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c08151c6fa4dec57b57ca8150a87aad9615683ed
blender-archive/source/blender/nodes/intern/node_common.c
Jacques Lucke c08151c6fa Nodes: Support storing socket link limits in bNodeSocketType 
Currently the link limit of sockets is stored in bNodeSocket->limit.
This allows for a lot of flexibility, but is also very redundant.
In every case I've had to deal with so far, it would have "more correct"
to set the link limit per socket type and not per socket. I did not enforce
this constraint yet, because the link limit is exposed in the Python API,
which I did not want to break here.

In the future it might even make sense to only support only three kinds of link limits:
a) no links, b) at most one link, c) an arbitrary number links links. The other link
limits usually don't work well with tools (e.g. which link should be removed when a new
one is connected?) and is not used in practice. However, that is for another day.

Eventually, I would like to get rid of bNodeSocket->limit completely and replace it
either with fixed link limits or a callback in bNodeSocketType.

This patch consists of three parts:

**1. Support defining link limit in socket type**
This introduces a new `nodeSocketLinkLimit` function that serves as an indirection to
hide where the link limit of a socket is defined.

**2. Define link limits for builtin sockets on socket type**
Data sockets: one input, many outputs
Virtual sockets: one input, one output
Undefined sockets: many inputs, many outputs (to avoid that links are removed when the type of the socket is not known)

**3. Remove `bNodeSocketTemplate->limit`**
This wasn't used anymore after the second commit. Removing it simplifies socket definitions
in hundreds of places and removes a lot of redundancy.

