fix: support new trace compiler features for preventing clashes. Automatically turn on OST_TRACE_COMPILER_IN_USE macro. Look for trace header in systemincludes. Make directories in makefile parse to prevent clashes during build. Correct path for autogen headers. Correct case issue with autogen headers on Linux.
#
# Copyright (c) 2006-2010 Nokia Corporation and/or its subsidiary(-ies).
# All rights reserved.
# This component and the accompanying materials are made available
# under the terms of the License "Eclipse Public License v1.0"
# which accompanies this distribution, and is available
# at the URL "http://www.eclipse.org/legal/epl-v10.html".
#
# Initial Contributors:
# Nokia Corporation - initial contribution.
#
# Contributors:
#
# Description:
# generic_path module
#
import os
import sys
import re
import types
import ctypes
# are we on windows, and if so what is the current drive letter
isWin = sys.platform.lower().startswith("win")
if isWin:
drive = re.match('^([A-Za-z]:)',os.getcwd()).group(0)
# regex for "bare" drive letters
driveRE = re.compile('^[A-Za-z]:$')
# Base class
class Path:
"""This class represents a file path.
A generic path object supports operations without needing to know
about Windows and Linux differences. The standard str() function can
obtain a string version of the path in Local format for use by
platform-specific functions (file opening for example).
We use forward slashes as path separators (even on Windows).
For example,
path1 = generic_path.Path("/foo")
path2 = generic_path.Path("bar", "bing.bang")
print str(path1.Append(path2))
Prints /foo/bar/bing.bang on Linux
Prints c:/foo/bar/bing.bang on Windows (if c is the current drive)
"""
def __init__(self, *arguments):
"""construct a path from a list of path elements"""
if len(arguments) == 0:
self.path = ""
return
list = []
for i,arg in enumerate(arguments):
if isWin:
if i == 0:
# If the first element starts with \ or / then we will
# add the current drive letter to make a fully absolute path
if arg.startswith("\\\\"):
list.append(arg) # A UNC path - don't mess with it
elif arg.startswith("\\") or arg.startswith("/"):
list.append(drive + arg)
# If the first element is a bare drive then dress it with a \
# temporarily otherwise "join" will not work properly.
elif driveRE.match(arg):
list.append(arg + "\\")
# nothing special about the first element
else:
list.append(arg)
else:
if arg.startswith("\\\\"):
raise ValueError("non-initial path components must not start with \\\\ : %s" % arg)
else:
list.append(arg)
if ";" in arg:
raise ValueError("An individual windows Path may not contain ';' : %s" % arg)
else:
list.append(arg)
self.path = os.path.join(*list)
# normalise to avoid nastiness with dots and multiple separators
# but do not normalise "" as it will become "."
if self.path != "":
self.path = os.path.normpath(self.path)
# always use forward slashes as separators
self.path = self.path.replace("\\", "/")
# remove trailing slashes unless we are just /
if self.path != "/":
self.path = self.path.rstrip("/")
def __str__(self):
return self.path
def GetNeutralStr(self):
"""return the path as a string that could be included in other paths."""
return self.path.replace(":","").replace("/","")
def GetLocalString(self):
"""return a string in the local file-system format.
e.g. C:/tmp on Windows or /C/tmp on Linux"""
return self.path
def isAbsolute(self):
"test whether this path is absolute or relative"
# C: is an absolute directory
return (os.path.isabs(self.path) or driveRE.match(self.path))
def Absolute(self):
"""return an object for the absolute version of this path.
Prepends the current working directory to relative paths and
the current drive (on Windows) to /something type paths."""
# leave C: alone as abspath will stick the cwd on
if driveRE.match(self.path):
return Path(self.path)
else:
return Path(os.path.abspath(self.path))
def Append(self, *arguments):
"return an object with path elements added at the end of this path"
return Join(*((self,) + arguments))
def Prepend(self, *arguments):
"return an object with path elements added at the start of this path"
return Join(*(arguments + (self,)))
def isDir(self):
"test whether this path points to an existing directory"
# C: is a directory
return (os.path.isdir(self.path) or driveRE.match(self.path))
def isFile(self):
"test whether this path points to an existing file"
return os.path.isfile(self.path)
def Exists(self):
"test whether this path exists in the filesystem"
if driveRE.match(self.path):
return os.path.exists(self.path + "/")
else:
return os.path.exists(self.path)
def Dir(self):
"return an object for the directory part of this path"
if driveRE.match(self.path):
return Path(self.path)
else:
return Path(os.path.dirname(self.path))
def File(self):
"return a string for the file part of this path"
return os.path.basename(self.path)
def Components(self):
"""return a list of the components of this path."""
return self.path.split('/')
def FindCaseless(self):
"""Given a path which may not be not correct in terms of case,
search the filesystem to find the corresponding, correct path.
paths are assumed to be absolute and normalised (which they
should be in this class).
