openjpeg/tests/conformance/CMakeLists.txt

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# CONFORMANCE TESTS AND NON-REGRESSION ON THIS DATASET
file(MAKE_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/Temporary)
set(TEMP ${CMAKE_CURRENT_BINARY_DIR}/Temporary)
set(BASELINE_CONF ${OPJ_DATA_ROOT}/baseline/conformance)
set(BASELINE_NR ${OPJ_DATA_ROOT}/baseline/nonregression)
set(INPUT_CONF ${OPJ_DATA_ROOT}/input/conformance)
# List of components by file (normaly p0_13.j2k have 257 components but for this
#set of test we consider only 4)
set( CP0_nbC_list "not_used;1;1;1;3;4;4;3;3;1;3;1;1;4;3;1;1")
set( CP1_nbC_list "not_used;1;3;4;1;3;3;2")
set(COMMENTCODEVAR FALSE)
##--------------------------------------------------------------------------
## Tests about class 0 profile 0
## try to decode
## compare to ref file provided by the Executable Test Suite
## non regression comparison
## Parameters and tolerances given by Table C.1
#set( C0P0_ResFactor_list "not_used;0;0;0;3;3;3;0;5;2;0;0;0;0;2;0;0")
#set( C0P0_PEAK_list "not_used;0;0;0;33;54;109;10;7;4;10;0;0;0;0;0;0")
#set( C0P0_MSE_list "not_used;0;0;0;55.8;68;743;0.34;6.72;1.47;2.84;0;0;0;0;0;0")
#foreach(numFileC0P0 RANGE 1 16)
# # Build filenames
# if(${numFileC0P0} LESS 10)
# set( filenameInput p0_0${numFileC0P0}.j2k )
# set( filenameRef c0p0_0${numFileC0P0}.pgx )
# else()
# set( filenameInput p0_${numFileC0P0}.j2k )
# set( filenameRef c0p0_${numFileC0P0}.pgx )
# endif()
# # Get corresponding tests parameters
# list(GET C0P0_ResFactor_list ${numFileC0P0} ResFactor)
# #For Class-0 testing, we always focus on the first component only
# #list(GET CP0_nbC_list ${numFileC0P0} nbComponents)
# set( nbComponents "1")
# list(GET C0P0_PEAK_list ${numFileC0P0} PEAK_limit)
# list(GET C0P0_MSE_list ${numFileC0P0} MSE_limit)
# # Manage cases which need to try different resolution reduction
# if (numFileC0P0 EQUAL 3 OR numFileC0P0 EQUAL 15)
# get_filename_component(filenameRefSub ${filenameRef} NAME_WE)
# #r = 0
# add_test(ETS-C0P0-${filenameInput}-r0-decode
# ${EXECUTABLE_OUTPUT_PATH}/opj_decompress
# -i ${INPUT_CONF}/${filenameInput}
# -o ${TEMP}/c0${filenameInput}-r0.pgx
# -r 0
# )
# add_test(ETS-C0P0-${filenameInput}-r0-compare2ref
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_CONF}/${filenameRefSub}r0.pgx
# -t ${TEMP}/c0${filenameInput}-r0.pgx
# -n ${nbComponents}
# -p ${PEAK_limit}
# -m ${MSE_limit}
# -s t_
# )
# set_tests_properties(ETS-C0P0-${filenameInput}-r0-compare2ref
# PROPERTIES DEPENDS
# ETS-C0P0-${filenameInput}-r0-decode)
# add_test(NR-C0P0-${filenameInput}-r0-compare2base
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_NR}/opj_${filenameRefSub}-r0.pgx
# -t ${TEMP}/c0${filenameInput}-r0.pgx
# -n ${nbComponents}
# -d
# -s b_t_
# )
# set_tests_properties(NR-C0P0-${filenameInput}-r0-compare2base
# PROPERTIES DEPENDS
# ETS-C0P0-${filenameInput}-r0-decode)
# #r = 1
# add_test(ETS-C0P0-${filenameInput}-r1-decode
# ${EXECUTABLE_OUTPUT_PATH}/opj_decompress
# -i ${INPUT_CONF}/${filenameInput}
# -o ${TEMP}/c0${filenameInput}-r1.pgx
# -r 1
# )
# add_test(ETS-C0P0-${filenameInput}-r1-compare2ref
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_CONF}/${filenameRefSub}r1.pgx
