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|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
//
//
/******************************************************************************/
/* formatType.cpp */
/******************************************************************************/
#include "formattype.h"
/******************************************************************************/
char* asString(CQuickBytes *out) {
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
SIZE_T oldSize = out->Size();
out->ReSizeThrows(oldSize + 1);
char* cur = &((char*) out->Ptr())[oldSize];
*cur = 0;
out->ReSizeThrows(oldSize); // Don't count the null character
return((char*) out->Ptr());
}
void appendStr(CQuickBytes *out, const char* str, unsigned len) {
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
if(len == (unsigned)(-1)) len = (unsigned)strlen(str);
SIZE_T oldSize = out->Size();
out->ReSizeThrows(oldSize + len);
char* cur = &((char*) out->Ptr())[oldSize];
memcpy(cur, str, len);
// Note no trailing null!
}
void appendChar(CQuickBytes *out, char chr) {
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
SIZE_T oldSize = out->Size();
out->ReSizeThrows(oldSize + 1);
((char*) out->Ptr())[oldSize] = chr;
// Note no trailing null!
}
void insertStr(CQuickBytes *out, const char* str) {
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
unsigned len = (unsigned)strlen(str);
SIZE_T oldSize = out->Size();
out->ReSizeThrows(oldSize + len);
char* cur = &((char*) out->Ptr())[len];
memmove(cur,out->Ptr(),oldSize);
memcpy(out->Ptr(), str, len);
// Note no trailing null!
}
static void appendStrNum(CQuickBytes *out, int num) {
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
char buff[16];
sprintf_s(buff, COUNTOF(buff), "%d", num);
appendStr(out, buff);
}
const PCCOR_SIGNATURE PrettyPrintSignature(
PCCOR_SIGNATURE typePtr, // type to convert,
unsigned typeLen, // the lenght of 'typePtr'
const char* name, // can be "", the name of the method for this sig 0 means local var sig
CQuickBytes *out, // where to put the pretty printed string
IMDInternalImport *pIMDI, // ptr to IMDInternalImport class with ComSig
_In_opt_z_ const char* inlabel, // prefix for names (NULL if no names required)
BOOL printTyArity=FALSE);
PCCOR_SIGNATURE PrettyPrintTypeOrDef(
PCCOR_SIGNATURE typePtr, // type to convert,
CQuickBytes *out, // where to put the pretty printed string
IMDInternalImport *pIMDI); // ptr to IMDInternal class with ComSig
//*****************************************************************************
// Parse a length, return the length, size of the length.
//*****************************************************************************
ULONG GetLength( // Length or -1 on error.
void const *pData, // First byte of length.
int *pSizeLen) // Put size of length here, if not 0.
{
LIMITED_METHOD_CONTRACT;
BYTE const *pBytes = reinterpret_cast<BYTE const*>(pData);
if(pBytes)
{
if ((*pBytes & 0x80) == 0x00) // 0??? ????
{
if (pSizeLen) *pSizeLen = 1;
return (*pBytes & 0x7f);
}
if ((*pBytes & 0xC0) == 0x80) // 10?? ????
{
if (pSizeLen) *pSizeLen = 2;
return ((*pBytes & 0x3f) << 8 | *(pBytes+1));
}
if ((*pBytes & 0xE0) == 0xC0) // 110? ????
{
if (pSizeLen) *pSizeLen = 4;
return ((*pBytes & 0x1f) << 24 | *(pBytes+1) << 16 | *(pBytes+2) << 8 | *(pBytes+3));
}
}
if(pSizeLen) *pSizeLen = 0;
return 0;
}
/******************************************************************************/
const char* PrettyPrintSig(
PCCOR_SIGNATURE typePtr, // type to convert,
unsigned typeLen, // the length of 'typePtr'
const char* name, // can be "", the name of the method for this sig 0 means local var sig
CQuickBytes *out, // where to put the pretty printed string
IMDInternalImport *pIMDI, // ptr to IMDInternalImport class with ComSig
const char* inlabel, // prefix for names (NULL if no names required)
BOOL printTyArity)
{
STATIC_CONTRACT_THROWS;
// This had a _try/__except handler earlier that would swallow exceptions like
// SO and breakpoint. Obviously, swallowing any of them is not the right thing to do.
//
// Thus, we replace it with EX_TRY/EX_CATCH that automatically kicks in with SO
// handling if it sees any SO going past it. Also, C++ catch will not swallow
// the breakpoint exception (which is what we want).
EX_TRY
{
PrettyPrintSignature(typePtr,
typeLen,
name,
out,
pIMDI,
inlabel,
printTyArity);
}
EX_CATCH
{
out->Shrink(0);
appendStr(out,"ERROR PARSING THE SIGNATURE");
}
#if defined(__ILDASM__)
// Dont allow ildasm to swallow bad SEH exceptions
EX_END_CATCH(RethrowCorruptingExceptions);
#else // __ILDASM__
EX_END_CATCH(SwallowAllExceptions);
#endif // __ILDASM__
return(asString(out));
}
/********************************************************************************/
// Converts a com signature to a printable signature.
// Note that return value is pointing at the CQuickBytes buffer,
const PCCOR_SIGNATURE PrettyPrintSignature(
PCCOR_SIGNATURE typePtr, // type to convert,
unsigned typeLen, // the lenght of 'typePtr'
const char* name, // can be "", the name of the method for this sig 0 means local var sig
CQuickBytes *out, // where to put the pretty printed string
IMDInternalImport *pIMDI, // ptr to IMDInternalImport class with ComSig
const char* inlabel, // prefix for names (NULL if no names required)
BOOL printTyArity)
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
unsigned numArgs;
unsigned numTyArgs = 0;
PCCOR_SIGNATURE typeEnd = typePtr + typeLen;
unsigned ixArg= 0; //arg index
char argname[1024];
char label[MAX_PREFIX_SIZE];
const char* openpar = "(";
const char* closepar = ")";
ParamDescriptor* pszArgName = NULL; // ptr to array of names (if provided by debug info)
if(inlabel && *inlabel) // check for *inlabel is totally unnecessary, added to pacify the PREFIX
{
strcpy_s(label,MAX_PREFIX_SIZE,inlabel);
ixArg = label[strlen(label)-1] - '0';
label[strlen(label)-1] = 0;
if(label[0] == '@') // it's pointer!
