From patchwork Wed Feb 17 23:40:13 2021 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Richard Henderson X-Patchwork-Id: 384134 Delivered-To: patch@linaro.org Received: by 2002:a02:c80e:0:0:0:0:0 with SMTP id p14csp3224097jao; Wed, 17 Feb 2021 15:54:23 -0800 (PST) X-Google-Smtp-Source: ABdhPJxV0cZtS6JaQAvdgvMibfwHxD51wdKWgzDOJ/9tX4iervs76yDuNrohU+t+29oyKIIw5w07 X-Received: by 2002:a25:b88d:: with SMTP id w13mr2601089ybj.500.1613606063219; Wed, 17 Feb 2021 15:54:23 -0800 (PST) ARC-Seal: i=1; a=rsa-sha256; t=1613606063; cv=none; d=google.com; s=arc-20160816; b=S3YuGUq1laZyAMs0csro6rUXds1HFTPBYxugJtOAdj9JZTm+tlogkSgCyiyAQ8XgO/ WoFlYIxjD1VpDTk1A/h8RkpYyyCEz4vow/SwPXXGrWTCLRgOut5I3jHwzMON5yLuDnMT WwHHBufkl4jpFJSLo2RtyYZAA1dZzhGxXQiakNL0C93rZ9WNxZIPFAajxoB9NyOMIjwn 72EzdxqU1zCY2TMunFKDOwkEN0MX5YABjKVHRS8zsTqUcIPFKGWvQv9b2BU1MZPs1dm8 T5KF56sAVwPg0YCz7SM8It+ENJvMnHg7wmUaCr2k4EZf5trUpsL2GYSMzcI1hngRO6Rt kgqw== ARC-Message-Signature: i=1; a=rsa-sha256; c=relaxed/relaxed; d=google.com; s=arc-20160816; h=sender:errors-to:cc:list-subscribe:list-help:list-post:list-archive :list-unsubscribe:list-id:precedence:content-transfer-encoding :mime-version:references:in-reply-to:message-id:date:subject:to:from :dkim-signature; bh=Sa9/UkqLJdUujZPLxSk8Uy/zXCZTvfLyfmkiIQGV7WM=; b=jkQIlR+bGcN9OwdHDRJyzy0WfAd+1CB8NaG1nGZYahUWOqqPpv+bCGq+giM9f0Xakt h/6sC8KT0KH8v/LDkRRK1/kbDn0YFKpp+5aaa8B8riC132uP0YPF/+Aw3rgDA5bCAJcr D9wYK7sqRIoaPiSW69G1Pm3unGAWQ4MD68W13oipxqMe1mJMkXRCsEtHqwWkJYRFMosb 0MRgWvPFcD9ljB0hrUgOu5hwaz3MetJMpebGZYvqsmORXsQJypMl6WDf1FhbW3v6c77s WH/INpcPcYj91jdvZYuQxOgsDUBk0p/xEi47C2ok3T6XttTl77+oIJi/PHolAkR2oBK3 C3ZQ== ARC-Authentication-Results: i=1; mx.google.com; dkim=pass header.i=@linaro.org header.s=google header.b=RYdvFC7y; spf=pass (google.com: domain of qemu-devel-bounces+patch=linaro.org@nongnu.org designates 209.51.188.17 as permitted sender) smtp.mailfrom="qemu-devel-bounces+patch=linaro.org@nongnu.org"; dmarc=pass (p=NONE sp=NONE dis=NONE) header.from=linaro.org Return-Path: Received: from lists.gnu.org (lists.gnu.org. [209.51.188.17]) by mx.google.com with ESMTPS id d16si3667514ybn.137.2021.02.17.15.54.23 for (version=TLS1_2 cipher=ECDHE-ECDSA-CHACHA20-POLY1305 bits=256/256); Wed, 17 Feb 2021 15:54:23 -0800 (PST) Received-SPF: pass (google.com: domain of qemu-devel-bounces+patch=linaro.org@nongnu.org designates 209.51.188.17 as permitted sender) client-ip=209.51.188.17; Authentication-Results: mx.google.com; dkim=pass header.i=@linaro.org header.s=google header.b=RYdvFC7y; spf=pass (google.com: domain of qemu-devel-bounces+patch=linaro.org@nongnu.org designates 209.51.188.17 as permitted sender) smtp.mailfrom="qemu-devel-bounces+patch=linaro.org@nongnu.org"; dmarc=pass (p=NONE sp=NONE dis=NONE) header.from=linaro.org Received: from localhost ([::1]:44926 helo=lists1p.gnu.org) by lists.gnu.org with esmtp (Exim 4.90_1) (envelope-from ) id 1lCWeE-0007XV-M2 for patch@linaro.org; Wed, 17 Feb 2021 18:54:22 -0500 Received: from eggs.gnu.org ([2001:470:142:3::10]:51084) by lists.gnu.org with esmtps (TLS1.2:ECDHE_RSA_AES_256_GCM_SHA384:256) (Exim 4.90_1) (envelope-from ) id 1lCWS2-0001B6-Ed for qemu-devel@nongnu.org; Wed, 17 Feb 2021 18:41:49 -0500 Received: from mail-pf1-x435.google.com ([2607:f8b0:4864:20::435]:36662) by eggs.gnu.org with