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- #!/usr/bin/python3
- # -*- coding: utf-8 -*-
- import struct
- import copy
- from collections import OrderedDict
- def safe_cast(val, to_type, default=None):
- try:
- return to_type(val)
- except (ValueError, TypeError):
- return default
- def listToInt(a, signed=False):
- res = 0
- for x in reversed(a):
- res = res * 256 + x
- if signed and res >= 256 ** len(a) / 2:
- res -= 256 ** len(a)
- return res
-
- def listToDouble(a):
- return struct.unpack('d', a)[0]
-
- def listToFloat(a):
- return struct.unpack('f', a)[0]
-
- def listToVector(a, double=True):
- if double:
- return struct.unpack('ddd', a)
- else:
- return struct.unpack('iii', a)
- def listToVector_Uint(a):
- return struct.unpack('iii', a)
-
- def getSettings(set, name, default=None):
- val = set.value(name)
- if val == None:
- return default
-
- return val
-
-
- class PktParser():
- def __init__(self, struct, offset=0):
- self.props = OrderedDict()
-
- for line in struct.splitlines():
- prop = self._getInfo(line)
- if prop:
- length, cb, name = prop
-
- #print("{:4d} {:2d} {}".format(offset, length, name))
-
- self.props[name] = lambda data, c=cb, o=offset, l=length: c(data[o:o+l])
- offset += length
-
- self.end = offset
- self.offset = offset
-
-
- def _getInfo(self, line):
- i = 0
- type = None
- name = None
-
- for word in line.split():
- if word == "":
- #print("(empty)")
- continue
-
- if word[:2] in ["//", "/*"]:
- #print(word)
- break
-
- if word == "struct":
- continue
-
- if i == 0: #type
- type = self._getType(word)
- if type:
- i += 1
- continue
-
- if i == 1: #name
- p = word.find(";")
- name = word[:p]
-
- if type and name:
- return type + (name,)
-
- def _getType(self, name):
-
- if name == "uint32_t":
- return (4, listToInt)
-
- if name == "int32_t":
- return (4, lambda v: listToInt(v, True))
- if name == "float":
- return (4, listToFloat)
-
- if name == "double":
- return (8, listToDouble)
-
- if name == "vector_Uint":
- return (12, listToVector_Uint)
-
- if name == "vector":
- return (24, listToVector)
-
- print("Type {} invalid".format(name))
-
- return None
-
- def parse(self, data):
-
- if len(data) < self.end:
- print("data too short {} < {}".format(len(data), self.end))
- return
-
- ret = OrderedDict()
-
- for prop in self.props.keys():
- ret[prop] = self.props[prop](data)
-
- d = {}
- for key in ret:
- if type(ret[key]) is tuple:
- d.update(dict(zip((key+"_x",key+"_y",key+"_z"), ret[key])))
- ret.update(d)
-
- return ret
-
- def keys(self):
- tmp = b'\x00' * self.end
- return self.parse(tmp).keys()
-
- def confirm(prompt=None, resp=False):
- if prompt is None:
- prompt = 'Confirm'
- if resp:
- prompt = '%s [%s]|%s: ' % (prompt, 'y', 'n')
- else:
- prompt = '%s [%s]|%s: ' % (prompt, 'n', 'y')
-
- while True:
- ans = raw_input(prompt)
- if not ans:
- return resp
- if ans not in ['y', 'Y', 'n', 'N']:
- print ('please enter y or n.')
- continue
- if ans == 'y' or ans == 'Y':
- return True
- if ans == 'n' or ans == 'N':
- return False
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