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server-skynet-source-3rd-je.../include/jemalloc/internal/size_classes.sh
Jason Evans 226c446979 Implement pz2ind(), pind2sz(), and psz2u(). 
These compute size classes and indices similarly to size2index(),
index2size() and s2u(), respectively, but using the subset of size
classes that are multiples of the page size.  Note that pszind_t and
szind_t are not interchangeable.
2016-05-13 10:31:54 -07:00

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#!/bin/sh
#
# Usage: size_classes.sh <lg_qarr> <lg_tmin> <lg_parr> <lg_g>
# The following limits are chosen such that they cover all supported platforms.
# Pointer sizes.
lg_zarr="2 3"
# Quanta.
lg_qarr=$1
# The range of tiny size classes is [2^lg_tmin..2^(lg_q-1)].
lg_tmin=$2
# Maximum lookup size.
lg_kmax=12
# Page sizes.
lg_parr=`echo $3 | tr ',' ' '`
# Size class group size (number of size classes for each size doubling).
lg_g=$4
pow2() {
e=$1
pow2_result=1
while [ ${e} -gt 0 ] ; do
pow2_result=$((${pow2_result} + ${pow2_result}))
e=$((${e} - 1))
done
}
lg() {
x=$1
lg_result=0
while [ ${x} -gt 1 ] ; do
lg_result=$((${lg_result} + 1))
x=$((${x} / 2))
done
}
run_size() {
lg_p=$1
lg_grp=$2
lg_delta=$3
ndelta=$4
pow2 ${lg_p}; p=${pow2_result}
pow2 ${lg_grp}; grp=${pow2_result}
pow2 ${lg_delta}; delta=${pow2_result}
reg_size=$((${grp} + ${delta}*${ndelta}))
# Compute smallest run size that is an integer multiple of reg_size.
try_run_size=${p}
try_nregs=$((${try_run_size} / ${reg_size}))
perfect=0
while [ ${perfect} -eq 0 ] ; do
perfect_run_size=${try_run_size}
perfect_nregs=${try_nregs}
try_run_size=$((${try_run_size} + ${p}))
try_nregs=$((${try_run_size} / ${reg_size}))
if [ ${perfect_run_size} -eq $((${perfect_nregs} * ${reg_size})) ] ; then
perfect=1
fi
done
run_size_pgs=$((${perfect_run_size} / ${p}))
}
size_class() {
index=$1
lg_grp=$2
lg_delta=$3
ndelta=$4
lg_p=$5
lg_kmax=$6
if [ ${lg_delta} -ge ${lg_p} ] ; then
psz="yes"
else
pow2 ${lg_p}; p=${pow2_result}
pow2 ${lg_grp}; grp=${pow2_result}
pow2 ${lg_delta}; delta=${pow2_result}
sz=$((${grp} + ${delta} * ${ndelta}))
npgs=$((${sz} / ${p}))
if [ ${sz} -eq $((${npgs} * ${p})) ] ; then
psz="yes"
else
psz="no"
fi
fi
lg ${ndelta}; lg_ndelta=${lg_result}; pow2 ${lg_ndelta}
if [ ${pow2_result} -lt ${ndelta} ] ; then
rem="yes"
else
rem="no"
fi
lg_size=${lg_grp}
if [ $((${lg_delta} + ${lg_ndelta})) -eq ${lg_grp} ] ; then
lg_size=$((${lg_grp} + 1))
else
lg_size=${lg_grp}
rem="yes"
fi
if [ ${lg_size} -lt $((${lg_p} + ${lg_g})) ] ; then
bin="yes"
run_size ${lg_p} ${lg_grp} ${lg_delta} ${ndelta}; pgs=${run_size_pgs}
else
bin="no"
pgs=0
fi
if [ ${lg_size} -lt ${lg_kmax} \
-o ${lg_size} -eq ${lg_kmax} -a ${rem} = "no" ] ; then
lg_delta_lookup=${lg_delta}
else
lg_delta_lookup="no"
fi
printf ' SC(%3d, %6d, %8d, %6d, %3s, %3s, %3d, %2s) \\\n' ${index} ${lg_grp} ${lg_delta} ${ndelta} ${psz} ${bin} ${pgs} ${lg_delta_lookup}
# Defined upon return:
# - psz ("yes" or "no")
# - bin ("yes" or "no")
# - pgs
# - lg_delta_lookup (${lg_delta} or "no")
}
sep_line() {
echo " \\"
}
size_classes() {
lg_z=$1
lg_q=$2
lg_t=$3
lg_p=$4
lg_g=$5
pow2 $((${lg_z} + 3)); ptr_bits=${pow2_result}
pow2 ${lg_g}; g=${pow2_result}
echo "#define SIZE_CLASSES \\"
echo " /* index, lg_grp, lg_delta, ndelta, psz, bin, pgs, lg_delta_lookup */ \\"
ntbins=0
nlbins=0
lg_tiny_maxclass='"NA"'