{
#ifdef _WIN64
pszArgName = (ParamDescriptor*)_atoi64(&label[1]);
#else // !_WIN64
pszArgName = (ParamDescriptor*)(size_t)atoi(&label[1]);
#endif // _WIN64
}
}
// 0 means a local var sig
if (name != 0)
{
// get the calling convention out
unsigned callConv = CorSigUncompressData(typePtr);
// should not be a local var sig
_ASSERTE(!isCallConv(callConv, IMAGE_CEE_CS_CALLCONV_LOCAL_SIG));
if (isCallConv(callConv, IMAGE_CEE_CS_CALLCONV_FIELD))
{
typePtr = PrettyPrintTypeOrDef(typePtr, out, pIMDI);
if (*name)
{
appendChar(out, ' ');
appendStr(out, name);
}
return(typePtr);
}
if (callConv & IMAGE_CEE_CS_CALLCONV_EXPLICITTHIS)
appendStr(out, KEYWORD("explicit "));
if (callConv & IMAGE_CEE_CS_CALLCONV_HASTHIS)
appendStr(out, KEYWORD("instance "));
if (isCallConv(callConv, IMAGE_CEE_CS_CALLCONV_GENERICINST))
{
openpar = LTN();
closepar = GTN();
}
else
{
static const char* const callConvNames[8] = {
"",
"unmanaged cdecl ",
"unmanaged stdcall ",
"unmanaged thiscall ",
"unmanaged fastcall ",
"vararg ",
"<error> ",
"<error> "
};
appendStr(out, KEYWORD(callConvNames[callConv & 7]));
}
if (callConv & IMAGE_CEE_CS_CALLCONV_GENERIC)
{
numTyArgs = CorSigUncompressData(typePtr);
}
numArgs = CorSigUncompressData(typePtr);
if (!isCallConv(callConv, IMAGE_CEE_CS_CALLCONV_GENERICINST))
{
// do return type
if(pszArgName)
{
argname[0] = 0;
DumpParamAttr(argname,COUNTOF(argname),pszArgName[ixArg+numArgs].attr);
appendStr(out,argname);
}
typePtr = PrettyPrintTypeOrDef(typePtr, out, pIMDI);
if(pszArgName)
{
argname[0] = ' '; argname[1] = 0;
DumpMarshaling(pIMDI,argname,COUNTOF(argname),pszArgName[ixArg+numArgs].tok);
appendStr(out,argname);
}
if(*name != 0)
{
appendChar(out, ' ');
appendStr(out, name);
}
if((numTyArgs != 0)&&printTyArity)
{
appendStr(out,LTN());
appendChar(out,'[');
appendStrNum(out,numTyArgs);
appendChar(out,']');
appendStr(out,GTN());
}
}
}
else
{
// get the calling convention out
#ifdef _DEBUG
unsigned callConv =
#endif
CorSigUncompressData(typePtr);
#ifdef _DEBUG
(void)callConv; //prevent "unused variable" warning from GCC
// should be a local var sig
_ASSERTE(callConv == IMAGE_CEE_CS_CALLCONV_LOCAL_SIG);
#endif
numArgs = CorSigUncompressData(typePtr);
}
appendStr(out, openpar);
bool needComma = false;
while(typePtr < typeEnd)
{
if(name) // printing the arguments
{
PREFIX_ASSUME(typePtr != NULL);
if (*typePtr == ELEMENT_TYPE_SENTINEL)
{
if (needComma)
appendChar(out, ',');
appendStr(out, "...");
typePtr++;
}
else
{
if (numArgs <= 0)
break;
if (needComma)
appendChar(out, ',');
if(pszArgName)
{
argname[0] = 0;
DumpParamAttr(argname,COUNTOF(argname),pszArgName[ixArg].attr);
appendStr(out,argname);
}
typePtr = PrettyPrintTypeOrDef(typePtr, out, pIMDI);
if(inlabel)
{
if(pszArgName)
{
argname[0] = ' '; argname[1] = 0;
DumpMarshaling(pIMDI,argname,COUNTOF(argname),pszArgName[ixArg].tok);
strcat_s(argname, COUNTOF(argname), ProperName(pszArgName[ixArg++].name));
}
else sprintf_s(argname,COUNTOF(argname)," %s_%d",label,ixArg++);
appendStr(out,argname);
}
--numArgs;
}
}
else // printing local vars
{
if (numArgs <= 0)
break;
if(pszArgName)
{
if(pszArgName[ixArg].attr == 0xFFFFFFFF)
{
CQuickBytes fake_out;
typePtr = PrettyPrintTypeOrDef(typePtr, &fake_out, pIMDI);
ixArg++;
numArgs--;
continue;
}
}
if (needComma)
appendChar(out, ',');
if(pszArgName)
{
sprintf_s(argname,COUNTOF(argname),"[%d] ",pszArgName[ixArg].attr);
appendStr(out,argname);
}
typePtr = PrettyPrintTypeOrDef(typePtr, out, pIMDI);
if(inlabel)
{
if(pszArgName)
{
sprintf_s(argname,COUNTOF(argname)," %s",ProperLocalName(pszArgName[ixArg++].name));
}
else sprintf_s(argname,COUNTOF(argname)," %s_%d",label,ixArg++);
appendStr(out,argname);
}
--numArgs;
}
needComma = true;
}
// Have we finished printing all the arguments?
