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Michael Walshde791732016-09-06 14:25:24 -05001#!/usr/bin/env python
2
3r"""
4This module provides many valuable print functions such as sprint_var,
5sprint_time, sprint_error, sprint_call_stack.
6"""
7
8import sys
9import os
10import time
11import inspect
12import re
13import grp
14import socket
15import argparse
Michael Walsh7423c012016-10-04 10:27:21 -050016import __builtin__
17import logging
Michael Walshbec416d2016-11-10 08:54:52 -060018import collections
19
Michael Walshbec416d2016-11-10 08:54:52 -060020try:
21 from robot.utils import DotDict
Michael Walsh8e6deb42017-01-27 14:22:41 -060022 from robot.utils import NormalizedDict
Michael Walshbec416d2016-11-10 08:54:52 -060023except ImportError:
Michael Walsha6723f22016-11-22 11:12:01 -060024 pass
Michael Walsh7423c012016-10-04 10:27:21 -050025
26import gen_arg as ga
Michael Walshde791732016-09-06 14:25:24 -050027
28# Setting these variables for use both inside this module and by programs
29# importing this module.
30pgm_dir_path = sys.argv[0]
31pgm_name = os.path.basename(pgm_dir_path)
Michael Walsh7423c012016-10-04 10:27:21 -050032pgm_dir_name = re.sub("/" + pgm_name, "", pgm_dir_path) + "/"
33
Michael Walshde791732016-09-06 14:25:24 -050034
35# Some functions (e.g. sprint_pgm_header) have need of a program name value
36# that looks more like a valid variable name. Therefore, we'll swap odd
37# characters like "." out for underscores.
38pgm_name_var_name = pgm_name.replace(".", "_")
39
40# Initialize global values used as defaults by print_time, print_var, etc.
41col1_indent = 0
42
43# Calculate default column width for print_var functions based on environment
44# variable settings. The objective is to make the variable values line up
45# nicely with the time stamps.
46col1_width = 29
47if 'NANOSECONDS' in os.environ:
48 NANOSECONDS = os.environ['NANOSECONDS']
49else:
50 NANOSECONDS = 0
51
52if NANOSECONDS == "1":
53 col1_width = col1_width + 7
54
55if 'SHOW_ELAPSED_TIME' in os.environ:
56 SHOW_ELAPSED_TIME = os.environ['SHOW_ELAPSED_TIME']
57else:
58 SHOW_ELAPSED_TIME = 0
59
60if SHOW_ELAPSED_TIME == "1":
61 if NANOSECONDS == "1":
62 col1_width = col1_width + 14
63 else:
64 col1_width = col1_width + 7
65
66# Initialize some time variables used in module functions.
67start_time = time.time()
68sprint_time_last_seconds = start_time
69
Michael Walsh7423c012016-10-04 10:27:21 -050070try:
71 # The user can set environment variable "GEN_PRINT_DEBUG" to get debug
72 # output from this module.
Michael Walsha6723f22016-11-22 11:12:01 -060073 gen_print_debug = int(os.environ['GEN_PRINT_DEBUG'])
Michael Walsh7423c012016-10-04 10:27:21 -050074except KeyError:
75 gen_print_debug = 0
76
Michael Walshde791732016-09-06 14:25:24 -050077
78###############################################################################
79def sprint_func_name(stack_frame_ix=None):
80
81 r"""
82 Return the function name associated with the indicated stack frame.
83
84 Description of arguments:
85 stack_frame_ix The index of the stack frame whose
86 function name should be returned. If the
87 caller does not specifiy a value, this
88 function will set the value to 1 which is
89 the index of the caller's stack frame. If
90 the caller is the wrapper function
91 "print_func_name", this function will bump
92 it up by 1.
93 """
94
95 # If user specified no stack_frame_ix, we'll set it to a proper default
96 # value.
97 if stack_frame_ix is None:
98 func_name = sys._getframe().f_code.co_name
99 caller_func_name = sys._getframe(1).f_code.co_name
100 if func_name[1:] == caller_func_name:
101 stack_frame_ix = 2
102 else:
103 stack_frame_ix = 1
104
105 func_name = sys._getframe(stack_frame_ix).f_code.co_name
106
107 return func_name
108
109###############################################################################
110
111
112# get_arg_name is not a print function per se. I have included it in this
113# module because it is used by sprint_var which is found in this module.
114###############################################################################
115def get_arg_name(var,
116 arg_num=1,
117 stack_frame_ix=1):
118
119 r"""
120 Return the "name" of an argument passed to a function. This could be a
121 literal or a variable name.
122
123 Description of arguements:
124 var The variable whose name you want returned.
125 arg_num The arg number (1 through n) whose name
126 you wish to have returned. This value
127 should not exceed the number of arguments
128 allowed by the target function.
129 stack_frame_ix The stack frame index of the target
130 function. This value must be 1 or
131 greater. 1 would indicate get_arg_name's
132 stack frame. 2 would be the caller of
133 get_arg_name's stack frame, etc.
134
135 Example 1:
136
137 my_var = "mike"
138 var_name = get_arg_name(my_var)
139
140 In this example, var_name will receive the value "my_var".
141
142 Example 2:
143
144 def test1(var):
145 # Getting the var name of the first arg to this function, test1.
146 # Note, in this case, it doesn't matter what you pass as the first arg
147 # to get_arg_name since it is the caller's variable name that matters.
148 dummy = 1
149 arg_num = 1
150 stack_frame = 2
151 var_name = get_arg_name(dummy, arg_num, stack_frame)
152
153 # Mainline...
154
155 another_var = "whatever"
156 test1(another_var)
157
158 In this example, var_name will be set to "another_var".
159
160 """
161
162 # Note: I wish to avoid recursion so I refrain from calling any function
163 # that calls this function (i.e. sprint_var, valid_value, etc.).
164
Michael Walsh23e7f492017-01-10 11:34:47 -0600165 # The user can set environment variable "GET_ARG_NAME_DEBUG" to get debug
166 # output from this function.
167 local_debug = int(os.environ.get('GET_ARG_NAME_DEBUG', 0))
168 # In addition to GET_ARG_NAME_DEBUG, the user can set environment
169 # variable "GET_ARG_NAME_SHOW_SOURCE" to have this function include source
170 # code in the debug output.
171 local_debug_show_source = int(
172 os.environ.get('GET_ARG_NAME_SHOW_SOURCE', 0))
Michael Walshde791732016-09-06 14:25:24 -0500173
174 if arg_num < 1:
175 print_error("Programmer error - Variable \"arg_num\" has an invalid" +
176 " value of \"" + str(arg_num) + "\". The value must be" +
177 " an integer that is greater than 0.\n")
178 # What is the best way to handle errors? Raise exception? I'll
179 # revisit later.