esmtps (TLS1.2:ECDHE_RSA_AES_128_GCM_SHA256:128) (Exim 4.90_1) (envelope-from ) id 1lCWRm-0004nN-22 for qemu-devel@nongnu.org; Wed, 17 Feb 2021 18:41:44 -0500 Received: by mail-pf1-x435.google.com with SMTP id z15so41841pfc.3 for ; Wed, 17 Feb 2021 15:41:28 -0800 (PST) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=linaro.org; s=google; h=from:to:cc:subject:date:message-id:in-reply-to:references :mime-version:content-transfer-encoding; bh=Sa9/UkqLJdUujZPLxSk8Uy/zXCZTvfLyfmkiIQGV7WM=; b=RYdvFC7yj2MB9wpV6fdCpOv5xsakv8c8d4RcYYYYJHJX8+UuSyNOtdHLbiKuxbHHIj LsMRrf/0qG6cq6PQ5gYHMG4a1gaF+IkL7ytrwvsWN7zr7Pf2AL9RhHCaAXzVhdRbO5EG ESWrOF6QMWb3tEHBhenYNzBV5hG8xklO6ZBFJxXlIHk/HtZ7vrKlrKws61X3wlbEUfYW iwzJl2csgM7IIKz125UUNzPG9PxI4+kJ5MRXnr7RX56V3lgBVQBMh+SjtA44Hz4RxxVw Zol7na3Na7CQjK+Pmc47RtiOsmqy9bETxxG4nwPlnHtfgLay4I+OpU/0DPGaSFrlUPf1 RMYg== X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20161025; h=x-gm-message-state:from:to:cc:subject:date:message-id:in-reply-to :references:mime-version:content-transfer-encoding; bh=Sa9/UkqLJdUujZPLxSk8Uy/zXCZTvfLyfmkiIQGV7WM=; b=s/VgkNfPPSbZQmK0KWLth0fiwcnIxoV3GOl/nr6bc5i3qQF4XozTA5/sRfTRtmfNeY ZlxSHz4/dad/6rACj8k9ZSbkufUUt7rqBrKH8yuhjtef93kipjGcU+D9DAFV7lenbM8h HvjA+AN/bX/bIndcpUCuOHrTi4WNcn7ekIzrnx7YX5jh4RDJXaITjb5n3womNWSQAbnU +8lkRuIcknEc+EraOL+114MrUZwmc+/hrM2fdGEC0tI26R2aOIp4o3qcXcj2vBxBdydr 6aiog/jj6itrDDmqg7tuorQMmUEm1M+hEcqqN4xho43G4Wb3odXH5GnI0fDZOieIv7OU CTJw== X-Gm-Message-State: AOAM533uctEqgrQ2fsFKZLERElNFMGMD96uWigjDIQimu4Du2cozaw0q +gy2FQd74pcNdGD8T67UFSeayZBAPC9kfQ== X-Received: by 2002:a63:f21:: with SMTP id e33mr1598812pgl.84.1613605287273; Wed, 17 Feb 2021 15:41:27 -0800 (PST) Received: from localhost.localdomain (047-051-160-125.biz.spectrum.com. [47.51.160.125]) by smtp.gmail.com with ESMTPSA id c21sm3950355pgh.0.2021.02.17.15.41.25 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Wed, 17 Feb 2021 15:41:26 -0800 (PST) From: Richard Henderson To: qemu-devel@nongnu.org Subject: [PULL 25/35] Hexagon (target/hexagon) macros Date: Wed, 17 Feb 2021 15:40:13 -0800 Message-Id: <20210217234023.1742406-26-richard.henderson@linaro.org> X-Mailer: git-send-email 2.25.1 In-Reply-To: <20210217234023.1742406-1-richard.henderson@linaro.org> References: <20210217234023.1742406-1-richard.henderson@linaro.org> MIME-Version: 1.0 Received-SPF: pass client-ip=2607:f8b0:4864:20::435; envelope-from=richard.henderson@linaro.org; helo=mail-pf1-x435.google.com 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, RCVD_IN_DNSWL_NONE=-0.0001, SPF_HELO_NONE=0.001, SPF_PASS=-0.001 autolearn=unavailable autolearn_force=no X-Spam_action: no action X-BeenThere: qemu-devel@nongnu.org X-Mailman-Version: 2.1.23 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Cc: peter.maydell@linaro.org, Taylor Simpson Errors-To: qemu-devel-bounces+patch=linaro.org@nongnu.org Sender: "Qemu-devel" From: Taylor Simpson macros to interface with the generator macros referenced in instruction semantics Signed-off-by: Taylor Simpson Reviewed-by: Richard Henderson Message-Id: <1612763186-18161-25-git-send-email-tsimpson@quicinc.com> Signed-off-by: Richard Henderson --- target/hexagon/macros.h | 592 ++++++++++++++++++++++++++++++++++++++++ 1 file changed, 592 insertions(+) create mode 100644 target/hexagon/macros.h -- 2.25.1 diff --git a/target/hexagon/macros.h b/target/hexagon/macros.h new file mode 100644 index 0000000000..78c4efb5cb --- /dev/null +++ b/target/hexagon/macros.h @@ -0,0 +1,592 @@ +/* + * Copyright(c) 2019-2021 Qualcomm Innovation Center, Inc. All Rights Reserved. