import trsfile from trsfile.parametermap import TraceSetParameterMap import trsfile.traceparameter as tp from trsfile.parametermap import TraceParameterMap, TraceParameterDefinitionMap from trsfile.traceparameter import ByteArrayParameter, ParameterType, TraceParameterDefinition import matplotlib.pyplot as plt import sys import numpy as np #import random, os import math parameters = TraceSetParameterMap() print(parameters) zoomS=0 zoomE=278837 start = 0 number = 1 displayLabels = 1 window = 100 overlap = 0.99 ABS=True step = 1# window - int(window * overlap) with trsfile.open(sys.argv[1], 'r') as traces: print(traces.get_headers()) # Show all headers for header, value in traces.get_headers().items(): print(header, '=', value) scale_X = traces.get_headers().get(trsfile.Header.SCALE_X) scale_Y = traces.get_headers().get(trsfile.Header.SCALE_Y) lengthData = traces.get_headers().get(trsfile.Header.LENGTH_DATA) print(lengthData) if ABS: nameTrace = sys.argv[1][0:-4]+'+AWR('+str(window)+','+str(overlap)+').trs' else: nameTrace = sys.argv[1][0:-4]+'+WR('+str(window)+','+str(overlap)+').trs' with trsfile.trs_open( nameTrace, # File name of the trace set 'w', # Mode: r, w, x, a (default to x) # Zero or more options can be passed (supported options depend on the storage engine) engine = 'TrsEngine', # Optional: how the trace set is stored (defaults to TrsEngine) headers = { # Optional: headers (see Header class) trsfile.Header.TRS_VERSION: 2, trsfile.Header.SCALE_X: scale_X, trsfile.Header.SCALE_Y: scale_Y, trsfile.Header.DESCRIPTION: 'Window Resampled Traces', #trsfile.Header.TRACE_PARAMETER_DEFINITIONS: TraceParameterDefinitionMap( # {'LEGACY_DATA': TraceParameterDefinition(ParameterType.BYTE, 16, 0)}) }, padding_mode = trsfile.TracePadding.AUTO,# Optional: padding mode (defaults to TracePadding.AUTO) live_update = True # Optional: updates the TRS file for live preview (small performance hit) # 0 (False): Disabled (default) # 1 (True) : TRS file updated after every trace # N : TRS file is updated after N traces ) as wrtraces: for i, trace in enumerate(traces[(start):(start+number)]): print("here") trace_array = trace.samples[zoomS:zoomE] #print(len(trace_array)) data = trace.parameters['LEGACY_DATA'].value print(len(data)) length = math.ceil((zoomE - zoomS) / step) print(length) processed = np.zeros(length,np.float) for j in range(length): start = j*step if ABS: chunk = np.abs(trace_array[start:(start+window)]) else: chunk = trace_array[start:(start+window)] processed[j]= np.sum(chunk)/len(chunk) #print(len(chunk)) # Adding one Trace wrtraces.append( trsfile.Trace( trsfile.SampleCoding.FLOAT, #trace_array, processed, TraceParameterMap({'INPUT': ByteArrayParameter(data)}) ) )