示例#1
0
        /// <summary>
        /// Internal helper for reading data from USD.
        /// </summary>
        /// <param name="attrName">The USD attribute name.</param>
        /// <param name="csType">The C# type.</param>
        /// <param name="csValue">The C# value to populate.</param>
        /// <param name="usdTime">The time at which to sample key frames.</param>
        /// <param name="prim">The USD prim from which to read data.</param>
        /// <param name="memberInfo">The field/property providing serialization metadata.</param>
        /// <param name="usdNamespace">The optional USD namespace at which values live.</param>
        /// <param name="accessMap">A map of members to include when reading.</param>
        /// <param name="mayVary">When not null, is populated with variability.</param>
        /// <returns>True on success.</returns>
        /// <remarks>
        /// Note that "success" in the return value does not indicate data was read, rather it
        /// indicates that no unexpected states were encountered. E.g. calling ReadAttr on a field
        /// with no value stored in USD will not return false, since that is not considered a failure
        /// state.
        /// </remarks>
        bool ReadAttr(string attrName, Type csType, ref object csValue, pxr.UsdTimeCode usdTime,
                      pxr.UsdPrim prim, MemberInfo memberInfo,
                      HashSet <MemberInfo> accessMap, ref bool?mayVary,
                      string usdNamespace)
        {
            bool isNewPrimvar = csValue != null &&
                                csType.IsGenericType &&
                                csType.GetGenericTypeDefinition() == typeof(Primvar <>);
            bool   isPrimvar = Reflect.IsPrimvar(memberInfo) || isNewPrimvar;
            string ns        = IntrinsicTypeConverter.JoinNamespace(usdNamespace,
                                                                    Reflect.GetNamespace(memberInfo));


            // ----------------------------------------- //
            // Dictionaries, read, early exit, recurse.
            // ----------------------------------------- //
            // If holding a dictionary, immediately recurse and write keys as attributes.
            if (csValue != null &&
                csType.IsGenericType &&
                csType.GetGenericTypeDefinition() == typeof(Dictionary <,>) &&
                csType.GetGenericArguments()[0] == typeof(string))
            {
                Type genericTypeDef = csType.GetGenericArguments()[1].IsGenericType
                            ? csType.GetGenericArguments()[1].GetGenericTypeDefinition()
                            : null;

                isNewPrimvar = genericTypeDef == typeof(Primvar <>);
                bool isRelationship = csType.GetGenericArguments()[1] == typeof(Relationship);
                bool isConnection   = genericTypeDef == typeof(Connectable <>);

                // String dictionaries are unrolled directly into the object.
                // So the namespace is either the incoming namespace or empty, meaning each string value in
                // the dictionary becomes an attribute on the prim.

                // Ensure there is always a namespace immediately around this member.
                if (string.IsNullOrEmpty(Reflect.GetNamespace(memberInfo)))
                {
                    ns           = IntrinsicTypeConverter.JoinNamespace(ns, attrName);
                    usdNamespace = IntrinsicTypeConverter.JoinNamespace(usdNamespace, attrName);
                }

                // Unfortunately, the primvars prefixing logic must be replicated here so we can discover
                // the dictionary member from USD.
                if (isPrimvar || isNewPrimvar)
                {
                    ns = IntrinsicTypeConverter.JoinNamespace("primvars", ns);
                }

                var             dict = csValue as System.Collections.IDictionary;
                ConstructorInfo ctor = (isNewPrimvar || isConnection || isRelationship)
                             ? csType.GetGenericArguments()[1].GetConstructor(new Type[0])
                             : null;
                dict.Clear();
                foreach (var prop in prim.GetAuthoredPropertiesInNamespace(ns))
                {
                    object value = null;
                    if (ctor != null)
                    {
                        value = ctor.Invoke(new object[0]);
                    }
                    // The recursive call will also discover that this is a primvar and any associated namespace.
                    if (ReadAttr(prop.GetBaseName(),
                                 csType.GetGenericArguments()[1],
                                 ref value,
                                 usdTime,
                                 prim,
                                 memberInfo,
                                 accessMap,
                                 ref mayVary,
                                 usdNamespace))
                    {
                        if (value != null)
                        {
                            dict.Add(prop.GetBaseName().ToString(), value);
                        }
                    }
                }
                return(true);
            }

            pxr.TfToken sdfAttrName = sm_tokenCache[ns, attrName];

