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'''
Simple test runner
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See settings . py file for options & params . Edit as needed .
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'''
from subprocess import Popen , PIPE , STDOUT
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import os , unittest , tempfile , shutil , time , inspect , sys , math , glob , tempfile , re , json
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# Setup
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abspath = os . path . abspath ( os . path . dirname ( __file__ ) )
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def path_from_root ( * pathelems ) :
return os . path . join ( os . path . sep , * ( abspath . split ( os . sep ) [ : - 1 ] + list ( pathelems ) ) )
exec ( open ( path_from_root ( ' tools ' , ' shared.py ' ) , ' r ' ) . read ( ) )
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# Sanity check for config
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try :
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assert COMPILER_OPTS != None
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except :
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raise Exception ( ' Cannot find " COMPILER_OPTS " definition. Is ~/.emscripten set up properly? You may need to copy the template from settings.py into it. ' )
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# Paths
EMSCRIPTEN = path_from_root ( ' emscripten.py ' )
DEMANGLER = path_from_root ( ' third_party ' , ' demangler.py ' )
NAMESPACER = path_from_root ( ' tools ' , ' namespacer.py ' )
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EMMAKEN = path_from_root ( ' tools ' , ' emmaken.py ' )
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AUTODEBUGGER = path_from_root ( ' tools ' , ' autodebugger.py ' )
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DFE = path_from_root ( ' tools ' , ' dead_function_eliminator.py ' )
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# Global cache for tests (we have multiple TestCase instances; this object lets them share data)
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GlobalCache = { }
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class Dummy : pass
Settings = Dummy ( )
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Settings . saveJS = 0
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# Core test runner class, shared between normal tests and benchmarks
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class RunnerCore ( unittest . TestCase ) :
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def tearDown ( self ) :
if Settings . saveJS :
for name in os . listdir ( self . get_dir ( ) ) :
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if name . endswith ( ( ' .o.js ' , ' .cc.js ' ) ) :
suff = ' . ' . join ( name . split ( ' . ' ) [ - 2 : ] )
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shutil . copy ( os . path . join ( self . get_dir ( ) , name ) ,
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os . path . join ( TEMP_DIR , self . id ( ) . replace ( ' __main__. ' , ' ' ) . replace ( ' .test_ ' , ' . ' ) + ' . ' + suff ) )
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def skip ( self ) :
print >> sys . stderr , ' <skip> ' ,
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def get_dir ( self ) :
dirname = TEMP_DIR + ' /tmp ' # tempfile.mkdtemp(dir=TEMP_DIR)
if not os . path . exists ( dirname ) :
os . makedirs ( dirname )
return dirname
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# Similar to LLVM::createStandardModulePasses()
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def pick_llvm_opts ( self , optimization_level , optimize_size , allow_nonportable = False ) :
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global LLVM_OPT_OPTS , USE_TYPED_ARRAYS
#if USE_TYPED_ARRAYS == 2: # unsafe optimizations. TODO: fix all issues blocking this from being used
# LLVM_OPT_OPTS = ['-O3']
# return
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LLVM_OPT_OPTS = pick_llvm_opts ( optimization_level , optimize_size , allow_nonportable )
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# Emscripten optimizations that we run on the .ll file
def do_ll_opts ( self , filename ) :
shutil . move ( filename + ' .o.ll ' , filename + ' .o.ll.orig ' )
output = Popen ( [ ' python ' , DFE , filename + ' .o.ll.orig ' , filename + ' .o.ll ' ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
assert os . path . exists ( filename + ' .o.ll ' ) , ' Failed to run ll optimizations '
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# Optional LLVM optimizations
def do_llvm_opts ( self , filename ) :
if LLVM_OPTS :
shutil . move ( filename + ' .o ' , filename + ' .o.pre ' )
output = Popen ( [ LLVM_OPT , filename + ' .o.pre ' ] + LLVM_OPT_OPTS + [ ' -o= ' + filename + ' .o ' ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
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def do_llvm_dis ( self , filename ) :
# LLVM binary ==> LLVM assembly
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try :
os . remove ( filename + ' .o.ll ' )
except :
pass
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Popen ( [ LLVM_DIS , filename + ' .o ' ] + LLVM_DIS_OPTS + [ ' -o= ' + filename + ' .o.ll ' ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
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assert os . path . exists ( filename + ' .o.ll ' ) , ' Could not create .ll file '
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def do_llvm_as ( self , source , target ) :
# LLVM assembly ==> LLVM binary
try :
os . remove ( target )
except :
pass
Popen ( [ LLVM_AS , source , ' -o= ' + target ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
assert os . path . exists ( target ) , ' Could not create bc file '
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def do_link ( self , files , target ) :
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output = Popen ( [ LLVM_LINK ] + files + [ ' -o ' , target ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
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assert output is None or ' Could not open input file ' not in output , ' Linking error: ' + output
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def prep_ll_test ( self , filename , ll_file , force_recompile = False , build_ll_hook = None ) :
if ll_file . endswith ( ( ' .bc ' , ' .o ' ) ) :
if ll_file != filename + ' .o ' :
shutil . copy ( ll_file , filename + ' .o ' )
self . do_llvm_dis ( filename )
else :
shutil . copy ( ll_file , filename + ' .o.ll ' )
force_recompile = force_recompile or os . stat ( filename + ' .o.ll ' ) . st_size > 50000 # if the file is big, recompile just to get ll_opts
if LLVM_OPTS or force_recompile or build_ll_hook :
self . do_ll_opts ( filename )
if build_ll_hook :
build_ll_hook ( filename )
shutil . move ( filename + ' .o.ll ' , filename + ' .o.ll.pre ' )
self . do_llvm_as ( filename + ' .o.ll.pre ' , filename + ' .o ' )
output = Popen ( [ LLVM_AS , filename + ' .o.ll.pre ' ] + [ ' -o= ' + filename + ' .o ' ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
assert ' error: ' not in output , ' Error in llvm-as: ' + output
self . do_llvm_opts ( filename )
self . do_llvm_dis ( filename )
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# Build JavaScript code from source code
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def build ( self , src , dirname , filename , output_processor = None , main_file = None , additional_files = [ ] , libraries = [ ] , includes = [ ] , build_ll_hook = None , extra_emscripten_args = [ ] ) :
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# Copy over necessary files for compiling the source
if main_file is None :
f = open ( filename , ' w ' )
f . write ( src )
f . close ( )
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assert len ( additional_files ) == 0
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else :
# copy whole directory, and use a specific main .cpp file
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shutil . rmtree ( dirname )
shutil . copytree ( src , dirname )
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shutil . move ( os . path . join ( dirname , main_file ) , filename )
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# the additional files were copied; alter additional_files to point to their full paths now
additional_files = map ( lambda f : os . path . join ( dirname , f ) , additional_files )
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# Copy Emscripten C++ API
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shutil . copy ( path_from_root ( ' src ' , ' include ' , ' emscripten.h ' ) , dirname )
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# C++ => LLVM binary
os . chdir ( dirname )
cwd = os . getcwd ( )
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for f in [ filename ] + additional_files :
try :
# Make sure we notice if compilation steps failed
os . remove ( f + ' .o ' )
os . remove ( f + ' .o.ll ' )
except :
pass
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output = Popen ( [ COMPILER , ' -DEMSCRIPTEN ' , ' -emit-llvm ' ] + COMPILER_OPTS + COMPILER_TEST_OPTS +
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[ ' -I ' , dirname , ' -I ' , os . path . join ( dirname , ' include ' ) ] +
map ( lambda include : ' -I ' + include , includes ) +
[ ' -c ' , f , ' -o ' , f + ' .o ' ] ,
stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
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assert os . path . exists ( f + ' .o ' ) , ' Source compilation error: ' + output
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os . chdir ( cwd )
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# Link all files
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if len ( additional_files ) + len ( libraries ) > 0 :
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shutil . move ( filename + ' .o ' , filename + ' .o.alone ' )
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self . do_link ( [ filename + ' .o.alone ' ] + map ( lambda f : f + ' .o ' , additional_files ) + libraries ,
filename + ' .o ' )
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if not os . path . exists ( filename + ' .o ' ) :
print " Failed to link LLVM binaries: \n \n " , output
raise Exception ( " Linkage error " ) ;
# Finalize
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self . prep_ll_test ( filename , filename + ' .o ' , build_ll_hook = build_ll_hook )
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self . do_emscripten ( filename , output_processor , extra_args = extra_emscripten_args )
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def do_emscripten ( self , filename , output_processor = None , append_ext = True , extra_args = [ ] ) :
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# Run Emscripten
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exported_settings = { }
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for setting in [ ' QUANTUM_SIZE ' , ' RELOOP ' , ' OPTIMIZE ' , ' ASSERTIONS ' , ' USE_TYPED_ARRAYS ' , ' SAFE_HEAP ' , ' CHECK_OVERFLOWS ' , ' CORRECT_OVERFLOWS ' , ' CORRECT_SIGNS ' , ' CHECK_SIGNS ' , ' CORRECT_OVERFLOWS_LINES ' , ' CORRECT_SIGNS_LINES ' , ' CORRECT_ROUNDINGS ' , ' CORRECT_ROUNDINGS_LINES ' , ' INVOKE_RUN ' , ' SAFE_HEAP_LINES ' , ' INIT_STACK ' , ' AUTO_OPTIMIZE ' , ' EXPORTED_FUNCTIONS ' , ' EXPORTED_GLOBALS ' , ' BUILD_AS_SHARED_LIB ' , ' INCLUDE_FULL_LIBRARY ' , ' RUNTIME_TYPE_INFO ' , ' DISABLE_EXCEPTIONS ' ] :
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try :
value = eval ( setting )
exported_settings [ setting ] = value
except :
pass
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settings = [ ' -s %s = %s ' % ( k , json . dumps ( v ) ) for k , v in exported_settings . items ( ) ]
compiler_output = timeout_run ( Popen ( [ EMSCRIPTEN , filename + ( ' .o.ll ' if append_ext else ' ' ) , ' -o ' , filename + ' .o.js ' ] + settings + extra_args , stdout = PIPE , stderr = STDOUT ) , TIMEOUT , ' Compiling ' )
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#print compiler_output
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# Detect compilation crashes and errors
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if compiler_output is not None and ' Traceback ' in compiler_output and ' in test_ ' in compiler_output : print compiler_output ; assert 0
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assert os . path . exists ( filename + ' .o.js ' ) , ' Emscripten failed to generate .js: ' + str ( compiler_output )
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if output_processor is not None :
output_processor ( open ( filename + ' .o.js ' ) . read ( ) )
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def run_generated_code ( self , engine , filename , args = [ ] , check_timeout = True ) :
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stdout = os . path . join ( self . get_dir ( ) , ' stdout ' ) # use files, as PIPE can get too full and hang us
stderr = os . path . join ( self . get_dir ( ) , ' stderr ' )
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try :
cwd = os . getcwd ( )
except :
cwd = None
os . chdir ( self . get_dir ( ) )
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run_js ( engine , filename , args , check_timeout , stdout = open ( stdout , ' w ' ) , stderr = open ( stderr , ' w ' ) )
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if cwd is not None :
os . chdir ( cwd )
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ret = open ( stdout , ' r ' ) . read ( ) + open ( stderr , ' r ' ) . read ( )
assert ' strict warning: ' not in ret , ' We should pass all strict mode checks: ' + ret
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return ret
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def run_llvm_interpreter ( self , args ) :
return Popen ( [ LLVM_INTERPRETER ] + args , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
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def build_native ( self , filename , compiler = ' g++ ' ) :
Popen ( [ compiler , ' -O3 ' , filename , ' -o ' , filename + ' .native ' ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
def run_native ( self , filename , args ) :
Popen ( [ filename + ' .native ' ] + args , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
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def assertContained ( self , value , string ) :
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if type ( value ) is not str : value = value ( ) # lazy loading
if type ( string ) is not str : string = string ( )
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if value not in string :
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raise Exception ( " Expected to find ' %s ' in ' %s ' " % ( limit_size ( value ) , limit_size ( string ) ) )
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def assertNotContained ( self , value , string ) :
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if type ( value ) is not str : value = value ( ) # lazy loading
if type ( string ) is not str : string = string ( )
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if value in string :
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raise Exception ( " Expected to NOT find ' %s ' in ' %s ' " % ( limit_size ( value ) , limit_size ( string ) ) )
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###################################################################################################
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if ' benchmark ' not in sys . argv :
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# Tests
print " Running Emscripten tests... "
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class T ( RunnerCore ) : # Short name, to make it more fun to use manually on the commandline
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## Does a complete test - builds, runs, checks output, etc.
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def do_test ( self , src , expected_output = None , args = [ ] , output_nicerizer = None , output_processor = None , no_build = False , main_file = None , additional_files = [ ] , js_engines = None , post_build = None , basename = ' src.cpp ' , libraries = [ ] , includes = [ ] , force_c = False , build_ll_hook = None , extra_emscripten_args = [ ] ) :
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#print 'Running test:', inspect.stack()[1][3].replace('test_', ''), '[%s,%s,%s]' % (COMPILER.split(os.sep)[-1], 'llvm-optimizations' if LLVM_OPTS else '', 'reloop&optimize' if RELOOP else '')
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if force_c or ( main_file is not None and main_file [ - 2 : ] ) == ' .c ' :
basename = ' src.c '
global COMPILER
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COMPILER = to_cc ( COMPILER )
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dirname = self . get_dir ( )
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filename = os . path . join ( dirname , basename )
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if not no_build :
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self . build ( src , dirname , filename , main_file = main_file , additional_files = additional_files , libraries = libraries , includes = includes ,
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build_ll_hook = build_ll_hook , extra_emscripten_args = extra_emscripten_args )
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if post_build is not None :
post_build ( filename + ' .o.js ' )
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# If not provided with expected output, then generate it right now, using lli
if expected_output is None :
expected_output = self . run_llvm_interpreter ( [ filename + ' .o ' ] )
print ' [autogenerated expected output: %20s ] ' % ( expected_output [ 0 : 17 ] . replace ( ' \n ' , ' ' ) + ' ... ' )
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# Run in both JavaScript engines, if optimizing - significant differences there (typed arrays)
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if js_engines is None :
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js_engines = [ SPIDERMONKEY_ENGINE , V8_ENGINE ]
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if USE_TYPED_ARRAYS == 2 :
js_engines = [ SPIDERMONKEY_ENGINE ] # when oh when will v8 support typed arrays in the console
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for engine in js_engines :
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js_output = self . run_generated_code ( engine , filename + ' .o.js ' , args )
if output_nicerizer is not None :
js_output = output_nicerizer ( js_output )
self . assertContained ( expected_output , js_output )
self . assertNotContained ( ' ERROR ' , js_output )
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#shutil.rmtree(dirname) # TODO: leave no trace in memory. But for now nice for debugging
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# No building - just process an existing .ll file (or .bc, which we turn into .ll)
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def do_ll_test ( self , ll_file , expected_output = None , args = [ ] , js_engines = None , output_nicerizer = None , post_build = None , force_recompile = False , build_ll_hook = None , extra_emscripten_args = [ ] ) :
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if COMPILER != LLVM_GCC : return self . skip ( ) # We use existing .ll, so which compiler is unimportant
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filename = os . path . join ( self . get_dir ( ) , ' src.cpp ' )
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self . prep_ll_test ( filename , ll_file , force_recompile , build_ll_hook )
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self . do_emscripten ( filename , extra_args = extra_emscripten_args )
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self . do_test ( None ,
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expected_output ,
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args ,
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no_build = True ,
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js_engines = js_engines ,
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output_nicerizer = output_nicerizer ,
post_build = post_build )
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def test_hello_world ( self ) :
src = '''
#include <stdio.h>
int main ( )
{
printf ( " hello, world! \\ n " ) ;
return 0 ;
}
'''
self . do_test ( src , ' hello, world! ' )
def test_intvars ( self ) :
src = '''
#include <stdio.h>
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int global = 20 ;
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int * far ;
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int main ( )
{
int x = 5 ;
int y = x + 17 ;
int z = ( y - 1 ) / 2 ; / / Should stay an integer after division !
y + = 1 ;
int w = x * 3 + 4 ;
int k = w < 15 ? 99 : 101 ;
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far = & k ;
* far + = global ;
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int i = k > 100 ; / / Should be an int , not a bool !
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int j = i << 6 ;
j >> = 1 ;
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j = j ^ 5 ;
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int h = 1 ;
h | = 0 ;
int p = h ;
p & = 0 ;
printf ( " * %d , %d , %d , %d , %d , %d , %d , %d , %d * \\ n " , x , y , z , w , k , i , j , h , p ) ;
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long hash = - 1 ;
size_t perturb ;
int ii = 0 ;
for ( perturb = hash ; ; perturb >> = 5 ) {
printf ( " %d : %d " , ii , perturb ) ;
ii + + ;
if ( ii == 9 ) break ;
printf ( " , " ) ;
}
printf ( " * \\ n " ) ;
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printf ( " * %.1d , %.2d * \\ n " , 56 , 9 ) ;
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/ / Fixed - point math on 64 - bit ints . Tricky to support since we have no 64 - bit shifts in JS
{
struct Fixed {
static int Mult ( int a , int b ) {
return ( ( long long ) a * ( long long ) b ) >> 16 ;
}
} ;
printf ( " fixed: %d \\ n " , Fixed : : Mult ( 150000 , 140000 ) ) ;
}
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printf ( " * %ld * % p \\ n " , ( long ) 21 , & hash ) ; / / The % p should not enter an infinite loop !
