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540 lines
15 KiB
540 lines
15 KiB
//+---------------------------------------------------------------------------
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//
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// Microsoft Windows
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// Copyright (C) Microsoft Corporation, 1989 - 1994.
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//
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// File: buildinc.c
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//
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// Contents: This is the checking include module for the NT Build Tool (BUILD.EXE)
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//
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// Used for detecting the includes that do not satisfy the acceptable
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// patterns.
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//
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// History: see SLM
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//----------------------------------------------------------------------------
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#include "build.h"
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//+---------------------------------------------------------------------------
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//
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// Function: FoundCountedSequenceInString
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//
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// Synopsis: Roughly equivalent to "strstr" except that the substring doesn't
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// have to be NULL-terminated.
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//
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// Arguments: [String] -- null-terminated string to search
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// [Sequence] -- string to search for
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// [Length] -- the length of the sequence
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//----------------------------------------------------------------------------
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LPCTSTR
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FindCountedSequenceInString(
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IN LPCTSTR String,
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IN LPCTSTR Sequence,
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IN DWORD Length
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)
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{
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assert( Sequence );
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assert( String );
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if ( Length > 0 ) {
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while ( *String ) {
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while (( *String ) && ( *String != *Sequence )) {
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String++;
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}
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if ( *String ) {
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LPCTSTR SubString = String + 1;
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LPCTSTR SubSequence = Sequence + 1;
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DWORD Remaining = Length - 1;
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while (( Remaining ) && ( *SubString++ == *SubSequence++ )) {
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Remaining--;
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}
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if ( Remaining == 0 ) {
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return String;
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}
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String++;
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}
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}
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return NULL;
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}
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return String;
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}
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//+---------------------------------------------------------------------------
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//
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// Function: DoesInstanceMatchPattern
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//
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// Synopsis: Returns TRUE if pattern matches instance.
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// Wildcards:
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// * matches any text
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// ? matches any and exactly one character
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// # matches any text up to backslash character or end of string
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//
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// Arguments: [Instance] -- the string to be matched
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// [Pattern] -- the pattern
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//----------------------------------------------------------------------------
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BOOL
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DoesInstanceMatchPattern(
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IN LPCTSTR Instance,
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IN LPCTSTR Pattern
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)
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{
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assert( Instance );
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assert( Pattern );
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while ( *Pattern ) {
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if ( *Pattern == TEXT('*')) {
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Pattern++;
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while ( *Pattern == TEXT('*')) { // skip multiple '*' characters
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Pattern++;
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}
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if ( *Pattern == 0 ) { // '*' at end of pattern matches rest
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return TRUE;
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}
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if ( *Pattern == '?' ) { // '?' following '*'
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//
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// Expensive because we have to restart match for every
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// character position remaining since '?' can match anything.
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//
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while ( *Instance ) {
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if ( DoesInstanceMatchPattern( Instance, Pattern )) {
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return TRUE;
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}
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Instance++;
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}
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return FALSE;
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}
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else {
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//
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// Now we know that next character in pattern is a regular
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// character to be matched. Find out the length of that
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// string to the next wildcard or end of string.
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//
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LPCTSTR NextWildCard = Pattern + 1;
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DWORD MatchLength;
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while (( *NextWildCard ) && ( *NextWildCard != TEXT('*')) && ( *NextWildCard != TEXT('?')) && ( *NextWildCard != TEXT('#'))) {
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NextWildCard++;
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}
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MatchLength = (DWORD)(NextWildCard - Pattern); // always non-zero
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//
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// Now try to match with any instance of substring in pattern
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// found in the instance.
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//
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Instance = FindCountedSequenceInString( Instance, Pattern, MatchLength );
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while ( Instance ) {
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if ( DoesInstanceMatchPattern( Instance + MatchLength, NextWildCard )) {
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return TRUE;
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}
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Instance = FindCountedSequenceInString( Instance + 1, Pattern, MatchLength );
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}
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return FALSE;
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}
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}
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else if ( *Pattern == TEXT('#')) {
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//
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// Match text up to backslash character or end of string
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//
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Pattern++;
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while (( *Instance != 0 ) && ( *Instance != '\\' )) {
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Instance++;
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}
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continue;
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}
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else if ( *Pattern == TEXT('?')) {
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if ( *Instance == 0 ) {
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return FALSE;
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}
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}
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else if ( *Pattern != *Instance ) {
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return FALSE;
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}
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Pattern++;
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Instance++;
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}
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return ( *Instance == 0 );
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}
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//+---------------------------------------------------------------------------
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//
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// Function: CombinePaths
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//
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// Synopsis: Combine two strings to get a full path.