            // ----------------------------------------- //
            // Relationship, read + early exit.
            // ----------------------------------------- //

            if (csType == typeof(Relationship))
            {
                // mayVary is explicitly not set here because it has accumulation semantics:
                //   mayVary = mayVary || false;
                // Which is equivalent to the no-op:
                //   mayVary = mayVary;

                pxr.UsdRelationship rel = null;
                lock (m_stageLock) {
                    rel = prim.GetRelationship(sm_tokenCache[sdfAttrName]);
                }

                var relationship = new Relationship();
                csValue = relationship;

                if (rel == null || !rel.IsValid())
                {
                    return(true);
                }

                pxr.SdfPathVector paths  = rel.GetTargets();
                string[]          result = new string[paths.Count];
                for (int i = 0; i < paths.Count; i++)
                {
                    result[i] = paths[i].ToString();
                }

                relationship.targetPaths = result;
                return(true);
            }

            // ----------------------------------------- //
            // Connection Setup.
            // ----------------------------------------- //

            Connectable conn = null;

            if (csValue != null &&
                csType.IsGenericType &&
                csType.GetGenericTypeDefinition() == typeof(Connectable <>))
            {
                conn = csValue as Connectable;
                if (conn != null)
                {
                    // Since this is a Connectable<T>, the held value T is what's being read from USD,
                    // so replace csValue with the held T value itself. csValue must be restored before
                    // returning.
                    csValue = conn.GetValue();

                    // Same treatment for the type.
                    csType = conn.GetValueType();
                }
            }

            // ----------------------------------------- //
            // Primvar Setup.
            // ----------------------------------------- //

            ValueAccessor pvAccessor = null;
            PrimvarBase   pvBase     = null;

            if (isNewPrimvar)
            {
                pvAccessor = csValue as ValueAccessor;
                pvBase     = (PrimvarBase)csValue;
                // Since this is a Primvar<T>, the held value T is what's being read from USD,
                // so replace csVAlue with the held T value itself. csValue must be restored before
                // returning.
                csValue = pvAccessor.GetValue();

                // Same treatment for the type.
                csType = pvAccessor.GetValueType();
            }

            // ----------------------------------------- //
            // Lookup Type Conversion Delegate.
            // ----------------------------------------- //
            UsdTypeBinding binding;

            if (!sm_bindings.GetBinding(csType, out binding) &&
                !csType.IsEnum &&
                csType != typeof(object))
            {
                if (string.IsNullOrEmpty(ns))
                {
                    return(false);
                }

                var sample = csValue as SampleBase;
                if (csValue == null)
                {
                    // This could attempt to automatically constuct the needed object, then nullable objects
                    // could be used instead to drive deserialization.
                    return(false);
                }
                else if (sample == null)
                {
                    // In this case, csValue is not null, but also cannot be converted to SampleBase.
                    throw new ArgumentException("Type does not inherit from SampleBase: " + attrName);
                }

                Deserialize((SampleBase)csValue, prim, usdTime, accessMap, ref mayVary, usdNamespace: ns);
                return(true);
            }

            // ----------------------------------------- //
            // Prep to Read.
            // ----------------------------------------- //

            // Restore C# value to the actual property value.
            if (conn != null)
            {
                csValue = conn;
            }
            else if (pvAccessor != null)
            {
                csValue = pvAccessor;
            }

            // Append "primvars:" namespace to primvars.
            if (isPrimvar)
            {
                var joinedName = IntrinsicTypeConverter.JoinNamespace(ns, attrName);
                sdfAttrName = sm_tokenCache["primvars", joinedName];
            }

            // Adjust time for variability.
            pxr.SdfVariability variability = Reflect.GetVariability(memberInfo);
            pxr.UsdTimeCode    time        = variability == pxr.SdfVariability.SdfVariabilityUniform
                                          ? kDefaultUsdTime
                                          : usdTime;

            // Allocate a temp VtValue.
            pxr.VtValue vtValue = (pxr.VtValue)ArrayAllocator.MallocHandle(typeof(pxr.VtValue));

            try {
                // ----------------------------------------- //
                // Read Connected Paths.
                // ----------------------------------------- //
                if (conn != null)
                {
                    // Connection paths cannot be animated, so mayVary is not affected.
                    var sources = new pxr.SdfPathVector();
                    if (prim.GetAttribute(sdfAttrName).GetConnections(sources))
                    {
                        if (sources.Count > 0)
                        {
                            conn.SetConnectedPath(sources[0].ToString());
                        }
                    }
                }

                // ----------------------------------------- //
                // Read Associated Primvar Data.
                // ----------------------------------------- //
                // If this is a Primvar<T>, read the associated primvar metadata and indices.
                if (pvBase != null)
                {
                    var attr = prim.GetAttribute(sdfAttrName);
                    if (attr)
                    {
                        var pv = new pxr.UsdGeomPrimvar(attr);
                        // ElementSize and Interpolation are not animatable, so they do not affect mayVary.
                        pvBase.elementSize = pv.GetElementSize();
                        pvBase.SetInterpolationToken(pv.GetInterpolation());

