Change the QGR union over to a BitField union.

Makes it easier to generate a QGR in my unit test, cleaner overall of course.
This commit is contained in:
Ryan Houdek 2014-09-20 13:10:22 -05:00
parent 9f2d4ee53e
commit 9d7598266f
2 changed files with 33 additions and 39 deletions

View File

@ -7,6 +7,7 @@
#pragma once
#include "Common/BitField.h"
#include "Common/CommonTypes.h"
// --- Gekko Instruction ---
@ -300,25 +301,28 @@ union UGeckoInstruction
// --- Gekko Special Registers ---
//
// quantize types
enum EQuantizeType : u32
{
QUANTIZE_FLOAT = 0,
QUANTIZE_U8 = 4,
QUANTIZE_U16 = 5,
QUANTIZE_S8 = 6,
QUANTIZE_S16 = 7,
};
// GQR Register
union UGQR
{
BitField< 0, 3, EQuantizeType> st_type;
BitField< 8, 6, u32> st_scale;
BitField<16, 3, EQuantizeType> ld_type;
BitField<24, 6, u32> ld_scale;
u32 Hex;
struct
{
u32 ST_TYPE : 3;
u32 : 5;
u32 ST_SCALE : 6;
u32 : 2;
u32 LD_TYPE : 3;
u32 : 5;
u32 LD_SCALE : 6;
u32 : 2;
};
UGQR(u32 _hex) { Hex = _hex; }
UGQR() {Hex = 0; }
UGQR() { Hex = 0; }
};
// FPU Register
@ -721,17 +725,6 @@ union UReg_PTE
// --- Gekko Types and Defs ---
//
// quantize types
enum EQuantizeType
{
QUANTIZE_FLOAT = 0,
QUANTIZE_U8 = 4,
QUANTIZE_U16 = 5,
QUANTIZE_S8 = 6,
QUANTIZE_S16 = 7,
};
// branches
enum
{

View File

@ -136,10 +136,11 @@ float Interpreter::Helper_Dequantize(const u32 _Addr, const EQuantizeType _quant
void Interpreter::psq_l(UGeckoInstruction _inst)
{
const UGQR gqr(rSPR(SPR_GQR0 + _inst.I));
const EQuantizeType ldType = static_cast<EQuantizeType>(gqr.LD_TYPE);
const unsigned int ldScale = gqr.LD_SCALE;
const EQuantizeType ldType = gqr.ld_type;
const unsigned int ldScale = gqr.ld_scale;
const u32 EA = _inst.RA ?
(m_GPR[_inst.RA] + _inst.SIMM_12) : (u32)_inst.SIMM_12;
printf("psq_l at offset %d\n", _inst.SIMM_12);
int c = 4;
if (ldType == QUANTIZE_U8 || ldType == QUANTIZE_S8)
@ -173,8 +174,8 @@ void Interpreter::psq_l(UGeckoInstruction _inst)
void Interpreter::psq_lu(UGeckoInstruction _inst)
{
const UGQR gqr(rSPR(SPR_GQR0 + _inst.I));
const EQuantizeType ldType = static_cast<EQuantizeType>(gqr.LD_TYPE);
const unsigned int ldScale = gqr.LD_SCALE;
const EQuantizeType ldType = gqr.ld_type;
const unsigned int ldScale = gqr.ld_scale;
const u32 EA = m_GPR[_inst.RA] + _inst.SIMM_12;
int c = 4;
@ -210,8 +211,8 @@ void Interpreter::psq_lu(UGeckoInstruction _inst)
void Interpreter::psq_st(UGeckoInstruction _inst)
{
const UGQR gqr(rSPR(SPR_GQR0 + _inst.I));
const EQuantizeType stType = static_cast<EQuantizeType>(gqr.ST_TYPE);
const unsigned int stScale = gqr.ST_SCALE;
const EQuantizeType stType = gqr.st_type;
const unsigned int stScale = gqr.st_scale;
const u32 EA = _inst.RA ?
(m_GPR[_inst.RA] + _inst.SIMM_12) : (u32)_inst.SIMM_12;
@ -235,8 +236,8 @@ void Interpreter::psq_st(UGeckoInstruction _inst)
void Interpreter::psq_stu(UGeckoInstruction _inst)
{
const UGQR gqr(rSPR(SPR_GQR0 + _inst.I));
const EQuantizeType stType = static_cast<EQuantizeType>(gqr.ST_TYPE);
const unsigned int stScale = gqr.ST_SCALE;
const EQuantizeType stType = gqr.st_type;
const unsigned int stScale = gqr.st_scale;
const u32 EA = m_GPR[_inst.RA] + _inst.SIMM_12;
int c = 4;
@ -264,8 +265,8 @@ void Interpreter::psq_stu(UGeckoInstruction _inst)
void Interpreter::psq_lx(UGeckoInstruction _inst)
{
const UGQR gqr(rSPR(SPR_GQR0 + _inst.Ix));
const EQuantizeType ldType = static_cast<EQuantizeType>(gqr.LD_TYPE);
const unsigned int ldScale = gqr.LD_SCALE;
const EQuantizeType ldType = gqr.ld_type;
const unsigned int ldScale = gqr.ld_scale;
const u32 EA = _inst.RA ? (m_GPR[_inst.RA] + m_GPR[_inst.RB]) : m_GPR[_inst.RB];
int c = 4;
@ -305,8 +306,8 @@ void Interpreter::psq_lx(UGeckoInstruction _inst)
void Interpreter::psq_stx(UGeckoInstruction _inst)
{
const UGQR gqr(rSPR(SPR_GQR0 + _inst.Ix));
const EQuantizeType stType = static_cast<EQuantizeType>(gqr.ST_TYPE);
const unsigned int stScale = gqr.ST_SCALE;
const EQuantizeType stType = gqr.st_type;
const unsigned int stScale = gqr.st_scale;
const u32 EA = _inst.RA ? (m_GPR[_inst.RA] + m_GPR[_inst.RB]) : m_GPR[_inst.RB];
int c = 4;
@ -329,8 +330,8 @@ void Interpreter::psq_stx(UGeckoInstruction _inst)
void Interpreter::psq_lux(UGeckoInstruction _inst)
{
const UGQR gqr(rSPR(SPR_GQR0 + _inst.Ix));
const EQuantizeType ldType = static_cast<EQuantizeType>(gqr.LD_TYPE);
const unsigned int ldScale = gqr.LD_SCALE;
const EQuantizeType ldType = gqr.ld_type;
const unsigned int ldScale = gqr.ld_scale;
const u32 EA = m_GPR[_inst.RA] + m_GPR[_inst.RB];
int c = 4;
@ -366,8 +367,8 @@ void Interpreter::psq_lux(UGeckoInstruction _inst)
void Interpreter::psq_stux(UGeckoInstruction _inst)
{
const UGQR gqr(rSPR(SPR_GQR0 + _inst.Ix));
const EQuantizeType stType = static_cast<EQuantizeType>(gqr.ST_TYPE);
const unsigned int stScale = gqr.ST_SCALE;
const EQuantizeType stType = gqr.st_type;
const unsigned int stScale = gqr.st_scale;
const u32 EA = m_GPR[_inst.RA] + m_GPR[_inst.RB];
int c = 4;