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/*
* Copyright (c) 2017 Lima Project
* Copyright (c) 2013 Connor Abbott
*
* 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.
*
*/
#ifndef LIMA_IR_GP_GPIR_H
#define LIMA_IR_GP_GPIR_H
#include "util/list.h"
#include "util/u_math.h"
#include "ir/lima_ir.h"
/* list of operations that a node can do. */
typedef enum {
gpir_op_mov,
/* mul ops */
gpir_op_mul,
gpir_op_select,
gpir_op_complex1,
gpir_op_complex2,
/* add ops */
gpir_op_add,
gpir_op_floor,
gpir_op_sign,
gpir_op_ge,
gpir_op_lt,
gpir_op_min,
gpir_op_max,
gpir_op_abs,
gpir_op_not,
/* mul/add ops */
gpir_op_neg,
/* passthrough ops */
gpir_op_clamp_const,
gpir_op_preexp2,
gpir_op_postlog2,
/* complex ops */
gpir_op_exp2_impl,
gpir_op_log2_impl,
gpir_op_rcp_impl,
gpir_op_rsqrt_impl,
/* load/store ops */
gpir_op_load_uniform,
gpir_op_load_temp,
gpir_op_load_attribute,
gpir_op_load_reg,
gpir_op_store_temp,
gpir_op_store_reg,
gpir_op_store_varying,
gpir_op_store_temp_load_off0,
gpir_op_store_temp_load_off1,
gpir_op_store_temp_load_off2,
/* branch */
gpir_op_branch_cond,
/* const (emulated) */
gpir_op_const,
/* emulated ops */
gpir_op_exp2,
gpir_op_log2,
gpir_op_rcp,
gpir_op_rsqrt,
gpir_op_ceil,
gpir_op_exp,
gpir_op_log,
gpir_op_sin,
gpir_op_cos,
gpir_op_tan,
gpir_op_branch_uncond,
gpir_op_eq,
gpir_op_ne,
/* auxiliary ops */
gpir_op_dummy_f,
gpir_op_dummy_m,
gpir_op_num,
} gpir_op;
typedef enum {
gpir_node_type_alu,
gpir_node_type_const,
gpir_node_type_load,
gpir_node_type_store,
gpir_node_type_branch,
} gpir_node_type;
typedef struct {
char *name;
bool dest_neg;
bool src_neg[4];
int *slots;
gpir_node_type type;
bool spillless;
bool schedule_first;
bool may_consume_two_slots;
} gpir_op_info;
extern const gpir_op_info gpir_op_infos[];
typedef struct {
enum {
GPIR_DEP_INPUT, /* def is the input of use */
GPIR_DEP_OFFSET, /* def is the offset of use (i.e. temp store) */
GPIR_DEP_READ_AFTER_WRITE,
GPIR_DEP_WRITE_AFTER_READ,
} type;
/* node execute before succ */
struct gpir_node *pred;
/* node execute after pred */
struct gpir_node *succ;
/* for node pred_list */
struct list_head pred_link;
/* for ndoe succ_list */
struct list_head succ_link;
} gpir_dep;
struct gpir_instr;
struct gpir_store_node;
typedef struct gpir_node {
struct list_head list;
gpir_op op;
gpir_node_type type;
int index;
char name[16];
bool printed;
struct gpir_block *block;
/* for nodes relationship */
/* for node who uses this node (successor) */
struct list_head succ_list;
/* for node this node uses (predecessor) */
struct list_head pred_list;
/* for scheduler and regalloc */
int value_reg;
union {
struct {
struct gpir_instr *instr;
struct gpir_store_node *physreg_store;
int pos;
int dist;
int index;
bool ready;
bool inserted;
bool max_node, next_max_node;
bool complex_allowed;
} sched;
struct {
int parent_index;
float reg_pressure;
int est;
bool scheduled;
} rsched;
struct {
float index;
struct gpir_node *last;
} vreg;
struct {
int index;
} preg;
};
} gpir_node;
typedef struct {
gpir_node node;
gpir_node *children[3];
bool children_negate[3];
int num_child;
bool dest_negate;
} gpir_alu_node;
typedef struct {
gpir_node node;
union fi value;
} gpir_const_node;
typedef struct {
int index;
