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tiny_gltf.h
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tiny_gltf.h
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//
// Header-only tiny glTF 2.0 loader and serializer.
//
//
// The MIT License (MIT)
//
// Copyright (c) 2015 - Present Syoyo Fujita, Aurélien Chatelain and many
// contributors.
//
// 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.
// Version: - v2.9.*
// See https://github.com/syoyo/tinygltf/releases for release history.
//
// Tiny glTF loader is using following third party libraries:
//
// - jsonhpp: C++ JSON library.
// - base64: base64 decode/encode library.
// - stb_image: Image loading library.
//
#ifndef TINY_GLTF_H_
#define TINY_GLTF_H_
#include <array>
#include <cassert>
#include <cmath> // std::fabs
#include <cstdint>
#include <cstdlib>
#include <cstring>
#include <functional>
#include <limits>
#include <map>
#include <string>
#include <utility>
#include <vector>
// Auto-detect C++14 standard version
#if !defined(TINYGLTF_USE_CPP14) && defined(__cplusplus) && \
(__cplusplus >= 201402L)
#define TINYGLTF_USE_CPP14
#endif
#ifdef __ANDROID__
#ifdef TINYGLTF_ANDROID_LOAD_FROM_ASSETS
#include <android/asset_manager.h>
#endif
#endif
#ifdef __GNUC__
#if (__GNUC__ < 4) || ((__GNUC__ == 4) && (__GNUC_MINOR__ <= 8))
#define TINYGLTF_NOEXCEPT
#else
#define TINYGLTF_NOEXCEPT noexcept
#endif
#else
#define TINYGLTF_NOEXCEPT noexcept
#endif
#define DEFAULT_METHODS(x) \
~x() = default; \
x(const x &) = default; \
x(x &&) TINYGLTF_NOEXCEPT = default; \
x &operator=(const x &) = default; \
x &operator=(x &&) TINYGLTF_NOEXCEPT = default;
namespace tinygltf {
#define TINYGLTF_MODE_POINTS (0)
#define TINYGLTF_MODE_LINE (1)
#define TINYGLTF_MODE_LINE_LOOP (2)
#define TINYGLTF_MODE_LINE_STRIP (3)
#define TINYGLTF_MODE_TRIANGLES (4)
#define TINYGLTF_MODE_TRIANGLE_STRIP (5)
#define TINYGLTF_MODE_TRIANGLE_FAN (6)
#define TINYGLTF_COMPONENT_TYPE_BYTE (5120)
#define TINYGLTF_COMPONENT_TYPE_UNSIGNED_BYTE (5121)
#define TINYGLTF_COMPONENT_TYPE_SHORT (5122)
#define TINYGLTF_COMPONENT_TYPE_UNSIGNED_SHORT (5123)
#define TINYGLTF_COMPONENT_TYPE_INT (5124)
#define TINYGLTF_COMPONENT_TYPE_UNSIGNED_INT (5125)
#define TINYGLTF_COMPONENT_TYPE_FLOAT (5126)
#define TINYGLTF_COMPONENT_TYPE_DOUBLE \
(5130) // OpenGL double type. Note that some of glTF 2.0 validator does not
// support double type even the schema seems allow any value of
// integer:
// https://github.com/KhronosGroup/glTF/blob/b9884a2fd45130b4d673dd6c8a706ee21ee5c5f7/specification/2.0/schema/accessor.schema.json#L22
#define TINYGLTF_TEXTURE_FILTER_NEAREST (9728)
#define TINYGLTF_TEXTURE_FILTER_LINEAR (9729)
#define TINYGLTF_TEXTURE_FILTER_NEAREST_MIPMAP_NEAREST (9984)
#define TINYGLTF_TEXTURE_FILTER_LINEAR_MIPMAP_NEAREST (9985)
#define TINYGLTF_TEXTURE_FILTER_NEAREST_MIPMAP_LINEAR (9986)
#define TINYGLTF_TEXTURE_FILTER_LINEAR_MIPMAP_LINEAR (9987)
#define TINYGLTF_TEXTURE_WRAP_REPEAT (10497)
#define TINYGLTF_TEXTURE_WRAP_CLAMP_TO_EDGE (33071)
#define TINYGLTF_TEXTURE_WRAP_MIRRORED_REPEAT (33648)
// Redeclarations of the above for technique.parameters.
