GF_Node *gf_xml_node_clone(GF_SceneGraph *inScene, GF_Node *orig, GF_Node *cloned_parent, char *inst_id, Bool deep) { GF_DOMAttribute *att; GF_Node *clone = gf_node_new(inScene, orig->sgprivate->tag); if (!clone) return NULL; if (orig->sgprivate->tag == TAG_DOMText) { GF_DOMText *n_src,*n_dst; n_src = (GF_DOMText *)orig; n_dst = (GF_DOMText *)clone; n_dst->type = n_src->type; n_dst->textContent = gf_strdup(n_src->textContent); } else { if (orig->sgprivate->tag == TAG_DOMFullNode) { GF_DOMFullNode *n_src,*n_dst; n_src = (GF_DOMFullNode *)orig; n_dst = (GF_DOMFullNode *)clone; n_dst->ns = n_src->ns; n_dst->name = gf_strdup(n_dst->name); } att = ((GF_DOMNode *)orig)->attributes; while (att) { GF_FieldInfo dst, src; /*create by name*/ if (att->tag==TAG_DOM_ATT_any) { gf_node_get_attribute_by_name(clone, ((GF_DOMFullAttribute*)att)->name, 0, 1, 0, &dst); } else { gf_node_get_attribute_by_tag(clone, att->tag, 1, 0, &dst); } src.far_ptr = att->data; src.fieldType = att->data_type; src.fieldIndex = att->tag; gf_svg_attributes_copy(&dst, &src, 0); if (att->tag==TAG_XLINK_ATT_href) { XMLRI *iri = (XMLRI *)att->data; if (iri->target == gf_node_get_parent(orig, 0)) { ((XMLRI *)dst.far_ptr)->target = cloned_parent; } else { ((XMLRI *)dst.far_ptr)->target = NULL; } } att = att->next; } } if (cloned_parent) { gf_node_list_add_child( & ((GF_ParentNode*)cloned_parent)->children, clone); gf_node_register(clone, cloned_parent); /*TO CLARIFY: can we init the node right now or should we wait for insertion in the scene tree ?*/ gf_node_init(clone); } if (deep) { GF_ChildNodeItem *child = ((GF_ParentNode *)orig)->children; while (child) { gf_node_clone(inScene, child->node, clone, inst_id, 1); child = child->next; } } return clone; }
static GF_Node *add_transform2d(SVG2BIFS_Converter *converter, GF_Node *node) { M_Transform2D *tr = (M_Transform2D*)gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register((GF_Node *)tr, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, (GF_Node *)tr); return (GF_Node *)tr; }
void VTT_load_script(VTTDec *vttdec, GF_SceneGraph *graph) { GF_Node *n, *root; GF_FieldInfo info; const char *path; FILE *jsfile; if (!graph) return; gf_sg_add_namespace(graph, "http://www.w3.org/2000/svg", NULL); gf_sg_add_namespace(graph, "http://www.w3.org/1999/xlink", "xlink"); gf_sg_add_namespace(graph, "http://www.w3.org/2001/xml-events", "ev"); gf_sg_set_scene_size_info(graph, 800, 600, GF_TRUE); /* modify the scene with an Inline/Animation pointing to the VTT Renderer */ n = root = gf_node_new(graph, TAG_SVG_svg); gf_node_register(root, NULL); gf_sg_set_root_node(graph, root); gf_node_get_attribute_by_name(n, "xmlns", 0, GF_TRUE, GF_FALSE, &info); gf_svg_parse_attribute(n, &info, "http://www.w3.org/2000/svg", 0); VTT_UpdateSizeInfo(vttdec); gf_node_init(n); n = gf_node_new(graph, TAG_SVG_script); gf_node_register(n, root); gf_node_list_add_child(&((GF_ParentNode *)root)->children, n); path = gf_modules_get_option((GF_BaseInterface *)vttdec->module, "WebVTT", "RenderingScript"); if (!path) { /* try to find the JS renderer in the default GPAC installation folder */ const char *startuppath = gf_modules_get_option((GF_BaseInterface *)vttdec->module, "General", "StartupFile"); path = gf_url_concatenate(startuppath, "webvtt-renderer.js"); jsfile = gf_fopen(path, "rt"); if (jsfile) { gf_modules_set_option((GF_BaseInterface *)vttdec->module, "WebVTT", "RenderingScript", path); gf_fclose(jsfile); } else { GF_LOG(GF_LOG_ERROR, GF_LOG_CODEC, ("[WebVTT] Cannot find Rendering Script [WebVTT:RenderingScript] - check config file\n")); return; } } jsfile = gf_fopen(path, "rt"); if (jsfile) { gf_fclose(jsfile); gf_node_get_attribute_by_tag(n, TAG_XLINK_ATT_href, GF_TRUE, GF_FALSE, &info); if (strstr(path, ":\\")) { gf_svg_parse_attribute(n, &info, (char *) path, 0); } else { char szPath[GF_MAX_PATH]; strcpy(szPath, "file://"); strcat(szPath, path); gf_svg_parse_attribute(n, &info, (char *) szPath, 0); } vttdec->has_rendering_script = GF_TRUE; } else { GF_LOG(GF_LOG_ERROR, GF_LOG_CODEC, ("[WebVTT] Cannot open Rendering Script - %s\n", path)); return; } gf_node_init(n); }
//adds a child in the children list GF_Err gf_node_insert_child(GF_Node *parent, GF_Node *new_child, s32 Position) { GF_ParentNode *node = (GF_ParentNode *) parent; if (Position == -1) { gf_node_list_add_child(& node->children, new_child); } else { gf_node_list_insert_child(& node->children, new_child, Position); } return GF_OK; }
static GFINLINE GF_Node *create_node(GF_OSD *osd, u32 tag, GF_Node *par) { GF_Node *n = gf_node_new(osd->odm->subscene->graph, tag); if (n) { gf_node_init(n); if (par) { gf_node_list_add_child( & ((GF_ParentNode *)par)->children, n); gf_node_register(n, par); } } return n; }
static GF_Node *add_transform_matrix(SVG2BIFS_Converter *converter, GF_Node *node) { M_TransformMatrix2D *tr = (M_TransformMatrix2D*)gf_node_new(converter->bifs_sg, TAG_MPEG4_TransformMatrix2D); gf_node_register((GF_Node *)tr, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, (GF_Node *)tr); if (converter->all_atts.transform) { SVG_Transform *svg_tr = converter->all_atts.transform; tr->mxx = svg_tr->mat.m[0]; tr->mxy = svg_tr->mat.m[1]; tr->tx = svg_tr->mat.m[2]; tr->myx = svg_tr->mat.m[3]; tr->myy = svg_tr->mat.m[4]; tr->ty = svg_tr->mat.m[5]; } return (GF_Node *)tr; }
// MakeChild -- Sets the first node as a child of the second using the given field void V4SceneManager::MakeChild(GF_Node * child, GF_Node * parent, const u32 fieldIndex) { // get the field where we have to add the new child GF_FieldInfo field; gf_node_get_field(parent, fieldIndex, &field); // keeps the count of uses up to date gf_node_register(child, parent); // if the field is single valued if (field.fieldType == GF_SG_VRML_SFNODE) { *((GF_Node **) field.far_ptr) = child; } // if the field is multi valued if (field.fieldType == GF_SG_VRML_MFNODE) gf_node_list_add_child((GF_ChildNodeItem **)field.far_ptr, child ); }
/*import cubic QTVR to mp4*/ GF_Err gf_sm_load_init_qt(GF_SceneLoader *load) { u32 i, di, w, h, tk, nb_samp; Bool has_qtvr; GF_ISOSample *samp; GF_ISOFile *src; GF_StreamContext *st; GF_AUContext *au; GF_Command *com; M_Background *back; M_NavigationInfo *ni; M_Group *gr; GF_ODUpdate *odU; GF_SceneGraph *sg; GF_ObjectDescriptor *od; GF_ESD *esd; if (!load->ctx) return GF_NOT_SUPPORTED; src = gf_isom_open(load->fileName, GF_ISOM_OPEN_READ, NULL); if (!src) return gf_qt_report(load, GF_URL_ERROR, "Opening file %s failed", load->fileName); w = h = tk = 0; nb_samp = 0; has_qtvr = 0; for (i=0; i<gf_isom_get_track_count(src); i++) { switch (gf_isom_get_media_type(src, i+1)) { case GF_ISOM_MEDIA_VISUAL: if (gf_isom_get_media_subtype(src, i+1, 1) == GF_4CC('j', 'p', 'e', 'g')) { GF_GenericSampleDescription *udesc = gf_isom_get_generic_sample_description(src, i+1, 1); if ((udesc->width>w) || (udesc->height>h)) { w = udesc->width; h = udesc->height; tk = i+1; nb_samp = gf_isom_get_sample_count(src, i+1); } if (udesc->extension_buf) gf_free(udesc->extension_buf); gf_free(udesc); } break; case GF_4CC('q','t','v','r'): has_qtvr = 1; break; } } if (!has_qtvr) { gf_isom_delete(src); return gf_qt_report(load, GF_NOT_SUPPORTED, "QTVR not found - no conversion available for this QuickTime movie"); } if (!tk) { gf_isom_delete(src); return gf_qt_report(load, GF_NON_COMPLIANT_BITSTREAM, "No associated visual track with QTVR movie"); } if (nb_samp!