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/* Infrastructure to dump our HSAIL IL
Copyright (C) 2013-2017 Free Software Foundation, Inc.
Contributed by Martin Jambor <mjambor@suse.cz> and
Martin Liska <mliska@suse.cz>.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "is-a.h"
#include "vec.h"
#include "tree.h"
#include "cfg.h"
#include "function.h"
#include "dumpfile.h"
#include "gimple-pretty-print.h"
#include "cgraph.h"
#include "print-tree.h"
#include "symbol-summary.h"
#include "hsa-common.h"
/* Return textual name of TYPE. */
static const char *
hsa_type_name (BrigType16_t type)
{
switch (type)
{
case BRIG_TYPE_NONE:
return "none";
case BRIG_TYPE_U8:
return "u8";
case BRIG_TYPE_U16:
return "u16";
case BRIG_TYPE_U32:
return "u32";
case BRIG_TYPE_U64:
return "u64";
case BRIG_TYPE_S8:
return "s8";
case BRIG_TYPE_S16:
return "s16";
case BRIG_TYPE_S32:
return "s32";
case BRIG_TYPE_S64:
return "s64";
case BRIG_TYPE_F16:
return "f16";
case BRIG_TYPE_F32:
return "f32";
case BRIG_TYPE_F64:
return "f64";
case BRIG_TYPE_B1:
return "b1";
case BRIG_TYPE_B8:
return "b8";
case BRIG_TYPE_B16:
return "b16";
case BRIG_TYPE_B32:
return "b32";
case BRIG_TYPE_B64:
return "b64";
case BRIG_TYPE_B128:
return "b128";
case BRIG_TYPE_SAMP:
return "samp";
case BRIG_TYPE_ROIMG:
return "roimg";
case BRIG_TYPE_WOIMG:
return "woimg";
case BRIG_TYPE_RWIMG:
return "rwimg";
case BRIG_TYPE_SIG32:
return "sig32";
case BRIG_TYPE_SIG64:
return "sig64";
case BRIG_TYPE_U8X4:
return "u8x4";
case BRIG_TYPE_U8X8:
return "u8x8";
case BRIG_TYPE_U8X16:
return "u8x16";
case BRIG_TYPE_U16X2:
return "u16x2";
case BRIG_TYPE_U16X4:
return "u16x4";
case BRIG_TYPE_U16X8:
return "u16x8";
case BRIG_TYPE_U32X2:
return "u32x2";
case BRIG_TYPE_U32X4:
return "u32x4";
case BRIG_TYPE_U64X2:
return "u64x2";
case BRIG_TYPE_S8X4:
return "s8x4";
case BRIG_TYPE_S8X8:
return "s8x8";
case BRIG_TYPE_S8X16:
return "s8x16";
case BRIG_TYPE_S16X2:
return "s16x2";
case BRIG_TYPE_S16X4:
return "s16x4";
case BRIG_TYPE_S16X8:
return "s16x8";
case BRIG_TYPE_S32X2:
return "s32x2";
case BRIG_TYPE_S32X4:
return "s32x4";
case BRIG_TYPE_S64X2:
return "s64x2";
case BRIG_TYPE_F16X2:
return "f16x2";
case BRIG_TYPE_F16X4:
return "f16x4";
case BRIG_TYPE_F16X8:
return "f16x8";
case BRIG_TYPE_F32X2:
return "f32x2";
case BRIG_TYPE_F32X4:
return "f32x4";
case BRIG_TYPE_F64X2:
return "f64x2";
default:
return "UNKNOWN_TYPE";
}
}
/* Return textual name of OPCODE. */
static const char *
hsa_opcode_name (BrigOpcode16_t opcode)
{
switch (opcode)
{
case BRIG_OPCODE_NOP:
return "nop";
case BRIG_OPCODE_ABS:
return "abs";
case BRIG_OPCODE_ADD:
return "add";
case BRIG_OPCODE_BORROW:
return "borrow";
case BRIG_OPCODE_CARRY:
return "carry";
case BRIG_OPCODE_CEIL:
return "ceil";
case BRIG_OPCODE_COPYSIGN:
return "copysign";
case BRIG_OPCODE_DIV:
return "div";
case BRIG_OPCODE_FLOOR:
return "floor";
case BRIG_OPCODE_FMA:
return "fma";
case BRIG_OPCODE_FRACT:
return "fract";
case BRIG_OPCODE_MAD:
return "mad";
case BRIG_OPCODE_MAX:
return "max";
case BRIG_OPCODE_MIN:
return "min";
case BRIG_OPCODE_MUL:
return "mul";
case BRIG_OPCODE_MULHI:
return "mulhi";
case BRIG_OPCODE_NEG:
return "neg";
case BRIG_OPCODE_REM:
return "rem";
case BRIG_OPCODE_RINT:
return "rint";
case BRIG_OPCODE_SQRT:
return "sqrt";
case BRIG_OPCODE_SUB:
return "sub";
case BRIG_OPCODE_TRUNC:
return "trunc";
case BRIG_OPCODE_MAD24:
return "mad24";
case BRIG_OPCODE_MAD24HI:
return "mad24hi";
case BRIG_OPCODE_MUL24:
return "mul24";
case BRIG_OPCODE_MUL24HI:
return "mul24hi";
case BRIG_OPCODE_SHL:
return "shl";
case BRIG_OPCODE_SHR:
return "shr";
case BRIG_OPCODE_AND:
return "and";
case BRIG_OPCODE_NOT:
return "not";
case BRIG_OPCODE_OR:
return "or";
case BRIG_OPCODE_POPCOUNT:
return "popcount";
case BRIG_OPCODE_XOR:
return "xor";
case BRIG_OPCODE_BITEXTRACT:
return "bitextract";
case BRIG_OPCODE_BITINSERT:
return "bitinsert";
case BRIG_OPCODE_BITMASK:
return "bitmask";
case BRIG_OPCODE_BITREV:
return "bitrev";
case BRIG_OPCODE_BITSELECT:
return "bitselect";
case BRIG_OPCODE_FIRSTBIT:
return "firstbit";
case BRIG_OPCODE_LASTBIT:
return "lastbit";
case BRIG_OPCODE_COMBINE:
return "combine";
case BRIG_OPCODE_EXPAND:
return "expand";
case BRIG_OPCODE_LDA:
return "lda";
case BRIG_OPCODE_MOV:
return "mov";
case BRIG_OPCODE_SHUFFLE:
return "shuffle";
case BRIG_OPCODE_UNPACKHI:
return "unpackhi";
case BRIG_OPCODE_UNPACKLO:
return "unpacklo";
case BRIG_OPCODE_PACK:
return "pack";
case BRIG_OPCODE_UNPACK:
return "unpack";
case BRIG_OPCODE_CMOV:
return "cmov";
case BRIG_OPCODE_CLASS:
return "class";
case BRIG_OPCODE_NCOS:
return "ncos";
case BRIG_OPCODE_NEXP2:
return "nexp2";
case BRIG_OPCODE_NFMA:
return "nfma";
case BRIG_OPCODE_NLOG2:
return "nlog2";
case BRIG_OPCODE_NRCP:
return "nrcp";
case BRIG_OPCODE_NRSQRT:
return "nrsqrt";
case BRIG_OPCODE_NSIN:
return "nsin";
case BRIG_OPCODE_NSQRT:
return "nsqrt";
case BRIG_OPCODE_BITALIGN:
return "bitalign";
case BRIG_OPCODE_BYTEALIGN:
return "bytealign";
case BRIG_OPCODE_PACKCVT:
return "packcvt";
case BRIG_OPCODE_UNPACKCVT:
return "unpackcvt";
case BRIG_OPCODE_LERP:
return "lerp";
case BRIG_OPCODE_SAD:
return "sad";
case BRIG_OPCODE_SADHI:
return "sadhi";
case BRIG_OPCODE_SEGMENTP:
return "segmentp";
case BRIG_OPCODE_FTOS:
return "ftos";
case BRIG_OPCODE_STOF:
return "stof";
case BRIG_OPCODE_CMP:
return "cmp";
case BRIG_OPCODE_CVT:
return "cvt";
case BRIG_OPCODE_LD:
return "ld";
case BRIG_OPCODE_ST:
return "st";
case BRIG_OPCODE_ATOMIC:
return "atomic";
case BRIG_OPCODE_ATOMICNORET:
return "atomicnoret";
case BRIG_OPCODE_SIGNAL:
return "signal";
case BRIG_OPCODE_SIGNALNORET:
return "signalnoret";
case BRIG_OPCODE_MEMFENCE:
return "memfence";
case BRIG_OPCODE_RDIMAGE:
return "rdimage";
case BRIG_OPCODE_LDIMAGE:
return "ldimage";
case BRIG_OPCODE_STIMAGE:
return "stimage";
case BRIG_OPCODE_QUERYIMAGE:
return "queryimage";
case BRIG_OPCODE_QUERYSAMPLER:
return "querysampler";
case BRIG_OPCODE_CBR:
return "cbr";
case BRIG_OPCODE_BR:
return "br";
case BRIG_OPCODE_SBR:
return "sbr";
case BRIG_OPCODE_BARRIER:
return "barrier";
case BRIG_OPCODE_WAVEBARRIER:
return "wavebarrier";
case BRIG_OPCODE_ARRIVEFBAR:
return "arrivefbar";
case BRIG_OPCODE_INITFBAR:
return "initfbar";
case BRIG_OPCODE_JOINFBAR:
return "joinfbar";
case BRIG_OPCODE_LEAVEFBAR:
return "leavefbar";
case BRIG_OPCODE_RELEASEFBAR:
return "releasefbar";
case BRIG_OPCODE_WAITFBAR:
return "waitfbar";
case BRIG_OPCODE_LDF:
return "ldf";
case BRIG_OPCODE_ACTIVELANECOUNT:
return "activelanecount";
case BRIG_OPCODE_ACTIVELANEID:
return "activelaneid";
case BRIG_OPCODE_ACTIVELANEMASK:
return "activelanemask";
case BRIG_OPCODE_CALL:
return "call";
case BRIG_OPCODE_SCALL:
return "scall";
case BRIG_OPCODE_ICALL:
return "icall";
case BRIG_OPCODE_RET:
return "ret";
case BRIG_OPCODE_ALLOCA:
return "alloca";
case BRIG_OPCODE_CURRENTWORKGROUPSIZE:
return "currentworkgroupsize";
case BRIG_OPCODE_DIM:
return "dim";
case BRIG_OPCODE_GRIDGROUPS:
return "gridgroups";
case BRIG_OPCODE_GRIDSIZE:
return "gridsize";
case BRIG_OPCODE_PACKETCOMPLETIONSIG:
return "packetcompletionsig";
case BRIG_OPCODE_PACKETID:
return "packetid";
case BRIG_OPCODE_WORKGROUPID:
return "workgroupid";
case BRIG_OPCODE_WORKGROUPSIZE:
return "workgroupsize";
case BRIG_OPCODE_WORKITEMABSID:
return "workitemabsid";
case BRIG_OPCODE_WORKITEMFLATABSID:
return "workitemflatabsid";
case BRIG_OPCODE_WORKITEMFLATID:
return "workitemflatid";
case BRIG_OPCODE_WORKITEMID:
return "workitemid";
case BRIG_OPCODE_CLEARDETECTEXCEPT:
return "cleardetectexcept";
case BRIG_OPCODE_GETDETECTEXCEPT:
return "getdetectexcept";
case BRIG_OPCODE_SETDETECTEXCEPT:
return "setdetectexcept";
case BRIG_OPCODE_ADDQUEUEWRITEINDEX:
return "addqueuewriteindex";
case BRIG_OPCODE_CASQUEUEWRITEINDEX:
return "casqueuewriteindex";
case BRIG_OPCODE_LDQUEUEREADINDEX:
return "ldqueuereadindex";
case BRIG_OPCODE_LDQUEUEWRITEINDEX:
return "ldqueuewriteindex";
case BRIG_OPCODE_STQUEUEREADINDEX:
return "stqueuereadindex";
case BRIG_OPCODE_STQUEUEWRITEINDEX:
return "stqueuewriteindex";
case BRIG_OPCODE_CLOCK:
return "clock";
case BRIG_OPCODE_CUID:
return "cuid";
case BRIG_OPCODE_DEBUGTRAP:
return "debugtrap";
case BRIG_OPCODE_GROUPBASEPTR:
return "groupbaseptr";
case BRIG_OPCODE_KERNARGBASEPTR:
return "kernargbaseptr";
case BRIG_OPCODE_LANEID:
return "laneid";
case BRIG_OPCODE_MAXCUID:
return "maxcuid";
case BRIG_OPCODE_MAXWAVEID:
return "maxwaveid";
case BRIG_OPCODE_NULLPTR:
return "nullptr";
case BRIG_OPCODE_WAVEID:
return "waveid";
default:
return "UNKNOWN_OPCODE";
}
}
/* Return textual name of SEG. */
const char *
hsa_seg_name (BrigSegment8_t seg)
{
switch (seg)
{
case BRIG_SEGMENT_NONE:
return "none";
case BRIG_SEGMENT_FLAT:
return "flat";
case BRIG_SEGMENT_GLOBAL:
return "global";
case BRIG_SEGMENT_READONLY:
return "readonly";
case BRIG_SEGMENT_KERNARG:
return "kernarg";
case BRIG_SEGMENT_GROUP:
return "group";
case BRIG_SEGMENT_PRIVATE:
return "private";
case BRIG_SEGMENT_SPILL:
return "spill";
case BRIG_SEGMENT_ARG:
return "arg";
default:
return "UNKNOWN_SEGMENT";
}
}
/* Return textual name of CMPOP. */
static const char *
hsa_cmpop_name (BrigCompareOperation8_t cmpop)
{
switch (cmpop)
{
case BRIG_COMPARE_EQ:
return "eq";
case BRIG_COMPARE_NE:
return "ne";
case BRIG_COMPARE_LT:
return "lt";
case BRIG_COMPARE_LE:
return "le";
case BRIG_COMPARE_GT:
return "gt";
case BRIG_COMPARE_GE:
return "ge";
case BRIG_COMPARE_EQU:
return "equ";
case BRIG_COMPARE_NEU:
return "neu";
case BRIG_COMPARE_LTU:
return "ltu";
case BRIG_COMPARE_LEU:
return "leu";
case BRIG_COMPARE_GTU:
return "gtu";
case BRIG_COMPARE_GEU:
return "geu";
case BRIG_COMPARE_NUM:
return "num";
case BRIG_COMPARE_NAN:
return "nan";
case BRIG_COMPARE_SEQ:
return "seq";
case BRIG_COMPARE_SNE:
return "sne";
case BRIG_COMPARE_SLT:
return "slt";
case BRIG_COMPARE_SLE:
return "sle";
case BRIG_COMPARE_SGT:
return "sgt";
case BRIG_COMPARE_SGE:
return "sge";
case BRIG_COMPARE_SGEU:
return "sgeu";
case BRIG_COMPARE_SEQU:
return "sequ";
case BRIG_COMPARE_SNEU:
return "sneu";
case BRIG_COMPARE_SLTU:
return "sltu";
case BRIG_COMPARE_SLEU:
return "sleu";
case BRIG_COMPARE_SNUM:
return "snum";
case BRIG_COMPARE_SNAN:
return "snan";
case BRIG_COMPARE_SGTU:
return "sgtu";
default:
return "UNKNOWN_COMPARISON";
}
}
/* Return textual name for memory order. */
static const char *
hsa_memsem_name (enum BrigMemoryOrder mo)
{
switch (mo)
{
case BRIG_MEMORY_ORDER_NONE:
return "";