#define TINYGLTF_PARAMETER_TYPE_BYTE (5120)
#define TINYGLTF_PARAMETER_TYPE_UNSIGNED_BYTE (5121)
#define TINYGLTF_PARAMETER_TYPE_SHORT (5122)
#define TINYGLTF_PARAMETER_TYPE_UNSIGNED_SHORT (5123)
#define TINYGLTF_PARAMETER_TYPE_INT (5124)
#define TINYGLTF_PARAMETER_TYPE_UNSIGNED_INT (5125)
#define TINYGLTF_PARAMETER_TYPE_FLOAT (5126)
#define TINYGLTF_PARAMETER_TYPE_FLOAT_VEC2 (35664)
#define TINYGLTF_PARAMETER_TYPE_FLOAT_VEC3 (35665)
#define TINYGLTF_PARAMETER_TYPE_FLOAT_VEC4 (35666)
#define TINYGLTF_PARAMETER_TYPE_INT_VEC2 (35667)
#define TINYGLTF_PARAMETER_TYPE_INT_VEC3 (35668)
#define TINYGLTF_PARAMETER_TYPE_INT_VEC4 (35669)
#define TINYGLTF_PARAMETER_TYPE_BOOL (35670)
#define TINYGLTF_PARAMETER_TYPE_BOOL_VEC2 (35671)
#define TINYGLTF_PARAMETER_TYPE_BOOL_VEC3 (35672)
#define TINYGLTF_PARAMETER_TYPE_BOOL_VEC4 (35673)
#define TINYGLTF_PARAMETER_TYPE_FLOAT_MAT2 (35674)
#define TINYGLTF_PARAMETER_TYPE_FLOAT_MAT3 (35675)
#define TINYGLTF_PARAMETER_TYPE_FLOAT_MAT4 (35676)
#define TINYGLTF_PARAMETER_TYPE_SAMPLER_2D (35678)
// End parameter types
#define TINYGLTF_TYPE_VEC2 (2)
#define TINYGLTF_TYPE_VEC3 (3)
#define TINYGLTF_TYPE_VEC4 (4)
#define TINYGLTF_TYPE_MAT2 (32 + 2)
#define TINYGLTF_TYPE_MAT3 (32 + 3)
#define TINYGLTF_TYPE_MAT4 (32 + 4)
#define TINYGLTF_TYPE_SCALAR (64 + 1)
#define TINYGLTF_TYPE_VECTOR (64 + 4)
#define TINYGLTF_TYPE_MATRIX (64 + 16)
#define TINYGLTF_IMAGE_FORMAT_JPEG (0)
#define TINYGLTF_IMAGE_FORMAT_PNG (1)
#define TINYGLTF_IMAGE_FORMAT_BMP (2)
#define TINYGLTF_IMAGE_FORMAT_GIF (3)
#define TINYGLTF_TEXTURE_FORMAT_ALPHA (6406)
#define TINYGLTF_TEXTURE_FORMAT_RGB (6407)
#define TINYGLTF_TEXTURE_FORMAT_RGBA (6408)
#define TINYGLTF_TEXTURE_FORMAT_LUMINANCE (6409)
#define TINYGLTF_TEXTURE_FORMAT_LUMINANCE_ALPHA (6410)
#define TINYGLTF_TEXTURE_TARGET_TEXTURE2D (3553)
#define TINYGLTF_TEXTURE_TYPE_UNSIGNED_BYTE (5121)
#define TINYGLTF_TARGET_ARRAY_BUFFER (34962)
#define TINYGLTF_TARGET_ELEMENT_ARRAY_BUFFER (34963)
#define TINYGLTF_SHADER_TYPE_VERTEX_SHADER (35633)
#define TINYGLTF_SHADER_TYPE_FRAGMENT_SHADER (35632)
#define TINYGLTF_DOUBLE_EPS (1.e-12)
#define TINYGLTF_DOUBLE_EQUAL(a, b) (std::fabs((b) - (a)) < TINYGLTF_DOUBLE_EPS)
#ifdef __ANDROID__
#ifdef TINYGLTF_ANDROID_LOAD_FROM_ASSETS
#ifdef TINYGLTF_IMPLEMENTATION
AAssetManager *asset_manager = nullptr;
#else
extern AAssetManager *asset_manager;
#endif
#endif
#endif
typedef enum {
NULL_TYPE,
REAL_TYPE,
INT_TYPE,
BOOL_TYPE,
STRING_TYPE,
ARRAY_TYPE,
BINARY_TYPE,
OBJECT_TYPE
} Type;
typedef enum {
Permissive,
Strict
} ParseStrictness;
static inline int32_t GetComponentSizeInBytes(uint32_t componentType) {
if (componentType == TINYGLTF_COMPONENT_TYPE_BYTE) {
return 1;
} else if (componentType == TINYGLTF_COMPONENT_TYPE_UNSIGNED_BYTE) {
return 1;
} else if (componentType == TINYGLTF_COMPONENT_TYPE_SHORT) {
return 2;
} else if (componentType == TINYGLTF_COMPONENT_TYPE_UNSIGNED_SHORT) {
return 2;
} else if (componentType == TINYGLTF_COMPONENT_TYPE_INT) {
return 4;
} else if (componentType == TINYGLTF_COMPONENT_TYPE_UNSIGNED_INT) {
