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qemu-patch-raspberry4/tests/fp/fp-test.c
Paolo Bonzini 139c1837db meson: rename included C source files to .c.inc 
With Makefiles that have automatically generated dependencies, you
generated includes are set as dependencies of the Makefile, so that they
are built before everything else and they are available when first
building the .c files.

Alternatively you can use a fine-grained dependency, e.g.

        target/arm/translate.o: target/arm/decode-neon-shared.inc.c

With Meson you have only one choice and it is a third option, namely
"build at the beginning of the corresponding target"; the way you
express it is to list the includes in the sources of that target.

The problem is that Meson decides if something is a source vs. a
generated include by looking at the extension: '.c', '.cc', '.m', '.C'
are sources, while everything else is considered an include---including
'.inc.c'.

Use '.c.inc' to avoid this, as it is consistent with our other convention
of using '.rst.inc' for included reStructuredText files.  The editorconfig
file is adjusted.

Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
2020-08-21 06:18:30 -04:00

1019 lines
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/*
* fp-test.c - test QEMU's softfloat implementation using Berkeley's Testfloat
*
* Copyright (C) 2018, Emilio G. Cota <cota@braap.org>
*
* License: GNU GPL, version 2 or later.
* See the COPYING file in the top-level directory.
*
* This file is derived from testfloat/source/testsoftfloat.c. Its copyright
* info follows:
*
* Copyright 2011, 2012, 2013, 2014, 2015, 2016, 2017 The Regents of the
* University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions, and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions, and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* 3. Neither the name of the University nor the names of its contributors may
* be used to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE
* DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef HW_POISON_H
#error Must define HW_POISON_H to work around TARGET_* poisoning
#endif
#include "qemu/osdep.h"
#include "qemu/cutils.h"
#include <math.h>
#include "fpu/softfloat.h"
#include "platform.h"
#include "fail.h"
#include "slowfloat.h"
#include "functions.h"
#include "genCases.h"
#include "verCases.h"
#include "writeCase.h"
#include "testLoops.h"
typedef float16_t (*abz_f16)(float16_t, float16_t);
typedef bool (*ab_f16_z_bool)(float16_t, float16_t);
typedef float32_t (*abz_f32)(float32_t, float32_t);
typedef bool (*ab_f32_z_bool)(float32_t, float32_t);
typedef float64_t (*abz_f64)(float64_t, float64_t);
typedef bool (*ab_f64_z_bool)(float64_t, float64_t);
typedef void (*abz_extF80M)(const extFloat80_t *, const extFloat80_t *,
extFloat80_t *);
typedef bool (*ab_extF80M_z_bool)(const extFloat80_t *, const extFloat80_t *);
typedef void (*abz_f128M)(const float128_t *, const float128_t *, float128_t *);
typedef bool (*ab_f128M_z_bool)(const float128_t *, const float128_t *);
static const char * const round_mode_names[] = {
[ROUND_NEAR_EVEN] = "even",
[ROUND_MINMAG] = "zero",
[ROUND_MIN] = "down",
[ROUND_MAX] = "up",
[ROUND_NEAR_MAXMAG] = "tieaway",
[ROUND_ODD] = "odd",
};
static unsigned int *test_ops;
static unsigned int n_test_ops;
static unsigned int n_max_errors = 20;