case BRIG_MEMORY_ORDER_RELAXED:
return "rlx";
case BRIG_MEMORY_ORDER_SC_ACQUIRE:
return "scacq";
case BRIG_MEMORY_ORDER_SC_RELEASE:
return "screl";
case BRIG_MEMORY_ORDER_SC_ACQUIRE_RELEASE:
return "scar";
default:
return "UNKNOWN_MEMORY_ORDER";
}
}
/* Return textual name for memory scope. */
static const char *
hsa_memscope_name (enum BrigMemoryScope scope)
{
switch (scope)
{
case BRIG_MEMORY_SCOPE_NONE:
return "";
case BRIG_MEMORY_SCOPE_WORKITEM:
return "wi";
case BRIG_MEMORY_SCOPE_WAVEFRONT:
return "wave";
case BRIG_MEMORY_SCOPE_WORKGROUP:
return "wg";
case BRIG_MEMORY_SCOPE_AGENT:
return "agent";
case BRIG_MEMORY_SCOPE_SYSTEM:
return "sys";
default:
return "UNKNOWN_SCOPE";
}
}
/* Return textual name for atomic operation. */
static const char *
hsa_m_atomicop_name (enum BrigAtomicOperation op)
{
switch (op)
{
case BRIG_ATOMIC_ADD:
return "add";
case BRIG_ATOMIC_AND:
return "and";
case BRIG_ATOMIC_CAS:
return "cas";
case BRIG_ATOMIC_EXCH:
return "exch";
case BRIG_ATOMIC_LD:
return "ld";
case BRIG_ATOMIC_MAX:
return "max";
case BRIG_ATOMIC_MIN:
return "min";
case BRIG_ATOMIC_OR:
return "or";
case BRIG_ATOMIC_ST:
return "st";
case BRIG_ATOMIC_SUB:
return "sub";
case BRIG_ATOMIC_WRAPDEC:
return "wrapdec";
case BRIG_ATOMIC_WRAPINC:
return "wrapinc";
case BRIG_ATOMIC_XOR:
return "xor";
case BRIG_ATOMIC_WAIT_EQ:
return "wait_eq";
case BRIG_ATOMIC_WAIT_NE:
return "wait_ne";
case BRIG_ATOMIC_WAIT_LT:
return "wait_lt";
case BRIG_ATOMIC_WAIT_GTE:
return "wait_gte";
case BRIG_ATOMIC_WAITTIMEOUT_EQ:
return "waittimeout_eq";
case BRIG_ATOMIC_WAITTIMEOUT_NE:
return "waittimeout_ne";
case BRIG_ATOMIC_WAITTIMEOUT_LT:
return "waittimeout_lt";
case BRIG_ATOMIC_WAITTIMEOUT_GTE:
return "waittimeout_gte";
default:
return "UNKNOWN_ATOMIC_OP";
}
}
/* Return textual name for atomic operation. */
static const char *
hsa_width_specifier_name (BrigWidth8_t width)
{
switch (width)
{
case BRIG_WIDTH_NONE:
return "none";
case BRIG_WIDTH_1:
return "1";
case BRIG_WIDTH_2:
return "2";
case BRIG_WIDTH_4:
return "4";
case BRIG_WIDTH_8:
return "8";
case BRIG_WIDTH_16:
return "16";
case BRIG_WIDTH_32:
return "32";
case BRIG_WIDTH_64:
return "64";
case BRIG_WIDTH_128:
return "128";
case BRIG_WIDTH_256:
return "256";
case BRIG_WIDTH_512:
return "512";
case BRIG_WIDTH_1024:
return "1024";
case BRIG_WIDTH_2048:
return "2048";
case BRIG_WIDTH_4096:
return "4096";
case BRIG_WIDTH_8192:
return "8192";
case BRIG_WIDTH_16384:
return "16384";
case BRIG_WIDTH_32768:
return "32768";
case BRIG_WIDTH_65536:
return "65536";
case BRIG_WIDTH_131072:
return "131072";
case BRIG_WIDTH_262144:
return "262144";
case BRIG_WIDTH_524288:
return "524288";
case BRIG_WIDTH_1048576:
return "1048576";
case BRIG_WIDTH_2097152:
return "2097152";
case BRIG_WIDTH_4194304:
return "4194304";
case BRIG_WIDTH_8388608:
return "8388608";
case BRIG_WIDTH_16777216:
return "16777216";
case BRIG_WIDTH_33554432:
return "33554432";
case BRIG_WIDTH_67108864:
return "67108864";
case BRIG_WIDTH_134217728:
return "134217728";
case BRIG_WIDTH_268435456:
return "268435456";
case BRIG_WIDTH_536870912:
return "536870912";
case BRIG_WIDTH_1073741824:
return "1073741824";
case BRIG_WIDTH_2147483648:
return "2147483648";
case BRIG_WIDTH_WAVESIZE:
return "wavesize";
case BRIG_WIDTH_ALL:
return "all";
default:
return "UNKNOWN_WIDTH";
}
}
/* Dump textual representation of HSA IL register REG to file F. */
static void
dump_hsa_reg (FILE *f, hsa_op_reg *reg, bool dump_type = false)
{
if (reg->m_reg_class)
