public void Add(aiNodeAnim x) { AssimpPINVOKE.aiNodeAnimVector_Add(swigCPtr, aiNodeAnim.getCPtr(x)); }
public void Reverse() { AssimpPINVOKE.aiVertexWeightVector_Reverse__SWIG_0(swigCPtr); }
public int LastIndexOf(aiVertexWeight value) { int ret = AssimpPINVOKE.aiVertexWeightVector_LastIndexOf(swigCPtr, aiVertexWeight.getCPtr(value)); return(ret); }
private uint size() { uint ret = AssimpPINVOKE.aiVertexWeightVector_size(swigCPtr); return(ret); }
private void reserve(uint n) { AssimpPINVOKE.aiVertexWeightVector_reserve(swigCPtr, n); }
public int LastIndexOf(aiMaterial value) { int ret = AssimpPINVOKE.aiMaterialVector_LastIndexOf(swigCPtr, aiMaterial.getCPtr(value)); return(ret); }
public void Clear() { AssimpPINVOKE.aiVertexWeightVector_Clear(swigCPtr); }
public bool Contains(aiNodeAnim value) { bool ret = AssimpPINVOKE.aiNodeAnimVector_Contains(swigCPtr, aiNodeAnim.getCPtr(value)); return(ret); }
public int LastIndexOf(aiNodeAnim value) { int ret = AssimpPINVOKE.aiNodeAnimVector_LastIndexOf(swigCPtr, aiNodeAnim.getCPtr(value)); return(ret); }
public aiNodeAnimVector() : this(AssimpPINVOKE.new_aiNodeAnimVector__SWIG_0(), true) { }
public void Reverse() { AssimpPINVOKE.aiNodeAnimVector_Reverse__SWIG_0(swigCPtr); }
private void reserve(uint n) { AssimpPINVOKE.aiNodeAnimVector_reserve(swigCPtr, n); }
private uint capacity() { uint ret = AssimpPINVOKE.aiNodeAnimVector_capacity(swigCPtr); return(ret); }
private uint size() { uint ret = AssimpPINVOKE.aiNodeAnimVector_size(swigCPtr); return(ret); }
public void Reverse() { AssimpPINVOKE.aiMaterialVector_Reverse__SWIG_0(swigCPtr); }
public bool Remove(aiNodeAnim value) { bool ret = AssimpPINVOKE.aiNodeAnimVector_Remove(swigCPtr, aiNodeAnim.getCPtr(value)); return(ret); }
public bool Contains(aiMaterial value) { bool ret = AssimpPINVOKE.aiMaterialVector_Contains(swigCPtr, aiMaterial.getCPtr(value)); return(ret); }
public void Clear() { AssimpPINVOKE.aiMaterialVector_Clear(swigCPtr); }
public bool Remove(aiMaterial value) { bool ret = AssimpPINVOKE.aiMaterialVector_Remove(swigCPtr, aiMaterial.getCPtr(value)); return(ret); }
public void Add(aiMaterial x) { AssimpPINVOKE.aiMaterialVector_Add(swigCPtr, aiMaterial.getCPtr(x)); }
public void Add(aiVertexWeight x) { AssimpPINVOKE.aiVertexWeightVector_Add(swigCPtr, aiVertexWeight.getCPtr(x)); }
private uint size() { uint ret = AssimpPINVOKE.aiMaterialVector_size(swigCPtr); return(ret); }
private uint capacity() { uint ret = AssimpPINVOKE.aiVertexWeightVector_capacity(swigCPtr); return(ret); }
private uint capacity() { uint ret = AssimpPINVOKE.aiMaterialVector_capacity(swigCPtr); return(ret); }
public aiVertexWeightVector() : this(AssimpPINVOKE.new_aiVertexWeightVector__SWIG_0(), true) { }
private void reserve(uint n) { AssimpPINVOKE.aiMaterialVector_reserve(swigCPtr, n); }
public bool Contains(aiVertexWeight value) { bool ret = AssimpPINVOKE.aiVertexWeightVector_Contains(swigCPtr, aiVertexWeight.getCPtr(value)); return(ret); }
public aiMaterialVector() : this(AssimpPINVOKE.new_aiMaterialVector__SWIG_0(), true) { }
public bool Remove(aiVertexWeight value) { bool ret = AssimpPINVOKE.aiVertexWeightVector_Remove(swigCPtr, aiVertexWeight.getCPtr(value)); return(ret); }
public void Clear() { AssimpPINVOKE.aiNodeAnimVector_Clear(swigCPtr); }