Merge bk-internal.mysql.com:/home/bk/mysql-4.1

into mashka.mysql.fi:/home/my/mysql-4.1


sql/lex.h:
  Auto merged
sql/sql_yacc.yy:
  Auto merged

include/my_sys.h

@@ -118,8 +118,11 @@ extern int NEAR my_errno;		/* Last error in mysys */
 #define MY_KEEP_PREALLOC	1
 #define MY_MARK_BLOCKS_FREE     2  /* move used to free list and reuse them */
 
-	/* defines when allocating data */
+	/* Internal error numbers (for assembler functions) */
+#define MY_ERRNO_EDOM		33
+#define MY_ERRNO_ERANGE		34
 
+	/* defines when allocating data */
 #ifdef SAFEMALLOC
 #define my_malloc(SZ,FLAG) _mymalloc((SZ), __FILE__, __LINE__, FLAG )
 #define my_malloc_ci(SZ,FLAG) _mymalloc((SZ), sFile, uLine, FLAG )

sql/lex.h

@@ -209,7 +209,7 @@ static SYMBOL symbols[] = {
   { "INT4",		SYM(INT_SYM),0,0},
   { "INT8",		SYM(BIGINT),0,0},
   { "INTO",		SYM(INTO),0,0},
-  { "IO_THREAD",        SYM(IO_THREAD),0,0},
+  { "IO_THREAD",        SYM(RELAY_THREAD),0,0},
   { "IF",		SYM(IF),0,0},
   { "IS",		SYM(IS),0,0},
   { "ISOLATION",	SYM(ISOLATION),0,0},
@@ -313,6 +313,7 @@ static SYMBOL symbols[] = {
   { "REFERENCES",	SYM(REFERENCES),0,0},
   { "RELAY_LOG_FILE",   SYM(RELAY_LOG_FILE_SYM),0,0},
   { "RELAY_LOG_POS",    SYM(RELAY_LOG_POS_SYM),0,0},
+  { "RELAY_THREAD",     SYM(RELAY_THREAD),0,0},
   { "RELOAD",		SYM(RELOAD),0,0},
   { "REGEXP",		SYM(REGEXP),0,0},
   { "RENAME",		SYM(RENAME),0,0},

sql/sql_yacc.yy

@@ -138,7 +138,7 @@ bool my_yyoverflow(short **a, YYSTYPE **b,int *yystacksize);
 %token	FLUSH_SYM
 %token  HELP_SYM
 %token	INSERT
-%token	IO_THREAD
+%token	RELAY_THREAD
 %token	KILL_SYM
 %token	LOAD
 %token	LOCKS_SYM
@@ -1688,7 +1688,7 @@ slave_thread_opt_list:
 slave_thread_opt:
 	/*empty*/	{}
 	| SQL_THREAD	{ Lex->slave_thd_opt|=SLAVE_SQL; }
-	| IO_THREAD   	{ Lex->slave_thd_opt|=SLAVE_IO; }
+	| RELAY_THREAD 	{ Lex->slave_thd_opt|=SLAVE_IO; }
 	;
 
 restore:
@@ -4230,7 +4230,7 @@ keyword:
 	| ISSUER_SYM		{}
 	| INNOBASE_SYM		{}
 	| INSERT_METHOD		{}
-	| IO_THREAD		{}
+	| RELAY_THREAD		{}
 	| LAST_SYM		{}
 	| LEVEL_SYM		{}
 	| LINESTRING		{}