fprintf (f, "$%c%i", reg->m_reg_class, reg->m_hard_num);
else
fprintf (f, "$_%i", reg->m_order);
if (dump_type)
fprintf (f, " (%s)", hsa_type_name (reg->m_type));
}
/* Dump textual representation of HSA IL immediate operand IMM to file F. */
static void
dump_hsa_immed (FILE *f, hsa_op_immed *imm)
{
bool unsigned_int_type
= (BRIG_TYPE_U8 | BRIG_TYPE_U16 | BRIG_TYPE_U32 | BRIG_TYPE_U64)
& imm->m_type;
if (imm->m_tree_value)
print_generic_expr (f, imm->m_tree_value, 0);
else
{
if (unsigned_int_type)
fprintf (f, HOST_WIDE_INT_PRINT_DEC, imm->m_int_value);
else
fprintf (f, HOST_WIDE_INT_PRINT_UNSIGNED,
(unsigned HOST_WIDE_INT) imm->m_int_value);
}
fprintf (f, " (%s)", hsa_type_name (imm->m_type));
}
/* Dump textual representation of HSA IL address operand ADDR to file F. */
static void
dump_hsa_address (FILE *f, hsa_op_address *addr)
{
bool sth = false;
if (addr->m_symbol)
{
sth = true;
if (addr->m_symbol->m_name)
fprintf (f, "[%%%s]", addr->m_symbol->m_name);
else
fprintf (f, "[%%__%s_%i]", hsa_seg_name (addr->m_symbol->m_segment),
addr->m_symbol->m_name_number);
}
if (addr->m_reg)
{
fprintf (f, "[");
dump_hsa_reg (f, addr->m_reg);
if (addr->m_imm_offset != 0)
fprintf (f, " + " HOST_WIDE_INT_PRINT_DEC "]", addr->m_imm_offset);
else
fprintf (f, "]");
}
else if (!sth || addr->m_imm_offset != 0)
fprintf (f, "[" HOST_WIDE_INT_PRINT_DEC "]", addr->m_imm_offset);
}
/* Dump textual representation of HSA IL symbol SYMBOL to file F. */
static void
dump_hsa_symbol (FILE *f, hsa_symbol *symbol)
{
const char *name;
if (symbol->m_name)
name = symbol->m_name;
else
{
char buf[64];
sprintf (buf, "__%s_%i", hsa_seg_name (symbol->m_segment),
symbol->m_name_number);
name = buf;
}
fprintf (f, "align(%u) %s_%s %s", hsa_byte_alignment (symbol->m_align),
hsa_seg_name (symbol->m_segment),
hsa_type_name (symbol->m_type & ~BRIG_TYPE_ARRAY_MASK), name);
if (symbol->m_type & BRIG_TYPE_ARRAY_MASK)
fprintf (f, "[%lu]", (unsigned long) symbol->m_dim);
if (symbol->m_directive_offset)
fprintf (f, " /* BRIG offset: %u */", symbol->m_directive_offset);
}
/* Dump textual representation of HSA IL operand OP to file F. */
static void
dump_hsa_operand (FILE *f, hsa_op_base *op, bool dump_reg_type = false)
{
if (is_a <hsa_op_immed *> (op))
dump_hsa_immed (f, as_a <hsa_op_immed *> (op));
else if (is_a <hsa_op_reg *> (op))
dump_hsa_reg (f, as_a <hsa_op_reg *> (op), dump_reg_type);
else if (is_a <hsa_op_address *> (op))
dump_hsa_address (f, as_a <hsa_op_address *> (op));
else
fprintf (f, "UNKNOWN_OP_KIND");
}
/* Dump textual representation of HSA IL operands in VEC to file F. */
static void
dump_hsa_operands (FILE *f, hsa_insn_basic *insn, int start = 0,
int end = -1, bool dump_reg_type = false)
{
if (end == -1)
end = insn->operand_count ();
for (int i = start; i < end; i++)
{
dump_hsa_operand (f, insn->get_op (i), dump_reg_type);
if (i != end - 1)
fprintf (f, ", ");
}
}
/* Indent F stream with INDENT spaces. */
static void indent_stream (FILE *f, int indent)
{
for (int i = 0; i < indent; i++)
fputc (' ', f);
}
/* Dump textual representation of HSA IL instruction INSN to file F. Prepend
the instruction with *INDENT spaces and adjust the indentation for call
instructions as appropriate. */
static void
dump_hsa_insn_1 (FILE *f, hsa_insn_basic *insn, int *indent)
{
gcc_checking_assert (insn);
if (insn->m_number)
fprintf (f, "%5d: ", insn->m_number);
indent_stream (f, *indent);
if (is_a <hsa_insn_phi *> (insn))
{
hsa_insn_phi *phi = as_a <hsa_insn_phi *> (insn);
