From patchwork Fri Dec 17 09:01:26 2021 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Anton Johansson X-Patchwork-Id: 12683941 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org Received: from lists.gnu.org (lists.gnu.org [209.51.188.17]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by smtp.lore.kernel.org (Postfix) with ESMTPS id 557EFC433EF for ; Fri, 17 Dec 2021 09:13:55 +0000 (UTC) Received: from localhost ([::1]:41144 helo=lists1p.gnu.org) by lists.gnu.org with esmtp (Exim 4.90_1) (envelope-from ) id 1my9JK-0004Ep-Do for qemu-devel@archiver.kernel.org; Fri, 17 Dec 2021 04:13:54 -0500 Received: from eggs.gnu.org ([209.51.188.92]:47762) by lists.gnu.org with esmtps (TLS1.2:ECDHE_RSA_AES_256_GCM_SHA384:256) (Exim 4.90_1) (envelope-from ) id 1my988-0001ud-1e for qemu-devel@nongnu.org; Fri, 17 Dec 2021 04:02:20 -0500 Received: from rev.ng ([5.9.113.41]:36653) by eggs.gnu.org with esmtps (TLS1.2:ECDHE_RSA_AES_256_GCM_SHA384:256) (Exim 4.90_1) (envelope-from ) id 1my97n-0002Ec-PQ for qemu-devel@nongnu.org; Fri, 17 Dec 2021 04:02:16 -0500 DKIM-Signature: v=1; a=rsa-sha256; q=dns/txt; c=relaxed/relaxed; d=rev.ng; s=dkim; h=Content-Transfer-Encoding:MIME-Version:References:In-Reply-To: Message-Id:Date:Subject:Cc:To:From:Sender:Reply-To:Content-Type:Content-ID: Content-Description:Resent-Date:Resent-From:Resent-Sender:Resent-To:Resent-Cc :Resent-Message-ID:List-Id:List-Help:List-Unsubscribe:List-Subscribe: List-Post:List-Owner:List-Archive; bh=PvuxS+UIJEaTfGWM+TJUlrJp4IOAHn+TxTAMFa5uEnQ=; b=ftOaAleSumA1WdqB56gs12DrSg dLyPmhYwlUmIDX492D1UbBOfqX/muk4p+9nJ6M9ObqilAn5D6uHrj9Huex7ikN6cBmnvnJmzKW+cy I+I1ee+mruk7sdEdL9w3OWwY+G8CnMJ8s2wVe6qtgeUP8BXFB/GI3Cn7USbWrvcpFteM=; To: qemu-devel@nongnu.org Cc: ale@rev.ng, tsimpson@quicinc.com, bcain@quicinc.com, babush@rev.ng, nizzo@rev.ng, richard.henderson@linaro.org Subject: [PATCH v7 10/13] target/hexagon: import parser for idef-parser Date: Fri, 17 Dec 2021 10:01:26 +0100 Message-Id: <20211217090129.23242-11-anjo@rev.ng> In-Reply-To: <20211217090129.23242-1-anjo@rev.ng> References: <20211217090129.23242-1-anjo@rev.ng> MIME-Version: 1.0 Received-SPF: pass client-ip=5.9.113.41; envelope-from=anjo@rev.ng; helo=rev.ng X-Spam_score_int: -20 X-Spam_score: -2.1 X-Spam_bar: -- X-Spam_report: (-2.1 / 5.0 requ) BAYES_00=-1.9, DKIM_SIGNED=0.1, DKIM_VALID=-0.1, DKIM_VALID_AU=-0.1, DKIM_VALID_EF=-0.1, SPF_HELO_PASS=-0.001, SPF_PASS=-0.001 autolearn=ham autolearn_force=no X-Spam_action: no action X-BeenThere: qemu-devel@nongnu.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Errors-To: qemu-devel-bounces+qemu-devel=archiver.kernel.org@nongnu.org Sender: "Qemu-devel" Reply-to: Anton Johansson X-Patchwork-Original-From: Anton Johansson via From: Anton Johansson Signed-off-by: Alessandro Di Federico Signed-off-by: Paolo Montesel Signed-off-by: Anton Johansson --- target/hexagon/idef-parser/idef-parser.y | 1064 ++++++++ target/hexagon/idef-parser/parser-helpers.c | 2548 +++++++++++++++++++ target/hexagon/idef-parser/parser-helpers.h | 379 +++ target/hexagon/meson.build | 27 +- 4 files changed, 4017 insertions(+), 1 deletion(-) create mode 100644 target/hexagon/idef-parser/idef-parser.y create mode 100644 target/hexagon/idef-parser/parser-helpers.c create mode 100644 target/hexagon/idef-parser/parser-helpers.h diff --git a/target/hexagon/idef-parser/idef-parser.y b/target/hexagon/idef-parser/idef-parser.y new file mode 100644 index 0000000000..5c3ab3bd07 --- /dev/null +++ b/target/hexagon/idef-parser/idef-parser.y @@ -0,0 +1,1064 @@ +%{ +/* + * Copyright(c) 2019-2021 rev.ng Labs Srl. All Rights Reserved. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; either + * version 2 of the License, or (at your option) any later version. + * + * This library 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 + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, see . + */ + +#include "idef-parser.h" +#include "parser-helpers.h" +#include "idef-parser.tab.h" +#include "idef-parser.yy.h" + +/* Uncomment this to disable yyasserts */ +/* #define NDEBUG */ + +#define ERR_LINE_CONTEXT 40 + +%} + +%lex-param {void *scanner} +%parse-param {void *scanner} +%parse-param {Context *c} + +%define parse.error verbose +%define parse.lac full +%define api.pure full + +%locations + +%union { + GString *string; + HexValue rvalue; + HexSat sat; + HexCast cast; + HexExtract extract; + HexMpy mpy; + HexSignedness signedness; + int index; +} + +/* Tokens */ +%start input + +%expect 1 + +%token IN INAME VAR +%token ABS CROUND ROUND CIRCADD COUNTONES INC DEC ANDA ORA XORA PLUSPLUS ASL +%token ASR LSR EQ NEQ LTE GTE MIN MAX ANDL FOR ICIRC IF MUN FSCR FCHK SXT +%token ZXT CONSTEXT LOCNT BREV SIGN LOAD STORE PC NPC LPCFG +%token CANCEL IDENTITY PART1 BREV_4 BREV_8 ROTL INSBITS SETBITS EXTBITS EXTRANGE +%token CAST4_8U SETOVF FAIL CARRY_FROM_ADD ADDSAT64 LSBNEW +%token TYPE_SIZE_T TYPE_INT TYPE_SIGNED TYPE_UNSIGNED TYPE_LONG + +%token REG IMM PRED +%token ELSE +%token MPY +%token SAT +%token CAST DEPOSIT SETHALF +%token EXTRACT +%type INAME +%type rvalue lvalue VAR assign_statement var var_decl var_type +%type FAIL +%type TYPE_SIGNED TYPE_UNSIGNED TYPE_INT TYPE_LONG TYPE_SIZE_T +%type if_stmt IF +%type SIGN + +/* Operator Precedences */ +%left MIN MAX +%left '(' +%left ',' +%left '=' +%right CIRCADD +%right INC DEC ANDA ORA XORA +%left '?' ':' +%left ANDL +%left '|' +%left '^' ANDOR +%left '&' +%left EQ NEQ +%left '<' '>' LTE GTE +%left ASL ASR LSR +%right ABS +%left '-' '+' +%left '*' '/' '%' MPY +%right '~' '!' +%left '[' +%right CAST +%right LOCNT BREV + +/* Bison Grammar */ +%% + +/* Input file containing the description of each hexagon instruction */ +input : instructions + { + YYACCEPT; + } + ; + +instructions : instruction instructions + | %empty + ; + +instruction : INAME + { + gen_inst(c, $1); + } + arguments + { + EMIT_SIG(c, ")"); + EMIT_HEAD(c, "{\n"); + + /* + * The effective address EA is the only variable passed to + * function which needs to be "created". + */ + if (c->inst.EA) { + gen_varid_allocate(c, &@1, c->inst.EA, 32, SIGNED); + } + } + code + { + gen_inst_code(c, &@1); + } + | error /* Recover gracefully after instruction compilation error */ + { + free_instruction(c); + } + ; + +arguments : '(' ')' + | '(' argument_list ')'; + +argument_list : argument_decl ',' argument_list + | argument_decl + ; + +var : VAR + { + track_string(c, $1.var.name); + $$ = $1; + } + ; + +/* + * Here the integer types are defined from valid combinations of + * "signed", "unsigned", "int", and "long" tokens. The "signed" + * and "unsigned" tokens are here assumed to always be placed + * first in the type declaration, which is not the case in + * normal C. Similarly, "int" is assumed to be placed in the type. + */ +type_int : TYPE_INT + | TYPE_SIGNED + | TYPE_SIGNED TYPE_INT; +type_uint : TYPE_UNSIGNED + | TYPE_UNSIGNED TYPE_INT; +type_long : TYPE_LONG + | TYPE_LONG TYPE_INT + | TYPE_SIGNED TYPE_LONG + | TYPE_SIGNED TYPE_LONG TYPE_INT; +type_ulong : TYPE_UNSIGNED TYPE_LONG + | TYPE_UNSIGNED TYPE_LONG TYPE_INT; +type_longlong : TYPE_LONG TYPE_LONG + | TYPE_LONG TYPE_LONG TYPE_INT + | TYPE_SIGNED TYPE_LONG TYPE_LONG + | TYPE_SIGNED TYPE_LONG TYPE_LONG TYPE_INT; +type_ulonglong : TYPE_UNSIGNED TYPE_LONG TYPE_LONG + | TYPE_UNSIGNED TYPE_LONG TYPE_LONG TYPE_INT; + +/* + * Here the various valid int types defined above specify + * their `signedness` and `bit_width`. The LP64 convention + * is assumed where longs are 64-bit, long longs are then + * assumed to also be 64-bit.abvove + */ +var_type : TYPE_SIZE_T + { + yyassert(c, &@1, $1.bit_width <= 64, + "Variables with size > 64-bit are not supported!"); + $$ = $1; + } + | type_int + { + $$.signedness = SIGNED; + $$.bit_width = 32; + } + | type_uint + { + $$.signedness = UNSIGNED; + $$.bit_width = 32; + } + | type_long + { + $$.signedness = SIGNED; + $$.bit_width = 64; + } + | type_ulong + { + $$.signedness = UNSIGNED; + $$.bit_width = 64; + } + | type_longlong + { + $$.signedness = SIGNED; + $$.bit_width = 64; + } + | type_ulonglong + { + $$.signedness = UNSIGNED; + $$.bit_width = 64; + } + ; + +/* Rule to capture declarations of VARs */ +var_decl : var_type IMM + { + /* + * Rule to capture "int i;" declarations since "i" is special + * and assumed to be always be IMM. Moreover, "i" is only + * assumed to be used in for-loops. + * + * Therefore we want to NOP these declarations. + */ + yyassert(c, &@2, $2.imm.type == I, + "Variable declaration with immedaties only allowed" + " for the loop induction variable \"i\""); + $$ = $2; + } + | var_type var + { + /* + * Allocate new variable, this checks that it hasn't aldready + * been declared. + */ + gen_varid_allocate(c, &@1, &$2, $1.bit_width, $1.signedness); + /* Copy var for variable name */ + $$ = $2; + /* Copy type info from var_type */ + $$.signedness = $1.signedness; + $$.bit_width = $1.bit_width; + } + ; + +/* Return the modified registers list */ +code : '{' statements '}' + { + c->inst.code_begin = c->input_buffer + @2.first_column - 1; + c->inst.code_end = c->input_buffer + @2.last_column - 1; + } + | '{' + { + /* Nop */ + } + '}' + ; + +argument_decl : REG + { + emit_arg(c, &@1, &$1); + /* Enqueue register into initialization list */ + g_array_append_val(c->inst.init_list, $1); + } + | PRED + { + emit_arg(c, &@1, &$1); + /* Enqueue predicate into initialization list */ + g_array_append_val(c->inst.init_list, $1); + } + | IN REG + { + emit_arg(c, &@2, &$2); + } + | IN PRED + { + emit_arg(c, &@2, &$2); + } + | IMM + { + EMIT_SIG(c, ", int %ciV", $1.imm.id); + } + | var + { + yyassert(c, &@1, !strcmp($1.var.name->str, "EA"), + "Unknown argument variable!"); + /* The instruction take EA, so set it */ + c->inst.EA = &$1; + } + ; + +code_block : '{' statements '}' + | '{' '}' + ; + +/* A list of one or more statements */ +statements : statements statement + | statement + ; + +/* Statements can be assignment (rvalue ';'), control or memory statements */ +statement : control_statement + | var_decl ';' + | rvalue ';' + { + gen_rvalue_free(c, &@1, &$1); + } + | code_block + | ';' + ; + +assign_statement : lvalue '=' rvalue + { + @1.last_column = @3.last_column; + gen_assign(c, &@1, &$1, &$3); + $$ = $1; + } + | var_decl '=' rvalue + { + @1.last_column = @3.last_column; + gen_assign(c, &@1, &$1, &$3); + $$ = $1; + } + | lvalue INC rvalue + { + @1.last_column = @3.last_column; + HexValue tmp = gen_bin_op(c, &@1, ADD_OP, &$1, &$3); + gen_assign(c, &@1, &$1, &tmp); + $$ = $1; + } + | lvalue DEC rvalue + { + @1.last_column = @3.last_column; + HexValue tmp = gen_bin_op(c, &@1, SUB_OP, &$1, &$3); + gen_assign(c, &@1, &$1, &tmp); + $$ = $1; + } + | lvalue ANDA rvalue + { + @1.last_column = @3.last_column; + HexValue tmp = gen_bin_op(c, &@1, ANDB_OP, &$1, &$3); + gen_assign(c, &@1, &$1, &tmp); + $$ = $1; + } + | lvalue ORA rvalue + { + @1.last_column = @3.last_column; + HexValue tmp = gen_bin_op(c, &@1, ORB_OP, &$1, &$3); + gen_assign(c, &@1, &$1, &tmp); + $$ = $1; + } + | lvalue XORA rvalue + { + @1.last_column = @3.last_column; + HexValue tmp = gen_bin_op(c, &@1, XORB_OP, &$1, &$3); + gen_assign(c, &@1, &$1, &tmp); + $$ = $1; + } + | PRED '=' rvalue + { + @1.last_column = @3.last_column; + gen_pred_assign(c, &@1, &$1, &$3); + } + | IMM '=' rvalue + { + @1.last_column = @3.last_column; + yyassert(c, &@1, $3.type == IMMEDIATE, + "Cannot assign non-immediate to immediate!"); + yyassert(c, &@1, $1.imm.type == VARIABLE, + "Cannot assign to non-variable!"); + /* Assign to the function argument */ + OUT(c, &@1, &$1, " = ", &$3, ";\n"); + $$ = $1; + } + | PC '=' rvalue + { + @1.last_column = @3.last_column; + yyassert(c, &@1, c->ternary->len == 0, + "Assignment side-effect not modeled!"); + $3 = gen_rvalue_truncate(c, &@1, &$3); + $3 = rvalue_materialize(c, &@1, &$3); + OUT(c, &@1, "gen_write_new_pc(", &$3, ");\n"); + gen_rvalue_free(c, &@1, &$3); /* Free temporary value */ + } + | LOAD '(' IMM ',' IMM ',' SIGN ',' var ',' lvalue ')' + { + @1.last_column = @12.last_column; + yyassert(c, &@1, c->ternary->len == 0, + "Assignment side-effect not modeled!"); + yyassert(c, &@1, $3.imm.value == 1, + "LOAD of arrays not supported!"); + gen_load(c, &@1, &$5, $7, &$9, &$11); + } + | STORE '(' IMM ',' IMM ',' var ',' rvalue ')' + /* Store primitive */ + { + @1.last_column = @10.last_column; + yyassert(c, &@1, c->ternary->len == 0, + "Assignment side-effect not modeled!"); + yyassert(c, &@1, $3.imm.value == 1, + "STORE of arrays not supported!"); + gen_store(c, &@1, &$5, &$7, &$9); + } + | LPCFG '=' rvalue + { + @1.last_column = @3.last_column; + yyassert(c, &@1, c->ternary->len == 0, + "Assignment side-effect not modeled!"); + $3 = gen_rvalue_truncate(c, &@1, &$3); + $3 = rvalue_materialize(c, &@1, &$3); + OUT(c, &@1, "SET_USR_FIELD(USR_LPCFG, ", &$3, ");\n"); + gen_rvalue_free(c, &@1, &$3); + } + | DEPOSIT '(' rvalue ',' rvalue ',' rvalue ')' + { + @1.last_column = @8.last_column; + yyassert(c, &@1, c->ternary->len == 0, + "Assignment side-effect not modeled!"); + gen_deposit_op(c, &@1, &$5, &$7, &$3, &$1); + } + | SETHALF '(' rvalue ',' lvalue ',' rvalue ')' + { + @1.last_column = @8.last_column; + yyassert(c, &@1, c->ternary->len == 0, + "Assignment side-effect not modeled!"); + gen_sethalf(c, &@1, &$1, &$3, &$5, &$7); + } + | SETBITS '(' rvalue ',' rvalue ',' rvalue ',' rvalue ')' + { + @1.last_column = @10.last_column; + yyassert(c, &@1, c->ternary->len == 0, + "Assignment side-effect not modeled!"); + gen_setbits(c, &@1, &$3, &$5, &$7, &$9); + } + | INSBITS '(' lvalue ',' rvalue ',' rvalue ',' rvalue ')' + { + @1.last_column = @10.last_column; + yyassert(c, &@1, c->ternary->len == 0, + "Assignment side-effect not modeled!"); + gen_rdeposit_op(c, &@1, &$3, &$9, &$7, &$5); + } + | IDENTITY '(' rvalue ')' + { + @1.last_column = @4.last_column; + $$ = $3; + } + ; + +control_statement : frame_check + | cancel_statement + | if_statement + | for_statement + | fpart1_statement + ; + +frame_check : FCHK '(' rvalue ',' rvalue ')' ';' + { + gen_rvalue_free(c, &@1, &$3); + gen_rvalue_free(c, &@1, &$5); + } + ; + +cancel_statement : CANCEL + { + OUT(c, &@1, "gen_cancel(insn->slot);\n"); + } + ; + +if_statement : if_stmt + { + /* Fix else label */ + OUT(c, &@1, "gen_set_label(if_label_", &$1, ");\n"); + } + | if_stmt ELSE + { + @1.last_column = @2.last_column; + $2 = gen_if_else(c, &@1, $1); + } + statement + { + OUT(c, &@1, "gen_set_label(if_label_", &$2, ");\n"); + } + ; + +for_statement : FOR '(' IMM '=' IMM ';' IMM '<' IMM ';' IMM PLUSPLUS ')' + { + yyassert(c, &@3, + $3.imm.type == I && + $7.imm.type == I && + $11.imm.type == I, + "Loop induction variable must be \"i\""); + @1.last_column = @13.last_column; + OUT(c, &@1, "for (int ", &$3, " = ", &$5, "; ", + &$7, " < ", &$9); + OUT(c, &@1, "; ", &$11, "++) {\n"); + } + code_block + { + OUT(c, &@1, "}\n"); + } + | FOR '(' IMM '=' IMM ';' IMM '<' IMM ';' IMM INC IMM ')' + { + yyassert(c, &@3, + $3.imm.type == I && + $7.imm.type == I && + $11.imm.type == I, + "Loop induction variable must be \"i\""); + @1.last_column = @14.last_column; + OUT(c, &@1, "for (int ", &$3, " = ", &$5, "; ", + &$7, " < ", &$9); + OUT(c, &@1, "; ", &$11, " += ", &$13, ") {\n"); + } + code_block + { + OUT(c, &@1, "}\n"); + } + ; + +fpart1_statement : PART1 + { + OUT(c, &@1, "if (insn->part1) {\n"); + } + '(' statements ')' + { + @1.last_column = @3.last_column; + OUT(c, &@1, "return; }\n"); + } + ; + +if_stmt : IF '(' rvalue ')' + { + @1.last_column = @3.last_column; + $1 = gen_if_cond(c, &@1, &$3); + } + statement + { + $$ = $1; + } + ; + +rvalue : FAIL + { + yyassert(c, &@1, false, "Encountered a FAIL token as rvalue.