| #!/usr/bin/env python |
| |
| r""" |
| This module provides many print functions such as sprint_var, sprint_time, sprint_error, sprint_call_stack. |
| """ |
| |
| import sys |
| import os |
| import time |
| import inspect |
| import re |
| import grp |
| import socket |
| import argparse |
| import copy |
| try: |
| import __builtin__ |
| except ImportError: |
| import builtins as __builtin__ |
| import logging |
| import collections |
| from wrap_utils import * |
| |
| try: |
| robot_env = 1 |
| from robot.utils import DotDict |
| from robot.utils import NormalizedDict |
| from robot.libraries.BuiltIn import BuiltIn |
| # Having access to the robot libraries alone does not indicate that we are in a robot environment. The |
| # following try block should confirm that. |
| try: |
| var_value = BuiltIn().get_variable_value("${SUITE_NAME}", "") |
| except BaseException: |
| robot_env = 0 |
| except ImportError: |
| robot_env = 0 |
| |
| import gen_arg as ga |
| |
| # Setting these variables for use both inside this module and by programs importing this module. |
| pgm_file_path = sys.argv[0] |
| pgm_name = os.path.basename(pgm_file_path) |
| pgm_dir_path = os.path.normpath(re.sub("/" + pgm_name, "", pgm_file_path)) +\ |
| os.path.sep |
| |
| |
| # Some functions (e.g. sprint_pgm_header) have need of a program name value that looks more like a valid |
| # variable name. Therefore, we'll swap odd characters like "." out for underscores. |
| pgm_name_var_name = pgm_name.replace(".", "_") |
| |
| # Initialize global values used as defaults by print_time, print_var, etc. |
| dft_indent = 0 |
| |
| # Calculate default column width for print_var functions based on environment variable settings. The |
| # objective is to make the variable values line up nicely with the time stamps. |
| dft_col1_width = 29 |
| |
| NANOSECONDS = os.environ.get('NANOSECONDS', '1') |
| |
| if NANOSECONDS == "1": |
| dft_col1_width = dft_col1_width + 7 |
| |
| SHOW_ELAPSED_TIME = os.environ.get('SHOW_ELAPSED_TIME', '1') |
| |
| if SHOW_ELAPSED_TIME == "1": |
| if NANOSECONDS == "1": |
| dft_col1_width = dft_col1_width + 14 |
| else: |
| dft_col1_width = dft_col1_width + 7 |
| |
| # Initialize some time variables used in module functions. |
| start_time = time.time() |
| # sprint_time_last_seconds is used to calculate elapsed seconds. |
| sprint_time_last_seconds = [start_time, start_time] |
| # Define global index for the sprint_time_last_seconds list. |
| last_seconds_ix = 0 |
| |
| |
| def set_last_seconds_ix(ix): |
| r""" |
| Set the "last_seconds_ix" module variable to the index value. |
| |
| Description of argument(s): |
| ix The index value to be set into the module global last_seconds_ix variable. |
| """ |
| global last_seconds_ix |
| last_seconds_ix = ix |
| |
| |
| # Since output from the lprint_ functions goes to a different location than the output from the print_ |
| # functions (e.g. a file vs. the console), sprint_time_last_seconds has been created as a list rather than a |
| # simple integer so that it can store multiple sprint_time_last_seconds values. Standard print_ functions |
| # defined in this file will use sprint_time_last_seconds[0] and the lprint_ functions will use |
| # sprint_time_last_seconds[1]. |
| def standard_print_last_seconds_ix(): |
| r""" |
| Return the standard print last_seconds index value to the caller. |
| """ |
| return 0 |
| |
| |
| def lprint_last_seconds_ix(): |
| r""" |
| Return lprint last_seconds index value to the caller. |
| """ |
| return 1 |
| |
| |
| # The user can set environment variable "GEN_PRINT_DEBUG" to get debug output from this module. |
| gen_print_debug = int(os.environ.get('GEN_PRINT_DEBUG', 0)) |
| |
| |
| def sprint_func_name(stack_frame_ix=None): |
| r""" |
| Return the function name associated with the indicated stack frame. |
| |
| Description of argument(s): |
| stack_frame_ix The index of the stack frame whose function name should be returned. If |
| the caller does not specify a value, this function will set the value to |
| 1 which is the index of the caller's stack frame. If the caller is the |
| wrapper function "print_func_name", this function will bump it up by 1. |
| """ |
| |
| # If user specified no stack_frame_ix, we'll set it to a proper default value. |
| if stack_frame_ix is None: |
| func_name = sys._getframe().f_code.co_name |
| caller_func_name = sys._getframe(1).f_code.co_name |
| if func_name[1:] == caller_func_name: |
| stack_frame_ix = 2 |
| else: |
| stack_frame_ix = 1 |
| |
| func_name = sys._getframe(stack_frame_ix).f_code.co_name |
| |
| return func_name |
| |
| |
| def work_around_inspect_stack_cwd_failure(): |
| r""" |
| Work around the inspect.stack() getcwd() failure by making "/tmp" the current working directory. |
| |
| NOTES: If the current working directory has been deleted, inspect.stack() will fail with "OSError: [Errno |
| 2] No such file or directory" because it tries to do a getcwd(). |
| |
| This function will try to prevent this failure by detecting the scenario in advance and making "/tmp" the |
| current working directory. |
| """ |
| try: |
| os.getcwd() |
| except OSError: |
| os.chdir("/tmp") |
| |
| |
| def get_line_indent(line): |
| r""" |
| Return the number of spaces at the beginning of the line. |
| """ |
| |
| return len(line) - len(line.lstrip(' ')) |
| |
| |
| # get_arg_name is not a print function per se. It has been included in this module because it is used by |
| # sprint_var which is defined in this module. |
| def get_arg_name(var, |
| arg_num=1, |
| stack_frame_ix=1): |
| r""" |
| Return the "name" of an argument passed to a function. This could be a literal or a variable name. |
| |
| Description of argument(s): |
| var The variable whose name is to be returned. |
| arg_num The arg number whose name is to be returned. To illustrate how arg_num |
| is processed, suppose that a programmer codes this line: "rc, outbuf = |
| my_func(var1, var2)" and suppose that my_func has this line of code: |
| "result = gp.get_arg_name(0, arg_num, 2)". If arg_num is positive, the |
| indicated argument is returned. For example, if arg_num is 1, "var1" |
| would be returned, If arg_num is 2, "var2" would be returned. If arg_num |
| exceeds the number of arguments, get_arg_name will simply return a |
| complete list of the arguments. If arg_num is 0, get_arg_name will |
| return the name of the target function as specified in the calling line |
| ("my_func" in this case). To clarify, if the caller of the target |
| function uses an alias function name, the alias name would be returned. |
| If arg_num is negative, an lvalue variable name is returned. Continuing |
| with the given example, if arg_num is -2 the 2nd parm to the left of the |
| "=" ("rc" in this case) should be returned. If arg_num is -1, the 1st |
| parm to the left of the "=" ("out_buf" in this case) should be returned. |
| If arg_num is less than -2, an entire dictionary is returned. The keys |
| to the dictionary for this example would be -2 and -1. |
| stack_frame_ix The stack frame index of the target function. This value must be 1 or |
| greater. 1 would indicate get_arg_name's stack frame. 2 would be the |
| caller of get_arg_name's stack frame, etc. |
| |
| Example 1: |
| |
| my_var = "mike" |
| var_name = get_arg_name(my_var) |
| |
| In this example, var_name will receive the value "my_var". |
| |
| Example 2: |
| |
| def test1(var): |
| # Getting the var name of the first arg to this function, test1. Note, in this case, it doesn't |
| # matter what is passed as the first arg to get_arg_name since it is the caller's variable name that |
| # matters. |
| dummy = 1 |
| arg_num = 1 |
| stack_frame = 2 |
| var_name = get_arg_name(dummy, arg_num, stack_frame) |
| |
| # Mainline... |
| |
| another_var = "whatever" |
| test1(another_var) |
| |
| In this example, var_name will be set to "another_var". |
| |
| """ |
| |
| # Note: To avoid infinite recursion, avoid calling any function that calls this function (e.g. |
| # sprint_var, valid_value, etc.). |
| |
| # The user can set environment variable "GET_ARG_NAME_DEBUG" to get debug output from this function. |
| local_debug = int(os.environ.get('GET_ARG_NAME_DEBUG', 0)) |
| # In addition to GET_ARG_NAME_DEBUG, the user can set environment variable "GET_ARG_NAME_SHOW_SOURCE" to |
| # have this function include source code in the debug output. |
| local_debug_show_source = int( |
| os.environ.get('GET_ARG_NAME_SHOW_SOURCE', 0)) |
| |
| if stack_frame_ix < 1: |
| print_error("Programmer error - Variable \"stack_frame_ix\" has an" |
| + " invalid value of \"" + str(stack_frame_ix) + "\". The" |
| + " value must be an integer that is greater than or equal" |
| + " to 1.\n") |
| return |
| |
| if local_debug: |
| debug_indent = 2 |
| print("") |
| print_dashes(0, 120) |