bool first = true;
dump_hsa_reg (f, phi->m_dest, true);
fprintf (f, " = PHI <");
unsigned count = phi->operand_count ();
for (unsigned i = 0; i < count; i++)
{
if (!phi->get_op (i))
break;
if (!first)
fprintf (f, ", ");
else
first = false;
dump_hsa_operand (f, phi->get_op (i), true);
}
fprintf (f, ">");
}
else if (is_a <hsa_insn_signal *> (insn))
{
hsa_insn_signal *mem = as_a <hsa_insn_signal *> (insn);
fprintf (f, "%s", hsa_opcode_name (mem->m_opcode));
fprintf (f, "_%s", hsa_m_atomicop_name (mem->m_signalop));
if (mem->m_memory_order != BRIG_MEMORY_ORDER_NONE)
fprintf (f, "_%s", hsa_memsem_name (mem->m_memory_order));
fprintf (f, "_%s ", hsa_type_name (mem->m_type));
dump_hsa_operands (f, mem);
}
else if (is_a <hsa_insn_atomic *> (insn))
{
hsa_insn_atomic *mem = as_a <hsa_insn_atomic *> (insn);
/* Either operand[0] or operand[1] must be an address operand. */
hsa_op_address *addr = NULL;
if (is_a <hsa_op_address *> (mem->get_op (0)))
addr = as_a <hsa_op_address *> (mem->get_op (0));
else
addr = as_a <hsa_op_address *> (mem->get_op (1));
fprintf (f, "%s", hsa_opcode_name (mem->m_opcode));
fprintf (f, "_%s", hsa_m_atomicop_name (mem->m_atomicop));
if (addr->m_symbol)
fprintf (f, "_%s", hsa_seg_name (addr->m_symbol->m_segment));
if (mem->m_memoryorder != BRIG_MEMORY_ORDER_NONE)
fprintf (f, "_%s", hsa_memsem_name (mem->m_memoryorder));
if (mem->m_memoryscope != BRIG_MEMORY_SCOPE_NONE)
fprintf (f, "_%s", hsa_memscope_name (mem->m_memoryscope));
fprintf (f, "_%s ", hsa_type_name (mem->m_type));
dump_hsa_operands (f, mem);
}
else if (is_a <hsa_insn_mem *> (insn))
{
hsa_insn_mem *mem = as_a <hsa_insn_mem *> (insn);
hsa_op_address *addr = as_a <hsa_op_address *> (mem->get_op (1));
fprintf (f, "%s", hsa_opcode_name (mem->m_opcode));
if (addr->m_symbol)
fprintf (f, "_%s", hsa_seg_name (addr->m_symbol->m_segment));
if (mem->m_align != BRIG_ALIGNMENT_NONE)
fprintf (f, "_align(%u)", hsa_byte_alignment (mem->m_align));
if (mem->m_equiv_class != 0)
fprintf (f, "_equiv(%i)", mem->m_equiv_class);
fprintf (f, "_%s ", hsa_type_name (mem->m_type));
dump_hsa_operand (f, mem->get_op (0));
fprintf (f, ", ");
dump_hsa_address (f, addr);
}
else if (insn->m_opcode == BRIG_OPCODE_LDA)
{
hsa_op_address *addr = as_a <hsa_op_address *> (insn->get_op (1));
fprintf (f, "%s", hsa_opcode_name (insn->m_opcode));
if (addr->m_symbol)
fprintf (f, "_%s", hsa_seg_name (addr->m_symbol->m_segment));
fprintf (f, "_%s ", hsa_type_name (insn->m_type));
dump_hsa_operand (f, insn->get_op (0));
fprintf (f, ", ");
dump_hsa_address (f, addr);
}
else if (is_a <hsa_insn_seg *> (insn))
{
hsa_insn_seg *seg = as_a <hsa_insn_seg *> (insn);
fprintf (f, "%s_%s_%s_%s ", hsa_opcode_name (seg->m_opcode),
hsa_seg_name (seg->m_segment),
hsa_type_name (seg->m_type), hsa_type_name (seg->m_src_type));
dump_hsa_reg (f, as_a <hsa_op_reg *> (seg->get_op (0)));
fprintf (f, ", ");
dump_hsa_operand (f, seg->get_op (1));
}
else if (is_a <hsa_insn_cmp *> (insn))
{
hsa_insn_cmp *cmp = as_a <hsa_insn_cmp *> (insn);
BrigType16_t src_type;
if (is_a <hsa_op_reg *> (cmp->get_op (1)))
src_type = as_a <hsa_op_reg *> (cmp->get_op (1))->m_type;
else
src_type = as_a <hsa_op_immed *> (cmp->get_op (1))->m_type;
fprintf (f, "%s_%s_%s_%s ", hsa_opcode_name (cmp->m_opcode),
hsa_cmpop_name (cmp->m_compare),
hsa_type_name (cmp->m_type), hsa_type_name (src_type));
dump_hsa_reg (f, as_a <hsa_op_reg *> (cmp->get_op (0)));
fprintf (f, ", ");
dump_hsa_operand (f, cmp->get_op (1));
