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574 lines
22 KiB
574 lines
22 KiB
# This script is used to parse the results of the Visual C++ /analyze feature.
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# See the 'usage' section for details.
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# Regular expression experimentation was done at http://www.pythonregex.com/
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# The buildbot warning parser that looks at this script uses the default compile warning
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# parser which is documented at http://buildbot.net/buildbot/docs/0.8.4/Compile.html
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# The regex used is '.*warning[: ].*'. This means that any instance of 'warning:' or
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# 'warning ' will be flagged as a warning. The check is case sensitive so Warning will
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# not be flagged as a warning. This script remaps warning to 'wrning' in some places so
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# that lists of fixed warnings or old warnings will not trigger warning detection.
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# Similarly it remaps error to 'eror'.
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# Typical warning messages might look like this:
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# 2>d:\dota\src\tier1\bitbuf.cpp(1336): warning C6001: Using uninitialized memory 'retval': Lines: 1327, 1328, 1331, 1332, 1333, 1334, 1336
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import re
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import sys
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import os
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# Grab per-project configuration information from the analyzeconfig package
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import analyzeconfig
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ignorePaths = analyzeconfig.ignorePaths
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alwaysFatalWarnings = analyzeconfig.alwaysFatalWarnings.keys()
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fatalWhenNewWarnings = analyzeconfig.fatalWhenNewWarnings.keys()
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remaps = analyzeconfig.remaps
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informationalWarnings = analyzeconfig.informationalWarnings
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lkgFilename = "analyzelkg.txt"
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# This matches 0-3 digits and an optional '>' character. Some builds prefix the output
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# with '10>' or something equivalent, but some builds do not.
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prefixRePattern = r"\d?\d?\d?>?"
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warningWithLinesRe = re.compile(prefixRePattern + r"(.*)\((\d+)\): warning C(\d{4,5})(.*)(: Lines:.*)")
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warningRe = re.compile(prefixRePattern + r"(.*)\((\d+)\): warning C(\d{4,5})(.*)")
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errorRe = re.compile(prefixRePattern + r"(.*)\((\d+)\): error C(\d{4,5})(.*)")
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# For reparsing the keys that we use to store the parsed log data:
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# The format for keys is like this:
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# key = "%s %s in %s" % (type, warningNumber, filename)
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parseKeyRe = re.compile(r"(.*) (\d{4,5}) in (.*)")
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warningsToText = {
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2719 : "Formal parameter with __declspec(align('n')) won't be aligned",
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4005 : "Macro redefinition",
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4100 : "Unreferenced formal parameter",
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4189 : "Local variable is initialized but not referenced",
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4245 : "Signed/unsigned mismatch",
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4505 : "Unreferenced local function has been removed",
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4611 : "interaction between '_setjmp' and C++ object destruction is non-portable",
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4703 : "Potentially uninitialized local pointer variable used",
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4789 : "Destination of memory copy is too small",
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6001 : "Using uninitialized memory",
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6029 : "Possible buffer overrun: use of unchecked value",
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6053 : "Call to <function> may not zero-terminate string",
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6054 : "String may not be zero-terminated",
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6057 : "Buffer overrun due to number of characters/number of bytes mismatch",
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6059 : "Incorrect length parameter",
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6063 : "Missing string argument",
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6064 : "Missing integer argument",
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6066 : "Non-pointer passed as parameter when pointer is required",
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6067 : "Parameter in call must be the address of the string",
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6200 : "Index is out of valid index range for non-stack buffer",
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6201 : "Out of range index",
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6202 : "Buffer overrun for stack allocated variable in call to function",
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6203 : "Buffer overrun for non-stack buffer",
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6204 : "Possible buffer overrun: use of unchecked parameter",
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6209 : "Using sizeof when a character count might be needed. Annotate with OUT_Z_CAP or its relatives",
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6216 : "Compiler-inserted cast between semantically different integral types: a Boolean type to HRESULT",
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6221 : "Implicit cast between semantically different integer types",
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6219 : "Implicit cast between semantically different integer types",
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6236 : "(<expression> || <non-zero constant>) is always a non-zero constant",
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6244 : "Local declaration shadows declaration of same name in global scope",
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6246 : "Local declaration shadows declaration of same name in outer scope",
