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mbed-sdk-tools
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Diff: memap.py
- Revision:
- 40:7d3fa6b99b2b
- Parent:
- 36:96847d42f010
- Child:
- 41:2a77626a4c21
diff -r c98cb013e99f -r 7d3fa6b99b2b memap.py
--- a/memap.py Wed Jul 19 16:44:30 2017 -0500
+++ b/memap.py Tue Oct 10 16:56:30 2017 -0500
@@ -8,19 +8,30 @@
import csv
import json
import argparse
+from copy import deepcopy
from prettytable import PrettyTable
from utils import argparse_filestring_type, \
argparse_lowercase_hyphen_type, argparse_uppercase_type
-DEBUG = False
-
RE_ARMCC = re.compile(
r'^\s+0x(\w{8})\s+0x(\w{8})\s+(\w+)\s+(\w+)\s+(\d+)\s+[*]?.+\s+(.+)$')
RE_IAR = re.compile(
r'^\s+(.+)\s+(zero|const|ro code|inited|uninit)\s'
r'+0x(\w{8})\s+0x(\w+)\s+(.+)\s.+$')
+RE_CMDLINE_FILE_IAR = re.compile(r'^#\s+(.+\.o)')
+RE_LIBRARY_IAR = re.compile(r'^(.+\.a)\:.+$')
+RE_OBJECT_LIBRARY_IAR = re.compile(r'^\s+(.+\.o)\s.*')
+
+RE_OBJECT_FILE_GCC = re.compile(r'^(.+\/.+\.o)$')
+RE_LIBRARY_OBJECT_GCC = re.compile(r'^.+\/lib(.+\.a)\((.+\.o)\)$')
+RE_STD_SECTION_GCC = re.compile(r'^\s+.*0x(\w{8,16})\s+0x(\w+)\s(.+)$')
+RE_FILL_SECTION_GCC = re.compile(r'^\s*\*fill\*\s+0x(\w{8,16})\s+0x(\w+).*$')
+
+RE_OBJECT_ARMCC = re.compile(r'(.+\.(l|ar))\((.+\.o)\)')
+
+
class MemapParser(object):
"""An object that represents parsed results, parses the memory map files,
and writes out different file types of memory results
@@ -38,22 +49,18 @@
# sections to print info (generic for all toolchains)
sections = ('.text', '.data', '.bss', '.heap', '.stack')
- def __init__(self, detailed_misc=False):
+ def __init__(self):
""" General initialization
"""
- #
- self.detailed_misc = detailed_misc
-
+
# list of all modules and their sections
- self.modules = dict()
+ self.modules = dict() # full list - doesn't change with depth
+ self.short_modules = dict() # short version with specific depth
# sections must be defined in this order to take irrelevant out
self.all_sections = self.sections + self.other_sections + \
self.misc_flash_sections + ('unknown', 'OUTPUT')
- # list of all object files and mappting to module names
- self.object_to_module = dict()
-
# Memory report (sections + summary)
self.mem_report = []
@@ -62,23 +69,46 @@
self.subtotal = dict()
- def module_add(self, module_name, size, section):
+ self.misc_flash_mem = 0
+
+ # Modules passed to the linker on the command line
+ # this is a dict because modules are looked up by their basename
+ self.cmd_modules = {}
+
+
+ def module_add(self, object_name, size, section):
""" Adds a module / section to the list
Positional arguments:
- module_name - name of the module to add
+ object_name - name of the entry to add
size - the size of the module being added
section - the section the module contributes to
"""
- if module_name in self.modules:
- self.modules[module_name][section] += size
- else:
- temp_dic = dict()
- for section_idx in self.all_sections:
- temp_dic[section_idx] = 0
- temp_dic[section] = size
- self.modules[module_name] = temp_dic
+ if not object_name or not size or not section:
+ return
+
+ if object_name in self.modules:
+ self.modules[object_name].setdefault(section, 0)
+ self.modules[object_name][section] += size
+ return
+
+ obj_split = os.sep + os.path.basename(object_name)
+ for module_path, contents in self.modules.items():
+ if module_path.endswith(obj_split) or module_path == object_name:
+ contents.setdefault(section, 0)
+ contents[section] += size
+ return
+
+ new_module = {section: size}
+ self.modules[object_name] = new_module
+
+ def module_replace(self, old_object, new_object):
+ """ Replaces an object name with a new one
+ """
+ if old_object in self.modules:
+ self.modules[new_object] = self.modules[old_object]
+ del self.modules[old_object]
def check_new_section_gcc(self, line):
""" Check whether a new section in a map file has been detected (only