| print(sprint_func_name() + "() parms:") |
| print_varx("var", var, indent=debug_indent) |
| print_varx("arg_num", arg_num, indent=debug_indent) |
| print_varx("stack_frame_ix", stack_frame_ix, indent=debug_indent) |
| print("") |
| print_call_stack(debug_indent, 2) |
| |
| work_around_inspect_stack_cwd_failure() |
| for count in range(0, 2): |
| try: |
| frame, filename, cur_line_no, function_name, lines, index = \ |
| inspect.stack()[stack_frame_ix] |
| except IndexError: |
| print_error("Programmer error - The caller has asked for" |
| + " information about the stack frame at index \"" |
| + str(stack_frame_ix) + "\". However, the stack" |
| + " only contains " + str(len(inspect.stack())) |
| + " entries. Therefore the stack frame index is out" |
| + " of range.\n") |
| return |
| if filename != "<string>": |
| break |
| # filename of "<string>" may mean that the function in question was defined dynamically and |
| # therefore its code stack is inaccessible. This may happen with functions like "rqprint_var". In |
| # this case, we'll increment the stack_frame_ix and try again. |
| stack_frame_ix += 1 |
| if local_debug: |
| print("Adjusted stack_frame_ix...") |
| print_varx("stack_frame_ix", stack_frame_ix, indent=debug_indent) |
| |
| real_called_func_name = sprint_func_name(stack_frame_ix) |
| |
| module = inspect.getmodule(frame) |
| |
| # Though one would expect inspect.getsourcelines(frame) to get all module source lines if the frame is |
| # "<module>", it doesn't do that. Therefore, for this special case, do inspect.getsourcelines(module). |
| if function_name == "<module>": |
| source_lines, source_line_num =\ |
| inspect.getsourcelines(module) |
| line_ix = cur_line_no - source_line_num - 1 |
| else: |
| source_lines, source_line_num =\ |
| inspect.getsourcelines(frame) |
| line_ix = cur_line_no - source_line_num |
| |
| if local_debug: |
| print("\n Variables retrieved from inspect.stack() function:") |
| print_varx("frame", frame, indent=debug_indent + 2) |
| print_varx("filename", filename, indent=debug_indent + 2) |
| print_varx("cur_line_no", cur_line_no, indent=debug_indent + 2) |
| print_varx("function_name", function_name, indent=debug_indent + 2) |
| print_varx("lines", lines, indent=debug_indent + 2) |
| print_varx("index", index, indent=debug_indent + 2) |
| print_varx("source_line_num", source_line_num, indent=debug_indent) |
| print_varx("line_ix", line_ix, indent=debug_indent) |
| if local_debug_show_source: |
| print_varx("source_lines", source_lines, indent=debug_indent) |
| print_varx("real_called_func_name", real_called_func_name, |
| indent=debug_indent) |
| |
| # Get a list of all functions defined for the module. Note that this doesn't work consistently when |
| # _run_exitfuncs is at the top of the stack (i.e. if we're running an exit function). I've coded a |
| # work-around below for this deficiency. |
| all_functions = inspect.getmembers(module, inspect.isfunction) |
| |
| # Get called_func_id by searching for our function in the list of all functions. |
| called_func_id = None |
| for func_name, function in all_functions: |
| if func_name == real_called_func_name: |
| called_func_id = id(function) |
| break |
| # NOTE: The only time I've found that called_func_id can't be found is when we're running from an exit |
| # function. |
| |
| # Look for other functions in module with matching id. |
| aliases = set([real_called_func_name]) |
| for func_name, function in all_functions: |
| if func_name == real_called_func_name: |
| continue |
| func_id = id(function) |
| if func_id == called_func_id: |
| aliases.add(func_name) |
| |
| # In most cases, my general purpose code above will find all aliases. However, for the odd case (i.e. |
| # running from exit function), I've added code to handle pvar, qpvar, dpvar, etc. aliases explicitly |
| # since they are defined in this module and used frequently. |
| # pvar is an alias for print_var. |
| aliases.add(re.sub("print_var", "pvar", real_called_func_name)) |
| |
| # The call to the function could be encased in a recast (e.g. int(func_name())). |
| recast_regex = "([^ ]+\\([ ]*)?" |
| import_name_regex = "([a-zA-Z0-9_]+\\.)?" |
| func_name_regex = recast_regex + import_name_regex + "(" +\ |
| '|'.join(aliases) + ")" |
| pre_args_regex = ".*" + func_name_regex + "[ ]*\\(" |
| |
| # Search backward through source lines looking for the calling function name. |
| found = False |
| for start_line_ix in range(line_ix, 0, -1): |
| # Skip comment lines. |
| if re.match(r"[ ]*#", source_lines[start_line_ix]): |
| continue |
| if re.match(pre_args_regex, source_lines[start_line_ix]): |
| found = True |
| break |
| if not found: |
| print_error("Programmer error - Could not find the source line with" |
| + " a reference to function \"" + real_called_func_name |
| + "\".\n") |
| return |
| |
| # Search forward through the source lines looking for a line whose indentation is the same or less than |
| # the start line. The end of our composite line should be the line preceding that line. |
| start_indent = get_line_indent(source_lines[start_line_ix]) |
| end_line_ix = line_ix |
| for end_line_ix in range(line_ix + 1, len(source_lines)): |
| if source_lines[end_line_ix].strip() == "": |
| continue |
| line_indent = get_line_indent(source_lines[end_line_ix]) |
| if line_indent <= start_indent: |
| end_line_ix -= 1 |
| break |
| if start_line_ix != 0: |
| # Check to see whether the start line is a continuation of the prior line. |
| prior_line = source_lines[start_line_ix - 1] |
| prior_line_stripped = re.sub(r"[ ]*\\([\r\n]$)", " \\1", prior_line) |
| prior_line_indent = get_line_indent(prior_line) |
| if prior_line != prior_line_stripped and\ |
| prior_line_indent < start_indent: |
| start_line_ix -= 1 |
| # Remove the backslash (continuation char) from prior line. |
| source_lines[start_line_ix] = prior_line_stripped |
| |
| # Join the start line through the end line into a composite line. |
| composite_line = ''.join(map(str.strip, |
| source_lines[start_line_ix:end_line_ix + 1])) |
| # Insert one space after first "=" if there isn't one already. |
| composite_line = re.sub("=[ ]*([^ ])", "= \\1", composite_line, 1) |
| |
| lvalue_regex = "[ ]*=[ ]+" + func_name_regex + ".*" |
| lvalue_string = re.sub(lvalue_regex, "", composite_line) |
| if lvalue_string == composite_line: |
| # i.e. the regex did not match so there are no lvalues. |
| lvalue_string = "" |
| lvalues_list = list(filter(None, map(str.strip, lvalue_string.split(",")))) |
| try: |
| lvalues = collections.OrderedDict() |
| except AttributeError: |
| # A non-ordered dict doesn't look as nice when printed but it will do. |
| lvalues = {} |
| ix = len(lvalues_list) * -1 |
| for lvalue in lvalues_list: |
| lvalues[ix] = lvalue |
| ix += 1 |
| lvalue_prefix_regex = "(.*=[ ]+)?" |
| called_func_name_regex = lvalue_prefix_regex + func_name_regex +\ |
| "[ ]*\\(.*" |
| called_func_name = re.sub(called_func_name_regex, "\\4", composite_line) |
| arg_list_etc = "(" + re.sub(pre_args_regex, "", composite_line) |
| if local_debug: |
| print_varx("aliases", aliases, indent=debug_indent) |
| print_varx("import_name_regex", import_name_regex, indent=debug_indent) |
| print_varx("func_name_regex", func_name_regex, indent=debug_indent) |
| print_varx("pre_args_regex", pre_args_regex, indent=debug_indent) |
| print_varx("start_line_ix", start_line_ix, indent=debug_indent) |
| print_varx("end_line_ix", end_line_ix, indent=debug_indent) |
| print_varx("composite_line", composite_line, indent=debug_indent) |
| print_varx("lvalue_regex", lvalue_regex, indent=debug_indent) |
| print_varx("lvalue_string", lvalue_string, indent=debug_indent) |
| print_varx("lvalues", lvalues, indent=debug_indent) |
| print_varx("called_func_name_regex", called_func_name_regex, |
| indent=debug_indent) |
| print_varx("called_func_name", called_func_name, indent=debug_indent) |
| print_varx("arg_list_etc", arg_list_etc, indent=debug_indent) |
| |
| # Parse arg list... |
| # Initialize... |
| nest_level = -1 |
| arg_ix = 0 |
| args_list = [""] |
| for ix in range(0, len(arg_list_etc)): |
| char = arg_list_etc[ix] |
| # Set the nest_level based on whether we've encounted a parenthesis. |
| if char == "(": |
| nest_level += 1 |
| if nest_level == 0: |
| continue |
| elif char == ")": |
| nest_level -= 1 |
| if nest_level < 0: |
| break |
| |
| # If we reach a comma at base nest level, we are done processing an argument so we increment arg_ix |
| # and initialize a new args_list entry. |
| if char == "," and nest_level == 0: |
| arg_ix += 1 |
| args_list.append("") |
| continue |
| |
| # For any other character, we append it it to the current arg list entry. |
| args_list[arg_ix] += char |
| |
| # Trim whitespace from each list entry. |