static unsigned int test_round_mode = ROUND_NEAR_EVEN;
static unsigned int *round_modes;
static unsigned int n_round_modes;
static int test_level = 1;
static uint8_t slow_init_flags;
static uint8_t qemu_init_flags;
/* qemu softfloat status */
static float_status qsf;
static const char commands_string[] =
"operations:\n"
" <int>_to_<float> <float>_add <float>_eq\n"
" <float>_to_<int> <float>_sub <float>_le\n"
" <float>_to_<int>_r_minMag <float>_mul <float>_lt\n"
" <float>_to_<float> <float>_mulAdd <float>_eq_signaling\n"
" <float>_roundToInt <float>_div <float>_le_quiet\n"
" <float>_rem <float>_lt_quiet\n"
" <float>_sqrt\n"
" Where <int>: ui32, ui64, i32, i64\n"
" <float>: f16, f32, f64, extF80, f128\n"
" If no operation is provided, all the above are tested\n"
"options:\n"
" -e = max error count per test. Default: 20. Set no limit with 0\n"
" -f = initial FP exception flags (vioux). Default: none\n"
" -l = thoroughness level (1 (default), 2)\n"
" -r = rounding mode (even (default), zero, down, up, tieaway, odd)\n"
" Set to 'all' to test all rounding modes, if applicable\n"
" -s = stop when a test fails";
static void usage_complete(int argc, char *argv[])
{
fprintf(stderr, "Usage: %s [options] [operation1 ...]\n", argv[0]);
fprintf(stderr, "%s\n", commands_string);
exit(EXIT_FAILURE);
}
/* keep wrappers separate but do not bother defining headers for all of them */
#include "wrap.c.inc"
static void not_implemented(void)
{
fprintf(stderr, "Not implemented.\n");
}
static bool blacklisted(unsigned op, int rmode)
{
/* odd has not been implemented for any 80-bit ops */
if (rmode == softfloat_round_odd) {
switch (op) {
case EXTF80_TO_UI32:
case EXTF80_TO_UI64:
case EXTF80_TO_I32:
case EXTF80_TO_I64:
case EXTF80_TO_UI32_R_MINMAG:
case EXTF80_TO_UI64_R_MINMAG:
case EXTF80_TO_I32_R_MINMAG:
case EXTF80_TO_I64_R_MINMAG:
case EXTF80_TO_F16:
case EXTF80_TO_F32:
case EXTF80_TO_F64:
case EXTF80_TO_F128:
case EXTF80_ROUNDTOINT:
case EXTF80_ADD:
case EXTF80_SUB:
case EXTF80_MUL:
case EXTF80_DIV:
case EXTF80_REM:
case EXTF80_SQRT:
case EXTF80_EQ:
case EXTF80_LE:
case EXTF80_LT:
case EXTF80_EQ_SIGNALING:
case EXTF80_LE_QUIET:
case EXTF80_LT_QUIET:
case UI32_TO_EXTF80:
case UI64_TO_EXTF80:
case I32_TO_EXTF80:
case I64_TO_EXTF80:
case F16_TO_EXTF80:
case F32_TO_EXTF80:
case F64_TO_EXTF80:
case F128_TO_EXTF80:
return true;
}
}
return false;
}
static void do_testfloat(int op, int rmode, bool exact)
{
abz_f16 true_abz_f16;
abz_f16 subj_abz_f16;
ab_f16_z_bool true_f16_z_bool;
ab_f16_z_bool subj_f16_z_bool;
abz_f32 true_abz_f32;
abz_f32 subj_abz_f32;
ab_f32_z_bool true_ab_f32_z_bool;
ab_f32_z_bool subj_ab_f32_z_bool;
abz_f64 true_abz_f64;
abz_f64 subj_abz_f64;
ab_f64_z_bool true_ab_f64_z_bool;
ab_f64_z_bool subj_ab_f64_z_bool;
abz_extF80M true_abz_extF80M;
abz_extF80M subj_abz_extF80M;
ab_extF80M_z_bool true_ab_extF80M_z_bool;
ab_extF80M_z_bool subj_ab_extF80M_z_bool;
abz_f128M true_abz_f128M;
abz_f128M subj_abz_f128M;
ab_f128M_z_bool true_ab_f128M_z_bool;
ab_f128M_z_bool subj_ab_f128M_z_bool;
fputs(">> Testing ", stderr);
verCases_writeFunctionName(stderr);
fputs("\n", stderr);
if (blacklisted(op, rmode)) {
not_implemented();
return;
}
switch (op) {
case UI32_TO_F16:
test_a_ui32_z_f16(slow_ui32_to_f16, qemu_ui32_to_f16);
break;
case UI32_TO_F32:
test_a_ui32_z_f32(slow_ui32_to_f32, qemu_ui32_to_f32);
break;
case UI32_TO_F64:
test_a_ui32_z_f64(slow_ui32_to_f64, qemu_ui32_to_f64);