@@ -98,44 +128,39 @@
else:
return False # everything else, means no change in section
-
- def path_object_to_module_name(self, txt):
- """ Parse a path to object file to extract it's module and object data
+
+ def parse_object_name_gcc(self, line):
+ """ Parse a path to object file
Positional arguments:
txt - the path to parse the object and module name from
"""
- txt = txt.replace('\\', '/')
- rex_mbed_os_name = r'^.+mbed-os\/(.+)\/(.+\.o)$'
- test_rex_mbed_os_name = re.match(rex_mbed_os_name, txt)
+ line = line.replace('\\', '/')
+ test_re_mbed_os_name = re.match(RE_OBJECT_FILE_GCC, line)
- if test_rex_mbed_os_name:
+ if test_re_mbed_os_name:
- object_name = test_rex_mbed_os_name.group(2)
- data = test_rex_mbed_os_name.group(1).split('/')
- ndata = len(data)
+ object_name = test_re_mbed_os_name.group(1)
- if ndata == 1:
- module_name = data[0]
- else:
- module_name = data[0] + '/' + data[1]
+ # corner case: certain objects are provided by the GCC toolchain
+ if 'arm-none-eabi' in line:
+ return '[lib]/misc/' + object_name
+ return object_name
- if self.detailed_misc:
- return [module_name + '/' + object_name, object_name]
+ else:
+
+ test_re_obj_name = re.match(RE_LIBRARY_OBJECT_GCC, line)
+
+ if test_re_obj_name:
+ object_name = test_re_obj_name.group(1) + '/' + \
+ test_re_obj_name.group(2)
+
+ return '[lib]/' + object_name
+
else:
- return [module_name, object_name]
-
- elif self.detailed_misc:
- rex_obj_name = r'^.+\/(.+\.o\)*)$'
- test_rex_obj_name = re.match(rex_obj_name, txt)
- if test_rex_obj_name:
- object_name = test_rex_obj_name.group(1)
- return ['Misc/' + object_name, ""]
-
- return ['Misc', ""]
- else:
- return ['Misc', ""]
+ print "Unknown object name found in GCC map file: %s" % line
+ return '[misc]'
def parse_section_gcc(self, line):
""" Parse data from a section of gcc map file
@@ -147,36 +172,21 @@
Positional arguments:
line - the line to parse a section from
"""
- rex_address_len_name = re.compile(
- r'^\s+.*0x(\w{8,16})\s+0x(\w+)\s(.+)$')
- test_address_len_name = re.match(rex_address_len_name, line)
-
- if test_address_len_name:
-
- if int(test_address_len_name.group(2), 16) == 0: # size == 0
- return ["", 0] # no valid entry
- else:
- m_name, _ = self.path_object_to_module_name(
- test_address_len_name.group(3))
- m_size = int(test_address_len_name.group(2), 16)
- return [m_name, m_size]
+ is_fill = re.match(RE_FILL_SECTION_GCC, line)
+ if is_fill:
+ o_name = '[fill]'
+ o_size = int(is_fill.group(2), 16)
+ return [o_name, o_size]
- else: # special corner case for *fill* sections
- # example
- # *fill* 0x0000abe4 0x4
- rex_address_len = r'^\s+\*fill\*\s+0x(\w{8,16})\s+0x(\w+).*$'
- test_address_len = re.match(rex_address_len, line)
+ is_section = re.match(RE_STD_SECTION_GCC, line)
+ if is_section:
+ o_size = int(is_section.group(2), 16)
+ if o_size:
+ o_name = self.parse_object_name_gcc(is_section.group(3))
+ return [o_name, o_size]
- if test_address_len:
- if int(test_address_len.group(2), 16) == 0: # size == 0
- return ["", 0] # no valid entry
- else:
- m_name = 'Fill'
- m_size = int(test_address_len.group(2), 16)
- return [m_name, m_size]
- else:
- return ["", 0] # no valid entry
+ return ["", 0]
def parse_map_file_gcc(self, file_desc):
""" Main logic to decode gcc map files
@@ -188,35 +198,56 @@
current_section = 'unknown'
with file_desc as infile:
-
- # Search area to parse
for line in infile:
if line.startswith('Linker script and memory map'):
current_section = "unknown"
break
- # Start decoding the map file
for line in infile:
-
- change_section = self.check_new_section_gcc(line)
+ next_section = self.check_new_section_gcc(line)
- if change_section == "OUTPUT": # finish parsing file: exit
+ if next_section == "OUTPUT":
break
- elif change_section != False:
- current_section = change_section
+ elif next_section:
+ current_section = next_section
