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|
/*
Copyright (C) Intel Corp. 2006. All Rights Reserved.
Intel funded Tungsten Graphics to
develop this 3D driver.
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice (including the
next paragraph) shall be included in all copies or substantial
portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
IN NO EVENT SHALL THE COPYRIGHT OWNER(S) AND/OR ITS SUPPLIERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
**********************************************************************/
/*
* Authors:
* Keith Whitwell <keithw@vmware.com>
*/
/** @file brw_reg.h
*
* This file defines struct brw_reg, which is our representation for EU
* registers. They're not a hardware specific format, just an abstraction
* that intends to capture the full flexibility of the hardware registers.
*
* The brw_eu_emit.c layer's brw_set_dest/brw_set_src[01] functions encode
* the abstract brw_reg type into the actual hardware instruction encoding.
*/
#ifndef BRW_REG_H
#define BRW_REG_H
#include <stdbool.h>
#include "main/imports.h"
#include "main/compiler.h"
#include "main/macros.h"
#include "program/prog_instruction.h"
#include "brw_defines.h"
#ifdef __cplusplus
extern "C" {
#endif
struct brw_device_info;
/** Number of general purpose registers (VS, WM, etc) */
#define BRW_MAX_GRF 128
/**
* First GRF used for the MRF hack.
*
* On gen7, MRFs are no longer used, and contiguous GRFs are used instead. We
* haven't converted our compiler to be aware of this, so it asks for MRFs and
* brw_eu_emit.c quietly converts them to be accesses of the top GRFs. The
* register allocators have to be careful of this to avoid corrupting the "MRF"s
* with actual GRF allocations.
*/
#define GEN7_MRF_HACK_START 112
/** Number of message register file registers */
#define BRW_MAX_MRF(gen) (gen == 6 ? 24 : 16)
#define BRW_SWIZZLE4(a,b,c,d) (((a)<<0) | ((b)<<2) | ((c)<<4) | ((d)<<6))
#define BRW_GET_SWZ(swz, idx) (((swz) >> ((idx)*2)) & 0x3)
#define BRW_SWIZZLE_NOOP BRW_SWIZZLE4(0,1,2,3)
#define BRW_SWIZZLE_XYZW BRW_SWIZZLE4(0,1,2,3)
#define BRW_SWIZZLE_XXXX BRW_SWIZZLE4(0,0,0,0)
#define BRW_SWIZZLE_YYYY BRW_SWIZZLE4(1,1,1,1)
#define BRW_SWIZZLE_ZZZZ BRW_SWIZZLE4(2,2,2,2)
#define BRW_SWIZZLE_WWWW BRW_SWIZZLE4(3,3,3,3)
#define BRW_SWIZZLE_XYXY BRW_SWIZZLE4(0,1,0,1)
#define BRW_SWIZZLE_YZXW BRW_SWIZZLE4(1,2,0,3)
#define BRW_SWIZZLE_ZXYW BRW_SWIZZLE4(2,0,1,3)
#define BRW_SWIZZLE_ZWZW BRW_SWIZZLE4(2,3,2,3)
static inline bool
brw_is_single_value_swizzle(unsigned swiz)
{
return (swiz == BRW_SWIZZLE_XXXX ||
swiz == BRW_SWIZZLE_YYYY ||
swiz == BRW_SWIZZLE_ZZZZ ||
swiz == BRW_SWIZZLE_WWWW);
}
/**
* Compute the swizzle obtained from the application of \p swz0 on the result
* of \p swz1. The argument ordering is expected to match function
* composition.
*/
static inline unsigned
brw_compose_swizzle(unsigned swz0, unsigned swz1)
{
return BRW_SWIZZLE4(
BRW_GET_SWZ(swz1, BRW_GET_SWZ(swz0, 0)),
BRW_GET_SWZ(swz1, BRW_GET_SWZ(swz0, 1)),
BRW_GET_SWZ(swz1, BRW_GET_SWZ(swz0, 2)),
BRW_GET_SWZ(swz1, BRW_GET_SWZ(swz0, 3)));
}
/**
* Return the result of applying swizzle \p swz to shuffle the bits of \p mask
* (AKA image).
