Microsoft-3D-Movie-Maker/kauai/SRC/TEST.CPP

714 lines
18 KiB
C++
Raw Normal View History

2022-05-04 01:31:19 +02:00
/* Copyright (c) Microsoft Corporation.
Licensed under the MIT License. */
/***************************************************************************
Author: ShonK
Project: Kauai test app
Reviewed:
Copyright (c) Microsoft Corporation
Test code used in both ut and ft.
***************************************************************************/
#include "util.h"
ASSERTNAME
#ifdef DEBUG
extern void CheckForLostMem(BASE *po);
#else //!DEBUG
#define CheckForLostMem(po)
#endif //!DEBUG
void TestInt(void);
void TestMem(void);
void TestGl(void);
void TestFni(void);
void TestFil(void);
void TestGg(void);
void TestCfl(void);
void TestErs(void);
void TestCrf(void);
/******************************************************************************
Test util code.
******************************************************************************/
void TestUtil(void)
{
Bug("Assert Test");
long lw = 0x12345678;
BugVar("AssertVar test", &lw);
TestInt();
TestMem();
TestErs();
TestGl();
TestGg();
//TestFni();
//TestFil();
//TestCfl();
TestCrf();
}
/***************************************************************************
Test utilint stuff.
***************************************************************************/
void TestInt(void)
{
AssertDo(SwHigh(0x12345678) == (short)0x1234, 0);
AssertDo(SwHigh(0xABCDEF01) == (short)0xABCD, 0);
AssertDo(SwLow(0x12345678) == (short)0x5678, 0);
AssertDo(SwLow(0xABCDEF01) == (short)0xEF01, 0);
AssertDo(LwHighLow(0x1234, 0x5678) == 0x12345678, 0);
AssertDo(LwHighLow((short)0xABCD, (short)0xEF01) == 0xABCDEF01, 0);
AssertDo(BHigh(0x1234) == 0x12, 0);
AssertDo(BHigh((short)0xABCD) == 0xAB, 0);
AssertDo(BLow(0x1234) == 0x34, 0);
AssertDo(BLow((short)0xABCD) == 0xCD, 0);
AssertDo(SwHighLow(0x12, 0x56) == (short)0x1256, 0);
AssertDo(SwHighLow(0xAB, 0xEF) == (short)0xABEF, 0);
AssertDo(SwMin(kswMax, kswMin) == kswMin, 0);
AssertDo(SwMin(kswMin, kswMax) == kswMin, 0);
AssertDo(SwMax(kswMax, kswMin) == kswMax, 0);
AssertDo(SwMax(kswMin, kswMax) == kswMax, 0);
AssertDo(SuMin(ksuMax, 0) == 0, 0);
AssertDo(SuMin(0, ksuMax) == 0, 0);
AssertDo(SuMax(ksuMax, 0) == ksuMax, 0);
AssertDo(SuMax(0, ksuMax) == ksuMax, 0);
AssertDo(LwMin(klwMax, klwMin) == klwMin, 0);
AssertDo(LwMin(klwMin, klwMax) == klwMin, 0);
AssertDo(LwMax(klwMax, klwMin) == klwMax, 0);
AssertDo(LwMax(klwMin, klwMax) == klwMax, 0);
AssertDo(LuMin(kluMax, 0) == 0, 0);
AssertDo(LuMin(0, kluMax) == 0, 0);
AssertDo(LuMax(kluMax, 0) == kluMax, 0);
AssertDo(LuMax(0, kluMax) == kluMax, 0);
AssertDo(SwAbs(kswMax) == kswMax, 0);
AssertDo(SwAbs(kswMin) == -kswMin, 0);
AssertDo(LwAbs(klwMax) == klwMax, 0);
AssertDo(LwAbs(klwMin) == -klwMin, 0);
AssertDo(LwMulSw(kswMax, kswMax) == 0x3FFF0001, 0);
AssertDo(LwMulSw(kswMin, kswMin) == 0x3FFF0001, 0);