\n"); + } + | assign_statement + | REG + { + if ($1.type == REGISTER_ARG) { + $$ = gen_read_reg(c, &@1, &$1); + } else { + $$ = $1; + } + } + | IMM + { + $$ = $1; + } + | PRED + { + $$ = gen_rvalue_pred(c, &@1, &$1); + } + | PC + { + /* Read PC from the CR */ + HexValue rvalue; + memset(&rvalue, 0, sizeof(HexValue)); + rvalue.type = IMMEDIATE; + rvalue.imm.type = IMM_PC; + rvalue.bit_width = 32; + rvalue.signedness = UNSIGNED; + $$ = rvalue; + } + | NPC + { + /* + * NPC is only read from CALLs, so we can hardcode it + * at translation time + */ + HexValue rvalue; + memset(&rvalue, 0, sizeof(HexValue)); + rvalue.type = IMMEDIATE; + rvalue.imm.type = IMM_NPC; + rvalue.bit_width = 32; + rvalue.signedness = UNSIGNED; + $$ = rvalue; + } + | CONSTEXT + { + HexValue rvalue; + memset(&rvalue, 0, sizeof(HexValue)); + rvalue.type = IMMEDIATE; + rvalue.imm.type = IMM_CONSTEXT; + rvalue.signedness = UNSIGNED; + rvalue.is_dotnew = false; + rvalue.is_manual = false; + $$ = rvalue; + } + | var + { + $$ = gen_rvalue_var(c, &@1, &$1); + } + | MPY '(' rvalue ',' rvalue ')' + { + @1.last_column = @6.last_column; + $$ = gen_rvalue_mpy(c, &@1, &$1, &$3, &$5); + } + | rvalue '+' rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, ADD_OP, &$1, &$3); + } + | rvalue '-' rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, SUB_OP, &$1, &$3); + } + | rvalue '*' rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, MUL_OP, &$1, &$3); + } + | rvalue '%' rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, MOD_OP, &$1, &$3); + } + | rvalue ASL rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, ASL_OP, &$1, &$3); + } + | rvalue ASR rvalue + { + @1.last_column = @3.last_column; + assert_signedness(c, &@1, $1.signedness); + if ($1.signedness == UNSIGNED) { + $$ = gen_bin_op(c, &@1, LSR_OP, &$1, &$3); + } else if ($1.signedness == SIGNED) { + $$ = gen_bin_op(c, &@1, ASR_OP, &$1, &$3); + } + } + | rvalue LSR rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, LSR_OP, &$1, &$3); + } + | rvalue '&' rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, ANDB_OP, &$1, &$3); + } + | rvalue '|' rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, ORB_OP, &$1, &$3); + } + | rvalue '^' rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, XORB_OP, &$1, &$3); + } + | rvalue ANDL rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, ANDL_OP, &$1, &$3); + } + | MIN '(' rvalue ',' rvalue ')' + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, MINI_OP, &$3, &$5); + } + | MAX '(' rvalue ',' rvalue ')' + { + @1.last_column = @3.last_column; + $$ = gen_bin_op(c, &@1, MAXI_OP, &$3, &$5); + } + | '~' rvalue + { + @1.last_column = @2.last_column; + $$ = gen_rvalue_not(c, &@1, &$2); + } + | '!' rvalue + { + @1.last_column = @2.last_column; + $$ = gen_rvalue_notl(c, &@1, &$2); + } + | SAT '(' IMM ',' rvalue ')' + { + @1.last_column = @6.last_column; + $$ = gen_rvalue_sat(c, &@1, &$1, &$3, &$5); + } + | CAST rvalue + { + @1.last_column = @2.last_column; + /* Assign target signedness */ + $2.signedness = $1.signedness; + $$ = gen_cast_op(c, &@1, &$2, $1.bit_width, $1.signedness); + } + | rvalue EQ rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_cmp(c, &@1, TCG_COND_EQ, &$1, &$3); + } + | rvalue NEQ rvalue + { + @1.last_column = @3.last_column; + $$ = gen_bin_cmp(c, &@1, TCG_COND_NE, &$1, &$3); + } + | rvalue '<' rvalue + { + @1.last_column = @3.last_column; + + assert_signedness(c, &@1, $1.signedness); + assert_signedness(c, &@1, $3.signedness); + if ($1.signedness == UNSIGNED || $3.signedness == UNSIGNED) { + $$ = gen_bin_cmp(c, &@1, TCG_COND_LTU, &$1, &$3); + } else { + $$ = gen_bin_cmp(c, &@1, TCG_COND_LT, &$1, &$3); + } + } + | rvalue '>' rvalue + { + @1.last_column = @3.last_column; + + assert_signedness(c, &@1, $1.signedness); + assert_signedness(c, &@1, $3.signedness); + if ($1.signedness == UNSIGNED || $3.signedness == UNSIGNED) { + $$ = gen_bin_cmp(c, &@1, TCG_COND_GTU, &$1, &$3); + } else { + $$ = gen_bin_cmp(c, &@1, TCG_COND_GT, &$1, &$3); + } + } + | rvalue LTE rvalue + { + @1.last_column = @3.last_column; + + assert_signedness(c, &@1, $1.signedness); + assert_signedness(c, &@1, $3.signedness); + if ($1.signedness == UNSIGNED || $3.signedness == UNSIGNED) { + $$ = gen_bin_cmp(c, &@1, TCG_COND_LEU, &$1, &$3); + } else { + $$ = gen_bin_cmp(c, &@1, TCG_COND_LE, &$1, &$3); + } + } + | rvalue GTE rvalue + { + @1.last_column = @3.last_column; + + assert_signedness(c, &@1, $1.signedness); + assert_signedness(c, &@1, $3.signedness); + if ($1.signedness == UNSIGNED || $3.signedness == UNSIGNED) { + $$ = gen_bin_cmp(c, &@1, TCG_COND_GEU, &$1, &$3); + } else { + $$ = gen_bin_cmp(c, &@1, TCG_COND_GE, &$1, &$3); + } + } + | rvalue '?' + { + $1.is_manual = true; + Ternary t = { 0 }; + t.state = IN_LEFT; + t.cond = $1; + g_array_append_val(c->ternary, t); + } + rvalue ':' + { + Ternary *t = &g_array_index(c->ternary, Ternary, + c->ternary->len - 1); + t->state = IN_RIGHT; + } + rvalue + { + @1.last_column = @5.last_column; + $$ = gen_rvalue_ternary(c, &@1, &$1, &$4, &$7); + } + | FSCR '(' rvalue ')' + { + @1.last_column = @4.last_column; + $$ = gen_rvalue_fscr(c, &@1, &$3); + } + | SXT '(' rvalue ',' IMM ',' rvalue ')' + { + @1.last_column = @8.last_column; + yyassert(c, &@1, $5.type == IMMEDIATE && + $5.imm.type == VALUE, + "SXT expects immediate values\n"); + $$ = gen_extend_op(c, &@1, &$3, $5.imm.value, &$7, SIGNED); + } + | ZXT '(' rvalue ',' IMM ',' rvalue ')' + { + @1.last_column = @8.last_column; + yyassert(c, &@1, $5.type == IMMEDIATE && + $5.imm.type == VALUE, + "ZXT expects immediate values\n"); + $$ = gen_extend_op(c, &@1, &$3, $5.imm.value, &$7, UNSIGNED); + } + | '(' rvalue ')' + { + $$ = $2; + } + | ABS rvalue + { + @1.last_column = @2.last_column; + $$ = gen_rvalue_abs(c, &@1, &$2); + } + | CROUND '(' rvalue ',' rvalue ')' + { + @1.last_column = @6.last_column; + $$ = gen_convround_n(c, &@1, &$3, &$5); + } + | CROUND '(' rvalue ')' + { + @1.last_column = @4.last_column; + $$ = gen_convround(c, &@1, &$3); + } + | ROUND '(' rvalue ',' rvalue ')' + { + @1.last_column = @6.last_column; + $$ = gen_round(c, &@1, &$3, &$5); + } + | '-' rvalue + { + @1.last_column = @2.last_column; + $$ = gen_rvalue_neg(c, &@1, &$2); + } + | ICIRC '(' rvalue ')' ASL IMM + { + @1.last_column = @6.last_column; + $$ = gen_tmp(c, &@1, 32, UNSIGNED); + OUT(c, &@1, "gen_read_ireg(", &$$, ", ", &$3, ", ", &$6, ");\n"); + gen_rvalue_free(c, &@1, &$3); + } + | CIRCADD '(' rvalue ',' rvalue ',' rvalue ')' + { + @1.last_column = @8.last_column; + gen_circ_op(c, &@1, &$3, &$5, &$7); + } + | LOCNT '(' rvalue ')' + { + @1.last_column = @4.last_column; + /* Leading ones count */ + $$ = gen_locnt_op(c, &@1, &$3); + } + | COUNTONES '(' rvalue ')' + { + @1.last_column = @4.last_column; + /* Ones count */ + $$ = gen_ctpop_op(c, &@1, &$3); + } + | LPCFG + { + $$ = gen_tmp_value(c, &@1, "0", 32, UNSIGNED); + OUT(c, &@1, "GET_USR_FIELD(USR_LPCFG, ", &$$, ");\n"); + } + | EXTRACT '(' rvalue ',' rvalue ')' + { + @1.last_column = @6.last_column; + $$ = gen_extract_op(c, &@1, &$5, &$3, &$1); + } + | EXTBITS '(' rvalue ',' rvalue ',' rvalue ')' + { + @1.last_column = @8.last_column; + yyassert(c, &@1, $5.type == IMMEDIATE && + $5.imm.type == VALUE && + $7.type == IMMEDIATE && + $7.imm.type == VALUE, + "Range extract needs immediate values!\n"); + $$ = gen_rextract_op(c, &@1, &$3, $7.imm.value, $5.imm.value); + } + | EXTRANGE '(' rvalue ',' rvalue ',' rvalue ')' + { + @1.last_column = @8.last_column; + yyassert(c, &@1, $5.type == IMMEDIATE && + $5.imm.type == VALUE && + $7.type == IMMEDIATE && + $7.imm.type == VALUE, + "Range extract needs immediate values!\n"); + $$ = gen_rextract_op(c, + &@1, + &$3, + $7.imm.value, + $5.imm.value - $7.imm.value + 1); + } + | CAST4_8U '(' rvalue ')' + { + @1.last_column = @4.last_column; + $$ = gen_rvalue_truncate(c, &@1, &$3); + $$.signedness = UNSIGNED; + $$ = rvalue_materialize(c, &@1, &$$); + $$ = gen_rvalue_extend(c, &@1, &$$); + } + | BREV '(' rvalue ')' + { + @1.last_column = @4.last_column; + $$ = gen_rvalue_brev(c, &@1, &$3); + } + | BREV_4 '(' rvalue ')' + { + @1.last_column = @4.last_column; + $$ = gen_fbrev_4(c, &@1, &$3); + } + | BREV_8 '(' rvalue ')' + { + @1.last_column = @4.last_column; + $$ = gen_fbrev_8(c, &@1, &$3); + } + | ROTL '(' rvalue ',' rvalue ')' + { + @1.last_column = @6.last_column; + $$ = gen_rotl(c, &@1, &$3, &$5); + } + | SETOVF '(' ')' + { + @1.last_column = @3.last_column; + HexValue ovfl = gen_imm_value(c, &@1, 1, 32, UNSIGNED); + gen_set_overflow(c, &@1, &ovfl); + } + | SETOVF '(' rvalue ')' + { + /* Convenience fSET_OVERFLOW with pass-through */ + @1.last_column = @3.last_column; + HexValue ovfl = gen_imm_value(c, &@1, 1, 32, UNSIGNED); + gen_set_overflow(c, &@1, &ovfl); + $$ = $3; + } + | ADDSAT64 '(' rvalue ',' rvalue ',' rvalue ')' + { + @1.last_column = @8.last_column; + gen_addsat64(c, &@1, &$3, &$5, &$7); + } + | CARRY_FROM_ADD '(' rvalue ',' rvalue ',' rvalue ')' + { + @1.last_column = @8.last_column; + $$ = gen_carry_from_add(c, &@1, &$3, &$5, &$7); + } + | LSBNEW '(' rvalue ')' + { + @1.last_column = @4.last_column; + HexValue one = gen_imm_value(c, &@1, 1, 32, UNSIGNED); + $$ = gen_bin_op(c, &@1, ANDB_OP, &$3, &one); + } + ; + +lvalue : FAIL + { + @1.last_column = @1.last_column; + yyassert(c, &@1, false, "Encountered a FAIL token as lvalue.\n"); + } + | REG + { + $$ = $1; + } + | var + { + $$ = $1; + } + ; + +%% + +int main(int argc, char **argv) +{ + if (argc != 5) { + fprintf(stderr, + "Semantics: Hexagon ISA to tinycode generator compiler\n\n"); + fprintf(stderr, + "Usage: ./semantics IDEFS EMITTER_C EMITTER_H " + "ENABLED_INSTRUCTIONS_LIST\n"); + return 1; + } + + enum { + ARG_INDEX_ARGV0 = 0, + ARG_INDEX_IDEFS, + ARG_INDEX_EMITTER_C, + ARG_INDEX_EMITTER_H, + ARG_INDEX_ENABLED_INSTRUCTIONS_LIST + }; + + FILE *enabled_file = fopen(argv[ARG_INDEX_ENABLED_INSTRUCTIONS_LIST], "w"); + + FILE *output_file = fopen(argv[ARG_INDEX_EMITTER_C], "w"); + fputs("#include \"qemu/osdep.h\"\n", output_file); + fputs("#include \"qemu/log.h\"\n", output_file); + fputs("#include \"cpu.h\"\n", output_file); + fputs("#include \"internal.h\"\n", output_file); + fputs("#include \"tcg/tcg-op.h\"\n", output_file); + fputs("#include \"insn.h\"\n", output_file); + fputs("#include \"opcodes.h\"\n", output_file); + fputs("#include \"translate.h\"\n", output_file); + fputs("#define QEMU_GENERATE\n", output_file); + fputs("#include \"genptr.h\"\n", output_file); + fputs("#include \"tcg/tcg.h\"\n", output_file); + fputs("#include \"macros.h\"\n", output_file); + fprintf(output_file, "#include \"%s\"\n", argv[ARG_INDEX_EMITTER_H]); + + FILE *defines_file = fopen(argv[ARG_INDEX_EMITTER_H], "w"); + assert(defines_file != NULL); + fputs("#ifndef HEX_EMITTER_H\n", defines_file); + fputs("#define HEX_EMITTER_H\n", defines_file); + fputs("\n", defines_file); + fputs("#include \"insn.h\"\n\n", defines_file); + + /* Parser input file */ + Context context = { 0 }; + context.defines_file = defines_file; + context.output_file = output_file; + context.enabled_file = enabled_file; + /* Initialize buffers */ + context.out_str = g_string_new(NULL); + context.signature_str = g_string_new(NULL); + context.header_str = g_string_new(NULL); + context.ternary = g_array_new(FALSE, TRUE, sizeof(Ternary)); + /* Read input file */ + FILE *input_file = fopen(argv[ARG_INDEX_IDEFS], "r"); + fseek(input_file, 0L, SEEK_END); + long input_size = ftell(input_file); + context.input_buffer = (char *) calloc(input_size + 1, sizeof(char)); + fseek(input_file, 0L, SEEK_SET); + size_t read_chars = fread(context.input_buffer, + sizeof(char), + input_size, + input_file); + if (read_chars != (size_t) input_size) { + fprintf(stderr, "Error: an error occurred while reading input file!\n"); + return -1; + } + yylex_init(&context.scanner); + YY_BUFFER_STATE buffer; + buffer = yy_scan_string(context.input_buffer, context.scanner); + /* Start the parsing procedure */ + yyparse(context.scanner, &context); + if (context.implemented_insn != context.total_insn) { + fprintf(stderr, + "Warning: %d/%d meta instructions have been implemented!\n", + context.implemented_insn, + context.total_insn); + } + fputs("#endif " START_COMMENT " HEX_EMITTER_h " END_COMMENT "\n", + defines_file); + /* Cleanup */ + yy_delete_buffer(buffer, context.scanner); + yylex_destroy(context.scanner); + free(context.input_buffer); + g_string_free(context.out_str, TRUE); + g_string_free(context.signature_str, TRUE); + g_string_free(context.header_str, TRUE); + g_array_free(context.ternary, TRUE); + fclose(output_file); + fclose(input_file); + fclose(defines_file); + fclose(enabled_file); + + return 0; +} diff --git a/target/hexagon/idef-parser/parser-helpers.c b/target/hexagon/idef-parser/parser-helpers.c new file mode 100644 index 0000000000..b00a680d4a --- /dev/null +++ b/target/hexagon/idef-parser/parser-helpers.c @@ -0,0 +1,2548 @@ +/* + * Copyright(c) 2019-2021 rev.ng Labs Srl. All Rights Reserved. