (RNA_property_array_check(prop)) {
BLI_assert(length == RNA_property_array_length(ptr, prop));
bool *tmp_bool;
int *tmp_int;
switch (RNA_property_type(prop)) {
case PROP_BOOLEAN:
tmp_bool = MEM_malloc_arrayN(sizeof(*tmp_bool), length, __func__);
RNA_property_boolean_get_default_array(ptr, prop, tmp_bool);
for (int i = 0; i < length; i++) {
r_values[i] = (float)tmp_bool[i];
}
MEM_freeN(tmp_bool);
break;
case PROP_INT:
tmp_int = MEM_malloc_arrayN(sizeof(*tmp_int), length, __func__);
RNA_property_int_get_default_array(ptr, prop, tmp_int);
for (int i = 0; i < length; i++) {
r_values[i] = (float)tmp_int[i];
}
MEM_freeN(tmp_int);
break;
case PROP_FLOAT:
RNA_property_float_get_default_array(ptr, prop, r_values);
break;
default:
memset(r_values, 0, sizeof(float) * length);
}
}
else {
BLI_assert(length == 1);
switch (RNA_property_type(prop)) {
case PROP_BOOLEAN:
*r_values = (float)RNA_property_boolean_get_default(ptr, prop);
break;
case PROP_INT:
*r_values = (float)RNA_property_int_get_default(ptr, prop);
break;
case PROP_FLOAT:
*r_values = RNA_property_float_get_default(ptr, prop);
break;
case PROP_ENUM:
*r_values = (float)RNA_property_enum_get_default(ptr, prop);
break;
default:
*r_values = 0.0f;
}
}
}
/* verify that an appropriate NlaEvalChannel for this F-Curve exists */
static NlaEvalChannel *nlaevalchan_verify(PointerRNA *ptr, ListBase *channels, FCurve *fcu, bool *newChan)
/* Verify that an appropriate NlaEvalChannel for this property exists. */
static NlaEvalChannel *nlaevalchan_verify_key(NlaEvalData *nlaeval, const char *path, NlaEvalChannelKey *key)
{
NlaEvalChannel *nec;
PathResolvedRNA rna;
/* Look it up in the key hash. */
NlaEvalChannel **p_key_nec;
NlaEvalChannelKey **p_key;
bool found_key = BLI_ghash_ensure_p_ex(nlaeval->key_hash, key, (void***)&p_key, (void***)&p_key_nec);
/* sanity checks */
if (channels == NULL)
return NULL;
/* get RNA pointer+property info from F-Curve for more convenient handling */
if (!animsys_store_rna_setting(ptr, fcu->rna_path, fcu->array_index, &rna)) {
return NULL;
if (found_key) {
return *p_key_nec;
}
/* try to find a match */
nec = nlaevalchan_find_match(channels, &rna);
/* Create the channel. */
bool is_array = RNA_property_array_check(key->prop);
int length = is_array ? RNA_property_array_length(&key->ptr, key->prop) : 1;
/* allocate a new struct for this if none found */
if (nec == NULL) {
nec = MEM_callocN(sizeof(NlaEvalChannel), "NlaEvalChannel");
BLI_addtail(channels, nec);
NlaEvalChannel *nec = MEM_callocN(sizeof(NlaEvalChannel) + sizeof(float) * length, "NlaEvalChannel");
/* store property links for writing to the property later */
nec->rna = rna;
/* Initialize the channel. */
nec->rna_path = path;
nec->key = *key;
/* store parameters for use with write_orig_anim_rna */
nec->rna_path = fcu->rna_path;
nec->owner = nlaeval;
nec->index = nlaeval->num_channels++;
nec->is_array = is_array;
/* initialise value using default value of property [#35856] */
nec->value = nlaevalchan_init_value(&rna);
*newChan = true;
}
else
*newChan = false;
nlavalidmask_init(&nec->valid, length);
nec->base_snapshot.channel = nec;
nec->base_snapshot.length = length;
nec->base_snapshot.is_base = true;
nlaevalchan_get_default_values(nec, nec->base_snapshot.values);
/* Store channel in data structures. */
BLI_addtail(&nlaeval->channels, nec);