break;
case UI32_TO_EXTF80:
not_implemented();
break;
case UI32_TO_F128:
not_implemented();
break;
case UI64_TO_F16:
test_a_ui64_z_f16(slow_ui64_to_f16, qemu_ui64_to_f16);
break;
case UI64_TO_F32:
test_a_ui64_z_f32(slow_ui64_to_f32, qemu_ui64_to_f32);
break;
case UI64_TO_F64:
test_a_ui64_z_f64(slow_ui64_to_f64, qemu_ui64_to_f64);
break;
case UI64_TO_EXTF80:
not_implemented();
break;
case UI64_TO_F128:
test_a_ui64_z_f128(slow_ui64_to_f128M, qemu_ui64_to_f128M);
break;
case I32_TO_F16:
test_a_i32_z_f16(slow_i32_to_f16, qemu_i32_to_f16);
break;
case I32_TO_F32:
test_a_i32_z_f32(slow_i32_to_f32, qemu_i32_to_f32);
break;
case I32_TO_F64:
test_a_i32_z_f64(slow_i32_to_f64, qemu_i32_to_f64);
break;
case I32_TO_EXTF80:
test_a_i32_z_extF80(slow_i32_to_extF80M, qemu_i32_to_extF80M);
break;
case I32_TO_F128:
test_a_i32_z_f128(slow_i32_to_f128M, qemu_i32_to_f128M);
break;
case I64_TO_F16:
test_a_i64_z_f16(slow_i64_to_f16, qemu_i64_to_f16);
break;
case I64_TO_F32:
test_a_i64_z_f32(slow_i64_to_f32, qemu_i64_to_f32);
break;
case I64_TO_F64:
test_a_i64_z_f64(slow_i64_to_f64, qemu_i64_to_f64);
break;
case I64_TO_EXTF80:
test_a_i64_z_extF80(slow_i64_to_extF80M, qemu_i64_to_extF80M);
break;
case I64_TO_F128:
test_a_i64_z_f128(slow_i64_to_f128M, qemu_i64_to_f128M);
break;
case F16_TO_UI32:
test_a_f16_z_ui32_rx(slow_f16_to_ui32, qemu_f16_to_ui32, rmode, exact);
break;
case F16_TO_UI64:
test_a_f16_z_ui64_rx(slow_f16_to_ui64, qemu_f16_to_ui64, rmode, exact);
break;
case F16_TO_I32:
test_a_f16_z_i32_rx(slow_f16_to_i32, qemu_f16_to_i32, rmode, exact);
break;
case F16_TO_I64:
test_a_f16_z_i64_rx(slow_f16_to_i64, qemu_f16_to_i64, rmode, exact);
break;
case F16_TO_UI32_R_MINMAG:
test_a_f16_z_ui32_x(slow_f16_to_ui32_r_minMag,
qemu_f16_to_ui32_r_minMag, exact);
break;
case F16_TO_UI64_R_MINMAG:
test_a_f16_z_ui64_x(slow_f16_to_ui64_r_minMag,
qemu_f16_to_ui64_r_minMag, exact);
break;
case F16_TO_I32_R_MINMAG:
test_a_f16_z_i32_x(slow_f16_to_i32_r_minMag, qemu_f16_to_i32_r_minMag,
exact);
break;
case F16_TO_I64_R_MINMAG:
test_a_f16_z_i64_x(slow_f16_to_i64_r_minMag, qemu_f16_to_i64_r_minMag,
exact);
break;
case F16_TO_F32:
test_a_f16_z_f32(slow_f16_to_f32, qemu_f16_to_f32);
break;
case F16_TO_F64:
test_a_f16_z_f64(slow_f16_to_f64, qemu_f16_to_f64);
break;
case F16_TO_EXTF80:
not_implemented();
break;
case F16_TO_F128:
not_implemented();
break;
case F16_ROUNDTOINT:
test_az_f16_rx(slow_f16_roundToInt, qemu_f16_roundToInt, rmode, exact);
break;
case F16_ADD:
true_abz_f16 = slow_f16_add;
subj_abz_f16 = qemu_f16_add;
goto test_abz_f16;
case F16_SUB:
true_abz_f16 = slow_f16_sub;
subj_abz_f16 = qemu_f16_sub;
goto test_abz_f16;
case F16_MUL:
true_abz_f16 = slow_f16_mul;
subj_abz_f16 = qemu_f16_mul;
goto test_abz_f16;
case F16_DIV:
true_abz_f16 = slow_f16_div;
subj_abz_f16 = qemu_f16_div;
goto test_abz_f16;
case F16_REM:
not_implemented();
break;
test_abz_f16:
test_abz_f16(true_abz_f16, subj_abz_f16);
break;
case F16_MULADD:
test_abcz_f16(slow_f16_mulAdd, qemu_f16_mulAdd);
break;
case F16_SQRT:
test_az_f16(slow_f16_sqrt, qemu_f16_sqrt);
break;
case F16_EQ:
true_f16_z_bool = slow_f16_eq;
subj_f16_z_bool = qemu_f16_eq;
goto test_ab_f16_z_bool;
case F16_LE:
true_f16_z_bool = slow_f16_le;
subj_f16_z_bool = qemu_f16_le;
goto test_ab_f16_z_bool;
case F16_LT:
true_f16_z_bool = slow_f16_lt;
subj_f16_z_bool = qemu_f16_lt;
