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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/*
** testll.c -- test suite for 64bit integer (longlong) operations
**
** Summary: testll [-d] | [-h]
**
** Where:
** -d set debug mode on; displays individual test failures
** -v verbose mode; displays progress in test, plus -d
** -h gives usage message.
**
** Description:
** lltest.c tests the functions defined in NSPR 2.0's prlong.h.
**
** Successive tests begin to depend on other LL functions working
** correctly. So, ... Do not change the order of the tests as run
** from main().
**
** Caveats:
** Do not even begin to think that this is an exhaustive test!
**
** These tests try a little of everything, but not all boundary
** conditions and limits are tested.
** You want better coverage? ... Add it.
**
** ---
** Author: Lawrence Hardiman <larryh@netscape.com>.
** ---
** Revision History:
** 01-Oct-1997. Original implementation.
**
*/
#include "nspr.h"
#include "plgetopt.h"
/* --- Local Definitions --- */
#define ReportProgress(m) if (verboseMode) PR_fprintf(output, (m));
/* --- Global variables --- */
static PRIntn failedAlready = 0;
static PRFileDesc* output = NULL;
static PRBool debugMode = PR_FALSE;
static PRBool verboseMode = PR_FALSE;
/*
** Constants used in tests.
*/
const PRInt64 bigZero = LL_INIT( 0, 0 );
const PRInt64 bigOne = LL_INIT( 0, 1 );
const PRInt64 bigTwo = LL_INIT( 0, 2 );
const PRInt64 bigSixTeen = LL_INIT( 0, 16 );
const PRInt64 bigThirtyTwo = LL_INIT( 0, 32 );
const PRInt64 bigMinusOne = LL_INIT( 0xffffffff, 0xffffffff );
const PRInt64 bigMinusTwo = LL_INIT( 0xffffffff, 0xfffffffe );
const PRInt64 bigNumber = LL_INIT( 0x7fffffff, 0xffffffff );
const PRInt64 bigMinusNumber = LL_INIT( 0x80000000, 0x00000001 );
const PRInt64 bigMaxInt32 = LL_INIT( 0x00000000, 0x7fffffff );
const PRInt64 big2To31 = LL_INIT( 0x00000000, 0x80000000 );
const PRUint64 bigZeroFox = LL_INIT( 0x00000000, 0xffffffff );
const PRUint64 bigFoxFox = LL_INIT( 0xffffffff, 0xffffffff );
const PRUint64 bigFoxZero = LL_INIT( 0xffffffff, 0x00000000 );
const PRUint64 bigEightZero = LL_INIT( 0x80000000, 0x00000000 );
const PRUint64 big64K = LL_INIT( 0x00000000, 0x00010000 );
const PRInt64 bigInt0 = LL_INIT( 0x01a00000, 0x00001000 );
const PRInt64 bigInt1 = LL_INIT( 0x01a00000, 0x00001100 );
const PRInt64 bigInt2 = LL_INIT( 0x01a00000, 0x00000100 );
const PRInt64 bigInt3 = LL_INIT( 0x01a00001, 0x00001000 );
const PRInt64 bigInt4 = LL_INIT( 0x01a00001, 0x00001100 );
const PRInt64 bigInt5 = LL_INIT( 0x01a00001, 0x00000100 );
const PRInt64 bigInt6 = LL_INIT( 0xb1a00000, 0x00001000 );
const PRInt64 bigInt7 = LL_INIT( 0xb1a00000, 0x00001100 );
const PRInt64 bigInt8 = LL_INIT( 0xb1a00000, 0x00000100 );
const PRInt64 bigInt9 = LL_INIT( 0xb1a00001, 0x00001000 );
const PRInt64 bigInt10 = LL_INIT( 0xb1a00001, 0x00001100 );
const PRInt64 bigInt11 = LL_INIT( 0xb1a00001, 0x00000100 );
const PRInt32 one = 1l;
const PRInt32 minusOne = -1l;
const PRInt32 sixteen = 16l;
const PRInt32 thirtyTwo = 32l;
const PRInt32 sixtyThree = 63l;
/*
** SetFailed() -- Report individual test failure
**
*/
static void
SetFailed( char *what, char *how )
{
failedAlready = 1;