*nlaeval_snapshot_ensure_slot(&nlaeval->base_snapshot, nec) = &nec->base_snapshot;
*p_key_nec = nec;
*p_key = &nec->key;
/* we can now return */
return nec;
}
static float nla_blend_value(int blendmode, float old_value, float value, float inf);
/* accumulate (i.e. blend) the given value on to the channel it affects */
static void nlaevalchan_accumulate(NlaEvalChannel *nec, NlaEvalStrip *nes, float value, bool newChan)
/* Verify that an appropriate NlaEvalChannel for this path exists. */
static NlaEvalChannel *nlaevalchan_verify(PointerRNA *ptr, NlaEvalData *nlaeval, const char *path)
{
NlaStrip *strip = nes->strip;
short blendmode = strip->blendmode;
float inf = strip->influence;
/* for replace blend mode, and if this is the first strip,
* just replace the value regardless of the influence */
if (newChan && blendmode == NLASTRIP_MODE_REPLACE) {
nec->value = value;
return;
if (path == NULL) {
return NULL;
}
/* if this is being performed as part of transition evaluation, incorporate
* an additional weighting factor for the influence
*/
if (nes->strip_mode == NES_TIME_TRANSITION_END)
inf *= nes->strip_time;
/* Lookup the path in the path based hash. */
NlaEvalChannel **p_path_nec;
bool found_path = BLI_ghash_ensure_p(nlaeval->path_hash, (void*)path, (void***)&p_path_nec);
nec->value = nla_blend_value(blendmode, nec->value, value, inf);
if (found_path) {
return *p_path_nec;
}
/* Resolve the property and look it up in the key hash. */
NlaEvalChannelKey key;
if (!RNA_path_resolve_property(ptr, path, &key.ptr, &key.prop)) {
/* Report failure to resolve the path. */
if (G.debug & G_DEBUG) {
printf("Animato: Invalid path. ID = '%s', '%s'\n",
(ptr->id.data) ? (((ID *)ptr->id.data)->name + 2) : "<No ID>", path);
}
/* Cache NULL result. */
*p_path_nec = NULL;
return NULL;
}
NlaEvalChannel *nec = nlaevalchan_verify_key(nlaeval, path, &key);
if (nec->rna_path == NULL) {
nec->rna_path = path;
}
return *p_path_nec = nec;
}
/* ---------------------- */
/* accumulate the old and new values of a channel according to mode and influence */
static float nla_blend_value(int blendmode, float old_value, float value, float inf)
{
@ -2214,36 +2446,84 @@ static bool nla_invert_blend_value(int blend_mode, float old_value, float target
}
}
/* accumulate the results of a temporary buffer with the results of the full-buffer */
static void nlaevalchan_buffers_accumulate(ListBase *channels, ListBase *tmp_buffer, NlaEvalStrip *nes)
/* Data about the current blend mode. */
typedef struct NlaBlendData {
NlaEvalSnapshot *snapshot;
int mode;
float influence;
} NlaBlendData;
/* Accumulate (i.e. blend) the given value on to the channel it affects. */
static bool nlaeval_blend_value(NlaBlendData *blend, NlaEvalChannel *nec, int array_index, float value)
{
NlaEvalChannel *nec, *necn, *necd;
if (nec == NULL) {
return false;
}
/* optimize - abort if no channels */
if (BLI_listbase_is_empty(tmp_buffer))
return;
int index = nlaevalchan_validate_index(nec, array_index);
/* accumulate results in tmp_channels buffer to the accumulation buffer */
for (nec = tmp_buffer->first; nec; nec = necn) {
/* get pointer to next channel in case we remove the current channel from the temp-buffer */
necn = nec->next;
if (index < 0) {
if (G.debug & G_DEBUG) {
ID *id = nec->key.ptr.id.data;
printf("Animato: Invalid array index. ID = '%s', '%s[%d]', array length is %d\n",