struct list_head list;
struct list_head defs_list;
struct list_head uses_list;
int start, end;
} gpir_reg;
typedef struct {
gpir_node node;
unsigned index;
unsigned component;
gpir_reg *reg;
struct list_head reg_link;
} gpir_load_node;
typedef struct gpir_store_node {
gpir_node node;
unsigned index;
unsigned component;
gpir_node *child;
gpir_reg *reg;
struct list_head reg_link;
} gpir_store_node;
enum gpir_instr_slot {
GPIR_INSTR_SLOT_MUL0,
GPIR_INSTR_SLOT_MUL1,
GPIR_INSTR_SLOT_ADD0,
GPIR_INSTR_SLOT_ADD1,
GPIR_INSTR_SLOT_PASS,
GPIR_INSTR_SLOT_COMPLEX,
GPIR_INSTR_SLOT_BRANCH,
GPIR_INSTR_SLOT_REG0_LOAD0,
GPIR_INSTR_SLOT_REG0_LOAD1,
GPIR_INSTR_SLOT_REG0_LOAD2,
GPIR_INSTR_SLOT_REG0_LOAD3,
GPIR_INSTR_SLOT_REG1_LOAD0,
GPIR_INSTR_SLOT_REG1_LOAD1,
GPIR_INSTR_SLOT_REG1_LOAD2,
GPIR_INSTR_SLOT_REG1_LOAD3,
GPIR_INSTR_SLOT_MEM_LOAD0,
GPIR_INSTR_SLOT_MEM_LOAD1,
GPIR_INSTR_SLOT_MEM_LOAD2,
GPIR_INSTR_SLOT_MEM_LOAD3,
GPIR_INSTR_SLOT_STORE0,
GPIR_INSTR_SLOT_STORE1,
GPIR_INSTR_SLOT_STORE2,
GPIR_INSTR_SLOT_STORE3,
GPIR_INSTR_SLOT_NUM,
GPIR_INSTR_SLOT_END,
GPIR_INSTR_SLOT_ALU_BEGIN = GPIR_INSTR_SLOT_MUL0,
GPIR_INSTR_SLOT_ALU_END = GPIR_INSTR_SLOT_COMPLEX,
GPIR_INSTR_SLOT_DIST_TWO_BEGIN = GPIR_INSTR_SLOT_MUL0,
GPIR_INSTR_SLOT_DIST_TWO_END = GPIR_INSTR_SLOT_PASS,
};
typedef struct gpir_instr {
int index;
struct list_head list;
gpir_node *slots[GPIR_INSTR_SLOT_NUM];
/* The number of ALU slots free for moves. */
int alu_num_slot_free;
/* The number of ALU slots free for moves, except for the complex slot. */
int alu_non_cplx_slot_free;
/* We need to make sure that we can insert moves in the following cases:
* (1) There was a use of a value two cycles ago.
* (2) There were more than 5 uses of a value 1 cycle ago (or else we can't
* possibly satisfy (1) for the next cycle).
* (3) There is a store instruction scheduled, but not its child.
*
* The complex slot cannot be used for a move in case (1), since it only
* has a FIFO depth of 1, but it can be used for (2) as well as (3) as long
* as the uses aren't in certain slots. It turns out that we don't have to
* worry about nodes that can't use the complex slot for (2), since there
* are at most 4 uses 1 cycle ago that can't use the complex slot, but we
* do have to worry about (3). This means tracking stores whose children
* cannot be in the complex slot. In order to ensure that we have enough
* space for all three, we maintain the following invariants:
*
* (1) alu_num_slot_free >= alu_num_slot_needed_by_store +
* alu_num_slot_needed_by_max +
* max(alu_num_unscheduled_next_max - alu_max_allowed_next_max, 0)
* (2) alu_non_cplx_slot_free >= alu_num_slot_needed_by_max +
* alu_num_slot_neede_by_non_cplx_store
*
* alu_max_allowed_next_max is normally 5 (since there can be at most 5 max
* nodes for the next instruction) but when there is a complex1 node in
* this instruction it reduces to 4 to reserve a slot for complex2 in the
* next instruction.
*/
int alu_num_slot_needed_by_store;
int alu_num_slot_needed_by_non_cplx_store;
int alu_num_slot_needed_by_max;
int alu_num_unscheduled_next_max;
int alu_max_allowed_next_max;
/* Used to communicate to the scheduler how many slots need to be cleared
* up in order to satisfy the invariants.