strings/my_strtoll10-x86.s

+# Copyright (C) 2003 MySQL AB
+# This program is free software; you can resistribute 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
+
+# Implemention of my_strtoll():  Converting a string to a 64 bit integer.
+
+	.file	"my_strtoll10-x86.s"
+	.version "01.01"
+.data
+	.align 32
+	.type	 lfactor,@object
+	.size	 lfactor,36
+lfactor:
+	.long 1
+	.long 10
+	.long 100
+	.long 1000
+	.long 10000
+	.long 100000
+	.long 1000000
+	.long 10000000
+	.long 100000000
+.text
+	.align 4
+	
+.globl my_strtoll10
+	.type	 my_strtoll10,@function
+
+
+	# Used stack variables
+	# ebp-4		dummy for storing endptr if endptr = 0
+	# ebp-8		First 9 digits of return values
+	# ebp-12	Pointer to first digit of second part
+	# ebp-16	Store lowest 2 digits
+	# ebp-20	!= 0 if value was negative
+	# ebp-24	High max value
+	# ebp-28	Middle max value
+	# ebp-32	Low max value
+	# ebp-36	Temp value
+
+	# esi		Pointer to input string
+	# ebx		End of string
+	
+my_strtoll10:
+	pushl %ebp
+	movl %esp,%ebp
+	subl $48,%esp
+	pushl %esi
+	pushl %edi
+	pushl %ebx
+	movl 8(%ebp),%esi	# esi= nptr
+	movl 16(%ebp),%ecx	# ecx= error (Will be overwritten later)
+	movl 12(%ebp),%eax	# eax= endptr
+	cld			# Move forward in esi
+	cmpl $0,%eax		# if (endptr)
+	je .L110
+
+# Fixed length string
+	movl (%eax),%ebx	# bx= end-of-string
+	.p2align 4,,7
+.L100:
+	cmpl %ebx,%esi
+	je .Lno_conv
+	lodsb			# al= next byte
+	cmpb $32,%al		# Skip space
+	je .L100
+	cmpb $9,%al		# Skip tab
+	je .L100
+	jmp .L130
+
+# String that ends with \0
+
+.L110:
+	leal -4(%ebp),%edi
+	movl %edi,12(%ebp)	# endptr= &dummy, for easier end check
+	.p2align 4,,7
+.L120:
+	lodsb			# al= next byte
+	cmpb $32,%al
+	je .L120
+	cmpb $9,%al
+	je .L120
+	testb %al,%al		# Test if we found end \0
+	je .Lno_conv
+	leal 65535(%esi),%ebx	# ebx = end-of-string
+
+.L130:
+	cmpb $45,%al		# Test if '-'
+	jne .Lpositive
+
+	# negative number
+	movl $-1,(%ecx)		# error = -1 (mark that number is negative)
+	movl $1,-20(%ebp)	# negative= 1
+	movl $92233720,-24(%ebp)
+	movl $368547758,-28(%ebp)
+	movl $8,-32(%ebp)
+	jmp .L460
+
+	.p2align 4,,7
+.Lpositive:
+	movl $0,(%ecx)		# error=0
+	movl $0,-20(%ebp)	# negative= 0
+	movl $184467440,-24(%ebp)
+	movl $737095516,-28(%ebp)
+	movl $15,-32(%ebp)
+	cmpb $43,%al		# Check if '+'
+	jne .L462
+
+.L460:
+	cmpl %ebx,%esi		# Check if overflow
+	je .Lno_conv
+	lodsb			# al= next byte after sign
+
+	# Remove pre zero to be able to handle a lot of pre-zero
+.L462:
+	cmpb $48,%al
+	jne .L475		# Number doesn't start with 0
+	movl %esi, %edi
+	.p2align 4,,7
+.L481:				# Skip pre zeros
+	cmpl %ebx,%esi
+	je .Lms_return_zero
+	scasb
+	je .L481
+	movl %edi, %esi
+	decl %esi		# Point to last non '0' digit
+	leal 9(%esi),%ecx	# ecx = end-of-current-part
+	xorl %edi,%edi		# Store first 9 digits in edi
+	jmp .L482
+	.p2align 4,,7
+