id ? (id->name + 2) : "<No ID>", nec->rna_path, array_index, nec->base_snapshot.length);
}
/* try to find an existing matching channel for this setting in the accumulation buffer */
necd = nlaevalchan_find_match(channels, &nec->rna);
return false;
}
/* if there was a matching channel already in the buffer, accumulate to it,
* otherwise, add the current channel to the buffer for efficiency
*/
if (necd)
nlaevalchan_accumulate(necd, nes, 0, nec->value);
else {
BLI_remlink(tmp_buffer, nec);
BLI_addtail(channels, nec);
BLI_BITMAP_ENABLE(nec->valid.ptr, index);
NlaEvalChannelSnapshot *nec_snapshot = nlaeval_snapshot_ensure_channel(blend->snapshot, nec);
nec_snapshot->values[index] = nla_blend_value(blend->mode, nec_snapshot->values[index], value, blend->influence);
return true;
}
/* Blend the specified snapshots into the target, and free the input snapshots. */
static void nlaeval_snapshot_mix_and_free(NlaEvalData *nlaeval, NlaEvalSnapshot *out, NlaEvalSnapshot *in1, NlaEvalSnapshot *in2, float alpha)
{
BLI_assert(in1->base == out && in2->base == out);
nlaeval_snapshot_ensure_size(out, nlaeval->num_channels);
for (int i = 0; i < nlaeval->num_channels; i++) {
NlaEvalChannelSnapshot *c_in1 = nlaeval_snapshot_get(in1, i);
NlaEvalChannelSnapshot *c_in2 = nlaeval_snapshot_get(in2, i);
if (c_in1 || c_in2) {
NlaEvalChannelSnapshot *c_out = out->channels[i];
/* Steal the entry from one of the input snapshots. */
if (c_out == NULL) {
if (c_in1 != NULL) {
c_out = c_in1;
in1->channels[i] = NULL;
}
else {
c_out = c_in2;
in2->channels[i] = NULL;
}
}
if (c_in1 == NULL) {
c_in1 = nlaeval_snapshot_find_channel(in1->base, c_out->channel);
}
if (c_in2 == NULL) {
c_in2 = nlaeval_snapshot_find_channel(in2->base, c_out->channel);
}
out->channels[i] = c_out;
for (int j = 0; j < c_out->length; j++) {
c_out->values[j] = c_in1->values[j] * (1.0f - alpha) + c_in2->values[j] * alpha;
}
}
}
/* free temp-channels that haven't been assimilated into the buffer */
BLI_freelistN(tmp_buffer);
nlaeval_snapshot_free_data(in1);
nlaeval_snapshot_free_data(in2);
}
/* ---------------------- */
@ -2304,7 +2584,7 @@ static void nlaeval_fmodifiers_split_stacks(ListBase *list1, ListBase *list2)
/* ---------------------- */
/* evaluate action-clip strip */
static void nlastrip_evaluate_actionclip(PointerRNA *ptr, ListBase *channels, ListBase *modifiers, NlaEvalStrip *nes)
static void nlastrip_evaluate_actionclip(PointerRNA *ptr, NlaEvalData *channels, ListBase *modifiers, NlaEvalStrip *nes, NlaEvalSnapshot *snapshot)
{
FModifierStackStorage *storage;
ListBase tmp_modifiers = {NULL, NULL};
@ -2330,11 +2610,15 @@ static void nlastrip_evaluate_actionclip(PointerRNA *ptr, ListBase *channels, Li
storage = evaluate_fmodifiers_storage_new(&tmp_modifiers);
evaltime = evaluate_time_fmodifiers(storage, &tmp_modifiers, NULL, 0.0f, strip->strip_time);
NlaBlendData blend = {
.snapshot = snapshot,
.mode = strip->blendmode,
.influence = strip->influence,
};
/* evaluate all the F-Curves in the action, saving the relevant pointers to data that will need to be used */
for (fcu = strip->act->curves.first; fcu; fcu = fcu->next) {
NlaEvalChannel *nec;
float value = 0.0f;
bool newChan;
/* check if this curve should be skipped */
if (fcu->flag & (FCURVE_MUTED | FCURVE_DISABLED))
@ -2352,13 +2636,12 @@ static void nlastrip_evaluate_actionclip(PointerRNA *ptr, ListBase *channels, Li