if (numArgs > 0) {
appendStr(out, ERRORMSG(" [SIGNATURE ENDED PREMATURELY]"));
}
appendStr(out, closepar);
return(typePtr);
}
/******************************************************************************/
// pretty prints 'type' or its 'typedef' to the buffer 'out' returns a poitner to the next type,
// or 0 on a format failure; outside ILDASM -- simple wrapper for PrettyPrintType
PCCOR_SIGNATURE PrettyPrintTypeOrDef(
PCCOR_SIGNATURE typePtr, // type to convert,
CQuickBytes *out, // where to put the pretty printed string
IMDInternalImport *pIMDI) // ptr to IMDInternal class with ComSig
{
CONTRACTL
{
THROWS;
SO_TOLERANT;
GC_NOTRIGGER;
}
CONTRACTL_END;
PCCOR_SIGNATURE pBegin, pEnd=NULL;
BEGIN_SO_INTOLERANT_CODE_NO_THROW_CHECK_THREAD(ThrowStackOverflow());
#ifdef __ILDASM__
ULONG L = (ULONG)(out->Size());
#endif
pBegin = typePtr;
pEnd = PrettyPrintType(typePtr,out,pIMDI);
#ifdef __ILDASM__
if(pEnd > pBegin) // PrettyPrintType can return NULL
{
DWORD i;
ULONG l = (ULONG)(pEnd - pBegin);
for(i=0; i < g_NumTypedefs; i++)
{
if(((*g_typedefs)[i].cb == l)
&& (memcmp((*g_typedefs)[i].psig,pBegin,l)==0))
{
out->Shrink(L); // discard output of PrettyPrintType
appendStr(out, JUMPPT(ProperName((*g_typedefs)[i].szName),(*g_typedefs)[i].tkSelf));
break;
}
}
}
#endif
END_SO_INTOLERANT_CODE;
return pEnd;
}
/******************************************************************************/
// pretty prints 'type' to the buffer 'out' returns a pointer to the next type,
// or 0 on a format failure
PCCOR_SIGNATURE PrettyPrintType(
PCCOR_SIGNATURE typePtr, // type to convert,
CQuickBytes *out, // where to put the pretty printed string
IMDInternalImport *pIMDI) // ptr to IMDInternal class with ComSig
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
mdToken tk;
const char* str;
int typ;
CQuickBytes tmp;
CQuickBytes Appendix;
BOOL Reiterate;
int n;
do {
Reiterate = FALSE;
switch(typ = *typePtr++) {
case ELEMENT_TYPE_VOID :
str = "void"; goto APPEND;
case ELEMENT_TYPE_BOOLEAN :
str = "bool"; goto APPEND;
case ELEMENT_TYPE_CHAR :
str = "char"; goto APPEND;
case ELEMENT_TYPE_I1 :
str = "int8"; goto APPEND;
case ELEMENT_TYPE_U1 :
str = "uint8"; goto APPEND;
case ELEMENT_TYPE_I2 :
str = "int16"; goto APPEND;
case ELEMENT_TYPE_U2 :
str = "uint16"; goto APPEND;
case ELEMENT_TYPE_I4 :
str = "int32"; goto APPEND;
case ELEMENT_TYPE_U4 :
str = "uint32"; goto APPEND;
case ELEMENT_TYPE_I8 :
str = "int64"; goto APPEND;
case ELEMENT_TYPE_U8 :
str = "uint64"; goto APPEND;
case ELEMENT_TYPE_R4 :
str = "float32"; goto APPEND;
case ELEMENT_TYPE_R8 :
str = "float64"; goto APPEND;
case ELEMENT_TYPE_U :
str = "native uint"; goto APPEND;
case ELEMENT_TYPE_I :
str = "native int"; goto APPEND;
case ELEMENT_TYPE_OBJECT :
str = "object"; goto APPEND;
case ELEMENT_TYPE_STRING :
str = "string"; goto APPEND;
case ELEMENT_TYPE_TYPEDBYREF :
str = "typedref"; goto APPEND;
APPEND:
appendStr(out, KEYWORD((char*)str));
break;
case ELEMENT_TYPE_VALUETYPE :
str = "valuetype ";
goto DO_CLASS;
case ELEMENT_TYPE_CLASS :
str = "class ";
goto DO_CLASS;
DO_CLASS:
appendStr(out, KEYWORD((char*)str));
typePtr += CorSigUncompressToken(typePtr, &tk);
if(IsNilToken(tk))
{
appendStr(out, "[ERROR! NIL TOKEN]");
}
else PrettyPrintClass(out, tk, pIMDI);
REGISTER_REF(g_tkRefUser,tk)
break;
case ELEMENT_TYPE_SZARRAY :
insertStr(&Appendix,"[]");
Reiterate = TRUE;
break;
case ELEMENT_TYPE_ARRAY :
{
typePtr = PrettyPrintTypeOrDef(typePtr, out, pIMDI);
PREFIX_ASSUME(typePtr != NULL);
unsigned rank = CorSigUncompressData(typePtr);
// <TODO> what is the syntax for the rank 0 case? </TODO>
if (rank == 0) {
appendStr(out, ERRORMSG("[BAD: RANK == 0!]"));
}
else {
_ASSERTE(rank != 0);
#ifdef _PREFAST_
#pragma prefast(push)
#pragma prefast(disable:22009 "Suppress PREFAST warnings about integer overflow")
#endif
int* lowerBounds = (int*) _alloca(sizeof(int)*2*rank);
int* sizes = &lowerBounds[rank];
memset(lowerBounds, 0, sizeof(int)*2*rank);
unsigned numSizes = CorSigUncompressData(typePtr);
_ASSERTE(numSizes <= rank);
unsigned i;
for(i =0; i < numSizes; i++)
sizes[i] = CorSigUncompressData(typePtr);
unsigned numLowBounds = CorSigUncompressData(typePtr);
_ASSERTE(numLowBounds <= rank);
for(i = 0; i < numLowBounds; i++)
typePtr+=CorSigUncompressSignedInt(typePtr,&lowerBounds[i]);
appendChar(out, '[');
if (rank == 1 && numSizes == 0 && numLowBounds == 0)
appendStr(out, "...");
else {
for(i = 0; i < rank; i++)
{
//if (sizes[i] != 0 || lowerBounds[i] != 0)
{
if (lowerBounds[i] == 0 && i < numSizes)
appendStrNum(out, sizes[i]);
else
{
if(i < numLowBounds)
{
appendStrNum(out, lowerBounds[i]);
appendStr(out, "...");
if (/*sizes[i] != 0 && */i < numSizes)
appendStrNum(out, lowerBounds[i] + sizes[i] - 1);
