# Copyright (C) 2000 MySQL AB # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # Optimized longlong2str function for Intel 80x86 (gcc/gas syntax) # Some set sequences are optimized for pentuimpro II .file "longlong2str.s" .version "1.01" .text .align 4 .globl longlong2str .type longlong2str,@function longlong2str: subl $80,%esp pushl %ebp pushl %esi pushl %edi pushl %ebx movl 100(%esp),%esi # Lower part of val movl 104(%esp),%ebp # Higher part of val movl 108(%esp),%edi # get dst movl 112(%esp),%ebx # Radix movl %ebx,%eax testl %eax,%eax jge .L144 addl $36,%eax cmpl $34,%eax ja .Lerror # Wrong radix testl %ebp,%ebp jge .L146 movb $45,(%edi) # Add sign incl %edi # Change sign of val negl %esi adcl $0,%ebp negl %ebp .L146: negl %ebx # Change radix to positive jmp .L148 .align 4 .L144: addl $-2,%eax cmpl $34,%eax ja .Lerror # Radix in range .L148: movl %esi,%eax # Test if zero (for easy loop) orl %ebp,%eax jne .L150 movb $48,(%edi) incl %edi jmp .L10_end .align 4 .L150: leal 92(%esp),%ecx # End of buffer jmp .L155 .align 4 .L153: # val is stored in in ebp:esi movl %ebp,%eax # High part of value xorl %edx,%edx divl %ebx movl %eax,%ebp movl %esi,%eax divl %ebx decl %ecx movl %eax,%esi # quotent in ebp:esi movb _dig_vec(%edx),%al # al is faster than dl movb %al,(%ecx) # store value in buff .align 4 .L155: testl %ebp,%ebp ja .L153 testl %esi,%esi # rest value jl .L153 je .L10_mov # Ready movl %esi,%eax movl $_dig_vec,%ebp .align 4 .L154: # Do rest with integer precision cltd divl %ebx decl %ecx movb (%edx,%ebp),%dl # bh is always zero as ebx=radix < 36 testl %eax,%eax movb %dl,(%ecx) jne .L154 .L10_mov: movl %ecx,%esi leal 92(%esp),%ecx # End of buffer subl %esi,%ecx rep movsb .L10_end: movl %edi,%eax # Pointer to end null movb $0,(%edi) # Store the end null .L165: popl %ebx popl %edi popl %esi popl %ebp addl $80,%esp ret .Lerror: xorl %eax,%eax # Wrong radix jmp .L165 .Lfe3: .size longlong2str,.Lfe3-longlong2str # # This is almost equal to the above, except that we can do the final # loop much more efficient # .align 4 .Ltmp: .long 0xcccccccd .align 4 .globl longlong10_to_str .type longlong10_str,@function longlong10_to_str: subl $80,%esp pushl %ebp pushl %esi pushl %edi pushl %ebx movl 100(%esp),%esi # Lower part of val movl 104(%esp),%ebp # Higher part of val movl 108(%esp),%edi # get dst movl 112(%esp),%ebx # Radix (10 or -10) testl %ebx,%ebx jge .L10_10 # Positive radix negl %ebx # Change radix to positive (= 10) testl %ebp,%ebp # Test if negative value jge .L10_10 movb $45,(%edi) # Add sign incl %edi negl %esi # Change sign of val (ebp:esi) adcl $0,%ebp negl %ebp .align 4 .L10_10: leal 92(%esp),%ecx # End of buffer movl %esi,%eax # Test if zero (for easy loop) orl %ebp,%eax jne .L10_30 # Not zero # Here when value is zero movb $48,(%edi) incl %edi jmp .L10_end .align 4 .L10_20: # val is stored in in ebp:esi movl %ebp,%eax # High part of value xorl %edx,%edx divl %ebx # Divide by 10 movl %eax,%ebp movl %esi,%eax divl %ebx # Divide by 10 decl %ecx movl %eax,%esi # quotent in ebp:esi addl $48,%edx # Convert to ascii movb %dl,(%ecx) # store value in buff .L10_30: testl %ebp,%ebp ja .L10_20 testl %esi,%esi # rest value jl .L10_20 # Unsigned, do ulonglong div once more je .L10_mov # Ready movl %esi,%ebx # Move val to %ebx # The following code uses some tricks to change division by 10 to # multiplication and shifts movl .Ltmp,%esi # set %esi to 0xcccccccd .L10_40: movl %ebx,%eax mull %esi decl %ecx shrl $3,%edx leal (%edx,%edx,4),%eax addl %eax,%eax subb %al,%bl # %bl now contains val % 10 addb $48,%bl movb %bl,(%ecx) movl %edx,%ebx testl %ebx,%ebx jne .L10_40 jmp .L10_mov # Shared end with longlong10_to_str .L10end: .size longlong10_to_str,.L10end-longlong10_to_str