return 4;
} else if (componentType == TINYGLTF_COMPONENT_TYPE_FLOAT) {
return 4;
} else if (componentType == TINYGLTF_COMPONENT_TYPE_DOUBLE) {
return 8;
} else {
// Unknown component type
return -1;
}
}
static inline int32_t GetNumComponentsInType(uint32_t ty) {
if (ty == TINYGLTF_TYPE_SCALAR) {
return 1;
} else if (ty == TINYGLTF_TYPE_VEC2) {
return 2;
} else if (ty == TINYGLTF_TYPE_VEC3) {
return 3;
} else if (ty == TINYGLTF_TYPE_VEC4) {
return 4;
} else if (ty == TINYGLTF_TYPE_MAT2) {
return 4;
} else if (ty == TINYGLTF_TYPE_MAT3) {
return 9;
} else if (ty == TINYGLTF_TYPE_MAT4) {
return 16;
} else {
// Unknown component type
return -1;
}
}
// TODO(syoyo): Move these functions to TinyGLTF class
bool IsDataURI(const std::string &in);
bool DecodeDataURI(std::vector<unsigned char> *out, std::string &mime_type,
const std::string &in, size_t reqBytes, bool checkSize);
#ifdef __clang__
#pragma clang diagnostic push
// Suppress warning for : static Value null_value
#pragma clang diagnostic ignored "-Wexit-time-destructors"
#pragma clang diagnostic ignored "-Wpadded"
#endif
// Simple class to represent JSON object
class Value {
public:
typedef std::vector<Value> Array;
typedef std::map<std::string, Value> Object;
Value() = default;
explicit Value(bool b) : type_(BOOL_TYPE) { boolean_value_ = b; }
explicit Value(int i) : type_(INT_TYPE) {
int_value_ = i;
real_value_ = i;
}
explicit Value(double n) : type_(REAL_TYPE) { real_value_ = n; }
explicit Value(const std::string &s) : type_(STRING_TYPE) {
string_value_ = s;
}
explicit Value(std::string &&s)
: type_(STRING_TYPE), string_value_(std::move(s)) {}
explicit Value(const char *s) : type_(STRING_TYPE) { string_value_ = s; }
explicit Value(const unsigned char *p, size_t n) : type_(BINARY_TYPE) {
binary_value_.resize(n);
memcpy(binary_value_.data(), p, n);
}
explicit Value(std::vector<unsigned char> &&v) noexcept
: type_(BINARY_TYPE),
binary_value_(std::move(v)) {}
explicit Value(const Array &a) : type_(ARRAY_TYPE) { array_value_ = a; }
explicit Value(Array &&a) noexcept : type_(ARRAY_TYPE),
array_value_(std::move(a)) {}
explicit Value(const Object &o) : type_(OBJECT_TYPE) { object_value_ = o; }
explicit Value(Object &&o) noexcept : type_(OBJECT_TYPE),
object_value_(std::move(o)) {}
DEFAULT_METHODS(Value)
char Type() const { return static_cast<char>(type_); }
bool IsBool() const { return (type_ == BOOL_TYPE); }
bool IsInt() const { return (type_ == INT_TYPE); }
bool IsNumber() const { return (type_ == REAL_TYPE) || (type_ == INT_TYPE); }
bool IsReal() const { return (type_ == REAL_TYPE); }
bool IsString() const { return (type_ == STRING_TYPE); }
bool IsBinary() const { return (type_ == BINARY_TYPE); }
bool IsArray() const { return (type_ == ARRAY_TYPE); }
bool IsObject() const { return (type_ == OBJECT_TYPE); }
// Use this function if you want to have number value as double.
double GetNumberAsDouble() const {
if (type_ == INT_TYPE) {
return double(int_value_);
} else {
return real_value_;
}
}
// Use this function if you want to have number value as int.