*/
evaluate_value_fmodifiers(storage, &tmp_modifiers, fcu, &value, strip->strip_time);
/* get an NLA evaluation channel to work with, and accumulate the evaluated value with the value(s)
* stored in this channel if it has been used already
*/
nec = nlaevalchan_verify(ptr, channels, fcu, &newChan);
if (nec)
nlaevalchan_accumulate(nec, nes, value, newChan);
NlaEvalChannel *nec = nlaevalchan_verify(ptr, channels, fcu->rna_path);
nlaeval_blend_value(&blend, nec, fcu->array_index, value);
}
/* free temporary storage */
@ -2370,10 +2653,10 @@ static void nlastrip_evaluate_actionclip(PointerRNA *ptr, ListBase *channels, Li
/* evaluate transition strip */
static void nlastrip_evaluate_transition(
Depsgraph *depsgraph, PointerRNA *ptr, ListBase *channels, ListBase *modifiers, NlaEvalStrip *nes)
Depsgraph *depsgraph, PointerRNA *ptr, NlaEvalData *channels, ListBase *modifiers, NlaEvalStrip *nes, NlaEvalSnapshot *snapshot)
{
ListBase tmp_channels = {NULL, NULL};
ListBase tmp_modifiers = {NULL, NULL};
NlaEvalSnapshot snapshot1, snapshot2;
NlaEvalStrip tmp_nes;
NlaStrip *s1, *s2;
@ -2410,16 +2693,17 @@ static void nlastrip_evaluate_transition(
/* first strip */
tmp_nes.strip_mode = NES_TIME_TRANSITION_START;
tmp_nes.strip = s1;
nlastrip_evaluate(depsgraph, ptr, &tmp_channels, &tmp_modifiers, &tmp_nes);
nlaeval_snapshot_init(&snapshot1, channels, snapshot);
nlastrip_evaluate(depsgraph, ptr, channels, &tmp_modifiers, &tmp_nes, &snapshot1);
/* second strip */
tmp_nes.strip_mode = NES_TIME_TRANSITION_END;
tmp_nes.strip = s2;
nlastrip_evaluate(depsgraph, ptr, &tmp_channels, &tmp_modifiers, &tmp_nes);
nlaeval_snapshot_init(&snapshot2, channels, snapshot);
nlastrip_evaluate(depsgraph, ptr, channels, &tmp_modifiers, &tmp_nes, &snapshot2);
/* accumulate temp-buffer and full-buffer, using the 'real' strip */
nlaevalchan_buffers_accumulate(channels, &tmp_channels, nes);
nlaeval_snapshot_mix_and_free(channels, snapshot, &snapshot1, &snapshot2, nes->strip_time);
/* unlink this strip's modifiers from the parent's modifiers again */
nlaeval_fmodifiers_split_stacks(&nes->strip->modifiers, modifiers);
@ -2427,7 +2711,7 @@ static void nlastrip_evaluate_transition(
/* evaluate meta-strip */
static void nlastrip_evaluate_meta(
Depsgraph *depsgraph, PointerRNA *ptr, ListBase *channels, ListBase *modifiers, NlaEvalStrip *nes)
Depsgraph *depsgraph, PointerRNA *ptr, NlaEvalData *channels, ListBase *modifiers, NlaEvalStrip *nes, NlaEvalSnapshot *snapshot)
{
ListBase tmp_modifiers = {NULL, NULL};
NlaStrip *strip = nes->strip;
@ -2453,7 +2737,7 @@ static void nlastrip_evaluate_meta(
* - there's no need to use a temporary buffer (as it causes issues [T40082])
*/
if (tmp_nes) {
nlastrip_evaluate(depsgraph, ptr, channels, &tmp_modifiers, tmp_nes);
nlastrip_evaluate(depsgraph, ptr, channels, &tmp_modifiers, tmp_nes, snapshot);
/* free temp eval-strip */
MEM_freeN(tmp_nes);
@ -2464,7 +2748,7 @@ static void nlastrip_evaluate_meta(
}
/* evaluates the given evaluation strip */
void nlastrip_evaluate(Depsgraph *depsgraph, PointerRNA *ptr, ListBase *channels, ListBase *modifiers, NlaEvalStrip *nes)
void nlastrip_evaluate(Depsgraph *depsgraph, PointerRNA *ptr, NlaEvalData *channels, ListBase *modifiers, NlaEvalStrip *nes, NlaEvalSnapshot *snapshot)
{
NlaStrip *strip = nes->strip;