AssertDo(LwMulSw(kswMax, kswMin) == -0x3FFF0001, 0);
AssertDo(LwMulDiv(klwMax, klwMax, klwMin) == klwMin, 0);
AssertDo(LwMulDiv(klwMax, klwMin, klwMax) == klwMin, 0);
AssertDo(CbRoundToLong(0) == 0, 0);
AssertDo(CbRoundToLong(1) == 4, 0);
AssertDo(CbRoundToLong(2) == 4, 0);
AssertDo(CbRoundToLong(3) == 4, 0);
AssertDo(CbRoundToLong(4) == 4, 0);
AssertDo(CbRoundToLong(5) == 8, 0);
AssertDo(CbRoundToShort(0) == 0, 0);
AssertDo(CbRoundToShort(1) == 2, 0);
AssertDo(CbRoundToShort(2) == 2, 0);
AssertDo(CbRoundToShort(3) == 4, 0);
AssertDo(CbRoundToShort(4) == 4, 0);
AssertDo(CbRoundToShort(5) == 6, 0);
AssertDo(LwGcd(10000, 350) == 50, 0);
AssertDo(LwGcd(10000, -560) == 80, 0);
AssertDo(FcmpCompareFracs(50000, 30000, 300000, 200000) == fcmpGt, 0);
AssertDo(FcmpCompareFracs(-50000, 30000, -300000, 200000) == fcmpLt, 0);
AssertDo(FcmpCompareFracs(-50000, 30000, 300000, 200000) == fcmpLt, 0);
AssertDo(FcmpCompareFracs(50000, 30000, -300000, 200000) == fcmpGt, 0);
AssertDo(FcmpCompareFracs(50000, 30000, 500000, 300000) == fcmpEq, 0);
AssertDo(FcmpCompareFracs(0x1FFF0000, 0x10, 0x11000000, 0x10) == fcmpGt, 0);
}
/***************************************************************************
Test the memory manager.
***************************************************************************/
void TestMem(void)
{
#define kchq 18
static HQ rghq[kchq]; //static so it's initially zeros
HQ hqT, hq;
long cb, ihq;
for (ihq = 0; ihq < kchq; ihq++)
{
cb = (1L << ihq) - 1 + ihq;
if (!FAllocHq(&hq, cb, fmemNil, mprDebug))
{
BugVar("HqAlloc failed on size:", &cb);
break;
}
rghq[ihq] = hq;
AssertDo(CbOfHq(hq) == cb, 0);
FillPb(QvFromHq(hq), cb, (byte)cb);
if (cb > 0)
{
AssertDo(*(byte *)QvFromHq(hq) == (byte)cb, 0);
AssertDo(*(byte *)PvAddBv(QvFromHq(hq), cb - 1) == (byte)cb, 0);
}
AssertDo(PvLockHq(hq) == QvFromHq(hq), 0);
if (!FCopyHq(hq, &hqT, mprDebug))
Bug("FCopyHq failed");
else
{
AssertDo(CbOfHq(hqT) == cb, 0);
if (cb > 0)
{
AssertDo(*(byte *)QvFromHq(hqT) == (byte)cb, 0);
AssertDo(*(byte *)PvAddBv(QvFromHq(hqT), cb - 1) == (byte)cb, 0);
}
FreePhq(&hqT);
}
Assert(hqT == hqNil, 0);
FreePhq(&hqT);
UnlockHq(hq);
}
for (ihq = 0; ihq < kchq; ihq++)
{
hq = rghq[ihq];
if (hqNil == hq)
break;
cb = CbOfHq(hq);
if (!FResizePhq(&rghq[ihq], 2 * cb, fmemClear, mprDebug))
{
Bug("FResizePhq failed");
break;
}
hq = rghq[ihq];
if (cb > 0)
{
AssertDo(*(byte *)QvFromHq(hq) == (byte)cb, 0);
AssertDo(*(byte *)PvAddBv(QvFromHq(hq), cb - 1) == (byte)cb, 0);
AssertDo(*(byte *)PvAddBv(QvFromHq(hq), cb) == 0, 0);
AssertDo(*(byte *)PvAddBv(QvFromHq(hq), 2 * cb - 1) == 0, 0);
}
}
for (ihq = 0; ihq < kchq; ihq++)
{
if (hqNil != rghq[ihq])
{
cb = (1L << (kchq - 1 - ihq)) - 1 + (kchq - 1 - ihq);
AssertDo(FResizePhq(&rghq[ihq], cb, fmemNil, mprDebug), "FResizePhq failed");
}
FreePhq(&rghq[ihq]);
}
}
/***************************************************************************
Test list code.