// TODO(syoyo): Support int value larger than 32 bits
int GetNumberAsInt() const {
if (type_ == REAL_TYPE) {
return int(real_value_);
} else {
return int_value_;
}
}
// Accessor
template <typename T>
const T &Get() const;
template <typename T>
T &Get();
// Lookup value from an array
const Value &Get(size_t idx) const {
static Value null_value;
assert(IsArray());
return (idx < array_value_.size())
? array_value_[idx]
: null_value;
}
// Lookup value from a key-value pair
const Value &Get(const std::string &key) const {
static Value null_value;
assert(IsObject());
Object::const_iterator it = object_value_.find(key);
return (it != object_value_.end()) ? it->second : null_value;
}
size_t ArrayLen() const {
if (!IsArray()) return 0;
return array_value_.size();
}
// Valid only for object type.
bool Has(const std::string &key) const {
if (!IsObject()) return false;
Object::const_iterator it = object_value_.find(key);
return (it != object_value_.end()) ? true : false;
}
// List keys
std::vector<std::string> Keys() const {
std::vector<std::string> keys;
if (!IsObject()) return keys; // empty
for (Object::const_iterator it = object_value_.begin();
it != object_value_.end(); ++it) {
keys.push_back(it->first);
}
return keys;
}
size_t Size() const { return (IsArray() ? ArrayLen() : Keys().size()); }
bool operator==(const tinygltf::Value &other) const;
protected:
int type_ = NULL_TYPE;
int int_value_ = 0;
double real_value_ = 0.0;
std::string string_value_;
std::vector<unsigned char> binary_value_;
Array array_value_;
Object object_value_;
bool boolean_value_ = false;
};
#ifdef __clang__
#pragma clang diagnostic pop
#endif
#define TINYGLTF_VALUE_GET(ctype, var) \
template <> \
inline const ctype &Value::Get<ctype>() const { \
return var; \
} \
template <> \
inline ctype &Value::Get<ctype>() { \
return var; \
}
TINYGLTF_VALUE_GET(bool, boolean_value_)
TINYGLTF_VALUE_GET(double, real_value_)
TINYGLTF_VALUE_GET(int, int_value_)
TINYGLTF_VALUE_GET(std::string, string_value_)
TINYGLTF_VALUE_GET(std::vector<unsigned char>, binary_value_)
TINYGLTF_VALUE_GET(Value::Array, array_value_)
TINYGLTF_VALUE_GET(Value::Object, object_value_)
#undef TINYGLTF_VALUE_GET
#ifdef __clang__
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wc++98-compat"
#pragma clang diagnostic ignored "-Wpadded"
#endif
/// Aggregate object for representing a color
using ColorValue = std::array<double, 4>;
// === legacy interface ====
// TODO(syoyo): Deprecate `Parameter` class.
struct Parameter {
bool bool_value = false;
bool has_number_value = false;
std::string string_value;
std::vector<double> number_array;
std::map<std::string, double> json_double_value;
double number_value = 0.0;
// context sensitive methods. depending the type of the Parameter you are
// accessing, these are either valid or not
// If this parameter represent a texture map in a material, will return the
// texture index
/// Return the index of a texture if this Parameter is a texture map.
/// Returned value is only valid if the parameter represent a texture from a
/// material
int TextureIndex() const {
const auto it = json_double_value.find("index");
if (it != std::end(json_double_value)) {
return int(it->second);
}
return -1;
}
/// Return the index of a texture coordinate set if this Parameter is a
/// texture map. Returned value is only valid if the parameter represent a
/// texture from a material
int TextureTexCoord() const {
const auto it = json_double_value.find("texCoord");
if (it != std::end(json_double_value)) {
return int(it->second);
}
// As per the spec, if texCoord is omitted, this parameter is 0
return 0;
}
/// Return the scale of a texture if this Parameter is a normal texture map.
/// Returned value is only valid if the parameter represent a normal texture
/// from a material
double TextureScale() const {
const auto it = json_double_value.find("scale");
if (it != std::end(json_double_value)) {
return it->second;
}
// As per the spec, if scale is omitted, this parameter is 1
return 1;
}
/// Return the strength of a texture if this Parameter is a an occlusion map.