@ -2479,13 +2763,13 @@ void nlastrip_evaluate(Depsgraph *depsgraph, PointerRNA *ptr, ListBase *channels
/* actions to take depend on the type of strip */
switch (strip->type) {
case NLASTRIP_TYPE_CLIP: /* action-clip */
nlastrip_evaluate_actionclip(ptr, channels, modifiers, nes);
nlastrip_evaluate_actionclip(ptr, channels, modifiers, nes, snapshot);
break;
case NLASTRIP_TYPE_TRANSITION: /* transition */
nlastrip_evaluate_transition(depsgraph, ptr, channels, modifiers, nes);
nlastrip_evaluate_transition(depsgraph, ptr, channels, modifiers, nes, snapshot);
break;
case NLASTRIP_TYPE_META: /* meta */
nlastrip_evaluate_meta(depsgraph, ptr, channels, modifiers, nes);
nlastrip_evaluate_meta(depsgraph, ptr, channels, modifiers, nes, snapshot);
break;
default: /* do nothing */
@ -2497,10 +2781,8 @@ void nlastrip_evaluate(Depsgraph *depsgraph, PointerRNA *ptr, ListBase *channels
}
/* write the accumulated settings to */
void nladata_flush_channels(Depsgraph *depsgraph, PointerRNA *ptr, ListBase *channels)
void nladata_flush_channels(Depsgraph *depsgraph, PointerRNA *ptr, NlaEvalData *channels, NlaEvalSnapshot *snapshot)
{
NlaEvalChannel *nec;
/* sanity checks */
if (channels == NULL)
return;
@ -2508,23 +2790,109 @@ void nladata_flush_channels(Depsgraph *depsgraph, PointerRNA *ptr, ListBase *cha
const bool is_active_depsgraph = DEG_is_active(depsgraph);
/* for each channel with accumulated values, write its value on the property it affects */
for (nec = channels->first; nec; nec = nec->next) {
animsys_write_rna_setting(&nec->rna, nec->value);
if (is_active_depsgraph) {
animsys_write_orig_anim_rna(ptr, nec->rna_path, nec->rna.prop_index, nec->value);
for (NlaEvalChannel *nec = channels->channels.first; nec; nec = nec->next) {
NlaEvalChannelSnapshot *nec_snapshot = nlaeval_snapshot_find_channel(snapshot, nec);
PathResolvedRNA rna = { nec->key.ptr, nec->key.prop, -1 };
for (int i = 0; i < nec_snapshot->length; i++) {
if (BLI_BITMAP_TEST(nec->valid.ptr, i)) {
float value = nec_snapshot->values[i];
if (nec->is_array) {
rna.prop_index = i;
}
animsys_write_rna_setting(&rna, value);
if (is_active_depsgraph) {
animsys_write_orig_anim_rna(ptr, nec->rna_path, rna.prop_index, value);
}
}
}
}
}
/* ---------------------- */
static void nla_eval_domain_action(PointerRNA *ptr, NlaEvalData *channels, bAction *act, GSet *touched_actions)
{
if (!BLI_gset_add(touched_actions, act)) {
return;
}
for (FCurve *fcu = act->curves.first; fcu; fcu = fcu->next) {
/* check if this curve should be skipped */
if (fcu->flag & (FCURVE_MUTED | FCURVE_DISABLED))
continue;
if ((fcu->grp) && (fcu->grp->flag & AGRP_MUTED))
continue;
NlaEvalChannel *nec = nlaevalchan_verify(ptr, channels, fcu->rna_path);
if (nec != NULL) {
int idx = nlaevalchan_validate_index(nec, fcu->array_index);
if (idx >= 0) {
BLI_BITMAP_ENABLE(nec->valid.ptr, idx);
}
}
}
}
static void nla_eval_domain_strips(PointerRNA *ptr, NlaEvalData *channels, ListBase *strips, GSet *touched_actions)
{
for (NlaStrip *strip = strips->first; strip; strip = strip->next) {
/* check strip's action */
if (strip->act) {
nla_eval_domain_action(ptr, channels, strip->act, touched_actions);
}
/* check sub-strips (if metas) */
nla_eval_domain_strips(ptr, channels, &strip->strips, touched_actions);
}
}
/**
* Ensure that all channels touched by any of the actions in enabled tracks exist.
