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From: sergos via Tarantool-patches <tarantool-patches@dev.tarantool.org>
To: Maksim Kokryashkin <max.kokryashkin@gmail.com>
Cc: tarantool-patches@dev.tarantool.org
Subject: Re: [Tarantool-patches] [PATCH luajit v8] Fix math.min()/math.max() inconsistencies.
Date: Fri, 3 Mar 2023 15:28:51 +0300	[thread overview]
Message-ID: <874063BF-3019-4BD8-9C7A-17BC9C325FEE@tarantool.org> (raw)
In-Reply-To: <20230208200550.48291-1-max.kokryashkin@gmail.com>

Hi!

Thanks for the patch!

Number of FIXME and a XXX in the test - does it mean we’d have problems in CI?

Regards,
Sergos

> On 8 Feb 2023, at 23:05, Maksim Kokryashkin <max.kokryashkin@gmail.com> wrote:
> 
> From: Mike Pall <mike>
> 
> (cherry-picked from commit 03208c8162af9cc01ca76ee1676ca79e5abe9b60)
> 
> `math.min()`/`math.max()` could produce different results.
> Previously, dirty values on the Lua stack could be
> treated as arguments to `math.min()`/`math.max()`.
> This patch adds check for the number of arguments provided to
> math.min/max, which fixes the issue.
> 
> Also, several fold optimizations were modified or
> deleted due to inconsistencies between compiler
> and interpreter on NaN-values.
> 
> Changes in `fold_kfold_numarith()` also required
> to replace the `CC_LO/CC_HI` comparison modes with the `CC_LE/CC_PL`
> on aarch64 platforms. The issue is thoroughly described just before
> the corresponding test.
> 
> Changes for MIPS and PPC architectures are ommited, due to the
> absence of other patches the are dependent on.
> 
> Maxim Kokryashkin & Sergey Kaplun:
> * added the description and tests for the problem
> 
> Resolves tarantool/tarantool#6163
> ---
> Changes in v8:
> - Fixed comments as per review by Sergey
> 
> Branch: https://github.com/tarantool/luajit/tree/fckxorg/gh-6163-min-max
> PR: https://github.com/tarantool/tarantool/pull/7455
> Issue for x86 misbehavior: https://github.com/LuaJIT/LuaJIT/issues/957
> src/lj_asm_arm.h                              |   6 +-
> src/lj_asm_arm64.h                            |   6 +-
> src/lj_opt_fold.c                             |  53 ++--
> src/lj_vmmath.c                               |   4 +-
> src/vm_arm.dasc                               |   4 +-
> src/vm_arm64.dasc                             |   4 +-
> src/vm_x64.dasc                               |   2 +-
> src/vm_x86.dasc                               |   2 +-
> test/tarantool-tests/gh-6163-min-max.test.lua | 263 ++++++++++++++++++
> 9 files changed, 296 insertions(+), 48 deletions(-)
> create mode 100644 test/tarantool-tests/gh-6163-min-max.test.lua
> 
> diff --git a/src/lj_asm_arm.h b/src/lj_asm_arm.h
> index 8af19eb9..6ae6e2f2 100644
> --- a/src/lj_asm_arm.h
> +++ b/src/lj_asm_arm.h
> @@ -1663,8 +1663,8 @@ static void asm_min_max(ASMState *as, IRIns *ir, int cc, int fcc)
>     asm_intmin_max(as, ir, cc);
> }
> 
> -#define asm_min(as, ir)		asm_min_max(as, ir, CC_GT, CC_HI)
> -#define asm_max(as, ir)		asm_min_max(as, ir, CC_LT, CC_LO)
> +#define asm_min(as, ir)		asm_min_max(as, ir, CC_GT, CC_PL)
> +#define asm_max(as, ir)		asm_min_max(as, ir, CC_LT, CC_LE)
> 
> /* -- Comparisons --------------------------------------------------------- */
> 
> @@ -1856,7 +1856,7 @@ static void asm_hiop(ASMState *as, IRIns *ir)
>   } else if ((ir-1)->o == IR_MIN || (ir-1)->o == IR_MAX) {
>     as->curins--;  /* Always skip the loword min/max. */
>     if (uselo || usehi)