+	# Check if first char is a valid number
+.L475:
+	addb $-48,%al
+	cmpb $9,%al
+	ja .Lno_conv
+.L477:	
+	movzbl %al,%edi		# edi = first digit
+	leal 8(%esi),%ecx	# ecx = end-of-current-part
+
+	# Handle first 8/9 digits and store them in edi
+.L482:
+	cmpl %ebx,%ecx
+	jbe .L522
+	movl %ebx,%ecx		# ecx = min(end-of-current-part, end-of-string)
+	jmp .L522
+
+	.p2align 4,,7
+.L488:
+	lodsb			# al= next byte
+	addb $-48,%al
+	cmpb $9,%al
+	ja .Lend_i_dec_esi
+
+	# Calculate edi= edi*10 + al
+	leal (%edi,%edi,4),%edx
+	movzbl %al,%eax
+	leal (%eax,%edx,2),%edi
+.L522:
+	cmpl %ecx,%esi		# If more digits at this level
+	jne .L488
+	cmpl %ebx,%esi		# If end of string
+	je .Lend_i
+
+	movl %edi,-8(%ebp)	# Store first 9 digits
+	movl %esi,-12(%ebp)	# store pos to first digit of second part
+
+	# Calculate next 9 digits and store them in edi
+
+	xorl %edi,%edi
+	leal 9(%esi),%ecx	# ecx= end-of-current-part
+	movl %ecx,-36(%ebp)	# Store max length
+	cmpl %ebx,%ecx
+	jbe .L498
+	movl %ebx,%ecx		# ecx = min(end-of-current-part, end-of-string)
+
+	.p2align 4,,7
+.L498:
+	lodsb			# al= next byte	
+	addb $-48,%al
+	cmpb $9,%al
+	ja .Lend_i_and_j_decl_esi
+
+	# Calculate edi= edi*10 + al
+	leal (%edi,%edi,4),%edx
+	movzbl %al,%eax
+	leal (%eax,%edx,2),%edi
+
+	cmpl %ecx,%esi		# If end of current part
+	jne .L498
+	cmpl %ebx,%esi		# If end of string
+	jne .L500
+	cmpl -36(%ebp),%esi	# Test if string is less than 18 digits
+	jne .Lend_i_and_j
+	jmp .Lend3		# 18 digit string
+
+	# Handle the possible next to last digit and store in ecx
+.L500:
+	movb (%esi),%al
+	addb $-48,%al
+	cmpb $9,%al
+	ja .Lend3
+
+	incl %esi
+	movzbl %al,%ecx
+	cmpl %ebx,%esi		# If end of string
+	je .Lend4
+
+	movb (%esi),%al		# Read last digit
+	addb $-48,%al
+	cmpb $9,%al
+	ja .Lend4
+
+	# ecx= ecx*10 + al
+	leal (%ecx,%ecx,4),%edx
+	movzbl %al,%eax
+	leal (%eax,%edx,2),%ecx
+
+	movl 12(%ebp),%eax	# eax = endptr
+	incl %esi
+	movl %esi,(%eax)	# *endptr = end-of-string
+	cmpl %ebx,%esi
+	je .L505		# At end of string
+
+	movb (%esi),%al		# check if extra digits
+	addb $-48,%al
+	cmpb $9,%al
+	jbe .Loverflow
+
+	# At this point we have:
+	# -8(%ebp)	First 9 digits
+	# edi		Next 9 digits
+	# ecx		Last 2 digits
+	# *endpos	end-of-string
+	
+.L505:	# Check that we are not going to get overflow for unsigned long long
+	movl -8(%ebp),%eax	# First 9 digits
+	cmpl -24(%ebp),%eax
+	ja .Loverflow
+	jne .L507
+	cmpl -28(%ebp),%edi
+	ja .Loverflow
+	jne .L507
+	cmpl -32(%ebp),%ecx
+	ja .Loverflow
+
+.L507:
+	movl %edi,-4(%ebp)	# Save middle bytes
+	movl %ecx,%esi		# esi = 2 last digits
+	movl $1215752192,%ecx	# %ecx= lower_32_bits(100000000000)
+	mull %ecx
+	imull $23,-8(%ebp),%ecx
+	movl $0,-36(%ebp)
+	movl %eax,%ebx
+	imull $1215752192,-36(%ebp),%eax
+	movl %edx,%edi
+	addl %ecx,%edi
+	addl %eax,%edi		# Temp in edi:ebx
+
+	movl $100,%eax		# j= j*100