goto test_ab_f16_z_bool;
case F16_EQ_SIGNALING:
true_f16_z_bool = slow_f16_eq_signaling;
subj_f16_z_bool = qemu_f16_eq_signaling;
goto test_ab_f16_z_bool;
case F16_LE_QUIET:
true_f16_z_bool = slow_f16_le_quiet;
subj_f16_z_bool = qemu_f16_le_quiet;
goto test_ab_f16_z_bool;
case F16_LT_QUIET:
true_f16_z_bool = slow_f16_lt_quiet;
subj_f16_z_bool = qemu_f16_lt_quiet;
test_ab_f16_z_bool:
test_ab_f16_z_bool(true_f16_z_bool, subj_f16_z_bool);
break;
case F32_TO_UI32:
test_a_f32_z_ui32_rx(slow_f32_to_ui32, qemu_f32_to_ui32, rmode, exact);
break;
case F32_TO_UI64:
test_a_f32_z_ui64_rx(slow_f32_to_ui64, qemu_f32_to_ui64, rmode, exact);
break;
case F32_TO_I32:
test_a_f32_z_i32_rx(slow_f32_to_i32, qemu_f32_to_i32, rmode, exact);
break;
case F32_TO_I64:
test_a_f32_z_i64_rx(slow_f32_to_i64, qemu_f32_to_i64, rmode, exact);
break;
case F32_TO_UI32_R_MINMAG:
test_a_f32_z_ui32_x(slow_f32_to_ui32_r_minMag,
qemu_f32_to_ui32_r_minMag, exact);
break;
case F32_TO_UI64_R_MINMAG:
test_a_f32_z_ui64_x(slow_f32_to_ui64_r_minMag,
qemu_f32_to_ui64_r_minMag, exact);
break;
case F32_TO_I32_R_MINMAG:
test_a_f32_z_i32_x(slow_f32_to_i32_r_minMag, qemu_f32_to_i32_r_minMag,
exact);
break;
case F32_TO_I64_R_MINMAG:
test_a_f32_z_i64_x(slow_f32_to_i64_r_minMag, qemu_f32_to_i64_r_minMag,
exact);
break;
case F32_TO_F16:
test_a_f32_z_f16(slow_f32_to_f16, qemu_f32_to_f16);
break;
case F32_TO_F64:
test_a_f32_z_f64(slow_f32_to_f64, qemu_f32_to_f64);
break;
case F32_TO_EXTF80:
test_a_f32_z_extF80(slow_f32_to_extF80M, qemu_f32_to_extF80M);
break;
case F32_TO_F128:
test_a_f32_z_f128(slow_f32_to_f128M, qemu_f32_to_f128M);
break;
case F32_ROUNDTOINT:
test_az_f32_rx(slow_f32_roundToInt, qemu_f32_roundToInt, rmode, exact);
break;
case F32_ADD:
true_abz_f32 = slow_f32_add;
subj_abz_f32 = qemu_f32_add;
goto test_abz_f32;
case F32_SUB:
true_abz_f32 = slow_f32_sub;
subj_abz_f32 = qemu_f32_sub;
goto test_abz_f32;
case F32_MUL:
true_abz_f32 = slow_f32_mul;
subj_abz_f32 = qemu_f32_mul;
goto test_abz_f32;
case F32_DIV:
true_abz_f32 = slow_f32_div;
subj_abz_f32 = qemu_f32_div;
goto test_abz_f32;
case F32_REM:
true_abz_f32 = slow_f32_rem;
subj_abz_f32 = qemu_f32_rem;
test_abz_f32:
test_abz_f32(true_abz_f32, subj_abz_f32);
break;
case F32_MULADD:
test_abcz_f32(slow_f32_mulAdd, qemu_f32_mulAdd);
break;
case F32_SQRT:
test_az_f32(slow_f32_sqrt, qemu_f32_sqrt);
break;
case F32_EQ:
true_ab_f32_z_bool = slow_f32_eq;
subj_ab_f32_z_bool = qemu_f32_eq;
goto test_ab_f32_z_bool;
case F32_LE:
true_ab_f32_z_bool = slow_f32_le;
subj_ab_f32_z_bool = qemu_f32_le;
goto test_ab_f32_z_bool;
case F32_LT:
true_ab_f32_z_bool = slow_f32_lt;
subj_ab_f32_z_bool = qemu_f32_lt;
goto test_ab_f32_z_bool;
case F32_EQ_SIGNALING:
true_ab_f32_z_bool = slow_f32_eq_signaling;
subj_ab_f32_z_bool = qemu_f32_eq_signaling;
goto test_ab_f32_z_bool;
case F32_LE_QUIET:
true_ab_f32_z_bool = slow_f32_le_quiet;
subj_ab_f32_z_bool = qemu_f32_le_quiet;
goto test_ab_f32_z_bool;
case F32_LT_QUIET:
true_ab_f32_z_bool = slow_f32_lt_quiet;
subj_ab_f32_z_bool = qemu_f32_lt_quiet;
test_ab_f32_z_bool:
test_ab_f32_z_bool(true_ab_f32_z_bool, subj_ab_f32_z_bool);
break;
case F64_TO_UI32:
test_a_f64_z_ui32_rx(slow_f64_to_ui32, qemu_f64_to_ui32, rmode, exact);
break;
case F64_TO_UI64:
test_a_f64_z_ui64_rx(slow_f64_to_ui64, qemu_f64_to_ui64, rmode, exact);
break;
case F64_TO_I32:
test_a_f64_z_i32_rx(slow_f64_to_i32, qemu_f64_to_i32, rmode, exact);