> -      asm_sfpmin_max(as, ir-1, (ir-1)->o == IR_MIN ? CC_HI : CC_LO);
> +      asm_sfpmin_max(as, ir-1, (ir-1)->o == IR_MIN ? CC_PL : CC_LE);
>     return;
> #elif LJ_HASFFI
>   } else if ((ir-1)->o == IR_CONV) {
> diff --git a/src/lj_asm_arm64.h b/src/lj_asm_arm64.h
> index 4aeb51f3..fe197700 100644
> --- a/src/lj_asm_arm64.h
> +++ b/src/lj_asm_arm64.h
> @@ -1592,7 +1592,7 @@ static void asm_fpmin_max(ASMState *as, IRIns *ir, A64CC fcc)
>   Reg dest = (ra_dest(as, ir, RSET_FPR) & 31);
>   Reg right, left = ra_alloc2(as, ir, RSET_FPR);
>   right = ((left >> 8) & 31); left &= 31;
> -  emit_dnm(as, A64I_FCSELd | A64F_CC(fcc), dest, left, right);
> +  emit_dnm(as, A64I_FCSELd | A64F_CC(fcc), dest, right, left);
>   emit_nm(as, A64I_FCMPd, left, right);
> }
> 
> @@ -1604,8 +1604,8 @@ static void asm_min_max(ASMState *as, IRIns *ir, A64CC cc, A64CC fcc)
>     asm_intmin_max(as, ir, cc);
> }
> 
> -#define asm_max(as, ir)		asm_min_max(as, ir, CC_GT, CC_HI)
> -#define asm_min(as, ir)		asm_min_max(as, ir, CC_LT, CC_LO)
> +#define asm_min(as, ir)		asm_min_max(as, ir, CC_LT, CC_PL)
> +#define asm_max(as, ir)		asm_min_max(as, ir, CC_GT, CC_LE)
> 
> /* -- Comparisons --------------------------------------------------------- */
> 
> diff --git a/src/lj_opt_fold.c b/src/lj_opt_fold.c
> index 49f74996..27e489af 100644
> --- a/src/lj_opt_fold.c
> +++ b/src/lj_opt_fold.c
> @@ -1797,8 +1797,6 @@ LJFOLDF(reassoc_intarith_k64)
> #endif
> }
> 
> -LJFOLD(MIN MIN any)
> -LJFOLD(MAX MAX any)
> LJFOLD(BAND BAND any)
> LJFOLD(BOR BOR any)
> LJFOLDF(reassoc_dup)
> @@ -1808,6 +1806,15 @@ LJFOLDF(reassoc_dup)
>   return NEXTFOLD;
> }
> 
> +LJFOLD(MIN MIN any)
> +LJFOLD(MAX MAX any)
> +LJFOLDF(reassoc_dup_minmax)
> +{
> +  if (fins->op2 == fleft->op2)
> +    return LEFTFOLD;  /* (a o b) o b ==> a o b */
> +  return NEXTFOLD;
> +}
> +
> LJFOLD(BXOR BXOR any)
> LJFOLDF(reassoc_bxor)
> {
> @@ -1846,23 +1853,12 @@ LJFOLDF(reassoc_shift)
>   return NEXTFOLD;
> }
> 
> -LJFOLD(MIN MIN KNUM)
> -LJFOLD(MAX MAX KNUM)
> LJFOLD(MIN MIN KINT)
> LJFOLD(MAX MAX KINT)
> LJFOLDF(reassoc_minmax_k)
> {
>   IRIns *irk = IR(fleft->op2);
> -  if (irk->o == IR_KNUM) {
> -    lua_Number a = ir_knum(irk)->n;
> -    lua_Number y = lj_vm_foldarith(a, knumright, fins->o - IR_ADD);
> -    if (a == y)  /* (x o k1) o k2 ==> x o k1, if (k1 o k2) == k1. */
> -      return LEFTFOLD;
> -    PHIBARRIER(fleft);
> -    fins->op1 = fleft->op1;
> -    fins->op2 = (IRRef1)lj_ir_knum(J, y);
> -    return RETRYFOLD;  /* (x o k1) o k2 ==> x o (k1 o k2) */
> -  } else if (irk->o == IR_KINT) {
> +  if (irk->o == IR_KINT) {
>     int32_t a = irk->i;
>     int32_t y = kfold_intop(a, fright->i, fins->o);
>     if (a == y)  /* (x o k1) o k2 ==> x o k1, if (k1 o k2) == k1. */
> @@ -1875,24 +1871,6 @@ LJFOLDF(reassoc_minmax_k)
>   return NEXTFOLD;
> }
> 
> -LJFOLD(MIN MAX any)
> -LJFOLD(MAX MIN any)
> -LJFOLDF(reassoc_minmax_left)
> -{
> -  if (fins->op2 == fleft->op1 || fins->op2 == fleft->op2)
> -    return RIGHTFOLD;  /* (b o1 a) o2 b ==> b; (a o1 b) o2 b ==> b */
> -  return NEXTFOLD;
> -}
> -
> -LJFOLD(MIN any MAX)
> -LJFOLD(MAX any MIN)
> -LJFOLDF(reassoc_minmax_right)
> -{
> -  if (fins->op1 == fright->op1 || fins->op1 == fright->op2)
> -    return LEFTFOLD;  /* a o2 (a o1 b) ==> a; a o2 (b o1 a) ==> a */
> -  return NEXTFOLD;
> -}
> -
> /* -- Array bounds check elimination -------------------------------------- */
> 
> /* Eliminate ABC across PHIs to handle t[i-1] forwarding case.