* This is necessary to ensure that evaluation result depends only on current frame.
*/
static void animsys_evaluate_nla_domain(PointerRNA *ptr, NlaEvalData *channels, AnimData *adt)
{
GSet *touched_actions = BLI_gset_ptr_new(__func__);
if (adt->action) {
nla_eval_domain_action(ptr, channels, adt->action, touched_actions);
}
/* NLA Data - Animation Data for Strips */
for (NlaTrack *nlt = adt->nla_tracks.first; nlt; nlt = nlt->next) {
/* solo and muting are mutually exclusive... */
if (adt->flag & ADT_NLA_SOLO_TRACK) {
/* skip if there is a solo track, but this isn't it */
if ((nlt->flag & NLATRACK_SOLO) == 0)
continue;
/* else - mute doesn't matter */
}
else {
/* no solo tracks - skip track if muted */
if (nlt->flag & NLATRACK_MUTED)
continue;
}
nla_eval_domain_strips(ptr, channels, &nlt->strips, touched_actions);
}
BLI_gset_free(touched_actions, NULL);
}
/* ---------------------- */
/**
* NLA Evaluation function - values are calculated and stored in temporary "NlaEvalChannels"
*
* \param[out] echannels Evaluation channels with calculated values
* \param[out] r_context If not NULL, data about the currently edited strip is stored here and excluded from value calculation.
* \return false if NLA evaluation isn't actually applicable
*/
static void animsys_evaluate_nla(Depsgraph *depsgraph, ListBase *echannels, PointerRNA *ptr, AnimData *adt, float ctime, NlaKeyframingContext *r_context)
static bool animsys_evaluate_nla(Depsgraph *depsgraph, NlaEvalData *echannels, PointerRNA *ptr, AnimData *adt, float ctime, NlaKeyframingContext *r_context)
{
NlaTrack *nlt;
short track_index = 0;
@ -2630,35 +2998,28 @@ static void animsys_evaluate_nla(Depsgraph *depsgraph, ListBase *echannels, Poin
/* These setting combinations require no data from strips below, so exit immediately. */
if ((nes == NULL) || (dummy_strip->blendmode == NLASTRIP_MODE_REPLACE && dummy_strip->influence == 1.0f)) {
BLI_freelistN(&estrips);
return;
return true;
}
}
}
else {
/* special case - evaluate as if there isn't any NLA data */
/* TODO: this is really just a stop-gap measure... */
if (G.debug & G_DEBUG) printf("NLA Eval: Stopgap for active action on NLA Stack - no strips case\n");
if (r_context == NULL) {
animsys_evaluate_action(depsgraph, ptr, adt->action, ctime);
}
BLI_freelistN(&estrips);
return;
return false;
}
}
/* only continue if there are strips to evaluate */
if (BLI_listbase_is_empty(&estrips))
return;
return true;
/* 2. for each strip, evaluate then accumulate on top of existing channels, but don't set values yet */
for (nes = estrips.first; nes; nes = nes->next)
nlastrip_evaluate(depsgraph, ptr, echannels, NULL, nes);
nlastrip_evaluate(depsgraph, ptr, echannels, NULL, nes, &echannels->eval_snapshot);
/* 3. free temporary evaluation data that's not used elsewhere */
BLI_freelistN(&estrips);
return true;
}
/* NLA Evaluation function (mostly for use through do_animdata)
@ -2667,19 +3028,28 @@ static void animsys_evaluate_nla(Depsgraph *depsgraph, ListBase *echannels, Poin
*/
static void animsys_calculate_nla(Depsgraph *depsgraph, PointerRNA *ptr, AnimData *adt, float ctime)
{
ListBase echannels = {NULL, NULL};
NlaEvalData echannels;
/* TODO: need to zero out all channels used, otherwise we have problems with threadsafety
* and also when the user jumps between different times instead of moving sequentially... */
