%option noyywrap noinput nounput
%option 8bit reentrant bison-bridge
%option warn nodefault
%option bison-locations
%{
/*
* Copyright(c) 2019-2023 rev.ng Labs Srl. All Rights Reserved.
*
* This program 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 2 of the License, or
* (at your option) any later version.
*
* This program 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 this program; if not, see .
*/
#include
#include
#include "hex_regs.h"
#include "idef-parser.h"
#include "idef-parser.tab.h"
/* Keep track of scanner position for error message printout */
#define YY_USER_ACTION yylloc->first_column = yylloc->last_column; \
for (int i = 0; yytext[i] != '\0'; i++) { \
yylloc->last_column++; \
}
/* Global Error Counter */
int error_count;
%}
/* Definitions */
DIGIT [0-9]
LOWER_ID [a-z]
UPPER_ID [A-Z]
ID LOWER_ID|UPPER_ID
INST_NAME [A-Z]+[0-9]_([A-Za-z]|[0-9]|_)+
HEX_DIGIT [0-9a-fA-F]
REG_ID_32 e|s|d|t|u|v|x|y
REG_ID_64 ee|ss|dd|tt|uu|vv|xx|yy
SYS_ID_32 s|d
SYS_ID_64 ss|dd
PRED_ID d|s|t|u|v|e|x|x
IMM_ID r|s|S|u|U
VAR_ID [a-zA-Z_][a-zA-Z0-9_]*
SIGN_ID s|u
STRING_LIT \"(\\.|[^"\\])*\"
/* Tokens */
%%
[ \t\f\v]+ { /* Ignore whitespaces. */ }
[\n\r]+ { /* Ignore newlines. */ }
^#.*$ { /* Ignore linemarkers. */ }
{INST_NAME} { yylval->string = g_string_new(yytext);
return INAME; }
"fFLOAT" |
"fUNFLOAT" |
"fDOUBLE" |
"fUNDOUBLE" |
"0.0" |
"0x1.0p52" |
"0x1.0p-52" { return FAIL; }
"in" { return IN; }
"R"{REG_ID_32}"V" {
yylval->rvalue.type = REGISTER_ARG;
yylval->rvalue.reg.type = GENERAL_PURPOSE;
yylval->rvalue.reg.id = yytext[1];
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.is_dotnew = false;
yylval->rvalue.signedness = SIGNED;
return REG; }
"R"{REG_ID_64}"V" {
yylval->rvalue.type = REGISTER_ARG;
yylval->rvalue.reg.type = GENERAL_PURPOSE;
yylval->rvalue.reg.id = yytext[1];
yylval->rvalue.reg.bit_width = 64;
yylval->rvalue.bit_width = 64;
yylval->rvalue.is_dotnew = false;
yylval->rvalue.signedness = SIGNED;
return REG; }
"MuV" {
yylval->rvalue.type = REGISTER_ARG;
yylval->rvalue.reg.type = MODIFIER;
yylval->rvalue.reg.id = 'u';
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = SIGNED;
return REG; }
"C"{REG_ID_32}"V" {
yylval->rvalue.type = REGISTER_ARG;
yylval->rvalue.reg.type = CONTROL;
yylval->rvalue.reg.id = yytext[1];
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.is_dotnew = false;
yylval->rvalue.signedness = SIGNED;
return REG; }
"C"{REG_ID_64}"V" {
yylval->rvalue.type = REGISTER_ARG;
yylval->rvalue.reg.type = CONTROL;
yylval->rvalue.reg.id = yytext[1];
yylval->rvalue.reg.bit_width = 64;
yylval->rvalue.bit_width = 64;
yylval->rvalue.is_dotnew = false;
yylval->rvalue.signedness = SIGNED;
return REG; }
{IMM_ID}"iV" {
yylval->rvalue.type = IMMEDIATE;
yylval->rvalue.signedness = SIGNED;
yylval->rvalue.imm.type = VARIABLE;
yylval->rvalue.imm.id = yytext[0];
yylval->rvalue.bit_width = 32;
yylval->rvalue.is_dotnew = false;
return IMM; }
"P"{PRED_ID}"V" {
yylval->rvalue.type = PREDICATE;
yylval->rvalue.pred.id = yytext[1];
yylval->rvalue.bit_width = 32;
yylval->rvalue.is_dotnew = false;
yylval->rvalue.signedness = SIGNED;
return PRED; }
"P"{PRED_ID}"N" {
yylval->rvalue.type = PREDICATE;
yylval->rvalue.pred.id = yytext[1];
yylval->rvalue.bit_width = 32;
yylval->rvalue.is_dotnew = true;
yylval->rvalue.signedness = SIGNED;
return PRED; }
"+=" { return INC; }
"-=" { return DEC; }