> @@ -2018,8 +1996,6 @@ LJFOLDF(comm_comp)
> 
> LJFOLD(BAND any any)
> LJFOLD(BOR any any)
> -LJFOLD(MIN any any)
> -LJFOLD(MAX any any)
> LJFOLDF(comm_dup)
> {
>   if (fins->op1 == fins->op2)  /* x o x ==> x */
> @@ -2027,6 +2003,15 @@ LJFOLDF(comm_dup)
>   return fold_comm_swap(J);
> }
> 
> +LJFOLD(MIN any any)
> +LJFOLD(MAX any any)
> +LJFOLDF(comm_dup_minmax)
> +{
> +  if (fins->op1 == fins->op2)  /* x o x ==> x */
> +    return LEFTFOLD;
> +  return NEXTFOLD;
> +}
> +
> LJFOLD(BXOR any any)
> LJFOLDF(comm_bxor)
> {
> diff --git a/src/lj_vmmath.c b/src/lj_vmmath.c
> index c04459bd..ae4e0f15 100644
> --- a/src/lj_vmmath.c
> +++ b/src/lj_vmmath.c
> @@ -49,8 +49,8 @@ double lj_vm_foldarith(double x, double y, int op)
>   case IR_ABS - IR_ADD: return fabs(x); break;
> #if LJ_HASJIT
>   case IR_LDEXP - IR_ADD: return ldexp(x, (int)y); break;
> -  case IR_MIN - IR_ADD: return x > y ? y : x; break;
> -  case IR_MAX - IR_ADD: return x < y ? y : x; break;
> +  case IR_MIN - IR_ADD: return x < y ? x : y; break;
> +  case IR_MAX - IR_ADD: return x > y ? x : y; break;
> #endif
>   default: return x;
>   }
> diff --git a/src/vm_arm.dasc b/src/vm_arm.dasc
> index a29292f1..89faa03e 100644
> --- a/src/vm_arm.dasc
> +++ b/src/vm_arm.dasc
> @@ -1718,8 +1718,8 @@ static void build_subroutines(BuildCtx *ctx)
>   |.endif
>   |.endmacro
>   |
> -  |  math_minmax math_min, gt, hi
> -  |  math_minmax math_max, lt, lo
> +  |  math_minmax math_min, gt, pl
> +  |  math_minmax math_max, lt, le
>   |
>   |//-- String library -----------------------------------------------------
>   |
> diff --git a/src/vm_arm64.dasc b/src/vm_arm64.dasc
> index f517a808..2c1bb4f8 100644
> --- a/src/vm_arm64.dasc
> +++ b/src/vm_arm64.dasc
> @@ -1494,8 +1494,8 @@ static void build_subroutines(BuildCtx *ctx)
>   |  b <6
>   |.endmacro
>   |
> -  |  math_minmax math_min, gt, hi
> -  |  math_minmax math_max, lt, lo
> +  |  math_minmax math_min, gt, pl
> +  |  math_minmax math_max, lt, le
>   |
>   |//-- String library -----------------------------------------------------
>   |
> diff --git a/src/vm_x64.dasc b/src/vm_x64.dasc
> index 59f117ba..faeb5181 100644
> --- a/src/vm_x64.dasc
> +++ b/src/vm_x64.dasc
> @@ -1896,7 +1896,7 @@ static void build_subroutines(BuildCtx *ctx)
>   |  jmp ->fff_res
>   |
>   |.macro math_minmax, name, cmovop, sseop
> -  |  .ffunc name
> +  |  .ffunc_1 name
>   |  mov RAd, 2
>   |.if DUALNUM
>   |  mov RB, [BASE]
> diff --git a/src/vm_x86.dasc b/src/vm_x86.dasc
> index f7ffe5d2..1c995d16 100644
> --- a/src/vm_x86.dasc
> +++ b/src/vm_x86.dasc
> @@ -2321,7 +2321,7 @@ static void build_subroutines(BuildCtx *ctx)
>   |  xorps xmm4, xmm4; jmp <1			// Return +-Inf and +-0.