+
+ object_name, object_size = self.parse_section_gcc(line)
+
+ self.module_add(object_name, object_size, current_section)
- [module_name, module_size] = self.parse_section_gcc(line)
+ common_prefix = os.path.dirname(os.path.commonprefix([
+ o for o in self.modules.keys() if (o.endswith(".o") and not o.startswith("[lib]"))]))
+ new_modules = {}
+ for name, stats in self.modules.items():
+ if name.startswith("[lib]"):
+ new_modules[name] = stats
+ elif name.endswith(".o"):
+ new_modules[os.path.relpath(name, common_prefix)] = stats
+ else:
+ new_modules[name] = stats
+ self.modules = new_modules
+
+ def parse_object_name_armcc(self, line):
+ """ Parse object file
- if module_size == 0 or module_name == "":
- pass
- else:
- self.module_add(module_name, module_size, current_section)
+ Positional arguments:
+ line - the line containing the object or library
+ """
+
+ # simple object (not library)
+ if line[-2] == '.' and line[-1] == 'o':
+ return line
- if DEBUG:
- print "Line: %s" % line,
- print "Module: %s\tSection: %s\tSize: %s" % \
- (module_name, current_section, module_size)
- raw_input("----------")
+ else:
+ is_obj = re.match(RE_OBJECT_ARMCC, line)
+ if is_obj:
+ object_name = os.path.basename(is_obj.group(1)) + '/' + is_obj.group(3)
+ return '[lib]/' + object_name
+ else:
+ print "Malformed input found when parsing ARMCC map: %s" % line
+ return '[misc]'
+
+
def parse_section_armcc(self, line):
""" Parse data from an armcc map file
@@ -230,34 +261,48 @@
line - the line to parse the section data from
"""
- test_rex_armcc = re.match(RE_ARMCC, line)
+ test_re_armcc = re.match(RE_ARMCC, line)
- if test_rex_armcc:
+ if test_re_armcc:
- size = int(test_rex_armcc.group(2), 16)
+ size = int(test_re_armcc.group(2), 16)
- if test_rex_armcc.group(4) == 'RO':
+ if test_re_armcc.group(4) == 'RO':
section = '.text'
else:
- if test_rex_armcc.group(3) == 'Data':
+ if test_re_armcc.group(3) == 'Data':
section = '.data'
- elif test_rex_armcc.group(3) == 'Zero':
+ elif test_re_armcc.group(3) == 'Zero':
section = '.bss'
else:
- print "BUG armcc map parser"
- raw_input()
+ print "Malformed input found when parsing armcc map: %s" %\
+ line
- # lookup object in dictionary and return module name
- object_name = test_rex_armcc.group(6)
- if object_name in self.object_to_module:
- module_name = self.object_to_module[object_name]
- else:
- module_name = 'Misc'
+ # check name of object or library
+ object_name = self.parse_object_name_armcc(\
+ test_re_armcc.group(6))
- return [module_name, size, section]
+ return [object_name, size, section]
else:
- return ["", 0, ""] # no valid entry
+ return ["", 0, ""]
+
+ def parse_object_name_iar(self, object_name):
+ """ Parse object file
+
+ Positional arguments:
+ line - the line containing the object or library
+ """
+
+ # simple object (not library)
+ if object_name.endswith(".o"):
+ try:
+ return self.cmd_modules[object_name]
+ except KeyError:
+ return object_name
+ else:
+ return '[misc]'
+
def parse_section_iar(self, line):
""" Parse data from an IAR map file
@@ -277,38 +322,33 @@
line - the line to parse section data from
"""
- test_rex_iar = re.match(RE_IAR, line)
+ test_re_iar = re.match(RE_IAR, line)
- if test_rex_iar:
+ if test_re_iar:
- size = int(test_rex_iar.group(4), 16)
+ size = int(test_re_iar.group(4), 16)
- if test_rex_iar.group(2) == 'const' or \
- test_rex_iar.group(2) == 'ro code':
+ if (test_re_iar.group(2) == 'const' or
+ test_re_iar.group(2) == 'ro code'):
section = '.text'
- elif test_rex_iar.group(2) == 'zero' or \
- test_rex_iar.group(2) == 'uninit':
- if test_rex_iar.group(1)[0:4] == 'HEAP':
+ elif (test_re_iar.group(2) == 'zero' or
+ test_re_iar.group(2) == 'uninit'):
+ if test_re_iar.group(1)[0:4] == 'HEAP':
section = '.heap'
- elif test_rex_iar.group(1)[0:6] == 'CSTACK':
+ elif test_re_iar.group(1)[0:6] == 'CSTACK':
section = '.stack'
