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/**************************************************************************/
/* gltf_document.cpp */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/**************************************************************************/
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# include "gltf_document.h"
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# include "extensions/gltf_spec_gloss.h"
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# include "gltf_state.h"
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# include "core/bind/core_bind.h" // FIXME: Shouldn't use _Directory but DirAccess.
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# include "core/crypto/crypto_core.h"
# include "core/io/json.h"
# include "core/math/disjoint_set.h"
# include "core/os/file_access.h"
# include "core/variant.h"
# include "core/version.h"
# include "drivers/png/png_driver_common.h"
# include "scene/2d/node_2d.h"
# include "scene/3d/bone_attachment.h"
# include "scene/3d/mesh_instance.h"
# include "scene/3d/multimesh_instance.h"
# include "scene/3d/spatial.h"
# include "scene/animation/animation_player.h"
# include "scene/main/node.h"
# include "scene/resources/surface_tool.h"
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# include "modules/modules_enabled.gen.h" // For csg, gridmap, regex.
# ifdef MODULE_CSG_ENABLED
# include "modules/csg/csg_shape.h"
# endif // MODULE_CSG_ENABLED
# ifdef MODULE_GRIDMAP_ENABLED
# include "modules/gridmap/grid_map.h"
# endif // MODULE_GRIDMAP_ENABLED
# ifdef MODULE_REGEX_ENABLED
# include "modules/regex/regex.h"
# endif // MODULE_REGEX_ENABLED
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Ref < ArrayMesh > _mesh_to_array_mesh ( Ref < Mesh > p_mesh ) {
Ref < ArrayMesh > array_mesh = p_mesh ;
if ( array_mesh . is_valid ( ) ) {
return array_mesh ;
}
array_mesh . instance ( ) ;
if ( p_mesh . is_null ( ) ) {
return array_mesh ;
}
for ( int32_t surface_i = 0 ; surface_i < p_mesh - > get_surface_count ( ) ; surface_i + + ) {
Mesh : : PrimitiveType primitive_type = p_mesh - > surface_get_primitive_type ( surface_i ) ;
Array arrays = p_mesh - > surface_get_arrays ( surface_i ) ;
Ref < Material > mat = p_mesh - > surface_get_material ( surface_i ) ;
int32_t mat_idx = array_mesh - > get_surface_count ( ) ;
array_mesh - > add_surface_from_arrays ( primitive_type , arrays ) ;
array_mesh - > surface_set_material ( mat_idx , mat ) ;
}
return array_mesh ;
}
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Error GLTFDocument : : serialize ( Ref < GLTFState > p_state , Node * p_root , const String & p_path ) {
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uint64_t begin_time = OS : : get_singleton ( ) - > get_ticks_usec ( ) ;
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p_state - > skeleton3d_to_gltf_skeleton . clear ( ) ;
p_state - > skin_and_skeleton3d_to_gltf_skin . clear ( ) ;
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document_extensions . clear ( ) ;
for ( int ext_i = 0 ; ext_i < all_document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = all_document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
Error err = ext - > export_preflight ( p_state , p_root ) ;
if ( err = = OK ) {
document_extensions . push_back ( ext ) ;
}
}
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_convert_scene_node ( p_state , p_root , - 1 , - 1 ) ;
if ( ! p_state - > buffers . size ( ) ) {
p_state - > buffers . push_back ( Vector < uint8_t > ( ) ) ;
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}
/* STEP 1 CONVERT MESH INSTANCES */
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_convert_mesh_instances ( p_state ) ;
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/* STEP 2 SERIALIZE CAMERAS */
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Error err = _serialize_cameras ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
/* STEP 3 CREATE SKINS */
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err = _serialize_skins ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 5 SERIALIZE MESHES (we have enough info now) */
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err = _serialize_meshes ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
/* STEP 6 SERIALIZE TEXTURES */
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err = _serialize_materials ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 7 SERIALIZE TEXTURE SAMPLERS */
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err = _serialize_texture_samplers ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 8 SERIALIZE ANIMATIONS */
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err = _serialize_animations ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 9 SERIALIZE ACCESSORS */
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err = _encode_accessors ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 10 SERIALIZE IMAGES */
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err = _serialize_images ( p_state , p_path ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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for ( GLTFBufferViewIndex i = 0 ; i < p_state - > buffer_views . size ( ) ; i + + ) {
p_state - > buffer_views . write [ i ] - > buffer = 0 ;
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}
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/* STEP 12 SERIALIZE BUFFER VIEWS */
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err = _encode_buffer_views ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 13 SERIALIZE NODES */
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err = _serialize_nodes ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 15 SERIALIZE SCENE */
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err = _serialize_scenes ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 16 SERIALIZE SCENE */
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err = _serialize_lights ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 17 SERIALIZE EXTENSIONS */
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err = _serialize_gltf_extensions ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 18 SERIALIZE VERSION */
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err = _serialize_version ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* STEP 19 SERIALIZE FILE */
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err = _serialize_file ( p_state , p_path ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
err = ext - > export_post ( p_state ) ;
ERR_FAIL_COND_V ( err ! = OK , err ) ;
}
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uint64_t elapsed = OS : : get_singleton ( ) - > get_ticks_usec ( ) - begin_time ;
float elapsed_sec = double ( elapsed ) / 1000000.0 ;
elapsed_sec = Math : : stepify ( elapsed_sec , 0.01f ) ;
print_line ( " glTF: Export time elapsed seconds " + rtos ( elapsed_sec ) . pad_decimals ( 2 ) ) ;
return OK ;
}
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Error GLTFDocument : : _serialize_gltf_extensions ( Ref < GLTFState > p_state ) const {
Vector < String > extensions_used = p_state - > extensions_used ;
Vector < String > extensions_required = p_state - > extensions_required ;
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if ( ! p_state - > lights . empty ( ) ) {
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extensions_used . push_back ( " KHR_lights_punctual " ) ;
}
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if ( p_state - > use_khr_texture_transform ) {
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extensions_used . push_back ( " KHR_texture_transform " ) ;
extensions_required . push_back ( " KHR_texture_transform " ) ;
}
if ( ! extensions_used . empty ( ) ) {
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extensions_used . sort ( ) ;
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p_state - > json [ " extensionsUsed " ] = extensions_used ;
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}
if ( ! extensions_required . empty ( ) ) {
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extensions_required . sort ( ) ;
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p_state - > json [ " extensionsRequired " ] = extensions_required ;
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}
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return OK ;
}
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Error GLTFDocument : : _serialize_scenes ( Ref < GLTFState > p_state ) {
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Array scenes ;
const int loaded_scene = 0 ;
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p_state - > json [ " scene " ] = loaded_scene ;
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if ( p_state - > nodes . size ( ) ) {
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Dictionary s ;
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if ( ! p_state - > scene_name . empty ( ) ) {
s [ " name " ] = p_state - > scene_name ;
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}
Array nodes ;
nodes . push_back ( 0 ) ;
s [ " nodes " ] = nodes ;
scenes . push_back ( s ) ;
}
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p_state - > json [ " scenes " ] = scenes ;
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return OK ;
}
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Error GLTFDocument : : _parse_json ( const String & p_path , Ref < GLTFState > p_state ) {
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Error err ;
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FileAccessRef file = FileAccess : : open ( p_path , FileAccess : : READ , & err ) ;
if ( ! file ) {
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return err ;
}
Vector < uint8_t > array ;
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array . resize ( file - > get_len ( ) ) ;
file - > get_buffer ( array . ptrw ( ) , array . size ( ) ) ;
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String text ;
text . parse_utf8 ( ( const char * ) array . ptr ( ) , array . size ( ) ) ;
String err_txt ;
int err_line ;
Variant v ;
err = JSON : : parse ( text , v , err_txt , err_line ) ;
if ( err ! = OK ) {
_err_print_error ( " " , p_path . utf8 ( ) . get_data ( ) , err_line , err_txt . utf8 ( ) . get_data ( ) , ERR_HANDLER_SCRIPT ) ;
return err ;
}
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p_state - > json = v ;
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return OK ;
}
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Error GLTFDocument : : _parse_glb ( const String & p_path , Ref < GLTFState > p_state ) {
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Error err ;
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FileAccessRef file = FileAccess : : open ( p_path , FileAccess : : READ , & err ) ;
if ( ! file ) {
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return err ;
}
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uint32_t magic = file - > get_32 ( ) ;
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ERR_FAIL_COND_V ( magic ! = 0x46546C67 , ERR_FILE_UNRECOGNIZED ) ; //glTF
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file - > get_32 ( ) ; // version
file - > get_32 ( ) ; // length
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uint32_t chunk_length = file - > get_32 ( ) ;
uint32_t chunk_type = file - > get_32 ( ) ;
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ERR_FAIL_COND_V ( chunk_type ! = 0x4E4F534A , ERR_PARSE_ERROR ) ; //JSON
Vector < uint8_t > json_data ;
json_data . resize ( chunk_length ) ;
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uint32_t len = file - > get_buffer ( json_data . ptrw ( ) , chunk_length ) ;
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ERR_FAIL_COND_V ( len ! = chunk_length , ERR_FILE_CORRUPT ) ;
String text ;
text . parse_utf8 ( ( const char * ) json_data . ptr ( ) , json_data . size ( ) ) ;
String err_txt ;
int err_line ;
Variant v ;
err = JSON : : parse ( text , v , err_txt , err_line ) ;
if ( err ! = OK ) {
_err_print_error ( " " , p_path . utf8 ( ) . get_data ( ) , err_line , err_txt . utf8 ( ) . get_data ( ) , ERR_HANDLER_SCRIPT ) ;
return err ;
}
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p_state - > json = v ;
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//data?
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chunk_length = file - > get_32 ( ) ;
chunk_type = file - > get_32 ( ) ;
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if ( file - > eof_reached ( ) ) {
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return OK ; //all good
}
ERR_FAIL_COND_V ( chunk_type ! = 0x004E4942 , ERR_PARSE_ERROR ) ; //BIN
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p_state - > glb_data . resize ( chunk_length ) ;
len = file - > get_buffer ( p_state - > glb_data . ptrw ( ) , chunk_length ) ;
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ERR_FAIL_COND_V ( len ! = chunk_length , ERR_FILE_CORRUPT ) ;
return OK ;
}
static Array _vec3_to_arr ( const Vector3 & p_vec3 ) {
Array array ;
array . resize ( 3 ) ;
array [ 0 ] = p_vec3 . x ;
array [ 1 ] = p_vec3 . y ;
array [ 2 ] = p_vec3 . z ;
return array ;
}
static Vector3 _arr_to_vec3 ( const Array & p_array ) {
ERR_FAIL_COND_V ( p_array . size ( ) ! = 3 , Vector3 ( ) ) ;
return Vector3 ( p_array [ 0 ] , p_array [ 1 ] , p_array [ 2 ] ) ;
}
static Array _quat_to_array ( const Quat & p_quat ) {
Array array ;
array . resize ( 4 ) ;
array [ 0 ] = p_quat . x ;
array [ 1 ] = p_quat . y ;
array [ 2 ] = p_quat . z ;
array [ 3 ] = p_quat . w ;
return array ;
}
static Quat _arr_to_quat ( const Array & p_array ) {
ERR_FAIL_COND_V ( p_array . size ( ) ! = 4 , Quat ( ) ) ;
return Quat ( p_array [ 0 ] , p_array [ 1 ] , p_array [ 2 ] , p_array [ 3 ] ) ;
}
static Transform _arr_to_xform ( const Array & p_array ) {
ERR_FAIL_COND_V ( p_array . size ( ) ! = 16 , Transform ( ) ) ;
Transform xform ;
xform . basis . set_axis ( Vector3 : : AXIS_X , Vector3 ( p_array [ 0 ] , p_array [ 1 ] , p_array [ 2 ] ) ) ;
xform . basis . set_axis ( Vector3 : : AXIS_Y , Vector3 ( p_array [ 4 ] , p_array [ 5 ] , p_array [ 6 ] ) ) ;
xform . basis . set_axis ( Vector3 : : AXIS_Z , Vector3 ( p_array [ 8 ] , p_array [ 9 ] , p_array [ 10 ] ) ) ;
xform . set_origin ( Vector3 ( p_array [ 12 ] , p_array [ 13 ] , p_array [ 14 ] ) ) ;
return xform ;
}
static Vector < real_t > _xform_to_array ( const Transform p_transform ) {
Vector < real_t > array ;
array . resize ( 16 ) ;
Vector3 axis_x = p_transform . get_basis ( ) . get_axis ( Vector3 : : AXIS_X ) ;
array . write [ 0 ] = axis_x . x ;
array . write [ 1 ] = axis_x . y ;
array . write [ 2 ] = axis_x . z ;
array . write [ 3 ] = 0.0f ;
Vector3 axis_y = p_transform . get_basis ( ) . get_axis ( Vector3 : : AXIS_Y ) ;
array . write [ 4 ] = axis_y . x ;
array . write [ 5 ] = axis_y . y ;
array . write [ 6 ] = axis_y . z ;
array . write [ 7 ] = 0.0f ;
Vector3 axis_z = p_transform . get_basis ( ) . get_axis ( Vector3 : : AXIS_Z ) ;
array . write [ 8 ] = axis_z . x ;
array . write [ 9 ] = axis_z . y ;
array . write [ 10 ] = axis_z . z ;
array . write [ 11 ] = 0.0f ;
Vector3 origin = p_transform . get_origin ( ) ;
array . write [ 12 ] = origin . x ;
array . write [ 13 ] = origin . y ;
array . write [ 14 ] = origin . z ;
array . write [ 15 ] = 1.0f ;
return array ;
}
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Error GLTFDocument : : _serialize_nodes ( Ref < GLTFState > p_state ) {
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Array nodes ;
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for ( int i = 0 ; i < p_state - > nodes . size ( ) ; i + + ) {
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Dictionary node ;
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Ref < GLTFNode > gltf_node = p_state - > nodes [ i ] ;
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Dictionary extensions ;
node [ " extensions " ] = extensions ;
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if ( ! gltf_node - > get_name ( ) . empty ( ) ) {
node [ " name " ] = gltf_node - > get_name ( ) ;
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}
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if ( gltf_node - > camera ! = - 1 ) {
node [ " camera " ] = gltf_node - > camera ;
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}
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if ( gltf_node - > light ! = - 1 ) {
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Dictionary lights_punctual ;
extensions [ " KHR_lights_punctual " ] = lights_punctual ;
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lights_punctual [ " light " ] = gltf_node - > light ;
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}
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if ( gltf_node - > mesh ! = - 1 ) {
node [ " mesh " ] = gltf_node - > mesh ;
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}
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if ( gltf_node - > skin ! = - 1 ) {
node [ " skin " ] = gltf_node - > skin ;
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}
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if ( gltf_node - > skeleton ! = - 1 & & gltf_node - > skin < 0 ) {
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}
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if ( gltf_node - > xform ! = Transform ( ) ) {
node [ " matrix " ] = _xform_to_array ( gltf_node - > xform ) ;
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}
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if ( ! gltf_node - > rotation . is_equal_approx ( Quat ( ) ) ) {
node [ " rotation " ] = _quat_to_array ( gltf_node - > rotation ) ;
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}
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if ( ! gltf_node - > scale . is_equal_approx ( Vector3 ( 1.0f , 1.0f , 1.0f ) ) ) {
node [ " scale " ] = _vec3_to_arr ( gltf_node - > scale ) ;
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}
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if ( ! gltf_node - > translation . is_zero_approx ( ) ) {
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node [ " translation " ] = _vec3_to_arr ( gltf_node - > translation ) ;
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}
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if ( gltf_node - > children . size ( ) ) {
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Array children ;
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for ( int j = 0 ; j < gltf_node - > children . size ( ) ; j + + ) {
children . push_back ( gltf_node - > children [ j ] ) ;
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}
node [ " children " ] = children ;
}
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for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
ERR_CONTINUE ( ! p_state - > scene_nodes . find ( i ) ) ;
Error err = ext - > export_node ( p_state , gltf_node , node , p_state - > scene_nodes [ i ] ) ;
ERR_CONTINUE ( err ! = OK ) ;
}
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nodes . push_back ( node ) ;
}
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p_state - > json [ " nodes " ] = nodes ;
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return OK ;
}
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String GLTFDocument : : _sanitize_scene_name ( Ref < GLTFState > p_state , const String & p_name ) {
if ( p_state - > use_legacy_names ) {
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# ifdef MODULE_REGEX_ENABLED
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RegEx regex ( " ([^a-zA-Z0-9_ -]+) " ) ;
String s_name = regex . sub ( p_name , " " , true ) ;
return s_name ;
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# else
WARN_PRINT ( " GLTF: Legacy scene names are not supported without the RegEx module. Falling back to new names. " ) ;
# endif // MODULE_REGEX_ENABLED
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}
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return p_name . validate_node_name ( ) ;
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}
String GLTFDocument : : _legacy_validate_node_name ( const String & p_name ) {
String invalid_character = " . : @ / \" " ;
String name = p_name ;
Vector < String > chars = invalid_character . split ( " " ) ;
for ( int i = 0 ; i < chars . size ( ) ; i + + ) {
name = name . replace ( chars [ i ] , " " ) ;
}
return name ;
}
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String GLTFDocument : : _gen_unique_name ( Ref < GLTFState > p_state , const String & p_name ) {
const String s_name = _sanitize_scene_name ( p_state , p_name ) ;
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String name ;
int index = 1 ;
while ( true ) {
name = s_name ;
if ( index > 1 ) {
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if ( p_state - > use_legacy_names ) {
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name + = " " ;
}
name + = itos ( index ) ;
}
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if ( ! p_state - > unique_names . has ( name ) ) {
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break ;
}
index + + ;
}
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p_state - > unique_names . insert ( name ) ;
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return name ;
}
String GLTFDocument : : _sanitize_animation_name ( const String & p_name ) {
// Animations disallow the normal node invalid characters as well as "," and "["
// (See animation/animation_player.cpp::add_animation)
// TODO: Consider adding invalid_characters or a validate_animation_name to animation_player to mirror Node.
String name = p_name . validate_node_name ( ) ;
name = name . replace ( " , " , " " ) ;
name = name . replace ( " [ " , " " ) ;
return name ;
}
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String GLTFDocument : : _gen_unique_animation_name ( Ref < GLTFState > p_state , const String & p_name ) {
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const String s_name = _sanitize_animation_name ( p_name ) ;
String name ;
int index = 1 ;
while ( true ) {
name = s_name ;
if ( index > 1 ) {
name + = itos ( index ) ;
}
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if ( ! p_state - > unique_animation_names . has ( name ) ) {
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break ;
}
index + + ;
}
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p_state - > unique_animation_names . insert ( name ) ;
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return name ;
}
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String GLTFDocument : : _sanitize_bone_name ( Ref < GLTFState > p_state , const String & p_name ) {
if ( p_state - > use_legacy_names ) {
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# ifdef MODULE_REGEX_ENABLED
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String name = p_name . camelcase_to_underscore ( true ) ;
RegEx pattern_del ( " ([^a-zA-Z0-9_ ]) + " ) ;
name = pattern_del . sub ( name , " " , true ) ;
RegEx pattern_nospace ( " + " ) ;
name = pattern_nospace . sub ( name , " _ " , true ) ;
RegEx pattern_multiple ( " _+ " ) ;
name = pattern_multiple . sub ( name , " _ " , true ) ;
RegEx pattern_padded ( " 0+( \\ d+) " ) ;
name = pattern_padded . sub ( name , " $1 " , true ) ;
return name ;
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# else
WARN_PRINT ( " GLTF: Legacy bone names are not supported without the RegEx module. Falling back to new names. " ) ;
# endif // MODULE_REGEX_ENABLED
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}
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String name = p_name ;
name = name . replace ( " : " , " _ " ) ;
name = name . replace ( " / " , " _ " ) ;
if ( name . empty ( ) ) {
name = " bone " ;
}
return name ;
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}
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String GLTFDocument : : _gen_unique_bone_name ( Ref < GLTFState > p_state , const GLTFSkeletonIndex p_skel_i , const String & p_name ) {
String s_name = _sanitize_bone_name ( p_state , p_name ) ;
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String name ;
int index = 1 ;
while ( true ) {
name = s_name ;
if ( index > 1 ) {
name + = " _ " + itos ( index ) ;
}
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if ( ! p_state - > skeletons [ p_skel_i ] - > unique_names . has ( name ) ) {
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break ;
}
index + + ;
}
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p_state - > skeletons . write [ p_skel_i ] - > unique_names . insert ( name ) ;
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return name ;
}
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Error GLTFDocument : : _parse_scenes ( Ref < GLTFState > p_state ) {
ERR_FAIL_COND_V ( ! p_state - > json . has ( " scenes " ) , ERR_FILE_CORRUPT ) ;
const Array & scenes = p_state - > json [ " scenes " ] ;
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int loaded_scene = 0 ;
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if ( p_state - > json . has ( " scene " ) ) {
loaded_scene = p_state - > json [ " scene " ] ;
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} else {
WARN_PRINT ( " The load-time scene is not defined in the glTF2 file. Picking the first scene. " ) ;
}
if ( scenes . size ( ) ) {
ERR_FAIL_COND_V ( loaded_scene > = scenes . size ( ) , ERR_FILE_CORRUPT ) ;
const Dictionary & s = scenes [ loaded_scene ] ;
ERR_FAIL_COND_V ( ! s . has ( " nodes " ) , ERR_UNAVAILABLE ) ;
const Array & nodes = s [ " nodes " ] ;
for ( int j = 0 ; j < nodes . size ( ) ; j + + ) {
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p_state - > root_nodes . push_back ( nodes [ j ] ) ;
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}
if ( s . has ( " name " ) & & ! String ( s [ " name " ] ) . empty ( ) & & ! ( ( String ) s [ " name " ] ) . begins_with ( " Scene " ) ) {
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p_state - > scene_name = s [ " name " ] ;
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} else {
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p_state - > scene_name = p_state - > filename ;
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}
}
return OK ;
}
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Error GLTFDocument : : _parse_nodes ( Ref < GLTFState > p_state ) {
ERR_FAIL_COND_V ( ! p_state - > json . has ( " nodes " ) , ERR_FILE_CORRUPT ) ;
const Array & nodes = p_state - > json [ " nodes " ] ;
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for ( int i = 0 ; i < nodes . size ( ) ; i + + ) {
Ref < GLTFNode > node ;
node . instance ( ) ;
const Dictionary & n = nodes [ i ] ;
if ( n . has ( " name " ) ) {
node - > set_name ( n [ " name " ] ) ;
}
if ( n . has ( " camera " ) ) {
node - > camera = n [ " camera " ] ;
}
if ( n . has ( " mesh " ) ) {
node - > mesh = n [ " mesh " ] ;
}
if ( n . has ( " skin " ) ) {
node - > skin = n [ " skin " ] ;
}
if ( n . has ( " matrix " ) ) {
node - > xform = _arr_to_xform ( n [ " matrix " ] ) ;
} else {
if ( n . has ( " translation " ) ) {
node - > translation = _arr_to_vec3 ( n [ " translation " ] ) ;
}
if ( n . has ( " rotation " ) ) {
node - > rotation = _arr_to_quat ( n [ " rotation " ] ) ;
}
if ( n . has ( " scale " ) ) {
node - > scale = _arr_to_vec3 ( n [ " scale " ] ) ;
}
node - > xform . basis . set_quat_scale ( node - > rotation , node - > scale ) ;
node - > xform . origin = node - > translation ;
}
if ( n . has ( " extensions " ) ) {
Dictionary extensions = n [ " extensions " ] ;
if ( extensions . has ( " KHR_lights_punctual " ) ) {
Dictionary lights_punctual = extensions [ " KHR_lights_punctual " ] ;
if ( lights_punctual . has ( " light " ) ) {
GLTFLightIndex light = lights_punctual [ " light " ] ;
node - > light = light ;
}
}
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for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
Error err = ext - > parse_node_extensions ( p_state , node , extensions ) ;
ERR_CONTINUE_MSG ( err ! = OK , " GLTF: Encountered error " + itos ( err ) + " when parsing node extensions for node " + node - > get_name ( ) + " in file " + p_state - > filename + " . Continuing. " ) ;
}
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}
if ( n . has ( " children " ) ) {
const Array & children = n [ " children " ] ;
for ( int j = 0 ; j < children . size ( ) ; j + + ) {
node - > children . push_back ( children [ j ] ) ;
}
}
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p_state - > nodes . push_back ( node ) ;
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}
// build the hierarchy
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for ( GLTFNodeIndex node_i = 0 ; node_i < p_state - > nodes . size ( ) ; node_i + + ) {
for ( int j = 0 ; j < p_state - > nodes [ node_i ] - > children . size ( ) ; j + + ) {
GLTFNodeIndex child_i = p_state - > nodes [ node_i ] - > children [ j ] ;
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ERR_FAIL_INDEX_V ( child_i , p_state - > nodes . size ( ) , ERR_FILE_CORRUPT ) ;
ERR_CONTINUE ( p_state - > nodes [ child_i ] - > parent ! = - 1 ) ; //node already has a parent, wtf.
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p_state - > nodes . write [ child_i ] - > parent = node_i ;
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}
}
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_compute_node_heights ( p_state ) ;
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return OK ;
}
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void GLTFDocument : : _compute_node_heights ( Ref < GLTFState > p_state ) {
p_state - > root_nodes . clear ( ) ;
for ( GLTFNodeIndex node_i = 0 ; node_i < p_state - > nodes . size ( ) ; + + node_i ) {
Ref < GLTFNode > node = p_state - > nodes [ node_i ] ;
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node - > height = 0 ;
GLTFNodeIndex current_i = node_i ;
while ( current_i > = 0 ) {
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const GLTFNodeIndex parent_i = p_state - > nodes [ current_i ] - > parent ;
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if ( parent_i > = 0 ) {
+ + node - > height ;
}
current_i = parent_i ;
}
if ( node - > height = = 0 ) {
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p_state - > root_nodes . push_back ( node_i ) ;
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}
}
}
static Vector < uint8_t > _parse_base64_uri ( const String & uri ) {
int start = uri . find ( " , " ) ;
ERR_FAIL_COND_V ( start = = - 1 , Vector < uint8_t > ( ) ) ;
CharString substr = uri . right ( start + 1 ) . ascii ( ) ;
int strlen = substr . length ( ) ;
Vector < uint8_t > buf ;
buf . resize ( strlen / 4 * 3 + 1 + 1 ) ;
size_t len = 0 ;
ERR_FAIL_COND_V ( CryptoCore : : b64_decode ( buf . ptrw ( ) , buf . size ( ) , & len , ( unsigned char * ) substr . get_data ( ) , strlen ) ! = OK , Vector < uint8_t > ( ) ) ;
buf . resize ( len ) ;
return buf ;
}
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Error GLTFDocument : : _encode_buffer_glb ( Ref < GLTFState > p_state , const String & p_path ) {
print_verbose ( " glTF: Total buffers: " + itos ( p_state - > buffers . size ( ) ) ) ;
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if ( ! p_state - > buffers . size ( ) ) {
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return OK ;
}
Array buffers ;
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if ( p_state - > buffers . size ( ) ) {
Vector < uint8_t > buffer_data = p_state - > buffers [ 0 ] ;
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Dictionary gltf_buffer ;
gltf_buffer [ " byteLength " ] = buffer_data . size ( ) ;
buffers . push_back ( gltf_buffer ) ;
}
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for ( GLTFBufferIndex i = 1 ; i < p_state - > buffers . size ( ) - 1 ; i + + ) {
Vector < uint8_t > buffer_data = p_state - > buffers [ i ] ;
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Dictionary gltf_buffer ;
String filename = p_path . get_basename ( ) . get_file ( ) + itos ( i ) + " .bin " ;
String path = p_path . get_base_dir ( ) + " / " + filename ;
Error err ;
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FileAccessRef file = FileAccess : : open ( path , FileAccess : : WRITE , & err ) ;
if ( ! file ) {
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return err ;
}
if ( buffer_data . size ( ) = = 0 ) {
return OK ;
}
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file - > create ( FileAccess : : ACCESS_RESOURCES ) ;
file - > store_buffer ( buffer_data . ptr ( ) , buffer_data . size ( ) ) ;
file - > close ( ) ;
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gltf_buffer [ " uri " ] = filename ;
gltf_buffer [ " byteLength " ] = buffer_data . size ( ) ;
buffers . push_back ( gltf_buffer ) ;
}
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if ( ! buffers . size ( ) ) {
return OK ;
}
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p_state - > json [ " buffers " ] = buffers ;
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return OK ;
}
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Error GLTFDocument : : _encode_buffer_bins ( Ref < GLTFState > p_state , const String & p_path ) {
print_verbose ( " glTF: Total buffers: " + itos ( p_state - > buffers . size ( ) ) ) ;
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if ( ! p_state - > buffers . size ( ) ) {
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return OK ;
}
Array buffers ;
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for ( GLTFBufferIndex i = 0 ; i < p_state - > buffers . size ( ) ; i + + ) {
Vector < uint8_t > buffer_data = p_state - > buffers [ i ] ;
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Dictionary gltf_buffer ;
String filename = p_path . get_basename ( ) . get_file ( ) + itos ( i ) + " .bin " ;
String path = p_path . get_base_dir ( ) + " / " + filename ;
Error err ;
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FileAccessRef file = FileAccess : : open ( path , FileAccess : : WRITE , & err ) ;
if ( ! file ) {
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return err ;
}
if ( buffer_data . size ( ) = = 0 ) {
return OK ;
}
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file - > create ( FileAccess : : ACCESS_RESOURCES ) ;
file - > store_buffer ( buffer_data . ptr ( ) , buffer_data . size ( ) ) ;
file - > close ( ) ;
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gltf_buffer [ " uri " ] = filename ;
gltf_buffer [ " byteLength " ] = buffer_data . size ( ) ;
buffers . push_back ( gltf_buffer ) ;
}
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p_state - > json [ " buffers " ] = buffers ;
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return OK ;
}
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Error GLTFDocument : : _parse_buffers ( Ref < GLTFState > p_state , const String & p_base_path ) {
if ( ! p_state - > json . has ( " buffers " ) ) {
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return OK ;
}
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const Array & buffers = p_state - > json [ " buffers " ] ;
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for ( GLTFBufferIndex i = 0 ; i < buffers . size ( ) ; i + + ) {
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if ( i = = 0 & & p_state - > glb_data . size ( ) ) {
p_state - > buffers . push_back ( p_state - > glb_data ) ;
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} else {
const Dictionary & buffer = buffers [ i ] ;
if ( buffer . has ( " uri " ) ) {
Vector < uint8_t > buffer_data ;
String uri = buffer [ " uri " ] ;
if ( uri . begins_with ( " data: " ) ) { // Embedded data using base64.
// Validate data MIME types and throw an error if it's one we don't know/support.
if ( ! uri . begins_with ( " data:application/octet-stream;base64 " ) & &
! uri . begins_with ( " data:application/gltf-buffer;base64 " ) ) {
ERR_PRINT ( " glTF: Got buffer with an unknown URI data type: " + uri ) ;
}
buffer_data = _parse_base64_uri ( uri ) ;
} else { // Relative path to an external image file.
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uri = uri . http_unescape ( ) ;
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uri = p_base_path . plus_file ( uri ) . replace ( " \\ " , " / " ) ; // Fix for Windows.
buffer_data = FileAccess : : get_file_as_array ( uri ) ;
ERR_FAIL_COND_V_MSG ( buffer . size ( ) = = 0 , ERR_PARSE_ERROR , " glTF: Couldn't load binary file as an array: " + uri ) ;
}
ERR_FAIL_COND_V ( ! buffer . has ( " byteLength " ) , ERR_PARSE_ERROR ) ;
int byteLength = buffer [ " byteLength " ] ;
ERR_FAIL_COND_V ( byteLength < buffer_data . size ( ) , ERR_PARSE_ERROR ) ;
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p_state - > buffers . push_back ( buffer_data ) ;
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}
}
}
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print_verbose ( " glTF: Total buffers: " + itos ( p_state - > buffers . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _encode_buffer_views ( Ref < GLTFState > p_state ) {
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Array buffers ;
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for ( GLTFBufferViewIndex i = 0 ; i < p_state - > buffer_views . size ( ) ; i + + ) {
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Dictionary d ;
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Ref < GLTFBufferView > buffer_view = p_state - > buffer_views [ i ] ;
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d [ " buffer " ] = buffer_view - > buffer ;
d [ " byteLength " ] = buffer_view - > byte_length ;
d [ " byteOffset " ] = buffer_view - > byte_offset ;
if ( buffer_view - > byte_stride ! = - 1 ) {
d [ " byteStride " ] = buffer_view - > byte_stride ;
}
// TODO Sparse
// d["target"] = buffer_view->indices;
ERR_FAIL_COND_V ( ! d . has ( " buffer " ) , ERR_INVALID_DATA ) ;
ERR_FAIL_COND_V ( ! d . has ( " byteLength " ) , ERR_INVALID_DATA ) ;
buffers . push_back ( d ) ;
}
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print_verbose ( " glTF: Total buffer views: " + itos ( p_state - > buffer_views . size ( ) ) ) ;
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if ( ! buffers . size ( ) ) {
return OK ;
}
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p_state - > json [ " bufferViews " ] = buffers ;
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return OK ;
}
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Error GLTFDocument : : _parse_buffer_views ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " bufferViews " ) ) {
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return OK ;
}
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const Array & buffers = p_state - > json [ " bufferViews " ] ;
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for ( GLTFBufferViewIndex i = 0 ; i < buffers . size ( ) ; i + + ) {
const Dictionary & d = buffers [ i ] ;
Ref < GLTFBufferView > buffer_view ;
buffer_view . instance ( ) ;
ERR_FAIL_COND_V ( ! d . has ( " buffer " ) , ERR_PARSE_ERROR ) ;
buffer_view - > buffer = d [ " buffer " ] ;
ERR_FAIL_COND_V ( ! d . has ( " byteLength " ) , ERR_PARSE_ERROR ) ;
buffer_view - > byte_length = d [ " byteLength " ] ;
if ( d . has ( " byteOffset " ) ) {
buffer_view - > byte_offset = d [ " byteOffset " ] ;
}
if ( d . has ( " byteStride " ) ) {
buffer_view - > byte_stride = d [ " byteStride " ] ;
}
if ( d . has ( " target " ) ) {
const int target = d [ " target " ] ;
buffer_view - > indices = target = = GLTFDocument : : ELEMENT_ARRAY_BUFFER ;
}
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p_state - > buffer_views . push_back ( buffer_view ) ;
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}
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print_verbose ( " glTF: Total buffer views: " + itos ( p_state - > buffer_views . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _encode_accessors ( Ref < GLTFState > p_state ) {
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Array accessors ;
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for ( GLTFAccessorIndex i = 0 ; i < p_state - > accessors . size ( ) ; i + + ) {
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Dictionary d ;
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Ref < GLTFAccessor > accessor = p_state - > accessors [ i ] ;
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d [ " componentType " ] = accessor - > component_type ;
d [ " count " ] = accessor - > count ;
d [ " type " ] = _get_accessor_type_name ( accessor - > type ) ;
d [ " byteOffset " ] = accessor - > byte_offset ;
d [ " normalized " ] = accessor - > normalized ;
Array max ;
max . resize ( accessor - > max . size ( ) ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
max [ max_i ] = accessor - > max [ max_i ] ;
}
d [ " max " ] = max ;
Array min ;
min . resize ( accessor - > min . size ( ) ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
min [ min_i ] = accessor - > min [ min_i ] ;
}
d [ " min " ] = min ;
d [ " bufferView " ] = accessor - > buffer_view ; //optional because it may be sparse...
// Dictionary s;
// s["count"] = accessor->sparse_count;
// ERR_FAIL_COND_V(!s.has("count"), ERR_PARSE_ERROR);
// s["indices"] = accessor->sparse_accessors;
// ERR_FAIL_COND_V(!s.has("indices"), ERR_PARSE_ERROR);
// Dictionary si;
// si["bufferView"] = accessor->sparse_indices_buffer_view;
// ERR_FAIL_COND_V(!si.has("bufferView"), ERR_PARSE_ERROR);
// si["componentType"] = accessor->sparse_indices_component_type;
// if (si.has("byteOffset")) {
// si["byteOffset"] = accessor->sparse_indices_byte_offset;
// }
// ERR_FAIL_COND_V(!si.has("componentType"), ERR_PARSE_ERROR);
// s["indices"] = si;
// Dictionary sv;
// sv["bufferView"] = accessor->sparse_values_buffer_view;
// if (sv.has("byteOffset")) {
// sv["byteOffset"] = accessor->sparse_values_byte_offset;
// }
// ERR_FAIL_COND_V(!sv.has("bufferView"), ERR_PARSE_ERROR);
// s["values"] = sv;
// ERR_FAIL_COND_V(!s.has("values"), ERR_PARSE_ERROR);
// d["sparse"] = s;
accessors . push_back ( d ) ;
}
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if ( ! accessors . size ( ) ) {
return OK ;
}
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p_state - > json [ " accessors " ] = accessors ;
ERR_FAIL_COND_V ( ! p_state - > json . has ( " accessors " ) , ERR_FILE_CORRUPT ) ;
print_verbose ( " glTF: Total accessors: " + itos ( p_state - > accessors . size ( ) ) ) ;
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return OK ;
}
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String GLTFDocument : : _get_accessor_type_name ( const GLTFType p_type ) {
if ( p_type = = GLTFType : : TYPE_SCALAR ) {
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return " SCALAR " ;
}
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if ( p_type = = GLTFType : : TYPE_VEC2 ) {
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return " VEC2 " ;
}
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if ( p_type = = GLTFType : : TYPE_VEC3 ) {
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return " VEC3 " ;
}
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if ( p_type = = GLTFType : : TYPE_VEC4 ) {
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return " VEC4 " ;
}
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if ( p_type = = GLTFType : : TYPE_MAT2 ) {
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return " MAT2 " ;
}
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if ( p_type = = GLTFType : : TYPE_MAT3 ) {
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return " MAT3 " ;
}
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if ( p_type = = GLTFType : : TYPE_MAT4 ) {
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return " MAT4 " ;
}
ERR_FAIL_V ( " SCALAR " ) ;
}
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GLTFType GLTFDocument : : _get_type_from_str ( const String & p_string ) {
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if ( p_string = = " SCALAR " ) {
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return GLTFType : : TYPE_SCALAR ;
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}
if ( p_string = = " VEC2 " ) {
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return GLTFType : : TYPE_VEC2 ;
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}
if ( p_string = = " VEC3 " ) {
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return GLTFType : : TYPE_VEC3 ;
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}
if ( p_string = = " VEC4 " ) {
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return GLTFType : : TYPE_VEC4 ;
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}
if ( p_string = = " MAT2 " ) {
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return GLTFType : : TYPE_MAT2 ;
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}
if ( p_string = = " MAT3 " ) {
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return GLTFType : : TYPE_MAT3 ;
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}
if ( p_string = = " MAT4 " ) {
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return GLTFType : : TYPE_MAT4 ;
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}
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ERR_FAIL_V ( GLTFType : : TYPE_SCALAR ) ;
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}
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Error GLTFDocument : : _parse_accessors ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " accessors " ) ) {
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return OK ;
}
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const Array & accessors = p_state - > json [ " accessors " ] ;
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for ( GLTFAccessorIndex i = 0 ; i < accessors . size ( ) ; i + + ) {
const Dictionary & d = accessors [ i ] ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
ERR_FAIL_COND_V ( ! d . has ( " componentType " ) , ERR_PARSE_ERROR ) ;
accessor - > component_type = d [ " componentType " ] ;
ERR_FAIL_COND_V ( ! d . has ( " count " ) , ERR_PARSE_ERROR ) ;
accessor - > count = d [ " count " ] ;
ERR_FAIL_COND_V ( ! d . has ( " type " ) , ERR_PARSE_ERROR ) ;
accessor - > type = _get_type_from_str ( d [ " type " ] ) ;
if ( d . has ( " bufferView " ) ) {
accessor - > buffer_view = d [ " bufferView " ] ; //optional because it may be sparse...