if ( debugMode )
PR_fprintf(output, "%s: failed: %s\n", what, how );
return;
}
static void
ResultFailed( char *what, char *how, PRInt64 expected, PRInt64 got)
{
if ( debugMode)
{
SetFailed( what, how );
PR_fprintf(output, "Expected: 0x%llx Got: 0x%llx\n", expected, got );
}
return;
}
/*
** TestAssignment() -- Test the assignment
*/
static void TestAssignment( void )
{
PRInt64 zero = LL_Zero();
PRInt64 min = LL_MinInt();
PRInt64 max = LL_MaxInt();
if (!LL_EQ(zero, bigZero))
SetFailed("LL_EQ(zero, bigZero)", "!=");
if (!LL_CMP(max, >, min))
SetFailed("LL_CMP(max, >, min)", "!>");
}
/*
** TestComparisons() -- Test the longlong comparison operations
*/
static void
TestComparisons( void )
{
ReportProgress("Testing Comparisons Operations\n");
/* test for zero */
if ( !LL_IS_ZERO( bigZero ))
SetFailed( "LL_IS_ZERO", "Zero is not zero" );
if ( LL_IS_ZERO( bigOne ))
SetFailed( "LL_IS_ZERO", "One tests as zero" );
if ( LL_IS_ZERO( bigMinusOne ))
SetFailed( "LL_IS_ZERO", "Minus One tests as zero" );
/* test equal */
if ( !LL_EQ( bigZero, bigZero ))
SetFailed( "LL_EQ", "zero EQ zero");
if ( !LL_EQ( bigOne, bigOne ))
SetFailed( "LL_EQ", "one EQ one" );
if ( !LL_EQ( bigNumber, bigNumber ))
SetFailed( "LL_EQ", "bigNumber EQ bigNumber" );
if ( !LL_EQ( bigMinusOne, bigMinusOne ))
SetFailed( "LL_EQ", "minus one EQ minus one");
if ( LL_EQ( bigZero, bigOne ))
SetFailed( "LL_EQ", "zero EQ one");
if ( LL_EQ( bigOne, bigZero ))
SetFailed( "LL_EQ", "one EQ zero" );
if ( LL_EQ( bigMinusOne, bigOne ))
SetFailed( "LL_EQ", "minus one EQ one");
if ( LL_EQ( bigNumber, bigOne ))
SetFailed( "LL_EQ", "bigNumber EQ one");
/* test not equal */
if ( LL_NE( bigZero, bigZero ))
SetFailed( "LL_NE", "0 NE 0");
if ( LL_NE( bigOne, bigOne ))
SetFailed( "LL_NE", "1 NE 1");
if ( LL_NE( bigMinusOne, bigMinusOne ))
SetFailed( "LL_NE", "-1 NE -1");
if ( LL_NE( bigNumber, bigNumber ))
SetFailed( "LL_NE", "n NE n");
if ( LL_NE( bigMinusNumber, bigMinusNumber ))
SetFailed( "LL_NE", "-n NE -n");
if ( !LL_NE( bigZero, bigOne))
SetFailed( "LL_NE", "0 NE 1");
if ( !LL_NE( bigOne, bigMinusNumber))
SetFailed( "LL_NE", "1 NE -n");
/* Greater than or equal to zero */
if ( !LL_GE_ZERO( bigZero ))
SetFailed( "LL_GE_ZERO", "0");
if ( !LL_GE_ZERO( bigOne ))
SetFailed( "LL_GE_ZERO", "1");
if ( !LL_GE_ZERO( bigNumber ))
SetFailed( "LL_GE_ZERO", "n");
if ( LL_GE_ZERO( bigMinusOne ))
SetFailed( "LL_GE_ZERO", "-1");
if ( LL_GE_ZERO( bigMinusNumber ))
SetFailed( "LL_GE_ZERO", "-n");
/* Algebraic Compare two values */
if ( !LL_CMP( bigZero, ==, bigZero ))
SetFailed( "LL_CMP", "0 == 0");
if ( LL_CMP( bigZero, >, bigZero ))
SetFailed( "LL_CMP", "0 > 0");
if ( LL_CMP( bigZero, <, bigZero ))
SetFailed( "LL_CMP", "0 < 0");
if ( LL_CMP( bigNumber, <, bigOne ))
SetFailed( "LL_CMP", "n < 1");
if ( !LL_CMP( bigNumber, >, bigOne ))
SetFailed( "LL_CMP", "n <= 1");
if ( LL_CMP( bigOne, >, bigNumber ))
SetFailed( "LL_CMP", "1 > n");
if ( LL_CMP( bigMinusNumber, >, bigNumber ))
SetFailed( "LL_CMP", "-n > n");
if ( LL_CMP( bigNumber, !=, bigNumber))
SetFailed( "LL_CMP", "n != n");
if ( !LL_CMP( bigMinusOne, >, bigMinusTwo ))
SetFailed( "LL_CMP", "-1 <= -2");
if ( !LL_CMP( bigMaxInt32, <, big2To31 ))