| args_list = [arg.strip() for arg in args_list] |
| |
| if arg_num < 0: |
| if abs(arg_num) > len(lvalues): |
| argument = lvalues |
| else: |
| argument = lvalues[arg_num] |
| elif arg_num == 0: |
| argument = called_func_name |
| else: |
| if arg_num > len(args_list): |
| argument = args_list |
| else: |
| argument = args_list[arg_num - 1] |
| |
| if local_debug: |
| print_varx("args_list", args_list, indent=debug_indent) |
| print_varx("argument", argument, indent=debug_indent) |
| print_dashes(0, 120) |
| |
| return argument |
| |
| |
| def sprint_time(buffer=""): |
| r""" |
| Return the time in the following format. |
| |
| Example: |
| |
| The following python code... |
| |
| sys.stdout.write(sprint_time()) |
| sys.stdout.write("Hi.\n") |
| |
| Will result in the following type of output: |
| |
| #(CDT) 2016/07/08 15:25:35 - Hi. |
| |
| Example: |
| |
| The following python code... |
| |
| sys.stdout.write(sprint_time("Hi.\n")) |
| |
| Will result in the following type of output: |
| |
| #(CDT) 2016/08/03 17:12:05 - Hi. |
| |
| The following environment variables will affect the formatting as described: |
| NANOSECONDS This will cause the time stamps to be precise to the microsecond (Yes, it |
| probably should have been named MICROSECONDS but the convention was set |
| long ago so we're sticking with it). Example of the output when |
| environment variable NANOSECONDS=1. |
| |
| #(CDT) 2016/08/03 17:16:25.510469 - Hi. |
| |
| SHOW_ELAPSED_TIME This will cause the elapsed time to be included in the output. This is |
| the amount of time that has elapsed since the last time this function was |
| called. The precision of the elapsed time field is also affected by the |
| value of the NANOSECONDS environment variable. Example of the output |
| when environment variable NANOSECONDS=0 and SHOW_ELAPSED_TIME=1. |
| |
| #(CDT) 2016/08/03 17:17:40 - 0 - Hi. |
| |
| Example of the output when environment variable NANOSECONDS=1 and SHOW_ELAPSED_TIME=1. |
| |
| #(CDT) 2016/08/03 17:18:47.317339 - 0.000046 - Hi. |
| |
| Description of argument(s). |
| buffer This will be appended to the formatted time string. |
| """ |
| |
| global NANOSECONDS |
| global SHOW_ELAPSED_TIME |
| global sprint_time_last_seconds |
| global last_seconds_ix |
| |
| seconds = time.time() |
| loc_time = time.localtime(seconds) |
| nanoseconds = "%0.6f" % seconds |
| pos = nanoseconds.find(".") |
| nanoseconds = nanoseconds[pos:] |
| |
| time_string = time.strftime("#(%Z) %Y/%m/%d %H:%M:%S", loc_time) |
| if NANOSECONDS == "1": |
| time_string = time_string + nanoseconds |
| |
| if SHOW_ELAPSED_TIME == "1": |
| cur_time_seconds = seconds |
| math_string = "%9.9f" % cur_time_seconds + " - " + "%9.9f" % \ |
| sprint_time_last_seconds[last_seconds_ix] |
| elapsed_seconds = eval(math_string) |
| if NANOSECONDS == "1": |
| elapsed_seconds = "%11.6f" % elapsed_seconds |
| else: |
| elapsed_seconds = "%4i" % elapsed_seconds |
| sprint_time_last_seconds[last_seconds_ix] = cur_time_seconds |
| time_string = time_string + " - " + elapsed_seconds |
| |
| return time_string + " - " + buffer |
| |
| |
| def sprint_timen(buffer=""): |
| r""" |
| Append a line feed to the buffer, pass it to sprint_time and return the result. |
| """ |
| |
| return sprint_time(buffer + "\n") |
| |
| |
| def sprint_error(buffer=""): |
| r""" |
| Return a standardized error string. This includes: |
| - A time stamp |
| - The "**ERROR**" string |
| - The caller's buffer string. |
| |
| Example: |
| |
| The following python code... |
| |
| print(sprint_error("Oops.\n")) |
| |
| Will result in the following type of output: |
| |
| #(CDT) 2016/08/03 17:12:05 - **ERROR** Oops. |
| |
| Description of argument(s). |
| buffer This will be appended to the formatted error string. |
| """ |
| |
| return sprint_time() + "**ERROR** " + buffer |
| |
| |
| # Implement "constants" with functions. |
| def digit_length_in_bits(): |
| r""" |
| Return the digit length in bits. |
| """ |
| |
| return 4 |
| |
| |
| def word_length_in_digits(): |
| r""" |
| Return the word length in digits. |
| """ |
| |
| return 8 |
| |
| |
| def bit_length(number): |
| r""" |
| Return the bit length of the number. |
| |
| Description of argument(s): |
| number The number to be analyzed. |
| """ |
| |
| if number < 0: |
| # Convert negative numbers to positive and subtract one. The following example illustrates the |
| # reason for this: |
| # Consider a single nibble whose signed values can range from -8 to 7 (0x8 to 0x7). A value of 0x7 |
| # equals 0b0111. Therefore, its length in bits is 3. Since the negative bit (i.e. 0b1000) is not |
| # set, the value 7 clearly will fit in one nibble. With -8 = 0x8 = 0b1000, one has the smallest |
| # negative value that will fit. Note that it requires 3 bits of 0. So by converting a number value |
| # of -8 to a working_number of 7, this function can accurately calculate the number of bits and |
| # therefore nibbles required to represent the number in print. |
| working_number = abs(number) - 1 |
| else: |
| working_number = number |
| |
| # Handle the special case of the number 0. |
| if working_number == 0: |
| return 0 |
| |
| return len(bin(working_number)) - 2 |
| |
| |
| def get_req_num_hex_digits(number): |
| r""" |
| Return the required number of hex digits required to display the given number. |
| |
| The returned value will always be rounded up to the nearest multiple of 8. |
| |
| Description of argument(s): |
| number The number to be analyzed. |
| """ |
| |
| if number < 0: |
| # Convert negative numbers to positive and subtract one. The following example illustrates the |
| # reason for this: |
| # Consider a single nibble whose signed values can range from -8 to 7 (0x8 to 0x7). A value of 0x7 |
| # equals 0b0111. Therefore, its length in bits is 3. Since the negative bit (i.e. 0b1000) is not |
| # set, the value 7 clearly will fit in one nibble. With -8 = 0x8 = 0b1000, one has the smallest |
| # negative value that will fit. Note that it requires 3 bits of 0. So by converting a number value |
| # of -8 to a working_number of 7, this function can accurately calculate the number of bits and |
| # therefore nibbles required to represent the number in print. |
| working_number = abs(number) - 1 |
| else: |
| working_number = number |
| |
| # Handle the special case of the number 0. |
| if working_number == 0: |
| return word_length_in_digits() |
| |
| num_length_in_bits = bit_length(working_number) |
| num_hex_digits, remainder = divmod(num_length_in_bits, |
| digit_length_in_bits()) |
| if remainder > 0: |
| # Example: the number 7 requires 3 bits. The divmod above produces, 0 with remainder of 3. So |
| # because we have a remainder, we increment num_hex_digits from 0 to 1. |
| num_hex_digits += 1 |
| |
| # Check to see whether the negative bit is set. This is the left-most bit in the highest order digit. |
| negative_mask = 2 ** (num_hex_digits * 4 - 1) |
| if working_number & negative_mask: |
| # If a number that is intended to be positive has its negative bit on, an additional digit will be |
| # required to represent it correctly in print. |
| num_hex_digits += 1 |
| |
| num_words, remainder = divmod(num_hex_digits, word_length_in_digits()) |
| if remainder > 0 or num_words == 0: |
| num_words += 1 |
| |
| # Round up to the next word length in digits. |
| return num_words * word_length_in_digits() |
| |
| |
| def dft_num_hex_digits(): |
| r""" |
| Return the default number of hex digits to be used to represent a hex number in print. |
| |
| The value returned is a function of sys.maxsize. |
| """ |
| |
| global _gen_print_dft_num_hex_digits_ |
| try: |
| return _gen_print_dft_num_hex_digits_ |
| except NameError: |
| _gen_print_dft_num_hex_digits_ = get_req_num_hex_digits(sys.maxsize) |
| return _gen_print_dft_num_hex_digits_ |
| |
| |
| # Create constant functions to describe various types of dictionaries. |
| def dict_type(): |
| return 1 |
| |
| |
| def ordered_dict_type(): |
| return 2 |
| |
| |
| def dot_dict_type(): |
| return 3 |
| |
| |
| def normalized_dict_type(): |
| return 4 |
| |
| |
| def proxy_dict_type(): |
| return 5 |
| |
| |
| def is_dict(var_value): |
| r""" |
| Return non-zero if var_value is a type of dictionary and 0 if it is not. |
| |
| The specific non-zero value returned will indicate what type of dictionary var_value is (see constant |
| functions above). |
| |
| Description of argument(s): |
| var_value The object to be analyzed to determine whether it is a dictionary and if |
| so, what type of dictionary. |
| """ |
| |
| if isinstance(var_value, dict): |
| return dict_type() |
| try: |
| if isinstance(var_value, collections.OrderedDict): |
| return ordered_dict_type() |
| except AttributeError: |
| pass |
| try: |
| if isinstance(var_value, DotDict): |
| return dot_dict_type() |
| except NameError: |