*/
static inline unsigned
brw_apply_swizzle_to_mask(unsigned swz, unsigned mask)
{
unsigned result = 0;
for (unsigned i = 0; i < 4; i++) {
if (mask & (1 << BRW_GET_SWZ(swz, i)))
result |= 1 << i;
}
return result;
}
/**
* Return the result of applying the inverse of swizzle \p swz to shuffle the
* bits of \p mask (AKA preimage). Useful to find out which components are
* read from a swizzled source given the instruction writemask.
*/
static inline unsigned
brw_apply_inv_swizzle_to_mask(unsigned swz, unsigned mask)
{
unsigned result = 0;
for (unsigned i = 0; i < 4; i++) {
if (mask & (1 << i))
result |= 1 << BRW_GET_SWZ(swz, i);
}
return result;
}
/**
* Construct an identity swizzle for the set of enabled channels given by \p
* mask. The result will only reference channels enabled in the provided \p
* mask, assuming that \p mask is non-zero. The constructed swizzle will
* satisfy the property that for any instruction OP and any mask:
*
* brw_OP(p, brw_writemask(dst, mask),
* brw_swizzle(src, brw_swizzle_for_mask(mask)));
*
* will be equivalent to the same instruction without swizzle:
*
* brw_OP(p, brw_writemask(dst, mask), src);
*/
static inline unsigned
brw_swizzle_for_mask(unsigned mask)
{
unsigned last = (mask ? ffs(mask) - 1 : 0);
unsigned swz[4];
for (unsigned i = 0; i < 4; i++)
last = swz[i] = (mask & (1 << i) ? i : last);
return BRW_SWIZZLE4(swz[0], swz[1], swz[2], swz[3]);
}
/**
* Construct an identity swizzle for the first \p n components of a vector.
* When only a subset of channels of a vec4 are used we don't want to
* reference the other channels, as that will tell optimization passes that
* those other channels are used.
*/
static inline unsigned
brw_swizzle_for_size(unsigned n)
{
return brw_swizzle_for_mask((1 << n) - 1);
}
/**
* Converse of brw_swizzle_for_mask(). Returns the mask of components
* accessed by the specified swizzle \p swz.
*/
static inline unsigned
brw_mask_for_swizzle(unsigned swz)
{
return brw_apply_inv_swizzle_to_mask(swz, ~0);
}
enum PACKED brw_reg_type {
BRW_REGISTER_TYPE_UD = 0,
BRW_REGISTER_TYPE_D,
BRW_REGISTER_TYPE_UW,
BRW_REGISTER_TYPE_W,
BRW_REGISTER_TYPE_F,
/** Non-immediates only: @{ */
BRW_REGISTER_TYPE_UB,
BRW_REGISTER_TYPE_B,
/** @} */
/** Immediates only: @{ */
BRW_REGISTER_TYPE_UV,
BRW_REGISTER_TYPE_V,
BRW_REGISTER_TYPE_VF,
/** @} */
BRW_REGISTER_TYPE_DF, /* Gen7+ (no immediates until Gen8+) */
/* Gen8+ */
BRW_REGISTER_TYPE_HF,
BRW_REGISTER_TYPE_UQ,
BRW_REGISTER_TYPE_Q,
};
unsigned brw_reg_type_to_hw_type(const struct brw_device_info *devinfo,
enum brw_reg_type type, unsigned file);
const char *brw_reg_type_letters(unsigned brw_reg_type);
#define REG_SIZE (8*4)
/* These aren't hardware structs, just something useful for us to pass around:
*
* Align1 operation has a lot of control over input ranges. Used in
* WM programs to implement shaders decomposed into "channel serial"
* or "structure of array" form:
*/
struct brw_reg {
enum brw_reg_type type:4;
unsigned file:2;
unsigned nr:8;
unsigned subnr:5; /* :1 in align16 */
unsigned negate:1; /* source only */