break;
case F64_TO_I64:
test_a_f64_z_i64_rx(slow_f64_to_i64, qemu_f64_to_i64, rmode, exact);
break;
case F64_TO_UI32_R_MINMAG:
test_a_f64_z_ui32_x(slow_f64_to_ui32_r_minMag,
qemu_f64_to_ui32_r_minMag, exact);
break;
case F64_TO_UI64_R_MINMAG:
test_a_f64_z_ui64_x(slow_f64_to_ui64_r_minMag,
qemu_f64_to_ui64_r_minMag, exact);
break;
case F64_TO_I32_R_MINMAG:
test_a_f64_z_i32_x(slow_f64_to_i32_r_minMag, qemu_f64_to_i32_r_minMag,
exact);
break;
case F64_TO_I64_R_MINMAG:
test_a_f64_z_i64_x(slow_f64_to_i64_r_minMag, qemu_f64_to_i64_r_minMag,
exact);
break;
case F64_TO_F16:
test_a_f64_z_f16(slow_f64_to_f16, qemu_f64_to_f16);
break;
case F64_TO_F32:
test_a_f64_z_f32(slow_f64_to_f32, qemu_f64_to_f32);
break;
case F64_TO_EXTF80:
test_a_f64_z_extF80(slow_f64_to_extF80M, qemu_f64_to_extF80M);
break;
case F64_TO_F128:
test_a_f64_z_f128(slow_f64_to_f128M, qemu_f64_to_f128M);
break;
case F64_ROUNDTOINT:
test_az_f64_rx(slow_f64_roundToInt, qemu_f64_roundToInt, rmode, exact);
break;
case F64_ADD:
true_abz_f64 = slow_f64_add;
subj_abz_f64 = qemu_f64_add;
goto test_abz_f64;
case F64_SUB:
true_abz_f64 = slow_f64_sub;
subj_abz_f64 = qemu_f64_sub;
goto test_abz_f64;
case F64_MUL:
true_abz_f64 = slow_f64_mul;
subj_abz_f64 = qemu_f64_mul;
goto test_abz_f64;
case F64_DIV:
true_abz_f64 = slow_f64_div;
subj_abz_f64 = qemu_f64_div;
goto test_abz_f64;
case F64_REM:
true_abz_f64 = slow_f64_rem;
subj_abz_f64 = qemu_f64_rem;
test_abz_f64:
test_abz_f64(true_abz_f64, subj_abz_f64);
break;
case F64_MULADD:
test_abcz_f64(slow_f64_mulAdd, qemu_f64_mulAdd);
break;
case F64_SQRT:
test_az_f64(slow_f64_sqrt, qemu_f64_sqrt);
break;
case F64_EQ:
true_ab_f64_z_bool = slow_f64_eq;
subj_ab_f64_z_bool = qemu_f64_eq;
goto test_ab_f64_z_bool;
case F64_LE:
true_ab_f64_z_bool = slow_f64_le;
subj_ab_f64_z_bool = qemu_f64_le;
goto test_ab_f64_z_bool;
case F64_LT:
true_ab_f64_z_bool = slow_f64_lt;
subj_ab_f64_z_bool = qemu_f64_lt;
goto test_ab_f64_z_bool;
case F64_EQ_SIGNALING:
true_ab_f64_z_bool = slow_f64_eq_signaling;
subj_ab_f64_z_bool = qemu_f64_eq_signaling;
goto test_ab_f64_z_bool;
case F64_LE_QUIET:
true_ab_f64_z_bool = slow_f64_le_quiet;
subj_ab_f64_z_bool = qemu_f64_le_quiet;
goto test_ab_f64_z_bool;
case F64_LT_QUIET:
true_ab_f64_z_bool = slow_f64_lt_quiet;
subj_ab_f64_z_bool = qemu_f64_lt_quiet;
test_ab_f64_z_bool:
test_ab_f64_z_bool(true_ab_f64_z_bool, subj_ab_f64_z_bool);
break;
case EXTF80_TO_UI32:
not_implemented();
break;
case EXTF80_TO_UI64:
not_implemented();
break;
case EXTF80_TO_I32:
test_a_extF80_z_i32_rx(slow_extF80M_to_i32, qemu_extF80M_to_i32, rmode,
exact);
break;
case EXTF80_TO_I64:
test_a_extF80_z_i64_rx(slow_extF80M_to_i64, qemu_extF80M_to_i64, rmode,
exact);
break;
case EXTF80_TO_UI32_R_MINMAG:
not_implemented();
break;
case EXTF80_TO_UI64_R_MINMAG:
not_implemented();
break;
case EXTF80_TO_I32_R_MINMAG:
test_a_extF80_z_i32_x(slow_extF80M_to_i32_r_minMag,
qemu_extF80M_to_i32_r_minMag, exact);
break;
case EXTF80_TO_I64_R_MINMAG:
test_a_extF80_z_i64_x(slow_extF80M_to_i64_r_minMag,
qemu_extF80M_to_i64_r_minMag, exact);
break;
case EXTF80_TO_F16:
not_implemented();
break;
case EXTF80_TO_F32:
test_a_extF80_z_f32(slow_extF80M_to_f32, qemu_extF80M_to_f32);
break;
case EXTF80_TO_F64:
test_a_extF80_z_f64(slow_extF80M_to_f64, qemu_extF80M_to_f64);
break;
case EXTF80_TO_F128:
test_a_extF80_z_f128(slow_extF80M_to_f128M, qemu_extF80M_to_f128M);