*/
int slot_difference;
int non_cplx_slot_difference;
int reg0_use_count;
bool reg0_is_attr;
int reg0_index;
int reg1_use_count;
int reg1_index;
int mem_use_count;
bool mem_is_temp;
int mem_index;
enum {
GPIR_INSTR_STORE_NONE,
GPIR_INSTR_STORE_VARYING,
GPIR_INSTR_STORE_REG,
GPIR_INSTR_STORE_TEMP,
} store_content[2];
int store_index[2];
} gpir_instr;
typedef struct gpir_block {
struct list_head list;
struct list_head node_list;
struct list_head instr_list;
struct gpir_compiler *comp;
/* for scheduler */
union {
struct {
int instr_index;
} sched;
struct {
int node_index;
} rsched;
};
} gpir_block;
typedef struct {
gpir_node node;
gpir_block *dest;
} gpir_branch_node;
struct lima_vs_shader_state;
#define GPIR_VECTOR_SSA_VIEWPORT_SCALE 0
#define GPIR_VECTOR_SSA_VIEWPORT_OFFSET 1
#define GPIR_VECTOR_SSA_NUM 2
typedef struct gpir_compiler {
struct list_head block_list;
int cur_index;
/* array for searching ssa node */
gpir_node **var_nodes;
/* for physical reg */
struct list_head reg_list;
int cur_reg;
/* lookup for vector ssa */
struct {
int ssa;
gpir_node *nodes[4];
} vector_ssa[GPIR_VECTOR_SSA_NUM];
struct lima_vs_shader_state *prog;
int constant_base;
} gpir_compiler;
#define GPIR_VALUE_REG_NUM 11
#define GPIR_PHYSICAL_REG_NUM 64
void *gpir_node_create(gpir_block *block, gpir_op op);
gpir_dep *gpir_node_add_dep(gpir_node *succ, gpir_node *pred, int type);
void gpir_node_remove_dep(gpir_node *succ, gpir_node *pred);
void gpir_node_replace_succ(gpir_node *dst, gpir_node *src);
void gpir_node_replace_pred(gpir_dep *dep, gpir_node *new_pred);
void gpir_node_replace_child(gpir_node *parent, gpir_node *old_child, gpir_node *new_child);
void gpir_node_insert_child(gpir_node *parent, gpir_node *child, gpir_node *insert_child);
void gpir_node_delete(gpir_node *node);
void gpir_node_print_prog_dep(gpir_compiler *comp);
void gpir_node_print_prog_seq(gpir_compiler *comp);
#define gpir_node_foreach_succ(node, dep) \
list_for_each_entry(gpir_dep, dep, &node->succ_list, succ_link)
#define gpir_node_foreach_succ_safe(node, dep) \
list_for_each_entry_safe(gpir_dep, dep, &node->succ_list, succ_link)
#define gpir_node_foreach_pred(node, dep) \
list_for_each_entry(gpir_dep, dep, &node->pred_list, pred_link)
#define gpir_node_foreach_pred_safe(node, dep) \
list_for_each_entry_safe(gpir_dep, dep, &node->pred_list, pred_link)
static inline bool gpir_node_is_root(gpir_node *node)
{
return list_empty(&node->succ_list);
}
static inline bool gpir_node_is_leaf(gpir_node *node)
{
return list_empty(&node->pred_list);
}
#define gpir_node_to_alu(node) ((gpir_alu_node *)(node))
#define gpir_node_to_const(node) ((gpir_const_node *)(node))
#define gpir_node_to_load(node) ((gpir_load_node *)(node))
#define gpir_node_to_store(node) ((gpir_store_node *)(node))
gpir_instr *gpir_instr_create(gpir_block *block);
bool gpir_instr_try_insert_node(gpir_instr *instr, gpir_node *node);
void gpir_instr_remove_node(gpir_instr *instr, gpir_node *node);
void gpir_instr_print_prog(gpir_compiler *comp);
bool gpir_codegen_acc_same_op(gpir_op op1, gpir_op op2);
bool gpir_pre_rsched_lower_prog(gpir_compiler *comp);
bool gpir_post_rsched_lower_prog(gpir_compiler *comp);
bool gpir_reduce_reg_pressure_schedule_prog(gpir_compiler *comp);
bool gpir_regalloc_prog(gpir_compiler *comp);
bool gpir_schedule_prog(gpir_compiler *comp);
bool gpir_codegen_prog(gpir_compiler *comp);
gpir_reg *gpir_create_reg(gpir_compiler *comp);
#endif
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