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/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* * * * * * BEGIN LICENSE BLOCK * * * * *
* Version : MPL 1.1 / GPL 2.0 / LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 ( the " License " ) ; you may not use this file except in compliance with
* the License . You may obtain a copy of the License at
* http : //www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an " AS IS " basis ,
* WITHOUT WARRANTY OF ANY KIND , either express or implied . See the License
* for the specific language governing rights and limitations under the
* License .
*
* The Original Code is codesighs . c code , released
* Oct 3 , 2002.
*
* The Initial Developer of the Original Code is
* Netscape Communications Corporation .
* Portions created by the Initial Developer are Copyright ( C ) 2002
* the Initial Developer . All Rights Reserved .
*
* Contributor ( s ) :
* Garrett Arch Blythe , 03 - October - 2002
*
* Alternatively , the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later ( the " GPL " ) , or
* the GNU Lesser General Public License Version 2.1 or later ( the " LGPL " ) ,
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above . If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL , and not to allow others to
* use your version of this file under the terms of the MPL , indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL . If you do not delete
* the provisions above , a recipient may use your version of this file under
* the terms of any one of the MPL , the GPL or the LGPL .
*
* * * * * * END LICENSE BLOCK * * * * * */
# include <stdio.h>
# include <stdlib.h>
# include <string.h>
# include <time.h>
# include <ctype.h>
# include <errno.h>
# define ERROR_REPORT(num, val, msg) fprintf(stderr, "error(%d):\t\"%s\"\t%s\n", (num), (val), (msg));
# define CLEANUP(ptr) do { if(NULL != ptr) { free(ptr); ptr = NULL; } } while(0)
typedef struct __struct_Options
/*
* * Options to control how we perform .
* *
* * mProgramName Used in help text .
* * mInput File to read for input .
* * Default is stdin .
* * mInputName Name of the file .
* * mOutput Output file , append .
* * Default is stdout .
* * mOutputName Name of the file .
* * mHelp Whether or not help should be shown .
* * mModules Output module by module information .
* * mTotalOnly Only output one number , the total .
* * mMinSize Ignore lines below this size .
* * mMaxSize Ignore lines above this size .
* * mMatchScopes For a line to be processed , it should match .
* * mMachClasses For a line to be processed , it should match .
* * mMatchModules For a line to be processed , it should match .
* * mMatchSections For a line to be processed , it should match .
* * mMatchObjects For a line to be processed , it should match .
* * mMatchSymbols For a line to be processed , it should match .
*/
{
const char * mProgramName ;
FILE * mInput ;
char * mInputName ;
FILE * mOutput ;
char * mOutputName ;
int mHelp ;
int mModules ;
int mTotalOnly ;
unsigned long mMinSize ;
unsigned long mMaxSize ;
char * * mMatchScopes ;
unsigned mMatchScopeCount ;
char * * mMatchClasses ;
unsigned mMatchClassCount ;
char * * mMatchModules ;
unsigned mMatchModuleCount ;
char * * mMatchSections ;
unsigned mMatchSectionCount ;
char * * mMatchObjects ;
unsigned mMatchObjectCount ;
char * * mMatchSymbols ;
unsigned mMatchSymbolCount ;
}
Options ;
typedef struct __struct_Switch
/*
* * Command line options .