| pass |
| try: |
| if isinstance(var_value, NormalizedDict): |
| return normalized_dict_type() |
| except NameError: |
| pass |
| try: |
| if str(type(var_value)).split("'")[1] == "dictproxy": |
| return proxy_dict_type() |
| except NameError: |
| pass |
| return 0 |
| |
| |
| def get_int_types(): |
| r""" |
| Return a tuple consisting of the valid integer data types for the system and version of python being run. |
| |
| Example: |
| (int, long) |
| """ |
| |
| try: |
| int_types = (int, long) |
| except NameError: |
| int_types = (int,) |
| return int_types |
| |
| |
| def get_string_types(): |
| r""" |
| Return a tuple consisting of the valid string data types for the system and version of python being run. |
| |
| Example: |
| (str, unicode) |
| """ |
| |
| try: |
| string_types = (str, unicode) |
| except NameError: |
| string_types = (bytes, str) |
| return string_types |
| |
| |
| def valid_fmts(): |
| r""" |
| Return a list of the valid formats that can be specified for the fmt argument of the sprint_varx function |
| (defined below). |
| """ |
| |
| return [ |
| 'hexa', |
| 'octal', |
| 'binary', |
| 'blank', |
| 'verbose', |
| 'quote_keys', |
| 'show_type', |
| 'strip_brackets', |
| 'no_header', |
| 'quote_values'] |
| |
| |
| def create_fmt_definition(): |
| r""" |
| Create a string consisting of function-definition code that can be executed to create constant fmt |
| definition functions. |
| |
| These functions can be used by callers of sprint_var/sprint_varx to set the fmt argument correctly. |
| |
| Likewise, the sprint_varx function will use these generated functions to correctly interpret the fmt |
| argument. |
| |
| Example output from this function: |
| |
| def hexa(): |
| return 0x00000001 |
| def octal_fmt(): |
| return 0x00000002 |
| etc. |
| """ |
| |
| buffer = "" |
| bits = 0x00000001 |
| for fmt_name in valid_fmts(): |
| buffer += "def " + fmt_name + "():\n" |
| buffer += " return " + "0x%08x" % bits + "\n" |
| bits = bits << 1 |
| return buffer |
| |
| |
| # Dynamically create fmt definitions (for use with the fmt argument of sprint_varx function): |
| exec(create_fmt_definition()) |
| |
| |
| def terse(): |
| r""" |
| Constant function to return fmt value of 0. |
| |
| Now that sprint_varx defaults to printing in terse format, the terse option is deprecated. This function |
| is here for backward compatibility. |
| |
| Once the repo has been purged of the use of terse, this function can be removed. |
| """ |
| |
| return 0 |
| |
| |
| def list_pop(a_list, index=0, default=None): |
| r""" |
| Pop the list entry indicated by the index and return the entry. If no such entry exists, return default. |
| |
| Note that the list passed to this function will be modified. |
| |
| Description of argument(s): |
| a_list The list from which an entry is to be popped. |
| index The index indicating which entry is to be popped. |
| default The value to be returned if there is no entry at the given index location. |
| """ |
| try: |
| return a_list.pop(index) |
| except IndexError: |
| return default |
| |
| |
| def parse_fmt(fmt): |
| r""" |
| Parse the fmt argument and return a tuple consisting of a format and a child format. |
| |
| This function was written for use by the sprint_varx function defined in this module. |
| |
| When sprint_varx is processing a multi-level object such as a list or dictionary (which in turn may |
| contain other lists or dictionaries), it will use the fmt value to dictate the print formatting of the |
| current level and the child_fmt value to dictate the print formatting of subordinate levels. Consider |
| the following example: |
| |
| python code example: |
| |
| ord_dict = \ |
| collections.OrderedDict([ |
| ('one', 1), |
| ('two', 2), |
| ('sub', |
| collections.OrderedDict([ |
| ('three', 3), ('four', 4)]))]) |
| |
| print_var(ord_dict) |
| |
| This would generate the following output: |
| |
| ord_dict: |
| [one]: 1 |
| [two]: 2 |
| [sub]: |
| [three]: 3 |
| [four]: 4 |
| |
| The first level in this example is the line that simply says "ord_dict". The second level is comprised |
| of the dictionary entries with the keys 'one', 'two' and 'sub'. The third level is comprised of the last |
| 2 lines (i.e. printed values 3 and 4). |
| |
| Given the data structure shown above, the programmer could code the following where fmt is a simple |
| integer value set by calling the verbose() function. |
| |
| print_var(ord_dict, fmt=verbose()) |
| |
| The output would look like this: |
| |
| ord_dict: |
| ord_dict[one]: 1 |
| ord_dict[two]: 2 |
| ord_dict[sub]: |
| ord_dict[sub][three]: 3 |
| ord_dict[sub][four]: 4 |
| |
| Note the verbose format where the name of the object ("ord_dict") is repeated on every line. |
| |
| If the programmer wishes to get more granular with the fmt argument, he/she can specify it as a list |
| where each entry corresponds to a level of the object being printed. The last such list entry governs |
| the print formatting of all subordinate parts of the given object. |
| |
| Look at each of the following code examples and their corresponding output. See how the show_type() |
| formatting affects the printing depending on which position it occupies in the fmt list argument: |
| |
| print_var(ord_dict, fmt=[show_type()]) |
| |
| ord_dict: <collections.OrderedDict> |
| ord_dict[one]: 1 <int> |
| ord_dict[two]: 2 <int> |
| ord_dict[sub]: <collections.OrderedDict> |
| ord_dict[sub][three]: 3 <int> |
| ord_dict[sub][four]: 4 <int> |
| |
| print_var(ord_dict, fmt=[0, show_type()]) |
| |
| ord_dict: |
| ord_dict[one]: 1 <int> |
| ord_dict[two]: 2 <int> |
| ord_dict[sub]: <collections.OrderedDict> |
| ord_dict[sub][three]: 3 <int> |
| ord_dict[sub][four]: 4 <int> |
| |
| print_var(ord_dict, fmt=[0, 0, show_type()]) |
| |
| ord_dict: |
| ord_dict[one]: 1 |
| ord_dict[two]: 2 |
| ord_dict[sub]: |
| ord_dict[sub][three]: 3 <int> |
| ord_dict[sub][four]: 4 <int> |
| |
| Description of argument(s): |
| fmt The format argument such as is passed to sprint_varx. This argument may |
| be an integer or a list of integers. See the prolog of sprint_varx for |
| more details. |
| """ |
| |
| # Make a deep copy of the fmt argument in order to avoid modifying the caller's fmt value when it is a |
| # list. |
| fmt = copy.deepcopy(fmt) |
| try: |
| # Assume fmt is a list. Pop the first element from the list. |
| first_element = list_pop(fmt, index=0, default=0) |
| # Return the first list element along with either 1) the remainder of the fmt list if not null or 2) |
| # another copy of the first element. |
| return first_element, fmt if len(fmt) else first_element |
| except AttributeError: |
| # fmt is not a list so treat it as a simple integer value. |
| return fmt, fmt |
| |
| |
| def sprint_varx(var_name, |
| var_value, |
| fmt=0, |
| indent=dft_indent, |
| col1_width=dft_col1_width, |
| trailing_char="\n", |
| key_list=None, |
| delim=":"): |
| r""" |
| Print the var name/value passed to it. If the caller lets col1_width default, the printing lines up |
| nicely with output generated by the print_time functions. |
| |
| Note that the sprint_var function (defined below) can be used to call this function so that the |
| programmer does not need to pass the var_name. sprint_var will figure out the var_name. The sprint_var |
| function is the one that would normally be used by the general user. |
| |
| For example, the following python code: |
| |
| first_name = "Mike" |
| print_time("Doing this...\n") |
| print_varx("first_name", first_name) |
| print_time("Doing that...\n") |
| |
| Will generate output like this: |
| |
| #(CDT) 2016/08/10 17:34:42.847374 - 0.001285 - Doing this... |
| first_name: Mike |
| #(CDT) 2016/08/10 17:34:42.847510 - 0.000136 - Doing that... |
| |
| This function recognizes several complex types of data such as dict, list or tuple. |
| |
| For example, the following python code: |
| |
| my_dict = dict(one=1, two=2, three=3) |
| print_var(my_dict) |
| |
| Will generate the following output: |
| |
| my_dict: |
| my_dict[three]: 3 |
| my_dict[two]: 2 |
| my_dict[one]: 1 |
| |
| Description of argument(s). |
| var_name The name of the variable to be printed. |
| var_value The value of the variable to be printed. |
| fmt A bit map to dictate the format of the output. For printing multi-level |
| objects like lists and dictionaries, this argument may also be a list of |
| bit maps. The first list element pertains to the highest level of |
| output, the second element pertains to the 2nd level of output, etc. The |
| last element in the list pertains to all subordinate levels. The bits |
| can be set using the dynamically created functionhs above. Example: |
| sprint_varx("var1", var1, fmt=verbose()). Note that these values can be |
| OR'ed together: print_var(var1, hexa() | verbose()). If the caller ORs |