fprintf (f, ", ");
dump_hsa_operand (f, cmp->get_op (2));
}
else if (is_a <hsa_insn_cbr *> (insn))
{
hsa_insn_cbr *br = as_a <hsa_insn_cbr *> (insn);
basic_block target = NULL;
edge_iterator ei;
edge e;
fprintf (f, "%s ", hsa_opcode_name (br->m_opcode));
if (br->m_opcode == BRIG_OPCODE_CBR)
{
dump_hsa_reg (f, as_a <hsa_op_reg *> (br->get_op (0)));
fprintf (f, ", ");
}
FOR_EACH_EDGE (e, ei, br->m_bb->succs)
if (e->flags & EDGE_TRUE_VALUE)
{
target = e->dest;
break;
}
fprintf (f, "BB %i", hsa_bb_for_bb (target)->m_index);
}
else if (is_a <hsa_insn_sbr *> (insn))
{
hsa_insn_sbr *sbr = as_a <hsa_insn_sbr *> (insn);
fprintf (f, "%s ", hsa_opcode_name (sbr->m_opcode));
dump_hsa_reg (f, as_a <hsa_op_reg *> (sbr->get_op (0)));
fprintf (f, ", [");
for (unsigned i = 0; i < sbr->m_jump_table.length (); i++)
{
fprintf (f, "BB %i", hsa_bb_for_bb (sbr->m_jump_table[i])->m_index);
if (i != sbr->m_jump_table.length () - 1)
fprintf (f, ", ");
}
}
else if (is_a <hsa_insn_br *> (insn))
{
hsa_insn_br *br = as_a <hsa_insn_br *> (insn);
fprintf (f, "%s_width(%s) ", hsa_opcode_name (br->m_opcode),
hsa_width_specifier_name (br->m_width));
}
else if (is_a <hsa_insn_arg_block *> (insn))
{
hsa_insn_arg_block *arg_block = as_a <hsa_insn_arg_block *> (insn);
bool start_p = arg_block->m_kind == BRIG_KIND_DIRECTIVE_ARG_BLOCK_START;
char c = start_p ? '{' : '}';
if (start_p)
{
*indent += 2;
indent_stream (f, 2);
}
if (!start_p)
*indent -= 2;
fprintf (f, "%c", c);
}
else if (is_a <hsa_insn_call *> (insn))
{
hsa_insn_call *call = as_a <hsa_insn_call *> (insn);
if (call->m_called_function)
{
const char *name = hsa_get_declaration_name (call->m_called_function);
fprintf (f, "call &%s", name);
}
else
{
char *name = call->m_called_internal_fn->name ();
fprintf (f, "call &%s", name);
free (name);
}
if (call->m_output_arg)
fprintf (f, "(%%res) ");
fprintf (f, "(");
for (unsigned i = 0; i < call->m_input_args.length (); i++)
{
fprintf (f, "%%__arg_%u", i);
if (i != call->m_input_args.length () - 1)
fprintf (f, ", ");
}
fprintf (f, ")");
}
else if (is_a <hsa_insn_comment *> (insn))
{
hsa_insn_comment *c = as_a <hsa_insn_comment *> (insn);
fprintf (f, "%s", c->m_comment);
}
else if (is_a <hsa_insn_srctype *> (insn))
{
hsa_insn_srctype *srctype = as_a <hsa_insn_srctype *> (insn);
fprintf (f, "%s_%s_%s ", hsa_opcode_name (srctype->m_opcode),
hsa_type_name (srctype->m_type),
hsa_type_name (srctype->m_source_type));
dump_hsa_operands (f, insn);
}
else if (is_a <hsa_insn_packed *> (insn))
{
hsa_insn_packed *packed = as_a <hsa_insn_packed *> (insn);
fprintf (f, "%s_v%u_%s_%s ", hsa_opcode_name (packed->m_opcode),
packed->operand_count () - 1,
hsa_type_name (packed->m_type),
hsa_type_name (packed->m_source_type));
if (packed->m_opcode == BRIG_OPCODE_COMBINE)
{
dump_hsa_operand (f, insn->get_op (0));
fprintf (f, ", (");
dump_hsa_operands (f, insn, 1);
fprintf (f, ")");
}
else if (packed->m_opcode == BRIG_OPCODE_EXPAND)
{
fprintf (f, "(");
dump_hsa_operands (f, insn, 0, insn->operand_count () - 1);
fprintf (f, "), ");
dump_hsa_operand (f, insn->get_op (insn->operand_count () - 1));
}
else
gcc_unreachable ();
}
else if (is_a <hsa_insn_alloca *> (insn))
{
hsa_insn_alloca *alloca = as_a <hsa_insn_alloca *> (insn);
fprintf (f, "%s_align(%u)_%s ", hsa_opcode_name (insn->m_opcode),
hsa_byte_alignment (alloca->m_align),
hsa_type_name (insn->m_type));
dump_hsa_operands (f, insn);
}
else if (hsa_insn_queue *qi = dyn_cast <hsa_insn_queue *> (insn))
{