# -t ${TEMP}/c0${filenameInput}-r1.pgx
# -n ${nbComponents}
# -p ${PEAK_limit}
# -m ${MSE_limit}
# -s t_
# )
# set_tests_properties(ETS-C0P0-${filenameInput}-r1-compare2ref
# PROPERTIES DEPENDS
# ETS-C0P0-${filenameInput}-r1-decode)
# add_test(NR-C0P0-${filenameInput}-r1-compare2base
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_NR}/opj_${filenameRefSub}-r1.pgx
# -t ${TEMP}/c0${filenameInput}-r1.pgx
# -n ${nbComponents}
# -d
# -s b_t_
# )
# set_tests_properties(NR-C0P0-${filenameInput}-r1-compare2base
# PROPERTIES DEPENDS
# ETS-C0P0-${filenameInput}-r1-decode)
# else()
# add_test(ETS-C0P0-${filenameInput}-decode
# ${EXECUTABLE_OUTPUT_PATH}/opj_decompress
# -i ${INPUT_CONF}/${filenameInput}
# -o ${TEMP}/c0${filenameInput}.pgx
# -r ${ResFactor}
# )
# add_test(ETS-C0P0-${filenameInput}-compare2ref
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_CONF}/${filenameRef}
# -t ${TEMP}/c0${filenameInput}.pgx
# -n ${nbComponents}
# -p ${PEAK_limit}
# -m ${MSE_limit}
# -s t_
# )
# set_tests_properties(ETS-C0P0-${filenameInput}-compare2ref
# PROPERTIES DEPENDS
# ETS-C0P0-${filenameInput}-decode)
# add_test(NR-C0P0-${filenameInput}-compare2base
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_NR}/opj_${filenameRef}
# -t ${TEMP}/c0${filenameInput}.pgx
# -n ${nbComponents}
# -d
# -s b_t_
# )
# set_tests_properties(NR-C0P0-${filenameInput}-compare2base
# PROPERTIES DEPENDS
# ETS-C0P0-${filenameInput}-decode)
# endif()
#endforeach()
##--------------------------------------------------------------------------
## Tests about class 0 profile 1
## try to decode
## compare to ref file
## non regression comparison
## Parameters and tolerances given by Table C.4
#set( C0P1_ResFactor_list "not_used;0;3;3;0;4;1;0")
#set( C0P1_PEAK_list "not_used;0;35;28;2;128;128;0")
#set( C0P1_MSE_list "not_used;0;74;18.8;0.550;16384;16384;0")
#foreach(numFileC0P1 RANGE 1 7)
# # Build filenames
# set( filenameInput p1_0${numFileC0P1}.j2k )
# set( filenameRef c0p1_0${numFileC0P1}.pgx )
# # Get corresponding tests parameters
# list(GET C0P1_ResFactor_list ${numFileC0P1} ResFactor)
# #For Class-0 testing, we always focus on the first component only
# #list(GET CP0_nbC_list ${numFileC0P0} nbComponents)
# set( nbComponents "1")
# list(GET C0P1_PEAK_list ${numFileC0P1} PEAK_limit)
# list(GET C0P1_MSE_list ${numFileC0P1} MSE_limit)
# # Manage cases which need to try different resolution reduction
# if (numFileC0P1 EQUAL 4 )
# get_filename_component(filenameRefSub ${filenameRef} NAME_WE)
# #r = 0
# add_test(ETS-C0P1-${filenameInput}-r0-decode
# ${EXECUTABLE_OUTPUT_PATH}/opj_decompress
# -i ${INPUT_CONF}/${filenameInput}
# -o ${TEMP}/c0${filenameInput}-r0.pgx
# -r 0
# )
# add_test(ETS-C0P1-${filenameInput}-r0-compare2ref
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_CONF}/${filenameRefSub}r0.pgx
# -t ${TEMP}/c0${filenameInput}-r0.pgx
# -n ${nbComponents}
# -p ${PEAK_limit}
# -m ${MSE_limit}
# -s t_
# )
# set_tests_properties(ETS-C0P1-${filenameInput}-r0-compare2ref
# PROPERTIES DEPENDS
# ETS-C0P1-${filenameInput}-r0-decode)
# add_test(NR-C0P1-${filenameInput}-r0-compare2base
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_NR}/opj_${filenameRefSub}-r0.pgx
