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1 #! /usr/bin/env python |
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2 |
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3 """The Tab Nanny despises ambiguous indentation. She knows no mercy. |
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4 |
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5 tabnanny -- Detection of ambiguous indentation |
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6 |
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7 For the time being this module is intended to be called as a script. |
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8 However it is possible to import it into an IDE and use the function |
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9 check() described below. |
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10 |
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11 Warning: The API provided by this module is likely to change in future |
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12 releases; such changes may not be backward compatible. |
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13 """ |
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14 |
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15 # Released to the public domain, by Tim Peters, 15 April 1998. |
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16 |
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17 # XXX Note: this is now a standard library module. |
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18 # XXX The API needs to undergo changes however; the current code is too |
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19 # XXX script-like. This will be addressed later. |
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20 |
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21 __version__ = "6" |
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22 |
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23 import os |
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24 import sys |
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25 import getopt |
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26 import tokenize |
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27 if not hasattr(tokenize, 'NL'): |
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28 raise ValueError("tokenize.NL doesn't exist -- tokenize module too old") |
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29 |
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30 __all__ = ["check", "NannyNag", "process_tokens"] |
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31 |
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32 verbose = 0 |
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33 filename_only = 0 |
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34 |
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35 def errprint(*args): |
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36 sep = "" |
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37 for arg in args: |
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38 sys.stderr.write(sep + str(arg)) |
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39 sep = " " |
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40 sys.stderr.write("\n") |
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41 |
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42 def main(): |
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43 global verbose, filename_only |
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44 try: |
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45 opts, args = getopt.getopt(sys.argv[1:], "qv") |
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46 except getopt.error, msg: |
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47 errprint(msg) |
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48 return |
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49 for o, a in opts: |
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50 if o == '-q': |
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51 filename_only = filename_only + 1 |
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52 if o == '-v': |
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53 verbose = verbose + 1 |
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54 if not args: |
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55 errprint("Usage:", sys.argv[0], "[-v] file_or_directory ...") |
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56 return |
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57 for arg in args: |
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58 check(arg) |
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59 |
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60 class NannyNag(Exception): |
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61 """ |
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62 Raised by tokeneater() if detecting an ambiguous indent. |
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63 Captured and handled in check(). |
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64 """ |
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65 def __init__(self, lineno, msg, line): |
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66 self.lineno, self.msg, self.line = lineno, msg, line |
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67 def get_lineno(self): |
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68 return self.lineno |
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69 def get_msg(self): |
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70 return self.msg |
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71 def get_line(self): |
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72 return self.line |
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73 |
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74 def check(file): |
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75 """check(file_or_dir) |
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76 |
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77 If file_or_dir is a directory and not a symbolic link, then recursively |
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78 descend the directory tree named by file_or_dir, checking all .py files |
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79 along the way. If file_or_dir is an ordinary Python source file, it is |
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80 checked for whitespace related problems. The diagnostic messages are |
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81 written to standard output using the print statement. |
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82 """ |
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83 |
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84 if os.path.isdir(file) and not os.path.islink(file): |
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85 if verbose: |
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86 print "%r: listing directory" % (file,) |
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87 names = os.listdir(file) |
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88 for name in names: |
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89 fullname = os.path.join(file, name) |
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90 if (os.path.isdir(fullname) and |
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91 not os.path.islink(fullname) or |
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92 os.path.normcase(name[-3:]) == ".py"): |
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93 check(fullname) |
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94 return |
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95 |
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96 try: |
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97 f = open(file) |
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98 except IOError, msg: |
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99 errprint("%r: I/O Error: %s" % (file, msg)) |
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100 return |
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101 |
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102 if verbose > 1: |
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103 print "checking %r ..." % file |
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104 |
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105 try: |
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106 process_tokens(tokenize.generate_tokens(f.readline)) |
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107 |
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108 except tokenize.TokenError, msg: |
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109 errprint("%r: Token Error: %s" % (file, msg)) |
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110 return |
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111 |
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112 except IndentationError, msg: |
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113 errprint("%r: Indentation Error: %s" % (file, msg)) |
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114 return |
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115 |