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return 0 ;
}
'''
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self . do_test ( src , ' *5,23,10,19,121,1,37,1,0* \n 0:-1,1:134217727,2:4194303,3:131071,4:4095,5:127,6:3,7:0,8:0* \n *56,09* \n fixed:320434 \n *21* ' )
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def test_sintvars ( self ) :
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global CORRECT_SIGNS ; CORRECT_SIGNS = 1 # Relevant to this test
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src = '''
#include <stdio.h>
struct S {
char * match_start ;
char * strstart ;
} ;
int main ( )
{
struct S _s ;
struct S * s = & _s ;
unsigned short int sh ;
s - > match_start = ( char * ) 32522 ;
s - > strstart = ( char * ) ( 32780 ) ;
printf ( " * %d , %d , %d * \\ n " , ( int ) s - > strstart , ( int ) s - > match_start , ( int ) ( s - > strstart - s - > match_start ) ) ;
sh = s - > strstart - s - > match_start ;
printf ( " * %d , %d * \\ n " , sh , sh >> 7 ) ;
s - > match_start = ( char * ) 32999 ;
s - > strstart = ( char * ) ( 32780 ) ;
printf ( " * %d , %d , %d * \\ n " , ( int ) s - > strstart , ( int ) s - > match_start , ( int ) ( s - > strstart - s - > match_start ) ) ;
sh = s - > strstart - s - > match_start ;
printf ( " * %d , %d * \\ n " , sh , sh >> 7 ) ;
}
'''
output = ' *32780,32522,258* \n *258,2* \n *32780,32999,-219* \n *65317,510* '
global CORRECT_OVERFLOWS ; CORRECT_OVERFLOWS = 0 # We should not need overflow correction to get this right
self . do_test ( src , output , force_c = True )
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def test_bigint ( self ) :
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if USE_TYPED_ARRAYS != 0 : return self . skip ( ) # Typed arrays truncate i64.
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src = '''
#include <stdio.h>
int main ( )
{
long long x = 0x0000def123450789 ULL ; / / any bigger than this , and we
long long y = 0x00020ef123456089 ULL ; / / start to run into the double precision limit !
printf ( " * %Ld , %Ld , %Ld , %Ld , %Ld * \\ n " , x , y , x | y , x & y , x ^ y , x >> 2 , y << 2 ) ;
return 0 ;
}
'''
self . do_test ( src , ' *245127260211081,579378795077769,808077213656969,16428841631881,791648372025088* ' )
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def test_unsigned ( self ) :
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global CORRECT_SIGNS ; CORRECT_SIGNS = 1 # We test for exactly this sort of thing here
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global CHECK_SIGNS ; CHECK_SIGNS = 0
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src = '''
#include <stdio.h>
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const signed char cvals [ 2 ] = { - 1 , - 2 } ; / / compiler can store this is a string , so - 1 becomes \FF , and needs re - signing
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int main ( )
{
int varey = 100 ;
unsigned int MAXEY = - 1 , MAXEY2 = - 77 ;
printf ( " * %u , %d , %u * \\ n " , MAXEY , varey > = MAXEY , MAXEY2 ) ; / / 100 > = - 1 ? not in unsigned !
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int y = cvals [ 0 ] ;
printf ( " * %d , %d , %d , %d * \\ n " , cvals [ 0 ] , cvals [ 0 ] < 0 , y , y < 0 ) ;
y = cvals [ 1 ] ;
printf ( " * %d , %d , %d , %d * \\ n " , cvals [ 1 ] , cvals [ 1 ] < 0 , y , y < 0 ) ;
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/ / zext issue - see mathop in jsifier
unsigned char x8 = - 10 ;
unsigned long hold = 0 ;
hold + = x8 ;
int y32 = hold + 50 ;
printf ( " * %u , %u * \\ n " , hold , y32 ) ;
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/ / Comparisons
x8 = 0 ;
for ( int i = 0 ; i < 254 ; i + + ) x8 + + ; / / make it an actual 254 in JS - not a - 2
printf ( " * %d , %d * \\ n " , x8 + 1 == 0xff , x8 + 1 != 0xff ) ; / / 0xff may be ' -1 ' in the bitcode
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return 0 ;
}
'''
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self . do_test ( src , ' *4294967295,0,4294967219* \n *-1,1,-1,1* \n *-2,1,-2,1* \n *246,296* \n *1,0* ' )
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# Now let's see some code that should just work in USE_TYPED_ARRAYS == 2, but requires
# corrections otherwise
if USE_TYPED_ARRAYS == 2 :
CORRECT_SIGNS = 0
CHECK_SIGNS = 1
else :
CORRECT_SIGNS = 1
CHECK_SIGNS = 0
src = '''
#include <stdio.h>
int main ( )
{
{
unsigned char x ;
unsigned char * y = & x ;
* y = - 1 ;
printf ( " * %d * \\ n " , x ) ;
}
{
unsigned short x ;
unsigned short * y = & x ;
* y = - 1 ;
printf ( " * %d * \\ n " , x ) ;
}
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/ * { / / This case is not checked . The hint for unsignedness is just the % u in printf , and we do not analyze that
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unsigned int x ;
unsigned int * y = & x ;
* y = - 1 ;
printf ( " * %u * \\ n " , x ) ;
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} * /
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{
char x ;
char * y = & x ;
* y = 255 ;
printf ( " * %d * \\ n " , x ) ;
}
{
char x ;
char * y = & x ;
* y = 65535 ;
printf ( " * %d * \\ n " , x ) ;
}
{
char x ;
char * y = & x ;
* y = 0xffffffff ;
printf ( " * %d * \\ n " , x ) ;
}
return 0 ;
}
'''
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self . do_test ( src , ' *255* \n *65535* \n *-1* \n *-1* \n *-1* ' )
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def test_bitfields ( self ) :
global SAFE_HEAP ; SAFE_HEAP = 0 # bitfields do loads on invalid areas, by design
src = '''
#include <stdio.h>
struct bitty {
unsigned x : 1 ;
unsigned y : 1 ;
unsigned z : 1 ;
} ;
int main ( )
{
bitty b ;
printf ( " * " ) ;
for ( int i = 0 ; i < = 1 ; i + + )
for ( int j = 0 ; j < = 1 ; j + + )
for ( int k = 0 ; k < = 1 ; k + + ) {
b . x = i ;
b . y = j ;
b . z = k ;
printf ( " %d , %d , %d , " , b . x , b . y , b . z ) ;
}
printf ( " * \\ n " ) ;
return 0 ;
}
'''
self . do_test ( src , ' *0,0,0,0,0,1,0,1,0,0,1,1,1,0,0,1,0,1,1,1,0,1,1,1,* ' )
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def test_floatvars ( self ) :
src = '''
#include <stdio.h>
int main ( )
{
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float x = 1.234 , y = 3.5 , q = 0.00000001 ;
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y * = 3 ;
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int z = x < y ;
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printf ( " * %d , %d , %.1f , %d , %.4f , %.2f * \\ n " , z , int ( y ) , y , ( int ) x , x , q ) ;
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/ *
/ / Rounding behavior
float fs [ 6 ] = { - 2.75 , - 2.50 , - 2.25 , 2.25 , 2.50 , 2.75 } ;
double ds [ 6 ] = { - 2.75 , - 2.50 , - 2.25 , 2.25 , 2.50 , 2.75 } ;
for ( int i = 0 ; i < 6 ; i + + )
printf ( " *int( %.2f )= %d , %d * \\ n " , fs [ i ] , int ( fs [ i ] ) , int ( ds [ i ] ) ) ;
* /
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return 0 ;
}
'''
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self . do_test ( src , ' *1,10,10.5,1,1.2340,0.00* ' )
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def test_math ( self ) :
src = '''
#include <stdio.h>
#include <cmath>
int main ( )
{
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printf ( " * %.2f , %.2f , %f , %f " , M_PI , - M_PI , 1 / 0.0 , - 1 / 0.0 ) ;
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printf ( " , %d " , finite ( NAN ) != 0 ) ;
printf ( " , %d " , finite ( INFINITY ) != 0 ) ;
printf ( " , %d " , finite ( - INFINITY ) != 0 ) ;
printf ( " , %d " , finite ( 12.3 ) != 0 ) ;
printf ( " , %d " , isinf ( NAN ) != 0 ) ;
printf ( " , %d " , isinf ( INFINITY ) != 0 ) ;
printf ( " , %d " , isinf ( - INFINITY ) != 0 ) ;
printf ( " , %d " , isinf ( 12.3 ) != 0 ) ;
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printf ( " * \\ n " ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *3.14,-3.14,inf,-inf,0,0,0,1,0,1,1,0* ' )
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def test_math_hyperbolic ( self ) :
src = open ( path_from_root ( ' tests ' , ' hyperbolic ' , ' src.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' hyperbolic ' , ' output.txt ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
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def test_getgep ( self ) :
# Generated code includes getelementptr (getelementptr, 0, 1), i.e., GEP as the first param to GEP
src = '''
#include <stdio.h>
struct {
int y [ 10 ] ;
int z [ 10 ] ;
} commonblock ;
int main ( )
{
for ( int i = 0 ; i < 10 ; + + i ) {
commonblock . y [ i ] = 1 ;
commonblock . z [ i ] = 2 ;
}
printf ( " * %d %d * \\ n " , commonblock . y [ 0 ] , commonblock . z [ 0 ] ) ;
return 0 ;
}
'''
self . do_test ( src , ' *1 2* ' )
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def test_if ( self ) :
src = '''
#include <stdio.h>
int main ( )
{
int x = 5 ;
if ( x > 3 ) {
printf ( " *yes* \\ n " ) ;
}
return 0 ;
}
'''
self . do_test ( src , ' *yes* ' )
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# Test for issue 39
if not LLVM_OPTS :
self . do_ll_test ( path_from_root ( ' tests ' , ' issue_39.ll ' ) , ' *yes* ' )
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def test_if_else ( self ) :
src = '''
#include <stdio.h>
int main ( )
{
int x = 5 ;
if ( x > 10 ) {
printf ( " *yes* \\ n " ) ;
} else {
printf ( " *no* \\ n " ) ;
}
return 0 ;
}
'''
self . do_test ( src , ' *no* ' )
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def test_loop ( self ) :
src = '''
#include <stdio.h>
int main ( )
{
int x = 5 ;
for ( int i = 0 ; i < 6 ; i + + )
x + = x * i ;
printf ( " * %d * \\ n " , x ) ;
return 0 ;
}
'''
self . do_test ( src , ' *3600* ' )
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def test_stack ( self ) :
src = '''
#include <stdio.h>
int test ( int i ) {
int x = 10 ;
if ( i > 0 ) {
return test ( i - 1 ) ;
}
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return int ( & x ) ; / / both for the number , and forces x to not be nativized
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}
int main ( )
{
/ / We should get the same value for the first and last - stack has unwound
int x1 = test ( 0 ) ;
int x2 = test ( 100 ) ;
int x3 = test ( 0 ) ;
printf ( " * %d , %d * \\ n " , x3 - x1 , x2 != x1 ) ;
return 0 ;
}
'''
self . do_test ( src , ' *0,1* ' )
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def test_strings ( self ) :
src = '''
#include <stdio.h>
#include <stdlib.h>
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#include <string.h>
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int main ( int argc , char * * argv )
{
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int x = 5 , y = 9 , magic = 7 ; / / fool compiler with magic
memmove ( & x , & y , magic - 7 ) ; / / 0 should not crash us
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int xx , yy , zz ;
int cc = sscanf ( " abc_10.b1_xyz_543 " , " abc_ %d . %2x _xyz_ %3d " , & xx , & yy , & zz ) ;
printf ( " %d : %d , %d , %d \\ n " , cc , xx , yy , zz ) ;
printf ( " %d \\ n " , argc ) ;
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puts ( argv [ 1 ] ) ;
puts ( argv [ 2 ] ) ;
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printf ( " %d \\ n " , atoi ( argv [ 3 ] ) + 2 ) ;
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const char * foolingthecompiler = " \\ rabcd " ;
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printf ( " %d \\ n " , strlen ( foolingthecompiler ) ) ; / / Tests parsing / 0 D in llvm - should not be a 0 ( end string ) then a D !
printf ( " %s \\ n " , NULL ) ; / / Should print ' (null) ' , not the string at address 0 , which is a real address for us !
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printf ( " /* a comment */ \\ n " ) ; / / Should not break the generated code !
printf ( " // another \\ n " ) ; / / Should not break the generated code !
