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diff --git a/Build/source/libs/gmp/gmp-6.0.0/mpn/x86/pentium/sqr_basecase.asm b/Build/source/libs/gmp/gmp-6.0.0/mpn/x86/pentium/sqr_basecase.asm
new file mode 100644
index 00000000000..b11d767da2f
--- /dev/null
+++ b/Build/source/libs/gmp/gmp-6.0.0/mpn/x86/pentium/sqr_basecase.asm
@@ -0,0 +1,528 @@
+dnl Intel P5 mpn_sqr_basecase -- square an mpn number.
+
+dnl Copyright 1999-2002 Free Software Foundation, Inc.
+
+dnl This file is part of the GNU MP Library.
+dnl
+dnl The GNU MP Library is free software; you can redistribute it and/or modify
+dnl it under the terms of either:
+dnl
+dnl * the GNU Lesser General Public License as published by the Free
+dnl Software Foundation; either version 3 of the License, or (at your
+dnl option) any later version.
+dnl
+dnl or
+dnl
+dnl * the GNU General Public License as published by the Free Software
+dnl Foundation; either version 2 of the License, or (at your option) any
+dnl later version.
+dnl
+dnl or both in parallel, as here.
+dnl
+dnl The GNU MP Library is distributed in the hope that it will be useful, but
+dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
+dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
+dnl for more details.
+dnl
+dnl You should have received copies of the GNU General Public License and the
+dnl GNU Lesser General Public License along with the GNU MP Library. If not,
+dnl see https://www.gnu.org/licenses/.
+
+include(`../config.m4')
+
+
+C P5: approx 8 cycles per crossproduct, or 15.5 cycles per triangular
+C product at around 20x20 limbs.
+
+
+C void mpn_sqr_basecase (mp_ptr dst, mp_srcptr src, mp_size_t size);
+C
+C Calculate src,size squared, storing the result in dst,2*size.
+C
+C The algorithm is basically the same as mpn/generic/sqr_basecase.c, but a
+C lot of function call overheads are avoided, especially when the size is
+C small.
+
+defframe(PARAM_SIZE,12)
+defframe(PARAM_SRC, 8)
+defframe(PARAM_DST, 4)
+
+ TEXT
+ ALIGN(8)
+PROLOGUE(mpn_sqr_basecase)
+deflit(`FRAME',0)
+
+ movl PARAM_SIZE, %edx
+ movl PARAM_SRC, %eax
+
+ cmpl $2, %edx
+ movl PARAM_DST, %ecx
+
+ je L(two_limbs)
+
+ movl (%eax), %eax
+ ja L(three_or_more)
+
+C -----------------------------------------------------------------------------
+C one limb only
+ C eax src
+ C ebx
+ C ecx dst
+ C edx
+
+ mull %eax
+
+ movl %eax, (%ecx)
+ movl %edx, 4(%ecx)
+
+ ret
+
+C -----------------------------------------------------------------------------
+ ALIGN(8)
+L(two_limbs):
+ C eax src
+ C ebx
+ C ecx dst
+ C edx size
+
+ pushl %ebp
+ pushl %edi
+
+ pushl %esi
+ pushl %ebx
+
+ movl %eax, %ebx
+ movl (%eax), %eax
+
+ mull %eax C src[0]^2
+
+ movl %eax, (%ecx) C dst[0]
+ movl %edx, %esi C dst[1]
+
+ movl 4(%ebx), %eax
+
+ mull %eax C src[1]^2
+
+ movl %eax, %edi C dst[2]
+ movl %edx, %ebp C dst[3]
+
+ movl (%ebx), %eax
+
+ mull 4(%ebx) C src[0]*src[1]
+
+ addl %eax, %esi
+ popl %ebx
+
+ adcl %edx, %edi
+
+ adcl $0, %ebp
+ addl %esi, %eax
+
+ adcl %edi, %edx
+ movl %eax, 4(%ecx)
+
+ adcl $0, %ebp
+ popl %esi
+
+ movl %edx, 8(%ecx)
+ movl %ebp, 12(%ecx)
+
+ popl %edi