SetFailed( "LL_CMP", "Max 32-bit signed int >= 2^31");
/* Two positive numbers */
if ( !LL_CMP( bigInt0, <=, bigInt0 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( !LL_CMP( bigInt0, <=, bigInt1 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( LL_CMP( bigInt0, <=, bigInt2 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( !LL_CMP( bigInt0, <=, bigInt3 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( !LL_CMP( bigInt0, <=, bigInt4 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( !LL_CMP( bigInt0, <=, bigInt5 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
/* Two negative numbers */
if ( !LL_CMP( bigInt6, <=, bigInt6 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( !LL_CMP( bigInt6, <=, bigInt7 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( LL_CMP( bigInt6, <=, bigInt8 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( !LL_CMP( bigInt6, <=, bigInt9 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( !LL_CMP( bigInt6, <=, bigInt10 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( !LL_CMP( bigInt6, <=, bigInt11 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
/* One positive, one negative */
if ( LL_CMP( bigInt0, <=, bigInt6 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( LL_CMP( bigInt0, <=, bigInt7 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
if ( LL_CMP( bigInt0, <=, bigInt8 ))
SetFailed( "LL_CMP", "LL_CMP(<=) failed");
/* Bitwise Compare two numbers */
if ( !LL_UCMP( bigZero, ==, bigZero ))
SetFailed( "LL_UCMP", "0 == 0");
if ( LL_UCMP( bigZero, >, bigZero ))
SetFailed( "LL_UCMP", "0 > 0");
if ( LL_UCMP( bigZero, <, bigZero ))
SetFailed( "LL_UCMP", "0 < 0");
if ( LL_UCMP( bigNumber, <, bigOne ))
SetFailed( "LL_UCMP", "n < 1");
if ( !LL_UCMP( bigNumber, >, bigOne ))
SetFailed( "LL_UCMP", "n < 1");
if ( LL_UCMP( bigOne, >, bigNumber ))
SetFailed( "LL_UCMP", "1 > n");
if ( LL_UCMP( bigMinusNumber, <, bigNumber ))
SetFailed( "LL_UCMP", "-n < n");
/* Two positive numbers */
if ( !LL_UCMP( bigInt0, <=, bigInt0 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt0, <=, bigInt1 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( LL_UCMP( bigInt0, <=, bigInt2 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt0, <=, bigInt3 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt0, <=, bigInt4 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt0, <=, bigInt5 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
/* Two negative numbers */
if ( !LL_UCMP( bigInt6, <=, bigInt6 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt6, <=, bigInt7 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( LL_UCMP( bigInt6, <=, bigInt8 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt6, <=, bigInt9 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt6, <=, bigInt10 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt6, <=, bigInt11 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
/* One positive, one negative */
if ( !LL_UCMP( bigInt0, <=, bigInt6 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt0, <=, bigInt7 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
if ( !LL_UCMP( bigInt0, <=, bigInt8 ))
SetFailed( "LL_UCMP", "LL_UCMP(<=) failed");
return;
