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|
/*
* Copyright 2013 Vadim Girlin <vadimgirlin@gmail.com>
*
* 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
* on the rights to use, copy, modify, merge, publish, distribute, sub
* license, 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 NON-INFRINGEMENT. IN NO EVENT SHALL
* THE AUTHOR(S) AND/OR THEIR 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:
* Vadim Girlin
*/
#ifndef SB_BC_H_
#define SB_BC_H_
extern "C" {
#include <stdint.h>
#include "r600_isa.h"
}
#include <cstdio>
#include <string>
#include <vector>
#include <stack>
struct r600_bytecode;
struct r600_shader;
namespace r600_sb {
class hw_encoding_format;
class node;
class alu_node;
class cf_node;
class fetch_node;
class alu_group_node;
class region_node;
class shader;
class sb_ostream {
public:
sb_ostream() {}
virtual void write(const char *s) = 0;
sb_ostream& operator <<(const char *s) {
write(s);
return *this;
}
sb_ostream& operator <<(const std::string& s) {
return *this << s.c_str();
}
sb_ostream& operator <<(void *p) {
char b[32];
sprintf(b, "%p", p);
return *this << b;
}
sb_ostream& operator <<(char c) {
char b[2];
sprintf(b, "%c", c);
return *this << b;
}
sb_ostream& operator <<(int n) {
char b[32];
sprintf(b, "%d", n);
return *this << b;
}
sb_ostream& operator <<(unsigned n) {
char b[32];
sprintf(b, "%u", n);
return *this << b;
}
sb_ostream& operator <<(double d) {
char b[32];
snprintf(b, 32, "%g", d);
return *this << b;
}
// print as field of specified width, right aligned
void print_w(int n, int width) {
char b[256],f[8];
sprintf(f, "%%%dd", width);
snprintf(b, 256, f, n);
write(b);
}
// print as field of specified width, left aligned
void print_wl(int n, int width) {
char b[256],f[8];
sprintf(f, "%%-%dd", width);
snprintf(b, 256, f, n);
write(b);
}
// print as field of specified width, left aligned
void print_wl(const std::string &s, int width) {
write(s.c_str());
int l = s.length();
while (l++ < width) {
write(" ");
}
}
// print int as field of specified width, right aligned, zero-padded
void print_zw(int n, int width) {
char b[256],f[8];
sprintf(f, "%%0%dd", width);
snprintf(b, 256, f, n);
write(b);
}
// print int as field of specified width, right aligned, zero-padded, hex
void print_zw_hex(int n, int width) {
char b[256],f[8];
sprintf(f, "%%0%dx", width);
snprintf(b, 256, f, n);
write(b);
}
};
class sb_ostringstream : public sb_ostream {
std::string data;
public:
sb_ostringstream() : data() {}
virtual void write(const char *s) {
data += s;
}
void clear() { data.clear(); }
const char* c_str() { return data.c_str(); }
std::string& str() { return data; }
};
class sb_log : public sb_ostream {
FILE *o;
public:
sb_log() : o(stderr) {}
virtual void write(const char *s) {