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 2 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, see . + */ + +#ifndef HEXAGON_MACROS_H +#define HEXAGON_MACROS_H + +#include "cpu.h" +#include "hex_regs.h" +#include "reg_fields.h" + +#ifdef QEMU_GENERATE +#define READ_REG(dest, NUM) gen_read_reg(dest, NUM) +#define READ_PREG(dest, NUM) gen_read_preg(dest, (NUM)) +#else +#define READ_REG(NUM) (env->gpr[(NUM)]) +#define READ_PREG(NUM) (env->pred[NUM]) + +#define WRITE_RREG(NUM, VAL) log_reg_write(env, NUM, VAL, slot) +#define WRITE_PREG(NUM, VAL) log_pred_write(env, NUM, VAL) +#endif + +#define PCALIGN 4 +#define PCALIGN_MASK (PCALIGN - 1) + +#define GET_FIELD(FIELD, REGIN) \ + fEXTRACTU_BITS(REGIN, reg_field_info[FIELD].width, \ + reg_field_info[FIELD].offset) + +#ifdef QEMU_GENERATE +#define GET_USR_FIELD(FIELD, DST) \ + tcg_gen_extract_tl(DST, hex_gpr[HEX_REG_USR], \ + reg_field_info[FIELD].offset, \ + reg_field_info[FIELD].width) + +#define TYPE_INT(X) __builtin_types_compatible_p(typeof(X), int) +#define TYPE_TCGV(X) __builtin_types_compatible_p(typeof(X), TCGv) +#define TYPE_TCGV_I64(X) __builtin_types_compatible_p(typeof(X), TCGv_i64) + +#define SET_USR_FIELD_FUNC(X) \ + __builtin_choose_expr(TYPE_INT(X), \ + gen_set_usr_fieldi, \ + __builtin_choose_expr(TYPE_TCGV(X), \ + gen_set_usr_field, (void)0)) +#define SET_USR_FIELD(FIELD, VAL) \ + SET_USR_FIELD_FUNC(VAL)(FIELD, VAL) +#else +#define GET_USR_FIELD(FIELD) \ + fEXTRACTU_BITS(env->gpr[HEX_REG_USR], reg_field_info[FIELD].width, \ + reg_field_info[FIELD].offset) + +#define SET_USR_FIELD(FIELD, VAL) \ + fINSERT_BITS(env->gpr[HEX_REG_USR], reg_field_info[FIELD].width, \ + reg_field_info[FIELD].offset, (VAL)) +#endif + +#ifdef QEMU_GENERATE +/* + * Section 5.5 of the Hexagon V67 Programmer's Reference Manual + * + * Slot 1 store with slot 0 load + * A slot 1 store operation with a slot 0 load operation can appear in a packet. + * The packet attribute :mem_noshuf inhibits the instruction reordering that + * would otherwise be done by the assembler. For example: + * { + * memw(R5) = R2 // slot 1 store + * R3 = memh(R6) // slot 0 load + * }:mem_noshuf + * Unlike most packetized operations, these memory operations are not executed + * in parallel (Section 3.3.1). Instead, the store instruction in Slot 1 + * effectively executes first, followed by the load instruction in Slot 0. If + * the addresses of the two operations are overlapping, the load will receive + * the newly stored data. This feature is supported in processor versions + * V65 or greater. + * + * + * For qemu, we look for a load in slot 0 when there is a store in slot 1 + * in the same packet. When we see this, we call a helper that merges the + * bytes from the store buffer with the value loaded from memory. + */ +#define CHECK_NOSHUF \ + do { \ + if (insn->slot == 0 && pkt->pkt_has_store_s1) { \ + process_store(ctx, pkt, 1); \ + } \ + } while (0) + +#define MEM_LOAD1s(DST, VA) \ + do { \ + CHECK_NOSHUF; \ + tcg_gen_qemu_ld8s(DST, VA, ctx->mem_idx); \ + } while (0) +#define MEM_LOAD1u(DST, VA) \ + do { \ + CHECK_NOSHUF; \ + tcg_gen_qemu_ld8u(DST, VA, ctx->mem_idx); \ + } while (0) +#define MEM_LOAD2s(DST, VA) \ + do { \ + CHECK_NOSHUF; \ + tcg_gen_qemu_ld16s(DST, VA, ctx->mem_idx); \ + } while (0) +#define MEM_LOAD2u(DST, VA) \ + do { \ + CHECK_NOSHUF; \ + tcg_gen_qemu_ld16u(DST, VA, ctx->mem_idx); \ + } while (0) +#define MEM_LOAD4s(DST, VA) \ + do { \ + CHECK_NOSHUF; \ + tcg_gen_qemu_ld32s(DST, VA, ctx->mem_idx); \ + } while (0) +#define MEM_LOAD4u(DST, VA) \ + do { \ + CHECK_NOSHUF; \ + tcg_gen_qemu_ld32s(DST, VA, ctx->mem_idx); \ + } while (0) +#define MEM_LOAD8u(DST, VA) \ + do { \ + CHECK_NOSHUF; \ + tcg_gen_qemu_ld64(DST, VA, ctx->mem_idx); \ + } while (0) +#else +#define MEM_LOAD1s(VA) ((int8_t)mem_load1(env, slot, VA)) +#define MEM_LOAD1u(VA) ((uint8_t)mem_load1(env, slot, VA)) +#define MEM_LOAD2s(VA) ((int16_t)mem_load2(env, slot, VA)) +#define MEM_LOAD2u(VA) ((uint16_t)mem_load2(env, slot, VA)) +#define MEM_LOAD4s(VA) ((int32_t)mem_load4(env, slot, VA)) +#define MEM_LOAD4u(VA) ((uint32_t)mem_load4(env, slot, VA)) +#define MEM_LOAD8s(VA) ((int64_t)mem_load8(env, slot, VA)) +#define MEM_LOAD8u(VA) ((uint64_t)mem_load8(env, slot, VA)) + +#define MEM_STORE1(VA, DATA, SLOT) log_store32(env, VA, DATA, 1, SLOT) +#define MEM_STORE2(VA, DATA, SLOT) log_store32(env, VA, DATA, 2, SLOT) +#define MEM_STORE4(VA, DATA, SLOT) log_store32(env, VA, DATA, 4, SLOT) +#define MEM_STORE8(VA, DATA, SLOT) log_store64(env, VA, DATA, 8, SLOT) +#endif + +#define CANCEL cancel_slot(env, slot) + +#define LOAD_CANCEL(EA) do { CANCEL; } while (0) + +#ifdef QEMU_GENERATE +static inline void gen_pred_cancel(TCGv pred, int slot_num) + { + TCGv slot_mask = tcg_const_tl(1 << slot_num); + TCGv tmp = tcg_temp_new(); + TCGv zero = tcg_const_tl(0); + TCGv one = tcg_const_tl(1); + tcg_gen_or_tl(slot_mask, hex_slot_cancelled, slot_mask); + tcg_gen_andi_tl(tmp, pred, 1); + tcg_gen_movcond_tl(TCG_COND_EQ, hex_slot_cancelled, tmp, zero, + slot_mask, hex_slot_cancelled); + tcg_temp_free(slot_mask); + tcg_temp_free(tmp); + tcg_temp_free(zero); + tcg_temp_free(one); +} +#define PRED_LOAD_CANCEL(PRED, EA) \ + gen_pred_cancel(PRED, insn->is_endloop ? 4 : insn->slot) +#endif + +#define STORE_CANCEL(EA) { env->slot_cancelled |= (1 << slot); } + +#define fMAX(A, B) (((A) > (B)) ? (A) : (B)) + +#define fMIN(A, B) (((A) < (B)) ? (A) : (B)) + +#define fABS(A) (((A) < 0) ? (-(A)) : (A)) +#define fINSERT_BITS(REG, WIDTH, OFFSET, INVAL) \ + REG = ((WIDTH) ? deposit64(REG, (OFFSET), (WIDTH), (INVAL)) : REG) +#define fEXTRACTU_BITS(INREG, WIDTH, OFFSET) \ + ((WIDTH) ? extract64((INREG), (OFFSET), (WIDTH)) : 0LL) +#define fEXTRACTU_BIDIR(INREG, WIDTH, OFFSET) \ + (fZXTN(WIDTH, 32, fBIDIR_LSHIFTR((INREG), (OFFSET), 4_8))) +#define fEXTRACTU_RANGE(INREG, HIBIT, LOWBIT) \ + (((HIBIT) - (LOWBIT) + 1) ? \ + extract64((INREG), (LOWBIT), ((HIBIT) - (LOWBIT) + 1)) : \ + 0LL) + +#define f8BITSOF(VAL) ((VAL) ? 