| mutually exclusive bits (hexa() | octal()), behavior is not guaranteed. |
| The following features are supported: |
| hexa Print all integer values in hexadecimal format. |
| octal Print all integer values in octal format. |
| binary Print all integer values in binary format. |
| blank For blank string values, print "<blank>" instead of an actual blank. |
| verbose For structured values like dictionaries, lists, etc. repeat the name of |
| the variable on each line to the right of the key or subscript value. |
| Example: print "my_dict[key1]" instead of just "[key1]". |
| quote_keys Quote dictionary keys in the output. Example: my_dict['key1'] instead of |
| my_dict[key1]. |
| show_type Show the type of the data in angled brackets just to the right of the |
| data. |
| strip_brackets Strip the brackets from the variable name portion of the output. This is |
| applicable when printing complex objects like lists or dictionaries. |
| no_header For complex objects like dictionaries, do not include a header line. |
| This necessarily means that the member lines will be indented 2 |
| characters less than they otherwise would have been. |
| quote_values Quote the values printed. |
| indent The number of spaces to indent the output. |
| col1_width The width of the output column containing the variable name. The default |
| value of this is adjusted so that the var_value lines up with text |
| printed via the print_time function. |
| trailing_char The character to be used at the end of the returned string. The default |
| value is a line feed. |
| key_list A list of which dictionary keys should be printed. All others keys will |
| be skipped. Each value in key_list will be regarded as a regular |
| expression and it will be regarded as anchored to the beginning and ends |
| of the dictionary key being referenced. For example if key_list is |
| ["one", "two"], the resulting regex used will be "^one|two$", i.e. only |
| keys "one" and "two" from the var_value dictionary will be printed. As |
| another example, if the caller were to specify a key_list of ["one.*"], |
| then only dictionary keys whose names begin with "one" will be printed. |
| Note: This argument pertains only to var_values which are dictionaries. |
| delim The value to be used to delimit the variable name from the variable value |
| in the output. |
| """ |
| |
| fmt, child_fmt = parse_fmt(fmt) |
| |
| if fmt & show_type(): |
| type_str = "<" + str(type(var_value)).split("'")[1] + ">" |
| # Compose object type categories. |
| int_types = get_int_types() |
| string_types = get_string_types() |
| simple_types = int_types + string_types + (float, bool, type, type(None)) |
| # Determine the type. |
| if type(var_value) in simple_types: |
| # The data type is simple in the sense that it has no subordinate parts. |
| # Adjust col1_width. |
| col1_width = col1_width - indent |
| # Set default value for value_format. |
| value_format = "%s" |
| # Process format requests. |
| if type(var_value) in int_types: |
| # Process format values pertaining to int types. |
| if fmt & hexa(): |
| num_hex_digits = max(dft_num_hex_digits(), |
| get_req_num_hex_digits(var_value)) |
| # Convert a negative number to its positive twos complement for proper printing. For |
| # example, instead of printing -1 as "0x-000000000000001" it will be printed as |
| # "0xffffffffffffffff". |
| var_value = var_value & (2 ** (num_hex_digits * 4) - 1) |
| value_format = "0x%0" + str(num_hex_digits) + "x" |
| elif fmt & octal(): |
| value_format = "0o%016o" |
| elif fmt & binary(): |
| num_digits, remainder = \ |
| divmod(max(bit_length(var_value), 1), 8) |
| num_digits *= 8 |
| if remainder: |
| num_digits += 8 |
| num_digits += 2 |
| value_format = '#0' + str(num_digits) + 'b' |
| var_value = format(var_value, value_format) |
| value_format = "%s" |
| elif type(var_value) in string_types: |
| # Process format values pertaining to string types. |
| if fmt & blank() and var_value == "": |
| value_format = "%s" |
| var_value = "<blank>" |
| elif type(var_value) is type: |
| var_value = str(var_value).split("'")[1] |
| format_string = "%" + str(indent) + "s%-" + str(col1_width) + "s" \ |
| + value_format |
| if fmt & show_type(): |
| if var_value != "": |
| format_string += " " |
| format_string += type_str |
| format_string += trailing_char |
| if fmt & quote_values(): |
| var_value = "'" + var_value + "'" |
| if not (fmt & verbose()): |
| # Strip everything leading up to the first left square brace. |
| var_name = re.sub(r".*\[", "[", var_name) |
| if (fmt & strip_brackets()): |
| var_name = re.sub(r"[\[\]]", "", var_name) |
| if value_format == "0x%08x": |
| return format_string % ("", str(var_name) + delim, |
| var_value & 0xffffffff) |
| else: |
| return format_string % ("", str(var_name) + delim, var_value) |
| else: |
| # The data type is complex in the sense that it has subordinate parts. |
| if (fmt & no_header()): |
| buffer = "" |
| else: |
| # Create header line. |
| if not (fmt & verbose()): |
| # Strip everything leading up to the first square brace. |
| loc_var_name = re.sub(r".*\[", "[", var_name) |
| else: |
| loc_var_name = var_name |
| if (fmt & strip_brackets()): |
| loc_var_name = re.sub(r"[\[\]]", "", loc_var_name) |
| format_string = "%" + str(indent) + "s%s\n" |
| buffer = format_string % ("", loc_var_name + ":") |
| if fmt & show_type(): |
| buffer = buffer.replace("\n", " " + type_str + "\n") |
| indent += 2 |
| try: |
| length = len(var_value) |
| except TypeError: |
| length = 0 |
| ix = 0 |
| loc_trailing_char = "\n" |
| if is_dict(var_value): |
| if type(child_fmt) is list: |
| child_quote_keys = (child_fmt[0] & quote_keys()) |
| else: |
| child_quote_keys = (child_fmt & quote_keys()) |
| for key, value in var_value.items(): |
| if key_list is not None: |
| key_list_regex = "^" + "|".join(key_list) + "$" |
| if not re.match(key_list_regex, key): |
| continue |
| ix += 1 |
| if ix == length: |
| loc_trailing_char = trailing_char |
| if child_quote_keys: |
| key = "'" + key + "'" |
| key = "[" + str(key) + "]" |
| buffer += sprint_varx(var_name + key, value, child_fmt, indent, |
| col1_width, loc_trailing_char, key_list, |
| delim) |
| elif type(var_value) in (list, tuple, set): |
| for key, value in enumerate(var_value): |
| ix += 1 |
| if ix == length: |
| loc_trailing_char = trailing_char |
| key = "[" + str(key) + "]" |
| buffer += sprint_varx(var_name + key, value, child_fmt, indent, |
| col1_width, loc_trailing_char, key_list, |
| delim) |
| elif isinstance(var_value, argparse.Namespace): |
| for key in var_value.__dict__: |
| ix += 1 |
| if ix == length: |
| loc_trailing_char = trailing_char |
| cmd_buf = "buffer += sprint_varx(var_name + \".\" + str(key)" \ |
| + ", var_value." + key + ", child_fmt, indent," \ |
| + " col1_width, loc_trailing_char, key_list," \ |
| + " delim)" |
| exec(cmd_buf) |
| else: |
| var_type = type(var_value).__name__ |
| func_name = sys._getframe().f_code.co_name |
| var_value = "<" + var_type + " type not supported by " + \ |
| func_name + "()>" |
| value_format = "%s" |
| indent -= 2 |
| # Adjust col1_width. |
| col1_width = col1_width - indent |
| format_string = "%" + str(indent) + "s%-" \ |
| + str(col1_width) + "s" + value_format + trailing_char |
| return format_string % ("", str(var_name) + ":", var_value) |
| |
| return buffer |
| |
| return "" |
| |
| |
| def sprint_var(*args, **kwargs): |
| r""" |
| Figure out the name of the first argument for the caller and then call sprint_varx with it. Therefore, |
| the following 2 calls are equivalent: |
| sprint_varx("var1", var1) |
| sprint_var(var1) |
| |
| See sprint_varx for description of arguments. |
| """ |
| |
| stack_frame = 2 |
| caller_func_name = sprint_func_name(2) |
| if caller_func_name.endswith("print_var"): |
| stack_frame += 1 |
| # Get the name of the first variable passed to this function. |
| var_name = get_arg_name(None, 1, stack_frame) |
| return sprint_varx(var_name, *args, **kwargs) |
| |
| |
| def sprint_vars(*args, **kwargs): |
| r""" |
| Sprint the values of one or more variables. |
| |
| Description of argument(s): |
| args The variable values which are to be printed. |
| kwargs See sprint_varx (above) for description of additional arguments. |
| """ |
| |
| stack_frame = 2 |
| caller_func_name = sprint_func_name(2) |
| if caller_func_name.endswith("print_vars"): |
| stack_frame += 1 |
| |
| buffer = "" |
| arg_num = 1 |
| for var_value in args: |
| var_name = get_arg_name(None, arg_num, stack_frame) |
| buffer += sprint_varx(var_name, var_value, **kwargs) |
| arg_num += 1 |
| |
| return buffer |
| |
| |
| def sprint_dashes(indent=dft_indent, |
| width=80, |
| line_feed=1, |
| char="-"): |
| r""" |
| Return a string of dashes to the caller. |
| |
| Description of argument(s): |
