Example KFLOP PC Program to prompt Operator for a Rotation Angle and then create a 4 point Geocorrection Table to apply this rotation
#include "KMotionDef.h" #define TMP 10 // which spare persist to use to transfer data #include "KflopToKMotionCNCFunctions.c" // Create KMotionCNC GeoCorrection File based on simple Transformation double offsetx = 0.0; // Transform values double offsety = 0.0; double theta = 0.0; double scale = 1.0; void WriteGrid(int row, int col, FILE *f); double TransformX(double x, double y); double TransformY(double x, double y); main() { float value; // Ask Operator desired rotation angle if (!InputBox("Enter Angle in degrees",&value)) { theta = value * PI/180.0; // convert to radians // Create Simple 4 point Geo File FILE *f=fopen("C:\\Temp\\MapFile.txt","wt"); fprintf(f,"2,2\n"); // rows, cols fprintf(f,"1,1\n"); // gridx gridy fprintf(f,"-0.5,-0.5\n"); // centerX centerY WriteGrid(0, 0, f); // write the 4 transformed points WriteGrid(0, 1, f); WriteGrid(1, 0, f); WriteGrid(1, 1, f); fclose(f); DoPC(PC_COMM_RELOAD_GEOCORRECTION); // tell KMotionCNC to reload the file } } // write a transformed point to Geo File void WriteGrid(int row, int col, FILE *f) { double Centerx = 0.5; double Centery = 0.5; double x = col - Centerx; double y = row - Centery; fprintf(f,"%d,%d,%.11f,%.11f,0\n", row, col, TransformX(x, y), TransformY(x, y)); } // Desired X Transformaion double TransformX(double x, double y) { return (scale * (x * cos(theta) - y * sin(theta))) + offsetx; } // Desired Y Transformaion double TransformY(double x, double y) { return (scale * (x * sin(theta) + y * cos(theta))) + offsety; }