}
if ( d . has ( " byteOffset " ) ) {
accessor - > byte_offset = d [ " byteOffset " ] ;
}
if ( d . has ( " normalized " ) ) {
accessor - > normalized = d [ " normalized " ] ;
}
if ( d . has ( " max " ) ) {
Array max = d [ " max " ] ;
accessor - > max . resize ( max . size ( ) ) ;
PoolVector < float > : : Write max_write = accessor - > max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < accessor - > max . size ( ) ; max_i + + ) {
max_write [ max_i ] = max [ max_i ] ;
}
}
if ( d . has ( " min " ) ) {
Array min = d [ " min " ] ;
accessor - > min . resize ( min . size ( ) ) ;
PoolVector < float > : : Write min_write = accessor - > min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < accessor - > min . size ( ) ; min_i + + ) {
min_write [ min_i ] = min [ min_i ] ;
}
}
if ( d . has ( " sparse " ) ) {
//eeh..
const Dictionary & s = d [ " sparse " ] ;
ERR_FAIL_COND_V ( ! s . has ( " count " ) , ERR_PARSE_ERROR ) ;
accessor - > sparse_count = s [ " count " ] ;
ERR_FAIL_COND_V ( ! s . has ( " indices " ) , ERR_PARSE_ERROR ) ;
const Dictionary & si = s [ " indices " ] ;
ERR_FAIL_COND_V ( ! si . has ( " bufferView " ) , ERR_PARSE_ERROR ) ;
accessor - > sparse_indices_buffer_view = si [ " bufferView " ] ;
ERR_FAIL_COND_V ( ! si . has ( " componentType " ) , ERR_PARSE_ERROR ) ;
accessor - > sparse_indices_component_type = si [ " componentType " ] ;
if ( si . has ( " byteOffset " ) ) {
accessor - > sparse_indices_byte_offset = si [ " byteOffset " ] ;
}
ERR_FAIL_COND_V ( ! s . has ( " values " ) , ERR_PARSE_ERROR ) ;
const Dictionary & sv = s [ " values " ] ;
ERR_FAIL_COND_V ( ! sv . has ( " bufferView " ) , ERR_PARSE_ERROR ) ;
accessor - > sparse_values_buffer_view = sv [ " bufferView " ] ;
if ( sv . has ( " byteOffset " ) ) {
accessor - > sparse_values_byte_offset = sv [ " byteOffset " ] ;
}
}
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p_state - > accessors . push_back ( accessor ) ;
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}
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print_verbose ( " glTF: Total accessors: " + itos ( p_state - > accessors . size ( ) ) ) ;
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return OK ;
}
double GLTFDocument : : _filter_number ( double p_float ) {
if ( Math : : is_nan ( p_float ) ) {
return 0.0f ;
}
return p_float ;
}
String GLTFDocument : : _get_component_type_name ( const uint32_t p_component ) {
switch ( p_component ) {
case GLTFDocument : : COMPONENT_TYPE_BYTE :
return " Byte " ;
case GLTFDocument : : COMPONENT_TYPE_UNSIGNED_BYTE :
return " UByte " ;
case GLTFDocument : : COMPONENT_TYPE_SHORT :
return " Short " ;
case GLTFDocument : : COMPONENT_TYPE_UNSIGNED_SHORT :
return " UShort " ;
case GLTFDocument : : COMPONENT_TYPE_INT :
return " Int " ;
case GLTFDocument : : COMPONENT_TYPE_FLOAT :
return " Float " ;
}
return " <Error> " ;
}
String GLTFDocument : : _get_type_name ( const GLTFType p_component ) {
static const char * names [ ] = {
" float " ,
" vec2 " ,
" vec3 " ,
" vec4 " ,
" mat2 " ,
" mat3 " ,
" mat4 "
} ;
return names [ p_component ] ;
}
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Error GLTFDocument : : _encode_buffer_view ( Ref < GLTFState > p_state , const double * p_src , const int p_count , const GLTFType p_type , const int p_component_type , const bool p_normalized , const int p_byte_offset , const bool p_for_vertex , GLTFBufferViewIndex & r_accessor ) {
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const int component_count_for_type [ 7 ] = {
1 , 2 , 3 , 4 , 4 , 9 , 16
} ;
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const int component_count = component_count_for_type [ p_type ] ;
const int component_size = _get_component_type_size ( p_component_type ) ;
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ERR_FAIL_COND_V ( component_size = = 0 , FAILED ) ;
int skip_every = 0 ;
int skip_bytes = 0 ;
//special case of alignments, as described in spec
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switch ( p_component_type ) {
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case COMPONENT_TYPE_BYTE :
case COMPONENT_TYPE_UNSIGNED_BYTE : {
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if ( p_type = = TYPE_MAT2 ) {
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skip_every = 2 ;
skip_bytes = 2 ;
}
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if ( p_type = = TYPE_MAT3 ) {
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skip_every = 3 ;
skip_bytes = 1 ;
}
} break ;
case COMPONENT_TYPE_SHORT :
case COMPONENT_TYPE_UNSIGNED_SHORT : {
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if ( p_type = = TYPE_MAT3 ) {
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skip_every = 6 ;
skip_bytes = 4 ;
}
} break ;
default : {
}
}
Ref < GLTFBufferView > bv ;
bv . instance ( ) ;
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const uint32_t offset = bv - > byte_offset = p_byte_offset ;
Vector < uint8_t > & gltf_buffer = p_state - > buffers . write [ 0 ] ;
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int stride = _get_component_type_size ( p_component_type ) ;
if ( p_for_vertex & & stride % 4 ) {
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stride + = 4 - ( stride % 4 ) ; //according to spec must be multiple of 4
}
//use to debug
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print_verbose ( " glTF: encoding type " + _get_type_name ( p_type ) + " component type: " + _get_component_type_name ( p_component_type ) + " stride: " + itos ( stride ) + " amount " + itos ( p_count ) ) ;
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print_verbose ( " glTF: encoding accessor offset " + itos ( p_byte_offset ) + " view offset: " + itos ( bv - > byte_offset ) + " total buffer len: " + itos ( gltf_buffer . size ( ) ) + " view len " + itos ( bv - > byte_length ) ) ;
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const int buffer_end = ( stride * ( p_count - 1 ) ) + _get_component_type_size ( p_component_type ) ;
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// TODO define bv->byte_stride
bv - > byte_offset = gltf_buffer . size ( ) ;
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switch ( p_component_type ) {
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case COMPONENT_TYPE_BYTE : {
Vector < int8_t > buffer ;
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buffer . resize ( p_count * component_count ) ;
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int32_t dst_i = 0 ;
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for ( int i = 0 ; i < p_count ; i + + ) {
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for ( int j = 0 ; j < component_count ; j + + ) {
if ( skip_every & & j > 0 & & ( j % skip_every ) = = 0 ) {
dst_i + = skip_bytes ;
}
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double d = * p_src ;
if ( p_normalized ) {
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buffer . write [ dst_i ] = d * 128.0 ;
} else {
buffer . write [ dst_i ] = d ;
}
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p_src + + ;
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dst_i + + ;
}
}
int64_t old_size = gltf_buffer . size ( ) ;
gltf_buffer . resize ( old_size + ( buffer . size ( ) * sizeof ( int8_t ) ) ) ;
memcpy ( gltf_buffer . ptrw ( ) + old_size , buffer . ptrw ( ) , buffer . size ( ) * sizeof ( int8_t ) ) ;
bv - > byte_length = buffer . size ( ) * sizeof ( int8_t ) ;
} break ;
case COMPONENT_TYPE_UNSIGNED_BYTE : {
Vector < uint8_t > buffer ;
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buffer . resize ( p_count * component_count ) ;
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int32_t dst_i = 0 ;
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for ( int i = 0 ; i < p_count ; i + + ) {
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for ( int j = 0 ; j < component_count ; j + + ) {
if ( skip_every & & j > 0 & & ( j % skip_every ) = = 0 ) {
dst_i + = skip_bytes ;
}
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double d = * p_src ;
if ( p_normalized ) {
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buffer . write [ dst_i ] = d * 255.0 ;
} else {
buffer . write [ dst_i ] = d ;
}
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p_src + + ;
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dst_i + + ;
}
}
gltf_buffer . append_array ( buffer ) ;
bv - > byte_length = buffer . size ( ) * sizeof ( uint8_t ) ;
} break ;
case COMPONENT_TYPE_SHORT : {
Vector < int16_t > buffer ;
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buffer . resize ( p_count * component_count ) ;
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int32_t dst_i = 0 ;
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for ( int i = 0 ; i < p_count ; i + + ) {
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for ( int j = 0 ; j < component_count ; j + + ) {
if ( skip_every & & j > 0 & & ( j % skip_every ) = = 0 ) {
dst_i + = skip_bytes ;
}
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double d = * p_src ;
if ( p_normalized ) {
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buffer . write [ dst_i ] = d * 32768.0 ;
} else {
buffer . write [ dst_i ] = d ;
}
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p_src + + ;
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dst_i + + ;
}
}
int64_t old_size = gltf_buffer . size ( ) ;
gltf_buffer . resize ( old_size + ( buffer . size ( ) * sizeof ( int16_t ) ) ) ;
memcpy ( gltf_buffer . ptrw ( ) + old_size , buffer . ptrw ( ) , buffer . size ( ) * sizeof ( int16_t ) ) ;
bv - > byte_length = buffer . size ( ) * sizeof ( int16_t ) ;
} break ;
case COMPONENT_TYPE_UNSIGNED_SHORT : {
Vector < uint16_t > buffer ;
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buffer . resize ( p_count * component_count ) ;
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int32_t dst_i = 0 ;
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for ( int i = 0 ; i < p_count ; i + + ) {
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for ( int j = 0 ; j < component_count ; j + + ) {
if ( skip_every & & j > 0 & & ( j % skip_every ) = = 0 ) {
dst_i + = skip_bytes ;
}
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double d = * p_src ;
if ( p_normalized ) {
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buffer . write [ dst_i ] = d * 65535.0 ;
} else {
buffer . write [ dst_i ] = d ;
}
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p_src + + ;
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dst_i + + ;
}
}
int64_t old_size = gltf_buffer . size ( ) ;
gltf_buffer . resize ( old_size + ( buffer . size ( ) * sizeof ( uint16_t ) ) ) ;
memcpy ( gltf_buffer . ptrw ( ) + old_size , buffer . ptrw ( ) , buffer . size ( ) * sizeof ( uint16_t ) ) ;
bv - > byte_length = buffer . size ( ) * sizeof ( uint16_t ) ;
} break ;
case COMPONENT_TYPE_INT : {
Vector < int > buffer ;
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buffer . resize ( p_count * component_count ) ;
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int32_t dst_i = 0 ;
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for ( int i = 0 ; i < p_count ; i + + ) {
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for ( int j = 0 ; j < component_count ; j + + ) {
if ( skip_every & & j > 0 & & ( j % skip_every ) = = 0 ) {
dst_i + = skip_bytes ;
}
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double d = * p_src ;
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buffer . write [ dst_i ] = d ;
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p_src + + ;
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dst_i + + ;
}
}
int64_t old_size = gltf_buffer . size ( ) ;
gltf_buffer . resize ( old_size + ( buffer . size ( ) * sizeof ( int32_t ) ) ) ;
memcpy ( gltf_buffer . ptrw ( ) + old_size , buffer . ptrw ( ) , buffer . size ( ) * sizeof ( int32_t ) ) ;
bv - > byte_length = buffer . size ( ) * sizeof ( int32_t ) ;
} break ;
case COMPONENT_TYPE_FLOAT : {
Vector < float > buffer ;
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buffer . resize ( p_count * component_count ) ;
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int32_t dst_i = 0 ;
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for ( int i = 0 ; i < p_count ; i + + ) {
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for ( int j = 0 ; j < component_count ; j + + ) {
if ( skip_every & & j > 0 & & ( j % skip_every ) = = 0 ) {
dst_i + = skip_bytes ;
}
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double d = * p_src ;
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buffer . write [ dst_i ] = d ;
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p_src + + ;
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dst_i + + ;
}
}
int64_t old_size = gltf_buffer . size ( ) ;
gltf_buffer . resize ( old_size + ( buffer . size ( ) * sizeof ( float ) ) ) ;
memcpy ( gltf_buffer . ptrw ( ) + old_size , buffer . ptrw ( ) , buffer . size ( ) * sizeof ( float ) ) ;
bv - > byte_length = buffer . size ( ) * sizeof ( float ) ;
} break ;
}
ERR_FAIL_COND_V ( buffer_end > bv - > byte_length , ERR_INVALID_DATA ) ;
ERR_FAIL_COND_V ( ( int ) ( offset + buffer_end ) > gltf_buffer . size ( ) , ERR_INVALID_DATA ) ;
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r_accessor = bv - > buffer = p_state - > buffer_views . size ( ) ;
p_state - > buffer_views . push_back ( bv ) ;
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return OK ;
}
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Error GLTFDocument : : _decode_buffer_view ( Ref < GLTFState > p_state , double * p_dst , const GLTFBufferViewIndex p_buffer_view , const int p_skip_every , const int p_skip_bytes , const int p_element_size , const int p_count , const GLTFType p_type , const int p_component_count , const int p_component_type , const int p_component_size , const bool p_normalized , const int p_byte_offset , const bool p_for_vertex ) {
const Ref < GLTFBufferView > bv = p_state - > buffer_views [ p_buffer_view ] ;
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int stride = p_element_size ;
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if ( bv - > byte_stride ! = - 1 ) {
stride = bv - > byte_stride ;
}
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if ( p_for_vertex & & stride % 4 ) {
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stride + = 4 - ( stride % 4 ) ; //according to spec must be multiple of 4
}
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ERR_FAIL_INDEX_V ( bv - > buffer , p_state - > buffers . size ( ) , ERR_PARSE_ERROR ) ;
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const uint32_t offset = bv - > byte_offset + p_byte_offset ;
Vector < uint8_t > buffer = p_state - > buffers [ bv - > buffer ] ; //copy on write, so no performance hit
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const uint8_t * bufptr = buffer . ptr ( ) ;
//use to debug
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print_verbose ( " glTF: type " + _get_type_name ( p_type ) + " component type: " + _get_component_type_name ( p_component_type ) + " stride: " + itos ( stride ) + " amount " + itos ( p_count ) ) ;
print_verbose ( " glTF: accessor offset " + itos ( p_byte_offset ) + " view offset: " + itos ( bv - > byte_offset ) + " total buffer len: " + itos ( buffer . size ( ) ) + " view len " + itos ( bv - > byte_length ) ) ;
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const int buffer_end = ( stride * ( p_count - 1 ) ) + p_element_size ;
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ERR_FAIL_COND_V ( buffer_end > bv - > byte_length , ERR_PARSE_ERROR ) ;
ERR_FAIL_COND_V ( ( int ) ( offset + buffer_end ) > buffer . size ( ) , ERR_PARSE_ERROR ) ;
//fill everything as doubles
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for ( int i = 0 ; i < p_count ; i + + ) {
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const uint8_t * src = & bufptr [ offset + i * stride ] ;
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for ( int j = 0 ; j < p_component_count ; j + + ) {
if ( p_skip_every & & j > 0 & & ( j % p_skip_every ) = = 0 ) {
src + = p_skip_bytes ;
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}
double d = 0 ;
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switch ( p_component_type ) {
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case COMPONENT_TYPE_BYTE : {
int8_t b = int8_t ( * src ) ;
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if ( p_normalized ) {
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d = ( double ( b ) / 128.0 ) ;
} else {
d = double ( b ) ;
}
} break ;
case COMPONENT_TYPE_UNSIGNED_BYTE : {
uint8_t b = * src ;
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if ( p_normalized ) {
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d = ( double ( b ) / 255.0 ) ;
} else {
d = double ( b ) ;
}
} break ;
case COMPONENT_TYPE_SHORT : {
int16_t s = * ( int16_t * ) src ;
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if ( p_normalized ) {
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d = ( double ( s ) / 32768.0 ) ;
} else {
d = double ( s ) ;
}
} break ;
case COMPONENT_TYPE_UNSIGNED_SHORT : {
uint16_t s = * ( uint16_t * ) src ;
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if ( p_normalized ) {
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d = ( double ( s ) / 65535.0 ) ;
} else {
d = double ( s ) ;
}
} break ;
case COMPONENT_TYPE_INT : {
d = * ( int * ) src ;
} break ;
case COMPONENT_TYPE_FLOAT : {
d = * ( float * ) src ;
} break ;
}
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* p_dst + + = d ;
src + = p_component_size ;
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}
}
return OK ;
}
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int GLTFDocument : : _get_component_type_size ( const int p_component_type ) {
switch ( p_component_type ) {
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case COMPONENT_TYPE_BYTE :
case COMPONENT_TYPE_UNSIGNED_BYTE :
return 1 ;
break ;
case COMPONENT_TYPE_SHORT :
case COMPONENT_TYPE_UNSIGNED_SHORT :
return 2 ;
break ;
case COMPONENT_TYPE_INT :
case COMPONENT_TYPE_FLOAT :
return 4 ;
break ;
default : {
ERR_FAIL_V ( 0 ) ;
}
}
return 0 ;
}
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Vector < double > GLTFDocument : : _decode_accessor ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
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//spec, for reference:
//https://github.com/KhronosGroup/glTF/tree/master/specification/2.0#data-alignment
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ERR_FAIL_INDEX_V ( p_accessor , p_state - > accessors . size ( ) , Vector < double > ( ) ) ;
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const Ref < GLTFAccessor > a = p_state - > accessors [ p_accessor ] ;
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const int component_count_for_type [ 7 ] = {
1 , 2 , 3 , 4 , 4 , 9 , 16
} ;
const int component_count = component_count_for_type [ a - > type ] ;
const int component_size = _get_component_type_size ( a - > component_type ) ;
ERR_FAIL_COND_V ( component_size = = 0 , Vector < double > ( ) ) ;
int element_size = component_count * component_size ;
int skip_every = 0 ;
int skip_bytes = 0 ;
//special case of alignments, as described in spec
switch ( a - > component_type ) {
case COMPONENT_TYPE_BYTE :
case COMPONENT_TYPE_UNSIGNED_BYTE : {
if ( a - > type = = TYPE_MAT2 ) {
skip_every = 2 ;
skip_bytes = 2 ;
element_size = 8 ; //override for this case
}
if ( a - > type = = TYPE_MAT3 ) {
skip_every = 3 ;
skip_bytes = 1 ;
element_size = 12 ; //override for this case
}
} break ;
case COMPONENT_TYPE_SHORT :
case COMPONENT_TYPE_UNSIGNED_SHORT : {
if ( a - > type = = TYPE_MAT3 ) {
skip_every = 6 ;
skip_bytes = 4 ;
element_size = 16 ; //override for this case
}
} break ;
default : {
}
}
Vector < double > dst_buffer ;
dst_buffer . resize ( component_count * a - > count ) ;
double * dst = dst_buffer . ptrw ( ) ;
if ( a - > buffer_view > = 0 ) {
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ERR_FAIL_INDEX_V ( a - > buffer_view , p_state - > buffer_views . size ( ) , Vector < double > ( ) ) ;
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const Error err = _decode_buffer_view ( p_state , dst , a - > buffer_view , skip_every , skip_bytes , element_size , a - > count , a - > type , component_count , a - > component_type , component_size , a - > normalized , a - > byte_offset , p_for_vertex ) ;
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if ( err ! = OK ) {
return Vector < double > ( ) ;
}
} else {
//fill with zeros, as bufferview is not defined.
for ( int i = 0 ; i < ( a - > count * component_count ) ; i + + ) {
dst_buffer . write [ i ] = 0 ;
}
}
if ( a - > sparse_count > 0 ) {
// I could not find any file using this, so this code is so far untested
Vector < double > indices ;
indices . resize ( a - > sparse_count ) ;
const int indices_component_size = _get_component_type_size ( a - > sparse_indices_component_type ) ;
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Error err = _decode_buffer_view ( p_state , indices . ptrw ( ) , a - > sparse_indices_buffer_view , 0 , 0 , indices_component_size , a - > sparse_count , TYPE_SCALAR , 1 , a - > sparse_indices_component_type , indices_component_size , false , a - > sparse_indices_byte_offset , false ) ;
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if ( err ! = OK ) {
return Vector < double > ( ) ;
}
Vector < double > data ;
data . resize ( component_count * a - > sparse_count ) ;
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err = _decode_buffer_view ( p_state , data . ptrw ( ) , a - > sparse_values_buffer_view , skip_every , skip_bytes , element_size , a - > sparse_count , a - > type , component_count , a - > component_type , component_size , a - > normalized , a - > sparse_values_byte_offset , p_for_vertex ) ;
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if ( err ! = OK ) {
return Vector < double > ( ) ;
}
for ( int i = 0 ; i < indices . size ( ) ; i + + ) {
const int write_offset = int ( indices [ i ] ) * component_count ;
for ( int j = 0 ; j < component_count ; j + + ) {
dst [ write_offset + j ] = data [ i * component_count + j ] ;
}
}
}
return dst_buffer ;
}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_ints ( Ref < GLTFState > p_state , const Vector < int32_t > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int element_count = 1 ;
const int ret_size = p_attribs . size ( ) ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
attribs . write [ i ] = Math : : stepify ( p_attribs [ i ] , 1.0 ) ;
if ( i = = 0 ) {
for ( int32_t type_i = 0 ; type_i < element_count ; type_i + + ) {
type_max . write [ type_i ] = attribs [ ( i * element_count ) + type_i ] ;
type_min . write [ type_i ] = attribs [ ( i * element_count ) + type_i ] ;
}
}
for ( int32_t type_i = 0 ; type_i < element_count ; type_i + + ) {
type_max . write [ type_i ] = MAX ( attribs [ ( i * element_count ) + type_i ] , type_max [ type_i ] ) ;
type_min . write [ type_i ] = MIN ( attribs [ ( i * element_count ) + type_i ] , type_min [ type_i ] ) ;
type_max . write [ type_i ] = _filter_number ( type_max . write [ type_i ] ) ;
type_min . write [ type_i ] = _filter_number ( type_min . write [ type_i ] ) ;
}
}
ERR_FAIL_COND_V ( attribs . size ( ) = = 0 , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_SCALAR ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_INT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
accessor - > min = min ;
accessor - > normalized = false ;
accessor - > count = ret_size ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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Vector < int > GLTFDocument : : _decode_accessor_as_ints ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < int > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
const double * attribs_ptr = attribs . ptr ( ) ;
const int ret_size = attribs . size ( ) ;
ret . resize ( ret_size ) ;
{
for ( int i = 0 ; i < ret_size ; i + + ) {
ret . write [ i ] = int ( attribs_ptr [ i ] ) ;
}
}
return ret ;
}
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Vector < float > GLTFDocument : : _decode_accessor_as_floats ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < float > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
const double * attribs_ptr = attribs . ptr ( ) ;
const int ret_size = attribs . size ( ) ;
ret . resize ( ret_size ) ;
{
for ( int i = 0 ; i < ret_size ; i + + ) {
ret . write [ i ] = float ( attribs_ptr [ i ] ) ;
}
}
return ret ;
}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_vec2 ( Ref < GLTFState > p_state , const Vector < Vector2 > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int element_count = 2 ;
const int ret_size = p_attribs . size ( ) * element_count ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
Vector2 attrib = p_attribs [ i ] ;
attribs . write [ ( i * element_count ) + 0 ] = Math : : stepify ( attrib . x , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 1 ] = Math : : stepify ( attrib . y , CMP_NORMALIZE_TOLERANCE ) ;
_calc_accessor_min_max ( i , element_count , type_max , attribs , type_min ) ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % element_count ! = 0 , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_VEC2 ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_FLOAT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
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accessor - > min = min ;
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accessor - > normalized = false ;
accessor - > count = p_attribs . size ( ) ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , p_attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_color ( Ref < GLTFState > p_state , const Vector < Color > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int ret_size = p_attribs . size ( ) * 4 ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
const int element_count = 4 ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
Color attrib = p_attribs [ i ] ;
attribs . write [ ( i * element_count ) + 0 ] = Math : : stepify ( attrib . r , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 1 ] = Math : : stepify ( attrib . g , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 2 ] = Math : : stepify ( attrib . b , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 3 ] = Math : : stepify ( attrib . a , CMP_NORMALIZE_TOLERANCE ) ;
_calc_accessor_min_max ( i , element_count , type_max , attribs , type_min ) ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % element_count ! = 0 , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_VEC4 ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_FLOAT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
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accessor - > min = min ;
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accessor - > normalized = false ;
accessor - > count = p_attribs . size ( ) ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , p_attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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void GLTFDocument : : _calc_accessor_min_max ( int p_i , const int p_element_count , Vector < double > & p_type_max , Vector < double > p_attribs , Vector < double > & p_type_min ) {
if ( p_i = = 0 ) {
for ( int32_t type_i = 0 ; type_i < p_element_count ; type_i + + ) {
p_type_max . write [ type_i ] = p_attribs [ ( p_i * p_element_count ) + type_i ] ;
p_type_min . write [ type_i ] = p_attribs [ ( p_i * p_element_count ) + type_i ] ;
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}
}
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for ( int32_t type_i = 0 ; type_i < p_element_count ; type_i + + ) {
p_type_max . write [ type_i ] = MAX ( p_attribs [ ( p_i * p_element_count ) + type_i ] , p_type_max [ type_i ] ) ;
p_type_min . write [ type_i ] = MIN ( p_attribs [ ( p_i * p_element_count ) + type_i ] , p_type_min [ type_i ] ) ;
p_type_max . write [ type_i ] = _filter_number ( p_type_max . write [ type_i ] ) ;
p_type_min . write [ type_i ] = _filter_number ( p_type_min . write [ type_i ] ) ;
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}
}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_weights ( Ref < GLTFState > p_state , const Vector < Color > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int ret_size = p_attribs . size ( ) * 4 ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
const int element_count = 4 ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
Color attrib = p_attribs [ i ] ;
attribs . write [ ( i * element_count ) + 0 ] = Math : : stepify ( attrib . r , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 1 ] = Math : : stepify ( attrib . g , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 2 ] = Math : : stepify ( attrib . b , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 3 ] = Math : : stepify ( attrib . a , CMP_NORMALIZE_TOLERANCE ) ;
_calc_accessor_min_max ( i , element_count , type_max , attribs , type_min ) ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % element_count ! = 0 , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_VEC4 ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_FLOAT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
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accessor - > min = min ;
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accessor - > normalized = false ;
accessor - > count = p_attribs . size ( ) ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , p_attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_joints ( Ref < GLTFState > p_state , const Vector < Color > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int element_count = 4 ;
const int ret_size = p_attribs . size ( ) * element_count ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
Color attrib = p_attribs [ i ] ;
attribs . write [ ( i * element_count ) + 0 ] = Math : : stepify ( attrib . r , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 1 ] = Math : : stepify ( attrib . g , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 2 ] = Math : : stepify ( attrib . b , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 3 ] = Math : : stepify ( attrib . a , CMP_NORMALIZE_TOLERANCE ) ;
_calc_accessor_min_max ( i , element_count , type_max , attribs , type_min ) ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % element_count ! = 0 , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_VEC4 ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_UNSIGNED_SHORT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
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accessor - > min = min ;
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accessor - > normalized = false ;
accessor - > count = p_attribs . size ( ) ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , p_attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_quats ( Ref < GLTFState > p_state , const Vector < Quat > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int element_count = 4 ;
const int ret_size = p_attribs . size ( ) * element_count ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
Quat quat = p_attribs [ i ] ;
attribs . write [ ( i * element_count ) + 0 ] = Math : : stepify ( quat . x , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 1 ] = Math : : stepify ( quat . y , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 2 ] = Math : : stepify ( quat . z , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 3 ] = Math : : stepify ( quat . w , CMP_NORMALIZE_TOLERANCE ) ;
_calc_accessor_min_max ( i , element_count , type_max , attribs , type_min ) ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % element_count ! = 0 , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_VEC4 ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_FLOAT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
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accessor - > min = min ;
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accessor - > normalized = false ;
accessor - > count = p_attribs . size ( ) ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , p_attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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Vector < Vector2 > GLTFDocument : : _decode_accessor_as_vec2 ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < Vector2 > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % 2 ! = 0 , ret ) ;
const double * attribs_ptr = attribs . ptr ( ) ;
const int ret_size = attribs . size ( ) / 2 ;
ret . resize ( ret_size ) ;
{
for ( int i = 0 ; i < ret_size ; i + + ) {
ret . write [ i ] = Vector2 ( attribs_ptr [ i * 2 + 0 ] , attribs_ptr [ i * 2 + 1 ] ) ;
}
}
return ret ;
}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_floats ( Ref < GLTFState > p_state , const Vector < real_t > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int element_count = 1 ;
const int ret_size = p_attribs . size ( ) ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
attribs . write [ i ] = Math : : stepify ( p_attribs [ i ] , CMP_NORMALIZE_TOLERANCE ) ;
_calc_accessor_min_max ( i , element_count , type_max , attribs , type_min ) ;
}
ERR_FAIL_COND_V ( ! attribs . size ( ) , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_SCALAR ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_FLOAT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
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accessor - > min = min ;
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accessor - > normalized = false ;
accessor - > count = ret_size ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_vec3 ( Ref < GLTFState > p_state , const Vector < Vector3 > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int element_count = 3 ;
const int ret_size = p_attribs . size ( ) * element_count ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
Vector3 attrib = p_attribs [ i ] ;
attribs . write [ ( i * element_count ) + 0 ] = Math : : stepify ( attrib . x , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 1 ] = Math : : stepify ( attrib . y , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ ( i * element_count ) + 2 ] = Math : : stepify ( attrib . z , CMP_NORMALIZE_TOLERANCE ) ;
_calc_accessor_min_max ( i , element_count , type_max , attribs , type_min ) ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % element_count ! = 0 , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_VEC3 ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_FLOAT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
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accessor - > min = min ;
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accessor - > normalized = false ;
accessor - > count = p_attribs . size ( ) ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , p_attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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GLTFAccessorIndex GLTFDocument : : _encode_accessor_as_xform ( Ref < GLTFState > p_state , const Vector < Transform > p_attribs , const bool p_for_vertex ) {
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if ( p_attribs . size ( ) = = 0 ) {
return - 1 ;
}
const int element_count = 16 ;
const int ret_size = p_attribs . size ( ) * element_count ;
Vector < double > attribs ;
attribs . resize ( ret_size ) ;
Vector < double > type_max ;
type_max . resize ( element_count ) ;
Vector < double > type_min ;
type_min . resize ( element_count ) ;
for ( int i = 0 ; i < p_attribs . size ( ) ; i + + ) {
Transform attrib = p_attribs [ i ] ;
Basis basis = attrib . get_basis ( ) ;
Vector3 axis_0 = basis . get_axis ( Vector3 : : AXIS_X ) ;
attribs . write [ i * element_count + 0 ] = Math : : stepify ( axis_0 . x , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 1 ] = Math : : stepify ( axis_0 . y , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 2 ] = Math : : stepify ( axis_0 . z , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 3 ] = 0.0 ;
Vector3 axis_1 = basis . get_axis ( Vector3 : : AXIS_Y ) ;
attribs . write [ i * element_count + 4 ] = Math : : stepify ( axis_1 . x , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 5 ] = Math : : stepify ( axis_1 . y , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 6 ] = Math : : stepify ( axis_1 . z , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 7 ] = 0.0 ;
Vector3 axis_2 = basis . get_axis ( Vector3 : : AXIS_Z ) ;
attribs . write [ i * element_count + 8 ] = Math : : stepify ( axis_2 . x , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 9 ] = Math : : stepify ( axis_2 . y , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 10 ] = Math : : stepify ( axis_2 . z , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 11 ] = 0.0 ;
Vector3 origin = attrib . get_origin ( ) ;
attribs . write [ i * element_count + 12 ] = Math : : stepify ( origin . x , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 13 ] = Math : : stepify ( origin . y , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 14 ] = Math : : stepify ( origin . z , CMP_NORMALIZE_TOLERANCE ) ;
attribs . write [ i * element_count + 15 ] = 1.0 ;
_calc_accessor_min_max ( i , element_count , type_max , attribs , type_min ) ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % element_count ! = 0 , - 1 ) ;
Ref < GLTFAccessor > accessor ;
accessor . instance ( ) ;
GLTFBufferIndex buffer_view_i ;
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int64_t size = p_state - > buffers [ 0 ] . size ( ) ;
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const GLTFType type = GLTFType : : TYPE_MAT4 ;
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const int component_type = GLTFDocument : : COMPONENT_TYPE_FLOAT ;
PoolVector < float > max ;
max . resize ( type_max . size ( ) ) ;
PoolVector < float > : : Write write_max = max . write ( ) ;
for ( int32_t max_i = 0 ; max_i < max . size ( ) ; max_i + + ) {
write_max [ max_i ] = type_max [ max_i ] ;
}
accessor - > max = max ;
PoolVector < float > min ;
min . resize ( type_min . size ( ) ) ;
PoolVector < float > : : Write write_min = min . write ( ) ;
for ( int32_t min_i = 0 ; min_i < min . size ( ) ; min_i + + ) {
write_min [ min_i ] = type_min [ min_i ] ;
}
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accessor - > min = min ;
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accessor - > normalized = false ;
accessor - > count = p_attribs . size ( ) ;
accessor - > type = type ;
accessor - > component_type = component_type ;
accessor - > byte_offset = 0 ;
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Error err = _encode_buffer_view ( p_state , attribs . ptr ( ) , p_attribs . size ( ) , type , component_type , accessor - > normalized , size , p_for_vertex , buffer_view_i ) ;
