// // time: Tue Dec 2 18:17:09 2003 // // version: 3.2.0 (format), 4.3.0 (DX) // // // Begin MDF // MODULE RTFtoXYZ // CATEGORY Macros // DESCRIPTION transform from spherical coordinate to Cartesian coordinate // INPUT input_1; field; (no default); // OUTPUT output_1; field; // End MDF // workspace: width = 500, height = 400 // layout: snap = 0, width = 50, height = 50, align = NN // macro RTFtoXYZ( input_1 ) -> ( output_1 ) { // // node Input[1]: x = 0, y = 0, inputs = 0, label = Input // parameter: position = 1, name = 'input_1', value = ' ', descriptive = 0, description = ' ', required = 0, visible = 1 // RTFtoXYZ_Input_1_out_1 = input_1; // // node Mark[11]: x = 10, y = 80, inputs = 2, label = Mark // input[2]: defaulting = 0, visible = 1, type = 32, value = "positions" // RTFtoXYZ_Mark_11_out_1[cache: 0] = Mark( RTFtoXYZ_Input_1_out_1, "positions" ) [instance: 11, cache: 1]; // // node Compute[70]: x = 0, y = 148, inputs = 2, label = RTF to XYZ // input[1]: defaulting = 0, visible = 0, type = 32, value = "[$0.z*sin($0.x)*cos($0.y), $0.z*sin($0.x)*sin($0.y), $0.z*cos($0.x)]" // expression: value = [positions.z*sin(positions.x)*cos(positions.y), positions.z*sin(positions.x)*sin(positions.y), positions.z*cos(positions.x)] // name[2]: value = positions // RTFtoXYZ_Compute_70_out_1[cache: 0] = Compute( "[$0.z*sin($0.x)*cos($0.y), $0.z*sin($0.x)*sin($0.y), $0.z*cos($0.x)]", RTFtoXYZ_Mark_11_out_1 ) [instance: 70, cache: 1]; // // node Unmark[11]: x = 19, y = 220, inputs = 2, label = Unmark // RTFtoXYZ_Unmark_11_out_1 = Unmark( RTFtoXYZ_Compute_70_out_1, NULL ) [instance: 11, cache: 1]; // // node Output[1]: x = 0, y = 300, inputs = 1, label = Output // parameter: position = 1, name = 'output_1', value = ' ', descriptive = 0, description = ' ', required = 0, visible = 1 // output_1 = RTFtoXYZ_Unmark_11_out_1; // network: end of macro body } RTFtoXYZ_Input_1_out_1 = NULL; RTFtoXYZ_Mark_11_out_1 = NULL; RTFtoXYZ_Compute_70_out_1 = NULL; RTFtoXYZ_Unmark_11_out_1 = NULL;