void GeomRenderer::sendTexCoord(GLuint texCoordIndex) { assert(texCoordData.size >= 1 && texCoordData.size <= 4); switch(texCoordData.type) { case GL_SHORT: if (texCoordData.size == 1) glTexCoord1sv((const GLshort*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 2) glTexCoord2sv((const GLshort*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 3) glTexCoord3sv((const GLshort*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 4) glTexCoord4sv((const GLshort*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); break; case GL_INT: if (texCoordData.size == 1) glTexCoord1iv((const GLint*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 2) glTexCoord2iv((const GLint*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 3) glTexCoord3iv((const GLint*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 4) glTexCoord4iv((const GLint*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); break; case GL_FLOAT: if (texCoordData.size == 1) glTexCoord1fv((const GLfloat*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 2) glTexCoord2fv((const GLfloat*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 3) glTexCoord3fv((const GLfloat*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 4) glTexCoord4fv((const GLfloat*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); break; case GL_DOUBLE: if (texCoordData.size == 1) glTexCoord1dv((const GLdouble*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 2) glTexCoord2dv((const GLdouble*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 3) glTexCoord3dv((const GLdouble*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); if (texCoordData.size == 4) glTexCoord4dv((const GLdouble*)((const char*)texCoordData.pointer + texCoordIndex*texCoordData.stride)); break; } }
void __glXDisp_TexCoord1dv(GLbyte *pc) { #ifdef __GLX_ALIGN64 if ((unsigned long)(pc) & 7) { __GLX_MEM_COPY(pc-4, pc, 8); pc -= 4; } #endif glTexCoord1dv( (GLdouble *)(pc + 0) ); }
template< > inline void glTexCoord1v< Vector3r > ( const Vector3r v ) { glTexCoord1dv((double*)&v); };
inline void glTexCoord1v( const GLdouble * v ) { glTexCoord1dv( v ); }
///////////////////////////////////////////////////////// // Render // void GEMglTexCoord1dv :: render(GemState *state) { glTexCoord1dv (v); }
M(void, glTexCoord1dv, jobject v) { glTexCoord1dv(BUFF(GLdouble, v)); }