public void SecondaryAnimationGroupTestErrorColliderGroups() { var model = new glTF_VRM_SecondaryAnimationGroup() { colliderGroups = new int[] { -1 } }; }
public void SecondaryAnimationGroupTestErrorBones() { var model = new glTF_VRM_SecondaryAnimationGroup() { bones = new int[] { -1 } }; }
public static string ToJson(this glTF_VRM_SecondaryAnimationGroup self) { var f = new JsonFormatter(); VRMSerializer.Serialize_vrm_secondaryAnimation_boneGroups_ITEM(f, self); return(f.ToString()); }
public void SecondaryAnimationGroupTest() { var model = new glTF_VRM_SecondaryAnimationGroup(); var json = model.ToJson(); Assert.AreEqual(@"{""stiffiness"":0,""gravityPower"":0,""gravityDir"":{""x"":0,""y"":0,""z"":0},""dragForce"":0,""center"":0,""hitRadius"":0,""bones"":[],""colliderGroups"":[]}", json); Debug.Log(json); }
public void SecondaryAnimationGroupTestErrorColliderGroups() { var model = new glTF_VRM_SecondaryAnimationGroup() { colliderGroups = new int[] { -1 } }; var c = new JsonSchemaValidationContext("") { EnableDiagnosisForNotRequiredFields = true, }; var ex = Assert.Throws <JsonSchemaValidationException>( () => JsonSchema.FromType <glTF_VRM_SecondaryAnimationGroup>().Serialize(model, c) ); Assert.AreEqual("[colliderGroups.String] minimum: ! -1>=0", ex.Message); }
public void SecondaryAnimationGroupTest() { var model = new glTF_VRM_SecondaryAnimationGroup(); var json = model.ToJson(); Assert.AreEqual(@"{""stiffiness"":0,""gravityPower"":0,""gravityDir"":{""x"":0,""y"":0,""z"":0},""dragForce"":0,""center"":0,""hitRadius"":0,""bones"":[],""colliderGroups"":[]}", json); Debug.Log(json); var c = new JsonSchemaValidationContext("") { EnableDiagnosisForNotRequiredFields = true, }; var json2 = JsonSchema.FromType <glTF_VRM_SecondaryAnimationGroup>().Serialize(model, c); // NOTE: New serializer outputs values which will not be used... Assert.AreEqual(json, json2); }
public static void Serialize_vrm_secondaryAnimation_boneGroups_ITEM(JsonFormatter f, glTF_VRM_SecondaryAnimationGroup value) { f.BeginMap(); if (!string.IsNullOrEmpty(value.comment)) { f.Key("comment"); f.Value(value.comment); } if (true) { f.Key("stiffiness"); f.Value(value.stiffiness); } if (true) { f.Key("gravityPower"); f.Value(value.gravityPower); } if (value.gravityDir != null) { f.Key("gravityDir"); Serialize_vrm_secondaryAnimation_boneGroups__gravityDir(f, value.gravityDir); } if (true) { f.Key("dragForce"); f.Value(value.dragForce); } if (true) { f.Key("center"); f.Value(value.center); } if (true) { f.Key("hitRadius"); f.Value(value.hitRadius); } if (value.bones != null && value.bones.Length >= 0) { f.Key("bones"); Serialize_vrm_secondaryAnimation_boneGroups__bones(f, value.bones); } if (value.colliderGroups != null && value.colliderGroups.Length >= 0) { f.Key("colliderGroups"); Serialize_vrm_secondaryAnimation_boneGroups__colliderGroups(f, value.colliderGroups); } f.EndMap(); }
public static glTF_VRM_SecondaryAnimationGroup Deserialize_vrm_secondaryAnimation_boneGroups_LIST(ListTreeNode <JsonValue> parsed) { var value = new glTF_VRM_SecondaryAnimationGroup(); foreach (var kv in parsed.ObjectItems()) { var key = kv.Key.GetString(); if (key == "comment") { value.comment = kv.Value.GetString(); continue; } if (key == "stiffiness") { value.stiffiness = kv.Value.GetSingle(); continue; } if (key == "gravityPower") { value.gravityPower = kv.Value.GetSingle(); continue; } if (key == "gravityDir") { value.gravityDir = Deserialize_vrm_secondaryAnimation_boneGroups__gravityDir(kv.Value); continue; } if (key == "dragForce") { value.dragForce = kv.Value.GetSingle(); continue; } if (key == "center") { value.center = kv.Value.GetInt32(); continue; } if (key == "hitRadius") { value.hitRadius = kv.Value.GetSingle(); continue; } if (key == "bones") { value.bones = Deserialize_vrm_secondaryAnimation_boneGroups__bones(kv.Value); continue; } if (key == "colliderGroups") { value.colliderGroups = Deserialize_vrm_secondaryAnimation_boneGroups__colliderGroups(kv.Value); continue; } } return(value); }