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116 except NannyNag, nag: |
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117 badline = nag.get_lineno() |
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118 line = nag.get_line() |
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119 if verbose: |
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120 print "%r: *** Line %d: trouble in tab city! ***" % (file, badline) |
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121 print "offending line: %r" % (line,) |
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122 print nag.get_msg() |
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123 else: |
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124 if ' ' in file: file = '"' + file + '"' |
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125 if filename_only: print file |
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126 else: print file, badline, repr(line) |
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127 return |
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128 |
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129 if verbose: |
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130 print "%r: Clean bill of health." % (file,) |
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131 |
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132 class Whitespace: |
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133 # the characters used for space and tab |
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134 S, T = ' \t' |
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135 |
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136 # members: |
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137 # raw |
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138 # the original string |
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139 # n |
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140 # the number of leading whitespace characters in raw |
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141 # nt |
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142 # the number of tabs in raw[:n] |
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143 # norm |
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144 # the normal form as a pair (count, trailing), where: |
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145 # count |
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146 # a tuple such that raw[:n] contains count[i] |
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147 # instances of S * i + T |
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148 # trailing |
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149 # the number of trailing spaces in raw[:n] |
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150 # It's A Theorem that m.indent_level(t) == |
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151 # n.indent_level(t) for all t >= 1 iff m.norm == n.norm. |
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152 # is_simple |
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153 # true iff raw[:n] is of the form (T*)(S*) |
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154 |
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155 def __init__(self, ws): |
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156 self.raw = ws |
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157 S, T = Whitespace.S, Whitespace.T |
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158 count = [] |
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159 b = n = nt = 0 |
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160 for ch in self.raw: |
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161 if ch == S: |
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162 n = n + 1 |
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163 b = b + 1 |
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164 elif ch == T: |
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165 n = n + 1 |
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166 nt = nt + 1 |
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167 if b >= len(count): |
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168 count = count + [0] * (b - len(count) + 1) |
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169 count[b] = count[b] + 1 |
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170 b = 0 |
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171 else: |
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172 break |
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173 self.n = n |
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174 self.nt = nt |
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175 self.norm = tuple(count), b |
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176 self.is_simple = len(count) <= 1 |
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177 |
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178 # return length of longest contiguous run of spaces (whether or not |
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179 # preceding a tab) |
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180 def longest_run_of_spaces(self): |
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181 count, trailing = self.norm |
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182 return max(len(count)-1, trailing) |
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183 |
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184 def indent_level(self, tabsize): |
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185 # count, il = self.norm |
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186 # for i in range(len(count)): |
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187 # if count[i]: |
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188 # il = il + (i/tabsize + 1)*tabsize * count[i] |
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189 # return il |
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190 |
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191 # quicker: |
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192 # il = trailing + sum (i/ts + 1)*ts*count[i] = |
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193 # trailing + ts * sum (i/ts + 1)*count[i] = |
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194 # trailing + ts * sum i/ts*count[i] + count[i] = |
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195 # trailing + ts * [(sum i/ts*count[i]) + (sum count[i])] = |
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196 # trailing + ts * [(sum i/ts*count[i]) + num_tabs] |
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197 # and note that i/ts*count[i] is 0 when i < ts |
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198 |
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199 count, trailing = self.norm |
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200 il = 0 |
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201 for i in range(tabsize, len(count)): |
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202 il = il + i/tabsize * count[i] |
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203 return trailing + tabsize * (il + self.nt) |
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204 |
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205 # return true iff self.indent_level(t) == other.indent_level(t) |
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206 # for all t >= 1 |
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207 def equal(self, other): |
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208 return self.norm == other.norm |
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209 |
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210 # return a list of tuples (ts, i1, i2) such that |
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211 # i1 == self.indent_level(ts) != other.indent_level(ts) == i2. |
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212 # Intended to be used after not self.equal(other) is known, in which |
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213 # case it will return at least one witnessing tab size. |
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214 def not_equal_witness(self, other): |
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215 n = max(self.longest_run_of_spaces(), |
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216 other.longest_run_of_spaces()) + 1 |
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217 a = [] |
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218 for ts in range(1, n+1): |
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219 if self.indent_level(ts) != other.indent_level(ts): |
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220 a.append( (ts, |
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221 self.indent_level(ts), |
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222 other.indent_level(ts)) ) |
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223 return a |
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224 |
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225 # Return True iff self.indent_level(t) < other.indent_level(t) |
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226 # for all t >= 1. |
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227 # The algorithm is due to Vincent Broman. |