*/
{
const char * mLongName ;
const char * mShortName ;
int mHasValue ;
const char * mValue ;
const char * mDescription ;
}
Switch ;
# define DESC_NEWLINE "\n\t\t"
static Switch gInputSwitch = { " --input " , " -i " , 1 , NULL , " Specify input file. " DESC_NEWLINE " stdin is default. " } ;
static Switch gOutputSwitch = { " --output " , " -o " , 1 , NULL , " Specify output file. " DESC_NEWLINE " Appends if file exists. " DESC_NEWLINE " stdout is default. " } ;
static Switch gHelpSwitch = { " --help " , " -h " , 0 , NULL , " Information on usage. " } ;
static Switch gModuleSwitch = { " --modules " , " -m " , 0 , NULL , " Output individual module numbers as well. " } ;
static Switch gTotalSwitch = { " --totalonly " , " -t " , 0 , NULL , " Output only one number. " DESC_NEWLINE " The total overall size. " DESC_NEWLINE " Overrides other output options. " } ;
static Switch gMinSize = { " --min-size " , " -min " , 1 , NULL , " Only consider symbols equal to or greater than this size. " DESC_NEWLINE " The default is 0x00000000. " } ;
static Switch gMaxSize = { " --max-size " , " -max " , 1 , NULL , " Only consider symbols equal to or smaller than this size. " DESC_NEWLINE " The default is 0xFFFFFFFF. " } ;
static Switch gMatchScope = { " --match-scope " , " -msco " , 1 , NULL , " Only consider scopes that have a substring match. " DESC_NEWLINE " Multiple uses allowed to specify a range of scopes, " DESC_NEWLINE " though PUBLIC, STATIC, and UNDEF are your only choices. " } ;
static Switch gMatchClass = { " --match-class " , " -mcla " , 1 , NULL , " Only consider classes that have a substring match. " DESC_NEWLINE " Multiple uses allowed to specify a range of classes, " DESC_NEWLINE " though CODE and DATA are your only choices. " } ;
static Switch gMatchModule = { " --match-module " , " -mmod " , 1 , NULL , " Only consider modules that have a substring match. " DESC_NEWLINE " Multiple uses allowed to specify an array of modules. " } ;
static Switch gMatchSection = { " --match-section " , " -msec " , 1 , NULL , " Only consider sections that have a substring match. " DESC_NEWLINE " Multiple uses allowed to specify an array of sections. " DESC_NEWLINE " Section is considered symbol type. " } ;
static Switch gMatchObject = { " --match-object " , " -mobj " , 1 , NULL , " Only consider objects that have a substring match. " DESC_NEWLINE " Multiple uses allowed to specify an array of objects. " } ;
static Switch gMatchSymbol = { " --match-symbol " , " -msym " , 1 , NULL , " Only consider symbols that have a substring match. " DESC_NEWLINE " Multiple uses allowed to specify an array of symbols. " } ;
static Switch * gSwitches [ ] = {
& gInputSwitch ,
& gOutputSwitch ,
& gModuleSwitch ,
& gTotalSwitch ,
& gMinSize ,
& gMaxSize ,
& gMatchClass ,
& gMatchScope ,
& gMatchModule ,
& gMatchSection ,
& gMatchObject ,
& gMatchSymbol ,
& gHelpSwitch
} ;
typedef struct __struct_SizeStats
/*
* * Track totals .
* *
* * mData Size of data .
* * mCode Size of code .
*/
{
unsigned long mData ;
unsigned long mCode ;
}
SizeStats ;
typedef struct __struct_ModuleStats
/*
* * Track module level information .
* *
* * mModule Module name .
* * mSize Size of module .
*/
{
char * mModule ;
SizeStats mSize ;
}
ModuleStats ;
typedef enum __enum_SegmentClass
{
CODE ,
DATA
}
SegmentClass ;
static int moduleCompare ( const void * in1 , const void * in2 )
/*
* * qsort helper function .
*/
{
int retval = 0 ;
const ModuleStats * one = ( const ModuleStats * ) in1 ;
const ModuleStats * two = ( const ModuleStats * ) in2 ;
unsigned long oneSize = one - > mSize . mCode + one - > mSize . mData ;
unsigned long twoSize = two - > mSize . mCode + two - > mSize . mData ;
if ( oneSize < twoSize )
{
retval = 1 ;
}
else if ( oneSize > twoSize )
{
retval = - 1 ;
}
return retval ;
}
void trimWhite ( char * inString )
/*
* * Remove any whitespace from the end of the string .
*/
{
int len = strlen ( inString ) ;
while ( len )
{
len - - ;
if ( isspace ( * ( inString + len ) ) )
{
* ( inString + len ) = ' \0 ' ;
}
else
{
break ;
}
}
}
int codesighs ( Options * inOptions )
/*
* * Output a simplistic report based on our options .
*/
{
int retval = 0 ;
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char lineBuffer [ 0x1000 ] ;
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int scanRes = 0 ;
unsigned long size ;
char segClass [ 0x10 ] ;
char scope [ 0x10 ] ;
char module [ 0x100 ] ;
char segment [ 0x40 ] ;
char object [ 0x100 ] ;
char * symbol ;
SizeStats overall ;
ModuleStats * modules = NULL ;
unsigned moduleCount = 0 ;
memset ( & overall , 0 , sizeof ( overall ) ) ;
/*
* * Read the file line by line , regardless of number of fields .