***************************************************************************/
void TestGl(void)
{
short sw;
long isw;
short *qsw;
PGL pglsw;
pglsw = GL::PglNew(size(short));
if (pvNil == pglsw)
{
Bug("PglNew failed");
return;
}
for (sw = 0; sw < 10; sw++)
{
AssertDo(pglsw->FAdd(&sw, &isw), 0);
AssertDo(isw == sw, 0);
}
AssertDo(pglsw->IvMac() == 10, 0);
for (isw = 0; isw < 10; isw++)
{
qsw = (short *)pglsw->QvGet(isw);
AssertDo(*qsw == isw, 0);
pglsw->Get(isw, &sw);
AssertDo(sw == isw, 0);
}
for (isw = 10; isw > 0; )
pglsw->Delete(isw -= 2);
AssertDo(pglsw->IvMac() == 5, 0);
for (isw = 0; isw < 5; isw++)
{
pglsw->Get(isw, &sw);
AssertDo(sw == isw * 2 + 1, 0);
sw = (short)isw * 100;
pglsw->Put(isw, &sw);
qsw = (short *)pglsw->QvGet(isw);
AssertDo(*qsw == isw * 100, 0);
*qsw = (short)isw;
}
AssertDo(pglsw->IvMac() == 5, 0);
AssertDo(pglsw->FEnsureSpace(0, fgrpShrink), 0);
AssertDo(pglsw->IvMac() == 5, 0);
for (isw = 5; isw-- != 0; )
{
sw = (short)isw;
pglsw->FInsert(isw, &sw);
}
AssertDo(pglsw->IvMac() == 10, 0);
for (isw = 10; isw-- != 0; )
{
pglsw->Get(isw, &sw);
AssertDo(sw == isw / 2, 0);
}
ReleasePpo(&pglsw);
}
/***************************************************************************
Test the fni code.
***************************************************************************/
void TestFni(void)
{
FNI fni1, fni2;
STN stn1, stn2, stn3;
AssertDo(fni1.FGetTemp(), 0);
AssertDo(fni1.Ftg() == vftgTemp, 0);
AssertDo(!fni1.FDir(), 0);
fni2 = fni1;
fni1.GetLeaf(&stn3);
fni2.GetLeaf(&stn2);
AssertDo(stn3.FEqual(&stn2), 0);
AssertDo(fni1.FSetLeaf(pvNil, kftgDir), 0);
AssertDo(fni1.FDir(), 0);
AssertDo(fni1.Ftg() == kftgDir, 0);
AssertDo(fni1.FUpDir(&stn1, ffniNil), 0);
AssertDo(fni1.FUpDir(&stn2, ffniMoveToDir), 0);
AssertDo(stn1.FEqual(&stn2), 0);
AssertDo(!fni1.FSameDir(&fni2), 0);
AssertDo(!fni1.FEqual(&fni2), 0);
AssertDo(fni1.Ftg() == kftgDir, 0);
AssertDo(fni1.FDownDir(&stn1, ffniNil), 0);
AssertDo(!fni1.FSameDir(&fni2), 0);
AssertDo(fni1.FDownDir(&stn1, ffniMoveToDir), 0);
AssertDo(fni1.FSameDir(&fni2), 0);
AssertDo(fni1.FSetLeaf(&stn3, vftgTemp), 0);
AssertDo(fni1.FEqual(&fni2), 0);
AssertDo(fni1.TExists() == tNo, 0);
AssertDo(fni2.FSetLeaf(pvNil, kftgDir), 0);
AssertDo(fni2.FGetUnique(vftgTemp), 0);
AssertDo(!fni1.FEqual(&fni2), 0);
}
/***************************************************************************
File test code.
***************************************************************************/
void TestFil(void)
{
PFIL pfil;
FNI fni;
while (FGetFniSaveMacro(&fni, 'TEXT', "\x9" "Save As: ", "\x4" "Junk",
PszLit("All files\0*.*\0"), NULL))
{
AssertDo(fni.TExists() == tNo, 0);
pfil = FIL::PfilCreate(&fni);
AssertPo(pfil, 0);
AssertDo(pfil->FSetFpMac(100), 0);
AssertDo(pfil->FpMac() == 100, 0);
AssertDo(pfil->FWriteRgb(&fni, size(fni), 0), 0);
pfil->SetTemp(fTrue);
pfil->Mark();
ReleasePpo(&pfil);
}
FIL::CloseUnmarked();
FIL::ClearMarks();
FIL::CloseUnmarked();
}
/***************************************************************************
Test the group api.
