GF_Err BE_FieldReplace(GF_BifsEncoder *codec, GF_Command *com, GF_BitStream *bs)
{
GF_Err e;
u32 ind, NumBits;
GF_FieldInfo field;
GF_CommandField *inf;
if (!gf_list_count(com->command_fields)) return GF_OK;
inf = (GF_CommandField *)gf_list_get(com->command_fields, 0);
GF_BIFS_WRITE_INT(codec, bs, gf_node_get_id(com->node) - 1, codec->info->config.NodeIDBits, "NodeID", NULL);
NumBits = gf_get_bit_size(gf_node_get_num_fields_in_mode(com->node, GF_SG_FIELD_CODING_IN)-1);
gf_bifs_field_index_by_mode(com->node, inf->fieldIndex, GF_SG_FIELD_CODING_IN, &ind);
GF_BIFS_WRITE_INT(codec, bs, ind, NumBits, "field", NULL);
e = gf_node_get_field(com->node, inf->fieldIndex, &field);
if (e) return e;
field.far_ptr = inf->field_ptr;
/* Warning: To be changed when proper solution is found */
if (gf_sg_vrml_get_sf_type(field.fieldType) == GF_SG_VRML_SFSCRIPT) codec->is_encoding_command = 1;
e = gf_bifs_enc_field(codec, bs, com->node, &field);
codec->is_encoding_command = 0;
return e;
}
static GF_Err BE_MultipleReplace(GF_BifsEncoder * codec, GF_Command *com, GF_BitStream *bs)
{
u32 i, j, nbBits, count, numFields, allField;
Bool use_list;
GF_FieldInfo field;
GF_Err e;
gf_bs_write_int(bs, gf_node_get_id(com->node)-1, codec->info->config.NodeIDBits);
count = gf_list_count(com->command_fields);
use_list = 1;
numFields = gf_node_get_num_fields_in_mode(com->node, GF_SG_FIELD_CODING_DEF);
nbBits = gf_get_bit_size(numFields - 1);
if (count < 1+count*(1+nbBits)) use_list = 0;
GF_BIFS_WRITE_INT(codec, bs, use_list ? 0 : 1, 1, "isMask", NULL);
for (i=0; i<numFields; i++) {
GF_CommandField *inf = NULL;
gf_bifs_get_field_index(com->node, i, GF_SG_FIELD_CODING_DEF, &allField);
for (j=0; j<count; j++) {
inf = (GF_CommandField *)gf_list_get(com->command_fields, j);
if (inf->fieldIndex==allField) break;
inf = NULL;
}
if (!inf) {
if (!use_list) GF_BIFS_WRITE_INT(codec, bs, 0, 1, "Mask", NULL);
continue;
}
/*common case*/
gf_node_get_field(com->node, inf->fieldIndex, &field);
if (use_list) {
/*not end flag*/
GF_BIFS_WRITE_INT(codec, bs, 0, 1, "end", NULL);
} else {
/*mask flag*/
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "Mask", NULL);
}
if (use_list) GF_BIFS_WRITE_INT(codec, bs, i, nbBits, "field", (char*)field.name);
field.far_ptr = inf->field_ptr;
e = gf_bifs_enc_field(codec, bs, com->node, &field);
if (e) return e;
}
/*end flag*/
if (use_list) GF_BIFS_WRITE_INT(codec, bs, 1, 1, "end", NULL);
return GF_OK;
}
static GF_Err BE_MultipleIndexedReplace(GF_BifsEncoder * codec, GF_Command *com, GF_BitStream *bs)
{
u32 i,nbBits, count, maxPos, nbBitsPos;
GF_FieldInfo field;
GF_Err e;
GF_CommandField *inf;
if (!gf_list_count(com->command_fields)) return GF_OK;
inf = (GF_CommandField *)gf_list_get(com->command_fields, 0);
gf_bs_write_int(bs, gf_node_get_id(com->node)-1, codec->info->config.NodeIDBits);
nbBits = gf_get_bit_size(gf_node_get_num_fields_in_mode(com->node, GF_SG_FIELD_CODING_IN)-1);
gf_bifs_field_index_by_mode(com->node, inf->fieldIndex, GF_SG_FIELD_CODING_IN, &i);