| indent The number of characters to indent the output. |
| width The width of the string of dashes. |
| line_feed Indicates whether the output should end with a line feed. |
| char The character to be repeated in the output string. |
| """ |
| |
| width = int(width) |
| buffer = " " * int(indent) + char * width |
| if line_feed: |
| buffer += "\n" |
| |
| return buffer |
| |
| |
| def sindent(text="", |
| indent=0): |
| r""" |
| Pre-pend the specified number of characters to the text string (i.e. indent it) and return it. |
| |
| Description of argument(s): |
| text The string to be indented. |
| indent The number of characters to indent the string. |
| """ |
| |
| format_string = "%" + str(indent) + "s%s" |
| buffer = format_string % ("", text) |
| |
| return buffer |
| |
| |
| func_line_style_std = None |
| func_line_style_short = 1 |
| |
| |
| def sprint_func_line(stack_frame, style=None, max_width=160): |
| r""" |
| For the given stack_frame, return a formatted string containing the function name and all its arguments. |
| |
| Example: |
| |
| func1(last_name = 'walsh', first_name = 'mikey') |
| |
| Description of argument(s): |
| stack_frame A stack frame (such as is returned by inspect.stack()). |
| style Indicates the style or formatting of the result string. Acceptable |
| values are shown above. |
| max_width The max width of the result. If it exceeds this length, it will be |
| truncated on the right. |
| |
| Description of styles: |
| func_line_style_std The standard formatting. |
| func_line_style_short 1) The self parm (associated with methods) will be dropped. 2) The args |
| and kwargs values will be treated as special. In both cases the arg name |
| ('args' or 'kwargs') will be dropped and only the values will be shown. |
| """ |
| |
| func_name = str(stack_frame[3]) |
| if func_name == "?": |
| # "?" is the name used when code is not in a function. |
| func_name = "(none)" |
| |
| if func_name == "<module>": |
| # If the func_name is the "main" program, we simply get the command line call string. |
| func_and_args = ' '.join(sys.argv) |
| else: |
| # Get the program arguments. |
| (args, varargs, keywords, locals) =\ |
| inspect.getargvalues(stack_frame[0]) |
| |
| args_list = [] |
| for arg_name in filter(None, args + [varargs, keywords]): |
| # Get the arg value from frame locals. |
| arg_value = locals[arg_name] |
| if arg_name == 'self': |
| if style == func_line_style_short: |
| continue |
| # Manipulations to improve output for class methods. |
| func_name = arg_value.__class__.__name__ + "." + func_name |
| args_list.append(arg_name + " = <self>") |
| elif (style == func_line_style_short |
| and arg_name == 'args' |
| and type(arg_value) in (list, tuple)): |
| if len(arg_value) == 0: |
| continue |
| args_list.append(repr(', '.join(arg_value))) |
| elif (style == func_line_style_short |
| and arg_name == 'kwargs' |
| and type(arg_value) is dict): |
| for key, value in arg_value.items(): |
| args_list.append(key + "=" + repr(value)) |
| else: |
| args_list.append(arg_name + " = " + repr(arg_value)) |
| args_str = "(" + ', '.join(map(str, args_list)) + ")" |
| |
| # Now we need to print this in a nicely-wrapped way. |
| func_and_args = func_name + args_str |
| |
| if len(func_and_args) > max_width: |
| func_and_args = func_and_args[0:max_width] + "..." |
| return func_and_args |
| |
| |
| def sprint_call_stack(indent=0, |
| stack_frame_ix=0, |
| style=None): |
| r""" |
| Return a call stack report for the given point in the program with line numbers, function names and |
| function parameters and arguments. |
| |
| Sample output: |
| |
| ------------------------------------------------------------------------- |
| Python function call stack |
| |
| Line # Function name and arguments |
| ------ ------------------------------------------------------------------ |
| 424 sprint_call_stack() |
| 4 print_call_stack() |
| 31 func1(last_name = 'walsh', first_name = 'mikey') |
| 59 /tmp/scr5.py |
| ------------------------------------------------------------------------- |
| |
| Description of argument(s): |
| indent The number of characters to indent each line of output. |
| stack_frame_ix The index of the first stack frame which is to be returned. |
| style See the sprint_line_func prolog above for details. |
| """ |
| |
| buffer = "" |
| buffer += sprint_dashes(indent) |
| buffer += sindent("Python function call stack\n\n", indent) |
| buffer += sindent("Line # Function name and arguments\n", indent) |
| buffer += sprint_dashes(indent, 6, 0) + " " + sprint_dashes(0, 73) |
| |
| # Grab the current program stack. |
| work_around_inspect_stack_cwd_failure() |
| current_stack = inspect.stack() |
| |
| # Process each frame in turn. |
| format_string = "%6s %s\n" |
| ix = 0 |
| for stack_frame in current_stack: |
| if ix < stack_frame_ix: |
| ix += 1 |
| continue |
| # Make the line number shown to be the line where one finds the line shown. |
| try: |
| line_num = str(current_stack[ix + 1][2]) |
| except IndexError: |
| line_num = "" |
| func_and_args = sprint_func_line(stack_frame, style=style) |
| |
| buffer += sindent(format_string % (line_num, func_and_args), indent) |
| ix += 1 |
| |
| buffer += sprint_dashes(indent) |
| |
| return buffer |
| |
| |
| def sprint_executing(stack_frame_ix=None, style=None, max_width=None): |
| r""" |
| Print a line indicating what function is executing and with what parameter values. This is useful for |
| debugging. |
| |
| Sample output: |
| |
| #(CDT) 2016/08/25 17:54:27 - Executing: func1(x = 1) |
| |
| Description of argument(s): |
| stack_frame_ix The index of the stack frame whose function info should be returned. If |
| the caller does not specify a value, this function will set the value to |
| 1 which is the index of the caller's stack frame. If the caller is the |
| wrapper function "print_executing", this function will bump it up by 1. |
| style See the sprint_line_func prolog above for details. |
| max_width See the sprint_line_func prolog above for details. |
| """ |
| |
| # If user wants default stack_frame_ix. |
| if stack_frame_ix is None: |
| func_name = sys._getframe().f_code.co_name |
| caller_func_name = sys._getframe(1).f_code.co_name |
| if caller_func_name.endswith(func_name[1:]): |
| stack_frame_ix = 2 |
| else: |
| stack_frame_ix = 1 |
| |
| work_around_inspect_stack_cwd_failure() |
| stack_frame = inspect.stack()[stack_frame_ix] |
| |
| if max_width is None: |
| max_width = 160 - (dft_col1_width + 11) |
| func_and_args = sprint_func_line(stack_frame, style, max_width=max_width) |
| |
| return sprint_time() + "Executing: " + func_and_args + "\n" |
| |
| |
| def sprint_pgm_header(indent=0, |
| linefeed=1): |
| r""" |
| Return a standardized header that programs should print at the beginning of the run. It includes useful |
| information like command line, pid, userid, program parameters, etc. |
| |
| Description of argument(s): |
| indent The number of characters to indent each line of output. |
| linefeed Indicates whether a line feed be included at the beginning and end of the |
| report. |
| """ |
| |
| col1_width = dft_col1_width + indent |
| |
| buffer = "" |
| if linefeed: |
| buffer = "\n" |
| |
| if robot_env: |
| suite_name = BuiltIn().get_variable_value("${suite_name}") |
| buffer += sindent(sprint_time("Running test suite \"" + suite_name |
| + "\".\n"), indent) |
| |
| buffer += sindent(sprint_time() + "Running " + pgm_name + ".\n", indent) |
| buffer += sindent(sprint_time() + "Program parameter values, etc.:\n\n", |
| indent) |
| buffer += sprint_varx("command_line", ' '.join(sys.argv), 0, indent, |
| col1_width) |
| # We want the output to show a customized name for the pid and pgid but we want it to look like a valid |
| # variable name. Therefore, we'll use pgm_name_var_name which was set when this module was imported. |
| buffer += sprint_varx(pgm_name_var_name + "_pid", os.getpid(), 0, indent, |
| col1_width) |
| buffer += sprint_varx(pgm_name_var_name + "_pgid", os.getpgrp(), 0, indent, |
| col1_width) |
| userid_num = str(os.geteuid()) |
| try: |
| username = os.getlogin() |
| except OSError: |
| if userid_num == "0": |
| username = "root" |
| else: |
| username = "?" |
| buffer += sprint_varx("uid", userid_num + " (" + username |
| + ")", 0, indent, col1_width) |
| buffer += sprint_varx("gid", str(os.getgid()) + " (" |
| + str(grp.getgrgid(os.getgid()).gr_name) + ")", 0, |
| indent, col1_width) |
| buffer += sprint_varx("host_name", socket.gethostname(), 0, indent, |
| col1_width) |
| try: |
| DISPLAY = os.environ['DISPLAY'] |
| except KeyError: |
| DISPLAY = "" |
| buffer += sprint_var(DISPLAY, 0, indent, col1_width) |
| PYTHON_VERSION = os.environ.get('PYTHON_VERSION', None) |
| if PYTHON_VERSION is not None: |
| buffer += sprint_var(PYTHON_VERSION, 0, indent, col1_width) |