* * We assume tab separated value formatting , at least 7 lead values :
* * size class scope module segment object symbol . . . .
*/
while ( 0 = = retval & & NULL ! = fgets ( lineBuffer , sizeof ( lineBuffer ) , inOptions - > mInput ) )
{
trimWhite ( lineBuffer ) ;
scanRes = sscanf ( lineBuffer ,
" %x \t %s \t %s \t %s \t %s \t %s \t " ,
( unsigned * ) & size ,
segClass ,
scope ,
module ,
segment ,
object ) ;
if ( 6 = = scanRes )
{
SegmentClass segmentClass = CODE ;
symbol = strchr ( lineBuffer , ' \t ' ) + 1 ;
/*
* * Qualify the segment class .
*/
if ( 0 = = strcmp ( segClass , " DATA " ) )
{
segmentClass = DATA ;
}
else if ( 0 = = strcmp ( segClass , " CODE " ) )
{
segmentClass = CODE ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , segClass , " Unable to determine segment class. " ) ;
}
if ( 0 = = retval )
{
/*
* * Match any options required before continuing .
* * This is where you would want to add more restrictive totalling .
*/
/*
* * Match size .
*/
if ( size < inOptions - > mMinSize )
{
continue ;
}
if ( size > inOptions - > mMaxSize )
{
continue ;
}
/*
* * Match class .
*/
if ( 0 ! = inOptions - > mMatchClassCount )
{
unsigned loop = 0 ;
for ( loop = 0 ; loop < inOptions - > mMatchClassCount ; loop + + )
{
if ( NULL ! = strstr ( segClass , inOptions - > mMatchClasses [ loop ] ) )
{
break ;
}
}
/*
* * If there was no match , we skip the line .
*/
if ( loop = = inOptions - > mMatchClassCount )
{
continue ;
}
}
/*
* * Match scope .
*/
if ( 0 ! = inOptions - > mMatchScopeCount )
{
unsigned loop = 0 ;
for ( loop = 0 ; loop < inOptions - > mMatchScopeCount ; loop + + )
{
if ( NULL ! = strstr ( scope , inOptions - > mMatchScopes [ loop ] ) )
{
break ;
}
}
/*
* * If there was no match , we skip the line .
*/
if ( loop = = inOptions - > mMatchScopeCount )
{
continue ;
}
}
/*
* * Match modules .
*/
if ( 0 ! = inOptions - > mMatchModuleCount )
{
unsigned loop = 0 ;
for ( loop = 0 ; loop < inOptions - > mMatchModuleCount ; loop + + )
{
if ( NULL ! = strstr ( module , inOptions - > mMatchModules [ loop ] ) )
{
break ;
}
}
/*
* * If there was no match , we skip the line .
*/
if ( loop = = inOptions - > mMatchModuleCount )
{
continue ;
}
}
/*
* * Match sections .
*/
if ( 0 ! = inOptions - > mMatchSectionCount )
{
unsigned loop = 0 ;
for ( loop = 0 ; loop < inOptions - > mMatchSectionCount ; loop + + )
{
if ( NULL ! = strstr ( segment , inOptions - > mMatchSections [ loop ] ) )
{
break ;
}
}
/*
* * If there was no match , we skip the line .
*/
if ( loop = = inOptions - > mMatchSectionCount )
{
continue ;
}
}
/*
* * Match object .
*/
if ( 0 ! = inOptions - > mMatchObjectCount )
{
unsigned loop = 0 ;
for ( loop = 0 ; loop < inOptions - > mMatchObjectCount ; loop + + )
{
if ( NULL ! = strstr ( object , inOptions - > mMatchObjects [ loop ] ) )
{
break ;
}
}
/*
* * If there was no match , we skip the line .
*/
if ( loop = = inOptions - > mMatchObjectCount )
{
continue ;
}
}
/*
* * Match symbols .
*/
if ( 0 ! = inOptions - > mMatchSymbolCount )
{
unsigned loop = 0 ;
for ( loop = 0 ; loop < inOptions - > mMatchSymbolCount ; loop + + )
{
if ( NULL ! = strstr ( symbol , inOptions - > mMatchSymbols [ loop ] ) )
{
break ;
}
}
/*
* * If there was no match , we skip the line .