+ popl %ebp
+
+ ret
+
+
+C -----------------------------------------------------------------------------
+ ALIGN(8)
+L(three_or_more):
+ C eax src low limb
+ C ebx
+ C ecx dst
+ C edx size
+
+ cmpl $4, %edx
+ pushl %ebx
+deflit(`FRAME',4)
+
+ movl PARAM_SRC, %ebx
+ jae L(four_or_more)
+
+
+C -----------------------------------------------------------------------------
+C three limbs
+ C eax src low limb
+ C ebx src
+ C ecx dst
+ C edx size
+
+ pushl %ebp
+ pushl %edi
+
+ mull %eax C src[0] ^ 2
+
+ movl %eax, (%ecx)
+ movl %edx, 4(%ecx)
+
+ movl 4(%ebx), %eax
+ xorl %ebp, %ebp
+
+ mull %eax C src[1] ^ 2
+
+ movl %eax, 8(%ecx)
+ movl %edx, 12(%ecx)
+
+ movl 8(%ebx), %eax
+ pushl %esi C risk of cache bank clash
+
+ mull %eax C src[2] ^ 2
+
+ movl %eax, 16(%ecx)
+ movl %edx, 20(%ecx)
+
+ movl (%ebx), %eax
+
+ mull 4(%ebx) C src[0] * src[1]
+
+ movl %eax, %esi
+ movl %edx, %edi
+
+ movl (%ebx), %eax
+
+ mull 8(%ebx) C src[0] * src[2]
+
+ addl %eax, %edi
+ movl %edx, %ebp
+
+ adcl $0, %ebp
+ movl 4(%ebx), %eax
+
+ mull 8(%ebx) C src[1] * src[2]
+
+ xorl %ebx, %ebx
+ addl %eax, %ebp
+
+ C eax
+ C ebx zero, will be dst[5]
+ C ecx dst
+ C edx dst[4]
+ C esi dst[1]
+ C edi dst[2]
+ C ebp dst[3]
+
+ adcl $0, %edx
+ addl %esi, %esi
+
+ adcl %edi, %edi
+
+ adcl %ebp, %ebp
+
+ adcl %edx, %edx
+ movl 4(%ecx), %eax
+
+ adcl $0, %ebx
+ addl %esi, %eax
+
+ movl %eax, 4(%ecx)
+ movl 8(%ecx), %eax
+
+ adcl %edi, %eax
+ movl 12(%ecx), %esi
+
+ adcl %ebp, %esi
+ movl 16(%ecx), %edi
+
+ movl %eax, 8(%ecx)
+ movl %esi, 12(%ecx)
+
+ adcl %edx, %edi
+ popl %esi
+
+ movl 20(%ecx), %eax
+ movl %edi, 16(%ecx)
+
+ popl %edi
+ popl %ebp
+
+ adcl %ebx, %eax C no carry out of this
+ popl %ebx
+
+ movl %eax, 20(%ecx)
+
+ ret
+
+
+C -----------------------------------------------------------------------------
+ ALIGN(8)
+L(four_or_more):
+ C eax src low limb
+ C ebx src
+ C ecx dst
+ C edx size
+ C esi
+ C edi
+ C ebp
+ C
+ C First multiply src[0]*src[1..size-1] and store at dst[1..size].
+
+deflit(`FRAME',4)
+
+ pushl %edi
+FRAME_pushl()
+ pushl %esi
+FRAME_pushl()
+
+ pushl %ebp
+FRAME_pushl()
+ leal (%ecx,%edx,4), %edi C dst end of this mul1
+
+ leal (%ebx,%edx,4), %esi C src end
+ movl %ebx, %ebp C src
+
+ negl %edx C -size
+ xorl %ebx, %ebx C clear carry limb and carry flag
+
+ leal 1(%edx), %ecx C -(size-1)
+
+L(mul1):
+ C eax scratch
+ C ebx carry
+ C ecx counter, negative
+ C edx scratch
+ C esi &src[size]
+ C edi &dst[size]
+ C ebp src
+
+ adcl $0, %ebx
+ movl (%esi,%ecx,4), %eax
+
+ mull (%ebp)
+
+ addl %eax, %ebx
+
+ movl %ebx, (%edi,%ecx,4)
+ incl %ecx
+
+ movl %edx, %ebx
+ jnz L(mul1)
+
+
+ C Add products src[n]*src[n+1..size-1] at dst[2*n-1...], for
+ C n=1..size-2.
+ C
+ C The last two products, which are the end corner of the product
+ C triangle, are handled separately to save looping overhead. These
+ C are src[size-3]*src[size-2,size-1] and src[size-2]*src[size-1].
+ C If size is 4 then it's only these that need to be done.
+ C
+ C In the outer loop %esi is a constant, and %edi just advances by 1
+ C limb each time. The size of the operation decreases by 1 limb
+ C each time.