}
/*
** TestLogicalOperations() -- Tests for AND, OR, ...
**
*/
static void
TestLogicalOperations( void )
{
PRUint64 result, result2;
ReportProgress("Testing Logical Operations\n");
/* Test AND */
LL_AND( result, bigZero, bigZero );
if ( !LL_IS_ZERO( result ))
ResultFailed( "LL_AND", "0 & 0", bigZero, result );
LL_AND( result, bigOne, bigOne );
if ( LL_IS_ZERO( result ))
ResultFailed( "LL_AND", "1 & 1", bigOne, result );
LL_AND( result, bigZero, bigOne );
if ( !LL_IS_ZERO( result ))
ResultFailed( "LL_AND", "1 & 1", bigZero, result );
LL_AND( result, bigMinusOne, bigMinusOne );
if ( !LL_UCMP( result, ==, bigMinusOne ))
ResultFailed( "LL_AND", "-1 & -1", bigMinusOne, result );
/* test OR */
LL_OR( result, bigZero, bigZero );
if ( !LL_IS_ZERO( result ))
ResultFailed( "LL_OR", "0 | 1", bigZero, result);
LL_OR( result, bigZero, bigOne );
if ( LL_IS_ZERO( result ))
ResultFailed( "LL_OR", "0 | 1", bigOne, result );
LL_OR( result, bigZero, bigMinusNumber );
if ( !LL_UCMP( result, ==, bigMinusNumber ))
ResultFailed( "LL_OR", "0 | -n", bigMinusNumber, result);
LL_OR( result, bigMinusNumber, bigZero );
if ( !LL_UCMP( result, ==, bigMinusNumber ))
ResultFailed( "LL_OR", "-n | 0", bigMinusNumber, result );
/* test XOR */
LL_XOR( result, bigZero, bigZero );
if ( LL_UCMP( result, !=, bigZero ))
ResultFailed( "LL_XOR", "0 ^ 0", bigZero, result);
LL_XOR( result, bigOne, bigZero );
if ( LL_UCMP( result, !=, bigOne ))
ResultFailed( "LL_XOR", "1 ^ 0", bigZero, result );
LL_XOR( result, bigMinusNumber, bigZero );
if ( LL_UCMP( result, !=, bigMinusNumber ))
ResultFailed( "LL_XOR", "-n ^ 0", bigMinusNumber, result );
LL_XOR( result, bigMinusNumber, bigMinusNumber );
if ( LL_UCMP( result, !=, bigZero ))
ResultFailed( "LL_XOR", "-n ^ -n", bigMinusNumber, result);
/* test OR2. */
result = bigZero;
LL_OR2( result, bigOne );
if ( LL_UCMP( result, !=, bigOne ))
ResultFailed( "LL_OR2", "(r=0) |= 1", bigOne, result);
result = bigOne;
LL_OR2( result, bigNumber );
if ( LL_UCMP( result, !=, bigNumber ))
ResultFailed( "LL_OR2", "(r=1) |= n", bigNumber, result);
result = bigMinusNumber;
LL_OR2( result, bigMinusNumber );
if ( LL_UCMP( result, !=, bigMinusNumber ))
ResultFailed( "LL_OR2", "(r=-n) |= -n", bigMinusNumber, result);
/* test NOT */
LL_NOT( result, bigMinusNumber);
LL_NOT( result2, result);
if ( LL_UCMP( result2, !=, bigMinusNumber ))
ResultFailed( "LL_NOT", "r != ~(~-n)", bigMinusNumber, result);
/* test Negation */
LL_NEG( result, bigMinusNumber );
LL_NEG( result2, result );
if ( LL_CMP( result2, !=, bigMinusNumber ))
ResultFailed( "LL_NEG", "r != -(-(-n))", bigMinusNumber, result);
return;
}
/*
** TestConversion() -- Test Conversion Operations
**
*/
static void
TestConversion( void )
{
PRInt64 result;
PRInt64 resultU;
PRInt32 result32;
PRUint32 resultU32;
float resultF;
PRFloat64 resultD;
ReportProgress("Testing Conversion Operations\n");
/* LL_L2I -- Convert to signed 32bit */
LL_L2I(result32, bigOne );
if ( result32 != one )
SetFailed( "LL_L2I", "r != 1");
LL_L2I(result32, bigMinusOne );
if ( result32 != minusOne )
SetFailed( "LL_L2I", "r != -1");
/* LL_L2UI -- Convert 64bit to unsigned 32bit */
LL_L2UI( resultU32, bigMinusOne );
if ( resultU32 != (PRUint32) minusOne )
SetFailed( "LL_L2UI", "r != -1");
LL_L2UI( resultU32, bigOne );
if ( resultU32 != (PRUint32) one )
SetFailed( "LL_L2UI", "r != 1");
/* LL_L2F -- Convert to 32bit floating point */
LL_L2F( resultF, bigOne );
if ( resultF != 1.0 )
SetFailed( "LL_L2F", "r != 1.0");
