openjpeg/tests/nonregression/CMakeLists.txt

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# NON-REGRESSION TESTS ON THIS DATASET LOCATED ${OPJ_DATA_ROOT}/input/nonregression
file(MAKE_DIRECTORY ${CMAKE_CURRENT_BINARY_DIR}/Temporary)
set(TEMP ${CMAKE_CURRENT_BINARY_DIR}/Temporary)
set(BASELINE_NR ${OPJ_DATA_ROOT}/baseline/nonregression)
set(INPUT_NR ${OPJ_DATA_ROOT}/input/nonregression)
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set(INPUT_NR_PATH ${INPUT_NR})
set(TEMP_PATH ${TEMP})
set(INPUT_CONF_PATH ${OPJ_DATA_ROOT}/input/conformance)
# need kdu_expand if possible
find_package(KAKADU)
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#########################################################################
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# GENERATION OF THE TEST SUITE (DUMP)
# Dump all files with the selected extension inside the input directory
# technically opj_dump should simply parse these one, since syntax is ok.
set(BLACKLIST_JPEG2000_TMP
2539.pdf.SIGFPE.706.1712.jp2
0290cb77c5df21828fa74cf2ab2c84d8.SIGFPE.d25.31.jp2
26ccf3651020967f7778238ef5af08af.SIGFPE.d25.527.jp2
4035.pdf.SIGSEGV.d8b.3375.jp2
)
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# Define a list of file which should be gracefully rejected:
set(BLACKLIST_JPEG2000
${BLACKLIST_JPEG2000_TMP}
broken.jp2
broken2.jp2
broken3.jp2
broken4.jp2
gdal_fuzzer_assert_in_opj_j2k_read_SQcd_SQcc.patch.jp2
gdal_fuzzer_check_comp_dx_dy.jp2
gdal_fuzzer_check_number_of_tiles.jp2
gdal_fuzzer_unchecked_numresolutions.jp2
mem-b2ace68c-1381.jp2
1851.pdf.SIGSEGV.ce9.948.jp2
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)
file(GLOB_RECURSE OPJ_DATA_NR_LIST
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"${INPUT_NR}/*.j2k"
"${INPUT_NR}/*.j2c"
"${INPUT_NR}/*.jp2"
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#"${INPUT_NR}/*.jpx"
)
foreach(INPUT_FILENAME ${OPJ_DATA_NR_LIST})
get_filename_component(INPUT_FILENAME_NAME ${INPUT_FILENAME} NAME)
#get_filename_component(INPUT_FILENAME_NAME_WE ${INPUT_FILENAME_NAME} NAME_WE)
# cannot use longest extension function, since some name contains multiples
# dots. Instead write out own shortest extension function:
string(FIND ${INPUT_FILENAME_NAME} "." SHORTEST_EXT_POS REVERSE)
string(SUBSTRING ${INPUT_FILENAME_NAME} 0 ${SHORTEST_EXT_POS} INPUT_FILENAME_NAME_WE)
string(REGEX MATCH ${INPUT_FILENAME_NAME} bad_jpeg2000 ${BLACKLIST_JPEG2000})
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# Dump the input image
add_test(NAME NR-${INPUT_FILENAME_NAME}-dump
COMMAND opj_dump
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-i ${INPUT_FILENAME}
-o ${TEMP}/${INPUT_FILENAME_NAME}.txt
-v
)
if(bad_jpeg2000)
set_tests_properties(NR-${INPUT_FILENAME_NAME}-dump
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PROPERTIES WILL_FAIL TRUE)
else()
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# Compare the dump output with the baseline
add_test(NAME NR-${INPUT_FILENAME_NAME}-compare_dump2base
COMMAND compare_dump_files
-b ${BASELINE_NR}/opj_v2_${INPUT_FILENAME_NAME_WE}.txt
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-t ${TEMP}/${INPUT_FILENAME_NAME}.txt
)
set_tests_properties(NR-${INPUT_FILENAME_NAME}-compare_dump2base
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PROPERTIES DEPENDS
NR-${INPUT_FILENAME_NAME}-dump)
endif()
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endforeach()
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#########################################################################
