]> git.zerfleddert.de Git - proxmark3-svn/blobdiff - client/ui.c
FIX: Much of my added extra legic code is commented away now.
[proxmark3-svn] / client / ui.c
index 9c24f17d1bdd2aa5155397dc54fb9fafcff646fc..cfaec6a510dcfaadfe4edc725a41eeddf461097c 100644 (file)
@@ -85,10 +85,14 @@ void iceIIR_Butterworth(int *data, const size_t len){
        int i,j;
        
        int * output =  (int* ) malloc(sizeof(int) * len);      
+       if ( !output ) return;
+       
+       // clear mem
        memset(output, 0x00, len);
-       float fc = 0.1125f;          // center frequency
-       size_t adjustedLen = len;
        
+       size_t adjustedLen = len;
+       float fc = 0.1125f;          // center frequency
+               
     // create very simple low-pass filter to remove images (2nd-order Butterworth)
     float complex iir_buf[3] = {0,0,0};
     float b[3] = {0.003621681514929,  0.007243363029857, 0.003621681514929};
@@ -98,7 +102,7 @@ void iceIIR_Butterworth(int *data, const size_t len){
     float complex x_prime  = 1.0f;   // save sample for estimating frequency
     float complex x;
                
-       for (i=0; i<adjustedLen; ++i) {
+       for (i = 0; i < adjustedLen; ++i) {
 
                sample = data[i];
                
@@ -118,16 +122,38 @@ void iceIIR_Butterworth(int *data, const size_t len){
         float freq = cargf(x*conjf(x_prime));
         x_prime = x;    // retain this sample for next iteration
 
-               output[i] =(freq > 0)? 10 : -10;
+               output[i] =(freq > 0) ? 127 : -127;
     } 
 
        // show data
+       //memcpy(data, output, adjustedLen);
        for (j=0; j<adjustedLen; ++j)
                data[j] = output[j];
-               
+       
        free(output);
 }
 
+void iceSimple_Filter(int *data, const size_t len, uint8_t k){
+// ref: http://www.edn.com/design/systems-design/4320010/A-simple-software-lowpass-filter-suits-embedded-system-applications
+// parameter K
+#define FILTER_SHIFT 4 
+
+       int32_t filter_reg = 0;
+       int16_t input, output;
+       int8_t shift = (k <=8 ) ? k : FILTER_SHIFT;
+
+       for (int i = 0; i < len; ++i){
+
+               input = data[i];
+               // Update filter with current sample
+               filter_reg = filter_reg - (filter_reg >> shift) + input;
+
+               // Scale output for unity gain
+               output = filter_reg >> shift;
+               data[i] = output;
+       }
+}
+
 float complex cexpf (float complex Z)
 {
   float complex  Res;
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