Differential Revision: https://developer.blender.org/D7038

Reviewers: brecht
2020-03-06 12:33:04 +01:00

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/*
* 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.
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2007 Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup nodes
*/
#include <string.h>
#include <stddef.h>
#include "DNA_node_types.h"
#include "BLI_listbase.h"
#include "BLI_string.h"
#include "BLI_utildefines.h"
#include "BLT_translation.h"
#include "BKE_node.h"
#include "RNA_types.h"
#include "MEM_guardedalloc.h"
#include "node_common.h"
#include "node_util.h"
#include "NOD_common.h"
enum {
REFINE_FORWARD = 1 << 0,
REFINE_BACKWARD = 1 << 1,
};
/**** Group ****/
bNodeSocket *node_group_find_input_socket(bNode *groupnode, const char *identifier)
{
bNodeSocket *sock;
for (sock = groupnode->inputs.first; sock; sock = sock->next) {
if (STREQ(sock->identifier, identifier)) {
return sock;
}
}
return NULL;
}
bNodeSocket *node_group_find_output_socket(bNode *groupnode, const char *identifier)
{
bNodeSocket *sock;
for (sock = groupnode->outputs.first; sock; sock = sock->next) {
if (STREQ(sock->identifier, identifier)) {
return sock;
}
}
return NULL;
}
/* groups display their internal tree name as label */
void node_group_label(bNodeTree *UNUSED(ntree), bNode *node, char *label, int maxlen)
{
BLI_strncpy(label, (node->id) ? node->id->name + 2 : IFACE_("Missing Data-Block"), maxlen);
}
bool node_group_poll_instance(bNode *node, bNodeTree *nodetree)
{
if (node->typeinfo->poll(node->typeinfo, nodetree)) {
bNodeTree *grouptree = (bNodeTree *)node->id;
if (grouptree) {
return nodeGroupPoll(nodetree, grouptree);
}
else {
return true; /* without a linked node tree, group node is always ok */
}
}
else {
return false;
}
}
int nodeGroupPoll(bNodeTree *nodetree, bNodeTree *grouptree)
{
bNode *node;
int valid = 1;
/* unspecified node group, generally allowed
* (if anything, should be avoided on operator level)
*/
if (grouptree == NULL) {
return 1;
}
if (nodetree == grouptree) {
return 0;
}
for (node = grouptree->nodes.first; node; node = node->next) {
if (node->typeinfo->poll_instance && !node->typeinfo->poll_instance(node, nodetree)) {
valid = 0;
break;
}
}
return valid;
}
/* used for both group nodes and interface nodes */
static bNodeSocket *group_verify_socket(
bNodeTree *ntree, bNode *gnode, bNodeSocket *iosock, ListBase *verify_lb, int in_out)
{
bNodeSocket *sock;
for (sock = verify_lb->first; sock; sock = sock->next) {
if (STREQ(sock->identifier, iosock->identifier)) {
break;
}
}
if (sock) {
strcpy(sock->name, iosock->name);
if (iosock->typeinfo->interface_verify_socket) {
iosock->typeinfo->interface_verify_socket(ntree, iosock, gnode, sock, "interface");
}
}
else {
sock = nodeAddSocket(ntree, gnode, in_out, iosock->idname, iosock->identifier, iosock->name);
if (iosock->typeinfo->interface_init_socket) {
iosock->typeinfo->interface_init_socket(ntree, iosock, gnode, sock, "interface");
}
}
/* remove from list temporarily, to distinguish from orphaned sockets */
BLI_remlink(verify_lb, sock);
return sock;
}
/* used for both group nodes and interface nodes */
static void group_verify_socket_list(
bNodeTree *ntree, bNode *gnode, ListBase *iosock_lb, ListBase *verify_lb, int in_out)
{
bNodeSocket *iosock, *sock, *nextsock;
/* step by step compare */
iosock = iosock_lb->first;
for (; iosock; iosock = iosock->next) {
/* abusing new_sock pointer for verification here! only used inside this function */
iosock->new_sock = group_verify_socket(ntree, gnode, iosock, verify_lb, in_out);
}
/* leftovers are removed */
for (sock = verify_lb->first; sock; sock = nextsock) {
nextsock = sock->next;
nodeRemoveSocket(ntree, gnode, sock);
}
/* and we put back the verified sockets */
iosock = iosock_lb->first;
for (; iosock; iosock = iosock->next) {
if (iosock->new_sock) {
BLI_addtail(verify_lb, iosock->new_sock);
iosock->new_sock = NULL;
}
}
}