| PYTHON_PGM_PATH = os.environ.get('PYTHON_PGM_PATH', None) |
| if PYTHON_PGM_PATH is not None: |
| buffer += sprint_var(PYTHON_PGM_PATH, 0, indent, col1_width) |
| python_version = sys.version.replace("\n", "") |
| buffer += sprint_var(python_version, 0, indent, col1_width) |
| ROBOT_VERSION = os.environ.get('ROBOT_VERSION', None) |
| if ROBOT_VERSION is not None: |
| buffer += sprint_var(ROBOT_VERSION, 0, indent, col1_width) |
| ROBOT_PGM_PATH = os.environ.get('ROBOT_PGM_PATH', None) |
| if ROBOT_PGM_PATH is not None: |
| buffer += sprint_var(ROBOT_PGM_PATH, 0, indent, col1_width) |
| |
| # TODO: Add code to print caller's parms. |
| |
| # __builtin__.arg_obj is created by the get_arg module function, gen_get_options. |
| try: |
| buffer += ga.sprint_args(__builtin__.arg_obj, indent) |
| except AttributeError: |
| pass |
| |
| if robot_env: |
| # Get value of global parm_list. |
| parm_list = BuiltIn().get_variable_value("${parm_list}") |
| |
| for parm in parm_list: |
| parm_value = BuiltIn().get_variable_value("${" + parm + "}") |
| buffer += sprint_varx(parm, parm_value, 0, indent, col1_width) |
| |
| # Setting global program_pid. |
| BuiltIn().set_global_variable("${program_pid}", os.getpid()) |
| |
| if linefeed: |
| buffer += "\n" |
| |
| return buffer |
| |
| |
| def sprint_error_report(error_text="\n", |
| indent=2, |
| format=None, |
| stack_frame_ix=None): |
| r""" |
| Return a string with a standardized report which includes the caller's error text, the call stack and the |
| program header. |
| |
| Description of argument(s): |
| error_text The error text to be included in the report. The caller should include |
| any needed linefeeds. |
| indent The number of characters to indent each line of output. |
| format Long or short format. Long includes extras like lines of dashes, call |
| stack, etc. |
| stack_frame_ix The index of the first stack frame which is to be shown in the |
| print_call_stack portion of the error report. |
| """ |
| |
| # Process input. |
| indent = int(indent) |
| if format is None: |
| if robot_env: |
| format = 'short' |
| else: |
| format = 'long' |
| error_text = error_text.rstrip('\n') + '\n' |
| |
| if format == 'short': |
| return sprint_error(error_text) |
| |
| buffer = "" |
| buffer += sprint_dashes(width=120, char="=") |
| buffer += sprint_error(error_text) |
| buffer += "\n" |
| if not stack_frame_ix: |
| # Calling sprint_call_stack with stack_frame_ix of 0 causes it to show itself and this function in |
| # the call stack. This is not helpful to a debugger and is therefore clutter. We will adjust the |
| # stack_frame_ix to hide that information. |
| stack_frame_ix = 1 |
| caller_func_name = sprint_func_name(1) |
| if caller_func_name.endswith("print_error_report"): |
| stack_frame_ix += 1 |
| caller_func_name = sprint_func_name(2) |
| if caller_func_name.endswith("print_error_report"): |
| stack_frame_ix += 1 |
| buffer += sprint_call_stack(indent, stack_frame_ix) |
| buffer += sprint_pgm_header(indent) |
| buffer += sprint_dashes(width=120, char="=") |
| |
| return buffer |
| |
| |
| def sprint_issuing(cmd_buf, |
| test_mode=0): |
| r""" |
| Return a line indicating a command that the program is about to execute. |
| |
| Sample output for a cmd_buf of "ls" |
| |
| #(CDT) 2016/08/25 17:57:36 - Issuing: ls |
| |
| Description of argument(s): |
| cmd_buf The command to be executed by caller. |
| test_mode With test_mode set, the output will look like this: |
| |
| #(CDT) 2016/08/25 17:57:36 - (test_mode) Issuing: ls |
| |
| """ |
| |
| buffer = sprint_time() |
| if test_mode: |
| buffer += "(test_mode) " |
| if type(cmd_buf) is list: |
| # Assume this is a robot command in the form of a list. |
| cmd_buf = ' '.join([str(element) for element in cmd_buf]) |
| buffer += "Issuing: " + cmd_buf + "\n" |
| |
| return buffer |
| |
| |
| def sprint_pgm_footer(): |
| r""" |
| Return a standardized footer that programs should print at the end of the program run. It includes |
| useful information like total run time, etc. |
| """ |
| |
| buffer = "\n" + sprint_time() + "Finished running " + pgm_name + ".\n\n" |
| |
| total_time = time.time() - start_time |
| total_time_string = "%0.6f" % total_time |
| |
| buffer += sprint_varx(pgm_name_var_name + "_runtime", total_time_string) |
| buffer += "\n" |
| |
| return buffer |
| |
| |
| def sprint_file(file_path): |
| r""" |
| Return the file data as a string. |
| |
| Description of argument(s): |
| file_path The path to a file (e.g. "/tmp/file1"). |
| """ |
| |
| with open(file_path, 'r') as file: |
| buffer = file.read() |
| return buffer |
| |
| |
| def sprint(buffer=""): |
| r""" |
| Simply return the user's buffer. This function is used by the qprint and dprint functions defined |
| dynamically below, i.e. it would not normally be called for general use. |
| |
| Description of argument(s). |
| buffer This will be returned to the caller. |
| """ |
| |
| try: |
| return str(buffer) |
| except UnicodeEncodeError: |
| return buffer |
| |
| |
| def sprintn(buffer=""): |
| r""" |
| Simply return the user's buffer with a line feed. This function is used by the qprint and dprint |
| functions defined dynamically below, i.e. it would not normally be called for general use. |
| |
| Description of argument(s). |
| buffer This will be returned to the caller. |
| """ |
| |
| try: |
| buffer = str(buffer) + "\n" |
| except UnicodeEncodeError: |
| buffer = buffer + "\n" |
| |
| return buffer |
| |
| |
| def gp_print(buffer, |
| stream='stdout'): |
| r""" |
| Print the buffer using either sys.stdout.write or BuiltIn().log_to_console depending on whether we are |
| running in a robot environment. |
| |
| This function is intended for use only by other functions in this module. |
| |
| Description of argument(s): |
| buffer The string to be printed. |
| stream Either "stdout" or "stderr". |
| """ |
| |
| if robot_env: |
| BuiltIn().log_to_console(buffer, stream=stream, no_newline=True) |
| else: |
| if stream == "stdout": |
| sys.stdout.write(buffer) |
| sys.stdout.flush() |
| else: |
| sys.stderr.write(buffer) |
| sys.stderr.flush() |
| |
| |
| def gp_log(buffer): |
| r""" |
| Log the buffer using either python logging or BuiltIn().log depending on whether we are running in a |
| robot environment. |
| |
| This function is intended for use only by other functions in this module. |
| |
| Description of argument(s): |
| buffer The string to be logged. |
| """ |
| |
| if robot_env: |
| BuiltIn().log(buffer) |
| else: |
| logging.warning(buffer) |
| |
| |
| def gp_debug_print(buffer): |
| r""" |
| Print with gp_print only if gen_print_debug is set. |
| |
| This function is intended for use only by other functions in this module. |
| |
| Description of argument(s): |
| buffer The string to be printed. |
| """ |
| |
| if not gen_print_debug: |
| return |
| |
| gp_print(buffer) |
| |
| |
| def get_var_value(var_value=None, |
| default=1, |
| var_name=None): |
| r""" |
| Return either var_value, the corresponding global value or default. |
| |
| If var_value is not None, it will simply be returned. |
| |
| If var_value is None, this function will return the corresponding global value of the variable in |
| question. |
| |
| Note: For global values, if we are in a robot environment, get_variable_value will be used. Otherwise, |
| the __builtin__ version of the variable is returned (which are set by gen_arg.py functions). |
| |
| If there is no global value associated with the variable, default is returned. |
| |
| This function is useful for other functions in setting default values for parameters. |
| |
| Example use: |
| |
| def my_func(quiet=None): |
| |
| quiet = int(get_var_value(quiet, 0)) |
| |
| Example calls to my_func(): |
| |
| In the following example, the caller is explicitly asking to have quiet be set to 1. |
| |
| my_func(quiet=1) |
| |
| In the following example, quiet will be set to the global value of quiet, if defined, or to 0 (the |
| default). |
| |
| my_func() |
| |
| Description of argument(s): |
| var_value The value to be returned (if not equal to None). |
| default The value that is returned if var_value is None and there is no |
| corresponding global value defined. |
| var_name The name of the variable whose value is to be returned. Under most |
| circumstances, this value need not be provided. This function can figure |
| out the name of the variable passed as var_value. One exception to this |
| would be if this function is called directly from a .robot file. |
| """ |
| |
| if var_value is not None: |
| return var_value |
| |
| if var_name is None: |
| var_name = get_arg_name(None, 1, 2) |
| |
| if robot_env: |
| var_value = BuiltIn().get_variable_value("${" + var_name + "}", |
| default) |
| else: |
| var_value = getattr(__builtin__, var_name, default) |