else:
section = '.bss' # default section
- elif test_rex_iar.group(2) == 'inited':
+ elif test_re_iar.group(2) == 'inited':
section = '.data'
else:
- print "BUG IAR map parser"
- raw_input()
+ print "Malformed input found when parsing IAR map: %s" % line
# lookup object in dictionary and return module name
- object_name = test_rex_iar.group(5)
- if object_name in self.object_to_module:
- module_name = self.object_to_module[object_name]
- else:
- module_name = 'Misc'
+ object_name = self.parse_object_name_iar(test_re_iar.group(5))
- return [module_name, size, section]
+ return [object_name, size, section]
else:
return ["", 0, ""] # no valid entry
@@ -329,13 +369,74 @@
# Start decoding the map file
for line in infile:
+ self.module_add(*self.parse_section_armcc(line))
- [name, size, section] = self.parse_section_armcc(line)
+ common_prefix = os.path.dirname(os.path.commonprefix([
+ o for o in self.modules.keys() if (o.endswith(".o") and o != "anon$$obj.o" and not o.startswith("[lib]"))]))
+ new_modules = {}
+ for name, stats in self.modules.items():
+ if name == "anon$$obj.o" or name.startswith("[lib]"):
+ new_modules[name] = stats
+ elif name.endswith(".o"):
+ new_modules[os.path.relpath(name, common_prefix)] = stats
+ else:
+ new_modules[name] = stats
+ self.modules = new_modules
+
+
+
+ def check_new_library_iar(self, line):
+ """
+ Searches for libraries and returns name. Example:
+ m7M_tls.a: [43]
+
+ """
+
+
+ test_address_line = re.match(RE_LIBRARY_IAR, line)
+
+ if test_address_line:
+ return test_address_line.group(1)
+ else:
+ return ""
- if size == 0 or name == "" or section == "":
- pass
- else:
- self.module_add(name, size, section)
+ def check_new_object_lib_iar(self, line):
+ """
+ Searches for objects within a library section and returns name. Example:
+ rt7M_tl.a: [44]
+ ABImemclr4.o 6
+ ABImemcpy_unaligned.o 118
+ ABImemset48.o 50
+ I64DivMod.o 238
+ I64DivZer.o 2
+
+ """
+
+ test_address_line = re.match(RE_OBJECT_LIBRARY_IAR, line)
+
+ if test_address_line:
+ return test_address_line.group(1)
+ else:
+ return ""
+
+ def parse_iar_command_line(self, lines):
+ """Parse the files passed on the command line to the iar linker
+
+ Positional arguments:
+ lines -- an iterator over the lines within a file
+ """
+ for line in lines:
+ if line.startswith("*"):
+ break
+ is_cmdline_file = RE_CMDLINE_FILE_IAR.match(line)
+ if is_cmdline_file:
+ full_path = is_cmdline_file.group(1)
+ self.cmd_modules[os.path.basename(full_path)] = full_path
+
+ common_prefix = os.path.dirname(os.path.commonprefix(self.cmd_modules.values()))
+ self.cmd_modules = {s: os.path.relpath(f, common_prefix)
+ for s, f in self.cmd_modules.items()}
+
def parse_map_file_iar(self, file_desc):
""" Main logic to decode IAR map files
@@ -345,61 +446,66 @@
"""
with file_desc as infile:
+ self.parse_iar_command_line(infile)
- # Search area to parse
for line in infile:
if line.startswith(' Section '):
break
- # Start decoding the map file
+ for line in infile:
+ self.module_add(*self.parse_section_iar(line))
+
+ if line.startswith('*** MODULE SUMMARY'): # finish section
+ break
+
+ current_library = ""
for line in infile:
- [name, size, section] = self.parse_section_iar(line)
+ library = self.check_new_library_iar(line)
- if size == 0 or name == "" or section == "":
- pass
- else:
- self.module_add(name, size, section)
+ if library:
+ current_library = library
- def search_objects(self, path):
- """ Searches for object files and creates mapping: object --> module
+ object_name = self.check_new_object_lib_iar(line)
- Positional arguments:
- path - the path to an object file
- """
+ if object_name and current_library:
+ print("Replacing module", object_name, current_library)
+ temp = '[lib]' + '/'+ current_library + '/'+ object_name
+ self.module_replace(object_name, temp)
+
- path = path.replace('\\', '/')
+ def reduce_depth(self, depth):