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; either + * version 2 of the License, or (at your option) any later version. + * + * This library 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 + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, see . + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "idef-parser.h" +#include "parser-helpers.h" +#include "idef-parser.tab.h" +#include "idef-parser.yy.h" + +void yyerror(YYLTYPE *locp, + yyscan_t scanner __attribute__((unused)), + Context *c, + const char *s) +{ + const char *code_ptr = c->input_buffer; + + fprintf(stderr, "WARNING (%s): '%s'\n", c->inst.name->str, s); + + fprintf(stderr, "Problematic range: "); + for (int i = locp->first_column; i < locp->last_column; i++) { + if (code_ptr[i] != '\n') { + fprintf(stderr, "%c", code_ptr[i]); + } + } + fprintf(stderr, "\n"); + + for (int i = 0; + i < 80 && + code_ptr[locp->first_column - 10 + i] != '\0' && + code_ptr[locp->first_column - 10 + i] != '\n'; + i++) { + fprintf(stderr, "%c", code_ptr[locp->first_column - 10 + i]); + } + fprintf(stderr, "\n"); + for (int i = 0; i < 9; i++) { + fprintf(stderr, " "); + } + fprintf(stderr, "^"); + for (int i = 0; i < (locp->last_column - locp->first_column) - 1; i++) { + fprintf(stderr, "~"); + } + fprintf(stderr, "\n"); + c->inst.error_count++; +} + +bool is_direct_predicate(HexValue *value) +{ + return value->pred.id >= '0' && value->pred.id <= '3'; +} + +bool is_inside_ternary(Context *c) +{ + return c->ternary->len > 0; +} + +/* Print functions */ +void str_print(Context *c, YYLTYPE *locp, const char *string) +{ + (void) locp; + EMIT(c, "%s", string); +} + +void uint8_print(Context *c, YYLTYPE *locp, uint8_t *num) +{ + (void) locp; + EMIT(c, "%u", *num); +} + +void uint64_print(Context *c, YYLTYPE *locp, uint64_t *num) +{ + (void) locp; + EMIT(c, "%" PRIu64, *num); +} + +void int_print(Context *c, YYLTYPE *locp, int *num) +{ + (void) locp; + EMIT(c, "%d", *num); +} + +void uint_print(Context *c, YYLTYPE *locp, unsigned *num) +{ + (void) locp; + EMIT(c, "%u", *num); +} + +void tmp_print(Context *c, YYLTYPE *locp, HexTmp *tmp) +{ + (void) locp; + EMIT(c, "tmp_%d", tmp->index); +} + +void pred_print(Context *c, YYLTYPE *locp, HexPred *pred, bool is_dotnew) +{ + (void) locp; + char suffix = is_dotnew ? 'N' : 'V'; + EMIT(c, "P%c%c", pred->id, suffix); +} + +void reg_compose(Context *c, YYLTYPE *locp, HexReg *reg, char reg_id[5]) +{ + memset(reg_id, 0, 5 * sizeof(char)); + switch (reg->type) { + case GENERAL_PURPOSE: + reg_id[0] = 'R'; + break; + case CONTROL: + reg_id[0] = 'C'; + break; + case MODIFIER: + reg_id[0] = 'M'; + break; + case DOTNEW: + reg_id[0] = 'N'; + reg_id[1] = reg->id; + reg_id[2] = 'N'; + return; + } + switch (reg->bit_width) { + case 32: + reg_id[1] = reg->id; + reg_id[2] = 'V'; + break; + case 64: + reg_id[1] = reg->id; + reg_id[2] = reg->id; + reg_id[3] = 'V'; + break; + default: + yyassert(c, locp, false, "Unhandled register bit width!\n"); + } +} + +static void reg_arg_print(Context *c, YYLTYPE *locp, HexReg *reg) +{ + char reg_id[5]; + reg_compose(c, locp, reg, reg_id); + EMIT(c, "%s", reg_id); +} + +void reg_print(Context *c, YYLTYPE *locp, HexReg *reg) +{ + (void) locp; + EMIT(c, "hex_gpr[%u]", reg->id); +} + +void imm_print(Context *c, YYLTYPE *locp, HexImm *imm) +{ + switch (imm->type) { + case I: + EMIT(c, "i"); + break; + case VARIABLE: + EMIT(c, "%ciV", imm->id); + break; + case VALUE: + EMIT(c, "((int64_t) %" PRIu64 "ULL)", (int64_t) imm->value); + break; + case QEMU_TMP: + EMIT(c, "qemu_tmp_%" PRIu64, imm->index); + break; + case IMM_PC: + EMIT(c, "ctx->base.pc_next"); + break; + case IMM_NPC: + EMIT(c, "ctx->npc"); + break; + case IMM_CONSTEXT: + EMIT(c, "insn->extension_valid"); + break; + default: + yyassert(c, locp, false, "Cannot print this expression!"); + } +} + +void var_print(Context *c, YYLTYPE *locp, HexVar *var) +{ + (void) locp; + EMIT(c, "%s", var->name->str); +} + +void rvalue_print(Context *c, YYLTYPE *locp, void *pointer) +{ + HexValue *rvalue = (HexValue *) pointer; + switch (rvalue->type) { + case REGISTER: + reg_print(c, locp, &rvalue->reg); + break; + case REGISTER_ARG: + reg_arg_print(c, locp, &rvalue->reg); + break; + case TEMP: + tmp_print(c, locp, &rvalue->tmp); + break; + case IMMEDIATE: + imm_print(c, locp, &rvalue->imm); + break; + case VARID: + var_print(c, locp, &rvalue->var); + break; + case PREDICATE: + pred_print(c, locp, &rvalue->pred, rvalue->is_dotnew); + break; + default: + yyassert(c, locp, false, "Cannot print this expression!"); + } +} + +void out_assert(Context *c, YYLTYPE *locp, + void *dummy __attribute__((unused))) { + abort(); + yyassert(c, locp, false, "Unhandled print type!"); +} + +/* Copy output code buffer */ +void commit(Context *c) +{ + /* Emit instruction pseudocode */ + EMIT_SIG(c, "\n" START_COMMENT " "); + for (char *x = c->inst.code_begin; x < c->inst.code_end; x++) { + EMIT_SIG(c, "%c", *x); + } + EMIT_SIG(c, " " END_COMMENT "\n"); + + /* Commit instruction code to output file */ + fwrite(c->signature_str->str, sizeof(char), c->signature_str->len, + c->output_file); + fwrite(c->header_str->str, sizeof(char), c->header_str->len, + c->output_file); + fwrite(c->out_str->str, sizeof(char), c->out_str->len, + c->output_file); + + fwrite(c->signature_str->str, sizeof(char), c->signature_str->len, + c->defines_file); + fprintf(c->defines_file, ";\n"); +} + +static HexValue get_ternary_cond(Context *c, YYLTYPE *locp) +{ + yyassert(c, locp, is_inside_ternary(c), "unexisting condition"); + Ternary *t = &g_array_index(c->ternary, Ternary, 0); + HexValue cond = t->cond; + if (t->state == IN_RIGHT) { + cond = gen_rvalue_notl(c, locp, &cond); + } + for (unsigned i = 1; i < c->ternary->len; ++i) { + Ternary *right = &g_array_index(c->ternary, Ternary, i); + HexValue other = right->cond; + /* Invert condition if we are on the right side */ + if (right->state == IN_RIGHT) { + other = gen_rvalue_notl(c, locp, &other); + } + cond = gen_bin_op(c, locp, ANDL_OP, &cond, &other); + } + return cond; +} + +/* Temporary values creation */ +HexValue gen_tmp(Context *c, + YYLTYPE *locp, + unsigned bit_width, + HexSignedness signedness) +{ + HexValue rvalue; + memset(&rvalue, 0, sizeof(HexValue)); + rvalue.type = TEMP; + assert(bit_width == 32 || bit_width == 64); + rvalue.bit_width = bit_width; + rvalue.signedness = signedness; + rvalue.is_dotnew = false; + rvalue.is_manual = false; + rvalue.tmp.index = c->inst.tmp_count; + OUT(c, locp, "TCGv_i", &bit_width, " tmp_", &c->inst.tmp_count, + " = tcg_temp_new_i", &bit_width, "();\n"); + c->inst.tmp_count++; + return rvalue; +} + +HexValue gen_tmp_value(Context *c, + YYLTYPE *locp, + const char *value, + unsigned bit_width, + HexSignedness signedness) +{ + HexValue rvalue; + memset(&rvalue, 0, sizeof(HexValue)); + rvalue.type = TEMP; + rvalue.bit_width = bit_width; + rvalue.signedness = signedness; + rvalue.is_dotnew = false; + rvalue.is_manual = false; + rvalue.tmp.index = c->inst.tmp_count; + OUT(c, locp, "TCGv_i", &bit_width, " tmp_", &c->inst.tmp_count, + " = tcg_const_i", &bit_width, "(", value, ");\n"); + c->inst.tmp_count++; + return rvalue; +} + +static void gen_c_int_type(Context *c, YYLTYPE *locp, unsigned bit_width, + HexSignedness signedness) +{ + const char *signstr = (signedness == UNSIGNED) ? "u" : ""; + OUT(c, locp, signstr, "int", &bit_width, "_t"); +} + +static HexValue gen_tmp_value_from_imm(Context *c, + YYLTYPE *locp, + HexValue *value) +{ + assert(value->type == IMMEDIATE); + HexValue rvalue; + memset(&rvalue, 0, sizeof(HexValue)); + rvalue.type = TEMP; + rvalue.bit_width = value->bit_width; + rvalue.signedness = value->signedness; + rvalue.is_dotnew = false; + rvalue.is_manual = false; + rvalue.tmp.index = c->inst.tmp_count; + /* + * Here we output the call to `tcg_const_i` in + * order to create the temporary value. Note, that we + * add a cast + * + * `tcg_const_i`((int_t) ...)` + * + * This cast is required to avoid implicit integer + * conversion warnings since all immediates are + * output as `((int64_t) 123ULL)`, even if the + * integer is 32-bit. + */ + OUT(c, locp, "TCGv_i", &rvalue.bit_width, " tmp_", &c->inst.tmp_count); + OUT(c, locp, " = tcg_const_i", &rvalue.bit_width, + "((int", &rvalue.bit_width, "_t) (", value, "));\n"); + + c->inst.tmp_count++; + return rvalue; +} + +HexValue gen_imm_value(Context *c __attribute__((unused)), + YYLTYPE *locp, + int value, + unsigned bit_width, + HexSignedness signedness) +{ + (void) locp; + HexValue rvalue; + memset(&rvalue, 0, sizeof(HexValue)); + rvalue.type = IMMEDIATE; + rvalue.bit_width = bit_width; + rvalue.signedness = signedness; + rvalue.is_dotnew = false; + rvalue.is_manual = false; + rvalue.imm.type = VALUE; + rvalue.imm.value = value; + return rvalue; +} + +HexValue gen_imm_qemu_tmp(Context *c, YYLTYPE *locp, unsigned bit_width, + HexSignedness signedness) +{ + (void) locp; + HexValue rvalue; + memset(&rvalue, 0, sizeof(HexValue)); + rvalue.type = IMMEDIATE; + rvalue.is_dotnew = false; + rvalue.is_manual = false; + rvalue.bit_width = bit_width; + rvalue.signedness = signedness; + rvalue.imm.type = QEMU_TMP; + rvalue.imm.index = c->inst.qemu_tmp_count++; + return rvalue; +} + +void gen_rvalue_free(Context *c, YYLTYPE *locp, HexValue *rvalue) +{ + if (rvalue->type == TEMP && !rvalue->is_manual) { + const char *bit_suffix = (rvalue->bit_width == 64) ? "i64" : "i32"; + OUT(c, locp, "tcg_temp_free_", bit_suffix, "(", rvalue, ");\n"); + } +} + +static void gen_rvalue_free_manual(Context *c, YYLTYPE *locp, HexValue *rvalue) +{ + rvalue->is_manual = false; + gen_rvalue_free(c, locp, rvalue); +} + +HexValue rvalue_materialize(Context *c, YYLTYPE *locp, HexValue *rvalue) +{ + if (rvalue->type == IMMEDIATE) { + HexValue res = gen_tmp_value_from_imm(c, locp, rvalue); + gen_rvalue_free(c, locp, rvalue); + return res; + } + return *rvalue; +} + +HexValue gen_rvalue_extend(Context *c, YYLTYPE *locp, HexValue *rvalue) +{ + if (rvalue->bit_width > 32) { + return *rvalue; + } + + if (rvalue->type == IMMEDIATE) { + HexValue res = gen_imm_qemu_tmp(c, locp, 64, rvalue->signedness); + bool is_unsigned = (rvalue->signedness == UNSIGNED); + const char *sign_suffix = is_unsigned ? "u" : ""; + gen_c_int_type(c, locp, 64, rvalue->signedness); + OUT(c, locp, " ", &res, " = "); + OUT(c, locp, "(", sign_suffix, "int64_t) "); + OUT(c, locp, "(", sign_suffix, "int32_t) "); + OUT(c, locp, rvalue, ";\n"); + return res; + } else { + HexValue res = gen_tmp(c, locp, 64, rvalue->signedness); + assert_signedness(c, locp, rvalue->signedness); + bool is_unsigned = (rvalue->signedness == UNSIGNED); + const char *sign_suffix = is_unsigned ? "u" : ""; + OUT(c, locp, "tcg_gen_ext", sign_suffix, + "_i32_i64(", &res, ", ", rvalue, ");\n"); + gen_rvalue_free(c, locp, rvalue); + return res; + } +} + +HexValue gen_rvalue_truncate(Context *c, YYLTYPE *locp, HexValue *rvalue) +{ + if (rvalue->type == IMMEDIATE) { + HexValue res = *rvalue; + res.bit_width = 32; + return res; + } else { + if (rvalue->bit_width == 64) { + HexValue res = gen_tmp(c, locp, 32, rvalue->signedness); + OUT(c, locp, "tcg_gen_trunc_i64_tl(", &res, ", ", rvalue, ");\n"); + gen_rvalue_free(c, locp, rvalue); + return res; + } + } + return *rvalue; +} + +/* + * Attempts to lookup the `Var` struct associated with the given `varid`. + * The `dst` argument is populated with the found name, bit_width, and + * signedness, given that `dst` is non-NULL. Returns true if the lookup + * succeeded and false otherwise. + */ +static bool try_find_variable(Context *c, YYLTYPE *locp, + HexValue *dst, + HexValue *varid) +{ + yyassert(c, locp, varid, "varid to lookup is NULL"); + yyassert(c, locp, varid->type == VARID, + "Can only lookup variables by varid"); + for (unsigned i = 0; i < c->inst.allocated->len; i++) { + Var *curr = &g_array_index(c->inst.allocated, Var, i); + if (g_string_equal(varid->var.name, curr->name)) { + if (dst) { + dst->var.name = curr->name; + dst->bit_width = curr->bit_width; + dst->signedness = curr->signedness; + } + return true; + } + } + return false; +} + +/* Calls `try_find_variable` and asserts succcess. */ +static void find_variable(Context *c, YYLTYPE *locp, + HexValue *dst, + HexValue *varid) +{ + bool found = try_find_variable(c, locp, dst, varid); + yyassert(c, locp, found, "Use of undeclared variable!\n"); +} + +void gen_varid_allocate(Context *c, + YYLTYPE *locp, + HexValue *varid, + unsigned bit_width, + HexSignedness signedness) +{ + assert_signedness(c, locp, signedness); + bool found = try_find_variable(c, locp, NULL, varid); + yyassert(c, locp, !found, "Redeclaration of variables not allowed!"); + + const char *bit_suffix = (bit_width == 64) ? "i64" : "i32"; + EMIT_HEAD(c, "TCGv_%s %s", bit_suffix, varid->var.name->str); + EMIT_HEAD(c, " = tcg_temp_local_new_%s();\n", bit_suffix); + /* `varid` only carries name information */ + Var new_var = { + .name = varid->var.name, + .bit_width = bit_width, + .signedness = signedness, + }; + g_array_append_val(c->inst.allocated, new_var); +} + +enum OpTypes { + IMM_IMM = 0, + IMM_REG = 1, + REG_IMM = 2, + REG_REG = 3, +}; + +HexValue gen_bin_cmp(Context *c, + YYLTYPE *locp, + TCGCond type, + HexValue *op1, + HexValue *op2) +{ + HexValue op1_m = *op1; + HexValue op2_m = *op2; + enum OpTypes op_types = (op1_m.type != IMMEDIATE) << 1 + | (op2_m.type != IMMEDIATE); + + bool op_is64bit = op1_m.bit_width == 64 || op2_m.bit_width == 64; + + /* Extend to 64-bits, if required */ + if (op_is64bit) { + op1_m = gen_rvalue_extend(c, locp, &op1_m); + op2_m = gen_rvalue_extend(c, locp, &op2_m); + } + + const char *bit_suffix = op_is64bit ? "i64" : "i32"; + int bit_width = (op_is64bit) ? 