break;
case EXTF80_ROUNDTOINT:
test_az_extF80_rx(slow_extF80M_roundToInt, qemu_extF80M_roundToInt,
rmode, exact);
break;
case EXTF80_ADD:
true_abz_extF80M = slow_extF80M_add;
subj_abz_extF80M = qemu_extF80M_add;
goto test_abz_extF80;
case EXTF80_SUB:
true_abz_extF80M = slow_extF80M_sub;
subj_abz_extF80M = qemu_extF80M_sub;
goto test_abz_extF80;
case EXTF80_MUL:
true_abz_extF80M = slow_extF80M_mul;
subj_abz_extF80M = qemu_extF80M_mul;
goto test_abz_extF80;
case EXTF80_DIV:
true_abz_extF80M = slow_extF80M_div;
subj_abz_extF80M = qemu_extF80M_div;
goto test_abz_extF80;
case EXTF80_REM:
true_abz_extF80M = slow_extF80M_rem;
subj_abz_extF80M = qemu_extF80M_rem;
test_abz_extF80:
test_abz_extF80(true_abz_extF80M, subj_abz_extF80M);
break;
case EXTF80_SQRT:
test_az_extF80(slow_extF80M_sqrt, qemu_extF80M_sqrt);
break;
case EXTF80_EQ:
true_ab_extF80M_z_bool = slow_extF80M_eq;
subj_ab_extF80M_z_bool = qemu_extF80M_eq;
goto test_ab_extF80_z_bool;
case EXTF80_LE:
true_ab_extF80M_z_bool = slow_extF80M_le;
subj_ab_extF80M_z_bool = qemu_extF80M_le;
goto test_ab_extF80_z_bool;
case EXTF80_LT:
true_ab_extF80M_z_bool = slow_extF80M_lt;
subj_ab_extF80M_z_bool = qemu_extF80M_lt;
goto test_ab_extF80_z_bool;
case EXTF80_EQ_SIGNALING:
true_ab_extF80M_z_bool = slow_extF80M_eq_signaling;
subj_ab_extF80M_z_bool = qemu_extF80M_eq_signaling;
goto test_ab_extF80_z_bool;
case EXTF80_LE_QUIET:
true_ab_extF80M_z_bool = slow_extF80M_le_quiet;
subj_ab_extF80M_z_bool = qemu_extF80M_le_quiet;
goto test_ab_extF80_z_bool;
case EXTF80_LT_QUIET:
true_ab_extF80M_z_bool = slow_extF80M_lt_quiet;
subj_ab_extF80M_z_bool = qemu_extF80M_lt_quiet;
test_ab_extF80_z_bool:
test_ab_extF80_z_bool(true_ab_extF80M_z_bool, subj_ab_extF80M_z_bool);
break;
case F128_TO_UI32:
test_a_f128_z_ui32_rx(slow_f128M_to_ui32, qemu_f128M_to_ui32, rmode,
exact);
break;
case F128_TO_UI64:
test_a_f128_z_ui64_rx(slow_f128M_to_ui64, qemu_f128M_to_ui64, rmode,
exact);
break;
case F128_TO_I32:
test_a_f128_z_i32_rx(slow_f128M_to_i32, qemu_f128M_to_i32, rmode,
exact);
break;
case F128_TO_I64:
test_a_f128_z_i64_rx(slow_f128M_to_i64, qemu_f128M_to_i64, rmode,
exact);
break;
case F128_TO_UI32_R_MINMAG:
test_a_f128_z_ui32_x(slow_f128M_to_ui32_r_minMag,
qemu_f128M_to_ui32_r_minMag, exact);
break;
case F128_TO_UI64_R_MINMAG:
test_a_f128_z_ui64_x(slow_f128M_to_ui64_r_minMag,
qemu_f128M_to_ui64_r_minMag, exact);
break;
case F128_TO_I32_R_MINMAG:
test_a_f128_z_i32_x(slow_f128M_to_i32_r_minMag,
qemu_f128M_to_i32_r_minMag, exact);
break;
case F128_TO_I64_R_MINMAG:
test_a_f128_z_i64_x(slow_f128M_to_i64_r_minMag,
qemu_f128M_to_i64_r_minMag, exact);
break;
case F128_TO_F16:
not_implemented();
break;
case F128_TO_F32:
test_a_f128_z_f32(slow_f128M_to_f32, qemu_f128M_to_f32);
break;
case F128_TO_F64:
test_a_f128_z_f64(slow_f128M_to_f64, qemu_f128M_to_f64);
break;
case F128_TO_EXTF80:
test_a_f128_z_extF80(slow_f128M_to_extF80M, qemu_f128M_to_extF80M);
break;
case F128_ROUNDTOINT:
test_az_f128_rx(slow_f128M_roundToInt, qemu_f128M_roundToInt, rmode,
exact);
break;
case F128_ADD:
true_abz_f128M = slow_f128M_add;
subj_abz_f128M = qemu_f128M_add;
goto test_abz_f128;
case F128_SUB:
true_abz_f128M = slow_f128M_sub;
subj_abz_f128M = qemu_f128M_sub;
goto test_abz_f128;
case F128_MUL:
true_abz_f128M = slow_f128M_mul;
subj_abz_f128M = qemu_f128M_mul;
goto test_abz_f128;
case F128_DIV:
true_abz_f128M = slow_f128M_div;