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6248 : "Setting a SECURITY_DESCRIPTOR's DACL to NULL will result in an unprotected object",
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6258 : "Using TerminateThread does not allow proper thread clean up",
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6262 : "Excessive stack usage in function",
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6263 : "Using _alloca in a loop: this can quickly overflow stack",
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6269 : "Possible incorrect order of operations: dereference ignored",
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6270 : "Missing float argument to varargs function",
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6271 : "Extra argument passed: parameter is not used by the format string",
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6272 : "Non-float passed as argument <number> when float is required",
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6273 : "Non-integer passed as a parameter when integer is required",
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6277 : "NULL application name with an unquoted path results in a security vulnerability if the path contains spaces",
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6278 : "Buffer is allocated with array new [], but deleted with scalar delete. Destructors will not be called",
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6281 : "Incorrect order of operations: relational operators have higher precedence than bitwise operators",
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6282 : "Incorrect operator: assignment of constant in Boolean context",
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6283 : "Buffer is allocated with array new [], but deleted with scalar delete",
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6284 : "Object passed as a parameter when string is required",
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6286 : "(<non-zero constant> || <expression>) is always a non-zero constant.",
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6287 : "Redundant code: the left and right sub-expressions are identical",
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6290 : "Bitwise operation on logical result: ! has higher precedence than &. Use && or (!(x & y)) instead",
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6293 : "Ill-defined for-loop: counts down from minimum",
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6294 : "Ill-defined for-loop: initial condition does not satisfy test. Loop body not executed",
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6295 : "Ill-defined for-loop: Loop executed indefinitely",
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6297 : "Arithmetic overflow: 32-bit value is shifted, then cast to 64-bit value",
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6298 : "Using a read-only string <pointer> as a writable string argument",
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6302 : "Format string mismatch: character string passed as parameter when wide character string is required",
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6306 : "Incorrect call to 'fprintf*': consider using 'vfprintf*' which accepts a va_list as an argument",
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6313 : "Incorrect operator: zero-valued flag cannot be tested with bitwise-and. Use an equality test to check for zero-valued flags",
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6316 : "Incorrect operator: tested expression is constant and non-zero. Use bitwise-and to determine whether bits are set",
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6318 : "Ill-defined __try/__except: use of the constant EXCEPTION_CONTINUE_SEARCH ",
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6328 : "Wrong parameter type passed",
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6330 : "'const char' passed as a parameter when 'unsigned char' is required",
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6333 : "Invalid parameter: passing MEM_RELEASE and a non-zero dwSize parameter to 'VirtualFree' is not allowed",
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6334 : "Sizeof operator applied to an expression with an operator might yield unexpected results",
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6336 : "Arithmetic operator has precedence over question operator, use parentheses to clarify intent",
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6385 : "Out of range read",
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6386 : "Out of range write",
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6522 : "Invalid size specification: expression must be of integral type",
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6523 : "Invalid size specification: parameter 'size' not found",
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28199 : "Using possibly uninitialized: The variable has had its address taken but no assignment to it has been discovered.",
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}
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def Cleanup(textline):
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for sourcePath in remaps.keys():
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if textline.startswith(sourcePath):
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return textline.replace(sourcePath, remaps[sourcePath])
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return textline
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def ParseLog(logName):
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# Create a dictionary in which to store the results
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# The keys for the dictionary are "warning 6328 in c:\buildbot\..."
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# This means that the count of keys is not particularly meaningful. The
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# length of each data item tells you the total number of raw warnings, but
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# some of those are duplicates (from the same file being compiled multiple
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# times). The UniqueWarningCount function can be used to find the number of
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# unique warnings in each record.
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#
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# This probably could have been designed better, perhaps by having the key
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# include the line number. Probably not worth changing now.
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result = {}
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lines = open(logName).readlines()
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# First look for compiler crashes. Joy.
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if analyzeconfig.abortOnCompilerCrash:
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compilerCrashes = 0
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for line in lines:
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# Look for signs that the compiler crashed and if it did then abort.