nbins=0
npsizes=0
slab_maxpgs=0
# Tiny size classes.
ndelta=0
index=0
lg_grp=${lg_t}
lg_delta=${lg_grp}
while [ ${lg_grp} -lt ${lg_q} ] ; do
size_class ${index} ${lg_grp} ${lg_delta} ${ndelta} ${lg_p} ${lg_kmax}
if [ ${lg_delta_lookup} != "no" ] ; then
nlbins=$((${index} + 1))
fi
if [ ${psz} = "yes" ] ; then
npsizes=$((${npsizes} + 1))
fi
if [ ${bin} != "no" ] ; then
nbins=$((${index} + 1))
if [ ${pgs} -gt ${slab_maxpgs} ] ; then
slab_maxpgs=${pgs}
fi
fi
ntbins=$((${ntbins} + 1))
lg_tiny_maxclass=${lg_grp} # Final written value is correct.
index=$((${index} + 1))
lg_delta=${lg_grp}
lg_grp=$((${lg_grp} + 1))
done
# First non-tiny group.
if [ ${ntbins} -gt 0 ] ; then
sep_line
# The first size class has an unusual encoding, because the size has to be
# split between grp and delta*ndelta.
lg_grp=$((${lg_grp} - 1))
ndelta=1
size_class ${index} ${lg_grp} ${lg_delta} ${ndelta} ${lg_p} ${lg_kmax}
index=$((${index} + 1))
lg_grp=$((${lg_grp} + 1))
lg_delta=$((${lg_delta} + 1))
if [ ${psz} = "yes" ] ; then
npsizes=$((${npsizes} + 1))
fi
if [ ${pgs} -gt ${slab_maxpgs} ] ; then
slab_maxpgs=${pgs}
fi
fi
while [ ${ndelta} -lt ${g} ] ; do
size_class ${index} ${lg_grp} ${lg_delta} ${ndelta} ${lg_p} ${lg_kmax}
index=$((${index} + 1))
ndelta=$((${ndelta} + 1))
if [ ${psz} = "yes" ] ; then
npsizes=$((${npsizes} + 1))
fi
if [ ${pgs} -gt ${slab_maxpgs} ] ; then
slab_maxpgs=${pgs}
fi
done
# All remaining groups.
lg_grp=$((${lg_grp} + ${lg_g}))
while [ ${lg_grp} -lt $((${ptr_bits} - 1)) ] ; do
sep_line
ndelta=1
if [ ${lg_grp} -eq $((${ptr_bits} - 2)) ] ; then
ndelta_limit=$((${g} - 1))
else
ndelta_limit=${g}
fi
while [ ${ndelta} -le ${ndelta_limit} ] ; do
size_class ${index} ${lg_grp} ${lg_delta} ${ndelta} ${lg_p} ${lg_kmax}
if [ ${lg_delta_lookup} != "no" ] ; then
nlbins=$((${index} + 1))
# Final written value is correct:
lookup_maxclass="((((size_t)1) << ${lg_grp}) + (((size_t)${ndelta}) << ${lg_delta}))"
fi
if [ ${psz} = "yes" ] ; then
npsizes=$((${npsizes} + 1))
fi
if [ ${bin} != "no" ] ; then
nbins=$((${index} + 1))
# Final written value is correct:
small_maxclass="((((size_t)1) << ${lg_grp}) + (((size_t)${ndelta}) << ${lg_delta}))"
if [ ${pgs} -gt ${slab_maxpgs} ] ; then
slab_maxpgs=${pgs}
fi
if [ ${lg_g} -gt 0 ] ; then
lg_large_minclass=$((${lg_grp} + 1))
else
lg_large_minclass=$((${lg_grp} + 2))
fi
fi
# Final written value is correct:
huge_maxclass="((((size_t)1) << ${lg_grp}) + (((size_t)${ndelta}) << ${lg_delta}))"
index=$((${index} + 1))
ndelta=$((${ndelta} + 1))
done
lg_grp=$((${lg_grp} + 1))
lg_delta=$((${lg_delta} + 1))
done
echo
nsizes=${index}
# Defined upon completion:
# - ntbins
# - nlbins
# - nbins
# - nsizes
# - npsizes
# - lg_tiny_maxclass
# - lookup_maxclass
# - small_maxclass
# - slab_maxpgs
# - lg_large_minclass
# - huge_maxclass
}
cat <<EOF
/* This file was automatically generated by size_classes.sh. */
/******************************************************************************/
#ifdef JEMALLOC_H_TYPES
/*
* This header requires LG_SIZEOF_PTR, LG_TINY_MIN, LG_QUANTUM, and LG_PAGE to
* be defined prior to inclusion, and it in turn defines:
*
* LG_SIZE_CLASS_GROUP: Lg of size class count for each size doubling.