*/
if ( loop = = inOptions - > mMatchSymbolCount )
{
continue ;
}
}
/*
* * Update overall totals .
*/
if ( CODE = = segmentClass )
{
overall . mCode + = size ;
}
else if ( DATA = = segmentClass )
{
overall . mData + = size ;
}
/*
* * See what else we should be tracking .
*/
if ( 0 = = inOptions - > mTotalOnly )
{
if ( inOptions - > mModules )
{
unsigned index = 0 ;
/*
* * Find the module to modify .
*/
for ( index = 0 ; index < moduleCount ; index + + )
{
if ( 0 = = strcmp ( modules [ index ] . mModule , module ) )
{
break ;
}
}
/*
* * If the index is the same as the count , we need to
* * add a new module .
*/
if ( index = = moduleCount )
{
void * moved = NULL ;
moved = realloc ( modules , sizeof ( ModuleStats ) * ( moduleCount + 1 ) ) ;
if ( NULL ! = moved )
{
modules = ( ModuleStats * ) moved ;
moduleCount + + ;
memset ( modules + index , 0 , sizeof ( ModuleStats ) ) ;
modules [ index ] . mModule = strdup ( module ) ;
if ( NULL = = modules [ index ] . mModule )
{
retval = __LINE__ ;
ERROR_REPORT ( retval , module , " Unable to duplicate string. " ) ;
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , inOptions - > mProgramName , " Unable to allocate module memory. " ) ;
}
}
if ( 0 = = retval )
{
if ( CODE = = segmentClass )
{
modules [ index ] . mSize . mCode + = size ;
}
else if ( DATA = = segmentClass )
{
modules [ index ] . mSize . mData + = size ;
}
}
}
}
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , inOptions - > mInputName , " Problem extracting values from file. " ) ;
}
}
if ( 0 = = retval & & 0 ! = ferror ( inOptions - > mInput ) )
{
retval = __LINE__ ;
ERROR_REPORT ( retval , inOptions - > mInputName , " Unable to read file. " ) ;
}
/*
* * If all went well , time to report .
*/
if ( 0 = = retval )
{
if ( inOptions - > mTotalOnly )
{
fprintf ( inOptions - > mOutput , " %u \n " , ( unsigned ) ( overall . mCode + overall . mData ) ) ;
}
else
{
fprintf ( inOptions - > mOutput , " Overall Size \n " ) ;
fprintf ( inOptions - > mOutput , " \t Total: \t %10u \n " , ( unsigned ) ( overall . mCode + overall . mData ) ) ;
fprintf ( inOptions - > mOutput , " \t Code: \t %10u \n " , ( unsigned ) overall . mCode ) ;
fprintf ( inOptions - > mOutput , " \t Data: \t %10u \n " , ( unsigned ) overall . mData ) ;
}
/*
* * Check options to see what else we should output .
*/
if ( inOptions - > mModules & & moduleCount )
{
unsigned loop = 0 ;
/*
* * Sort the modules by their size .
*/
qsort ( modules , ( size_t ) moduleCount , sizeof ( ModuleStats ) , moduleCompare ) ;
/*
* * Output each one .
* * Might as well clean up while we go too .
*/
for ( loop = 0 ; loop < moduleCount ; loop + + )
{
fprintf ( inOptions - > mOutput , " \n " ) ;
fprintf ( inOptions - > mOutput , " %s \n " , modules [ loop ] . mModule ) ;
fprintf ( inOptions - > mOutput , " \t Total: \t %10u \n " , ( unsigned ) ( modules [ loop ] . mSize . mCode + modules [ loop ] . mSize . mData ) ) ;
fprintf ( inOptions - > mOutput , " \t Code: \t %10u \n " , ( unsigned ) modules [ loop ] . mSize . mCode ) ;
fprintf ( inOptions - > mOutput , " \t Data: \t %10u \n " , ( unsigned ) modules [ loop ] . mSize . mData ) ;
CLEANUP ( modules [ loop ] . mModule ) ;
}
/*
* * Done with modules .
*/
CLEANUP ( modules ) ;
moduleCount = 0 ;
}
}
return retval ;
}
int initOptions ( Options * outOptions , int inArgc , char * * inArgv )
/*
* * returns int 0 if successful .