+	mull -4(%ebp)
+	addl %ebx,%eax		# edx:eax+= edi:ebx
+	adcl %edi,%edx
+	addl %esi,%eax
+	adcl $0,%edx
+	jmp .Lms_return
+
+.Loverflow:
+	# When we come here, *endptr is already updated
+
+	movl 16(%ebp),%edx	# edx= error
+	movl $34,(%edx)		# *error = 34
+	movl $-1,%eax
+	movl %eax,%edx
+	cmpl $0,-20(%ebp)	# If negative
+	je .Lms_return
+	xor %eax,%eax		# edx:eax = LONGLONG_LMIN
+	movl $-2147483648,%edx
+	jmp .Lms_return
+
+	# Return value that is in %edi as long long
+	.p2align 4,,7
+.Lend_i_dec_esi:
+	decl %esi		# Fix so that it points at last digit
+.Lend_i:
+	xorl %edx,%edx
+	movl %edi,%eax
+	cmpl $0,-20(%ebp)
+	je .Lreturn_save_endptr	# Positive number
+	negl %eax
+	cltd			# Negetive result in edx:eax
+	jmp .Lreturn_save_endptr
+
+	# Return value (%ebp-8) * lfactor[(uint) (edx-start)] + edi
+	.p2align 4,,7
+.Lend_i_and_j_decl_esi:
+	decl %esi		# Fix so that it points at last digit
+.Lend_i_and_j:
+	movl %esi,%ecx
+	subl -12(%ebp),%ecx	# ecx= number of digits in second part
+	movl lfactor(,%ecx,4),%eax
+	jmp .L523
+
+	# Return -8(%ebp) * $1000000000 + edi
+	.p2align 4,,7
+.Lend3:
+	movl $1000000000,%eax
+.L523:
+	mull -8(%ebp)
+	addl %edi,%eax
+	adcl $0,%edx
+	cmpl $0,-20(%ebp)	# if negative
+	je .Lreturn_save_endptr
+	negl %eax		# Neg edx:%eax
+	adcl $0,%edx
+	negl %edx
+	jmp .Lreturn_save_endptr
+
+	# Return -8(%ebp) * $10000000000 + edi*10 + ecx
+	.p2align 4,,7
+.Lend4:
+	movl %ecx,-16(%ebp)	# store lowest digits
+	movl 12(%ebp),%ebx
+	movl %esi,(%ebx)	# *endpos = end-of-string
+	movl -8(%ebp),%eax	# First 9 digits
+	movl $1410065408,%ecx	# ecx= lower_32_bits(10000000000)
+	mull %ecx
+	movl $0,-36(%ebp)
+	movl %eax,%ebx		# Store lowest 32 byte from multiplication
+	imull $1410065408,-36(%ebp),%eax
+	movl -8(%ebp),%ecx	# First 9 digits
+	movl %edx,%esi
+	addl %ecx,%ecx
+	addl %ecx,%esi
+	addl %eax,%esi		# %esi:%ebx now has -8(%ebp) * $10000000000
+
+	movl $10,%eax		# Calc edi*10
+	mull %edi
+	addl %ebx,%eax		# And add to result
+	adcl %esi,%edx
+	addl -16(%ebp),%eax	# Add lowest digit
+	adcl $0,%edx
+	cmpl $0,-20(%ebp)	# if negative
+	je .Lms_return
+
+	cmpl $-2147483648,%edx	# Test if too big signed integer
+	ja .Loverflow
+	jne .L516
+	testl %eax,%eax
+	ja .Loverflow
+
+.L516:	
+	negl %eax
+	adcl $0,%edx
+	negl %edx
+	jmp .Lms_return
+
+	.p2align 4,,7
+.Lno_conv:			# Not a legal number
+	movl 16(%ebp),%eax
+	movl $33,(%eax)		# error= edom
+
+.Lms_return_zero:
+	xorl %eax,%eax		# Return zero
+	xorl %edx,%edx
+
+	.p2align 4,,7
+.Lreturn_save_endptr:
+	movl 12(%ebp),%ecx	# endptr= end-of-string
+	movl %esi,(%ecx)	# *endptr= end-of-string
+
+.Lms_return:
+	popl %ebx
+	popl %edi
+	popl %esi
+	movl %ebp,%esp
+	popl %ebp
+	ret
+
+my_strtoll10_end:
+	.size	my_strtoll10,.my_strtoll10_end-my_strtoll10
+        .comm   res,240,32
+        .comm   end_ptr,120,32
+        .comm   error,120,32
+	.ident	"Monty"