}
}
}
if (i < rank-1)
appendChar(out, ',');
}
}
appendChar(out, ']');
#ifdef _PREFAST_
#pragma prefast(pop)
#endif
}
} break;
case ELEMENT_TYPE_VAR :
appendChar(out, '!');
n = CorSigUncompressData(typePtr);
#ifdef __ILDASM__
if(!PrettyPrintGP(g_tkVarOwner,out,n))
#endif
appendStrNum(out, n);
break;
case ELEMENT_TYPE_MVAR :
appendChar(out, '!');
appendChar(out, '!');
n = CorSigUncompressData(typePtr);
#ifdef __ILDASM__
if(!PrettyPrintGP(g_tkMVarOwner,out,n))
#endif
appendStrNum(out, n);
break;
case ELEMENT_TYPE_FNPTR :
appendStr(out, KEYWORD("method "));
typePtr = PrettyPrintSignature(typePtr, 0x7FFF, "*", out, pIMDI, NULL);
break;
case ELEMENT_TYPE_GENERICINST :
{
typePtr = PrettyPrintTypeOrDef(typePtr, out, pIMDI);
appendStr(out, LTN());
unsigned numArgs = CorSigUncompressData(typePtr);
bool needComma = false;
while(numArgs--)
{
if (needComma)
appendChar(out, ',');
typePtr = PrettyPrintTypeOrDef(typePtr, out, pIMDI);
needComma = true;
}
appendStr(out, GTN());
break;
}
#ifndef __ILDASM__
case ELEMENT_TYPE_INTERNAL :
{
// ELEMENT_TYPE_INTERNAL <TypeHandle>
_ASSERTE(sizeof(TypeHandle) == sizeof(void *));
TypeHandle typeHandle;
typePtr += CorSigUncompressPointer(typePtr, (void **)&typeHandle);
MethodTable *pMT = NULL;
if (typeHandle.IsTypeDesc())
{
pMT = typeHandle.AsTypeDesc()->GetMethodTable();
if (pMT)
{
PrettyPrintClass(out, pMT->GetCl(), pMT->GetMDImport());
// It could be a "native version" of the managed type used in interop
if (typeHandle.AsTypeDesc()->IsNativeValueType())
appendStr(out, "_NativeValueType");
}
else
appendStr(out, "(null)");
}
else
{
pMT = typeHandle.AsMethodTable();
if (pMT)
PrettyPrintClass(out, pMT->GetCl(), pMT->GetMDImport());
else
appendStr(out, "(null)");
}
char sz[32];
if(IsCompilationProcess())
{
sprintf_s(sz, COUNTOF(sz), " /* TOKEN: 0x%x */", pMT != NULL ? pMT->GetCl() : 0);
}
else
{
sprintf_s(sz, COUNTOF(sz), " /* MT: 0x%p */", pMT);
}
appendStr(out, sz);
break;
}
#endif
// Modifiers or depedent types
case ELEMENT_TYPE_CMOD_OPT :
str = " modopt("; goto ADDCLASSTOCMOD;
case ELEMENT_TYPE_CMOD_REQD :
str = " modreq(";
ADDCLASSTOCMOD:
typePtr += CorSigUncompressToken(typePtr, &tk);
if (IsNilToken(tk))
{
Debug_ReportError("Nil token in custom modifier");
}
tmp.Shrink(0);
appendStr(&tmp, KEYWORD((char*)str));
PrettyPrintClass(&tmp, tk, pIMDI);
appendChar(&tmp,')');
str = (const char *) asString(&tmp);
goto MODIFIER;
case ELEMENT_TYPE_PINNED :
str = " pinned"; goto MODIFIER;
case ELEMENT_TYPE_PTR :
str = "*"; goto MODIFIER;
case ELEMENT_TYPE_BYREF :
str = AMP(); goto MODIFIER;
MODIFIER:
insertStr(&Appendix, str);
Reiterate = TRUE;
break;
default:
case ELEMENT_TYPE_SENTINEL :
case ELEMENT_TYPE_END :
//_ASSERTE(!"Unknown Type");
if(typ)
{
char sz[64];
sprintf_s(sz,COUNTOF(sz),"/* UNKNOWN TYPE (0x%X)*/",typ);
appendStr(out, ERRORMSG(sz));
}
break;
} // end switch
} while(Reiterate);
appendStr(out,asString(&Appendix));
return(typePtr);
}
/******************************************************************/
const char* PrettyPrintClass(
CQuickBytes *out, // where to put the pretty printed string
mdToken tk, // The class token to look up
IMDInternalImport *pIMDI) // ptr to IMDInternalImport class with ComSig
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
if(tk == mdTokenNil) // Zero resolution scope for "somewhere here" TypeRefs
{
appendStr(out,"[*]");
return(asString(out));
}
if(!pIMDI->IsValidToken(tk))
{
char str[1024];
sprintf_s(str,COUNTOF(str)," [ERROR: INVALID TOKEN 0x%8.8X] ",tk);
appendStr(out,ERRORMSG(str));
return(asString(out));
}
switch(TypeFromToken(tk))
{
case mdtTypeRef:
case mdtTypeDef:
#ifdef __ILDASM__
DWORD ix;
for(ix = 0; ix < g_NumTypedefs; ix++)
{
if((*g_typedefs)[ix].tkTypeSpec == tk) break;
}
if(ix < g_NumTypedefs)
{
appendStr(out,JUMPPT(ProperName((*g_typedefs)[ix].szName),(*g_typedefs)[ix].tkSelf));
}
else
#endif
{
const char *nameSpace = 0;
const char *name = 0;
mdToken tkEncloser;
if (TypeFromToken(tk) == mdtTypeRef)
{
if (FAILED(pIMDI->GetResolutionScopeOfTypeRef(tk, &tkEncloser)))
{
tkEncloser = mdTypeDefNil;
}
if (FAILED(pIMDI->GetNameOfTypeRef(tk, &nameSpace, &name)))
{
nameSpace = name = "Invalid TypeRef record";
}
}
else
{
if (FAILED(pIMDI->GetNestedClassProps(tk,&tkEncloser)))
{
tkEncloser = mdTypeDefNil;
}
if (FAILED(pIMDI->GetNameOfTypeDef(tk, &name, &nameSpace)))
{
nameSpace = name = "Invalid TypeDef record";
}
}
MAKE_NAME_IF_NONE(name,tk);
if((tkEncloser == mdTokenNil) || RidFromToken(tkEncloser))
{
PrettyPrintClass(out,tkEncloser,pIMDI);
if (TypeFromToken(tkEncloser) == mdtTypeRef || TypeFromToken(tkEncloser) == mdtTypeDef)
{
appendChar(out, '/');
//nameSpace = ""; //don't print namespaces for nested classes!