unsigned abs:1; /* source only */
unsigned vstride:4; /* source only */
unsigned width:3; /* src only, align1 only */
unsigned hstride:2; /* align1 only */
unsigned address_mode:1; /* relative addressing, hopefully! */
unsigned pad0:1;
union {
struct {
unsigned swizzle:8; /* src only, align16 only */
unsigned writemask:4; /* dest only, align16 only */
int indirect_offset:10; /* relative addressing offset */
unsigned pad1:10; /* two dwords total */
} bits;
float f;
int d;
unsigned ud;
} dw1;
};
struct brw_indirect {
unsigned addr_subnr:4;
int addr_offset:10;
unsigned pad:18;
};
static inline unsigned
type_sz(unsigned type)
{
switch(type) {
case BRW_REGISTER_TYPE_UQ:
case BRW_REGISTER_TYPE_Q:
return 8;
case BRW_REGISTER_TYPE_UD:
case BRW_REGISTER_TYPE_D:
case BRW_REGISTER_TYPE_F:
return 4;
case BRW_REGISTER_TYPE_UW:
case BRW_REGISTER_TYPE_W:
return 2;
case BRW_REGISTER_TYPE_UB:
case BRW_REGISTER_TYPE_B:
return 1;
default:
return 0;
}
}
static inline bool
type_is_signed(unsigned type)
{
switch(type) {
case BRW_REGISTER_TYPE_D:
case BRW_REGISTER_TYPE_W:
case BRW_REGISTER_TYPE_F:
case BRW_REGISTER_TYPE_B:
case BRW_REGISTER_TYPE_V:
case BRW_REGISTER_TYPE_VF:
case BRW_REGISTER_TYPE_DF:
case BRW_REGISTER_TYPE_HF:
case BRW_REGISTER_TYPE_Q:
return true;
case BRW_REGISTER_TYPE_UD:
case BRW_REGISTER_TYPE_UW:
case BRW_REGISTER_TYPE_UB:
case BRW_REGISTER_TYPE_UV:
case BRW_REGISTER_TYPE_UQ:
return false;
default:
unreachable("not reached");
}
}
/**
* Construct a brw_reg.
* \param file one of the BRW_x_REGISTER_FILE values
* \param nr register number/index
* \param subnr register sub number
* \param negate register negate modifier
* \param abs register abs modifier
* \param type one of BRW_REGISTER_TYPE_x
* \param vstride one of BRW_VERTICAL_STRIDE_x
* \param width one of BRW_WIDTH_x
* \param hstride one of BRW_HORIZONTAL_STRIDE_x
* \param swizzle one of BRW_SWIZZLE_x
* \param writemask WRITEMASK_X/Y/Z/W bitfield
*/
static inline struct brw_reg
brw_reg(unsigned file,
unsigned nr,
unsigned subnr,
unsigned negate,
unsigned abs,
enum brw_reg_type type,
unsigned vstride,
unsigned width,
unsigned hstride,
unsigned swizzle,
unsigned writemask)
{
struct brw_reg reg;
if (file == BRW_GENERAL_REGISTER_FILE)
assert(nr < BRW_MAX_GRF);
else if (file == BRW_ARCHITECTURE_REGISTER_FILE)
assert(nr <= BRW_ARF_TIMESTAMP);
/* Asserting on the MRF register number requires to know the hardware gen
* (gen6 has 24 MRF registers), which we don't know here, so we assert
* for that in the generators and in brw_eu_emit.c
*/
reg.type = type;
reg.file = file;
reg.nr = nr;
reg.subnr = subnr * type_sz(type);
reg.negate = negate;
reg.abs = abs;
reg.vstride = vstride;
reg.width = width;
reg.hstride = hstride;
reg.address_mode = BRW_ADDRESS_DIRECT;
reg.pad0 = 0;
/* Could do better: If the reg is r5.3<0;1,0>, we probably want to
* set swizzle and writemask to W, as the lower bits of subnr will
* be lost when converted to align16. This is probably too much to
* keep track of as you'd want it adjusted by suboffset(), etc.