nlaeval_init(&echannels);
/* evaluate the NLA stack, obtaining a set of values to flush */
animsys_evaluate_nla(depsgraph, &echannels, ptr, adt, ctime, NULL);
if (animsys_evaluate_nla(depsgraph, &echannels, ptr, adt, ctime, NULL)) {
/* reset any channels touched by currently inactive actions to default value */
animsys_evaluate_nla_domain(ptr, &echannels, adt);
/* flush effects of accumulating channels in NLA to the actual data they affect */
nladata_flush_channels(depsgraph, ptr, &echannels);
/* flush effects of accumulating channels in NLA to the actual data they affect */
nladata_flush_channels(depsgraph, ptr, &echannels, &echannels.eval_snapshot);
}
else {
/* special case - evaluate as if there isn't any NLA data */
/* TODO: this is really just a stop-gap measure... */
if (G.debug & G_DEBUG) printf("NLA Eval: Stopgap for active action on NLA Stack - no strips case\n");
animsys_evaluate_action(depsgraph, ptr, adt->action, ctime);
}
/* free temp data */
BLI_freelistN(&echannels);
nlaeval_free(&echannels);
}
/* ---------------------- */
@ -2713,6 +3083,7 @@ NlaKeyframingContext *BKE_animsys_get_nla_keyframing_context(
ctx = MEM_callocN(sizeof(*ctx), "NlaKeyframingContext");
ctx->adt = adt;
nlaeval_init(&ctx->nla_channels);
animsys_evaluate_nla(depsgraph, &ctx->nla_channels, ptr, adt, ctime, ctx);
BLI_assert(ELEM(ctx->strip.act, NULL, adt->action));
@ -2757,16 +3128,19 @@ bool BKE_animsys_nla_remap_keyframe_value(struct NlaKeyframingContext *context,
}
/* Find the evaluation channel for the NLA stack below current strip. */
PathResolvedRNA rna = { .ptr = *prop_ptr, .prop = prop, .prop_index = index };
NlaEvalChannel *nec = nlaevalchan_find_match(&context->nla_channels, &rna);
NlaEvalChannelKey key = { .ptr = *prop_ptr, .prop = prop };
NlaEvalData *nlaeval = &context->nla_channels;
NlaEvalChannel *nec = nlaevalchan_verify_key(nlaeval, NULL, &key);
int real_index = nlaevalchan_validate_index(nec, index);
/* Replace strips ignore influence when they are the first to modify this channel. */
if (nec == NULL && blend_mode == NLASTRIP_MODE_REPLACE) {
if (real_index < 0) {
return true;
}
/* Invert the effect of blending modes. */
float old_value = nec ? nec->value : nlaevalchan_init_value(&rna);
/* Invert the blending operation to compute the desired key value. */
NlaEvalChannelSnapshot *nec_snapshot = nlaeval_snapshot_find_channel(&nlaeval->eval_snapshot, nec);
float old_value = nec_snapshot->values[real_index];
return nla_invert_blend_value(blend_mode, old_value, *r_value, influence, r_value);
}
@ -2778,7 +3152,7 @@ void BKE_animsys_free_nla_keyframing_context_cache(struct ListBase *cache)
{
for (NlaKeyframingContext *ctx = cache->first; ctx; ctx = ctx->next) {
MEM_SAFE_FREE(ctx->eval_strip);
BLI_freelistN(&ctx->nla_channels);
nlaeval_free(&ctx->nla_channels);
}
BLI_freelistN(cache);

79
source/blender/blenkernel/nla_private.h
View File

@ -36,6 +36,8 @@
struct Depsgraph;
#include "RNA_types.h"
#include "BLI_bitmap.h"
#include "BLI_ghash.h"
/* --------------- NLA Evaluation DataTypes ----------------------- */
@ -64,21 +66,78 @@ enum eNlaEvalStrip_StripMode {
NES_TIME_TRANSITION_END,
};
struct NlaEvalChannel;
struct NlaEvalData;
/* temp channel for accumulating data from NLA (avoids needing to clear all values first) */
// TODO: maybe this will be used as the 'cache' stuff needed for editable values too?