64 : 32; + HexValue res = gen_tmp(c, locp, bit_width, UNSIGNED); + + switch (op_types) { + case IMM_IMM: + OUT(c, locp, "tcg_gen_movi_", bit_suffix, + "(", &res, ", ", &op1_m, " == ", &op2_m, ");\n"); + break; + case IMM_REG: + { + HexValue swp = op2_m; + op2_m = op1_m; + op1_m = swp; + /* Swap comparison direction */ + type = tcg_swap_cond(type); + } + /* fallthrough */ + case REG_IMM: + OUT(c, locp, "tcg_gen_setcondi_", bit_suffix, "("); + OUT(c, locp, cond_to_str(type), ", ", &res, ", ", &op1_m, ", ", &op2_m, + ");\n"); + break; + case REG_REG: + OUT(c, locp, "tcg_gen_setcond_", bit_suffix, "("); + OUT(c, locp, cond_to_str(type), ", ", &res, ", ", &op1_m, ", ", &op2_m, + ");\n"); + break; + default: + fprintf(stderr, "Error in evalutating immediateness!"); + abort(); + } + + /* Free operands */ + gen_rvalue_free(c, locp, &op1_m); + gen_rvalue_free(c, locp, &op2_m); + + return res; +} + +static void gen_simple_op(Context *c, YYLTYPE *locp, unsigned bit_width, + const char *bit_suffix, HexValue *res, + enum OpTypes op_types, + HexValue *op1, + HexValue *op2, + const char *imm_imm, + const char *imm_reg, + const char *reg_imm, + const char *reg_reg + ) { + switch (op_types) { + case IMM_IMM: { + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, bit_width, signedness); + OUT(c, locp, " ", res, + " = ", op1, imm_imm, op2, ";\n"); + } break; + case IMM_REG: + OUT(c, locp, imm_reg, bit_suffix, + "(", res, ", ", op2, ", ", op1, ");\n"); + break; + case REG_IMM: + OUT(c, locp, reg_imm, bit_suffix, + "(", res, ", ", op1, ", ", op2, ");\n"); + break; + case REG_REG: + OUT(c, locp, reg_reg, bit_suffix, + "(", res, ", ", op1, ", ", op2, ");\n"); + break; + } + gen_rvalue_free(c, locp, op1); + gen_rvalue_free(c, locp, op2); +} + +static void gen_sub_op(Context *c, YYLTYPE *locp, unsigned bit_width, + const char *bit_suffix, HexValue *res, + enum OpTypes op_types, HexValue *op1, + HexValue *op2) +{ + switch (op_types) { + case IMM_IMM: { + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, bit_width, signedness); + OUT(c, locp, " ", res, + " = ", op1, " - ", op2, ";\n"); + } break; + case IMM_REG: { + OUT(c, locp, "tcg_gen_subfi_", bit_suffix, + "(", res, ", ", op1, ", ", op2, ");\n"); + } break; + case REG_IMM: { + OUT(c, locp, "tcg_gen_subi_", bit_suffix, + "(", res, ", ", op1, ", ", op2, ");\n"); + } break; + case REG_REG: { + OUT(c, locp, "tcg_gen_sub_", bit_suffix, + "(", res, ", ", op1, ", ", op2, ");\n"); + } break; + } + gen_rvalue_free(c, locp, op1); + gen_rvalue_free(c, locp, op2); +} + +static void gen_asl_op(Context *c, YYLTYPE *locp, unsigned bit_width, + bool op_is64bit, const char *bit_suffix, + HexValue *res, enum OpTypes op_types, + HexValue *op1, HexValue *op2) +{ + HexValue op1_m = *op1; + HexValue op2_m = *op2; + switch (op_types) { + case IMM_IMM: { + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, bit_width, signedness); + OUT(c, locp, " ", res, + " = ", op1, " << ", op2, ";\n"); + } break; + case REG_IMM: { + OUT(c, locp, "if (", op2, " >= ", &bit_width, ") {\n"); + OUT(c, locp, "tcg_gen_movi_", bit_suffix, "(", res, ", 0);\n"); + OUT(c, locp, "} else {\n"); + OUT(c, locp, "tcg_gen_shli_", bit_suffix, + "(", res, ", ", op1, ", ", op2, ");\n"); + OUT(c, locp, "}\n"); + } break; + case IMM_REG: + op1_m.bit_width = bit_width; + op1_m = rvalue_materialize(c, locp, &op1_m); + /* fallthrough */ + case REG_REG: { + OUT(c, locp, "tcg_gen_shl_", bit_suffix, + "(", res, ", ", &op1_m, ", ", op2, ");\n"); + } break; + } + if (op_types == IMM_REG || op_types == REG_REG) { + /* + * Handle left shift by 64/32 which hexagon-sim expects to clear out + * register + */ + HexValue edge = gen_imm_value(c, locp, bit_width, bit_width, UNSIGNED); + edge = rvalue_materialize(c, locp, &edge); + HexValue zero = gen_tmp_value(c, locp, "0", bit_width, UNSIGNED); + if (op_is64bit) { + op2_m = gen_rvalue_extend(c, locp, &op2_m); + } + op1_m = rvalue_materialize(c, locp, &op1_m); + op2_m = rvalue_materialize(c, locp, &op2_m); + OUT(c, locp, "tcg_gen_movcond_i", &bit_width); + OUT(c, locp, "(TCG_COND_GEU, ", res, ", ", &op2_m, ", ", &edge); + OUT(c, locp, ", ", &zero, ", ", res, ");\n"); + gen_rvalue_free(c, locp, &edge); + gen_rvalue_free(c, locp, &zero); + } + gen_rvalue_free(c, locp, &op1_m); + gen_rvalue_free(c, locp, &op2_m); +} + +static void gen_asr_op(Context *c, YYLTYPE *locp, unsigned bit_width, + bool op_is64bit, const char *bit_suffix, + HexValue *res, enum OpTypes op_types, + HexValue *op1, HexValue *op2) +{ + HexValue op1_m = *op1; + HexValue op2_m = *op2; + switch (op_types) { + case IMM_IMM: { + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, bit_width, signedness); + OUT(c, locp, " ", res, + " = ", op1, " >> ", op2, ";\n"); + } break; + case REG_IMM: { + OUT(c, locp, "{\n"); + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, bit_width, signedness); + OUT(c, locp, " shift = ", op2, ";\n"); + OUT(c, locp, "if (", op2, " >= ", &bit_width, ") {\n"); + OUT(c, locp, " shift = ", &bit_width, " - 1;\n"); + OUT(c, locp, "}\n"); + OUT(c, locp, "tcg_gen_sari_", bit_suffix, + "(", res, ", ", op1, ", shift);\n}\n"); + } break; + case IMM_REG: + op1_m = rvalue_materialize(c, locp, &op1_m); + /* Fallthrough */ + case REG_REG: + OUT(c, locp, "tcg_gen_sar_", bit_suffix, + "(", res, ", ", &op1_m, ", ", op2, ");\n"); + break; + } + if (op_types == IMM_REG || op_types == REG_REG) { + /* Handle right shift by values >= bit_width */ + HexValue edge = gen_imm_value(c, locp, bit_width, bit_width, UNSIGNED); + edge = rvalue_materialize(c, locp, &edge); + HexValue tmp = gen_tmp(c, locp, bit_width, SIGNED); + HexValue zero = gen_tmp_value(c, locp, "0", bit_width, SIGNED); + if (op_is64bit) { + op2_m = gen_rvalue_extend(c, locp, &op2_m); + } + op1_m = rvalue_materialize(c, locp, &op1_m); + op2_m = rvalue_materialize(c, locp, &op2_m); + + const char *offset = op_is64bit ? "63" : "31"; + OUT(c, locp, "tcg_gen_extract_", bit_suffix, "(", + &tmp, ", ", &op1_m, ", ", offset, ", 1);\n"); + OUT(c, locp, "tcg_gen_sub_", bit_suffix, "(", + &tmp, ", ", &zero, ", ", &tmp, ");\n"); + OUT(c, locp, "tcg_gen_movcond_i", &bit_width); + OUT(c, locp, "(TCG_COND_GEU, ", res, ", ", &op2_m, ", ", &edge); + OUT(c, locp, ", ", &tmp, ", ", res, ");\n"); + gen_rvalue_free(c, locp, &edge); + gen_rvalue_free(c, locp, &tmp); + gen_rvalue_free(c, locp, &zero); + } + gen_rvalue_free(c, locp, &op1_m); + gen_rvalue_free(c, locp, &op2_m); +} + +static void gen_lsr_op(Context *c, YYLTYPE *locp, unsigned bit_width, + bool op_is64bit, const char *bit_suffix, + HexValue *res, enum OpTypes op_types, + HexValue *op1, HexValue *op2) +{ + HexValue op1_m = *op1; + HexValue op2_m = *op2; + switch (op_types) { + case IMM_IMM: { + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, bit_width, signedness); + OUT(c, locp, ", ", + res, " = ", op1, " >> ", op2, ";\n"); + } break; + case REG_IMM: + OUT(c, locp, "if (", op2, " >= ", &bit_width, ") {\n"); + OUT(c, locp, "tcg_gen_movi_", bit_suffix, "(", res, ", 0);\n"); + OUT(c, locp, "} else {\n"); + OUT(c, locp, "tcg_gen_shri_", bit_suffix, + "(", res, ", ", op1, ", ", op2, ");\n"); + OUT(c, locp, "}\n"); + break; + case IMM_REG: + op1_m = rvalue_materialize(c, locp, &op1_m); + /* Fallthrough */ + case REG_REG: + OUT(c, locp, "tcg_gen_shr_", bit_suffix, + "(", res, ", ", &op1_m, ", ", op2, ");\n"); + break; + } + if (op_types == IMM_REG || op_types == REG_REG) { + /* Handle right shift by values >= bit_width */ + HexValue edge = gen_imm_value(c, locp, bit_width, bit_width, UNSIGNED); + edge = rvalue_materialize(c, locp, &edge); + HexValue zero = gen_tmp_value(c, locp, "0", bit_width, UNSIGNED); + if (op_is64bit) { + op2_m = gen_rvalue_extend(c, locp, &op2_m); + } + op1_m = rvalue_materialize(c, locp, &op1_m); + op2_m = rvalue_materialize(c, locp, &op2_m); + OUT(c, locp, "tcg_gen_movcond_i", &bit_width); + OUT(c, locp, "(TCG_COND_GEU, ", res, ", ", &op2_m, ", ", &edge); + OUT(c, locp, ", ", &zero, ", ", res, ");\n"); + gen_rvalue_free(c, locp, &edge); + gen_rvalue_free(c, locp, &zero); + } + gen_rvalue_free(c, locp, &op1_m); + gen_rvalue_free(c, locp, &op2_m); +} + +/* + * Note: This implementation of logical `and` does not mirror that in C. + * We do not short-circuit logical expressions! + */ +static void gen_andl_op(Context *c, YYLTYPE *locp, unsigned bit_width, + const char *bit_suffix, HexValue *res, + enum OpTypes op_types, HexValue *op1, + HexValue *op2) +{ + HexValue zero, tmp1, tmp2; + memset(&zero, 0, sizeof(HexValue)); + memset(&tmp1, 0, sizeof(HexValue)); + memset(&tmp2, 0, sizeof(HexValue)); + switch (op_types) { + case IMM_IMM: { + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, bit_width, signedness); + OUT(c, locp, " ", + res, " = ", op1, " && ", op2, ";\n"); + } break; + case IMM_REG: + zero = gen_tmp_value(c, locp, "0", 32, UNSIGNED); + tmp2 = gen_bin_cmp(c, locp, TCG_COND_NE, op2, &zero); + OUT(c, locp, "tcg_gen_andi_", bit_suffix, + "(", res, ", ", op1, " != 0 , ", &tmp2, ");\n"); + gen_rvalue_free(c, locp, &tmp2); + break; + case REG_IMM: + zero = gen_tmp_value(c, locp, "0", 32, UNSIGNED); + tmp1 = gen_bin_cmp(c, locp, TCG_COND_NE, op1, &zero); + OUT(c, locp, "tcg_gen_andi_", bit_suffix, + "(", res, ", ", &tmp1, ", ", op2, " != 0);\n"); + gen_rvalue_free(c, locp, &tmp1); + break; + case REG_REG: + zero = gen_tmp_value(c, locp, "0", 32, UNSIGNED); + zero.is_manual = true; + tmp1 = gen_bin_cmp(c, locp, TCG_COND_NE, op1, &zero); + tmp2 = gen_bin_cmp(c, locp, TCG_COND_NE, op2, &zero); + OUT(c, locp, "tcg_gen_and_", bit_suffix, + "(", res, ", ", &tmp1, ", ", &tmp2, ");\n"); + gen_rvalue_free_manual(c, locp, &zero); + gen_rvalue_free(c, locp, &tmp1); + gen_rvalue_free(c, locp, &tmp2); + break; + } +} + +static void gen_minmax_op(Context *c, YYLTYPE *locp, unsigned bit_width, + HexValue *res, enum OpTypes op_types, + HexValue *op1, HexValue *op2, bool minmax) +{ + HexValue op1_m = *op1; + HexValue op2_m = *op2; + const char *mm; + assert_signedness(c, locp, res->signedness); + bool is_unsigned = res->signedness == UNSIGNED; + if (minmax) { + /* Max */ + mm = is_unsigned ? "tcg_gen_umax" : "tcg_gen_smax"; + } else { + /* Min */ + mm = is_unsigned ? "tcg_gen_umin" : "tcg_gen_smin"; + } + switch (op_types) { + case IMM_IMM: { + const char *s = minmax ? " <= " : " >= "; + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, bit_width, signedness); + OUT(c, locp, " ", res, " = (", op1, s); + OUT(c, locp, op2, ") ? ", op1, " : ", op2, ";\n"); + } break; + case IMM_REG: + op1_m.bit_width = bit_width; + op1_m = rvalue_materialize(c, locp, &op1_m); + OUT(c, locp, mm, "_i", &bit_width, "("); + OUT(c, locp, res, ", ", &op1_m, ", ", op2, ");\n"); + break; + case REG_IMM: + op2_m.bit_width = bit_width; + op2_m = rvalue_materialize(c, locp, &op2_m); + /* Fallthrough */ + case REG_REG: + OUT(c, locp, mm, "_i", &bit_width, "("); + OUT(c, locp, res, ", ", op1, ", ", &op2_m, ");\n"); + break; + } + gen_rvalue_free(c, locp, &op1_m); + gen_rvalue_free(c, locp, &op2_m); +} + +static void gen_mod_op(Context *c, YYLTYPE *locp, HexValue *res, + enum OpTypes op_types, HexValue *op1, HexValue *op2) +{ + switch (op_types) { + case IMM_IMM: { + HexSignedness signedness = (op1->signedness == UNSIGNED + && op2->signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + gen_c_int_type(c, locp, res->bit_width, signedness); + OUT(c, locp, " ", res, " = ", op1, " % ", op2, ";\n"); + } break; + case IMM_REG: + case REG_IMM: + case REG_REG: + OUT(c, locp, "gen_helper_mod(", + res, ", ", op1, ", ", op2, ");\n"); + break; + } + gen_rvalue_free(c, locp, op1); + gen_rvalue_free(c, locp, op2); +} + +/* Code generation functions */ +HexValue gen_bin_op(Context *c, + YYLTYPE *locp, + OpType type, + HexValue *op1, + HexValue *op2) +{ + /* Replicate operands to avoid side effects */ + HexValue op1_m = *op1; + HexValue op2_m = *op2; + + /* + * If the operands are VARID's we need to look up the + * type information. + */ + if (op1_m.type == VARID) { + find_variable(c, locp, &op1_m, &op1_m); + } + if (op2_m.type == VARID) { + find_variable(c, locp, &op2_m, &op2_m); + } + + enum OpTypes op_types = (op1_m.type != IMMEDIATE) << 1 + | (op2_m.type != IMMEDIATE); + + bool op_is64bit = op1_m.bit_width == 64 || op2_m.bit_width == 64; + + /* Shift greater than 32 are 64 bits wide */ + if (type == ASL_OP && op2_m.type == IMMEDIATE && + op2_m.imm.type == VALUE && op2_m.imm.value >= 32) { + op_is64bit = true; + } + + /* Extend to 64-bits, if required */ + if (op_is64bit) { + op1_m = gen_rvalue_extend(c, locp, &op1_m); + op2_m = gen_rvalue_extend(c, locp, &op2_m); + } + + HexValue res; + memset(&res, 0, sizeof(HexValue)); + const char *bit_suffix = op_is64bit ? "i64" : "i32"; + int bit_width = (op_is64bit) ? 64 : 32; + /* Handle signedness, if both unsigned -> result is unsigned, else signed */ + assert_signedness(c, locp, op1_m.signedness); + assert_signedness(c, locp, op2_m.signedness); + HexSignedness signedness = (op1_m.signedness == UNSIGNED + && op2_m.signedness == UNSIGNED) + ? UNSIGNED : SIGNED; + if (op_types != IMM_IMM) { + res = gen_tmp(c, locp, bit_width, signedness); + } else { + res = gen_imm_qemu_tmp(c, locp, bit_width, signedness); + } + + switch (type) { + case ADD_OP: + gen_simple_op(c, locp, bit_width, bit_suffix, &res, + op_types, &op1_m, &op2_m, + " + ", + "tcg_gen_addi_", + "tcg_gen_addi_", + "tcg_gen_add_"); + break; + case SUB_OP: + gen_sub_op(c, locp, bit_width, bit_suffix, &res, op_types, + &op1_m, &op2_m); + break; + case MUL_OP: + gen_simple_op(c, locp, bit_width, bit_suffix, &res, + op_types, &op1_m, &op2_m, + " * ", + "tcg_gen_muli_", + "tcg_gen_muli_", + "tcg_gen_mul_"); + break; + case ASL_OP: + gen_asl_op(c, locp, bit_width, op_is64bit, bit_suffix, &res, op_types, + &op1_m, &op2_m); + break; + case ASR_OP: + gen_asr_op(c, locp, bit_width, op_is64bit, bit_suffix, &res, op_types, + &op1_m, &op2_m); + break; + case LSR_OP: + gen_lsr_op(c, locp, bit_width, op_is64bit, bit_suffix, &res, op_types, + &op1_m, &op2_m); + break; + case ANDB_OP: + gen_simple_op(c, locp, bit_width, bit_suffix, &res, + op_types, &op1_m, &op2_m, + " & ", + "tcg_gen_andi_", + "tcg_gen_andi_", + "tcg_gen_and_"); + break; + case ORB_OP: + gen_simple_op(c, locp, bit_width, bit_suffix, &res, + op_types, &op1_m, &op2_m, + " | ", + "tcg_gen_ori_", + "tcg_gen_ori_", + "tcg_gen_or_"); + break; + case XORB_OP: + gen_simple_op(c, locp, bit_width, bit_suffix, &res, + op_types, &op1_m, &op2_m, + " ^ ", + "tcg_gen_xori_", + "tcg_gen_xori_", + "tcg_gen_xor_"); + break; + case ANDL_OP: + gen_andl_op(c, locp, bit_width, bit_suffix, &res, op_types, &op1_m, + &op2_m); + break; + case MINI_OP: + gen_minmax_op(c, locp, bit_width, &res, op_types, &op1_m, &op2_m, + false); + break; + case MAXI_OP: + gen_minmax_op(c, locp, bit_width, &res, op_types, &op1_m, &op2_m, true); + break; + case MOD_OP: + gen_mod_op(c, locp, &res, op_types, &op1_m, &op2_m); + break; + } + return res; +} + +HexValue gen_cast_op(Context *c, + YYLTYPE *locp, + HexValue *src, + unsigned target_width, + HexSignedness signedness) +{ + if (src->bit_width == target_width) { + return *src; + } else if (src->type == IMMEDIATE) { + HexValue res = *src; + res.bit_width = target_width; + res.signedness = signedness; + return res; + } else { + HexValue res = gen_tmp(c, locp, target_width, signedness); + /* Truncate */ + if (src->bit_width > target_width) { + OUT(c, locp, "tcg_gen_trunc_i64_tl(", &res, ", ", src, ");\n"); + } else { + assert_signedness(c, locp, src->signedness); + if (src->signedness == UNSIGNED) { + /* Extend unsigned */ + OUT(c, locp, "tcg_gen_extu_i32_i64(", + &res, ", ", src, ");\n"); + } else { + /* Extend signed */ + OUT(c, locp, "tcg_gen_ext_i32_i64(", + &res, ", ", src, ");\n"); + } + } + gen_rvalue_free(c, locp, src); + return res; + } +} + + +/* + * Implements an extension when the `src_width` is an immediate. + * If the `value` to extend is also an immediate we use `extract/sextract` + * from QEMU `bitops.h`. If `value` is a TCGv then we rely on + * `tcg_gen_extract/tcg_gen_sextract`. + */ +static HexValue gen_extend_imm_width_op(Context *c, + YYLTYPE *locp, + HexValue *src_width, + unsigned dst_width, + HexValue *value, + HexSignedness signedness) +{ + assert(dst_width == 64 || dst_width == 32); + assert(src_width->type == IMMEDIATE); + + if (src_width->imm.type == VALUE && + src_width->imm.value == 0) { + /* + * We can bail out early if the source width is known to be zero + * at translation time. + */ + HexValue res = gen_imm_value(c, locp, 0, dst_width, signedness); + return res; + } + + const char *sign_prefix = (signedness == UNSIGNED) ? "" : "s"; + + /* + * If the source width is not an immediate value, we need to guard + * our extend op with if statements to handle the case where + * `src_width_m` is 0. + */ + bool need_guarding = (src_width->imm.type != VALUE); + + if (value->type == IMMEDIATE) { + /* + * If both the value and source width are immediates, + * we can perform the extension at translation time + * using QEMUs bitops. + */ + HexValue res = gen_imm_qemu_tmp(c, locp, dst_width, signedness); + gen_c_int_type(c, locp, dst_width, signedness); + OUT(c, locp, " ", &res, " = 0;\n"); + if (need_guarding) { + OUT(c, locp, "if (", src_width, " != 0) {\n"); + } + OUT(c, locp, &res, " = ", sign_prefix, "extract", &dst_width); + OUT(c, locp, "(", value, ", 0, ", src_width, ");\n"); + if (need_guarding) { + OUT(c, locp, "}\n"); + } + + gen_rvalue_free(c, locp, value); + return res; + } else { + /* + * If the source width is an immediate and the value to + * extend is a TCGv, then use tcg_gen_extract/tcg_gen_sextract + */ + HexValue res = gen_tmp(c, locp, dst_width, signedness); + + /* + * If the width is an immediate value we know it is non-zero + * at this point, otherwise we need an if-statement + */ + if (need_guarding) { + OUT(c, locp, "if (", src_width, " != 0) {\n"); + } + OUT(c, locp, "tcg_gen_", sign_prefix, "extract_i", &dst_width); + OUT(c, locp, "(", &res, ", ", value, ", 0, ", src_width, + ");\n"); + if (need_guarding) { + OUT(c, locp, "} else {\n"); + OUT(c, locp, "tcg_gen_movi_i", &dst_width, "(", &res, + ", 0);\n"); + OUT(c, locp, "}\n"); + } + + gen_rvalue_free(c, locp, value); + return res; + } +} + +/* + * Implements an extension when the `src_width` is given by + * a TCGv. Here we need to reimplement the behaviour of + * `tcg_gen_extract` and the like using shifts and masks. + */ +static HexValue gen_extend_tcg_width_op(Context *c, + YYLTYPE *locp, + HexValue *src_width, + unsigned dst_width, + HexValue *value, + HexSignedness signedness) +{ + assert(dst_width == 64 || dst_width == 32); + assert(src_width->type != IMMEDIATE); + + HexValue src_width_m = rvalue_materialize(c, locp, src_width); + + HexValue res = gen_tmp(c, locp, dst_width, signedness); + HexValue zero = gen_tmp_value(c, locp, "0", dst_width, UNSIGNED); + HexValue shift = gen_tmp(c, locp, dst_width, UNSIGNED); + OUT(c, locp, "tcg_gen_subfi_i", &dst_width); + OUT(c, locp, "(", &shift, ", ", &dst_width, ", ", &src_width_m, ");\n"); + if (signedness == UNSIGNED) { + const char *mask_str = (dst_width == 32) + ? "0xffffffff" + : "0xffffffffffffffff"; + HexValue mask = gen_tmp_value(c, locp, mask_str, + dst_width, UNSIGNED); + OUT(c, locp, "tcg_gen_shr_i", &dst_width, "(", + &mask, ", ", &mask, ", ", &shift, ");\n"); + OUT(c, locp, "tcg_gen_and_i", &dst_width, "(", + &res, ", ", value, ", ", &mask, ");\n"); + gen_rvalue_free(c, locp, &mask); + } else { + OUT(c, locp, "tcg_gen_shl_i", &dst_width, "(", + &res, ", ", value, ", ", &shift, ");\n"); + OUT(c, locp, "tcg_gen_sar_i", &dst_width, "(", + &res, ", ", &res, ", ", &shift, ");\n"); + } + OUT(c, locp, "tcg_gen_movcond_i", &dst_width, "(TCG_COND_EQ, ", &res, + ", "); + OUT(c, locp, &src_width_m, ", ", &zero, ", ", &zero, ", ", &res, + ");\n"); + + gen_rvalue_free(c, locp, &src_width_m); + gen_rvalue_free(c, locp, value); + gen_rvalue_free(c, locp, &shift); + gen_rvalue_free(c, locp, &zero); + + return res; +} + +HexValue gen_extend_op(Context *c, + YYLTYPE *locp, + HexValue *src_width, + unsigned dst_width, + HexValue *value, + HexSignedness signedness) +{ + assert_signedness(c, locp, signedness); + unsigned bit_width = (dst_width = 64) ? 64 : 32; + + HexValue value_m = *value; + if (value_m.bit_width < bit_width) { + value_m = gen_rvalue_extend(c, locp, &value_m); + } else if (value_m.bit_width > bit_width) { + value_m = gen_rvalue_truncate(c, locp, &value_m); + } + + HexValue src_width_m = *src_width; + if (src_width_m.bit_width < bit_width) { + src_width_m = gen_rvalue_extend(c, locp, &src_width_m); + } else if (src_width_m.bit_width > bit_width) { + src_width_m = gen_rvalue_truncate(c, locp, &src_width_m); + } + + if (src_width_m.type == IMMEDIATE) { + return gen_extend_imm_width_op(c, locp, &src_width_m, bit_width, + &value_m, signedness); + } else { + return gen_extend_tcg_width_op(c, locp, &src_width_m, bit_width, + &value_m, signedness); + } +} + +/* + * Implements `rdeposit` for the special case where `width` is + * of immediate type. Here we rely on `tcg_gen_deposit_*` to + * perform the deposit. + */ +static void gen_rdeposit_imm_width_op(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *value, + HexValue *begin, + HexValue *width) +{ + /* + * If the width of the deposit op is known at translatin time + * we can rely on tcg_gen_deposit + */ + + /* If the width is known to be 0, just no-op */ + if (width->imm.type == VALUE && width->imm.value == 0) { + return; + } + + /* + * If the width is an immediate value we know it is non-zero + * at this point, otherwise we need an if-statement + */ + if (width->imm.type != VALUE) { + OUT(c, locp, "if (", width, " > 0) {\n"); + } + OUT(c, locp, "tcg_gen_deposit_i", &dst->bit_width, "(", dst, ", "); + OUT(c, locp, dst, ", ", value, ", ", &begin->imm.value, ", ", + width, ");\n"); + if (width->imm.type != VALUE) { + OUT(c, locp, "}\n"); + } +} + +/* + * Implements `rdeposit` for the special case where `width` + * is of TCGv type. In this case we need to reimplement the behaviour + * of `tcg_gen_deposit*` using binary operations and masks/shifts. + */ +static void gen_rdeposit_tcg_width_op(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *value, + HexValue *begin, + HexValue *width) +{ + /* + * Otherwise if the width is not known, we fallback on reimplementing + * desposit in TCG. + */ + HexValue value_m = *value; + if (value_m.bit_width < dst->bit_width) { + value_m = gen_rvalue_extend(c, locp, &value_m); + } else if (value_m.bit_width > dst->bit_width) { + value_m = gen_rvalue_truncate(c, locp, &value_m); + } + HexValue begin_m = *begin; + if (begin_m.bit_width < dst->bit_width) { + begin_m = gen_rvalue_extend(c, locp, &begin_m); + } else if (begin_m.bit_width > dst->bit_width) { + begin_m = gen_rvalue_truncate(c, locp, &begin_m); + } + HexValue width_orig = *width; + width_orig.is_manual = true; + HexValue width_m = width_orig; + if (width_m.bit_width < dst->bit_width) { + width_m = gen_rvalue_extend(c, locp, &width_orig); + } else if (width_m.bit_width > dst->bit_width) { + width_m = gen_rvalue_truncate(c, locp, &width_orig); + } + width_m = rvalue_materialize(c, locp, &width_m); + + const char *mask_str = (dst->bit_width == 32) + ? "0xffffffffUL" + : "0xffffffffffffffffUL"; + HexValue mask = gen_tmp_value(c, locp, mask_str, dst->bit_width, + UNSIGNED); + /* + * mask = 0xffffffffffffffff >> (64 - width) + * mask = mask << begin + * value = (value << begin) & mask + * res = dst & ~mask + * res = res | value + * dst = (width != 0) ? res : dst + */ + mask.signedness = UNSIGNED; + const char *dst_width_str = (dst->bit_width == 32) ? "32" : "64"; + HexValue k64 = gen_tmp_value(c, locp, dst_width_str, dst->bit_width, + UNSIGNED); + k64 = gen_bin_op(c, locp, SUB_OP, &k64, &width_m); + mask = gen_bin_op(c, locp, LSR_OP, &mask, &k64); + begin_m.is_manual = true; + mask = gen_bin_op(c, locp, ASL_OP, &mask, &begin_m); + mask.is_manual = true; + value_m = gen_bin_op(c, locp, ASL_OP, &value_m, &begin_m); + value_m = gen_bin_op(c, locp, ANDB_OP, &value_m, &mask); + + OUT(c, locp, "tcg_gen_not_i", &dst->bit_width, "(", &mask, ", ", + &mask, ");\n"); + mask.is_manual = false; + HexValue res = gen_bin_op(c, locp, ANDB_OP, dst, &mask); + res = gen_bin_op(c, locp, ORB_OP, &res, &value_m); + + if (dst->bit_width != res.bit_width) { + res = gen_rvalue_truncate(c, locp, &res); + } + + /* If the width is zero, then return the identity dst = dst */ + HexValue zero = gen_tmp_value(c, locp, "0", res.bit_width, UNSIGNED); + OUT(c, locp, "tcg_gen_movcond_i", &res.bit_width, "(TCG_COND_NE, ", + dst); + OUT(c, locp, ", ", &width_orig, ", ", &zero, ", ", &res, ", ", dst, + ");\n"); + + gen_rvalue_free(c, locp, &zero); + gen_rvalue_free(c, locp, width); + gen_rvalue_free(c, locp, &res); +} + + +void gen_rdeposit_op(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *value, + HexValue *begin, + HexValue *width) +{ + assert(dst->bit_width >= value->bit_width); + assert(begin->type == IMMEDIATE && begin->imm.type == VALUE); + assert(dst->type == REGISTER_ARG); + HexValue dst_m = *dst; + dst_m.is_manual = true; + + if (width->type == IMMEDIATE) { + gen_rdeposit_imm_width_op(c, locp, &dst_m, value, begin, width); + } else { + gen_rdeposit_tcg_width_op(c, locp, &dst_m, value, begin, width); + } +} + +void gen_deposit_op(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *value, + HexValue *index, + HexCast *cast) +{ + yyassert(c, locp, index->type == IMMEDIATE, + "Deposit index must be immediate!\n"); + + /* + * Using tcg_gen_deposit_i**(dst, dst, ...) requires dst to be + * initialized. + */ + gen_inst_init_args(c, locp); + + HexValue value_m = *value; + int bit_width = (dst->bit_width == 64) ? 64 : 32; + int width = cast->bit_width; + /* If the destination value is 32, truncate the value, otherwise extend */ + if (dst->bit_width != value->bit_width) { + if (bit_width == 32) { + value_m = gen_rvalue_truncate(c, locp, &value_m); + } else { + value_m = gen_rvalue_extend(c, locp, &value_m); + } + } + value_m = rvalue_materialize(c, locp, &value_m); + OUT(c, locp, "tcg_gen_deposit_i", &bit_width, "(", dst, ", ", dst, ", "); + OUT(c, locp, &value_m, ", ", index, " * ", &width, ", ", &width, ");\n"); + gen_rvalue_free(c, locp, index); + gen_rvalue_free(c, locp, &value_m); +} + +HexValue gen_rextract_op(Context *c, + YYLTYPE *locp, + HexValue *src, + int begin, + int width) +{ + int bit_width = (src->bit_width == 64) ? 64 : 32; + HexValue res = gen_tmp(c, locp, bit_width, UNSIGNED); + OUT(c, locp, "tcg_gen_extract_i", &bit_width, "(", &res); + OUT(c, locp, ", ", src, ", ", &begin, ", ", &width, ");\n"); + gen_rvalue_free(c, locp, src); + return res; +} + +HexValue gen_extract_op(Context *c, + YYLTYPE *locp, + HexValue *src, + HexValue *index, + HexExtract *extract) +{ + yyassert(c, locp, index->type == IMMEDIATE, + "Extract index must be immediate!\n"); + int bit_width = (src->bit_width == 64) ? 64 : 32; + assert_signedness(c, locp, extract->signedness); + const char *sign_prefix = (extract->signedness == UNSIGNED) ? "" : "s"; + int width = extract->bit_width; + HexValue res = gen_tmp(c, locp, bit_width, extract->signedness); + OUT(c, locp, "tcg_gen_", sign_prefix, "extract_i", &bit_width, + "(", &res, ", ", src); + OUT(c, locp, ", ", index, " * ", &width, ", ", &width, ");\n"); + + /* Some extract operations have bit_width != storage_bit_width */ + if (extract->storage_bit_width > bit_width) { + HexValue tmp = gen_tmp(c, locp, extract->storage_bit_width, + extract->signedness); + if (extract->signedness == UNSIGNED) { + /* Extend unsigned */ + OUT(c, locp, "tcg_gen_extu_i32_i64(", + &tmp, ", ", &res, ");\n"); + } else { + /* Extend signed */ + OUT(c, locp, "tcg_gen_ext_i32_i64(", + &tmp, ", ", &res, ");\n"); + } + gen_rvalue_free(c, locp, &res); + res = tmp; + } + + gen_rvalue_free(c, locp, src); + gen_rvalue_free(c, locp, index); + return res; +} + +HexValue gen_read_reg(Context *c, YYLTYPE *locp, HexValue *reg) +{ + yyassert(c, locp, reg->type == REGISTER_ARG || reg->type == REGISTER, + "reg must be a register arg or register!"); + if (reg->type == REGISTER) { + HexValue tmp = gen_tmp(c, locp, 32, reg->signedness); + OUT(c, locp, "gen_read_reg(", &tmp, ", ", ®->reg.id, ");\n"); + gen_rvalue_free(c, locp, reg); + return tmp; + } + return *reg; +} + +void gen_write_reg(Context *c, YYLTYPE *locp, HexValue *reg, HexValue *value) +{ + yyassert(c, locp, reg->type == REGISTER, "reg must be a register!"); + HexValue value_m = *value; + value_m = gen_rvalue_truncate(c, locp, &value_m); + value_m = rvalue_materialize(c, locp, &value_m); + OUT(c, + locp, + "gen_log_reg_write(", ®->reg.id, ", ", + &value_m, ");\n"); + OUT(c, + locp, + "ctx_log_reg_write(ctx, ", ®->reg.id, + ");\n"); + gen_rvalue_free(c, locp, reg); + gen_rvalue_free(c, locp, &value_m); +} + +void gen_assign(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *value) +{ + yyassert(c, + locp, + !is_inside_ternary(c) + || !(dst->type == REGISTER), + "register assign in ternary"); + + HexValue value_m = *value; + if (dst->type == REGISTER) { + gen_write_reg(c, locp, dst, &value_m); + return; + } + + if (dst->type == VARID) { + find_variable(c, locp, dst, dst); + } + + unsigned bit_width = dst->bit_width == 64 ? 