***************************************************************************/
void TestGg(void)
{
PGG pgg;
ulong grf;
long cb, iv;
byte *qb;
PSZ psz = PszLit("0123456789ABCDEFG");
achar rgch[100];
AssertDo((pgg = GG::PggNew(0)) != pvNil, 0);
for (iv = 0; iv < 10; iv++)
{
AssertDo(pgg->FInsert(iv / 2, iv + 1, psz), 0);
}
AssertDo(pgg->FAdd(16, &iv, psz), 0);
AssertDo(iv == 10, 0);
AssertDo(pgg->IvMac() == 11, 0);
grf = 0;
for (iv = pgg->IvMac(); iv--; )
{
cb = pgg->Cb(iv);
qb = (byte *)pgg->QvGet(iv);
AssertDo(FEqualRgb(psz, qb, cb), 0);
grf |= 1L << cb;
if (cb & 1)
pgg->Delete(iv);
}
AssertDo(grf == 0x000107FE, 0);
grf = 0;
for (iv = pgg->IvMac(); iv--; )
{
cb = pgg->Cb(iv);
AssertDo(!(cb & 1), 0);
pgg->Get(iv, rgch);
qb = (byte *)pgg->QvGet(iv);
AssertDo(FEqualRgb(rgch, qb, cb), 0);
AssertDo(FEqualRgb(rgch, psz, cb), 0);
grf |= 1L << cb;
CopyPb(psz, rgch + cb, cb);
AssertDo(pgg->FPut(iv, cb + cb, rgch), 0);
}
AssertDo(grf == 0x00010554, 0);
grf = 0;
for (iv = pgg->IvMac(); iv--; )
{
cb = pgg->Cb(iv);
AssertDo(!(cb & 3), 0);
cb /= 2;
grf |= 1L << cb;
pgg->DeleteRgb(iv, LwMin(cb, iv), cb);
qb = (byte *)pgg->QvGet(iv);
AssertDo(FEqualRgb(psz, qb, cb), 0);
}
AssertDo(grf == 0x00010554, 0);
ReleasePpo(&pgg);
}
/***************************************************************************
Test the chunky file stuff.
***************************************************************************/
void TestCfl(void)
{
enum
{
relPaul,
relMarge,
relTig,
relCarl,
relPriscilla,
relGreg,
relShon,
relClaire,
relMike,
relStephen,
relBaby,
relCathy,
relJoshua,
relRachel,
relLim
};
struct EREL
{
CTG ctg;
CNO cno;
PSZ psz;
short relPar1, relPar2;
};
const CTG kctgLan = 0x41414141;
const CTG kctgKatz = 0x42424242;
const CTG kctgSandy = 0x43434343;
EREL dnrel[relLim] =
{
{ kctgLan, 0, PszLit("Paul"), relLim, relLim },
{ kctgLan, 0, PszLit("Marge"), relLim, relLim },
{ kctgLan, 0, PszLit("Tig"), relPaul, relMarge },
{ kctgKatz, 0, PszLit("Carl"), relLim, relLim },
{ kctgKatz, 0, PszLit("Priscilla"), relLim, relLim },
{ kctgKatz, 0, PszLit("Greg"), relCarl, relPriscilla },
{ kctgKatz, 0, PszLit("Shon"), relCarl, relPriscilla },
{ kctgKatz, 0, PszLit("Claire"), relPaul, relMarge },
{ kctgKatz, 0, PszLit("Mike"), relCarl, relPriscilla },
{ kctgKatz, 0, PszLit("Stephen"), relGreg, relLim },
{ kctgKatz, 0, PszLit("Baby"), relShon, relClaire },
{ kctgSandy, 0, PszLit("Cathy"), relCarl, relPriscilla },
{ kctgSandy, 0, PszLit("Joshua"), relCathy, relLim },
{ kctgSandy, 0, PszLit("Rachel"), relCathy, relLim },
};
FNI fni, fniDst;
PCFL pcfl, pcflDst;
BLCK blck;
short rel;
long icki;
CNO cno;
CKI cki;
EREL *perel, *perelPar;
STN stn;
achar rgch[kcchMaxSz];
while (FGetFniSaveMacro(&fni, 'TEXT', "\x9" "Save As: ", "\x4" "Junk",
PszLit("All files\0*.*\0"), NULL))
{
AssertDo((pcfl = CFL::PcflCreate(&fni, fcflNil)) != pvNil, 0);
AssertDo(fniDst.FGetTemp(), 0);
AssertDo((pcflDst = CFL::PcflCreate(&fniDst, fcflNil)) != pvNil, 0);
for (rel = 0; rel < relLim; rel++)
{
perel = &dnrel[rel];
AssertDo(pcfl->FAddPv(perel->psz, CchSz(perel->psz), perel->ctg,
&perel->cno), 0);
stn = perel->psz;