}
}
if(TypeFromToken(tk)==mdtTypeDef)
{
unsigned L = (unsigned)strlen(ProperName(name))+1;
char* szFN = NULL;
if(nameSpace && *nameSpace)
{
const char* sz = ProperName(nameSpace);
L+= (unsigned)strlen(sz)+1;
szFN = new char[L];
sprintf_s(szFN,L,"%s.",sz);
}
else
{
szFN = new char[L];
*szFN = 0;
}
strcat_s(szFN,L, ProperName(name));
appendStr(out,JUMPPT(szFN,tk));
VDELETE(szFN);
}
else
{
if (nameSpace && *nameSpace) {
appendStr(out, ProperName(nameSpace));
appendChar(out, '.');
}
appendStr(out, ProperName(name));
}
if(g_fDumpTokens)
{
char tmp[16];
sprintf_s(tmp,COUNTOF(tmp),"/*%08X*/",tk);
appendStr(out,COMMENT(tmp));
}
}
break;
case mdtAssemblyRef:
{
LPCSTR szName = NULL;
#ifdef __ILDASM__
if (rAsmRefName && (RidFromToken(tk) <= ulNumAsmRefs))
{
szName = rAsmRefName[RidFromToken(tk)-1];
}
else
#endif
{
if (FAILED(pIMDI->GetAssemblyRefProps(tk,NULL,NULL,&szName,NULL,NULL,NULL,NULL)))
{
szName = NULL;
}
}
if ((szName != NULL) && ((*szName) != 0 ))
{
appendChar(out, '[');
appendStr(out,JUMPPT(ProperName(szName),tk));
if(g_fDumpTokens)
{
char tmp[16];
sprintf_s(tmp,COUNTOF(tmp),"/*%08X*/",tk);
appendStr(out,COMMENT(tmp));
}
appendChar(out, ']');
}
}
break;
case mdtAssembly:
{
LPCSTR szName;
if (FAILED(pIMDI->GetAssemblyProps(tk,NULL,NULL,NULL,&szName,NULL,NULL)))
{
szName = NULL;
}
if ((szName != NULL) && ((*szName) != 0))
{
appendChar(out, '[');
appendStr(out,JUMPPT(ProperName(szName),tk));
if(g_fDumpTokens)
{
char tmp[16];
sprintf_s(tmp,COUNTOF(tmp),"/* %08X */",tk);
appendStr(out,COMMENT(tmp));
}
appendChar(out, ']');
}
}
break;
case mdtModuleRef:
{
LPCSTR szName;
if (FAILED(pIMDI->GetModuleRefProps(tk, &szName)))
{
szName = NULL;
}
if ((szName != NULL) && ((*szName) != 0))
{
appendChar(out, '[');
appendStr(out,KEYWORD(".module "));
appendStr(out,JUMPPT(ProperName(szName),tk));
if(g_fDumpTokens)
{
char tmp[16];
sprintf_s(tmp,COUNTOF(tmp),"/*%08X*/",tk);
appendStr(out,COMMENT(tmp));
}
appendChar(out, ']');
}
}
break;
case mdtTypeSpec:
{
#ifdef __ILDASM__
DWORD ix;
for(ix = 0; ix < g_NumTypedefs; ix++)
{
if((*g_typedefs)[ix].tkTypeSpec == tk) break;
}
if(ix < g_NumTypedefs)
{
appendStr(out,JUMPPT(ProperName((*g_typedefs)[ix].szName),(*g_typedefs)[ix].tkSelf));
}
else
#endif
{
ULONG cSig;
PCCOR_SIGNATURE sig;
if (FAILED(pIMDI->GetSigFromToken(tk, &cSig, &sig)))
{
char tmp[64];
sprintf_s(tmp, COUNTOF(tmp), "/*Invalid %08X record*/", tk);
appendStr(out, COMMENT(tmp));
}
else
{
PrettyPrintType(sig, out, pIMDI);
}
}
if(g_fDumpTokens)
{
char tmp[16];
sprintf_s(tmp,COUNTOF(tmp),"/*%08X*/",tk);
appendStr(out,COMMENT(tmp));
}
}
break;
case mdtModule:
break;
default:
{
char str[128];
sprintf_s(str,COUNTOF(str)," [ERROR: INVALID TOKEN TYPE 0x%8.8X] ",tk);
appendStr(out,ERRORMSG(str));
}
}
return(asString(out));
}
const char* TrySigUncompressAndDumpSimpleNativeType(
PCCOR_SIGNATURE pData, // [IN] compressed data
ULONG *pDataOut, // [OUT] the expanded *pData
ULONG &cbCur,
SString &buf)
{
const char* sz = NULL;
ULONG ulSize = CorSigUncompressData(pData, pDataOut);
if (ulSize != (ULONG)-1)
{
switch (*pDataOut)
{
case NATIVE_TYPE_VOID: sz = " void"; break;
case NATIVE_TYPE_BOOLEAN: sz = " bool"; break;
case NATIVE_TYPE_I1: sz = " int8"; break;
case NATIVE_TYPE_U1: sz = " unsigned int8"; break;
case NATIVE_TYPE_I2: sz = " int16"; break;
case NATIVE_TYPE_U2: sz = " unsigned int16"; break;
case NATIVE_TYPE_I4: sz = " int32"; break;
case NATIVE_TYPE_U4: sz = " unsigned int32"; break;
case NATIVE_TYPE_I8: sz = " int64"; break;
case NATIVE_TYPE_U8: sz = " unsigned int64"; break;
case NATIVE_TYPE_R4: sz = " float32"; break;
case NATIVE_TYPE_R8: sz = " float64"; break;
case NATIVE_TYPE_SYSCHAR: sz = " syschar"; break;
case NATIVE_TYPE_VARIANT: sz = " variant"; break;
case NATIVE_TYPE_CURRENCY: sz = " currency"; break;
case NATIVE_TYPE_DECIMAL: sz = " decimal"; break;
case NATIVE_TYPE_DATE: sz = " date"; break;
case NATIVE_TYPE_BSTR: sz = " bstr"; break;
case NATIVE_TYPE_LPSTR: sz = " lpstr"; break;
case NATIVE_TYPE_LPWSTR: sz = " lpwstr"; break;
case NATIVE_TYPE_LPTSTR: sz = " lptstr"; break;
case NATIVE_TYPE_OBJECTREF: sz = " objectref"; break;
case NATIVE_TYPE_STRUCT: sz = " struct"; break;
case NATIVE_TYPE_ERROR: sz = " error"; break;
case NATIVE_TYPE_INT: sz = " int"; break;
case NATIVE_TYPE_UINT: sz = " uint"; break;
case NATIVE_TYPE_NESTEDSTRUCT: sz = " nested struct"; break;
case NATIVE_TYPE_BYVALSTR: sz = " byvalstr"; break;