# GENERATION OF THE TEST SUITE (DECODE AND ENCODE)
# Read one and more input file(s) (located in ${OPJ_DATA_ROOT}/input/nonregression)
# to know which files processed and with which options.
# Configure the test suite file:
configure_file("test_suite.ctest.in"
"${CMAKE_CURRENT_BINARY_DIR}/test_suite.ctest"
@ONLY)
# Read the file into a list
file(STRINGS ${CMAKE_CURRENT_BINARY_DIR}/test_suite.ctest OPJ_TEST_CMD_LINE_LIST)
# Try to find and configure and read another test suite file
file(GLOB TEST_SUITE_FILES *.ctest.in)
if (TEST_SUITE_FILES)
foreach(TEST_SUITE_FILE ${TEST_SUITE_FILES})
# Avoid to process the official test suite
set(FILE_ALREADY_READ 0)
get_filename_component(TEST_SUITE_FILENAME ${TEST_SUITE_FILE} NAME)
string(REGEX MATCH "^test_suite.ctest.in$" FILE_ALREADY_READ ${TEST_SUITE_FILENAME})
if(NOT FILE_ALREADY_READ)
# Configure the additional test suite file:
get_filename_component(TEST_SUITE_FILE_SUB ${TEST_SUITE_FILE} NAME_WE)
configure_file("${TEST_SUITE_FILE}"
"${CMAKE_CURRENT_BINARY_DIR}/${TEST_SUITE_FILE_SUB}.ctest"
@ONLY)
# Read the additional file into a list
file(STRINGS ${CMAKE_CURRENT_BINARY_DIR}/${TEST_SUITE_FILE_SUB}.ctest OPJ_TEST_CMD_LINE_LIST_TEMP)
# Append the list of command
set(OPJ_TEST_CMD_LINE_LIST ${OPJ_TEST_CMD_LINE_LIST} ${OPJ_TEST_CMD_LINE_LIST_TEMP})
endif()
endforeach()
else()
message(FATAL_ERROR "One test suite should be available (test_suite.ctest.in) !!!")
endif()
# Parse the command line found in the file(s)
set(IT_TEST_ENC 0)
set(IT_TEST_DEC 0)
foreach(OPJ_TEST_CMD_LINE ${OPJ_TEST_CMD_LINE_LIST})
set(IGNORE_LINE_FOUND 0)
# Replace space by ; to generate a list
string(REPLACE " " ";" CMD_ARG_LIST ${OPJ_TEST_CMD_LINE})
# Check if the first argument begin by the comment sign
list(GET CMD_ARG_LIST 0 EXE_NAME)
if(EXE_NAME)
string(REGEX MATCH "^#" IGNORE_LINE_FOUND ${EXE_NAME})
endif()
if(IGNORE_LINE_FOUND OR NOT EXE_NAME)
#message( STATUS "Current line is ignored: ${OPJ_TEST_CMD_LINE}")
else()
# Check if the first argument begin by the failed sign
set(FAILED_TEST_FOUND 0)
string(REGEX MATCH "^!" FAILED_TEST_FOUND ${EXE_NAME})
if (FAILED_TEST_FOUND)
# Manage the different cases with the failed sign to remove the first argument which must be opj_compress
set(FAILED_TEST_FOUND_1 0)
string(REGEX MATCH "^!opj_compress$|^!opj_decompress$" FAILED_TEST_FOUND_1 ${EXE_NAME})
if (FAILED_TEST_FOUND_1)
list(REMOVE_AT CMD_ARG_LIST 0)
else ()
set(FAILED_TEST_FOUND_2 0)
list(GET CMD_ARG_LIST 1 EXE_NAME)
string(REGEX MATCH "^opj_compress$|^opj_decompress$" FAILED_TEST_FOUND_2 ${EXE_NAME})
if (FAILED_TEST_FOUND_2)
list(REMOVE_AT CMD_ARG_LIST 0)
list(REMOVE_AT CMD_ARG_LIST 0)
else ()
message( FATAL_ERROR "${EXE_NAME} is not the right executable name to encode file (try to use opj_compress or opj_decompress)")
endif ()
endif ()
else ()
# Check if the first argument is equal to opj_compress
string(REGEX MATCH "^opj_compress$|^opj_decompress$" EXE_NAME_FOUND ${EXE_NAME})
if(EXE_NAME_FOUND)
string(REGEX MATCH "opj_compress" ENC_TEST_FOUND ${EXE_NAME})
else()
message( FATAL_ERROR "${EXE_NAME} is not the right executable name to encode file (try to use opj_compress)")
endif()
list(REMOVE_AT CMD_ARG_LIST 0)
endif ()
# Parse the argument list to find the input filename and output filename
set(CMD_ARG_LIST_2 "")
set(ARG_POS 0)
set(INPUT_ARG_POS 0)
set(OUTPUT_ARG_POS 0)
foreach(CMD_ARG_ELT ${CMD_ARG_LIST})
math(EXPR ARG_POS "${ARG_POS}+1" )
string(COMPARE EQUAL ${CMD_ARG_ELT} "-i" INPUT_ARG_FOUND)
if(INPUT_ARG_FOUND)
set(INPUT_ARG_POS ${ARG_POS})
set(INPUT_ARG_FOUND 0)
endif()
string(COMPARE EQUAL ${CMD_ARG_ELT} "-o" OUTPUT_ARG_FOUND)
if(OUTPUT_ARG_FOUND)
set(OUTPUT_ARG_POS ${ARG_POS})
set(OUTPUT_ARG_FOUND 0)
endif()
list (APPEND CMD_ARG_LIST_2 ${CMD_ARG_ELT})
endforeach()
