Files
TeslaRel410/CODE/RP/MUNGA/VCHAIN.TCP
T
CydandClaude Fable 5 fdd9ac9d97 Initial import: Tesla Release 4.10 (Tesla:BattleTech & Tesla:Red Planet)
Archival snapshot of the Virtual World Entertainment Tesla cockpit
software, 1994-1996: MUNGA engine and L4 pod layer source (Borland
C++ 5.0), BT/RP game code, and game content (models, audio, maps,
gauges, Division renderer data). Includes third-party libraries:
Division dVS/DPL graphics, HMI SOS audio, WATTCP networking.

Files are preserved byte-for-byte (.gitattributes disables all
line-ending conversion). README.md documents the layout, target
hardware, and toolchain.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
2026-07-02 13:21:58 -05:00

532 lines
12 KiB
Plaintext

//===========================================================================//
// File: vchain.tst //
// Project: MUNGA Brick: Connection Library //
// Contents: test routines for VChain class //
//---------------------------------------------------------------------------//
// Date Who Modification //
// -------- --- ---------------------------------------------------------- //
// 12/02/94 ECH Initial coding. //
//---------------------------------------------------------------------------//
// Copyright (C) 1994, Virtual World Entertainment, Inc. All Rights reserved //
// PROPRIETARY AND CONFIDENTIAL //
//===========================================================================//
#include "time.hpp"
class VChainTestPlug:
public Plug
{
public:
int value;
VChainTestPlug(int value);
~VChainTestPlug();
};
class VChainTestNode:
public Node
{
public:
VChainOf<VChainTestPlug*, int> vchain1;
VChainOf<VChainTestPlug*, int> vchain2;
VChainTestNode();
~VChainTestNode();
void RunProfile();
void RunTest();
};
#define RandInt(x) (rand() % x + 1)
VChainTestPlug::VChainTestPlug(int value)
{
this->value = value;
}
VChainTestPlug::~VChainTestPlug()
{
}
VChainTestNode::VChainTestNode():
vchain1(this, True), vchain2(this, True)
{
}
VChainTestNode::~VChainTestNode()
{
}
//
//###########################################################################
// ProfileClass
//###########################################################################
//
Logical
VChain::ProfileClass()
{
VChainTestNode testNode;
Time startTicks = Now();
Test_Message("VChain::ProfileClass\n");
testNode.RunProfile();
Test_Message("VChain::ProfileClass elapsed = " << (Now() - startTicks) << endl);
return True;
}
//
//###########################################################################
// TestClass
//###########################################################################
//
Logical
VChain::TestClass()
{
DEBUG_STREAM << "Starting VChain test...\n";
VChainTestNode testNode;
testNode.RunTest();
return True;
}
void
VChainTestNode::RunProfile()
{
VChainTestPlug *testPlug1, *testPlug2;
int values[TEST_CLASS];
int i, j;
Time startTicks;
/*
* Generate unique values, shuffle them
*/
for (i = 0; i < TEST_CLASS; i++) {
values[i] = i;
}
for (i = 0; i < TEST_CLASS; i++) {
int tmp;
j = i + RandInt(TEST_CLASS - i) - 1;
tmp = values[j];
values[j] = values[i];
values[i] = tmp;
}
//
//--------------------------------------------------------------------
// Run timing tests
//--------------------------------------------------------------------
//
/*
* Create plugs and add to both sockets
*/
startTicks = Now();
for (i = 0; i < TEST_CLASS; i++)
{
testPlug1 = new VChainTestPlug(values[i]);
Register_Object(testPlug1);
vchain1.AddValue(testPlug1, values[i]);
vchain2.AddValue(testPlug1, values[i]);
}
Test_Message("VChainTestNode::RunTest Create = " << (Now() - startTicks) << endl);
/*
* Iterate over both sockets
*/
startTicks = Now();
{