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if ( err ! = OK ) {
return - 1 ;
}
accessor - > buffer_view = buffer_view_i ;
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p_state - > accessors . push_back ( accessor ) ;
return p_state - > accessors . size ( ) - 1 ;
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}
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Vector < Vector3 > GLTFDocument : : _decode_accessor_as_vec3 ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < Vector3 > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % 3 ! = 0 , ret ) ;
const double * attribs_ptr = attribs . ptr ( ) ;
const int ret_size = attribs . size ( ) / 3 ;
ret . resize ( ret_size ) ;
{
for ( int i = 0 ; i < ret_size ; i + + ) {
ret . write [ i ] = Vector3 ( attribs_ptr [ i * 3 + 0 ] , attribs_ptr [ i * 3 + 1 ] , attribs_ptr [ i * 3 + 2 ] ) ;
}
}
return ret ;
}
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Vector < Color > GLTFDocument : : _decode_accessor_as_color ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < Color > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
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const int type = p_state - > accessors [ p_accessor ] - > type ;
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ERR_FAIL_COND_V ( ! ( type = = TYPE_VEC3 | | type = = TYPE_VEC4 ) , ret ) ;
int vec_len = 3 ;
if ( type = = TYPE_VEC4 ) {
vec_len = 4 ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % vec_len ! = 0 , ret ) ;
const double * attribs_ptr = attribs . ptr ( ) ;
const int ret_size = attribs . size ( ) / vec_len ;
ret . resize ( ret_size ) ;
{
for ( int i = 0 ; i < ret_size ; i + + ) {
ret . write [ i ] = Color ( attribs_ptr [ i * vec_len + 0 ] , attribs_ptr [ i * vec_len + 1 ] , attribs_ptr [ i * vec_len + 2 ] , vec_len = = 4 ? attribs_ptr [ i * 4 + 3 ] : 1.0 ) ;
}
}
return ret ;
}
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Vector < Quat > GLTFDocument : : _decode_accessor_as_quat ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < Quat > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % 4 ! = 0 , ret ) ;
const double * attribs_ptr = attribs . ptr ( ) ;
const int ret_size = attribs . size ( ) / 4 ;
ret . resize ( ret_size ) ;
{
for ( int i = 0 ; i < ret_size ; i + + ) {
ret . write [ i ] = Quat ( attribs_ptr [ i * 4 + 0 ] , attribs_ptr [ i * 4 + 1 ] , attribs_ptr [ i * 4 + 2 ] , attribs_ptr [ i * 4 + 3 ] ) . normalized ( ) ;
}
}
return ret ;
}
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Vector < Transform2D > GLTFDocument : : _decode_accessor_as_xform2d ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < Transform2D > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % 4 ! = 0 , ret ) ;
ret . resize ( attribs . size ( ) / 4 ) ;
for ( int i = 0 ; i < ret . size ( ) ; i + + ) {
ret . write [ i ] [ 0 ] = Vector2 ( attribs [ i * 4 + 0 ] , attribs [ i * 4 + 1 ] ) ;
ret . write [ i ] [ 1 ] = Vector2 ( attribs [ i * 4 + 2 ] , attribs [ i * 4 + 3 ] ) ;
}
return ret ;
}
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Vector < Basis > GLTFDocument : : _decode_accessor_as_basis ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < Basis > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % 9 ! = 0 , ret ) ;
ret . resize ( attribs . size ( ) / 9 ) ;
for ( int i = 0 ; i < ret . size ( ) ; i + + ) {
ret . write [ i ] . set_axis ( 0 , Vector3 ( attribs [ i * 9 + 0 ] , attribs [ i * 9 + 1 ] , attribs [ i * 9 + 2 ] ) ) ;
ret . write [ i ] . set_axis ( 1 , Vector3 ( attribs [ i * 9 + 3 ] , attribs [ i * 9 + 4 ] , attribs [ i * 9 + 5 ] ) ) ;
ret . write [ i ] . set_axis ( 2 , Vector3 ( attribs [ i * 9 + 6 ] , attribs [ i * 9 + 7 ] , attribs [ i * 9 + 8 ] ) ) ;
}
return ret ;
}
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Vector < Transform > GLTFDocument : : _decode_accessor_as_xform ( Ref < GLTFState > p_state , const GLTFAccessorIndex p_accessor , const bool p_for_vertex ) {
const Vector < double > attribs = _decode_accessor ( p_state , p_accessor , p_for_vertex ) ;
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Vector < Transform > ret ;
if ( attribs . size ( ) = = 0 ) {
return ret ;
}
ERR_FAIL_COND_V ( attribs . size ( ) % 16 ! = 0 , ret ) ;
ret . resize ( attribs . size ( ) / 16 ) ;
for ( int i = 0 ; i < ret . size ( ) ; i + + ) {
ret . write [ i ] . basis . set_axis ( 0 , Vector3 ( attribs [ i * 16 + 0 ] , attribs [ i * 16 + 1 ] , attribs [ i * 16 + 2 ] ) ) ;
ret . write [ i ] . basis . set_axis ( 1 , Vector3 ( attribs [ i * 16 + 4 ] , attribs [ i * 16 + 5 ] , attribs [ i * 16 + 6 ] ) ) ;
ret . write [ i ] . basis . set_axis ( 2 , Vector3 ( attribs [ i * 16 + 8 ] , attribs [ i * 16 + 9 ] , attribs [ i * 16 + 10 ] ) ) ;
ret . write [ i ] . set_origin ( Vector3 ( attribs [ i * 16 + 12 ] , attribs [ i * 16 + 13 ] , attribs [ i * 16 + 14 ] ) ) ;
}
return ret ;
}
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Error GLTFDocument : : _serialize_meshes ( Ref < GLTFState > p_state ) {
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Array meshes ;
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for ( GLTFMeshIndex gltf_mesh_i = 0 ; gltf_mesh_i < p_state - > meshes . size ( ) ; gltf_mesh_i + + ) {
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print_verbose ( " glTF: Serializing mesh: " + itos ( gltf_mesh_i ) ) ;
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Ref < ArrayMesh > import_mesh = p_state - > meshes . write [ gltf_mesh_i ] - > get_mesh ( ) ;
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if ( import_mesh . is_null ( ) ) {
continue ;
}
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Array instance_materials = p_state - > meshes . write [ gltf_mesh_i ] - > get_instance_materials ( ) ;
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Array primitives ;
Dictionary gltf_mesh ;
Array target_names ;
Array weights ;
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for ( int morph_i = 0 ; morph_i < import_mesh - > get_blend_shape_count ( ) ; morph_i + + ) {
target_names . push_back ( import_mesh - > get_blend_shape_name ( morph_i ) ) ;
}
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for ( int surface_i = 0 ; surface_i < import_mesh - > get_surface_count ( ) ; surface_i + + ) {
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Array targets ;
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Dictionary primitive ;
Mesh : : PrimitiveType primitive_type = import_mesh - > surface_get_primitive_type ( surface_i ) ;
switch ( primitive_type ) {
case Mesh : : PRIMITIVE_POINTS : {
primitive [ " mode " ] = 0 ;
break ;
}
case Mesh : : PRIMITIVE_LINES : {
primitive [ " mode " ] = 1 ;
break ;
}
// case Mesh::PRIMITIVE_LINE_LOOP: {
// primitive["mode"] = 2;
// break;
// }
case Mesh : : PRIMITIVE_LINE_STRIP : {
primitive [ " mode " ] = 3 ;
break ;
}
case Mesh : : PRIMITIVE_TRIANGLES : {
primitive [ " mode " ] = 4 ;
break ;
}
case Mesh : : PRIMITIVE_TRIANGLE_STRIP : {
primitive [ " mode " ] = 5 ;
break ;
}
// case Mesh::PRIMITIVE_TRIANGLE_FAN: {
// primitive["mode"] = 6;
// break;
// }
default : {
ERR_FAIL_V ( FAILED ) ;
}
}
Array array = import_mesh - > surface_get_arrays ( surface_i ) ;
Dictionary attributes ;
{
Vector < Vector3 > a = array [ Mesh : : ARRAY_VERTEX ] ;
ERR_FAIL_COND_V ( ! a . size ( ) , ERR_INVALID_DATA ) ;
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attributes [ " POSITION " ] = _encode_accessor_as_vec3 ( p_state , a , true ) ;
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}
{
Vector < real_t > a = array [ Mesh : : ARRAY_TANGENT ] ;
if ( a . size ( ) ) {
const int ret_size = a . size ( ) / 4 ;
Vector < Color > attribs ;
attribs . resize ( ret_size ) ;
for ( int i = 0 ; i < ret_size ; i + + ) {
Color out ;
out . r = a [ ( i * 4 ) + 0 ] ;
out . g = a [ ( i * 4 ) + 1 ] ;
out . b = a [ ( i * 4 ) + 2 ] ;
out . a = a [ ( i * 4 ) + 3 ] ;
attribs . write [ i ] = out ;
}
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attributes [ " TANGENT " ] = _encode_accessor_as_color ( p_state , attribs , true ) ;
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}
}
{
Vector < Vector3 > a = array [ Mesh : : ARRAY_NORMAL ] ;
if ( a . size ( ) ) {
const int ret_size = a . size ( ) ;
Vector < Vector3 > attribs ;
attribs . resize ( ret_size ) ;
for ( int i = 0 ; i < ret_size ; i + + ) {
attribs . write [ i ] = Vector3 ( a [ i ] ) . normalized ( ) ;
}
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attributes [ " NORMAL " ] = _encode_accessor_as_vec3 ( p_state , attribs , true ) ;
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}
}
{
Vector < Vector2 > a = array [ Mesh : : ARRAY_TEX_UV ] ;
if ( a . size ( ) ) {
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attributes [ " TEXCOORD_0 " ] = _encode_accessor_as_vec2 ( p_state , a , true ) ;
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}
}
{
Vector < Vector2 > a = array [ Mesh : : ARRAY_TEX_UV2 ] ;
if ( a . size ( ) ) {
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attributes [ " TEXCOORD_1 " ] = _encode_accessor_as_vec2 ( p_state , a , true ) ;
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}
}
{
Vector < Color > a = array [ Mesh : : ARRAY_COLOR ] ;
if ( a . size ( ) ) {
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attributes [ " COLOR_0 " ] = _encode_accessor_as_color ( p_state , a , true ) ;
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}
}
Map < int , int > joint_i_to_bone_i ;
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for ( GLTFNodeIndex node_i = 0 ; node_i < p_state - > nodes . size ( ) ; node_i + + ) {
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GLTFSkinIndex skin_i = - 1 ;
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if ( p_state - > nodes [ node_i ] - > mesh = = gltf_mesh_i ) {
skin_i = p_state - > nodes [ node_i ] - > skin ;
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}
if ( skin_i ! = - 1 ) {
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joint_i_to_bone_i = p_state - > skins [ skin_i ] - > joint_i_to_bone_i ;
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break ;
}
}
{
const Array & a = array [ Mesh : : ARRAY_BONES ] ;
const Vector < Vector3 > & vertex_array = array [ Mesh : : ARRAY_VERTEX ] ;
if ( ( a . size ( ) / JOINT_GROUP_SIZE ) = = vertex_array . size ( ) ) {
const int ret_size = a . size ( ) / JOINT_GROUP_SIZE ;
Vector < Color > attribs ;
attribs . resize ( ret_size ) ;
{
for ( int array_i = 0 ; array_i < attribs . size ( ) ; array_i + + ) {
int32_t joint_0 = a [ ( array_i * JOINT_GROUP_SIZE ) + 0 ] ;
int32_t joint_1 = a [ ( array_i * JOINT_GROUP_SIZE ) + 1 ] ;
int32_t joint_2 = a [ ( array_i * JOINT_GROUP_SIZE ) + 2 ] ;
int32_t joint_3 = a [ ( array_i * JOINT_GROUP_SIZE ) + 3 ] ;
attribs . write [ array_i ] = Color ( joint_0 , joint_1 , joint_2 , joint_3 ) ;
}
}
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attributes [ " JOINTS_0 " ] = _encode_accessor_as_joints ( p_state , attribs , true ) ;
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}
ERR_FAIL_COND_V ( ( a . size ( ) / ( JOINT_GROUP_SIZE * 2 ) ) > = vertex_array . size ( ) , FAILED ) ;
}
{
const Array & a = array [ Mesh : : ARRAY_WEIGHTS ] ;
const Vector < Vector3 > & vertex_array = array [ Mesh : : ARRAY_VERTEX ] ;
if ( ( a . size ( ) / JOINT_GROUP_SIZE ) = = vertex_array . size ( ) ) {
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int32_t vertex_count = vertex_array . size ( ) ;
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Vector < Color > attribs ;
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attribs . resize ( vertex_count ) ;
for ( int i = 0 ; i < vertex_count ; i + + ) {
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attribs . write [ i ] = Color ( a [ ( i * JOINT_GROUP_SIZE ) + 0 ] , a [ ( i * JOINT_GROUP_SIZE ) + 1 ] , a [ ( i * JOINT_GROUP_SIZE ) + 2 ] , a [ ( i * JOINT_GROUP_SIZE ) + 3 ] ) ;
}
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attributes [ " WEIGHTS_0 " ] = _encode_accessor_as_weights ( p_state , attribs , true ) ;
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} else if ( ( a . size ( ) / ( JOINT_GROUP_SIZE * 2 ) ) > = vertex_array . size ( ) ) {
int32_t vertex_count = vertex_array . size ( ) ;
Vector < Color > weights_0 ;
weights_0 . resize ( vertex_count ) ;
Vector < Color > weights_1 ;
weights_1 . resize ( vertex_count ) ;
int32_t weights_8_count = JOINT_GROUP_SIZE * 2 ;
for ( int32_t vertex_i = 0 ; vertex_i < vertex_count ; vertex_i + + ) {
Color weight_0 ;
weight_0 . r = a [ vertex_i * weights_8_count + 0 ] ;
weight_0 . g = a [ vertex_i * weights_8_count + 1 ] ;
weight_0 . b = a [ vertex_i * weights_8_count + 2 ] ;
weight_0 . a = a [ vertex_i * weights_8_count + 3 ] ;
weights_0 . write [ vertex_i ] = weight_0 ;
Color weight_1 ;
weight_1 . r = a [ vertex_i * weights_8_count + 4 ] ;
weight_1 . g = a [ vertex_i * weights_8_count + 5 ] ;
weight_1 . b = a [ vertex_i * weights_8_count + 6 ] ;
weight_1 . a = a [ vertex_i * weights_8_count + 7 ] ;
weights_1 . write [ vertex_i ] = weight_1 ;
}
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attributes [ " WEIGHTS_0 " ] = _encode_accessor_as_weights ( p_state , weights_0 , true ) ;
attributes [ " WEIGHTS_1 " ] = _encode_accessor_as_weights ( p_state , weights_1 , true ) ;
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}
}
{
Vector < int32_t > mesh_indices = array [ Mesh : : ARRAY_INDEX ] ;
if ( mesh_indices . size ( ) ) {
if ( primitive_type = = Mesh : : PRIMITIVE_TRIANGLES ) {
//swap around indices, convert ccw to cw for front face
const int is = mesh_indices . size ( ) ;
for ( int k = 0 ; k < is ; k + = 3 ) {
SWAP ( mesh_indices . write [ k + 0 ] , mesh_indices . write [ k + 2 ] ) ;
}
}
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primitive [ " indices " ] = _encode_accessor_as_ints ( p_state , mesh_indices , true ) ;
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} else {
if ( primitive_type = = Mesh : : PRIMITIVE_TRIANGLES ) {
//generate indices because they need to be swapped for CW/CCW
const Vector < Vector3 > & vertices = array [ Mesh : : ARRAY_VERTEX ] ;
Ref < SurfaceTool > st ;
st . instance ( ) ;
st - > create_from_triangle_arrays ( array ) ;
st - > index ( ) ;
Vector < int32_t > generated_indices = st - > commit_to_arrays ( ) [ Mesh : : ARRAY_INDEX ] ;
const int vs = vertices . size ( ) ;
generated_indices . resize ( vs ) ;
{
for ( int k = 0 ; k < vs ; k + = 3 ) {
generated_indices . write [ k ] = k ;
generated_indices . write [ k + 1 ] = k + 2 ;
generated_indices . write [ k + 2 ] = k + 1 ;
}
}
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primitive [ " indices " ] = _encode_accessor_as_ints ( p_state , generated_indices , true ) ;
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}
}
}
primitive [ " attributes " ] = attributes ;
//blend shapes
print_verbose ( " glTF: Mesh has targets " ) ;
if ( import_mesh - > get_blend_shape_count ( ) ) {
ArrayMesh : : BlendShapeMode shape_mode = import_mesh - > get_blend_shape_mode ( ) ;
Array array_morphs = import_mesh - > surface_get_blend_shape_arrays ( surface_i ) ;
for ( int morph_i = 0 ; morph_i < array_morphs . size ( ) ; morph_i + + ) {
Array array_morph = array_morphs [ morph_i ] ;
Dictionary t ;
Vector < Vector3 > varr = array_morph [ Mesh : : ARRAY_VERTEX ] ;
Array mesh_arrays = import_mesh - > surface_get_arrays ( surface_i ) ;
if ( varr . size ( ) ) {
Vector < Vector3 > src_varr = array [ Mesh : : ARRAY_VERTEX ] ;
if ( shape_mode = = ArrayMesh : : BlendShapeMode : : BLEND_SHAPE_MODE_NORMALIZED ) {
const int max_idx = src_varr . size ( ) ;
for ( int blend_i = 0 ; blend_i < max_idx ; blend_i + + ) {
varr . write [ blend_i ] = Vector3 ( varr [ blend_i ] ) - src_varr [ blend_i ] ;
}
}
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t [ " POSITION " ] = _encode_accessor_as_vec3 ( p_state , varr , true ) ;
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}
Vector < Vector3 > narr = array_morph [ Mesh : : ARRAY_NORMAL ] ;
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if ( narr . size ( ) ) {
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t [ " NORMAL " ] = _encode_accessor_as_vec3 ( p_state , narr , true ) ;
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}
Vector < real_t > tarr = array_morph [ Mesh : : ARRAY_TANGENT ] ;
if ( tarr . size ( ) ) {
const int ret_size = tarr . size ( ) / 4 ;
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Vector < Vector3 > attribs ;
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attribs . resize ( ret_size ) ;
for ( int i = 0 ; i < ret_size ; i + + ) {
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Vector3 vec3 ;
vec3 . x = tarr [ ( i * 4 ) + 0 ] ;
vec3 . y = tarr [ ( i * 4 ) + 1 ] ;
vec3 . z = tarr [ ( i * 4 ) + 2 ] ;
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}
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t [ " TANGENT " ] = _encode_accessor_as_vec3 ( p_state , attribs , true ) ;
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}
targets . push_back ( t ) ;
}
}
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Variant v ;
if ( surface_i < instance_materials . size ( ) ) {
v = instance_materials . get ( surface_i ) ;
}
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Ref < Material3D > mat = v ;
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if ( ! mat . is_valid ( ) ) {
mat = import_mesh - > surface_get_material ( surface_i ) ;
}
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if ( mat . is_valid ( ) ) {
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Map < Ref < Material > , GLTFMaterialIndex > : : Element * material_cache_i = p_state - > material_cache . find ( mat ) ;
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if ( material_cache_i & & material_cache_i - > get ( ) ! = - 1 ) {
primitive [ " material " ] = material_cache_i - > get ( ) ;
} else {
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GLTFMaterialIndex mat_i = p_state - > materials . size ( ) ;
p_state - > materials . push_back ( mat ) ;
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primitive [ " material " ] = mat_i ;
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p_state - > material_cache . insert ( mat , mat_i ) ;
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}
}
if ( targets . size ( ) ) {
primitive [ " targets " ] = targets ;
}
primitives . push_back ( primitive ) ;
}
Dictionary e ;
e [ " targetNames " ] = target_names ;
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weights . resize ( target_names . size ( ) ) ;
for ( int name_i = 0 ; name_i < target_names . size ( ) ; name_i + + ) {
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real_t weight = 0.0 ;
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if ( name_i < p_state - > meshes . write [ gltf_mesh_i ] - > get_blend_weights ( ) . size ( ) ) {
weight = p_state - > meshes . write [ gltf_mesh_i ] - > get_blend_weights ( ) [ name_i ] ;
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}
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weights [ name_i ] = weight ;
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}
if ( weights . size ( ) ) {
gltf_mesh [ " weights " ] = weights ;
}
ERR_FAIL_COND_V ( target_names . size ( ) ! = weights . size ( ) , FAILED ) ;
gltf_mesh [ " extras " ] = e ;
gltf_mesh [ " primitives " ] = primitives ;
meshes . push_back ( gltf_mesh ) ;
}
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if ( ! meshes . size ( ) ) {
return OK ;
}
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p_state - > json [ " meshes " ] = meshes ;
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print_verbose ( " glTF: Total meshes: " + itos ( meshes . size ( ) ) ) ;
return OK ;
}
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Error GLTFDocument : : _parse_meshes ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " meshes " ) ) {
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return OK ;
}
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bool has_warned = false ;
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Array meshes = p_state - > json [ " meshes " ] ;
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for ( GLTFMeshIndex i = 0 ; i < meshes . size ( ) ; i + + ) {
print_verbose ( " glTF: Parsing mesh: " + itos ( i ) ) ;
Dictionary d = meshes [ i ] ;
Ref < GLTFMesh > mesh ;
mesh . instance ( ) ;
bool has_vertex_color = false ;
ERR_FAIL_COND_V ( ! d . has ( " primitives " ) , ERR_PARSE_ERROR ) ;
Array primitives = d [ " primitives " ] ;
const Dictionary & extras = d . has ( " extras " ) ? ( Dictionary ) d [ " extras " ] : Dictionary ( ) ;
Ref < ArrayMesh > import_mesh ;
import_mesh . instance ( ) ;
String mesh_name = " mesh " ;
if ( d . has ( " name " ) & & ! String ( d [ " name " ] ) . empty ( ) ) {
mesh_name = d [ " name " ] ;
}
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import_mesh - > set_name ( _gen_unique_name ( p_state , vformat ( " %s_%s " , p_state - > scene_name , mesh_name ) ) ) ;
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for ( int j = 0 ; j < primitives . size ( ) ; j + + ) {
Dictionary p = primitives [ j ] ;
Array array ;
array . resize ( Mesh : : ARRAY_MAX ) ;
ERR_FAIL_COND_V ( ! p . has ( " attributes " ) , ERR_PARSE_ERROR ) ;
Dictionary a = p [ " attributes " ] ;
Mesh : : PrimitiveType primitive = Mesh : : PRIMITIVE_TRIANGLES ;
if ( p . has ( " mode " ) ) {
const int mode = p [ " mode " ] ;
ERR_FAIL_INDEX_V ( mode , 7 , ERR_FILE_CORRUPT ) ;
static const Mesh : : PrimitiveType primitives2 [ 7 ] = {
Mesh : : PRIMITIVE_POINTS ,
Mesh : : PRIMITIVE_LINES ,
Mesh : : PRIMITIVE_LINES , //loop not supported, should ce converted
Mesh : : PRIMITIVE_LINES ,
Mesh : : PRIMITIVE_TRIANGLES ,
Mesh : : PRIMITIVE_TRIANGLE_STRIP ,
Mesh : : PRIMITIVE_TRIANGLES , //fan not supported, should be converted
# ifndef _MSC_VER
// #warning line loop and triangle fan are not supported and need to be converted to lines and triangles
# endif
} ;
primitive = primitives2 [ mode ] ;
}
ERR_FAIL_COND_V ( ! a . has ( " POSITION " ) , ERR_PARSE_ERROR ) ;
if ( a . has ( " POSITION " ) ) {
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array [ Mesh : : ARRAY_VERTEX ] = _decode_accessor_as_vec3 ( p_state , a [ " POSITION " ] , true ) ;
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}
if ( a . has ( " NORMAL " ) ) {
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array [ Mesh : : ARRAY_NORMAL ] = _decode_accessor_as_vec3 ( p_state , a [ " NORMAL " ] , true ) ;
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}
if ( a . has ( " TANGENT " ) ) {
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array [ Mesh : : ARRAY_TANGENT ] = _decode_accessor_as_floats ( p_state , a [ " TANGENT " ] , true ) ;
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}
if ( a . has ( " TEXCOORD_0 " ) ) {
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array [ Mesh : : ARRAY_TEX_UV ] = _decode_accessor_as_vec2 ( p_state , a [ " TEXCOORD_0 " ] , true ) ;
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}
if ( a . has ( " TEXCOORD_1 " ) ) {
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array [ Mesh : : ARRAY_TEX_UV2 ] = _decode_accessor_as_vec2 ( p_state , a [ " TEXCOORD_1 " ] , true ) ;
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}
if ( a . has ( " COLOR_0 " ) ) {
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array [ Mesh : : ARRAY_COLOR ] = _decode_accessor_as_color ( p_state , a [ " COLOR_0 " ] , true ) ;
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has_vertex_color = true ;
}
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if ( a . has ( " JOINTS_0 " ) ) {
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array [ Mesh : : ARRAY_BONES ] = _decode_accessor_as_ints ( p_state , a [ " JOINTS_0 " ] , true ) ;
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}
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if ( a . has ( " WEIGHTS_1 " ) & & a . has ( " JOINTS_1 " ) ) {
if ( ! has_warned ) {
WARN_PRINT ( " glTF: Meshes use more than 4 bone joints " ) ;
has_warned = true ;
}
}
if ( a . has ( " WEIGHTS_0 " ) ) {
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Vector < float > weights = _decode_accessor_as_floats ( p_state , a [ " WEIGHTS_0 " ] , true ) ;
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{ //gltf does not seem to normalize the weights for some reason..
int wc = weights . size ( ) ;
float * w = weights . ptrw ( ) ;
for ( int k = 0 ; k < wc ; k + = 4 ) {
float total = 0.0 ;
total + = w [ k + 0 ] ;
total + = w [ k + 1 ] ;
total + = w [ k + 2 ] ;
total + = w [ k + 3 ] ;
if ( total > 0.0 ) {
w [ k + 0 ] / = total ;
w [ k + 1 ] / = total ;
w [ k + 2 ] / = total ;
w [ k + 3 ] / = total ;
}
}
}
array [ Mesh : : ARRAY_WEIGHTS ] = weights ;
}
if ( p . has ( " indices " ) ) {
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Vector < int > indices = _decode_accessor_as_ints ( p_state , p [ " indices " ] , false ) ;
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if ( primitive = = Mesh : : PRIMITIVE_TRIANGLES ) {
//swap around indices, convert ccw to cw for front face
const int is = indices . size ( ) ;
int * w = indices . ptrw ( ) ;
for ( int k = 0 ; k < is ; k + = 3 ) {
SWAP ( w [ k + 1 ] , w [ k + 2 ] ) ;
}
}
array [ Mesh : : ARRAY_INDEX ] = indices ;
} else if ( primitive = = Mesh : : PRIMITIVE_TRIANGLES ) {
//generate indices because they need to be swapped for CW/CCW
const Vector < Vector3 > & vertices = array [ Mesh : : ARRAY_VERTEX ] ;
ERR_FAIL_COND_V ( vertices . size ( ) = = 0 , ERR_PARSE_ERROR ) ;
Vector < int > indices ;
const int vs = vertices . size ( ) ;
indices . resize ( vs ) ;
{
int * w = indices . ptrw ( ) ;
for ( int k = 0 ; k < vs ; k + = 3 ) {
w [ k ] = k ;
w [ k + 1 ] = k + 2 ;
w [ k + 2 ] = k + 1 ;
}
}
array [ Mesh : : ARRAY_INDEX ] = indices ;
}
bool generate_tangents = ( primitive = = Mesh : : PRIMITIVE_TRIANGLES & & ! a . has ( " TANGENT " ) & & a . has ( " TEXCOORD_0 " ) & & a . has ( " NORMAL " ) ) ;
if ( generate_tangents ) {
//must generate mikktspace tangents.. ergh..
Ref < SurfaceTool > st ;
st . instance ( ) ;
st - > create_from_triangle_arrays ( array ) ;
st - > generate_tangents ( ) ;
array = st - > commit_to_arrays ( ) ;
}
Array morphs ;
//blend shapes
if ( p . has ( " targets " ) ) {
print_verbose ( " glTF: Mesh has targets " ) ;
const Array & targets = p [ " targets " ] ;
//ideally BLEND_SHAPE_MODE_RELATIVE since gltf2 stores in displacement
//but it could require a larger refactor?
import_mesh - > set_blend_shape_mode ( Mesh : : BLEND_SHAPE_MODE_NORMALIZED ) ;
if ( j = = 0 ) {
const Array & target_names = extras . has ( " targetNames " ) ? ( Array ) extras [ " targetNames " ] : Array ( ) ;
for ( int k = 0 ; k < targets . size ( ) ; k + + ) {
const String name = k < target_names . size ( ) ? ( String ) target_names [ k ] : String ( " morph_ " ) + itos ( k ) ;
import_mesh - > add_blend_shape ( name ) ;
}
}
for ( int k = 0 ; k < targets . size ( ) ; k + + ) {
const Dictionary & t = targets [ k ] ;
Array array_copy ;
array_copy . resize ( Mesh : : ARRAY_MAX ) ;
for ( int l = 0 ; l < Mesh : : ARRAY_MAX ; l + + ) {
array_copy [ l ] = array [ l ] ;
}
array_copy [ Mesh : : ARRAY_INDEX ] = Variant ( ) ;
if ( t . has ( " POSITION " ) ) {
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Vector < Vector3 > varr = _decode_accessor_as_vec3 ( p_state , t [ " POSITION " ] , true ) ;
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const Vector < Vector3 > src_varr = array [ Mesh : : ARRAY_VERTEX ] ;
const int size = src_varr . size ( ) ;
ERR_FAIL_COND_V ( size = = 0 , ERR_PARSE_ERROR ) ;
{
const int max_idx = varr . size ( ) ;
varr . resize ( size ) ;
Vector3 * w_varr = varr . ptrw ( ) ;
const Vector3 * r_varr = varr . ptr ( ) ;
const Vector3 * r_src_varr = src_varr . ptr ( ) ;
for ( int l = 0 ; l < size ; l + + ) {
if ( l < max_idx ) {
w_varr [ l ] = r_varr [ l ] + r_src_varr [ l ] ;
} else {
w_varr [ l ] = r_src_varr [ l ] ;
}
}
}
array_copy [ Mesh : : ARRAY_VERTEX ] = varr ;
}
if ( t . has ( " NORMAL " ) ) {
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Vector < Vector3 > narr = _decode_accessor_as_vec3 ( p_state , t [ " NORMAL " ] , true ) ;
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const Vector < Vector3 > src_narr = array [ Mesh : : ARRAY_NORMAL ] ;
int size = src_narr . size ( ) ;
ERR_FAIL_COND_V ( size = = 0 , ERR_PARSE_ERROR ) ;
{
int max_idx = narr . size ( ) ;
narr . resize ( size ) ;
Vector3 * w_narr = narr . ptrw ( ) ;
const Vector3 * r_narr = narr . ptr ( ) ;
const Vector3 * r_src_narr = src_narr . ptr ( ) ;
for ( int l = 0 ; l < size ; l + + ) {
if ( l < max_idx ) {
w_narr [ l ] = r_narr [ l ] + r_src_narr [ l ] ;
} else {
w_narr [ l ] = r_src_narr [ l ] ;
}
}
}
array_copy [ Mesh : : ARRAY_NORMAL ] = narr ;
}
if ( t . has ( " TANGENT " ) ) {
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const Vector < Vector3 > tangents_v3 = _decode_accessor_as_vec3 ( p_state , t [ " TANGENT " ] , true ) ;
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const Vector < float > src_tangents = array [ Mesh : : ARRAY_TANGENT ] ;
ERR_FAIL_COND_V ( src_tangents . size ( ) = = 0 , ERR_PARSE_ERROR ) ;
Vector < float > tangents_v4 ;
{
int max_idx = tangents_v3 . size ( ) ;
int size4 = src_tangents . size ( ) ;
tangents_v4 . resize ( size4 ) ;
float * w4 = tangents_v4 . ptrw ( ) ;
const Vector3 * r3 = tangents_v3 . ptr ( ) ;
const float * r4 = src_tangents . ptr ( ) ;
for ( int l = 0 ; l < size4 / 4 ; l + + ) {
if ( l < max_idx ) {
w4 [ l * 4 + 0 ] = r3 [ l ] . x + r4 [ l * 4 + 0 ] ;
w4 [ l * 4 + 1 ] = r3 [ l ] . y + r4 [ l * 4 + 1 ] ;
w4 [ l * 4 + 2 ] = r3 [ l ] . z + r4 [ l * 4 + 2 ] ;
} else {
w4 [ l * 4 + 0 ] = r4 [ l * 4 + 0 ] ;
w4 [ l * 4 + 1 ] = r4 [ l * 4 + 1 ] ;
w4 [ l * 4 + 2 ] = r4 [ l * 4 + 2 ] ;
}
w4 [ l * 4 + 3 ] = r4 [ l * 4 + 3 ] ; //copy flip value
}
}
array_copy [ Mesh : : ARRAY_TANGENT ] = tangents_v4 ;
}
if ( generate_tangents ) {
Ref < SurfaceTool > st ;
st . instance ( ) ;
st - > create_from_triangle_arrays ( array_copy ) ;
st - > deindex ( ) ;
st - > generate_tangents ( ) ;
array_copy = st - > commit_to_arrays ( ) ;
}
morphs . push_back ( array_copy ) ;
}
}
//just add it
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Ref < Material > mat ;
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if ( p . has ( " material " ) ) {
const int material = p [ " material " ] ;
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ERR_FAIL_INDEX_V ( material , p_state - > materials . size ( ) , ERR_FILE_CORRUPT ) ;
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Ref < Material3D > mat3d = p_state - > materials [ material ] ;
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if ( has_vertex_color ) {
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mat3d - > set_flag ( Material3D : : FLAG_ALBEDO_FROM_VERTEX_COLOR , true ) ;
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}
mat = mat3d ;
} else if ( has_vertex_color ) {
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Ref < SpatialMaterial > mat3d ;
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mat3d . instance ( ) ;
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mat3d - > set_flag ( Material3D : : FLAG_ALBEDO_FROM_VERTEX_COLOR , true ) ;
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mat = mat3d ;
}
int32_t mat_idx = import_mesh - > get_surface_count ( ) ;
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// Check for invalid indices.
if ( array [ Mesh : : ARRAY_INDEX ] & & array [ Mesh : : ARRAY_INDEX ] ! = Variant ( ) ) {
const Vector < int > & inds = array [ Mesh : : ARRAY_INDEX ] ;
if ( array [ Mesh : : ARRAY_VERTEX ] & & array [ Mesh : : ARRAY_VERTEX ] ! = Variant ( ) ) {
const Vector < Vector3 > & vertices = array [ Mesh : : ARRAY_VERTEX ] ;
int num_verts = vertices . size ( ) ;
// The mesh contains invalid indices, abort.
ERR_FAIL_COND_V ( ! Geometry : : verify_indices ( inds . ptr ( ) , inds . size ( ) , num_verts ) , ERR_FILE_CORRUPT ) ;
}
}
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import_mesh - > add_surface_from_arrays ( primitive , array , morphs , p_state - > compress_flags ) ;
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import_mesh - > surface_set_material ( mat_idx , mat ) ;
}
Vector < float > blend_weights ;
blend_weights . resize ( import_mesh - > get_blend_shape_count ( ) ) ;
for ( int32_t weight_i = 0 ; weight_i < blend_weights . size ( ) ; weight_i + + ) {
blend_weights . write [ weight_i ] = 0.0f ;
}
if ( d . has ( " weights " ) ) {
const Array & weights = d [ " weights " ] ;
for ( int j = 0 ; j < weights . size ( ) ; j + + ) {
if ( j > = blend_weights . size ( ) ) {
break ;
}
blend_weights . write [ j ] = weights [ j ] ;
}
}
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mesh - > set_blend_weights ( blend_weights ) ;
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mesh - > set_mesh ( import_mesh ) ;
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p_state - > meshes . push_back ( mesh ) ;
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}
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print_verbose ( " glTF: Total meshes: " + itos ( p_state - > meshes . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _serialize_images ( Ref < GLTFState > p_state , const String & p_path ) {
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Array images ;
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for ( int i = 0 ; i < p_state - > images . size ( ) ; i + + ) {
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Dictionary d ;
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ERR_CONTINUE ( p_state - > images [ i ] . is_null ( ) ) ;
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Ref < Image > image = p_state - > images [ i ] ;
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ERR_CONTINUE ( image . is_null ( ) ) ;
if ( p_path . to_lower ( ) . ends_with ( " glb " ) ) {
GLTFBufferViewIndex bvi ;
Ref < GLTFBufferView > bv ;
bv . instance ( ) ;
const GLTFBufferIndex bi = 0 ;
bv - > buffer = bi ;
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bv - > byte_offset = p_state - > buffers [ bi ] . size ( ) ;
ERR_FAIL_INDEX_V ( bi , p_state - > buffers . size ( ) , ERR_PARAMETER_RANGE_ERROR ) ;
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PoolVector < uint8_t > buffer ;
Ref < ImageTexture > img_tex = image ;
if ( img_tex . is_valid ( ) ) {
image = img_tex - > get_data ( ) ;
}
Error err = PNGDriverCommon : : image_to_png ( image , buffer ) ;
ERR_FAIL_COND_V_MSG ( err , err , " Can't convert image to PNG. " ) ;
bv - > byte_length = buffer . size ( ) ;
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p_state - > buffers . write [ bi ] . resize ( p_state - > buffers [ bi ] . size ( ) + bv - > byte_length ) ;
memcpy ( & p_state - > buffers . write [ bi ] . write [ bv - > byte_offset ] , buffer . read ( ) . ptr ( ) , buffer . size ( ) ) ;
ERR_FAIL_COND_V ( bv - > byte_offset + bv - > byte_length > p_state - > buffers [ bi ] . size ( ) , ERR_FILE_CORRUPT ) ;
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p_state - > buffer_views . push_back ( bv ) ;
bvi = p_state - > buffer_views . size ( ) - 1 ;
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d [ " bufferView " ] = bvi ;
d [ " mimeType " ] = " image/png " ;
} else {
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String name = p_state - > images [ i ] - > get_name ( ) ;
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if ( name . empty ( ) ) {
name = itos ( i ) ;
}
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name = _gen_unique_name ( p_state , name ) ;
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name = name . pad_zeros ( 3 ) ;
Ref < _Directory > dir ;
dir . instance ( ) ;
String texture_dir = " textures " ;
String new_texture_dir = p_path . get_base_dir ( ) + " / " + texture_dir ;
dir - > open ( p_path . get_base_dir ( ) ) ;
if ( ! dir - > dir_exists ( new_texture_dir ) ) {
dir - > make_dir ( new_texture_dir ) ;
}
name = name + " .png " ;
image - > save_png ( new_texture_dir . plus_file ( name ) ) ;
d [ " uri " ] = texture_dir . plus_file ( name ) ;
}
images . push_back ( d ) ;
}
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print_verbose ( " Total images: " + itos ( p_state - > images . size ( ) ) ) ;
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if ( ! images . size ( ) ) {
return OK ;
}
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p_state - > json [ " images " ] = images ;
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return OK ;
}
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Error GLTFDocument : : _parse_images ( Ref < GLTFState > p_state , const String & p_base_path ) {
if ( ! p_state - > json . has ( " images " ) ) {
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return OK ;
}
// Ref: https://github.com/KhronosGroup/glTF/blob/master/specification/2.0/README.md#images
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const Array & images = p_state - > json [ " images " ] ;
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for ( int i = 0 ; i < images . size ( ) ; i + + ) {
const Dictionary & d = images [ i ] ;
// glTF 2.0 supports PNG and JPEG types, which can be specified as (from spec):
// "- a URI to an external file in one of the supported images formats, or
// - a URI with embedded base64-encoded data, or
// - a reference to a bufferView; in that case mimeType must be defined."
// Since mimeType is optional for external files and base64 data, we'll have to
// fall back on letting Godot parse the data to figure out if it's PNG or JPEG.
// We'll assume that we use either URI or bufferView, so let's warn the user
// if their image somehow uses both. And fail if it has neither.
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ERR_CONTINUE_MSG ( ! d . has ( " uri " ) & & ! d . has ( " bufferView " ) , " Invalid image definition in glTF file, it should specify an 'uri' or 'bufferView'. " ) ;
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if ( d . has ( " uri " ) & & d . has ( " bufferView " ) ) {
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WARN_PRINT ( " Invalid image definition in glTF file using both 'uri' and 'bufferView'. 'uri' will take precedence. " ) ;
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}
String mimetype ;
if ( d . has ( " mimeType " ) ) { // Should be "image/png" or "image/jpeg".
mimetype = d [ " mimeType " ] ;
}
Vector < uint8_t > data ;
const uint8_t * data_ptr = nullptr ;
int data_size = 0 ;
if ( d . has ( " uri " ) ) {
// Handles the first two bullet points from the spec (embedded data, or external file).