/// Returned value is only valid if the parameter represent an occlusion map
/// from a material
double TextureStrength() const {
const auto it = json_double_value.find("strength");
if (it != std::end(json_double_value)) {
return it->second;
}
// As per the spec, if strength is omitted, this parameter is 1
return 1;
}
/// Material factor, like the roughness or metalness of a material
/// Returned value is only valid if the parameter represent a texture from a
/// material
double Factor() const { return number_value; }
/// Return the color of a material
/// Returned value is only valid if the parameter represent a texture from a
/// material
ColorValue ColorFactor() const {
return {
{// this aggregate initialize the std::array object, and uses C++11 RVO.
number_array[0], number_array[1], number_array[2],
(number_array.size() > 3 ? number_array[3] : 1.0)}};
}
Parameter() = default;
DEFAULT_METHODS(Parameter)
bool operator==(const Parameter &) const;
};
#ifdef __clang__
#pragma clang diagnostic pop
#endif
#ifdef __clang__
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wpadded"
#endif
typedef std::map<std::string, Parameter> ParameterMap;
typedef std::map<std::string, Value> ExtensionMap;
struct AnimationChannel {
int sampler{-1}; // required
int target_node{-1}; // optional index of the node to target (alternative
// target should be provided by extension)
std::string target_path; // required with standard values of ["translation",
// "rotation", "scale", "weights"]
Value extras;
ExtensionMap extensions;
Value target_extras;
ExtensionMap target_extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
std::string target_extras_json_string;
std::string target_extensions_json_string;
AnimationChannel() = default;
DEFAULT_METHODS(AnimationChannel)
bool operator==(const AnimationChannel &) const;
};
struct AnimationSampler {
int input{-1}; // required
int output{-1}; // required
std::string interpolation; // "LINEAR", "STEP","CUBICSPLINE" or user defined
// string. default "LINEAR"
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
AnimationSampler() : interpolation("LINEAR") {}
DEFAULT_METHODS(AnimationSampler)
bool operator==(const AnimationSampler &) const;
};
struct Animation {
std::string name;
std::vector<AnimationChannel> channels;
std::vector<AnimationSampler> samplers;
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
Animation() = default;
DEFAULT_METHODS(Animation)
bool operator==(const Animation &) const;
};
struct Skin {
std::string name;
int inverseBindMatrices{-1}; // required here but not in the spec
int skeleton{-1}; // The index of the node used as a skeleton root
std::vector<int> joints; // Indices of skeleton nodes
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
Skin() = default;
DEFAULT_METHODS(Skin)
bool operator==(const Skin &) const;
};
struct Sampler {
std::string name;
// glTF 2.0 spec does not define default value for `minFilter` and
// `magFilter`. Set -1 in TinyGLTF(issue #186)
int minFilter =
-1; // optional. -1 = no filter defined. ["NEAREST", "LINEAR",
// "NEAREST_MIPMAP_NEAREST", "LINEAR_MIPMAP_NEAREST",
// "NEAREST_MIPMAP_LINEAR", "LINEAR_MIPMAP_LINEAR"]
int magFilter =
-1; // optional. -1 = no filter defined. ["NEAREST", "LINEAR"]
int wrapS =
TINYGLTF_TEXTURE_WRAP_REPEAT; // ["CLAMP_TO_EDGE", "MIRRORED_REPEAT",
// "REPEAT"], default "REPEAT"
int wrapT =
TINYGLTF_TEXTURE_WRAP_REPEAT; // ["CLAMP_TO_EDGE", "MIRRORED_REPEAT",
// "REPEAT"], default "REPEAT"
// int wrapR = TINYGLTF_TEXTURE_WRAP_REPEAT; // TinyGLTF extension. currently
// not used.
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
Sampler() = default;
DEFAULT_METHODS(Sampler)
bool operator==(const Sampler &) const;
};
struct Image {
std::string name;
int width{-1};
int height{-1};
int component{-1};
int bits{-1}; // bit depth per channel. 8(byte), 16 or 32.
int pixel_type{-1}; // pixel type(TINYGLTF_COMPONENT_TYPE_***). usually
// UBYTE(bits = 8) or USHORT(bits = 16)
std::vector<unsigned char> image;
int bufferView{-1}; // (required if no uri)
std::string mimeType; // (required if no uri) ["image/jpeg", "image/png",
// "image/bmp", "image/gif"]
std::string uri; // (required if no mimeType) uri is not decoded(e.g.