# -t ${TEMP}/c0${filenameInput}-r0.pgx
# -n ${nbComponents}
# -d
# -s b_t_
# )
# set_tests_properties(NR-C0P1-${filenameInput}-r0-compare2base
# PROPERTIES DEPENDS
# ETS-C0P1-${filenameInput}-r0-decode)
# #r = 3
# add_test(ETS-C0P1-${filenameInput}-r3-decode
# ${EXECUTABLE_OUTPUT_PATH}/opj_decompress
# -i ${INPUT_CONF}/${filenameInput}
# -o ${TEMP}/c0${filenameInput}-r3.pgx
# -r 3
# )
# add_test(ETS-C0P1-${filenameInput}-r3-compare2ref
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_CONF}/${filenameRefSub}r3.pgx
# -t ${TEMP}/c0${filenameInput}-r3.pgx
# -n ${nbComponents}
# -p ${PEAK_limit}
# -m ${MSE_limit}
# -s t_
# )
# set_tests_properties(ETS-C0P1-${filenameInput}-r3-compare2ref
# PROPERTIES DEPENDS
# ETS-C0P1-${filenameInput}-r3-decode)
# add_test(NR-C0P1-${filenameInput}-r3-compare2base
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_NR}/opj_${filenameRefSub}-r3.pgx
# -t ${TEMP}/c0${filenameInput}-r3.pgx
# -n ${nbComponents}
# -d
# -s b_t_
# )
# set_tests_properties(NR-C0P1-${filenameInput}-r3-compare2base
# PROPERTIES DEPENDS
# ETS-C0P1-${filenameInput}-r3-decode)
# else()
# add_test(ETS-C0P1-${filenameInput}-decode
# ${EXECUTABLE_OUTPUT_PATH}/opj_decompress
# -i ${INPUT_CONF}/${filenameInput}
# -o ${TEMP}/c0${filenameInput}.pgx
# -r ${ResFactor}
# )
# add_test(ETS-C0P1-${filenameInput}-compare2ref
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_CONF}/${filenameRef}
# -t ${TEMP}/c0${filenameInput}.pgx
# -n ${nbComponents}
# -p ${PEAK_limit}
# -m ${MSE_limit}
# -s t_
# )
# set_tests_properties(ETS-C0P1-${filenameInput}-compare2ref
# PROPERTIES DEPENDS
# ETS-C0P1-${filenameInput}-decode)
# add_test(NR-C0P1-${filenameInput}-compare2base
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_NR}/opj_${filenameRef}
# -t ${TEMP}/c0${filenameInput}.pgx
# -n ${nbComponents}
# -d
# -s b_t_
# )
# set_tests_properties(NR-C0P1-${filenameInput}-compare2base
# PROPERTIES DEPENDS
# ETS-C0P1-${filenameInput}-decode)
# endif()
#endforeach()
#--------------------------------------------------------------------------
# Tests about class 1 profile 0
# try to decode
# compare to ref file
# non regression comparison
# Parameters and tolerances given by Table C.6
set( C1P0_ResFactor_list "not_used;0;0;0;0;0;0;0;1;0;0;0;0;0;0;0;0")
set( C1P0_PEAK_list "not_used;0;0;0;5:4:6;2:2:2:0;635:403:378:0;0:0:0;0:0:0;0;0:0:0;0;0;0:0:0:0;0:0:0;0;0")
set( C1P0_MSE_list "not_used;0;0;0;0.776:0.626:1.070;0.302:0.307:0.269:0;11287:6124:3968:0;0:0:0;0:0:0;0;0:0:0;0;0;0:0:0:0;0:0:0;0;0")
foreach(numFileC1P0 RANGE 1 16)
# Build filenames
if(${numFileC1P0} LESS 10)
set( filenameInput p0_0${numFileC1P0}.j2k )
set( filenameRef c1p0_0${numFileC1P0}.pgx )
else()
set( filenameInput p0_${numFileC1P0}.j2k )
set( filenameRef c1p0_${numFileC1P0}.pgx )
endif()
# Get corresponding tests parameters
list(GET CP0_nbC_list ${numFileC1P0} nbComponents)
list(GET C1P0_ResFactor_list ${numFileC1P0} ResFactor)
list(GET C1P0_PEAK_list ${numFileC1P0} PEAK_limit)
list(GET C1P0_MSE_list ${numFileC1P0} MSE_limit)
add_test(ETS-C1P0-${filenameInput}-decode