fputs(s, o);
}
};
extern sb_log sblog;
enum shader_target
{
TARGET_UNKNOWN,
TARGET_VS,
TARGET_ES,
TARGET_PS,
TARGET_GS,
TARGET_GS_COPY,
TARGET_COMPUTE,
TARGET_FETCH,
TARGET_NUM
};
enum sb_hw_class_bits
{
HB_R6 = (1<<0),
HB_R7 = (1<<1),
HB_EG = (1<<2),
HB_CM = (1<<3),
HB_R6R7 = (HB_R6 | HB_R7),
HB_EGCM = (HB_EG | HB_CM),
HB_R6R7EG = (HB_R6 | HB_R7 | HB_EG),
HB_R7EGCM = (HB_R7 | HB_EG | HB_CM),
HB_ALL = (HB_R6 | HB_R7 | HB_EG | HB_CM)
};
enum sb_hw_chip
{
HW_CHIP_UNKNOWN,
HW_CHIP_R600,
HW_CHIP_RV610,
HW_CHIP_RV630,
HW_CHIP_RV670,
HW_CHIP_RV620,
HW_CHIP_RV635,
HW_CHIP_RS780,
HW_CHIP_RS880,
HW_CHIP_RV770,
HW_CHIP_RV730,
HW_CHIP_RV710,
HW_CHIP_RV740,
HW_CHIP_CEDAR,
HW_CHIP_REDWOOD,
HW_CHIP_JUNIPER,
HW_CHIP_CYPRESS,
HW_CHIP_HEMLOCK,
HW_CHIP_PALM,
HW_CHIP_SUMO,
HW_CHIP_SUMO2,
HW_CHIP_BARTS,
HW_CHIP_TURKS,
HW_CHIP_CAICOS,
HW_CHIP_CAYMAN,
HW_CHIP_ARUBA
};
enum sb_hw_class
{
HW_CLASS_UNKNOWN,
HW_CLASS_R600,
HW_CLASS_R700,
HW_CLASS_EVERGREEN,
HW_CLASS_CAYMAN
};
enum alu_slots {
SLOT_X = 0,
SLOT_Y = 1,
SLOT_Z = 2,
SLOT_W = 3,
SLOT_TRANS = 4
};
enum misc_consts {
MAX_ALU_LITERALS = 4,
MAX_ALU_SLOTS = 128,
MAX_GPR = 128,
MAX_CHAN = 4
};
enum alu_src_sel {
ALU_SRC_LDS_OQ_A = 219,
ALU_SRC_LDS_OQ_B = 220,
ALU_SRC_LDS_OQ_A_POP = 221,
ALU_SRC_LDS_OQ_B_POP = 222,
ALU_SRC_LDS_DIRECT_A = 223,
ALU_SRC_LDS_DIRECT_B = 224,
ALU_SRC_TIME_HI = 227,
ALU_SRC_TIME_LO = 228,
ALU_SRC_MASK_HI = 229,
ALU_SRC_MASK_LO = 230,
ALU_SRC_HW_WAVE_ID = 231,
ALU_SRC_SIMD_ID = 232,
ALU_SRC_SE_ID = 233,
ALU_SRC_HW_THREADGRP_ID = 234,
ALU_SRC_WAVE_ID_IN_GRP = 235,
ALU_SRC_NUM_THREADGRP_WAVES = 236,
ALU_SRC_HW_ALU_ODD = 237,
ALU_SRC_LOOP_IDX = 238,
ALU_SRC_PARAM_BASE_ADDR = 240,
ALU_SRC_NEW_PRIM_MASK = 241,
ALU_SRC_PRIM_MASK_HI = 242,
ALU_SRC_PRIM_MASK_LO = 243,
ALU_SRC_1_DBL_L = 244,
ALU_SRC_1_DBL_M = 245,
ALU_SRC_0_5_DBL_L = 246,
ALU_SRC_0_5_DBL_M = 247,
ALU_SRC_0 = 248,
ALU_SRC_1 = 249,
ALU_SRC_1_INT = 250,
ALU_SRC_M_1_INT = 251,
ALU_SRC_0_5 = 252,
ALU_SRC_LITERAL = 253,
ALU_SRC_PV = 254,
ALU_SRC_PS = 255,
ALU_SRC_PARAM_OFFSET = 448
};
enum alu_predicate_select
{
PRED_SEL_OFF = 0,
// RESERVED = 1,
PRED_SEL_0 = 2,
PRED_SEL_1 = 3
};
enum alu_omod {
OMOD_OFF = 0,
OMOD_M2 = 1,
OMOD_M4 = 2,
OMOD_D2 = 3
};
enum alu_index_mode {
INDEX_AR_X = 0,
INDEX_AR_Y_R600 = 1,
INDEX_AR_Z_R600 = 2,
INDEX_AR_W_R600 = 3,
INDEX_LOOP = 4,
INDEX_GLOBAL = 5,
INDEX_GLOBAL_AR_X = 6
};
enum alu_cayman_mova_dst {
CM_MOVADST_AR_X,
CM_MOVADST_PC,
CM_MOVADST_IDX0,
CM_MOVADST_IDX1,
CM_MOVADST_CG0, // clause-global byte 0
CM_MOVADST_CG1,
CM_MOVADST_CG2,
CM_MOVADST_CG3
};
enum alu_cayman_exec_mask_op {
CM_EMO_DEACTIVATE,
CM_EMO_BREAK,
CM_EMO_CONTINUE,
CM_EMO_KILL
};
enum cf_exp_type {
EXP_PIXEL,
EXP_POS,
EXP_PARAM,
EXP_TYPE_COUNT
};
enum cf_mem_type {
MEM_WRITE,
MEM_WRITE_IND,