"++" { return PLUSPLUS; }
"&=" { return ANDA; }
"|=" { return ORA; }
"^=" { return XORA; }
"<<" { return ASL; }
">>" { return ASR; }
">>>" { return LSR; }
"==" { return EQ; }
"!=" { return NEQ; }
"<=" { return LTE; }
">=" { return GTE; }
"&&" { return ANDL; }
"else" { return ELSE; }
"for" { return FOR; }
"fREAD_IREG" { return ICIRC; }
"if" { return IF; }
"fFRAME_SCRAMBLE" |
"fFRAME_UNSCRAMBLE" { return FSCR; }
"fFRAMECHECK" { return FCHK; }
"Constant_extended" { return CONSTEXT; }
"fCL1_"{DIGIT} { return LOCNT; }
"fbrev" { return BREV; }
"fSXTN" { return SXT; }
"fZXTN" { return ZXT; }
"fDF_MAX" |
"fSF_MAX" |
"fMAX" { return MAX; }
"fDF_MIN" |
"fSF_MIN" |
"fMIN" { return MIN; }
"fABS" { return ABS; }
"fRNDN" { return ROUND; }
"fCRND" { return CROUND; }
"fCRNDN" { return CROUND; }
"fPM_CIRI" { return CIRCADD; }
"fPM_CIRR" { return CIRCADD; }
"fCOUNTONES_"{DIGIT} { return COUNTONES; }
"fSATN" { yylval->sat.signedness = SIGNED;
return SAT; }
"fSATUN" { yylval->sat.signedness = UNSIGNED;
return SAT; }
"fCONSTLL" { yylval->cast.bit_width = 64;
yylval->cast.signedness = SIGNED;
return CAST; }
"fSE32_64" { yylval->cast.bit_width = 64;
yylval->cast.signedness = SIGNED;
return CAST; }
"fCAST4_4u" { yylval->cast.bit_width = 32;
yylval->cast.signedness = UNSIGNED;
return CAST; }
"fCAST4_8s" { yylval->cast.bit_width = 64;
yylval->cast.signedness = SIGNED;
return CAST; }
"fCAST4_8u" { return CAST4_8U; }
"fCAST4u" { yylval->cast.bit_width = 32;
yylval->cast.signedness = UNSIGNED;
return CAST; }
"fNEWREG" |
"fCAST4_4s" |
"fCAST4s" { yylval->cast.bit_width = 32;
yylval->cast.signedness = SIGNED;
return CAST; }
"fCAST8_8u" { yylval->cast.bit_width = 64;
yylval->cast.signedness = UNSIGNED;
return CAST; }
"fCAST8u" { yylval->cast.bit_width = 64;
yylval->cast.signedness = UNSIGNED;
return CAST; }
"fCAST8_8s" |
"fCAST8s" { yylval->cast.bit_width = 64;
yylval->cast.signedness = SIGNED;
return CAST; }
"fGETBIT" { yylval->extract.bit_width = 1;
yylval->extract.storage_bit_width = 1;
yylval->extract.signedness = UNSIGNED;
return EXTRACT; }
"fGETBYTE" { yylval->extract.bit_width = 8;
yylval->extract.storage_bit_width = 8;
yylval->extract.signedness = SIGNED;
return EXTRACT; }
"fGETUBYTE" { yylval->extract.bit_width = 8;
yylval->extract.storage_bit_width = 8;
yylval->extract.signedness = UNSIGNED;
return EXTRACT; }
"fGETHALF" { yylval->extract.bit_width = 16;
yylval->extract.storage_bit_width = 16;
yylval->extract.signedness = SIGNED;
return EXTRACT; }
"fGETUHALF" { yylval->extract.bit_width = 16;
yylval->extract.storage_bit_width = 16;
yylval->extract.signedness = UNSIGNED;
return EXTRACT; }
"fGETWORD" { yylval->extract.bit_width = 32;
yylval->extract.storage_bit_width = 64;
yylval->extract.signedness = SIGNED;
return EXTRACT; }
"fGETUWORD" { yylval->extract.bit_width = 32;
yylval->extract.storage_bit_width = 64;
yylval->extract.signedness = UNSIGNED;
return EXTRACT; }
"fEXTRACTU_RANGE" { return EXTRANGE; }
"fSETBIT" { yylval->cast.bit_width = 1;
yylval->cast.signedness = SIGNED;
return DEPOSIT; }
"fSETBYTE" { yylval->cast.bit_width = 8;
yylval->cast.signedness = SIGNED;
return DEPOSIT; }
"fSETHALF" { yylval->cast.bit_width = 16;
yylval->cast.signedness = SIGNED;
return SETHALF; }
"fSETWORD" { yylval->cast.bit_width = 32;
yylval->cast.signedness = SIGNED;
return DEPOSIT; }
"fINSERT_BITS" { return INSBITS; }