${EXECUTABLE_OUTPUT_PATH}/opj_decompress
-i ${INPUT_CONF}/${filenameInput}
-o ${TEMP}/c1${filenameInput}.pgx
-r ${ResFactor}
)
add_test(ETS-C1P0-${filenameInput}-compare2ref
${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
-b ${BASELINE_CONF}/${filenameRef}
-t ${TEMP}/c1${filenameInput}.pgx
-n ${nbComponents}
-p ${PEAK_limit}
-m ${MSE_limit}
-s b_t_
)
set_tests_properties(ETS-C1P0-${filenameInput}-compare2ref
PROPERTIES DEPENDS
ETS-C1P0-${filenameInput}-decode)
add_test(NR-C1P0-${filenameInput}-compare2base
${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
-b ${BASELINE_NR}/opj_${filenameRef}
-t ${TEMP}/c1${filenameInput}.pgx
-n ${nbComponents}
-d
-s b_t_
)
set_tests_properties(NR-C1P0-${filenameInput}-compare2base
PROPERTIES DEPENDS
ETS-C1P0-${filenameInput}-decode)
endforeach()
#--------------------------------------------------------------------------
# Tests about class 1 profile 1
# try to decode
# compare to ref file
# non regression comparison
# Parameters and tolerances given by Table C.7
set( C1P1_PEAK_list "not_used;0;5:4:6;2:2:1:0;624;40:40:40;2:2:2;0:0")
set( C1P1_MSE_list "not_used;0;0.765:0.616:1.051;0.3:0.210:0.200:0;3080;8.458:9.816:10.154;0.6:0.6:0.6;0:0")
foreach(numFileC1P1 RANGE 1 7)
# Build filenames
set( filenameInput p1_0${numFileC1P1}.j2k )
set( filenameRef c1p1_0${numFileC1P1}.pgx )
# Get corresponding tests parameters
list(GET CP1_nbC_list ${numFileC1P1} nbComponents)
list(GET C1P1_PEAK_list ${numFileC1P1} PEAK_limit)
list(GET C1P1_MSE_list ${numFileC1P1} MSE_limit)
add_test(ETS-C1P1-${filenameInput}-decode
${EXECUTABLE_OUTPUT_PATH}/opj_decompress
-i ${INPUT_CONF}/${filenameInput}
-o ${TEMP}/c1${filenameInput}.pgx
-r 0
)
add_test(ETS-C1P1-${filenameInput}-compare2ref
${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
-b ${BASELINE_CONF}/${filenameRef}
-t ${TEMP}/c1${filenameInput}.pgx
-n ${nbComponents}
-p ${PEAK_limit}
-m ${MSE_limit}
-s b_t_
)
set_tests_properties(ETS-C1P1-${filenameInput}-compare2ref
PROPERTIES DEPENDS
ETS-C1P1-${filenameInput}-decode)
add_test(NR-C1P1-${filenameInput}-compare2base
${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
-b ${BASELINE_NR}/opj_${filenameRef}
-t ${TEMP}/c1${filenameInput}.pgx
-n ${nbComponents}
-d
-s b_t_
)
set_tests_properties(NR-C1P1-${filenameInput}-compare2base
PROPERTIES DEPENDS
ETS-C1P1-${filenameInput}-decode)
endforeach()
#--------------------------------------------------------------------------
# Tests about JP2 file
# try to decode
# compare to ref file
# non regression comparison
# Tolerances given by Table G.1
foreach(numFileJP2 RANGE 1 9)
# Build filenames
set( filenameInput "file${numFileJP2}.jp2" )
set( filenameRef jp2_${numFileJP2}.tif )
# Get corresponding tests parameters
list(GET JP2_PEAK_list ${numFileJP2} PEAK_limit)
add_test(ETS-JP2-${filenameInput}-decode
${EXECUTABLE_OUTPUT_PATH}/opj_decompress
-i ${INPUT_CONF}/${filenameInput}
-o ${TEMP}/${filenameInput}.tif
)