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return 0 ;
}
'''
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self . do_test ( src , ' 3:10,177,543 \n 4 \n wowie \n too \n 76 \n 5 \n (null) \n /* a comment */ \n // another ' , [ ' wowie ' , ' too ' , ' 74 ' ] )
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def test_error ( self ) :
src = r '''
#include <stdio.h>
#include <errno.h>
#include <string.h>
int main ( ) {
char * err ;
char buffer [ 200 ] ;
err = strerror ( EDOM ) ;
strerror_r ( EWOULDBLOCK , buffer , 200 ) ;
printf ( " < %s > \n " , err ) ;
printf ( " < %s > \n " , buffer ) ;
printf ( " < %d > \n " , strerror_r ( EWOULDBLOCK , buffer , 0 ) ) ;
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errno = 123 ;
printf ( " < %d > \n " , errno ) ;
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return 0 ;
}
'''
expected = '''
< Numerical argument out of domain >
< Resource temporarily unavailable >
< 34 >
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< 123 >
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'''
self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) )
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def test_mainenv ( self ) :
src = '''
#include <stdio.h>
int main ( int argc , char * * argv , char * * envp )
{
printf ( " * % p* \\ n " , envp ) ;
return 0 ;
}
'''
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self . do_test ( src , ' *(nil)* ' )
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2010-08-26 08:01:10 +04:00
def test_funcs ( self ) :
src = '''
#include <stdio.h>
int funcy ( int x )
{
return x * 9 ;
}
int main ( )
{
printf ( " * %d , %d * \\ n " , funcy ( 8 ) , funcy ( 10 ) ) ;
return 0 ;
}
'''
self . do_test ( src , ' *72,90* ' )
def test_structs ( self ) :
src = '''
#include <stdio.h>
struct S
{
int x , y ;
} ;
int main ( )
{
S a , b ;
a . x = 5 ; a . y = 6 ;
b . x = 101 ; b . y = 7009 ;
S * c , * d ;
c = & a ;
c - > x * = 2 ;
c = & b ;
c - > y - = 1 ;
d = c ;
d - > y + = 10 ;
printf ( " * %d , %d , %d , %d , %d , %d , %d , %d * \\ n " , a . x , a . y , b . x , b . y , c - > x , c - > y , d - > x , d - > y ) ;
return 0 ;
}
'''
self . do_test ( src , ' *10,6,101,7018,101,7018,101,7018* ' )
gen_struct_src = '''
#include <stdio.h>
#include <stdlib.h>
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#include "emscripten.h"
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struct S
{
int x , y ;
} ;
int main ( )
{
S * a = { { gen_struct } } ;
a - > x = 51 ; a - > y = 62 ;
printf ( " * %d , %d * \\ n " , a - > x , a - > y ) ;
{ { del_struct } } ( a ) ;
return 0 ;
}
'''
def test_mallocstruct ( self ) :
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self . do_test ( self . gen_struct_src . replace ( ' {{ gen_struct}} ' , ' (S*)malloc(sizeof(S)) ' ) . replace ( ' {{ del_struct}} ' , ' free ' ) , ' *51,62* ' )
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def test_newstruct ( self ) :
self . do_test ( self . gen_struct_src . replace ( ' {{ gen_struct}} ' , ' new S ' ) . replace ( ' {{ del_struct}} ' , ' delete ' ) , ' *51,62* ' )
def test_addr_of_stacked ( self ) :
src = '''
#include <stdio.h>
void alter ( int * y )
{
* y + = 5 ;
}
int main ( )
{
int x = 2 ;
alter ( & x ) ;
printf ( " * %d * \\ n " , x ) ;
return 0 ;
}
'''
self . do_test ( src , ' *7* ' )
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def test_globals ( self ) :
src = '''
#include <stdio.h>
char cache [ 256 ] , * next = cache ;
int main ( )
{
cache [ 10 ] = 25 ;
next [ 20 ] = 51 ;
printf ( " * %d , %d * \\ n " , next [ 10 ] , cache [ 20 ] ) ;
return 0 ;
}
'''
self . do_test ( src , ' *25,51* ' )
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def test_linked_list ( self ) :
src = '''
#include <stdio.h>
struct worker_args {
int value ;
struct worker_args * next ;
} ;
int main ( )
{
worker_args a ;
worker_args b ;
a . value = 60 ;
a . next = & b ;
b . value = 900 ;
b . next = NULL ;
worker_args * c = & a ;
int total = 0 ;
while ( c ) {
total + = c - > value ;
c = c - > next ;
}
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/ / Chunk of em
worker_args chunk [ 10 ] ;
for ( int i = 0 ; i < 9 ; i + + ) {
chunk [ i ] . value = i * 10 ;
chunk [ i ] . next = & chunk [ i + 1 ] ;
}
chunk [ 9 ] . value = 90 ;
chunk [ 9 ] . next = & chunk [ 0 ] ;
c = chunk ;
do {
total + = c - > value ;
c = c - > next ;
} while ( c != chunk ) ;
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printf ( " * %d , %d * \\ n " , total , b . next ) ;
/ / NULL * is * 0 , in C / C + + . No JS null ! ( null == 0 is false , etc . )
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return 0 ;
}
'''
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self . do_test ( src , ' *1410,0* ' )
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def test_sup ( self ) :
src = '''
#include <stdio.h>
struct S4 { int x ; } ; / / size : 4
struct S4_2 { short x , y ; } ; / / size : 4 , but for alignment purposes , 2
struct S6 { short x , y , z ; } ; / / size : 6
struct S6w { char x [ 6 ] ; } ; / / size : 6 also
struct S6z { int x ; short y ; } ; / / size : 8 , since we align to a multiple of the biggest - 4
struct C___ { S6 a , b , c ; int later ; } ;
struct Carr { S6 a [ 3 ] ; int later ; } ; / / essentially the same , but differently defined
struct C__w { S6 a ; S6w b ; S6 c ; int later ; } ; / / same size , different struct
struct Cp1_ { int pre ; short a ; S6 b , c ; int later ; } ; / / fillers for a
struct Cp2_ { int a ; short pre ; S6 b , c ; int later ; } ; / / fillers for a ( get addr of the other filler )
struct Cint { S6 a ; int b ; S6 c ; int later ; } ; / / An int ( different size ) for b
struct C4__ { S6 a ; S4 b ; S6 c ; int later ; } ; / / Same size as int from before , but a struct
struct C4_2 { S6 a ; S4_2 b ; S6 c ; int later ; } ; / / Same size as int from before , but a struct with max element size 2
struct C__z { S6 a ; S6z b ; S6 c ; int later ; } ; / / different size , 8 instead of 6
int main ( )
{
#define TEST(struc) \\
{ \\
struc * s = 0 ; \\
printf ( " * %s : %d , %d , %d , %d < %d * \\ n " , #struc, (int)&(s->a), (int)&(s->b), (int)&(s->c), (int)&(s->later), sizeof(struc)); \\
}
#define TEST_ARR(struc) \\
{ \\
struc * s = 0 ; \\
printf ( " * %s : %d , %d , %d , %d < %d * \\ n " , #struc, (int)&(s->a[0]), (int)&(s->a[1]), (int)&(s->a[2]), (int)&(s->later), sizeof(struc)); \\
}
printf ( " sizeofs: %d , %d \\ n " , sizeof ( S6 ) , sizeof ( S6z ) ) ;
TEST ( C___ ) ;
TEST_ARR ( Carr ) ;
TEST ( C__w ) ;
TEST ( Cp1_ ) ;
TEST ( Cp2_ ) ;
TEST ( Cint ) ;
TEST ( C4__ ) ;
TEST ( C4_2 ) ;
TEST ( C__z ) ;
return 1 ;
}
'''
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if QUANTUM_SIZE == 1 :
self . do_test ( src , ' sizeofs:6,8 \n *C___: 0,3,6,9<24* \n *Carr: 0,3,6,9<24* \n *C__w: 0,3,9,12<24* \n *Cp1_: 1,2,5,8<24* \n *Cp2_: 0,2,5,8<24* \n *Cint: 0,3,4,7<24* \n *C4__: 0,3,4,7<24* \n *C4_2: 0,3,5,8<20* \n *C__z: 0,3,5,8<28* ' )
else :
self . do_test ( src , ' sizeofs:6,8 \n *C___: 0,6,12,20<24* \n *Carr: 0,6,12,20<24* \n *C__w: 0,6,12,20<24* \n *Cp1_: 4,6,12,20<24* \n *Cp2_: 0,6,12,20<24* \n *Cint: 0,8,12,20<24* \n *C4__: 0,8,12,20<24* \n *C4_2: 0,6,10,16<20* \n *C__z: 0,8,16,24<28* ' )
2011-01-30 03:55:59 +03:00
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def test_assert ( self ) :
src = '''
#include <stdio.h>
#include <assert.h>
int main ( ) {
assert ( 1 == true ) ; / / pass
assert ( 1 == false ) ; / / fail
return 1 ;
}
'''
self . do_test ( src , ' Assertion failed: 1 == false ' )
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2010-11-21 02:19:01 +03:00
def test_exceptions ( self ) :
src = '''
#include <stdio.h>
void thrower ( ) {
printf ( " infunc... " ) ;
throw ( 99 ) ;
printf ( " FAIL " ) ;
}
int main ( ) {
try {
printf ( " *throw... " ) ;
throw ( 1 ) ;
printf ( " FAIL " ) ;
} catch ( . . . ) {
printf ( " caught! " ) ;
}
try {
thrower ( ) ;
} catch ( . . . ) {
printf ( " done!* \\ n " ) ;
}
return 1 ;
}
'''
self . do_test ( src , ' *throw...caught!infunc...done!* ' )
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global DISABLE_EXCEPTIONS
DISABLE_EXCEPTIONS = 1
self . do_test ( src , ' Compiled code throwing an exception ' )
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def test_class ( self ) :
src = '''
#include <stdio.h>
struct Random {
enum { IM = 139968 , IA = 3877 , IC = 29573 } ;
Random ( ) : last ( 42 ) { }
float get ( float max = 1.0 f ) {
last = ( last * IA + IC ) % IM ;
return max * last / IM ;
}
protected :
unsigned int last ;
} rng1 ;
int main ( )
{
Random rng2 ;
int count = 0 ;
for ( int i = 0 ; i < 100 ; i + + ) {
float x1 = rng1 . get ( ) ;
float x2 = rng2 . get ( ) ;
printf ( " %f , %f \\ n " , x1 , x2 ) ;
if ( x1 != x2 ) count + = 1 ;
}
printf ( " * %d * \\ n " , count ) ;
return 0 ;
}
'''
self . do_test ( src , ' *0* ' )
def test_inherit ( self ) :
src = '''
#include <stdio.h>
struct Parent {
int x1 , x2 ;
} ;
struct Child : Parent {
int y ;
} ;
int main ( )
{
Parent a ;
a . x1 = 50 ;
a . x2 = 87 ;
Child b ;
b . x1 = 78 ;
b . x2 = 550 ;
b . y = 101 ;
Child * c = ( Child * ) & a ;
c - > x1 + + ;
c = & b ;
c - > y - - ;
printf ( " * %d , %d , %d , %d , %d , %d , %d * \\ n " , a . x1 , a . x2 , b . x1 , b . x2 , b . y , c - > x1 , c - > x2 ) ;
return 0 ;
}
'''
self . do_test ( src , ' *51,87,78,550,100,78,550* ' )
def test_polymorph ( self ) :
src = '''
#include <stdio.h>
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struct Pure {
virtual int implme ( ) = 0 ;
} ;
struct Parent : Pure {
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virtual int getit ( ) { return 11 ; } ;
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int implme ( ) { return 32 ; }
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} ;
struct Child : Parent {
int getit ( ) { return 74 ; }
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int implme ( ) { return 1012 ; }
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} ;
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struct Other {
int one ( ) { return 11 ; }
int two ( ) { return 22 ; }
} ;
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int main ( )
{
Parent * x = new Parent ( ) ;
Parent * y = new Child ( ) ;
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printf ( " * %d , %d , %d , %d * \\ n " , x - > getit ( ) , y - > getit ( ) , x - > implme ( ) , y - > implme ( ) ) ;
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Other * o = new Other ;
int ( Other : : * Ls ) ( ) = & Other : : one ;
printf ( " * %d * \\ n " , ( o - > * ( Ls ) ) ( ) ) ;
Ls = & Other : : two ;
printf ( " * %d * \\ n " , ( o - > * ( Ls ) ) ( ) ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *11,74,32,1012* \n *11* \n *22* ' )
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def test_funcptr ( self ) :
src = '''
#include <stdio.h>
int calc1 ( ) { return 26 ; }
int calc2 ( ) { return 90 ; }
typedef int ( * fp_t ) ( ) ;
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fp_t globally1 = calc1 ;
fp_t globally2 = calc2 ;
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int nothing ( const char * str ) { return 0 ; }
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int main ( )
{
fp_t fp = calc1 ;
void * vp = ( void * ) fp ;
fp_t fpb = ( fp_t ) vp ;
fp_t fp2 = calc2 ;
void * vp2 = ( void * ) fp2 ;
fp_t fpb2 = ( fp_t ) vp2 ;
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printf ( " * %d , %d , %d , %d , %d , %d * \\ n " , fp ( ) , fpb ( ) , fp2 ( ) , fpb2 ( ) , globally1 ( ) , globally2 ( ) ) ;
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fp_t t = calc1 ;
printf ( " * %d , %d " , t == calc1 , t == calc2 ) ;
t = calc2 ;
printf ( " , %d , %d * \\ n " , t == calc1 , t == calc2 ) ;
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int ( * other ) ( const char * str ) ;
other = nothing ;
other ( " *hello!* " ) ;
other = puts ;
other ( " *goodbye!* " ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *26,26,90,90,26,90* \n *1,0,0,1* \n *goodbye!* ' )
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def test_mathfuncptr ( self ) :
src = '''
#include <math.h>
#include <stdio.h>
int
main ( void ) {
float ( * fn ) ( float ) = & sqrtf ;
float ( * fn2 ) ( float ) = & fabsf ;
printf ( " fn2(-5) = %d , fn(10) = %f \\ n " , ( int ) fn2 ( - 5 ) , fn ( 10 ) ) ;
return 0 ;
}
'''
self . do_test ( src , ' fn2(-5) = 5, fn(10) = 3.16 ' )
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def test_emptyclass ( self ) :
src = '''
#include <stdio.h>
struct Randomized {
Randomized ( int x ) {
printf ( " *zzcheezzz* \\ n " ) ;
}
} ;
int main ( int argc , const char * argv [ ] ) {
new Randomized ( 55 ) ;
return 0 ;
}
'''
self . do_test ( src , ' *zzcheezzz* ' )
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def test_alloca ( self ) :
src = '''
#include <stdio.h>
int main ( ) {
char * pc ;
pc = ( char * ) alloca ( 5 ) ;
printf ( " z: %d * %d * \\ n " , pc > 0 , ( int ) pc ) ;
return 0 ;
}
'''
self . do_test ( src , ' z:1* ' , force_c = True )
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def test_array2 ( self ) :
src = '''
#include <stdio.h>
static const double grid [ 4 ] [ 2 ] = {
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{ - 3 / 3. , - 1 / 3. } , { + 1 / 3. , - 3 / 3. } ,
{ - 1 / 3. , + 3 / 3. } , { + 3 / 3. , + 1 / 3. }
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} ;
int main ( ) {
for ( int i = 0 ; i < 4 ; i + + )
printf ( " %d : %.2f , %.2f " , i , grid [ i ] [ 0 ] , grid [ i ] [ 1 ] ) ;
printf ( " \\ n " ) ;
return 0 ;
}
'''
self . do_test ( src , ' 0:-1.00,-0.33 1:0.33,-1.00 2:-0.33,1.00 3:1.00,0.33 ' )
2010-11-28 07:58:19 +03:00
def test_array2b ( self ) :
src = '''
#include <stdio.h>
static const struct {
unsigned char left ;
unsigned char right ;
} prioritah [ ] = {
{ 6 , 6 } , { 6 , 6 } , { 7 , 95 } , { 7 , 7 }
} ;
int main ( ) {
printf ( " * %d , %d \\ n " , prioritah [ 1 ] . left , prioritah [ 1 ] . right ) ;
printf ( " %d , %d * \\ n " , prioritah [ 2 ] . left , prioritah [ 2 ] . right ) ;
return 0 ;
}
'''
self . do_test ( src , ' *6,6 \n 7,95* ' )
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def test_constglobalstructs ( self ) :
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src = '''
#include <stdio.h>
struct IUB {
int c ;
double p ;
unsigned int pi ;
} ;
IUB iub [ ] = {
{ ' a ' , 0.27 , 5 } ,
{ ' c ' , 0.15 , 4 } ,
{ ' g ' , 0.12 , 3 } ,
{ ' t ' , 0.27 , 2 } ,
} ;
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const unsigned char faceedgesidx [ 6 ] [ 4 ] =
{
{ 4 , 5 , 8 , 10 } ,
{ 6 , 7 , 9 , 11 } ,
{ 0 , 2 , 8 , 9 } ,
{ 1 , 3 , 10 , 11 } ,
{ 0 , 1 , 4 , 6 } ,
{ 2 , 3 , 5 , 7 } ,
} ;
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int main ( int argc , const char * argv [ ] ) {
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printf ( " * %d , %d , %d , %d * \\ n " , iub [ 0 ] . c , int ( iub [ 1 ] . p * 100 ) , iub [ 2 ] . pi , faceedgesidx [ 3 ] [ 2 ] ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *97,15,3,10* ' )
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def test_conststructs ( self ) :
src = '''
#include <stdio.h>
struct IUB {
int c ;
double p ;
unsigned int pi ;
} ;
int main ( int argc , const char * argv [ ] ) {
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int before = 70 ;
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IUB iub [ ] = {
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{ ' a ' , 0.3029549426680 , 5 } ,
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{ ' c ' , 0.15 , 4 } ,
{ ' g ' , 0.12 , 3 } ,
{ ' t ' , 0.27 , 2 } ,
} ;
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int after = 90 ;
printf ( " * %d , %d , %d , %d , %d , %d * \\ n " , before , iub [ 0 ] . c , int ( iub [ 1 ] . p * 100 ) , iub [ 2 ] . pi , int ( iub [ 0 ] . p * 10000 ) , after ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *70,97,15,3,3029,90* ' )
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2010-10-02 07:58:15 +04:00
def test_mod_globalstruct ( self ) :
src = '''
#include <stdio.h>
struct malloc_params {
size_t magic , page_size ;
} ;
malloc_params mparams ;
#define SIZE_T_ONE ((size_t)1)
#define page_align(S) (((S) + (mparams.page_size - SIZE_T_ONE)) & ~(mparams.page_size - SIZE_T_ONE))
int main ( )
{
mparams . page_size = 4096 ;
printf ( " * %d , %d , %d , %d * \\ n " , mparams . page_size , page_align ( 1000 ) , page_align ( 6000 ) , page_align ( 66474 ) ) ;
return 0 ;
}
'''
self . do_test ( src , ' *4096,4096,8192,69632* ' )
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def test_pystruct ( self ) :
src = '''
#include <stdio.h>
/ / Based on CPython code
union PyGC_Head {
struct {
union PyGC_Head * gc_next ;
union PyGC_Head * gc_prev ;
size_t gc_refs ;
} gc ;
long double dummy ; / * force worst - case alignment * /
} ;
struct gc_generation {
PyGC_Head head ;
int threshold ; / * collection threshold * /
int count ; / * count of allocations or collections of younger
generations * /
} ;
#define NUM_GENERATIONS 3
#define GEN_HEAD(n) (&generations[n].head)
/ * linked lists of container objects * /
static struct gc_generation generations [ NUM_GENERATIONS ] = {
/ * PyGC_Head , threshold , count * /
{ { { GEN_HEAD ( 0 ) , GEN_HEAD ( 0 ) , 0 } } , 700 , 0 } ,
{ { { GEN_HEAD ( 1 ) , GEN_HEAD ( 1 ) , 0 } } , 10 , 0 } ,
{ { { GEN_HEAD ( 2 ) , GEN_HEAD ( 2 ) , 0 } } , 10 , 0 } ,
} ;
int main ( )
{
gc_generation * n = NULL ;
printf ( " * %d , %d , %d , %d , %d , %d , %d , %d * \\ n " ,
( int ) ( & n [ 0 ] ) ,
( int ) ( & n [ 0 ] . head ) ,
( int ) ( & n [ 0 ] . head . gc . gc_next ) ,
( int ) ( & n [ 0 ] . head . gc . gc_prev ) ,
( int ) ( & n [ 0 ] . head . gc . gc_refs ) ,
( int ) ( & n [ 0 ] . threshold ) , ( int ) ( & n [ 0 ] . count ) , ( int ) ( & n [ 1 ] )
) ;
printf ( " * %d , %d , %d * \\ n " ,
( int ) ( & generations [ 0 ] ) ==
( int ) ( & generations [ 0 ] . head . gc . gc_next ) ,
( int ) ( & generations [ 0 ] ) ==
( int ) ( & generations [ 0 ] . head . gc . gc_prev ) ,
( int ) ( & generations [ 0 ] ) ==
( int ) ( & generations [ 1 ] )
) ;
int x1 = ( int ) ( & generations [ 0 ] ) ;
int x2 = ( int ) ( & generations [ 1 ] ) ;
printf ( " * %d * \\ n " , x1 == x2 ) ;
for ( int i = 0 ; i < NUM_GENERATIONS ; i + + ) {
PyGC_Head * list = GEN_HEAD ( i ) ;
printf ( " %d : %d , %d \\ n " , i , ( int ) list == ( int ) ( list - > gc . gc_prev ) , ( int ) list == ( int ) ( list - > gc . gc_next ) ) ;
}
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printf ( " * %d , %d , %d * \\ n " , sizeof ( PyGC_Head ) , sizeof ( gc_generation ) , int ( GEN_HEAD ( 2 ) ) - int ( GEN_HEAD ( 1 ) ) ) ;
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}
'''
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if QUANTUM_SIZE == 1 :
# Compressed memory. Note that sizeof() does give the fat sizes, however!
self . do_test ( src , ' *0,0,0,1,2,3,4,5* \n *1,0,0* \n *0* \n 0:1,1 \n 1:1,1 \n 2:1,1 \n *12,20,5* ' )
else :
self . do_test ( src , ' *0,0,0,4,8,12,16,20* \n *1,0,0* \n *0* \n 0:1,1 \n 1:1,1 \n 2:1,1 \n *12,20,20* ' )
2010-12-08 08:54:29 +03:00
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def test_ptrtoint ( self ) :
src = '''
#include <stdio.h>
int main ( int argc , const char * argv [ ] ) {
char * a = new char [ 10 ] ;
char * a0 = a + 0 ;
char * a5 = a + 5 ;
int * b = new int [ 10 ] ;
int * b0 = b + 0 ;
int * b5 = b + 5 ;
int c = ( int ) b5 - ( int ) b0 ; / / Emscripten should warn !
int d = ( int ) b5 - ( int ) b0 ; / / Emscripten should warn !
printf ( " * %d * \\ n " , ( int ) a5 - ( int ) a0 ) ;
return 0 ;
}
'''
runner = self
def check_warnings ( output ) :
runner . assertEquals ( filter ( lambda line : ' Warning ' in line , output . split ( ' \n ' ) ) . __len__ ( ) , 4 )
self . do_test ( src , ' *5* ' , output_processor = check_warnings )
2010-08-26 08:01:10 +04:00
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def test_sizeof ( self ) :
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# Has invalid writes between printouts
global SAFE_HEAP ; SAFE_HEAP = 0
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src = '''
#include <stdio.h>
#include <string.h>
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#include "emscripten.h"
struct A { int x , y ; } ;
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int main ( int argc , const char * argv [ ] ) {
int * a = new int [ 10 ] ;
int * b = new int [ 1 ] ;
int * c = new int [ 10 ] ;
for ( int i = 0 ; i < 10 ; i + + )
a [ i ] = 2 ;
* b = 5 ;
for ( int i = 0 ; i < 10 ; i + + )
c [ i ] = 8 ;
printf ( " * %d , %d , %d , %d , %d * \\ n " , a [ 0 ] , a [ 9 ] , * b , c [ 0 ] , c [ 9 ] ) ;
/ / Should overwrite a , but not touch b !
