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|
/*
* Copyright 2008 Corbin Simpson <MostAwesomeDude@gmail.com>
*
* All Rights Reserved.
*
* 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.
*
*/
#include "r500_fragprog.h"
#include <stdio.h>
#include "radeon_compiler_util.h"
#include "radeon_list.h"
#include "radeon_variable.h"
#include "r300_reg.h"
/**
* Rewrite IF instructions to use the ALU result special register.
*/
int r500_transform_IF(
struct radeon_compiler * c,
struct rc_instruction * inst_if,
void *data)
{
struct rc_variable * writer;
struct rc_list * writer_list, * list_ptr;
struct rc_list * var_list = rc_get_variables(c);
unsigned int generic_if = 0;
unsigned int alu_chan;
if (inst_if->U.I.Opcode != RC_OPCODE_IF) {
return 0;
}
writer_list = rc_variable_list_get_writers(
var_list, inst_if->Type, &inst_if->U.I.SrcReg[0]);
if (!writer_list) {
generic_if = 1;
} else {
/* Make sure it is safe for the writers to write to
* ALU Result */
for (list_ptr = writer_list; list_ptr;
list_ptr = list_ptr->Next) {
struct rc_instruction * inst;
writer = list_ptr->Item;
/* We are going to modify the destination register
* of writer, so if it has a reader other than
* inst_if (aka ReaderCount > 1) we must fall back to
* our generic IF.
* If the writer has a lower IP than inst_if, this
* means that inst_if is above the writer in a loop.
* I'm not sure why this would ever happen, but
* if it does we want to make sure we fall back
* to our generic IF. */
if (writer->ReaderCount > 1 || writer->Inst->IP < inst_if->IP) {
generic_if = 1;
break;
}
/* The ALU Result is not preserved across IF
* instructions, so if there is another IF
* instruction between writer and inst_if, then
* we need to fall back to generic IF. */
for (inst = writer->Inst; inst != inst_if; inst = inst->Next) {
const struct rc_opcode_info * info =
rc_get_opcode_info(inst->U.I.Opcode);
if (info->IsFlowControl) {
generic_if = 1;
break;
}
}
if (generic_if) {
break;
}
}
}
if (GET_SWZ(inst_if->U.I.SrcReg[0].Swizzle, 0) == RC_SWIZZLE_X) {
alu_chan = RC_ALURESULT_X;
} else {
alu_chan = RC_ALURESULT_W;
}
if (generic_if) {
struct rc_instruction * inst_mov =
rc_insert_new_instruction(c, inst_if->Prev);
inst_mov->U.I.Opcode = RC_OPCODE_MOV;
inst_mov->U.I.DstReg.WriteMask = 0;
inst_mov->U.I.DstReg.File = RC_FILE_NONE;
inst_mov->U.I.ALUResultCompare = RC_COMPARE_FUNC_NOTEQUAL;
inst_mov->U.I.WriteALUResult = alu_chan;
inst_mov->U.I.SrcReg[0] = inst_if->U.I.SrcReg[0];
if (alu_chan == RC_ALURESULT_X) {
inst_mov->U.I.SrcReg[0].Swizzle = combine_swizzles4(
inst_mov->U.I.SrcReg[0].Swizzle,
RC_SWIZZLE_X, RC_SWIZZLE_UNUSED,
RC_SWIZZLE_UNUSED, RC_SWIZZLE_UNUSED);
} else {
inst_mov->U.I.SrcReg[0].Swizzle = combine_swizzles4(
inst_mov->U.I.SrcReg[0].Swizzle,
RC_SWIZZLE_UNUSED, RC_SWIZZLE_UNUSED,