// whitespace may be represented as %20)
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
// When this flag is true, data is stored to `image` in as-is format(e.g. jpeg
// compressed for "image/jpeg" mime) This feature is good if you use custom
// image loader function. (e.g. delayed decoding of images for faster glTF
// parsing).
bool as_is{false};
Image() = default;
DEFAULT_METHODS(Image)
bool operator==(const Image &) const;
};
struct Texture {
std::string name;
int sampler{-1};
int source{-1};
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
Texture() = default;
DEFAULT_METHODS(Texture)
bool operator==(const Texture &) const;
};
struct TextureInfo {
int index{-1}; // required.
int texCoord{0}; // The set index of texture's TEXCOORD attribute used for
// texture coordinate mapping.
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
TextureInfo() = default;
DEFAULT_METHODS(TextureInfo)
bool operator==(const TextureInfo &) const;
};
struct NormalTextureInfo {
int index{-1}; // required
int texCoord{0}; // The set index of texture's TEXCOORD attribute used for
// texture coordinate mapping.
double scale{
1.0}; // scaledNormal = normalize((<sampled normal texture value>
// * 2.0 - 1.0) * vec3(<normal scale>, <normal scale>, 1.0))
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
NormalTextureInfo() = default;
DEFAULT_METHODS(NormalTextureInfo)
bool operator==(const NormalTextureInfo &) const;
};
struct OcclusionTextureInfo {
int index{-1}; // required
int texCoord{0}; // The set index of texture's TEXCOORD attribute used for
// texture coordinate mapping.
double strength{1.0}; // occludedColor = lerp(color, color * <sampled
// occlusion texture value>, <occlusion strength>)
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
OcclusionTextureInfo() = default;
DEFAULT_METHODS(OcclusionTextureInfo)
bool operator==(const OcclusionTextureInfo &) const;
};
// pbrMetallicRoughness class defined in glTF 2.0 spec.
struct PbrMetallicRoughness {
std::vector<double> baseColorFactor{1.0, 1.0, 1.0, 1.0}; // len = 4. default [1,1,1,1]
TextureInfo baseColorTexture;
double metallicFactor{1.0}; // default 1
double roughnessFactor{1.0}; // default 1
TextureInfo metallicRoughnessTexture;
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
PbrMetallicRoughness() = default;
DEFAULT_METHODS(PbrMetallicRoughness)
bool operator==(const PbrMetallicRoughness &) const;
};
// Each extension should be stored in a ParameterMap.
// members not in the values could be included in the ParameterMap
// to keep a single material model
struct Material {
std::string name;
std::vector<double> emissiveFactor{0.0, 0.0, 0.0}; // length 3. default [0, 0, 0]
std::string alphaMode{"OPAQUE"}; // default "OPAQUE"
double alphaCutoff{0.5}; // default 0.5
bool doubleSided{false}; // default false
std::vector<int> lods; // level of detail materials (MSFT_lod)
PbrMetallicRoughness pbrMetallicRoughness;
NormalTextureInfo normalTexture;
OcclusionTextureInfo occlusionTexture;
TextureInfo emissiveTexture;
// For backward compatibility
// TODO(syoyo): Remove `values` and `additionalValues` in the next release.
ParameterMap values;
ParameterMap additionalValues;
ExtensionMap extensions;
Value extras;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
Material() = default;
DEFAULT_METHODS(Material)
bool operator==(const Material &) const;
};
struct BufferView {
std::string name;
int buffer{-1}; // Required
size_t byteOffset{0}; // minimum 0, default 0
size_t byteLength{0}; // required, minimum 1. 0 = invalid
size_t byteStride{0}; // minimum 4, maximum 252 (multiple of 4), default 0 =
// understood to be tightly packed
int target{0}; // ["ARRAY_BUFFER", "ELEMENT_ARRAY_BUFFER"] for vertex indices
// or attribs. Could be 0 for other data
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
bool dracoDecoded{false}; // Flag indicating this has been draco decoded
BufferView() = default;
DEFAULT_METHODS(BufferView)
bool operator==(const BufferView &) const;
};
struct Accessor {
int bufferView{-1}; // optional in spec but required here since sparse
// accessor are not supported
std::string name;
size_t byteOffset{0};
bool normalized{false}; // optional.
int componentType{-1}; // (required) One of TINYGLTF_COMPONENT_TYPE_***
size_t count{0}; // required
int type{-1}; // (required) One of TINYGLTF_TYPE_*** ..