/* make sure all group node in ntree, which use ngroup, are sync'd */
void node_group_update(struct bNodeTree *ntree, struct bNode *node)
{
/* check inputs and outputs, and remove or insert them */
if (node->id == NULL) {
nodeRemoveAllSockets(ntree, node);
}
else {
bNodeTree *ngroup = (bNodeTree *)node->id;
group_verify_socket_list(ntree, node, &ngroup->inputs, &node->inputs, SOCK_IN);
group_verify_socket_list(ntree, node, &ngroup->outputs, &node->outputs, SOCK_OUT);
}
}
/**** FRAME ****/
static void node_frame_init(bNodeTree *UNUSED(ntree), bNode *node)
{
NodeFrame *data = (NodeFrame *)MEM_callocN(sizeof(NodeFrame), "frame node storage");
node->storage = data;
data->flag |= NODE_FRAME_SHRINK;
data->label_size = 20;
}
void register_node_type_frame(void)
{
/* frame type is used for all tree types, needs dynamic allocation */
bNodeType *ntype = MEM_callocN(sizeof(bNodeType), "frame node type");
ntype->free_self = (void (*)(bNodeType *))MEM_freeN;
node_type_base(ntype, NODE_FRAME, "Frame", NODE_CLASS_LAYOUT, NODE_BACKGROUND);
node_type_init(ntype, node_frame_init);
node_type_storage(ntype, "NodeFrame", node_free_standard_storage, node_copy_standard_storage);
node_type_size(ntype, 150, 100, 0);
nodeRegisterType(ntype);
}
/* **************** REROUTE ******************** */
/* simple, only a single input and output here */
static void node_reroute_update_internal_links(bNodeTree *ntree, bNode *node)
{
bNodeLink *link;
/* Security check! */
if (!ntree) {
return;
}
link = MEM_callocN(sizeof(bNodeLink), "internal node link");
link->fromnode = node;
link->fromsock = node->inputs.first;
link->tonode = node;
link->tosock = node->outputs.first;
/* internal link is always valid */
link->flag |= NODE_LINK_VALID;
BLI_addtail(&node->internal_links, link);
}
static void node_reroute_init(bNodeTree *ntree, bNode *node)
{
/* Note: Cannot use socket templates for this, since it would reset the socket type
* on each file read via the template verification procedure.
*/
nodeAddStaticSocket(ntree, node, SOCK_IN, SOCK_RGBA, PROP_NONE, "Input", "Input");
nodeAddStaticSocket(ntree, node, SOCK_OUT, SOCK_RGBA, PROP_NONE, "Output", "Output");
}
void register_node_type_reroute(void)
{
/* frame type is used for all tree types, needs dynamic allocation */
bNodeType *ntype = MEM_callocN(sizeof(bNodeType), "frame node type");
ntype->free_self = (void (*)(bNodeType *))MEM_freeN;
node_type_base(ntype, NODE_REROUTE, "Reroute", NODE_CLASS_LAYOUT, 0);
node_type_init(ntype, node_reroute_init);
node_type_internal_links(ntype, node_reroute_update_internal_links);
nodeRegisterType(ntype);
}
static void node_reroute_inherit_type_recursive(bNodeTree *ntree, bNode *node, int flag)
{
bNodeSocket *input = node->inputs.first;
bNodeSocket *output = node->outputs.first;
bNodeLink *link;
int type = SOCK_FLOAT;
const char *type_idname = nodeStaticSocketType(type, PROP_NONE);
/* XXX it would be a little bit more efficient to restrict actual updates
* to reroute nodes connected to an updated node, but there's no reliable flag
* to indicate updated nodes (node->update is not set on linking).
*/
node->done = 1;
/* recursive update */
for (link = ntree->links.first; link; link = link->next) {
bNode *fromnode = link->fromnode;
bNode *tonode = link->tonode;
if (!tonode || !fromnode) {
continue;
}
if (nodeLinkIsHidden(link)) {
continue;
}
if (flag & REFINE_FORWARD) {
if (tonode == node && fromnode->type == NODE_REROUTE && !fromnode->done) {
node_reroute_inherit_type_recursive(ntree, fromnode, REFINE_FORWARD);
}
}
if (flag & REFINE_BACKWARD) {
if (fromnode == node && tonode->type == NODE_REROUTE && !tonode->done) {
node_reroute_inherit_type_recursive(ntree, tonode, REFINE_BACKWARD);
}
}
}
/* determine socket type from unambiguous input/output connection if possible */
if (nodeSocketLinkLimit(input) == 1 && input->link) {
type = input->link->fromsock->type;
type_idname = nodeStaticSocketType(type, PROP_NONE);
}
else if (nodeSocketLinkLimit(output) == 1 && output->link) {