AssertDo(pcfl->FSetName(perel->ctg, perel->cno, &stn), 0);
if (perel->relPar1 < relLim)
{
perelPar = &dnrel[perel->relPar1];
AssertDo(pcfl->FAdoptChild(perelPar->ctg, perelPar->cno,
perel->ctg, perel->cno), 0);
}
if (perel->relPar2 < relLim)
{
perelPar = &dnrel[perel->relPar2];
AssertDo(pcfl->FAdoptChild(perelPar->ctg, perelPar->cno,
perel->ctg, perel->cno), 0);
}
AssertDo(pcfl->FCopy(perel->ctg, perel->cno, pcflDst, &cno),
"copy failed");
}
AssertDo(pcfl->Ccki() == 14, 0);
for (rel = 0; rel < relLim; rel++)
{
perel = &dnrel[rel];
pcfl->FGetName(perel->ctg, perel->cno, &stn);
AssertDo(FEqualRgb(stn.Prgch(), perel->psz, stn.Cch()), 0);
AssertDo(pcfl->FFind(perel->ctg, perel->cno, &blck), 0);
AssertDo(blck.FRead(rgch), 0);
AssertDo(FEqualRgb(rgch, perel->psz, CchSz(perel->psz) * size(achar)), 0);
}
// copy all the chunks - they should already be there, but this
// should set up all the child links
for (rel = 0; rel < relLim; rel++)
{
perel = &dnrel[rel];
AssertDo(pcfl->FCopy(perel->ctg, perel->cno, pcflDst, &cno),
"copy failed");
}
AssertPo(pcflDst, fcflFull);
// this should delete relShon, but not relBaby
perelPar = &dnrel[relCarl];
perel = &dnrel[relShon];
pcfl->DeleteChild(perelPar->ctg, perelPar->cno, perel->ctg, perel->cno);
perelPar = &dnrel[relPriscilla];
pcfl->DeleteChild(perelPar->ctg, perelPar->cno, perel->ctg, perel->cno);
AssertDo(pcfl->Ccki() == 13, 0);
// this should delete relGreg and relStephen
perelPar = &dnrel[relCarl];
perel = &dnrel[relGreg];
pcfl->DeleteChild(perelPar->ctg, perelPar->cno, perel->ctg, perel->cno);
perelPar = &dnrel[relPriscilla];
pcfl->DeleteChild(perelPar->ctg, perelPar->cno, perel->ctg, perel->cno);
AssertDo(pcfl->Ccki() == 11, 0);
// this should delete relCarl, relPriscilla, relCathy, relJoshua,
// relRachel and relMike
pcfl->Delete(perelPar->ctg, perelPar->cno);
perelPar = &dnrel[relCarl];
pcfl->Delete(perelPar->ctg, perelPar->cno);
AssertDo(pcfl->Ccki() == 5, 0);
for (icki = 0; pcfl->FGetCki(icki, &cki); icki++)
{
AssertDo(pcfl->FGetName(cki.ctg, cki.cno, &stn), 0);
AssertDo(pcfl->FFind(cki.ctg, cki.cno, &blck), 0);
AssertDo(blck.FRead(rgch), 0);
AssertDo(FEqualRgb(rgch, stn.Prgch(), stn.Cch() * size(achar)), 0);
AssertDo(stn.Cch() * size(achar) == blck.Cb(), 0);
}
// copy all the chunks back
for (icki = 0; pcflDst->FGetCki(icki, &cki); icki++)
{
AssertDo(pcflDst->FCopy(cki.ctg, cki.cno, pcfl, &cno),
"copy failed");
}
AssertPo(pcfl, fcflFull);
AssertDo(pcfl->Ccki() == 14, 0);
ReleasePpo(&pcflDst);
AssertDo(pcfl->FSave(BigLittle('JUNK', 'KNUJ'), pvNil), 0);
ReleasePpo(&pcfl);
}
while (FGetFniOpenMacro(&fni, pvNil, 0, PszLit("All files\0*.*\0"), NULL))
{
AssertDo(fni.TExists() == tYes, 0);
pcfl = CFL::PcflOpen(&fni, fcflNil);
if (pcfl == pvNil)
continue;
AssertPo(pcfl, 0);
if (FGetFniSaveMacro(&fni, 'TEXT', "\x9" "Save As: ", "\x4" "Junk",
PszLit("All files\0*.*\0"), NULL))
{
AssertDo(pcfl->FSave(BigLittle('JUNK', 'KNUJ'), &fni), 0);
}
ReleasePpo(&pcfl);
}
CFL::CloseUnmarked();
CFL::ClearMarks();
CFL::CloseUnmarked();
}
/******************************************************************************
Test the error registration code.