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memcpy ( a , c , 10 * sizeof ( int ) ) ;
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printf ( " * %d , %d , %d , %d , %d * \\ n " , a [ 0 ] , a [ 9 ] , * b , c [ 0 ] , c [ 9 ] ) ;
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/ / Part 2
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A as [ 3 ] = { { 5 , 12 } , { 6 , 990 } , { 7 , 2 } } ;
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memcpy ( & as [ 0 ] , & as [ 2 ] , sizeof ( A ) ) ;
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printf ( " * %d , %d , %d , %d , %d , %d * \\ n " , as [ 0 ] . x , as [ 0 ] . y , as [ 1 ] . x , as [ 1 ] . y , as [ 2 ] . x , as [ 2 ] . y ) ;
2010-08-26 08:01:10 +04:00
return 0 ;
}
'''
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self . do_test ( src , ' *2,2,5,8,8***8,8,5,8,8***7,2,6,990,7,2* ' , [ ] , lambda x : x . replace ( ' \n ' , ' * ' ) )
2010-08-26 08:01:10 +04:00
2011-02-13 06:35:45 +03:00
def test_emscripten_api ( self ) :
src = '''
#include <stdio.h>
#include "emscripten.h"
int main ( ) {
emscripten_run_script ( " print( ' hello world ' + ' ! ' ) " ) ;
return 0 ;
}
'''
self . do_test ( src , ' hello world! ' )
2011-04-22 18:53:31 +04:00
def test_ssr ( self ) : # struct self-ref
src = '''
#include <stdio.h>
/ / see related things in openjpeg
typedef struct opj_mqc_state {
unsigned int qeval ;
int mps ;
struct opj_mqc_state * nmps ;
struct opj_mqc_state * nlps ;
} opj_mqc_state_t ;
static opj_mqc_state_t mqc_states [ 2 ] = {
{ 0x5600 , 0 , & mqc_states [ 2 ] , & mqc_states [ 3 ] } ,
{ 0x5602 , 1 , & mqc_states [ 3 ] , & mqc_states [ 2 ] } ,
} ;
int main ( ) {
printf ( " * %d * \\ n " , ( int ) ( mqc_states + 1 ) - ( int ) mqc_states ) ;
for ( int i = 0 ; i < 2 ; i + + )
printf ( " %d : %d , %d , %d , %d \\ n " , i , mqc_states [ i ] . qeval , mqc_states [ i ] . mps ,
( int ) mqc_states [ i ] . nmps - ( int ) mqc_states , ( int ) mqc_states [ i ] . nlps - ( int ) mqc_states ) ;
return 0 ;
}
'''
if QUANTUM_SIZE == 1 :
self . do_test ( src , ''' *4* \n 0:22016,0,8,12 \n 1:22018,1,12,8 \n ''' )
else :
self . do_test ( src , ''' *16* \n 0:22016,0,32,48 \n 1:22018,1,48,32 \n ''' )
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def test_tinyfuncstr ( self ) :
src = '''
#include <stdio.h>
struct Class {
static char * name1 ( ) { return " nameA " ; }
char * name2 ( ) { return " nameB " ; }
} ;
int main ( ) {
printf ( " * %s , %s * \\ n " , Class : : name1 ( ) , ( new Class ( ) ) - > name2 ( ) ) ;
return 0 ;
}
'''
self . do_test ( src , ' *nameA,nameB* ' )
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def test_llvmswitch ( self ) :
src = '''
#include <stdio.h>
#include <string.h>
int switcher ( int p )
{
switch ( p ) {
case ' a ' :
case ' b ' :
case ' c ' :
return p - 1 ;
case ' d ' :
return p + 1 ;
}
return p ;
}
int main ( int argc , const char * argv [ ] ) {
printf ( " * %d , %d , %d , %d , %d * \\ n " , switcher ( ' a ' ) , switcher ( ' b ' ) , switcher ( ' c ' ) , switcher ( ' d ' ) , switcher ( ' e ' ) ) ;
return 0 ;
}
'''
self . do_test ( src , ' *96,97,98,101,101* ' )
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def test_indirectbr ( self ) :
src = '''
#include <stdio.h>
int main ( void ) {
const void * addrs [ 2 ] = { & & FOO , & & BAR } ;
/ / confuse the optimizer so it doesn ' t hardcode the jump and avoid generating an |indirectbr| instruction
int which = 0 ;
for ( int x = 0 ; x < 1000 ; x + + ) which = ( which + x * x ) % 7 ;
which = ( which % 2 ) + 1 ;
goto * addrs [ which ] ;
FOO :
printf ( " bad \\ n " ) ;
return 1 ;
BAR :
printf ( " good \\ n " ) ;
const void * addr = & & FOO ;
goto * addr ;
}
'''
self . do_test ( src , ' good \n bad ' )
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def test_pack ( self ) :
src = '''
#include <stdio.h>
#include <string.h>
#pragma pack(push,1)
typedef struct header
{
unsigned char id ;
unsigned short colour ;
unsigned char desc ;
} header ;
#pragma pack(pop)
typedef struct fatheader
{
unsigned char id ;
unsigned short colour ;
unsigned char desc ;
} fatheader ;
int main ( int argc , const char * argv [ ] ) {
header h , * ph = 0 ;
fatheader fh , * pfh = 0 ;
printf ( " * %d , %d , %d * \\ n " , sizeof ( header ) , ( int ) ( ( int ) & h . desc - ( int ) & h . id ) , ( int ) ( & ph [ 1 ] ) - ( int ) ( & ph [ 0 ] ) ) ;
printf ( " * %d , %d , %d * \\ n " , sizeof ( fatheader ) , ( int ) ( ( int ) & fh . desc - ( int ) & fh . id ) , ( int ) ( & pfh [ 1 ] ) - ( int ) ( & pfh [ 0 ] ) ) ;
return 0 ;
}
'''
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if QUANTUM_SIZE == 1 :
self . do_test ( src , ' *4,2,3* \n *6,2,3* ' )
else :
self . do_test ( src , ' *4,3,4* \n *6,4,6* ' )
2011-04-17 03:35:08 +04:00
2010-09-05 05:05:18 +04:00
def test_varargs ( self ) :
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if QUANTUM_SIZE == 1 : return self . skip ( ) # FIXME: Add support for this
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src = '''
#include <stdio.h>
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#include <stdarg.h>
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void vary ( const char * s , . . . )
{
va_list v ;
va_start ( v , s ) ;
char d [ 20 ] ;
vsnprintf ( d , 20 , s , v ) ;
puts ( d ) ;
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/ / Try it with copying
va_list tempva ;
__va_copy ( tempva , v ) ;
vsnprintf ( d , 20 , s , tempva ) ;
puts ( d ) ;
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va_end ( v ) ;
}
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void vary2 ( char color , const char * s , . . . )
{
va_list v ;
va_start ( v , s ) ;
char d [ 21 ] ;
d [ 0 ] = color ;
vsnprintf ( d + 1 , 20 , s , v ) ;
puts ( d ) ;
va_end ( v ) ;
}
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#define GETMAX(pref, type) \
type getMax ##pref(int num, ...) \
{ \
va_list vv ; \
va_start ( vv , num ) ; \
type maxx = va_arg ( vv , type ) ; \
for ( int i = 1 ; i < num ; i + + ) \
{ \
type curr = va_arg ( vv , type ) ; \
maxx = curr > maxx ? curr : maxx ; \
} \
va_end ( vv ) ; \
return maxx ; \
}
GETMAX ( i , int ) ;
GETMAX ( D , double ) ;
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int main ( ) {
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vary ( " *cheez: %d + %d * " , 0 , 24 ) ; / / Also tests that ' 0 ' is not special as an array ender
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vary ( " *albeit* " ) ; / / Should not fail with no var args in vararg function
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vary2 ( ' Q ' , " %d * " , 85 ) ;
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int maxxi = getMaxi ( 6 , 2 , 5 , 21 , 4 , - 10 , 19 ) ;
printf ( " maxxi: %d * \\ n " , maxxi ) ;
double maxxD = getMaxD ( 6 , ( double ) 2.1 , ( double ) 5.1 , ( double ) 22.1 , ( double ) 4.1 , ( double ) - 10.1 , ( double ) 19.1 ) ;
printf ( " maxxD: %.2f * \\ n " , ( float ) maxxD ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *cheez: 0+24* \n *cheez: 0+24* \n *albeit* \n *albeit* \n Q85* \n maxxi:21* \n maxxD:22.10* \n ' )
2010-09-05 03:46:11 +04:00
2010-10-22 10:20:08 +04:00
def test_stdlibs ( self ) :
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src = '''
#include <stdio.h>
#include <stdlib.h>
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#include <sys/time.h>
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void clean ( )
{
printf ( " *cleaned* \\ n " ) ;
}
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int comparer ( const void * a , const void * b ) {
int aa = * ( ( int * ) a ) ;
int bb = * ( ( int * ) b ) ;
return aa - bb ;
}
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int main ( ) {
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/ / timeofday
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timeval t ;
gettimeofday ( & t , NULL ) ;
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printf ( " * %d , %d \\ n " , int ( t . tv_sec ) , int ( t . tv_usec ) ) ; / / should not crash
/ / atexit
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atexit ( clean ) ;
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/ / qsort
int values [ 6 ] = { 3 , 2 , 5 , 1 , 5 , 6 } ;
qsort ( values , 5 , sizeof ( int ) , comparer ) ;
printf ( " * %d , %d , %d , %d , %d , %d * \\ n " , values [ 0 ] , values [ 1 ] , values [ 2 ] , values [ 3 ] , values [ 4 ] , values [ 5 ] ) ;
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printf ( " *stdin==0: %d * \\ n " , stdin == 0 ) ; / / check that external values are at least not NULL
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printf ( " * %% * \\ n " ) ;
printf ( " * %.1ld * \\ n " , 5 ) ;
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2010-12-13 02:05:22 +03:00
printf ( " * %.1f * \\ n " , strtod ( " 66 " , NULL ) ) ; / / checks dependency system , as our strtod needs _isspace etc .
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printf ( " * %ld * \\ n " , strtol ( " 10 " , NULL , 0 ) ) ;
printf ( " * %ld * \\ n " , strtol ( " 0 " , NULL , 0 ) ) ;
printf ( " * %ld * \\ n " , strtol ( " -10 " , NULL , 0 ) ) ;
printf ( " * %ld * \\ n " , strtol ( " 12 " , NULL , 16 ) ) ;
printf ( " * %lu * \\ n " , strtoul ( " 10 " , NULL , 0 ) ) ;
printf ( " * %lu * \\ n " , strtoul ( " 0 " , NULL , 0 ) ) ;
printf ( " * %lu * \\ n " , strtoul ( " -10 " , NULL , 0 ) ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *1,2,3,5,5,6* \n *stdin==0:0* \n * % * \n *5* \n *66.0* \n *10* \n *0* \n *-10* \n *18* \n *10* \n *0* \n *4294967286* \n *cleaned* ' )
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def test_time ( self ) :
src = open ( path_from_root ( ' tests ' , ' time ' , ' src.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' time ' , ' output.txt ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
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def test_statics ( self ) :
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# static initializers save i16 but load i8 for some reason
global SAFE_HEAP , SAFE_HEAP_LINES
if SAFE_HEAP :
SAFE_HEAP = 3
SAFE_HEAP_LINES = [ ' src.cpp:19 ' , ' src.cpp:26 ' ]
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src = '''
#include <stdio.h>
#include <string.h>
#define CONSTRLEN 32
void conoutfv ( const char * fmt )
{
static char buf [ CONSTRLEN ] ;
strcpy ( buf , fmt ) ;
puts ( buf ) ;
}
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struct XYZ {
float x , y , z ;
XYZ ( float a , float b , float c ) : x ( a ) , y ( b ) , z ( c ) { }
static const XYZ & getIdentity ( )
{
static XYZ iT ( 1 , 2 , 3 ) ;
return iT ;
}
} ;
struct S {
static const XYZ & getIdentity ( )
{
static const XYZ iT ( XYZ : : getIdentity ( ) ) ;
return iT ;
}
} ;
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int main ( ) {
conoutfv ( " *staticccz* " ) ;
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printf ( " * %.2f , %.2f , %.2f * \\ n " , S : : getIdentity ( ) . x , S : : getIdentity ( ) . y , S : : getIdentity ( ) . z ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *staticccz* \n *1.00,2.00,3.00* ' )
2010-09-09 07:49:49 +04:00
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def test_copyop ( self ) :
# clang generated code is vulnerable to this, as it uses
# memcpy for assignments, with hardcoded numbers of bytes
# (llvm-gcc copies items one by one). See QUANTUM_SIZE in
# settings.js.
src = '''
#include <stdio.h>
#include <math.h>
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#include <string.h>
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struct vec {
double x , y , z ;
vec ( ) : x ( 0 ) , y ( 0 ) , z ( 0 ) { } ;
vec ( const double a , const double b , const double c ) : x ( a ) , y ( b ) , z ( c ) { } ;
} ;
struct basis {
vec a , b , c ;
basis ( const vec & v ) {
a = v ; / / should not touch b !
printf ( " * %.2f , %.2f , %.2f * \\ n " , b . x , b . y , b . z ) ;
}
} ;
int main ( ) {
basis B ( vec ( 1 , 0 , 0 ) ) ;
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/ / Part 2 : similar problem with memset and memmove
int x = 1 , y = 77 , z = 2 ;
memset ( ( void * ) & x , 0 , sizeof ( int ) ) ;
memset ( ( void * ) & z , 0 , sizeof ( int ) ) ;
printf ( " * %d , %d , %d * \\ n " , x , y , z ) ;
memcpy ( ( void * ) & x , ( void * ) & z , sizeof ( int ) ) ;
memcpy ( ( void * ) & z , ( void * ) & x , sizeof ( int ) ) ;
printf ( " * %d , %d , %d * \\ n " , x , y , z ) ;
memmove ( ( void * ) & x , ( void * ) & z , sizeof ( int ) ) ;
memmove ( ( void * ) & z , ( void * ) & x , sizeof ( int ) ) ;
printf ( " * %d , %d , %d * \\ n " , x , y , z ) ;
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return 0 ;
}
'''
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self . do_test ( src , ' *0.00,0.00,0.00* \n *0,77,0* \n *0,77,0* \n *0,77,0* ' )
2010-09-26 07:26:16 +04:00
2010-09-15 07:10:32 +04:00
def test_nestedstructs ( self ) :
src = '''
#include <stdio.h>
#include "emscripten.h"
struct base {
int x ;
float y ;
union {
int a ;
float b ;
} ;
char c ;
} ;
struct hashtableentry {
int key ;
base data ;
} ;
struct hashset {
typedef hashtableentry entry ;
struct chain { entry elem ; chain * next ; } ;
/ / struct chainchunk { chain chains [ 100 ] ; chainchunk * next ; } ;
} ;
struct hashtable : hashset {
hashtable ( ) {
base * b = NULL ;
entry * e = NULL ;
chain * c = NULL ;
printf ( " * %d , %d , %d , %d , %d , %d | %d , %d , %d , %d , %d , %d , %d , %d | %d , %d , %d , %d , %d , %d , %d , %d , %d , %d * \\ n " ,
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sizeof ( base ) ,
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int ( & ( b - > x ) ) , int ( & ( b - > y ) ) , int ( & ( b - > a ) ) , int ( & ( b - > b ) ) , int ( & ( b - > c ) ) ,
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sizeof ( hashtableentry ) ,
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int ( & ( e - > key ) ) , int ( & ( e - > data ) ) , int ( & ( e - > data . x ) ) , int ( & ( e - > data . y ) ) , int ( & ( e - > data . a ) ) , int ( & ( e - > data . b ) ) , int ( & ( e - > data . c ) ) ,
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sizeof ( hashset : : chain ) ,
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int ( & ( c - > elem ) ) , int ( & ( c - > next ) ) , int ( & ( c - > elem . key ) ) , int ( & ( c - > elem . data ) ) , int ( & ( c - > elem . data . x ) ) , int ( & ( c - > elem . data . y ) ) , int ( & ( c - > elem . data . a ) ) , int ( & ( c - > elem . data . b ) ) , int ( & ( c - > elem . data . c ) )
) ;
}
} ;
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struct B { char buffer [ 62 ] ; int last ; char laster ; char laster2 ; } ;
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struct Bits {
unsigned short A : 1 ;
unsigned short B : 1 ;
unsigned short C : 1 ;
unsigned short D : 1 ;
unsigned short x1 : 1 ;
unsigned short x2 : 1 ;
unsigned short x3 : 1 ;
unsigned short x4 : 1 ;
} ;
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int main ( ) {
hashtable t ;
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/ / Part 2 - the char [ ] should be compressed , BUT have a padding space at the end so the next
/ / one is aligned properly . Also handle char ; char ; etc . properly .