* Perhaps fix up when converting to align16?
*/
reg.dw1.bits.swizzle = swizzle;
reg.dw1.bits.writemask = writemask;
reg.dw1.bits.indirect_offset = 0;
reg.dw1.bits.pad1 = 0;
return reg;
}
/** Construct float[16] register */
static inline struct brw_reg
brw_vec16_reg(unsigned file, unsigned nr, unsigned subnr)
{
return brw_reg(file,
nr,
subnr,
0,
0,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_16,
BRW_WIDTH_16,
BRW_HORIZONTAL_STRIDE_1,
BRW_SWIZZLE_XYZW,
WRITEMASK_XYZW);
}
/** Construct float[8] register */
static inline struct brw_reg
brw_vec8_reg(unsigned file, unsigned nr, unsigned subnr)
{
return brw_reg(file,
nr,
subnr,
0,
0,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_8,
BRW_WIDTH_8,
BRW_HORIZONTAL_STRIDE_1,
BRW_SWIZZLE_XYZW,
WRITEMASK_XYZW);
}
/** Construct float[4] register */
static inline struct brw_reg
brw_vec4_reg(unsigned file, unsigned nr, unsigned subnr)
{
return brw_reg(file,
nr,
subnr,
0,
0,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_4,
BRW_WIDTH_4,
BRW_HORIZONTAL_STRIDE_1,
BRW_SWIZZLE_XYZW,
WRITEMASK_XYZW);
}
/** Construct float[2] register */
static inline struct brw_reg
brw_vec2_reg(unsigned file, unsigned nr, unsigned subnr)
{
return brw_reg(file,
nr,
subnr,
0,
0,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_2,
BRW_WIDTH_2,
BRW_HORIZONTAL_STRIDE_1,
BRW_SWIZZLE_XYXY,
WRITEMASK_XY);
}
/** Construct float[1] register */
static inline struct brw_reg
brw_vec1_reg(unsigned file, unsigned nr, unsigned subnr)
{
return brw_reg(file,
nr,
subnr,
0,
0,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_0,
BRW_WIDTH_1,
BRW_HORIZONTAL_STRIDE_0,
BRW_SWIZZLE_XXXX,
WRITEMASK_X);
}
static inline struct brw_reg
brw_vecn_reg(unsigned width, unsigned file, unsigned nr, unsigned subnr)
{
switch (width) {
case 1:
return brw_vec1_reg(file, nr, subnr);
case 2:
return brw_vec2_reg(file, nr, subnr);
case 4:
return brw_vec4_reg(file, nr, subnr);
case 8:
return brw_vec8_reg(file, nr, subnr);
case 16:
return brw_vec16_reg(file, nr, subnr);
default:
unreachable("Invalid register width");
}
}
static inline struct brw_reg
retype(struct brw_reg reg, enum brw_reg_type type)
{
reg.type = type;
return reg;
}
static inline struct brw_reg
firsthalf(struct brw_reg reg)
{
return reg;
}
static inline struct brw_reg
sechalf(struct brw_reg reg)
{
if (reg.vstride)
reg.nr++;
return reg;
}
static inline struct brw_reg
suboffset(struct brw_reg reg, unsigned delta)
{
reg.subnr += delta * type_sz(reg.type);
return reg;
}
static inline struct brw_reg
offset(struct brw_reg reg, unsigned delta)
{
reg.nr += delta;
return reg;
}
static inline struct brw_reg
byte_offset(struct brw_reg reg, unsigned bytes)
{
unsigned newoffset = reg.nr * REG_SIZE + reg.subnr + bytes;
reg.nr = newoffset / REG_SIZE;