>   |
>   |.macro math_minmax, name, cmovop, sseop
> -  |  .ffunc name
> +  |  .ffunc_1 name
>   |  mov RA, 2
>   |  cmp dword [BASE+4], LJ_TISNUM
>   |.if DUALNUM
> diff --git a/test/tarantool-tests/gh-6163-min-max.test.lua b/test/tarantool-tests/gh-6163-min-max.test.lua
> new file mode 100644
> index 00000000..fb7a4058
> --- /dev/null
> +++ b/test/tarantool-tests/gh-6163-min-max.test.lua
> @@ -0,0 +1,263 @@
> +local tap = require('tap')
> +local test = tap.test('gh-6163-jit-min-max')
> +local x86_64 = jit.arch == 'x86' or jit.arch == 'x64'
> +test:plan(18)
> +--
> +-- gh-6163: math.min/math.max inconsistencies.
> +--
> +
> +local function isnan(x)
> +    return x ~= x
> +end
> +
> +local function array_is_consistent(res)
> +  for i = 1, #res - 1 do
> +    if res[i] ~= res[i + 1] and not (isnan(res[i]) and isnan(res[i + 1])) then
> +      return false
> +    end
> +  end
> +  return true
> +end
> +
> +-- This function creates dirty values on the Lua stack.
> +-- The latter of them is going to be treated as an
> +-- argument by the `math.min/math.max`.
> +-- The first two of them are going to be overwritten
> +-- by the math function itself.
> +local function filler()
> +  return 1, 1, 1
> +end
> +
> +local min = math.min
> +local max = math.max
> +
> +-- It would be enough to test all cases for the
> +-- `math.min()` or for the `math.max()` only, because the
> +-- problem was in the common code. However, we shouldn't
> +-- make such assumptions in the testing code.
> +
> +-- `math.min()/math.max()` should raise an error when
> +-- called with no arguments.
> +filler()
> +local r, _ = pcall(function() min() end)
> +test:ok(not r, 'math.min fails with no args')
> +
> +filler()
> +r, _ = pcall(function() max() end)
> +test:ok(false == r, 'math.max fails with no args')
> +
> +local nan = 0/0
> +local x = 1
> +
> +jit.opt.start('hotloop=1')
> +
> +-- XXX: Looping over the operations and their arguments breakes the
> +-- semantics of some optimization tests below. The cases are
> +-- copy-pasted to preserve optimization semantics.
> +
> +-- Without the `(a o b) o a ==> a o b` fold optimization for
> +-- `math.min()/math.max()` the following mcode is emitted on aarch64
> +-- for the `math.min(math.min(x, nan), x)` expression:
> +--
> +-- | fcmp d2, d3 ; fcmp 1.0, nan
> +-- | fcsel d1, d2, d3, cc ; d1 == nan after this instruction
> +-- | ...
> +-- | fcmp d1, d2 ; fcmp nan, 1.0
> +-- | fcsel d0, d1, d2, cc ; d0 == 1.0 after this instruction
> +--
> +-- According to the `fcmp` docs[1], if either of the operands is NaN,
> +-- then the operands are unordered. It results in the following state
> +-- of the flags register: N=0, Z=0, C=1, V=1
> +--
> +-- According to the `fcsel` docs[2], if the condition is met, then
> +-- the first register value is taken, otherwise -- the second.
> +-- In our case, the condition is cc, which means that the `C` flag
> +-- should be clear[3], which is false. Then, the second value is taken,
> +-- which is `NaN` for the first `fcmp`-`fcsel` pair, and `1.0` for
> +-- the second.
> +--
> +-- If that fold optimization is applied, then only the first `fcmp`-`fcsel`
> +-- pair is emitted, and the result is `NaN`, which is inconsistent with
> +-- the result of the non-optimized mcode.