GF_BIFS_WRITE_INT(codec, bs, i, nbBits, "field", NULL);
gf_node_get_field(com->node, inf->fieldIndex, &field);
field.fieldType = inf->fieldType;
count = gf_list_count(com->command_fields);
maxPos = 0;
for (i=0; i<count; i++) {
inf = (GF_CommandField *)gf_list_get(com->command_fields, i);
if (maxPos < (u32) inf->pos) maxPos = inf->pos;
}
nbBitsPos = gf_get_bit_size(maxPos);
GF_BIFS_WRITE_INT(codec, bs, nbBitsPos, 5, "nbBitsPos", NULL);
nbBits = gf_get_bit_size(count);
GF_BIFS_WRITE_INT(codec, bs, nbBits, 5, "nbBits", NULL);
GF_BIFS_WRITE_INT(codec, bs, count, nbBits, "count", NULL);
for (i=0; i<count; i++) {
inf = (GF_CommandField *)gf_list_get(com->command_fields, i);
GF_BIFS_WRITE_INT(codec, bs, inf->pos, nbBitsPos, "idx", NULL);
field.far_ptr = inf->field_ptr;
e = gf_bifs_enc_field(codec, bs, com->node, &field);
if (e) return e;
}
return GF_OK;
}
GF_Err EncNodeFields(GF_BifsEncoder * codec, GF_BitStream *bs, GF_Node *node)
{
u8 mode;
GF_Route *isedField;
GF_Node *clone;
GF_Err e;
s32 *enc_fields;
u32 numBitsALL, numBitsDEF, allInd, count, i, nbBitsProto, nbFinal;
Bool use_list, nodeIsFDP = GF_FALSE;
GF_FieldInfo field, clone_field;
e = GF_OK;
if (codec->encoding_proto) {
mode = GF_SG_FIELD_CODING_ALL;
nbBitsProto = gf_get_bit_size(gf_sg_proto_get_field_count(codec->encoding_proto) - 1);
numBitsALL = gf_get_bit_size(gf_node_get_num_fields_in_mode(node, GF_SG_FIELD_CODING_ALL) - 1);
} else {
mode = GF_SG_FIELD_CODING_DEF;
nbBitsProto = 0;
numBitsALL = 0;
}
count = gf_node_get_num_fields_in_mode(node, mode);
if (node->sgprivate->tag==TAG_MPEG4_Script) count = 3;
if (!count) {
GF_BIFS_WRITE_INT(codec, bs, 0, 1, "isMask", NULL);
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "end", NULL);
return GF_OK;
}
if (node->sgprivate->tag == TAG_ProtoNode) {
clone = gf_sg_proto_create_instance(node->sgprivate->scenegraph, ((GF_ProtoInstance *)node)->proto_interface);;
} else {
clone = gf_node_new(node->sgprivate->scenegraph, node->sgprivate->tag);
}
if (clone) gf_node_register(clone, NULL);
numBitsDEF = gf_get_bit_size(gf_node_get_num_fields_in_mode(node, GF_SG_FIELD_CODING_DEF) - 1);
enc_fields = (s32*)gf_malloc(sizeof(s32) * count);
nbFinal = 0;
for (i=0; i<count; i++) {
enc_fields[i] = -1;
/*get field in ALL mode*/
if (mode == GF_SG_FIELD_CODING_ALL) {
allInd = i;
} else {
gf_bifs_get_field_index(node, i, GF_SG_FIELD_CODING_DEF, &allInd);
}
/*encode proto code*/
if (codec->encoding_proto) {
isedField = gf_bifs_enc_is_field_ised(codec, node, allInd);
if (isedField) {
enc_fields[i] = allInd;
nbFinal ++;
continue;
}
}
/*common case*/
gf_node_get_field(node, allInd, &field);
/*if event don't encode (happens when encoding protos)*/
if ((field.eventType == GF_SG_EVENT_IN) || (field.eventType == GF_SG_EVENT_OUT)) continue;
/*if field is default skip*/
switch (field.fieldType) {
case GF_SG_VRML_SFNODE:
if (* (GF_Node **) field.far_ptr) {
enc_fields[i] = allInd;
nbFinal++;
}
break;
