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/*
* Mesa 3-D graphics library
*
* Copyright (C) 2012-2013 LunarG, Inc.
*
* 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 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 AUTHORS OR COPYRIGHT HOLDERS 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:
* Chia-I Wu <olv@lunarg.com>
*/
#ifndef TOY_COMPILER_H
#define TOY_COMPILER_H
#include "genhw/genhw.h"
#include "util/slab.h"
#include "ilo_common.h"
#include "toy_compiler_reg.h"
/**
* Toy opcodes.
*/
enum toy_opcode {
/* 0..127 are reserved for GEN6_OPCODE_x */
TOY_OPCODE_LAST_HW = 127,
TOY_OPCODE_DO,
/* TGSI register functions */
TOY_OPCODE_TGSI_IN,
TOY_OPCODE_TGSI_CONST,
TOY_OPCODE_TGSI_SV,
TOY_OPCODE_TGSI_IMM,
TOY_OPCODE_TGSI_INDIRECT_FETCH,
TOY_OPCODE_TGSI_INDIRECT_STORE,
/* TGSI sampling functions */
TOY_OPCODE_TGSI_TEX,
TOY_OPCODE_TGSI_TXB,
TOY_OPCODE_TGSI_TXD,
TOY_OPCODE_TGSI_TXL,
TOY_OPCODE_TGSI_TXP,
TOY_OPCODE_TGSI_TXF,
TOY_OPCODE_TGSI_TXQ,
TOY_OPCODE_TGSI_TXQ_LZ,
TOY_OPCODE_TGSI_TEX2,
TOY_OPCODE_TGSI_TXB2,
TOY_OPCODE_TGSI_TXL2,
TOY_OPCODE_TGSI_SAMPLE,
TOY_OPCODE_TGSI_SAMPLE_I,
TOY_OPCODE_TGSI_SAMPLE_I_MS,
TOY_OPCODE_TGSI_SAMPLE_B,
TOY_OPCODE_TGSI_SAMPLE_C,
TOY_OPCODE_TGSI_SAMPLE_C_LZ,
TOY_OPCODE_TGSI_SAMPLE_D,
TOY_OPCODE_TGSI_SAMPLE_L,
TOY_OPCODE_TGSI_GATHER4,
TOY_OPCODE_TGSI_SVIEWINFO,
TOY_OPCODE_TGSI_SAMPLE_POS,
TOY_OPCODE_TGSI_SAMPLE_INFO,
/* math functions */
TOY_OPCODE_INV,
TOY_OPCODE_LOG,
TOY_OPCODE_EXP,
TOY_OPCODE_SQRT,
TOY_OPCODE_RSQ,
TOY_OPCODE_SIN,
TOY_OPCODE_COS,
TOY_OPCODE_FDIV,
TOY_OPCODE_POW,
TOY_OPCODE_INT_DIV_QUOTIENT,
TOY_OPCODE_INT_DIV_REMAINDER,
/* URB functions */
TOY_OPCODE_URB_WRITE,
/* GS-specific functions */
TOY_OPCODE_EMIT,
TOY_OPCODE_ENDPRIM,
/* FS-specific functions */
TOY_OPCODE_DDX,
TOY_OPCODE_DDY,
TOY_OPCODE_FB_WRITE,
TOY_OPCODE_KIL,
};
/**
* Toy instruction.
*/
struct toy_inst {
unsigned opcode:8; /* enum toy_opcode */
unsigned access_mode:1; /* GEN6_ALIGN_x */
unsigned mask_ctrl:1; /* GEN6_MASKCTRL_x */
unsigned dep_ctrl:2; /* GEN6_DEPCTRL_x */
unsigned qtr_ctrl:2; /* GEN6_QTRCTRL_x */
unsigned thread_ctrl:2; /* GEN6_THREADCTRL_x */
unsigned pred_ctrl:4; /* GEN6_PREDCTRL_x */
unsigned pred_inv:1; /* true or false */
unsigned exec_size:3; /* GEN6_EXECSIZE_x */
unsigned cond_modifier:4; /* GEN6_COND_x */
unsigned acc_wr_ctrl:1; /* true or false */
unsigned saturate:1; /* true or false */
/* true if the instruction should be ignored for instruction iteration */
unsigned marker:1;
unsigned pad:1;
struct toy_dst dst;
struct toy_src src[5]; /* match TGSI_FULL_MAX_SRC_REGISTERS */
struct {
int target; /* TGSI_TEXTURE_x */
struct toy_src offsets[1]; /* need to be 4 when GATHER4 is supported */
} tex;
struct list_head list;
};
struct toy_compaction_table {
uint32_t control[32];
uint32_t datatype[32];
uint32_t subreg[32];
uint32_t src[32];
uint32_t control_3src[4];
uint64_t source_3src[4];
};
/**
* Toy compiler.
