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GET /api/1.1/patches/2228459/?format=api
{ "id": 2228459, "url": "http://patchwork.ozlabs.org/api/1.1/patches/2228459/?format=api", "web_url": "http://patchwork.ozlabs.org/project/qemu-devel/patch/20260426134002.865628-82-richard.henderson@linaro.org/", "project": { "id": 14, "url": "http://patchwork.ozlabs.org/api/1.1/projects/14/?format=api", "name": "QEMU Development", "link_name": "qemu-devel", "list_id": "qemu-devel.nongnu.org", "list_email": "qemu-devel@nongnu.org", "web_url": "", "scm_url": "", "webscm_url": "" }, "msgid": "<20260426134002.865628-82-richard.henderson@linaro.org>", "date": "2026-04-26T13:39:58", "name": "[81/84] target/s390x: Move float{32,64}_s390_divide_to_integer", "commit_ref": null, "pull_url": null, "state": "new", "archived": false, "hash": "a8ec34f4c910754da358b618a6fb3478ae25413a", "submitter": { "id": 72104, "url": "http://patchwork.ozlabs.org/api/1.1/people/72104/?format=api", "name": "Richard Henderson", "email": "richard.henderson@linaro.org" }, "delegate": null, "mbox": "http://patchwork.ozlabs.org/project/qemu-devel/patch/20260426134002.865628-82-richard.henderson@linaro.org/mbox/", "series": [ { "id": 501533, "url": "http://patchwork.ozlabs.org/api/1.1/series/501533/?format=api", "web_url": "http://patchwork.ozlabs.org/project/qemu-devel/list/?series=501533", "date": "2026-04-26T13:38:37", "name": "fpu: Export some internals for targets", "version": 1, "mbox": "http://patchwork.ozlabs.org/series/501533/mbox/" } ], "comments": "http://patchwork.ozlabs.org/api/patches/2228459/comments/", "check": "pending", "checks": "http://patchwork.ozlabs.org/api/patches/2228459/checks/", "tags": {}, "headers": { "Return-Path": "<qemu-devel-bounces+incoming=patchwork.ozlabs.org@nongnu.org>", "X-Original-To": "incoming@patchwork.ozlabs.org", "Delivered-To": "patchwork-incoming@legolas.ozlabs.org", "Authentication-Results": [ "legolas.ozlabs.org;\n\tdkim=pass (2048-bit key;\n unprotected) header.d=linaro.org header.i=@linaro.org header.a=rsa-sha256\n header.s=google header.b=R0K5zC7m;\n\tdkim-atps=neutral", "legolas.ozlabs.org;\n spf=pass (sender SPF authorized) smtp.mailfrom=nongnu.org\n (client-ip=209.51.188.17; helo=lists1p.gnu.org;\n envelope-from=qemu-devel-bounces+incoming=patchwork.ozlabs.org@nongnu.org;\n receiver=patchwork.ozlabs.org)" ], "Received": [ "from lists1p.gnu.org (lists1p.gnu.org [209.51.188.17])\n\t(using TLSv1.2 with cipher ECDHE-ECDSA-AES256-GCM-SHA384 (256/256 bits))\n\t(No client certificate requested)\n\tby legolas.ozlabs.org (Postfix) with ESMTPS id 4g3Spj09Z3z1yHg\n\tfor <incoming@patchwork.ozlabs.org>; Sun, 26 Apr 2026 23:53:49 +1000 (AEST)", "from localhost ([::1] helo=lists1p.gnu.org)\n\tby lists1p.gnu.org with esmtp (Exim 4.90_1)\n\t(envelope-from <qemu-devel-bounces@nongnu.org>)\n\tid 1wGzse-0007wV-2P; Sun, 26 Apr 2026 09:50:40 -0400", "from eggs.gnu.org ([2001:470:142:3::10])\n by lists1p.gnu.org with esmtps (TLS1.2:ECDHE_RSA_AES_256_GCM_SHA384:256)\n (Exim 