case GF_SG_VRML_MFNODE:
if (* (GF_ChildNodeItem **) field.far_ptr) {
enc_fields[i] = allInd;
nbFinal++;
}
break;
case GF_SG_VRML_SFCOMMANDBUFFER:
{
SFCommandBuffer *cb = (SFCommandBuffer *)field.far_ptr;
if (gf_list_count(cb->commandList)) {
enc_fields[i] = allInd;
nbFinal++;
}
}
break;
case GF_SG_VRML_MFSCRIPT:
enc_fields[i] = allInd;
nbFinal++;
break;
default:
gf_node_get_field(clone, allInd, &clone_field);
if (!gf_sg_vrml_field_equal(clone_field.far_ptr, field.far_ptr, field.fieldType)) {
enc_fields[i] = allInd;
nbFinal++;
}
break;
}
}
if (clone) gf_node_unregister(clone, NULL);
use_list = GF_TRUE;
/* patch for FDP node : */
/* cannot use default field sorting due to spec "mistake", so use list to imply inversion between field 2 and field 3 of FDP*/
if (node->sgprivate->tag == TAG_MPEG4_FDP) {
s32 s4SwapValue = enc_fields[2];
enc_fields[2] = enc_fields[3];
enc_fields[3] = s4SwapValue;
nodeIsFDP = GF_TRUE;
use_list = GF_TRUE;
}
/*number of bits in mask node is count*1, in list node is 1+nbFinal*(1+numBitsDEF) */
else if (count < 1+nbFinal*(1+numBitsDEF))
use_list = GF_FALSE;
GF_BIFS_WRITE_INT(codec, bs, use_list ? 0 : 1, 1, "isMask", NULL);
for (i=0; i<count; i++) {
if (enc_fields[i] == -1) {
if (!use_list) GF_BIFS_WRITE_INT(codec, bs, 0, 1, "Mask", NULL);
continue;
}
allInd = (u32) enc_fields[i];
/*encode proto code*/
if (codec->encoding_proto) {
isedField = gf_bifs_enc_is_field_ised(codec, node, allInd);
if (isedField) {
if (use_list) {
GF_BIFS_WRITE_INT(codec, bs, 0, 1, "end", NULL);
} else {
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "Mask", NULL);
}
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "isedField", NULL);
if (use_list) GF_BIFS_WRITE_INT(codec, bs, allInd, numBitsALL, "nodeField", NULL);
if (isedField->ToNode == node) {
GF_BIFS_WRITE_INT(codec, bs, isedField->FromField.fieldIndex, nbBitsProto, "protoField", NULL);
} else {
GF_BIFS_WRITE_INT(codec, bs, isedField->ToField.fieldIndex, nbBitsProto, "protoField", NULL);
}
continue;
}
}
/*common case*/
gf_node_get_field(node, allInd, &field);
if (use_list) {
/*not end flag*/
GF_BIFS_WRITE_INT(codec, bs, 0, 1, "end", NULL);
} else {
/*mask flag*/
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "Mask", NULL);
}
/*not ISed field*/
if (codec->encoding_proto) GF_BIFS_WRITE_INT(codec, bs, 0, 1, "isedField", NULL);
if (use_list) {
if (codec->encoding_proto || nodeIsFDP) {
u32 ind=0;
/*for proto, we're in ALL mode and we need DEF mode*/
/*for FDP, encoding requires to get def id from all id as fields 2 and 3 are reversed*/
gf_bifs_field_index_by_mode(node, allInd, GF_SG_FIELD_CODING_DEF, &ind);
GF_BIFS_WRITE_INT(codec, bs, ind, numBitsDEF, "field", (char*)field.name);
} else {
GF_BIFS_WRITE_INT(codec, bs, i, numBitsDEF, "field", (char*)field.name);
}
}
e = gf_bifs_enc_field(codec, bs, node, &field);
if (e) goto exit;
}
/*end flag*/
if (use_list) GF_BIFS_WRITE_INT(codec, bs, 1, 1, "end", NULL);
exit:
gf_free(enc_fields);
return e;
}