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//
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// Arguments: [ParentPath] -- head path
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// [ChildPath] -- path to be added
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// [TargetPath] -- full path
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//----------------------------------------------------------------------------
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LPSTR
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CombinePaths(
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IN LPCSTR ParentPath,
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IN LPCSTR ChildPath,
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OUT LPSTR TargetPath // can be same as ParentPath if want to append
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)
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{
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ULONG ParentLength = strlen( ParentPath );
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LPSTR p;
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assert( ParentPath );
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assert( ChildPath );
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if ( ParentPath != TargetPath ) {
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memcpy( TargetPath, ParentPath, ParentLength );
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}
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p = TargetPath + ParentLength;
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if (( ParentLength > 0 ) &&
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( *( p - 1 ) != '\\' ) &&
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( *( p - 1 ) != '/' )) {
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*p++ = '\\';
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}
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strcpy( p, ChildPath );
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return TargetPath;
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}
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//+---------------------------------------------------------------------------
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//
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// Function: CreateRelativePath
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//
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// Synopsis: Determine the "canonical" path of one file relative to
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// another file
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//
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// Arguments: [SourceAbsName] -- absolute path of the source file
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// [TargetAbsName] -- absolute path of the target file
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// [RelativePath] -- resulted relative path
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//----------------------------------------------------------------------------
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VOID
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CreateRelativePath(
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IN LPCSTR SourceAbsName, // must be lowercase
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IN LPCSTR TargetAbsName, // must be lowercase
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OUT LPSTR RelativePath // must be large enough
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)
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{
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//
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// First, walk through path components that match in Source and Target.
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// For example:
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//
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// d:\nt\private\ntos\dd\efs.h
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// d:\nt\private\windows\base\ntcrypto\des.h
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// ^
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// This is where the relative path stops going up (..)
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// and starts going back down.
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//
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// So, the "cannonical" relative path generated should look like:
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//
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// ..\..\..\windows\base\ntcrypto\des.h
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//
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// For relative includes that are "below" the includer in the path should
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// look like this:
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//
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// .\foo\bar\foobar.h
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//
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LPCSTR Source = SourceAbsName;
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LPCSTR Target = TargetAbsName;
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LPSTR Output = RelativePath;
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ULONG PathSeparatorIndex;
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BOOL AnyParent;
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ULONG i;
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assert( SourceAbsName );
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assert( TargetAbsName );
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PathSeparatorIndex = 0;
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i = 0;
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//
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// Scan forward to first non-matching character, and keep track of
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// most recent path separator character.
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//
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while (( Source[ i ] == Target[ i ] ) && ( Source[ i ] != 0 )) {
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if ( Source[ i ] == '\\' ) {
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PathSeparatorIndex = i;
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}
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++i;
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}
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//
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// Coming out of this loop, there are 2 possibilities:
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//
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// 1) Found common ancestor path ( *PathSeparatorIndex == '\\' )
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// 2) Don't have common ancestor ( *PathSeparatorIndex != '\\' )
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//
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if ( Source[ PathSeparatorIndex ] != '\\' ) {
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strcpy( RelativePath, TargetAbsName );
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return;
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}
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i = PathSeparatorIndex + 1;
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//
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// Now continue to walk down source path and insert a "..\" in the result
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// for each path separator encountered.
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//
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AnyParent = FALSE;
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while ( Source[ i ] != 0 ) {
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if ( Source[ i ] == '\\' ) {
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AnyParent = TRUE;
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*Output++ = '.';
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*Output++ = '.';
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*Output++ = '\\';
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}
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++i;
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}
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if ( ! AnyParent ) {
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//
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// Relative path is below current directory.
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//
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*Output++ = '.';
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*Output++ = '\\';
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}
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//
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// Now we simply append what's remaining of the Target path from the
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// ancestor match point.
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//
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strcpy( Output, Target + PathSeparatorIndex + 1 );
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}
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//+---------------------------------------------------------------------------
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//
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// Function: ShouldWarnInclude
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//
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// Synopsis: Returns true if the name of the included file matches a
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// BUILD_UNACCEPTABLE_INCLUDES pattern or it does not match
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// any of the patterns specified in BUILD_ACCEPTABLE_INCLUDES.