MEM_WRITE_ACK,
MEM_WRITE_IND_ACK
};
enum alu_kcache_mode {
KC_LOCK_NONE,
KC_LOCK_1,
KC_LOCK_2,
KC_LOCK_LOOP
};
enum alu_kcache_index_mode {
KC_INDEX_NONE,
KC_INDEX_0,
KC_INDEX_1,
KC_INDEX_INVALID
};
enum chan_select {
SEL_X = 0,
SEL_Y = 1,
SEL_Z = 2,
SEL_W = 3,
SEL_0 = 4,
SEL_1 = 5,
// RESERVED = 6,
SEL_MASK = 7
};
enum bank_swizzle {
VEC_012 = 0,
VEC_021 = 1,
VEC_120 = 2,
VEC_102 = 3,
VEC_201 = 4,
VEC_210 = 5,
VEC_NUM = 6,
SCL_210 = 0,
SCL_122 = 1,
SCL_212 = 2,
SCL_221 = 3,
SCL_NUM = 4
};
enum sched_queue_id {
SQ_CF,
SQ_ALU,
SQ_TEX,
SQ_VTX,
SQ_NUM
};
struct literal {
union {
int32_t i;
uint32_t u;
float f;
};
literal(int32_t i = 0) : i(i) {}
literal(uint32_t u) : u(u) {}
literal(float f) : f(f) {}
literal(double f) : f(f) {}
operator uint32_t() const { return u; }
bool operator ==(literal l) { return u == l.u; }
bool operator ==(int v_int) { return i == v_int; }
bool operator ==(unsigned v_uns) { return u == v_uns; }
};
struct bc_kcache {
unsigned mode;
unsigned bank;
unsigned addr;
unsigned index_mode;
} ;
// TODO optimize bc structures
struct bc_cf {
bc_kcache kc[4];
unsigned id;
const cf_op_info * op_ptr;
unsigned op;
unsigned addr:32;
unsigned alt_const:1;
unsigned uses_waterfall:1;
unsigned barrier:1;
unsigned count:7;
unsigned pop_count:3;
unsigned call_count:6;
unsigned whole_quad_mode:1;
unsigned valid_pixel_mode:1;
unsigned jumptable_sel:3;
unsigned cf_const:5;
unsigned cond:2;
unsigned end_of_program:1;
unsigned array_base:13;
unsigned elem_size:2;
unsigned index_gpr:7;
unsigned rw_gpr:7;
unsigned rw_rel:1;
unsigned type:2;
unsigned burst_count:4;
unsigned mark:1;
unsigned sel[4];
unsigned array_size:12;
unsigned comp_mask:4;
unsigned rat_id:4;
unsigned rat_inst:6;
unsigned rat_index_mode:2;
void set_op(unsigned op) { this->op = op; op_ptr = r600_isa_cf(op); }
bool is_alu_extended() {
assert(op_ptr->flags & CF_ALU);
return kc[2].mode != KC_LOCK_NONE || kc[3].mode != KC_LOCK_NONE;
}
};
struct bc_alu_src {
unsigned sel:9;
unsigned chan:2;
unsigned neg:1;
unsigned abs:1;
unsigned rel:1;
literal value;
};
struct bc_alu {
const alu_op_info * op_ptr;
unsigned op;
bc_alu_src src[3];
unsigned dst_gpr:7;
unsigned dst_chan:2;
unsigned dst_rel:1;
unsigned clamp:1;
unsigned omod:2;
unsigned bank_swizzle:3;
unsigned index_mode:3;
unsigned last:1;
unsigned pred_sel:2;
unsigned fog_merge:1;
unsigned write_mask:1;
unsigned update_exec_mask:1;
unsigned update_pred:1;
unsigned slot:3;
alu_op_flags slot_flags;
void set_op(unsigned op) {
this->op = op;
op_ptr = r600_isa_alu(op);
}
};
struct bc_fetch {
const fetch_op_info * op_ptr;
unsigned op;
unsigned bc_frac_mode:1;
unsigned fetch_whole_quad:1;
unsigned resource_id:8;
unsigned src_gpr:7;
unsigned src_rel:1;
unsigned src_sel[4];
unsigned dst_gpr:7;
unsigned dst_rel:1;