180 return
181 if stack_frame_ix < 1:
182 print_error("Programmer error - Variable \"stack_frame_ix\" has an" +
183 " invalid value of \"" + str(stack_frame_ix) + "\". The" +
184 " value must be an integer that is greater than or equal" +
185 " to 1.\n")
186 return
187
188 if local_debug:
189 debug_indent = 2
Michael Walsh23e7f492017-01-10 11:34:47 -0600190 print("")
191 print_dashes(0, 120)
Michael Walshde791732016-09-06 14:25:24 -0500192 print(sprint_func_name() + "() parms:")
193 print_varx("var", var, 0, debug_indent)
194 print_varx("arg_num", arg_num, 0, debug_indent)
195 print_varx("stack_frame_ix", stack_frame_ix, 0, debug_indent)
Michael Walsh23e7f492017-01-10 11:34:47 -0600196 print("")
197 print_call_stack(debug_indent, 2)
Michael Walshde791732016-09-06 14:25:24 -0500198
Michael Walsh23e7f492017-01-10 11:34:47 -0600199 for count in range(0, 2):
200 try:
201 frame, filename, cur_line_no, function_name, lines, index = \
202 inspect.stack()[stack_frame_ix]
203 except IndexError:
204 print_error("Programmer error - The caller has asked for" +
205 " information about the stack frame at index \"" +
206 str(stack_frame_ix) + "\". However, the stack" +
207 " only contains " + str(len(inspect.stack())) +
208 " entries. Therefore the stack frame index is out" +
209 " of range.\n")
210 return
211 if filename != "<string>":
212 break
213 # filename of "<string>" may mean that the function in question was
214 # defined dynamically and therefore its code stack is inaccessible.
215 # This may happen with functions like "rqprint_var". In this case,
216 # we'll increment the stack_frame_ix and try again.
217 stack_frame_ix += 1
218 if local_debug:
219 print("Adjusted stack_frame_ix...")
220 print_varx("stack_frame_ix", stack_frame_ix, 0, debug_indent)
Michael Walshde791732016-09-06 14:25:24 -0500221
222 called_func_name = sprint_func_name(stack_frame_ix)
Michael Walsh23e7f492017-01-10 11:34:47 -0600223
224 module = inspect.getmodule(frame)
225
226 # Though I would expect inspect.getsourcelines(frame) to get all module
227 # source lines if the frame is "<module>", it doesn't do that. Therefore,
228 # for this special case, I will do inspect.getsourcelines(module).
229 if function_name == "<module>":
230 source_lines, source_line_num =\
231 inspect.getsourcelines(module)
232 line_ix = cur_line_no - source_line_num - 1
233 else:
234 source_lines, source_line_num =\
235 inspect.getsourcelines(frame)
236 line_ix = cur_line_no - source_line_num
237
238 if local_debug:
239 print("\n Variables retrieved from inspect.stack() function:")
240 print_varx("frame", frame, 0, debug_indent + 2)
241 print_varx("filename", filename, 0, debug_indent + 2)
242 print_varx("cur_line_no", cur_line_no, 0, debug_indent + 2)
243 print_varx("function_name", function_name, 0, debug_indent + 2)
244 print_varx("lines", lines, 0, debug_indent + 2)
245 print_varx("index", index, 0, debug_indent + 2)
246 print_varx("source_line_num", source_line_num, 0, debug_indent)
247 print_varx("line_ix", line_ix, 0, debug_indent)
248 if local_debug_show_source:
249 print_varx("source_lines", source_lines, 0, debug_indent)
250 print_varx("called_func_name", called_func_name, 0, debug_indent)
251
252 # Get a list of all functions defined for the module. Note that this
253 # doesn't work consistently when _run_exitfuncs is at the top of the stack
254 # (i.e. if we're running an exit function). I've coded a work-around
255 # below for this deficiency.
256 all_functions = inspect.getmembers(module, inspect.isfunction)
257
258 # Get called_func_id by searching for our function in the list of all
259 # functions.
260 called_func_id = None
261 for func_name, function in all_functions:
262 if func_name == called_func_name:
263 called_func_id = id(function)
264 break
265 # NOTE: The only time I've found that called_func_id can't be found is
266 # when we're running from an exit function.
267
268 # Look for other functions in module with matching id.
269 aliases = set([called_func_name])
270 for func_name, function in all_functions:
271 if func_name == called_func_name:
272 continue
273 func_id = id(function)
274 if func_id == called_func_id:
275 aliases.add(func_name)
276
277 # In most cases, my general purpose code above will find all aliases.
278 # However, for the odd case (i.e. running from exit function), I've added
279 # code to handle pvar, qpvar, dpvar, etc. aliases explicitly since they
280 # are defined in this module and used frequently.
281 # pvar is an alias for print_var.
282 aliases.add(re.sub("print_var", "pvar", called_func_name))
283
284 func_regex = ".*(" + '|'.join(aliases) + ")[ ]*\("
285
286 # Search backward through source lines looking for the calling function
287 # name.
288 found = False
289 for start_line_ix in range(line_ix, 0, -1):
290 # Skip comment lines.
291 if re.match(r"[ ]*#", source_lines[start_line_ix]):
292 continue
293 if re.match(func_regex, source_lines[start_line_ix]):
294 found = True
295 break
296 if not found:
297 print_error("Programmer error - Could not find the source line with" +
298 " a reference to function \"" + called_func_name + "\".\n")
299 return
300
301 # Search forward through the source lines looking for a line with the
302 # same indentation as the start time. The end of our composite line
303 # should be the line preceding that line.
304 start_indent = len(source_lines[start_line_ix]) -\
305 len(source_lines[start_line_ix].lstrip(' '))
306 end_line_ix = line_ix
307 for end_line_ix in range(line_ix + 1, len(source_lines)):
308 if source_lines[end_line_ix].strip() == "":
309 continue
310 line_indent = len(source_lines[end_line_ix]) -\
311 len(source_lines[end_line_ix].lstrip(' '))
312 if line_indent == start_indent:
313 end_line_ix -= 1
314 break
315
316 # Join the start line through the end line into a composite line.
317 composite_line = ''.join(map(str.strip,
318 source_lines[start_line_ix:end_line_ix + 1]))
Michael Walsh7423c012016-10-04 10:27:21 -0500319
Michael Walshbec416d2016-11-10 08:54:52 -0600320 # arg_list_etc = re.sub(".*" + called_func_name, "", composite_line)
321 arg_list_etc = "(" + re.sub(func_regex, "", composite_line)
Michael Walshde791732016-09-06 14:25:24 -0500322 if local_debug:
Michael Walsh23e7f492017-01-10 11:34:47 -0600323 print_varx("aliases", aliases, 0, debug_indent)
Michael Walshbec416d2016-11-10 08:54:52 -0600324 print_varx("func_regex", func_regex, 0, debug_indent)
Michael Walsh23e7f492017-01-10 11:34:47 -0600325 print_varx("start_line_ix", start_line_ix, 0, debug_indent)
326 print_varx("end_line_ix", end_line_ix, 0, debug_indent)
Michael Walshde791732016-09-06 14:25:24 -0500327 print_varx("composite_line", composite_line, 0, debug_indent)
328 print_varx("arg_list_etc", arg_list_etc, 0, debug_indent)
329
330 # Parse arg list...