*/
{
int retval = 0 ;
int loop = 0 ;
int switchLoop = 0 ;
int match = 0 ;
const int switchCount = sizeof ( gSwitches ) / sizeof ( gSwitches [ 0 ] ) ;
Switch * current = NULL ;
/*
* * Set any defaults .
*/
memset ( outOptions , 0 , sizeof ( Options ) ) ;
outOptions - > mProgramName = inArgv [ 0 ] ;
outOptions - > mInput = stdin ;
outOptions - > mInputName = strdup ( " stdin " ) ;
outOptions - > mOutput = stdout ;
outOptions - > mOutputName = strdup ( " stdout " ) ;
outOptions - > mMaxSize = 0xFFFFFFFFU ;
if ( NULL = = outOptions - > mOutputName | | NULL = = outOptions - > mInputName )
{
retval = __LINE__ ;
ERROR_REPORT ( retval , " stdin/stdout " , " Unable to strdup. " ) ;
}
/*
* * Go through and attempt to do the right thing .
*/
for ( loop = 1 ; loop < inArgc & & 0 = = retval ; loop + + )
{
match = 0 ;
current = NULL ;
for ( switchLoop = 0 ; switchLoop < switchCount & & 0 = = retval ; switchLoop + + )
{
if ( 0 = = strcmp ( gSwitches [ switchLoop ] - > mLongName , inArgv [ loop ] ) )
{
match = __LINE__ ;
}
else if ( 0 = = strcmp ( gSwitches [ switchLoop ] - > mShortName , inArgv [ loop ] ) )
{
match = __LINE__ ;
}
if ( match )
{
if ( gSwitches [ switchLoop ] - > mHasValue )
{
/*
* * Attempt to absorb next option to fullfill value .
*/
if ( loop + 1 < inArgc )
{
loop + + ;
current = gSwitches [ switchLoop ] ;
current - > mValue = inArgv [ loop ] ;
}
}
else
{
current = gSwitches [ switchLoop ] ;
}
break ;
}
}
if ( 0 = = match )
{
outOptions - > mHelp = __LINE__ ;
retval = __LINE__ ;
ERROR_REPORT ( retval , inArgv [ loop ] , " Unknown command line switch. " ) ;
}
else if ( NULL = = current )
{
outOptions - > mHelp = __LINE__ ;
retval = __LINE__ ;
ERROR_REPORT ( retval , inArgv [ loop ] , " Command line switch requires a value. " ) ;
}
else
{
/*
* * Do something based on address / swtich .
*/
if ( current = = & gInputSwitch )
{
CLEANUP ( outOptions - > mInputName ) ;
if ( NULL ! = outOptions - > mInput & & stdin ! = outOptions - > mInput )
{
fclose ( outOptions - > mInput ) ;
outOptions - > mInput = NULL ;
}
outOptions - > mInput = fopen ( current - > mValue , " r " ) ;
if ( NULL = = outOptions - > mInput )
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to open input file. " ) ;
}
else
{
outOptions - > mInputName = strdup ( current - > mValue ) ;
if ( NULL = = outOptions - > mInputName )
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to strdup. " ) ;
}
}
}
else if ( current = = & gOutputSwitch )
{
CLEANUP ( outOptions - > mOutputName ) ;
if ( NULL ! = outOptions - > mOutput & & stdout ! = outOptions - > mOutput )
{
fclose ( outOptions - > mOutput ) ;
outOptions - > mOutput = NULL ;
}
outOptions - > mOutput = fopen ( current - > mValue , " a " ) ;
if ( NULL = = outOptions - > mOutput )
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to open output file. " ) ;
}
else
{
outOptions - > mOutputName = strdup ( current - > mValue ) ;
if ( NULL = = outOptions - > mOutputName )
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to strdup. " ) ;
}
}
}
else if ( current = = & gHelpSwitch )
{
outOptions - > mHelp = __LINE__ ;
}
else if ( current = = & gModuleSwitch )
{
outOptions - > mModules = __LINE__ ;
}
else if ( current = = & gTotalSwitch )
{
outOptions - > mTotalOnly = __LINE__ ;
}
else if ( current = = & gMinSize )
{
unsigned long arg = 0 ;
char * endScan = NULL ;
errno = 0 ;
arg = strtoul ( current - > mValue , & endScan , 0 ) ;
if ( 0 = = errno & & endScan ! = current - > mValue )
{
outOptions - > mMinSize = arg ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to convert to a number. " ) ;
}
}
else if ( current = = & gMaxSize )
{
unsigned long arg = 0 ;
char * endScan = NULL ;
errno = 0 ;
arg = strtoul ( current - > mValue , & endScan , 0 ) ;
if ( 0 = = errno & & endScan ! = current - > mValue )
{
outOptions - > mMaxSize = arg ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to convert to a number. " ) ;
}
}
else if ( current = = & gMatchClass )
{
char * dupMatch = NULL ;
dupMatch = strdup ( current - > mValue ) ;