list(GET CMD_ARG_LIST_2 ${INPUT_ARG_POS} INPUT_FILENAME)
get_filename_component(INPUT_FILENAME_NAME ${INPUT_FILENAME} NAME)
get_filename_component(INPUT_FILENAME_NAME_WE ${INPUT_FILENAME_NAME} NAME_WE)
list(GET CMD_ARG_LIST_2 ${OUTPUT_ARG_POS} OUTPUT_FILENAME)
get_filename_component(OUTPUT_FILENAME_NAME_WE ${OUTPUT_FILENAME} NAME_WE)
#-----
# Now we can add the test suite corresponding to a line command in the file
#-----
# ENCODER TEST SUITE
if(ENC_TEST_FOUND)
math(EXPR IT_TEST_ENC "${IT_TEST_ENC}+1" )
# Encode an image into the jpeg2000 format
add_test(NAME NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-encode
COMMAND opj_compress
${CMD_ARG_LIST_2}
)
if(FAILED_TEST_FOUND)
set_tests_properties(NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-encode PROPERTIES WILL_FAIL TRUE)
else()
# Dump the encoding file
add_test(NAME NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-dump
COMMAND opj_dump
-i ${OUTPUT_FILENAME}
-o ${OUTPUT_FILENAME}-ENC-${IT_TEST_ENC}.txt
)
set_tests_properties(NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-dump
PROPERTIES DEPENDS
NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-encode)
# Compare the dump file with the baseline
add_test(NAME NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-compare_dump2base
COMMAND compare_dump_files
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-b ${BASELINE_NR}/opj_v2_${OUTPUT_FILENAME_NAME_WE}-ENC-${IT_TEST_ENC}.txt
-t ${OUTPUT_FILENAME}-ENC-${IT_TEST_ENC}.txt
)
set_tests_properties(NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-compare_dump2base
PROPERTIES DEPENDS
NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-dump)
# Decode the encoding file with kakadu expand command
if (KDU_EXPAND_EXECUTABLE)
add_test(NAME NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-decode-ref
COMMAND ${KDU_EXPAND_EXECUTABLE}
-i ${OUTPUT_FILENAME}
-o ${OUTPUT_FILENAME}.raw
)
set_tests_properties(NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-decode-ref
PROPERTIES DEPENDS
NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-encode)
# Compare the decoding file with baseline generated from the kdu_expand and baseline.j2k
add_test(NAME NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-compare_dec-ref-out2base
COMMAND compareRAWimages
-b ${BASELINE_NR}/opj_${OUTPUT_FILENAME_NAME_WE}-ENC-${IT_TEST_ENC}.raw
-t ${OUTPUT_FILENAME}.raw
)
set_tests_properties(NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-compare_dec-ref-out2base
PROPERTIES DEPENDS
NR-ENC-${INPUT_FILENAME_NAME}-${IT_TEST_ENC}-decode-ref)
endif()
endif()
# DECODER TEST SUITE
else()
math(EXPR IT_TEST_DEC "${IT_TEST_DEC}+1" )
# Decode the input image
add_test(NAME NR-DEC-${INPUT_FILENAME_NAME}-${IT_TEST_DEC}-decode
COMMAND opj_decompress
${CMD_ARG_LIST_2}
)
if(FAILED_TEST_FOUND)
set_tests_properties(NR-DEC-${INPUT_FILENAME_NAME}-${IT_TEST_DEC}-decode PROPERTIES WILL_FAIL TRUE)
else()
# if not failed, check against registered md5:
add_test(NAME NR-DEC-${INPUT_FILENAME_NAME}-${IT_TEST_DEC}-decode-md5 COMMAND ${CMAKE_COMMAND}
-DREFFILE:STRING=${CMAKE_CURRENT_SOURCE_DIR}/md5refs.txt
-DFILENAME:STRING=${INPUT_FILENAME_NAME}
-P ${CMAKE_CURRENT_SOURCE_DIR}/checkmd5refs.cmake)
set_tests_properties(NR-DEC-${INPUT_FILENAME_NAME}-${IT_TEST_DEC}-decode-md5
PROPERTIES DEPENDS NR-DEC-${INPUT_FILENAME_NAME}-${IT_TEST_DEC}-decode
)
# FIXME: add a compare2base function base on raw which
# can output png diff files if necesary
# add_test(NR-${filename}-compare2base
# ${EXECUTABLE_OUTPUT_PATH}/comparePGXimages
# -b ${BASELINE_NR}/opj_${filenameRef}
# -t ${TEMP}/${filename}.pgx
# -n ${nbComponents}
# -d
# -s b_t_
# )
#
# set_tests_properties(NR-${filename}-compare2base
# PROPERTIES DEPENDS
# NR-${filename}-decode)
endif()
endif()
endif()
endforeach()