LL_L2F( resultF, bigMinusOne );
if ( resultF != -1.0 )
SetFailed( "LL_L2F", "r != 1.0");
/* LL_L2D -- Convert to 64bit floating point */
LL_L2D( resultD, bigOne );
if ( resultD != 1.0L )
SetFailed( "LL_L2D", "r != 1.0");
LL_L2D( resultD, bigMinusOne );
if ( resultD != -1.0L )
SetFailed( "LL_L2D", "r != -1.0");
/* LL_I2L -- Convert 32bit signed to 64bit signed */
LL_I2L( result, one );
if ( LL_CMP(result, !=, bigOne ))
SetFailed( "LL_I2L", "r != 1");
LL_I2L( result, minusOne );
if ( LL_CMP(result, !=, bigMinusOne ))
SetFailed( "LL_I2L", "r != -1");
/* LL_UI2L -- Convert 32bit unsigned to 64bit unsigned */
LL_UI2L( resultU, (PRUint32) one );
if ( LL_CMP(resultU, !=, bigOne ))
SetFailed( "LL_UI2L", "r != 1");
/* [lth.] This did not behave as expected, but it is correct
*/
LL_UI2L( resultU, (PRUint32) minusOne );
if ( LL_CMP(resultU, !=, bigZeroFox ))
ResultFailed( "LL_UI2L", "r != -1", bigZeroFox, resultU);
/* LL_F2L -- Convert 32bit float to 64bit signed */
LL_F2L( result, 1.0 );
if ( LL_CMP(result, !=, bigOne ))
SetFailed( "LL_F2L", "r != 1");
LL_F2L( result, -1.0 );
if ( LL_CMP(result, !=, bigMinusOne ))
SetFailed( "LL_F2L", "r != -1");
/* LL_D2L -- Convert 64bit Float to 64bit signed */
LL_D2L( result, 1.0L );
if ( LL_CMP(result, !=, bigOne ))
SetFailed( "LL_D2L", "r != 1");
LL_D2L( result, -1.0L );
if ( LL_CMP(result, !=, bigMinusOne ))
SetFailed( "LL_D2L", "r != -1");
return;
}
static void ShiftCompileOnly()
{
/*
** This function is only compiled, never called.
** The real test is to see if it compiles w/o
** warnings. This is no small feat, by the way.
*/
PRInt64 ia, ib;
PRUint64 ua, ub;
LL_SHR(ia, ib, 32);
LL_SHL(ia, ib, 32);
LL_USHR(ua, ub, 32);
LL_ISHL(ia, 49, 32);
} /* ShiftCompileOnly */
/*
** TestShift() -- Test Shifting Operations
**
*/
static void
TestShift( void )
{
static const PRInt64 largeTwoZero = LL_INIT( 0x00000002, 0x00000000 );
PRInt64 result;
PRUint64 resultU;
ReportProgress("Testing Shifting Operations\n");
/* LL_SHL -- Shift left algebraic */
LL_SHL( result, bigOne, one );
if ( LL_CMP( result, !=, bigTwo ))
ResultFailed( "LL_SHL", "r != 2", bigOne, result );
LL_SHL( result, bigTwo, thirtyTwo );
if ( LL_CMP( result, !=, largeTwoZero ))
ResultFailed( "LL_SHL", "r != twoZero", largeTwoZero, result);
/* LL_SHR -- Shift right algebraic */
LL_SHR( result, bigFoxZero, thirtyTwo );
if ( LL_CMP( result, !=, bigMinusOne ))
ResultFailed( "LL_SHR", "r != -1", bigMinusOne, result);
LL_SHR( result, bigTwo, one );
if ( LL_CMP( result, !=, bigOne ))
ResultFailed( "LL_SHR", "r != 1", bigOne, result);
LL_SHR( result, bigFoxFox, thirtyTwo );
if ( LL_CMP( result, !=, bigMinusOne ))
ResultFailed( "LL_SHR", "r != -1 (was ff,ff)", bigMinusOne, result);
/* LL_USHR -- Logical shift right */
LL_USHR( resultU, bigZeroFox, thirtyTwo );
if ( LL_UCMP( resultU, !=, bigZero ))
ResultFailed( "LL_USHR", "r != 0 ", bigZero, result);
LL_USHR( resultU, bigFoxFox, thirtyTwo );
if ( LL_UCMP( resultU, !=, bigZeroFox ))
ResultFailed( "LL_USHR", "r != 0 ", bigZeroFox, result);
/* LL_ISHL -- Shift a 32bit integer into a 64bit result */
LL_ISHL( resultU, minusOne, thirtyTwo );
if ( LL_UCMP( resultU, !=, bigFoxZero ))
ResultFailed( "LL_ISHL", "r != ff,00 ", bigFoxZero, result);
LL_ISHL( resultU, one, sixtyThree );
if ( LL_UCMP( resultU, !=, bigEightZero ))
ResultFailed( "LL_ISHL", "r != 80,00 ", bigEightZero, result);
LL_ISHL( resultU, one, sixteen );
if ( LL_UCMP( resultU, !=, big64K ))
ResultFailed( "LL_ISHL", "r != 64K ", big64K, resultU);
return;