RC_SWIZZLE_UNUSED, RC_SWIZZLE_Z);
}
} else {
rc_compare_func compare_func = RC_COMPARE_FUNC_NEVER;
unsigned int reverse_srcs = 0;
unsigned int preserve_opcode = 0;
for (list_ptr = writer_list; list_ptr;
list_ptr = list_ptr->Next) {
writer = list_ptr->Item;
switch(writer->Inst->U.I.Opcode) {
case RC_OPCODE_SEQ:
compare_func = RC_COMPARE_FUNC_EQUAL;
break;
case RC_OPCODE_SNE:
compare_func = RC_COMPARE_FUNC_NOTEQUAL;
break;
case RC_OPCODE_SLE:
reverse_srcs = 1;
/* Fall through */
case RC_OPCODE_SGE:
compare_func = RC_COMPARE_FUNC_GEQUAL;
break;
case RC_OPCODE_SGT:
reverse_srcs = 1;
/* Fall through */
case RC_OPCODE_SLT:
compare_func = RC_COMPARE_FUNC_LESS;
break;
default:
compare_func = RC_COMPARE_FUNC_NOTEQUAL;
preserve_opcode = 1;
break;
}
if (!preserve_opcode) {
writer->Inst->U.I.Opcode = RC_OPCODE_SUB;
}
writer->Inst->U.I.DstReg.WriteMask = 0;
writer->Inst->U.I.DstReg.File = RC_FILE_NONE;
writer->Inst->U.I.WriteALUResult = alu_chan;
writer->Inst->U.I.ALUResultCompare = compare_func;
if (reverse_srcs) {
struct rc_src_register temp_src;
temp_src = writer->Inst->U.I.SrcReg[0];
writer->Inst->U.I.SrcReg[0] =
writer->Inst->U.I.SrcReg[1];
writer->Inst->U.I.SrcReg[1] = temp_src;
}
}
}
inst_if->U.I.SrcReg[0].File = RC_FILE_SPECIAL;
inst_if->U.I.SrcReg[0].Index = RC_SPECIAL_ALU_RESULT;
inst_if->U.I.SrcReg[0].Swizzle = RC_MAKE_SWIZZLE(
RC_SWIZZLE_X, RC_SWIZZLE_UNUSED,
RC_SWIZZLE_UNUSED, RC_SWIZZLE_UNUSED);
inst_if->U.I.SrcReg[0].Negate = 0;
return 1;
}
static int r500_swizzle_is_native(rc_opcode opcode, struct rc_src_register reg)
{
unsigned int relevant;
int i;
if (opcode == RC_OPCODE_TEX ||
opcode == RC_OPCODE_TXB ||
opcode == RC_OPCODE_TXP ||
opcode == RC_OPCODE_TXD ||
opcode == RC_OPCODE_TXL ||
opcode == RC_OPCODE_KIL) {
if (reg.Abs)
return 0;
if (opcode == RC_OPCODE_KIL && (reg.Swizzle != RC_SWIZZLE_XYZW || reg.Negate != RC_MASK_NONE))
return 0;
for(i = 0; i < 4; ++i) {
unsigned int swz = GET_SWZ(reg.Swizzle, i);
if (swz == RC_SWIZZLE_UNUSED) {
reg.Negate &= ~(1 << i);
continue;
}
if (swz >= 4)
return 0;
}
if (reg.Negate)
return 0;
return 1;
} else if (opcode == RC_OPCODE_DDX || opcode == RC_OPCODE_DDY) {
/* DDX/MDH and DDY/MDV explicitly ignore incoming swizzles;
* if it doesn't fit perfectly into a .xyzw case... */
if (reg.Swizzle == RC_SWIZZLE_XYZW && !reg.Abs && !reg.Negate)
return 1;
return 0;
} else if (reg.File == RC_FILE_INLINE) {
return 1;
} else {
/* ALU instructions support almost everything */
relevant = 0;
for(i = 0; i < 3; ++i) {
unsigned int swz = GET_SWZ(reg.Swizzle, i);
if (swz != RC_SWIZZLE_UNUSED && swz != RC_SWIZZLE_ZERO)
relevant |= 1 << i;
}
if ((reg.Negate & relevant) && ((reg.Negate & relevant) != relevant))
return 0;
return 1;
}
}
/**
* Split source register access.
*
* The only thing we *cannot* do in an ALU instruction is per-component
* negation.