String uri = d [ " uri " ] ;
if ( uri . begins_with ( " data: " ) ) { // Embedded data using base64.
// Validate data MIME types and throw a warning if it's one we don't know/support.
if ( ! uri . begins_with ( " data:application/octet-stream;base64 " ) & &
! uri . begins_with ( " data:application/gltf-buffer;base64 " ) & &
! uri . begins_with ( " data:image/png;base64 " ) & &
! uri . begins_with ( " data:image/jpeg;base64 " ) ) {
WARN_PRINT ( vformat ( " glTF: Image index '%d' uses an unsupported URI data type: %s. Skipping it. " , i , uri ) ) ;
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p_state - > images . push_back ( Ref < Image > ( ) ) ; // Placeholder to keep count.
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continue ;
}
data = _parse_base64_uri ( uri ) ;
data_ptr = data . ptr ( ) ;
data_size = data . size ( ) ;
// mimeType is optional, but if we have it defined in the URI, let's use it.
if ( mimetype . empty ( ) ) {
if ( uri . begins_with ( " data:image/png;base64 " ) ) {
mimetype = " image/png " ;
} else if ( uri . begins_with ( " data:image/jpeg;base64 " ) ) {
mimetype = " image/jpeg " ;
}
}
} else { // Relative path to an external image file.
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uri = uri . http_unescape ( ) ;
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uri = p_base_path . plus_file ( uri ) . replace ( " \\ " , " / " ) ; // Fix for Windows.
// ResourceLoader will rely on the file extension to use the relevant loader.
// The spec says that if mimeType is defined, it should take precedence (e.g.
// there could be a `.png` image which is actually JPEG), but there's no easy
// API for that in Godot, so we'd have to load as a buffer (i.e. embedded in
// the material), so we do this only as fallback.
Ref < Texture > texture = ResourceLoader : : load ( uri ) ;
if ( texture . is_valid ( ) ) {
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p_state - > images . push_back ( texture - > get_data ( ) ) ;
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p_state - > external_images_paths . insert ( i , uri ) ;
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continue ;
} else if ( mimetype = = " image/png " | | mimetype = = " image/jpeg " ) {
// Fallback to loading as byte array.
// This enables us to support the spec's requirement that we honor mimetype
// regardless of file URI.
data = FileAccess : : get_file_as_array ( uri ) ;
if ( data . size ( ) = = 0 ) {
WARN_PRINT ( vformat ( " glTF: Image index '%d' couldn't be loaded as a buffer of MIME type '%s' from URI: %s. Skipping it. " , i , mimetype , uri ) ) ;
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p_state - > images . push_back ( Ref < Image > ( ) ) ; // Placeholder to keep count.
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continue ;
}
data_ptr = data . ptr ( ) ;
data_size = data . size ( ) ;
} else {
WARN_PRINT ( vformat ( " glTF: Image index '%d' couldn't be loaded from URI: %s. Skipping it. " , i , uri ) ) ;
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p_state - > images . push_back ( Ref < Image > ( ) ) ; // Placeholder to keep count.
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continue ;
}
}
} else if ( d . has ( " bufferView " ) ) {
// Handles the third bullet point from the spec (bufferView).
ERR_FAIL_COND_V_MSG ( mimetype . empty ( ) , ERR_FILE_CORRUPT ,
vformat ( " glTF: Image index '%d' specifies 'bufferView' but no 'mimeType', which is invalid. " , i ) ) ;
const GLTFBufferViewIndex bvi = d [ " bufferView " ] ;
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ERR_FAIL_INDEX_V ( bvi , p_state - > buffer_views . size ( ) , ERR_PARAMETER_RANGE_ERROR ) ;
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Ref < GLTFBufferView > bv = p_state - > buffer_views [ bvi ] ;
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const GLTFBufferIndex bi = bv - > buffer ;
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ERR_FAIL_INDEX_V ( bi , p_state - > buffers . size ( ) , ERR_PARAMETER_RANGE_ERROR ) ;
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ERR_FAIL_COND_V ( bv - > byte_offset + bv - > byte_length > p_state - > buffers [ bi ] . size ( ) , ERR_FILE_CORRUPT ) ;
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data_ptr = & p_state - > buffers [ bi ] [ bv - > byte_offset ] ;
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data_size = bv - > byte_length ;
}
Ref < Image > img ;
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// First we honor the mime types if they were defined.
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if ( mimetype = = " image/png " ) { // Load buffer as PNG.
ERR_FAIL_COND_V ( Image : : _png_mem_loader_func = = nullptr , ERR_UNAVAILABLE ) ;
img = Image : : _png_mem_loader_func ( data_ptr , data_size ) ;
} else if ( mimetype = = " image/jpeg " ) { // Loader buffer as JPEG.
ERR_FAIL_COND_V ( Image : : _jpg_mem_loader_func = = nullptr , ERR_UNAVAILABLE ) ;
img = Image : : _jpg_mem_loader_func ( data_ptr , data_size ) ;
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}
// If we didn't pass the above tests, we attempt loading as PNG and then
// JPEG directly.
// This covers URIs with base64-encoded data with application/* type but
// no optional mimeType property, or bufferViews with a bogus mimeType
// (e.g. `image/jpeg` but the data is actually PNG).
// That's not *exactly* what the spec mandates but this lets us be
// lenient with bogus glb files which do exist in production.
if ( img . is_null ( ) ) { // Try PNG first.
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ERR_FAIL_COND_V ( Image : : _png_mem_loader_func = = nullptr , ERR_UNAVAILABLE ) ;
img = Image : : _png_mem_loader_func ( data_ptr , data_size ) ;
}
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if ( img . is_null ( ) ) { // And then JPEG.
ERR_FAIL_COND_V ( Image : : _jpg_mem_loader_func = = nullptr , ERR_UNAVAILABLE ) ;
img = Image : : _jpg_mem_loader_func ( data_ptr , data_size ) ;
}
// Now we've done our best, fix your scenes.
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if ( img . is_null ( ) ) {
ERR_PRINT ( vformat ( " glTF: Couldn't load image index '%d' with its given mimetype: %s. " , i , mimetype ) ) ;
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p_state - > images . push_back ( Ref < Image > ( ) ) ;
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continue ;
}
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p_state - > images . push_back ( img ) ;
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}
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print_verbose ( " glTF: Total images: " + itos ( p_state - > images . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _serialize_textures ( Ref < GLTFState > p_state ) {
if ( ! p_state - > textures . size ( ) ) {
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return OK ;
}
Array textures ;
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for ( int32_t i = 0 ; i < p_state - > textures . size ( ) ; i + + ) {
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Dictionary d ;
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Ref < GLTFTexture > t = p_state - > textures [ i ] ;
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ERR_CONTINUE ( t - > get_src_image ( ) = = - 1 ) ;
d [ " source " ] = t - > get_src_image ( ) ;
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GLTFTextureSamplerIndex sampler_index = t - > get_sampler ( ) ;
if ( sampler_index ! = - 1 ) {
d [ " sampler " ] = sampler_index ;
}
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textures . push_back ( d ) ;
}
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p_state - > json [ " textures " ] = textures ;
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return OK ;
}
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Error GLTFDocument : : _parse_textures ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " textures " ) ) {
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return OK ;
}
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const Array & textures = p_state - > json [ " textures " ] ;
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for ( GLTFTextureIndex i = 0 ; i < textures . size ( ) ; i + + ) {
const Dictionary & d = textures [ i ] ;
ERR_FAIL_COND_V ( ! d . has ( " source " ) , ERR_PARSE_ERROR ) ;
Ref < GLTFTexture > t ;
t . instance ( ) ;
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GLTFImageIndex gltf_src_image_i = d [ " source " ] ;
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ERR_FAIL_INDEX_V ( gltf_src_image_i , p_state - > images . size ( ) , ERR_PARSE_ERROR ) ;
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t - > set_src_image ( gltf_src_image_i ) ;
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if ( d . has ( " sampler " ) ) {
t - > set_sampler ( d [ " sampler " ] ) ;
} else {
t - > set_sampler ( - 1 ) ;
}
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p_state - > textures . push_back ( t ) ;
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Ref < Texture > tex ;
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// Create and cache the texture used in the engine
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if ( p_state - > external_images_paths . has ( t - > get_src_image ( ) ) ) {
tex = ResourceLoader : : load ( p_state - > external_images_paths [ t - > get_src_image ( ) ] ) ;
} else {
Ref < ImageTexture > img_tex ;
img_tex . instance ( ) ;
img_tex - > create_from_image ( p_state - > images [ t - > get_src_image ( ) ] ) ;
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// Set texture filter and repeat based on sampler settings. Only supported for embedded textures
const Ref < GLTFTextureSampler > sampler = _get_sampler_for_texture ( p_state , i ) ;
Texture : : Flags flags = sampler - > get_texture_flags ( ) ;
img_tex - > set_flags ( flags ) ;
tex = img_tex ;
}
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p_state - > texture_cache . insert ( i , tex ) ;
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}
return OK ;
}
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GLTFTextureIndex GLTFDocument : : _set_texture ( Ref < GLTFState > p_state , Ref < Texture > p_texture ) {
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ERR_FAIL_COND_V ( p_texture . is_null ( ) , - 1 ) ;
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ERR_FAIL_COND_V ( p_texture - > get_data ( ) . is_null ( ) , - 1 ) ;
// Create GLTF data structures for the new texture
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Ref < GLTFTexture > gltf_texture ;
gltf_texture . instance ( ) ;
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GLTFImageIndex gltf_src_image_i = p_state - > images . size ( ) ;
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p_state - > images . push_back ( p_texture - > get_data ( ) ) ;
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GLTFTextureSamplerIndex gltf_sampler_i = _set_sampler_for_mode ( p_state , p_texture - > get_flags ( ) ) ;
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gltf_texture - > set_src_image ( gltf_src_image_i ) ;
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gltf_texture - > set_sampler ( gltf_sampler_i ) ;
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GLTFTextureIndex gltf_texture_i = p_state - > textures . size ( ) ;
p_state - > textures . push_back ( gltf_texture ) ;
p_state - > texture_cache [ gltf_texture_i ] = p_texture ;
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return gltf_texture_i ;
}
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Ref < Texture > GLTFDocument : : _get_texture ( Ref < GLTFState > p_state , const GLTFTextureIndex p_texture ) {
ERR_FAIL_INDEX_V ( p_texture , p_state - > textures . size ( ) , Ref < Texture > ( ) ) ;
return p_state - > texture_cache [ p_texture ] ;
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}
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GLTFTextureSamplerIndex GLTFDocument : : _set_sampler_for_mode ( Ref < GLTFState > p_state , uint32_t p_mode ) {
for ( int i = 0 ; i < p_state - > texture_samplers . size ( ) ; + + i ) {
if ( p_state - > texture_samplers [ i ] - > get_texture_flags ( ) = = p_mode ) {
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return i ;
}
}
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GLTFTextureSamplerIndex gltf_sampler_i = p_state - > texture_samplers . size ( ) ;
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Ref < GLTFTextureSampler > gltf_sampler ;
gltf_sampler . instance ( ) ;
gltf_sampler - > set_texture_flags ( p_mode ) ;
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p_state - > texture_samplers . push_back ( gltf_sampler ) ;
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return gltf_sampler_i ;
}
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Ref < GLTFTextureSampler > GLTFDocument : : _get_sampler_for_texture ( Ref < GLTFState > p_state , const GLTFTextureIndex p_texture ) {
ERR_FAIL_INDEX_V ( p_texture , p_state - > textures . size ( ) , p_state - > default_texture_sampler ) ;
const GLTFTextureSamplerIndex sampler = p_state - > textures [ p_texture ] - > get_sampler ( ) ;
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if ( sampler = = - 1 ) {
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return p_state - > default_texture_sampler ;
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} else {
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ERR_FAIL_INDEX_V ( sampler , p_state - > texture_samplers . size ( ) , p_state - > default_texture_sampler ) ;
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return p_state - > texture_samplers [ sampler ] ;
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}
}
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Error GLTFDocument : : _serialize_texture_samplers ( Ref < GLTFState > p_state ) {
if ( ! p_state - > texture_samplers . size ( ) ) {
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return OK ;
}
Array samplers ;
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for ( int32_t i = 0 ; i < p_state - > texture_samplers . size ( ) ; + + i ) {
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Dictionary d ;
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Ref < GLTFTextureSampler > s = p_state - > texture_samplers [ i ] ;
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d [ " magFilter " ] = s - > get_mag_filter ( ) ;
d [ " minFilter " ] = s - > get_min_filter ( ) ;
d [ " wrapS " ] = s - > get_wrap_s ( ) ;
d [ " wrapT " ] = s - > get_wrap_t ( ) ;
samplers . push_back ( d ) ;
}
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p_state - > json [ " samplers " ] = samplers ;
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return OK ;
}
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Error GLTFDocument : : _parse_texture_samplers ( Ref < GLTFState > p_state ) {
p_state - > default_texture_sampler . instance ( ) ;
p_state - > default_texture_sampler - > set_min_filter ( GLTFTextureSampler : : FilterMode : : LINEAR_MIPMAP_LINEAR ) ;
p_state - > default_texture_sampler - > set_mag_filter ( GLTFTextureSampler : : FilterMode : : LINEAR ) ;
p_state - > default_texture_sampler - > set_wrap_s ( GLTFTextureSampler : : WrapMode : : REPEAT ) ;
p_state - > default_texture_sampler - > set_wrap_t ( GLTFTextureSampler : : WrapMode : : REPEAT ) ;
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if ( ! p_state - > json . has ( " samplers " ) ) {
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return OK ;
}
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const Array & samplers = p_state - > json [ " samplers " ] ;
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for ( int i = 0 ; i < samplers . size ( ) ; + + i ) {
const Dictionary & d = samplers [ i ] ;
Ref < GLTFTextureSampler > sampler ;
sampler . instance ( ) ;
if ( d . has ( " minFilter " ) ) {
sampler - > set_min_filter ( d [ " minFilter " ] ) ;
} else {
sampler - > set_min_filter ( GLTFTextureSampler : : FilterMode : : LINEAR_MIPMAP_LINEAR ) ;
}
if ( d . has ( " magFilter " ) ) {
sampler - > set_mag_filter ( d [ " magFilter " ] ) ;
} else {
sampler - > set_mag_filter ( GLTFTextureSampler : : FilterMode : : LINEAR ) ;
}
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if ( d . has ( " wrapS " ) ) {
sampler - > set_wrap_s ( d [ " wrapS " ] ) ;
} else {
sampler - > set_wrap_s ( GLTFTextureSampler : : WrapMode : : REPEAT ) ;
}
if ( d . has ( " wrapT " ) ) {
sampler - > set_wrap_t ( d [ " wrapT " ] ) ;
} else {
sampler - > set_wrap_t ( GLTFTextureSampler : : WrapMode : : REPEAT ) ;
}
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p_state - > texture_samplers . push_back ( sampler ) ;
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}
return OK ;
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}
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Error GLTFDocument : : _serialize_materials ( Ref < GLTFState > p_state ) {
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Array materials ;
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for ( int32_t i = 0 ; i < p_state - > materials . size ( ) ; i + + ) {
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Dictionary d ;
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Ref < Material3D > material = p_state - > materials [ i ] ;
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if ( material . is_null ( ) ) {
materials . push_back ( d ) ;
continue ;
}
if ( ! material - > get_name ( ) . empty ( ) ) {
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d [ " name " ] = _gen_unique_name ( p_state , material - > get_name ( ) ) ;
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}
{
Dictionary mr ;
{
Array arr ;
const Color c = material - > get_albedo ( ) . to_linear ( ) ;
arr . push_back ( c . r ) ;
arr . push_back ( c . g ) ;
arr . push_back ( c . b ) ;
arr . push_back ( c . a ) ;
mr [ " baseColorFactor " ] = arr ;
}
{
Dictionary bct ;
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Ref < Texture > albedo_texture = material - > get_texture ( Material3D : : TEXTURE_ALBEDO ) ;
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GLTFTextureIndex gltf_texture_index = - 1 ;
if ( albedo_texture . is_valid ( ) & & albedo_texture - > get_data ( ) . is_valid ( ) ) {
albedo_texture - > set_name ( material - > get_name ( ) + " _albedo " ) ;
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gltf_texture_index = _set_texture ( p_state , albedo_texture ) ;
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}
if ( gltf_texture_index ! = - 1 ) {
bct [ " index " ] = gltf_texture_index ;
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Dictionary extensions = _serialize_texture_transform_uv1 ( material ) ;
if ( ! extensions . empty ( ) ) {
bct [ " extensions " ] = extensions ;
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p_state - > use_khr_texture_transform = true ;
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}
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mr [ " baseColorTexture " ] = bct ;
}
}
mr [ " metallicFactor " ] = material - > get_metallic ( ) ;
mr [ " roughnessFactor " ] = material - > get_roughness ( ) ;
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bool has_roughness = material - > get_texture ( Material3D : : TEXTURE_ROUGHNESS ) . is_valid ( ) & & material - > get_texture ( Material3D : : TEXTURE_ROUGHNESS ) - > get_data ( ) . is_valid ( ) ;
bool has_ao = material - > get_feature ( Material3D : : FEATURE_AMBIENT_OCCLUSION ) & & material - > get_texture ( Material3D : : TEXTURE_AMBIENT_OCCLUSION ) . is_valid ( ) ;
bool has_metalness = material - > get_texture ( Material3D : : TEXTURE_METALLIC ) . is_valid ( ) & & material - > get_texture ( Material3D : : TEXTURE_METALLIC ) - > get_data ( ) . is_valid ( ) ;
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if ( has_ao | | has_roughness | | has_metalness ) {
Dictionary mrt ;
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Ref < Texture > roughness_texture = material - > get_texture ( Material3D : : TEXTURE_ROUGHNESS ) ;
Material3D : : TextureChannel roughness_channel = material - > get_roughness_texture_channel ( ) ;
Ref < Texture > metallic_texture = material - > get_texture ( Material3D : : TEXTURE_METALLIC ) ;
Material3D : : TextureChannel metalness_channel = material - > get_metallic_texture_channel ( ) ;
Ref < Texture > ao_texture = material - > get_texture ( Material3D : : TEXTURE_AMBIENT_OCCLUSION ) ;
Material3D : : TextureChannel ao_channel = material - > get_ao_texture_channel ( ) ;
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Ref < ImageTexture > orm_texture ;
orm_texture . instance ( ) ;
Ref < Image > orm_image ;
orm_image . instance ( ) ;
int32_t height = 0 ;
int32_t width = 0 ;
Ref < Image > ao_image ;
if ( has_ao ) {
height = ao_texture - > get_height ( ) ;
width = ao_texture - > get_width ( ) ;
ao_image = ao_texture - > get_data ( ) ;
Ref < ImageTexture > img_tex = ao_image ;
if ( img_tex . is_valid ( ) ) {
ao_image = img_tex - > get_data ( ) ;
}
if ( ao_image - > is_compressed ( ) ) {
ao_image - > decompress ( ) ;
}
}
Ref < Image > roughness_image ;
if ( has_roughness ) {
height = roughness_texture - > get_height ( ) ;
width = roughness_texture - > get_width ( ) ;
roughness_image = roughness_texture - > get_data ( ) ;
Ref < ImageTexture > img_tex = roughness_image ;
if ( img_tex . is_valid ( ) ) {
roughness_image = img_tex - > get_data ( ) ;
}
if ( roughness_image - > is_compressed ( ) ) {
roughness_image - > decompress ( ) ;
}
}
Ref < Image > metallness_image ;
if ( has_metalness ) {
height = metallic_texture - > get_height ( ) ;
width = metallic_texture - > get_width ( ) ;
metallness_image = metallic_texture - > get_data ( ) ;
Ref < ImageTexture > img_tex = metallness_image ;
if ( img_tex . is_valid ( ) ) {
metallness_image = img_tex - > get_data ( ) ;
}
if ( metallness_image - > is_compressed ( ) ) {
metallness_image - > decompress ( ) ;
}
}
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Ref < Texture > albedo_texture = material - > get_texture ( Material3D : : TEXTURE_ALBEDO ) ;
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if ( albedo_texture . is_valid ( ) & & albedo_texture - > get_data ( ) . is_valid ( ) ) {
height = albedo_texture - > get_height ( ) ;
width = albedo_texture - > get_width ( ) ;
}
orm_image - > create ( width , height , false , Image : : FORMAT_RGBA8 ) ;
if ( ao_image . is_valid ( ) & & ao_image - > get_size ( ) ! = Vector2 ( width , height ) ) {
ao_image - > resize ( width , height , Image : : INTERPOLATE_LANCZOS ) ;
}
if ( roughness_image . is_valid ( ) & & roughness_image - > get_size ( ) ! = Vector2 ( width , height ) ) {
roughness_image - > resize ( width , height , Image : : INTERPOLATE_LANCZOS ) ;
}
if ( metallness_image . is_valid ( ) & & metallness_image - > get_size ( ) ! = Vector2 ( width , height ) ) {
metallness_image - > resize ( width , height , Image : : INTERPOLATE_LANCZOS ) ;
}
orm_image - > lock ( ) ;
for ( int32_t h = 0 ; h < height ; h + + ) {
for ( int32_t w = 0 ; w < width ; w + + ) {
Color c = Color ( 1.0f , 1.0f , 1.0f ) ;
if ( has_ao ) {
ao_image - > lock ( ) ;
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if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_RED = = ao_channel ) {
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c . r = ao_image - > get_pixel ( w , h ) . r ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_GREEN = = ao_channel ) {
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c . r = ao_image - > get_pixel ( w , h ) . g ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_BLUE = = ao_channel ) {
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c . r = ao_image - > get_pixel ( w , h ) . b ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_ALPHA = = ao_channel ) {
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c . r = ao_image - > get_pixel ( w , h ) . a ;
}
ao_image - > lock ( ) ;
}
if ( has_roughness ) {
roughness_image - > lock ( ) ;
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if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_RED = = roughness_channel ) {
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c . g = roughness_image - > get_pixel ( w , h ) . r ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_GREEN = = roughness_channel ) {
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c . g = roughness_image - > get_pixel ( w , h ) . g ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_BLUE = = roughness_channel ) {
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c . g = roughness_image - > get_pixel ( w , h ) . b ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_ALPHA = = roughness_channel ) {
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c . g = roughness_image - > get_pixel ( w , h ) . a ;
}
roughness_image - > unlock ( ) ;
}
if ( has_metalness ) {
metallness_image - > lock ( ) ;
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if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_RED = = metalness_channel ) {
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c . b = metallness_image - > get_pixel ( w , h ) . r ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_GREEN = = metalness_channel ) {
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c . b = metallness_image - > get_pixel ( w , h ) . g ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_BLUE = = metalness_channel ) {
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c . b = metallness_image - > get_pixel ( w , h ) . b ;
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} else if ( Material3D : : TextureChannel : : TEXTURE_CHANNEL_ALPHA = = metalness_channel ) {
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c . b = metallness_image - > get_pixel ( w , h ) . a ;
}
metallness_image - > unlock ( ) ;
}
orm_image - > set_pixel ( w , h , c ) ;
}
}
orm_image - > unlock ( ) ;
orm_image - > generate_mipmaps ( ) ;
orm_texture - > create_from_image ( orm_image ) ;
GLTFTextureIndex orm_texture_index = - 1 ;
if ( has_ao | | has_roughness | | has_metalness ) {
orm_texture - > set_name ( material - > get_name ( ) + " _orm " ) ;
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orm_texture_index = _set_texture ( p_state , orm_texture ) ;
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}
if ( has_ao ) {
Dictionary ot ;
ot [ " index " ] = orm_texture_index ;
d [ " occlusionTexture " ] = ot ;
}
if ( has_roughness | | has_metalness ) {
mrt [ " index " ] = orm_texture_index ;
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Dictionary extensions = _serialize_texture_transform_uv1 ( material ) ;
if ( ! extensions . empty ( ) ) {
mrt [ " extensions " ] = extensions ;
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p_state - > use_khr_texture_transform = true ;
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}
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mr [ " metallicRoughnessTexture " ] = mrt ;
}
}
d [ " pbrMetallicRoughness " ] = mr ;
}
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if ( material - > get_feature ( Material3D : : FEATURE_NORMAL_MAPPING ) ) {
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Dictionary nt ;
Ref < ImageTexture > tex ;
tex . instance ( ) ;
{
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Ref < Texture > normal_texture = material - > get_texture ( Material3D : : TEXTURE_NORMAL ) ;
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if ( normal_texture . is_valid ( ) ) {
// Code for uncompressing RG normal maps
Ref < Image > img = normal_texture - > get_data ( ) ;
if ( img . is_valid ( ) ) {
Ref < ImageTexture > img_tex = img ;
if ( img_tex . is_valid ( ) ) {
img = img_tex - > get_data ( ) ;
}
img - > decompress ( ) ;
img - > convert ( Image : : FORMAT_RGBA8 ) ;
img - > lock ( ) ;
for ( int32_t y = 0 ; y < img - > get_height ( ) ; y + + ) {
for ( int32_t x = 0 ; x < img - > get_width ( ) ; x + + ) {
Color c = img - > get_pixel ( x , y ) ;
Vector2 red_green = Vector2 ( c . r , c . g ) ;
red_green = red_green * Vector2 ( 2.0f , 2.0f ) - Vector2 ( 1.0f , 1.0f ) ;
float blue = 1.0f - red_green . dot ( red_green ) ;
blue = MAX ( 0.0f , blue ) ;
c . b = Math : : sqrt ( blue ) ;
img - > set_pixel ( x , y , c ) ;
}
}
img - > unlock ( ) ;
tex - > create_from_image ( img ) ;
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}
}
}
GLTFTextureIndex gltf_texture_index = - 1 ;
if ( tex . is_valid ( ) & & tex - > get_data ( ) . is_valid ( ) ) {
tex - > set_name ( material - > get_name ( ) + " _normal " ) ;
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gltf_texture_index = _set_texture ( p_state , tex ) ;
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}
nt [ " scale " ] = material - > get_normal_scale ( ) ;
if ( gltf_texture_index ! = - 1 ) {
nt [ " index " ] = gltf_texture_index ;
d [ " normalTexture " ] = nt ;
}
}
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if ( material - > get_feature ( Material3D : : FEATURE_EMISSION ) ) {
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const Color c = material - > get_emission ( ) . to_srgb ( ) ;
Array arr ;
arr . push_back ( c . r ) ;
arr . push_back ( c . g ) ;
arr . push_back ( c . b ) ;
d [ " emissiveFactor " ] = arr ;
}
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if ( material - > get_feature ( Material3D : : FEATURE_EMISSION ) ) {
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Dictionary et ;
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Ref < Texture > emission_texture = material - > get_texture ( Material3D : : TEXTURE_EMISSION ) ;
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GLTFTextureIndex gltf_texture_index = - 1 ;
if ( emission_texture . is_valid ( ) & & emission_texture - > get_data ( ) . is_valid ( ) ) {
emission_texture - > set_name ( material - > get_name ( ) + " _emission " ) ;
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gltf_texture_index = _set_texture ( p_state , emission_texture ) ;
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}
if ( gltf_texture_index ! = - 1 ) {
et [ " index " ] = gltf_texture_index ;
d [ " emissiveTexture " ] = et ;
}
}
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const bool ds = material - > get_cull_mode ( ) = = Material3D : : CULL_DISABLED ;
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if ( ds ) {
d [ " doubleSided " ] = ds ;
}
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if ( material - > get_feature ( Material3D : : FEATURE_TRANSPARENT ) ) {
if ( material - > get_flag ( Material3D : : FLAG_USE_ALPHA_SCISSOR ) ) {
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d [ " alphaMode " ] = " MASK " ;
d [ " alphaCutoff " ] = material - > get_alpha_scissor_threshold ( ) ;
} else {
d [ " alphaMode " ] = " BLEND " ;
}
}
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Dictionary extensions ;
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if ( material - > get_flag ( Material3D : : FLAG_UNSHADED ) ) {
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Dictionary mat_unlit ;
extensions [ " KHR_materials_unlit " ] = mat_unlit ;
p_state - > add_used_extension ( " KHR_materials_unlit " ) ;
}
d [ " extensions " ] = extensions ;
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materials . push_back ( d ) ;
}
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if ( ! materials . size ( ) ) {
return OK ;
}
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p_state - > json [ " materials " ] = materials ;
print_verbose ( " Total materials: " + itos ( p_state - > materials . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _parse_materials ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " materials " ) ) {
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return OK ;
}
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const Array & materials = p_state - > json [ " materials " ] ;
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for ( GLTFMaterialIndex i = 0 ; i < materials . size ( ) ; i + + ) {
const Dictionary & d = materials [ i ] ;
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Ref < SpatialMaterial > material ;
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material . instance ( ) ;
if ( d . has ( " name " ) & & ! String ( d [ " name " ] ) . empty ( ) ) {
material - > set_name ( d [ " name " ] ) ;
} else {
material - > set_name ( vformat ( " material_%s " , itos ( i ) ) ) ;
}
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material - > set_flag ( Material3D : : FLAG_ALBEDO_FROM_VERTEX_COLOR , true ) ;
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Dictionary pbr_spec_gloss_extensions ;
if ( d . has ( " extensions " ) ) {
pbr_spec_gloss_extensions = d [ " extensions " ] ;
}
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if ( pbr_spec_gloss_extensions . has ( " KHR_materials_unlit " ) ) {
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material - > set_flag ( Material3D : : FLAG_UNSHADED , true ) ;
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}
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if ( pbr_spec_gloss_extensions . has ( " KHR_materials_pbrSpecularGlossiness " ) ) {
WARN_PRINT ( " Material uses a specular and glossiness workflow. Textures will be converted to roughness and metallic workflow, which may not be 100% accurate. " ) ;
Dictionary sgm = pbr_spec_gloss_extensions [ " KHR_materials_pbrSpecularGlossiness " ] ;
Ref < GLTFSpecGloss > spec_gloss ;
spec_gloss . instance ( ) ;
if ( sgm . has ( " diffuseTexture " ) ) {
const Dictionary & diffuse_texture_dict = sgm [ " diffuseTexture " ] ;
if ( diffuse_texture_dict . has ( " index " ) ) {
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Ref < Texture > diffuse_texture = _get_texture ( p_state , diffuse_texture_dict [ " index " ] ) ;
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if ( diffuse_texture . is_valid ( ) ) {
spec_gloss - > diffuse_img = diffuse_texture - > get_data ( ) ;
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material - > set_texture ( Material3D : : TEXTURE_ALBEDO , diffuse_texture ) ;
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}
}
}
if ( sgm . has ( " diffuseFactor " ) ) {
const Array & arr = sgm [ " diffuseFactor " ] ;
ERR_FAIL_COND_V ( arr . size ( ) ! = 4 , ERR_PARSE_ERROR ) ;
const Color c = Color ( arr [ 0 ] , arr [ 1 ] , arr [ 2 ] , arr [ 3 ] ) . to_srgb ( ) ;
spec_gloss - > diffuse_factor = c ;
material - > set_albedo ( spec_gloss - > diffuse_factor ) ;
}
if ( sgm . has ( " specularFactor " ) ) {
const Array & arr = sgm [ " specularFactor " ] ;
ERR_FAIL_COND_V ( arr . size ( ) ! = 3 , ERR_PARSE_ERROR ) ;
spec_gloss - > specular_factor = Color ( arr [ 0 ] , arr [ 1 ] , arr [ 2 ] ) ;
}
if ( sgm . has ( " glossinessFactor " ) ) {
spec_gloss - > gloss_factor = sgm [ " glossinessFactor " ] ;
material - > set_roughness ( 1.0f - CLAMP ( spec_gloss - > gloss_factor , 0.0f , 1.0f ) ) ;
}
if ( sgm . has ( " specularGlossinessTexture " ) ) {
const Dictionary & spec_gloss_texture = sgm [ " specularGlossinessTexture " ] ;
if ( spec_gloss_texture . has ( " index " ) ) {
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const Ref < Texture > orig_texture = _get_texture ( p_state , spec_gloss_texture [ " index " ] ) ;
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if ( orig_texture . is_valid ( ) ) {
spec_gloss - > spec_gloss_img = orig_texture - > get_data ( ) ;
}
}
}
spec_gloss_to_rough_metal ( spec_gloss , material ) ;
} else if ( d . has ( " pbrMetallicRoughness " ) ) {
const Dictionary & mr = d [ " pbrMetallicRoughness " ] ;
if ( mr . has ( " baseColorFactor " ) ) {
const Array & arr = mr [ " baseColorFactor " ] ;
ERR_FAIL_COND_V ( arr . size ( ) ! = 4 , ERR_PARSE_ERROR ) ;
const Color c = Color ( arr [ 0 ] , arr [ 1 ] , arr [ 2 ] , arr [ 3 ] ) . to_srgb ( ) ;
material - > set_albedo ( c ) ;
}
if ( mr . has ( " baseColorTexture " ) ) {
const Dictionary & bct = mr [ " baseColorTexture " ] ;
if ( bct . has ( " index " ) ) {
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material - > set_texture ( Material3D : : TEXTURE_ALBEDO , _get_texture ( p_state , bct [ " index " ] ) ) ;
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}
if ( ! mr . has ( " baseColorFactor " ) ) {
material - > set_albedo ( Color ( 1 , 1 , 1 ) ) ;
}
_set_texture_transform_uv1 ( bct , material ) ;
}
if ( mr . has ( " metallicFactor " ) ) {
material - > set_metallic ( mr [ " metallicFactor " ] ) ;
} else {
material - > set_metallic ( 1.0 ) ;
}
if ( mr . has ( " roughnessFactor " ) ) {
material - > set_roughness ( mr [ " roughnessFactor " ] ) ;
} else {
material - > set_roughness ( 1.0 ) ;
}
if ( mr . has ( " metallicRoughnessTexture " ) ) {
const Dictionary & bct = mr [ " metallicRoughnessTexture " ] ;
if ( bct . has ( " index " ) ) {
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const Ref < Texture > t = _get_texture ( p_state , bct [ " index " ] ) ;
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material - > set_texture ( Material3D : : TEXTURE_METALLIC , t ) ;
material - > set_metallic_texture_channel ( Material3D : : TEXTURE_CHANNEL_BLUE ) ;
material - > set_texture ( Material3D : : TEXTURE_ROUGHNESS , t ) ;
material - > set_roughness_texture_channel ( Material3D : : TEXTURE_CHANNEL_GREEN ) ;
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if ( ! mr . has ( " metallicFactor " ) ) {
material - > set_metallic ( 1 ) ;
}
if ( ! mr . has ( " roughnessFactor " ) ) {
material - > set_roughness ( 1 ) ;
}
}
}
}
if ( d . has ( " normalTexture " ) ) {
const Dictionary & bct = d [ " normalTexture " ] ;
if ( bct . has ( " index " ) ) {
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material - > set_texture ( Material3D : : TEXTURE_NORMAL , _get_texture ( p_state , bct [ " index " ] ) ) ;
material - > set_feature ( Material3D : : FEATURE_NORMAL_MAPPING , true ) ;
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}
if ( bct . has ( " scale " ) ) {
material - > set_normal_scale ( bct [ " scale " ] ) ;
}
}
if ( d . has ( " occlusionTexture " ) ) {
const Dictionary & bct = d [ " occlusionTexture " ] ;
if ( bct . has ( " index " ) ) {
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material - > set_texture ( Material3D : : TEXTURE_AMBIENT_OCCLUSION , _get_texture ( p_state , bct [ " index " ] ) ) ;
material - > set_ao_texture_channel ( Material3D : : TEXTURE_CHANNEL_RED ) ;
material - > set_feature ( Material3D : : FEATURE_AMBIENT_OCCLUSION , true ) ;
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}
}
if ( d . has ( " emissiveFactor " ) ) {
const Array & arr = d [ " emissiveFactor " ] ;
ERR_FAIL_COND_V ( arr . size ( ) ! = 3 , ERR_PARSE_ERROR ) ;
const Color c = Color ( arr [ 0 ] , arr [ 1 ] , arr [ 2 ] ) . to_srgb ( ) ;
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material - > set_feature ( Material3D : : FEATURE_EMISSION , true ) ;
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material - > set_emission ( c ) ;
}
if ( d . has ( " emissiveTexture " ) ) {
const Dictionary & bct = d [ " emissiveTexture " ] ;
if ( bct . has ( " index " ) ) {
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material - > set_texture ( Material3D : : TEXTURE_EMISSION , _get_texture ( p_state , bct [ " index " ] ) ) ;
material - > set_feature ( Material3D : : FEATURE_EMISSION , true ) ;
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material - > set_emission ( Color ( 0 , 0 , 0 ) ) ;
}
}
if ( d . has ( " doubleSided " ) ) {
const bool ds = d [ " doubleSided " ] ;
if ( ds ) {
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material - > set_cull_mode ( Material3D : : CULL_DISABLED ) ;
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}
}
if ( d . has ( " alphaMode " ) ) {
const String & am = d [ " alphaMode " ] ;
if ( am = = " BLEND " ) {
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material - > set_feature ( Material3D : : FEATURE_TRANSPARENT , true ) ;
material - > set_depth_draw_mode ( Material3D : : DEPTH_DRAW_ALPHA_OPAQUE_PREPASS ) ;
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} else if ( am = = " MASK " ) {
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material - > set_flag ( Material3D : : FLAG_USE_ALPHA_SCISSOR , true ) ;
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if ( d . has ( " alphaCutoff " ) ) {
material - > set_alpha_scissor_threshold ( d [ " alphaCutoff " ] ) ;
} else {
material - > set_alpha_scissor_threshold ( 0.5f ) ;
}
}
}
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p_state - > materials . push_back ( material ) ;
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}
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print_verbose ( " Total materials: " + itos ( p_state - > materials . size ( ) ) ) ;
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return OK ;
}
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void GLTFDocument : : _set_texture_transform_uv1 ( const Dictionary & p_dict , Ref < Material3D > p_material ) {
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if ( p_dict . has ( " extensions " ) ) {
const Dictionary & extensions = p_dict [ " extensions " ] ;
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if ( extensions . has ( " KHR_texture_transform " ) ) {
const Dictionary & texture_transform = extensions [ " KHR_texture_transform " ] ;
const Array & offset_arr = texture_transform [ " offset " ] ;
if ( offset_arr . size ( ) = = 2 ) {
const Vector3 offset_vector3 = Vector3 ( offset_arr [ 0 ] , offset_arr [ 1 ] , 0.0f ) ;
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p_material - > set_uv1_offset ( offset_vector3 ) ;
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}
const Array & scale_arr = texture_transform [ " scale " ] ;
if ( scale_arr . size ( ) = = 2 ) {
const Vector3 scale_vector3 = Vector3 ( scale_arr [ 0 ] , scale_arr [ 1 ] , 1.0f ) ;
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p_material - > set_uv1_scale ( scale_vector3 ) ;
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}
}
}
}
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void GLTFDocument : : spec_gloss_to_rough_metal ( Ref < GLTFSpecGloss > r_spec_gloss , Ref < Material3D > p_material ) {
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if ( r_spec_gloss - > spec_gloss_img . is_null ( ) ) {
return ;
}
if ( r_spec_gloss - > diffuse_img . is_null ( ) ) {
return ;
}
Ref < Image > rm_img ;
rm_img . instance ( ) ;
bool has_roughness = false ;
bool has_metal = false ;
p_material - > set_roughness ( 1.0f ) ;
p_material - > set_metallic ( 1.0f ) ;
rm_img - > create ( r_spec_gloss - > spec_gloss_img - > get_width ( ) , r_spec_gloss - > spec_gloss_img - > get_height ( ) , false , Image : : FORMAT_RGBA8 ) ;
rm_img - > lock ( ) ;
r_spec_gloss - > spec_gloss_img - > decompress ( ) ;
if ( r_spec_gloss - > diffuse_img . is_valid ( ) ) {
r_spec_gloss - > diffuse_img - > decompress ( ) ;
r_spec_gloss - > diffuse_img - > resize ( r_spec_gloss - > spec_gloss_img - > get_width ( ) , r_spec_gloss - > spec_gloss_img - > get_height ( ) , Image : : INTERPOLATE_LANCZOS ) ;
r_spec_gloss - > spec_gloss_img - > resize ( r_spec_gloss - > diffuse_img - > get_width ( ) , r_spec_gloss - > diffuse_img - > get_height ( ) , Image : : INTERPOLATE_LANCZOS ) ;
}
for ( int32_t y = 0 ; y < r_spec_gloss - > spec_gloss_img - > get_height ( ) ; y + + ) {
for ( int32_t x = 0 ; x < r_spec_gloss - > spec_gloss_img - > get_width ( ) ; x + + ) {
const Color specular_pixel = r_spec_gloss - > spec_gloss_img - > get_pixel ( x , y ) . to_linear ( ) ;
Color specular = Color ( specular_pixel . r , specular_pixel . g , specular_pixel . b ) ;
specular * = r_spec_gloss - > specular_factor ;
Color diffuse = Color ( 1.0f , 1.0f , 1.0f ) ;
r_spec_gloss - > diffuse_img - > lock ( ) ;
diffuse * = r_spec_gloss - > diffuse_img - > get_pixel ( x , y ) . to_linear ( ) ;
float metallic = 0.0f ;
Color base_color ;
spec_gloss_to_metal_base_color ( specular , diffuse , base_color , metallic ) ;
Color mr = Color ( 1.0f , 1.0f , 1.0f ) ;
mr . g = specular_pixel . a ;
mr . b = metallic ;
if ( ! Math : : is_equal_approx ( mr . g , 1.0f ) ) {
has_roughness = true ;
}
if ( ! Math : : is_equal_approx ( mr . b , 0.0f ) ) {
has_metal = true ;
}
mr . g * = r_spec_gloss - > gloss_factor ;
mr . g = 1.0f - mr . g ;
rm_img - > set_pixel ( x , y , mr ) ;
r_spec_gloss - > diffuse_img - > set_pixel ( x , y , base_color . to_srgb ( ) ) ;
r_spec_gloss - > diffuse_img - > unlock ( ) ;
}
}
rm_img - > unlock ( ) ;
rm_img - > generate_mipmaps ( ) ;
r_spec_gloss - > diffuse_img - > generate_mipmaps ( ) ;
Ref < ImageTexture > diffuse_image_texture ;
diffuse_image_texture . instance ( ) ;
diffuse_image_texture - > create_from_image ( r_spec_gloss - > diffuse_img ) ;
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p_material - > set_texture ( Material3D : : TEXTURE_ALBEDO , diffuse_image_texture ) ;
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Ref < ImageTexture > rm_image_texture ;
rm_image_texture . instance ( ) ;
rm_image_texture - > create_from_image ( rm_img ) ;
if ( has_roughness ) {
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p_material - > set_texture ( Material3D : : TEXTURE_ROUGHNESS , rm_image_texture ) ;
p_material - > set_roughness_texture_channel ( Material3D : : TEXTURE_CHANNEL_GREEN ) ;
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}
if ( has_metal ) {
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p_material - > set_texture ( Material3D : : TEXTURE_METALLIC , rm_image_texture ) ;
p_material - > set_metallic_texture_channel ( Material3D : : TEXTURE_CHANNEL_BLUE ) ;
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}
}
void GLTFDocument : : spec_gloss_to_metal_base_color ( const Color & p_specular_factor , const Color & p_diffuse , Color & r_base_color , float & r_metallic ) {
const Color DIELECTRIC_SPECULAR = Color ( 0.04f , 0.04f , 0.04f ) ;
Color specular = Color ( p_specular_factor . r , p_specular_factor . g , p_specular_factor . b ) ;
const float one_minus_specular_strength = 1.0f - get_max_component ( specular ) ;
const float dielectric_specular_red = DIELECTRIC_SPECULAR . r ;
float brightness_diffuse = get_perceived_brightness ( p_diffuse ) ;
const float brightness_specular = get_perceived_brightness ( specular ) ;
r_metallic = solve_metallic ( dielectric_specular_red , brightness_diffuse , brightness_specular , one_minus_specular_strength ) ;
const float one_minus_metallic = 1.0f - r_metallic ;
const Color base_color_from_diffuse = p_diffuse * ( one_minus_specular_strength / ( 1.0f - dielectric_specular_red ) / MAX ( one_minus_metallic , CMP_EPSILON ) ) ;
const Color base_color_from_specular = ( specular - ( DIELECTRIC_SPECULAR * ( one_minus_metallic ) ) ) * ( 1.0f / MAX ( r_metallic , CMP_EPSILON ) ) ;
r_base_color . r = Math : : lerp ( base_color_from_diffuse . r , base_color_from_specular . r , r_metallic * r_metallic ) ;
r_base_color . g = Math : : lerp ( base_color_from_diffuse . g , base_color_from_specular . g , r_metallic * r_metallic ) ;
r_base_color . b = Math : : lerp ( base_color_from_diffuse . b , base_color_from_specular . b , r_metallic * r_metallic ) ;
r_base_color . a = p_diffuse . a ;
r_base_color . r = CLAMP ( r_base_color . r , 0.0f , 1.0f ) ;
r_base_color . g = CLAMP ( r_base_color . g , 0.0f , 1.0f ) ;
r_base_color . b = CLAMP ( r_base_color . b , 0.0f , 1.0f ) ;
r_base_color . a = CLAMP ( r_base_color . a , 0.0f , 1.0f ) ;
}
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GLTFNodeIndex GLTFDocument : : _find_highest_node ( Ref < GLTFState > p_state , const Vector < GLTFNodeIndex > & p_subset ) {
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int highest = - 1 ;
GLTFNodeIndex best_node = - 1 ;
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for ( int i = 0 ; i < p_subset . size ( ) ; + + i ) {
const GLTFNodeIndex node_i = p_subset [ i ] ;
const Ref < GLTFNode > node = p_state - > nodes [ node_i ] ;
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if ( highest = = - 1 | | node - > height < highest ) {
highest = node - > height ;
best_node = node_i ;
}
}
return best_node ;
}
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bool GLTFDocument : : _capture_nodes_in_skin ( Ref < GLTFState > p_state , Ref < GLTFSkin > p_skin , const GLTFNodeIndex p_node_index ) {
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bool found_joint = false ;
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for ( int i = 0 ; i < p_state - > nodes [ p_node_index ] - > children . size ( ) ; + + i ) {
found_joint | = _capture_nodes_in_skin ( p_state , p_skin , p_state - > nodes [ p_node_index ] - > children [ i ] ) ;
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}
if ( found_joint ) {
// Mark it if we happen to find another skins joint...