reg.subnr = newoffset % REG_SIZE;
return reg;
}
/** Construct unsigned word[16] register */
static inline struct brw_reg
brw_uw16_reg(unsigned file, unsigned nr, unsigned subnr)
{
return suboffset(retype(brw_vec16_reg(file, nr, 0), BRW_REGISTER_TYPE_UW), subnr);
}
/** Construct unsigned word[8] register */
static inline struct brw_reg
brw_uw8_reg(unsigned file, unsigned nr, unsigned subnr)
{
return suboffset(retype(brw_vec8_reg(file, nr, 0), BRW_REGISTER_TYPE_UW), subnr);
}
/** Construct unsigned word[1] register */
static inline struct brw_reg
brw_uw1_reg(unsigned file, unsigned nr, unsigned subnr)
{
return suboffset(retype(brw_vec1_reg(file, nr, 0), BRW_REGISTER_TYPE_UW), subnr);
}
static inline struct brw_reg
brw_imm_reg(enum brw_reg_type type)
{
return brw_reg(BRW_IMMEDIATE_VALUE,
0,
0,
0,
0,
type,
BRW_VERTICAL_STRIDE_0,
BRW_WIDTH_1,
BRW_HORIZONTAL_STRIDE_0,
0,
0);
}
/** Construct float immediate register */
static inline struct brw_reg
brw_imm_f(float f)
{
struct brw_reg imm = brw_imm_reg(BRW_REGISTER_TYPE_F);
imm.dw1.f = f;
return imm;
}
/** Construct integer immediate register */
static inline struct brw_reg
brw_imm_d(int d)
{
struct brw_reg imm = brw_imm_reg(BRW_REGISTER_TYPE_D);
imm.dw1.d = d;
return imm;
}
/** Construct uint immediate register */
static inline struct brw_reg
brw_imm_ud(unsigned ud)
{
struct brw_reg imm = brw_imm_reg(BRW_REGISTER_TYPE_UD);
imm.dw1.ud = ud;
return imm;
}
/** Construct ushort immediate register */
static inline struct brw_reg
brw_imm_uw(uint16_t uw)
{
struct brw_reg imm = brw_imm_reg(BRW_REGISTER_TYPE_UW);
imm.dw1.ud = uw | (uw << 16);
return imm;
}
/** Construct short immediate register */
static inline struct brw_reg
brw_imm_w(int16_t w)
{
struct brw_reg imm = brw_imm_reg(BRW_REGISTER_TYPE_W);
imm.dw1.d = w | (w << 16);
return imm;
}
/* brw_imm_b and brw_imm_ub aren't supported by hardware - the type
* numbers alias with _V and _VF below:
*/
/** Construct vector of eight signed half-byte values */
static inline struct brw_reg
brw_imm_v(unsigned v)
{
struct brw_reg imm = brw_imm_reg(BRW_REGISTER_TYPE_V);
imm.vstride = BRW_VERTICAL_STRIDE_0;
imm.width = BRW_WIDTH_8;
imm.hstride = BRW_HORIZONTAL_STRIDE_1;
imm.dw1.ud = v;
return imm;
}
/** Construct vector of four 8-bit float values */
static inline struct brw_reg
brw_imm_vf(unsigned v)
{
struct brw_reg imm = brw_imm_reg(BRW_REGISTER_TYPE_VF);
imm.vstride = BRW_VERTICAL_STRIDE_0;
imm.width = BRW_WIDTH_4;
imm.hstride = BRW_HORIZONTAL_STRIDE_1;
imm.dw1.ud = v;
return imm;
}
/**
* Convert an integer into a "restricted" 8-bit float, used in vector
* immediates. The 8-bit floating point format has a sign bit, an
* excess-3 3-bit exponent, and a 4-bit mantissa. All integer values
* from -31 to 31 can be represented exactly.
