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hwtests/source/tests/cpu/integer.cpp
Lioncash cf95873212 integer: Add CPU test for USADA8.
2014-12-15 22:34:38 -05:00

240 lines
6.3 KiB
C++
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#include <limits>
#include <string>
#include "output.h"
#include "tests/test.h"
namespace CPU {
namespace Integer {
// ADD variants
static bool Add() {
unsigned int output = 0;
unsigned int rm = 0;
unsigned int rn = 0;
unsigned int badflags = 0;
// Generic addition
asm volatile ("LDR r0, =420\n"
"LDR r1, =69\n"
"ADD %[out], r0, r1" : [out] "=r"(output));
if (output != 489)
return false;
// ADD overflow (unsigned)
rm = std::numeric_limits<unsigned int>::max();
rn = 1;
asm volatile ("ADD %[out], %[Rm], %[Rn]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
if (output != 0)
return false;
// ADDS
badflags = 0;
rm = std::numeric_limits<unsigned int>::max() - 1;
rn = 1;
asm volatile ("ADDS %[Rm], %[Rm], %[Rn]\n"
"ORRCS %[out], %[out], #1\n"
"ORRPL %[out], %[out], #2\n"
"ORRVS %[out], %[out], #4\n"
"ORREQ %[out], %[out], #8\n"
"ADDS %[Rm], %[Rm], %[Rn]\n"
"ORRCC %[out], %[out], #1\n"
"ORRMI %[out], %[out], #2\n"
"ORRVS %[out], %[out], #4\n"
"ORRNE %[out], %[out], #8" : [out] "+r"(badflags), [Rm] "+r"(rm) : [Rn] "r"(rn));
if (badflags != 0)
return false;
// TODO: ADC, ADCS, ADDW variants.
return true;
}
// SUB variants
static bool Sub() {
unsigned int output;
// Generic subtraction.
asm volatile ("LDR r0, =489\n"
"SUB %[out], r0, #69" : [out] "=r"(output));
if (output != 420)
return false;
// Subtract overflow (0 - 1).
asm volatile ("MOV r0, #0\n"
"SUB %[out], r0, #1" : [out] "=r"(output));
if (output != std::numeric_limits<unsigned int>::max())
return false;
// TODO: SUBS, etc.
return true;
}
// MUL variants
static bool Mul() {
unsigned int output;
// Multiply by loaded registers.
asm volatile ("MOV r0, #20\n"
"MOV r1, #21\n"
"MUL %[out], r0, r1" : [out] "=r"(output));
if (output != 420)
return false;
// TODO: Other MUL variants.
return true;
}
// SASX
static bool Sasx() {
unsigned int output;
unsigned int rm = std::numeric_limits<unsigned int>::max();
unsigned int rn = rm - 4000;
asm volatile ("SASX %[out], %[Rm], %[Rn]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
return (output == 4032692224);
}
// SSAX
static bool Ssax() {
unsigned int output;
unsigned int rm = std::numeric_limits<unsigned int>::max();
unsigned int rn = rm - 4000;
asm volatile ("SSAX %[out], %[Rm], %[Rn]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
return (output == 262209534);
}
// UQSUB8
static bool Uqsub8() {
unsigned int output;
unsigned int rm = 70;
unsigned int rn = 50;
// Regular subtraction
asm volatile ("UQSUB8 %[out], %[Rm], %[Rn]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
SoftAssert(output == 20);
// Floor subtraction (50 - 70) == 0 with UQSUB8 (or any of the other UQSUB variants).
rm = 50;
rn = 70;
asm volatile ("UQSUB8 %[out], %[Rm], %[Rn]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
SoftAssert(output == 0);
return true;
}
// USAD8
static bool Usad8() {
unsigned int output;
unsigned int rm = 50;
unsigned int rn = 10;
// Regular subtraction
asm volatile ("USAD8 %[out], %[Rm], %[Rn]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
SoftAssert(output == 40);
// Absolute value subtraction (0 - 1) == 1 with USAD8. UCHAR_MAX rollover does not occur.
rm = 0;
rn = 1;
asm volatile ("USAD8 %[out], %[Rm], %[Rn]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
SoftAssert(output == 1);
return true;
}
// USADA8
static bool Usada8() {
unsigned int output;
unsigned int rm = 50;
unsigned int rn = 10;
unsigned int ra = 1;
// Regular subtraction with accumulator add: abs(50 - 10) + 1
asm volatile ("USADA8 %[out], %[Rm], %[Rn], %[Ra]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn), [Ra] "r"(ra));
SoftAssert(output == 41);
// Absolute value subtraction with accumulator add: abs(0 - 1) + 9
rm = 0;
rn = 1;
ra = 9;
asm volatile ("USADA8 %[out], %[Rm], %[Rn], %[Ra]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn), [Ra] "r"(ra));
SoftAssert(output == 10);
return true;
}
// UXTAB16
static bool Uxtab16() {
unsigned int output;
unsigned int rm = std::numeric_limits<unsigned int>::max();
unsigned int rn = std::numeric_limits<int>::max();
// No rotation
asm volatile ("UXTAB16 %[out], %[Rm], %[Rn]" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
SoftAssert(output == 16646398);
// ROR by 8
asm volatile ("UXTAB16 %[out], %[Rm], %[Rn], ROR #8" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
SoftAssert(output == 8257790);
// ROR by 16
asm volatile ("UXTAB16 %[out], %[Rm], %[Rn], ROR #16" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
SoftAssert(output == 16646398);
// ROR by 24
asm volatile ("UXTAB16 %[out], %[Rm], %[Rn], ROR #24" : [out] "=r"(output) : [Rm] "r"(rm), [Rn] "r"(rn));
SoftAssert(output == 16646270);
return true;
}
// UXTB16
static bool Uxtb16() {
unsigned int output = 50;
// No rotation
asm volatile ("UXTB16 %[out], %[out]" : [out] "+r"(output));
SoftAssert(output == 50);
// ROR by 8
output = (1 << 16) - 1;
asm volatile ("UXTB16 %[out], %[out], ROR #8" : [out] "+r"(output));
SoftAssert(output == 0xFF);
// ROR by 16
output = (1 << 24) - 1;
asm volatile ("UXTB16 %[out], %[out], ROR #16" : [out] "+r"(output));
SoftAssert(output == 0xFF00FF);
// ROR by 24
output = (1 << 24) - 1;
output /= 2;
asm volatile ("UXTB16 %[out], %[out], ROR #24" : [out] "+r"(output));
SoftAssert(output == 0xFF0000);
return true;
}
void TestAll() {
const std::string tag = "Integer";
Test(tag, "ADD", Add(), true);
Test(tag, "SUB", Sub(), true);
Test(tag, "MUL", Mul(), true);
Test(tag, "SASX", Sasx(), true);
Test(tag, "SSAX", Ssax(), true);
Test(tag, "UQSUB8", Uqsub8(), true);
Test(tag, "USAD8", Usad8(), true);
Test(tag, "USADA8", Usada8(), true);
Test(tag, "UXTAB16", Uxtab16(), true);
Test(tag, "UXTB16", Uxtb16(), true);
}
}
}
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