static GF_Err EncScriptFields(ScriptEnc *sc_enc)
{
u32 nbFields, nbBits, eType, nbBitsProto, i;
Bool use_list;
GF_Err e;
GF_FieldInfo info;
nbFields = gf_node_get_num_fields_in_mode(sc_enc->script, GF_SG_FIELD_CODING_ALL) - 3;
use_list = 1;
nbBits = gf_get_bit_size(nbFields);
if (nbFields+1 > 4 + gf_get_bit_size(nbFields)) use_list = 0;
if (!nbFields) {
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, 1, 1, "Script::isList", NULL);
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, 1, 1, "end", NULL);
return GF_OK;
}
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, use_list ? 1 : 0, 1, "Script::isList", NULL);
if (!use_list) {
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, nbBits, 4, "nbBits", NULL);
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, nbFields, nbBits, "count", NULL);
}
nbBitsProto = 0;
if (sc_enc->codec->encoding_proto) nbBitsProto = gf_get_bit_size(gf_sg_proto_get_field_count(sc_enc->codec->encoding_proto) - 1);
for (i=0; i<nbFields; i++) {
if (use_list) GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, 0, 1, "end", NULL);
gf_node_get_field(sc_enc->script, i+3, &info);
switch (info.eventType) {
case GF_SG_EVENT_IN:
eType = GF_SG_SCRIPT_TYPE_EVENT_IN;
break;
case GF_SG_EVENT_OUT:
eType = GF_SG_SCRIPT_TYPE_EVENT_OUT;
break;
default:
eType = GF_SG_SCRIPT_TYPE_FIELD;
break;
}
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, eType, 2, "eventType", NULL);
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, info.fieldType, 6, "fieldType", NULL);
gf_bifs_enc_name(sc_enc->codec, sc_enc->bs, (char *) info.name);
/*this is an identifier for script*/
gf_list_add(sc_enc->identifiers, gf_strdup(info.name));
if (sc_enc->codec->encoding_proto) {
GF_Route *isedField = gf_bifs_enc_is_field_ised(sc_enc->codec, sc_enc->script, i+3);
if (isedField) {
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, 1, 1, "isedField", NULL);
if (isedField->ToNode == sc_enc->script) {
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, isedField->FromField.fieldIndex, nbBitsProto, "protoField", NULL);
} else {
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, isedField->ToField.fieldIndex, nbBitsProto, "protoField", NULL);
}
continue;
}
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, 0, 1, "isedField", NULL);
}
/*default value*/
if (eType == GF_SG_SCRIPT_TYPE_FIELD) {
GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, (info.far_ptr) ? 1 : 0, 1, "hasInitialValue", NULL);
if (info.far_ptr) {
e = gf_bifs_enc_field(sc_enc->codec, sc_enc->bs, sc_enc->script, &info);
if (e) return e;
}
}
}
if (use_list) GF_BIFS_WRITE_INT(sc_enc->codec, sc_enc->bs, 1, 1, "end", NULL);
return GF_OK;
}
static GF_Err BE_XReplace(GF_BifsEncoder * codec, GF_Command *com, GF_BitStream *bs)
{
u32 i,nbBits;
GF_FieldInfo field;
GF_Err e;
GF_CommandField *inf;
if (!gf_list_count(com->command_fields)) return GF_BAD_PARAM;
inf = (GF_CommandField *)gf_list_get(com->command_fields, 0);