+ """
+ populates the short_modules attribute with a truncated module list
- # check location of map file
- rex = r'^(.+)' + r'\/(.+\.map)$'
- test_rex = re.match(rex, path)
+ (1) depth = 1:
+ main.o
+ mbed-os
- if test_rex:
- search_path = test_rex.group(1) + '/mbed-os/'
- else:
- print "Warning: this doesn't look like an mbed project"
- return
+ (2) depth = 2:
+ main.o
+ mbed-os/test.o
+ mbed-os/drivers
- for root, _, obj_files in os.walk(search_path):
- for obj_file in obj_files:
- if obj_file.endswith(".o"):
- module_name, object_name = self.path_object_to_module_name(
- os.path.join(root, obj_file))
+ """
+ if depth == 0 or depth == None:
+ self.short_modules = deepcopy(self.modules)
+ else:
+ self.short_modules = dict()
+ for module_name, v in self.modules.items():
+ split_name = module_name.split('/')
+ if split_name[0] == '':
+ split_name = split_name[1:]
+ new_name = "/".join(split_name[:depth])
+ self.short_modules.setdefault(new_name, {})
+ for section_idx, value in v.items():
+ self.short_modules[new_name].setdefault(section_idx, 0)
+ self.short_modules[new_name][section_idx] += self.modules[module_name][section_idx]
- if object_name in self.object_to_module:
- if DEBUG:
- print "WARNING: multiple usages of object file: %s"\
- % object_name
- print " Current: %s" % \
- self.object_to_module[object_name]
- print " New: %s" % module_name
- print " "
- else:
- self.object_to_module.update({object_name:module_name})
export_formats = ["json", "csv-ci", "table"]
- def generate_output(self, export_format, file_output=None):
+ def generate_output(self, export_format, depth, file_output=None):
""" Generates summary of memory map data
Positional arguments:
@@ -407,10 +513,14 @@
Keyword arguments:
file_desc - descriptor (either stdout or file)
+ depth - directory depth on report
Returns: generated string for the 'table' format, otherwise None
"""
+ self.reduce_depth(depth)
+ self.compute_report()
+
try:
if file_output:
file_desc = open(file_output, 'wb')
@@ -452,29 +562,14 @@
csv_module_section = []
csv_sizes = []
- for i in sorted(self.modules):
+ for i in sorted(self.short_modules):
for k in self.print_sections:
csv_module_section += [i+k]
- csv_sizes += [self.modules[i][k]]
+ csv_sizes += [self.short_modules[i][k]]
csv_module_section += ['static_ram']
csv_sizes += [self.mem_summary['static_ram']]
- csv_module_section += ['heap']
- if self.mem_summary['heap'] == 0:
- csv_sizes += ['unknown']
- else:
- csv_sizes += [self.mem_summary['heap']]
-
- csv_module_section += ['stack']
- if self.mem_summary['stack'] == 0:
- csv_sizes += ['unknown']
- else:
- csv_sizes += [self.mem_summary['stack']]
-
- csv_module_section += ['total_ram']
- csv_sizes += [self.mem_summary['total_ram']]
-
csv_module_section += ['total_flash']
csv_sizes += [self.mem_summary['total_flash']]
@@ -486,9 +581,6 @@
def generate_table(self, file_desc):
"""Generate a table from a memoy map
- Positional arguments:
- file_desc - the file to write out the final report to
-
Returns: string of the generated table
"""
# Create table
@@ -503,11 +595,11 @@
for i in list(self.print_sections):
table.align[i] = 'r'
- for i in sorted(self.modules):
+ for i in sorted(self.short_modules):
row = [i]
for k in self.print_sections:
- row.append(self.modules[i][k])
+ row.append(self.short_modules[i][k])
table.add_row(row)
@@ -520,23 +612,9 @@
output = table.get_string()
output += '\n'
- if self.mem_summary['heap'] == 0:
- output += "Allocated Heap: unknown\n"
- else:
- output += "Allocated Heap: %s bytes\n" % \
- str(self.mem_summary['heap'])
-
- if self.mem_summary['stack'] == 0:
- output += "Allocated Stack: unknown\n"
- else:
- output += "Allocated Stack: %s bytes\n" % \
- str(self.mem_summary['stack'])
-
output += "Total Static RAM memory (data + bss): %s bytes\n" % \
str(self.mem_summary['static_ram'])