0xff : 0x00) + +#ifdef QEMU_GENERATE +#define fLSBOLD(VAL) tcg_gen_andi_tl(LSB, (VAL), 1) +#else +#define fLSBOLD(VAL) ((VAL) & 1) +#endif + +#ifdef QEMU_GENERATE +#define fLSBNEW(PVAL) tcg_gen_mov_tl(LSB, (PVAL)) +#define fLSBNEW0 tcg_gen_mov_tl(LSB, hex_new_pred_value[0]) +#define fLSBNEW1 tcg_gen_mov_tl(LSB, hex_new_pred_value[1]) +#else +#define fLSBNEW(PVAL) (PVAL) +#define fLSBNEW0 new_pred_value(env, 0) +#define fLSBNEW1 new_pred_value(env, 1) +#endif + +#ifdef QEMU_GENERATE +static inline void gen_logical_not(TCGv dest, TCGv src) +{ + TCGv one = tcg_const_tl(1); + TCGv zero = tcg_const_tl(0); + + tcg_gen_movcond_tl(TCG_COND_NE, dest, src, zero, zero, one); + + tcg_temp_free(one); + tcg_temp_free(zero); +} +#define fLSBOLDNOT(VAL) \ + do { \ + tcg_gen_andi_tl(LSB, (VAL), 1); \ + tcg_gen_xori_tl(LSB, LSB, 1); \ + } while (0) +#define fLSBNEWNOT(PNUM) \ + gen_logical_not(LSB, (PNUM)) +#else +#define fLSBNEWNOT(PNUM) (!fLSBNEW(PNUM)) +#define fLSBOLDNOT(VAL) (!fLSBOLD(VAL)) +#define fLSBNEW0NOT (!fLSBNEW0) +#define fLSBNEW1NOT (!fLSBNEW1) +#endif + +#define fNEWREG(VAL) ((int32_t)(VAL)) + +#define fNEWREG_ST(VAL) (VAL) + +#define fSATUVALN(N, VAL) \ + ({ \ + fSET_OVERFLOW(); \ + ((VAL) < 0) ? 0 : ((1LL << (N)) - 1); \ + }) +#define fSATVALN(N, VAL) \ + ({ \ + fSET_OVERFLOW(); \ + ((VAL) < 0) ? (-(1LL << ((N) - 1))) : ((1LL << ((N) - 1)) - 1); \ + }) +#define fZXTN(N, M, VAL) (((N) != 0) ? extract64((VAL), 0, (N)) : 0LL) +#define fSXTN(N, M, VAL) (((N) != 0) ? sextract64((VAL), 0, (N)) : 0LL) +#define fSATN(N, VAL) \ + ((fSXTN(N, 64, VAL) == (VAL)) ? (VAL) : fSATVALN(N, VAL)) +#define fADDSAT64(DST, A, B) \ + do { \ + uint64_t __a = fCAST8u(A); \ + uint64_t __b = fCAST8u(B); \ + uint64_t __sum = __a + __b; \ + uint64_t __xor = __a ^ __b; \ + const uint64_t __mask = 0x8000000000000000ULL; \ + if (__xor & __mask) { \ + DST = __sum; \ + } \ + else if ((__a ^ __sum) & __mask) { \ + if (__sum & __mask) { \ + DST = 0x7FFFFFFFFFFFFFFFLL; \ + fSET_OVERFLOW(); \ + } else { \ + DST = 0x8000000000000000LL; \ + fSET_OVERFLOW(); \ + } \ + } else { \ + DST = __sum; \ + } \ + } while (0) +#define fSATUN(N, VAL) \ + ((fZXTN(N, 64, VAL) == (VAL)) ? (VAL) : fSATUVALN(N, VAL)) +#define fSATH(VAL) (fSATN(16, VAL)) +#define fSATUH(VAL) (fSATUN(16, VAL)) +#define fSATUB(VAL) (fSATUN(8, VAL)) +#define fSATB(VAL) (fSATN(8, VAL)) +#define fIMMEXT(IMM) (IMM = IMM) +#define fMUST_IMMEXT(IMM) fIMMEXT(IMM) + +#define fPCALIGN(IMM) IMM = (IMM & ~PCALIGN_MASK) + +#define fREAD_LR() (READ_REG(HEX_REG_LR)) + +#define fWRITE_LR(A) WRITE_RREG(HEX_REG_LR, A) +#define fWRITE_FP(A) WRITE_RREG(HEX_REG_FP, A) +#define fWRITE_SP(A) WRITE_RREG(HEX_REG_SP, A) + +#define fREAD_SP() (READ_REG(HEX_REG_SP)) +#define fREAD_LC0 (READ_REG(HEX_REG_LC0)) +#define fREAD_LC1 (READ_REG(HEX_REG_LC1)) +#define fREAD_SA0 (READ_REG(HEX_REG_SA0)) +#define fREAD_SA1 (READ_REG(HEX_REG_SA1)) +#define fREAD_FP() (READ_REG(HEX_REG_FP)) +#ifdef FIXME +/* Figure out how to get insn->extension_valid to helper */ +#define fREAD_GP() \ + (insn->extension_valid ? 0 : READ_REG(HEX_REG_GP)) +#else +#define fREAD_GP() READ_REG(HEX_REG_GP) +#endif +#define fREAD_PC() (READ_REG(HEX_REG_PC)) + +#define fREAD_NPC() (env->next_PC & (0xfffffffe)) + +#define fREAD_P0() (READ_PREG(0)) +#define fREAD_P3() (READ_PREG(3)) + +#define fCHECK_PCALIGN(A) + +#define fWRITE_NPC(A) write_new_pc(env, A) + +#define fBRANCH(LOC, TYPE) fWRITE_NPC(LOC) +#define fJUMPR(REGNO, TARGET, TYPE) fBRANCH(TARGET, COF_TYPE_JUMPR) +#define fHINTJR(TARGET) { /* Not modelled in qemu */} +#define fCALL(A) \ + do { \ + fWRITE_LR(fREAD_NPC()); \ + fBRANCH(A, COF_TYPE_CALL); \ + } while (0) +#define fCALLR(A) \ + do { \ + fWRITE_LR(fREAD_NPC()); \ + fBRANCH(A, COF_TYPE_CALLR); \ + } while (0) +#define fWRITE_LOOP_REGS0(START, COUNT) \ + do { \ + WRITE_RREG(HEX_REG_LC0, COUNT); \ + WRITE_RREG(HEX_REG_SA0, START); \ + } while (0) +#define fWRITE_LOOP_REGS1(START, COUNT) \ + do { \ + WRITE_RREG(HEX_REG_LC1, COUNT); \ + WRITE_RREG(HEX_REG_SA1, START);\ + } while (0) +#define fWRITE_LC0(VAL) WRITE_RREG(HEX_REG_LC0, VAL) +#define fWRITE_LC1(VAL) WRITE_RREG(HEX_REG_LC1, VAL) + +#define fCARRY_FROM_ADD(A, B, C) carry_from_add64(A, B, C) + +#define fSET_OVERFLOW() SET_USR_FIELD(USR_OVF, 1) +#define fSET_LPCFG(VAL) SET_USR_FIELD(USR_LPCFG, (VAL)) +#define fGET_LPCFG (GET_USR_FIELD(USR_LPCFG)) +#define fWRITE_P0(VAL) WRITE_PREG(0, VAL) +#define fWRITE_P1(VAL) WRITE_PREG(1, VAL) +#define fWRITE_P2(VAL) WRITE_PREG(2, VAL) +#define fWRITE_P3(VAL) WRITE_PREG(3, VAL) +#define fPART1(WORK) if (part1) { WORK; return; } +#define fCAST4u(A) ((uint32_t)(A)) +#define fCAST4s(A) ((int32_t)(A)) +#define fCAST8u(A) ((uint64_t)(A)) +#define fCAST8s(A) ((int64_t)(A)) +#define fCAST4_4s(A) ((int32_t)(A)) +#define fCAST4_4u(A) ((uint32_t)(A)) +#define fCAST4_8s(A) ((int64_t)((int32_t)(A))) +#define fCAST4_8u(A) ((uint64_t)((uint32_t)(A))) +#define fCAST8_8s(A) ((int64_t)(A)) +#define fCAST8_8u(A) ((uint64_t)(A)) +#define fCAST2_8s(A) ((int64_t)((int16_t)(A))) +#define fCAST2_8u(A) ((uint64_t)((uint16_t)(A))) +#define fZE8_16(A) ((int16_t)((uint8_t)(A))) +#define fSE8_16(A) ((int16_t)((int8_t)(A))) +#define fSE16_32(A) ((int32_t)((int16_t)(A))) +#define fZE16_32(A) ((uint32_t)((uint16_t)(A))) +#define fSE32_64(A) ((int64_t)((int32_t)(A))) +#define fZE32_64(A) ((uint64_t)((uint32_t)(A))) +#define fSE8_32(A) ((int32_t)((int8_t)(A))) +#define fZE8_32(A) ((int32_t)((uint8_t)(A))) +#define fMPY8UU(A, B) (int)(fZE8_16(A) * fZE8_16(B)) +#define fMPY8US(A, B) (int)(fZE8_16(A) * fSE8_16(B)) +#define fMPY8SU(A, B) (int)(fSE8_16(A) * fZE8_16(B)) +#define fMPY8SS(A, B) (int)((short)(A) * (short)(B)) +#define fMPY16SS(A, B) fSE32_64(fSE16_32(A) * fSE16_32(B)) +#define fMPY16UU(A, B) fZE32_64(fZE16_32(A) * fZE16_32(B)) +#define fMPY16SU(A, B) fSE32_64(fSE16_32(A) * fZE16_32(B)) +#define fMPY16US(A, B) fMPY16SU(B, A) +#define fMPY32SS(A, B) (fSE32_64(A) * fSE32_64(B)) +#define fMPY32UU(A, B) (fZE32_64(A) * fZE32_64(B)) +#define fMPY32SU(A, B) (fSE32_64(A) * fZE32_64(B)) +#define fMPY3216SS(A, B) (fSE32_64(A) * fSXTN(16, 64, B)) +#define fMPY3216SU(A, B) (fSE32_64(A) * fZXTN(16, 64, B)) +#define fROUND(A) (A + 0x8000) +#define fCLIP(DST, SRC, U) \ + do { \ + int32_t maxv = (1 << U) - 1; \ + int32_t minv = -(1 << U); \ + DST = fMIN(maxv, fMAX(SRC, minv)); \ + } while (0) +#define fCRND(A) ((((A) & 0x3) == 0x3) ? ((A) + 1) : ((A))) +#define fRNDN(A, N) ((((N) == 0) ? (A) : (((fSE32_64(A)) + (1 << ((N) - 1)))))) +#define fCRNDN(A, N) (conv_round(A, N)) +#define fADD128(A, B) (int128_add(A, B)) +#define fSUB128(A, B) (int128_sub(A, B)) +#define fSHIFTR128(A, B) (int128_rshift(A, B)) +#define fSHIFTL128(A, B) (int128_lshift(A, B)) +#define fAND128(A, B) (int128_and(A, B)) +#define fCAST8S_16S(A) (int128_exts64(A)) +#define fCAST16S_8S(A) (int128_getlo(A)) + +#define fEA_RI(REG, IMM) \ + do { \ + EA = REG + IMM; \ + } while (0) +#define