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if line.count("Please choose the Technical Support command on the Visual C++") > 0:
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compilerCrashes += 1
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# Print a message in the warning format so that we can see how many times the
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# compiler crashed on the buildbot waterfall page.
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print "cl.exe(1): warning : internal compiler error, the compiler has crashed. Aborting code analysis."
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# If the compiler crashes one or more times then give up.
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if compilerCrashes > 0:
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sys.exit(0)
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warningCount = 0
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ignoredCount = 0
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namePrinted = False
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for line in lines:
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# Some of the paths in the output lines have slashes instead of backslashes.
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line = line.replace("/", "\\")
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ignored = False
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for path in ignorePaths:
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if line.count(path) > 0:
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ignored = True
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ignoredCount += 1
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if ignored:
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continue
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filename = ""
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type = "warning"
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# Look for warnings with filename and line number. The groups returned
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# are:
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# file name
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# line number
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# warning number
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# warning text
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# optionally (warningWithLinesRe only) the lines implicated in the warning
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warningMatch = warningWithLinesRe.match(line)
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if not warningMatch:
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warningMatch = warningRe.match(line)
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if not warningMatch:
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warningMatch = errorRe.match(line)
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if warningMatch:
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type = "error"
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# We want to record how many errors of a particular type occur in a particular source
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# file so we create a dictionary with [file name, warning number, isError] as the key.
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if warningMatch:
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filename = warningMatch.groups()[0]
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lineNumber = warningMatch.groups()[1]
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warningNumber = warningMatch.groups()[2]
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warningText = warningMatch.groups()[3]
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key = "%s %s in %s" % (type, warningNumber, filename)
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data = "%s(%s): %s C%s%s" % (filename, lineNumber, type, warningNumber, warningText)
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warningCount += 1
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if key in result:
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result[key] += [data]
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else:
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result[key] = [data]
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elif line.find(": warning") >= 0:
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pass # Ignore these warnings for now
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elif line.find(": error ") >= 0:
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if not namePrinted:
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namePrinted = True
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print " Unhandled errors found in '%s'" % logName
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print " %s" % line.strip()
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uniqueWarningCount = 0
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uniqueInformationalCount = 0
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for key in result.keys():
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count = UniqueWarningCount(result[key])
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match = parseKeyRe.match(key)
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warningNumber = match.groups()[1]
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if warningNumber in informationalWarnings:
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uniqueInformationalCount += count
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else:
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uniqueWarningCount += count
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print "%d lines of output in %s, %d issues found, %d ignored, plus %d informational." % (len(lines), logName, uniqueWarningCount, ignoredCount, uniqueInformationalCount)
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print ""
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return result
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# The output of this script is filtered by buildbot as described at
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# http://buildbot.net/buildbot/docs/0.8.4/Compile.html which means that the
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# warning text is generated by running it through re.match(".*warning[: ].*")
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# The e-mails are generated by running them through BuildAnalyze.createSummary
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# in //steam/main/tools/buildbot/shared_helpers.py. The two sets of regexes
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# should be kept compatible.
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# The matching is case sensitive so Warning is not matched.
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def PrintEntries(newEntries, prefix, sanitize):
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printedAlready = {}
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for newEntry in newEntries:
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if not newEntry in printedAlready:
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printedAlready[newEntry] = True
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# When printing out the list of warnings that have been fixed
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# replace ": warning" with a string that will not be
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# recognized by the buildbot parser as a warning so that the
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# break e-mails will only include new warnings.
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# Yes, this is a hack. In the future a custom parser/filter
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# for the e-mails would be better.
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if sanitize:
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newEntry = newEntry.replace(": warning", ": wrning")
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newEntry = newEntry.replace(": error", ": eror")
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print "%s%s" % (prefix, Cleanup(newEntry))
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def UniqueWarningCount(warningRecord):
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# Warnings may be encountered multiple times (header files included
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# from many places, or source files compiled multiple times) and these
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# are all added to the warning record. However, for determining
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# unique warnings we want to filter out these duplicates.