- output += "Total RAM memory (data + bss + heap + stack): %s bytes\n" % \
- str(self.mem_summary['total_ram'])
- output += "Total Flash memory (text + data + misc): %s bytes\n" % \
+ output += "Total Flash memory (text + data): %s bytes\n" % \
str(self.mem_summary['total_flash'])
return output
@@ -544,36 +622,27 @@
toolchains = ["ARM", "ARM_STD", "ARM_MICRO", "GCC_ARM", "GCC_CR", "IAR"]
def compute_report(self):
+ """ Generates summary of memory usage for main areas
+ """
for k in self.sections:
self.subtotal[k] = 0
- for i in sorted(self.modules):
+ for i in self.short_modules:
for k in self.sections:
- self.subtotal[k] += self.modules[i][k]
-
- # Calculate misc flash sections
- self.misc_flash_mem = 0
- for i in self.modules:
- for k in self.misc_flash_sections:
- if self.modules[i][k]:
- self.misc_flash_mem += self.modules[i][k]
+ self.short_modules[i].setdefault(k, 0)
+ self.subtotal[k] += self.short_modules[i][k]
self.mem_summary = {
'static_ram': (self.subtotal['.data'] + self.subtotal['.bss']),
- 'heap': (self.subtotal['.heap']),
- 'stack': (self.subtotal['.stack']),
- 'total_ram': (self.subtotal['.data'] + self.subtotal['.bss'] +
- self.subtotal['.heap']+self.subtotal['.stack']),
- 'total_flash': (self.subtotal['.text'] + self.subtotal['.data'] +
- self.misc_flash_mem),
+ 'total_flash': (self.subtotal['.text'] + self.subtotal['.data']),
}
self.mem_report = []
- for i in sorted(self.modules):
+ for i in sorted(self.short_modules):
self.mem_report.append({
"module":i,
"size":{
- k:self.modules[i][k] for k in self.print_sections
+ k: self.short_modules[i][k] for k in self.print_sections
}
})
@@ -592,20 +661,15 @@
result = True
try:
with open(mapfile, 'r') as file_input:
- if toolchain == "ARM" or toolchain == "ARM_STD" or\
- toolchain == "ARM_MICRO":
- self.search_objects(os.path.abspath(mapfile))
+ if toolchain in ("ARM", "ARM_STD", "ARM_MICRO", "ARMC6"):
self.parse_map_file_armcc(file_input)
elif toolchain == "GCC_ARM" or toolchain == "GCC_CR":
self.parse_map_file_gcc(file_input)
elif toolchain == "IAR":
- self.search_objects(os.path.abspath(mapfile))
self.parse_map_file_iar(file_input)
else:
result = False
-
- self.compute_report()
-
+
except IOError as error:
print "I/O error({0}): {1}".format(error.errno, error.strerror)
result = False
@@ -614,7 +678,7 @@
def main():
"""Entry Point"""
- version = '0.3.12'
+ version = '0.4.0'
# Parser handling
parser = argparse.ArgumentParser(
@@ -632,6 +696,10 @@
type=argparse_uppercase_type(MemapParser.toolchains, "toolchain"))
parser.add_argument(
+ '-d', '--depth', dest='depth', type=int,
+ help='specify directory depth level to display report', required=False)
+
+ parser.add_argument(
'-o', '--output', help='output file name', required=False)
parser.add_argument(
@@ -642,31 +710,34 @@
", ".join(MemapParser.export_formats))
parser.add_argument('-v', '--version', action='version', version=version)
-
- parser.add_argument('-d', '--detailed', action='store_true', help='Displays the elements in "Misc" in a detailed fashion', required=False)
# Parse/run command
if len(sys.argv) <= 1:
parser.print_help()
sys.exit(1)
-
args = parser.parse_args()
# Create memap object
- memap = MemapParser(detailed_misc=args.detailed)
+ memap = MemapParser()
# Parse and decode a map file
if args.file and args.toolchain:
if memap.parse(args.file, args.toolchain) is False:
sys.exit(0)
+ if args.depth is None:
+ depth = 2 # default depth level
+ else:
+ depth = args.depth
+
returned_string = None
# Write output in file
if args.output != None:
- returned_string = memap.generate_output(args.export, args.output)
+ returned_string = memap.generate_output(args.export, \
+ depth, args.output)
else: # Write output in screen
- returned_string = memap.generate_output(args.export)
+ returned_string = memap.generate_output(args.export, depth)
if args.export == 'table' and returned_string:
print returned_string