}
/*
** TestArithmetic() -- Test arithmetic operations.
**
*/
static void
TestArithmetic( void )
{
PRInt64 largeVal = LL_INIT( 0x00000001, 0xffffffff );
PRInt64 largeValPlusOne = LL_INIT( 0x00000002, 0x00000000 );
PRInt64 largeValTimesTwo = LL_INIT( 0x00000003, 0xfffffffe );
PRInt64 largeMultCand = LL_INIT( 0x00000000, 0x7fffffff );
PRInt64 largeMinusMultCand = LL_INIT( 0xffffffff, 0x10000001 );
PRInt64 largeMultCandx64K = LL_INIT( 0x00007fff, 0xffff0000 );
PRInt64 largeNumSHL5 = LL_INIT( 0x0000001f, 0xffffffe0 );
PRInt64 result, result2;
/* Addition */
LL_ADD( result, bigOne, bigOne );
if ( LL_CMP( result, !=, bigTwo ))
ResultFailed( "LL_ADD", "r != 1 + 1", bigTwo, result);
LL_ADD( result, bigMinusOne, bigOne );
if ( LL_CMP( result, !=, bigZero ))
ResultFailed( "LL_ADD", "r != -1 + 1", bigOne, result);
LL_ADD( result, largeVal, bigOne );
if ( LL_CMP( result, !=, largeValPlusOne ))
ResultFailed( "LL_ADD", "lVP1 != lV + 1", largeValPlusOne, result);
/* Subtraction */
LL_SUB( result, bigOne, bigOne );
if ( LL_CMP( result, !=, bigZero ))
ResultFailed( "LL_SUB", "r != 1 - 1", bigZero, result);
LL_SUB( result, bigTwo, bigOne );
if ( LL_CMP( result, !=, bigOne ))
ResultFailed( "LL_SUB", "r != 2 - 1", bigOne, result);
LL_SUB( result, largeValPlusOne, bigOne );
if ( LL_CMP( result, !=, largeVal ))
ResultFailed( "LL_SUB", "r != lVP1 - 1", largeVal, result);
/* Multiply */
LL_MUL( result, largeVal, bigTwo );
if ( LL_CMP( result, !=, largeValTimesTwo ))
ResultFailed( "LL_MUL", "r != lV*2", largeValTimesTwo, result);
LL_MUL( result, largeMultCand, big64K );
if ( LL_CMP( result, !=, largeMultCandx64K ))
ResultFailed( "LL_MUL", "r != lV*64K", largeMultCandx64K, result);
LL_NEG( result2, largeMultCand );
LL_MUL( result, largeMultCand, bigMinusOne );
if ( LL_CMP( result, !=, result2 ))
ResultFailed( "LL_MUL", "r != -lMC", result2, result);
LL_SHL( result2, bigZeroFox, 5);
LL_MUL( result, bigZeroFox, bigThirtyTwo );
if ( LL_CMP( result, !=, largeNumSHL5 ))
ResultFailed( "LL_MUL", "r != 0f<<5", largeNumSHL5, result );
/* LL_DIV() Division */
LL_DIV( result, bigOne, bigOne);
if ( LL_CMP( result, !=, bigOne ))
ResultFailed( "LL_DIV", "1 != 1", bigOne, result);
LL_DIV( result, bigNumber, bigOne );
if ( LL_CMP( result, !=, bigNumber ))
ResultFailed( "LL_DIV", "r != n / 1", bigNumber, result);
LL_DIV( result, bigNumber, bigMinusOne );
if ( LL_CMP( result, !=, bigMinusNumber ))
ResultFailed( "LL_DIV", "r != n / -1", bigMinusNumber, result);
LL_DIV( result, bigMinusNumber, bigMinusOne );
if ( LL_CMP( result, !=, bigNumber ))
ResultFailed( "LL_DIV", "r != -n / -1", bigNumber, result);