gf_bs_write_int(bs, gf_node_get_id(com->node)-1, codec->info->config.NodeIDBits);
nbBits = gf_get_bit_size(gf_node_get_num_fields_in_mode(com->node, GF_SG_FIELD_CODING_IN)-1);
gf_bifs_field_index_by_mode(com->node, inf->fieldIndex, GF_SG_FIELD_CODING_IN, &i);
GF_BIFS_WRITE_INT(codec, bs, i, nbBits, "field", NULL);
gf_node_get_field(com->node, inf->fieldIndex, &field);
if (!gf_sg_vrml_is_sf_field(field.fieldType)) {
if ((inf->pos != -2) || com->toNodeID) {
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "indexedReplacement", NULL);
if (com->toNodeID) {
GF_Node *n = gf_bifs_enc_find_node(codec, com->toNodeID);
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "dynamicIndex", NULL);
GF_BIFS_WRITE_INT(codec, bs, com->toNodeID-1, codec->info->config.NodeIDBits, "idxNodeID", NULL);
nbBits = gf_get_bit_size(gf_node_get_num_fields_in_mode(n, GF_SG_FIELD_CODING_DEF)-1);
gf_bifs_field_index_by_mode(n, com->toFieldIndex, GF_SG_FIELD_CODING_DEF, &i);
GF_BIFS_WRITE_INT(codec, bs, i, nbBits, "idxField", NULL);
} else {
GF_BIFS_WRITE_INT(codec, bs, 0, 1, "dynamicIndex", NULL);
if (inf->pos==-1) {
GF_BIFS_WRITE_INT(codec, bs, 3, 2, "replacementPosition", NULL);
} else if (inf->pos==0) {
GF_BIFS_WRITE_INT(codec, bs, 2, 2, "replacementPosition", NULL);
} else {
GF_BIFS_WRITE_INT(codec, bs, 0, 2, "replacementPosition", NULL);
GF_BIFS_WRITE_INT(codec, bs, inf->pos, 16, "position", NULL);
}
}
} else {
GF_BIFS_WRITE_INT(codec, bs, 0, 1, "indexedReplacement", NULL);
}
}
if (field.fieldType==GF_SG_VRML_MFNODE) {
if (com->ChildNodeTag) {
GF_Node *n;
if (com->ChildNodeTag>0) {
n = gf_node_new(codec->scene_graph, com->ChildNodeTag);
} else {
GF_Proto *proto = gf_sg_find_proto(codec->scene_graph, -com->ChildNodeTag , NULL);
if (!proto) return GF_SG_UNKNOWN_NODE;
n = gf_sg_proto_create_instance(codec->scene_graph, proto);
}
if (!n) return GF_SG_UNKNOWN_NODE;
gf_node_register(n, NULL);
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "childField", NULL);
nbBits = gf_get_bit_size(gf_node_get_num_fields_in_mode(n, GF_SG_FIELD_CODING_IN)-1);
gf_bifs_field_index_by_mode(n, com->child_field, GF_SG_FIELD_CODING_IN, &i);
GF_BIFS_WRITE_INT(codec, bs, i, nbBits, "childField", NULL);
gf_node_unregister(n, NULL);
} else {
GF_BIFS_WRITE_INT(codec, bs, 0, 1, "childField", NULL);
}
}
if (com->fromNodeID) {
GF_Node *n = gf_bifs_enc_find_node(codec, com->fromNodeID);
GF_BIFS_WRITE_INT(codec, bs, 1, 1, "valueFromNode", NULL);
GF_BIFS_WRITE_INT(codec, bs, com->fromNodeID-1, codec->info->config.NodeIDBits, "sourceNodeID", NULL);
nbBits = gf_get_bit_size(gf_node_get_num_fields_in_mode(n, GF_SG_FIELD_CODING_DEF)-1);
gf_bifs_field_index_by_mode(n, com->fromFieldIndex, GF_SG_FIELD_CODING_DEF, &i);
GF_BIFS_WRITE_INT(codec, bs, i, nbBits, "sourceField", NULL);
return GF_OK;
}
GF_BIFS_WRITE_INT(codec, bs, 0, 1, "valueFromNode", NULL);
field.far_ptr = inf->field_ptr;
field.fieldType = inf->fieldType;
e = gf_bifs_enc_field(codec, bs, com->node, &field);
return e;
}