subj_abz_f128M = qemu_f128M_div;
goto test_abz_f128;
case F128_REM:
true_abz_f128M = slow_f128M_rem;
subj_abz_f128M = qemu_f128M_rem;
test_abz_f128:
test_abz_f128(true_abz_f128M, subj_abz_f128M);
break;
case F128_MULADD:
not_implemented();
break;
case F128_SQRT:
test_az_f128(slow_f128M_sqrt, qemu_f128M_sqrt);
break;
case F128_EQ:
true_ab_f128M_z_bool = slow_f128M_eq;
subj_ab_f128M_z_bool = qemu_f128M_eq;
goto test_ab_f128_z_bool;
case F128_LE:
true_ab_f128M_z_bool = slow_f128M_le;
subj_ab_f128M_z_bool = qemu_f128M_le;
goto test_ab_f128_z_bool;
case F128_LT:
true_ab_f128M_z_bool = slow_f128M_lt;
subj_ab_f128M_z_bool = qemu_f128M_lt;
goto test_ab_f128_z_bool;
case F128_EQ_SIGNALING:
true_ab_f128M_z_bool = slow_f128M_eq_signaling;
subj_ab_f128M_z_bool = qemu_f128M_eq_signaling;
goto test_ab_f128_z_bool;
case F128_LE_QUIET:
true_ab_f128M_z_bool = slow_f128M_le_quiet;
subj_ab_f128M_z_bool = qemu_f128M_le_quiet;
goto test_ab_f128_z_bool;
case F128_LT_QUIET:
true_ab_f128M_z_bool = slow_f128M_lt_quiet;
subj_ab_f128M_z_bool = qemu_f128M_lt_quiet;
test_ab_f128_z_bool:
test_ab_f128_z_bool(true_ab_f128M_z_bool, subj_ab_f128M_z_bool);
break;
}
if ((verCases_errorStop && verCases_anyErrors)) {
verCases_exitWithStatus();
}
}
static unsigned int test_name_to_op(const char *arg)
{
unsigned int i;
/* counting begins at 1 */
for (i = 1; i < NUM_FUNCTIONS; i++) {
const char *name = functionInfos[i].namePtr;
if (name && !strcmp(name, arg)) {
return i;
}
}
return 0;
}
static unsigned int round_name_to_mode(const char *name)
{
int i;
/* counting begins at 1 */
for (i = 1; i < NUM_ROUNDINGMODES; i++) {
if (!strcmp(round_mode_names[i], name)) {
return i;
}
}
return 0;
}
static int set_init_flags(const char *flags)
{
const char *p;
for (p = flags; *p != '\0'; p++) {
switch (*p) {
case 'v':
slow_init_flags |= softfloat_flag_invalid;
qemu_init_flags |= float_flag_invalid;
break;
case 'i':
slow_init_flags |= softfloat_flag_infinite;
qemu_init_flags |= float_flag_divbyzero;
break;
case 'o':
slow_init_flags |= softfloat_flag_overflow;
qemu_init_flags |= float_flag_overflow;
break;
case 'u':
slow_init_flags |= softfloat_flag_underflow;
qemu_init_flags |= float_flag_underflow;
break;
case 'x':
slow_init_flags |= softfloat_flag_inexact;
qemu_init_flags |= float_flag_inexact;
break;
default:
return 1;
}
}
return 0;
}
static uint_fast8_t slow_clear_flags(void)
{
uint8_t prev = slowfloat_exceptionFlags;
slowfloat_exceptionFlags = slow_init_flags;
return prev;
}
static uint_fast8_t qemu_clear_flags(void)
{
uint8_t prev = qemu_flags_to_sf(qsf.float_exception_flags);
qsf.float_exception_flags = qemu_init_flags;
return prev;
}
static void parse_args(int argc, char *argv[])
{
unsigned int i;
int c;
for (;;) {
c = getopt(argc, argv, "he:f:l:r:s");
if (c < 0) {
break;
}
switch (c) {
case 'h':
usage_complete(argc, argv);
exit(EXIT_SUCCESS);
case 'e':
if (qemu_strtoui(optarg, NULL, 0, &n_max_errors)) {
fprintf(stderr, "fatal: invalid max error count\n");
exit(EXIT_FAILURE);
}
break;
case 'f':
if (set_init_flags(optarg)) {
fprintf(stderr, "fatal: flags must be a subset of 'vioux'\n");
exit(EXIT_FAILURE);
}
break;
case 'l':
if (qemu_strtoi(optarg, NULL, 0, &test_level)) {
fprintf(stderr, "fatal: invalid test level\n");
exit(EXIT_FAILURE);
}
break;
case 'r':
if (!strcmp(optarg, "all")) {
test_round_mode = 0;
} else {