64 : 32; + if (bit_width != value_m.bit_width) { + if (bit_width == 64) { + value_m = gen_rvalue_extend(c, locp, &value_m); + } else { + value_m = gen_rvalue_truncate(c, locp, &value_m); + } + } + if (is_inside_ternary(c)) { + value_m = rvalue_materialize(c, locp, &value_m); + HexValue cond = get_ternary_cond(c, locp); + if (cond.bit_width != bit_width) { + if (cond.bit_width == 64) { + cond = gen_rvalue_truncate(c, locp, &cond); + } else { + cond = gen_rvalue_extend(c, locp, &cond); + } + } + HexValue zero = gen_tmp_value(c, locp, "0", bit_width, UNSIGNED); + OUT(c, locp, "tcg_gen_movcond_i", &bit_width, "(TCG_COND_NE, ", dst); + OUT(c, locp, ", ", &cond, ", ", &zero, ", "); + OUT(c, locp, &value_m, ", ", dst, ");\n"); + gen_rvalue_free(c, locp, &cond); + gen_rvalue_free(c, locp, &zero); + } else { + if (value_m.type == IMMEDIATE) { + OUT(c, locp, "tcg_gen_movi_i", &bit_width, + "(", dst, ", ", &value_m, ");\n"); + } else { + OUT(c, locp, "tcg_gen_mov_i", &bit_width, + "(", dst, ", ", &value_m, ");\n"); + } + } + gen_rvalue_free(c, locp, &value_m); +} + +HexValue gen_convround(Context *c, + YYLTYPE *locp, + HexValue *src) +{ + HexValue src_m = *src; + src_m.is_manual = true; + + unsigned bit_width = src_m.bit_width; + const char *size = (bit_width == 32) ? "32" : "64"; + HexValue res = gen_tmp(c, locp, bit_width, src->signedness); + HexValue mask = gen_tmp_value(c, locp, "0x3", bit_width, UNSIGNED); + mask.is_manual = true; + HexValue and = gen_bin_op(c, locp, ANDB_OP, &src_m, &mask); + HexValue one = gen_tmp_value(c, locp, "1", bit_width, UNSIGNED); + HexValue src_p1 = gen_bin_op(c, locp, ADD_OP, &src_m, &one); + + OUT(c, locp, "tcg_gen_movcond_i", size, "(TCG_COND_EQ, ", &res); + OUT(c, locp, ", ", &and, ", ", &mask, ", "); + OUT(c, locp, &src_p1, ", ", &src_m, ");\n"); + + /* Free src but use the original `is_manual` value */ + gen_rvalue_free(c, locp, src); + + /* Free the rest of the values */ + gen_rvalue_free_manual(c, locp, &mask); + gen_rvalue_free(c, locp, &and); + gen_rvalue_free(c, locp, &src_p1); + + return res; +} + +static HexValue gen_convround_n_b(Context *c, + YYLTYPE *locp, + HexValue *a, + HexValue *n) +{ + assert(n->type != IMMEDIATE); + HexValue res = gen_tmp(c, locp, 64, UNSIGNED); + OUT(c, locp, "tcg_gen_ext_i32_i64(", &res, ", ", a, ");\n"); + + HexValue one = gen_tmp_value(c, locp, "1", 32, UNSIGNED); + HexValue tmp = gen_tmp(c, locp, 32, UNSIGNED); + HexValue tmp_64 = gen_tmp(c, locp, 64, UNSIGNED); + + OUT(c, locp, "tcg_gen_shl_i32(", &tmp); + OUT(c, locp, ", ", &one, ", ", n, ");\n"); + OUT(c, locp, "tcg_gen_and_i32(", &tmp); + OUT(c, locp, ", ", &tmp, ", ", a, ");\n"); + OUT(c, locp, "tcg_gen_shri_i32(", &tmp); + OUT(c, locp, ", ", &tmp, ", 1);\n"); + OUT(c, locp, "tcg_gen_ext_i32_i64(", &tmp_64, ", ", &tmp, ");\n"); + OUT(c, locp, "tcg_gen_add_i64(", &res); + OUT(c, locp, ", ", &res, ", ", &tmp_64, ");\n"); + + gen_rvalue_free(c, locp, &one); + gen_rvalue_free(c, locp, &tmp); + gen_rvalue_free(c, locp, &tmp_64); + + return res; +} + +static HexValue gen_convround_n_c(Context *c, + YYLTYPE *locp, + HexValue *a, + HexValue *n) +{ + HexValue res = gen_tmp(c, locp, 64, UNSIGNED); + OUT(c, locp, "tcg_gen_ext_i32_i64(", &res, ", ", a, ");\n"); + + HexValue one = gen_tmp_value(c, locp, "1", 32, UNSIGNED); + HexValue tmp = gen_tmp(c, locp, 32, UNSIGNED); + HexValue tmp_64 = gen_tmp(c, locp, 64, UNSIGNED); + + OUT(c, locp, "tcg_gen_subi_i32(", &tmp); + OUT(c, locp, ", ", n, ", 1);\n"); + OUT(c, locp, "tcg_gen_shl_i32(", &tmp); + OUT(c, locp, ", ", &one, ", ", &tmp, ");\n"); + OUT(c, locp, "tcg_gen_ext_i32_i64(", &tmp_64, ", ", &tmp, ");\n"); + OUT(c, locp, "tcg_gen_add_i64(", &res); + OUT(c, locp, ", ", &res, ", ", &tmp_64, ");\n"); + + gen_rvalue_free(c, locp, &one); + gen_rvalue_free(c, locp, &tmp); + gen_rvalue_free(c, locp, &tmp_64); + + return res; +} + +HexValue gen_convround_n(Context *c, + YYLTYPE *locp, + HexValue *src, + HexValue *pos) +{ + /* If input is 64 bit cast it to 32 */ + HexValue src_casted = gen_cast_op(c, locp, src, 32, + src->signedness); + HexValue pos_casted = gen_cast_op(c, locp, pos, 32, + pos->signedness); + + src_casted = rvalue_materialize(c, locp, &src_casted); + pos_casted = rvalue_materialize(c, locp, &pos_casted); + + /* + * r1, r2, and r3 represent the results of three different branches. + * - r1 picked if pos_casted == 0 + * - r2 picked if (src_casted & ((1 << (pos_casted - 1)) - 1)) == 0), + * that is if bits 0, ..., pos_casted-1 are all 0. + * - r3 picked otherwise. + */ + HexValue r1 = gen_rvalue_extend(c, locp, &src_casted); + HexValue r2 = gen_convround_n_b(c, locp, &src_casted, &pos_casted); + HexValue r3 = gen_convround_n_c(c, locp, &src_casted, &pos_casted); + + HexValue l_32 = gen_tmp_value(c, locp, "1", 32, UNSIGNED); + + HexValue cond = gen_tmp(c, locp, 32, UNSIGNED); + HexValue cond_64 = gen_tmp(c, locp, 64, UNSIGNED); + HexValue mask = gen_tmp(c, locp, 32, UNSIGNED); + HexValue n_64 = gen_tmp(c, locp, 64, UNSIGNED); + HexValue res = gen_tmp(c, locp, 64, UNSIGNED); + HexValue zero = gen_tmp_value(c, locp, "0", 64, UNSIGNED); + + /* + * Calculate the condition + * (src_casted & ((1 << (pos_casted - 1)) - 1)) == 0), + * which checks if the bits 0,...,pos-1 are all 0. + */ + OUT(c, locp, "tcg_gen_sub_i32(", &mask); + OUT(c, locp, ", ", &pos_casted, ", ", &l_32, ");\n"); + OUT(c, locp, "tcg_gen_shl_i32(", &mask); + OUT(c, locp, ", ", &l_32, ", ", &mask, ");\n"); + OUT(c, locp, "tcg_gen_sub_i32(", &mask); + OUT(c, locp, ", ", &mask, ", ", &l_32, ");\n"); + OUT(c, locp, "tcg_gen_and_i32(", &cond); + OUT(c, locp, ", ", &src_casted, ", ", &mask, ");\n"); + OUT(c, locp, "tcg_gen_extu_i32_i64(", &cond_64, ", ", &cond, ");\n"); + + OUT(c, locp, "tcg_gen_ext_i32_i64(", &n_64, ", ", &pos_casted, ");\n"); + + /* + * if the bits 0, ..., pos_casted-1 are all 0, then pick r2 otherwise, + * pick r3. + */ + OUT(c, locp, "tcg_gen_movcond_i64"); + OUT(c, locp, "(TCG_COND_EQ, ", &res, ", ", &cond_64, ", ", &zero); + OUT(c, locp, ", ", &r2, ", ", &r3, ");\n"); + + /* Lastly, if the pos_casted == 0, then pick r1 */ + OUT(c, locp, "tcg_gen_movcond_i64"); + OUT(c, locp, "(TCG_COND_EQ, ", &res, ", ", &n_64, ", ", &zero); + OUT(c, locp, ", ", &r1, ", ", &res, ");\n"); + + /* Finally shift back val >>= n */ + OUT(c, locp, "tcg_gen_shr_i64(", &res); + OUT(c, locp, ", ", &res, ", ", &n_64, ");\n"); + + gen_rvalue_free(c, locp, &src_casted); + gen_rvalue_free(c, locp, &pos_casted); + + gen_rvalue_free(c, locp, &r1); + gen_rvalue_free(c, locp, &r2); + gen_rvalue_free(c, locp, &r3); + + gen_rvalue_free(c, locp, &cond); + gen_rvalue_free(c, locp, &cond_64); + gen_rvalue_free(c, locp, &l_32); + gen_rvalue_free(c, locp, &mask); + gen_rvalue_free(c, locp, &n_64); + gen_rvalue_free(c, locp, &zero); + + res = gen_rvalue_truncate(c, locp, &res); + return res; +} + +HexValue gen_round(Context *c, + YYLTYPE *locp, + HexValue *src, + HexValue *pos) { + yyassert(c, locp, src->bit_width <= 32, + "fRNDN not implemented for bit widths > 32!"); + + HexValue src_width = gen_imm_value(c, locp, src->bit_width, 32, UNSIGNED); + HexValue a = gen_extend_op(c, locp, &src_width, 64, src, SIGNED); + a = rvalue_materialize(c, locp, &a); + + src_width = gen_imm_value(c, locp, 5, 32, UNSIGNED); + HexValue b = gen_extend_op(c, locp, &src_width, 64, pos, UNSIGNED); + b = rvalue_materialize(c, locp, &b); + + /* Disable auto-free of values used more than once */ + a.is_manual = true; + b.is_manual = true; + + HexValue res = gen_tmp(c, locp, 64, src->signedness); + + HexValue one = gen_tmp_value(c, locp, "1", 64, UNSIGNED); + HexValue n_m1 = gen_bin_op(c, locp, SUB_OP, &b, &one); + one = gen_tmp_value(c, locp, "1", 64, UNSIGNED); + HexValue shifted = gen_bin_op(c, locp, ASL_OP, &one, &n_m1); + HexValue sum = gen_bin_op(c, locp, ADD_OP, &shifted, &a); + + HexValue zero = gen_tmp_value(c, locp, "0", 64, UNSIGNED); + OUT(c, locp, "tcg_gen_movcond_i64"); + OUT(c, locp, "(TCG_COND_EQ, ", &res, ", ", &b, ", ", &zero); + OUT(c, locp, ", ", &a, ", ", &sum, ");\n"); + + gen_rvalue_free_manual(c, locp, &a); + gen_rvalue_free_manual(c, locp, &b); + gen_rvalue_free(c, locp, &zero); + gen_rvalue_free(c, locp, &sum); + + return res; +} + +/* Circular addressing mode with auto-increment */ +void gen_circ_op(Context *c, + YYLTYPE *locp, + HexValue *addr, + HexValue *increment, + HexValue *modifier) { + HexValue increment_m = *increment; + increment_m = rvalue_materialize(c, locp, &increment_m); + HexValue cs = gen_tmp(c, locp, 32, UNSIGNED); + OUT(c, locp, "gen_read_reg(", &cs, ", HEX_REG_CS0 + MuN);\n"); + OUT(c, + locp, + "gen_helper_fcircadd(", + addr, + ", ", + addr, + ", ", + &increment_m, + ", ", + modifier); + OUT(c, locp, ", ", &cs, ");\n"); + gen_rvalue_free(c, locp, &increment_m); + gen_rvalue_free(c, locp, modifier); + gen_rvalue_free(c, locp, &cs); +} + +HexValue gen_locnt_op(Context *c, YYLTYPE *locp, HexValue *src) +{ + HexValue src_m = *src; + src_m = rvalue_materialize(c, locp, &src_m); + + const char *bit_suffix = src->bit_width == 64 ? "64" : "32"; + HexValue res = gen_tmp(c, locp, src->bit_width == 64 ? 64 : 32, + src->signedness); + res.type = TEMP; + + OUT(c, locp, "tcg_gen_not_i", bit_suffix, "(", + &res, ", ", &src_m, ");\n"); + OUT(c, locp, "tcg_gen_clzi_i", bit_suffix, "(", &res, ", ", &res, ", "); + OUT(c, locp, bit_suffix, ");\n"); + gen_rvalue_free(c, locp, &src_m); + return res; +} + +HexValue gen_ctpop_op(Context *c, YYLTYPE *locp, HexValue *src) +{ + HexValue src_m = *src; + src_m = rvalue_materialize(c, locp, &src_m); + + const char *bit_suffix = src->bit_width == 64 ? "64" : "32"; + HexValue res = gen_tmp(c, locp, src->bit_width == 64 ? 64 : 32, + src->signedness); + res.type = TEMP; + + OUT(c, locp, "tcg_gen_ctpop_i", bit_suffix, + "(", &res, ", ", &src_m, ");\n"); + gen_rvalue_free(c, locp, &src_m); + return res; +} + +HexValue gen_fbrev_4(Context *c, YYLTYPE *locp, HexValue *src) +{ + HexValue src_m = *src; + src_m = rvalue_materialize(c, locp, &src_m); + src_m = gen_rvalue_truncate(c, locp, &src_m); + + HexValue res = gen_tmp(c, locp, 32, UNSIGNED); + + OUT(c, locp, "{\n"); + OUT(c, locp, "TCGTemp *ret = tcgv_i32_temp(", &res, ");\n"); + OUT(c, locp, "TCGTemp *arg = tcgv_i32_temp(", &src_m, ");\n"); + OUT(c, locp, "tcg_gen_callN(helper_fbrev_32, ret, 1, &arg);\n"); + OUT(c, locp, "}\n"); + + gen_rvalue_free(c, locp, &src_m); + + return res; +} + +HexValue gen_fbrev_8(Context *c, YYLTYPE *locp, HexValue *src) +{ + HexValue src_m = *src; + + src_m = gen_rvalue_extend(c, locp, &src_m); + src_m = rvalue_materialize(c, locp, &src_m); + + HexValue res = gen_tmp(c, locp, 64, UNSIGNED); + + OUT(c, locp, "{\n"); + OUT(c, locp, "TCGTemp *ret = tcgv_i64_temp(", &res, ");\n"); + OUT(c, locp, "TCGTemp *arg = tcgv_i64_temp(", &src_m, ");\n"); + OUT(c, locp, "tcg_gen_callN(helper_fbrev_64, ret, 1, &arg);\n"); + OUT(c, locp, "}\n"); + + gen_rvalue_free(c, locp, &src_m); + + return res; +} + +HexValue gen_rotl(Context *c, YYLTYPE *locp, HexValue *src, HexValue *width) +{ + HexValue amount = *width; + if (amount.bit_width < src->bit_width) { + amount = gen_rvalue_extend(c, locp, &amount); + } else { + amount = gen_rvalue_truncate(c, locp, &amount); + } + amount = rvalue_materialize(c, locp, &amount); + const char *suffix = src->bit_width == 64 ? "i64" : "i32"; + + HexValue res = gen_tmp(c, locp, src->bit_width, src->signedness); + OUT(c, locp, "tcg_gen_rotl_", suffix, "(", + &res, ", ", src, ", ", &amount, ");\n"); + gen_rvalue_free(c, locp, src); + gen_rvalue_free(c, locp, &amount); + + return res; +} + +HexValue gen_carry_from_add(Context *c, + YYLTYPE *locp, + HexValue *op1, + HexValue *op2, + HexValue *op3) +{ + HexValue op1_m = rvalue_materialize(c, locp, op1); + HexValue op2_m = rvalue_materialize(c, locp, op2); + HexValue op3_m = rvalue_materialize(c, locp, op3); + op3_m = gen_rvalue_extend(c, locp, &op3_m); + + HexValue zero = gen_tmp_value(c, locp, "0", 64, UNSIGNED); + HexValue res = gen_tmp(c, locp, 64, UNSIGNED); + HexValue cf = gen_tmp(c, locp, 64, UNSIGNED); + OUT(c, locp, "tcg_gen_add2_i64(", &res, ", ", &cf, ", ", &op1_m, ", ", + &zero); + OUT(c, locp, ", ", &op3_m, ", ", &zero, ");\n"); + OUT(c, locp, "tcg_gen_add2_i64(", &res, ", ", &cf, ", ", &res, ", ", &cf); + OUT(c, locp, ", ", &op2_m, ", ", &zero, ");\n"); + + gen_rvalue_free(c, locp, &op1_m); + gen_rvalue_free(c, locp, &op2_m); + gen_rvalue_free(c, locp, &op3_m); + gen_rvalue_free(c, locp, &zero); + gen_rvalue_free(c, locp, &res); + return cf; +} + +void gen_addsat64(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *op1, + HexValue *op2) +{ + HexValue op1_m = rvalue_materialize(c, locp, op1); + HexValue op2_m = rvalue_materialize(c, locp, op2); + OUT(c, locp, "gen_add_sat_i64(", dst, ", ", &op1_m, ", ", &op2_m, ");\n"); +} + +void gen_inst(Context *c, GString *iname) +{ + c->total_insn++; + c->inst.name = iname; + c->inst.allocated = g_array_new(FALSE, FALSE, sizeof(Var)); + c->inst.init_list = g_array_new(FALSE, FALSE, sizeof(HexValue)); + c->inst.strings = g_array_new(FALSE, FALSE, sizeof(GString *)); + EMIT_SIG(c, "void emit_%s(DisasContext *ctx, Insn *insn, Packet *pkt", + c->inst.name->str); +} + + +/* + * Initialize declared but uninitialized registers, but only for + * non-conditional instructions + */ +void gen_inst_init_args(Context *c, YYLTYPE *locp) +{ + if (!c->inst.init_list) { + return; + } + + for (unsigned i = 0; i < c->inst.init_list->len; i++) { + HexValue *val = &g_array_index(c->inst.init_list, HexValue, i); + if (val->type == REGISTER_ARG) { + char reg_id[5]; + reg_compose(c, locp, &val->reg, reg_id); + EMIT_HEAD(c, "tcg_gen_movi_i%u(%s, 0);\n", val->bit_width, reg_id); + } else if (val->type == PREDICATE) { + char suffix = val->is_dotnew ? 'N' : 'V'; + EMIT_HEAD(c, "tcg_gen_movi_i%u(P%c%c, 0);\n", val->bit_width, + val->pred.id, suffix); + } else { + yyassert(c, locp, false, "Invalid arg type!"); + } + } + + /* Free argument init list once we have initialized everything */ + g_array_free(c->inst.init_list, TRUE); + c->inst.init_list = NULL; +} + +void gen_inst_code(Context *c, YYLTYPE *locp) +{ + if (c->inst.error_count != 0) { + fprintf(stderr, + "Parsing of instruction %s generated %d errors!