case NATIVE_TYPE_ANSIBSTR: sz = " ansi bstr"; break;
case NATIVE_TYPE_TBSTR: sz = " tbstr"; break;
case NATIVE_TYPE_VARIANTBOOL: sz = " variant bool"; break;
case NATIVE_TYPE_FUNC: sz = " method"; break;
case NATIVE_TYPE_ASANY: sz = " as any"; break;
case NATIVE_TYPE_LPSTRUCT: sz = " lpstruct"; break;
case NATIVE_TYPE_PTR:
case NATIVE_TYPE_SAFEARRAY:
case NATIVE_TYPE_ARRAY:
case NATIVE_TYPE_FIXEDSYSSTRING:
case NATIVE_TYPE_FIXEDARRAY:
case NATIVE_TYPE_INTF:
case NATIVE_TYPE_IUNKNOWN:
case NATIVE_TYPE_IDISPATCH:
case NATIVE_TYPE_CUSTOMMARSHALER:
case NATIVE_TYPE_END:
case NATIVE_TYPE_MAX:
sz = ""; break;
default: sz = NULL;
}
}
if (sz)
cbCur += ulSize;
else
buf.Clear();
return sz;
}
bool TrySigUncompress(PCCOR_SIGNATURE pData, // [IN] compressed data
ULONG *pDataOut, // [OUT] the expanded *pData
ULONG &cbCur,
SString &buf)
{
ULONG ulSize = CorSigUncompressData(pData, pDataOut);
if (ulSize == (ULONG)-1)
{
buf.Clear();
return false;
} else
{
cbCur += ulSize;
return true;
}
}
#ifdef _PREFAST_
#pragma warning(push)
#pragma warning(disable:21000) // Suppress PREFast warning about overly large function
#endif
char* DumpMarshaling(IMDInternalImport* pImport,
__inout_ecount(cchszString) char* szString,
DWORD cchszString,
mdToken tok)
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
PCCOR_SIGNATURE pSigNativeType = NULL;
ULONG cbNativeType = 0;
SString buf;
if (RidFromToken(tok) &&
SUCCEEDED(pImport->GetFieldMarshal( // return error if no native type associate with the token
tok, // [IN] given fielddef
&pSigNativeType, // [OUT] the native type signature
&cbNativeType))) // [OUT] the count of bytes of *ppvNativeType
{
ULONG cbCur = 0;
ULONG ulData;
const char *sz = NULL;
BOOL fAddAsterisk = FALSE, fAddBrackets = FALSE;
buf.AppendPrintf(" %s(", KEYWORD("marshal"));
while (cbCur < cbNativeType)
{
ulData = NATIVE_TYPE_MAX;
sz = TrySigUncompressAndDumpSimpleNativeType(&pSigNativeType[cbCur], &ulData, cbCur, buf);
if (!sz)
goto error;
if(*sz == 0)
{
switch (ulData)
{
case NATIVE_TYPE_PTR:
sz = "";
fAddAsterisk = TRUE;
break;
case NATIVE_TYPE_SAFEARRAY:
sz = "";
buf.AppendASCII(KEYWORD(" safearray"));
ulData = VT_EMPTY;
if (cbCur < cbNativeType)
{
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
}
switch(ulData & VT_TYPEMASK)
{
case VT_EMPTY: sz=""; break;
case VT_NULL: sz=" null"; break;
case VT_VARIANT: sz=" variant"; break;
case VT_CY: sz=" currency"; break;
case VT_VOID: sz=" void"; break;
case VT_BOOL: sz=" bool"; break;
case VT_I1: sz=" int8"; break;
case VT_I2: sz=" int16"; break;
case VT_I4: sz=" int32"; break;
case VT_I8: sz=" int64"; break;
case VT_R4: sz=" float32"; break;
case VT_R8: sz=" float64"; break;
case VT_UI1: sz=" unsigned int8"; break;
case VT_UI2: sz=" unsigned int16"; break;
case VT_UI4: sz=" unsigned int32"; break;
case VT_UI8: sz=" unsigned int64"; break;
case VT_PTR: sz=" *"; break;
case VT_DECIMAL: sz=" decimal"; break;
case VT_DATE: sz=" date"; break;
case VT_BSTR: sz=" bstr"; break;
case VT_LPSTR: sz=" lpstr"; break;
case VT_LPWSTR: sz=" lpwstr"; break;
case VT_UNKNOWN: sz=" iunknown"; break;
case VT_DISPATCH: sz=" idispatch"; break;
case VT_SAFEARRAY: sz=" safearray"; break;
case VT_INT: sz=" int"; break;
case VT_UINT: sz=" unsigned int"; break;
case VT_ERROR: sz=" error"; break;
case VT_HRESULT: sz=" hresult"; break;
case VT_CARRAY: sz=" carray"; break;
case VT_USERDEFINED: sz=" userdefined"; break;
case VT_RECORD: sz=" record"; break;
case VT_FILETIME: sz=" filetime"; break;
case VT_BLOB: sz=" blob"; break;
case VT_STREAM: sz=" stream"; break;
case VT_STORAGE: sz=" storage"; break;
case VT_STREAMED_OBJECT: sz=" streamed_object"; break;
case VT_STORED_OBJECT: sz=" stored_object"; break;
case VT_BLOB_OBJECT: sz=" blob_object"; break;
case VT_CF: sz=" cf"; break;
case VT_CLSID: sz=" clsid"; break;
default: sz=NULL; break;
}
if(sz) buf.AppendASCII(KEYWORD(sz));
else
{
// buf.AppendPrintf(ERRORMSG(" [ILLEGAL VARIANT TYPE 0x%X]"),ulData & VT_TYPEMASK);
buf.Clear();
goto error;
}
sz="";
switch(ulData & (~VT_TYPEMASK))
{
case VT_ARRAY: sz = "[]"; break;
case VT_VECTOR: sz = " vector"; break;
case VT_BYREF: sz = "&"; break;
case VT_BYREF|VT_ARRAY: sz = "&[]"; break;
case VT_BYREF|VT_VECTOR: sz = "& vector"; break;
case VT_ARRAY|VT_VECTOR: sz = "[] vector"; break;
case VT_BYREF|VT_ARRAY|VT_VECTOR: sz = "&[] vector"; break;
}
buf.AppendASCII(KEYWORD(sz));
sz="";
// Extract the user defined sub type name.
