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Diffstat (limited to 'lib/i386/umoddi3.S')
-rw-r--r-- | lib/i386/umoddi3.S | 125 |
1 files changed, 0 insertions, 125 deletions
diff --git a/lib/i386/umoddi3.S b/lib/i386/umoddi3.S deleted file mode 100644 index 7fd84853b5b2..000000000000 --- a/lib/i386/umoddi3.S +++ /dev/null @@ -1,125 +0,0 @@ -// This file is dual licensed under the MIT and the University of Illinois Open -// Source Licenses. See LICENSE.TXT for details. - -#include "../assembly.h" - -// du_int __umoddi3(du_int a, du_int b); - -// result = remainder of a / b. -// both inputs and the output are 64-bit unsigned integers. -// This will do whatever the underlying hardware is set to do on division by zero. -// No other exceptions are generated, as the divide cannot overflow. -// -// This is targeted at 32-bit x86 *only*, as this can be done directly in hardware -// on x86_64. The performance goal is ~40 cycles per divide, which is faster than -// currently possible via simulation of integer divides on the x87 unit. -// - -// Stephen Canon, December 2008 - -#ifdef __i386__ - -.text -.align 4 -DEFINE_COMPILERRT_FUNCTION(__umoddi3) - - pushl %ebx - movl 20(%esp), %ebx // Find the index i of the leading bit in b. - bsrl %ebx, %ecx // If the high word of b is zero, jump to - jz 9f // the code to handle that special case [9]. - - /* High word of b is known to be non-zero on this branch */ - - movl 16(%esp), %eax // Construct bhi, containing bits [1+i:32+i] of b - - shrl %cl, %eax // Practically, this means that bhi is given by: - shrl %eax // - notl %ecx // bhi = (high word of b) << (31 - i) | - shll %cl, %ebx // (low word of b) >> (1 + i) - orl %eax, %ebx // - movl 12(%esp), %edx // Load the high and low words of a, and jump - movl 8(%esp), %eax // to [2] if the high word is larger than bhi - cmpl %ebx, %edx // to avoid overflowing the upcoming divide. - jae 2f - - /* High word of a is greater than or equal to (b >> (1 + i)) on this branch */ - - divl %ebx // eax <-- qs, edx <-- r such that ahi:alo = bs*qs + r - - pushl %edi - notl %ecx - shrl %eax - shrl %cl, %eax // q = qs >> (1 + i) - movl %eax, %edi - mull 20(%esp) // q*blo - movl 12(%esp), %ebx - movl 16(%esp), %ecx // ECX:EBX = a - subl %eax, %ebx - sbbl %edx, %ecx // ECX:EBX = a - q*blo - movl 24(%esp), %eax - imull %edi, %eax // q*bhi - subl %eax, %ecx // ECX:EBX = a - q*b - - jnc 1f // if positive, this is the result. - addl 20(%esp), %ebx // otherwise - adcl 24(%esp), %ecx // ECX:EBX = a - (q-1)*b = result -1: movl %ebx, %eax - movl %ecx, %edx - - popl %edi - popl %ebx - retl - - -2: /* High word of a is greater than or equal to (b >> (1 + i)) on this branch */ - - subl %ebx, %edx // subtract bhi from ahi so that divide will not - divl %ebx // overflow, and find q and r such that - // - // ahi:alo = (1:q)*bhi + r - // - // Note that q is a number in (31-i).(1+i) - // fix point. - - pushl %edi - notl %ecx - shrl %eax - orl $0x80000000, %eax - shrl %cl, %eax // q = (1:qs) >> (1 + i) - movl %eax, %edi - mull 20(%esp) // q*blo - movl 12(%esp), %ebx - movl 16(%esp), %ecx // ECX:EBX = a - subl %eax, %ebx - sbbl %edx, %ecx // ECX:EBX = a - q*blo - movl 24(%esp), %eax - imull %edi, %eax // q*bhi - subl %eax, %ecx // ECX:EBX = a - q*b - - jnc 3f // if positive, this is the result. - addl 20(%esp), %ebx // otherwise - adcl 24(%esp), %ecx // ECX:EBX = a - (q-1)*b = result -3: movl %ebx, %eax - movl %ecx, %edx - - popl %edi - popl %ebx - retl - - - -9: /* High word of b is zero on this branch */ - - movl 12(%esp), %eax // Find qhi and rhi such that - movl 16(%esp), %ecx // - xorl %edx, %edx // ahi = qhi*b + rhi with 0 ≤ rhi < b - divl %ecx // - movl %eax, %ebx // - movl 8(%esp), %eax // Find rlo such that - divl %ecx // - movl %edx, %eax // rhi:alo = qlo*b + rlo with 0 ≤ rlo < b - popl %ebx // - xorl %edx, %edx // and return 0:rlo - retl // - -#endif // __i386__ |