\n", + c->inst.name->str, + c->inst.error_count); + } else { + free_variables(c, locp); + c->implemented_insn++; + fprintf(c->enabled_file, "%s\n", c->inst.name->str); + emit_footer(c); + commit(c); + } + free_instruction(c); +} + +void gen_pred_assign(Context *c, YYLTYPE *locp, HexValue *left_pred, + HexValue *right_pred) +{ + bool is_direct = is_direct_predicate(left_pred); + char pred_id[2] = " "; + pred_id[0] = left_pred->pred.id; + /* Extract predicate TCGv */ + if (is_direct) { + *left_pred = gen_tmp_value(c, locp, "0", 32, UNSIGNED); + } + HexValue r = rvalue_materialize(c, locp, right_pred); + r = gen_rvalue_truncate(c, locp, &r); + /* Extract first 8 bits, and store new predicate value */ + if (is_inside_ternary(c)) { + yyassert(c, locp, !is_direct, "direct pred assign inside ternary op"); + HexValue tmp = gen_tmp(c, locp, r.bit_width, UNSIGNED); + HexValue cond = get_ternary_cond(c, locp); + HexValue zero = gen_tmp_value(c, locp, "0", r.bit_width, UNSIGNED); + OUT(c, locp, "tcg_gen_mov_i32(", &tmp, ", ", &r, ");\n"); + OUT(c, locp, "tcg_gen_andi_i32(", &tmp, ", ", &tmp, ", 0xff);\n"); + OUT(c, locp, "tcg_gen_movcond_i", &r.bit_width); + OUT(c, locp, "(TCG_COND_NE, ", left_pred, ", ", &cond, ", ", &zero); + OUT(c, locp, ", ", &tmp, ", ", left_pred, ");\n"); + gen_rvalue_free(c, locp, &tmp); + gen_rvalue_free(c, locp, &cond); + gen_rvalue_free(c, locp, &zero); + } else { + OUT(c, locp, "tcg_gen_mov_i32(", left_pred, ", ", &r, ");\n"); + OUT(c, locp, "tcg_gen_andi_i32(", left_pred, ", ", left_pred, + ", 0xff);\n"); + } + if (is_direct) { + OUT(c, locp, "gen_log_pred_write(ctx, ", pred_id, ", ", left_pred, + ");\n"); + OUT(c, locp, "ctx_log_pred_write(ctx, ", pred_id, ");\n"); + gen_rvalue_free(c, locp, left_pred); + } + /* Free temporary value */ + gen_rvalue_free(c, locp, &r); +} + +void gen_load(Context *c, YYLTYPE *locp, HexValue *width, + HexSignedness signedness, HexValue *ea, HexValue *dst) +{ + /* Memop width is specified in the load macro */ + assert_signedness(c, locp, signedness); + const char *sign_suffix = (width->imm.value > 4) + ? "" + : ((signedness == UNSIGNED) ? "u" : "s"); + char size_suffix[4] = { 0 }; + /* If dst is a variable, assert that is declared and load the type info */ + if (dst->type == VARID) { + find_variable(c, locp, dst, dst); + } + + snprintf(size_suffix, 4, "%" PRIu64, width->imm.value * 8); + /* Lookup the effective address EA */ + find_variable(c, locp, ea, ea); + OUT(c, locp, "if (insn->slot == 0 && pkt->pkt_has_store_s1) {\n"); + OUT(c, locp, "process_store(ctx, pkt, 1);\n"); + OUT(c, locp, "}\n"); + OUT(c, locp, "tcg_gen_qemu_ld", size_suffix, sign_suffix); + OUT(c, locp, "("); + if (dst->bit_width > width->imm.value * 8) { + /* + * Cast to the correct TCG type if necessary, to avoid implict cast + * warnings. This is needed when the width of the destination var is + * larger than the size of the requested load. + */ + OUT(c, locp, "(TCGv) "); + } + OUT(c, locp, dst, ", ", ea, ", ctx->mem_idx);\n"); + /* If the var in EA was truncated it is now a tmp HexValue, so free it. */ + gen_rvalue_free(c, locp, ea); +} + +void gen_store(Context *c, YYLTYPE *locp, HexValue *width, HexValue *ea, + HexValue *src) +{ + HexValue src_m = *src; + /* Memop width is specified in the store macro */ + int mem_width = width->imm.value; + /* Lookup the effective address EA */ + find_variable(c, locp, ea, ea); + src_m = rvalue_materialize(c, locp, &src_m); + OUT(c, locp, "gen_store", &mem_width, "(cpu_env, ", ea, ", ", &src_m); + OUT(c, locp, ", ctx, insn->slot);\n"); + gen_rvalue_free(c, locp, &src_m); + /* If the var in ea was truncated it is now a tmp HexValue, so free it. */ + gen_rvalue_free(c, locp, ea); +} + +void gen_sethalf(Context *c, YYLTYPE *locp, HexCast *sh, HexValue *n, + HexValue *dst, HexValue *value) +{ + yyassert(c, locp, n->type == IMMEDIATE, + "Deposit index must be immediate!\n"); + if (dst->type == VARID) { + find_variable(c, locp, dst, dst); + } + + gen_deposit_op(c, locp, dst, value, n, sh); +} + +void gen_setbits(Context *c, YYLTYPE *locp, HexValue *hi, HexValue *lo, + HexValue *dst, HexValue *value) +{ + yyassert(c, locp, hi->type == IMMEDIATE && + hi->imm.type == VALUE && + lo->type == IMMEDIATE && + lo->imm.type == VALUE, + "Range deposit needs immediate values!\n"); + + *value = gen_rvalue_truncate(c, locp, value); + unsigned len = hi->imm.value + 1 - lo->imm.value; + HexValue tmp = gen_tmp(c, locp, 32, value->signedness); + /* Emit an `and` to ensure `value` is either 0 or 1. */ + OUT(c, locp, "tcg_gen_andi_i32(", &tmp, ", ", value, ", 1);\n"); + /* Use `neg` to map 0 -> 0 and 1 -> 0xffff... */ + OUT(c, locp, "tcg_gen_neg_i32(", &tmp, ", ", &tmp, ");\n"); + OUT(c, locp, "tcg_gen_deposit_i32(", dst, ", ", dst, + ", ", &tmp, ", "); + OUT(c, locp, lo, ", ", &len, ");\n"); + + gen_rvalue_free(c, locp, &tmp); + gen_rvalue_free(c, locp, hi); + gen_rvalue_free(c, locp, lo); + gen_rvalue_free(c, locp, value); +} + +int gen_if_cond(Context *c, YYLTYPE *locp, HexValue *cond) +{ + /* Generate an end label, if false branch to that label */ + OUT(c, locp, "TCGLabel *if_label_", &c->inst.if_count, + " = gen_new_label();\n"); + *cond = rvalue_materialize(c, locp, cond); + const char *bit_suffix = (cond->bit_width == 64) ? "i64" : "i32"; + OUT(c, locp, "tcg_gen_brcondi_", bit_suffix, "(TCG_COND_EQ, ", cond, + ", 0, if_label_", &c->inst.if_count, ");\n"); + gen_rvalue_free(c, locp, cond); + return c->inst.if_count++; +} + +int gen_if_else(Context *c, YYLTYPE *locp, int index) +{ + /* Generate label to jump if else is not verified */ + OUT(c, locp, "TCGLabel *if_label_", &c->inst.if_count, + " = gen_new_label();\n"); + int if_index = c->inst.if_count; + c->inst.if_count++; + /* Jump out of the else statement */ + OUT(c, locp, "tcg_gen_br(if_label_", &if_index, ");\n"); + /* Fix the else label */ + OUT(c, locp, "gen_set_label(if_label_", &index, ");\n"); + return if_index; +} + +HexValue gen_rvalue_pred(Context *c, YYLTYPE *locp, HexValue *pred) +{ + /* Predicted instructions need to zero out result args */ + gen_inst_init_args(c, locp); + + if (is_direct_predicate(pred)) { + bool is_dotnew = pred->is_dotnew; + char predicate_id[2] = { pred->pred.id, '\0' }; + char *pred_str = (char *) &predicate_id; + *pred = gen_tmp_value(c, locp, "0", 32, UNSIGNED); + if (is_dotnew) { + OUT(c, locp, "tcg_gen_mov_i32(", pred, + ", hex_new_pred_value["); + OUT(c, locp, pred_str, "]);\n"); + } else { + OUT(c, locp, "gen_read_preg(", pred, ", ", pred_str, ");\n"); + } + } + + return *pred; +} + +HexValue gen_rvalue_var(Context *c, YYLTYPE *locp, HexValue *var) +{ + find_variable(c, locp, var, var); + return *var; +} + +HexValue gen_rvalue_mpy(Context *c, YYLTYPE *locp, HexMpy *mpy, + HexValue *op1, HexValue *op2) +{ + assert_signedness(c, locp, mpy->first_signedness); + assert_signedness(c, locp, mpy->second_signedness); + *op1 = gen_cast_op(c, locp, op1, mpy->first_bit_width * 2, + mpy->first_signedness); + /* Handle fMPTY3216.. */ + if (mpy->first_bit_width == 32) { + *op2 = gen_cast_op(c, locp, op2, 64, mpy->second_signedness); + } else { + *op2 = gen_cast_op(c, locp, op2, mpy->second_bit_width * 2, + mpy->second_signedness); + } + HexValue ret = gen_bin_op(c, locp, MUL_OP, op1, op2); + /* Handle special cases required by the language */ + if (mpy->first_bit_width == 16 && mpy->second_bit_width == 16) { + HexValue src_width = gen_imm_value(c, locp, 32, 32, UNSIGNED); + assert_signedness(c, locp, mpy->first_signedness); + assert_signedness(c, locp, mpy->second_signedness); + bool is_unsigned = (mpy->first_signedness == UNSIGNED + && mpy->second_signedness == UNSIGNED); + HexSignedness signedness = is_unsigned ? UNSIGNED : SIGNED; + ret = gen_extend_op(c, locp, &src_width, 64, &ret, + signedness); + } + return ret; +} + +static inline HexValue gen_rvalue_simple_unary(Context *c, YYLTYPE *locp, + HexValue *value, + const char *c_code, + const char *tcg_code) +{ + unsigned bit_width = (value->bit_width == 64) ? 64 : 32; + HexValue res; + memset(&res, 0, sizeof(HexValue)); + if (value->type == IMMEDIATE) { + res = gen_imm_qemu_tmp(c, locp, bit_width, value->signedness); + gen_c_int_type(c, locp, value->bit_width, value->signedness); + OUT(c, locp, " ", &res, " = ", c_code, "(", value, ");\n"); + } else { + res = gen_tmp(c, locp, bit_width, value->signedness); + OUT(c, locp, tcg_code, "_i", &bit_width, "(", &res, ", ", value, + ");\n"); + gen_rvalue_free(c, locp, value); + } + return res; +} + + +HexValue gen_rvalue_not(Context *c, YYLTYPE *locp, HexValue *value) +{ + return gen_rvalue_simple_unary(c, locp, value, "~", "tcg_gen_not"); +} + +HexValue gen_rvalue_notl(Context *c, YYLTYPE *locp, HexValue *value) +{ + unsigned bit_width = (value->bit_width == 64) ? 64 : 32; + HexValue res; + memset(&res, 0, sizeof(HexValue)); + if (value->type == IMMEDIATE) { + res = gen_imm_qemu_tmp(c, locp, bit_width, value->signedness); + gen_c_int_type(c, locp, value->bit_width, value->signedness); + OUT(c, locp, " ", &res, " = !", value, ";\n"); + } else { + res = gen_tmp(c, locp, bit_width, value->signedness); + HexValue zero = gen_tmp_value(c, locp, "0", bit_width, UNSIGNED); + HexValue one = gen_tmp_value(c, locp, "0xff", bit_width, UNSIGNED); + OUT(c, locp, "tcg_gen_movcond_i", &bit_width); + OUT(c, locp, "(TCG_COND_EQ, ", &res, ", ", value, ", ", &zero); + OUT(c, locp, ", ", &one, ", ", &zero, ");\n"); + gen_rvalue_free(c, locp, value); + gen_rvalue_free(c, locp, &zero); + gen_rvalue_free(c, locp, &one); + } + return res; +} + +void gen_set_overflow(Context *c, YYLTYPE *locp, HexValue *value) +{ + HexValue value_m = *value; + + HexValue ovfl = gen_tmp(c, locp, 32, UNSIGNED); + OUT(c, locp, "GET_USR_FIELD(USR_OVF, ", &ovfl, ");\n"); + + if (is_inside_ternary(c)) { + /* Inside ternary operator, need to take care of the side-effect */ + HexValue cond = get_ternary_cond(c, locp); + value_m = rvalue_materialize(c, locp, &value_m); + bool is_64bit = cond.bit_width == 64; + unsigned bit_width = cond.bit_width; + if (is_64bit) { + ovfl = gen_rvalue_extend(c, locp, &ovfl); + value_m = gen_rvalue_extend(c, locp, &value_m); + } + HexValue tmp = gen_tmp_value(c, locp, "0", cond.bit_width, UNSIGNED); + OUT(c, locp, "tcg_gen_movcond_i", &bit_width, + "(TCG_COND_NE, ", &tmp, ", ", &cond); + OUT(c, locp, ", ", &tmp, ", ", &value_m, ", ", &tmp, ");\n"); + OUT(c, locp, "tcg_gen_or_i", &bit_width, "(", + &ovfl, ", ", &ovfl, ", ", &tmp, ");\n"); + if (is_64bit) { + ovfl = gen_rvalue_truncate(c, locp, &ovfl); + } + gen_rvalue_free(c, locp, &tmp); + gen_rvalue_free(c, locp, &cond); + } else { + if (value_m.type == IMMEDIATE) { + OUT(c, locp, "tcg_gen_ori_i32(", + &ovfl, ", ", &ovfl, ", ", &value_m, ");\n"); + } else { + OUT(c, locp, "tcg_gen_or_i32(", + &ovfl, ", ", &ovfl, ", ", &value_m, ");\n"); + } + } + + OUT(c, locp, "SET_USR_FIELD(USR_OVF, ", &ovfl, ");\n"); + + gen_rvalue_free(c, locp, &ovfl); + gen_rvalue_free(c, locp, &value_m); +} + +HexValue gen_rvalue_sat(Context *c, YYLTYPE *locp, HexSat *sat, + HexValue *width, HexValue *value) +{ + if (sat->set_overflow) { + yyassert(c, locp, width->imm.value < value->bit_width, + "To compute overflow, source width must be greater than" + "saturation width!"); + } + assert_signedness(c, locp, sat->signedness); + HexValue res = gen_tmp(c, locp, value->bit_width, sat->signedness); + const char *bit_suffix = (value->bit_width == 64) ? "i64" : "i32"; + const char *unsigned_str = (sat->signedness == UNSIGNED) ? "u" : ""; + if (sat->set_overflow) { + HexValue ovfl = gen_tmp(c, locp, 32, sat->signedness); + OUT(c, locp, "gen_sat", unsigned_str, "_", bit_suffix, "_ovfl("); + OUT(c, locp, &ovfl, ", ", &res, ", ", value, ", ", &width->imm.value, + ");\n"); + gen_set_overflow(c, locp, &ovfl); + } else { + OUT(c, locp, "gen_sat", unsigned_str, "_", bit_suffix, "(", &res, ", "); + OUT(c, locp, value, ", ", &width->imm.value, ");\n"); + } + gen_rvalue_free(c, locp, value); + return res; +} + +HexValue gen_rvalue_fscr(Context *c, YYLTYPE *locp, HexValue *value) +{ + HexValue key = gen_tmp(c, locp, 64, UNSIGNED); + HexValue res = gen_tmp(c, locp, 64, UNSIGNED); + *value = gen_rvalue_extend(c, locp, value); + HexValue frame_key = gen_tmp(c, locp, 32, UNSIGNED); + OUT(c, locp, "gen_read_reg(", &frame_key, ", HEX_REG_FRAMEKEY);\n"); + OUT(c, locp, "tcg_gen_concat_i32_i64(", + &key, ", ", &frame_key, ", ", &frame_key, ");\n"); + OUT(c, locp, "tcg_gen_xor_i64(", &res, ", ", value, ", ", &key, ");\n"); + gen_rvalue_free(c, locp, &key); + gen_rvalue_free(c, locp, &frame_key); + gen_rvalue_free(c, locp, value); + return res; +} + +HexValue gen_rvalue_abs(Context *c, YYLTYPE *locp, HexValue *value) +{ + return gen_rvalue_simple_unary(c, locp, value, "abs", "tcg_gen_abs"); +} + +HexValue gen_rvalue_neg(Context *c, YYLTYPE *locp, HexValue *value) +{ + return gen_rvalue_simple_unary(c, locp, value, "-", "tcg_gen_neg"); +} + +HexValue gen_rvalue_brev(Context *c, YYLTYPE *locp, HexValue *value) +{ + yyassert(c, locp, value->bit_width <= 32, + "fbrev not implemented for 64-bit integers!"); + HexValue res = gen_tmp(c, locp, value->bit_width, value->signedness); + *value = rvalue_materialize(c, locp, value); + OUT(c, locp, "gen_helper_fbrev(", &res, ", ", value, ");\n"); + gen_rvalue_free(c, locp, value); + return res; +} + +HexValue gen_rvalue_ternary(Context *c, YYLTYPE *locp, HexValue *cond, + HexValue *true_branch, HexValue *false_branch) +{ + bool is_64bit = (true_branch->bit_width == 64) || + (false_branch->bit_width == 64); + int bit_width = (is_64bit) ? 