| |
| return var_value |
| |
| |
| def get_stack_var(var_name, |
| default="", |
| init_stack_ix=2): |
| r""" |
| Starting with the caller's stack level, search upward in the call stack for a variable named var_name and |
| return its value. If the variable cannot be found in the stack, attempt to get the global value. If the |
| variable still cannot be found, return default. |
| |
| Example code: |
| |
| def func12(): |
| my_loc_var1 = get_stack_var('my_var1', "default value") |
| |
| def func11(): |
| my_var1 = 11 |
| func12() |
| |
| In this example, get_stack_var will find the value of my_var1 in func11's stack and will therefore return |
| the value 11. Therefore, my_loc_var1 would get set to 11. |
| |
| Description of argument(s): |
| var_name The name of the variable to be searched for. |
| default The value to return if the the variable cannot be found. |
| init_stack_ix The initial stack index from which to begin the search. 0 would be the |
| index of this func1tion ("get_stack_var"), 1 would be the index of the |
| function calling this function, etc. |
| """ |
| |
| work_around_inspect_stack_cwd_failure() |
| default = get_var_value(var_name=var_name, default=default) |
| return next((frame[0].f_locals[var_name] |
| for frame in inspect.stack()[init_stack_ix:] |
| if var_name in frame[0].f_locals), default) |
| |
| |
| # hidden_text is a list of passwords which are to be replaced with asterisks by print functions defined in |
| # this module. |
| hidden_text = [] |
| # password_regex is created based on the contents of hidden_text. |
| password_regex = "" |
| |
| |
| def register_passwords(*args): |
| r""" |
| Register one or more passwords which are to be hidden in output produced by the print functions in this |
| module. |
| |
| Note: Blank password values are NOT registered. They are simply ignored. |
| |
| Description of argument(s): |
| args One or more password values. If a given password value is already |
| registered, this function will simply do nothing. |
| """ |
| |
| global hidden_text |
| global password_regex |
| |
| for password in args: |
| if password == "": |
| break |
| if password in hidden_text: |
| break |
| |
| # Place the password into the hidden_text list. |
| hidden_text.append(password) |
| # Create a corresponding password regular expression. Escape regex special characters too. |
| password_regex = '(' +\ |
| '|'.join([re.escape(x) for x in hidden_text]) + ')' |
| |
| |
| def replace_passwords(buffer): |
| r""" |
| Return the buffer but with all registered passwords replaced by a string of asterisks. |
| |
| |
| Description of argument(s): |
| buffer The string to be returned but with passwords replaced. |
| """ |
| |
| global password_regex |
| |
| if int(os.environ.get("DEBUG_SHOW_PASSWORDS", "0")): |
| return buffer |
| |
| if password_regex == "": |
| # No passwords to replace. |
| return buffer |
| |
| return re.sub(password_regex, "********", buffer) |
| |
| |
| def create_print_wrapper_funcs(func_names, |
| stderr_func_names, |
| replace_dict, |
| func_prefix=""): |
| r""" |
| Generate code for print wrapper functions and return the generated code as a string. |
| |
| To illustrate, suppose there is a "print_foo_bar" function in the func_names list. |
| This function will... |
| - Expect that there is an sprint_foo_bar function already in existence. |
| - Create a print_foo_bar function which calls sprint_foo_bar and prints the result. |
| - Create a qprint_foo_bar function which calls upon sprint_foo_bar only if global value quiet is 0. |
| - Create a dprint_foo_bar function which calls upon sprint_foo_bar only if global value debug is 1. |
| |
| Also, code will be generated to define aliases for each function as well. Each alias will be created by |
| replacing "print_" in the function name with "p" For example, the alias for print_foo_bar will be |
| pfoo_bar. |
| |
| Description of argument(s): |
| func_names A list of functions for which print wrapper function code is to be |
| generated. |
| stderr_func_names A list of functions whose generated code should print to stderr rather |
| than to stdout. |
| replace_dict Please see the create_func_def_string function in wrap_utils.py for |
| details on this parameter. This parameter will be passed directly to |
| create_func_def_string. |
| func_prefix Prefix to be pre-pended to the generated function name. |
| """ |
| |
| buffer = "" |
| |
| for func_name in func_names: |
| if func_name in stderr_func_names: |
| replace_dict['output_stream'] = "stderr" |
| else: |
| replace_dict['output_stream'] = "stdout" |
| |
| s_func_name = "s" + func_name |
| q_func_name = "q" + func_name |
| d_func_name = "d" + func_name |
| |
| # We don't want to try to redefine the "print" function, thus the following if statement. |
| if func_name != "print": |
| func_def = create_func_def_string(s_func_name, |
| func_prefix + func_name, |
| print_func_template, |
| replace_dict) |
| buffer += func_def |
| |
| func_def = create_func_def_string(s_func_name, |
| func_prefix + "q" + func_name, |
| qprint_func_template, replace_dict) |
| buffer += func_def |
| |
| func_def = create_func_def_string(s_func_name, |
| func_prefix + "d" + func_name, |
| dprint_func_template, replace_dict) |
| buffer += func_def |
| |
| func_def = create_func_def_string(s_func_name, |
| func_prefix + "l" + func_name, |
| lprint_func_template, replace_dict) |
| buffer += func_def |
| |
| # Create abbreviated aliases (e.g. spvar is an alias for sprint_var). |
| alias = re.sub("print_", "p", func_name) |
| alias = re.sub("print", "p", alias) |
| prefixes = [func_prefix + "", "s", func_prefix + "q", |
| func_prefix + "d", func_prefix + "l"] |
| for prefix in prefixes: |
| if alias == "p": |
| continue |
| func_def = prefix + alias + " = " + prefix + func_name |
| buffer += func_def + "\n" |
| |
| return buffer |
| |
| |
| # In the following section of code, we will dynamically create print versions for each of the sprint |
| # functions defined above. So, for example, where we have an sprint_time() function defined above that |
| # returns the time to the caller in a string, we will create a corresponding print_time() function that will |
| # print that string directly to stdout. |
| |
| # It can be complicated to follow what's being created below. Here is an example of the print_time() |
| # function that will be created: |
| |
| # def print_time(buffer=''): |
| # gp_print(replace_passwords(sprint_time(buffer=buffer)), stream='stdout') |
| |
| # For each print function defined below, there will also be a qprint, a dprint and an lprint version defined |
| # (e.g. qprint_time, dprint_time, lprint_time). |
| |
| # The q version of each print function will only print if the quiet variable is 0. |
| # The d version of each print function will only print if the debug variable is 1. |
| # The l version of each print function will print the contents as log data. For conventional programs, this |
| # means use of the logging module. For robot programs it means use of the BuiltIn().log() function. |
| |
| # Templates for the various print wrapper functions. |
| print_func_template = \ |
| [ |
| " <mod_qualifier>gp_print(<mod_qualifier>replace_passwords(" |
| + "<call_line>), stream='<output_stream>')" |
| ] |
| |
| qprint_func_template = \ |
| [ |
| " quiet = <mod_qualifier>get_stack_var(\"quiet\", 0)", |
| " if int(quiet): return" |
| ] + print_func_template |
| |
| dprint_func_template = \ |
| [ |
| " debug = <mod_qualifier>get_stack_var(\"debug\", 0)", |
| " if not int(debug): return" |
| ] + print_func_template |
| |
| lprint_func_template = \ |
| [ |
| " <mod_qualifier>set_last_seconds_ix(<mod_qualifier>" |
| + "lprint_last_seconds_ix())", |
| " <mod_qualifier>gp_log(<mod_qualifier>replace_passwords" |
| + "(<call_line>))", |
| " <mod_qualifier>set_last_seconds_ix(<mod_qualifier>" |
| + "standard_print_last_seconds_ix())" |
| ] |
| |
| replace_dict = {'output_stream': 'stdout', 'mod_qualifier': ''} |
| |
| gp_debug_print("robot_env: " + str(robot_env) + "\n") |
| |
| # func_names contains a list of all print functions which should be created from their sprint counterparts. |
| func_names = ['print_time', 'print_timen', 'print_error', 'print_varx', |
| 'print_var', 'print_vars', 'print_dashes', 'indent', |
| 'print_call_stack', 'print_func_name', 'print_executing', |
| 'print_pgm_header', 'print_issuing', 'print_pgm_footer', |
| 'print_file', 'print_error_report', 'print', 'printn'] |
| |
| # stderr_func_names is a list of functions whose output should go to stderr rather than stdout. |
| stderr_func_names = ['print_error', 'print_error_report'] |
| |
| func_defs = create_print_wrapper_funcs(func_names, stderr_func_names, |
| replace_dict) |
| gp_debug_print(func_defs) |
| exec(func_defs) |