fprintf (f, "%s_%s_%s_%s ", hsa_opcode_name (qi->m_opcode),
hsa_seg_name (qi->m_segment),
hsa_memsem_name (qi->m_memory_order),
hsa_type_name (qi->m_type));
dump_hsa_operands (f, qi);
}
else
{
fprintf (f, "%s_%s ", hsa_opcode_name (insn->m_opcode),
hsa_type_name (insn->m_type));
dump_hsa_operands (f, insn);
}
if (insn->m_brig_offset)
{
fprintf (f, " /* BRIG offset: %u", insn->m_brig_offset);
for (unsigned i = 0; i < insn->operand_count (); i++)
fprintf (f, ", op%u: %u", i, insn->get_op (i)->m_brig_op_offset);
fprintf (f, " */");
}
fprintf (f, "\n");
}
/* Dump textual representation of HSA IL instruction INSN to file F. */
void
dump_hsa_insn (FILE *f, hsa_insn_basic *insn)
{
int indent = 0;
dump_hsa_insn_1 (f, insn, &indent);
}
/* Dump textual representation of HSA IL in HBB to file F. */
void
dump_hsa_bb (FILE *f, hsa_bb *hbb)
{
hsa_insn_basic *insn;
edge_iterator ei;
edge e;
basic_block true_bb = NULL, other = NULL;
fprintf (f, "BB %i:\n", hbb->m_index);
int indent = 2;
for (insn = hbb->m_first_phi; insn; insn = insn->m_next)
dump_hsa_insn_1 (f, insn, &indent);
for (insn = hbb->m_first_insn; insn; insn = insn->m_next)
dump_hsa_insn_1 (f, insn, &indent);
if (hbb->m_last_insn && is_a <hsa_insn_sbr *> (hbb->m_last_insn))
goto exit;
FOR_EACH_EDGE (e, ei, hbb->m_bb->succs)
if (e->flags & EDGE_TRUE_VALUE)
{
gcc_assert (!true_bb);
true_bb = e->dest;
}
else
{
gcc_assert (!other);
other = e->dest;
}
if (true_bb)
{
if (!hbb->m_last_insn
|| hbb->m_last_insn->m_opcode != BRIG_OPCODE_CBR)
fprintf (f, "WARNING: No branch insn for a true edge. \n");
}
else if (hbb->m_last_insn
&& hbb->m_last_insn->m_opcode == BRIG_OPCODE_CBR)
fprintf (f, "WARNING: No true edge for a cbr statement\n");
if (other && other->aux)
fprintf (f, " Fall-through to BB %i\n",
hsa_bb_for_bb (other)->m_index);
else if (hbb->m_last_insn
&& hbb->m_last_insn->m_opcode != BRIG_OPCODE_RET)
fprintf (f, " WARNING: Fall through to a BB with no aux!\n");
exit:
fprintf (f, "\n");
}
/* Dump textual representation of HSA IL of the current function to file F. */
void
dump_hsa_cfun (FILE *f)
{
basic_block bb;
if (hsa_cfun->m_global_symbols.length () > 0)
fprintf (f, "\nHSAIL in global scope\n");
for (unsigned i = 0; i < hsa_cfun->m_global_symbols.length (); i++)
{
fprintf (f, " ");
dump_hsa_symbol (f, hsa_cfun->m_global_symbols[i]);
fprintf (f, "\n");
}
fprintf (f, "\nHSAIL IL for %s\n", hsa_cfun->m_name);
for (unsigned i = 0; i < hsa_cfun->m_private_variables.length (); i++)
{
fprintf (f, " ");
dump_hsa_symbol (f, hsa_cfun->m_private_variables[i]);
fprintf (f, "\n");
}
FOR_ALL_BB_FN (bb, cfun)
{
hsa_bb *hbb = (struct hsa_bb *) bb->aux;
dump_hsa_bb (f, hbb);
}
}
/* Dump textual representation of HSA IL instruction INSN to stderr. */
DEBUG_FUNCTION void
debug_hsa_insn (hsa_insn_basic *insn)
{
dump_hsa_insn (stderr, insn);
}
/* Dump textual representation of HSA IL in HBB to stderr. */
DEBUG_FUNCTION void
debug_hsa_bb (hsa_bb *hbb)
{
dump_hsa_bb (stderr, hbb);
}
/* Dump textual representation of HSA IL of the current function to stderr. */
DEBUG_FUNCTION void
debug_hsa_cfun (void)
{
dump_hsa_cfun (stderr);
}
/* Dump textual representation of an HSA operand to stderr. */
DEBUG_FUNCTION void
debug_hsa_operand (hsa_op_base *opc)
{
dump_hsa_operand (stderr, opc, true);
fprintf (stderr, "\n");
}
/* Dump textual representation of as HSA symbol. */
DEBUG_FUNCTION void
debug_hsa_symbol (hsa_symbol *symbol)
{
dump_hsa_symbol (stderr, symbol);
fprintf (stderr, "\n");
}