fEA_RRs(REG, REG2, SCALE) \ + do { \ + EA = REG + (REG2 << SCALE); \ + } while (0) +#define fEA_IRs(IMM, REG, SCALE) \ + do { \ + EA = IMM + (REG << SCALE); \ + } while (0) + +#ifdef QEMU_GENERATE +#define fEA_IMM(IMM) tcg_gen_movi_tl(EA, IMM) +#define fEA_REG(REG) tcg_gen_mov_tl(EA, REG) +#define fPM_I(REG, IMM) tcg_gen_addi_tl(REG, REG, IMM) +#define fPM_M(REG, MVAL) tcg_gen_add_tl(REG, REG, MVAL) +#else +#define fEA_IMM(IMM) do { EA = (IMM); } while (0) +#define fEA_REG(REG) do { EA = (REG); } while (0) +#define fEA_GPI(IMM) do { EA = (fREAD_GP() + (IMM)); } while (0) +#define fPM_I(REG, IMM) do { REG = REG + (IMM); } while (0) +#define fPM_M(REG, MVAL) do { REG = REG + (MVAL); } while (0) +#endif +#define fSCALE(N, A) (((int64_t)(A)) << N) +#define fSATW(A) fSATN(32, ((long long)A)) +#define fSAT(A) fSATN(32, (A)) +#define fSAT_ORIG_SHL(A, ORIG_REG) \ + ((((int32_t)((fSAT(A)) ^ ((int32_t)(ORIG_REG)))) < 0) \ + ? fSATVALN(32, ((int32_t)(ORIG_REG))) \ + : ((((ORIG_REG) > 0) && ((A) == 0)) ? fSATVALN(32, (ORIG_REG)) \ + : fSAT(A))) +#define fPASS(A) A +#define fBIDIR_SHIFTL(SRC, SHAMT, REGSTYPE) \ + (((SHAMT) < 0) ? ((fCAST##REGSTYPE(SRC) >> ((-(SHAMT)) - 1)) >> 1) \ + : (fCAST##REGSTYPE(SRC) << (SHAMT))) +#define fBIDIR_ASHIFTL(SRC, SHAMT, REGSTYPE) \ + fBIDIR_SHIFTL(SRC, SHAMT, REGSTYPE##s) +#define fBIDIR_LSHIFTL(SRC, SHAMT, REGSTYPE) \ + fBIDIR_SHIFTL(SRC, SHAMT, REGSTYPE##u) +#define fBIDIR_ASHIFTL_SAT(SRC, SHAMT, REGSTYPE) \ + (((SHAMT) < 0) ? ((fCAST##REGSTYPE##s(SRC) >> ((-(SHAMT)) - 1)) >> 1) \ + : fSAT_ORIG_SHL(fCAST##REGSTYPE##s(SRC) << (SHAMT), (SRC))) +#define fBIDIR_SHIFTR(SRC, SHAMT, REGSTYPE) \ + (((SHAMT) < 0) ? ((fCAST##REGSTYPE(SRC) << ((-(SHAMT)) - 1)) << 1) \ + : (fCAST##REGSTYPE(SRC) >> (SHAMT))) +#define fBIDIR_ASHIFTR(SRC, SHAMT, REGSTYPE) \ + fBIDIR_SHIFTR(SRC, SHAMT, REGSTYPE##s) +#define fBIDIR_LSHIFTR(SRC, SHAMT, REGSTYPE) \ + fBIDIR_SHIFTR(SRC, SHAMT, REGSTYPE##u) +#define fBIDIR_ASHIFTR_SAT(SRC, SHAMT, REGSTYPE) \ + (((SHAMT) < 0) ? fSAT_ORIG_SHL((fCAST##REGSTYPE##s(SRC) \ + << ((-(SHAMT)) - 1)) << 1, (SRC)) \ + : (fCAST##REGSTYPE##s(SRC) >> (SHAMT))) +#define fASHIFTR(SRC, SHAMT, REGSTYPE) (fCAST##REGSTYPE##s(SRC) >> (SHAMT)) +#define fLSHIFTR(SRC, SHAMT, REGSTYPE) \ + (((SHAMT) >= 64) ? 0 : (fCAST##REGSTYPE##u(SRC) >> (SHAMT))) +#define fROTL(SRC, SHAMT, REGSTYPE) \ + (((SHAMT) == 0) ? (SRC) : ((fCAST##REGSTYPE##u(SRC) << (SHAMT)) | \ + ((fCAST##REGSTYPE##u(SRC) >> \ + ((sizeof(SRC) * 8) - (SHAMT)))))) +#define fROTR(SRC, SHAMT, REGSTYPE) \ + (((SHAMT) == 0) ? (SRC) : ((fCAST##REGSTYPE##u(SRC) >> (SHAMT)) | \ + ((fCAST##REGSTYPE##u(SRC) << \ + ((sizeof(SRC) * 8) - (SHAMT)))))) +#define fASHIFTL(SRC, SHAMT, REGSTYPE) \ + (((SHAMT) >= 64) ? 0 : (fCAST##REGSTYPE##s(SRC) << (SHAMT))) + +#ifdef QEMU_GENERATE +#define fLOAD(NUM, SIZE, SIGN, EA, DST) MEM_LOAD##SIZE##SIGN(DST, EA) +#else +#define fLOAD(NUM, SIZE, SIGN, EA, DST) \ + DST = (size##SIZE##SIGN##_t)MEM_LOAD##SIZE##SIGN(EA) +#endif + +#define fMEMOP(NUM, SIZE, SIGN, EA, FNTYPE, VALUE) + +#define fGET_FRAMEKEY() READ_REG(HEX_REG_FRAMEKEY) +#define fFRAME_SCRAMBLE(VAL) ((VAL) ^ (fCAST8u(fGET_FRAMEKEY()) << 32)) +#define fFRAME_UNSCRAMBLE(VAL) fFRAME_SCRAMBLE(VAL) + +#ifdef CONFIG_USER_ONLY +#define fFRAMECHECK(ADDR, EA) do { } while (0) /* Not modelled in