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//
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// Arguments: [CompilandFullName] -- name of the including file
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// [IncludeeFullName] -- name of the included file
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//----------------------------------------------------------------------------
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BOOL
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ShouldWarnInclude(
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IN LPCSTR CompilandFullName,
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IN LPCSTR IncludeeFullName
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)
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{
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UINT i;
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CHAR IncludeeRelativeName[ MAX_PATH ];
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assert( CompilandFullName );
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assert( IncludeeFullName );
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CreateRelativePath( CompilandFullName, IncludeeFullName, IncludeeRelativeName );
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//
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// First we check for a match against any unacceptable include path
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// because we always want to warn about these.
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//
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for ( i = 0; UnacceptableIncludePatternList[ i ] != NULL; i++ ) {
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if ( DoesInstanceMatchPattern( IncludeeFullName, UnacceptableIncludePatternList[ i ] )) {
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return TRUE;
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}
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if ( DoesInstanceMatchPattern( IncludeeRelativeName, UnacceptableIncludePatternList[ i ] )) {
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return TRUE;
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}
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}
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//
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// If we get to here, the include path was not explicitly unacceptable, so
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// we now want to see if it matches any acceptable paths. But, if no
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// acceptable paths are specified, we don't want to warn.
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//
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if ( AcceptableIncludePatternList[ 0 ] == NULL ) {
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return FALSE;
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}
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for ( i = 0; AcceptableIncludePatternList[ i ] != NULL; i++ ) {
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if ( DoesInstanceMatchPattern( IncludeeFullName, AcceptableIncludePatternList[ i ] )) {
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return FALSE;
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}
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if ( DoesInstanceMatchPattern( IncludeeRelativeName, AcceptableIncludePatternList[ i ] )) {
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return FALSE;
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}
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}
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return TRUE;
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}
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//+---------------------------------------------------------------------------
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//
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// Function: CheckIncludeForWarning
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//
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// Synopsis: Warnings if the dependency does not respect the
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// BUILD_UNACCEPTABLE_INCLUDES or BUILD_ACCEPTABLE_INCLUDES
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// restristions. Works with build -#.
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//
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// Arguments: [CompilandDir]
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// [CompilandName]
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// [IncluderDir]
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// [IncluderName]
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// [IncludeeDir]
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// [IncludeeName]
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//----------------------------------------------------------------------------
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VOID
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CheckIncludeForWarning(
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IN LPCSTR CompilandDir,
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IN LPCSTR CompilandName,
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IN LPCSTR IncluderDir,
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IN LPCSTR IncluderName,
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IN LPCSTR IncludeeDir,
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IN LPCSTR IncludeeName
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)
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{
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CHAR CompilandFullName[ MAX_PATH ];
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CHAR IncluderFullName[ MAX_PATH ];
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CHAR IncludeeFullName[ MAX_PATH ];
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assert( CompilandDir );
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assert( CompilandName );
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assert( IncluderDir );
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assert( IncluderName );
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assert( IncludeeDir );
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assert( IncludeeName );
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CombinePaths( CompilandDir, CompilandName, CompilandFullName );
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CombinePaths( IncluderDir, IncluderName, IncluderFullName );
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CombinePaths( IncludeeDir, IncludeeName, IncludeeFullName );
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_strlwr( CompilandFullName );
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_strlwr( IncluderFullName );
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_strlwr( IncludeeFullName );
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if ( IncFile ) {
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fprintf(
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IncFile,
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"%s includes %s\r\n",
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IncluderFullName,
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IncludeeFullName
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);
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}
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if ( ShouldWarnInclude( CompilandFullName, IncludeeFullName )) {
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if ( strcmp( IncluderFullName, CompilandFullName ) == 0 ) {
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if ( WrnFile ) {
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fprintf(
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WrnFile,
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"WARNING: %s includes %s\n",
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CompilandFullName,
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IncludeeFullName
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);
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}
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if ( fShowWarningsOnScreen ) {
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BuildMsgRaw(
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"WARNING: %s includes %s\n",
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CompilandFullName,
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IncludeeFullName
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);
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}
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}
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else {
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if ( WrnFile ) {
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fprintf(
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WrnFile,
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"WARNING: %s includes %s through %s\n",
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CompilandFullName,
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IncludeeFullName,
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IncluderFullName
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);
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}
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if ( fShowWarningsOnScreen ) {
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BuildMsgRaw(
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"WARNING: %s includes %s through %s\n",
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CompilandFullName,
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IncludeeFullName,
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IncluderFullName
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);
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}
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}
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}
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}
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