if ( NULL ! = dupMatch )
{
void * moved = NULL ;
moved = realloc ( outOptions - > mMatchClasses , sizeof ( char * ) * ( outOptions - > mMatchClassCount + 1 ) ) ;
if ( NULL ! = moved )
{
outOptions - > mMatchClasses = ( char * * ) moved ;
outOptions - > mMatchClasses [ outOptions - > mMatchClassCount ] = dupMatch ;
outOptions - > mMatchClassCount + + ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mLongName , " Unable to expand array. " ) ;
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to duplicate string. " ) ;
}
}
else if ( current = = & gMatchScope )
{
char * dupMatch = NULL ;
dupMatch = strdup ( current - > mValue ) ;
if ( NULL ! = dupMatch )
{
void * moved = NULL ;
moved = realloc ( outOptions - > mMatchScopes , sizeof ( char * ) * ( outOptions - > mMatchScopeCount + 1 ) ) ;
if ( NULL ! = moved )
{
outOptions - > mMatchScopes = ( char * * ) moved ;
outOptions - > mMatchScopes [ outOptions - > mMatchScopeCount ] = dupMatch ;
outOptions - > mMatchScopeCount + + ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mLongName , " Unable to expand array. " ) ;
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to duplicate string. " ) ;
}
}
else if ( current = = & gMatchModule )
{
char * dupMatch = NULL ;
dupMatch = strdup ( current - > mValue ) ;
if ( NULL ! = dupMatch )
{
void * moved = NULL ;
moved = realloc ( outOptions - > mMatchModules , sizeof ( char * ) * ( outOptions - > mMatchModuleCount + 1 ) ) ;
if ( NULL ! = moved )
{
outOptions - > mMatchModules = ( char * * ) moved ;
outOptions - > mMatchModules [ outOptions - > mMatchModuleCount ] = dupMatch ;
outOptions - > mMatchModuleCount + + ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mLongName , " Unable to expand array. " ) ;
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to duplicate string. " ) ;
}
}
else if ( current = = & gMatchSection )
{
char * dupMatch = NULL ;
dupMatch = strdup ( current - > mValue ) ;
if ( NULL ! = dupMatch )
{
void * moved = NULL ;
moved = realloc ( outOptions - > mMatchSections , sizeof ( char * ) * ( outOptions - > mMatchSectionCount + 1 ) ) ;
if ( NULL ! = moved )
{
outOptions - > mMatchSections = ( char * * ) moved ;
outOptions - > mMatchSections [ outOptions - > mMatchSectionCount ] = dupMatch ;
outOptions - > mMatchSectionCount + + ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mLongName , " Unable to expand array. " ) ;
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to duplicate string. " ) ;
}
}
else if ( current = = & gMatchObject )
{
char * dupMatch = NULL ;
dupMatch = strdup ( current - > mValue ) ;
if ( NULL ! = dupMatch )
{
void * moved = NULL ;
moved = realloc ( outOptions - > mMatchObjects , sizeof ( char * ) * ( outOptions - > mMatchObjectCount + 1 ) ) ;
if ( NULL ! = moved )
{
outOptions - > mMatchObjects = ( char * * ) moved ;
outOptions - > mMatchObjects [ outOptions - > mMatchObjectCount ] = dupMatch ;
outOptions - > mMatchObjectCount + + ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mLongName , " Unable to expand array. " ) ;
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to duplicate string. " ) ;
}
}
else if ( current = = & gMatchSymbol )
{
char * dupMatch = NULL ;
dupMatch = strdup ( current - > mValue ) ;
if ( NULL ! = dupMatch )
{
void * moved = NULL ;
moved = realloc ( outOptions - > mMatchSymbols , sizeof ( char * ) * ( outOptions - > mMatchSymbolCount + 1 ) ) ;
if ( NULL ! = moved )
{
outOptions - > mMatchSymbols = ( char * * ) moved ;
outOptions - > mMatchSymbols [ outOptions - > mMatchSymbolCount ] = dupMatch ;
outOptions - > mMatchSymbolCount + + ;
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mLongName , " Unable to expand array. " ) ;
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mValue , " Unable to duplicate string. " ) ;
}
}
else
{
retval = __LINE__ ;
ERROR_REPORT ( retval , current - > mLongName , " No handler for command line switch. " ) ;
}
}
}
return retval ;
}
void cleanOptions ( Options * inOptions )
/*
* * Clean up any open handles .