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alreadySeen = {}
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count = 0
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for warning in warningRecord:
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if not warning in alreadySeen:
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alreadySeen[warning] = True
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count += 1
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return count
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def DumpNewWarnings(old, new, oldname, newname):
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newWarningsFound = False
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warningsFixed = False
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fatalWarningsFound = False
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warningCounts = {}
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oldWarningCounts = {}
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sampleWarnings = {}
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for key in new.keys():
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match = parseKeyRe.match(key)
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warningNumber = int(match.groups()[1])
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if warningNumber in alwaysFatalWarnings:
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fatalWarningsFound = True
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if warningNumber in warningCounts:
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warningCounts[warningNumber] += UniqueWarningCount(new[key])
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else:
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warningCounts[warningNumber] = UniqueWarningCount(new[key])
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sampleWarnings[warningNumber] = new[key][0]
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if not key in old:
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newWarningsFound = True
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if warningNumber in fatalWhenNewWarnings:
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fatalWarningsFound = True
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for key in old.keys():
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match = parseKeyRe.match(key)
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warningNumber = int(match.groups()[1])
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if warningNumber in oldWarningCounts:
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oldWarningCounts[warningNumber] += UniqueWarningCount(old[key])
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else:
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oldWarningCounts[warningNumber] = UniqueWarningCount(old[key])
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if not warningNumber in sampleWarnings:
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sampleWarnings[warningNumber] = old[key][0]
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if not key in new:
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warningsFixed = True
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if fatalWarningsFound:
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errorCode = 10
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elif newWarningsFound:
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errorCode = 10
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else:
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errorCode = 0
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# Make three passes through the warnings so that we group fatal, fatal-when-new, and
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# new warnings together, with the fatal warnings first.
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# The colons at the beginning of blank lines are so that buildbot's BuildAnalyze.createSummary
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# will retain those lines.
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for type in ["Fatal", "Fatal-when-new", "New"]:
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fixing = "required"
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if type == "New":
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fixing = "optional"
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message = "%s warning or warnings found. Fixing these is %s:\n:" % (type, fixing)
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for key in new.keys():
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newEntries = new[key]
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match = parseKeyRe.match(key)
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warningNumber = int(match.groups()[1])
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if warningNumber in alwaysFatalWarnings:
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if type == "Fatal":
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print message
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message = ":"
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PrintEntries(newEntries, " ", False)
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elif not key in old:
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if warningNumber in fatalWhenNewWarnings:
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if type == "Fatal-when-new":
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print message
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message = ":"
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PrintEntries(newEntries, " ", False)
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else:
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if type == "New":
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print message
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message = ":"
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PrintEntries(newEntries, " ", False)
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# If message is short then that means it was printed and then assigned to a short
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# string, which means some warnings of this type were printed, which means we should
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# print a separator.
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if len(message) < 2:
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print ":\n:\n:\n:\n:"
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if warningsFixed:
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print "\n\n\n\n\nOld issues that have been fixed:"
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for key in old.keys():
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oldEntries = old[key]
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if not key in new:
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print "Warning fixed in %s:" % newname
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print "%d times:" % len(oldEntries)
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PrintEntries(oldEntries, " ", True)
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print ""
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else:
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newEntries = new[key]
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# Disable printing decreased warning counts -- too much noise.
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if False and len(newEntries) < len(oldEntries):
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print "Decreased wrning count:"
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print " Old (%s):" % oldname
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print " %d times:" % len(oldEntries)
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PrintEntries(oldEntries, " ", True)
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print " New (%s):" % newname
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print " %d times:" % len(newEntries)
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PrintEntries(newEntries, " ", True)
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print ""
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print "\n\n\n"
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warningStats = []
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for warningNumber in warningCounts.keys():
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warningCount = warningCounts[warningNumber]
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if warningNumber in oldWarningCounts:
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warningDiff = warningCount - oldWarningCounts[warningNumber]
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else:
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warningDiff = warningCount
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warningStats.append((warningCount, warningNumber, warningDiff))
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for warningNumber in oldWarningCounts.keys():
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if not warningNumber in warningCounts:
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warningStats.append((0, warningNumber, -oldWarningCounts[warningNumber]))
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warningStats.sort()
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warningStats.reverse()
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for warningStat in warningStats:
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warningNumber = warningStat[1]
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description = ""
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if warningNumber in warningsToText:
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description = ", %s" % warningsToText[warningNumber]
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else:
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# Replace warning/error with wrning/eror so that these warning summaries don't trigger the
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# warning detection logic.