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if ( p_state - > nodes [ p_node_index ] - > joint & & p_skin - > joints . find ( p_node_index ) < 0 ) {
p_skin - > joints . push_back ( p_node_index ) ;
} else if ( p_skin - > non_joints . find ( p_node_index ) < 0 ) {
p_skin - > non_joints . push_back ( p_node_index ) ;
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}
}
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if ( p_skin - > joints . find ( p_node_index ) > 0 ) {
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return true ;
}
return false ;
}
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void GLTFDocument : : _capture_nodes_for_multirooted_skin ( Ref < GLTFState > p_state , Ref < GLTFSkin > p_skin ) {
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DisjointSet < GLTFNodeIndex > disjoint_set ;
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for ( int i = 0 ; i < p_skin - > joints . size ( ) ; + + i ) {
const GLTFNodeIndex node_index = p_skin - > joints [ i ] ;
const GLTFNodeIndex parent = p_state - > nodes [ node_index ] - > parent ;
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disjoint_set . insert ( node_index ) ;
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if ( p_skin - > joints . find ( parent ) > = 0 ) {
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disjoint_set . create_union ( parent , node_index ) ;
}
}
Vector < GLTFNodeIndex > roots ;
disjoint_set . get_representatives ( roots ) ;
if ( roots . size ( ) < = 1 ) {
return ;
}
int maxHeight = - 1 ;
// Determine the max height rooted tree
for ( int i = 0 ; i < roots . size ( ) ; + + i ) {
const GLTFNodeIndex root = roots [ i ] ;
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if ( maxHeight = = - 1 | | p_state - > nodes [ root ] - > height < maxHeight ) {
maxHeight = p_state - > nodes [ root ] - > height ;
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}
}
// Go up the tree till all of the multiple roots of the skin are at the same hierarchy level.
// This sucks, but 99% of all game engines (not just Godot) would have this same issue.
for ( int i = 0 ; i < roots . size ( ) ; + + i ) {
GLTFNodeIndex current_node = roots [ i ] ;
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while ( p_state - > nodes [ current_node ] - > height > maxHeight ) {
GLTFNodeIndex parent = p_state - > nodes [ current_node ] - > parent ;
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if ( p_state - > nodes [ parent ] - > joint & & p_skin - > joints . find ( parent ) < 0 ) {
p_skin - > joints . push_back ( parent ) ;
} else if ( p_skin - > non_joints . find ( parent ) < 0 ) {
p_skin - > non_joints . push_back ( parent ) ;
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}
current_node = parent ;
}
// replace the roots
roots . write [ i ] = current_node ;
}
// Climb up the tree until they all have the same parent
bool all_same ;
do {
all_same = true ;
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const GLTFNodeIndex first_parent = p_state - > nodes [ roots [ 0 ] ] - > parent ;
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for ( int i = 1 ; i < roots . size ( ) ; + + i ) {
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all_same & = ( first_parent = = p_state - > nodes [ roots [ i ] ] - > parent ) ;
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}
if ( ! all_same ) {
for ( int i = 0 ; i < roots . size ( ) ; + + i ) {
const GLTFNodeIndex current_node = roots [ i ] ;
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const GLTFNodeIndex parent = p_state - > nodes [ current_node ] - > parent ;
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if ( p_state - > nodes [ parent ] - > joint & & p_skin - > joints . find ( parent ) < 0 ) {
p_skin - > joints . push_back ( parent ) ;
} else if ( p_skin - > non_joints . find ( parent ) < 0 ) {
p_skin - > non_joints . push_back ( parent ) ;
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}
roots . write [ i ] = parent ;
}
}
} while ( ! all_same ) ;
}
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Error GLTFDocument : : _expand_skin ( Ref < GLTFState > p_state , Ref < GLTFSkin > p_skin ) {
_capture_nodes_for_multirooted_skin ( p_state , p_skin ) ;
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// Grab all nodes that lay in between skin joints/nodes
DisjointSet < GLTFNodeIndex > disjoint_set ;
Vector < GLTFNodeIndex > all_skin_nodes ;
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all_skin_nodes . append_array ( p_skin - > joints ) ;
all_skin_nodes . append_array ( p_skin - > non_joints ) ;
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for ( int i = 0 ; i < all_skin_nodes . size ( ) ; + + i ) {
const GLTFNodeIndex node_index = all_skin_nodes [ i ] ;
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const GLTFNodeIndex parent = p_state - > nodes [ node_index ] - > parent ;
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disjoint_set . insert ( node_index ) ;
if ( all_skin_nodes . find ( parent ) > = 0 ) {
disjoint_set . create_union ( parent , node_index ) ;
}
}
Vector < GLTFNodeIndex > out_owners ;
disjoint_set . get_representatives ( out_owners ) ;
Vector < GLTFNodeIndex > out_roots ;
for ( int i = 0 ; i < out_owners . size ( ) ; + + i ) {
Vector < GLTFNodeIndex > set ;
disjoint_set . get_members ( set , out_owners [ i ] ) ;
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const GLTFNodeIndex root = _find_highest_node ( p_state , set ) ;
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ERR_FAIL_COND_V ( root < 0 , FAILED ) ;
out_roots . push_back ( root ) ;
}
out_roots . sort ( ) ;
for ( int i = 0 ; i < out_roots . size ( ) ; + + i ) {
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_capture_nodes_in_skin ( p_state , p_skin , out_roots [ i ] ) ;
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}
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p_skin - > roots = out_roots ;
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return OK ;
}
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Error GLTFDocument : : _verify_skin ( Ref < GLTFState > p_state , Ref < GLTFSkin > p_skin ) {
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// This may seem duplicated from expand_skins, but this is really a sanity check! (so it kinda is)
// In case additional interpolating logic is added to the skins, this will help ensure that you
// do not cause it to self implode into a fiery blaze
// We are going to re-calculate the root nodes and compare them to the ones saved in the skin,
// then ensure the multiple trees (if they exist) are on the same sublevel
// Grab all nodes that lay in between skin joints/nodes
DisjointSet < GLTFNodeIndex > disjoint_set ;
Vector < GLTFNodeIndex > all_skin_nodes ;
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all_skin_nodes . append_array ( p_skin - > joints ) ;
all_skin_nodes . append_array ( p_skin - > non_joints ) ;
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for ( int i = 0 ; i < all_skin_nodes . size ( ) ; + + i ) {
const GLTFNodeIndex node_index = all_skin_nodes [ i ] ;
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const GLTFNodeIndex parent = p_state - > nodes [ node_index ] - > parent ;
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disjoint_set . insert ( node_index ) ;
if ( all_skin_nodes . find ( parent ) > = 0 ) {
disjoint_set . create_union ( parent , node_index ) ;
}
}
Vector < GLTFNodeIndex > out_owners ;
disjoint_set . get_representatives ( out_owners ) ;
Vector < GLTFNodeIndex > out_roots ;
for ( int i = 0 ; i < out_owners . size ( ) ; + + i ) {
Vector < GLTFNodeIndex > set ;
disjoint_set . get_members ( set , out_owners [ i ] ) ;
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const GLTFNodeIndex root = _find_highest_node ( p_state , set ) ;
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ERR_FAIL_COND_V ( root < 0 , FAILED ) ;
out_roots . push_back ( root ) ;
}
out_roots . sort ( ) ;
ERR_FAIL_COND_V ( out_roots . size ( ) = = 0 , FAILED ) ;
// Make sure the roots are the exact same (they better be)
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ERR_FAIL_COND_V ( out_roots . size ( ) ! = p_skin - > roots . size ( ) , FAILED ) ;
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for ( int i = 0 ; i < out_roots . size ( ) ; + + i ) {
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ERR_FAIL_COND_V ( out_roots [ i ] ! = p_skin - > roots [ i ] , FAILED ) ;
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}
// Single rooted skin? Perfectly ok!
if ( out_roots . size ( ) = = 1 ) {
return OK ;
}
// Make sure all parents of a multi-rooted skin are the SAME
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const GLTFNodeIndex parent = p_state - > nodes [ out_roots [ 0 ] ] - > parent ;
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for ( int i = 1 ; i < out_roots . size ( ) ; + + i ) {
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if ( p_state - > nodes [ out_roots [ i ] ] - > parent ! = parent ) {
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return FAILED ;
}
}
return OK ;
}
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Error GLTFDocument : : _parse_skins ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " skins " ) ) {
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return OK ;
}
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const Array & skins = p_state - > json [ " skins " ] ;
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// Create the base skins, and mark nodes that are joints
for ( int i = 0 ; i < skins . size ( ) ; i + + ) {
const Dictionary & d = skins [ i ] ;
Ref < GLTFSkin > skin ;
skin . instance ( ) ;
ERR_FAIL_COND_V ( ! d . has ( " joints " ) , ERR_PARSE_ERROR ) ;
const Array & joints = d [ " joints " ] ;
if ( d . has ( " inverseBindMatrices " ) ) {
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skin - > inverse_binds = _decode_accessor_as_xform ( p_state , d [ " inverseBindMatrices " ] , false ) ;
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ERR_FAIL_COND_V ( skin - > inverse_binds . size ( ) ! = joints . size ( ) , ERR_PARSE_ERROR ) ;
}
for ( int j = 0 ; j < joints . size ( ) ; j + + ) {
const GLTFNodeIndex node = joints [ j ] ;
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ERR_FAIL_INDEX_V ( node , p_state - > nodes . size ( ) , ERR_PARSE_ERROR ) ;
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skin - > joints . push_back ( node ) ;
skin - > joints_original . push_back ( node ) ;
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p_state - > nodes . write [ node ] - > joint = true ;
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}
if ( d . has ( " name " ) & & ! String ( d [ " name " ] ) . empty ( ) ) {
skin - > set_name ( d [ " name " ] ) ;
} else {
skin - > set_name ( vformat ( " skin_%s " , itos ( i ) ) ) ;
}
if ( d . has ( " skeleton " ) ) {
skin - > skin_root = d [ " skeleton " ] ;
}
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p_state - > skins . push_back ( skin ) ;
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}
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for ( GLTFSkinIndex i = 0 ; i < p_state - > skins . size ( ) ; + + i ) {
Ref < GLTFSkin > skin = p_state - > skins . write [ i ] ;
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// Expand the skin to capture all the extra non-joints that lie in between the actual joints,
// and expand the hierarchy to ensure multi-rooted trees lie on the same height level
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ERR_FAIL_COND_V ( _expand_skin ( p_state , skin ) , ERR_PARSE_ERROR ) ;
ERR_FAIL_COND_V ( _verify_skin ( p_state , skin ) , ERR_PARSE_ERROR ) ;
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}
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print_verbose ( " glTF: Total skins: " + itos ( p_state - > skins . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _determine_skeletons ( Ref < GLTFState > p_state ) {
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// Using a disjoint set, we are going to potentially combine all skins that are actually branches
// of a main skeleton, or treat skins defining the same set of nodes as ONE skeleton.
// This is another unclear issue caused by the current glTF specification.
DisjointSet < GLTFNodeIndex > skeleton_sets ;
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for ( GLTFSkinIndex skin_i = 0 ; skin_i < p_state - > skins . size ( ) ; + + skin_i ) {
const Ref < GLTFSkin > skin = p_state - > skins [ skin_i ] ;
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Vector < GLTFNodeIndex > all_skin_nodes ;
all_skin_nodes . append_array ( skin - > joints ) ;
all_skin_nodes . append_array ( skin - > non_joints ) ;
for ( int i = 0 ; i < all_skin_nodes . size ( ) ; + + i ) {
const GLTFNodeIndex node_index = all_skin_nodes [ i ] ;
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const GLTFNodeIndex parent = p_state - > nodes [ node_index ] - > parent ;
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skeleton_sets . insert ( node_index ) ;
if ( all_skin_nodes . find ( parent ) > = 0 ) {
skeleton_sets . create_union ( parent , node_index ) ;
}
}
// We are going to connect the separate skin subtrees in each skin together
// so that the final roots are entire sets of valid skin trees
for ( int i = 1 ; i < skin - > roots . size ( ) ; + + i ) {
skeleton_sets . create_union ( skin - > roots [ 0 ] , skin - > roots [ i ] ) ;
}
}
{ // attempt to joint all touching subsets (siblings/parent are part of another skin)
Vector < GLTFNodeIndex > groups_representatives ;
skeleton_sets . get_representatives ( groups_representatives ) ;
Vector < GLTFNodeIndex > highest_group_members ;
Vector < Vector < GLTFNodeIndex > > groups ;
for ( int i = 0 ; i < groups_representatives . size ( ) ; + + i ) {
Vector < GLTFNodeIndex > group ;
skeleton_sets . get_members ( group , groups_representatives [ i ] ) ;
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highest_group_members . push_back ( _find_highest_node ( p_state , group ) ) ;
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groups . push_back ( group ) ;
}
for ( int i = 0 ; i < highest_group_members . size ( ) ; + + i ) {
const GLTFNodeIndex node_i = highest_group_members [ i ] ;
// Attach any siblings together (this needs to be done n^2/2 times)
for ( int j = i + 1 ; j < highest_group_members . size ( ) ; + + j ) {
const GLTFNodeIndex node_j = highest_group_members [ j ] ;
// Even if they are siblings under the root! :)
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if ( p_state - > nodes [ node_i ] - > parent = = p_state - > nodes [ node_j ] - > parent ) {
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skeleton_sets . create_union ( node_i , node_j ) ;
}
}
// Attach any parenting going on together (we need to do this n^2 times)
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const GLTFNodeIndex node_i_parent = p_state - > nodes [ node_i ] - > parent ;
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if ( node_i_parent > = 0 ) {
for ( int j = 0 ; j < groups . size ( ) & & i ! = j ; + + j ) {
const Vector < GLTFNodeIndex > & group = groups [ j ] ;
if ( group . find ( node_i_parent ) > = 0 ) {
const GLTFNodeIndex node_j = highest_group_members [ j ] ;
skeleton_sets . create_union ( node_i , node_j ) ;
}
}
}
}
}
// At this point, the skeleton groups should be finalized
Vector < GLTFNodeIndex > skeleton_owners ;
skeleton_sets . get_representatives ( skeleton_owners ) ;
// Mark all the skins actual skeletons, after we have merged them
for ( GLTFSkeletonIndex skel_i = 0 ; skel_i < skeleton_owners . size ( ) ; + + skel_i ) {
const GLTFNodeIndex skeleton_owner = skeleton_owners [ skel_i ] ;
Ref < GLTFSkeleton > skeleton ;
skeleton . instance ( ) ;
Vector < GLTFNodeIndex > skeleton_nodes ;
skeleton_sets . get_members ( skeleton_nodes , skeleton_owner ) ;
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for ( GLTFSkinIndex skin_i = 0 ; skin_i < p_state - > skins . size ( ) ; + + skin_i ) {
Ref < GLTFSkin > skin = p_state - > skins . write [ skin_i ] ;
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// If any of the the skeletons nodes exist in a skin, that skin now maps to the skeleton
for ( int i = 0 ; i < skeleton_nodes . size ( ) ; + + i ) {
GLTFNodeIndex skel_node_i = skeleton_nodes [ i ] ;
if ( skin - > joints . find ( skel_node_i ) > = 0 | | skin - > non_joints . find ( skel_node_i ) > = 0 ) {
skin - > skeleton = skel_i ;
continue ;
}
}
}
Vector < GLTFNodeIndex > non_joints ;
for ( int i = 0 ; i < skeleton_nodes . size ( ) ; + + i ) {
const GLTFNodeIndex node_i = skeleton_nodes [ i ] ;
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if ( p_state - > nodes [ node_i ] - > joint ) {
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skeleton - > joints . push_back ( node_i ) ;
} else {
non_joints . push_back ( node_i ) ;
}
}
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p_state - > skeletons . push_back ( skeleton ) ;
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_reparent_non_joint_skeleton_subtrees ( p_state , p_state - > skeletons . write [ skel_i ] , non_joints ) ;
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}
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for ( GLTFSkeletonIndex skel_i = 0 ; skel_i < p_state - > skeletons . size ( ) ; + + skel_i ) {
Ref < GLTFSkeleton > skeleton = p_state - > skeletons . write [ skel_i ] ;
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for ( int i = 0 ; i < skeleton - > joints . size ( ) ; + + i ) {
const GLTFNodeIndex node_i = skeleton - > joints [ i ] ;
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Ref < GLTFNode > node = p_state - > nodes [ node_i ] ;
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ERR_FAIL_COND_V ( ! node - > joint , ERR_PARSE_ERROR ) ;
ERR_FAIL_COND_V ( node - > skeleton > = 0 , ERR_PARSE_ERROR ) ;
node - > skeleton = skel_i ;
}
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ERR_FAIL_COND_V ( _determine_skeleton_roots ( p_state , skel_i ) , ERR_PARSE_ERROR ) ;
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}
return OK ;
}
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Error GLTFDocument : : _reparent_non_joint_skeleton_subtrees ( Ref < GLTFState > p_state , Ref < GLTFSkeleton > p_skeleton , const Vector < GLTFNodeIndex > & p_non_joints ) {
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DisjointSet < GLTFNodeIndex > subtree_set ;
// Populate the disjoint set with ONLY non joints that are in the skeleton hierarchy (non_joints vector)
// This way we can find any joints that lie in between joints, as the current glTF specification
// mentions nothing about non-joints being in between joints of the same skin. Hopefully one day we
// can remove this code.
// skinD depicted here explains this issue:
// https://github.com/KhronosGroup/glTF-Asset-Generator/blob/master/Output/Positive/Animation_Skin
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for ( int i = 0 ; i < p_non_joints . size ( ) ; + + i ) {
const GLTFNodeIndex node_i = p_non_joints [ i ] ;
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subtree_set . insert ( node_i ) ;
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const GLTFNodeIndex parent_i = p_state - > nodes [ node_i ] - > parent ;
if ( parent_i > = 0 & & p_non_joints . find ( parent_i ) > = 0 & & ! p_state - > nodes [ parent_i ] - > joint ) {
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subtree_set . create_union ( parent_i , node_i ) ;
}
}
// Find all the non joint subtrees and re-parent them to a new "fake" joint
Vector < GLTFNodeIndex > non_joint_subtree_roots ;
subtree_set . get_representatives ( non_joint_subtree_roots ) ;
for ( int root_i = 0 ; root_i < non_joint_subtree_roots . size ( ) ; + + root_i ) {
const GLTFNodeIndex subtree_root = non_joint_subtree_roots [ root_i ] ;
Vector < GLTFNodeIndex > subtree_nodes ;
subtree_set . get_members ( subtree_nodes , subtree_root ) ;
for ( int subtree_i = 0 ; subtree_i < subtree_nodes . size ( ) ; + + subtree_i ) {
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Ref < GLTFNode > node = p_state - > nodes [ subtree_nodes [ subtree_i ] ] ;
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node - > joint = true ;
// Add the joint to the skeletons joints
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p_skeleton - > joints . push_back ( subtree_nodes [ subtree_i ] ) ;
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}
}
return OK ;
}
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Error GLTFDocument : : _determine_skeleton_roots ( Ref < GLTFState > p_state , const GLTFSkeletonIndex p_skel_i ) {
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DisjointSet < GLTFNodeIndex > disjoint_set ;
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for ( GLTFNodeIndex i = 0 ; i < p_state - > nodes . size ( ) ; + + i ) {
const Ref < GLTFNode > node = p_state - > nodes [ i ] ;
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if ( node - > skeleton ! = p_skel_i ) {
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continue ;
}
disjoint_set . insert ( i ) ;
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if ( node - > parent > = 0 & & p_state - > nodes [ node - > parent ] - > skeleton = = p_skel_i ) {
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disjoint_set . create_union ( node - > parent , i ) ;
}
}
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Ref < GLTFSkeleton > skeleton = p_state - > skeletons . write [ p_skel_i ] ;
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Vector < GLTFNodeIndex > owners ;
disjoint_set . get_representatives ( owners ) ;
Vector < GLTFNodeIndex > roots ;
for ( int i = 0 ; i < owners . size ( ) ; + + i ) {
Vector < GLTFNodeIndex > set ;
disjoint_set . get_members ( set , owners [ i ] ) ;
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const GLTFNodeIndex root = _find_highest_node ( p_state , set ) ;
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ERR_FAIL_COND_V ( root < 0 , FAILED ) ;
roots . push_back ( root ) ;
}
roots . sort ( ) ;
PoolVector < GLTFNodeIndex > roots_array ;
roots_array . resize ( roots . size ( ) ) ;
PoolVector < GLTFNodeIndex > : : Write write_roots = roots_array . write ( ) ;
for ( int32_t root_i = 0 ; root_i < roots_array . size ( ) ; root_i + + ) {
write_roots [ root_i ] = roots [ root_i ] ;
}
skeleton - > roots = roots_array ;
if ( roots . size ( ) = = 0 ) {
return FAILED ;
} else if ( roots . size ( ) = = 1 ) {
return OK ;
}
// Check that the subtrees have the same parent root
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const GLTFNodeIndex parent = p_state - > nodes [ roots [ 0 ] ] - > parent ;
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for ( int i = 1 ; i < roots . size ( ) ; + + i ) {
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if ( p_state - > nodes [ roots [ i ] ] - > parent ! = parent ) {
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return FAILED ;
}
}
return OK ;
}
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Error GLTFDocument : : _create_skeletons ( Ref < GLTFState > p_state ) {
for ( GLTFSkeletonIndex skel_i = 0 ; skel_i < p_state - > skeletons . size ( ) ; + + skel_i ) {
Ref < GLTFSkeleton > gltf_skeleton = p_state - > skeletons . write [ skel_i ] ;
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Skeleton * skeleton = memnew ( Skeleton ) ;
gltf_skeleton - > godot_skeleton = skeleton ;
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p_state - > skeleton3d_to_gltf_skeleton [ skeleton - > get_instance_id ( ) ] = skel_i ;
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// Make a unique name, no gltf node represents this skeleton
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skeleton - > set_name ( _gen_unique_name ( p_state , " Skeleton " ) ) ;
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List < GLTFNodeIndex > bones ;
for ( int i = 0 ; i < gltf_skeleton - > roots . size ( ) ; + + i ) {
bones . push_back ( gltf_skeleton - > roots [ i ] ) ;
}
// Make the skeleton creation deterministic by going through the roots in
// a sorted order, and DEPTH FIRST
bones . sort ( ) ;
while ( ! bones . empty ( ) ) {
const GLTFNodeIndex node_i = bones . front ( ) - > get ( ) ;
bones . pop_front ( ) ;
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Ref < GLTFNode > node = p_state - > nodes [ node_i ] ;
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ERR_FAIL_COND_V ( node - > skeleton ! = skel_i , FAILED ) ;
{ // Add all child nodes to the stack (deterministically)
Vector < GLTFNodeIndex > child_nodes ;
for ( int i = 0 ; i < node - > children . size ( ) ; + + i ) {
const GLTFNodeIndex child_i = node - > children [ i ] ;
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if ( p_state - > nodes [ child_i ] - > skeleton = = skel_i ) {
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child_nodes . push_back ( child_i ) ;
}
}
// Depth first insertion
child_nodes . sort ( ) ;
for ( int i = child_nodes . size ( ) - 1 ; i > = 0 ; - - i ) {
bones . push_front ( child_nodes [ i ] ) ;
}
}
const int bone_index = skeleton - > get_bone_count ( ) ;
if ( node - > get_name ( ) . empty ( ) ) {
node - > set_name ( " bone " ) ;
}
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node - > set_name ( _gen_unique_bone_name ( p_state , skel_i , node - > get_name ( ) ) ) ;
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skeleton - > add_bone ( node - > get_name ( ) ) ;
skeleton - > set_bone_rest ( bone_index , node - > xform ) ;
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if ( node - > parent > = 0 & & p_state - > nodes [ node - > parent ] - > skeleton = = skel_i ) {
const int bone_parent = skeleton - > find_bone ( p_state - > nodes [ node - > parent ] - > get_name ( ) ) ;
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ERR_FAIL_COND_V ( bone_parent < 0 , FAILED ) ;
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skeleton - > set_bone_parent ( bone_index , skeleton - > find_bone ( p_state - > nodes [ node - > parent ] - > get_name ( ) ) ) ;
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}
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p_state - > scene_nodes . insert ( node_i , skeleton ) ;
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}
}
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ERR_FAIL_COND_V ( _map_skin_joints_indices_to_skeleton_bone_indices ( p_state ) , ERR_PARSE_ERROR ) ;
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return OK ;
}
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Error GLTFDocument : : _map_skin_joints_indices_to_skeleton_bone_indices ( Ref < GLTFState > p_state ) {
for ( GLTFSkinIndex skin_i = 0 ; skin_i < p_state - > skins . size ( ) ; + + skin_i ) {
Ref < GLTFSkin > skin = p_state - > skins . write [ skin_i ] ;
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Ref < GLTFSkeleton > skeleton = p_state - > skeletons [ skin - > skeleton ] ;
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for ( int joint_index = 0 ; joint_index < skin - > joints_original . size ( ) ; + + joint_index ) {
const GLTFNodeIndex node_i = skin - > joints_original [ joint_index ] ;
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const Ref < GLTFNode > node = p_state - > nodes [ node_i ] ;
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const int bone_index = skeleton - > godot_skeleton - > find_bone ( node - > get_name ( ) ) ;
ERR_FAIL_COND_V ( bone_index < 0 , FAILED ) ;
skin - > joint_i_to_bone_i . insert ( joint_index , bone_index ) ;
}
}
return OK ;
}
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Error GLTFDocument : : _serialize_skins ( Ref < GLTFState > p_state ) {
_remove_duplicate_skins ( p_state ) ;
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Array json_skins ;
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for ( int skin_i = 0 ; skin_i < p_state - > skins . size ( ) ; skin_i + + ) {
Ref < GLTFSkin > gltf_skin = p_state - > skins [ skin_i ] ;
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Dictionary json_skin ;
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json_skin [ " inverseBindMatrices " ] = _encode_accessor_as_xform ( p_state , gltf_skin - > inverse_binds , false ) ;
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json_skin [ " joints " ] = gltf_skin - > get_joints ( ) ;
json_skin [ " name " ] = gltf_skin - > get_name ( ) ;
json_skins . push_back ( json_skin ) ;
}
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if ( ! p_state - > skins . size ( ) ) {
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return OK ;
}
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p_state - > json [ " skins " ] = json_skins ;
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return OK ;
}
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Error GLTFDocument : : _create_skins ( Ref < GLTFState > p_state ) {
for ( GLTFSkinIndex skin_i = 0 ; skin_i < p_state - > skins . size ( ) ; + + skin_i ) {
Ref < GLTFSkin > gltf_skin = p_state - > skins . write [ skin_i ] ;
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Ref < Skin > skin ;
skin . instance ( ) ;
// Some skins don't have IBM's! What absolute monsters!
const bool has_ibms = ! gltf_skin - > inverse_binds . empty ( ) ;
for ( int joint_i = 0 ; joint_i < gltf_skin - > joints_original . size ( ) ; + + joint_i ) {
GLTFNodeIndex node = gltf_skin - > joints_original [ joint_i ] ;
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String bone_name = p_state - > nodes [ node ] - > get_name ( ) ;
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Transform xform ;
if ( has_ibms ) {
xform = gltf_skin - > inverse_binds [ joint_i ] ;
}
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if ( p_state - > use_named_skin_binds ) {
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skin - > add_named_bind ( bone_name , xform ) ;
} else {
int32_t bone_i = gltf_skin - > joint_i_to_bone_i [ joint_i ] ;
skin - > add_bind ( bone_i , xform ) ;
}
}
gltf_skin - > godot_skin = skin ;
}
// Purge the duplicates!