strings/my_strtoll10.c

+/* Copyright (C) 2003 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 */
+
+#include <my_global.h>
+#include <m_string.h>
+
+#define ULONGLONG_MAX		(~(ulonglong) 0)
+#define MAX_NEGATIVE_NUMBER	((ulonglong) 0x8000000000000000LL)
+#define INIT_CNT  9
+#define LFACTOR   LL(1000000000)
+#define LFACTOR1  LL(10000000000)
+#define LFACTOR2  LL(100000000000)
+
+static unsigned long lfactor[9]=
+{
+  1L, 10L, 100L, 1000L, 10000L, 100000L, 1000000L, 10000000L, 100000000L
+};
+
+/*
+  Convert a string to an to unsigned long long integer value
+  
+  SYNOPSYS
+    str2ull10(char *nptr, char **enptr, *long error)
+      nptr     in       pointer to the string to be converted
+      endptr   in/out   pointer to the end of the string/
+                        pointer to the stop character
+      error    out      returned error code
+ 
+  DESCRIPTION
+    This function takes the decimal representation of integer number
+    from string nptr and converts it to an signed or unsigned
+    long long integer value.
+    Space characters and tab are ignored.
+    A sign character might precede the the digit characters. The number
+    may have any number of pre-zero digits.
+
+    The function stops reading the string nptr at the first character
+    that is not a decimal digit. If endptr is not NULL then the function
+    will not read characters after *endptr.
+ 
+  RETURN VALUES
+    Value of string as a signed/unsigned longlong integer
+
+    if no error and endptr != NULL, it will be set to point at the character
+    after the number
+
+    The error parameter contains information how things went:
+    -1		Number was an ok negative number
+    0	 	ok
+    ERANGE	If the the value of the converted number exceeded the
+	        maximum negative/unsigned long long integer.
+		In this case the return value is ~0 if value was
+		positive and LONGLONG_MIN if value was negative.
+    EDOM	If the string didn't contain any digits. In this case
+    		the return value is 0.
+
+    If endptr is not NULL the function will store the end pointer to
+    the stop character here.
+*/
+
+
+longlong my_strtoll10(const char *nptr, char **endptr, int *error)
+{
+  const char *s, *end, *start, *n_end, *true_end;
+  char *dummy;
+  unsigned char c;
+  unsigned long i, j, k;
+  ulonglong li;
+  int negative;
+  long cutoff, cutoff2, cutoff3;
+
+  s= nptr;
+  /* If fixed length string */
+  if (endptr)
+  {
+    end= *endptr;
+    while (s != end && (*s == ' ' || *s == '\t'))
+      s++;
+    if (s == end)
+      goto no_conv;
+  }
+  else
+  {
+    endptr= &dummy;				/* Easier end test */
+    while (*s == ' ' || *s == '\t')
+      s++;
+    if (!*s)
+      goto no_conv;
+    /* This number must be big to guard against a lot of pre-zeros */
+    end= s+65535;				/* Can't be longer than this */
+  }
+
+  /* Check for a sign.	*/
+  negative= 0;
+  if (*s == '-')
+  {