*/
static inline uint8_t
int_to_float8(int x)
{
if (x == 0) {
return 0;
} else if (x < 0) {
return 1 << 7 | int_to_float8(-x);
} else {
const unsigned exponent = _mesa_logbase2(x);
const unsigned mantissa = (x - (1 << exponent)) << (4 - exponent);
assert(exponent <= 4);
return (exponent + 3) << 4 | mantissa;
}
}
/**
* Construct a floating-point packed vector immediate from its integer
* values. \sa int_to_float8()
*/
static inline struct brw_reg
brw_imm_vf4(int v0, int v1, int v2, int v3)
{
return brw_imm_vf((int_to_float8(v0) << 0) |
(int_to_float8(v1) << 8) |
(int_to_float8(v2) << 16) |
(int_to_float8(v3) << 24));
}
static inline struct brw_reg
brw_address(struct brw_reg reg)
{
return brw_imm_uw(reg.nr * REG_SIZE + reg.subnr);
}
/** Construct float[1] general-purpose register */
static inline struct brw_reg
brw_vec1_grf(unsigned nr, unsigned subnr)
{
return brw_vec1_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
}
/** Construct float[2] general-purpose register */
static inline struct brw_reg
brw_vec2_grf(unsigned nr, unsigned subnr)
{
return brw_vec2_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
}
/** Construct float[4] general-purpose register */
static inline struct brw_reg
brw_vec4_grf(unsigned nr, unsigned subnr)
{
return brw_vec4_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
}
/** Construct float[8] general-purpose register */
static inline struct brw_reg
brw_vec8_grf(unsigned nr, unsigned subnr)
{
return brw_vec8_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
}
/** Construct float[16] general-purpose register */
static inline struct brw_reg
brw_vec16_grf(unsigned nr, unsigned subnr)
{
return brw_vec16_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
}
static inline struct brw_reg
brw_uw8_grf(unsigned nr, unsigned subnr)
{
return brw_uw8_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
}
static inline struct brw_reg
brw_uw16_grf(unsigned nr, unsigned subnr)
{
return brw_uw16_reg(BRW_GENERAL_REGISTER_FILE, nr, subnr);
}
/** Construct null register (usually used for setting condition codes) */
static inline struct brw_reg
brw_null_reg(void)
{
return brw_vec8_reg(BRW_ARCHITECTURE_REGISTER_FILE, BRW_ARF_NULL, 0);
}
static inline struct brw_reg
brw_null_vec(unsigned width)
{
return brw_vecn_reg(width, BRW_ARCHITECTURE_REGISTER_FILE, BRW_ARF_NULL, 0);
}
static inline struct brw_reg
brw_address_reg(unsigned subnr)
{
return brw_uw1_reg(BRW_ARCHITECTURE_REGISTER_FILE, BRW_ARF_ADDRESS, subnr);
}
/* If/else instructions break in align16 mode if writemask & swizzle
* aren't xyzw. This goes against the convention for other scalar
* regs:
*/
static inline struct brw_reg
brw_ip_reg(void)
{
return brw_reg(BRW_ARCHITECTURE_REGISTER_FILE,
BRW_ARF_IP,
0,
0,
0,
BRW_REGISTER_TYPE_UD,
BRW_VERTICAL_STRIDE_4, /* ? */
BRW_WIDTH_1,
BRW_HORIZONTAL_STRIDE_0,
BRW_SWIZZLE_XYZW, /* NOTE! */
WRITEMASK_XYZW); /* NOTE! */
}
static inline struct brw_reg
brw_notification_reg(void)
{
return brw_reg(BRW_ARCHITECTURE_REGISTER_FILE,
BRW_ARF_NOTIFICATION_COUNT,
0,
0,
0,
BRW_REGISTER_TYPE_UD,
BRW_VERTICAL_STRIDE_0,
BRW_WIDTH_1,
BRW_HORIZONTAL_STRIDE_0,
BRW_SWIZZLE_XXXX,
WRITEMASK_X);
}
static inline struct brw_reg
brw_acc_reg(unsigned width)
{
return brw_vecn_reg(width, BRW_ARCHITECTURE_REGISTER_FILE,
BRW_ARF_ACCUMULATOR, 0);
}
static inline struct brw_reg
brw_flag_reg(int reg, int subreg)
{
return brw_uw1_reg(BRW_ARCHITECTURE_REGISTER_FILE,
BRW_ARF_FLAG + reg, subreg);
}
/**
* Return the mask register present in Gen4-5, or the related register present
* in Gen7.5 and later hardware referred to as "channel enable" register in
* the documentation.