Value extras;
ExtensionMap extensions;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
std::vector<double>
minValues; // optional. integer value is promoted to double
std::vector<double>
maxValues; // optional. integer value is promoted to double
struct Sparse {
int count;
bool isSparse;
struct {
size_t byteOffset;
int bufferView;
int componentType; // a TINYGLTF_COMPONENT_TYPE_ value
Value extras;
ExtensionMap extensions;
std::string extras_json_string;
std::string extensions_json_string;
} indices;
struct {
int bufferView;
size_t byteOffset;
Value extras;
ExtensionMap extensions;
std::string extras_json_string;
std::string extensions_json_string;
} values;
Value extras;
ExtensionMap extensions;
std::string extras_json_string;
std::string extensions_json_string;
};
Sparse sparse;
///
/// Utility function to compute byteStride for a given bufferView object.
/// Returns -1 upon invalid glTF value or parameter configuration.
///
int ByteStride(const BufferView &bufferViewObject) const {
if (bufferViewObject.byteStride == 0) {
// Assume data is tightly packed.
int componentSizeInBytes =
GetComponentSizeInBytes(static_cast<uint32_t>(componentType));
if (componentSizeInBytes <= 0) {
return -1;
}
int numComponents = GetNumComponentsInType(static_cast<uint32_t>(type));
if (numComponents <= 0) {
return -1;
}
return componentSizeInBytes * numComponents;
} else {
// Check if byteStride is a multiple of the size of the accessor's
// component type.
int componentSizeInBytes =
GetComponentSizeInBytes(static_cast<uint32_t>(componentType));
if (componentSizeInBytes <= 0) {
return -1;
}
if ((bufferViewObject.byteStride % uint32_t(componentSizeInBytes)) != 0) {
return -1;
}
return static_cast<int>(bufferViewObject.byteStride);
}
// unreachable return 0;
}
Accessor()
{
sparse.isSparse = false;
}
DEFAULT_METHODS(Accessor)
bool operator==(const tinygltf::Accessor &) const;
};
struct PerspectiveCamera {
double aspectRatio{0.0}; // min > 0
double yfov{0.0}; // required. min > 0
double zfar{0.0}; // min > 0
double znear{0.0}; // required. min > 0
PerspectiveCamera() = default;
DEFAULT_METHODS(PerspectiveCamera)
bool operator==(const PerspectiveCamera &) const;
ExtensionMap extensions;
Value extras;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
};
struct OrthographicCamera {
double xmag{0.0}; // required. must not be zero.
double ymag{0.0}; // required. must not be zero.
double zfar{0.0}; // required. `zfar` must be greater than `znear`.
double znear{0.0}; // required
OrthographicCamera() = default;
DEFAULT_METHODS(OrthographicCamera)
bool operator==(const OrthographicCamera &) const;
ExtensionMap extensions;
Value extras;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
};
struct Camera {
std::string type; // required. "perspective" or "orthographic"
std::string name;
PerspectiveCamera perspective;
OrthographicCamera orthographic;
Camera() = default;
DEFAULT_METHODS(Camera)
bool operator==(const Camera &) const;
ExtensionMap extensions;
Value extras;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
};
struct Primitive {
std::map<std::string, int> attributes; // (required) A dictionary object of
// integer, where each integer
// is the index of the accessor
// containing an attribute.
int material{-1}; // The index of the material to apply to this primitive
// when rendering.
int indices{-1}; // The index of the accessor that contains the indices.
int mode{-1}; // one of TINYGLTF_MODE_***
std::vector<std::map<std::string, int> > targets; // array of morph targets,
// where each target is a dict with attributes in ["POSITION, "NORMAL",
// "TANGENT"] pointing
// to their corresponding accessors
ExtensionMap extensions;
Value extras;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;
Primitive() = default;
DEFAULT_METHODS(Primitive)
bool operator==(const Primitive &) const;
};
struct Mesh {
std::string name;
std::vector<Primitive> primitives;
std::vector<double> weights; // weights to be applied to the Morph Targets
ExtensionMap extensions;
Value extras;
// Filled when SetStoreOriginalJSONForExtrasAndExtensions is enabled.
std::string extras_json_string;
std::string extensions_json_string;