On Thu, Oct 12, 2023 at 4:24 AM Michael Meissner wrote: > I was building a cross compiler to PowerPC on my x86_86 workstation with > the > latest version of GCC on October 11th. I could not build the compiler on > the > x86_64 system as it died in building libgcc. I looked into it, and I > discovered the compiler was recursing until it ran out of stack space. If > I > build a native compiler with the same sources on a PowerPC system, it > builds > fine. > > I traced this down to a change made around October 10th: > > | commit 8f1a70a4fbcc6441c70da60d4ef6db1e5635e18a (HEAD) > | Author: Jiufu Guo > | Date: Tue Jan 10 20:52:33 2023 +0800 > | > | rs6000: build constant via li/lis;rldicl/rldicr > | > | If a constant is possible left/right cleaned on a rotated value from > | a negative value of "li/lis". Then, using "li/lis ; rldicl/rldicr" > | to build the constant. > > The code was doing a -1 << 64 which is undefined behavior because different > machines produce different results. On the x86_64 system, (-1 << 64) > produces > -1 while on a PowerPC 64-bit system, (-1 << 64) produces 0. The x86_64 > then > recurses until the stack runs out of space. > > If I apply this patch, the compiler builds fine on both x86_64 as a PowerPC > crosss compiler and on a native PowerPC system. > > Can I check this into the master branch to fix the problem? > Thanks for finding and debugging this problem. This is okay. Thanks, David > > 2023-10-12 Michael Meissner > > gcc/ > > PR target/111778 > * config/rs6000/rs6000.cc (can_be_built_by_li_lis_and_rldicl): > Protect > code from shifts that are undefined. > (can_be_built_by_li_lis_and_rldicr): Likewise. > (can_be_built_by_li_and_rldic): Protect code from shifts that > undefined. Also replace uses of 1ULL with HOST_WIDE_INT_1U. > > --- > gcc/config/rs6000/rs6000.cc | 29 ++++++++++++++++++++++++++--- > 1 file changed, 26 insertions(+), 3 deletions(-) > > diff --git a/gcc/config/rs6000/rs6000.cc b/gcc/config/rs6000/rs6000.cc > index 2828f01413c..cc24dd5301e 100644 > --- a/gcc/config/rs6000/rs6000.cc > +++ b/gcc/config/rs6000/rs6000.cc > @@ -10370,6 +10370,11 @@ can_be_built_by_li_lis_and_rldicl (HOST_WIDE_INT > c, int *shift, > /* Leading zeros may be cleaned by rldicl with a mask. Change leading > zeros > to ones and then recheck it. */ > int lz = clz_hwi (c); > + > + /* If lz == 0, the left shift is undefined. */ > + if (!lz) > + return false; > + > HOST_WIDE_INT unmask_c > = c | (HOST_WIDE_INT_M1U << (HOST_BITS_PER_WIDE_INT - lz)); > int n; > @@ -10398,6 +10403,11 @@ can_be_built_by_li_lis_and_rldicr (HOST_WIDE_INT > c, int *shift, > /* Tailing zeros may be cleaned by rldicr with a mask. Change tailing > zeros > to ones and then recheck it. */ > int tz = ctz_hwi (c); > + > + /* If tz == HOST_BITS_PER_WIDE_INT, the left shift is undefined. */ > + if (tz >= HOST_BITS_PER_WIDE_INT) > + return false; > + > HOST_WIDE_INT unmask_c = c | ((HOST_WIDE_INT_1U << tz) - 1); > int n; > if (can_be_rotated_to_lowbits (~unmask_c, 15, &n) > @@ -10428,8 +10438,15 @@ can_be_built_by_li_and_rldic (HOST_WIDE_INT c, > int *shift, HOST_WIDE_INT *mask) > right bits are shifted as 0's, and left 1's(and x's) are cleaned. */ > int tz = ctz_hwi (c); > int lz = clz_hwi (c); > + > + /* If lz == HOST_BITS_PER_WIDE_INT, the left shift is undefined. */ > + if (lz >= HOST_BITS_PER_WIDE_INT) > + return false; > + > int middle_ones = clz_hwi (~(c << lz)); > - if (tz + lz + middle_ones >= ones) > + if (tz + lz + middle_ones >= ones > + && (tz - lz) < HOST_BITS_PER_WIDE_INT > + && tz < HOST_BITS_PER_WIDE_INT) > { > *mask = ((1LL << (HOST_BITS_PER_WIDE_INT - tz - lz)) - 1LL) << tz; > *shift = tz; > @@ -10440,7 +10457,8 @@ can_be_built_by_li_and_rldic (HOST_WIDE_INT c, int > *shift, HOST_WIDE_INT *mask) > int leading_ones = clz_hwi (~c); > int tailing_ones = ctz_hwi (~c); > int middle_zeros = ctz_hwi (c >> tailing_ones); > - if (leading_ones + tailing_ones + middle_zeros >= ones) > + if (leading_ones + tailing_ones + middle_zeros >= ones > + && middle_zeros < HOST_BITS_PER_WIDE_INT) > { > *mask = ~(((1ULL << middle_zeros) - 1ULL) << tailing_ones); > *shift = tailing_ones + middle_zeros; > @@ -10450,10 +10468,15 @@ can_be_built_by_li_and_rldic (HOST_WIDE_INT c, > int *shift, HOST_WIDE_INT *mask) > /* xx1..1xx: --> xx0..01..1xx: some 1's(following x's) are cleaned. */ > /* Get the position for the first bit of successive 1. > The 24th bit would be in successive 0 or 1. */ > - HOST_WIDE_INT low_mask = (1LL << 24) - 1LL; > + HOST_WIDE_INT low_mask = (HOST_WIDE_INT_1U << 24) - HOST_WIDE_INT_1U; > int pos_first_1 = ((c & (low_mask + 1)) == 0) > ? clz_hwi (c & low_mask) > : HOST_BITS_PER_WIDE_INT - ctz_hwi (~(c | low_mask)); > + > + /* Make sure the left and right shifts are defined. */ > + if (!IN_RANGE (pos_first_1, 1, HOST_BITS_PER_WIDE_INT-1)) > + return false; > + > middle_ones = clz_hwi (~c << pos_first_1); > middle_zeros = ctz_hwi (c >> (HOST_BITS_PER_WIDE_INT - pos_first_1)); > if (pos_first_1 < HOST_BITS_PER_WIDE_INT > -- > 2.41.0 > > > -- > Michael Meissner, IBM > PO Box 98, Ayer, Massachusetts, USA, 01432 > email: meissner@linux.ibm.com >