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_remove_duplicate_skins ( p_state ) ;
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// Create unique names now, after removing duplicates
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for ( GLTFSkinIndex skin_i = 0 ; skin_i < p_state - > skins . size ( ) ; + + skin_i ) {
Ref < Skin > skin = p_state - > skins . write [ skin_i ] - > godot_skin ;
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if ( skin - > get_name ( ) . empty ( ) ) {
// Make a unique name, no gltf node represents this skin
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skin - > set_name ( _gen_unique_name ( p_state , " Skin " ) ) ;
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}
}
return OK ;
}
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bool GLTFDocument : : _skins_are_same ( const Ref < Skin > p_skin_a , const Ref < Skin > p_skin_b ) {
if ( p_skin_a - > get_bind_count ( ) ! = p_skin_b - > get_bind_count ( ) ) {
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return false ;
}
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for ( int i = 0 ; i < p_skin_a - > get_bind_count ( ) ; + + i ) {
if ( p_skin_a - > get_bind_bone ( i ) ! = p_skin_b - > get_bind_bone ( i ) ) {
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return false ;
}
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if ( p_skin_a - > get_bind_name ( i ) ! = p_skin_b - > get_bind_name ( i ) ) {
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return false ;
}
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Transform a_xform = p_skin_a - > get_bind_pose ( i ) ;
Transform b_xform = p_skin_b - > get_bind_pose ( i ) ;
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if ( a_xform ! = b_xform ) {
return false ;
}
}
return true ;
}
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void GLTFDocument : : _remove_duplicate_skins ( Ref < GLTFState > p_state ) {
for ( int i = 0 ; i < p_state - > skins . size ( ) ; + + i ) {
for ( int j = i + 1 ; j < p_state - > skins . size ( ) ; + + j ) {
const Ref < Skin > skin_i = p_state - > skins [ i ] - > godot_skin ;
const Ref < Skin > skin_j = p_state - > skins [ j ] - > godot_skin ;
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if ( _skins_are_same ( skin_i , skin_j ) ) {
// replace it and delete the old
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p_state - > skins . write [ j ] - > godot_skin = skin_i ;
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}
}
}
}
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Error GLTFDocument : : _serialize_lights ( Ref < GLTFState > p_state ) {
if ( p_state - > lights . empty ( ) ) {
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return OK ;
}
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Array lights ;
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for ( GLTFLightIndex i = 0 ; i < p_state - > lights . size ( ) ; i + + ) {
Ref < GLTFLight > light = p_state - > lights [ i ] ;
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Dictionary d = light - > to_dictionary ( ) ;
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lights . push_back ( d ) ;
}
Dictionary extensions ;
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if ( p_state - > json . has ( " extensions " ) ) {
extensions = p_state - > json [ " extensions " ] ;
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} else {
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p_state - > json [ " extensions " ] = extensions ;
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}
Dictionary lights_punctual ;
extensions [ " KHR_lights_punctual " ] = lights_punctual ;
lights_punctual [ " lights " ] = lights ;
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print_verbose ( " glTF: Total lights: " + itos ( p_state - > lights . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _serialize_cameras ( Ref < GLTFState > p_state ) {
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Array cameras ;
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cameras . resize ( p_state - > cameras . size ( ) ) ;
for ( GLTFCameraIndex i = 0 ; i < p_state - > cameras . size ( ) ; i + + ) {
Ref < GLTFCamera > camera = p_state - > cameras [ i ] ;
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Dictionary d = camera - > to_dictionary ( ) ;
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cameras [ i ] = d ;
}
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if ( ! p_state - > cameras . size ( ) ) {
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return OK ;
}
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p_state - > json [ " cameras " ] = cameras ;
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print_verbose ( " glTF: Total cameras: " + itos ( p_state - > cameras . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _parse_lights ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " extensions " ) ) {
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return OK ;
}
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Dictionary extensions = p_state - > json [ " extensions " ] ;
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if ( ! extensions . has ( " KHR_lights_punctual " ) ) {
return OK ;
}
Dictionary lights_punctual = extensions [ " KHR_lights_punctual " ] ;
if ( ! lights_punctual . has ( " lights " ) ) {
return OK ;
}
const Array & lights = lights_punctual [ " lights " ] ;
for ( GLTFLightIndex light_i = 0 ; light_i < lights . size ( ) ; light_i + + ) {
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Ref < GLTFLight > light = GLTFLight : : from_dictionary ( lights [ light_i ] ) ;
if ( light . is_null ( ) ) {
return Error : : ERR_PARSE_ERROR ;
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}
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p_state - > lights . push_back ( light ) ;
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}
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print_verbose ( " glTF: Total lights: " + itos ( p_state - > lights . size ( ) ) ) ;
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return OK ;
}
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Error GLTFDocument : : _parse_cameras ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " cameras " ) ) {
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return OK ;
}
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const Array cameras = p_state - > json [ " cameras " ] ;
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for ( GLTFCameraIndex i = 0 ; i < cameras . size ( ) ; i + + ) {
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Ref < GLTFCamera > camera = GLTFCamera : : from_dictionary ( cameras [ i ] ) ;
if ( camera . is_null ( ) ) {
return Error : : ERR_PARSE_ERROR ;
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}
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p_state - > cameras . push_back ( camera ) ;
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}
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print_verbose ( " glTF: Total cameras: " + itos ( p_state - > cameras . size ( ) ) ) ;
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return OK ;
}
String GLTFDocument : : interpolation_to_string ( const GLTFAnimation : : Interpolation p_interp ) {
String interp = " LINEAR " ;
if ( p_interp = = GLTFAnimation : : INTERP_STEP ) {
interp = " STEP " ;
} else if ( p_interp = = GLTFAnimation : : INTERP_LINEAR ) {
interp = " LINEAR " ;
} else if ( p_interp = = GLTFAnimation : : INTERP_CATMULLROMSPLINE ) {
interp = " CATMULLROMSPLINE " ;
} else if ( p_interp = = GLTFAnimation : : INTERP_CUBIC_SPLINE ) {
interp = " CUBICSPLINE " ;
}
return interp ;
}
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Error GLTFDocument : : _serialize_animations ( Ref < GLTFState > p_state ) {
if ( ! p_state - > animation_players . size ( ) ) {
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return OK ;
}
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for ( int32_t player_i = 0 ; player_i < p_state - > animation_players . size ( ) ; player_i + + ) {
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List < StringName > animation_names ;
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AnimationPlayer * animation_player = p_state - > animation_players [ player_i ] ;
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animation_player - > get_animation_list ( & animation_names ) ;
if ( animation_names . size ( ) ) {
for ( int animation_name_i = 0 ; animation_name_i < animation_names . size ( ) ; animation_name_i + + ) {
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_convert_animation ( p_state , animation_player , animation_names [ animation_name_i ] ) ;
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}
}
}
Array animations ;
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for ( GLTFAnimationIndex animation_i = 0 ; animation_i < p_state - > animations . size ( ) ; animation_i + + ) {
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Dictionary d ;
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Ref < GLTFAnimation > gltf_animation = p_state - > animations [ animation_i ] ;
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if ( ! gltf_animation - > get_tracks ( ) . size ( ) ) {
continue ;
}
if ( ! gltf_animation - > get_name ( ) . empty ( ) ) {
d [ " name " ] = gltf_animation - > get_name ( ) ;
}
Array channels ;
Array samplers ;
for ( Map < int , GLTFAnimation : : Track > : : Element * track_i = gltf_animation - > get_tracks ( ) . front ( ) ; track_i ; track_i = track_i - > next ( ) ) {
GLTFAnimation : : Track track = track_i - > get ( ) ;
if ( track . translation_track . times . size ( ) ) {
Dictionary t ;
t [ " sampler " ] = samplers . size ( ) ;
Dictionary s ;
s [ " interpolation " ] = interpolation_to_string ( track . translation_track . interpolation ) ;
Vector < real_t > times = Variant ( track . translation_track . times ) ;
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s [ " input " ] = _encode_accessor_as_floats ( p_state , times , false ) ;
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Vector < Vector3 > values = Variant ( track . translation_track . values ) ;
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s [ " output " ] = _encode_accessor_as_vec3 ( p_state , values , false ) ;
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samplers . push_back ( s ) ;
Dictionary target ;
target [ " path " ] = " translation " ;
target [ " node " ] = track_i - > key ( ) ;
t [ " target " ] = target ;
channels . push_back ( t ) ;
}
if ( track . rotation_track . times . size ( ) ) {
Dictionary t ;
t [ " sampler " ] = samplers . size ( ) ;
Dictionary s ;
s [ " interpolation " ] = interpolation_to_string ( track . rotation_track . interpolation ) ;
Vector < real_t > times = Variant ( track . rotation_track . times ) ;
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s [ " input " ] = _encode_accessor_as_floats ( p_state , times , false ) ;
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Vector < Quat > values = track . rotation_track . values ;
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s [ " output " ] = _encode_accessor_as_quats ( p_state , values , false ) ;
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samplers . push_back ( s ) ;
Dictionary target ;
target [ " path " ] = " rotation " ;
target [ " node " ] = track_i - > key ( ) ;
t [ " target " ] = target ;
channels . push_back ( t ) ;
}
if ( track . scale_track . times . size ( ) ) {
Dictionary t ;
t [ " sampler " ] = samplers . size ( ) ;
Dictionary s ;
s [ " interpolation " ] = interpolation_to_string ( track . scale_track . interpolation ) ;
Vector < real_t > times = Variant ( track . scale_track . times ) ;
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s [ " input " ] = _encode_accessor_as_floats ( p_state , times , false ) ;
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Vector < Vector3 > values = Variant ( track . scale_track . values ) ;
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s [ " output " ] = _encode_accessor_as_vec3 ( p_state , values , false ) ;
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samplers . push_back ( s ) ;
Dictionary target ;
target [ " path " ] = " scale " ;
target [ " node " ] = track_i - > key ( ) ;
t [ " target " ] = target ;
channels . push_back ( t ) ;
}
if ( track . weight_tracks . size ( ) ) {
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double length = 0.0f ;
for ( int32_t track_idx = 0 ; track_idx < track . weight_tracks . size ( ) ; track_idx + + ) {
int32_t last_time_index = track . weight_tracks [ track_idx ] . times . size ( ) - 1 ;
length = MAX ( length , track . weight_tracks [ track_idx ] . times [ last_time_index ] ) ;
}
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Dictionary t ;
t [ " sampler " ] = samplers . size ( ) ;
Dictionary s ;
Vector < real_t > times ;
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const double increment = 1.0 / BAKE_FPS ;
{
double time = 0.0 ;
bool last = false ;
while ( true ) {
times . push_back ( time ) ;
if ( last ) {
break ;
}
time + = increment ;
if ( time > = length ) {
last = true ;
time = length ;
}
}
}
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for ( int32_t track_idx = 0 ; track_idx < track . weight_tracks . size ( ) ; track_idx + + ) {
double time = 0.0 ;
bool last = false ;
Vector < real_t > weight_track ;
while ( true ) {
float weight = _interpolate_track < float > ( track . weight_tracks [ track_idx ] . times ,
track . weight_tracks [ track_idx ] . values ,
time ,
track . weight_tracks [ track_idx ] . interpolation ) ;
weight_track . push_back ( weight ) ;
if ( last ) {
break ;
}
time + = increment ;
if ( time > = length ) {
last = true ;
time = length ;
}
}
track . weight_tracks . write [ track_idx ] . times = times ;
track . weight_tracks . write [ track_idx ] . values = weight_track ;
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}
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Vector < real_t > all_track_times = times ;
Vector < real_t > all_track_values ;
int32_t values_size = track . weight_tracks [ 0 ] . values . size ( ) ;
int32_t weight_tracks_size = track . weight_tracks . size ( ) ;
all_track_values . resize ( weight_tracks_size * values_size ) ;
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for ( int k = 0 ; k < track . weight_tracks . size ( ) ; k + + ) {
Vector < float > wdata = track . weight_tracks [ k ] . values ;
for ( int l = 0 ; l < wdata . size ( ) ; l + + ) {
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int32_t index = l * weight_tracks_size + k ;
ERR_BREAK ( index > = all_track_values . size ( ) ) ;
all_track_values . write [ index ] = wdata . write [ l ] ;
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}
}
s [ " interpolation " ] = interpolation_to_string ( track . weight_tracks [ track . weight_tracks . size ( ) - 1 ] . interpolation ) ;
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s [ " input " ] = _encode_accessor_as_floats ( p_state , all_track_times , false ) ;
s [ " output " ] = _encode_accessor_as_floats ( p_state , all_track_values , false ) ;
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samplers . push_back ( s ) ;
Dictionary target ;
target [ " path " ] = " weights " ;
target [ " node " ] = track_i - > key ( ) ;
t [ " target " ] = target ;
channels . push_back ( t ) ;
}
}
if ( channels . size ( ) & & samplers . size ( ) ) {
d [ " channels " ] = channels ;
d [ " samplers " ] = samplers ;
animations . push_back ( d ) ;
}
}
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if ( ! animations . size ( ) ) {
return OK ;
}
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p_state - > json [ " animations " ] = animations ;
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print_verbose ( " glTF: Total animations ' " + itos ( p_state - > animations . size ( ) ) + " '. " ) ;
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return OK ;
}
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Error GLTFDocument : : _parse_animations ( Ref < GLTFState > p_state ) {
if ( ! p_state - > json . has ( " animations " ) ) {
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return OK ;
}
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const Array & animations = p_state - > json [ " animations " ] ;
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for ( GLTFAnimationIndex i = 0 ; i < animations . size ( ) ; i + + ) {
const Dictionary & d = animations [ i ] ;
Ref < GLTFAnimation > animation ;
animation . instance ( ) ;
if ( ! d . has ( " channels " ) | | ! d . has ( " samplers " ) ) {
continue ;
}
Array channels = d [ " channels " ] ;
Array samplers = d [ " samplers " ] ;
if ( d . has ( " name " ) ) {
const String name = d [ " name " ] ;
if ( name . begins_with ( " loop " ) | | name . ends_with ( " loop " ) | | name . begins_with ( " cycle " ) | | name . ends_with ( " cycle " ) ) {
animation - > set_loop ( true ) ;
}
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if ( p_state - > use_legacy_names ) {
animation - > set_name ( _sanitize_scene_name ( p_state , name ) ) ;
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} else {
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animation - > set_name ( _gen_unique_animation_name ( p_state , name ) ) ;
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}
}
for ( int j = 0 ; j < channels . size ( ) ; j + + ) {
const Dictionary & c = channels [ j ] ;
if ( ! c . has ( " target " ) ) {
continue ;
}
const Dictionary & t = c [ " target " ] ;
if ( ! t . has ( " node " ) | | ! t . has ( " path " ) ) {
continue ;
}
ERR_FAIL_COND_V ( ! c . has ( " sampler " ) , ERR_PARSE_ERROR ) ;
const int sampler = c [ " sampler " ] ;
ERR_FAIL_INDEX_V ( sampler , samplers . size ( ) , ERR_PARSE_ERROR ) ;
GLTFNodeIndex node = t [ " node " ] ;
String path = t [ " path " ] ;
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ERR_FAIL_INDEX_V ( node , p_state - > nodes . size ( ) , ERR_PARSE_ERROR ) ;
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GLTFAnimation : : Track * track = nullptr ;
if ( ! animation - > get_tracks ( ) . has ( node ) ) {
animation - > get_tracks ( ) [ node ] = GLTFAnimation : : Track ( ) ;
}
track = & animation - > get_tracks ( ) [ node ] ;
const Dictionary & s = samplers [ sampler ] ;
ERR_FAIL_COND_V ( ! s . has ( " input " ) , ERR_PARSE_ERROR ) ;
ERR_FAIL_COND_V ( ! s . has ( " output " ) , ERR_PARSE_ERROR ) ;
const int input = s [ " input " ] ;
const int output = s [ " output " ] ;
GLTFAnimation : : Interpolation interp = GLTFAnimation : : INTERP_LINEAR ;
int output_count = 1 ;
if ( s . has ( " interpolation " ) ) {
const String & in = s [ " interpolation " ] ;
if ( in = = " STEP " ) {
interp = GLTFAnimation : : INTERP_STEP ;
} else if ( in = = " LINEAR " ) {
interp = GLTFAnimation : : INTERP_LINEAR ;
} else if ( in = = " CATMULLROMSPLINE " ) {
interp = GLTFAnimation : : INTERP_CATMULLROMSPLINE ;
output_count = 3 ;
} else if ( in = = " CUBICSPLINE " ) {
interp = GLTFAnimation : : INTERP_CUBIC_SPLINE ;
output_count = 3 ;
}
}
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const Vector < float > times = _decode_accessor_as_floats ( p_state , input , false ) ;
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if ( path = = " translation " ) {
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const Vector < Vector3 > translations = _decode_accessor_as_vec3 ( p_state , output , false ) ;
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track - > translation_track . interpolation = interp ;
track - > translation_track . times = Variant ( times ) ; //convert via variant
track - > translation_track . values = Variant ( translations ) ; //convert via variant
} else if ( path = = " rotation " ) {
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const Vector < Quat > rotations = _decode_accessor_as_quat ( p_state , output , false ) ;
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track - > rotation_track . interpolation = interp ;
track - > rotation_track . times = Variant ( times ) ; //convert via variant
track - > rotation_track . values = rotations ;
} else if ( path = = " scale " ) {
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const Vector < Vector3 > scales = _decode_accessor_as_vec3 ( p_state , output , false ) ;
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track - > scale_track . interpolation = interp ;
track - > scale_track . times = Variant ( times ) ; //convert via variant
track - > scale_track . values = Variant ( scales ) ; //convert via variant
} else if ( path = = " weights " ) {
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const Vector < float > weights = _decode_accessor_as_floats ( p_state , output , false ) ;
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ERR_FAIL_INDEX_V ( p_state - > nodes [ node ] - > mesh , p_state - > meshes . size ( ) , ERR_PARSE_ERROR ) ;
Ref < GLTFMesh > mesh = p_state - > meshes [ p_state - > nodes [ node ] - > mesh ] ;
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ERR_CONTINUE ( ! mesh - > get_blend_weights ( ) . size ( ) ) ;
const int wc = mesh - > get_blend_weights ( ) . size ( ) ;
track - > weight_tracks . resize ( wc ) ;
const int expected_value_count = times . size ( ) * output_count * wc ;
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ERR_CONTINUE_MSG ( weights . size ( ) ! = expected_value_count , " Invalid weight data, expected " + itos ( expected_value_count ) + " weight values, got " + itos ( weights . size ( ) ) + " instead. " ) ;
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const int wlen = weights . size ( ) / wc ;
for ( int k = 0 ; k < wc ; k + + ) { //separate tracks, having them together is not such a good idea
GLTFAnimation : : Channel < float > cf ;
cf . interpolation = interp ;
cf . times = Variant ( times ) ;
Vector < float > wdata ;
wdata . resize ( wlen ) ;
for ( int l = 0 ; l < wlen ; l + + ) {
wdata . write [ l ] = weights [ l * wc + k ] ;
}
cf . values = wdata ;
track - > weight_tracks . write [ k ] = cf ;
}
} else {
WARN_PRINT ( " Invalid path ' " + path + " '. " ) ;
}
}
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p_state - > animations . push_back ( animation ) ;
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}
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print_verbose ( " glTF: Total animations ' " + itos ( p_state - > animations . size ( ) ) + " '. " ) ;
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return OK ;
}
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void GLTFDocument : : _assign_scene_names ( Ref < GLTFState > p_state ) {
for ( int i = 0 ; i < p_state - > nodes . size ( ) ; i + + ) {
Ref < GLTFNode > gltf_node = p_state - > nodes [ i ] ;
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// Any joints get unique names generated when the skeleton is made, unique to the skeleton
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if ( gltf_node - > skeleton > = 0 ) {
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continue ;
}
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if ( gltf_node - > get_name ( ) . empty ( ) ) {
if ( gltf_node - > mesh > = 0 ) {
gltf_node - > set_name ( _gen_unique_name ( p_state , " Mesh " ) ) ;
} else if ( gltf_node - > camera > = 0 ) {
gltf_node - > set_name ( _gen_unique_name ( p_state , " Camera " ) ) ;
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} else {
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gltf_node - > set_name ( _gen_unique_name ( p_state , " Node " ) ) ;
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}
}
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gltf_node - > set_name ( _gen_unique_name ( p_state , gltf_node - > get_name ( ) ) ) ;
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}
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// Assign a unique name to the scene last to avoid naming conflicts with the root
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p_state - > scene_name = _gen_unique_name ( p_state , p_state - > scene_name ) ;
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}
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BoneAttachment * GLTFDocument : : _generate_bone_attachment ( Ref < GLTFState > p_state , Skeleton * p_skeleton , const GLTFNodeIndex p_node_index , const GLTFNodeIndex p_bone_index ) {
Ref < GLTFNode > gltf_node = p_state - > nodes [ p_node_index ] ;
Ref < GLTFNode > bone_node = p_state - > nodes [ p_bone_index ] ;
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BoneAttachment * bone_attachment = memnew ( BoneAttachment ) ;
print_verbose ( " glTF: Creating bone attachment for: " + gltf_node - > get_name ( ) ) ;
ERR_FAIL_COND_V ( ! bone_node - > joint , nullptr ) ;
bone_attachment - > set_bone_name ( bone_node - > get_name ( ) ) ;
return bone_attachment ;
}
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GLTFMeshIndex GLTFDocument : : _convert_mesh_to_gltf ( Ref < GLTFState > p_state , MeshInstance * p_mesh_instance ) {
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ERR_FAIL_NULL_V ( p_mesh_instance , - 1 ) ;
if ( p_mesh_instance - > get_mesh ( ) . is_null ( ) ) {
return - 1 ;
}
Ref < ArrayMesh > import_mesh ;
import_mesh . instance ( ) ;
Ref < Mesh > godot_mesh = p_mesh_instance - > get_mesh ( ) ;
if ( godot_mesh . is_null ( ) ) {
return - 1 ;
}
int32_t blend_count = godot_mesh - > get_blend_shape_count ( ) ;
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Vector < float > blend_weights ;
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blend_weights . resize ( blend_count ) ;
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Ref < ArrayMesh > am = godot_mesh ;
if ( am ! = nullptr ) {
import_mesh = am ;
} else {
for ( int32_t surface_i = 0 ; surface_i < godot_mesh - > get_surface_count ( ) ; surface_i + + ) {
Mesh : : PrimitiveType primitive_type = godot_mesh - > surface_get_primitive_type ( surface_i ) ;
Array arrays = godot_mesh - > surface_get_arrays ( surface_i ) ;
Ref < Material > mat = godot_mesh - > surface_get_material ( surface_i ) ;
if ( p_mesh_instance - > get_surface_material ( surface_i ) . is_valid ( ) ) {
mat = p_mesh_instance - > get_surface_material ( surface_i ) ;
}
if ( p_mesh_instance - > get_material_override ( ) . is_valid ( ) ) {
mat = p_mesh_instance - > get_material_override ( ) ;
}
int32_t mat_idx = import_mesh - > get_surface_count ( ) ;
import_mesh - > add_surface_from_arrays ( primitive_type , arrays ) ;
import_mesh - > surface_set_material ( mat_idx , mat ) ;
}
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}
for ( int32_t blend_i = 0 ; blend_i < blend_count ; blend_i + + ) {
blend_weights . write [ blend_i ] = 0.0f ;
}
Ref < GLTFMesh > gltf_mesh ;
gltf_mesh . instance ( ) ;
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Array instance_materials ;
for ( int32_t surface_i = 0 ; surface_i < import_mesh - > get_surface_count ( ) ; surface_i + + ) {
Ref < Material > mat = import_mesh - > surface_get_material ( surface_i ) ;
if ( p_mesh_instance - > get_surface_material ( surface_i ) . is_valid ( ) ) {
mat = p_mesh_instance - > get_surface_material ( surface_i ) ;
}
if ( p_mesh_instance - > get_material_override ( ) . is_valid ( ) ) {
mat = p_mesh_instance - > get_material_override ( ) ;
}
instance_materials . append ( mat ) ;
}
gltf_mesh - > set_instance_materials ( instance_materials ) ;
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gltf_mesh - > set_mesh ( import_mesh ) ;
gltf_mesh - > set_blend_weights ( blend_weights ) ;
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GLTFMeshIndex mesh_i = p_state - > meshes . size ( ) ;
p_state - > meshes . push_back ( gltf_mesh ) ;
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return mesh_i ;
}
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Spatial * GLTFDocument : : _generate_mesh_instance ( Ref < GLTFState > p_state , Node * p_scene_parent , const GLTFNodeIndex p_node_index ) {
Ref < GLTFNode > gltf_node = p_state - > nodes [ p_node_index ] ;
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ERR_FAIL_INDEX_V ( gltf_node - > mesh , p_state - > meshes . size ( ) , nullptr ) ;
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MeshInstance * mi = memnew ( MeshInstance ) ;
print_verbose ( " glTF: Creating mesh for: " + gltf_node - > get_name ( ) ) ;
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Ref < GLTFMesh > mesh = p_state - > meshes . write [ gltf_node - > mesh ] ;
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if ( mesh . is_null ( ) ) {
return mi ;
}
Ref < ArrayMesh > import_mesh = mesh - > get_mesh ( ) ;
if ( import_mesh . is_null ( ) ) {
return mi ;
}
mi - > set_mesh ( import_mesh ) ;
for ( int i = 0 ; i < mesh - > get_blend_weights ( ) . size ( ) ; i + + ) {
mi - > set ( " blend_shapes/ " + mesh - > get_mesh ( ) - > get_blend_shape_name ( i ) , mesh - > get_blend_weights ( ) [ i ] ) ;
}
return mi ;
}
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Spatial * GLTFDocument : : _generate_light ( Ref < GLTFState > p_state , Node * p_scene_parent , const GLTFNodeIndex p_node_index ) {
Ref < GLTFNode > gltf_node = p_state - > nodes [ p_node_index ] ;
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ERR_FAIL_INDEX_V ( gltf_node - > light , p_state - > lights . size ( ) , nullptr ) ;
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print_verbose ( " glTF: Creating light for: " + gltf_node - > get_name ( ) ) ;
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Ref < GLTFLight > l = p_state - > lights [ gltf_node - > light ] ;
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return l - > to_node ( ) ;
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}
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Camera * GLTFDocument : : _generate_camera ( Ref < GLTFState > p_state , Node * p_scene_parent , const GLTFNodeIndex p_node_index ) {
Ref < GLTFNode > gltf_node = p_state - > nodes [ p_node_index ] ;
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ERR_FAIL_INDEX_V ( gltf_node - > camera , p_state - > cameras . size ( ) , nullptr ) ;
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print_verbose ( " glTF: Creating camera for: " + gltf_node - > get_name ( ) ) ;
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Ref < GLTFCamera > c = p_state - > cameras [ gltf_node - > camera ] ;
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return c - > to_node ( ) ;
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}
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GLTFCameraIndex GLTFDocument : : _convert_camera ( Ref < GLTFState > p_state , Camera * p_camera ) {
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print_verbose ( " glTF: Converting camera: " + p_camera - > get_name ( ) ) ;
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Ref < GLTFCamera > c = GLTFCamera : : from_node ( p_camera ) ;
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GLTFCameraIndex camera_index = p_state - > cameras . size ( ) ;
p_state - > cameras . push_back ( c ) ;
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return camera_index ;
}
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GLTFLightIndex GLTFDocument : : _convert_light ( Ref < GLTFState > p_state , Light * p_light ) {
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print_verbose ( " glTF: Converting light: " + p_light - > get_name ( ) ) ;
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Ref < GLTFLight > l = GLTFLight : : from_node ( p_light ) ;
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GLTFLightIndex light_index = p_state - > lights . size ( ) ;
p_state - > lights . push_back ( l ) ;
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return light_index ;
}
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void GLTFDocument : : _convert_spatial ( Ref < GLTFState > p_state , Spatial * p_spatial , Ref < GLTFNode > p_node ) {
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Transform xform = p_spatial - > get_transform ( ) ;
p_node - > scale = xform . basis . get_scale ( ) ;
p_node - > rotation = xform . basis . get_rotation_quat ( ) ;
p_node - > translation = xform . origin ;
}
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Spatial * GLTFDocument : : _generate_spatial ( Ref < GLTFState > p_state , Node * p_scene_parent , const GLTFNodeIndex p_node_index ) {
Ref < GLTFNode > gltf_node = p_state - > nodes [ p_node_index ] ;
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Spatial * spatial = memnew ( Spatial ) ;
print_verbose ( " glTF: Converting spatial: " + gltf_node - > get_name ( ) ) ;
return spatial ;
}
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void GLTFDocument : : _convert_scene_node ( Ref < GLTFState > p_state , Node * p_current , const GLTFNodeIndex p_gltf_parent , const GLTFNodeIndex p_gltf_root ) {
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bool retflag = true ;
_check_visibility ( p_current , retflag ) ;
if ( retflag ) {
return ;
}
Ref < GLTFNode > gltf_node ;
gltf_node . instance ( ) ;
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gltf_node - > set_name ( _gen_unique_name ( p_state , p_current - > get_name ( ) ) ) ;
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if ( cast_to < Spatial > ( p_current ) ) {
Spatial * spatial = cast_to < Spatial > ( p_current ) ;
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_convert_spatial ( p_state , spatial , gltf_node ) ;
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}
if ( cast_to < MeshInstance > ( p_current ) ) {
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MeshInstance * mi = cast_to < MeshInstance > ( p_current ) ;
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_convert_mesh_instance_to_gltf ( mi , p_state , gltf_node ) ;
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} else if ( cast_to < BoneAttachment > ( p_current ) ) {
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BoneAttachment * bone = cast_to < BoneAttachment > ( p_current ) ;
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_convert_bone_attachment_to_gltf ( bone , p_state , p_gltf_parent , p_gltf_root , gltf_node ) ;
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return ;
} else if ( cast_to < Skeleton > ( p_current ) ) {
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Skeleton * skel = cast_to < Skeleton > ( p_current ) ;
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_convert_skeleton_to_gltf ( skel , p_state , p_gltf_parent , p_gltf_root , gltf_node ) ;
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// We ignore the Godot Engine node that is the skeleton.
return ;
} else if ( cast_to < MultiMeshInstance > ( p_current ) ) {
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MultiMeshInstance * multi = cast_to < MultiMeshInstance > ( p_current ) ;
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_convert_multi_mesh_instance_to_gltf ( multi , p_gltf_parent , p_gltf_root , gltf_node , p_state ) ;
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# ifdef MODULE_CSG_ENABLED
} else if ( cast_to < CSGShape > ( p_current ) ) {
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CSGShape * shape = cast_to < CSGShape > ( p_current ) ;
if ( shape - > get_parent ( ) & & shape - > is_root_shape ( ) ) {
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_convert_csg_shape_to_gltf ( shape , p_gltf_parent , gltf_node , p_state ) ;
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}
# endif // MODULE_CSG_ENABLED
# ifdef MODULE_GRIDMAP_ENABLED
} else if ( cast_to < GridMap > ( p_current ) ) {
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GridMap * gridmap = Object : : cast_to < GridMap > ( p_current ) ;
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_convert_grid_map_to_gltf ( gridmap , p_gltf_parent , p_gltf_root , gltf_node , p_state ) ;
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# endif // MODULE_GRIDMAP_ENABLED
} else if ( cast_to < Camera > ( p_current ) ) {
Camera * camera = Object : : cast_to < Camera > ( p_current ) ;
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_convert_camera_to_gltf ( camera , p_state , gltf_node ) ;
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} else if ( cast_to < Light > ( p_current ) ) {
Light * light = Object : : cast_to < Light > ( p_current ) ;
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_convert_light_to_gltf ( light , p_state , gltf_node ) ;
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} else if ( cast_to < AnimationPlayer > ( p_current ) ) {
AnimationPlayer * animation_player = Object : : cast_to < AnimationPlayer > ( p_current ) ;
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_convert_animation_player_to_gltf ( animation_player , p_state , p_gltf_parent , p_gltf_root , gltf_node , p_current ) ;
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}
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for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
ext - > convert_scene_node ( p_state , gltf_node , p_current ) ;
}
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GLTFNodeIndex current_node_i = p_state - > nodes . size ( ) ;
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GLTFNodeIndex gltf_root = p_gltf_root ;
if ( gltf_root = = - 1 ) {
gltf_root = current_node_i ;
Array scenes ;
scenes . push_back ( gltf_root ) ;
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p_state - > json [ " scene " ] = scenes ;
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}
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_create_gltf_node ( p_state , p_current , current_node_i , p_gltf_parent , gltf_root , gltf_node ) ;
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for ( int node_i = 0 ; node_i < p_current - > get_child_count ( ) ; node_i + + ) {
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_convert_scene_node ( p_state , p_current - > get_child ( node_i ) , current_node_i , gltf_root ) ;
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}
}
# ifdef MODULE_CSG_ENABLED
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void GLTFDocument : : _convert_csg_shape_to_gltf ( CSGShape * p_current , GLTFNodeIndex p_gltf_parent , Ref < GLTFNode > p_gltf_node , Ref < GLTFState > p_state ) {
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CSGShape * csg = p_current ;
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csg - > call ( " _update_shape " ) ;
Array meshes = csg - > get_meshes ( ) ;
if ( meshes . size ( ) ! = 2 ) {
return ;
}
Ref < Material > mat ;
if ( csg - > get_material_override ( ) . is_valid ( ) ) {
mat = csg - > get_material_override ( ) ;
}
Ref < GLTFMesh > gltf_mesh ;
gltf_mesh . instance ( ) ;
Ref < ArrayMesh > import_mesh ;
import_mesh . instance ( ) ;
Ref < ArrayMesh > array_mesh = csg - > get_meshes ( ) [ 1 ] ;
for ( int32_t surface_i = 0 ; surface_i < array_mesh - > get_surface_count ( ) ; surface_i + + ) {
import_mesh - > add_surface_from_arrays ( Mesh : : PRIMITIVE_TRIANGLES , array_mesh - > surface_get_arrays ( surface_i ) ) ;
}
gltf_mesh - > set_mesh ( import_mesh ) ;
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GLTFMeshIndex mesh_i = p_state - > meshes . size ( ) ;
p_state - > meshes . push_back ( gltf_mesh ) ;
p_gltf_node - > mesh = mesh_i ;
p_gltf_node - > xform = csg - > get_meshes ( ) [ 0 ] ;
p_gltf_node - > set_name ( _gen_unique_name ( p_state , csg - > get_name ( ) ) ) ;
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}
# endif // MODULE_CSG_ENABLED
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void GLTFDocument : : _create_gltf_node ( Ref < GLTFState > p_state , Node * p_scene_parent , GLTFNodeIndex current_node_i ,
GLTFNodeIndex p_parent_node_index , GLTFNodeIndex p_root_gltf_node , Ref < GLTFNode > p_gltf_node ) {
p_state - > scene_nodes . insert ( current_node_i , p_scene_parent ) ;
p_state - > nodes . push_back ( p_gltf_node ) ;
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ERR_FAIL_COND ( current_node_i = = p_parent_node_index ) ;
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p_state - > nodes . write [ current_node_i ] - > parent = p_parent_node_index ;
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if ( p_parent_node_index = = - 1 ) {
return ;
}
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p_state - > nodes . write [ p_parent_node_index ] - > children . push_back ( current_node_i ) ;
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}
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void GLTFDocument : : _convert_animation_player_to_gltf ( AnimationPlayer * p_animation_player , Ref < GLTFState > p_state , GLTFNodeIndex p_gltf_current , GLTFNodeIndex p_gltf_root_index , Ref < GLTFNode > p_gltf_node , Node * p_scene_parent ) {
ERR_FAIL_COND ( ! p_animation_player ) ;
p_state - > animation_players . push_back ( p_animation_player ) ;
print_verbose ( String ( " glTF: Converting animation player: " ) + p_animation_player - > get_name ( ) ) ;
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}
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void GLTFDocument : : _check_visibility ( Node * p_node , bool & r_retflag ) {
r_retflag = true ;
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Spatial * spatial = Object : : cast_to < Spatial > ( p_node ) ;
Node2D * node_2d = Object : : cast_to < Node2D > ( p_node ) ;
if ( node_2d & & ! node_2d - > is_visible ( ) ) {
return ;
}
if ( spatial & & ! spatial - > is_visible ( ) ) {
return ;
}
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r_retflag = false ;
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}
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void GLTFDocument : : _convert_camera_to_gltf ( Camera * p_camera , Ref < GLTFState > p_state , Ref < GLTFNode > p_gltf_node ) {
ERR_FAIL_COND ( ! p_camera ) ;
GLTFCameraIndex camera_index = _convert_camera ( p_state , p_camera ) ;
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if ( camera_index ! = - 1 ) {
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p_gltf_node - > camera = camera_index ;
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}
}
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void GLTFDocument : : _convert_light_to_gltf ( Light * p_light , Ref < GLTFState > p_state , Ref < GLTFNode > p_gltf_node ) {
ERR_FAIL_COND ( ! p_light ) ;
GLTFLightIndex light_index = _convert_light ( p_state , p_light ) ;
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if ( light_index ! = - 1 ) {
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p_gltf_node - > light = light_index ;
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}
}
# ifdef MODULE_GRIDMAP_ENABLED
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void GLTFDocument : : _convert_grid_map_to_gltf ( GridMap * p_grid_map , GLTFNodeIndex p_parent_node_index , GLTFNodeIndex p_root_node_index , Ref < GLTFNode > p_gltf_node , Ref < GLTFState > p_state ) {
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Array cells = p_grid_map - > get_used_cells ( ) ;
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for ( int32_t k = 0 ; k < cells . size ( ) ; k + + ) {
GLTFNode * new_gltf_node = memnew ( GLTFNode ) ;
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p_gltf_node - > children . push_back ( p_state - > nodes . size ( ) ) ;
p_state - > nodes . push_back ( new_gltf_node ) ;
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Vector3 cell_location = cells [ k ] ;
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int32_t cell = p_grid_map - > get_cell_item (
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cell_location . x , cell_location . y , cell_location . z ) ;
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Transform cell_xform ;
cell_xform . basis . set_orthogonal_index (
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p_grid_map - > get_cell_item_orientation (
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cell_location . x , cell_location . y , cell_location . z ) ) ;
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cell_xform . basis . scale ( Vector3 ( p_grid_map - > get_cell_scale ( ) ,
p_grid_map - > get_cell_scale ( ) ,
p_grid_map - > get_cell_scale ( ) ) ) ;
cell_xform . set_origin ( p_grid_map - > map_to_world (
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cell_location . x , cell_location . y , cell_location . z ) ) ;
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Ref < GLTFMesh > gltf_mesh ;
gltf_mesh . instance ( ) ;
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gltf_mesh - > set_mesh ( _mesh_to_array_mesh ( p_grid_map - > get_mesh_library ( ) - > get_item_mesh ( cell ) ) ) ;
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new_gltf_node - > mesh = p_state - > meshes . size ( ) ;
p_state - > meshes . push_back ( gltf_mesh ) ;
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new_gltf_node - > xform = cell_xform * p_grid_map - > get_transform ( ) ;
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new_gltf_node - > set_name ( _gen_unique_name ( p_state , p_grid_map - > get_mesh_library ( ) - > get_item_name ( cell ) ) ) ;
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}
}
# endif // MODULE_GRIDMAP_ENABLED
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void GLTFDocument : : _convert_multi_mesh_instance_to_gltf ( MultiMeshInstance * p_multi_mesh_instance , GLTFNodeIndex p_parent_node_index , GLTFNodeIndex p_root_node_index , Ref < GLTFNode > p_gltf_node , Ref < GLTFState > p_state ) {
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Ref < MultiMesh > multi_mesh = p_multi_mesh_instance - > get_multimesh ( ) ;
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if ( multi_mesh . is_valid ( ) ) {
for ( int32_t instance_i = 0 ; instance_i < multi_mesh - > get_instance_count ( ) ;
instance_i + + ) {
GLTFNode * new_gltf_node = memnew ( GLTFNode ) ;
Transform transform ;
if ( multi_mesh - > get_transform_format ( ) = = MultiMesh : : TRANSFORM_2D ) {
Transform2D xform_2d = multi_mesh - > get_instance_transform_2d ( instance_i ) ;
transform . origin =
Vector3 ( xform_2d . get_origin ( ) . x , 0 , xform_2d . get_origin ( ) . y ) ;
real_t rotation = xform_2d . get_rotation ( ) ;
Quat quat ( Vector3 ( 0 , 1 , 0 ) , rotation ) ;
Size2 scale = xform_2d . get_scale ( ) ;
transform . basis . set_quat_scale ( quat ,
Vector3 ( scale . x , 0 , scale . y ) ) ;
transform =
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p_multi_mesh_instance - > get_transform ( ) * transform ;
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} else if ( multi_mesh - > get_transform_format ( ) = = MultiMesh : : TRANSFORM_3D ) {
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transform = p_multi_mesh_instance - > get_transform ( ) *
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multi_mesh - > get_instance_transform ( instance_i ) ;
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}
Ref < ArrayMesh > mm = multi_mesh - > get_mesh ( ) ;
if ( mm . is_valid ( ) ) {
Ref < ArrayMesh > mesh ;
mesh . instance ( ) ;
for ( int32_t surface_i = 0 ; surface_i < mm - > get_surface_count ( ) ; surface_i + + ) {
Array surface = mm - > surface_get_arrays ( surface_i ) ;
mesh - > add_surface_from_arrays ( mm - > surface_get_primitive_type ( surface_i ) , surface ) ;
}
Ref < GLTFMesh > gltf_mesh ;
gltf_mesh . instance ( ) ;
gltf_mesh - > set_name ( multi_mesh - > get_name ( ) ) ;
gltf_mesh - > set_mesh ( mesh ) ;
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new_gltf_node - > mesh = p_state - > meshes . size ( ) ;
p_state - > meshes . push_back ( gltf_mesh ) ;
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}
new_gltf_node - > xform = transform ;
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new_gltf_node - > set_name ( _gen_unique_name ( p_state , p_multi_mesh_instance - > get_name ( ) ) ) ;
p_gltf_node - > children . push_back ( p_state - > nodes . size ( ) ) ;
p_state - > nodes . push_back ( new_gltf_node ) ;
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}
}
}
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void GLTFDocument : : _convert_skeleton_to_gltf ( Skeleton * p_skeleton3d , Ref < GLTFState > p_state , GLTFNodeIndex p_parent_node_index , GLTFNodeIndex p_root_node_index , Ref < GLTFNode > p_gltf_node ) {
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Skeleton * skeleton = p_skeleton3d ;
Ref < GLTFSkeleton > gltf_skeleton ;
gltf_skeleton . instance ( ) ;
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// GLTFSkeleton is only used to hold internal p_state data. It will not be written to the document.