*/
static void r500_swizzle_split(struct rc_src_register src, unsigned int usemask,
struct rc_swizzle_split * split)
{
unsigned int negatebase[2] = { 0, 0 };
int i;
for(i = 0; i < 4; ++i) {
unsigned int swz = GET_SWZ(src.Swizzle, i);
if (swz == RC_SWIZZLE_UNUSED || !GET_BIT(usemask, i))
continue;
negatebase[GET_BIT(src.Negate, i)] |= 1 << i;
}
split->NumPhases = 0;
for(i = 0; i <= 1; ++i) {
if (!negatebase[i])
continue;
split->Phase[split->NumPhases++] = negatebase[i];
}
}
struct rc_swizzle_caps r500_swizzle_caps = {
.IsNative = r500_swizzle_is_native,
.Split = r500_swizzle_split
};
static char *toswiz(int swiz_val) {
switch(swiz_val) {
case 0: return "R";
case 1: return "G";
case 2: return "B";
case 3: return "A";
case 4: return "0";
case 5: return "H";
case 6: return "1";
case 7: return "U";
}
return NULL;
}
static char *toop(int op_val)
{
char *str = NULL;
switch (op_val) {
case 0: str = "MAD"; break;
case 1: str = "DP3"; break;
case 2: str = "DP4"; break;
case 3: str = "D2A"; break;
case 4: str = "MIN"; break;
case 5: str = "MAX"; break;
case 6: str = "Reserved"; break;
case 7: str = "CND"; break;
case 8: str = "CMP"; break;
case 9: str = "FRC"; break;
case 10: str = "SOP"; break;
case 11: str = "MDH"; break;
case 12: str = "MDV"; break;
}
return str;
}
static char *to_alpha_op(int op_val)
{
char *str = NULL;
switch (op_val) {
case 0: str = "MAD"; break;
case 1: str = "DP"; break;
case 2: str = "MIN"; break;
case 3: str = "MAX"; break;
case 4: str = "Reserved"; break;
case 5: str = "CND"; break;
case 6: str = "CMP"; break;
case 7: str = "FRC"; break;
case 8: str = "EX2"; break;
case 9: str = "LN2"; break;
case 10: str = "RCP"; break;
case 11: str = "RSQ"; break;
case 12: str = "SIN"; break;
case 13: str = "COS"; break;
case 14: str = "MDH"; break;
case 15: str = "MDV"; break;
}
return str;
}
static char *to_mask(int val)
{
char *str = NULL;
switch(val) {
case 0: str = "NONE"; break;
case 1: str = "R"; break;
case 2: str = "G"; break;
case 3: str = "RG"; break;
case 4: str = "B"; break;
case 5: str = "RB"; break;
case 6: str = "GB"; break;
case 7: str = "RGB"; break;
case 8: str = "A"; break;
case 9: str = "AR"; break;
case 10: str = "AG"; break;
case 11: str = "ARG"; break;
case 12: str = "AB"; break;
case 13: str = "ARB"; break;
case 14: str = "AGB"; break;
case 15: str = "ARGB"; break;
}
return str;
}
static char *to_texop(int val)
{
switch(val) {
case 0: return "NOP";
case 1: return "LD";
case 2: return "TEXKILL";
case 3: return "PROJ";
case 4: return "LODBIAS";
case 5: return "LOD";
case 6: return "DXDY";
}
return NULL;
}
void r500FragmentProgramDump(struct radeon_compiler *c, void *user)
{
struct r300_fragment_program_compiler *compiler = (struct r300_fragment_program_compiler*)c;