B * b = NULL ;
printf ( " * %d , %d , %d , %d , %d , %d , %d , %d , %d * \\ n " , int ( b ) , int ( & ( b - > buffer ) ) , int ( & ( b - > buffer [ 0 ] ) ) , int ( & ( b - > buffer [ 1 ] ) ) , int ( & ( b - > buffer [ 2 ] ) ) ,
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int ( & ( b - > last ) ) , int ( & ( b - > laster ) ) , int ( & ( b - > laster2 ) ) , sizeof ( B ) ) ;
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2010-10-19 08:15:36 +04:00
/ / Part 3 - bitfields , and small structures
Bits * b2 = NULL ;
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printf ( " * %d * \\ n " , sizeof ( Bits ) ) ;
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2010-09-15 07:10:32 +04:00
return 0 ;
}
'''
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if QUANTUM_SIZE == 1 :
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# Compressed memory. Note that sizeof() does give the fat sizes, however!
self . do_test ( src , ' *16,0,1,2,2,3|20,0,1,1,2,3,3,4|24,0,5,0,1,1,2,3,3,4* \n *0,0,0,1,2,62,63,64,72* \n *2* ' )
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else :
# Bloated memory; same layout as C/C++
2010-10-19 08:15:36 +04:00
self . do_test ( src , ' *16,0,4,8,8,12|20,0,4,4,8,12,12,16|24,0,20,0,4,4,8,12,12,16* \n *0,0,0,1,2,64,68,69,72* \n *2* ' )
2010-09-15 07:10:32 +04:00
2011-06-26 05:57:06 +04:00
def test_dlfcn_basic ( self ) :
global BUILD_AS_SHARED_LIB
lib_src = '''
#include <cstdio>
class Foo {
public :
Foo ( ) {
printf ( " Constructing lib object. \\ n " ) ;
}
} ;
Foo global ;
'''
dirname = self . get_dir ( )
filename = os . path . join ( dirname , ' liblib.cpp ' )
BUILD_AS_SHARED_LIB = 1
self . build ( lib_src , dirname , filename )
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shutil . move ( filename + ' .o.js ' , os . path . join ( dirname , ' liblib.so ' ) )
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src = '''
#include <cstdio>
#include <dlfcn.h>
class Bar {
public :
Bar ( ) {
printf ( " Constructing main object. \\ n " ) ;
}
} ;
Bar global ;
int main ( ) {
dlopen ( " liblib.so " , RTLD_NOW ) ;
return 0 ;
}
'''
BUILD_AS_SHARED_LIB = 0
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def add_pre_run_and_checks ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
''' FS.createLazyFile( ' / ' , ' liblib.so ' , ' liblib.so ' , true, false); '''
)
open ( filename , ' w ' ) . write ( src )
self . do_test ( src , ' Constructing main object. \n Constructing lib object. \n ' ,
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post_build = add_pre_run_and_checks )
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def test_dlfcn_qsort ( self ) :
global BUILD_AS_SHARED_LIB , EXPORTED_FUNCTIONS
lib_src = '''
int lib_cmp ( const void * left , const void * right ) {
const int * a = ( const int * ) left ;
const int * b = ( const int * ) right ;
if ( * a > * b ) return 1 ;
else if ( * a == * b ) return 0 ;
else return - 1 ;
}
typedef int ( * CMP_TYPE ) ( const void * , const void * ) ;
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extern " C " CMP_TYPE get_cmp ( ) {
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return lib_cmp ;
}
'''
dirname = self . get_dir ( )
filename = os . path . join ( dirname , ' liblib.cpp ' )
BUILD_AS_SHARED_LIB = 1
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EXPORTED_FUNCTIONS = [ ' _get_cmp ' ]
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self . build ( lib_src , dirname , filename )
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shutil . move ( filename + ' .o.js ' , os . path . join ( dirname , ' liblib.so ' ) )
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src = '''
#include <stdio.h>
#include <stdlib.h>
#include <dlfcn.h>
typedef int ( * CMP_TYPE ) ( const void * , const void * ) ;
int main_cmp ( const void * left , const void * right ) {
const int * a = ( const int * ) left ;
const int * b = ( const int * ) right ;
if ( * a < * b ) return 1 ;
else if ( * a == * b ) return 0 ;
else return - 1 ;
}
int main ( ) {
void * lib_handle ;
CMP_TYPE ( * getter_ptr ) ( ) ;
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CMP_TYPE lib_cmp_ptr ;
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int arr [ 5 ] = { 4 , 2 , 5 , 1 , 3 } ;
lib_handle = dlopen ( " liblib.so " , RTLD_NOW ) ;
if ( lib_handle == NULL ) {
printf ( " Could not load lib. \\ n " ) ;
return 1 ;
}
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getter_ptr = ( CMP_TYPE ( * ) ( ) ) dlsym ( lib_handle , " get_cmp " ) ;
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if ( getter_ptr == NULL ) {
printf ( " Could not find func. \\ n " ) ;
return 1 ;
}
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lib_cmp_ptr = getter_ptr ( ) ;
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qsort ( ( void * ) arr , 5 , sizeof ( int ) , main_cmp ) ;
printf ( " Sort with main comparison: " ) ;
for ( int i = 0 ; i < 5 ; i + + ) {
printf ( " %d " , arr [ i ] ) ;
}
printf ( " \\ n " ) ;
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qsort ( ( void * ) arr , 5 , sizeof ( int ) , lib_cmp_ptr ) ;
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printf ( " Sort with lib comparison: " ) ;
for ( int i = 0 ; i < 5 ; i + + ) {
printf ( " %d " , arr [ i ] ) ;
}
printf ( " \\ n " ) ;
return 0 ;
}
'''
BUILD_AS_SHARED_LIB = 0
EXPORTED_FUNCTIONS = [ ' _main ' ]
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def add_pre_run_and_checks ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
''' FS.createLazyFile( ' / ' , ' liblib.so ' , ' liblib.so ' , true, false); '''
)
open ( filename , ' w ' ) . write ( src )
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self . do_test ( src , ' Sort with main comparison: 5 4 3 2 1 *Sort with lib comparison: 1 2 3 4 5 * ' ,
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output_nicerizer = lambda x : x . replace ( ' \n ' , ' * ' ) ,
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post_build = add_pre_run_and_checks )
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def test_dlfcn_data_and_fptr ( self ) :
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global LLVM_OPTS
if LLVM_OPTS : return self . skip ( ) # LLVM opts will optimize out parent_func
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global BUILD_AS_SHARED_LIB , EXPORTED_FUNCTIONS , EXPORTED_GLOBALS
lib_src = '''
#include <stdio.h>
int global = 42 ;
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extern void parent_func ( ) ; / / a function that is defined in the parent
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void lib_fptr ( ) {
printf ( " Second calling lib_fptr from main. \\ n " ) ;
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parent_func ( ) ;
/ / call it also through a pointer , to check indexizing
void ( * p_f ) ( ) ;
p_f = parent_func ;
p_f ( ) ;
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}
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extern " C " void ( * func ( int x , void ( * fptr ) ( ) ) ) ( ) {
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printf ( " In func: %d \\ n " , x ) ;
fptr ( ) ;
return lib_fptr ;
}
'''
dirname = self . get_dir ( )
filename = os . path . join ( dirname , ' liblib.cpp ' )
BUILD_AS_SHARED_LIB = 1
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EXPORTED_FUNCTIONS = [ ' _func ' ]
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EXPORTED_GLOBALS = [ ' _global ' ]
self . build ( lib_src , dirname , filename )
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shutil . move ( filename + ' .o.js ' , os . path . join ( dirname , ' liblib.so ' ) )
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src = '''
#include <stdio.h>
#include <dlfcn.h>
typedef void ( * FUNCTYPE ( int , void ( * ) ( ) ) ) ( ) ;
FUNCTYPE func ;
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void parent_func ( ) {
printf ( " parent_func called from child \\ n " ) ;
}
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void main_fptr ( ) {
printf ( " First calling main_fptr from lib. \\ n " ) ;
}
int main ( ) {
void * lib_handle ;
FUNCTYPE * func_fptr ;
/ / Test basic lib loading .
lib_handle = dlopen ( " liblib.so " , RTLD_NOW ) ;
if ( lib_handle == NULL ) {
printf ( " Could not load lib. \\ n " ) ;
return 1 ;
}
/ / Test looked up function .
2011-08-25 23:21:00 +04:00
func_fptr = ( FUNCTYPE * ) dlsym ( lib_handle , " func " ) ;
2011-08-02 11:23:41 +04:00
/ / Load twice to test cache .
2011-08-25 23:21:00 +04:00
func_fptr = ( FUNCTYPE * ) dlsym ( lib_handle , " func " ) ;
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if ( func_fptr == NULL ) {
printf ( " Could not find func. \\ n " ) ;
return 1 ;
}
/ / Test passing function pointers across module bounds .
void ( * fptr ) ( ) = func_fptr ( 13 , main_fptr ) ;
fptr ( ) ;
/ / Test global data .
int * global = ( int * ) dlsym ( lib_handle , " global " ) ;
if ( global == NULL ) {
printf ( " Could not find global. \\ n " ) ;
return 1 ;
}
printf ( " Var: %d \\ n " , * global ) ;
return 0 ;
}
'''
BUILD_AS_SHARED_LIB = 0
EXPORTED_FUNCTIONS = [ ' _main ' ]
EXPORTED_GLOBALS = [ ]
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def add_pre_run_and_checks ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
''' FS.createLazyFile( ' / ' , ' liblib.so ' , ' liblib.so ' , true, false); '''
)
open ( filename , ' w ' ) . write ( src )
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self . do_test ( src , ' In func: 13*First calling main_fptr from lib.*Second calling lib_fptr from main.*parent_func called from child*parent_func called from child*Var: 42* ' ,
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output_nicerizer = lambda x : x . replace ( ' \n ' , ' * ' ) ,
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post_build = add_pre_run_and_checks )
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def test_dlfcn_alias ( self ) :
global BUILD_AS_SHARED_LIB , EXPORTED_FUNCTIONS , INCLUDE_FULL_LIBRARY
lib_src = r '''
#include <stdio.h>
extern int parent_global ;
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extern " C " void func ( ) {
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printf ( " Parent global: %d . \n " , parent_global ) ;
}
'''
dirname = self . get_dir ( )
filename = os . path . join ( dirname , ' liblib.cpp ' )
BUILD_AS_SHARED_LIB = 1
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EXPORTED_FUNCTIONS = [ ' _func ' ]
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self . build ( lib_src , dirname , filename )
shutil . move ( filename + ' .o.js ' , os . path . join ( dirname , ' liblib.so ' ) )
src = r '''
#include <dlfcn.h>
int parent_global = 123 ;
int main ( ) {
void * lib_handle ;
void ( * fptr ) ( ) ;
lib_handle = dlopen ( " liblib.so " , RTLD_NOW ) ;
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fptr = ( void ( * ) ( ) ) dlsym ( lib_handle , " func " ) ;
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fptr ( ) ;
parent_global = 456 ;
fptr ( ) ;
return 0 ;
}
'''
BUILD_AS_SHARED_LIB = 0
INCLUDE_FULL_LIBRARY = 1
EXPORTED_FUNCTIONS = [ ' _main ' ]
def add_pre_run_and_checks ( filename ) :
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
''' FS.createLazyFile( ' / ' , ' liblib.so ' , ' liblib.so ' , true, false); '''
)
open ( filename , ' w ' ) . write ( src )
self . do_test ( src , ' Parent global: 123.*Parent global: 456.* ' ,
output_nicerizer = lambda x : x . replace ( ' \n ' , ' * ' ) ,
post_build = add_pre_run_and_checks )
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INCLUDE_FULL_LIBRARY = 0
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def test_dlfcn_varargs ( self ) :
global BUILD_AS_SHARED_LIB , EXPORTED_FUNCTIONS
lib_src = r '''
void print_ints ( int n , . . . ) ;
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extern " C " void func ( ) {
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print_ints ( 2 , 13 , 42 ) ;
}
'''
dirname = self . get_dir ( )
filename = os . path . join ( dirname , ' liblib.cpp ' )
BUILD_AS_SHARED_LIB = 1
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EXPORTED_FUNCTIONS = [ ' _func ' ]
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self . build ( lib_src , dirname , filename )
shutil . move ( filename + ' .o.js ' , os . path . join ( dirname , ' liblib.so ' ) )
src = r '''
#include <stdarg.h>
#include <stdio.h>
#include <dlfcn.h>
void print_ints ( int n , . . . ) {
va_list args ;
va_start ( args , n ) ;
for ( int i = 0 ; i < n ; i + + ) {
printf ( " %d \n " , va_arg ( args , int ) ) ;
}
va_end ( args ) ;
}
int main ( ) {
void * lib_handle ;
void ( * fptr ) ( ) ;
print_ints ( 2 , 100 , 200 ) ;
lib_handle = dlopen ( " liblib.so " , RTLD_NOW ) ;
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fptr = ( void ( * ) ( ) ) dlsym ( lib_handle , " func " ) ;
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fptr ( ) ;
return 0 ;
}
'''
BUILD_AS_SHARED_LIB = 0
EXPORTED_FUNCTIONS = [ ' _main ' ]
def add_pre_run_and_checks ( filename ) :
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
''' FS.createLazyFile( ' / ' , ' liblib.so ' , ' liblib.so ' , true, false); '''
)
open ( filename , ' w ' ) . write ( src )
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self . do_test ( src , ' 100*200*13*42* ' ,
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output_nicerizer = lambda x : x . replace ( ' \n ' , ' * ' ) ,
post_build = add_pre_run_and_checks )
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def test_rand ( self ) :
src = r '''
#include <stdio.h>
#include <stdlib.h>
int main ( ) {
printf ( " %d \n " , rand ( ) ) ;
printf ( " %d \n " , rand ( ) ) ;
srand ( 123 ) ;
printf ( " %d \n " , rand ( ) ) ;
printf ( " %d \n " , rand ( ) ) ;
srand ( 123 ) ;
printf ( " %d \n " , rand ( ) ) ;
printf ( " %d \n " , rand ( ) ) ;
unsigned state = 0 ;
int r ;
r = rand_r ( & state ) ;
printf ( " %d , %u \n " , r , state ) ;
r = rand_r ( & state ) ;
printf ( " %d , %u \n " , r , state ) ;
state = 0 ;
r = rand_r ( & state ) ;
printf ( " %d , %u \n " , r , state ) ;
return 0 ;
}
'''
expected = '''
1250496027
1116302336
440917656
1476150784
440917656
1476150784
12345 , 12345
1406932606 , 3554416254
12345 , 12345
'''
self . do_test ( src , re . sub ( r ' (^| \ n) \ s+ ' , r ' \ 1 ' , expected ) )
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def test_strtod ( self ) :
src = r '''
#include <stdio.h>
#include <stdlib.h>
int main ( ) {
char * endptr ;
printf ( " \n " ) ;
printf ( " %g \n " , strtod ( " 0 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 0. " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 0.0 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 1 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 1. " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 1.0 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 123 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 123.456 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 1234567891234567890 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 1234567891234567890e+50 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 84e+220 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 84e+420 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 123e-50 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 123e-250 " , & endptr ) ) ;
printf ( " %g \n " , strtod ( " 123e-450 " , & endptr ) ) ;
char str [ ] = " 12.34e56end " ;
strtod ( str , & endptr ) ;
printf ( " %d \n " , endptr - str ) ;
return 0 ;
}
'''
expected = '''
0
0
0
1
1
1
123
123.456
1.23457e+18
1.23457e+68
8.4e+221
inf
1.23e-48
1.23e-248
0
8
'''
self . do_test ( src , re . sub ( r ' \ n \ s+ ' , ' \n ' , expected ) )
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def test_printf ( self ) :
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if USE_TYPED_ARRAYS != 0 : return self . skip ( ) # Typed arrays truncate i64.
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src = open ( path_from_root ( ' tests ' , ' printf ' , ' test.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' printf ' , ' output.txt ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
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def test_printf_types ( self ) :
src = r '''
#include <stdio.h>
int main ( ) {
char c = ' 1 ' ;
short s = 2 ;
int i = 3 ;
long long l = 4 ;
float f = 5.5 ;
double d = 6.6 ;
printf ( " %c , %hd , %d , % lld, %.1f , % .1llf \n " , c , s , i , l , f , d ) ;
return 0 ;
}
'''
self . do_test ( src , ' 1,2,3,4,5.5,6.6 \n ' )
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def test_vprintf ( self ) :
src = r '''
#include <stdio.h>
#include <stdarg.h>
void print ( char * format , . . . ) {
va_list args ;
va_start ( args , format ) ;
vprintf ( format , args ) ;
va_end ( args ) ;
}
int main ( ) {
print ( " Call with %d variable argument. \n " , 1 ) ;
print ( " Call with %d variable %s . \n " , 2 , " arguments " ) ;
return 0 ;
}
'''
expected = '''
Call with 1 variable argument .