                        // Indices are a first class attribute and may vary over time.
                        var indices = pv.GetIndicesAttr();
                        if (indices)
                        {
                            if (accessMap != null)
                            {
                                if (indices.GetVariability() == pxr.SdfVariability.SdfVariabilityVarying ||
                                    indices.ValueMightBeTimeVarying())
                                {
                                    accessMap.Add(memberInfo);
                                    mayVary |= true;
                                }
                            }
                            indices.Get(vtValue, time);
                            if (!vtValue.IsEmpty())
                            {
                                var vtIntArray = pxr.UsdCs.VtValueToVtIntArray(vtValue);
                                pvBase.indices = IntrinsicTypeConverter.FromVtArray(vtIntArray);
                            }
                        }
                    }
                }

                // ----------------------------------------- //
                // Read the value of csValue.
                // ----------------------------------------- //

                if (Reflect.IsMetadata(memberInfo))
                {
                    vtValue = prim.GetMetadata(sdfAttrName);
                    // Metadata cannot vary over time.
                }
                else if (Reflect.IsCustomData(memberInfo))
                {
                    vtValue = prim.GetCustomDataByKey(sdfAttrName);
                    // Custom data is metadata, which cannot vary over time.
                }
                else if (Reflect.IsFusedDisplayColor(memberInfo))
                {
                    vtValue = pxr.UsdCs.GetFusedDisplayColor(prim, time);

                    if (accessMap != null)
                    {
                        // Display color is actually two attributes, primvars:displayColor and
                        // primvars:displayOpacity.
                        var gprim = new pxr.UsdGeomGprim(prim);
                        if (gprim && gprim.GetDisplayColorAttr().ValueMightBeTimeVarying())
                        {
                            accessMap.Add(memberInfo);
                            mayVary |= true;
                        }
                    }
                }
                else if (Reflect.IsFusedTransform(memberInfo))
                {
                    vtValue = pxr.UsdCs.GetFusedTransform(prim, time);

                    if (accessMap != null)
                    {
                        // Transforms are complicated :/
                        var xformable = new pxr.UsdGeomXformable(prim);
                        if (xformable)
                        {
                            bool dummy;
                            var  orderAttr = xformable.GetXformOpOrderAttr();
                            if (orderAttr)
                            {
                                if (orderAttr.GetVariability() == pxr.SdfVariability.SdfVariabilityVarying &&
                                    orderAttr.ValueMightBeTimeVarying())
                                {
                                    mayVary |= true;
                                    accessMap.Add(memberInfo);
                                }
                                else
                                {
                                    foreach (var op in xformable.GetOrderedXformOps(out dummy))
                                    {
                                        var opAttr = op.GetAttr();
                                        if (!opAttr)
                                        {
                                            continue;
                                        }
                                        if (opAttr.GetVariability() == pxr.SdfVariability.SdfVariabilityVarying &&
                                            opAttr.ValueMightBeTimeVarying())
                                        {
                                            mayVary |= true;
                                            accessMap.Add(memberInfo);
                                            break;
                                        }
                                    } // foreach
                                }
                            }         // orderAttr
                        }             // xformable
                    }                 // mayVary
                }
                else
                {
                    if (accessMap != null)
                    {
                        var attr = prim.GetAttribute(sdfAttrName);
                        if (attr.GetVariability() == pxr.SdfVariability.SdfVariabilityVarying &&
                            attr.ValueMightBeTimeVarying())
                        {
                            accessMap.Add(memberInfo);
                            mayVary |= true;
                        }
                    }
                    if (!prim.GetAttributeValue(sdfAttrName, vtValue, time))
                    {
                        // Object has no value, still considered success.
                        return(true);
                    }
                }

                if (vtValue.IsEmpty())
                {
                    // Object has no value, still considered success.
                    return(true);
                }

                // ------------------------------------------ //
                // Infer C# type from USD when Type == Object
                // ------------------------------------------ //
                if (csType == typeof(object))
                {
                    // Blind object serialization needs special handling, since we won't know the C# type a priori.
                    // Instead, do a reverse lookup on the SdfTypeName and let USD dictate the C# type.
                    pxr.UsdAttribute attr = prim.GetAttribute(sdfAttrName);
                    if (attr != null && attr.IsValid())
                    {
                        // TODO: Assuming the reverse lookup is successful for the binding, the caller may be
                        // surprised by the result, since the USD <-> C# types are not 1-to-1. For example,
                        // a List<Vector2> may have been serialized, but Vector2[] may be read.
                        if (!sm_bindings.GetReverseBinding(attr.GetTypeName(), out binding))
                        {
                            if (string.IsNullOrEmpty(ns))
                            {
                                return(false);
                            }