*/
struct toy_compiler {
const struct ilo_dev *dev;
struct toy_inst templ;
struct slab_mempool mempool;
struct list_head instructions;
struct list_head *iter, *iter_next;
/* this is not set until toy_compiler_legalize_for_asm() */
int num_instructions;
int rect_linear_width;
int next_vrf;
bool fail;
const char *reason;
};
/**
* Allocate the given number of VRF registers.
*/
static inline int
tc_alloc_vrf(struct toy_compiler *tc, int count)
{
const int vrf = tc->next_vrf;
tc->next_vrf += count;
return vrf;
}
/**
* Allocate a temporary register.
*/
static inline struct toy_dst
tc_alloc_tmp(struct toy_compiler *tc)
{
return tdst(TOY_FILE_VRF, tc_alloc_vrf(tc, 1), 0);
}
/**
* Allocate four temporary registers.
*/
static inline void
tc_alloc_tmp4(struct toy_compiler *tc, struct toy_dst *tmp)
{
tmp[0] = tc_alloc_tmp(tc);
tmp[1] = tc_alloc_tmp(tc);
tmp[2] = tc_alloc_tmp(tc);
tmp[3] = tc_alloc_tmp(tc);
}
/**
* Duplicate an instruction at the current location.
*/
static inline struct toy_inst *
tc_duplicate_inst(struct toy_compiler *tc, const struct toy_inst *inst)
{
struct toy_inst *new_inst;
new_inst = slab_alloc_st(&tc->mempool);
if (!new_inst)
return NULL;
*new_inst = *inst;
list_addtail(&new_inst->list, tc->iter_next);
return new_inst;
}
/**
* Move an instruction to the current location.
*/
static inline void
tc_move_inst(struct toy_compiler *tc, struct toy_inst *inst)
{
list_del(&inst->list);
list_addtail(&inst->list, tc->iter_next);
}
/**
* Discard an instruction.
*/
static inline void
tc_discard_inst(struct toy_compiler *tc, struct toy_inst *inst)
{
list_del(&inst->list);
slab_free_st(&tc->mempool, inst);
}
/**
* Add a new instruction at the current location, using tc->templ as the
* template.
*/
static inline struct toy_inst *
tc_add(struct toy_compiler *tc)
{
return tc_duplicate_inst(tc, &tc->templ);
}
/**
* A convenient version of tc_add() for instructions with 3 source operands.
*/
static inline struct toy_inst *
tc_add3(struct toy_compiler *tc, unsigned opcode,
struct toy_dst dst,
struct toy_src src0,
struct toy_src src1,
struct toy_src src2)
{
struct toy_inst *inst;
inst = tc_add(tc);
if (!inst)
return NULL;
inst->opcode = opcode;
inst->dst = dst;
inst->src[0] = src0;
inst->src[1] = src1;
inst->src[2] = src2;
return inst;
}
/**
* A convenient version of tc_add() for instructions with 2 source operands.
*/
static inline struct toy_inst *
tc_add2(struct toy_compiler *tc, int opcode,
struct toy_dst dst,
struct toy_src src0,
struct toy_src src1)
{
return tc_add3(tc, opcode, dst, src0, src1, tsrc_null());
}
/**
* A convenient version of tc_add() for instructions with 1 source operand.
*/
static inline struct toy_inst *
tc_add1(struct toy_compiler *tc, unsigned opcode,
struct toy_dst dst,
struct toy_src src0)
{
return tc_add2(tc, opcode, dst, src0, tsrc_null());
}
/**
* A convenient version of tc_add() for instructions without source or
* destination operands.