#
# FIXME: Need to implement a compare tif images function
#
# add_test(ETS-JP2-${filenameInput}-compare2ref
# ${EXECUTABLE_OUTPUT_PATH}/compareTIFimages
# -b ${BASELINE_CONF}/${filenameRef_tif}
# -t ${TEMP}/${filenameInput}.pgx
# -p 4
# )
#
# set_tests_properties(ETS-JP2-${filenameInput}-compare2ref
# PROPERTIES DEPENDS
# ETS-JP2-${filenameInput}-decode)
#
# add_test(NR-JP2-${filenameInput}-compare2base
# ${EXECUTABLE_OUTPUT_PATH}/compareTIFimages
# -b ${BASELINE_NR}/opj_${filenameRef}
# -t ${TEMP}/${filenameInput}.tif
# -d
# )
#
# set_tests_properties(NR-JP2-${filenameInput}-compare2base
# PROPERTIES DEPENDS
# ETS-JP2-${filenameInput}-decode)
endforeach()
#--------------------------------------------------------------------------#
#--------------------------------------------------------------------------#
#--------------------------------------------------------------------------#
#--------------------------------------------------------------------------
# Tests about dump of profile 0 file
# try to dump image and codestream informations into a file
# non regression comparison this file to the baseline
foreach(numFileP0 RANGE 1 16)
# Build filenames
if(${numFileP0} LESS 10)
set( filenameInput p0_0${numFileP0}.j2k )
else()
set( filenameInput p0_${numFileP0}.j2k )
endif()
get_filename_component(filenameRefSub ${filenameInput} NAME_WE)
add_test(NR-${filenameInput}-dump
${EXECUTABLE_OUTPUT_PATH}/opj_dump
-i ${INPUT_CONF}/${filenameInput}
-o ${TEMP}/${filenameInput}.txt
)
add_test(NR-${filenameInput}-compare_dump2base
${EXECUTABLE_OUTPUT_PATH}/compare_dump_files
-b ${BASELINE_NR}/opj_v2_${filenameRefSub}.txt
-t ${TEMP}/${filenameInput}.txt
)
set_tests_properties(NR-${filenameInput}-compare_dump2base
PROPERTIES DEPENDS
NR-${filenameInput}-dump)
endforeach()
#--------------------------------------------------------------------------
# Tests about dump of profile 1 file
# try to dump image and codestream informations into a file
# non regression comparison this file to the baseline
foreach(numFileP1 RANGE 1 7)
# Build filenames
set( filenameInput p1_0${numFileP1}.j2k )
get_filename_component(filenameInputSub ${filenameInput} NAME_WE)
add_test(NR-${filenameInput}-dump
${EXECUTABLE_OUTPUT_PATH}/opj_dump
-i ${INPUT_CONF}/${filenameInput}
-o ${TEMP}/${filenameInput}.txt
)
add_test(NR-${filenameInput}-compare_dump2base
${EXECUTABLE_OUTPUT_PATH}/compare_dump_files
-b ${BASELINE_NR}/opj_v2_${filenameInputSub}.txt
-t ${TEMP}/${filenameInput}.txt
)
set_tests_properties(NR-${filenameInput}-compare_dump2base
PROPERTIES DEPENDS
NR-${filenameInput}-dump)
endforeach()
#--------------------------------------------------------------------------
# Tests about dump of JP2 file
# try to dump image and codestream informations into a file
# non regression comparison this file to the baseline
foreach(numFileJP2 RANGE 1 9)
# Build filenames
set( filenameInput "file${numFileJP2}.jp2" )
get_filename_component(filenameInputSub ${filenameInput} NAME_WE)
add_test(NR-${filenameInput}-dump
${EXECUTABLE_OUTPUT_PATH}/opj_dump
-i ${INPUT_CONF}/${filenameInput}
-o ${TEMP}/${filenameInput}.txt
)
add_test(NR-${filenameInput}-compare_dump2base
${EXECUTABLE_OUTPUT_PATH}/compare_dump_files
-b ${BASELINE_NR}/opj_v2_${filenameInputSub}.txt
-t ${TEMP}/${filenameInput}.txt
)
set_tests_properties(NR-${filenameInput}-compare_dump2base
PROPERTIES DEPENDS
NR-${filenameInput}-dump)
endforeach()