4.90_1) (envelope-from <richard.henderson@linaro.org>)\n id 1wGzs1-00074S-Bx\n for qemu-devel@nongnu.org; Sun, 26 Apr 2026 09:50:01 -0400", "from mail-pf1-x42e.google.com ([2607:f8b0:4864:20::42e])\n by eggs.gnu.org with esmtps (TLS1.2:ECDHE_RSA_AES_128_GCM_SHA256:128)\n (Exim 4.90_1) (envelope-from <richard.henderson@linaro.org>)\n id 1wGzrv-0002rQ-Q2\n for qemu-devel@nongnu.org; Sun, 26 Apr 2026 09:49:57 -0400", "by mail-pf1-x42e.google.com with SMTP id\n d2e1a72fcca58-82fa8d6425bso3456013b3a.0\n for <qemu-devel@nongnu.org>; Sun, 26 Apr 2026 06:49:55 -0700 (PDT)", "from stoup.. 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helo=mail-pf1-x42e.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,\n DKIM_VALID=-0.1, DKIM_VALID_AU=-0.1, DKIM_VALID_EF=-0.1,\n RCVD_IN_DNSWL_NONE=-0.0001, SPF_HELO_NONE=0.001,\n SPF_PASS=-0.001 autolearn=unavailable autolearn_force=no", "X-Spam_action": "no action", "X-BeenThere": "qemu-devel@nongnu.org", "X-Mailman-Version": "2.1.29", "Precedence": "list", "List-Id": "qemu development <qemu-devel.nongnu.org>", "List-Unsubscribe": "<https://lists.nongnu.org/mailman/options/qemu-devel>,\n <mailto:qemu-devel-request@nongnu.org?subject=unsubscribe>", "List-Archive": "<https://lists.nongnu.org/archive/html/qemu-devel>", "List-Post": "<mailto:qemu-devel@nongnu.org>", "List-Help": "<mailto:qemu-devel-request@nongnu.org?subject=help>", "List-Subscribe": "<https://lists.nongnu.org/mailman/listinfo/qemu-devel>,\n <mailto:qemu-devel-request@nongnu.org?subject=subscribe>", "Errors-To": "qemu-devel-bounces+incoming=patchwork.ozlabs.org@nongnu.org", "Sender": "qemu-devel-bounces+incoming=patchwork.ozlabs.org@nongnu.org" }, "content": "Now that we've exposed enough infrastructure, this can be\nimplemented in the backend that needs it.\n\nSigned-off-by: Richard Henderson <richard.henderson@linaro.org>\n---\n include/fpu/softfloat.h | 11 ---\n fpu/softfloat.c | 137 ----------------------------------\n target/s390x/tcg/fpu_helper.c | 135 +++++++++++++++++++++++++++++++++\n 3 files changed, 135 insertions(+), 148 deletions(-)", "diff": "diff --git a/include/fpu/softfloat.h b/include/fpu/softfloat.h\nindex 8389a07b04..1580d956d5 100644\n--- a/include/fpu/softfloat.h\n+++ b/include/fpu/softfloat.h\n@@ -1386,15 +1386,4 @@ static inline bool float128_unordered_quiet(float128 a, float128 b,\n *----------------------------------------------------------------------------*/\n float128 float128_default_nan(float_status *status);\n \n-#define DECLARE_S390_DIVIDE_TO_INTEGER(floatN) \\\n-void floatN ## _s390_divide_to_integer(floatN a, floatN b, \\\n- int final_quotient_rounding_mode, \\\n- bool mask_underflow, bool mask_inexact, \\\n- floatN *r, floatN *n, \\\n- uint32_t *cc, int *dxc, \\\n- float_status *status)\n-DECLARE_S390_DIVIDE_TO_INTEGER(float32);\n-DECLARE_S390_DIVIDE_TO_INTEGER(float64);\n-\n-\n #endif /* SOFTFLOAT_H */\ndiff --git a/fpu/softfloat.c b/fpu/softfloat.c\nindex 484db3ddf6..c979679dc1 100644\n--- a/fpu/softfloat.c\n+++ b/fpu/softfloat.c\n@@ -5139,143 +5139,6 @@ floatx80 floatx80_round(floatx80 a, float_status *status)\n return floatx80_round_pack_canonical(&p, status);\n }\n \n-static void parts_s390_divide_to_integer(FloatParts64 *a, FloatParts64 *b,\n- int final_quotient_rounding_mode,\n- bool mask_underflow, bool mask_inexact,\n- const FloatFmt *fmt,\n- FloatParts64 *r, FloatParts64 *n,\n- uint32_t *cc, int *dxc,\n- float_status *status)\n-{\n- /* POp table \"Results: DIVIDE TO INTEGER (Part 1 of 2)\" */\n- if ((float_cmask(a->cls) | float_cmask(b->cls)) & float_cmask_anynan) {\n- *r = parts64_pick_nan(a, b, status);\n- *n = *r;\n- *cc = 1;\n- } else if (a->cls == float_class_inf || b->cls == float_class_zero) {\n- *r = parts64_default_nan(status);\n- *n = *r;\n- *cc = 1;\n- status->float_exception_flags |= float_flag_invalid;\n- } else if (b->cls == float_class_inf) {\n- *r = *a;\n- n->cls = float_class_zero;\n- n->sign = a->sign ^ b->sign;\n- *cc = 0;\n- } else {\n- FloatParts64 *q, q_buf, r_precise;\n- int float_exception_flags = 0;\n- bool is_q_smallish;\n- uint32_t r_flags;\n-\n- /* Compute precise quotient */\n- q_buf = parts64_div(a, b, status);\n- q = &q_buf;\n-\n- /*\n- * Check whether two closest integers can be precisely represented,\n- * i.e., all their bits fit into the fractional part.\n- */\n- is_q_smallish = q->exp < (fmt->frac_size + 1);\n-\n- /*\n- * Final quotient is rounded using final-quotient-rounding method, and\n- * partial quotient is rounded toward zero.\n- *\n- * Rounding of partial quotient may be inexact. This is the whole point\n- * of distinguishing partial quotients, so ignore the exception.\n- */\n- *n = parts64_round_to_int(q,\n- is_q_smallish\n- ? final_quotient_rounding_mode\n- : float_round_to_zero,\n- 0, status, fmt);\n-\n- /* Compute precise remainder */\n- r_precise = parts64_muladd_scalbn(b, n, a, 0,\n- float_muladd_negate_product, status);\n-\n- /* Round remainder to the target format */\n- *r = r_precise;\n- status->float_exception_flags = 0;\n- parts64_round_canonical(r, status, fmt);\n- r_flags = status->float_exception_flags;\n-\n- /* POp table \"Results: DIVIDE TO INTEGER (Part 2 of 2)\" */\n- if (is_q_smallish) {\n- if (r->cls != float_class_zero) {\n- if (r->exp < 2 - (1 << (fmt->exp_size - 1))) {\n- if (mask_underflow) {\n- float_exception_flags |= float_flag_underflow;\n- *dxc = 0x10;\n- r->exp += fmt->exp_re_bias;\n- }\n- } else if (r_flags & float_flag_inexact) {\n- float_exception_flags |= float_flag_inexact;\n- if (mask_inexact) {\n- bool saved_r_sign, saved_r_precise_sign;\n-\n- /*\n- * Check whether remainder was truncated (rounded\n- * toward zero) or incremented.\n- */\n- saved_r_sign = r->sign;\n- saved_r_precise_sign = r_precise.sign;\n- r->sign = false;\n- r_precise.sign = false;\n- if (parts64_compare(r, &r_precise, status, true) <\n- float_relation_equal) {\n- *dxc = 0x8;\n- } else {\n- *dxc = 0xc;\n- }\n- r->sign = saved_r_sign;\n- r_precise.sign = saved_r_precise_sign;\n- }\n- }\n- }\n- *cc = 0;\n- } else if (n->exp > (1 << (fmt->exp_size - 1)) - 1) {\n- n->exp -= fmt->exp_re_bias;\n- *cc = r->cls == float_class_zero ? 