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description = ", example: %s" % sampleWarnings[warningNumber].replace("warning", "wrning").replace("error", "eror")
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print "%3d occurrences of C%d, changed %d%s" % (warningStat[0], warningStat[1], warningStat[2], description)
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# Print a summary of all stack related warnings in the new data, regardless of whether they were in the old.
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bigStackCulprits = {}
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allocaCulprits = {}
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# c:\src\simplify.cpp(1840): warning C6262: : Function uses '28708' bytes of stack: exceeds /analyze:stacksize'16384'. Consider moving some data to heap
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stackUsedRe = re.compile("(.*): warning C6262: Function uses '(\d*)' .*")
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print "\n\n\n"
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print "Stack related summary:"
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print "C6263: Using _alloca in a loop: this can quickly overflow stack"
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bigStackCulprits = []
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for key in new.keys():
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# warning C6262: Function uses '400352' bytes of stack
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# warning C6263: Using _alloca in a loop
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stackMatch = parseKeyRe.match(key)
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if stackMatch:
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warningNumber = stackMatch.groups()[1]
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if warningNumber == "6262":
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#print "Found warning %s in %s" % (warningNumber, stackMatch.groups()[2])
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entries = new[key]
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printed = {}
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for entry in entries:
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if not entry in printed:
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match = stackUsedRe.match(entry)
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if match:
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location = match.groups()[0]
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stackBytes = int(match.groups()[1])
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printed[entry] = True
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bigStackCulprits.append((stackBytes, location))
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elif warningNumber == "6263":
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#print "Found warning %s in %s" % (warningNumber, stackMatch.groups()[2])
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entries = new[key]
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printed = {}
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for entry in entries:
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if not entry in printed:
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print Cleanup(entry[:entry.find(": ")])
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printed[entry] = True
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print "\n\n"
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print "C6262: Functions that use many bytes of stack"
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bigStackCulprits.sort()
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bigStackCulprits.reverse()
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print "filename(linenumber): bytes"
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# Print a sorted summary of functions using excessive stack. It would be tidier
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# to print the size first (better alignment) but then the output can't be used
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# in the Visual Studio output window to jump to the code in question.
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# Get the lengths of all of the file names
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lengths = []
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for val in bigStackCulprits:
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lengths.append(len(Cleanup(val[1])))
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lengths.sort()
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if len(lengths) > 0:
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# Set the length at the 9xth percentile so that most of the sizes
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# are lined up.
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formatLength = lengths[int(len(lengths)*.97)]
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formatString = "%%-%ds: %%7d" % formatLength
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for val in bigStackCulprits:
|
|
print formatString % (Cleanup(val[1]), val[0])
|
|
|
|
# Print a list of all of the outstanding warnings
|
|
print "\n\n\n"
|
|
print "Outstanding warnings are:"
|
|
DumpWarnings(new, True)
|
|
return (errorCode, fatalWarningsFound)
|
|
|
|
|
|
|
|
def DumpWarnings(new, ignoreInformational):