Assumes that the path is more right than wrong, i.e. starts
with the full path and tests for existence - then takes the
last component off and check for that.
This will be inefficient if used in cases where the file
has a high probability of not existing.
"""
if os.path.exists(self.path):
return Path(self.path)
unknown_elements = []
tail = self.path
head = None
while tail != '':
if os.path.exists(tail):
break
else:
(tail,head) = os.path.split(tail)
#print "(head,tail) = (%s,%s)\n" % (head,tail)
unknown_elements.append(head)
if tail == None:
result = ""
else:
result = tail
# Now we know the bits that may be wrong so we can search for them
unknown_elements.reverse()
for item in unknown_elements:
possible = os.path.join(result, item)
if os.path.exists(possible):
result = possible
continue # not finished yet - only this element is ok
# Nope, we really do have to search for this component of the path
possible = None
if result:
for file in os.listdir(result):
if file.lower() == item.lower():
possible = os.path.join(result,file)
break # find first matching name (might not be right)
if possible is None:
result = ""
break # really couldn't find the file
result = possible
if result == "":
return None
return Path(result)
def From(self,source):
"""Returns the relative path from 'source' to here."""
list1 = source.Absolute().Components()
list2 = self.Absolute().Components()
# on windows if the drives are different
# then the relative path is the absolute one.
if isWin and list1[0] != list2[0]:
return self.Absolute()
final_list = []
for item in list1:
if list2 != []:
for widget in list2:
if item == widget:
list2.pop(0)
break
else:
final_list.insert(0, "..")
final_list.append(widget)
list2.pop(0)
break
else:
final_list.insert(0, "..")
final_list.extend(list2)
return Join(*final_list)
def GetShellPath(self):
"""Returns correct slashes according to os type as a string
"""
if isWin:
if "OSTYPE" in os.environ and os.environ['OSTYPE'] == "cygwin" :
return self.path
return self.path.replace("/", "\\")
return self.path
def GetSpaceSafePath(self):
"""Returns a version of the path where spaces don't interfere with shell interpretation.
This functionality only applies to Windows - paths containing spaces are assumed to be problematic
on non-Windows platforms.
On Windows, the path is returned in Windows-specific 8.3 short path form - tilde are used to replace
spaces and fit path elements within 8.3 requirements. As 8.3 format paths are not guaranteed to be
supported on all Windows installs, and can only be calculated if they exist, a newly formated path is
only returned if it is returned by the Windows API and tested to exist.
"""
if not isWin:
return None
from ctypes.wintypes import DWORD, LPSTR, MAX_PATH
GetShortPathNameA = ctypes.windll.kernel32.GetShortPathNameA
GetShortPathNameA.restype = DWORD
GetShortPathNameA.argtypes = LPSTR, LPSTR, DWORD
buffer = ctypes.create_string_buffer(MAX_PATH)
GetShortPathNameA(self.path, buffer, MAX_PATH)
spacesafe = buffer.value
if not spacesafe or not os.path.exists(spacesafe):
return None
return spacesafe
# Module functions
def Join(*arguments):
"""Concatenate the given list to make a generic path object.
This can accept both strings and Path objects, and join
them "intelligently" to make a complete path."""
list = []
for arg in arguments:
if isinstance(arg, Path):
list.append(arg.path)
else:
list.append(arg)
return Path(*list)
def CurrentDir():
"return a Path object for the current working directory"
return Path(os.getcwd())
def NormalisePathList(aList):
"""Convert a list of strings into a list of Path objects"""
return map(lambda x: Path(x), aList)
def Where(afile):
"""Return the location of a file 'afile' in the system path.
On windows, adds .exe onto the filename if it's not there. Returns the first location it found or None if it wasn't found.
>>> Where("python")
"/usr/bin/python"
>>> Where("nonexistentfile")
None
"""
location = None
if sys.platform.startswith("win"):
if not afile.lower().endswith(".exe"):
afile += ".exe"
for current_file in [os.path.join(loop_number,afile) for loop_number in
os.environ["PATH"].split(os.path.pathsep)]:
if os.path.isfile(current_file):
location = current_file
break
return location
# end of generic_path module