331 # Initialize...
332 nest_level = -1
333 arg_ix = 0
Michael Walsh7423c012016-10-04 10:27:21 -0500334 args_list = [""]
Michael Walshde791732016-09-06 14:25:24 -0500335 for ix in range(0, len(arg_list_etc)):
336 char = arg_list_etc[ix]
337 # Set the nest_level based on whether we've encounted a parenthesis.
338 if char == "(":
339 nest_level += 1
340 if nest_level == 0:
341 continue
342 elif char == ")":
343 nest_level -= 1
344 if nest_level < 0:
345 break
346
347 # If we reach a comma at base nest level, we are done processing an
Michael Walsh7423c012016-10-04 10:27:21 -0500348 # argument so we increment arg_ix and initialize a new args_list entry.
Michael Walshde791732016-09-06 14:25:24 -0500349 if char == "," and nest_level == 0:
350 arg_ix += 1
Michael Walsh7423c012016-10-04 10:27:21 -0500351 args_list.append("")
Michael Walshde791732016-09-06 14:25:24 -0500352 continue
353
Michael Walsh7423c012016-10-04 10:27:21 -0500354 # For any other character, we append it it to the current arg list
Michael Walshde791732016-09-06 14:25:24 -0500355 # entry.
Michael Walsh7423c012016-10-04 10:27:21 -0500356 args_list[arg_ix] += char
Michael Walshde791732016-09-06 14:25:24 -0500357
358 # Trim whitespace from each list entry.
Michael Walsh7423c012016-10-04 10:27:21 -0500359 args_list = [arg.strip() for arg in args_list]
Michael Walshde791732016-09-06 14:25:24 -0500360
Michael Walsh7423c012016-10-04 10:27:21 -0500361 if arg_num > len(args_list):
Michael Walshde791732016-09-06 14:25:24 -0500362 print_error("Programmer error - The caller has asked for the name of" +
363 " argument number \"" + str(arg_num) + "\" but there " +
Michael Walsh7423c012016-10-04 10:27:21 -0500364 "were only \"" + str(len(args_list)) + "\" args used:\n" +
365 sprint_varx("args_list", args_list))
Michael Walshde791732016-09-06 14:25:24 -0500366 return
367
Michael Walsh7423c012016-10-04 10:27:21 -0500368 argument = args_list[arg_num - 1]
Michael Walshde791732016-09-06 14:25:24 -0500369
370 if local_debug:
Michael Walsh7423c012016-10-04 10:27:21 -0500371 print_varx("args_list", args_list, 0, debug_indent)
Michael Walshde791732016-09-06 14:25:24 -0500372 print_varx("argument", argument, 0, debug_indent)
Michael Walsh23e7f492017-01-10 11:34:47 -0600373 print_dashes(0, 120)
Michael Walshde791732016-09-06 14:25:24 -0500374
375 return argument
376
377###############################################################################
378
379
380###############################################################################
381def sprint_time(buffer=""):
382
383 r"""
384 Return the time in the following format.
385
386 Example:
387
388 The following python code...
389
390 sys.stdout.write(sprint_time())
391 sys.stdout.write("Hi.\n")
392
393 Will result in the following type of output:
394
395 #(CDT) 2016/07/08 15:25:35 - Hi.
396
397 Example:
398
399 The following python code...
400
401 sys.stdout.write(sprint_time("Hi.\n"))
402
403 Will result in the following type of output:
404
405 #(CDT) 2016/08/03 17:12:05 - Hi.
406
407 The following environment variables will affect the formatting as
408 described:
409 NANOSECONDS This will cause the time stamps to be
410 precise to the microsecond (Yes, it
411 probably should have been named
412 MICROSECONDS but the convention was set
413 long ago so we're sticking with it).
414 Example of the output when environment
415 variable NANOSECONDS=1.
416
417 #(CDT) 2016/08/03 17:16:25.510469 - Hi.
418
419 SHOW_ELAPSED_TIME This will cause the elapsed time to be
420 included in the output. This is the
421 amount of time that has elapsed since the
422 last time this function was called. The
423 precision of the elapsed time field is
424 also affected by the value of the
425 NANOSECONDS environment variable. Example
426 of the output when environment variable
427 NANOSECONDS=0 and SHOW_ELAPSED_TIME=1.
428
429 #(CDT) 2016/08/03 17:17:40 - 0 - Hi.
430
431 Example of the output when environment variable NANOSECONDS=1 and
432 SHOW_ELAPSED_TIME=1.
433
434 #(CDT) 2016/08/03 17:18:47.317339 - 0.000046 - Hi.
435
436 Description of arguments.
437 buffer This will be appended to the formatted
438 time string.
439 """
440
441 global NANOSECONDS
442 global SHOW_ELAPSED_TIME
443 global sprint_time_last_seconds
444
445 seconds = time.time()
446 loc_time = time.localtime(seconds)
447 nanoseconds = "%0.6f" % seconds
448 pos = nanoseconds.find(".")
449 nanoseconds = nanoseconds[pos:]
450
451 time_string = time.strftime("#(%Z) %Y/%m/%d %H:%M:%S", loc_time)
452 if NANOSECONDS == "1":
453 time_string = time_string + nanoseconds
454
455 if SHOW_ELAPSED_TIME == "1":
456 cur_time_seconds = seconds
457 math_string = "%9.9f" % cur_time_seconds + " - " + "%9.9f" % \
458 sprint_time_last_seconds
459 elapsed_seconds = eval(math_string)
460 if NANOSECONDS == "1":
461 elapsed_seconds = "%11.6f" % elapsed_seconds
462 else:
463 elapsed_seconds = "%4i" % elapsed_seconds
464 sprint_time_last_seconds = cur_time_seconds
465 time_string = time_string + " - " + elapsed_seconds
466
467 return time_string + " - " + buffer
468
469###############################################################################
470
471
472###############################################################################
473def sprint_timen(buffer=""):
474
475 r"""
476 Append a line feed to the buffer, pass it to sprint_time and return the
477 result.
478 """
479
480 return sprint_time(buffer + "\n")
481
482###############################################################################
483
484
485###############################################################################
486def sprint_error(buffer=""):
487
488 r"""
489 Return a standardized error string. This includes:
490 - A time stamp
491 - The "**ERROR**" string
492 - The caller's buffer string.
493
494 Example:
495
496 The following python code...
497
498 print(sprint_error("Oops.\n"))
499
500 Will result in the following type of output:
501
502 #(CDT) 2016/08/03 17:12:05 - **ERROR** Oops.
503
504 Description of arguments.
505 buffer This will be appended to the formatted
506 error string.
507 """
508
509 return sprint_time() + "**ERROR** " + buffer
510
511###############################################################################
512
513
514###############################################################################
515def sprint_varx(var_name,
516 var_value,
517 hex=0,
518 loc_col1_indent=col1_indent,
Michael Walsh7423c012016-10-04 10:27:21 -0500519 loc_col1_width=col1_width,
520 trailing_char="\n"):
Michael Walshde791732016-09-06 14:25:24 -0500521
522 r"""
523 Print the var name/value passed to it. If the caller lets loc_col1_width
524 default, the printing lines up nicely with output generated by the
525 print_time functions.