|
|
filePrinted = {}
|
|
# If we just scan the dictionary then warnings will be grouped
|
|
# by warning-number-in-file, but different warning numbers from the
|
|
# same file will be scattered, and different files from the same
|
|
# directory will also be scattered.
|
|
# We really want warnings sorted by path name. To do that we scan
|
|
# through the dictionary and add all of the entries to a dictionary
|
|
# whose primary key is filename (path). Then we sort those keys.
|
|
warningsByFile = {}
|
|
for key in new.keys():
|
|
match = parseKeyRe.match(key)
|
|
type, warningNumber, filename = match.groups()
|
|
if filename in warningsByFile:
|
|
warningsByFile[filename].append(key)
|
|
else:
|
|
warningsByFile[filename] = [key]
|
|
|
|
filenames = warningsByFile.keys()
|
|
filenames.sort();
|
|
|
|
for filename in filenames:
|
|
for key in warningsByFile[filename]:
|
|
match = parseKeyRe.match(key)
|
|
warningNumber = match.groups()[1]
|
|
if ignoreInformational and warningNumber in informationalWarnings:
|
|
pass
|
|
else:
|
|
newEntries = new[key]
|
|
print "%d times:" % len(newEntries)
|
|
PrintEntries(newEntries, " ", True)
|
|
print ""
|
|
|
|
if ignoreInformational:
|
|
# Print the 6244 and 6246 warnings together in a group. We print
|
|
# them here so that they are sorted by file name.
|
|
print "\n\n\nVariable shadowing warnings"
|
|
for filename in filenames:
|
|
for key in warningsByFile[filename]:
|
|
match = parseKeyRe.match(key)
|
|
warningNumber = match.groups()[1]
|
|
if warningNumber == "6244" or warningNumber == "6246":
|
|
newEntries = new[key]
|
|
PrintEntries(newEntries, " ", True)
|
|
print ""
|
|
|
|
|
|
|
|
def GetLogFileName(arg):
|
|
# Special indicator for last-known-good. This means that the script
|
|
# should look for analysislkg.txt and extract a file name from it.
|
|
# Temporarily have "2" be equivalent to "lkg" to allow for a transition
|
|
# to the lkg model.
|
|
if arg == "lkg" or arg == "2":
|
|
try:
|
|
lines = open(lkgFilename).readlines()
|
|
if len(lines) > 0:
|
|
result = lines[0].strip()
|
|
print "LKG analysis results are in '%s'" % result
|
|
return result
|
|
else:
|
|
print "No data found in %s" % lkgFilename
|
|
except IOError:
|
|
print "Failed to open %s" % lkgFilename
|
|
arg = 2
|
|
|
|
try:
|
|
x = int(arg)
|
|
except:
|
|
return arg
|
|
|
|
if x <= 0:
|
|
print "Numerical arguments must be from 1 to numlogs (%s)" % arg
|
|
sys.exit(10)
|
|
basedir = r"."
|
|
dirEntries = os.listdir(basedir)
|
|
logRe = re.compile(r"analyze(.*)_cl_(\d+).txt");
|
|
logs = []
|
|
for entry in dirEntries:
|
|
if logRe.match(entry):
|
|
logs.append(entry)
|
|
# This will throw an exception if there aren't enough log files
|
|
# available.
|
|
newname = os.path.join(basedir, logs[-x])
|
|
return newname
|
|
|
|
|
|
|
|
if len(sys.argv) < 2:
|
|
print "Usage:"
|
|
print "To get a comparison between two error log files:"
|
|
print " Syntax: parseerrors newlogfile oldlogfile"
|
|
print "To get a summary of a single log file:"
|
|
print " Syntax: parseerrors logfile"
|
|
print "To get a summary of the two most recent log files:"
|
|
print " Syntax: parseerrors 1 2"
|
|
print "Log files can also be indicated by number where '1' is the"
|
|
print "most recent, '2' is second oldest, etc."
|
|
sys.exit(0)
|
|
|
|
newname = GetLogFileName(sys.argv[1])
|
|
resultnew = ParseLog(newname)
|
|
if len(sys.argv) >= 3:
|
|
oldname = GetLogFileName(sys.argv[2])
|
|
resultold = ParseLog(oldname)
|
|
result = DumpNewWarnings(resultold, resultnew, oldname, newname)
|
|
errorCode = result[0]
|
|
fatalWarningsFound = result[1]
|
|
if fatalWarningsFound == 0:
|
|
if analyzeconfig.updateLastKnownGood:
|
|
print "Updating last-known-good."
|
|
lkgOutput = open(lkgFilename, "wt")
|
|
lkgOutput.write(newname)
|
|
else:
|
|
print "Updating last-known-good is disabled."
|
|
sys.exit(errorCode)
|
|
else:
|
|
DumpWarnings(resultnew, False)
|