1 : 3;\n- } else {\n- *cc = r->cls == float_class_zero ? 0 : 2;\n- }\n-\n- /* Adjust signs of zero results */\n- if (r->cls == float_class_zero) {\n- r->sign = a->sign;\n- }\n- if (n->cls == float_class_zero) {\n- n->sign = a->sign ^ b->sign;\n- }\n-\n- status->float_exception_flags = float_exception_flags;\n- }\n-}\n-\n-#define DEFINE_S390_DIVIDE_TO_INTEGER(floatN) \\\n-void floatN ## _s390_divide_to_integer(floatN a, floatN b, \\\n- int final_quotient_rounding_mode, \\\n- bool mask_underflow, bool mask_inexact, \\\n- floatN *r, floatN *n, \\\n- uint32_t *cc, int *dxc, \\\n- float_status *status) \\\n-{ \\\n- FloatParts64 pa = floatN ## _unpack_canonical(a, status); \\\n- FloatParts64 pb = floatN ## _unpack_canonical(b, status); \\\n- FloatParts64 pr, pn; \\\n- parts_s390_divide_to_integer(&pa, &pb, final_quotient_rounding_mode, \\\n- mask_underflow, mask_inexact, \\\n- &floatN ## _params, \\\n- &pr, &pn, cc, dxc, status); \\\n- *r = floatN ## _round_pack_canonical(&pr, status); \\\n- *n = floatN ## _round_pack_canonical(&pn, status); \\\n-}\n-\n-DEFINE_S390_DIVIDE_TO_INTEGER(float32)\n-DEFINE_S390_DIVIDE_TO_INTEGER(float64)\n-\n static void __attribute__((constructor)) softfloat_init(void)\n {\n union_float64 ua, ub, uc, ur;\ndiff --git a/target/s390x/tcg/fpu_helper.c b/target/s390x/tcg/fpu_helper.c\nindex 122994960a..66ef3b3d36 100644\n--- a/target/s390x/tcg/fpu_helper.c\n+++ b/target/s390x/tcg/fpu_helper.c\n@@ -24,6 +24,7 @@\n #include \"tcg_s390x.h\"\n #include \"exec/helper-proto.h\"\n #include \"fpu/softfloat.h\"\n+#include \"fpu/softfloat-parts.h\"\n \n /* #define DEBUG_HELPER */\n #ifdef DEBUG_HELPER\n@@ -315,6 +316,140 @@ Int128 HELPER(dxb)(CPUS390XState *env, Int128 a, Int128 b)\n return RET128(ret);\n }\n \n+static void parts_s390_divide_to_integer(FloatParts64 *a, FloatParts64 *b,\n+ int final_quotient_rounding_mode,\n+ bool mask_underflow, bool mask_inexact,\n+ const FloatFmt *fmt,\n+ FloatParts64 *r, FloatParts64 *n,\n+ uint32_t *cc, int *dxc,\n+ float_status *status)\n+{\n+ /* POp table \"Results: DIVIDE TO INTEGER (Part 1 of 2)\" */\n+ if ((float_cmask(a->cls) | float_cmask(b->cls)) & float_cmask_anynan) {\n+ *r = parts64_pick_nan(a, b, status);\n+ *n = *r;\n+ *cc = 1;\n+ } else if (a->cls == float_class_inf || b->cls == float_class_zero) {\n+ *r = parts64_default_nan(status);\n+ *n = *r;\n+ *cc = 1;\n+ status->float_exception_flags |= float_flag_invalid;\n+ } else if (b->cls == float_class_inf) {\n+ *r = *a;\n+ n->cls = float_class_zero;\n+ n->sign = a->sign ^ b->sign;\n+ *cc = 0;\n+ } else {\n+ FloatParts64 *q, q_buf, r_precise;\n+ int float_exception_flags = 0;\n+ bool is_q_smallish;\n+ uint32_t r_flags;\n+\n+ /* Compute precise quotient */\n+ q_buf = parts64_div(a, b, status);\n+ q = &q_buf;\n+\n+ /*\n+ * Check whether two closest integers can be precisely represented,\n+ * i.e., all their bits fit into the fractional part.