526
527 Note that the sprint_var function (defined below) can be used to call this
528 function so that the programmer does not need to pass the var_name.
529 sprint_var will figure out the var_name. The sprint_var function is the
530 one that would normally be used by the general user.
531
532 For example, the following python code:
533
534 first_name = "Mike"
535 print_time("Doing this...\n")
536 print_varx("first_name", first_name)
537 print_time("Doing that...\n")
538
539 Will generate output like this:
540
541 #(CDT) 2016/08/10 17:34:42.847374 - 0.001285 - Doing this...
542 first_name: Mike
543 #(CDT) 2016/08/10 17:34:42.847510 - 0.000136 - Doing that...
544
545 This function recognizes several complex types of data such as dict, list
546 or tuple.
547
548 For example, the following python code:
549
550 my_dict = dict(one=1, two=2, three=3)
551 print_var(my_dict)
552
553 Will generate the following output:
554
555 my_dict:
556 my_dict[three]: 3
557 my_dict[two]: 2
558 my_dict[one]: 1
559
560 Description of arguments.
561 var_name The name of the variable to be printed.
562 var_value The value of the variable to be printed.
563 hex This indicates that the value should be
564 printed in hex format. It is the user's
565 responsibility to ensure that a var_value
Michael Walshbec416d2016-11-10 08:54:52 -0600566 contains a valid hex number. For string
567 var_values, this will be interpreted as
568 show_blanks which means that blank values
569 will be printed as "<blank>".
Michael Walshde791732016-09-06 14:25:24 -0500570 loc_col1_indent The number of spaces to indent the output.
571 loc_col1_width The width of the output column containing
572 the variable name. The default value of
573 this is adjusted so that the var_value
574 lines up with text printed via the
575 print_time function.
Michael Walsh7423c012016-10-04 10:27:21 -0500576 trailing_char The character to be used at the end of the
577 returned string. The default value is a
578 line feed.
579 """
Michael Walshde791732016-09-06 14:25:24 -0500580
581 # Determine the type
582 if type(var_value) in (int, float, bool, str, unicode) \
583 or var_value is None:
584 # The data type is simple in the sense that it has no subordinate
585 # parts.
Michael Walsh7423c012016-10-04 10:27:21 -0500586 # Adjust loc_col1_width.
587 loc_col1_width = loc_col1_width - loc_col1_indent
Michael Walshde791732016-09-06 14:25:24 -0500588 # See if the user wants the output in hex format.
589 if hex:
Michael Walsh18176322016-11-15 15:11:21 -0600590 if type(var_value) not in (int, long):
Michael Walshbec416d2016-11-10 08:54:52 -0600591 value_format = "%s"
Michael Walsh2795edc2016-12-13 16:00:33 -0600592 if var_value == "":
Michael Walshbec416d2016-11-10 08:54:52 -0600593 var_value = "<blank>"
594 else:
595 value_format = "0x%08x"
Michael Walshde791732016-09-06 14:25:24 -0500596 else:
597 value_format = "%s"
598 format_string = "%" + str(loc_col1_indent) + "s%-" \
Michael Walsh7423c012016-10-04 10:27:21 -0500599 + str(loc_col1_width) + "s" + value_format + trailing_char
Michael Walshde791732016-09-06 14:25:24 -0500600 return format_string % ("", var_name + ":", var_value)
601 else:
602 # The data type is complex in the sense that it has subordinate parts.
603 format_string = "%" + str(loc_col1_indent) + "s%s\n"
604 buffer = format_string % ("", var_name + ":")
605 loc_col1_indent += 2
Michael Walsh7423c012016-10-04 10:27:21 -0500606 try:
607 length = len(var_value)
608 except TypeError:
Michael Walsh23e7f492017-01-10 11:34:47 -0600609 length = 0
Michael Walsh7423c012016-10-04 10:27:21 -0500610 ix = 0
611 loc_trailing_char = "\n"
Michael Walshbec416d2016-11-10 08:54:52 -0600612 type_is_dict = 0
Michael Walsh23e7f492017-01-10 11:34:47 -0600613 if type(var_value) is dict:
614 type_is_dict = 1
Michael Walsh8e6deb42017-01-27 14:22:41 -0600615 try:
616 if type(var_value) is collections.OrderedDict:
617 type_is_dict = 1
618 except AttributeError:
619 pass
620 try:
621 if type(var_value) is DotDict:
622 type_is_dict = 1
623 except NameError:
624 pass
625 try:
626 if type(var_value) is NormalizedDict:
627 type_is_dict = 1
628 except NameError:
629 pass
Michael Walshbec416d2016-11-10 08:54:52 -0600630 if type_is_dict:
Michael Walshde791732016-09-06 14:25:24 -0500631 for key, value in var_value.iteritems():
Michael Walsh7423c012016-10-04 10:27:21 -0500632 ix += 1
633 if ix == length:
634 loc_trailing_char = trailing_char
Michael Walshde791732016-09-06 14:25:24 -0500635 buffer += sprint_varx(var_name + "[" + key + "]", value, hex,
Michael Walsh7423c012016-10-04 10:27:21 -0500636 loc_col1_indent, loc_col1_width,
637 loc_trailing_char)
638 elif type(var_value) in (list, tuple, set):
Michael Walshde791732016-09-06 14:25:24 -0500639 for key, value in enumerate(var_value):
Michael Walsh7423c012016-10-04 10:27:21 -0500640 ix += 1
641 if ix == length:
642 loc_trailing_char = trailing_char
Michael Walshde791732016-09-06 14:25:24 -0500643 buffer += sprint_varx(var_name + "[" + str(key) + "]", value,
Michael Walsh7423c012016-10-04 10:27:21 -0500644 hex, loc_col1_indent, loc_col1_width,
645 loc_trailing_char)
Michael Walshde791732016-09-06 14:25:24 -0500646 elif type(var_value) is argparse.Namespace:
647 for key in var_value.__dict__:
Michael Walsh7423c012016-10-04 10:27:21 -0500648 ix += 1
649 if ix == length:
650 loc_trailing_char = trailing_char
Michael Walshde791732016-09-06 14:25:24 -0500651 cmd_buf = "buffer += sprint_varx(var_name + \".\" + str(key)" \
Michael Walsh7423c012016-10-04 10:27:21 -0500652 + ", var_value." + key + ", hex, loc_col1_indent," \
653 + " loc_col1_width, loc_trailing_char)"
Michael Walshde791732016-09-06 14:25:24 -0500654 exec(cmd_buf)
655 else:
656 var_type = type(var_value).__name__
657 func_name = sys._getframe().f_code.co_name
Michael Walsh7423c012016-10-04 10:27:21 -0500658 var_value = "<" + var_type + " type not supported by " + \
659 func_name + "()>"
Michael Walshde791732016-09-06 14:25:24 -0500660 value_format = "%s"
661 loc_col1_indent -= 2
Michael Walsh7423c012016-10-04 10:27:21 -0500662 # Adjust loc_col1_width.