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228 # Easy to prove it's correct. |
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229 # XXXpost that. |
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230 # Trivial to prove n is sharp (consider T vs ST). |
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231 # Unknown whether there's a faster general way. I suspected so at |
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232 # first, but no longer. |
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233 # For the special (but common!) case where M and N are both of the |
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234 # form (T*)(S*), M.less(N) iff M.len() < N.len() and |
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235 # M.num_tabs() <= N.num_tabs(). Proof is easy but kinda long-winded. |
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236 # XXXwrite that up. |
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237 # Note that M is of the form (T*)(S*) iff len(M.norm[0]) <= 1. |
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238 def less(self, other): |
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239 if self.n >= other.n: |
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240 return False |
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241 if self.is_simple and other.is_simple: |
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242 return self.nt <= other.nt |
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243 n = max(self.longest_run_of_spaces(), |
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244 other.longest_run_of_spaces()) + 1 |
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245 # the self.n >= other.n test already did it for ts=1 |
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246 for ts in range(2, n+1): |
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247 if self.indent_level(ts) >= other.indent_level(ts): |
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248 return False |
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249 return True |
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250 |
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251 # return a list of tuples (ts, i1, i2) such that |
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252 # i1 == self.indent_level(ts) >= other.indent_level(ts) == i2. |
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253 # Intended to be used after not self.less(other) is known, in which |
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254 # case it will return at least one witnessing tab size. |
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255 def not_less_witness(self, other): |
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256 n = max(self.longest_run_of_spaces(), |
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257 other.longest_run_of_spaces()) + 1 |
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258 a = [] |
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259 for ts in range(1, n+1): |
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260 if self.indent_level(ts) >= other.indent_level(ts): |
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261 a.append( (ts, |
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262 self.indent_level(ts), |
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263 other.indent_level(ts)) ) |
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264 return a |
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265 |
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266 def format_witnesses(w): |
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267 firsts = map(lambda tup: str(tup[0]), w) |
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268 prefix = "at tab size" |
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269 if len(w) > 1: |
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270 prefix = prefix + "s" |
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271 return prefix + " " + ', '.join(firsts) |
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272 |
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273 def process_tokens(tokens): |
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274 INDENT = tokenize.INDENT |
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275 DEDENT = tokenize.DEDENT |
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276 NEWLINE = tokenize.NEWLINE |
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277 JUNK = tokenize.COMMENT, tokenize.NL |
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278 indents = [Whitespace("")] |
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279 check_equal = 0 |
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280 |
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281 for (type, token, start, end, line) in tokens: |
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282 if type == NEWLINE: |
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283 # a program statement, or ENDMARKER, will eventually follow, |
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284 # after some (possibly empty) run of tokens of the form |
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285 # (NL | COMMENT)* (INDENT | DEDENT+)? |
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286 # If an INDENT appears, setting check_equal is wrong, and will |
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287 # be undone when we see the INDENT. |
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288 check_equal = 1 |
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289 |
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290 elif type == INDENT: |
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291 check_equal = 0 |
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292 thisguy = Whitespace(token) |
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293 if not indents[-1].less(thisguy): |
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294 witness = indents[-1].not_less_witness(thisguy) |
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295 msg = "indent not greater e.g. " + format_witnesses(witness) |
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296 raise NannyNag(start[0], msg, line) |
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297 indents.append(thisguy) |
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298 |
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299 elif type == DEDENT: |
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300 # there's nothing we need to check here! what's important is |
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301 # that when the run of DEDENTs ends, the indentation of the |
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302 # program statement (or ENDMARKER) that triggered the run is |
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303 # equal to what's left at the top of the indents stack |
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304 |
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305 # Ouch! This assert triggers if the last line of the source |
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306 # is indented *and* lacks a newline -- then DEDENTs pop out |
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307 # of thin air. |
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308 # assert check_equal # else no earlier NEWLINE, or an earlier INDENT |
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309 check_equal = 1 |
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310 |
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311 del indents[-1] |
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312 |
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313 elif check_equal and type not in JUNK: |
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314 # this is the first "real token" following a NEWLINE, so it |
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315 # must be the first token of the next program statement, or an |
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316 # ENDMARKER; the "line" argument exposes the leading whitespace |
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317 # for this statement; in the case of ENDMARKER, line is an empty |
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318 # string, so will properly match the empty string with which the |
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319 # "indents" stack was seeded |
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320 check_equal = 0 |
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321 thisguy = Whitespace(line) |
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322 if not indents[-1].equal(thisguy): |
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323 witness = indents[-1].not_equal_witness(thisguy) |
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324 msg = "indent not equal e.g. " + format_witnesses(witness) |
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325 raise NannyNag(start[0], msg, line) |
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326 |
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327 |
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328 if __name__ == '__main__': |
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329 main() |