                            // TODO: readback nested object declared as object -- maybe just disable this?
                            //Deserialize(ref csValue, prim, usdTime, usdNamespace: ns);
                            //return true;
                            return(false);
                        }
                    }
                    else
                    {
                        // TODO: Allow reading metadata declared as object in C#
                        return(false);
                    }
                }

                // ------------------------------------------ //
                // Convert USD's VtValue -> Strong C# Type.
                // ------------------------------------------ //
                csValue = binding.toCsObject(vtValue);

                // ------------------------------------------ //
                // Restore csValue.
                // ------------------------------------------ //
                if (conn != null && csValue != null)
                {
                    conn.SetValue(csValue);
                    csValue = conn;
                }
                if (pvAccessor != null)
                {
                    pvAccessor.SetValue(csValue);
                    csValue = pvAccessor;
                }
            } finally {
                // Would prefer RAII handle, but introduces garbage.
                ArrayAllocator.FreeHandle(vtValue);
            }

            return(true);
        }
示例#2
0
        /// <summary>
        /// Internal helper for reading data from USD.
        /// </summary>
        /// <param name="attrName">The USD attribute name.</param>
        /// <param name="csType">The C# type.</param>
        /// <param name="csValue">The C# value to populate.</param>
        /// <param name="usdTime">The time at which to sample key frames.</param>
        /// <param name="prim">The USD prim from which to read data.</param>
        /// <param name="memberInfo">The field/property providing serialization metadata.</param>
        /// <param name="usdNamespace">The optional USD namespace at which values live.</param>
        /// <param name="srcObject">The source object name, used when remapping names.</param>
        /// <returns>True on success.</returns>
        /// <remarks>
        /// Note that "success" in the return value does not indicate data was read, rather it
        /// indicates that no unexpected states were encountered. E.g. calling ReadAttr on a field
        /// with no value stored in USD will not return false, since that is not considered a failure
        /// state.
        /// </remarks>
        bool ReadAttr(string attrName, Type csType, ref object csValue, pxr.UsdTimeCode usdTime,
                      pxr.UsdPrim prim, MemberInfo memberInfo,
                      string usdNamespace, string srcObject = null)
        {
            bool   isPrimvar = Reflect.IsPrimvar(memberInfo);
            string ns        = IntrinsicTypeConverter.JoinNamespace(usdNamespace,
                                                                    Reflect.GetNamespace(memberInfo));

            // If holding a dictionary, immediately recurse and write keys as attributes.
            if (csType == typeof(Dictionary <string, object>))
            {
                string sourceMember;

                if (isPrimvar)
                {
                    ns           = "primvars";
                    sourceMember = attrName;
                }
                else
                {
                    ns           = IntrinsicTypeConverter.JoinNamespace(ns, attrName);
                    sourceMember = null;
                }

                var dict = csValue as Dictionary <string, object>;

                foreach (var prop in prim.GetAuthoredPropertiesInNamespace(ns))
                {
                    object value = null;
                    if (!string.IsNullOrEmpty(sourceMember))
                    {
                        pxr.VtValue valSrcMember = prop.GetCustomDataByKey(sm_tokenCache["sourceMember"]);
                        if (valSrcMember.IsEmpty() || sourceMember != (string)valSrcMember)
                        {
                            continue;
                        }
                    }
                    if (isPrimvar)
                    {
                        // The recursive call will also discover that this is a primvar.
                        ns = "";
                    }
                    if (ReadAttr(prop.GetBaseName(), typeof(Object), ref value, usdTime, prim, memberInfo, ns, srcObject))
                    {
                        if (value != null)
                        {
                            dict.Add(prop.GetBaseName(), value);
                        }
                    }
                }
                return(true);
            }

            pxr.TfToken sdfAttrName = sm_tokenCache[ns, attrName];

            if (csType == typeof(Relationship))
            {
                //
                // Read Relationship
                //

                pxr.UsdRelationship rel = null;
                lock (m_stageLock) {
                    rel = prim.GetRelationship(sm_tokenCache[sdfAttrName]);
                }

                var relationship = new Relationship();
                csValue = relationship;

                if (rel == null || !rel.IsValid())
                {
                    return(true);
                }

                pxr.SdfPathVector paths  = rel.GetTargets();
                string[]          result = new string[paths.Count];
                for (int i = 0; i < paths.Count; i++)
                {
                    result[i] = paths[i].ToString();
                }

                relationship.targetPaths = result;
                return(true);
            }

            UsdTypeBinding binding;