663 loc_col1_width = loc_col1_width - loc_col1_indent
Michael Walshde791732016-09-06 14:25:24 -0500664 format_string = "%" + str(loc_col1_indent) + "s%-" \
Michael Walsh7423c012016-10-04 10:27:21 -0500665 + str(loc_col1_width) + "s" + value_format + trailing_char
Michael Walshde791732016-09-06 14:25:24 -0500666 return format_string % ("", var_name + ":", var_value)
Michael Walsh23e7f492017-01-10 11:34:47 -0600667
Michael Walshde791732016-09-06 14:25:24 -0500668 return buffer
669
670 return ""
671
672###############################################################################
673
674
675###############################################################################
676def sprint_var(*args):
677
678 r"""
679 Figure out the name of the first argument for you and then call
680 sprint_varx with it. Therefore, the following 2 calls are equivalent:
681 sprint_varx("var1", var1)
682 sprint_var(var1)
683 """
684
685 # Get the name of the first variable passed to this function.
686 stack_frame = 2
Michael Walsh7423c012016-10-04 10:27:21 -0500687 caller_func_name = sprint_func_name(2)
688 if caller_func_name.endswith("print_var"):
Michael Walshde791732016-09-06 14:25:24 -0500689 stack_frame += 1
690 var_name = get_arg_name(None, 1, stack_frame)
691 return sprint_varx(var_name, *args)
692
693###############################################################################
694
695
696###############################################################################
Michael Walsh18176322016-11-15 15:11:21 -0600697def sprint_vars(*args):
698
699 r"""
700 Sprint the values of one or more variables.
701
702 Description of args:
703 args:
704 If the first argument is an integer, it will be interpreted to be the
705 "indent" value.
706 If the second argument is an integer, it will be interpreted to be the
707 "col1_width" value.
708 If the third argument is an integer, it will be interpreted to be the
709 "hex" value.
710 All remaining parms are considered variable names which are to be
711 sprinted.
712 """
713
714 if len(args) == 0:
715 return
716
717 # Get the name of the first variable passed to this function.
718 stack_frame = 2
719 caller_func_name = sprint_func_name(2)
720 if caller_func_name.endswith("print_vars"):
721 stack_frame += 1
722
723 parm_num = 1
724
725 # Create list from args (which is a tuple) so that it can be modified.
726 args_list = list(args)
727
728 var_name = get_arg_name(None, parm_num, stack_frame)
729 # See if parm 1 is to be interpreted as "indent".
730 try:
731 if type(int(var_name)) is int:
732 indent = int(var_name)
733 args_list.pop(0)
734 parm_num += 1
735 except ValueError:
736 indent = 0
737
738 var_name = get_arg_name(None, parm_num, stack_frame)
739 # See if parm 1 is to be interpreted as "col1_width".
740 try:
741 if type(int(var_name)) is int:
742 loc_col1_width = int(var_name)
743 args_list.pop(0)
744 parm_num += 1
745 except ValueError:
746 loc_col1_width = col1_width
747
748 var_name = get_arg_name(None, parm_num, stack_frame)
749 # See if parm 1 is to be interpreted as "hex".
750 try:
751 if type(int(var_name)) is int:
752 hex = int(var_name)
753 args_list.pop(0)
754 parm_num += 1
755 except ValueError:
756 hex = 0
757
758 buffer = ""
759 for var_value in args_list:
760 var_name = get_arg_name(None, parm_num, stack_frame)
761 buffer += sprint_varx(var_name, var_value, hex, indent, loc_col1_width)
762 parm_num += 1
763
764 return buffer
765
766###############################################################################
767
768
769###############################################################################
Michael Walsh7423c012016-10-04 10:27:21 -0500770def lprint_varx(var_name,
771 var_value,
772 hex=0,
773 loc_col1_indent=col1_indent,
774 loc_col1_width=col1_width,
775 log_level=getattr(logging, 'INFO')):
776
777 r"""
778 Send sprint_varx output to logging.
779 """
780
781 logging.log(log_level, sprint_varx(var_name, var_value, hex,
782 loc_col1_indent, loc_col1_width, ""))
783
784###############################################################################
785
786
787###############################################################################
788def lprint_var(*args):
789
790 r"""
791 Figure out the name of the first argument for you and then call
792 lprint_varx with it. Therefore, the following 2 calls are equivalent:
793 lprint_varx("var1", var1)
794 lprint_var(var1)
795 """
796
797 # Get the name of the first variable passed to this function.
798 stack_frame = 2
799 caller_func_name = sprint_func_name(2)
800 if caller_func_name.endswith("print_var"):
801 stack_frame += 1
802 var_name = get_arg_name(None, 1, stack_frame)
803 lprint_varx(var_name, *args)
804
805###############################################################################
806
807
808###############################################################################
809def sprint_dashes(indent=col1_indent,
810 width=80,
811 line_feed=1,
812 char="-"):
Michael Walshde791732016-09-06 14:25:24 -0500813
814 r"""
815 Return a string of dashes to the caller.
816
817 Description of arguements:
818 indent The number of characters to indent the
819 output.
820 width The width of the string of dashes.
821 line_feed Indicates whether the output should end
822 with a line feed.
Michael Walsh7423c012016-10-04 10:27:21 -0500823 char The character to be repeated in the output
824 string.
Michael Walshde791732016-09-06 14:25:24 -0500825 """
826
Michael Walsh7423c012016-10-04 10:27:21 -0500827 width = int(width)
Michael Walsh23e7f492017-01-10 11:34:47 -0600828 buffer = " " * int(indent) + char * width
Michael Walshde791732016-09-06 14:25:24 -0500829 if line_feed:
830 buffer += "\n"
831
832 return buffer
833
834###############################################################################
835
836
837###############################################################################
Michael Walsh7423c012016-10-04 10:27:21 -0500838def sindent(text="",
839 indent=0):
840
841 r"""
842 Pre-pend the specified number of characters to the text string (i.e.
843 indent it) and return it.
844
845 Description of arguments:
846 text The string to be indented.
847 indent The number of characters to indent the
848 string.
849 """
850
851 format_string = "%" + str(indent) + "s%s"
852 buffer = format_string % ("", text)
853
854 return buffer
855
856###############################################################################
857
858
859###############################################################################
860def sprint_call_stack(indent=0,
861 stack_frame_ix=0):
Michael Walshde791732016-09-06 14:25:24 -0500862
863 r"""
864 Return a call stack report for the given point in the program with line
865 numbers, function names and function parameters and arguments.
866
867 Sample output:
868
869 -------------------------------------------------------------------------
870 Python function call stack
871
872 Line # Function name and arguments
873 ------ ------------------------------------------------------------------
874 424 sprint_call_stack ()
875 4 print_call_stack ()
876 31 func1 (last_name = 'walsh', first_name = 'mikey')
877 59 /tmp/scr5.py
878 -------------------------------------------------------------------------
879
880 Description of arguments:
881 indent The number of characters to indent each
882 line of output.