if (cbCur < cbNativeType)
{
LPUTF8 strTemp = NULL;
int strLen = 0;
int ByteCountLength = 0;
strLen = GetLength(&pSigNativeType[cbCur], &ByteCountLength);
cbCur += ByteCountLength;
if(strLen)
{
#ifdef _PREFAST_
#pragma prefast(push)
#pragma prefast(disable:22009 "Suppress PREFAST warnings about integer overflow")
#endif
strTemp = (LPUTF8)_alloca(strLen + 1);
memcpy(strTemp, (LPUTF8)&pSigNativeType[cbCur], strLen);
strTemp[strLen] = 0;
buf.AppendPrintf(", \"%s\"", UnquotedProperName(strTemp));
cbCur += strLen;
#ifdef _PREFAST_
#pragma prefast(pop)
#endif
}
}
break;
case NATIVE_TYPE_ARRAY:
sz = "";
fAddBrackets = TRUE;
break;
case NATIVE_TYPE_FIXEDSYSSTRING:
{
sz = "";
buf.AppendASCII(KEYWORD(" fixed sysstring"));
buf.AppendASCII(" [");
if (cbCur < cbNativeType)
{
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
buf.AppendPrintf("%d",ulData);
}
buf.AppendASCII("]");
}
break;
case NATIVE_TYPE_FIXEDARRAY:
{
sz = "";
buf.AppendASCII(KEYWORD(" fixed array"));
buf.AppendASCII(" [");
if (cbCur < cbNativeType)
{
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
buf.AppendPrintf("%d",ulData);
}
buf.AppendASCII("]");
if (cbCur < cbNativeType)
{
sz = TrySigUncompressAndDumpSimpleNativeType(&pSigNativeType[cbCur], &ulData, cbCur, buf);
if (!sz)
goto error;
}
}
break;
case NATIVE_TYPE_INTF:
buf.AppendASCII(KEYWORD(" interface"));
goto DumpIidParamIndex;
case NATIVE_TYPE_IUNKNOWN:
buf.AppendASCII(KEYWORD(" iunknown"));
goto DumpIidParamIndex;
case NATIVE_TYPE_IDISPATCH:
buf.AppendASCII(KEYWORD(" idispatch"));
DumpIidParamIndex:
sz = " ";
if (cbCur < cbNativeType)
{
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
buf.AppendPrintf("(%s = %d)",KEYWORD("iidparam"),ulData);
}
break;
case NATIVE_TYPE_CUSTOMMARSHALER:
{
LPUTF8 strTemp = NULL;
int strLen = 0;
int ByteCountLength = 0;
BOOL fFourStrings = FALSE;
sz = "";
buf.AppendASCII(KEYWORD(" custom"));
buf.AppendASCII(" (");
// Extract the typelib GUID.
strLen = GetLength(&pSigNativeType[cbCur], &ByteCountLength);
cbCur += ByteCountLength;
if(strLen)
{
fFourStrings = TRUE;
strTemp = (LPUTF8)(new char[strLen + 1]);
if(strTemp)
{
memcpy(strTemp, (LPUTF8)&pSigNativeType[cbCur], strLen);
strTemp[strLen] = 0;
buf.AppendPrintf("\"%s\",",UnquotedProperName(strTemp));
cbCur += strLen;
VDELETE(strTemp);
}
}
if(cbCur >= cbNativeType)
{
// buf.AppendASCII(ERRORMSG("/* INCOMPLETE MARSHALER INFO */"));
buf.Clear();
goto error;
}
else
{
//_ASSERTE(cbCur < cbNativeType);
// Extract the name of the native type.
strLen = GetLength(&pSigNativeType[cbCur], &ByteCountLength);
cbCur += ByteCountLength;
if(fFourStrings)
{
if(strLen)
{
strTemp = (LPUTF8)(new char[strLen + 1]);
if(strTemp)
{
memcpy(strTemp, (LPUTF8)&pSigNativeType[cbCur], strLen);
strTemp[strLen] = 0;
buf.AppendPrintf("\"%s\",",UnquotedProperName(strTemp));
cbCur += strLen;
VDELETE(strTemp);
}
}
else buf.AppendASCII("\"\",");
}
if(cbCur >= cbNativeType)
{
// buf.AppendASCII(ERRORMSG("/* INCOMPLETE MARSHALER INFO */"));
buf.Clear();
goto error;
}
else
{
//_ASSERTE(cbCur < cbNativeType);
// Extract the name of the custom marshaler.