=6) { gf_isom_delete(src); return gf_qt_report(load, GF_NOT_SUPPORTED, "Movie %s doesn't look a Cubic QTVR - sorry...", load->fileName); } GF_LOG(GF_LOG_INFO, GF_LOG_PARSER, ("QT: Importing Cubic QTVR Movie")); /*create scene*/ sg = load->ctx->scene_graph; gr = (M_Group *) gf_node_new(sg, TAG_MPEG4_Group); gf_node_register((GF_Node *)gr, NULL); st = gf_sm_stream_new(load->ctx, 1, GF_STREAM_SCENE, 1); au = gf_sm_stream_au_new(st, 0, 0, 1); com = gf_sg_command_new(load->ctx->scene_graph, GF_SG_SCENE_REPLACE); gf_list_add(au->commands, com); com->node = (GF_Node *)gr; back = (M_Background *) gf_node_new(sg, TAG_MPEG4_Background); gf_node_list_add_child( &gr->children, (GF_Node*)back); gf_node_register((GF_Node *)back, (GF_Node *)gr); gf_sg_vrml_mf_alloc(&back->leftUrl, GF_SG_VRML_MFURL, 1); back->leftUrl.vals[0].OD_ID = 2; gf_sg_vrml_mf_alloc(&back->frontUrl, GF_SG_VRML_MFURL, 1); back->frontUrl.vals[0].OD_ID = 3; gf_sg_vrml_mf_alloc(&back->rightUrl, GF_SG_VRML_MFURL, 1); back->rightUrl.vals[0].OD_ID = 4; gf_sg_vrml_mf_alloc(&back->backUrl, GF_SG_VRML_MFURL, 1); back->backUrl.vals[0].OD_ID = 5; gf_sg_vrml_mf_alloc(&back->topUrl, GF_SG_VRML_MFURL, 1); back->topUrl.vals[0].OD_ID = 6; gf_sg_vrml_mf_alloc(&back->bottomUrl, GF_SG_VRML_MFURL, 1); back->bottomUrl.vals[0].OD_ID = 7; ni = (M_NavigationInfo *) gf_node_new(sg, TAG_MPEG4_NavigationInfo); gf_node_list_add_child(&gr->children, (GF_Node*)ni); gf_node_register((GF_Node *)ni, (GF_Node *)gr); gf_sg_vrml_mf_reset(&ni->type, GF_SG_VRML_MFSTRING); gf_sg_vrml_mf_alloc(&ni->type, GF_SG_VRML_MFSTRING, 1); ni->type.vals[0] = gf_strdup("QTVR"); /*create ODs*/ st = gf_sm_stream_new(load->ctx, 2, GF_STREAM_OD, 1); au = gf_sm_stream_au_new(st, 0, 0, 1); odU = (GF_ODUpdate*) gf_odf_com_new(GF_ODF_OD_UPDATE_TAG); gf_list_add(au->commands, odU); for (i=0; i<6; i++) { GF_MuxInfo *mi; FILE *img; char szName[1024]; od = (GF_ObjectDescriptor *) gf_odf_desc_new(GF_ODF_OD_TAG); od->objectDescriptorID = 2+i; esd = gf_odf_desc_esd_new(2); esd->decoderConfig->streamType = GF_STREAM_VISUAL; esd->decoderConfig->objectTypeIndication = GPAC_OTI_IMAGE_JPEG; esd->ESID = 3+i; /*extract image and remember it*/ mi = (GF_MuxInfo *) gf_odf_desc_new(GF_ODF_MUXINFO_TAG); gf_list_add(esd->extensionDescriptors, mi); mi->delete_file = 1; sprintf(szName, "%s_img%d.jpg", load->fileName, esd->ESID); mi->file_name = gf_strdup(szName); gf_list_add(od->ESDescriptors, esd); gf_list_add(odU->objectDescriptors, od); samp = gf_isom_get_sample(src, tk, i+1, &di); img = gf_f64_open(mi->file_name, "wb"); fwrite(samp->data, samp->dataLength, 1, img); fclose(img); gf_isom_sample_del(&samp); } gf_isom_delete(src); return GF_OK; }
GF_Node *CloneNodeForEditing(GF_SceneGraph *inScene, GF_Node *orig) //, GF_Node *cloned_parent) { u32 i, j, count; GF_Node *node, *child, *tmp; GF_ChildNodeItem *list, *list2; GF_FieldInfo field_orig, field; /*this is not a mistake*/ if (!orig) return NULL; /*check for DEF/USE if (orig->sgprivate->NodeID) { node = gf_sg_find_node(inScene, orig->sgprivate->NodeID); //node already created, USE if (node) { gf_node_register(node, cloned_parent); return node; } } */ /*create a node*/ /* if (orig->sgprivate->tag == TAG_MPEG4_ProtoNode) { proto_node = ((GF_ProtoInstance *)orig)->proto_interface; //create the instance but don't load the code -c we MUST wait for ISed routes to be cloned before node = gf_sg_proto_create_node(inScene, proto_node, (GF_ProtoInstance *) orig); } else { */ node = gf_node_new(inScene, gf_node_get_tag(orig)); // } count = gf_node_get_field_count(orig); /*copy each field*/ for (i=0; i<count; i++) { gf_node_get_field(orig, i, &field_orig); /*get target ptr*/ gf_node_get_field(node, i, &field); assert(field.eventType==field_orig.eventType); assert(field.fieldType==field_orig.fieldType); /*duplicate it*/ switch (field.fieldType) { case GF_SG_VRML_SFNODE: child = CloneNodeForEditing(inScene, (GF_Node *) (* ((GF_Node **) field_orig.far_ptr)));//, node); *((GF_Node **) field.far_ptr) = child; break; case GF_SG_VRML_MFNODE: list = *( (GF_ChildNodeItem **) field_orig.far_ptr); list2 = *( (GF_ChildNodeItem **) field.far_ptr); for (j=0; j<gf_node_list_get_count(list); j++) { tmp = (GF_Node *)gf_node_list_get_child(list, j); child = CloneNodeForEditing(inScene, tmp);//, node); gf_node_list_add_child(&list2, child); } break; default: gf_sg_vrml_field_copy(field.far_ptr, field_orig.far_ptr, field.fieldType); break; } } /*register node if (orig->sgprivate->NodeID) { Node_SetID(node, orig->sgprivate->NodeID); gf_node_register(node, cloned_parent); }*/ /*init node before creating ISed routes so the eventIn handler are in place*/ if (gf_node_get_tag(node) != TAG_ProtoNode) gf_node_init(node); return node; }
GF_EXPORT GF_Err gf_sg_command_apply(GF_SceneGraph *graph, GF_Command *com, Double time_offset) { GF_Err e; GF_CommandField *inf; GF_FieldInfo field; GF_Node *def, *node; void *slot_ptr; if (!com || !graph) return GF_BAD_PARAM; e = GF_OK; switch (com->tag) { case GF_SG_SCENE_REPLACE: /*unregister root*/ gf_node_unregister(graph->RootNode, NULL); /*remove all protos and routes*/ while (gf_list_count(graph->routes_to_activate)) gf_list_rem(graph->routes_to_activate, 0); /*destroy all routes*/ while (gf_list_count(graph->Routes)) { GF_Route *r = (GF_Route *)gf_list_get(graph->Routes, 0); /*this will unregister the route from the graph, so don't delete the chain entry*/ gf_sg_route_del(r); } /*destroy all proto*/ while (gf_list_count(graph->protos)) { GF_Proto *p = (GF_Proto*)gf_list_get(graph->protos, 0); /*this will unregister the proto from the graph, so don't delete the chain entry*/ gf_sg_proto_del(p); } /*DO NOT TOUCH node registry*/ /*DO NOT TOUCH UNREGISTERED PROTOS*/ /*move all protos in graph*/ while (gf_list_count(com->new_proto_list)) { GF_Proto *p = (GF_Proto*)gf_list_get(com->new_proto_list, 0); gf_list_rem(com->new_proto_list, 0); gf_list_del_item(graph->unregistered_protos, p); gf_list_add(graph->protos, p); } /*assign new root (no need to register/unregister)*/ graph->RootNode = com->node; com->node = NULL; break; case GF_SG_NODE_REPLACE: if (!gf_list_count(com->command_fields)) return GF_OK; inf = (GF_CommandField*)gf_list_get(com->command_fields, 0); e = gf_node_replace(com->node, inf->new_node, 0); if (inf->new_node) gf_node_register(inf->new_node, NULL); break; case GF_SG_MULTIPLE_REPLACE: case GF_SG_FIELD_REPLACE: { u32 j; GF_ChildNodeItem *list, *cur, *prev; j=0; while ((inf = (GF_CommandField*)gf_list_enum(com->command_fields, &j))) { e = gf_node_get_field(com->node, inf->fieldIndex, &field); if (e) return e; switch (field.fieldType) { case GF_SG_VRML_SFNODE: { node = *((GF_Node **) field.far_ptr); e = gf_node_unregister(node, com->node); *((GF_Node **) field.far_ptr) = inf->new_node; if (!e) gf_node_register(inf->new_node, com->node); break; } case GF_SG_VRML_MFNODE: gf_node_unregister_children(com->node, * ((GF_ChildNodeItem **) field.far_ptr)); * ((GF_ChildNodeItem **) field.far_ptr) = NULL; list = * ((GF_ChildNodeItem **) inf->field_ptr); prev=NULL; while (list) { cur = malloc(sizeof(GF_ChildNodeItem)); cur->next = NULL; cur->node = list->node; if (prev) { prev->next = cur; } else { * ((GF_ChildNodeItem **) field.far_ptr) = cur; } gf_node_register(list->node, com->node); prev = cur; list = list->next; } break; default: /*this is a regular field, reset it and clone - we cannot switch pointers since the original fields are NOT pointers*/ if (!gf_sg_vrml_is_sf_field(field.fieldType)) { e = gf_sg_vrml_mf_reset(field.far_ptr, field.fieldType); } if (e) return e; gf_sg_vrml_field_copy(field.far_ptr, inf->field_ptr, field.fieldType); if (field.fieldType==GF_SG_VRML_SFTIME) *(SFTime *)field.far_ptr = *(SFTime *)field.far_ptr + time_offset; break; } SG_CheckFieldChange(com->node, &field); } break; } case GF_SG_MULTIPLE_INDEXED_REPLACE: case GF_SG_INDEXED_REPLACE: { u32 sftype, i=0; while ((inf = (GF_CommandField*)gf_list_enum(com->command_fields, &i))) { e = gf_node_get_field(com->node, inf->fieldIndex, &field); if (e) return e; /*if MFNode remove the child and set new node*/ if (field.fieldType == GF_SG_VRML_MFNODE) { /*we must remove the node before in case the new node uses the same ID (not forbidden) and this command removes the last instance of the node with the same ID*/ gf_node_replace_child(com->node, (GF_ChildNodeItem**) field.far_ptr, inf->pos, inf->new_node); if (inf->new_node) gf_node_register(inf->new_node, NULL); } /*erase the field item*/ else { if ((inf->pos < 0) || ((u32) inf->pos >= ((GenMFField *) field.far_ptr)->count) ) { inf->pos = ((GenMFField *)field.far_ptr)->count - 1; /*may happen with text and default value*/ if (inf->pos < 0) { inf->pos = 0; gf_sg_vrml_mf_alloc(field.far_ptr, field.fieldType, 1); } } e = gf_sg_vrml_mf_get_item(field.far_ptr, field.fieldType, & slot_ptr, inf->pos); if (e) return e; sftype = gf_sg_vrml_get_sf_type(field.fieldType); gf_sg_vrml_field_copy(slot_ptr, inf->field_ptr, sftype); /*note we don't add time offset, since there's no MFTime*/ } SG_CheckFieldChange(com->node, &field); } break; } case GF_SG_ROUTE_REPLACE: { GF_Route *r; char *name; r = gf_sg_route_find(graph, com->RouteID); def = gf_sg_find_node(graph, com->fromNodeID); node = gf_sg_find_node(graph, com->toNodeID); if (!node || !def) return GF_SG_UNKNOWN_NODE; name = NULL; if (r) { name = r->name; r->name = NULL; gf_sg_route_del(r); } r = gf_sg_route_new(graph, def, com->fromFieldIndex, node, com->toFieldIndex); gf_sg_route_set_id(r, com->RouteID); if (name) { gf_sg_route_set_name(r, name); free(name); } break; } case GF_SG_NODE_DELETE_EX: case GF_SG_NODE_DELETE: { if (com->node) gf_node_replace(com->node, NULL, (com->tag==GF_SG_NODE_DELETE_EX) ? 