883 stack_frame_ix The index of the first stack frame which
884 is to be returned.
885 """
886
887 buffer = ""
Michael Walsh7423c012016-10-04 10:27:21 -0500888 buffer += sprint_dashes(indent)
889 buffer += sindent("Python function call stack\n\n", indent)
890 buffer += sindent("Line # Function name and arguments\n", indent)
891 buffer += sprint_dashes(indent, 6, 0) + " " + sprint_dashes(0, 73)
Michael Walshde791732016-09-06 14:25:24 -0500892
893 # Grab the current program stack.
894 current_stack = inspect.stack()
895
896 # Process each frame in turn.
897 format_string = "%6s %s\n"
Michael Walsh7423c012016-10-04 10:27:21 -0500898 ix = 0
Michael Walshde791732016-09-06 14:25:24 -0500899 for stack_frame in current_stack:
Michael Walsh7423c012016-10-04 10:27:21 -0500900 if ix < stack_frame_ix:
901 ix += 1
902 continue
Michael Walsh23e7f492017-01-10 11:34:47 -0600903 # I want the line number shown to be the line where you find the line
904 # shown.
905 try:
906 line_num = str(current_stack[ix + 1][2])
907 except IndexError:
908 line_num = ""
Michael Walshde791732016-09-06 14:25:24 -0500909 func_name = str(stack_frame[3])
910 if func_name == "?":
911 # "?" is the name used when code is not in a function.
912 func_name = "(none)"
913
914 if func_name == "<module>":
Michael Walsh7423c012016-10-04 10:27:21 -0500915 # If the func_name is the "main" program, we simply get the
916 # command line call string.
Michael Walshde791732016-09-06 14:25:24 -0500917 func_and_args = ' '.join(sys.argv)
918 else:
919 # Get the program arguments.
920 arg_vals = inspect.getargvalues(stack_frame[0])
921 function_parms = arg_vals[0]
922 frame_locals = arg_vals[3]
923
Michael Walsh7423c012016-10-04 10:27:21 -0500924 args_list = []
Michael Walshde791732016-09-06 14:25:24 -0500925 for arg_name in function_parms:
926 # Get the arg value from frame locals.
927 arg_value = frame_locals[arg_name]
Michael Walsh7423c012016-10-04 10:27:21 -0500928 args_list.append(arg_name + " = " + repr(arg_value))
929 args_str = "(" + ', '.join(map(str, args_list)) + ")"
Michael Walshde791732016-09-06 14:25:24 -0500930
931 # Now we need to print this in a nicely-wrapped way.
932 func_and_args = func_name + " " + args_str
933
Michael Walsh23e7f492017-01-10 11:34:47 -0600934 buffer += sindent(format_string % (line_num, func_and_args), indent)
Michael Walsh7423c012016-10-04 10:27:21 -0500935 ix += 1
Michael Walshde791732016-09-06 14:25:24 -0500936
Michael Walsh7423c012016-10-04 10:27:21 -0500937 buffer += sprint_dashes(indent)
Michael Walshde791732016-09-06 14:25:24 -0500938
939 return buffer
940
941###############################################################################
942
943
944###############################################################################
945def sprint_executing(stack_frame_ix=None):
946
947 r"""
948 Print a line indicating what function is executing and with what parameter
949 values. This is useful for debugging.
950
951 Sample output:
952
953 #(CDT) 2016/08/25 17:54:27 - Executing: func1 (x = 1)
954
955 Description of arguments:
956 stack_frame_ix The index of the stack frame whose
957 function info should be returned. If the
958 caller does not specifiy a value, this
959 function will set the value to 1 which is
960 the index of the caller's stack frame. If
961 the caller is the wrapper function
962 "print_executing", this function will bump
963 it up by 1.
964 """
965
966 # If user wants default stack_frame_ix.
967 if stack_frame_ix is None:
968 func_name = sys._getframe().f_code.co_name
969 caller_func_name = sys._getframe(1).f_code.co_name
Michael Walsh7423c012016-10-04 10:27:21 -0500970 if caller_func_name.endswith(func_name[1:]):
Michael Walshde791732016-09-06 14:25:24 -0500971 stack_frame_ix = 2
972 else:
973 stack_frame_ix = 1
974
975 stack_frame = inspect.stack()[stack_frame_ix]
976
977 func_name = str(stack_frame[3])
978 if func_name == "?":
979 # "?" is the name used when code is not in a function.
980 func_name = "(none)"
981
982 if func_name == "<module>":
983 # If the func_name is the "main" program, we simply get the command
984 # line call string.
985 func_and_args = ' '.join(sys.argv)
986 else:
987 # Get the program arguments.
988 arg_vals = inspect.getargvalues(stack_frame[0])
989 function_parms = arg_vals[0]
990 frame_locals = arg_vals[3]
991
Michael Walsh7423c012016-10-04 10:27:21 -0500992 args_list = []
Michael Walshde791732016-09-06 14:25:24 -0500993 for arg_name in function_parms:
994 # Get the arg value from frame locals.
995 arg_value = frame_locals[arg_name]
Michael Walsh7423c012016-10-04 10:27:21 -0500996 args_list.append(arg_name + " = " + repr(arg_value))
997 args_str = "(" + ', '.join(map(str, args_list)) + ")"
Michael Walshde791732016-09-06 14:25:24 -0500998
999 # Now we need to print this in a nicely-wrapped way.
1000 func_and_args = func_name + " " + args_str
1001
1002 return sprint_time() + "Executing: " + func_and_args + "\n"
1003
1004###############################################################################
1005
1006
1007###############################################################################
Michael Walshbec416d2016-11-10 08:54:52 -06001008def sprint_pgm_header(indent=0,
1009 linefeed=1):
Michael Walshde791732016-09-06 14:25:24 -05001010
1011 r"""
1012 Return a standardized header that programs should print at the beginning
1013 of the run. It includes useful information like command line, pid,
1014 userid, program parameters, etc.
1015
Michael Walsh7423c012016-10-04 10:27:21 -05001016 Description of arguments:
1017 indent The number of characters to indent each
1018 line of output.
Michael Walshbec416d2016-11-10 08:54:52 -06001019 linefeed Indicates whether a line feed be included
1020 at the beginning and end of the report.
Michael Walshde791732016-09-06 14:25:24 -05001021 """
1022
Michael Walshbec416d2016-11-10 08:54:52 -06001023 loc_col1_width = col1_width + indent
1024
1025 buffer = ""
1026 if linefeed:
1027 buffer = "\n"
Michael Walsh7423c012016-10-04 10:27:21 -05001028
1029 buffer += sindent(sprint_time() + "Running " + pgm_name + ".\n", indent)
1030 buffer += sindent(sprint_time() + "Program parameter values, etc.:\n\n",
1031 indent)
Michael Walshbec416d2016-11-10 08:54:52 -06001032 buffer += sprint_varx("command_line", ' '.join(sys.argv), 0, indent,
1033 loc_col1_width)
Michael Walsh7423c012016-10-04 10:27:21 -05001034 # We want the output to show a customized name for the pid and pgid but
1035 # we want it to look like a valid variable name. Therefore, we'll use
Michael Walshde791732016-09-06 14:25:24 -05001036 # pgm_name_var_name which was set when this module was imported.