struct r500_fragment_program_code *code = &compiler->code->code.r500;
int n, i;
uint32_t inst;
uint32_t inst0;
char *str = NULL;
fprintf(stderr, "R500 Fragment Program:\n--------\n");
for (n = 0; n < code->inst_end+1; n++) {
inst0 = inst = code->inst[n].inst0;
fprintf(stderr,"%d\t0:CMN_INST 0x%08x:", n, inst);
switch(inst & 0x3) {
case R500_INST_TYPE_ALU: str = "ALU"; break;
case R500_INST_TYPE_OUT: str = "OUT"; break;
case R500_INST_TYPE_FC: str = "FC"; break;
case R500_INST_TYPE_TEX: str = "TEX"; break;
};
fprintf(stderr,"%s %s %s %s %s ", str,
inst & R500_INST_TEX_SEM_WAIT ? "TEX_WAIT" : "",
inst & R500_INST_LAST ? "LAST" : "",
inst & R500_INST_NOP ? "NOP" : "",
inst & R500_INST_ALU_WAIT ? "ALU WAIT" : "");
fprintf(stderr,"wmask: %s omask: %s\n", to_mask((inst >> 11) & 0xf),
to_mask((inst >> 15) & 0xf));
switch(inst0 & 0x3) {
case R500_INST_TYPE_ALU:
case R500_INST_TYPE_OUT:
fprintf(stderr,"\t1:RGB_ADDR 0x%08x:", code->inst[n].inst1);
inst = code->inst[n].inst1;
fprintf(stderr,"Addr0: %d%c, Addr1: %d%c, Addr2: %d%c, srcp:%d\n",
inst & 0xff, (inst & (1<<8)) ? 'c' : 't',
(inst >> 10) & 0xff, (inst & (1<<18)) ? 'c' : 't',
(inst >> 20) & 0xff, (inst & (1<<28)) ? 'c' : 't',
(inst >> 30));
fprintf(stderr,"\t2:ALPHA_ADDR 0x%08x:", code->inst[n].inst2);
inst = code->inst[n].inst2;
fprintf(stderr,"Addr0: %d%c, Addr1: %d%c, Addr2: %d%c, srcp:%d\n",
inst & 0xff, (inst & (1<<8)) ? 'c' : 't',
(inst >> 10) & 0xff, (inst & (1<<18)) ? 'c' : 't',
(inst >> 20) & 0xff, (inst & (1<<28)) ? 'c' : 't',
(inst >> 30));
fprintf(stderr,"\t3 RGB_INST: 0x%08x:", code->inst[n].inst3);
inst = code->inst[n].inst3;
fprintf(stderr,"rgb_A_src:%d %s/%s/%s %d rgb_B_src:%d %s/%s/%s %d targ: %d\n",
(inst) & 0x3, toswiz((inst >> 2) & 0x7), toswiz((inst >> 5) & 0x7), toswiz((inst >> 8) & 0x7),
(inst >> 11) & 0x3,
(inst >> 13) & 0x3, toswiz((inst >> 15) & 0x7), toswiz((inst >> 18) & 0x7), toswiz((inst >> 21) & 0x7),
(inst >> 24) & 0x3, (inst >> 29) & 0x3);
fprintf(stderr,"\t4 ALPHA_INST:0x%08x:", code->inst[n].inst4);
inst = code->inst[n].inst4;
fprintf(stderr,"%s dest:%d%s alp_A_src:%d %s %d alp_B_src:%d %s %d targ %d w:%d\n", to_alpha_op(inst & 0xf),
(inst >> 4) & 0x7f, inst & (1<<11) ? "(rel)":"",
(inst >> 12) & 0x3, toswiz((inst >> 14) & 0x7), (inst >> 17) & 0x3,
(inst >> 19) & 0x3, toswiz((inst >> 21) & 0x7), (inst >> 24) & 0x3,
(inst >> 29) & 0x3,
(inst >> 31) & 0x1);
fprintf(stderr,"\t5 RGBA_INST: 0x%08x:", code->inst[n].inst5);
inst = code->inst[n].inst5;
fprintf(stderr,"%s dest:%d%s rgb_C_src:%d %s/%s/%s %d alp_C_src:%d %s %d\n", toop(inst & 0xf),
(inst >> 4) & 0x7f, inst & (1<<11) ? "(rel)":"",
(inst >> 12) & 0x3, toswiz((inst >> 14) & 0x7), toswiz((inst >> 17) & 0x7), toswiz((inst >> 20) & 0x7),
(inst >> 23) & 0x3,