******************************************************************************/
void TestErs(void)
{
const long cercTest = 30;
long erc, ercT;
vpers->Clear();
Assert(vpers->Cerc() == 0, "bad count of error codes on stack");
for (erc = 0; erc < cercTest; erc++)
{
Assert(vpers->Cerc() == LwMin(erc, kcerdMax),
"bad count of error codes on stack");
PushErc(erc);
AssertVar(vpers->FIn(erc), "error code not found", &erc);
}
for (erc = cercTest - 1; vpers->FIn(erc); erc--)
;
AssertVar(erc == cercTest - kcerdMax - 1, "lost error code", &erc);
for (erc = 0; erc < vpers->Cerc(); erc++)
{
AssertVar((ercT = vpers->ErcGet(erc)) == cercTest - kcerdMax + erc,
"invalid error code", &ercT);
}
for (erc = cercTest - 1; vpers->FPop(&ercT); erc--)
AssertVar(ercT == erc, "bogus error code returned", &ercT);
AssertVar(erc == cercTest - kcerdMax - 1, "lost error code", &erc);
for (erc = 0; erc < cercTest; erc++)
{
Assert(vpers->Cerc() == LwMin(erc, kcerdMax),
"bad count of error codes on stack");
PushErc(erc);
AssertVar(vpers->FIn(erc), "error code not found", &erc);
}
vpers->Clear();
Assert(vpers->Cerc() == 0, "bad count of error codes on stack");
}
/******************************************************************************
Test chunky resource file
******************************************************************************/
void TestCrf(void)
{
const CNO cnoLim = 10;
FNI fni;
CTG ctg = 'JUNK';
CNO cno;
PGHQ rgpghq[cnoLim];
PCFL pcfl;
PCRF pcrf;
HQ hq;
PGHQ pghq;
if (!fni.FGetTemp() || pvNil == (pcfl = CFL::PcflCreate(&fni, fcflWriteEnable | fcflTemp)))
{
Bug("creating chunky file failed");
return;
}
for (cno = 0; cno < cnoLim; cno++)
{
AssertDo(pcfl->FPutPv("Test string", 11, ctg, cno), 0);
}
if (pvNil == (pcrf = CRF::PcrfNew(pcfl, 50)))
{
Bug("creating CRF failed");
ReleasePpo(&pcfl);
return;
}
ReleasePpo(&pcfl);
for (cno = 0; cno < cnoLim; cno++)
pcrf->TLoad(ctg, cno, GHQ::FReadGhq, rscNil, 10);
for (cno = 0; cno < cnoLim; cno++)
pcrf->TLoad(ctg, cno, GHQ::FReadGhq, rscNil, 20);
for (cno = 0; cno < cnoLim; cno++)
pcrf->TLoad(ctg, cno, GHQ::FReadGhq, rscNil, 20 + cno);
for (cno = 0; cno < cnoLim; cno++)
{
pghq = (PGHQ)pcrf->PbacoFetch(ctg, cno, GHQ::FReadGhq);
if (pvNil == pghq)
continue;
hq = pghq->hq;
Assert(CbOfHq(hq) == 11, "wrong length");
Assert(FEqualRgb(QvFromHq(hq), "Test string", 11), "bad bytes");
ReleasePpo(&pghq);
}
for (cno = 0; cno < cnoLim; cno++)
{
pghq = (PGHQ)pcrf->PbacoFetch(ctg, cno, GHQ::FReadGhq);
rgpghq[cno] = pghq;
if (pvNil == pghq)
continue;
hq = pghq->hq;
Assert(CbOfHq(hq) == 11, "wrong length");
Assert(FEqualRgb(QvFromHq(hq), "Test string", 11), "bad bytes");
}
for (cno = 0; cno < cnoLim; cno++)
{
ReleasePpo(&rgpghq[cno]);
}
ReleasePpo(&pcrf);
}