linux-user */ +#else +/* System mode not implemented yet */ +#define fFRAMECHECK(ADDR, EA) g_assert_not_reached(); +#endif + +#ifdef QEMU_GENERATE +#define fLOAD_LOCKED(NUM, SIZE, SIGN, EA, DST) \ + gen_load_locked##SIZE##SIGN(DST, EA, ctx->mem_idx); +#endif + +#define fSTORE(NUM, SIZE, EA, SRC) MEM_STORE##SIZE(EA, SRC, slot) + +#ifdef QEMU_GENERATE +#define fSTORE_LOCKED(NUM, SIZE, EA, SRC, PRED) \ + gen_store_conditional##SIZE(env, ctx, PdN, PRED, EA, SRC); +#endif + +#define fGETBYTE(N, SRC) ((int8_t)((SRC >> ((N) * 8)) & 0xff)) +#define fGETUBYTE(N, SRC) ((uint8_t)((SRC >> ((N) * 8)) & 0xff)) + +#define fSETBYTE(N, DST, VAL) \ + do { \ + DST = (DST & ~(0x0ffLL << ((N) * 8))) | \ + (((uint64_t)((VAL) & 0x0ffLL)) << ((N) * 8)); \ + } while (0) +#define fGETHALF(N, SRC) ((int16_t)((SRC >> ((N) * 16)) & 0xffff)) +#define fGETUHALF(N, SRC) ((uint16_t)((SRC >> ((N) * 16)) & 0xffff)) +#define fSETHALF(N, DST, VAL) \ + do { \ + DST = (DST & ~(0x0ffffLL << ((N) * 16))) | \ + (((uint64_t)((VAL) & 0x0ffff)) << ((N) * 16)); \ + } while (0) +#define fSETHALFw fSETHALF +#define fSETHALFd fSETHALF + +#define fGETWORD(N, SRC) \ + ((int64_t)((int32_t)((SRC >> ((N) * 32)) & 0x0ffffffffLL))) +#define fGETUWORD(N, SRC) \ + ((uint64_t)((uint32_t)((SRC >> ((N) * 32)) & 0x0ffffffffLL))) + +#define fSETWORD(N, DST, VAL) \ + do { \ + DST = (DST & ~(0x0ffffffffLL << ((N) * 32))) | \ + (((VAL) & 0x0ffffffffLL) << ((N) * 32)); \ + } while (0) + +#define fSETBIT(N, DST, VAL) \ + do { \ + DST = (DST & ~(1ULL << (N))) | (((uint64_t)(VAL)) << (N)); \ + } while (0) + +#define fGETBIT(N, SRC) (((SRC) >> N) & 1) +#define fSETBITS(HI, LO, DST, VAL) \ + do { \ + int j; \ + for (j = LO; j <= HI; j++) { \ + fSETBIT(j, DST, VAL); \ + } \ + } while (0) +#define fCOUNTONES_4(VAL) ctpop32(VAL) +#define fCOUNTONES_8(VAL) ctpop64(VAL) +#define fBREV_8(VAL) revbit64(VAL) +#define fBREV_4(VAL) revbit32(VAL) +#define fCL1_8(VAL) clo64(VAL) +#define fCL1_4(VAL) clo32(VAL) +#define fINTERLEAVE(ODD, EVEN) interleave(ODD, EVEN) +#define fDEINTERLEAVE(MIXED) deinterleave(MIXED) +#define fHIDE(A) A +#define fCONSTLL(A) A##LL +#define fECHO(A) (A) + +#define fTRAP(TRAPTYPE, IMM) helper_raise_exception(env, HEX_EXCP_TRAP0) +#define fPAUSE(IMM) + +#define fALIGN_REG_FIELD_VALUE(FIELD, VAL) \ + ((VAL) << reg_field_info[FIELD].offset) +#define fGET_REG_FIELD_MASK(FIELD) \ + (((1 << reg_field_info[FIELD].width) - 1) << reg_field_info[FIELD].offset) +#define fREAD_REG_FIELD(REG, FIELD) \ + fEXTRACTU_BITS(env->gpr[HEX_REG_##REG], \ + reg_field_info[FIELD].width, \ + reg_field_info[FIELD].offset) +#define fGET_FIELD(VAL, FIELD) +#define fSET_FIELD(VAL, FIELD, NEWVAL) +#define fBARRIER() +#define fSYNCH() +#define fISYNC() +#define fDCFETCH(REG) \ + do { (void)REG; } while (0) /* Nothing to do in qemu */ +#define fICINVA(REG) \ + do { (void)REG; } while (0) /* Nothing to do in qemu */ +#define fL2FETCH(ADDR, HEIGHT, WIDTH, STRIDE, FLAGS) +#define fDCCLEANA(REG) \ + do { (void)REG; } while (0) /* Nothing to do in qemu */ +#define fDCCLEANINVA(REG) \ + do { (void)REG; } while (0) /* Nothing to do in qemu */ + +#define fDCZEROA(REG) do { env->dczero_addr = (REG); } while (0) + +#define fBRANCH_SPECULATE_STALL(DOTNEWVAL, JUMP_COND, SPEC_DIR, HINTBITNUM, \ + STRBITNUM) /* Nothing */ + + +#endif