+
+ C eax
+ C ebx carry (needing carry flag added)
+ C ecx
+ C edx
+ C esi &src[size]
+ C edi &dst[size]
+ C ebp
+
+ adcl $0, %ebx
+ movl PARAM_SIZE, %edx
+
+ movl %ebx, (%edi)
+ subl $4, %edx
+
+ negl %edx
+ jz L(corner)
+
+
+L(outer):
+ C ebx previous carry limb to store
+ C edx outer loop counter (negative)
+ C esi &src[size]
+ C edi dst, pointing at stored carry limb of previous loop
+
+ pushl %edx C new outer loop counter
+ leal -2(%edx), %ecx
+
+ movl %ebx, (%edi)
+ addl $4, %edi
+
+ addl $4, %ebp
+ xorl %ebx, %ebx C initial carry limb, clear carry flag
+
+L(inner):
+ C eax scratch
+ C ebx carry (needing carry flag added)
+ C ecx counter, negative
+ C edx scratch
+ C esi &src[size]
+ C edi dst end of this addmul
+ C ebp &src[j]
+
+ adcl $0, %ebx
+ movl (%esi,%ecx,4), %eax
+
+ mull (%ebp)
+
+ addl %ebx, %eax
+ movl (%edi,%ecx,4), %ebx
+
+ adcl $0, %edx
+ addl %eax, %ebx
+
+ movl %ebx, (%edi,%ecx,4)
+ incl %ecx
+
+ movl %edx, %ebx
+ jnz L(inner)
+
+
+ adcl $0, %ebx
+ popl %edx C outer loop counter
+
+ incl %edx
+ jnz L(outer)
+
+
+ movl %ebx, (%edi)
+
+L(corner):
+ C esi &src[size]
+ C edi &dst[2*size-4]
+
+ movl -8(%esi), %eax
+ movl -4(%edi), %ebx C risk of data cache bank clash here
+
+ mull -12(%esi) C src[size-2]*src[size-3]
+
+ addl %eax, %ebx
+ movl %edx, %ecx
+
+ adcl $0, %ecx
+ movl -4(%esi), %eax
+
+ mull -12(%esi) C src[size-1]*src[size-3]
+
+ addl %ecx, %eax
+ movl (%edi), %ecx
+
+ adcl $0, %edx
+ movl %ebx, -4(%edi)
+
+ addl %eax, %ecx
+ movl %edx, %ebx
+
+ adcl $0, %ebx
+ movl -4(%esi), %eax
+
+ mull -8(%esi) C src[size-1]*src[size-2]
+
+ movl %ecx, (%edi)
+ addl %eax, %ebx
+
+ adcl $0, %edx
+ movl PARAM_SIZE, %eax
+
+ negl %eax
+ movl %ebx, 4(%edi)
+
+ addl $1, %eax C -(size-1) and clear carry
+ movl %edx, 8(%edi)
+
+
+C -----------------------------------------------------------------------------
+C Left shift of dst[1..2*size-2], high bit shifted out becomes dst[2*size-1].
+
+L(lshift):
+ C eax counter, negative
+ C ebx next limb
+ C ecx
+ C edx
+ C esi
+ C edi &dst[2*size-4]
+ C ebp
+
+ movl 12(%edi,%eax,8), %ebx
+
+ rcll %ebx
+ movl 16(%edi,%eax,8), %ecx
+
+ rcll %ecx
+ movl %ebx, 12(%edi,%eax,8)
+
+ movl %ecx, 16(%edi,%eax,8)
+ incl %eax
+
+ jnz L(lshift)
+
+
+ adcl %eax, %eax C high bit out
+ movl PARAM_SRC, %esi
+
+ movl PARAM_SIZE, %ecx C risk of cache bank clash
+ movl %eax, 12(%edi) C dst most significant limb
+
+
+C -----------------------------------------------------------------------------
+C Now add in the squares on the diagonal, namely src[0]^2, src[1]^2, ...,
+C src[size-1]^2. dst[0] hasn't yet been set at all yet, and just gets the
+C low limb of src[0]^2.
+
+ movl (%esi), %eax C src[0]
+ leal (%esi,%ecx,4), %esi C src end
+
+ negl %ecx
+
+ mull %eax
+
+ movl %eax, 16(%edi,%ecx,8) C dst[0]
+ movl %edx, %ebx
+
+ addl $1, %ecx C size-1 and clear carry
+
+L(diag):
+ C eax scratch (low product)
+ C ebx carry limb
+ C ecx counter, negative
+ C edx scratch (high product)
+ C esi &src[size]
+ C edi &dst[2*size-4]
+ C ebp scratch (fetched dst limbs)
+
+ movl (%esi,%ecx,4), %eax
+ adcl $0, %ebx
+
+ mull %eax
+
+ movl 16-4(%edi,%ecx,8), %ebp
+
+ addl %ebp, %ebx
+ movl 16(%edi,%ecx,8), %ebp
+
+ adcl %eax, %ebp
+ movl %ebx, 16-4(%edi,%ecx,8)
+
+ movl %ebp, 16(%edi,%ecx,8)
+ incl %ecx
+
+ movl %edx, %ebx
+ jnz L(diag)
+
+
+ adcl $0, %edx
+ movl 16-4(%edi), %eax C dst most significant limb
+
+ addl %eax, %edx
+ popl %ebp
+
+ movl %edx, 16-4(%edi)
+ popl %esi C risk of cache bank clash
+
+ popl %edi
+ popl %ebx
+
+ ret
+
+EPILOGUE()