LL_SHL( result2, bigZeroFox, 5 );
LL_DIV( result, result2, bigOne );
if ( LL_CMP( result, !=, result2 ))
ResultFailed( "LL_DIV", "0f<<5 != 0f<<5", result2, result);
LL_SHL( result2, bigZeroFox, 5 );
LL_NEG( result2, result2 );
LL_DIV( result, result2, bigOne );
if ( LL_CMP( result, !=, result2 ))
ResultFailed( "LL_DIV", "-0f<<5 != -0f<<5", result2, result);
LL_SHL( result2, bigZeroFox, 17 );
LL_DIV( result, result2, bigMinusOne );
LL_NEG( result2, result2 );
if ( LL_CMP( result, !=, result2 ))
ResultFailed( "LL_DIV", "-0f<<17 != -0f<<17", result2, result);
/* LL_MOD() Modulo Division */
LL_ADD( result2, bigThirtyTwo, bigOne );
LL_MOD( result, result2, bigSixTeen );
if ( LL_CMP( result, !=, bigOne ))
ResultFailed( "LL_MOD", "r != 1", bigSixTeen, result);
LL_MUL( result2, bigZeroFox, bigThirtyTwo );
LL_ADD( result2, result2, bigSixTeen);
LL_MOD( result, result2, bigThirtyTwo );
if ( LL_CMP( result, !=, bigSixTeen ))
ResultFailed( "LL_MOD", "r != 16", bigSixTeen, result);
/* LL_UDIVMOD */
LL_DIV( result, bigOne, bigOne);
if ( LL_CMP( result, !=, bigOne ))
ResultFailed( "LL_DIV", "r != 16", bigSixTeen, result);
return;
}
static void TestWellknowns(void)
{
PRInt64 max = LL_MAXINT, min = LL_MININT, zero = LL_ZERO;
PRInt64 mmax = LL_MaxInt(), mmin = LL_MinInt(), mzero = LL_Zero();
if (LL_NE(max, mmax))
ResultFailed( "max, mmax", "max != mmax", max, mmax);
if (LL_NE(min, mmin))
ResultFailed( "min, mmin", "min != mmin", max, mmin);
if (LL_NE(zero, mzero))
ResultFailed( "zero, mzero", "zero != mzero", zero, mzero);
} /* TestWellknowns */
/*
** Initialize() -- Initialize the test case
**
** Parse command line options
**
*/
static PRIntn
Initialize( PRIntn argc, char **argv )
{
PLOptState *opt = PL_CreateOptState(argc, argv, "dvh");
PLOptStatus os;
/*
** Parse command line options
*/
while (PL_OPT_EOL != (os = PL_GetNextOpt(opt)))
{
if (PL_OPT_BAD == os) continue;
switch (opt->option)
{
case 'd': /* set debug mode */
debugMode = PR_TRUE;
break;
case 'v': /* set verbose mode */
verboseMode = PR_TRUE;
debugMode = PR_TRUE;
break;
case 'h': /* user wants some guidance */
default:
PR_fprintf(output, "You get help.\n");
return(1);
}
}
PL_DestroyOptState(opt);
return(0);
}
int main(int argc, char **argv)
{
PR_STDIO_INIT();
output = PR_GetSpecialFD(PR_StandardError);
if ( Initialize( argc, argv ))
return(1);
TestAssignment();
TestComparisons();
TestLogicalOperations();
TestConversion();
TestShift();
TestArithmetic();
TestWellknowns();
/*
** That's all folks!
*/
if ( failedAlready )
{
PR_fprintf(output, "FAIL\n");\
}
else
{
PR_fprintf(output, "PASS\n");\
}
return failedAlready;
} /* end main() */