VChainIteratorOf<VChainTestPlug*, int> iterator1(&vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(&vchain2);
Verify( iterator1.GetSize() == TEST_CLASS );
Verify( iterator2.GetSize() == TEST_CLASS );
i = 0;
while ((testPlug1 = iterator1.ReadAndNext()) != NULL)
{
Check( testPlug1 );
Verify( testPlug1->value == i );
i++;
}
Verify( i == TEST_CLASS );
i = 0;
while ((testPlug1 = iterator2.ReadAndNext()) != NULL)
{
Check( testPlug1 );
Verify( testPlug1->value == i );
i++;
}
Verify( i == TEST_CLASS );
}
Test_Message("VChainTestNode::RunTest Iterate = " << (Now() - startTicks) << endl);
/*
* Find
*/
startTicks = Now();
{
VChainIteratorOf<VChainTestPlug*, int> iterator1(&vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(&vchain2);
for (i = 0; i < TEST_CLASS; i++)
{
testPlug1 = iterator1.Find(i);
testPlug2 = iterator2.Find(i);
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1->value == i );
Verify( testPlug2->value == i );
Verify( testPlug1 == testPlug2 );
}
}
Test_Message("VChainTestNode::RunTest Find = " << (Now() - startTicks) << endl);
/*
* Destroy from vchain1, verify with vchain2
*/
startTicks = Now();
{
VChainIteratorOf<VChainTestPlug*, int> iterator1(&vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(&vchain2);
Verify( iterator1.GetSize() == TEST_CLASS );
Verify( iterator2.GetSize() == TEST_CLASS );
i = 0;
while ((testPlug1 = iterator1.ReadAndNext()) != NULL)
{
Check( testPlug1 );
Verify( testPlug1->value == i );
i++;
Unregister_Object( testPlug1 );
delete(testPlug1);
}
Verify( i == TEST_CLASS );
Verify( iterator1.GetSize() == 0 );
Verify( iterator2.GetSize() == 0 );
}
Test_Message("VChainTestNode::RunTest Destroy = " << (Now() - startTicks) << endl);
}
void
VChainTestNode::RunTest()
{
VChainTestPlug *testPlug1, *testPlug2;
int values[TEST_CLASS];
int i, j;
// Time startTicks;
/*
* Generate unique values, shuffle them
*/
for (i = 0; i < TEST_CLASS; i++) {
values[i] = i;
}
for (i = 0; i < TEST_CLASS; i++) {
int tmp;
j = i + RandInt(TEST_CLASS - i) - 1;
tmp = values[j];
values[j] = values[i];
values[i] = tmp;
}
//
//--------------------------------------------------------------------
// Stress tests
//--------------------------------------------------------------------
//
/*
* Create plugs and add to both sockets
*/
for (i = 0; i < TEST_CLASS; i++)
{
testPlug1 = new VChainTestPlug(values[i]);
Register_Object( testPlug1 );
vchain1.AddValue(testPlug1, values[i]);
vchain2.AddValue(testPlug1, values[i]);
}
/*
* Find
*/
{
for (i = 0; i < TEST_CLASS; i++)
{
testPlug1 = vchain1.Find(i);
testPlug2 = vchain2.Find(i);
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1->value == i );
Verify( testPlug2->value == i );
Verify( testPlug1 == testPlug2 );
}
}
/*
* Test first and last
*/
{
VChainIteratorOf<VChainTestPlug*, int> iterator1(&vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(&vchain2);
Verify( iterator1.GetSize() == TEST_CLASS );
Verify( iterator2.GetSize() == TEST_CLASS );
iterator1.First();
iterator2.First();
testPlug1 = iterator1.GetCurrent();
testPlug2 = iterator2.GetCurrent();
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1 == testPlug2 );
Verify( testPlug1 == iterator1.GetNth(0) );
Verify( testPlug1 == iterator2.GetNth(0) );
iterator1.Last();
iterator2.Last();
testPlug1 = iterator1.GetCurrent();
testPlug2 = iterator2.GetCurrent();
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1 == testPlug2 );
Verify( testPlug1 == iterator1.GetNth(TEST_CLASS - 1) );
Verify( testPlug1 == iterator2.GetNth(TEST_CLASS - 1) );
}
/*
* Test next and prev
*/
{
VChainIteratorOf<VChainTestPlug*, int> iterator1(&vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(&vchain2);
Verify( iterator1.GetSize() == TEST_CLASS );
Verify( iterator2.GetSize() == TEST_CLASS );
i = 0;