*/
static inline struct toy_inst *
tc_add0(struct toy_compiler *tc, unsigned opcode)
{
return tc_add1(tc, opcode, tdst_null(), tsrc_null());
}
#define TC_ALU0(func, opcode) \
static inline struct toy_inst * \
func(struct toy_compiler *tc) \
{ \
return tc_add0(tc, opcode); \
}
#define TC_ALU1(func, opcode) \
static inline struct toy_inst * \
func(struct toy_compiler *tc, \
struct toy_dst dst, \
struct toy_src src) \
{ \
return tc_add1(tc, opcode, dst, src); \
}
#define TC_ALU2(func, opcode) \
static inline struct toy_inst * \
func(struct toy_compiler *tc, \
struct toy_dst dst, \
struct toy_src src0, \
struct toy_src src1) \
{ \
return tc_add2(tc, opcode, \
dst, src0, src1); \
}
#define TC_ALU3(func, opcode) \
static inline struct toy_inst * \
func(struct toy_compiler *tc, \
struct toy_dst dst, \
struct toy_src src0, \
struct toy_src src1, \
struct toy_src src2) \
{ \
return tc_add3(tc, opcode, \
dst, src0, src1, src2); \
}
#define TC_CND2(func, opcode) \
static inline struct toy_inst * \
func(struct toy_compiler *tc, \
struct toy_dst dst, \
struct toy_src src0, \
struct toy_src src1, \
unsigned cond_modifier) \
{ \
struct toy_inst *inst; \
inst = tc_add2(tc, opcode, \
dst, src0, src1); \
inst->cond_modifier = cond_modifier; \
return inst; \
}
TC_ALU0(tc_NOP, GEN6_OPCODE_NOP)
TC_ALU0(tc_ELSE, GEN6_OPCODE_ELSE)
TC_ALU0(tc_ENDIF, GEN6_OPCODE_ENDIF)
TC_ALU1(tc_MOV, GEN6_OPCODE_MOV)
TC_ALU1(tc_RNDD, GEN6_OPCODE_RNDD)
TC_ALU1(tc_INV, TOY_OPCODE_INV)
TC_ALU1(tc_FRC, GEN6_OPCODE_FRC)
TC_ALU1(tc_EXP, TOY_OPCODE_EXP)
TC_ALU1(tc_LOG, TOY_OPCODE_LOG)
TC_ALU2(tc_ADD, GEN6_OPCODE_ADD)
TC_ALU2(tc_MUL, GEN6_OPCODE_MUL)
TC_ALU2(tc_AND, GEN6_OPCODE_AND)
TC_ALU2(tc_OR, GEN6_OPCODE_OR)
TC_ALU2(tc_DP2, GEN6_OPCODE_DP2)
TC_ALU2(tc_DP3, GEN6_OPCODE_DP3)
TC_ALU2(tc_DP4, GEN6_OPCODE_DP4)
TC_ALU2(tc_SHL, GEN6_OPCODE_SHL)
TC_ALU2(tc_SHR, GEN6_OPCODE_SHR)
TC_ALU2(tc_POW, TOY_OPCODE_POW)
TC_ALU3(tc_MAC, GEN6_OPCODE_MAC)
TC_CND2(tc_SEL, GEN6_OPCODE_SEL)
TC_CND2(tc_CMP, GEN6_OPCODE_CMP)
TC_CND2(tc_IF, GEN6_OPCODE_IF)
TC_CND2(tc_SEND, GEN6_OPCODE_SEND)
/**
* Upcast a list_head to an instruction.
*/
static inline struct toy_inst *
tc_list_to_inst(struct toy_compiler *tc, struct list_head *item)
{
return container_of(item, (struct toy_inst *) NULL, list);
}
/**
* Return the instruction at the current location.
*/
static inline struct toy_inst *
tc_current(struct toy_compiler *tc)
{
return (tc->iter != &tc->instructions) ?
tc_list_to_inst(tc, tc->iter) : NULL;
}
/**
* Set the current location to the head.
*/
static inline void
tc_head(struct toy_compiler *tc)
{
tc->iter = &tc->instructions;
tc->iter_next = tc->iter->next;
}
/**
* Set the current location to the tail.
*/
static inline void
tc_tail(struct toy_compiler *tc)
{
tc->iter = &tc->instructions;
tc->iter_next = tc->iter;
}
/**
* Advance the current location.
*/
static inline struct toy_inst *
tc_next_no_skip(struct toy_compiler *tc)
{
/* stay at the tail so that new instructions are added there */
if (tc->iter_next == &tc->instructions) {
tc_tail(tc);
return NULL;
}
tc->iter = tc->iter_next;
tc->iter_next = tc->iter_next->next;
return tc_list_to_inst(tc, tc->iter);
}
/**
* Advance the current location, skipping markers.
*/
static inline struct toy_inst *
tc_next(struct toy_compiler *tc)
{
struct toy_inst *inst;
do {
inst = tc_next_no_skip(tc);
} while (inst && inst->marker);
return inst;
}
static inline void
tc_fail(struct toy_compiler *tc, const char *reason)
{
if (!tc->fail) {
tc->fail = true;
tc->reason = reason;
}
}
void
toy_compiler_init(struct toy_compiler *tc, const struct ilo_dev *dev);
void
toy_compiler_cleanup(struct toy_compiler *tc);
void
toy_compiler_dump(struct toy_compiler *tc);
void *
toy_compiler_assemble(struct toy_compiler *tc, int *size);
const struct toy_compaction_table *
toy_compiler_get_compaction_table(const struct ilo_dev *dev);
void
toy_compiler_disassemble(const struct ilo_dev *dev,
const void *kernel, int size,
bool dump_hex);
#endif /* TOY_COMPILER_H */
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