test_round_mode = round_name_to_mode(optarg);
if (test_round_mode == 0) {
fprintf(stderr, "fatal: invalid rounding mode\n");
exit(EXIT_FAILURE);
}
}
break;
case 's':
verCases_errorStop = true;
break;
case '?':
/* invalid option or missing argument; getopt prints error info */
exit(EXIT_FAILURE);
}
}
/* set rounding modes */
if (test_round_mode == 0) {
/* test all rounding modes; note that counting begins at 1 */
n_round_modes = NUM_ROUNDINGMODES - 1;
round_modes = g_malloc_n(n_round_modes, sizeof(*round_modes));
for (i = 0; i < n_round_modes; i++) {
round_modes[i] = i + 1;
}
} else {
n_round_modes = 1;
round_modes = g_malloc(sizeof(*round_modes));
round_modes[0] = test_round_mode;
}
/* set test ops */
if (optind == argc) {
/* test all ops; note that counting begins at 1 */
n_test_ops = NUM_FUNCTIONS - 1;
test_ops = g_malloc_n(n_test_ops, sizeof(*test_ops));
for (i = 0; i < n_test_ops; i++) {
test_ops[i] = i + 1;
}
} else {
n_test_ops = argc - optind;
test_ops = g_malloc_n(n_test_ops, sizeof(*test_ops));
for (i = 0; i < n_test_ops; i++) {
const char *name = argv[i + optind];
unsigned int op = test_name_to_op(name);
if (op == 0) {
fprintf(stderr, "fatal: invalid op '%s'\n", name);
exit(EXIT_FAILURE);
}
test_ops[i] = op;
}
}
}
static void QEMU_NORETURN run_test(void)
{
unsigned int i;
genCases_setLevel(test_level);
verCases_maxErrorCount = n_max_errors;
testLoops_trueFlagsFunction = slow_clear_flags;
testLoops_subjFlagsFunction = qemu_clear_flags;
for (i = 0; i < n_test_ops; i++) {
unsigned int op = test_ops[i];
int j;
if (functionInfos[op].namePtr == NULL) {
continue;
}
verCases_functionNamePtr = functionInfos[op].namePtr;
for (j = 0; j < n_round_modes; j++) {
int attrs = functionInfos[op].attribs;
int round = round_modes[j];
int rmode = roundingModes[round];
int k;
verCases_roundingCode = 0;
slowfloat_roundingMode = rmode;
qsf.float_rounding_mode = sf_rounding_to_qemu(rmode);
if (attrs & (FUNC_ARG_ROUNDINGMODE | FUNC_EFF_ROUNDINGMODE)) {
/* print rounding mode if the op is affected by it */
verCases_roundingCode = round;
} else if (j > 0) {
/* if the op is not sensitive to rounding, move on */
break;
}
/* QEMU doesn't have !exact */
verCases_exact = true;
verCases_usesExact = !!(attrs & FUNC_ARG_EXACT);
for (k = 0; k < 3; k++) {
int prec80 = 32;
int l;
if (k == 1) {
prec80 = 64;
} else if (k == 2) {
prec80 = 80;
}
verCases_roundingPrecision = 0;
slow_extF80_roundingPrecision = prec80;
qsf.floatx80_rounding_precision = prec80;
if (attrs & FUNC_EFF_ROUNDINGPRECISION) {
verCases_roundingPrecision = prec80;
} else if (k > 0) {
/* if the op is not sensitive to prec80, move on */
break;
}
/* note: the count begins at 1 */
for (l = 1; l < NUM_TININESSMODES; l++) {
int tmode = tininessModes[l];
verCases_tininessCode = 0;
slowfloat_detectTininess = tmode;
qsf.tininess_before_rounding = sf_tininess_to_qemu(tmode);
if (attrs & FUNC_EFF_TININESSMODE ||
((attrs & FUNC_EFF_TININESSMODE_REDUCEDPREC) &&
prec80 && prec80 < 80)) {
verCases_tininessCode = l;
} else if (l > 1) {
/* if the op is not sensitive to tininess, move on */
break;
}
do_testfloat(op, rmode, true);
}
}
}
}
verCases_exitWithStatus();
/* old compilers might miss that we exited */
g_assert_not_reached();
}
int main(int argc, char *argv[])
{
parse_args(argc, argv);
fail_programName = argv[0];
run_test(); /* does not return */
}
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