Call with 2 variable arguments .
'''
self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) )
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def test_langinfo ( self ) :
src = open ( path_from_root ( ' tests ' , ' langinfo ' , ' test.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' langinfo ' , ' output.txt ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
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def test_files ( self ) :
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global CORRECT_SIGNS ; CORRECT_SIGNS = 1 # Just so our output is what we expect. Can flip them both.
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def post ( filename ) :
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
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'''
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FS . createDataFile ( ' / ' , ' somefile.binary ' , [ 100 , 200 , 50 , 25 , 10 , 77 , 123 ] , true , false ) ; / / 200 becomes - 56 , since signed chars are used in memory
FS . createLazyFile ( ' / ' , ' test.file ' , ' test.file ' , true , false ) ;
FS . root . write = true ;
var test_files_input = ' hi there! ' ;
var test_files_input_index = 0 ;
FS . init ( function ( ) {
return test_files_input . charCodeAt ( test_files_input_index + + ) | | null ;
} ) ;
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'''
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)
open ( filename , ' w ' ) . write ( src )
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other = open ( os . path . join ( self . get_dir ( ) , ' test.file ' ) , ' w ' )
other . write ( ' some data ' ) ;
other . close ( )
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src = open ( path_from_root ( ' tests ' , ' files.cpp ' ) , ' r ' ) . read ( )
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self . do_test ( src , ' size: 7 \n data: 100,-56,50,25,10,77,123 \n input:hi there! \n texto \n texte \n 5 : 10,30,20,11,88 \n other=some data. \n seeked=me da. \n seeked=ata. \n seeked=ta. \n fscanfed: 10 - hello \n ' , post_build = post )
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def test_folders ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
'''
FS . createFolder ( ' / ' , ' test ' , true , false ) ;
FS . createPath ( ' / ' , ' test/hello/world/ ' , true , false ) ;
FS . createPath ( ' /test ' , ' goodbye/world/ ' , true , false ) ;
FS . createPath ( ' /test/goodbye ' , ' noentry ' , false , false ) ;
FS . createDataFile ( ' /test ' , ' freeforall.ext ' , ' abc ' , true , true ) ;
FS . createDataFile ( ' /test ' , ' restricted.ext ' , ' def ' , false , false ) ;
'''
)
open ( filename , ' w ' ) . write ( src )
src = r '''
#include <stdio.h>
#include <dirent.h>
#include <errno.h>
int main ( ) {
struct dirent * e ;
/ / Basic correct behaviour .
DIR * d = opendir ( " /test " ) ;
printf ( " --E: %d \n " , errno ) ;
while ( ( e = readdir ( d ) ) ) puts ( e - > d_name ) ;
printf ( " --E: %d \n " , errno ) ;
/ / Empty folder ; tell / seek .
puts ( " **** " ) ;
d = opendir ( " /test/hello/world/ " ) ;
e = readdir ( d ) ;
puts ( e - > d_name ) ;
int pos = telldir ( d ) ;
e = readdir ( d ) ;
puts ( e - > d_name ) ;
seekdir ( d , pos ) ;
e = readdir ( d ) ;
puts ( e - > d_name ) ;
/ / Errors .
puts ( " **** " ) ;
printf ( " --E: %d \n " , errno ) ;
d = opendir ( " /test/goodbye/noentry " ) ;
printf ( " --E: %d , D: %d \n " , errno , d ) ;
d = opendir ( " /i/dont/exist " ) ;
printf ( " --E: %d , D: %d \n " , errno , d ) ;
d = opendir ( " /test/freeforall.ext " ) ;
printf ( " --E: %d , D: %d \n " , errno , d ) ;
while ( ( e = readdir ( d ) ) ) puts ( e - > d_name ) ;
printf ( " --E: %d \n " , errno ) ;
return 0 ;
}
'''
expected = '''
- - E : 0
.
. .
hello
goodbye
freeforall . ext
restricted . ext
- - E : 0
* * * *
.
. .
. .
* * * *
- - E : 0
- - E : 13 , D : 0
- - E : 2 , D : 0
- - E : 20 , D : 0
- - E : 9
'''
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self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) , post_build = add_pre_run )
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def test_stat ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
'''
var f1 = FS . createFolder ( ' / ' , ' test ' , true , true ) ;
var f2 = FS . createDataFile ( f1 , ' file ' , ' abcdef ' , true , true ) ;
var f3 = FS . createLink ( f1 , ' link ' , ' file ' , true , true ) ;
var f4 = FS . createDevice ( f1 , ' device ' , function ( ) { } , function ( ) { } ) ;
f1 . timestamp = f2 . timestamp = f3 . timestamp = f4 . timestamp = new Date ( 1200000000000 ) ;
'''
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' stat ' , ' src.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' stat ' , ' output.txt ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_fcntl ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
" FS.createDataFile( ' / ' , ' test ' , ' abcdef ' , true, true); "
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' fcntl ' , ' src.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' fcntl ' , ' output.txt ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_fcntl_open ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
'''
FS . createDataFile ( ' / ' , ' test-file ' , ' abcdef ' , true , true ) ;
FS . createFolder ( ' / ' , ' test-folder ' , true , true ) ;
FS . root . write = true ;
'''
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' fcntl-open ' , ' src.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' fcntl-open ' , ' output.txt ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_fcntl_misc ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
" FS.createDataFile( ' / ' , ' test ' , ' abcdef ' , true, true); "
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' fcntl-misc ' , ' src.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' fcntl-misc ' , ' output.txt ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_poll ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
'''
FS . createDataFile ( ' / ' , ' file ' , ' abcdef ' , true , true ) ;
FS . createDevice ( ' / ' , ' device ' , function ( ) { } , function ( ) { } ) ;
'''
)
open ( filename , ' w ' ) . write ( src )
src = r '''
#include <stdio.h>
#include <errno.h>
#include <fcntl.h>
#include <poll.h>
int main ( ) {
struct pollfd multi [ 5 ] ;
multi [ 0 ] . fd = open ( " /file " , O_RDONLY , 0777 ) ;
multi [ 1 ] . fd = open ( " /device " , O_RDONLY , 0777 ) ;
multi [ 2 ] . fd = 123 ;
multi [ 3 ] . fd = open ( " /file " , O_RDONLY , 0777 ) ;
multi [ 4 ] . fd = open ( " /file " , O_RDONLY , 0777 ) ;
multi [ 0 ] . events = POLLIN | POLLOUT | POLLNVAL | POLLERR ;
multi [ 1 ] . events = POLLIN | POLLOUT | POLLNVAL | POLLERR ;
multi [ 2 ] . events = POLLIN | POLLOUT | POLLNVAL | POLLERR ;
multi [ 3 ] . events = 0x00 ;
multi [ 4 ] . events = POLLOUT | POLLNVAL | POLLERR ;
printf ( " ret: %d \n " , poll ( multi , 5 , 123 ) ) ;
printf ( " errno: %d \n " , errno ) ;
printf ( " multi[0].revents: 0x %x \n " , multi [ 0 ] . revents ) ;
printf ( " multi[1].revents: 0x %x \n " , multi [ 1 ] . revents ) ;
printf ( " multi[2].revents: 0x %x \n " , multi [ 2 ] . revents ) ;
printf ( " multi[3].revents: 0x %x \n " , multi [ 3 ] . revents ) ;
printf ( " multi[4].revents: 0x %x \n " , multi [ 4 ] . revents ) ;
return 0 ;
}
'''
expected = r '''
ret : 4
errno : 0
multi [ 0 ] . revents : 0x5
multi [ 1 ] . revents : 0x5
multi [ 2 ] . revents : 0x20
multi [ 3 ] . revents : 0x0
multi [ 4 ] . revents : 0x4
'''
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self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) , post_build = add_pre_run )
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def test_statvfs ( self ) :
src = r '''
#include <stdio.h>
#include <errno.h>
#include <sys/statvfs.h>
int main ( ) {
struct statvfs s ;
printf ( " result: %d \n " , statvfs ( " /test " , & s ) ) ;
printf ( " errno: %d \n " , errno ) ;
printf ( " f_bsize: %lu \n " , s . f_bsize ) ;
printf ( " f_frsize: %lu \n " , s . f_frsize ) ;
printf ( " f_blocks: %lu \n " , s . f_blocks ) ;
printf ( " f_bfree: %lu \n " , s . f_bfree ) ;
printf ( " f_bavail: %lu \n " , s . f_bavail ) ;
printf ( " f_files: %lu \n " , s . f_files ) ;
printf ( " f_ffree: %lu \n " , s . f_ffree ) ;
printf ( " f_favail: %lu \n " , s . f_favail ) ;
printf ( " f_fsid: %lu \n " , s . f_fsid ) ;
printf ( " f_flag: %lu \n " , s . f_flag ) ;
printf ( " f_namemax: %lu \n " , s . f_namemax ) ;
return 0 ;
}
'''
expected = r '''
result : 0
errno : 0
f_bsize : 4096
f_frsize : 4096
f_blocks : 1000000
f_bfree : 500000
f_bavail : 500000
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f_files : 8
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f_ffree : 1000000
f_favail : 1000000
f_fsid : 42
f_flag : 2
f_namemax : 255
'''
self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) )
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def test_libgen ( self ) :
src = r '''
#include <stdio.h>
#include <libgen.h>
int main ( ) {
char p1 [ 16 ] = " /usr/lib " , p1x [ 16 ] = " /usr/lib " ;
printf ( " %s -> " , p1 ) ;
printf ( " %s : %s \n " , dirname ( p1x ) , basename ( p1 ) ) ;
char p2 [ 16 ] = " /usr " , p2x [ 16 ] = " /usr " ;
printf ( " %s -> " , p2 ) ;
printf ( " %s : %s \n " , dirname ( p2x ) , basename ( p2 ) ) ;
char p3 [ 16 ] = " /usr/ " , p3x [ 16 ] = " /usr/ " ;
printf ( " %s -> " , p3 ) ;
printf ( " %s : %s \n " , dirname ( p3x ) , basename ( p3 ) ) ;
char p4 [ 16 ] = " /usr/lib/// " , p4x [ 16 ] = " /usr/lib/// " ;
printf ( " %s -> " , p4 ) ;
printf ( " %s : %s \n " , dirname ( p4x ) , basename ( p4 ) ) ;
char p5 [ 16 ] = " / " , p5x [ 16 ] = " / " ;
printf ( " %s -> " , p5 ) ;
printf ( " %s : %s \n " , dirname ( p5x ) , basename ( p5 ) ) ;
char p6 [ 16 ] = " /// " , p6x [ 16 ] = " /// " ;
printf ( " %s -> " , p6 ) ;
printf ( " %s : %s \n " , dirname ( p6x ) , basename ( p6 ) ) ;
char p7 [ 16 ] = " /usr/../lib/.. " , p7x [ 16 ] = " /usr/../lib/.. " ;
printf ( " %s -> " , p7 ) ;
printf ( " %s : %s \n " , dirname ( p7x ) , basename ( p7 ) ) ;
char p8 [ 16 ] = " " , p8x [ 16 ] = " " ;
printf ( " (empty) -> %s : %s \n " , dirname ( p8x ) , basename ( p8 ) ) ;
printf ( " (null) -> %s : %s \n " , dirname ( 0 ) , basename ( 0 ) ) ;
return 0 ;
}
'''
expected = '''
/ usr / lib - > / usr : lib
/ usr - > / : usr
/ usr / - > / : usr
/ usr / lib / / / - > / usr : lib
/ - > / : /
/ / / - > / : /
/ usr / . . / lib / . . - > / usr / . . / lib : . .
( empty ) - > . : .
( null ) - > . : .
'''
self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) )
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def test_utime ( self ) :
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def add_pre_run_and_checks ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
'''
var TEST_F1 = FS . createFolder ( ' / ' , ' writeable ' , true , true ) ;
var TEST_F2 = FS . createFolder ( ' / ' , ' unwriteable ' , true , false ) ;
'''
) . replace (
' // {{ POST_RUN_ADDITIONS}} ' ,
'''
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print ( ' first changed: ' + ( TEST_F1 . timestamp == 1200000000000 ) ) ;
print ( ' second changed: ' + ( TEST_F2 . timestamp == 1200000000000 ) ) ;
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'''
)
open ( filename , ' w ' ) . write ( src )
src = r '''
#include <stdio.h>
#include <errno.h>
#include <utime.h>
int main ( ) {
struct utimbuf t = { 1000000000 , 1200000000 } ;
char * writeable = " /writeable " ;
char * unwriteable = " /unwriteable " ;
utime ( writeable , & t ) ;
printf ( " writeable errno: %d \n " , errno ) ;
utime ( unwriteable , & t ) ;
printf ( " unwriteable errno: %d \n " , errno ) ;
return 0 ;
}
'''
expected = '''
writeable errno : 0
unwriteable errno : 1
first changed : true
second changed : false
'''
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self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) , post_build = add_pre_run_and_checks )
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2011-07-22 22:36:14 +04:00
def test_fs_base ( self ) :
global INCLUDE_FULL_LIBRARY ; INCLUDE_FULL_LIBRARY = 1
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try :
def addJS ( filename ) :
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' filesystem ' , ' src.js ' ) , ' r ' ) . read ( ) )
open ( filename , ' w ' ) . write ( src )
src = ' int main() { return 0;} \n '
expected = open ( path_from_root ( ' tests ' , ' filesystem ' , ' output.txt ' ) , ' r ' ) . read ( )
self . do_test ( src , expected , post_build = addJS )
finally :
INCLUDE_FULL_LIBRARY = 0
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2011-07-23 06:49:48 +04:00
def test_unistd_access ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' unistd ' , ' access.js ' ) , ' r ' ) . read ( )
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' access.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' access.out ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_unistd_curdir ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' unistd ' , ' curdir.js ' ) , ' r ' ) . read ( )
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' curdir.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' curdir.out ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_unistd_close ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' close.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' close.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
def test_unistd_confstr ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' confstr.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' confstr.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
def test_unistd_ttyname ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' unistd ' , ' ttyname.js ' ) , ' r ' ) . read ( )
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' ttyname.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' ttyname.out ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_unistd_dup ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' dup.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' dup.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
def test_unistd_pathconf ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' pathconf.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' pathconf.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
def test_unistd_truncate ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' unistd ' , ' truncate.js ' ) , ' r ' ) . read ( )
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' truncate.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' truncate.out ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_unistd_swab ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' swab.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' swab.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
def test_unistd_isatty ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' unistd ' , ' isatty.js ' ) , ' r ' ) . read ( )
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' isatty.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' isatty.out ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_unistd_sysconf ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' sysconf.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' sysconf.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
def test_unistd_login ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' login.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' login.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
def test_unistd_unlink ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' unistd ' , ' unlink.js ' ) , ' r ' ) . read ( )
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' unlink.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' unlink.out ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_unistd_links ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' unistd ' , ' links.js ' ) , ' r ' ) . read ( )
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' links.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' links.out ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_unistd_sleep ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' sleep.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' sleep.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
def test_unistd_io ( self ) :
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def add_pre_run ( filename ) :
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
open ( path_from_root ( ' tests ' , ' unistd ' , ' io.js ' ) , ' r ' ) . read ( )
)
open ( filename , ' w ' ) . write ( src )
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' io.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' io.out ' ) , ' r ' ) . read ( )
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self . do_test ( src , expected , post_build = add_pre_run )
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def test_unistd_misc ( self ) :
src = open ( path_from_root ( ' tests ' , ' unistd ' , ' misc.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' unistd ' , ' misc.out ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
2011-07-29 15:23:37 +04:00
def test_uname ( self ) :
src = r '''
#include <stdio.h>
#include <sys/utsname.h>
int main ( ) {
struct utsname u ;
printf ( " ret: %d \n " , uname ( & u ) ) ;
printf ( " sysname: %s \n " , u . sysname ) ;
printf ( " nodename: %s \n " , u . nodename ) ;
printf ( " release: %s \n " , u . release ) ;
printf ( " version: %s \n " , u . version ) ;
printf ( " machine: %s \n " , u . machine ) ;
printf ( " invalid: %d \n " , uname ( 0 ) ) ;
return 0 ;
}
'''
expected = '''
ret : 0
sysname : Emscripten
nodename : emscripten
release : 1.0
version : #1
machine : x86 - JS
'''
self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) )
2011-07-29 23:32:29 +04:00
def test_env ( self ) :
src = open ( path_from_root ( ' tests ' , ' env ' , ' src.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' env ' , ' output.txt ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
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def test_getloadavg ( self ) :
src = r '''
#include <stdio.h>
#include <stdlib.h>
int main ( ) {
double load [ 5 ] = { 42.13 , 42.13 , 42.13 , 42.13 , 42.13 } ;
printf ( " ret: %d \n " , getloadavg ( load , 5 ) ) ;
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printf ( " load[0]: %.3lf \n " , load [ 0 ] ) ;
printf ( " load[1]: %.3lf \n " , load [ 1 ] ) ;
printf ( " load[2]: %.3lf \n " , load [ 2 ] ) ;
printf ( " load[3]: %.3lf \n " , load [ 3 ] ) ;
printf ( " load[4]: %.3lf \n " , load [ 4 ] ) ;
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return 0 ;
}
'''
expected = '''
ret : 3
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load [ 0 ] : 0.100
load [ 1 ] : 0.100
load [ 2 ] : 0.100
load [ 3 ] : 42.130
load [ 4 ] : 42.130
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'''
self . do_test ( src , re . sub ( ' (^| \n ) \ s+ ' , ' \\ 1 ' , expected ) )
2011-07-30 17:12:36 +04:00
def test_ctype ( self ) :
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# The bit fiddling done by the macros using __ctype_b_loc requires this.