while ((testPlug1 = iterator1.GetCurrent()) != NULL)
{
testPlug2 = iterator2.GetCurrent();
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1 == testPlug2 );
Verify( testPlug1->value == i );
Verify( testPlug2->value == i );
iterator1.Next();
iterator2.Next();
i++;
}
Verify( i == TEST_CLASS );
iterator1.Last();
iterator2.Last();
i = TEST_CLASS-1;
while ((testPlug1 = iterator1.GetCurrent()) != NULL)
{
testPlug2 = iterator2.GetCurrent();
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1 == testPlug2 );
Verify( testPlug1->value == i );
Verify( testPlug2->value == i );
iterator1.Previous();
iterator2.Previous();
i--;
}
Verify( i == -1 );
}
/*
* Test read next and read prev
*/
{
VChainIteratorOf<VChainTestPlug*, int> iterator1(&vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(&vchain2);
Verify( iterator1.GetSize() == TEST_CLASS );
Verify( iterator2.GetSize() == TEST_CLASS );
i = 0;
while ((testPlug1 = iterator1.ReadAndNext()) != NULL)
{
testPlug2 = iterator2.ReadAndNext();
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1 == testPlug2 );
Verify( testPlug1->value == i );
Verify( testPlug2->value == i );
i++;
}
Verify( i == TEST_CLASS );
iterator1.Last();
iterator2.Last();
i = TEST_CLASS-1;
while ((testPlug1 = iterator1.ReadAndPrevious()) != NULL)
{
testPlug2 = iterator2.ReadAndPrevious();
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1 == testPlug2 );
Verify( testPlug1->value == i );
Verify( testPlug2->value == i );
i--;
}
Verify( i == -1 );
}
/*
* Test nth
*/
{
VChainIteratorOf<VChainTestPlug*, int> iterator1(&vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(&vchain2);
Verify( iterator1.GetSize() == TEST_CLASS );
Verify( iterator2.GetSize() == TEST_CLASS );
for (
i = 0;
i < TEST_CLASS;
i++
)
{
testPlug1 = iterator1.GetNth((int)i);
testPlug2 = iterator2.GetNth((int)i);
Check( testPlug1 );
Check( testPlug2 );
Verify( testPlug1 == testPlug2 );
Verify( testPlug1->value == i );
Verify( testPlug2->value == i );
}
}
/*
* Test Remove
*/
{
VChainIteratorOf<VChainTestPlug*, int> iterator1(&vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(&vchain2);
Verify( iterator1.GetSize() == TEST_CLASS );
Verify( iterator2.GetSize() == TEST_CLASS );
i = 0;
while ((testPlug1 = iterator1.GetCurrent()) != NULL)
{
Check( testPlug1 );
Verify( testPlug1->value == i );
iterator1.Remove();
testPlug2 = iterator2.GetNth(0);
Check( testPlug2 );
Verify( testPlug2->value == i );
Verify( testPlug1 == testPlug2 );
Unregister_Object( testPlug2 );
delete(testPlug2);
i++;
}
Verify( i == TEST_CLASS );
Verify( iterator1.GetSize() == 0 );
Verify( iterator2.GetSize() == 0 );
}
/*
* Test random deletion
*/
{
/*
* Add plugs to both sockets
*/
VChainIteratorOf<VChainTestPlug*, int> iterator1(vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(vchain2);
Verify( iterator1.GetSize() == 0 );
Verify( iterator2.GetSize() == 0 );
for (i = 0; i < TEST_CLASS; i++)
{
testPlug1 = new VChainTestPlug(values[i]);
Register_Object( testPlug1 );
vchain1.AddValue(testPlug1, values[i]);
vchain2.AddValue(testPlug1, values[i]);
}
}
{
/*
* Perform random deletion
*/
int size, index;
VChainIteratorOf<VChainTestPlug*, int> iterator1(vchain1);
VChainIteratorOf<VChainTestPlug*, int> iterator2(vchain2);
Verify( iterator1.GetSize() == TEST_CLASS );
Verify( iterator2.GetSize() == TEST_CLASS );
i = 0;
while((size = iterator1.GetSize()) != 0)
{
index = RandInt(size) - 1;
testPlug1 = iterator1.GetNth(index);
Check( testPlug1 );
iterator1.Remove();
testPlug2 = iterator2.GetNth(index);
Check( testPlug2 );
Verify( testPlug1 == testPlug2 );
Unregister_Object( testPlug2 );
delete(testPlug2);
i++;
}
Verify( i == TEST_CLASS );
Verify( iterator1.GetSize() == 0 );
Verify( iterator2.GetSize() == 0 );
}
}