"fSETBITS" { return SETBITS; }
"fMPY16UU" { yylval->mpy.first_bit_width = 16;
yylval->mpy.second_bit_width = 16;
yylval->mpy.first_signedness = UNSIGNED;
yylval->mpy.second_signedness = UNSIGNED;
return MPY; }
"fMPY16SU" { yylval->mpy.first_bit_width = 16;
yylval->mpy.second_bit_width = 16;
yylval->mpy.first_signedness = SIGNED;
yylval->mpy.second_signedness = UNSIGNED;
return MPY; }
"fMPY16SS" { yylval->mpy.first_bit_width = 16;
yylval->mpy.second_bit_width = 16;
yylval->mpy.first_signedness = SIGNED;
yylval->mpy.second_signedness = SIGNED;
return MPY; }
"fMPY32UU" { yylval->mpy.first_bit_width = 32;
yylval->mpy.second_bit_width = 32;
yylval->mpy.first_signedness = UNSIGNED;
yylval->mpy.second_signedness = UNSIGNED;
return MPY; }
"fMPY32SU" { yylval->mpy.first_bit_width = 32;
yylval->mpy.second_bit_width = 32;
yylval->mpy.first_signedness = SIGNED;
yylval->mpy.second_signedness = UNSIGNED;
return MPY; }
"fSFMPY" |
"fMPY32SS" { yylval->mpy.first_bit_width = 32;
yylval->mpy.second_bit_width = 32;
yylval->mpy.first_signedness = SIGNED;
yylval->mpy.second_signedness = SIGNED;
return MPY; }
"fMPY3216SS" { yylval->mpy.first_bit_width = 32;
yylval->mpy.second_bit_width = 16;
yylval->mpy.first_signedness = SIGNED;
yylval->mpy.second_signedness = SIGNED;
return MPY; }
"fMPY3216SU" { yylval->mpy.first_bit_width = 32;
yylval->mpy.second_bit_width = 16;
yylval->mpy.first_signedness = SIGNED;
yylval->mpy.second_signedness = UNSIGNED;
return MPY; }
"fNEWREG_ST" |
"fIMMEXT" |
"fMUST_IMMEXT" |
"fPASS" |
"fECHO" { return IDENTITY; }
"(size8u_t)" { yylval->cast.bit_width = 64;
yylval->cast.signedness = UNSIGNED;
return CAST; }
"(unsigned int)" { yylval->cast.bit_width = 32;
yylval->cast.signedness = UNSIGNED;
return CAST; }
"fREAD_PC()" { return PC; }
"USR.LPCFG" { return LPCFG; }
"LOAD_CANCEL(EA)" { return LOAD_CANCEL; }
"STORE_CANCEL(EA)" { return STORE_CANCEL; }
"CANCEL" { return CANCEL; }
"N"{LOWER_ID}"N" { yylval->rvalue.type = REGISTER_ARG;
yylval->rvalue.reg.type = DOTNEW;
yylval->rvalue.reg.id = yytext[1];
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = UNSIGNED;
return REG; }
"fREAD_SP()" |
"SP" { yylval->rvalue.type = REGISTER;
yylval->rvalue.reg.type = GENERAL_PURPOSE;
yylval->rvalue.reg.id = HEX_REG_SP;
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = UNSIGNED;
return REG; }
"fREAD_FP()" |
"FP" { yylval->rvalue.type = REGISTER;
yylval->rvalue.reg.type = GENERAL_PURPOSE;
yylval->rvalue.reg.id = HEX_REG_FP;
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = UNSIGNED;
return REG; }
"fREAD_LR()" |
"LR" { yylval->rvalue.type = REGISTER;
yylval->rvalue.reg.type = GENERAL_PURPOSE;
yylval->rvalue.reg.id = HEX_REG_LR;
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = UNSIGNED;
return REG; }
"fREAD_GP()" |
"GP" { yylval->rvalue.type = REGISTER;
yylval->rvalue.reg.type = CONTROL;
yylval->rvalue.reg.id = HEX_REG_GP;
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = UNSIGNED;
return REG; }
"LC"[01] { yylval->rvalue.type = REGISTER;
yylval->rvalue.reg.type = CONTROL;
yylval->rvalue.reg.id = HEX_REG_LC0
+ (yytext[2] - '0') * 2;
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = UNSIGNED;
return REG; }
"SA"[01] { yylval->rvalue.type = REGISTER;
yylval->rvalue.reg.type = CONTROL;
yylval->rvalue.reg.id = HEX_REG_SA0
+ (yytext[2] - '0') * 2;
yylval->rvalue.reg.bit_width = 32;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = UNSIGNED;