            Connectable conn = null;

            if (csValue != null &&
                csType.IsGenericType &&
                csType.GetGenericTypeDefinition() == typeof(Connectable <>))
            {
                conn = csValue as Connectable;
                if (conn != null)
                {
                    csValue = conn.GetValue();
                    csType  = conn.GetValueType();
                }
            }

            if (!sm_bindings.GetBinding(csType, out binding) &&
                !csType.IsEnum &&
                csType != typeof(object))
            {
                if (string.IsNullOrEmpty(ns))
                {
                    return(false);
                }

                var sample = csValue as SampleBase;
                if (sample == null)
                {
                    throw new Exception("Could not deserialize: Prim: " + prim.GetPath() + " namespace: " + ns);
                }
                Deserialize((SampleBase)csValue, prim, usdTime, usdNamespace: ns);
                return(true);
            }

            if (conn != null)
            {
                csValue = conn;
            }

            pxr.SdfVariability variability = Reflect.GetVariability(memberInfo);

            // Note that namespaced primvars are not supported, so "primvars" will replace the incoming
            // namespace. This will happen if a nested/namespaced object has a member declared as a
            // primvar.
            if (isPrimvar)
            {
                System.Diagnostics.Debug.Assert(string.IsNullOrEmpty(ns));
                sdfAttrName = sm_tokenCache["primvars", attrName];
            }

            pxr.UsdTimeCode time = variability == pxr.SdfVariability.SdfVariabilityUniform
                                          ? kDefaultUsdTime
                                          : usdTime;

            //using (var valWrapper = new PooledHandle<pxr.VtValue>(ArrayAllocator)) {
            pxr.VtValue vtValue = (pxr.VtValue)ArrayAllocator.MallocHandle(typeof(pxr.VtValue));
            try {
                if (conn != null)
                {
                    var sources = new pxr.SdfPathVector();
                    if (prim.GetAttribute(sdfAttrName).GetConnections(sources))
                    {
                        if (sources.Count > 0)
                        {
                            conn.SetConnectedPath(sources[0].ToString());
                        }
                    }
                }

                if (Reflect.IsCustomData(memberInfo))
                {
                    vtValue = prim.GetCustomDataByKey(sdfAttrName);
                }
                else if (Reflect.IsFusedDisplayColor(memberInfo))
                {
                    vtValue = pxr.UsdCs.GetFusedDisplayColor(prim, time);
                }
                else if (Reflect.IsFusedTransform(memberInfo))
                {
                    vtValue = pxr.UsdCs.GetFusedTransform(prim, time);
                }
                else
                {
                    if (!prim.GetAttributeValue(sdfAttrName, vtValue, time))
                    {
                        // Object has no value, still considered success.
                        return(true);
                    }
                }

                if (vtValue.IsEmpty())
                {
                    // Object has no value, still considered success.
                    return(true);
                }

                if (csType == typeof(object))
                {
                    // Blind object serialization needs special handling, since we won't know the C# type a priori.
                    // Instead, do a reverse lookup on the SdfTypeName and let USD dictate the C# type.
                    pxr.UsdAttribute attr = prim.GetAttribute(sdfAttrName);
                    if (attr != null && attr.IsValid())
                    {
                        // TODO: Assuming the reverse lookup is successful for the binding, the caller may be
                        // surprised by the result, since the USD <-> C# types are not 1-to-1. For example,
                        // a List<Vector2> may have been serialized, but Vector2[] may be read.
                        if (!sm_bindings.GetReverseBinding(attr.GetTypeName(), out binding))
                        {
                            if (string.IsNullOrEmpty(ns))
                            {
                                return(false);
                            }

                            // TODO: readback nested object declared as object -- maybe just disable this?
                            //Deserialize(ref csValue, prim, usdTime, usdNamespace: ns);
                            //return true;
                            return(false);
                        }
                    }
                    else
                    {
                        // TODO: Allow reading metadata declared as object in C#
                        return(false);
                    }
                }

                csValue = binding.toCsObject(vtValue);
                if (conn != null && csValue != null)
                {
                    conn.SetValue(csValue);
                    csValue = conn;
                }
            } finally {
                // Would prefer RAII handle, but introduces garbage.
                ArrayAllocator.FreeHandle(vtValue);
            }

            // Need to deal with this
            //if (srcObject != null) {
            //  attr.SetCustomDataByKey(m_tokenCache["sourceMember"], srcObject);
            //}
            return(true);
        }