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//
gltf_skeleton - > godot_skeleton = skeleton ;
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GLTFSkeletonIndex skeleton_i = p_state - > skeletons . size ( ) ;
p_state - > skeleton3d_to_gltf_skeleton [ skeleton - > get_instance_id ( ) ] = skeleton_i ;
p_state - > skeletons . push_back ( gltf_skeleton ) ;
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BoneId bone_count = skeleton - > get_bone_count ( ) ;
for ( BoneId bone_i = 0 ; bone_i < bone_count ; bone_i + + ) {
Ref < GLTFNode > joint_node ;
joint_node . instance ( ) ;
// Note that we cannot use _gen_unique_bone_name here, because glTF spec requires all node
// names to be unique regardless of whether or not they are used as joints.
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joint_node - > set_name ( _gen_unique_name ( p_state , skeleton - > get_bone_name ( bone_i ) ) ) ;
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Transform xform = skeleton - > get_bone_rest ( bone_i ) * skeleton - > get_bone_pose ( bone_i ) ;
joint_node - > scale = xform . basis . get_scale ( ) ;
joint_node - > rotation = xform . basis . get_rotation_quat ( ) ;
joint_node - > translation = xform . origin ;
joint_node - > joint = true ;
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GLTFNodeIndex current_node_i = p_state - > nodes . size ( ) ;
p_state - > scene_nodes . insert ( current_node_i , skeleton ) ;
p_state - > nodes . push_back ( joint_node ) ;
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gltf_skeleton - > joints . push_back ( current_node_i ) ;
if ( skeleton - > get_bone_parent ( bone_i ) = = - 1 ) {
gltf_skeleton - > roots . push_back ( current_node_i ) ;
}
gltf_skeleton - > godot_bone_node . insert ( bone_i , current_node_i ) ;
}
for ( BoneId bone_i = 0 ; bone_i < bone_count ; bone_i + + ) {
GLTFNodeIndex current_node_i = gltf_skeleton - > godot_bone_node [ bone_i ] ;
BoneId parent_bone_id = skeleton - > get_bone_parent ( bone_i ) ;
if ( parent_bone_id = = - 1 ) {
if ( p_parent_node_index ! = - 1 ) {
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p_state - > nodes . write [ current_node_i ] - > parent = p_parent_node_index ;
p_state - > nodes . write [ p_parent_node_index ] - > children . push_back ( current_node_i ) ;
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}
} else {
GLTFNodeIndex parent_node_i = gltf_skeleton - > godot_bone_node [ parent_bone_id ] ;
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p_state - > nodes . write [ current_node_i ] - > parent = parent_node_i ;
p_state - > nodes . write [ parent_node_i ] - > children . push_back ( current_node_i ) ;
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}
}
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// Remove placeholder skeleton3d node by not creating the gltf node
// Skins are per mesh
for ( int node_i = 0 ; node_i < skeleton - > get_child_count ( ) ; node_i + + ) {
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_convert_scene_node ( p_state , skeleton - > get_child ( node_i ) , p_parent_node_index , p_root_node_index ) ;
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}
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}
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void GLTFDocument : : _convert_bone_attachment_to_gltf ( BoneAttachment * p_bone_attachment , Ref < GLTFState > p_state , GLTFNodeIndex p_parent_node_index , GLTFNodeIndex p_root_node_index , Ref < GLTFNode > p_gltf_node ) {
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Skeleton * skeleton ;
// Note that relative transforms to external skeletons and pose overrides are not supported.
skeleton = cast_to < Skeleton > ( p_bone_attachment - > get_parent ( ) ) ;
GLTFSkeletonIndex skel_gltf_i = - 1 ;
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if ( skeleton ! = nullptr & & p_state - > skeleton3d_to_gltf_skeleton . has ( skeleton - > get_instance_id ( ) ) ) {
skel_gltf_i = p_state - > skeleton3d_to_gltf_skeleton [ skeleton - > get_instance_id ( ) ] ;
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}
int bone_idx = - 1 ;
if ( skeleton ! = nullptr ) {
bone_idx = skeleton - > find_bone ( p_bone_attachment - > get_bone_name ( ) ) ;
}
GLTFNodeIndex par_node_index = p_parent_node_index ;
if ( skeleton ! = nullptr & & bone_idx ! = - 1 & & skel_gltf_i ! = - 1 ) {
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Ref < GLTFSkeleton > gltf_skeleton = p_state - > skeletons . write [ skel_gltf_i ] ;
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gltf_skeleton - > bone_attachments . push_back ( p_bone_attachment ) ;
par_node_index = gltf_skeleton - > joints [ bone_idx ] ;
}
for ( int node_i = 0 ; node_i < p_bone_attachment - > get_child_count ( ) ; node_i + + ) {
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_convert_scene_node ( p_state , p_bone_attachment - > get_child ( node_i ) , par_node_index , p_root_node_index ) ;
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}
}
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void GLTFDocument : : _convert_mesh_instance_to_gltf ( MeshInstance * p_scene_parent , Ref < GLTFState > p_state , Ref < GLTFNode > p_gltf_node ) {
GLTFMeshIndex gltf_mesh_index = _convert_mesh_to_gltf ( p_state , p_scene_parent ) ;
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if ( gltf_mesh_index ! = - 1 ) {
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p_gltf_node - > mesh = gltf_mesh_index ;
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}
}
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void GLTFDocument : : _generate_scene_node ( Ref < GLTFState > p_state , Node * p_scene_parent , Spatial * p_scene_root , const GLTFNodeIndex p_node_index ) {
Ref < GLTFNode > gltf_node = p_state - > nodes [ p_node_index ] ;
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if ( gltf_node - > skeleton > = 0 ) {
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_generate_skeleton_bone_node ( p_state , p_scene_parent , p_scene_root , p_node_index ) ;
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return ;
}
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Spatial * current_node = nullptr ;
// Is our parent a skeleton
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Skeleton * active_skeleton = Object : : cast_to < Skeleton > ( p_scene_parent ) ;
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const bool non_bone_parented_to_skeleton = active_skeleton ;
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// If we have an active skeleton, and the node is node skinned, we need to create a bone attachment
if ( non_bone_parented_to_skeleton & & gltf_node - > skin < 0 ) {
// Bone Attachment - Parent Case
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BoneAttachment * bone_attachment = _generate_bone_attachment ( p_state , active_skeleton , p_node_index , gltf_node - > parent ) ;
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p_scene_parent - > add_child ( bone_attachment ) ;
bone_attachment - > set_owner ( p_scene_root ) ;
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// There is no gltf_node that represent this, so just directly create a unique name
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bone_attachment - > set_name ( _gen_unique_name ( p_state , " BoneAttachment " ) ) ;
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// We change the scene_parent to our bone attachment now. We do not set current_node because we want to make the node
// and attach it to the bone_attachment
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p_scene_parent = bone_attachment ;
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}
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// Check if any GLTFDocumentExtension classes want to generate a node for us.
for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
current_node = ext - > generate_scene_node ( p_state , gltf_node , p_scene_parent ) ;
if ( current_node ) {
break ;
}
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}
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// If none of our GLTFDocumentExtension classes generated us a node, we generate one.
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if ( ! current_node ) {
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if ( gltf_node - > mesh > = 0 ) {
current_node = _generate_mesh_instance ( p_state , p_scene_parent , p_node_index ) ;
} else if ( gltf_node - > camera > = 0 ) {
current_node = _generate_camera ( p_state , p_scene_parent , p_node_index ) ;
} else if ( gltf_node - > light > = 0 ) {
current_node = _generate_light ( p_state , p_scene_parent , p_node_index ) ;
} else {
current_node = _generate_spatial ( p_state , p_scene_parent , p_node_index ) ;
}
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}
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// Add the node we generated and set the owner to the scene root.
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p_scene_parent - > add_child ( current_node ) ;
if ( current_node ! = p_scene_root ) {
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Array args ;
args . append ( p_scene_root ) ;
current_node - > propagate_call ( StringName ( " set_owner " ) , args ) ;
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}
current_node - > set_transform ( gltf_node - > xform ) ;
current_node - > set_name ( gltf_node - > get_name ( ) ) ;
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p_state - > scene_nodes . insert ( p_node_index , current_node ) ;
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for ( int i = 0 ; i < gltf_node - > children . size ( ) ; + + i ) {
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_generate_scene_node ( p_state , current_node , p_scene_root , gltf_node - > children [ i ] ) ;
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}
}
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void GLTFDocument : : _generate_skeleton_bone_node ( Ref < GLTFState > p_state , Node * p_scene_parent , Spatial * p_scene_root , const GLTFNodeIndex p_node_index ) {
Ref < GLTFNode > gltf_node = p_state - > nodes [ p_node_index ] ;
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Spatial * current_node = nullptr ;
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Skeleton * skeleton = p_state - > skeletons [ gltf_node - > skeleton ] - > godot_skeleton ;
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// In this case, this node is already a bone in skeleton.
const bool is_skinned_mesh = ( gltf_node - > skin > = 0 & & gltf_node - > mesh > = 0 ) ;
const bool requires_extra_node = ( gltf_node - > mesh > = 0 | | gltf_node - > camera > = 0 | | gltf_node - > light > = 0 ) ;
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Skeleton * active_skeleton = Object : : cast_to < Skeleton > ( p_scene_parent ) ;
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if ( active_skeleton ! = skeleton ) {
if ( active_skeleton ) {
// Bone Attachment - Direct Parented Skeleton Case
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BoneAttachment * bone_attachment = _generate_bone_attachment ( p_state , active_skeleton , p_node_index , gltf_node - > parent ) ;
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p_scene_parent - > add_child ( bone_attachment ) ;
bone_attachment - > set_owner ( p_scene_root ) ;
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// There is no gltf_node that represent this, so just directly create a unique name
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bone_attachment - > set_name ( _gen_unique_name ( p_state , " BoneAttachment " ) ) ;
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// We change the scene_parent to our bone attachment now. We do not set current_node because we want to make the node
// and attach it to the bone_attachment
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p_scene_parent = bone_attachment ;
WARN_PRINT ( vformat ( " glTF: Generating scene detected direct parented Skeletons at node %d " , p_node_index ) ) ;
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}
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// Add it to the scene if it has not already been added
if ( skeleton - > get_parent ( ) = = nullptr ) {
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p_scene_parent - > add_child ( skeleton ) ;
skeleton - > set_owner ( p_scene_root ) ;
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}
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}
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active_skeleton = skeleton ;
current_node = skeleton ;
if ( requires_extra_node ) {
// skinned meshes must not be placed in a bone attachment.
if ( ! is_skinned_mesh ) {
// Bone Attachment - Same Node Case
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BoneAttachment * bone_attachment = _generate_bone_attachment ( p_state , active_skeleton , p_node_index , p_node_index ) ;
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p_scene_parent - > add_child ( bone_attachment ) ;
bone_attachment - > set_owner ( p_scene_root ) ;
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// There is no gltf_node that represent this, so just directly create a unique name
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bone_attachment - > set_name ( _gen_unique_name ( p_state , " BoneAttachment " ) ) ;
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// We change the scene_parent to our bone attachment now. We do not set current_node because we want to make the node
// and attach it to the bone_attachment
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p_scene_parent = bone_attachment ;
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}
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// Check if any GLTFDocumentExtension classes want to generate a node for us.
for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
current_node = ext - > generate_scene_node ( p_state , gltf_node , p_scene_parent ) ;
if ( current_node ) {
break ;
}
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}
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// If none of our GLTFDocumentExtension classes generated us a node, we generate one.
if ( ! current_node ) {
if ( gltf_node - > mesh > = 0 ) {
current_node = _generate_mesh_instance ( p_state , p_scene_parent , p_node_index ) ;
} else if ( gltf_node - > camera > = 0 ) {
current_node = _generate_camera ( p_state , p_scene_parent , p_node_index ) ;
} else if ( gltf_node - > light > = 0 ) {
current_node = _generate_light ( p_state , p_scene_parent , p_node_index ) ;
} else {
current_node = _generate_spatial ( p_state , p_scene_parent , p_node_index ) ;
}
}
// Add the node we generated and set the owner to the scene root.
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p_scene_parent - > add_child ( current_node ) ;
if ( current_node ! = p_scene_root ) {
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Array args ;
args . append ( p_scene_root ) ;
current_node - > propagate_call ( StringName ( " set_owner " ) , args ) ;
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}
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// Do not set transform here. Transform is already applied to our bone.
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if ( p_state - > use_legacy_names ) {
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current_node - > set_name ( _legacy_validate_node_name ( gltf_node - > get_name ( ) ) ) ;
} else {
current_node - > set_name ( gltf_node - > get_name ( ) ) ;
}
}
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p_state - > scene_nodes . insert ( p_node_index , current_node ) ;
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for ( int i = 0 ; i < gltf_node - > children . size ( ) ; + + i ) {
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_generate_scene_node ( p_state , active_skeleton , p_scene_root , gltf_node - > children [ i ] ) ;
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}
}
template < class T >
struct EditorSceneImporterGLTFInterpolate {
T lerp ( const T & a , const T & b , float c ) const {
return a + ( b - a ) * c ;
}
T catmull_rom ( const T & p0 , const T & p1 , const T & p2 , const T & p3 , float t ) {
const float t2 = t * t ;
const float t3 = t2 * t ;
return 0.5f * ( ( 2.0f * p1 ) + ( - p0 + p2 ) * t + ( 2.0f * p0 - 5.0f * p1 + 4.0f * p2 - p3 ) * t2 + ( - p0 + 3.0f * p1 - 3.0f * p2 + p3 ) * t3 ) ;
}
T bezier ( T start , T control_1 , T control_2 , T end , float t ) {
/* Formula from Wikipedia article on Bezier curves. */
const real_t omt = ( 1.0 - t ) ;
const real_t omt2 = omt * omt ;
const real_t omt3 = omt2 * omt ;
const real_t t2 = t * t ;
const real_t t3 = t2 * t ;
return start * omt3 + control_1 * omt2 * t * 3.0 + control_2 * omt * t2 * 3.0 + end * t3 ;
}
} ;
// thank you for existing, partial specialization
template < >
struct EditorSceneImporterGLTFInterpolate < Quat > {
Quat lerp ( const Quat & a , const Quat & b , const float c ) const {
ERR_FAIL_COND_V_MSG ( ! a . is_normalized ( ) , Quat ( ) , " The quaternion \" a \" must be normalized. " ) ;
ERR_FAIL_COND_V_MSG ( ! b . is_normalized ( ) , Quat ( ) , " The quaternion \" b \" must be normalized. " ) ;
return a . slerp ( b , c ) . normalized ( ) ;
}
Quat catmull_rom ( const Quat & p0 , const Quat & p1 , const Quat & p2 , const Quat & p3 , const float c ) {
ERR_FAIL_COND_V_MSG ( ! p1 . is_normalized ( ) , Quat ( ) , " The quaternion \" p1 \" must be normalized. " ) ;
ERR_FAIL_COND_V_MSG ( ! p2 . is_normalized ( ) , Quat ( ) , " The quaternion \" p2 \" must be normalized. " ) ;
return p1 . slerp ( p2 , c ) . normalized ( ) ;
}
Quat bezier ( const Quat start , const Quat control_1 , const Quat control_2 , const Quat end , const float t ) {
ERR_FAIL_COND_V_MSG ( ! start . is_normalized ( ) , Quat ( ) , " The start quaternion must be normalized. " ) ;
ERR_FAIL_COND_V_MSG ( ! end . is_normalized ( ) , Quat ( ) , " The end quaternion must be normalized. " ) ;
return start . slerp ( end , t ) . normalized ( ) ;
}
} ;
template < class T >
T GLTFDocument : : _interpolate_track ( const Vector < float > & p_times , const Vector < T > & p_values , const float p_time , const GLTFAnimation : : Interpolation p_interp ) {
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ERR_FAIL_COND_V ( ! p_values . size ( ) , T ( ) ) ;
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if ( p_times . size ( ) ! = ( p_values . size ( ) / ( p_interp = = GLTFAnimation : : INTERP_CUBIC_SPLINE ? 3 : 1 ) ) ) {
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ERR_PRINT_ONCE ( " The interpolated values are not corresponding to its times. " ) ;
return p_values [ 0 ] ;
}
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//could use binary search, worth it?
int idx = - 1 ;
for ( int i = 0 ; i < p_times . size ( ) ; i + + ) {
if ( p_times [ i ] > p_time ) {
break ;
}
idx + + ;
}
EditorSceneImporterGLTFInterpolate < T > interp ;
switch ( p_interp ) {
case GLTFAnimation : : INTERP_LINEAR : {
if ( idx = = - 1 ) {
return p_values [ 0 ] ;
} else if ( idx > = p_times . size ( ) - 1 ) {
return p_values [ p_times . size ( ) - 1 ] ;
}
const float c = ( p_time - p_times [ idx ] ) / ( p_times [ idx + 1 ] - p_times [ idx ] ) ;
return interp . lerp ( p_values [ idx ] , p_values [ idx + 1 ] , c ) ;
} break ;
case GLTFAnimation : : INTERP_STEP : {
if ( idx = = - 1 ) {
return p_values [ 0 ] ;
} else if ( idx > = p_times . size ( ) - 1 ) {
return p_values [ p_times . size ( ) - 1 ] ;
}
return p_values [ idx ] ;
} break ;
case GLTFAnimation : : INTERP_CATMULLROMSPLINE : {
if ( idx = = - 1 ) {
return p_values [ 1 ] ;
} else if ( idx > = p_times . size ( ) - 1 ) {
return p_values [ 1 + p_times . size ( ) - 1 ] ;
}
const float c = ( p_time - p_times [ idx ] ) / ( p_times [ idx + 1 ] - p_times [ idx ] ) ;
return interp . catmull_rom ( p_values [ idx - 1 ] , p_values [ idx ] , p_values [ idx + 1 ] , p_values [ idx + 3 ] , c ) ;
} break ;
case GLTFAnimation : : INTERP_CUBIC_SPLINE : {
if ( idx = = - 1 ) {
return p_values [ 1 ] ;
} else if ( idx > = p_times . size ( ) - 1 ) {
return p_values [ ( p_times . size ( ) - 1 ) * 3 + 1 ] ;
}
const float c = ( p_time - p_times [ idx ] ) / ( p_times [ idx + 1 ] - p_times [ idx ] ) ;
const T from = p_values [ idx * 3 + 1 ] ;
const T c1 = from + p_values [ idx * 3 + 2 ] ;
const T to = p_values [ idx * 3 + 4 ] ;
const T c2 = to + p_values [ idx * 3 + 3 ] ;
return interp . bezier ( from , c1 , c2 , to , c ) ;
} break ;
}
ERR_FAIL_V ( p_values [ 0 ] ) ;
}
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void GLTFDocument : : _import_animation ( Ref < GLTFState > p_state , AnimationPlayer * p_animation_player , const GLTFAnimationIndex p_index , const int p_bake_fps ) {
Ref < GLTFAnimation > anim = p_state - > animations [ p_index ] ;
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String name = anim - > get_name ( ) ;
if ( name . empty ( ) ) {
// No node represent these, and they are not in the hierarchy, so just make a unique name
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name = _gen_unique_name ( p_state , " Animation " ) ;
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}
Ref < Animation > animation ;
animation . instance ( ) ;
animation - > set_name ( name ) ;
if ( anim - > get_loop ( ) ) {
animation - > set_loop ( true ) ;
}
float length = 0.0 ;
for ( Map < int , GLTFAnimation : : Track > : : Element * track_i = anim - > get_tracks ( ) . front ( ) ; track_i ; track_i = track_i - > next ( ) ) {
const GLTFAnimation : : Track & track = track_i - > get ( ) ;
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//need to find the path: for skeletons, weight tracks will affect the mesh
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NodePath node_path ;
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//for skeletons, transform tracks always affect bones
NodePath transform_node_path ;
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GLTFNodeIndex node_index = track_i - > key ( ) ;
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const Ref < GLTFNode > gltf_node = p_state - > nodes [ track_i - > key ( ) ] ;
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Node * root = p_animation_player - > get_parent ( ) ;
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ERR_FAIL_COND ( root = = nullptr ) ;
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Map < GLTFNodeIndex , Node * > : : Element * node_element = p_state - > scene_nodes . find ( node_index ) ;
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ERR_CONTINUE_MSG ( node_element = = nullptr , vformat ( " Unable to find node %d for animation " , node_index ) ) ;
node_path = root - > get_path_to ( node_element - > get ( ) ) ;
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if ( gltf_node - > skeleton > = 0 ) {
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const Skeleton * sk = p_state - > skeletons [ gltf_node - > skeleton ] - > godot_skeleton ;
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ERR_FAIL_COND ( sk = = nullptr ) ;
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const String path = p_animation_player - > get_parent ( ) - > get_path_to ( sk ) ;
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const String bone = gltf_node - > get_name ( ) ;
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transform_node_path = path + " : " + bone ;
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} else {
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transform_node_path = node_path ;
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}
for ( int i = 0 ; i < track . rotation_track . times . size ( ) ; i + + ) {
length = MAX ( length , track . rotation_track . times [ i ] ) ;
}
for ( int i = 0 ; i < track . translation_track . times . size ( ) ; i + + ) {
length = MAX ( length , track . translation_track . times [ i ] ) ;
}
for ( int i = 0 ; i < track . scale_track . times . size ( ) ; i + + ) {
length = MAX ( length , track . scale_track . times [ i ] ) ;
}
for ( int i = 0 ; i < track . weight_tracks . size ( ) ; i + + ) {
for ( int j = 0 ; j < track . weight_tracks [ i ] . times . size ( ) ; j + + ) {
length = MAX ( length , track . weight_tracks [ i ] . times [ j ] ) ;
}
}
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// Animated TRS properties will not affect a skinned mesh.
const bool transform_affects_skinned_mesh_instance = gltf_node - > skeleton < 0 & & gltf_node - > skin > = 0 ;
if ( ( track . rotation_track . values . size ( ) | | track . translation_track . values . size ( ) | | track . scale_track . values . size ( ) ) & & ! transform_affects_skinned_mesh_instance ) {
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//make transform track
int track_idx = animation - > get_track_count ( ) ;
animation - > add_track ( Animation : : TYPE_TRANSFORM ) ;
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animation - > track_set_path ( track_idx , transform_node_path ) ;
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//first determine animation length
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const double increment = 1.0 / p_bake_fps ;
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double time = 0.0 ;
Vector3 base_pos ;
Quat base_rot ;
Vector3 base_scale = Vector3 ( 1 , 1 , 1 ) ;
if ( ! track . rotation_track . values . size ( ) ) {
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base_rot = p_state - > nodes [ track_i - > key ( ) ] - > rotation . normalized ( ) ;
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}
if ( ! track . translation_track . values . size ( ) ) {
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base_pos = p_state - > nodes [ track_i - > key ( ) ] - > translation ;
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}
if ( ! track . scale_track . values . size ( ) ) {
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base_scale = p_state - > nodes [ track_i - > key ( ) ] - > scale ;
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}
bool last = false ;
while ( true ) {
Vector3 pos = base_pos ;
Quat rot = base_rot ;
Vector3 scale = base_scale ;
if ( track . translation_track . times . size ( ) ) {
pos = _interpolate_track < Vector3 > ( track . translation_track . times , track . translation_track . values , time , track . translation_track . interpolation ) ;
}
if ( track . rotation_track . times . size ( ) ) {
rot = _interpolate_track < Quat > ( track . rotation_track . times , track . rotation_track . values , time , track . rotation_track . interpolation ) ;
}
if ( track . scale_track . times . size ( ) ) {
scale = _interpolate_track < Vector3 > ( track . scale_track . times , track . scale_track . values , time , track . scale_track . interpolation ) ;
}
if ( gltf_node - > skeleton > = 0 ) {
Transform xform ;
xform . basis . set_quat_scale ( rot , scale ) ;
xform . origin = pos ;
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const Skeleton * skeleton = p_state - > skeletons [ gltf_node - > skeleton ] - > godot_skeleton ;
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const int bone_idx = skeleton - > find_bone ( gltf_node - > get_name ( ) ) ;
xform = skeleton - > get_bone_rest ( bone_idx ) . affine_inverse ( ) * xform ;
rot = xform . basis . get_rotation_quat ( ) ;
rot . normalize ( ) ;
scale = xform . basis . get_scale ( ) ;
pos = xform . origin ;
}
animation - > transform_track_insert_key ( track_idx , time , pos , rot , scale ) ;
if ( last ) {
break ;
}
time + = increment ;
if ( time > = length ) {
last = true ;
time = length ;
}
}
}
for ( int i = 0 ; i < track . weight_tracks . size ( ) ; i + + ) {
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ERR_CONTINUE ( gltf_node - > mesh < 0 | | gltf_node - > mesh > = p_state - > meshes . size ( ) ) ;
Ref < GLTFMesh > mesh = p_state - > meshes [ gltf_node - > mesh ] ;
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ERR_CONTINUE ( mesh . is_null ( ) ) ;
ERR_CONTINUE ( mesh - > get_mesh ( ) . is_null ( ) ) ;
const String prop = " blend_shapes/ " + mesh - > get_mesh ( ) - > get_blend_shape_name ( i ) ;
const String blend_path = String ( node_path ) + " : " + prop ;
const int track_idx = animation - > get_track_count ( ) ;
animation - > add_track ( Animation : : TYPE_VALUE ) ;
animation - > track_set_path ( track_idx , blend_path ) ;
// Only LINEAR and STEP (NEAREST) can be supported out of the box by Godot's Animation,
// the other modes have to be baked.
GLTFAnimation : : Interpolation gltf_interp = track . weight_tracks [ i ] . interpolation ;
if ( gltf_interp = = GLTFAnimation : : INTERP_LINEAR | | gltf_interp = = GLTFAnimation : : INTERP_STEP ) {
animation - > track_set_interpolation_type ( track_idx , gltf_interp = = GLTFAnimation : : INTERP_STEP ? Animation : : INTERPOLATION_NEAREST : Animation : : INTERPOLATION_LINEAR ) ;
for ( int j = 0 ; j < track . weight_tracks [ i ] . times . size ( ) ; j + + ) {
const float t = track . weight_tracks [ i ] . times [ j ] ;
const float attribs = track . weight_tracks [ i ] . values [ j ] ;
animation - > track_insert_key ( track_idx , t , attribs ) ;
}
} else {
// CATMULLROMSPLINE or CUBIC_SPLINE have to be baked, apologies.
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const double increment = 1.0 / p_bake_fps ;
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double time = 0.0 ;
bool last = false ;
while ( true ) {
_interpolate_track < float > ( track . weight_tracks [ i ] . times , track . weight_tracks [ i ] . values , time , gltf_interp ) ;
if ( last ) {
break ;
}
time + = increment ;
if ( time > = length ) {
last = true ;
time = length ;
}
}
}
}
}
animation - > set_length ( length ) ;
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p_animation_player - > add_animation ( name , animation ) ;
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}
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void GLTFDocument : : _convert_mesh_instances ( Ref < GLTFState > p_state ) {
for ( GLTFNodeIndex mi_node_i = 0 ; mi_node_i < p_state - > nodes . size ( ) ; + + mi_node_i ) {
Ref < GLTFNode > node = p_state - > nodes [ mi_node_i ] ;
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if ( node - > mesh < 0 ) {
continue ;
}
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Map < GLTFNodeIndex , Node * > : : Element * mi_element = p_state - > scene_nodes . find ( mi_node_i ) ;
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if ( ! mi_element ) {
continue ;
}
MeshInstance * mi = Object : : cast_to < MeshInstance > ( mi_element - > get ( ) ) ;
ERR_CONTINUE ( ! mi ) ;
Transform mi_xform = mi - > get_transform ( ) ;
node - > scale = mi_xform . basis . get_scale ( ) ;
node - > rotation = mi_xform . basis . get_rotation_quat ( ) ;
node - > translation = mi_xform . origin ;
Skeleton * skeleton = Object : : cast_to < Skeleton > ( mi - > get_node ( mi - > get_skeleton_path ( ) ) ) ;
if ( ! skeleton ) {
continue ;
}
if ( ! skeleton - > get_bone_count ( ) ) {
continue ;
}
Ref < Skin > skin = mi - > get_skin ( ) ;
Ref < GLTFSkin > gltf_skin ;
gltf_skin . instance ( ) ;
Array json_joints ;
NodePath skeleton_path = mi - > get_skeleton_path ( ) ;
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Node * skel_node = mi - > get_node_or_null ( skeleton_path ) ;
Skeleton * godot_skeleton = nullptr ;
if ( skel_node ! = nullptr ) {
godot_skeleton = cast_to < Skeleton > ( skel_node ) ;
}
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if ( godot_skeleton ! = nullptr & & p_state - > skeleton3d_to_gltf_skeleton . has ( godot_skeleton - > get_instance_id ( ) ) ) {
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// This is a skinned mesh. If the mesh has no ARRAY_WEIGHTS or ARRAY_BONES, it will be invisible.
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const GLTFSkeletonIndex skeleton_gltf_i = p_state - > skeleton3d_to_gltf_skeleton [ godot_skeleton - > get_instance_id ( ) ] ;
Ref < GLTFSkeleton > gltf_skeleton = p_state - > skeletons [ skeleton_gltf_i ] ;
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int bone_cnt = skeleton - > get_bone_count ( ) ;
ERR_FAIL_COND ( bone_cnt ! = gltf_skeleton - > joints . size ( ) ) ;
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ObjectID gltf_skin_key = 0 ;
if ( skin . is_valid ( ) ) {
gltf_skin_key = skin - > get_instance_id ( ) ;
}
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ObjectID gltf_skel_key = godot_skeleton - > get_instance_id ( ) ;
GLTFSkinIndex skin_gltf_i = - 1 ;
GLTFNodeIndex root_gltf_i = - 1 ;
if ( ! gltf_skeleton - > roots . empty ( ) ) {
root_gltf_i = gltf_skeleton - > roots [ 0 ] ;
}
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if ( p_state - > skin_and_skeleton3d_to_gltf_skin . has ( gltf_skin_key ) & & p_state - > skin_and_skeleton3d_to_gltf_skin [ gltf_skin_key ] . has ( gltf_skel_key ) ) {
skin_gltf_i = p_state - > skin_and_skeleton3d_to_gltf_skin [ gltf_skin_key ] [ gltf_skel_key ] ;
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} else {
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if ( skin . is_null ( ) ) {
// Note that gltf_skin_key should remain null, so these can share a reference.