return REG; }
"fREAD_P0()" { yylval->rvalue.type = PREDICATE;
yylval->rvalue.pred.id = '0';
yylval->rvalue.bit_width = 32;
return PRED; }
[pP]{DIGIT} { yylval->rvalue.type = PREDICATE;
yylval->rvalue.pred.id = yytext[1];
yylval->rvalue.bit_width = 32;
yylval->rvalue.is_dotnew = false;
return PRED; }
[pP]{DIGIT}[nN] { yylval->rvalue.type = PREDICATE;
yylval->rvalue.pred.id = yytext[1];
yylval->rvalue.bit_width = 32;
yylval->rvalue.is_dotnew = true;
return PRED; }
"fLSBNEW" { return LSBNEW; }
"N" { yylval->rvalue.type = IMMEDIATE;
yylval->rvalue.bit_width = 32;
yylval->rvalue.imm.type = VARIABLE;
yylval->rvalue.imm.id = 'N';
return IMM; }
"i" { yylval->rvalue.type = IMMEDIATE;
yylval->rvalue.bit_width = 32;
yylval->rvalue.signedness = SIGNED;
yylval->rvalue.imm.type = I;
return IMM; }
{SIGN_ID} { if (yytext[0] == 'u') {
yylval->signedness = UNSIGNED;
} else {
yylval->signedness = SIGNED;
}
return SIGN;
}
"0x"{HEX_DIGIT}+ { uint64_t value = strtoull(yytext, NULL, 0);
yylval->rvalue.type = IMMEDIATE;
yylval->rvalue.imm.type = VALUE;
yylval->rvalue.imm.value = value;
if (value <= INT_MAX) {
yylval->rvalue.bit_width = sizeof(int) * 8;
yylval->rvalue.signedness = SIGNED;
} else if (value <= UINT_MAX) {
yylval->rvalue.bit_width = sizeof(unsigned int) * 8;
yylval->rvalue.signedness = UNSIGNED;
} else if (value <= LONG_MAX) {
yylval->rvalue.bit_width = sizeof(long) * 8;
yylval->rvalue.signedness = SIGNED;
} else if (value <= ULONG_MAX) {
yylval->rvalue.bit_width = sizeof(unsigned long) * 8;
yylval->rvalue.signedness = UNSIGNED;
} else {
g_assert_not_reached();
}
return IMM; }
{DIGIT}+ { int64_t value = strtoll(yytext, NULL, 0);
yylval->rvalue.type = IMMEDIATE;
yylval->rvalue.imm.type = VALUE;
yylval->rvalue.imm.value = value;
if (value >= INT_MIN && value <= INT_MAX) {
yylval->rvalue.bit_width = sizeof(int) * 8;
yylval->rvalue.signedness = SIGNED;
} else if (value >= LONG_MIN && value <= LONG_MAX) {
yylval->rvalue.bit_width = sizeof(long) * 8;
yylval->rvalue.signedness = SIGNED;
} else {
g_assert_not_reached();
}
return IMM; }
"0x"{HEX_DIGIT}+"ULL" |
{DIGIT}+"ULL" { yylval->rvalue.type = IMMEDIATE;
yylval->rvalue.bit_width = 64;
yylval->rvalue.signedness = UNSIGNED;
yylval->rvalue.imm.type = VALUE;
yylval->rvalue.imm.value = strtoull(yytext, NULL, 0);
return IMM; }
"fLOAD" { return LOAD; }
"fSTORE" { return STORE; }
"fROTL" { return ROTL; }
"fCARRY_FROM_ADD" { return CARRY_FROM_ADD; }
"fADDSAT64" { return ADDSAT64; }
"size"[1248][us]"_t" { /* Handles "size_t" variants of int types */
const unsigned int bits_per_byte = 8;
const unsigned int bytes = yytext[4] - '0';
yylval->rvalue.bit_width = bits_per_byte * bytes;
if (yytext[5] == 'u') {
yylval->rvalue.signedness = UNSIGNED;
} else {
yylval->rvalue.signedness = SIGNED;
}
return TYPE_SIZE_T; }
"unsigned" { return TYPE_UNSIGNED; }
"long" { return TYPE_LONG; }
"int" { return TYPE_INT; }
"const" { /* Emit no token */ }
{VAR_ID} { /* Variable name, we adopt the C names convention */
yylval->rvalue.type = VARID;
yylval->rvalue.var.name = g_string_new(yytext);
/* Default to an unknown signedness and 0 width. */
yylval->rvalue.bit_width = 0;
yylval->rvalue.signedness = UNKNOWN_SIGNEDNESS;
return VAR; }
"fatal("{STRING_LIT}")" { /* Emit no token */ }
"fHINTJR(RsV)" { /* Emit no token */ }
. { return yytext[0]; }
%%