* SIZE_CLASSES: Complete table of SC(index, lg_grp, lg_delta, ndelta, psz,
* bin, pgs, lg_delta_lookup) tuples.
* index: Size class index.
* lg_grp: Lg group base size (no deltas added).
* lg_delta: Lg delta to previous size class.
* ndelta: Delta multiplier. size == 1<<lg_grp + ndelta<<lg_delta
* psz: 'yes' if a multiple of the page size, 'no' otherwise.
* bin: 'yes' if a small bin size class, 'no' otherwise.
* pgs: Run page count if a small bin size class, 0 otherwise.
* lg_delta_lookup: Same as lg_delta if a lookup table size class, 'no'
* otherwise.
* NTBINS: Number of tiny bins.
* NLBINS: Number of bins supported by the lookup table.
* NBINS: Number of small size class bins.
* NSIZES: Number of size classes.
* NPSIZES: Number of size classes that are a multiple of (1U << LG_PAGE).
* LG_TINY_MAXCLASS: Lg of maximum tiny size class.
* LOOKUP_MAXCLASS: Maximum size class included in lookup table.
* SMALL_MAXCLASS: Maximum small size class.
* SLAB_MAXPGS: Maximum pages in small size class run.
* LG_LARGE_MINCLASS: Lg of minimum large size class.
* HUGE_MAXCLASS: Maximum (huge) size class.
*/
#define LG_SIZE_CLASS_GROUP ${lg_g}
EOF
for lg_z in ${lg_zarr} ; do
for lg_q in ${lg_qarr} ; do
lg_t=${lg_tmin}
while [ ${lg_t} -le ${lg_q} ] ; do
# Iterate through page sizes and compute how many bins there are.
for lg_p in ${lg_parr} ; do
echo "#if (LG_SIZEOF_PTR == ${lg_z} && LG_TINY_MIN == ${lg_t} && LG_QUANTUM == ${lg_q} && LG_PAGE == ${lg_p})"
size_classes ${lg_z} ${lg_q} ${lg_t} ${lg_p} ${lg_g}
echo "#define SIZE_CLASSES_DEFINED"
echo "#define NTBINS ${ntbins}"
echo "#define NLBINS ${nlbins}"
echo "#define NBINS ${nbins}"
echo "#define NSIZES ${nsizes}"
echo "#define NPSIZES ${npsizes}"
echo "#define LG_TINY_MAXCLASS ${lg_tiny_maxclass}"
echo "#define LOOKUP_MAXCLASS ${lookup_maxclass}"
echo "#define SMALL_MAXCLASS ${small_maxclass}"
echo "#define SLAB_MAXPGS ${slab_maxpgs}"
echo "#define LG_LARGE_MINCLASS ${lg_large_minclass}"
echo "#define HUGE_MAXCLASS ${huge_maxclass}"
echo "#endif"
echo
done
lg_t=$((${lg_t} + 1))
done
done
done
cat <<EOF
#ifndef SIZE_CLASSES_DEFINED
# error "No size class definitions match configuration"
#endif
#undef SIZE_CLASSES_DEFINED
/*
* The size2index_tab lookup table uses uint8_t to encode each bin index, so we
* cannot support more than 256 small size classes. Further constrain NBINS to
* 255 since all small size classes, plus a "not small" size class must be
* stored in 8 bits of arena_chunk_map_bits_t's bits field.
*/
#if (NBINS > 255)
# error "Too many small size classes"
#endif
#endif /* JEMALLOC_H_TYPES */
/******************************************************************************/
#ifdef JEMALLOC_H_STRUCTS
#endif /* JEMALLOC_H_STRUCTS */
/******************************************************************************/
#ifdef JEMALLOC_H_EXTERNS
#endif /* JEMALLOC_H_EXTERNS */
/******************************************************************************/
#ifdef JEMALLOC_H_INLINES
#endif /* JEMALLOC_H_INLINES */
/******************************************************************************/
EOF
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