skin = skeleton - > register_skin ( nullptr ) - > get_skin ( ) ;
}
gltf_skin . instance ( ) ;
gltf_skin - > godot_skin = skin ;
gltf_skin - > set_name ( skin - > get_name ( ) ) ;
gltf_skin - > skeleton = skeleton_gltf_i ;
gltf_skin - > skin_root = root_gltf_i ;
//gltf_state->godot_to_gltf_node[skel_node]
HashMap < StringName , int > bone_name_to_idx ;
for ( int bone_i = 0 ; bone_i < bone_cnt ; bone_i + + ) {
bone_name_to_idx [ skeleton - > get_bone_name ( bone_i ) ] = bone_i ;
}
for ( int bind_i = 0 , cnt = skin - > get_bind_count ( ) ; bind_i < cnt ; bind_i + + ) {
int bone_i = skin - > get_bind_bone ( bind_i ) ;
Transform bind_pose = skin - > get_bind_pose ( bind_i ) ;
StringName bind_name = skin - > get_bind_name ( bind_i ) ;
if ( bind_name ! = StringName ( ) ) {
bone_i = bone_name_to_idx [ bind_name ] ;
}
ERR_CONTINUE ( bone_i < 0 | | bone_i > = bone_cnt ) ;
if ( bind_name = = StringName ( ) ) {
bind_name = skeleton - > get_bone_name ( bone_i ) ;
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}
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GLTFNodeIndex skeleton_bone_i = gltf_skeleton - > joints [ bone_i ] ;
gltf_skin - > joints_original . push_back ( skeleton_bone_i ) ;
gltf_skin - > joints . push_back ( skeleton_bone_i ) ;
gltf_skin - > inverse_binds . push_back ( bind_pose ) ;
if ( skeleton - > get_bone_parent ( bone_i ) = = - 1 ) {
gltf_skin - > roots . push_back ( skeleton_bone_i ) ;
}
gltf_skin - > joint_i_to_bone_i [ bind_i ] = bone_i ;
gltf_skin - > joint_i_to_name [ bind_i ] = bind_name ;
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}
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skin_gltf_i = p_state - > skins . size ( ) ;
p_state - > skins . push_back ( gltf_skin ) ;
p_state - > skin_and_skeleton3d_to_gltf_skin [ gltf_skin_key ] [ gltf_skel_key ] = skin_gltf_i ;
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}
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node - > skin = skin_gltf_i ;
node - > skeleton = skeleton_gltf_i ;
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}
}
}
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float GLTFDocument : : solve_metallic ( float p_dielectric_specular , float p_diffuse , float p_specular , float p_one_minus_specular_strength ) {
if ( p_specular < = p_dielectric_specular ) {
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return 0.0f ;
}
const float a = p_dielectric_specular ;
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const float b = p_diffuse * p_one_minus_specular_strength / ( 1.0f - p_dielectric_specular ) + p_specular - 2.0f * p_dielectric_specular ;
const float c = p_dielectric_specular - p_specular ;
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const float D = b * b - 4.0f * a * c ;
return CLAMP ( ( - b + Math : : sqrt ( D ) ) / ( 2.0f * a ) , 0.0f , 1.0f ) ;
}
float GLTFDocument : : get_perceived_brightness ( const Color p_color ) {
const Color coeff = Color ( R_BRIGHTNESS_COEFF , G_BRIGHTNESS_COEFF , B_BRIGHTNESS_COEFF ) ;
const Color value = coeff * ( p_color * p_color ) ;
const float r = value . r ;
const float g = value . g ;
const float b = value . b ;
return Math : : sqrt ( r + g + b ) ;
}
float GLTFDocument : : get_max_component ( const Color & p_color ) {
const float r = p_color . r ;
const float g = p_color . g ;
const float b = p_color . b ;
return MAX ( MAX ( r , g ) , b ) ;
}
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void GLTFDocument : : _process_mesh_instances ( Ref < GLTFState > p_state , Node * p_scene_root ) {
for ( GLTFNodeIndex node_i = 0 ; node_i < p_state - > nodes . size ( ) ; + + node_i ) {
Ref < GLTFNode > node = p_state - > nodes [ node_i ] ;
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if ( node - > skin > = 0 & & node - > mesh > = 0 ) {
const GLTFSkinIndex skin_i = node - > skin ;
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Map < GLTFNodeIndex , Node * > : : Element * mi_element = p_state - > scene_nodes . find ( node_i ) ;
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ERR_CONTINUE_MSG ( mi_element = = nullptr , vformat ( " Unable to find node %d " , node_i ) ) ;
MeshInstance * mi = Object : : cast_to < MeshInstance > ( mi_element - > get ( ) ) ;
ERR_CONTINUE_MSG ( mi = = nullptr , vformat ( " Unable to cast node %d of type %s to MeshInstance " , node_i , mi_element - > get ( ) - > get_class_name ( ) ) ) ;
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const GLTFSkeletonIndex skel_i = p_state - > skins . write [ node - > skin ] - > skeleton ;
Ref < GLTFSkeleton > gltf_skeleton = p_state - > skeletons . write [ skel_i ] ;
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Skeleton * skeleton = gltf_skeleton - > godot_skeleton ;
ERR_CONTINUE_MSG ( skeleton = = nullptr , vformat ( " Unable to find Skeleton for node %d skin %d " , node_i , skin_i ) ) ;
mi - > get_parent ( ) - > remove_child ( mi ) ;
skeleton - > add_child ( mi ) ;
mi - > set_owner ( skeleton - > get_owner ( ) ) ;
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mi - > set_skin ( p_state - > skins . write [ skin_i ] - > godot_skin ) ;
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mi - > set_skeleton_path ( mi - > get_path_to ( skeleton ) ) ;
mi - > set_transform ( Transform ( ) ) ;
}
}
}
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GLTFAnimation : : Track GLTFDocument : : _convert_animation_track ( Ref < GLTFState > p_state , GLTFAnimation : : Track p_track , Ref < Animation > p_animation , Transform p_bone_rest , int32_t p_track_i , GLTFNodeIndex p_node_i ) {
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Animation : : InterpolationType interpolation = p_animation - > track_get_interpolation_type ( p_track_i ) ;
GLTFAnimation : : Interpolation gltf_interpolation = GLTFAnimation : : INTERP_LINEAR ;
if ( interpolation = = Animation : : InterpolationType : : INTERPOLATION_LINEAR ) {
gltf_interpolation = GLTFAnimation : : INTERP_LINEAR ;
} else if ( interpolation = = Animation : : InterpolationType : : INTERPOLATION_NEAREST ) {
gltf_interpolation = GLTFAnimation : : INTERP_STEP ;
} else if ( interpolation = = Animation : : InterpolationType : : INTERPOLATION_CUBIC ) {
gltf_interpolation = GLTFAnimation : : INTERP_CUBIC_SPLINE ;
}
Animation : : TrackType track_type = p_animation - > track_get_type ( p_track_i ) ;
int32_t key_count = p_animation - > track_get_key_count ( p_track_i ) ;
Vector < float > times ;
times . resize ( key_count ) ;
String path = p_animation - > track_get_path ( p_track_i ) ;
for ( int32_t key_i = 0 ; key_i < key_count ; key_i + + ) {
times . write [ key_i ] = p_animation - > track_get_key_time ( p_track_i , key_i ) ;
}
if ( track_type = = Animation : : TYPE_TRANSFORM ) {
p_track . translation_track . times = times ;
p_track . translation_track . interpolation = gltf_interpolation ;
p_track . rotation_track . times = times ;
p_track . rotation_track . interpolation = gltf_interpolation ;
p_track . scale_track . times = times ;
p_track . scale_track . interpolation = gltf_interpolation ;
p_track . scale_track . values . resize ( key_count ) ;
p_track . scale_track . interpolation = gltf_interpolation ;
p_track . translation_track . values . resize ( key_count ) ;
p_track . translation_track . interpolation = gltf_interpolation ;
p_track . rotation_track . values . resize ( key_count ) ;
p_track . rotation_track . interpolation = gltf_interpolation ;
for ( int32_t key_i = 0 ; key_i < key_count ; key_i + + ) {
Vector3 translation ;
Quat rotation ;
Vector3 scale ;
Error err = p_animation - > transform_track_get_key ( p_track_i , key_i , & translation , & rotation , & scale ) ;
ERR_CONTINUE ( err ! = OK ) ;
Transform xform ;
xform . basis . set_quat_scale ( rotation , scale ) ;
xform . origin = translation ;
xform = p_bone_rest * xform ;
p_track . translation_track . values . write [ key_i ] = xform . get_origin ( ) ;
p_track . rotation_track . values . write [ key_i ] = xform . basis . get_rotation_quat ( ) ;
p_track . scale_track . values . write [ key_i ] = xform . basis . get_scale ( ) ;
}
} else if ( path . find ( " :transform " ) ! = - 1 ) {
p_track . translation_track . times = times ;
p_track . translation_track . interpolation = gltf_interpolation ;
p_track . rotation_track . times = times ;
p_track . rotation_track . interpolation = gltf_interpolation ;
p_track . scale_track . times = times ;
p_track . scale_track . interpolation = gltf_interpolation ;
p_track . scale_track . values . resize ( key_count ) ;
p_track . scale_track . interpolation = gltf_interpolation ;
p_track . translation_track . values . resize ( key_count ) ;
p_track . translation_track . interpolation = gltf_interpolation ;
p_track . rotation_track . values . resize ( key_count ) ;
p_track . rotation_track . interpolation = gltf_interpolation ;
for ( int32_t key_i = 0 ; key_i < key_count ; key_i + + ) {
Transform xform = p_animation - > track_get_key_value ( p_track_i , key_i ) ;
p_track . translation_track . values . write [ key_i ] = xform . get_origin ( ) ;
p_track . rotation_track . values . write [ key_i ] = xform . basis . get_rotation_quat ( ) ;
p_track . scale_track . values . write [ key_i ] = xform . basis . get_scale ( ) ;
}
} else if ( track_type = = Animation : : TYPE_VALUE ) {
if ( path . find ( " /rotation_quat " ) ! = - 1 ) {
p_track . rotation_track . times = times ;
p_track . rotation_track . interpolation = gltf_interpolation ;
p_track . rotation_track . values . resize ( key_count ) ;
p_track . rotation_track . interpolation = gltf_interpolation ;
for ( int32_t key_i = 0 ; key_i < key_count ; key_i + + ) {
Quat rotation_track = p_animation - > track_get_key_value ( p_track_i , key_i ) ;
p_track . rotation_track . values . write [ key_i ] = rotation_track ;
}
} else if ( path . find ( " :translation " ) ! = - 1 ) {
p_track . translation_track . times = times ;
p_track . translation_track . interpolation = gltf_interpolation ;
p_track . translation_track . values . resize ( key_count ) ;
p_track . translation_track . interpolation = gltf_interpolation ;
for ( int32_t key_i = 0 ; key_i < key_count ; key_i + + ) {
Vector3 translation = p_animation - > track_get_key_value ( p_track_i , key_i ) ;
p_track . translation_track . values . write [ key_i ] = translation ;
}
} else if ( path . find ( " :rotation_degrees " ) ! = - 1 ) {
p_track . rotation_track . times = times ;
p_track . rotation_track . interpolation = gltf_interpolation ;
p_track . rotation_track . values . resize ( key_count ) ;
p_track . rotation_track . interpolation = gltf_interpolation ;
for ( int32_t key_i = 0 ; key_i < key_count ; key_i + + ) {
Vector3 rotation_degrees = p_animation - > track_get_key_value ( p_track_i , key_i ) ;
Vector3 rotation_radian ;
rotation_radian . x = Math : : deg2rad ( rotation_degrees . x ) ;
rotation_radian . y = Math : : deg2rad ( rotation_degrees . y ) ;
rotation_radian . z = Math : : deg2rad ( rotation_degrees . z ) ;
p_track . rotation_track . values . write [ key_i ] = Quat ( rotation_radian ) ;
}
} else if ( path . find ( " :scale " ) ! = - 1 ) {
p_track . scale_track . times = times ;
p_track . scale_track . interpolation = gltf_interpolation ;
p_track . scale_track . values . resize ( key_count ) ;
p_track . scale_track . interpolation = gltf_interpolation ;
for ( int32_t key_i = 0 ; key_i < key_count ; key_i + + ) {
Vector3 scale_track = p_animation - > track_get_key_value ( p_track_i , key_i ) ;
p_track . scale_track . values . write [ key_i ] = scale_track ;
}
}
} else if ( track_type = = Animation : : TYPE_BEZIER ) {
if ( path . find ( " /scale " ) ! = - 1 ) {
const int32_t keys = p_animation - > track_get_key_time ( p_track_i , key_count - 1 ) * BAKE_FPS ;
if ( ! p_track . scale_track . times . size ( ) ) {
Vector < float > new_times ;
new_times . resize ( keys ) ;
for ( int32_t key_i = 0 ; key_i < keys ; key_i + + ) {
new_times . write [ key_i ] = key_i / BAKE_FPS ;
}
p_track . scale_track . times = new_times ;
p_track . scale_track . interpolation = gltf_interpolation ;
p_track . scale_track . values . resize ( keys ) ;
for ( int32_t key_i = 0 ; key_i < keys ; key_i + + ) {
p_track . scale_track . values . write [ key_i ] = Vector3 ( 1.0f , 1.0f , 1.0f ) ;
}
p_track . scale_track . interpolation = gltf_interpolation ;
}
for ( int32_t key_i = 0 ; key_i < keys ; key_i + + ) {
Vector3 bezier_track = p_track . scale_track . values [ key_i ] ;
if ( path . find ( " /scale:x " ) ! = - 1 ) {
bezier_track . x = p_animation - > bezier_track_interpolate ( p_track_i , key_i / BAKE_FPS ) ;
bezier_track . x = p_bone_rest . affine_inverse ( ) . basis . get_scale ( ) . x * bezier_track . x ;
} else if ( path . find ( " /scale:y " ) ! = - 1 ) {
bezier_track . y = p_animation - > bezier_track_interpolate ( p_track_i , key_i / BAKE_FPS ) ;
bezier_track . y = p_bone_rest . affine_inverse ( ) . basis . get_scale ( ) . y * bezier_track . y ;
} else if ( path . find ( " /scale:z " ) ! = - 1 ) {
bezier_track . z = p_animation - > bezier_track_interpolate ( p_track_i , key_i / BAKE_FPS ) ;
bezier_track . z = p_bone_rest . affine_inverse ( ) . basis . get_scale ( ) . z * bezier_track . z ;
}
p_track . scale_track . values . write [ key_i ] = bezier_track ;
}
} else if ( path . find ( " /translation " ) ! = - 1 ) {
const int32_t keys = p_animation - > track_get_key_time ( p_track_i , key_count - 1 ) * BAKE_FPS ;
if ( ! p_track . translation_track . times . size ( ) ) {
Vector < float > new_times ;
new_times . resize ( keys ) ;
for ( int32_t key_i = 0 ; key_i < keys ; key_i + + ) {
new_times . write [ key_i ] = key_i / BAKE_FPS ;
}
p_track . translation_track . times = new_times ;
p_track . translation_track . interpolation = gltf_interpolation ;
p_track . translation_track . values . resize ( keys ) ;
p_track . translation_track . interpolation = gltf_interpolation ;
}
for ( int32_t key_i = 0 ; key_i < keys ; key_i + + ) {
Vector3 bezier_track = p_track . translation_track . values [ key_i ] ;
if ( path . find ( " /translation:x " ) ! = - 1 ) {
bezier_track . x = p_animation - > bezier_track_interpolate ( p_track_i , key_i / BAKE_FPS ) ;
bezier_track . x = p_bone_rest . affine_inverse ( ) . origin . x * bezier_track . x ;
} else if ( path . find ( " /translation:y " ) ! = - 1 ) {
bezier_track . y = p_animation - > bezier_track_interpolate ( p_track_i , key_i / BAKE_FPS ) ;
bezier_track . y = p_bone_rest . affine_inverse ( ) . origin . y * bezier_track . y ;
} else if ( path . find ( " /translation:z " ) ! = - 1 ) {
bezier_track . z = p_animation - > bezier_track_interpolate ( p_track_i , key_i / BAKE_FPS ) ;
bezier_track . z = p_bone_rest . affine_inverse ( ) . origin . z * bezier_track . z ;
}
p_track . translation_track . values . write [ key_i ] = bezier_track ;
}
}
}
return p_track ;
}
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void GLTFDocument : : _convert_animation ( Ref < GLTFState > p_state , AnimationPlayer * p_animation_player , String p_animation_track_name ) {
Ref < Animation > animation = p_animation_player - > get_animation ( p_animation_track_name ) ;
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Ref < GLTFAnimation > gltf_animation ;
gltf_animation . instance ( ) ;
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gltf_animation - > set_name ( _gen_unique_name ( p_state , p_animation_track_name ) ) ;
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for ( int32_t track_i = 0 ; track_i < animation - > get_track_count ( ) ; track_i + + ) {
if ( ! animation - > track_is_enabled ( track_i ) ) {
continue ;
}
String orig_track_path = animation - > track_get_path ( track_i ) ;
if ( String ( orig_track_path ) . find ( " :translation " ) ! = - 1 ) {
const Vector < String > node_suffix = String ( orig_track_path ) . split ( " :translation " ) ;
const NodePath path = node_suffix [ 0 ] ;
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const Node * node = p_animation_player - > get_parent ( ) - > get_node_or_null ( path ) ;
for ( Map < GLTFNodeIndex , Node * > : : Element * translation_scene_node_i = p_state - > scene_nodes . front ( ) ; translation_scene_node_i ; translation_scene_node_i = translation_scene_node_i - > next ( ) ) {
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if ( translation_scene_node_i - > get ( ) = = node ) {
GLTFNodeIndex node_index = translation_scene_node_i - > key ( ) ;
Map < int , GLTFAnimation : : Track > : : Element * translation_track_i = gltf_animation - > get_tracks ( ) . find ( node_index ) ;
GLTFAnimation : : Track track ;
if ( translation_track_i ) {
track = translation_track_i - > get ( ) ;
}
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track = _convert_animation_track ( p_state , track , animation , Transform ( ) , track_i , node_index ) ;
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gltf_animation - > get_tracks ( ) . insert ( node_index , track ) ;
}
}
} else if ( String ( orig_track_path ) . find ( " :rotation_degrees " ) ! = - 1 ) {
const Vector < String > node_suffix = String ( orig_track_path ) . split ( " :rotation_degrees " ) ;
const NodePath path = node_suffix [ 0 ] ;
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const Node * node = p_animation_player - > get_parent ( ) - > get_node_or_null ( path ) ;
for ( Map < GLTFNodeIndex , Node * > : : Element * rotation_degree_scene_node_i = p_state - > scene_nodes . front ( ) ; rotation_degree_scene_node_i ; rotation_degree_scene_node_i = rotation_degree_scene_node_i - > next ( ) ) {
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if ( rotation_degree_scene_node_i - > get ( ) = = node ) {
GLTFNodeIndex node_index = rotation_degree_scene_node_i - > key ( ) ;
Map < int , GLTFAnimation : : Track > : : Element * rotation_degree_track_i = gltf_animation - > get_tracks ( ) . find ( node_index ) ;
GLTFAnimation : : Track track ;
if ( rotation_degree_track_i ) {
track = rotation_degree_track_i - > get ( ) ;
}
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track = _convert_animation_track ( p_state , track , animation , Transform ( ) , track_i , node_index ) ;
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gltf_animation - > get_tracks ( ) . insert ( node_index , track ) ;
}
}
} else if ( String ( orig_track_path ) . find ( " :scale " ) ! = - 1 ) {
const Vector < String > node_suffix = String ( orig_track_path ) . split ( " :scale " ) ;
const NodePath path = node_suffix [ 0 ] ;
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const Node * node = p_animation_player - > get_parent ( ) - > get_node_or_null ( path ) ;
for ( Map < GLTFNodeIndex , Node * > : : Element * scale_scene_node_i = p_state - > scene_nodes . front ( ) ; scale_scene_node_i ; scale_scene_node_i = scale_scene_node_i - > next ( ) ) {
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if ( scale_scene_node_i - > get ( ) = = node ) {
GLTFNodeIndex node_index = scale_scene_node_i - > key ( ) ;
Map < int , GLTFAnimation : : Track > : : Element * scale_track_i = gltf_animation - > get_tracks ( ) . find ( node_index ) ;
GLTFAnimation : : Track track ;
if ( scale_track_i ) {
track = scale_track_i - > get ( ) ;
}
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track = _convert_animation_track ( p_state , track , animation , Transform ( ) , track_i , node_index ) ;
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gltf_animation - > get_tracks ( ) . insert ( node_index , track ) ;
}
}
} else if ( String ( orig_track_path ) . find ( " :transform " ) ! = - 1 ) {
const Vector < String > node_suffix = String ( orig_track_path ) . split ( " :transform " ) ;
const NodePath path = node_suffix [ 0 ] ;
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const Node * node = p_animation_player - > get_parent ( ) - > get_node_or_null ( path ) ;
for ( Map < GLTFNodeIndex , Node * > : : Element * transform_track_i = p_state - > scene_nodes . front ( ) ; transform_track_i ; transform_track_i = transform_track_i - > next ( ) ) {
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if ( transform_track_i - > get ( ) = = node ) {
GLTFAnimation : : Track track ;
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track = _convert_animation_track ( p_state , track , animation , Transform ( ) , track_i , transform_track_i - > key ( ) ) ;
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gltf_animation - > get_tracks ( ) . insert ( transform_track_i - > key ( ) , track ) ;
}
}
} else if ( String ( orig_track_path ) . find ( " :blend_shapes/ " ) ! = - 1 ) {
const Vector < String > node_suffix = String ( orig_track_path ) . split ( " :blend_shapes/ " ) ;
const NodePath path = node_suffix [ 0 ] ;
const String suffix = node_suffix [ 1 ] ;
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Node * node = p_animation_player - > get_parent ( ) - > get_node_or_null ( path ) ;
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MeshInstance * mi = cast_to < MeshInstance > ( node ) ;
Ref < Mesh > mesh = mi - > get_mesh ( ) ;
ERR_CONTINUE ( mesh . is_null ( ) ) ;
int32_t mesh_index = - 1 ;
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for ( Map < GLTFNodeIndex , Node * > : : Element * mesh_track_i = p_state - > scene_nodes . front ( ) ; mesh_track_i ; mesh_track_i = mesh_track_i - > next ( ) ) {
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if ( mesh_track_i - > get ( ) = = node ) {
mesh_index = mesh_track_i - > key ( ) ;
}
}
ERR_CONTINUE ( mesh_index = = - 1 ) ;
Map < int , GLTFAnimation : : Track > & tracks = gltf_animation - > get_tracks ( ) ;
GLTFAnimation : : Track track = gltf_animation - > get_tracks ( ) . has ( mesh_index ) ? gltf_animation - > get_tracks ( ) [ mesh_index ] : GLTFAnimation : : Track ( ) ;
if ( ! tracks . has ( mesh_index ) ) {
for ( int32_t shape_i = 0 ; shape_i < mesh - > get_blend_shape_count ( ) ; shape_i + + ) {
String shape_name = mesh - > get_blend_shape_name ( shape_i ) ;
NodePath shape_path = String ( path ) + " :blend_shapes/ " + shape_name ;
int32_t shape_track_i = animation - > find_track ( shape_path ) ;
if ( shape_track_i = = - 1 ) {
GLTFAnimation : : Channel < float > weight ;
weight . interpolation = GLTFAnimation : : INTERP_LINEAR ;
weight . times . push_back ( 0.0f ) ;
weight . times . push_back ( 0.0f ) ;
weight . values . push_back ( 0.0f ) ;
weight . values . push_back ( 0.0f ) ;
track . weight_tracks . push_back ( weight ) ;
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continue ;
}
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Animation : : InterpolationType interpolation = animation - > track_get_interpolation_type ( track_i ) ;
GLTFAnimation : : Interpolation gltf_interpolation = GLTFAnimation : : INTERP_LINEAR ;
if ( interpolation = = Animation : : InterpolationType : : INTERPOLATION_LINEAR ) {
gltf_interpolation = GLTFAnimation : : INTERP_LINEAR ;
} else if ( interpolation = = Animation : : InterpolationType : : INTERPOLATION_NEAREST ) {
gltf_interpolation = GLTFAnimation : : INTERP_STEP ;
} else if ( interpolation = = Animation : : InterpolationType : : INTERPOLATION_CUBIC ) {
gltf_interpolation = GLTFAnimation : : INTERP_CUBIC_SPLINE ;
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}
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int32_t key_count = animation - > track_get_key_count ( shape_track_i ) ;
GLTFAnimation : : Channel < float > weight ;
weight . interpolation = gltf_interpolation ;
weight . times . resize ( key_count ) ;
for ( int32_t time_i = 0 ; time_i < key_count ; time_i + + ) {
weight . times . write [ time_i ] = animation - > track_get_key_time ( shape_track_i , time_i ) ;
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}
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weight . values . resize ( key_count ) ;
for ( int32_t value_i = 0 ; value_i < key_count ; value_i + + ) {
weight . values . write [ value_i ] = animation - > track_get_key_value ( shape_track_i , value_i ) ;
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}
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track . weight_tracks . push_back ( weight ) ;
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}
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tracks [ mesh_index ] = track ;
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}
} else if ( String ( orig_track_path ) . find ( " : " ) ! = - 1 ) {
//Process skeleton
const Vector < String > node_suffix = String ( orig_track_path ) . split ( " : " ) ;
const String node = node_suffix [ 0 ] ;
const NodePath node_path = node ;
const String suffix = node_suffix [ 1 ] ;
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Node * godot_node = p_animation_player - > get_parent ( ) - > get_node_or_null ( node_path ) ;
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Skeleton * skeleton = nullptr ;
GLTFSkeletonIndex skeleton_gltf_i = - 1 ;
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for ( GLTFSkeletonIndex skeleton_i = 0 ; skeleton_i < p_state - > skeletons . size ( ) ; skeleton_i + + ) {
if ( p_state - > skeletons [ skeleton_i ] - > godot_skeleton = = cast_to < Skeleton > ( godot_node ) ) {
skeleton = p_state - > skeletons [ skeleton_i ] - > godot_skeleton ;
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skeleton_gltf_i = skeleton_i ;
ERR_CONTINUE ( ! skeleton ) ;
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Ref < GLTFSkeleton > skeleton_gltf = p_state - > skeletons [ skeleton_gltf_i ] ;
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int32_t bone = skeleton - > find_bone ( suffix ) ;
ERR_CONTINUE ( bone = = - 1 ) ;
Transform xform = skeleton - > get_bone_rest ( bone ) ;
if ( ! skeleton_gltf - > godot_bone_node . has ( bone ) ) {
continue ;
}
GLTFNodeIndex node_i = skeleton_gltf - > godot_bone_node [ bone ] ;
Map < int , GLTFAnimation : : Track > : : Element * property_track_i = gltf_animation - > get_tracks ( ) . find ( node_i ) ;
GLTFAnimation : : Track track ;
if ( property_track_i ) {
track = property_track_i - > get ( ) ;
}
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track = _convert_animation_track ( p_state , track , animation , xform , track_i , node_i ) ;
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gltf_animation - > get_tracks ( ) [ node_i ] = track ;
}
}
} else if ( String ( orig_track_path ) . find ( " : " ) = = - 1 ) {
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ERR_CONTINUE ( ! p_animation_player - > get_parent ( ) ) ;
for ( int32_t node_i = 0 ; node_i < p_animation_player - > get_parent ( ) - > get_child_count ( ) ; node_i + + ) {
const Node * child = p_animation_player - > get_parent ( ) - > get_child ( node_i ) ;
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const Node * node = child - > get_node_or_null ( orig_track_path ) ;
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for ( Map < GLTFNodeIndex , Node * > : : Element * scene_node_i = p_state - > scene_nodes . front ( ) ; scene_node_i ; scene_node_i = scene_node_i - > next ( ) ) {
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if ( scene_node_i - > get ( ) = = node ) {
GLTFNodeIndex node_index = scene_node_i - > key ( ) ;
Map < int , GLTFAnimation : : Track > : : Element * node_track_i = gltf_animation - > get_tracks ( ) . find ( node_index ) ;
GLTFAnimation : : Track track ;
if ( node_track_i ) {
track = node_track_i - > get ( ) ;
}
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track = _convert_animation_track ( p_state , track , animation , Transform ( ) , track_i , node_index ) ;
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gltf_animation - > get_tracks ( ) . insert ( node_index , track ) ;
break ;
}
}
}
}
}
if ( gltf_animation - > get_tracks ( ) . size ( ) ) {
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p_state - > animations . push_back ( gltf_animation ) ;
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}
}
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void GLTFDocument : : _bind_methods ( ) {
ClassDB : : bind_method ( D_METHOD ( " register_gltf_document_extension " , " extension " , " first_priority " ) , & GLTFDocument : : _register_gltf_document_extension , DEFVAL ( false ) ) ;
ClassDB : : bind_method ( D_METHOD ( " unregister_gltf_document_extension " , " extension " ) , & GLTFDocument : : _unregister_gltf_document_extension ) ;
ClassDB : : bind_method ( D_METHOD ( " unregister_all_gltf_document_extensions " ) , & GLTFDocument : : _unregister_all_gltf_document_extensions ) ;
}
// Since Godot 3.x does not have static methods, we'll use instance methods to call the static methods.
void GLTFDocument : : _register_gltf_document_extension ( Ref < GLTFDocumentExtension > p_extension , bool p_first_priority ) {
GLTFDocument : : register_gltf_document_extension ( p_extension , p_first_priority ) ;
}
void GLTFDocument : : _unregister_gltf_document_extension ( Ref < GLTFDocumentExtension > p_extension ) {
GLTFDocument : : unregister_gltf_document_extension ( p_extension ) ;
}
void GLTFDocument : : _unregister_all_gltf_document_extensions ( ) {
GLTFDocument : : unregister_all_gltf_document_extensions ( ) ;
}
Vector < Ref < GLTFDocumentExtension > > GLTFDocument : : all_document_extensions ;
void GLTFDocument : : register_gltf_document_extension ( Ref < GLTFDocumentExtension > p_extension , bool p_first_priority ) {
if ( all_document_extensions . find ( p_extension ) = = - 1 ) {
if ( p_first_priority ) {
all_document_extensions . insert ( 0 , p_extension ) ;
} else {
all_document_extensions . push_back ( p_extension ) ;
}
}
}
void GLTFDocument : : unregister_gltf_document_extension ( Ref < GLTFDocumentExtension > p_extension ) {
all_document_extensions . erase ( p_extension ) ;
}
void GLTFDocument : : unregister_all_gltf_document_extensions ( ) {
all_document_extensions . clear ( ) ;
}
void GLTFDocument : : extension_generate_scene ( Ref < GLTFState > p_state ) {
ERR_FAIL_COND ( p_state . is_null ( ) ) ;
ERR_FAIL_INDEX ( 0 , p_state - > root_nodes . size ( ) ) ;
Error err = OK ;
for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
err = ext - > import_post_parse ( p_state ) ;
ERR_FAIL_COND ( err ! = OK ) ;
}
GLTFNodeIndex gltf_root = p_state - > root_nodes . write [ 0 ] ;
Node * gltf_root_node = p_state - > get_scene_node ( gltf_root ) ;
Node * root = gltf_root_node - > get_parent ( ) ;
ERR_FAIL_NULL ( root ) ;
for ( int node_i = 0 ; node_i < p_state - > scene_nodes . size ( ) ; node_i + + ) {
Node * node = p_state - > scene_nodes [ node_i ] ;
ERR_CONTINUE ( ! node ) ;
for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
ERR_CONTINUE ( ! p_state - > json . has ( " nodes " ) ) ;
Array nodes = p_state - > json [ " nodes " ] ;
ERR_CONTINUE ( node_i > = nodes . size ( ) ) ;
ERR_CONTINUE ( node_i < 0 ) ;
Dictionary node_json = nodes [ node_i ] ;
Ref < GLTFNode > gltf_node = p_state - > nodes [ node_i ] ;
err = ext - > import_node ( p_state , gltf_node , node_json , node ) ;
ERR_CONTINUE ( err ! = OK ) ;
}
}
for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
err = ext - > import_post ( p_state , root ) ;
ERR_CONTINUE ( err ! = OK ) ;
}
}
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Error GLTFDocument : : parse ( Ref < GLTFState > p_state , String p_path , bool p_read_binary ) {
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Error err ;
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FileAccessRef file = FileAccess : : open ( p_path , FileAccess : : READ , & err ) ;
if ( ! file ) {
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return err ;
}
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uint32_t magic = file - > get_32 ( ) ;
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if ( magic = = 0x46546C67 ) {
//binary file
//text file
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err = _parse_glb ( p_path , p_state ) ;
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if ( err ) {
return FAILED ;
}
} else {
//text file
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err = _parse_json ( p_path , p_state ) ;
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if ( err ) {
return FAILED ;
}
}
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file - > close ( ) ;
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// get file's name, use for scene name if none
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p_state - > filename = p_path . get_file ( ) . get_slice ( " . " , 0 ) ;
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ERR_FAIL_COND_V ( ! p_state - > json . has ( " asset " ) , Error : : FAILED ) ;
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Dictionary asset = p_state - > json [ " asset " ] ;
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ERR_FAIL_COND_V ( ! asset . has ( " version " ) , Error : : FAILED ) ;
String version = asset [ " version " ] ;
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p_state - > major_version = version . get_slice ( " . " , 0 ) . to_int ( ) ;
p_state - > minor_version = version . get_slice ( " . " , 1 ) . to_int ( ) ;
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document_extensions . clear ( ) ;
for ( int ext_i = 0 ; ext_i < all_document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = all_document_extensions [ ext_i ] ;
ERR_CONTINUE ( ext . is_null ( ) ) ;
err = ext - > import_preflight ( p_state , p_state - > json [ " extensionsUsed " ] ) ;
if ( err = = OK ) {
document_extensions . push_back ( ext ) ;
}
}
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/* PARSE EXTENSIONS */
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err = _parse_gltf_extensions ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
/* PARSE SCENE */
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err = _parse_scenes ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE NODES */
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err = _parse_nodes ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE BUFFERS */
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err = _parse_buffers ( p_state , p_path . get_base_dir ( ) ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE BUFFER VIEWS */
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err = _parse_buffer_views ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE ACCESSORS */
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err = _parse_accessors ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE IMAGES */
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err = _parse_images ( p_state , p_path . get_base_dir ( ) ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE TEXTURE SAMPLERS */
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err = _parse_texture_samplers ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE TEXTURES */
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err = _parse_textures ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE MATERIALS */
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err = _parse_materials ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE SKINS */
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err = _parse_skins ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* DETERMINE SKELETONS */
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err = _determine_skeletons ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* CREATE SKELETONS */
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err = _create_skeletons ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* CREATE SKINS */
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err = _create_skins ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE MESHES (we have enough info now) */
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err = _parse_meshes ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE LIGHTS */
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err = _parse_lights ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE CAMERAS */
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err = _parse_cameras ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* PARSE ANIMATIONS */
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err = _parse_animations ( p_state ) ;
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if ( err ! = OK ) {
return Error : : FAILED ;
}
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/* ASSIGN SCENE NAMES */
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_assign_scene_names ( p_state ) ;
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return OK ;
}
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Dictionary _serialize_texture_transform_uv ( Vector2 p_offset , Vector2 p_scale ) {
Dictionary texture_transform ;
bool is_offset = p_offset ! = Vector2 ( 0.0 , 0.0 ) ;
if ( is_offset ) {
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Array offset ;
offset . resize ( 2 ) ;
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offset [ 0 ] = p_offset . x ;
offset [ 1 ] = p_offset . y ;
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texture_transform [ " offset " ] = offset ;
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}
bool is_scaled = p_scale ! = Vector2 ( 1.0 , 1.0 ) ;
if ( is_scaled ) {
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Array scale ;
scale . resize ( 2 ) ;
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scale [ 0 ] = p_scale . x ;
scale [ 1 ] = p_scale . y ;
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texture_transform [ " scale " ] = scale ;
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}
Dictionary extension ;
// Note: Godot doesn't support texture rotation.
if ( is_offset | | is_scaled ) {
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extension [ " KHR_texture_transform " ] = texture_transform ;
}
return extension ;
}
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Dictionary GLTFDocument : : _serialize_texture_transform_uv1 ( Ref < Material3D > p_material ) {
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if ( p_material . is_valid ( ) ) {
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Vector3 offset = p_material - > get_uv1_offset ( ) ;
Vector3 scale = p_material - > get_uv1_scale ( ) ;
return _serialize_texture_transform_uv ( Vector2 ( offset . x , offset . y ) , Vector2 ( scale . x , scale . y ) ) ;
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}
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return Dictionary ( ) ;
}
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Dictionary GLTFDocument : : _serialize_texture_transform_uv2 ( Ref < Material3D > p_material ) {
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if ( p_material . is_valid ( ) ) {
Vector3 offset = p_material - > get_uv2_offset ( ) ;
Vector3 scale = p_material - > get_uv2_scale ( ) ;
return _serialize_texture_transform_uv ( Vector2 ( offset . x , offset . y ) , Vector2 ( scale . x , scale . y ) ) ;
}
return Dictionary ( ) ;
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}
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Error GLTFDocument : : _serialize_version ( Ref < GLTFState > p_state ) {
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const String version = " 2.0 " ;
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p_state - > major_version = version . get_slice ( " . " , 0 ) . to_int ( ) ;
p_state - > minor_version = version . get_slice ( " . " , 1 ) . to_int ( ) ;
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Dictionary asset ;
asset [ " version " ] = version ;
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String hash = String ( VERSION_HASH ) ;
asset [ " generator " ] = String ( VERSION_FULL_NAME ) + String ( " @ " ) + ( hash . empty ( ) ? String ( " unknown " ) : hash ) ;
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p_state - > json [ " asset " ] = asset ;
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ERR_FAIL_COND_V ( ! asset . has ( " version " ) , Error : : FAILED ) ;
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ERR_FAIL_COND_V ( ! p_state - > json . has ( " asset " ) , Error : : FAILED ) ;
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return OK ;
}
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Error GLTFDocument : : _serialize_file ( Ref < GLTFState > p_state , const String p_path ) {
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Error err = FAILED ;
if ( p_path . to_lower ( ) . ends_with ( " glb " ) ) {
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err = _encode_buffer_glb ( p_state , p_path ) ;
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ERR_FAIL_COND_V ( err ! = OK , err ) ;
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FileAccessRef file = FileAccess : : open ( p_path , FileAccess : : WRITE , & err ) ;
ERR_FAIL_COND_V ( ! file , FAILED ) ;
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String json = JSON : : print ( p_state - > json ) ;
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const uint32_t magic = 0x46546C67 ; // GLTF
const int32_t header_size = 12 ;
const int32_t chunk_header_size = 8 ;
CharString cs = json . utf8 ( ) ;
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const uint32_t text_data_length = cs . length ( ) ;
const uint32_t text_chunk_length = ( ( text_data_length + 3 ) & ( ~ 3 ) ) ;
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const uint32_t text_chunk_type = 0x4E4F534A ; //JSON
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uint32_t binary_data_length = 0 ;
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if ( p_state - > buffers . size ( ) ) {
binary_data_length = p_state - > buffers [ 0 ] . size ( ) ;
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}
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const uint32_t binary_chunk_length = ( ( binary_data_length + 3 ) & ( ~ 3 ) ) ;
const uint32_t binary_chunk_type = 0x004E4942 ; //BIN
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file - > create ( FileAccess : : ACCESS_RESOURCES ) ;
file - > store_32 ( magic ) ;
file - > store_32 ( p_state - > major_version ) ; // version
file - > store_32 ( header_size + chunk_header_size + text_chunk_length + chunk_header_size + binary_chunk_length ) ; // length
file - > store_32 ( text_chunk_length ) ;
file - > store_32 ( text_chunk_type ) ;
file - > store_buffer ( ( uint8_t * ) & cs [ 0 ] , cs . length ( ) ) ;
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for ( uint32_t pad_i = text_data_length ; pad_i < text_chunk_length ; pad_i + + ) {
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file - > store_8 ( ' ' ) ;
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}
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if ( binary_chunk_length ) {
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file - > store_32 ( binary_chunk_length ) ;
file - > store_32 ( binary_chunk_type ) ;
file - > store_buffer ( p_state - > buffers [ 0 ] . ptr ( ) , binary_data_length ) ;
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}
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for ( uint32_t pad_i = binary_data_length ; pad_i < binary_chunk_length ; pad_i + + ) {
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file - > store_8 ( 0 ) ;
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}
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file - > close ( ) ;
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} else {
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err = _encode_buffer_bins ( p_state , p_path ) ;
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ERR_FAIL_COND_V ( err ! = OK , err ) ;
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FileAccessRef file = FileAccess : : open ( p_path , FileAccess : : WRITE , & err ) ;
ERR_FAIL_COND_V ( ! file , FAILED ) ;
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file - > create ( FileAccess : : ACCESS_RESOURCES ) ;
String json = JSON : : print ( p_state - > json ) ;
file - > store_string ( json ) ;
file - > close ( ) ;
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}
return err ;
}
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Error GLTFDocument : : _parse_gltf_extensions ( Ref < GLTFState > p_state ) {
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ERR_FAIL_COND_V ( p_state . is_null ( ) , ERR_PARSE_ERROR ) ;
if ( p_state - > json . has ( " extensionsUsed " ) ) {
Vector < String > ext_array = p_state - > json [ " extensionsUsed " ] ;
p_state - > extensions_used = ext_array ;
}
if ( p_state - > json . has ( " extensionsRequired " ) ) {
Vector < String > ext_array = p_state - > json [ " extensionsRequired " ] ;
p_state - > extensions_required = ext_array ;
}
Set < String > supported_extensions ;
supported_extensions . insert ( " KHR_lights_punctual " ) ;
supported_extensions . insert ( " KHR_materials_pbrSpecularGlossiness " ) ;
supported_extensions . insert ( " KHR_texture_transform " ) ;
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supported_extensions . insert ( " KHR_materials_unlit " ) ;
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for ( int ext_i = 0 ; ext_i < document_extensions . size ( ) ; ext_i + + ) {
Ref < GLTFDocumentExtension > ext = document_extensions [ ext_i ] ;
Vector < String > ext_supported_extensions = ext - > get_supported_extensions ( ) ;
for ( int i = 0 ; i < ext_supported_extensions . size ( ) ; + + i ) {
supported_extensions . insert ( ext_supported_extensions [ i ] ) ;
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}
}
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Error ret = Error : : OK ;
for ( int i = 0 ; i < p_state - > extensions_required . size ( ) ; i + + ) {
if ( ! supported_extensions . has ( p_state - > extensions_required [ i ] ) ) {
ERR_PRINT ( " GLTF: Can't import file ' " + p_state - > filename + " ', required extension ' " + String ( p_state - > extensions_required [ i ] ) + " ' is not supported. Are you missing a GLTFDocumentExtension plugin? " ) ;
ret = ERR_UNAVAILABLE ;
}
}
return ret ;
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}