Michael Walshbec416d2016-11-10 08:54:52 -06001037 buffer += sprint_varx(pgm_name_var_name + "_pid", os.getpid(), 0, indent,
1038 loc_col1_width)
1039 buffer += sprint_varx(pgm_name_var_name + "_pgid", os.getpgrp(), 0, indent,
1040 loc_col1_width)
Michael Walsh86de0d22016-12-05 10:13:15 -06001041 userid_num = str(os.geteuid())
1042 try:
1043 username = os.getlogin()
1044 except OSError:
1045 if userid_num == "0":
1046 username = "root"
1047 else:
1048 username = "?"
1049 buffer += sprint_varx("uid", userid_num + " (" + username +
Michael Walshbec416d2016-11-10 08:54:52 -06001050 ")", 0, indent, loc_col1_width)
Michael Walshde791732016-09-06 14:25:24 -05001051 buffer += sprint_varx("gid", str(os.getgid()) + " (" +
Michael Walsh7423c012016-10-04 10:27:21 -05001052 str(grp.getgrgid(os.getgid()).gr_name) + ")", 0,
Michael Walshbec416d2016-11-10 08:54:52 -06001053 indent, loc_col1_width)
1054 buffer += sprint_varx("host_name", socket.gethostname(), 0, indent,
1055 loc_col1_width)
Michael Walsh86de0d22016-12-05 10:13:15 -06001056 try:
1057 DISPLAY = os.environ['DISPLAY']
1058 except KeyError:
1059 DISPLAY = ""
1060 buffer += sprint_varx("DISPLAY", DISPLAY, 0, indent,
Michael Walshbec416d2016-11-10 08:54:52 -06001061 loc_col1_width)
Michael Walshde791732016-09-06 14:25:24 -05001062 # I want to add code to print caller's parms.
1063
Michael Walsh7423c012016-10-04 10:27:21 -05001064 # __builtin__.arg_obj is created by the get_arg module function,
1065 # gen_get_options.
1066 try:
1067 buffer += ga.sprint_args(__builtin__.arg_obj, indent)
1068 except AttributeError:
1069 pass
1070
Michael Walshbec416d2016-11-10 08:54:52 -06001071 if linefeed:
1072 buffer += "\n"
Michael Walshde791732016-09-06 14:25:24 -05001073
1074 return buffer
1075
1076###############################################################################
1077
1078
1079###############################################################################
Michael Walsh7423c012016-10-04 10:27:21 -05001080def sprint_error_report(error_text="\n",
1081 indent=2):
1082
1083 r"""
1084 Return a string with a standardized report which includes the caller's
1085 error text, the call stack and the program header.
1086
1087 Description of args:
1088 error_text The error text to be included in the
1089 report. The caller should include any
1090 needed linefeeds.
1091 indent The number of characters to indent each
1092 line of output.
1093 """
1094
1095 buffer = ""
1096 buffer += sprint_dashes(width=120, char="=")
1097 buffer += sprint_error(error_text)
1098 buffer += "\n"
1099 # Calling sprint_call_stack with stack_frame_ix of 0 causes it to show
1100 # itself and this function in the call stack. This is not helpful to a
1101 # debugger and is therefore clutter. We will adjust the stack_frame_ix to
1102 # hide that information.
1103 stack_frame_ix = 2
1104 caller_func_name = sprint_func_name(2)
1105 if caller_func_name.endswith("print_error_report"):
1106 stack_frame_ix += 1
1107 buffer += sprint_call_stack(indent, stack_frame_ix)
1108 buffer += sprint_pgm_header(indent)
1109 buffer += sprint_dashes(width=120, char="=")
1110
1111 return buffer
1112
1113###############################################################################
1114
1115
1116###############################################################################
Michael Walsh18176322016-11-15 15:11:21 -06001117def sprint_issuing(cmd_buf,
1118 test_mode=0):
Michael Walshde791732016-09-06 14:25:24 -05001119
1120 r"""
1121 Return a line indicating a command that the program is about to execute.
1122
1123 Sample output for a cmd_buf of "ls"
1124
1125 #(CDT) 2016/08/25 17:57:36 - Issuing: ls
Michael Walshbec416d2016-11-10 08:54:52 -06001126
Michael Walshde791732016-09-06 14:25:24 -05001127 Description of args:
1128 cmd_buf The command to be executed by caller.
Michael Walshbec416d2016-11-10 08:54:52 -06001129 test_mode With test_mode set, your output will look
1130 like this:
1131
1132 #(CDT) 2016/08/25 17:57:36 - (test_mode) Issuing: ls
1133
Michael Walshde791732016-09-06 14:25:24 -05001134 """
1135
Michael Walshbec416d2016-11-10 08:54:52 -06001136 buffer = sprint_time()
1137 if test_mode:
1138 buffer += "(test_mode) "
1139 buffer += "Issuing: " + cmd_buf + "\n"
Michael Walshde791732016-09-06 14:25:24 -05001140
1141 return buffer
1142
1143###############################################################################
1144
1145
1146###############################################################################
1147def sprint_pgm_footer():
1148
1149 r"""
1150 Return a standardized footer that programs should print at the end of the
1151 program run. It includes useful information like total run time, etc.
1152 """
1153
1154 buffer = "\n" + sprint_time() + "Finished running " + pgm_name + ".\n\n"
1155
1156 total_time = time.time() - start_time
1157 total_time_string = "%0.6f" % total_time
1158
Michael Walsh7423c012016-10-04 10:27:21 -05001159 buffer += sprint_varx(pgm_name_var_name + "_runtime", total_time_string)
Michael Walshbec416d2016-11-10 08:54:52 -06001160 buffer += "\n"
Michael Walsh7423c012016-10-04 10:27:21 -05001161
1162 return buffer
1163
1164###############################################################################
1165
1166
1167###############################################################################
1168def sprint(buffer=""):
1169
1170 r"""
1171 Simply return the user's buffer. This function is used by the qprint and
1172 dprint functions defined dynamically below, i.e. it would not normally be
1173 called for general use.
1174
1175 Description of arguments.
1176 buffer This will be returned to the caller.
1177 """
Michael Walshde791732016-09-06 14:25:24 -05001178
Michael Walshbec416d2016-11-10 08:54:52 -06001179 return str(buffer)
1180
1181###############################################################################
1182
1183
1184###############################################################################
1185def sprintn(buffer=""):
1186
1187 r"""
1188 Simply return the user's buffer with a line feed. This function is used
1189 by the qprint and dprint functions defined dynamically below, i.e. it
1190 would not normally be called for general use.
1191
1192 Description of arguments.
1193 buffer This will be returned to the caller.