*/
{
unsigned loop = 0 ;
CLEANUP ( inOptions - > mInputName ) ;
if ( NULL ! = inOptions - > mInput & & stdin ! = inOptions - > mInput )
{
fclose ( inOptions - > mInput ) ;
}
CLEANUP ( inOptions - > mOutputName ) ;
if ( NULL ! = inOptions - > mOutput & & stdout ! = inOptions - > mOutput )
{
fclose ( inOptions - > mOutput ) ;
}
for ( loop = 0 ; loop < inOptions - > mMatchClassCount ; loop + + )
{
CLEANUP ( inOptions - > mMatchClasses [ loop ] ) ;
}
CLEANUP ( inOptions - > mMatchClasses ) ;
for ( loop = 0 ; loop < inOptions - > mMatchScopeCount ; loop + + )
{
CLEANUP ( inOptions - > mMatchScopes [ loop ] ) ;
}
CLEANUP ( inOptions - > mMatchScopes ) ;
for ( loop = 0 ; loop < inOptions - > mMatchModuleCount ; loop + + )
{
CLEANUP ( inOptions - > mMatchModules [ loop ] ) ;
}
CLEANUP ( inOptions - > mMatchModules ) ;
for ( loop = 0 ; loop < inOptions - > mMatchSectionCount ; loop + + )
{
CLEANUP ( inOptions - > mMatchSections [ loop ] ) ;
}
CLEANUP ( inOptions - > mMatchSections ) ;
for ( loop = 0 ; loop < inOptions - > mMatchObjectCount ; loop + + )
{
CLEANUP ( inOptions - > mMatchObjects [ loop ] ) ;
}
CLEANUP ( inOptions - > mMatchObjects ) ;
for ( loop = 0 ; loop < inOptions - > mMatchSymbolCount ; loop + + )
{
CLEANUP ( inOptions - > mMatchSymbols [ loop ] ) ;
}
CLEANUP ( inOptions - > mMatchSymbols ) ;
memset ( inOptions , 0 , sizeof ( Options ) ) ;
}
void showHelp ( Options * inOptions )
/*
* * Show some simple help text on usage .
*/
{
int loop = 0 ;
const int switchCount = sizeof ( gSwitches ) / sizeof ( gSwitches [ 0 ] ) ;
const char * valueText = NULL ;
printf ( " usage: \t %s [arguments] \n " , inOptions - > mProgramName ) ;
printf ( " \n " ) ;
printf ( " arguments: \n " ) ;
for ( loop = 0 ; loop < switchCount ; loop + + )
{
if ( gSwitches [ loop ] - > mHasValue )
{
valueText = " <value> " ;
}
else
{
valueText = " " ;
}
printf ( " \t %s%s \n " , gSwitches [ loop ] - > mLongName , valueText ) ;
printf ( " \t %s%s " , gSwitches [ loop ] - > mShortName , valueText ) ;
printf ( DESC_NEWLINE " %s \n \n " , gSwitches [ loop ] - > mDescription ) ;
}
printf ( " This tool takes a tsv file and reports composite code and data sizes. \n " ) ;
}
int main ( int inArgc , char * * inArgv )
{
int retval = 0 ;
Options options ;
retval = initOptions ( & options , inArgc , inArgv ) ;
if ( options . mHelp )
{
showHelp ( & options ) ;
}
else if ( 0 = = retval )
{
retval = codesighs ( & options ) ;
}
cleanOptions ( & options ) ;
return retval ;
}