type = output->link->tosock->type;
type_idname = nodeStaticSocketType(type, PROP_NONE);
}
if (input->type != type) {
bNodeSocket *ninput = nodeAddSocket(ntree, node, SOCK_IN, type_idname, "input", "Input");
for (link = ntree->links.first; link; link = link->next) {
if (link->tosock == input) {
link->tosock = ninput;
ninput->link = link;
}
}
nodeRemoveSocket(ntree, node, input);
}
if (output->type != type) {
bNodeSocket *noutput = nodeAddSocket(ntree, node, SOCK_OUT, type_idname, "output", "Output");
for (link = ntree->links.first; link; link = link->next) {
if (link->fromsock == output) {
link->fromsock = noutput;
}
}
nodeRemoveSocket(ntree, node, output);
}
nodeUpdateInternalLinks(ntree, node);
}
/* Global update function for Reroute node types.
* This depends on connected nodes, so must be done as a tree-wide update.
*/
void ntree_update_reroute_nodes(bNodeTree *ntree)
{
bNode *node;
/* clear tags */
for (node = ntree->nodes.first; node; node = node->next) {
node->done = 0;
}
for (node = ntree->nodes.first; node; node = node->next) {
if (node->type == NODE_REROUTE && !node->done) {
node_reroute_inherit_type_recursive(ntree, node, REFINE_FORWARD | REFINE_BACKWARD);
}
}
}
static bool node_is_connected_to_output_recursive(bNodeTree *ntree, bNode *node)
{
bNodeLink *link;
/* avoid redundant checks, and infinite loops in case of cyclic node links */
if (node->done) {
return false;
}
node->done = 1;
/* main test, done before child loop so it catches output nodes themselves as well */
if (node->typeinfo->nclass == NODE_CLASS_OUTPUT && node->flag & NODE_DO_OUTPUT) {
return true;
}
/* test all connected nodes, first positive find is sufficient to return true */
for (link = ntree->links.first; link; link = link->next) {
if (link->fromnode == node) {
if (node_is_connected_to_output_recursive(ntree, link->tonode)) {
return true;
}
}
}
return false;
}
bool BKE_node_is_connected_to_output(bNodeTree *ntree, bNode *node)
{
bNode *tnode;
/* clear flags */
for (tnode = ntree->nodes.first; tnode; tnode = tnode->next) {
tnode->done = 0;
}
return node_is_connected_to_output_recursive(ntree, node);
}
void BKE_node_tree_unlink_id(ID *id, struct bNodeTree *ntree)
{
bNode *node;
for (node = ntree->nodes.first; node; node = node->next) {
if (node->id == id) {
node->id = NULL;
}
}
}
/**** GROUP_INPUT / GROUP_OUTPUT ****/
static void node_group_input_init(bNodeTree *ntree, bNode *node)
{
node_group_input_update(ntree, node);
}
bNodeSocket *node_group_input_find_socket(bNode *node, const char *identifier)
{
bNodeSocket *sock;
for (sock = node->outputs.first; sock; sock = sock->next) {
if (STREQ(sock->identifier, identifier)) {
return sock;
}
}
return NULL;
}
void node_group_input_update(bNodeTree *ntree, bNode *node)
{
bNodeSocket *extsock = node->outputs.last;
bNodeLink *link, *linknext, *exposelink;
/* Adding a tree socket and verifying will remove the extension socket!
* This list caches the existing links from the extension socket
* so they can be recreated after verification.
*/
ListBase tmplinks;
/* find links from the extension socket and store them */
BLI_listbase_clear(&tmplinks);
for (link = ntree->links.first; link; link = linknext) {
linknext = link->next;
if (nodeLinkIsHidden(link)) {
continue;
}
if (link->fromsock == extsock) {
bNodeLink *tlink = MEM_callocN(sizeof(bNodeLink), "temporary link");
*tlink = *link;
BLI_addtail(&tmplinks, tlink);
nodeRemLink(ntree, link);
}
}
/* find valid link to expose */
exposelink = NULL;
for (link = tmplinks.first; link; link = link->next) {
/* XXX Multiple sockets can be connected to the extension socket at once,
* in that case the arbitrary first link determines name and type.
* This could be improved by choosing the "best" type among all links,
* whatever that means.
*/
if (link->tosock->type != SOCK_CUSTOM) {
exposelink = link;
break;
}
}
if (exposelink) {
bNodeSocket *gsock, *newsock;
gsock = ntreeAddSocketInterfaceFromSocket(ntree, exposelink->tonode, exposelink->tosock);