1194 """
1195
1196 buffer = str(buffer) + "\n"
1197
Michael Walshde791732016-09-06 14:25:24 -05001198 return buffer
1199
1200###############################################################################
1201
1202
1203###############################################################################
1204# In the following section of code, we will dynamically create print versions
1205# for each of the sprint functions defined above. So, for example, where we
1206# have an sprint_time() function defined above that returns the time to the
Michael Walsh7423c012016-10-04 10:27:21 -05001207# caller in a string, we will create a corresponding print_time() function
1208# that will print that string directly to stdout.
Michael Walshde791732016-09-06 14:25:24 -05001209
1210# It can be complicated to follow what's being creaed by the exec statement
1211# below. Here is an example of the print_time() function that will be created:
1212
1213# def print_time(*args):
1214# s_funcname = "s" + sys._getframe().f_code.co_name
1215# s_func = getattr(sys.modules[__name__], s_funcname)
1216# sys.stdout.write(s_func(*args))
1217
1218# Here are comments describing the 3 lines in the body of the created function.
1219# Calculate the "s" version of this function name (e.g. if this function name
1220# is print_time, we want s_funcname to be "sprint_time".
1221# Put a reference to the "s" version of this function in s_func.
Michael Walsh7423c012016-10-04 10:27:21 -05001222# Call the "s" version of this function passing it all of our arguments.
1223# Write the result to stdout.
Michael Walshde791732016-09-06 14:25:24 -05001224
1225# func_names contains a list of all print functions which should be created
1226# from their sprint counterparts.
1227func_names = ['print_time', 'print_timen', 'print_error', 'print_varx',
Michael Walsh18176322016-11-15 15:11:21 -06001228 'print_var', 'print_vars', 'print_dashes', 'indent',
1229 'print_call_stack', 'print_func_name', 'print_executing',
1230 'print_pgm_header', 'print_issuing', 'print_pgm_footer',
1231 'print_error_report', 'print', 'printn']
Michael Walshde791732016-09-06 14:25:24 -05001232
1233for func_name in func_names:
Michael Walsh7423c012016-10-04 10:27:21 -05001234 if func_name == "print":
1235 continue
Michael Walshde791732016-09-06 14:25:24 -05001236 # Create abbreviated aliases (e.g. spvar is an alias for sprint_var).
1237 alias = re.sub("print_", "p", func_name)
Michael Walsh7423c012016-10-04 10:27:21 -05001238 pgm_definition_string = "s" + alias + " = s" + func_name
1239 if gen_print_debug:
1240 print(pgm_definition_string)
1241 exec(pgm_definition_string)
Michael Walshde791732016-09-06 14:25:24 -05001242
1243for func_name in func_names:
Michael Walsh7423c012016-10-04 10:27:21 -05001244 if func_name == "print_error" or func_name == "print_error_report":
Michael Walshde791732016-09-06 14:25:24 -05001245 output_stream = "stderr"
1246 else:
1247 output_stream = "stdout"
1248 func_def = \
1249 [
1250 "def " + func_name + "(*args):",
1251 " s_func_name = \"s\" + sys._getframe().f_code.co_name",
1252 " s_func = getattr(sys.modules[__name__], s_func_name)",
1253 " sys." + output_stream + ".write(s_func(*args))",
1254 " sys." + output_stream + ".flush()"
1255 ]
Michael Walsh7423c012016-10-04 10:27:21 -05001256 if func_name != "print":
1257 pgm_definition_string = '\n'.join(func_def)
1258 if gen_print_debug:
1259 print(pgm_definition_string)
1260 exec(pgm_definition_string)
1261
1262 # Now define "q" versions of each print function.
1263 func_def = \
1264 [
1265 "def q" + func_name + "(*args):",
1266 " if __builtin__.quiet: return",
1267 " s_func_name = \"s" + func_name + "\"",
1268 " s_func = getattr(sys.modules[__name__], s_func_name)",
1269 " sys." + output_stream + ".write(s_func(*args))",
1270 " sys." + output_stream + ".flush()"
1271 ]
1272
Michael Walshde791732016-09-06 14:25:24 -05001273 pgm_definition_string = '\n'.join(func_def)
Michael Walsh7423c012016-10-04 10:27:21 -05001274 if gen_print_debug:
1275 print(pgm_definition_string)
Michael Walshde791732016-09-06 14:25:24 -05001276 exec(pgm_definition_string)
1277
Michael Walsh7423c012016-10-04 10:27:21 -05001278 # Now define "d" versions of each print function.
1279 func_def = \
1280 [
1281 "def d" + func_name + "(*args):",
1282 " if not __builtin__.debug: return",
1283 " s_func_name = \"s" + func_name + "\"",
1284 " s_func = getattr(sys.modules[__name__], s_func_name)",
1285 " sys." + output_stream + ".write(s_func(*args))",
1286 " sys." + output_stream + ".flush()"
1287 ]
1288
1289 pgm_definition_string = '\n'.join(func_def)
1290 if gen_print_debug:
1291 print(pgm_definition_string)
1292 exec(pgm_definition_string)
1293
1294 # Now define "l" versions of each print function.
1295 func_def = \
1296 [
1297 "def l" + func_name + "(*args):",
1298 " s_func_name = \"s" + func_name + "\"",
1299 " s_func = getattr(sys.modules[__name__], s_func_name)",
1300 " logging.log(getattr(logging, 'INFO'), s_func(*args))",
1301 ]
1302
1303 if func_name != "print_varx" and func_name != "print_var":
1304 pgm_definition_string = '\n'.join(func_def)
1305 if gen_print_debug:
1306 print(pgm_definition_string)
1307 exec(pgm_definition_string)
1308
1309 if func_name == "print":
1310 continue
1311
Michael Walshde791732016-09-06 14:25:24 -05001312 # Create abbreviated aliases (e.g. pvar is an alias for print_var).
1313 alias = re.sub("print_", "p", func_name)
Michael Walsh7423c012016-10-04 10:27:21 -05001314 pgm_definition_string = alias + " = " + func_name
1315 if gen_print_debug:
1316 print(pgm_definition_string)
1317 exec(pgm_definition_string)
1318
1319 # Create abbreviated aliases (e.g. qpvar is an alias for qprint_var).
1320 alias = re.sub("print_", "p", func_name)
1321 pgm_definition_string = "q" + alias + " = q" + func_name
1322 if gen_print_debug:
1323 print(pgm_definition_string)
1324 exec(pgm_definition_string)
1325
1326 # Create abbreviated aliases (e.g. dpvar is an alias for dprint_var).
1327 alias = re.sub("print_", "p", func_name)
1328 pgm_definition_string = "d" + alias + " = d" + func_name
1329 if gen_print_debug:
1330 print(pgm_definition_string)
1331 exec(pgm_definition_string)
1332
1333 # Create abbreviated aliases (e.g. lpvar is an alias for lprint_var).
1334 alias = re.sub("print_", "p", func_name)
1335 pgm_definition_string = "l" + alias + " = l" + func_name
1336 if gen_print_debug:
1337 print(pgm_definition_string)
1338 exec(pgm_definition_string)
Michael Walshde791732016-09-06 14:25:24 -05001339
1340###############################################################################