*/
static inline struct brw_reg
brw_mask_reg(unsigned subnr)
{
return brw_uw1_reg(BRW_ARCHITECTURE_REGISTER_FILE, BRW_ARF_MASK, subnr);
}
static inline struct brw_reg
brw_message_reg(unsigned nr)
{
return brw_vec8_reg(BRW_MESSAGE_REGISTER_FILE, nr, 0);
}
static inline struct brw_reg
brw_uvec_mrf(unsigned width, unsigned nr, unsigned subnr)
{
return retype(brw_vecn_reg(width, BRW_MESSAGE_REGISTER_FILE, nr, subnr),
BRW_REGISTER_TYPE_UD);
}
/* This is almost always called with a numeric constant argument, so
* make things easy to evaluate at compile time:
*/
static inline unsigned cvt(unsigned val)
{
switch (val) {
case 0: return 0;
case 1: return 1;
case 2: return 2;
case 4: return 3;
case 8: return 4;
case 16: return 5;
case 32: return 6;
}
return 0;
}
static inline struct brw_reg
stride(struct brw_reg reg, unsigned vstride, unsigned width, unsigned hstride)
{
reg.vstride = cvt(vstride);
reg.width = cvt(width) - 1;
reg.hstride = cvt(hstride);
return reg;
}
/**
* Multiply the vertical and horizontal stride of a register by the given
* factor \a s.
*/
static inline struct brw_reg
spread(struct brw_reg reg, unsigned s)
{
if (s) {
assert(_mesa_is_pow_two(s));
if (reg.hstride)
reg.hstride += cvt(s) - 1;
if (reg.vstride)
reg.vstride += cvt(s) - 1;
return reg;
} else {
return stride(reg, 0, 1, 0);
}
}
static inline struct brw_reg
vec16(struct brw_reg reg)
{
return stride(reg, 16,16,1);
}
static inline struct brw_reg
vec8(struct brw_reg reg)
{
return stride(reg, 8,8,1);
}
static inline struct brw_reg
vec4(struct brw_reg reg)
{
return stride(reg, 4,4,1);
}
static inline struct brw_reg
vec2(struct brw_reg reg)
{
return stride(reg, 2,2,1);
}
static inline struct brw_reg
vec1(struct brw_reg reg)
{
return stride(reg, 0,1,0);
}
static inline struct brw_reg
get_element(struct brw_reg reg, unsigned elt)
{
return vec1(suboffset(reg, elt));
}
static inline struct brw_reg
get_element_ud(struct brw_reg reg, unsigned elt)
{
return vec1(suboffset(retype(reg, BRW_REGISTER_TYPE_UD), elt));
}
static inline struct brw_reg
get_element_d(struct brw_reg reg, unsigned elt)
{
return vec1(suboffset(retype(reg, BRW_REGISTER_TYPE_D), elt));
}
static inline struct brw_reg
brw_swizzle(struct brw_reg reg, unsigned x, unsigned y, unsigned z, unsigned w)
{
assert(reg.file != BRW_IMMEDIATE_VALUE);
reg.dw1.bits.swizzle = brw_compose_swizzle(BRW_SWIZZLE4(x, y, z, w),
reg.dw1.bits.swizzle);
return reg;
}
static inline struct brw_reg
brw_swizzle1(struct brw_reg reg, unsigned x)
{
return brw_swizzle(reg, x, x, x, x);
}
static inline struct brw_reg
brw_writemask(struct brw_reg reg, unsigned mask)
{
assert(reg.file != BRW_IMMEDIATE_VALUE);
reg.dw1.bits.writemask &= mask;
return reg;
}
static inline struct brw_reg
brw_set_writemask(struct brw_reg reg, unsigned mask)