unsigned dst_sel[4];
unsigned alt_const:1;
unsigned inst_mod:2;
unsigned resource_index_mode:2;
unsigned sampler_index_mode:2;
unsigned coord_type[4];
unsigned lod_bias:7;
unsigned offset[3];
unsigned sampler_id:5;
unsigned fetch_type:2;
unsigned mega_fetch_count:6;
unsigned coalesced_read:1;
unsigned structured_read:2;
unsigned lds_req:1;
unsigned data_format:6;
unsigned format_comp_all:1;
unsigned num_format_all:2;
unsigned semantic_id:8;
unsigned srf_mode_all:1;
unsigned use_const_fields:1;
unsigned const_buf_no_stride:1;
unsigned endian_swap:2;
unsigned mega_fetch:1;
void set_op(unsigned op) { this->op = op; op_ptr = r600_isa_fetch(op); }
};
struct shader_stats {
unsigned ndw;
unsigned ngpr;
unsigned nstack;
unsigned cf; // clause instructions not included
unsigned alu;
unsigned alu_clauses;
unsigned fetch_clauses;
unsigned fetch;
unsigned alu_groups;
unsigned shaders; // number of shaders (for accumulated stats)
shader_stats() : ndw(), ngpr(), nstack(), cf(), alu(), alu_clauses(),
fetch_clauses(), fetch(), alu_groups(), shaders() {}
void collect(node *n);
void accumulate(shader_stats &s);
void dump();
void dump_diff(shader_stats &s);
};
class sb_context {
public:
shader_stats src_stats, opt_stats;
r600_isa *isa;
sb_hw_chip hw_chip;
sb_hw_class hw_class;
unsigned alu_temp_gprs;
unsigned max_fetch;
bool has_trans;
unsigned vtx_src_num;
unsigned num_slots;
bool uses_mova_gpr;
bool r6xx_gpr_index_workaround;
bool stack_workaround_8xx;
bool stack_workaround_9xx;
unsigned wavefront_size;
unsigned stack_entry_size;
static unsigned dump_pass;
static unsigned dump_stat;
static unsigned dry_run;
static unsigned no_fallback;
static unsigned safe_math;
static unsigned dskip_start;
static unsigned dskip_end;
static unsigned dskip_mode;
sb_context() : src_stats(), opt_stats(), isa(0),
hw_chip(HW_CHIP_UNKNOWN), hw_class(HW_CLASS_UNKNOWN) {}
int init(r600_isa *isa, sb_hw_chip chip, sb_hw_class cclass);
bool is_r600() {return hw_class == HW_CLASS_R600;}
bool is_r700() {return hw_class == HW_CLASS_R700;}
bool is_evergreen() {return hw_class == HW_CLASS_EVERGREEN;}
bool is_cayman() {return hw_class == HW_CLASS_CAYMAN;}
bool is_egcm() {return hw_class >= HW_CLASS_EVERGREEN;}
bool needs_8xx_stack_workaround() {
if (!is_evergreen())
return false;
switch (hw_chip) {
case HW_CHIP_CYPRESS:
case HW_CHIP_JUNIPER:
return false;
default:
return true;
}
}
bool needs_9xx_stack_workaround() {
return is_cayman();
}
sb_hw_class_bits hw_class_bit() {
switch (hw_class) {
case HW_CLASS_R600:return HB_R6;
case HW_CLASS_R700:return HB_R7;
case HW_CLASS_EVERGREEN:return HB_EG;
case HW_CLASS_CAYMAN:return HB_CM;
default: assert(!"unknown hw class"); return (sb_hw_class_bits)0;
}
}
unsigned cf_opcode(unsigned op) {