> +--
> +-- [1]: https://developer.arm.com/documentation/dui0801/g/A64-Floating-point-Instructions/FCMP
> +-- [2]: https://developer.arm.com/documentation/100069/0608/A64-Floating-point-Instructions/FCSEL
> +-- [3]: https://developer.arm.com/documentation/dui0068/b/ARM-Instruction-Reference/Conditional-execution
> +
> +local result = {}
> +for k = 1, 4 do
> +    result[k] = min(min(x, nan), x)
> +end
> +-- expected: 1 1 1 1
> +test:ok(array_is_consistent(result), 'math.min: reassoc_dup')
> +
> +result = {}
> +for k = 1, 4 do
> +    result[k] = max(max(x, nan), x)
> +end
> +-- expected: 1 1 1 1
> +test:ok(array_is_consistent(result), 'math.max: reassoc_dup')
> +
> +-- If one gets the expression like `math.min(x, math.min(x, nan))`,
> +-- and the `comm_dup` optimization is applied, it results in the
> +-- same situation as explained above. With the `comm_dup_minmax`
> +-- there is no swap, hence, everything is consistent again:
> +--
> +-- | fcmp d2, d3 ; fcmp 1.0, nan
> +-- | fcsel d1, d3, d2, pl ; d1 == nan after this instruction
> +-- | ...
> +-- | fcmp d2, d1 ; fcmp 1.0, nan
> +-- | fcsel d0, d1, d2, pl ; d0 == nan after this instruction
> +-- `pl` (aka `CC_PL`) condition means that N flag is 0 [2], that
> +-- is true when we are comparing something with NaN. So, the value of the
> +-- first source register is taken
> +
> +result = {}
> +for k = 1, 4 do
> +    result[k] = min(x, min(x, nan))
> +end
> +-- FIXME: results are still inconsistent for the x86/64 architecture.
> +-- expected: nan nan nan nan
> +test:ok(array_is_consistent(result) or x86_64, 'math.min: comm_dup_minmax')
> +
> +result = {}
> +for k = 1, 4 do
> +    result[k] = max(x, max(x, nan))
> +end
> +-- FIXME: results are still inconsistent for the x86/64 architecture.
> +-- expected: nan nan nan nan
> +test:ok(array_is_consistent(result) or x86_64, 'math.max: comm_dup_minmax')
> +
> +-- The following optimization should be disabled:
> +-- (x o k1) o k2 ==> x o (k1 o k2)
> +
> +x = 1.2
> +result = {}
> +for k = 1, 4 do
> +    result[k] = min(min(x, 0/0), 1.3)
> +end
> +-- expected: 1.3 1.3 1.3 1.3
> +test:ok(array_is_consistent(result), 'math.min: reassoc_minmax_k')
> +
> +result = {}
> +for k = 1, 4 do
> +    result[k] = max(max(x, 0/0), 1.1)
> +end
> +-- expected: 1.1 1.1 1.1 1.1
> +test:ok(array_is_consistent(result), 'math.max: reassoc_minmax_k')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = min(max(nan, 1), 1)
> +end
> +-- expected: 1 1 1 1
> +test:ok(array_is_consistent(result), 'min-max-case1: reassoc_minmax_left')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = min(max(1, nan), 1)
> +end
> +-- expected: 1 1 1 1
> +test:ok(array_is_consistent(result), 'min-max-case2: reassoc_minmax_left')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = max(min(nan, 1), 1)
> +end
> +-- expected: 1 1 1 1
> +test:ok(array_is_consistent(result), 'max-min-case1: reassoc_minmax_left')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = max(min(1, nan), 1)
> +end
> +-- expected: 1 1 1 1
> +test:ok(array_is_consistent(result), 'max-min-case2: reassoc_minmax_left')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = min(1, max(nan, 1))
> +end
> +-- expected: 1 1 1 1
> +test:ok(array_is_consistent(result), 'min-max-case1: reassoc_minmax_right')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = min(1, max(1, nan))
> +end
> +-- FIXME: results are still inconsistent for the x86/64 architecture.
> +-- expected: nan nan nan nan
> +test:ok(array_is_consistent(result) or x86_64, 'min-max-case2: reassoc_minmax_right')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = max(1, min(nan, 1))
> +end
> +-- expected: 1 1 1 1
> +test:ok(array_is_consistent(result), 'max-min-case1: reassoc_minmax_right')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = max(1, min(1, nan))
> +end
> +-- FIXME: results are still inconsistent for the x86/64 architecture.
