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view tests/pointset_test/run-test.sh @ 373:cd63493c32a9

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Add library SONAME versioning. This has the unfortunate effect of altering how the linker and the runtime library resolver find relevant files, which has effects on how the library test suite should be run. So... ... also rework how to run libtests. Start by deleting 28 almost-identical copies of Makefile and run-test.sh, and also the completely useless copy of test-utils.sh. Then: * library tests assume the existence of ../libtest.mk, a file with make syntax; * ../libtest.mk is responsible for providing enough symbolic links to con the linker and the runtime resolver into finding our library; * the default way of doing that is by using the -rpath linker flag. * run-tests.sh converts from test1 success convention ("return 0") to tests success convention ("exit 104") * clean.sh cleans up our symbolic links. This test regime stands a reasonable chance of running on OS X eventually, and a snowball's chance in heaven (remember, heaven is hotter than hell) on Windows. It should still be straightforward to merge libtests/ into tests/ when that is appropriate. Don't forget to add ../libtest.mk
author mas01cr
date Thu, 13 Nov 2008 17:09:51 +0000
parents 40dca0cbbffd
children
line wrap: on
line source
#! /bin/bash

. ../test-utils.sh
NPOINTS=100
NDIM=100
RADII="0.1 0.2 0.4 0.5 0.7 0.9 01 02 05 10"
LSH_W="01 04"

GENERATE_POINTS_AND_INSERT_IN_NEW_DB=true
if [ ${GENERATE_POINTS_AND_INSERT_IN_NEW_DB} ]
    then
    if [ -f testdb ]; then rm -f testdb; fi
    
    ${AUDIODB} -d testdb -N
    
    intstring 1 > testpower
    floatstring -1 >> testpower
    
    ${AUDIODB} -d testdb -P
    
    if [ -d rad*[0-9]* ]; then rm -r rad*[0-9]*; fi
    
    for j in ${RADII}
      do
      R_SQ=`echo "scale=6; $j^2" | bc`
      mkdir -p "rad$j"
      ./genpoints2 ${NPOINTS} ${R_SQ} ${NDIM}
      mv testfeature* "rad$j"
    done
    
    for i in rad*[0-9]*/*
      do
      ${AUDIODB} -d testdb -I -f $i -w testpower
    done
    
# sequence queries require L2NORM
    ${AUDIODB} -d testdb -L
fi

for W in ${LSH_W}
  do
  for LOOP1 in 1 2 3 4 5 6 7 8 9 10
  do
    for LOOP2 in 1 2 3 4 5
      do
      rm -f testdb.lsh.*
      
#  LSH_W=1
      LSH_K=1
      LSH_M=1
      LSH_N=1000
      
      INDEXING=true
      if [ ${INDEXING} ]
	  then
	  for j in ${RADII}
	    do
	    R_SQ=`echo "scale=6; $j^2" | bc`
	    ${AUDIODB} -d testdb -X -R ${R_SQ} -l 1 --lsh_N ${LSH_N} \
		--lsh_b ${LSH_N} --lsh_k ${LSH_K} --lsh_m ${LSH_M} --lsh_w ${W} --lsh_ncols 1000 \
		--absolute-threshold -1 --no_unit_norming
	  done
      fi
  
#if [ -f cumulativeResult.txt ]; then rm -f cumulativeResult.txt;fi
  
      for j in ${RADII}
	do
	R_SQ=`echo "scale=6; $j^2" | bc`
	${AUDIODB} \
	    -d testdb -Q sequence -R ${R_SQ} -l 1 -e \
	    -f queryfeature -w testpower --absolute-threshold -1 --no_unit_norming -r 1000 > output${j}
	echo `for k in ${RADII};do egrep "^rad$k" output${j} | wc | awk '{print $1}';done` >> cumulativeResult_k1_w${W}_m1_${NDIM}.txt
      done
    done
  done
done

#Perform exact search as a sanity test
#rm -f *.lsh*
#echo
#for j in .01 .02 .03 .05 01 02 03 05 09 10
#  do
#  R_SQ=`echo "scale=6; $j^2" | bc`
#  ${AUDIODB} \
#      -d testdb -Q sequence -R ${R_SQ} -l 1 -e \
#      -f queryfeature -w testpower --absolute-threshold -1 --no_unit_norming -r 1000 > outputEUC
#  echo EUC points retrieved at Radius $j: \
#`for k in .01 .02 .03 .05 01 02 03 05 09 10; do egrep "^rad$k" outputEUC | wc | awk '{print $1}';done` 
#done

#Inspect the indexing parameters
#echo
#egrep "^INDEX:" output[1-9]
#echo