return r600_isa_cf_opcode(isa->hw_class, op);
}
unsigned alu_opcode(unsigned op) {
return r600_isa_alu_opcode(isa->hw_class, op);
}
unsigned alu_slots(unsigned op) {
return r600_isa_alu_slots(isa->hw_class, op);
}
unsigned alu_slots(const alu_op_info * op_ptr) {
return op_ptr->slots[isa->hw_class];
}
unsigned alu_slots_mask(const alu_op_info * op_ptr) {
unsigned mask = 0;
unsigned slot_flags = alu_slots(op_ptr);
if (slot_flags & AF_V)
mask = 0x0F;
if (!is_cayman() && (slot_flags & AF_S))
mask |= 0x10;
return mask;
}
unsigned fetch_opcode(unsigned op) {
return r600_isa_fetch_opcode(isa->hw_class, op);
}
bool is_kcache_sel(unsigned sel) {
return ((sel >= 128 && sel < 192) || (sel >= 256 && sel < 320));
}
const char * get_hw_class_name();
const char * get_hw_chip_name();
};
#define SB_DUMP_STAT(a) do { if (sb_context::dump_stat) { a } } while (0)
#define SB_DUMP_PASS(a) do { if (sb_context::dump_pass) { a } } while (0)
class bc_decoder {
sb_context &ctx;
uint32_t* dw;
unsigned ndw;
public:
bc_decoder(sb_context &sctx, uint32_t *data, unsigned size)
: ctx(sctx), dw(data), ndw(size) {}
int decode_cf(unsigned &i, bc_cf &bc);
int decode_alu(unsigned &i, bc_alu &bc);
int decode_fetch(unsigned &i, bc_fetch &bc);
private:
int decode_cf_alu(unsigned &i, bc_cf &bc);
int decode_cf_exp(unsigned &i, bc_cf &bc);
int decode_cf_mem(unsigned &i, bc_cf &bc);
int decode_fetch_vtx(unsigned &i, bc_fetch &bc);
};
// bytecode format definition
class hw_encoding_format {
const sb_hw_class_bits hw_target; //FIXME: debug - remove after testing
hw_encoding_format();
protected:
uint32_t value;
public:
hw_encoding_format(sb_hw_class_bits hw)
: hw_target(hw), value(0) {}
hw_encoding_format(uint32_t v, sb_hw_class_bits hw)
: hw_target(hw), value(v) {}
uint32_t get_value(sb_hw_class_bits hw) const {
assert((hw & hw_target) == hw);
return value;
}
};
#define BC_FORMAT_BEGIN_HW(fmt, hwset) \
class fmt##_##hwset : public hw_encoding_format {\
typedef fmt##_##hwset thistype; \
public: \
fmt##_##hwset() : hw_encoding_format(HB_##hwset) {}; \
fmt##_##hwset(uint32_t v) : hw_encoding_format(v, HB_##hwset) {};
#define BC_FORMAT_BEGIN(fmt) BC_FORMAT_BEGIN_HW(fmt, ALL)
#define BC_FORMAT_END(fmt) };
// bytecode format field definition
#define BC_FIELD(fmt, name, shortname, last_bit, first_bit) \
thistype & name(unsigned v) { \
value |= ((v&((1ull<<((last_bit)-(first_bit)+1))-1))<<(first_bit)); \
return *this; \
} \
unsigned get_##name() const { \
return (value>>(first_bit))&((1ull<<((last_bit)-(first_bit)+1))-1); \
} \
#define BC_RSRVD(fmt, last_bit, first_bit)
// CLAMP macro defined elsewhere interferes with bytecode field name
#undef CLAMP
#undef ARRAY_SIZE
#include "sb_bc_fmt_def.inc"
#undef BC_FORMAT_BEGIN
#undef BC_FORMAT_END
#undef BC_FIELD
#undef BC_RSRVD