global CORRECT_SIGNS ; CORRECT_SIGNS = 1
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src = open ( path_from_root ( ' tests ' , ' ctype ' , ' src.c ' ) , ' r ' ) . read ( )
expected = open ( path_from_root ( ' tests ' , ' ctype ' , ' output.txt ' ) , ' r ' ) . read ( )
self . do_test ( src , expected )
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CORRECT_SIGNS = 0
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2010-11-06 06:48:19 +03:00
### 'Big' tests
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def test_fannkuch ( self ) :
results = [ ( 1 , 0 ) , ( 2 , 1 ) , ( 3 , 2 ) , ( 4 , 4 ) , ( 5 , 7 ) , ( 6 , 10 ) , ( 7 , 16 ) , ( 8 , 22 ) ]
for i , j in results :
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src = open ( path_from_root ( ' tests ' , ' fannkuch.cpp ' ) , ' r ' ) . read ( )
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self . do_test ( src , ' Pfannkuchen( %d ) = %d . ' % ( i , j ) , [ str ( i ) ] , no_build = i > 1 )
2010-09-26 08:25:47 +04:00
def test_raytrace ( self ) :
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global USE_TYPED_ARRAYS
if USE_TYPED_ARRAYS == 2 : return self . skip ( ) # relies on double values
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src = open ( path_from_root ( ' tests ' , ' raytrace.cpp ' ) , ' r ' ) . read ( )
output = open ( path_from_root ( ' tests ' , ' raytrace.ppm ' ) , ' r ' ) . read ( )
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self . do_test ( src , output , [ ' 3 ' , ' 16 ' ] )
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2010-08-28 08:16:06 +04:00
def test_fasta ( self ) :
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results = [ ( 1 , ''' GG*ctt**tgagc* ''' ) , ( 20 , ''' GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTT*cttBtatcatatgctaKggNcataaaSatgtaaaDcDRtBggDtctttataattcBgtcg**tacgtgtagcctagtgtttgtgttgcgttatagtctatttgtggacacagtatggtcaaa**tgacgtcttttgatctgacggcgttaacaaagatactctg* ''' ) ,
( 50 , ''' GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGA*TCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACAT*cttBtatcatatgctaKggNcataaaSatgtaaaDcDRtBggDtctttataattcBgtcg**tactDtDagcctatttSVHtHttKtgtHMaSattgWaHKHttttagacatWatgtRgaaa**NtactMcSMtYtcMgRtacttctWBacgaa**agatactctgggcaacacacatacttctctcatgttgtttcttcggacctttcataacct**ttcctggcacatggttagctgcacatcacaggattgtaagggtctagtggttcagtgagc**ggaatatcattcgtcggtggtgttaatctatctcggtgtagcttataaatgcatccgtaa**gaatattatgtttatttgtcggtacgttcatggtagtggtgtcgccgatttagacgtaaa**ggcatgtatg* ''' ) ]
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for i , j in results :
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src = open ( path_from_root ( ' tests ' , ' fasta.cpp ' ) , ' r ' ) . read ( )
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self . do_test ( src , j , [ str ( i ) ] , lambda x : x . replace ( ' \n ' , ' * ' ) , no_build = i > 1 )
2010-08-26 08:01:10 +04:00
2011-06-11 21:32:16 +04:00
def test_dlmalloc ( self ) :
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global CORRECT_SIGNS ; CORRECT_SIGNS = 2
global CORRECT_SIGNS_LINES ; CORRECT_SIGNS_LINES = [ ' src.cpp: ' + str ( i ) for i in [ 4816 , 4191 , 4246 , 4199 , 4205 , 4235 , 4227 ] ]
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src = open ( path_from_root ( ' tests ' , ' dlmalloc.c ' ) , ' r ' ) . read ( )
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self . do_test ( src , ' *1,0* ' , [ ' 200 ' , ' 1 ' ] )
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self . do_test ( src , ' *400,0* ' , [ ' 400 ' , ' 400 ' ] , no_build = True )
2011-06-11 21:32:16 +04:00
2010-12-22 09:41:24 +03:00
def zzztest_gl ( self ) :
# Switch to gcc from g++ - we don't compile properly otherwise (why?)
global COMPILER
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if COMPILER != LLVM_GCC : return self . skip ( )
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COMPILER = LLVM_GCC . replace ( ' g++ ' , ' gcc ' )
def post ( filename ) :
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
''' Module[ " __CANVAS__ " ] = {
getContext : function ( ) { } ,
} ; '''
)
open ( filename , ' w ' ) . write ( src )
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self . do_test ( path_from_root ( ' tests ' , ' gl ' ) , ' *?* ' , main_file = ' sdl_ogl.c ' , post_build = post )
2010-12-22 09:41:24 +03:00
2011-01-18 02:36:26 +03:00
def test_libcxx ( self ) :
self . do_test ( path_from_root ( ' tests ' , ' libcxx ' ) ,
' june -> 30 \n Previous (in alphabetical order) is july \n Next (in alphabetical order) is march ' ,
main_file = ' main.cpp ' , additional_files = [ ' hash.cpp ' ] )
2011-01-17 10:22:57 +03:00
2011-03-13 22:13:21 +03:00
# This will fail without using libcxx, as libstdc++ (gnu c++ lib) will use but not link in
# __ZSt29_Rb_tree_insert_and_rebalancebPSt18_Rb_tree_node_baseS0_RS_
# So a way to avoid that problem is to include libcxx, as done here
self . do_test ( '''
#include <set>
#include <stdio.h>
int main ( ) {
std : : set < int > * fetchOriginatorNums = new std : : set < int > ( ) ;
fetchOriginatorNums - > insert ( 171 ) ;
printf ( " hello world \\ n " ) ;
return 1 ;
}
''' , ' hello world ' , includes=[path_from_root( ' tests ' , ' libcxx ' , ' include ' )]);
2010-11-14 01:45:22 +03:00
def test_cubescript ( self ) :
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global COMPILER_TEST_OPTS ; COMPILER_TEST_OPTS = [ ] # remove -g, so we have one test without it by default
2010-11-22 04:43:22 +03:00
global SAFE_HEAP ; SAFE_HEAP = 0 # Has some actual loads of unwritten-to places, in the C++ code...
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# Overflows happen in hash loop
global CORRECT_OVERFLOWS ; CORRECT_OVERFLOWS = 1
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global CHECK_OVERFLOWS ; CHECK_OVERFLOWS = 0
2010-11-22 04:43:22 +03:00
2011-01-15 09:44:52 +03:00
self . do_test ( path_from_root ( ' tests ' , ' cubescript ' ) , ' * \n Temp is 33 \n 9 \n 5 \n hello, everyone \n * ' , main_file = ' command.cpp ' )
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#build_ll_hook=self.do_autodebug)
2010-08-30 02:30:49 +04:00
2010-10-21 23:13:26 +04:00
def test_gcc_unmangler ( self ) :
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self . do_test ( path_from_root ( ' third_party ' ) , ' *d_demangle(char const*, int, unsigned int*)* ' , args = [ ' _ZL10d_demanglePKciPj ' ] , main_file = ' gcc_demangler.c ' )
2010-10-21 09:56:12 +04:00
2010-12-19 02:55:21 +03:00
#### Code snippet that is helpful to search for nonportable optimizations ####
#global LLVM_OPT_OPTS
#for opt in ['-aa-eval', '-adce', '-always-inline', '-argpromotion', '-basicaa', '-basiccg', '-block-placement', '-break-crit-edges', '-codegenprepare', '-constmerge', '-constprop', '-correlated-propagation', '-count-aa', '-dce', '-deadargelim', '-deadtypeelim', '-debug-aa', '-die', '-domfrontier', '-domtree', '-dse', '-extract-blocks', '-functionattrs', '-globaldce', '-globalopt', '-globalsmodref-aa', '-gvn', '-indvars', '-inline', '-insert-edge-profiling', '-insert-optimal-edge-profiling', '-instcombine', '-instcount', '-instnamer', '-internalize', '-intervals', '-ipconstprop', '-ipsccp', '-iv-users', '-jump-threading', '-lazy-value-info', '-lcssa', '-lda', '-libcall-aa', '-licm', '-lint', '-live-values', '-loop-deletion', '-loop-extract', '-loop-extract-single', '-loop-index-split', '-loop-reduce', '-loop-rotate', '-loop-unroll', '-loop-unswitch', '-loops', '-loopsimplify', '-loweratomic', '-lowerinvoke', '-lowersetjmp', '-lowerswitch', '-mem2reg', '-memcpyopt', '-memdep', '-mergefunc', '-mergereturn', '-module-debuginfo', '-no-aa', '-no-profile', '-partial-inliner', '-partialspecialization', '-pointertracking', '-postdomfrontier', '-postdomtree', '-preverify', '-prune-eh', '-reassociate', '-reg2mem', '-regions', '-scalar-evolution', '-scalarrepl', '-sccp', '-scev-aa', '-simplify-libcalls', '-simplify-libcalls-halfpowr', '-simplifycfg', '-sink', '-split-geps', '-sretpromotion', '-strip', '-strip-dead-debug-info', '-strip-dead-prototypes', '-strip-debug-declare', '-strip-nondebug', '-tailcallelim', '-tailduplicate', '-targetdata', '-tbaa']:
# LLVM_OPT_OPTS = [opt]
# try:
# self.do_test(path_from_root(['third_party']), '*d_demangle(char const*, int, unsigned int*)*', args=['_ZL10d_demanglePKciPj'], main_file='gcc_demangler.c')
# print opt, "ok"
# except:
# print opt, "FAIL"
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def test_lua ( self ) :
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# Overflows in luaS_newlstr hash loop
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global SAFE_HEAP ; SAFE_HEAP = 0 # Has various warnings, with copied HEAP_HISTORY values (fixed if we copy 'null' as the type)
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global CORRECT_OVERFLOWS ; CORRECT_OVERFLOWS = 1
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global CHECK_OVERFLOWS ; CHECK_OVERFLOWS = 0
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global CORRECT_SIGNS ; CORRECT_SIGNS = 1 # Not sure why, but needed
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global INIT_STACK ; INIT_STACK = 1 # TODO: Investigate why this is necessary
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self . do_ll_test ( path_from_root ( ' tests ' , ' lua ' , ' lua.ll ' ) ,
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' hello lua world! \n 17 \n 1 \n 2 \n 3 \n 4 \n 7 ' ,
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js_engines = [ V8_ENGINE ] , # XXX Moz bug 675269
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args = [ ' -e ' , ''' print( " hello lua world! " );print(17);for x = 1,4 do print(x) end;print(10-3) ''' ] ,
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output_nicerizer = lambda string : string . replace ( ' \n \n ' , ' \n ' ) . replace ( ' \n \n ' , ' \n ' ) )
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def get_building_dir ( self ) :
return os . path . join ( self . get_dir ( ) , ' building ' )
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# Build a library into a .bc file. We build the .bc file once and cache it for all our tests. (We cache in
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# memory since the test directory is destroyed and recreated for each test. Note that we cache separately
# for different compilers)
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def get_library ( self , name , generated_libs , configure = [ ' ./configure ' ] , configure_args = [ ] , make = [ ' make ' ] , make_args = [ ' -j ' , ' 2 ' ] , cache = True ) :
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if type ( generated_libs ) is not list : generated_libs = [ generated_libs ]
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if GlobalCache is not None :
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cache_name = name + ' | ' + COMPILER
if cache and GlobalCache . get ( cache_name ) :
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print >> sys . stderr , ' <load build from cache> ' ,
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bc_file = os . path . join ( self . get_dir ( ) , ' lib ' + name + ' .bc ' )
f = open ( bc_file , ' wb ' )
f . write ( GlobalCache [ cache_name ] )
f . close ( )
return bc_file
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temp_dir = self . get_building_dir ( )
project_dir = os . path . join ( temp_dir , name )
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shutil . copytree ( path_from_root ( ' tests ' , name ) , project_dir ) # Useful in debugging sometimes to comment this out
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os . chdir ( project_dir )
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env = os . environ . copy ( )
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env [ ' RANLIB ' ] = env [ ' AR ' ] = env [ ' CXX ' ] = env [ ' CC ' ] = env [ ' LIBTOOL ' ] = EMMAKEN
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env [ ' EMMAKEN_COMPILER ' ] = COMPILER
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env [ ' EMSCRIPTEN_TOOLS ' ] = path_from_root ( ' tools ' )
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env [ ' CFLAGS ' ] = env [ ' EMMAKEN_CFLAGS ' ] = ' ' . join ( COMPILER_OPTS + COMPILER_TEST_OPTS ) # Normal CFLAGS is ignored by some configure's.
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if configure : # Useful in debugging sometimes to comment this out (and 2 lines below)
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Popen ( configure + configure_args , stdout = PIPE , stderr = STDOUT , env = env ) . communicate ( ) [ 0 ]
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Popen ( make + make_args , stdout = PIPE , stderr = STDOUT , env = env ) . communicate ( ) [ 0 ]
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bc_file = os . path . join ( project_dir , ' bc.bc ' )
self . do_link ( map ( lambda lib : os . path . join ( project_dir , lib ) , generated_libs ) , bc_file )
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if cache and GlobalCache is not None :
print >> sys . stderr , ' <save build into cache> ' ,
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GlobalCache [ cache_name ] = open ( bc_file , ' rb ' ) . read ( )
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return bc_file
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def get_freetype ( self ) :
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global INIT_STACK ; INIT_STACK = 1 # TODO: Investigate why this is necessary
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return self . get_library ( ' freetype ' , os . path . join ( ' objs ' , ' .libs ' , ' libfreetype.so ' ) )
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def test_freetype ( self ) :
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if QUANTUM_SIZE == 1 : return self . skip ( ) # TODO: Figure out and try to fix
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if LLVM_OPTS or COMPILER == CLANG : global RELOOP ; RELOOP = 0 # Too slow; we do care about typed arrays and OPTIMIZE though
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global CORRECT_SIGNS
if CORRECT_SIGNS == 0 : CORRECT_SIGNS = 1 # Not sure why, but needed
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def post ( filename ) :
# Embed the font into the document
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
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''' FS.createDataFile( ' / ' , ' font.ttf ' , %s , true, false); ''' % str (
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map ( ord , open ( path_from_root ( ' tests ' , ' freetype ' , ' LiberationSansBold.ttf ' ) , ' rb ' ) . read ( ) )
)
)
open ( filename , ' w ' ) . write ( src )
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# Main
self . do_test ( open ( path_from_root ( ' tests ' , ' freetype ' , ' main.c ' ) , ' r ' ) . read ( ) ,
open ( path_from_root ( ' tests ' , ' freetype ' , ' ref.txt ' ) , ' r ' ) . read ( ) ,
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[ ' font.ttf ' , ' test! ' , ' 150 ' , ' 120 ' , ' 25 ' ] ,
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libraries = [ self . get_freetype ( ) ] ,
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includes = [ path_from_root ( ' tests ' , ' freetype ' , ' include ' ) ] ,
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post_build = post )
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#build_ll_hook=self.do_autodebug)
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def test_zlib ( self ) :
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global CORRECT_SIGNS ; CORRECT_SIGNS = 1
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self . do_test ( open ( path_from_root ( ' tests ' , ' zlib ' , ' example.c ' ) , ' r ' ) . read ( ) ,
open ( path_from_root ( ' tests ' , ' zlib ' , ' ref.txt ' ) , ' r ' ) . read ( ) ,
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libraries = [ self . get_library ( ' zlib ' , os . path . join ( ' libz.a ' ) , make_args = [ ' libz.a ' ] ) ] ,
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includes = [ path_from_root ( ' tests ' , ' zlib ' ) ] ,
force_c = True )
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def test_the_bullet ( self ) : # Called thus so it runs late in the alphabetical cycle... it is long
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global SAFE_HEAP , SAFE_HEAP_LINES , USE_TYPED_ARRAYS , LLVM_OPTS
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if LLVM_OPTS : SAFE_HEAP = 0 # Optimizations make it so we do not have debug info on the line we need to ignore
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if COMPILER == LLVM_GCC :
global INIT_STACK ; INIT_STACK = 1 # TODO: Investigate why this is necessary
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if USE_TYPED_ARRAYS == 2 : return self . skip ( ) # We have slightly different rounding here for some reason. TODO: activate this
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if SAFE_HEAP :
# Ignore bitfield warnings
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SAFE_HEAP = 3
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SAFE_HEAP_LINES = [ ' btVoronoiSimplexSolver.h:40 ' , ' btVoronoiSimplexSolver.h:41 ' ,
' btVoronoiSimplexSolver.h:42 ' , ' btVoronoiSimplexSolver.h:43 ' ]
self . do_test ( open ( path_from_root ( ' tests ' , ' bullet ' , ' Demos ' , ' HelloWorld ' , ' HelloWorld.cpp ' ) , ' r ' ) . read ( ) ,
open ( path_from_root ( ' tests ' , ' bullet ' , ' output.txt ' ) , ' r ' ) . read ( ) ,
libraries = [ self . get_library ( ' bullet ' , [ os . path . join ( ' src ' , ' .libs ' , ' libBulletCollision.a ' ) ,
os . path . join ( ' src ' , ' .libs ' , ' libBulletDynamics.a ' ) ,
os . path . join ( ' src ' , ' .libs ' , ' libLinearMath.a ' ) ] ,
configure_args = [ ' --disable-demos ' , ' --disable-dependency-tracking ' ] ) ] ,
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includes = [ path_from_root ( ' tests ' , ' bullet ' , ' src ' ) ] ,
js_engines = [ SPIDERMONKEY_ENGINE ] ) # V8 issue 1407
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def test_poppler ( self ) :
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if COMPILER != LLVM_GCC : return self . skip ( ) # llvm-link failure when using clang, LLVM bug 9498
if RELOOP or LLVM_OPTS : return self . skip ( ) # TODO
if QUANTUM_SIZE == 1 : return self . skip ( ) # TODO: Figure out and try to fix
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global USE_TYPED_ARRAYS ; USE_TYPED_ARRAYS = 0 # XXX bug - we fail with this FIXME
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global SAFE_HEAP ; SAFE_HEAP = 0 # Has variable object
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#global CORRECT_OVERFLOWS; CORRECT_OVERFLOWS = 1
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global CHECK_OVERFLOWS ; CHECK_OVERFLOWS = 0
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#global CHECK_OVERFLOWS; CHECK_OVERFLOWS = 1
#global CHECK_SIGNS; CHECK_SIGNS = 1
global CORRECT_SIGNS ; CORRECT_SIGNS = 1
global CORRECT_SIGNS_LINES
CORRECT_SIGNS_LINES = [ ' parseargs.cc:171 ' , ' BuiltinFont.cc:64 ' , ' NameToCharCode.cc:115 ' , ' GooHash.cc:368 ' ,
' Stream.h:469 ' , ' PDFDoc.cc:1064 ' , ' Lexer.cc:201 ' , ' Splash.cc:1130 ' , ' XRef.cc:997 ' ,
' vector:714 ' , ' Lexer.cc:259 ' , ' Splash.cc:438 ' , ' Splash.cc:532 ' , ' GfxFont.cc:1152 ' ,
' Gfx.cc:3838 ' , ' Splash.cc:3162 ' , ' Splash.cc:3163 ' , ' Splash.cc:3164 ' , ' Splash.cc:3153 ' ,
' Splash.cc:3159 ' , ' SplashBitmap.cc:80 ' , ' SplashBitmap.cc:81 ' , ' SplashBitmap.cc:82 ' ,
' Splash.cc:809 ' , ' Splash.cc:805 ' , ' GooHash.cc:379 ' ,
# FreeType
' t1load.c:1850 ' , ' psconv.c:104 ' , ' psconv.c:185 ' , ' psconv.c:366 ' , ' psconv.c:399 ' ,
' ftcalc.c:308 ' , ' t1parse.c:405 ' , ' psconv.c:431 ' , ' ftcalc.c:555 ' , ' t1objs.c:458 ' ,
' t1decode.c:595 ' , ' t1decode.c:606 ' , ' pstables.h:4048 ' , ' pstables.h:4055 ' , ' pstables.h:4066 ' ,
' pshglob.c:166 ' , ' ftobjs.c:2548 ' , ' ftgrays.c:1190 ' , ' psmodule.c:116 ' , ' psmodule.c:119 ' ,
' psobjs.c:195 ' , ' pshglob.c:165 ' , ' ttload.c:694 ' , ' ttmtx.c:195 ' , ' sfobjs.c:957 ' ,
' sfobjs.c:958 ' , ' ftstream.c:369 ' , ' ftstream.c:372 ' , ' ttobjs.c:1007 ' ] # And many more...