64 : 32; + if (is_64bit) { + *cond = gen_rvalue_extend(c, locp, cond); + *true_branch = gen_rvalue_extend(c, locp, true_branch); + *false_branch = gen_rvalue_extend(c, locp, false_branch); + } else { + *cond = gen_rvalue_truncate(c, locp, cond); + } + *cond = rvalue_materialize(c, locp, cond); + *true_branch = rvalue_materialize(c, locp, true_branch); + *false_branch = rvalue_materialize(c, locp, false_branch); + HexValue res = gen_tmp(c, locp, bit_width, UNSIGNED); + HexValue zero = gen_tmp_value(c, locp, "0", bit_width, UNSIGNED); + + OUT(c, locp, "tcg_gen_movcond_i", &bit_width); + OUT(c, locp, "(TCG_COND_NE, ", &res, ", ", cond, ", ", &zero); + OUT(c, locp, ", ", true_branch, ", ", false_branch, ");\n"); + + assert(c->ternary->len > 0); + Ternary *ternary = &g_array_index(c->ternary, Ternary, c->ternary->len - 1); + gen_rvalue_free_manual(c, locp, &ternary->cond); + g_array_remove_index(c->ternary, c->ternary->len - 1); + + gen_rvalue_free(c, locp, &zero); + gen_rvalue_free(c, locp, cond); + gen_rvalue_free(c, locp, true_branch); + gen_rvalue_free(c, locp, false_branch); + return res; +} + +const char *cond_to_str(TCGCond cond) +{ + switch (cond) { + case TCG_COND_NEVER: + return "TCG_COND_NEVER"; + case TCG_COND_ALWAYS: + return "TCG_COND_ALWAYS"; + case TCG_COND_EQ: + return "TCG_COND_EQ"; + case TCG_COND_NE: + return "TCG_COND_NE"; + case TCG_COND_LT: + return "TCG_COND_LT"; + case TCG_COND_GE: + return "TCG_COND_GE"; + case TCG_COND_LE: + return "TCG_COND_LE"; + case TCG_COND_GT: + return "TCG_COND_GT"; + case TCG_COND_LTU: + return "TCG_COND_LTU"; + case TCG_COND_GEU: + return "TCG_COND_GEU"; + case TCG_COND_LEU: + return "TCG_COND_LEU"; + case TCG_COND_GTU: + return "TCG_COND_GTU"; + default: + abort(); + } +} + +void emit_arg(Context *c, YYLTYPE *locp, HexValue *arg) +{ + switch (arg->type) { + case REGISTER_ARG: + if (arg->reg.type == DOTNEW) { + EMIT_SIG(c, ", TCGv N%cN", arg->reg.id); + } else { + bool is64 = (arg->bit_width == 64); + const char *type = is64 ? "TCGv_i64" : "TCGv_i32"; + char reg_id[5]; + reg_compose(c, locp, &(arg->reg), reg_id); + EMIT_SIG(c, ", %s %s", type, reg_id); + /* MuV register requires also MuN to provide its index */ + if (arg->reg.type == MODIFIER) { + EMIT_SIG(c, ", int MuN"); + } + } + break; + case PREDICATE: + { + char suffix = arg->is_dotnew ? 'N' : 'V'; + EMIT_SIG(c, ", TCGv P%c%c", arg->pred.id, suffix); + } + break; + default: + { + fprintf(stderr, "emit_arg got unsupported argument!"); + abort(); + } + } +} + +void emit_footer(Context *c) +{ + EMIT(c, "}\n"); + EMIT(c, "\n"); +} + +void track_string(Context *c, GString *s) +{ + g_array_append_val(c->inst.strings, s); +} + +void free_variables(Context *c, YYLTYPE *locp) +{ + for (unsigned i = 0; i < c->inst.allocated->len; ++i) { + Var *var = &g_array_index(c->inst.allocated, Var, i); + const char *suffix = var->bit_width == 64 ? "i64" : "i32"; + OUT(c, locp, "tcg_temp_free_", suffix, "(", var->name->str, ");\n"); + } +} + +void free_instruction(Context *c) +{ + assert(c->ternary->len == 0); + /* Free the strings */ + g_string_truncate(c->signature_str, 0); + g_string_truncate(c->out_str, 0); + g_string_truncate(c->header_str, 0); + /* Free strings allocated by the instruction */ + for (unsigned i = 0; i < c->inst.strings->len; i++) { + g_string_free(g_array_index(c->inst.strings, GString*, i), TRUE); + } + g_array_free(c->inst.strings, TRUE); + /* Free INAME token value */ + g_string_free(c->inst.name, TRUE); + /* Free variables and registers */ + g_array_free(c->inst.allocated, TRUE); + /* Initialize instruction-specific portion of the context */ + memset(&(c->inst), 0, sizeof(Inst)); +} + +void assert_signedness(Context *c, + YYLTYPE *locp, + HexSignedness signedness) { + yyassert(c, + locp, + signedness != UNKNOWN_SIGNEDNESS, + "Unspecified signedness"); +} diff --git a/target/hexagon/idef-parser/parser-helpers.h b/target/hexagon/idef-parser/parser-helpers.h new file mode 100644 index 0000000000..ab8d3da874 --- /dev/null +++ b/target/hexagon/idef-parser/parser-helpers.h @@ -0,0 +1,379 @@ +/* + * Copyright(c) 2019-2021 rev.ng Labs Srl. All Rights Reserved. + * + * This library is free software; you can redistribute it and/or + * modify it under the terms of the GNU Lesser General Public + * License as published by the Free Software Foundation; either + * version 2 of the License, or (at your option) any later version. + * + * This library 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 + * Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this library; if not, see . + */ + +#ifndef PARSER_HELPERS_H +#define PARSER_HELPERS_H + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "tcg/tcg-cond.h" + +#include "idef-parser.tab.h" +#include "idef-parser.yy.h" +#include "idef-parser.h" + +/* Decomment this to disable yyasserts */ +/* #define NDEBUG */ + +#define ERR_LINE_CONTEXT 40 + +#define START_COMMENT "/" "*" +#define END_COMMENT "*" "/" + +void yyerror(YYLTYPE *locp, + yyscan_t scanner __attribute__((unused)), + Context *c, + const char *s); + +#ifndef NDEBUG +#define yyassert(context, locp, condition, msg) \ + if (!(condition)) { \ + yyerror(locp, (context)->scanner, (context), (msg)); \ + } +#endif + +bool is_direct_predicate(HexValue *value); + +/** + * Print functions + */ + +void str_print(Context *c, YYLTYPE *locp, const char *string); + +void uint8_print(Context *c, YYLTYPE *locp, uint8_t *num); + +void uint64_print(Context *c, YYLTYPE *locp, uint64_t *num); + +void int_print(Context *c, YYLTYPE *locp, int *num); + +void uint_print(Context *c, YYLTYPE *locp, unsigned *num); + +void tmp_print(Context *c, YYLTYPE *locp, HexTmp *tmp); + +void pred_print(Context *c, YYLTYPE *locp, HexPred *pred, bool is_dotnew); + +void reg_compose(Context *c, YYLTYPE *locp, HexReg *reg, char reg_id[5]); + +void reg_print(Context *c, YYLTYPE *locp, HexReg *reg); + +void imm_print(Context *c, YYLTYPE *locp, HexImm *imm); + +void var_print(Context *c, YYLTYPE *locp, HexVar *var); + +void rvalue_print(Context *c, YYLTYPE *locp, void *pointer); + +void out_assert(Context *c, YYLTYPE *locp, void *dummy); + +/** + * Copies output code buffer into stdout + */ +void commit(Context *c); + +#define OUT_IMPL(c, locp, x) \ + _Generic(*x, \ + char: str_print, \ + uint8_t: uint8_print, \ + uint64_t: uint64_print, \ + int: int_print, \ + unsigned: uint_print, \ + HexValue: rvalue_print, \ + default: out_assert \ + )(c, locp, x); + +/* FOREACH macro */ +#define FE_1(c, locp, WHAT, X) WHAT(c, locp, X) +#define FE_2(c, locp, WHAT, X, ...) \ + WHAT(c, locp, X)FE_1(c, locp, WHAT, __VA_ARGS__) +#define FE_3(c, locp, WHAT, X, ...) \ + WHAT(c, locp, X)FE_2(c, locp, WHAT, __VA_ARGS__) +#define FE_4(c, locp, WHAT, X, ...) \ + WHAT(c, locp, X)FE_3(c, locp, WHAT, __VA_ARGS__) +#define FE_5(c, locp, WHAT, X, ...) \ + WHAT(c, locp, X)FE_4(c, locp, WHAT, __VA_ARGS__) +#define FE_6(c, locp, WHAT, X, ...) \ + WHAT(c, locp, X)FE_5(c, locp, WHAT, __VA_ARGS__) +#define FE_7(c, locp, WHAT, X, ...) \ + WHAT(c, locp, X)FE_6(c, locp, WHAT, __VA_ARGS__) +#define FE_8(c, locp, WHAT, X, ...) \ + WHAT(c, locp, X)FE_7(c, locp, WHAT, __VA_ARGS__) +#define FE_9(c, locp, WHAT, X, ...) \ + WHAT(c, locp, X)FE_8(c, locp, WHAT, __VA_ARGS__) +/* repeat as needed */ + +#define GET_MACRO(_1, _2, _3, _4, _5, _6, _7, _8, _9, NAME, ...) NAME + +#define FOR_EACH(c, locp, action, ...) \ + do { \ + GET_MACRO(__VA_ARGS__, \ + FE_9, \ + FE_8, \ + FE_7, \ + FE_6, \ + FE_5, \ + FE_4, \ + FE_3, \ + FE_2, \ + FE_1)(c, locp, action, \ + __VA_ARGS__) \ + } while (0) + +#define OUT(c, locp, ...) FOR_EACH((c), (locp), OUT_IMPL, __VA_ARGS__) + +const char *cmp_swap(Context *c, YYLTYPE *locp, const char *type); + +/** + * Temporary values creation + */ + +HexValue gen_tmp(Context *c, + YYLTYPE *locp, + unsigned bit_width, + HexSignedness signedness); + +HexValue gen_tmp_value(Context *c, + YYLTYPE *locp, + const char *value, + unsigned bit_width, + HexSignedness signedness); + +HexValue gen_imm_value(Context *c __attribute__((unused)), + YYLTYPE *locp, + int value, + unsigned bit_width, + HexSignedness signedness); + +HexValue gen_imm_qemu_tmp(Context *c, YYLTYPE *locp, unsigned bit_width, + HexSignedness signedness); + +void gen_rvalue_free(Context *c, YYLTYPE *locp, HexValue *rvalue); + +HexValue rvalue_materialize(Context *c, YYLTYPE *locp, HexValue *rvalue); + +HexValue gen_rvalue_extend(Context *c, YYLTYPE *locp, HexValue *rvalue); + +HexValue gen_rvalue_truncate(Context *c, YYLTYPE *locp, HexValue *rvalue); + +void gen_varid_allocate(Context *c, + YYLTYPE *locp, + HexValue *varid, + unsigned bit_width, + HexSignedness signedness); + +/** + * Code generation functions + */ + +HexValue gen_bin_cmp(Context *c, + YYLTYPE *locp, + TCGCond type, + HexValue *op1, + HexValue *op2); + +HexValue gen_bin_op(Context *c, + YYLTYPE *locp, + OpType type, + HexValue *op1, + HexValue *op2); + +HexValue gen_cast_op(Context *c, + YYLTYPE *locp, + HexValue *src, + unsigned target_width, + HexSignedness signedness); + +/** + * gen_extend_op extends a region of src_width_ptr bits stored in a + * value_ptr to the size of dst_width. Note: src_width_ptr is a + * HexValue * to handle the special case where it is unknown at + * translation time. + */ +HexValue gen_extend_op(Context *c, + YYLTYPE *locp, + HexValue *src_width, + unsigned dst_width, + HexValue *value, + HexSignedness signedness); + +void gen_rdeposit_op(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *value, + HexValue *begin, + HexValue *width); + +void gen_deposit_op(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *value, + HexValue *index, + HexCast *cast); + +HexValue gen_rextract_op(Context *c, + YYLTYPE *locp, + HexValue *src, + int begin, + int width); + +HexValue gen_extract_op(Context *c, + YYLTYPE *locp, + HexValue *src, + HexValue *index, + HexExtract *extract); + +HexValue gen_read_reg(Context *c, YYLTYPE *locp, HexValue *reg); + +void gen_write_reg(Context *c, YYLTYPE *locp, HexValue *reg, HexValue *value); + +void gen_assign(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *value); + +HexValue gen_convround(Context *c, + YYLTYPE *locp, + HexValue *src); + +HexValue gen_round(Context *c, + YYLTYPE *locp, + HexValue *src, + HexValue *position); + +HexValue gen_convround_n(Context *c, + YYLTYPE *locp, + HexValue *src, + HexValue *pos); + +/** + * Circular addressing mode with auto-increment + */ +void gen_circ_op(Context *c, + YYLTYPE *locp, + HexValue *addr, + HexValue *increment, + HexValue *modifier); + +HexValue gen_locnt_op(Context *c, YYLTYPE *locp, HexValue *src); + +HexValue gen_ctpop_op(Context *c, YYLTYPE *locp, HexValue *src); + +HexValue gen_fbrev_4(Context *c, YYLTYPE *locp, HexValue *src); + +HexValue gen_fbrev_8(Context *c, YYLTYPE *locp, HexValue *src); + +HexValue gen_rotl(Context *c, YYLTYPE *locp, HexValue *src, HexValue *n); + +HexValue gen_deinterleave(Context *c, YYLTYPE *locp, HexValue *mixed); + +HexValue gen_interleave(Context *c, + YYLTYPE *locp, + HexValue *odd, + HexValue *even); + +HexValue gen_carry_from_add(Context *c, + YYLTYPE *locp, + HexValue *op1, + HexValue *op2, + HexValue *op3); + +void gen_addsat64(Context *c, + YYLTYPE *locp, + HexValue *dst, + HexValue *op1, + HexValue *op2); + +void gen_inst(Context *c, GString *iname); + +void gen_inst_init_args(Context *c, YYLTYPE *locp); + +void gen_inst_code(Context *c, YYLTYPE *locp); + +void gen_pred_assign(Context *c, YYLTYPE *locp, HexValue *left_pred, + HexValue *right_pred); + +void gen_load(Context *c, YYLTYPE *locp, HexValue *size, + HexSignedness signedness, HexValue *ea, HexValue *dst); + +void gen_store(Context *c, YYLTYPE *locp, HexValue *size, HexValue *ea, + HexValue *src); + +void gen_sethalf(Context *c, YYLTYPE *locp, HexCast *sh, HexValue *n, + HexValue *dst, HexValue *value); + +void gen_setbits(Context *c, YYLTYPE *locp, HexValue *hi, HexValue *lo, + HexValue *dst, HexValue *value); + +int gen_if_cond(Context *c, YYLTYPE *locp, HexValue *cond); + +int gen_if_else(Context *c, YYLTYPE *locp, int index); + +HexValue gen_rvalue_pred(Context *c, YYLTYPE *locp, HexValue *pred); + +HexValue gen_rvalue_var(Context *c, YYLTYPE *locp, HexValue *var); + +HexValue gen_rvalue_mpy(Context *c, YYLTYPE *locp, HexMpy *mpy, HexValue *op1, + HexValue *op2); + +HexValue gen_rvalue_not(Context *c, YYLTYPE *locp, HexValue *value); + +HexValue gen_rvalue_notl(Context *c, YYLTYPE *locp, HexValue *value); + +HexValue gen_rvalue_sat(Context *c, YYLTYPE *locp, HexSat *sat, HexValue *n, + HexValue *value); + +HexValue gen_rvalue_ternary(Context *c, YYLTYPE *locp, HexValue *cond, + HexValue *true_branch, HexValue *false_branch); + +HexValue gen_rvalue_fscr(Context *c, YYLTYPE *locp, HexValue *value); + +HexValue gen_rvalue_abs(Context *c, YYLTYPE *locp, HexValue *value); + +HexValue gen_rvalue_neg(Context *c, YYLTYPE *locp, HexValue *value); + +HexValue gen_rvalue_brev(Context *c, YYLTYPE *locp, HexValue *value); + +void gen_set_overflow(Context *c, YYLTYPE *locp, HexValue *value); + +HexValue gen_rvalue_ternary(Context *c, YYLTYPE *locp, HexValue *cond, + HexValue *true_branch, HexValue *false_branch); + +const char *cond_to_str(TCGCond cond); + +void emit_header(Context *c); + +void emit_arg(Context *c, YYLTYPE *locp, HexValue *arg); + +void emit_footer(Context *c); + +void track_string(Context *c, GString *s); + +void free_variables(Context *c, YYLTYPE *locp); + +void free_instruction(Context *c); + +void assert_signedness(Context *c, + YYLTYPE *locp, + HexSignedness signedness); + +#endif /* PARSER_HELPERS_h */ diff --git a/target/hexagon/meson.build b/target/hexagon/meson.build index 077951d8d3..96ffe497da 100644 --- a/target/hexagon/meson.build +++ b/target/hexagon/meson.build @@ -188,7 +188,7 @@ idef_parser_input_generated = custom_target( command: [python, files('gen_idef_parser_funcs.py'), semantics_generated, attribs_def, '@OUTPUT@'], ) -idef_parser_input_generated_prep = custom_target( +preprocessed_idef_parser_input_generated = custom_target( 'idef_parser_input.preprocessed.h.inc', output: 'idef_parser_input.preprocessed.h.inc', input: idef_parser_input_generated, @@ -199,4 +199,29 @@ flex = generator(find_program('flex'), output: ['@BASENAME@.yy.c', '@BASENAME@.yy.h'], arguments: ['-o', '@OUTPUT0@', '--header-file=@OUTPUT1@', '@INPUT@']) +bison = generator(find_program('bison'), + output: ['@BASENAME@.tab.c', '@BASENAME@.tab.h'], + arguments: ['@INPUT@', '--defines=@OUTPUT1@', '--output=@OUTPUT0@']) + +glib_dep = dependency('glib-2.0', native: true) + +idef_parser = executable('idef-parser', + [flex.process(idef_parser_dir / 'idef-parser.lex'), + bison.process(idef_parser_dir / 'idef-parser.y'), + idef_parser_dir / 'parser-helpers.c'], + include_directories: ['idef-parser', '../../include/'], + dependencies: [glib_dep], + c_args: ['-Wextra'], + native: true) + +idef_generated_tcg = custom_target( + 'idef-generated-tcg', + output: ['idef-generated-emitter.c', + 'idef-generated-emitter.h.inc', + 'idef-generated-enabled-instructions'], + input: preprocessed_idef_parser_input_generated, + depend_files: [hex_common_py], + command: [idef_parser, '@INPUT@', '@OUTPUT0@', '@OUTPUT1@', '@OUTPUT2@'], +) + target_arch += {'hexagon': hexagon_ss}