class bc_parser {
sb_context & ctx;
bc_decoder *dec;
r600_bytecode *bc;
r600_shader *pshader;
uint32_t *dw;
unsigned bc_ndw;
unsigned max_cf;
shader *sh;
int error;
alu_node *slots[2][5];
unsigned cgroup;
typedef std::vector<cf_node*> id_cf_map;
id_cf_map cf_map;
typedef std::stack<region_node*> region_stack;
region_stack loop_stack;
bool gpr_reladdr;
public:
bc_parser(sb_context &sctx, r600_bytecode *bc, r600_shader* pshader) :
ctx(sctx), dec(), bc(bc), pshader(pshader),
dw(), bc_ndw(), max_cf(),
sh(), error(), slots(), cgroup(),
cf_map(), loop_stack(), gpr_reladdr() { }
int decode();
int prepare();
shader* get_shader() { assert(!error); return sh; }
private:
int decode_shader();
int parse_decls();
int decode_cf(unsigned &i, bool &eop);
int decode_alu_clause(cf_node *cf);
int decode_alu_group(cf_node* cf, unsigned &i, unsigned &gcnt);
int decode_fetch_clause(cf_node *cf);
int prepare_ir();
int prepare_alu_clause(cf_node *cf);
int prepare_alu_group(cf_node* cf, alu_group_node *g);
int prepare_fetch_clause(cf_node *cf);
int prepare_loop(cf_node *c);
int prepare_if(cf_node *c);
};
class bytecode {
typedef std::vector<uint32_t> bc_vector;
sb_hw_class_bits hw_class_bit;
bc_vector bc;
unsigned pos;
public:
bytecode(sb_hw_class_bits hw, unsigned rdw = 256)
: hw_class_bit(hw), pos(0) { bc.reserve(rdw); }
unsigned ndw() { return bc.size(); }
void write_data(uint32_t* dst) {
std::copy(bc.begin(), bc.end(), dst);
}
void align(unsigned a) {
unsigned size = bc.size();
size = (size + a - 1) & ~(a-1);
bc.resize(size);
}
void set_size(unsigned sz) {
assert(sz >= bc.size());
bc.resize(sz);
}
void seek(unsigned p) {
if (p != pos) {
if (p > bc.size()) {
bc.resize(p);
}
pos = p;
}
}
unsigned get_pos() { return pos; }
uint32_t *data() { return &bc[0]; }
bytecode & operator <<(uint32_t v) {
if (pos == ndw()) {
bc.push_back(v);
} else
bc.at(pos) = v;
++pos;
return *this;
}
bytecode & operator <<(const hw_encoding_format &e) {
*this << e.get_value(hw_class_bit);
return *this;
}
bytecode & operator <<(const bytecode &b) {
bc.insert(bc.end(), b.bc.begin(), b.bc.end());
return *this;
}
uint32_t at(unsigned dw_id) { return bc.at(dw_id); }
};
class bc_builder {
shader &sh;
sb_context &ctx;
bytecode bb;
int error;
public:
bc_builder(shader &s);
int build();
bytecode& get_bytecode() { assert(!error); return bb; }
private:
int build_cf(cf_node *n);
int build_cf_alu(cf_node *n);
int build_cf_mem(cf_node *n);
int build_cf_exp(cf_node *n);
int build_alu_clause(cf_node *n);
int build_alu_group(alu_group_node *n);
int build_alu(alu_node *n);
int build_fetch_clause(cf_node *n);
int build_fetch_tex(fetch_node *n);
int build_fetch_vtx(fetch_node *n);
};
} // namespace r600_sb
#endif /* SB_BC_H_ */
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