> +-- expected: nan nan nan nan
> +test:ok(array_is_consistent(result) or x86_64, 'max-min-case2: reassoc_minmax_right')
> +
> +-- XXX: If we look into the disassembled code of `lj_vm_foldarith()`
> +-- we can see the following:
> +--
> +-- | /* In our test x == 7.1, y == nan */
> +-- | case IR_MIN - IR_ADD: return x > y ? y : x; break;
> +--
> +-- | ; case IR_MIN
> +-- | <lj_vm_foldarith+337>: movsd xmm0,QWORD PTR [rsp+0x18] ; xmm0 <- 7.1
> +-- | <lj_vm_foldarith+343>: comisd xmm0,QWORD PTR [rsp+0x10] ; comisd 7.1, nan
> +-- | <lj_vm_foldarith+349>: jbe <lj_vm_foldarith+358> ; >= ?
> +-- | <lj_vm_foldarith+351>: mov rax,QWORD PTR [rsp+0x10] ; return nan
> +-- | <lj_vm_foldarith+356>: jmp <lj_vm_foldarith+398> ;
> +-- | <lj_vm_foldarith+358>: mov rax,QWORD PTR [rsp+0x18] ; else return 7.1
> +-- | <lj_vm_foldarith+363>: jmp <lj_vm_foldarith+398> ;
> +--
> +-- According to `comisd` documentation [4] in case when one of the operands
> +-- is NaN, the result is unordered and ZF,PF,CF := 111. This means that `jbe`
> +-- condition is true (CF=1 or ZF=1)[5], so we return 7.1 (the first
> +-- operand) for case `IR_MIN`.
> +--
> +-- However, in `lj_ff_math_min()` in the VM we see the following:
> +-- |7:
> +-- | sseop xmm0, xmm1
> +-- Where `sseop` is either `minsd` or `maxsd` instruction.
> +-- If only one of their args is a NaN, the second source operand,
> +-- either a NaN or a valid floating-point value, is
> +-- written to the result.
> +--
> +-- So the patch changes the `lj_vm_foldairth()` assembly in the following way:
> +-- | ; case IR_MIN
> +-- | <lj_vm_foldarith+337>: movsd xmm0,QWORD PTR [rsp+0x10] ; xmm0 <- nan
> +-- | <lj_vm_foldarith+343>: comisd xmm0,QWORD PTR [rsp+0x18] ; comisd nan, 7.1
> +-- | <lj_vm_foldarith+349>: jbe <lj_vm_foldarith+358> ; >= ?
> +-- | <lj_vm_foldarith+351>: mov rax,QWORD PTR [rsp+0x18] ; return 7.1
> +-- | <lj_vm_foldarith+356>: jmp <lj_vm_foldarith+398> ;
> +-- | <lj_vm_foldarith+358>: mov rax,QWORD PTR [rsp+0x10] ; else return nan
> +-- | <lj_vm_foldarith+363>: jmp <lj_vm_foldarith+398> ;
> +--
> +-- So now we always return the second operand.
> +--
> +-- XXX: The two tests below use the `0/0` constant instead of `nan`
> +-- variable is dictated by the `fold_kfold_numarith` semantics.
> +result = {}
> +for k = 1, 4 do
> +  result[k] = min(min(7.1, 0/0), 1.1)
> +end
> +-- expected: 1.1 1.1 1.1 1.1
> +test:ok(array_is_consistent(result), 'min: fold_kfold_numarith')
> +
> +result = {}
> +for k = 1, 4 do
> +  result[k] = max(max(7.1, 0/0), 1.1)
> +end
> +-- expected: 1.1 1.1 1.1 1.1
> +test:ok(array_is_consistent(result), 'max: fold_kfold_numarith')
> +
> +os.exit(test:check() and 0 or 1)
> --
> 2.37.1 (Apple Git-137.1)
> 


  reply	other threads:[~2023-03-03 12:29 UTC|newest]

Thread overview: 5+ messages / expand[flat|nested]  mbox.gz  Atom feed  top
2023-02-08 20:05 Maksim Kokryashkin via Tarantool-patches
2023-03-03 12:28 ` sergos via Tarantool-patches [this message]
2023-03-06 14:52   ` Maxim Kokryashkin via Tarantool-patches
2023-03-06 14:57     ` sergos via Tarantool-patches
2023-03-30 17:37 ` Igor Munkin via Tarantool-patches

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