\n+ */\n+ is_q_smallish = q->exp < (fmt->frac_size + 1);\n+\n+ /*\n+ * Final quotient is rounded using final-quotient-rounding method, and\n+ * partial quotient is rounded toward zero.\n+ *\n+ * Rounding of partial quotient may be inexact. This is the whole point\n+ * of distinguishing partial quotients, so ignore the exception.\n+ */\n+ *n = parts64_round_to_int(q,\n+ is_q_smallish\n+ ? final_quotient_rounding_mode\n+ : float_round_to_zero,\n+ 0, status, fmt);\n+\n+ /* Compute precise remainder */\n+ r_precise = parts64_muladd_scalbn(b, n, a, 0,\n+ float_muladd_negate_product, status);\n+\n+ /* Round remainder to the target format */\n+ *r = r_precise;\n+ status->float_exception_flags = 0;\n+ parts64_round_canonical(r, status, fmt);\n+ r_flags = status->float_exception_flags;\n+\n+ /* POp table \"Results: DIVIDE TO INTEGER (Part 2 of 2)\" */\n+ if (is_q_smallish) {\n+ if (r->cls != float_class_zero) {\n+ if (r->exp < 2 - (1 << (fmt->exp_size - 1))) {\n+ if (mask_underflow) {\n+ float_exception_flags |= float_flag_underflow;\n+ *dxc = 0x10;\n+ r->exp += fmt->exp_re_bias;\n+ }\n+ } else if (r_flags & float_flag_inexact) {\n+ float_exception_flags |= float_flag_inexact;\n+ if (mask_inexact) {\n+ bool saved_r_sign, saved_r_precise_sign;\n+\n+ /*\n+ * Check whether remainder was truncated (rounded\n+ * toward zero) or incremented.\n+ */\n+ saved_r_sign = r->sign;\n+ saved_r_precise_sign = r_precise.sign;\n+ r->sign = false;\n+ r_precise.sign = false;\n+ if (parts64_compare(r, &r_precise, status, true) <\n+ float_relation_equal) {\n+ *dxc = 0x8;\n+ } else {\n+ *dxc = 0xc;\n+ }\n+ r->sign = saved_r_sign;\n+ r_precise.sign = saved_r_precise_sign;\n+ }\n+ }\n+ }\n+ *cc = 0;\n+ } else if (n->exp > (1 << (fmt->exp_size - 1)) - 1) {\n+ n->exp -= fmt->exp_re_bias;\n+ *cc = r->cls == float_class_zero ? 1 : 3;\n+ } else {\n+ *cc = r->cls == float_class_zero ? 0 : 2;\n+ }\n+\n+ /* Adjust signs of zero results */\n+ if (r->cls == float_class_zero) {\n+ r->sign = a->sign;\n+ }\n+ if (n->cls == float_class_zero) {\n+ n->sign = a->sign ^ b->sign;\n+ }\n+\n+ status->float_exception_flags = float_exception_flags;\n+ }\n+}\n+\n+#define DEFINE_S390_DIVIDE_TO_INTEGER(floatN) \\\n+static void floatN ## _s390_divide_to_integer(floatN a, floatN b, \\\n+ int final_quotient_rounding_mode, bool mask_underflow, bool mask_inexact, \\\n+ floatN *r, floatN *n, uint32_t *cc, int *dxc, float_status *status) \\\n+{ \\\n+ FloatParts64 pa = floatN ## _unpack_canonical(a, status); \\\n+ FloatParts64 pb = floatN ## _unpack_canonical(b, status); \\\n+ FloatParts64 pr, pn; \\\n+ parts_s390_divide_to_integer(&pa, &pb, final_quotient_rounding_mode, \\\n+ mask_underflow, mask_inexact, \\\n+ &floatN ## _params, \\\n+ &pr, &pn, cc, dxc, status); \\\n+ *r = floatN ## _round_pack_canonical(&pr, status); \\\n+ *n = floatN ## _round_pack_canonical(&pn, status); \\\n+}\n+\n+DEFINE_S390_DIVIDE_TO_INTEGER(float32)\n+DEFINE_S390_DIVIDE_TO_INTEGER(float64)\n+\n void HELPER(dib)(CPUS390XState *env, uint32_t r1, uint32_t r2, uint32_t r3,\n uint32_t m4, uint32_t bits)\n {\n", "prefixes": [ "81/84" ] }