+    *error= -1;					/* Mark as negative number */
+    negative= 1;
+    if (++s == end)
+      goto no_conv;
+    cutoff=  MAX_NEGATIVE_NUMBER / LL(100000000000);
+    cutoff2= (MAX_NEGATIVE_NUMBER % LL(100000000000)) / 100;
+    cutoff3=  MAX_NEGATIVE_NUMBER % 100;
+  }
+  else
+  {
+    *error= 0;
+    if (*s == '+')
+    {
+      if (++s == end)
+	goto no_conv;
+    }
+    cutoff=  ULONGLONG_MAX / LL(100000000000);
+    cutoff2= ULONGLONG_MAX % LL(100000000000) / 100;
+    cutoff3=  ULONGLONG_MAX % 100;
+  }
+
+  /* Handle case where we have a lot of pre-zero */
+  if (*s == '0')
+  {
+    i= 0;
+    do
+    {
+      if (++s == end)
+	goto end_i;				/* Return 0 */
+    }
+    while (*s == '0');
+    n_end= s+ INIT_CNT;
+  }
+  else
+  {
+    /* Read first digit to check that it's a valid number */
+    if ((c= (*s-'0')) > 9)
+      goto no_conv;
+    i= c;
+    n_end= ++s+ INIT_CNT-1;
+  }
+
+  /* Handle first 9 digits and store them in i */
+  if (n_end > end)
+    n_end= end;
+  for (; s != n_end ; s++)
+  {
+    if ((c= (*s-'0')) > 9)
+      goto end_i;
+    i= i*10+c;
+  }
+  if (s == end)
+    goto end_i;
+
+  /* Handle next 9 digits and store them in j */
+  j= 0;
+  start= s;				/* Used to know how much to shift i */
+  n_end= true_end= s + INIT_CNT;
+  if (n_end > end)
+    n_end= end;
+  do
+  {
+    if ((c= (*s-'0')) > 9)
+      goto end_i_and_j;
+    j= j*10+c;
+  } while (++s != n_end);
+  if (s == end)
+  {
+    if (s != true_end)
+      goto end_i_and_j;
+    goto end3;
+  }
+  if ((c= (*s-'0')) > 9)
+    goto end3;
+
+  /* Handle the next 1 or 2 digits and store them in k */
+  k=c;
+  if (++s == end || (c= (*s-'0')) > 9)
+    goto end4;
+  k= k*10+c;
+  *endptr= (char*) ++s;
+
+  /* number string should have ended here */
+  if (s != end && (c= (*s-'0')) <= 9)
+    goto overflow;
+
+  /* Check that we didn't get an overflow with the last digit */
+  if (i > cutoff || i == cutoff && (j > cutoff2 || j == cutoff2 &&
+				    k > cutoff3))
+    goto overflow;
+  li=i*LFACTOR2+ (ulonglong) j*100 + k;
+  return (longlong) li;
+
+overflow:					/* *endptr is set here */
+  *error= MY_ERRNO_ERANGE;
+  return negative ? LONGLONG_MIN : ULONGLONG_MAX;
+
+end_i:
+  *endptr= (char*) s;
+  return (negative ? ((longlong) -(long) i) : (longlong) i);
+
+end_i_and_j:
+  li= (ulonglong) i * lfactor[(uint) (s-start)] + j;
+  *endptr= (char*) s;
+  return (negative ? -((longlong) li) : (longlong) li);
+
+end3:
+  li=(ulonglong) i*LFACTOR+ (ulonglong) j;
+  *endptr= (char*) s;
+  return (negative ? -((longlong) li) : (longlong) li);
+
+end4:
+  li=(ulonglong) i*LFACTOR1+ (ulonglong) j * 10 + k;
+  *endptr= (char*) s;
+  if (negative)
+  {
+   if (li > MAX_NEGATIVE_NUMBER)
+     goto overflow;
+   return -((longlong) li);
+  }
+  return (longlong) li;
+
+no_conv:
+  /* There was no number to convert.  */
+  *error= MY_ERRNO_EDOM;
+  *endptr= (char *) nptr;
+  return 0;
+}