(inst >> 25) & 0x3, toswiz((inst >> 27) & 0x7), (inst >> 30) & 0x3);
break;
case R500_INST_TYPE_FC:
fprintf(stderr, "\t2:FC_INST 0x%08x:", code->inst[n].inst2);
inst = code->inst[n].inst2;
/* JUMP_FUNC JUMP_ANY*/
fprintf(stderr, "0x%02x %1x ", inst >> 8 & 0xff,
(inst & R500_FC_JUMP_ANY) >> 5);
/* OP */
switch(inst & 0x7){
case R500_FC_OP_JUMP:
fprintf(stderr, "JUMP");
break;
case R500_FC_OP_LOOP:
fprintf(stderr, "LOOP");
break;
case R500_FC_OP_ENDLOOP:
fprintf(stderr, "ENDLOOP");
break;
case R500_FC_OP_REP:
fprintf(stderr, "REP");
break;
case R500_FC_OP_ENDREP:
fprintf(stderr, "ENDREP");
break;
case R500_FC_OP_BREAKLOOP:
fprintf(stderr, "BREAKLOOP");
break;
case R500_FC_OP_BREAKREP:
fprintf(stderr, "BREAKREP");
break;
case R500_FC_OP_CONTINUE:
fprintf(stderr, "CONTINUE");
break;
}
fprintf(stderr," ");
/* A_OP */
switch(inst & (0x3 << 6)){
case R500_FC_A_OP_NONE:
fprintf(stderr, "NONE");
break;
case R500_FC_A_OP_POP:
fprintf(stderr, "POP");
break;
case R500_FC_A_OP_PUSH:
fprintf(stderr, "PUSH");
break;
}
/* B_OP0 B_OP1 */
for(i=0; i<2; i++){
fprintf(stderr, " ");
switch(inst & (0x3 << (24 + (i * 2)))){
/* R500_FC_B_OP0_NONE
* R500_FC_B_OP1_NONE */
case 0:
fprintf(stderr, "NONE");
break;
case R500_FC_B_OP0_DECR:
case R500_FC_B_OP1_DECR:
fprintf(stderr, "DECR");
break;
case R500_FC_B_OP0_INCR:
case R500_FC_B_OP1_INCR:
fprintf(stderr, "INCR");
break;
}
}
/*POP_CNT B_ELSE */
fprintf(stderr, " %d %1x", (inst >> 16) & 0x1f, (inst & R500_FC_B_ELSE) >> 4);
inst = code->inst[n].inst3;
/* JUMP_ADDR */
fprintf(stderr, " %d", inst >> 16);
if(code->inst[n].inst2 & R500_FC_IGNORE_UNCOVERED){
fprintf(stderr, " IGN_UNC");
}
inst = code->inst[n].inst3;
fprintf(stderr, "\n\t3:FC_ADDR 0x%08x:", inst);
fprintf(stderr, "BOOL: 0x%02x, INT: 0x%02x, JUMP_ADDR: %d, JMP_GLBL: %1x\n",
inst & 0x1f, (inst >> 8) & 0x1f, (inst >> 16) & 0x1ff, inst >> 31);
break;
case R500_INST_TYPE_TEX:
inst = code->inst[n].inst1;
fprintf(stderr,"\t1:TEX_INST: 0x%08x: id: %d op:%s, %s, %s %s\n", inst, (inst >> 16) & 0xf,
to_texop((inst >> 22) & 0x7), (inst & (1<<25)) ? "ACQ" : "",
(inst & (1<<26)) ? "IGNUNC" : "", (inst & (1<<27)) ? "UNSCALED" : "SCALED");
inst = code->inst[n].inst2;
fprintf(stderr,"\t2:TEX_ADDR: 0x%08x: src: %d%s %s/%s/%s/%s dst: %d%s %s/%s/%s/%s\n", inst,
inst & 127, inst & (1<<7) ? "(rel)" : "",
toswiz((inst >> 8) & 0x3), toswiz((inst >> 10) & 0x3),
toswiz((inst >> 12) & 0x3), toswiz((inst >> 14) & 0x3),
(inst >> 16) & 127, inst & (1<<23) ? "(rel)" : "",
toswiz((inst >> 24) & 0x3), toswiz((inst >> 26) & 0x3),
toswiz((inst >> 28) & 0x3), toswiz((inst >> 30) & 0x3));
fprintf(stderr,"\t3:TEX_DXDY: 0x%08x\n", code->inst[n].inst3);
break;
}
fprintf(stderr,"\n");
}
}
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