{
assert(reg.file != BRW_IMMEDIATE_VALUE);
reg.dw1.bits.writemask = mask;
return reg;
}
static inline unsigned
brw_writemask_for_size(unsigned n)
{
return (1 << n) - 1;
}
static inline struct brw_reg
negate(struct brw_reg reg)
{
reg.negate ^= 1;
return reg;
}
static inline struct brw_reg
brw_abs(struct brw_reg reg)
{
reg.abs = 1;
reg.negate = 0;
return reg;
}
/************************************************************************/
static inline struct brw_reg
brw_vec4_indirect(unsigned subnr, int offset)
{
struct brw_reg reg = brw_vec4_grf(0, 0);
reg.subnr = subnr;
reg.address_mode = BRW_ADDRESS_REGISTER_INDIRECT_REGISTER;
reg.dw1.bits.indirect_offset = offset;
return reg;
}
static inline struct brw_reg
brw_vec1_indirect(unsigned subnr, int offset)
{
struct brw_reg reg = brw_vec1_grf(0, 0);
reg.subnr = subnr;
reg.address_mode = BRW_ADDRESS_REGISTER_INDIRECT_REGISTER;
reg.dw1.bits.indirect_offset = offset;
return reg;
}
static inline struct brw_reg
deref_4f(struct brw_indirect ptr, int offset)
{
return brw_vec4_indirect(ptr.addr_subnr, ptr.addr_offset + offset);
}
static inline struct brw_reg
deref_1f(struct brw_indirect ptr, int offset)
{
return brw_vec1_indirect(ptr.addr_subnr, ptr.addr_offset + offset);
}
static inline struct brw_reg
deref_4b(struct brw_indirect ptr, int offset)
{
return retype(deref_4f(ptr, offset), BRW_REGISTER_TYPE_B);
}
static inline struct brw_reg
deref_1uw(struct brw_indirect ptr, int offset)
{
return retype(deref_1f(ptr, offset), BRW_REGISTER_TYPE_UW);
}
static inline struct brw_reg
deref_1d(struct brw_indirect ptr, int offset)
{
return retype(deref_1f(ptr, offset), BRW_REGISTER_TYPE_D);
}
static inline struct brw_reg
deref_1ud(struct brw_indirect ptr, int offset)
{
return retype(deref_1f(ptr, offset), BRW_REGISTER_TYPE_UD);
}
static inline struct brw_reg
get_addr_reg(struct brw_indirect ptr)
{
return brw_address_reg(ptr.addr_subnr);
}
static inline struct brw_indirect
brw_indirect_offset(struct brw_indirect ptr, int offset)
{
ptr.addr_offset += offset;
return ptr;
}
static inline struct brw_indirect
brw_indirect(unsigned addr_subnr, int offset)
{
struct brw_indirect ptr;
ptr.addr_subnr = addr_subnr;
ptr.addr_offset = offset;
ptr.pad = 0;
return ptr;
}
static inline bool
region_matches(struct brw_reg reg, enum brw_vertical_stride v,
enum brw_width w, enum brw_horizontal_stride h)
{
return reg.vstride == v &&
reg.width == w &&
reg.hstride == h;
}
#define has_scalar_region(reg) \
region_matches(reg, BRW_VERTICAL_STRIDE_0, BRW_WIDTH_1, \
BRW_HORIZONTAL_STRIDE_0)
/* brw_packed_float.c */
int brw_float_to_vf(float f);
float brw_vf_to_float(unsigned char vf);
#ifdef __cplusplus
}
#endif
#endif
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