node_group_input_update(ntree, node);
newsock = node_group_input_find_socket(node, gsock->identifier);
/* redirect links from the extension socket */
for (link = tmplinks.first; link; link = link->next) {
nodeAddLink(ntree, node, newsock, link->tonode, link->tosock);
}
}
BLI_freelistN(&tmplinks);
/* check inputs and outputs, and remove or insert them */
{
/* value_in_out inverted for interface nodes to get correct socket value_property */
group_verify_socket_list(ntree, node, &ntree->inputs, &node->outputs, SOCK_OUT);
/* add virtual extension socket */
nodeAddSocket(ntree, node, SOCK_OUT, "NodeSocketVirtual", "__extend__", "");
}
}
void register_node_type_group_input(void)
{
/* used for all tree types, needs dynamic allocation */
bNodeType *ntype = MEM_callocN(sizeof(bNodeType), "node type");
ntype->free_self = (void (*)(bNodeType *))MEM_freeN;
node_type_base(ntype, NODE_GROUP_INPUT, "Group Input", NODE_CLASS_INTERFACE, 0);
node_type_size(ntype, 140, 80, 400);
node_type_init(ntype, node_group_input_init);
node_type_update(ntype, node_group_input_update);
nodeRegisterType(ntype);
}
static void node_group_output_init(bNodeTree *ntree, bNode *node)
{
node_group_output_update(ntree, node);
}
bNodeSocket *node_group_output_find_socket(bNode *node, const char *identifier)
{
bNodeSocket *sock;
for (sock = node->inputs.first; sock; sock = sock->next) {
if (STREQ(sock->identifier, identifier)) {
return sock;
}
}
return NULL;
}
void node_group_output_update(bNodeTree *ntree, bNode *node)
{
bNodeSocket *extsock = node->inputs.last;
bNodeLink *link, *linknext, *exposelink;
/* Adding a tree socket and verifying will remove the extension socket!
* This list caches the existing links to the extension socket
* so they can be recreated after verification.
*/
ListBase tmplinks;
/* find links to the extension socket and store them */
BLI_listbase_clear(&tmplinks);
for (link = ntree->links.first; link; link = linknext) {
linknext = link->next;
if (nodeLinkIsHidden(link)) {
continue;
}
if (link->tosock == extsock) {
bNodeLink *tlink = MEM_callocN(sizeof(bNodeLink), "temporary link");
*tlink = *link;
BLI_addtail(&tmplinks, tlink);
nodeRemLink(ntree, link);
}
}
/* find valid link to expose */
exposelink = NULL;
for (link = tmplinks.first; link; link = link->next) {
/* XXX Multiple sockets can be connected to the extension socket at once,
* in that case the arbitrary first link determines name and type.
* This could be improved by choosing the "best" type among all links,
* whatever that means.
*/
if (link->fromsock->type != SOCK_CUSTOM) {
exposelink = link;
break;
}
}
if (exposelink) {
bNodeSocket *gsock, *newsock;
/* XXX what if connecting virtual to virtual socket?? */
gsock = ntreeAddSocketInterfaceFromSocket(ntree, exposelink->fromnode, exposelink->fromsock);
node_group_output_update(ntree, node);
newsock = node_group_output_find_socket(node, gsock->identifier);
/* redirect links to the extension socket */
for (link = tmplinks.first; link; link = link->next) {
nodeAddLink(ntree, link->fromnode, link->fromsock, node, newsock);
}
}
BLI_freelistN(&tmplinks);
/* check inputs and outputs, and remove or insert them */
{
/* value_in_out inverted for interface nodes to get correct socket value_property */
group_verify_socket_list(ntree, node, &ntree->outputs, &node->inputs, SOCK_IN);
/* add virtual extension socket */
nodeAddSocket(ntree, node, SOCK_IN, "NodeSocketVirtual", "__extend__", "");
}
}
void register_node_type_group_output(void)
{
/* used for all tree types, needs dynamic allocation */
bNodeType *ntype = MEM_callocN(sizeof(bNodeType), "node type");
ntype->free_self = (void (*)(bNodeType *))MEM_freeN;
node_type_base(ntype, NODE_GROUP_OUTPUT, "Group Output", NODE_CLASS_INTERFACE, 0);
node_type_size(ntype, 140, 80, 400);
node_type_init(ntype, node_group_output_init);
node_type_update(ntype, node_group_output_update);
nodeRegisterType(ntype);
}
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