strLen = GetLength(&pSigNativeType[cbCur], &ByteCountLength);
cbCur += ByteCountLength;
if(strLen)
{
strTemp = (LPUTF8)(new char[strLen + 1]);
if(strTemp)
{
memcpy(strTemp, (LPUTF8)&pSigNativeType[cbCur], strLen);
strTemp[strLen] = 0;
buf.AppendPrintf("\"%s\",",UnquotedProperName(strTemp));
cbCur += strLen;
VDELETE(strTemp);
}
}
else buf.AppendASCII("\"\",");
if(cbCur >= cbNativeType)
{
// buf.AppendASCII(ERRORMSG("/* INCOMPLETE MARSHALER INFO */"));
buf.Clear();
goto error;
}
else
{
// Extract the cookie string.
strLen = GetLength(&pSigNativeType[cbCur], &ByteCountLength);
cbCur += ByteCountLength;
if(cbCur+strLen > cbNativeType)
{
// buf.AppendASCII(ERRORMSG("/* INCOMPLETE MARSHALER INFO */"));
buf.Clear();
goto error;
}
else
{
if(strLen)
{
strTemp = (LPUTF8)(new (nothrow) char[strLen + 1]);
if(strTemp)
{
memcpy(strTemp, (LPUTF8)&pSigNativeType[cbCur], strLen);
strTemp[strLen] = 0;
buf.AppendASCII("\"");
// Copy the cookie string and transform the embedded nulls into \0's.
for (int i = 0; i < strLen - 1; i++, cbCur++)
{
if (strTemp[i] == 0)
buf.AppendASCII("\\0");
else
{
buf.AppendPrintf("%c", strTemp[i]);
}
}
buf.AppendPrintf("%c\"", strTemp[strLen - 1]);
cbCur++;
VDELETE(strTemp);
}
}
else
buf.AppendASCII("\"\"");
//_ASSERTE(cbCur <= cbNativeType);
}
}
}
}
buf.AppendASCII(")");
}
break;
default:
{
sz = "";
}
} // end switch
}
if(*sz)
{
buf.AppendASCII(KEYWORD(sz));
if(fAddAsterisk)
{
buf.AppendASCII("*");
fAddAsterisk = FALSE;
}
if(fAddBrackets)
{
ULONG ulSizeParam=(ULONG)-1,ulSizeConst=(ULONG)-1;
buf.AppendASCII("[");
fAddBrackets = FALSE;
if (cbCur < cbNativeType)
{
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
ulSizeParam = ulData;
if (cbCur < cbNativeType)
{
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
ulSizeConst = ulData;
if (cbCur < cbNativeType)
{
// retrieve flags
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
if((ulData & 1) == 0) ulSizeParam = 0xFFFFFFFF;
}
}
}
if(ulSizeConst != 0xFFFFFFFF)
{
buf.AppendPrintf("%d",ulSizeConst);
// if(ulSizeParam == 0) ulSizeParam = 0xFFFFFFFF; // don't need +0
}
if(ulSizeParam != 0xFFFFFFFF)
{
buf.AppendPrintf(" + %d",ulSizeParam);
}
buf.AppendASCII("]");
}
}
if (ulData >= NATIVE_TYPE_MAX)
break;
} // end while (cbCur < cbNativeType)
// still can have outstanding asterisk or brackets
if(fAddAsterisk)
{
buf.AppendASCII("*");
fAddAsterisk = FALSE;
}
if(fAddBrackets)
{
ULONG ulSizeParam=(ULONG)-1,ulSizeConst=(ULONG)-1;
buf.AppendASCII("[");
fAddBrackets = FALSE;
if (cbCur < cbNativeType)
{
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
ulSizeParam = ulData;
if (cbCur < cbNativeType)
{
if (!TrySigUncompress(&pSigNativeType[cbCur], &ulData, cbCur, buf))
goto error;
ulSizeConst = ulData;
}
}
if(ulSizeConst != 0xFFFFFFFF)
{
buf.AppendPrintf("%d",ulSizeConst);
// if(ulSizeParam == 0) ulSizeParam = 0xFFFFFFFF; // don't need +0
}
if(ulSizeParam != 0xFFFFFFFF)
{
buf.AppendPrintf(" + %d",ulSizeParam);
}
buf.AppendASCII("]");
}
buf.AppendASCII(") ");
}// end if(SUCCEEDED
error:
if (buf.IsEmpty() && cbNativeType != 0)
{
// There was something that we didn't grok in the signature.
// Just dump out the blob as hex
buf.AppendPrintf(" %s({", KEYWORD("marshal"));
while (cbNativeType--)
buf.AppendPrintf(" %2.2X", *pSigNativeType++);
buf.AppendASCII(" }) ");
char * tgt = szString + strlen(szString);
int sprintf_ret = sprintf_s(tgt, cchszString - (tgt - szString), "%S", buf.GetUnicode());
if (sprintf_ret == -1)
{
// Hit an error. Oh well, nothing to do...
return tgt;
}
else
{
return tgt + sprintf_ret;
}
}
else
{
char * tgt = szString + strlen(szString);
int sprintf_ret = sprintf_s(tgt, cchszString - (tgt - szString), "%S", buf.GetUnicode());
if (sprintf_ret == -1)
{
// There was an error, possibly with converting the Unicode characters.
buf.Clear();
if (cbNativeType != 0)
goto error;
return tgt; // Oh well, nothing to do...
}
else
{
return tgt + sprintf_ret;
}
}
}
#ifdef _PREFAST_
#pragma warning(pop)
#endif
char* DumpParamAttr(__inout_ecount(cchszString) char* szString, DWORD cchszString, DWORD dwAttr)
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
}
CONTRACTL_END;
char *szptr = &szString[strlen(szString)];
char *was_szptr = szptr;
if(IsPdIn(dwAttr))
{
szptr+=sprintf_s(szptr,cchszString - (szptr - was_szptr), KEYWORD("[in]"));
}
if(IsPdOut(dwAttr))
{
szptr+=sprintf_s(szptr,cchszString - (szptr - was_szptr),KEYWORD("[out]"));
}
if(IsPdOptional(dwAttr))
{
szptr+=sprintf_s(szptr,cchszString - (szptr - was_szptr),KEYWORD("[opt]"));
}
if(szptr != was_szptr)
{
szptr+=sprintf_s(szptr,cchszString - (szptr - was_szptr)," ");
}
return szptr;
}
|