/* Unique channel key for GHash. */
typedef struct NlaEvalChannelKey {
struct PointerRNA ptr;
struct PropertyRNA *prop;
} NlaEvalChannelKey;
/* Bitmask of array indices touched by actions. */
typedef struct NlaValidMask {
BLI_bitmap *ptr;
BLI_bitmap buffer[sizeof(uint64_t) / sizeof(BLI_bitmap)];
} NlaValidMask;
/* Set of property values for blending. */
typedef struct NlaEvalChannelSnapshot {
struct NlaEvalChannel *channel;
int length; /* Number of values in the property. */
bool is_base; /* Base snapshot of the channel. */
float values[]; /* Item values. */
/* Memory over-allocated to provide space for values. */
} NlaEvalChannelSnapshot;
/* Temp channel for accumulating data from NLA for a single property.
* Handles array properties as a unit to allow intelligent blending. */
typedef struct NlaEvalChannel {
struct NlaEvalChannel *next, *prev;
struct NlaEvalData *owner;
/* RNA reference to use with pointer and index */
PathResolvedRNA rna;
/* Original parameters used to look up the reference for write_orig_anim_rna */
/* Original RNA path string and property key. */
const char *rna_path;
NlaEvalChannelKey key;
float value; /* value of this channel */
int index;
bool is_array;
/* Mask of array items controlled by NLA. */
NlaValidMask valid;
/* Base set of values. */
NlaEvalChannelSnapshot base_snapshot;
/* Memory over-allocated to provide space for base_snapshot.values. */
} NlaEvalChannel;
/* Set of values for all channels. */
typedef struct NlaEvalSnapshot {
/* Snapshot this one defaults to. */
struct NlaEvalSnapshot *base;
int size;
NlaEvalChannelSnapshot **channels;
} NlaEvalSnapshot;
/* Set of all channels covered by NLA. */
typedef struct NlaEvalData {
ListBase channels;
/* Mapping of paths and NlaEvalChannelKeys to channels. */
GHash *path_hash;
GHash *key_hash;
/* Base snapshot. */
int num_channels;
NlaEvalSnapshot base_snapshot;
/* Evaluation result shapshot. */
NlaEvalSnapshot eval_snapshot;
} NlaEvalData;
/* Information about the currently edited strip and ones below it for keyframing. */
typedef struct NlaKeyframingContext {
struct NlaKeyframingContext *next, *prev;
@ -91,7 +150,7 @@ typedef struct NlaKeyframingContext {
NlaEvalStrip *eval_strip;
/* Evaluated NLA stack below the current strip. */
ListBase nla_channels;
NlaEvalData nla_channels;
} NlaKeyframingContext;
/* --------------- NLA Functions (not to be used as a proper API) ----------------------- */
@ -103,7 +162,7 @@ float nlastrip_get_frame(NlaStrip *strip, float cframe, short mode);
/* these functions are only defined here to avoid problems with the order in which they get defined... */
NlaEvalStrip *nlastrips_ctime_get_strip(struct Depsgraph *depsgraph, ListBase *list, ListBase *strips, short index, float ctime);
void nlastrip_evaluate(struct Depsgraph *depsgraph, PointerRNA *ptr, ListBase *channels, ListBase *modifiers, NlaEvalStrip *nes);
void nladata_flush_channels(struct Depsgraph *depsgraph, PointerRNA *ptr, ListBase *channels);
void nlastrip_evaluate(struct Depsgraph *depsgraph, PointerRNA *ptr, NlaEvalData *channels, ListBase *modifiers, NlaEvalStrip *nes, NlaEvalSnapshot *snapshot);
void nladata_flush_channels(struct Depsgraph *depsgraph, PointerRNA *ptr, NlaEvalData *channels, NlaEvalSnapshot *snapshot);
#endif /* __NLA_PRIVATE_H__ */