HG_REPOSITORIES/LPP/INSTRUMENTATION/SOLO_LFR/DEV_PLE Files · FSW-qt/bin/floatconversion.py

Integration of basic parameters functions in the flight software...

Integration of basic parameters functions in the flight software BP1 and BP2 are computed constant LSB_FIRST_TCH is defined (will be removed later) k coefficients are initialized in the init task v, e1 and e2 are read directly in buffers and put in HK packets sending functions slightly modified spectral matrices are now correctly timestamped a few changes to LFR_basic-parameters

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             floatconversion.py
        
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      def ieee(f, word=32):

          """Generate the binary string representing a floating-point value in IEEE754 code."""

          f = float(f)

          if word not in (16, 32, 64, 128):

              raise ValueError("IEEE754 is defined for 16, 32, 64 and 128 bit words.")

          exp_bin = range({16:5, 32:8, 64:11, 128:15}[word])

          frac_bin = range(word - len(exp_bin) - 1)

          # Sign.

          sign_bin = [int(f < 0)]

          f = abs(f)

          # Find exponent (adding the bias).

          bias = 2**(len(exp_bin)-1) -1

          exponent = bias

          while f >= 2:

                  exponent += 1

                  f /= 2

          while f < 1 and exponent > 0:

              exponent -= 1

              f *= 2

          if not 0 <= exponent < 2*(bias+1):

              raise ValueError("Exponent overflow: Absolute exponent must be smaller than %d." % (bias + 1))

          # Encode exponent in binary.

          for i in exp_bin[::-1]:

              exp_bin[i] = int(exponent % 2)

              exponent /= 2

          # Remove the leading 1 bit.

          f -= 1

          for i in frac_bin:

              f *= 2

              frac_bin[i] = int(f >= 1)

              f -= frac_bin[i]

          # Join the binary string components together.

          return "".join(map(str, sign_bin + exp_bin + frac_bin))

      def ieee_decode(binary):

          """Decode a binary string representing a floating-point value in IEEE754 code."""

          # Determine the word size of the binary.

          word = len(binary)

          if word not in (16, 32, 64, 128):

              raise ValueError("IEEE754 is defined for 16, 32, 64 and 128 bit words.")

          # Determine the length of the exponent.

          e = {16:5, 32:8, 64:11, 128:15}[word]

          # Turn the binary string into a bit-list.

          binary = [int(c) for c in binary]

          # Split the components.

          sign = -2 * binary[0] + 1

          exp_bin = binary[1:1+e]

          frac_bin = binary[1+e:]

          # Decode the exponent.

          bias = 2**(e-1) - 1

          exponent = -bias

          c = 1

          for i in exp_bin[::-1]:

              exponent += i * c

              c *= 2

          # Decode the fraction.

          f = float(2**exponent)

          power = f

          for i in frac_bin:

              power *= 0.5

              f += i * power

          return sign * f

      if __name__ == "__main__":

          val =  ieee(24.)

          val

          print val[:16]

          print val[0], val[1], val[2]

          val_in_int = int(val[:16], 2)

          print val_in_int

          print hex( val_in_int )

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				def ieee(f, word=32):
				"""Generate the binary string representing a floating-point value in IEEE754 code."""
				f = float(f)
				if word not in (16, 32, 64, 128):
				raise ValueError("IEEE754 is defined for 16, 32, 64 and 128 bit words.")
				exp_bin = range({16:5, 32:8, 64:11, 128:15}[word])
				frac_bin = range(word - len(exp_bin) - 1)

				# Sign.
				sign_bin = [int(f < 0)]
				f = abs(f)

				# Find exponent (adding the bias).
				bias = 2**(len(exp_bin)-1) -1
				exponent = bias
				while f >= 2:
				exponent += 1
				f /= 2
				while f < 1 and exponent > 0:
				exponent -= 1
				f *= 2
				if not 0 <= exponent < 2*(bias+1):
				raise ValueError("Exponent overflow: Absolute exponent must be smaller than %d." % (bias + 1))

				# Encode exponent in binary.
				for i in exp_bin[::-1]:
				exp_bin[i] = int(exponent % 2)
				exponent /= 2

				# Remove the leading 1 bit.
				f -= 1
				for i in frac_bin:
				f *= 2
				frac_bin[i] = int(f >= 1)
				f -= frac_bin[i]

				# Join the binary string components together.
				return "".join(map(str, sign_bin + exp_bin + frac_bin))

				def ieee_decode(binary):
				"""Decode a binary string representing a floating-point value in IEEE754 code."""

				# Determine the word size of the binary.
				word = len(binary)
				if word not in (16, 32, 64, 128):
				raise ValueError("IEEE754 is defined for 16, 32, 64 and 128 bit words.")

				# Determine the length of the exponent.
				e = {16:5, 32:8, 64:11, 128:15}[word]

				# Turn the binary string into a bit-list.
				binary = [int(c) for c in binary]

				# Split the components.
				sign = -2 * binary[0] + 1
				exp_bin = binary[1:1+e]
				frac_bin = binary[1+e:]

				# Decode the exponent.
				bias = 2**(e-1) - 1
				exponent = -bias
				c = 1
				for i in exp_bin[::-1]:
				exponent += i * c
				c *= 2

				# Decode the fraction.
				f = float(2**exponent)
				power = f
				for i in frac_bin:
				power *= 0.5
				f += i * power

				return sign * f

				if __name__ == "__main__":
				val = ieee(24.)
				val
				print val[:16]
				print val[0], val[1], val[2]
				val_in_int = int(val[:16], 2)
				print val_in_int
				print hex( val_in_int )