1 : 0); break; } case GF_SG_ROUTE_DELETE: { return gf_sg_route_del_by_id(graph, com->RouteID); } case GF_SG_INDEXED_DELETE: { if (!gf_list_count(com->command_fields)) return GF_OK; inf = (GF_CommandField*)gf_list_get(com->command_fields, 0); e = gf_node_get_field(com->node, inf->fieldIndex, &field); if (e) return e; if (gf_sg_vrml_is_sf_field(field.fieldType)) return GF_NON_COMPLIANT_BITSTREAM; /*then we need special handling in case of a node*/ if (gf_sg_vrml_get_sf_type(field.fieldType) == GF_SG_VRML_SFNODE) { e = gf_node_replace_child(com->node, (GF_ChildNodeItem **) field.far_ptr, inf->pos, NULL); } else { if ((inf->pos < 0) || ((u32) inf->pos >= ((GenMFField *) field.far_ptr)->count) ) { inf->pos = ((GenMFField *)field.far_ptr)->count - 1; } /*this is a regular MFField, just remove the item (realloc)*/ e = gf_sg_vrml_mf_remove(field.far_ptr, field.fieldType, inf->pos); } /*deletion -> node has changed*/ if (!e) SG_CheckFieldChange(com->node, &field); break; } case GF_SG_NODE_INSERT: { if (!gf_list_count(com->command_fields)) return GF_OK; inf = (GF_CommandField*)gf_list_get(com->command_fields, 0); e = gf_node_insert_child(com->node, inf->new_node, inf->pos); if (!e) gf_node_register(inf->new_node, com->node); if (!e) gf_node_event_out(com->node, inf->fieldIndex); if (!e) gf_node_changed(com->node, NULL); break; } case GF_SG_ROUTE_INSERT: { GF_Route *r; def = gf_sg_find_node(graph, com->fromNodeID); node = gf_sg_find_node(graph, com->toNodeID); if (!node || !def) return GF_SG_UNKNOWN_NODE; r = gf_sg_route_new(graph, def, com->fromFieldIndex, node, com->toFieldIndex); if (com->RouteID) gf_sg_route_set_id(r, com->RouteID); if (com->def_name) { gf_sg_route_set_name(r, com->def_name); free(com->def_name); com->def_name = NULL; } break; } case GF_SG_INDEXED_INSERT: { u32 sftype; if (!gf_list_count(com->command_fields)) return GF_OK; inf = (GF_CommandField*)gf_list_get(com->command_fields, 0); e = gf_node_get_field(com->node, inf->fieldIndex, &field); if (e) return e; /*rescale the MFField and parse the SFField*/ if (field.fieldType != GF_SG_VRML_MFNODE) { if (inf->pos == -1) { e = gf_sg_vrml_mf_append(field.far_ptr, field.fieldType, & slot_ptr); } else { e = gf_sg_vrml_mf_insert(field.far_ptr, field.fieldType, & slot_ptr, inf->pos); } if (e) return e; sftype = gf_sg_vrml_get_sf_type(field.fieldType); gf_sg_vrml_field_copy(slot_ptr, inf->field_ptr, sftype); } else { if (inf->new_node) { if (inf->pos == -1) { gf_node_list_add_child( (GF_ChildNodeItem **) field.far_ptr, inf->new_node); } else { gf_node_list_insert_child((GF_ChildNodeItem **) field.far_ptr, inf->new_node, inf->pos); } gf_node_register(inf->new_node, com->node); } } if (!e) SG_CheckFieldChange(com->node, &field); break; } case GF_SG_PROTO_INSERT: /*destroy all proto*/ while (gf_list_count(com->new_proto_list)) { GF_Proto *p = (GF_Proto*)gf_list_get(com->new_proto_list, 0); gf_list_rem(com->new_proto_list, 0); gf_list_del_item(graph->unregistered_protos, p); gf_list_add(graph->protos, p); } return GF_OK; case GF_SG_PROTO_DELETE: { u32 i; for (i=0; i<com->del_proto_list_size; i++) { /*note this will check for unregistered protos, but since IDs are unique we are sure we will not destroy an unregistered one*/ GF_Proto *proto = gf_sg_find_proto(graph, com->del_proto_list[i], NULL); if (proto) gf_sg_proto_del(proto); } } return GF_OK; case GF_SG_PROTO_DELETE_ALL: /*destroy all proto*/ while (gf_list_count(graph->protos)) { GF_Proto *p = (GF_Proto*)gf_list_get(graph->protos, 0); gf_list_rem(graph->protos, 0); /*this will unregister the proto from the graph, so don't delete the chain entry*/ gf_sg_proto_del(p); } /*DO NOT TOUCH UNREGISTERED PROTOS*/ return GF_OK; /*only used by BIFS*/ case GF_SG_GLOBAL_QUANTIZER: return GF_OK; #ifndef GPAC_DISABLE_SVG /*laser commands*/ case GF_SG_LSR_NEW_SCENE: /*DO NOT TOUCH node registry*/ /*assign new root (no need to register/unregister)*/ graph->RootNode = com->node; com->node = NULL; break; case GF_SG_LSR_DELETE: if (!com->node) return GF_NON_COMPLIANT_BITSTREAM; if (!gf_list_count(com->command_fields)) { gf_node_replace(com->node, NULL, 0); gf_node_deactivate(com->node); return GF_OK; } inf = (GF_CommandField*)gf_list_get(com->command_fields, 0); node = gf_node_list_get_child(((SVG_Element *)com->node)->children, inf->pos); if (node) { e = gf_node_replace_child(com->node, &((SVG_Element *)com->node)->children, inf->pos, NULL); gf_node_deactivate(node); } break; case GF_SG_LSR_INSERT: inf = (GF_CommandField*)gf_list_get(com->command_fields, 0); if (!com->node || !inf) return GF_NON_COMPLIANT_BITSTREAM; if (inf->new_node) { if (inf->pos<0) gf_node_list_add_child(& ((SVG_Element *)com->node)->children, inf->new_node); else gf_node_list_insert_child(& ((SVG_Element *)com->node)->children, inf->new_node, inf->pos); gf_node_register(inf->new_node, com->node); gf_node_activate(inf->new_node); gf_node_changed(com->node, NULL); } else { /*NOT SUPPORTED*/ GF_LOG(GF_LOG_ERROR, GF_LOG_CODEC, ("[LASeR] VALUE INSERTION NOT SUPPORTED\n")); } break; case GF_SG_LSR_ADD: case GF_SG_LSR_REPLACE: inf = (GF_CommandField*)gf_list_get(com->command_fields, 0); if (!com->node || !inf) return GF_NON_COMPLIANT_BITSTREAM; if (inf->new_node) { if (inf->pos<0) { /*if fieldIndex (eg attributeName) is set, this is children replacement*/ if (inf->fieldIndex>0) { gf_node_unregister_children_deactivate(com->node, ((SVG_Element *)com->node)->children); ((SVG_Element *)com->node)->children = NULL; gf_node_list_add_child(& ((SVG_Element *)com->node)->children, inf->new_node); gf_node_register(inf->new_node, com->node); gf_node_activate(inf->new_node); } else { e = gf_node_replace(com->node, inf->new_node, 0); gf_node_activate(inf->new_node); } } else { node = gf_node_list_get_child( ((SVG_Element *)com->node)->children, inf->pos); gf_node_replace_child(com->node, & ((SVG_Element *)com->node)->children, inf->pos, inf->new_node); gf_node_register(inf->new_node, com->node); if (node) gf_node_deactivate(node); gf_node_activate(inf->new_node); } /*signal node modif*/ gf_node_changed(com->node, NULL); return e; } else if (inf->node_list) { GF_ChildNodeItem *child, *cur, *prev; gf_node_unregister_children_deactivate(com->node, ((SVG_Element *)com->node)->children); ((SVG_Element *)com->node)->children = NULL; prev = NULL; child = inf->node_list; while (child) { cur = (GF_ChildNodeItem*)malloc(sizeof(GF_ChildNodeItem)); cur->next = NULL; cur->node = child->node; gf_node_register(child->node, com->node); gf_node_activate(child->node); if (prev) prev->next = cur; else ((SVG_Element *)com->node)->children = cur; prev = cur; child = child->next; } /*signal node modif*/ gf_node_changed(com->node, NULL); return GF_OK; } /*attribute modif*/ else if (inf->field_ptr) { GF_FieldInfo a, b; if (inf->fieldIndex==(u32) -2) { GF_Point2D scale, translate; Fixed rotate; GF_Matrix2D *dest; gf_node_get_field_by_name(com->node, "transform", &a); dest = (GF_Matrix2D*)a.far_ptr; if (com->tag==GF_SG_LSR_REPLACE) { if (gf_mx2d_decompose(dest, &scale, &rotate, &translate)) { gf_mx2d_init(*dest); if (inf->fieldType==SVG_TRANSFORM_SCALE) scale = *(GF_Point2D *)inf->field_ptr; else if (inf->fieldType==SVG_TRANSFORM_TRANSLATE) translate = *(GF_Point2D *)inf->field_ptr; else if (inf->fieldType==SVG_TRANSFORM_ROTATE) rotate = ((SVG_Point_Angle*)inf->field_ptr)->angle; gf_mx2d_add_scale(dest, scale.x, scale.y); gf_mx2d_add_rotation(dest, 0, 0, rotate); gf_mx2d_add_translation(dest, translate.x, translate.y); } } else { GF_Point2D *pt = (GF_Point2D *)inf->field_ptr; if (inf->fieldType==SVG_TRANSFORM_SCALE) gf_mx2d_add_scale(dest, pt->x, pt->y); else if (inf->fieldType==SVG_TRANSFORM_TRANSLATE) gf_mx2d_add_translation(dest, pt->x, pt->y); else if (inf->fieldType == SVG_TRANSFORM_ROTATE) gf_mx2d_add_rotation(dest, 0, 0, ((SVG_Point_Angle*)inf->field_ptr)->angle); } } else { if ((inf->fieldIndex==(u32) -1) && (inf->fieldType==SVG_String_datatype)) { char *str = *(SVG_String*)inf->field_ptr; if (com->tag == GF_SG_LSR_REPLACE) { GF_DOMText *t = ((SVG_Element*)com->node)->children ? (GF_DOMText*) ((SVG_Element*)com->node)->children->node :NULL; if (t && (t->sgprivate->tag==TAG_DOMText)) { if (t->textContent) free(t->textContent); t->textContent = NULL; if (str) t->textContent = strdup(str); } } else { if (str) gf_dom_add_text_node(com->node, strdup(str)); } } else if ((inf->fieldIndex==TAG_LSR_ATT_scale) || (inf->fieldIndex==TAG_LSR_ATT_translation) || (inf->fieldIndex==TAG_LSR_ATT_rotation) ) { SVG_Transform *mx; gf_svg_get_attribute_by_tag(com->node, TAG_SVG_ATT_transform, 1, 0, &a); mx = a.far_ptr; if (com->tag == GF_SG_LSR_REPLACE) { GF_Point2D scale, translate; SVG_Point_Angle rotate; if (gf_mx2d_decompose(&mx->mat, &scale, &rotate.angle, &translate)) { gf_mx2d_init(mx->mat); if (inf->fieldIndex==TAG_LSR_ATT_scale) scale = *(GF_Point2D *)inf->field_ptr; else if (inf->fieldIndex==TAG_LSR_ATT_translation) translate = *(GF_Point2D *)inf->field_ptr; else if (inf->fieldIndex==TAG_LSR_ATT_rotation) rotate = *(SVG_Point_Angle*)inf->field_ptr; gf_mx2d_add_scale(&mx->mat, scale.x, scale.y); gf_mx2d_add_rotation(&mx->mat, 0, 0, rotate.angle); gf_mx2d_add_translation(&mx->mat, translate.x, translate.y); } } else { if (inf->fieldIndex==TAG_LSR_ATT_scale) gf_mx2d_add_scale(&mx->mat, ((GF_Point2D*)inf->field_ptr)->x, ((GF_Point2D*)inf->field_ptr)->y); if (inf->fieldIndex==TAG_LSR_ATT_translation) gf_mx2d_add_translation(&mx->mat, ((GF_Point2D*)inf->field_ptr)->x, ((GF_Point2D*)inf->field_ptr)->y); if (inf->fieldIndex==TAG_LSR_ATT_rotation) gf_mx2d_add_rotation(&mx->mat, 0, 0, ((SVG_Point_Angle*)inf->field_ptr)->angle); } } else if (gf_svg_get_attribute_by_tag(com->node, inf->fieldIndex, 1, 0, &a) == GF_OK) { b = a; b.far_ptr = inf->field_ptr; if (com->tag == GF_SG_LSR_REPLACE) { gf_svg_attributes_copy(&a, &b, 0); } else { gf_svg_attributes_add(&a, &b, &a, 0); } } b = a; b.far_ptr = inf->field_ptr; } /*signal node modif*/ gf_node_changed(com->node, &a); } else if (com->fromNodeID) { GF_FieldInfo a, b; GF_Node *fromNode = gf_sg_find_node(graph, com->fromNodeID); if (!fromNode) return GF_NON_COMPLIANT_BITSTREAM; if (gf_node_get_field(fromNode, com->fromFieldIndex, &b) != GF_OK) return GF_NON_COMPLIANT_BITSTREAM; if ((inf->fieldIndex==(u32) -1) && (inf->fieldType==SVG_String_datatype)) { char *str = *(SVG_String*)inf->field_ptr; if (com->tag == GF_SG_LSR_REPLACE) { GF_DOMText *t = ((SVG_Element*)com->node)->children ? (GF_DOMText*) ((SVG_Element*)com->node)->children->node :NULL; if (t && (t->sgprivate->tag==TAG_DOMText)) { if (t->textContent) free(t->textContent); t->textContent = NULL; if (str) t->textContent = strdup(str); } } else { if (str) gf_dom_add_text_node(com->node, strdup(str)); } } else { gf_node_get_field(com->node, inf->fieldIndex, &a); if (com->tag == GF_SG_LSR_REPLACE) { e = gf_svg_attributes_copy(&a, &b, 0); } else { e = gf_svg_attributes_add(&a, &b, &a, 0); } } gf_node_changed(com->node, &a); return e; } else { return GF_NON_COMPLIANT_BITSTREAM; } break; case GF_SG_LSR_ACTIVATE: gf_node_activate(com->node); break; case GF_SG_LSR_DEACTIVATE: gf_node_deactivate(com->node); gf_node_changed(com->node, NULL); break; #endif default: return GF_NOT_SUPPORTED; } if (e) return e; if (com->scripts_to_load) { while (gf_list_count(com->scripts_to_load)) { GF_Node *script = (GF_Node *)gf_list_get(com->scripts_to_load, 0); gf_list_rem(com->scripts_to_load, 0); gf_sg_script_load(script); } gf_list_del(com->scripts_to_load); com->scripts_to_load = NULL; } return GF_OK; }
static void svg2bifs_node_start(void *sax_cbck, const char *name, const char *name_space, const GF_XMLAttribute *attributes, u32 nb_attributes) { u32 i; SVG2BIFS_Converter *converter = (SVG2BIFS_Converter *)sax_cbck; SVGPropertiesPointers *backup_props; char *id_string = NULL; u32 tag; SVG_Element *elt; SVG_DeferedAnimation *anim = NULL; tag = gf_xml_get_element_tag(name, 0); elt = (SVG_Element*)gf_node_new(converter->svg_sg, tag); if (!gf_sg_get_root_node(converter->svg_sg)) { gf_node_register((GF_Node *)elt, NULL); gf_sg_set_root_node(converter->svg_sg, (GF_Node *)elt); } else { gf_node_register((GF_Node *)elt, converter->svg_parent); //gf_node_list_add_child(&((GF_ParentNode*)converter->svg_parent)->children, (GF_Node *)elt); } // fprintf(stdout, "Converting %s\n", gf_node_get_class_name((GF_Node *)elt)); // if (converter->bifs_parent) fprintf(stdout, "%s\n", gf_node_get_class_name(converter->bifs_parent)); if (gf_svg_is_animation_tag(tag)) { GF_SAFEALLOC(anim, SVG_DeferedAnimation); /*default anim target is parent node*/ anim->animation_elt = elt; if (converter->svg_parent) { anim->target = anim->anim_parent = (SVG_Element*) converter->svg_parent; } } for (i=0; i<nb_attributes; i++) { GF_XMLAttribute *att = (GF_XMLAttribute *)&attributes[i]; if (!att->value || !strlen(att->value)) continue; if (!stricmp(att->name, "style")) { gf_svg_parse_style((GF_Node *)elt, att->value); } else if (!stricmp(att->name, "id") || !stricmp(att->name, "xml:id")) { gf_svg_parse_element_id((GF_Node *)elt, att->value, 0); id_string = att->value; } else if (anim && !stricmp(att->name, "to")) { anim->to = gf_strdup(att->value); } else if (anim && !stricmp(att->name, "from")) { anim->from = gf_strdup(att->value); } else if (anim && !stricmp(att->name, "by")) { anim->by = gf_strdup(att->value); } else if (anim && !stricmp(att->name, "values")) { anim->values = gf_strdup(att->value); } else if (anim && (tag == TAG_SVG_animateTransform) && !stricmp(att->name, "type")) { anim->type = gf_strdup(att->value); } else { GF_FieldInfo info; if (gf_node_get_field_by_name((GF_Node *)elt, att->name, &info)==GF_OK) { gf_svg_parse_attribute((GF_Node *)elt, &info, att->value, 0); } else { fprintf(stdout, "Skipping attribute %s\n", att->name); } } } if (anim) { svg_parse_animation(converter->svg_sg, anim); } memset(&converter->all_atts, 0, sizeof(SVGAllAttributes)); gf_svg_flatten_attributes(elt, &converter->all_atts); backup_props = gf_malloc(sizeof(SVGPropertiesPointers)); memcpy(backup_props, &converter->svg_props, sizeof(SVGPropertiesPointers)); gf_node_set_private((GF_Node *)elt, backup_props); gf_svg_apply_inheritance(&converter->all_atts, &converter->svg_props); fprintf(stdout, "START\t%s\t%s\t%s", converter->svg_parent ? gf_node_get_class_name(converter->svg_parent) : "none", converter->bifs_parent ? gf_node_get_class_name(converter->bifs_parent) : "none", name); converter->svg_parent = (GF_Node *)elt; if (!gf_sg_get_root_node(converter->bifs_sg)) { if (tag == TAG_SVG_svg) { GF_Node *node, *child; converter->bifs_sg->usePixelMetrics = 1; if (converter->all_atts.width && converter->all_atts.width->type == SVG_NUMBER_VALUE) { converter->bifs_sg->width = FIX2INT(converter->all_atts.width->value); } else { converter->bifs_sg->width = 320; } if (converter->all_atts.height && converter->all_atts.height->type == SVG_NUMBER_VALUE) { converter->bifs_sg->height = FIX2INT(converter->all_atts.height->value); } else { converter->bifs_sg->height = 200; } node = gf_node_new(converter->bifs_sg, TAG_MPEG4_OrderedGroup); gf_node_register(node, NULL); gf_sg_set_root_node(converter->bifs_sg, node); child = gf_node_new(converter->bifs_sg, TAG_MPEG4_QuantizationParameter); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); { M_QuantizationParameter *qp = (M_QuantizationParameter *)child; qp->useEfficientCoding = 1; } /* SVG to BIFS coordinate transformation */ child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Viewport); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); { M_Viewport *vp = (M_Viewport*)child; if (converter->all_atts.viewBox) { vp->size.x = converter->all_atts.viewBox->width; vp->size.y = converter->all_atts.viewBox->height; vp->position.x = converter->all_atts.viewBox->x+converter->all_atts.viewBox->width/2; vp->position.y = -(converter->all_atts.viewBox->y+converter->all_atts.viewBox->height/2); } else { vp->size.x = INT2FIX(converter->bifs_sg->width); vp->size.y = INT2FIX(converter->bifs_sg->height); vp->position.x = INT2FIX(converter->bifs_sg->width)/2; vp->position.y = -INT2FIX(converter->bifs_sg->height)/2; } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Background2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); { M_Background2D *b = (M_Background2D *)child; b->backColor.red = FIX_ONE; b->backColor.green = FIX_ONE; b->backColor.blue = FIX_ONE; } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; { M_Transform2D *tr = (M_Transform2D *)node; tr->scale.y = -FIX_ONE; } converter->bifs_parent = node; } } else { GF_Node *node, *child; node = converter->bifs_parent; switch(tag) { case TAG_SVG_g: { if (converter->all_atts.transform) { node = add_transform_matrix(converter, node); converter->bifs_parent = node; } else { M_Group *g = (M_Group*)gf_node_new(converter->bifs_sg, TAG_MPEG4_Group); gf_node_register((GF_Node *)g, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, (GF_Node *)g); node = (GF_Node *)g; converter->bifs_parent = node; } } break; case TAG_SVG_rect: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform_matrix(converter, node); converter->bifs_parent = node; is_parent_set = 1; } if (converter->force_transform) { node = add_transform2d(converter, node); if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } } if (converter->all_atts.x || converter->all_atts.y) { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } { M_Transform2D *tr = (M_Transform2D *)node; if (converter->all_atts.x) tr->translation.x = converter->all_atts.x->value + (converter->all_atts.width?converter->all_atts.width->value/2:0); if (converter->all_atts.y) tr->translation.y = converter->all_atts.y->value + (converter->all_atts.height?converter->all_atts.height->value/2:0); } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_Shape *shape = (M_Shape *)node; shape->geometry = gf_node_new(converter->bifs_sg, TAG_MPEG4_Rectangle); gf_node_register(shape->geometry, (GF_Node *)shape); { M_Rectangle *rect = (M_Rectangle *)shape->geometry; if (converter->all_atts.width) rect->size.x = converter->all_atts.width->value; if (converter->all_atts.height) rect->size.y = converter->all_atts.height->value; } shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_path: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform_matrix(converter, node); converter->bifs_parent = node; is_parent_set = 1; } if (converter->force_transform) { node = add_transform2d(converter, node); if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } } if (converter->all_atts.x || converter->all_atts.y) { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } { M_Transform2D *tr = (M_Transform2D *)node; if (converter->all_atts.x) tr->translation.x = converter->all_atts.x->value; if (converter->all_atts.y) tr->translation.y = converter->all_atts.y->value; } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_Shape *shape = (M_Shape *)node; shape->geometry = gf_node_new(converter->bifs_sg, TAG_MPEG4_XCurve2D); gf_node_register(shape->geometry, (GF_Node *)shape); if (converter->all_atts.d) { M_Coordinate2D *c2d; M_XCurve2D *xc = (M_XCurve2D *)shape->geometry; u32 i, j, c, k; xc->point = gf_node_new(converter->bifs_sg, TAG_MPEG4_Coordinate2D); c2d = (M_Coordinate2D *)xc->point; gf_node_register(xc->point, (GF_Node *)xc); gf_sg_vrml_mf_alloc(&c2d->point, GF_SG_VRML_MFVEC2F, converter->all_atts.d->n_points); gf_sg_vrml_mf_alloc(&xc->type, GF_SG_VRML_MFINT32, converter->all_atts.d->n_points); c = 0; k = 0; j = 0; c2d->point.vals[k] = converter->all_atts.d->points[0]; k++; xc->type.vals[0] = 0; for (i = 1; i < converter->all_atts.d->n_points; ) { switch(converter->all_atts.d->tags[i]) { case GF_PATH_CURVE_ON: c2d->point.vals[k] = converter->all_atts.d->points[i]; k++; if (i-1 == converter->all_atts.d->contours[c]) { xc->type.vals[j] = 0; c++; } else { xc->type.vals[j] = 1; } i++; break; case GF_PATH_CURVE_CUBIC: c2d->point.vals[k] = converter->all_atts.d->points[i]; c2d->point.vals[k+1] = converter->all_atts.d->points[i+1]; c2d->point.vals[k+2] = converter->all_atts.d->points[i+2]; k+=3; xc->type.vals[j] = 2; if (converter->all_atts.d->tags[i+2]==GF_PATH_CLOSE) { j++; xc->type.vals[j] = 6; } i+=3; break; case GF_PATH_CLOSE: xc->type.vals[j] = 6; i++; break; case GF_PATH_CURVE_CONIC: c2d->point.vals[k] = converter->all_atts.d->points[i]; c2d->point.vals[k+1] = converter->all_atts.d->points[i+1]; k+=2; xc->type.vals[j] = 7; if (converter->all_atts.d->tags[i+1]==GF_PATH_CLOSE) { j++; xc->type.vals[j] = 6; } i+=2; break; } j++; } xc->type.count = j; c2d->point.count = k; } shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_polyline: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform_matrix(converter, node); converter->bifs_parent = node; is_parent_set = 1; } if (converter->force_transform) { node = add_transform2d(converter, node); if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_Shape *shape = (M_Shape *)node; shape->geometry = gf_node_new(converter->bifs_sg, TAG_MPEG4_IndexedFaceSet2D); gf_node_register(shape->geometry, (GF_Node *)shape); if (converter->all_atts.points) { M_Coordinate2D *c2d; M_IndexedFaceSet2D *ifs = (M_IndexedFaceSet2D *)shape->geometry; u32 i; ifs->coord = gf_node_new(converter->bifs_sg, TAG_MPEG4_Coordinate2D); c2d = (M_Coordinate2D *)ifs->coord; gf_node_register(ifs->coord, (GF_Node *)ifs); gf_sg_vrml_mf_alloc(&c2d->point, GF_SG_VRML_MFVEC2F, gf_list_count(*converter->all_atts.points)); for (i = 0; i < gf_list_count(*converter->all_atts.points); i++) { SVG_Point *p = (SVG_Point *)gf_list_get(*converter->all_atts.points, i); c2d->point.vals[i].x = p->x; c2d->point.vals[i].y = p->y; } } shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_text: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform_matrix(converter, node); converter->bifs_parent = node; is_parent_set = 1; } if (converter->force_transform) { node = add_transform2d(converter, node); if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); { M_Transform2D *tr = (M_Transform2D *)child; if (converter->all_atts.text_x) tr->translation.x = ((SVG_Coordinate *)gf_list_get(*converter->all_atts.text_x, 0))->value; if (converter->all_atts.text_y) tr->translation.y = ((SVG_Coordinate *)gf_list_get(*converter->all_atts.text_y, 0))->value; tr->scale.y = -FIX_ONE; } node = child; child = NULL; if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_FontStyle *fs; M_Text *text; M_Shape *shape = (M_Shape *)node; text = (M_Text *)gf_node_new(converter->bifs_sg, TAG_MPEG4_Text); shape->geometry = (GF_Node *)text; converter->bifs_text_node = shape->geometry; gf_node_register(shape->geometry, (GF_Node *)shape); fs = (M_FontStyle *)gf_node_new(converter->bifs_sg, TAG_MPEG4_XFontStyle); gf_node_register((GF_Node *)fs, (GF_Node*)text); text->fontStyle = (GF_Node *)fs; gf_sg_vrml_mf_alloc(&fs->family, GF_SG_VRML_MFSTRING, 1); fs->family.vals[0] = gf_strdup(converter->svg_props.font_family->value); fs->size = converter->svg_props.font_size->value; shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_ellipse: case TAG_SVG_circle: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform_matrix(converter, node); converter->bifs_parent = node; is_parent_set = 1; } if (converter->force_transform) { node = add_transform2d(converter, node); if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } } if (converter->all_atts.cx || converter->all_atts.cy) { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); { M_Transform2D *tr = (M_Transform2D *)child; if (converter->all_atts.cx) tr->translation.x = converter->all_atts.cx->value; if (converter->all_atts.cy) tr->translation.y = converter->all_atts.cy->value; } node = child; child = NULL; if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_Shape *shape = (M_Shape *)node; if (tag == TAG_SVG_ellipse) { M_Ellipse *e = (M_Ellipse *)gf_node_new(converter->bifs_sg, TAG_MPEG4_Ellipse); shape->geometry = (GF_Node *)e; e->radius.x = converter->all_atts.rx->value; e->radius.y = converter->all_atts.ry->value; } else { M_Circle *c = (M_Circle *)gf_node_new(converter->bifs_sg, TAG_MPEG4_Circle); shape->geometry = (GF_Node *)c; c->radius = converter->all_atts.r->value; } gf_node_register(shape->geometry, (GF_Node *)shape); shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_defs: { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Switch); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; { M_Switch *sw = (M_Switch *)node; sw->whichChoice = -1; } converter->bifs_parent = node; } break; case TAG_SVG_solidColor: { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; converter->bifs_parent = node; } break; case TAG_SVG_animateTransform: { GF_Node *child_ts; if (!gf_node_get_id(node)) { gf_node_set_id(node, gf_sg_get_next_available_node_id(converter->bifs_sg), NULL); } child_ts = gf_node_new(converter->bifs_sg, TAG_MPEG4_TimeSensor); if (!gf_node_get_id(child_ts)) { gf_node_set_id(child_ts, gf_sg_get_next_available_node_id(converter->bifs_sg), NULL); } gf_node_register(child_ts, node); gf_node_list_add_child(&((GF_ParentNode *)node)->children, child_ts); { M_TimeSensor *ts = (M_TimeSensor *)child_ts; if (converter->all_atts.dur) { ts->cycleInterval = converter->all_atts.dur->clock_value; } if (converter->all_atts.repeatCount && converter->all_atts.repeatCount->type == SMIL_REPEATCOUNT_INDEFINITE) { ts->loop = 1; } } if (converter->all_atts.transform_type) { GF_FieldInfo fromField, toField; switch (*converter->all_atts.transform_type) { case SVG_TRANSFORM_ROTATE: child = gf_node_new(converter->bifs_sg, TAG_MPEG4_PositionInterpolator2D); if (!gf_node_get_id(child)) { gf_node_set_id(child, gf_sg_get_next_available_node_id(converter->bifs_sg), NULL); } gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode *)node)->children, child); gf_node_get_field_by_name(child_ts, "fraction_changed", &fromField); gf_node_get_field_by_name(child, "set_fraction", &toField); gf_sg_route_new(converter->bifs_sg, child_ts, fromField.fieldIndex, child, toField.fieldIndex); gf_node_get_field_by_name(child, "value_changed", &fromField); gf_node_get_field_by_name(node, "rotationAngle", &toField); gf_sg_route_new(converter->bifs_sg, child, fromField.fieldIndex, node, toField.fieldIndex); { M_PositionInterpolator2D *pi2d = (M_PositionInterpolator2D *)child; if (converter->all_atts.keyTimes) { SFFloat *g; u32 count, i; count = gf_list_count(*converter->all_atts.keyTimes); for (i = 0; i < count; i++) { Fixed *f = gf_list_get(*converter->all_atts.keyTimes, i); gf_sg_vrml_mf_append(&pi2d->key, GF_SG_VRML_MFFLOAT, &g); *g = *f; } } if (converter->all_atts.values) { SFVec2f *g; u32 count, i; count = gf_list_count(converter->all_atts.values->values); for (i = 0; i < count; i++) { SVG_Point_Angle *p; p = gf_list_get(converter->all_atts.values->values, i); gf_sg_vrml_mf_append(&pi2d->keyValue, GF_SG_VRML_MFVEC2F, &g); g->x = p->x; g->y = p->y; } } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_ScalarInterpolator); if (!gf_node_get_id(child)) { gf_node_set_id(child, gf_sg_get_next_available_node_id(converter->bifs_sg), NULL); } gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode *)node)->children, child); gf_node_get_field_by_name(child_ts, "fraction_changed", &fromField); gf_node_get_field_by_name(child, "set_fraction", &toField); gf_sg_route_new(converter->bifs_sg, child_ts, fromField.fieldIndex, child, toField.fieldIndex); gf_node_get_field_by_name(child, "value_changed", &fromField); gf_node_get_field_by_name(node, "center", &toField); gf_sg_route_new(converter->bifs_sg, child, fromField.fieldIndex, node, toField.fieldIndex); { M_ScalarInterpolator *si = (M_ScalarInterpolator *)child; if (converter->all_atts.keyTimes) { SFFloat *g; u32 count, i; count = gf_list_count(*converter->all_atts.keyTimes); for (i = 0; i < count; i++) { Fixed *f = gf_list_get(*converter->all_atts.keyTimes, i); gf_sg_vrml_mf_append(&si->key, GF_SG_VRML_MFFLOAT, &g); *g = *f; } } if (converter->all_atts.values) { SFFloat *g; u32 count, i; count = gf_list_count(converter->all_atts.values->values); for (i = 0; i < count; i++) { SVG_Point_Angle *p; p = gf_list_get(converter->all_atts.values->values, i); gf_sg_vrml_mf_append(&si->keyValue, GF_SG_VRML_MFFLOAT, &g); *g = p->angle; } } } break; case SVG_TRANSFORM_SCALE: case SVG_TRANSFORM_TRANSLATE: child = gf_node_new(converter->bifs_sg, TAG_MPEG4_PositionInterpolator2D); if (!gf_node_get_id(child)) { gf_node_set_id(child, gf_sg_get_next_available_node_id(converter->bifs_sg), NULL); } gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode *)node)->children, child); gf_node_get_field_by_name(child_ts, "fraction_changed", &fromField); gf_node_get_field_by_name(child, "set_fraction", &toField); gf_sg_route_new(converter->bifs_sg, child_ts, fromField.fieldIndex, child, toField.fieldIndex); gf_node_get_field_by_name(child, "value_changed", &fromField); if (*converter->all_atts.transform_type == SVG_TRANSFORM_SCALE) gf_node_get_field_by_name(node, "scale", &toField); else gf_node_get_field_by_name(node, "translation", &toField); gf_sg_route_new(converter->bifs_sg, child, fromField.fieldIndex, node, toField.fieldIndex); { M_PositionInterpolator2D *pi2d = (M_PositionInterpolator2D *)child; if (converter->all_atts.keyTimes) { SFFloat *g; u32 count, i; count = gf_list_count(*converter->all_atts.keyTimes); for (i = 0; i < count; i++) { Fixed *f = gf_list_get(*converter->all_atts.keyTimes, i); gf_sg_vrml_mf_append(&pi2d->key, GF_SG_VRML_MFFLOAT, &g); *g = *f; } } if (converter->all_atts.values) { SFVec2f *g; u32 count, i; count = gf_list_count(converter->all_atts.values->values); for (i = 0; i < count; i++) { SVG_Point *p; p = gf_list_get(converter->all_atts.values->values, i); gf_sg_vrml_mf_append(&pi2d->keyValue, GF_SG_VRML_MFVEC2F, &g); g->x = p->x; g->y = p->y; } } } break; default: fprintf(stdout, "Warning: transformation type not supported \n"); } } //converter->bifs_parent = node; } break; default: { fprintf(stdout, "Warning: element %s not supported \n", gf_node_get_class_name((GF_Node *)elt)); child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); //gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; converter->bifs_parent = node; } break; } if (id_string) gf_node_set_id(converter->bifs_parent, gf_sg_get_next_available_node_id(converter->bifs_sg), NULL);//gf_node_get_name((GF_Node *)elt)); } fprintf(stdout, "\t%s\n", converter->bifs_parent ? gf_node_get_class_name(converter->bifs_parent) : "none"); }
static void svg2bifs_node_start(void *sax_cbck, const char *name, const char *name_space, const GF_XMLAttribute *attributes, u32 nb_attributes) { u32 i; SVG_SANI_BIFS_Converter *converter = (SVG_SANI_BIFS_Converter *)sax_cbck; SVGPropertiesPointers *backup_props; char *id_string = NULL; u32 tag = gf_svg_get_element_tag(name); SVG_Element *elt = (SVG_Element*)gf_node_new(converter->svg_sg, tag); if (!gf_sg_get_root_node(converter->svg_sg)) { gf_node_register((GF_Node *)elt, NULL); gf_sg_set_root_node(converter->svg_sg, (GF_Node *)elt); } else { gf_node_register((GF_Node *)elt, converter->svg_parent); //gf_node_list_add_child(&((GF_ParentNode*)converter->svg_parent)->children, (GF_Node *)elt); } converter->svg_parent = (GF_Node *)elt; // fprintf(stdout, "Converting %s\n", gf_node_get_class_name((GF_Node *)elt)); // if (converter->bifs_parent) fprintf(stdout, "%s\n", gf_node_get_class_name(converter->bifs_parent)); for (i=0; i<nb_attributes; i++) { GF_XMLAttribute *att = (GF_XMLAttribute *)&attributes[i]; if (!att->value || !strlen(att->value)) continue; if (!stricmp(att->name, "style")) { gf_svg_parse_style((GF_Node *)elt, att->value); } else if (!stricmp(att->name, "id") || !stricmp(att->name, "xml:id")) { gf_svg_parse_element_id((GF_Node *)elt, att->value, 0); id_string = att->value; } else { GF_FieldInfo info; if (gf_node_get_field_by_name((GF_Node *)elt, att->name, &info)==GF_OK) { gf_svg_parse_attribute((GF_Node *)elt, &info, att->value, 0); } else { fprintf(stdout, "Skipping attribute %s\n", att->name); } } } memset(&converter->all_atts, 0, sizeof(SVGAllAttributes)); gf_svg_flatten_attributes(elt, &converter->all_atts); backup_props = gf_malloc(sizeof(SVGPropertiesPointers)); memcpy(backup_props, &converter->svg_props, sizeof(SVGPropertiesPointers)); gf_node_set_private((GF_Node *)elt, backup_props); gf_svg_apply_inheritance(&converter->all_atts, &converter->svg_props); if (!gf_sg_get_root_node(converter->bifs_sg)) { if (tag == TAG_SVG_svg) { GF_Node *node, *child; converter->bifs_sg->usePixelMetrics = 1; if (converter->all_atts.width && converter->all_atts.width->type == SVG_NUMBER_VALUE) { converter->bifs_sg->width = FIX2INT(converter->all_atts.width->value); } else { converter->bifs_sg->width = 320; } if (converter->all_atts.height && converter->all_atts.height->type == SVG_NUMBER_VALUE) { converter->bifs_sg->height = FIX2INT(converter->all_atts.height->value); } else { converter->bifs_sg->height = 200; } node = gf_node_new(converter->bifs_sg, TAG_MPEG4_OrderedGroup); gf_node_register(node, NULL); gf_sg_set_root_node(converter->bifs_sg, node); /* SVG to BIFS coordinate transformation */ child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Viewport); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); if (converter->all_atts.viewBox) { M_Viewport *vp = (M_Viewport*)child; vp->size.x = converter->all_atts.viewBox->width; vp->size.y = converter->all_atts.viewBox->height; vp->position.x = converter->all_atts.viewBox->x+converter->all_atts.viewBox->width/2; vp->position.y = -(converter->all_atts.viewBox->y+converter->all_atts.viewBox->height/2); } else { M_Viewport *vp = (M_Viewport*)child; vp->size.x = INT2FIX(converter->bifs_sg->width); vp->size.y = INT2FIX(converter->bifs_sg->height); vp->position.x = INT2FIX(converter->bifs_sg->width)/2; vp->position.y = -INT2FIX(converter->bifs_sg->height)/2; } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Background2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); { M_Background2D *b = (M_Background2D *)child; b->backColor.red = FIX_ONE; b->backColor.green = FIX_ONE; b->backColor.blue = FIX_ONE; } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; { M_Transform2D *tr = (M_Transform2D *)node; tr->scale.y = -FIX_ONE; } converter->bifs_parent = node; } } else { GF_Node *node, *child; node = converter->bifs_parent; switch(tag) { case TAG_SVG_g: { if (converter->all_atts.transform) { node = add_transform(converter, node); converter->bifs_parent = node; } else { M_Group *g = (M_Group*)gf_node_new(converter->bifs_sg, TAG_MPEG4_Group); gf_node_register((GF_Node *)g, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, (GF_Node *)g); node = (GF_Node *)g; converter->bifs_parent = node; } } break; case TAG_SVG_rect: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform(converter, node); converter->bifs_parent = node; is_parent_set = 1; } if (converter->all_atts.x || converter->all_atts.y) { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } { M_Transform2D *tr = (M_Transform2D *)node; if (converter->all_atts.x) tr->translation.x = converter->all_atts.x->value + (converter->all_atts.width?converter->all_atts.width->value/2:0); if (converter->all_atts.y) tr->translation.y = converter->all_atts.y->value + (converter->all_atts.height?converter->all_atts.height->value/2:0); } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_Shape *shape = (M_Shape *)node; shape->geometry = gf_node_new(converter->bifs_sg, TAG_MPEG4_Rectangle); gf_node_register(shape->geometry, (GF_Node *)shape); { M_Rectangle *rect = (M_Rectangle *)shape->geometry; if (converter->all_atts.width) rect->size.x = converter->all_atts.width->value; if (converter->all_atts.height) rect->size.y = converter->all_atts.height->value; } shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_path: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform(converter, node); converter->bifs_parent = node; is_parent_set = 1; } if (converter->all_atts.x || converter->all_atts.y) { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } { M_Transform2D *tr = (M_Transform2D *)node; if (converter->all_atts.x) tr->translation.x = converter->all_atts.x->value; if (converter->all_atts.y) tr->translation.y = converter->all_atts.y->value; } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_Shape *shape = (M_Shape *)node; shape->geometry = gf_node_new(converter->bifs_sg, TAG_MPEG4_XCurve2D); gf_node_register(shape->geometry, (GF_Node *)shape); if (converter->all_atts.d) { M_Coordinate2D *c2d; M_XCurve2D *xc = (M_XCurve2D *)shape->geometry; u32 i, j, c; xc->point = gf_node_new(converter->bifs_sg, TAG_MPEG4_Coordinate2D); c2d = (M_Coordinate2D *)xc->point; gf_node_register(xc->point, (GF_Node *)xc); gf_sg_vrml_mf_alloc(&c2d->point, GF_SG_VRML_MFVEC2F, converter->all_atts.d->n_points); j= 0; for (i = 0; i < converter->all_atts.d->n_points; i++) { if (converter->all_atts.d->tags[i] != GF_PATH_CLOSE || i == converter->all_atts.d->n_points-1) { c2d->point.vals[j] = converter->all_atts.d->points[i]; j++; } } c2d->point.count = j; gf_sg_vrml_mf_alloc(&xc->type, GF_SG_VRML_MFINT32, converter->all_atts.d->n_points); c = 0; j = 0; xc->type.vals[0] = 0; for (i = 1; i < converter->all_atts.d->n_points; i++) { switch(converter->all_atts.d->tags[i]) { case GF_PATH_CURVE_ON: if (c < converter->all_atts.d->n_contours && i-1 == converter->all_atts.d->contours[c]) { xc->type.vals[j] = 0; c++; } else { xc->type.vals[j] = 1; } break; case GF_PATH_CURVE_CUBIC: xc->type.vals[j] = 2; i+=2; break; case GF_PATH_CLOSE: xc->type.vals[j] = 6; break; case GF_PATH_CURVE_CONIC: xc->type.vals[j] = 7; i++; break; } j++; } xc->type.count = j; } shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_polyline: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform(converter, node); converter->bifs_parent = node; is_parent_set = 1; } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_Shape *shape = (M_Shape *)node; shape->geometry = gf_node_new(converter->bifs_sg, TAG_MPEG4_IndexedFaceSet2D); gf_node_register(shape->geometry, (GF_Node *)shape); if (converter->all_atts.points) { M_Coordinate2D *c2d; M_IndexedFaceSet2D *ifs = (M_IndexedFaceSet2D *)shape->geometry; u32 i; ifs->coord = gf_node_new(converter->bifs_sg, TAG_MPEG4_Coordinate2D); c2d = (M_Coordinate2D *)ifs->coord; gf_node_register(ifs->coord, (GF_Node *)ifs); gf_sg_vrml_mf_alloc(&c2d->point, GF_SG_VRML_MFVEC2F, gf_list_count(*converter->all_atts.points)); for (i = 0; i < gf_list_count(*converter->all_atts.points); i++) { SVG_Point *p = (SVG_Point *)gf_list_get(*converter->all_atts.points, i); c2d->point.vals[i].x = p->x; c2d->point.vals[i].y = p->y; } } shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_text: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform(converter, node); converter->bifs_parent = node; is_parent_set = 1; } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); { M_Transform2D *tr = (M_Transform2D *)child; if (converter->all_atts.text_x) tr->translation.x = ((SVG_Coordinate *)gf_list_get(*converter->all_atts.text_x, 0))->value; if (converter->all_atts.text_y) tr->translation.y = ((SVG_Coordinate *)gf_list_get(*converter->all_atts.text_y, 0))->value; tr->scale.y = -FIX_ONE; } node = child; child = NULL; if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_FontStyle *fs; M_Text *text; M_Shape *shape = (M_Shape *)node; text = (M_Text *)gf_node_new(converter->bifs_sg, TAG_MPEG4_Text); shape->geometry = (GF_Node *)text; converter->bifs_text_node = shape->geometry; gf_node_register(shape->geometry, (GF_Node *)shape); fs = (M_FontStyle *)gf_node_new(converter->bifs_sg, TAG_MPEG4_XFontStyle); gf_node_register((GF_Node *)fs, (GF_Node*)text); text->fontStyle = (GF_Node *)fs; gf_sg_vrml_mf_alloc(&fs->family, GF_SG_VRML_MFSTRING, 1); fs->family.vals[0] = strdup(converter->svg_props.font_family->value); fs->size = converter->svg_props.font_size->value; shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_ellipse: case TAG_SVG_circle: { Bool is_parent_set = 0; if (converter->all_atts.transform) { node = add_transform(converter, node); converter->bifs_parent = node; is_parent_set = 1; } if (converter->all_atts.cx || converter->all_atts.cy) { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); { M_Transform2D *tr = (M_Transform2D *)child; if (converter->all_atts.cx) tr->translation.x = converter->all_atts.cx->value; if (converter->all_atts.cy) tr->translation.y = converter->all_atts.cy->value; } node = child; child = NULL; if (!is_parent_set) { converter->bifs_parent = node; is_parent_set = 1; } } child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; if (!is_parent_set) converter->bifs_parent = node; { M_Shape *shape = (M_Shape *)node; if (tag == TAG_SVG_ellipse) { M_Ellipse *e = (M_Ellipse *)gf_node_new(converter->bifs_sg, TAG_MPEG4_Ellipse); shape->geometry = (GF_Node *)e; e->radius.x = converter->all_atts.rx->value; e->radius.y = converter->all_atts.ry->value; } else { M_Circle *c = (M_Circle *)gf_node_new(converter->bifs_sg, TAG_MPEG4_Circle); shape->geometry = (GF_Node *)c; c->radius = converter->all_atts.r->value; } gf_node_register(shape->geometry, (GF_Node *)shape); shape->appearance = create_appearance(&converter->svg_props, converter->bifs_sg); gf_node_register(shape->appearance, (GF_Node *)shape); } } break; case TAG_SVG_defs: { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Switch); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; { M_Switch *sw = (M_Switch *)node; sw->whichChoice = -1; } converter->bifs_parent = node; } break; case TAG_SVG_solidColor: { child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Shape); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; converter->bifs_parent = node; } break; default: { fprintf(stdout, "Warning: element %s not supported \n", gf_node_get_class_name((GF_Node *)elt)); child = gf_node_new(converter->bifs_sg, TAG_MPEG4_Transform2D); gf_node_register(child, node); gf_node_list_add_child(&((GF_ParentNode*)node)->children, child); node = child; child = NULL; converter->bifs_parent = node; } break; } if (id_string) gf_node_set_id(converter->bifs_parent, gf_node_get_id((GF_Node *)elt), gf_node_get_name((GF_Node *)elt)); } }
static void TTD_NewTextChunk(TTDPriv *priv, GF_TextSampleDescriptor *tsd, M_Form *form, u16 *utf16_txt, TTDTextChunk *tc) { GF_Node *txt_model, *n2, *txt_material; M_Text *text; M_FontStyle *fs; char *fontName; char szStyle[1024]; u32 fontSize, styleFlags, color, i, start_char; if (!tc->srec) { fontName = TTD_FindFont(tsd, tsd->default_style.fontID); fontSize = tsd->default_style.font_size; styleFlags = tsd->default_style.style_flags; color = tsd->default_style.text_color; } else { fontName = TTD_FindFont(tsd, tc->srec->fontID); fontSize = tc->srec->font_size; styleFlags = tc->srec->style_flags; color = tc->srec->text_color; } /*create base model for text node. It will then be cloned for each text item*/ txt_model = ttd_create_node(priv, TAG_MPEG4_Shape, NULL); gf_node_register(txt_model, NULL); n2 = ttd_create_node(priv, TAG_MPEG4_Appearance, NULL); ((M_Shape *)txt_model)->appearance = n2; gf_node_register(n2, txt_model); txt_material = ttd_create_node(priv, TAG_MPEG4_Material2D, NULL); ((M_Appearance *)n2)->material = txt_material; gf_node_register(txt_material, n2); ((M_Material2D *)txt_material)->filled = 1; ((M_Material2D *)txt_material)->transparency = FIX_ONE - INT2FIX((color>>24) & 0xFF) / 255; ((M_Material2D *)txt_material)->emissiveColor.red = INT2FIX((color>>16) & 0xFF) / 255; ((M_Material2D *)txt_material)->emissiveColor.green = INT2FIX((color>>8) & 0xFF) / 255; ((M_Material2D *)txt_material)->emissiveColor.blue = INT2FIX((color) & 0xFF) / 255; /*force 0 lineWidth if blinking (the stupid MPEG-4 default values once again..)*/ if (tc->has_blink) { ((M_Material2D *)txt_material)->lineProps = ttd_create_node(priv, TAG_MPEG4_LineProperties, NULL); ((M_LineProperties *)((M_Material2D *)txt_material)->lineProps)->width = 0; gf_node_register(((M_Material2D *)txt_material)->lineProps, txt_material); } n2 = ttd_create_node(priv, TAG_MPEG4_Text, NULL); ((M_Shape *)txt_model)->geometry = n2; gf_node_register(n2, txt_model); text = (M_Text *) n2; fs = (M_FontStyle *) ttd_create_node(priv, TAG_MPEG4_FontStyle, NULL); gf_free(fs->family.vals[0]); /*translate default fonts to MPEG-4/VRML names*/ if (!stricmp(fontName, "Serif")) fs->family.vals[0] = gf_strdup("SERIF"); else if (!stricmp(fontName, "Sans-Serif")) fs->family.vals[0] = gf_strdup("SANS"); else if (!stricmp(fontName, "Monospace")) fs->family.vals[0] = gf_strdup("TYPEWRITER"); else fs->family.vals[0] = gf_strdup(fontName); fs->size = INT2FIX(fontSize); gf_free(fs->style.buffer); strcpy(szStyle, ""); if (styleFlags & GF_TXT_STYLE_BOLD) { if (styleFlags & GF_TXT_STYLE_ITALIC) strcpy(szStyle, "BOLDITALIC"); else strcpy(szStyle, "BOLD"); } else if (styleFlags & GF_TXT_STYLE_ITALIC) strcat(szStyle, "ITALIC"); if (!strlen(szStyle)) strcpy(szStyle, "PLAIN"); /*also underline for URLs*/ if ((styleFlags & GF_TXT_STYLE_UNDERLINED) || (tc->hlink && tc->hlink->URL)) strcat(szStyle, " UNDERLINED"); if (tc->is_hilight) { if (tc->hilight_col) { char szTxt[50]; sprintf(szTxt, " HIGHLIGHT#%x", tc->hilight_col); strcat(szStyle, szTxt); } else { strcat(szStyle, " HIGHLIGHT#RV"); } } /*a better way would be to draw the entire text box in a composite texture & bitmap but we can't really rely on text box size (in MP4Box, it actually defaults to the entire video area) and drawing a too large texture & bitmap could slow down rendering*/ if (priv->use_texture) strcat(szStyle, " TEXTURED"); if (priv->outline) strcat(szStyle, " OUTLINED"); fs->style.buffer = gf_strdup(szStyle); fs->horizontal = (tsd->displayFlags & GF_TXT_VERTICAL) ? 0 : 1; text->fontStyle = (GF_Node *) fs; gf_node_register((GF_Node *)fs, (GF_Node *)text); gf_sg_vrml_mf_reset(&text->string, GF_SG_VRML_MFSTRING); if (tc->hlink && tc->hlink->URL) { SFURL *s; M_Anchor *anc = (M_Anchor *) ttd_create_node(priv, TAG_MPEG4_Anchor, NULL); gf_sg_vrml_mf_append(&anc->url, GF_SG_VRML_MFURL, (void **) &s); s->OD_ID = 0; s->url = gf_strdup(tc->hlink->URL); if (tc->hlink->URL_hint) anc->description.buffer = gf_strdup(tc->hlink->URL_hint); gf_node_list_add_child(& anc->children, txt_model); gf_node_register(txt_model, (GF_Node *)anc); txt_model = (GF_Node *)anc; gf_node_register((GF_Node *)anc, NULL); } start_char = tc->start_char; for (i=tc->start_char; i<tc->end_char; i++) { Bool new_line = 0; if ((utf16_txt[i] == '\n') || (utf16_txt[i] == '\r') || (utf16_txt[i] == 0x85) || (utf16_txt[i] == 0x2028) || (utf16_txt[i] == 0x2029)) new_line = 1; if (new_line || (i+1==tc->end_char) ) { SFString *st; if (i+1==tc->end_char) i++; if (i!=start_char) { char szLine[5000]; u32 len; s16 wsChunk[5000], *sp; /*spliting lines, duplicate node*/ n2 = gf_node_clone(priv->sg, txt_model, NULL, "", 1); if (tc->hlink && tc->hlink->URL) { GF_Node *t = ((M_Anchor *)n2)->children->node; text = (M_Text *) ((M_Shape *)t)->geometry; txt_material = ((M_Appearance *) ((M_Shape *)t)->appearance)->material; } else { text = (M_Text *) ((M_Shape *)n2)->geometry; txt_material = ((M_Appearance *) ((M_Shape *)n2)->appearance)->material; } gf_sg_vrml_mf_reset(&text->string, GF_SG_VRML_MFSTRING); gf_node_list_add_child( &form->children, n2); gf_node_register(n2, (GF_Node *) form); ttd_add_item(form); /*clone node always register by default*/ gf_node_unregister(n2, NULL); if (tc->has_blink && txt_material) gf_list_add(priv->blink_nodes, txt_material); memcpy(wsChunk, &utf16_txt[start_char], sizeof(s16)*(i-start_char)); wsChunk[i-start_char] = 0; sp = &wsChunk[0]; len = gf_utf8_wcstombs(szLine, 5000, (const unsigned short **) &sp); szLine[len] = 0; gf_sg_vrml_mf_append(&text->string, GF_SG_VRML_MFSTRING, (void **) &st); st->buffer = gf_strdup(szLine); } start_char = i+1; if (new_line) { ttd_add_line(form); if ((utf16_txt[i]=='\r') && (utf16_txt[i+1]=='\n')) i++; } } } gf_node_unregister(txt_model, NULL); return; }
static GFINLINE void add_child(GF_Node *n1, GF_Node *par) { gf_node_list_add_child( & ((GF_ParentNode *)par)->children, n1); gf_node_register(n1, par); }