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global COMPILER_TEST_OPTS ; COMPILER_TEST_OPTS + = [ ' -I ' + path_from_root ( ' tests ' , ' libcxx ' , ' include ' ) ] # Avoid libstdc++ linking issue, see libcxx test
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global INVOKE_RUN ; INVOKE_RUN = 0 # We append code that does run() ourselves
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# See post(), below
input_file = open ( os . path . join ( self . get_dir ( ) , ' paper.pdf.js ' ) , ' w ' )
input_file . write ( str ( map ( ord , open ( path_from_root ( ' tests ' , ' poppler ' , ' paper.pdf ' ) , ' rb ' ) . read ( ) ) ) )
input_file . close ( )
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def post ( filename ) :
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# To avoid loading this large file to memory and altering it, we simply append to the end
src = open ( filename , ' a ' )
src . write (
'''
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FS . createDataFile ( ' / ' , ' paper.pdf ' , eval ( read ( ' paper.pdf.js ' ) ) , true , false ) ;
FS . root . write = true ;
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run ( ) ;
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print ( " Data: " + JSON . stringify ( FS . root . contents [ ' filename-1.ppm ' ] . contents ) ) ;
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'''
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)
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src . close ( )
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#fontconfig = self.get_library('fontconfig', [os.path.join('src', '.libs', 'libfontconfig.a')]) # Used in file, but not needed, mostly
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freetype = self . get_freetype ( )
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poppler = self . get_library ( ' poppler ' ,
[ os . path . join ( ' poppler ' , ' .libs ' , ' libpoppler.so.13.0.0 ' ) ,
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os . path . join ( ' goo ' , ' .libs ' , ' libgoo.a ' ) ,
os . path . join ( ' fofi ' , ' .libs ' , ' libfofi.a ' ) ,
os . path . join ( ' splash ' , ' .libs ' , ' libsplash.a ' ) ,
os . path . join ( ' utils ' , ' pdftoppm.o ' ) ,
os . path . join ( ' utils ' , ' parseargs.o ' ) ] ,
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configure_args = [ ' --disable-libjpeg ' , ' --disable-libpng ' , ' --disable-poppler-qt ' , ' --disable-poppler-qt4 ' , ' --disable-cms ' ] )
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# Combine libraries
combined = os . path . join ( self . get_building_dir ( ) , ' combined.bc ' )
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self . do_link ( [ freetype , poppler ] , combined )
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self . do_ll_test ( combined ,
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lambda : map ( ord , open ( path_from_root ( ' tests ' , ' poppler ' , ' ref.ppm ' ) , ' r ' ) . read ( ) ) . __str__ ( ) . replace ( ' ' , ' ' ) ,
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args = ' -scale-to 512 paper.pdf filename ' . split ( ' ' ) ,
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post_build = post ,
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js_engines = [ V8_ENGINE ] ) # XXX Moz bug 675269
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#, build_ll_hook=self.do_autodebug)
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def test_openjpeg ( self ) :
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global USE_TYPED_ARRAYS
global CORRECT_SIGNS
if USE_TYPED_ARRAYS == 2 :
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return self . skip ( ) # XXX Moz bug 675269
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CORRECT_SIGNS = 1
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else :
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CORRECT_SIGNS = 2
global CORRECT_SIGNS_LINES
if COMPILER == CLANG :
CORRECT_SIGNS_LINES = [ " mqc.c:566 " ]
else :
CORRECT_SIGNS_LINES = [ " mqc.c:566 " , " mqc.c:317 " ]
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original_j2k = path_from_root ( ' tests ' , ' openjpeg ' , ' syntensity_lobby_s.j2k ' )
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def post ( filename ) :
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ PRE_RUN_ADDITIONS}} ' ,
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''' FS.createDataFile( ' / ' , ' image.j2k ' , %s , true, false);FS.root.write = true; ''' % line_splitter ( str (
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map ( ord , open ( original_j2k , ' rb ' ) . read ( ) )
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) )
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) . replace (
' // {{ POST_RUN_ADDITIONS}} ' ,
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''' print( " Data: " + JSON.stringify(FS.root.contents[ ' image.raw ' ].contents)); '''
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)
open ( filename , ' w ' ) . write ( src )
lib = self . get_library ( ' openjpeg ' ,
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[ os . path . join ( ' bin ' , ' libopenjpeg.so ' ) ,
os . path . sep . join ( ' codec/CMakeFiles/j2k_to_image.dir/index.c.o ' . split ( ' / ' ) ) ,
os . path . sep . join ( ' codec/CMakeFiles/j2k_to_image.dir/convert.c.o ' . split ( ' / ' ) ) ,
os . path . sep . join ( ' codec/CMakeFiles/j2k_to_image.dir/__/common/color.c.o ' . split ( ' / ' ) ) ,
os . path . sep . join ( ' codec/CMakeFiles/j2k_to_image.dir/__/common/getopt.c.o ' . split ( ' / ' ) ) ] ,
configure = [ ' cmake ' , ' . ' ] ,
#configure_args=['--enable-tiff=no', '--enable-jp3d=no', '--enable-png=no'],
make_args = [ ] , # no -j 2, since parallel builds can fail
cache = False ) # We need opj_config.h and other generated files, so cannot cache just the .bc
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# We use doubles in JS, so we get slightly different values than native code. So we
# check our output by comparing the average pixel difference
def image_compare ( output ) :
# Get the image generated by JS, from the JSON.stringify'd array
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m = re . search ( ' \ [[ \ d, -]* \ ] ' , output )
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try :
js_data = eval ( m . group ( 0 ) )
except AttributeError :
print ' Failed to find proper image output in: ' + output
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raise
js_data = map ( lambda x : x if x > = 0 else 256 + x , js_data ) # Our output may be signed, so unsign it
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# Get the correct output
true_data = open ( path_from_root ( ' tests ' , ' openjpeg ' , ' syntensity_lobby_s.raw ' ) , ' rb ' ) . read ( )
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# Compare them
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assert ( len ( js_data ) == len ( true_data ) )
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num = len ( js_data )
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diff_total = js_total = true_total = 0
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for i in range ( num ) :
js_total + = js_data [ i ]
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true_total + = ord ( true_data [ i ] )
diff_total + = abs ( js_data [ i ] - ord ( true_data [ i ] ) )
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js_mean = js_total / float ( num )
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true_mean = true_total / float ( num )
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diff_mean = diff_total / float ( num )
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image_mean = 83.265
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#print '[image stats:', js_mean, image_mean, true_mean, diff_mean, num, ']'
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assert abs ( js_mean - image_mean ) < 0.01
assert abs ( true_mean - image_mean ) < 0.01
assert diff_mean < 0.01
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return output
self . do_test ( open ( path_from_root ( ' tests ' , ' openjpeg ' , ' codec ' , ' j2k_to_image.c ' ) , ' r ' ) . read ( ) ,
' Successfully generated ' , # The real test for valid output is in image_compare
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' -i image.j2k -o image.raw ' . split ( ' ' ) ,
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libraries = [ lib ] ,
includes = [ path_from_root ( ' tests ' , ' openjpeg ' , ' libopenjpeg ' ) ,
path_from_root ( ' tests ' , ' openjpeg ' , ' codec ' ) ,
path_from_root ( ' tests ' , ' openjpeg ' , ' common ' ) ,
os . path . join ( self . get_building_dir ( ) , ' openjpeg ' ) ] ,
force_c = True ,
post_build = post ,
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js_engines = [ V8_ENGINE ] , # XXX Moz bug 675269
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output_nicerizer = image_compare ) # build_ll_hook=self.do_autodebug)
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def test_python ( self ) :
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# Overflows in string_hash
global CORRECT_OVERFLOWS ; CORRECT_OVERFLOWS = 1
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global CHECK_OVERFLOWS ; CHECK_OVERFLOWS = 0
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global RELOOP ; RELOOP = 0 # Too slow; we do care about typed arrays and OPTIMIZE though
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global SAFE_HEAP ; SAFE_HEAP = 0 # Has bitfields which are false positives. Also the PyFloat_Init tries to detect endianness.
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global CORRECT_SIGNS ; CORRECT_SIGNS = 1 # Not sure why, but needed
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global EXPORTED_FUNCTIONS ; EXPORTED_FUNCTIONS = [ ' _main ' , ' _PyRun_SimpleStringFlags ' ] # for the demo
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self . do_ll_test ( path_from_root ( ' tests ' , ' python ' , ' python.ll ' ) ,
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' hello python world! \n [0, 2, 4, 6] \n 5 \n 22 \n 5.470000 ' ,
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js_engines = [ V8_ENGINE ] , # XXX Moz bug 675269
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args = [ ' -S ' , ' -c ' ''' print " hello python world! " ; print [x*2 for x in range(4)]; t=2; print 10-3-t; print (lambda x: x*2)(11); print ' %f ' % 5.47 ''' ] ,
extra_emscripten_args = [ ' -m ' ] )
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# Test cases in separate files. Note that these files may contain invalid .ll!
# They are only valid enough for us to read for test purposes, not for llvm-as
# to process.
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def test_cases ( self ) :
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global CHECK_OVERFLOWS ; CHECK_OVERFLOWS = 0
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if LLVM_OPTS : return self . skip ( ) # Our code is not exactly 'normal' llvm assembly
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for name in glob . glob ( path_from_root ( ' tests ' , ' cases ' , ' *.ll ' ) ) :
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shortname = name . replace ( ' .ll ' , ' ' )
print " Testing case ' %s ' ... " % shortname
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output_file = path_from_root ( ' tests ' , ' cases ' , shortname + ' .txt ' )
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if os . path . exists ( output_file ) :
output = open ( output_file , ' r ' ) . read ( )
else :
output = ' hello, world! '
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self . do_ll_test ( path_from_root ( ' tests ' , ' cases ' , name ) , output )
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# Autodebug the code
def do_autodebug ( self , filename ) :
output = Popen ( [ ' python ' , AUTODEBUGGER , filename + ' .o.ll ' , filename + ' .o.ll.ll ' ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
assert ' Success. ' in output , output
self . prep_ll_test ( filename , filename + ' .o.ll.ll ' , force_recompile = True ) # rebuild .bc
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def test_autodebug ( self ) :
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if LLVM_OPTS : return self . skip ( ) # They mess us up
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# Run a test that should work, generating some code
self . test_structs ( )
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filename = os . path . join ( self . get_dir ( ) , ' src.cpp ' )
self . do_autodebug ( filename )
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# Compare to each other, and to expected output
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self . do_ll_test ( path_from_root ( ' tests ' , filename + ' .o.ll.ll ' ) )
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self . do_ll_test ( path_from_root ( ' tests ' , filename + ' .o.ll.ll ' ) , ' AD:38,10 \n AD:47,7008 \n AD:57,7018 \n ' )
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# Test using build_ll_hook
src = '''
#include <stdio.h>
char cache [ 256 ] , * next = cache ;
int main ( )
{
cache [ 10 ] = 25 ;
next [ 20 ] = 51 ;
int x = cache [ 10 ] ;
printf ( " * %d , %d * \\ n " , x , cache [ 20 ] ) ;
return 0 ;
}
'''
self . do_test ( src , build_ll_hook = self . do_autodebug )
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self . do_test ( src , ' AD: ' , build_ll_hook = self . do_autodebug )
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def test_dfe ( self ) :
def hook ( filename ) :
ll = open ( filename + ' .o.ll ' ) . read ( )
assert ' unneeded ' not in ll , ' DFE should remove the unneeded function '
src = '''
#include <stdio.h>
void unneeded ( )
{
printf ( " some totally useless stuff \\ n " ) ;
}
int main ( )
{
printf ( " *hello slim world* \\ n " ) ;
return 0 ;
}
'''
# Using build_ll_hook forces a recompile, which leads to DFE being done even without opts
self . do_test ( src , ' *hello slim world* ' , build_ll_hook = hook )
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### Integration tests
def test_scriptaclass ( self ) :
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header_filename = os . path . join ( self . get_dir ( ) , ' header.h ' )
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header = '''
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struct ScriptMe {
int value ;
ScriptMe ( int val ) ;
int getVal ( ) ; / / XXX Sadly , inlining these will result in LLVM not
/ / producing any code for them ( when just building
/ / as a library )
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void mulVal ( int mul ) ;
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} ;
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'''
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h = open ( header_filename , ' w ' )
h . write ( header )
h . close ( )
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src = '''
#include "header.h"
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ScriptMe : : ScriptMe ( int val ) : value ( val ) { }
int ScriptMe : : getVal ( ) { return value ; }
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void ScriptMe : : mulVal ( int mul ) { value * = mul ; }
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'''
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# Way 1: use demangler and namespacer
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script_src = '''
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var sme = Module . _ . ScriptMe . __new__ ( 83 ) ; / / malloc ( sizeof ( ScriptMe ) ) , ScriptMe : : ScriptMe ( sme , 83 ) / new ScriptMe ( 83 ) ( at addr sme )
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Module . _ . ScriptMe . mulVal ( sme , 2 ) ; / / ScriptMe : : mulVal ( sme , 2 ) sme . mulVal ( 2 )
print ( ' * ' + Module . _ . ScriptMe . getVal ( sme ) + ' * ' ) ;
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_free ( sme ) ;
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print ( ' *ok* ' ) ;
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'''
def post ( filename ) :
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Popen ( [ ' python ' , DEMANGLER , filename ] , stdout = open ( filename + ' .tmp ' , ' w ' ) ) . communicate ( )
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Popen ( [ ' python ' , NAMESPACER , filename , filename + ' .tmp ' ] , stdout = open ( filename + ' .tmp2 ' , ' w ' ) ) . communicate ( )
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src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ MODULE_ADDITIONS} ' ,
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' Module[ " _ " ] = ' + open ( filename + ' .tmp2 ' , ' r ' ) . read ( ) . replace ( ' var ModuleNames = ' , ' ' ) . rstrip ( ) + ' ; \n \n ' + script_src + ' \n \n ' +
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' // {{ MODULE_ADDITIONS} '
)
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open ( filename , ' w ' ) . write ( src )
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# XXX disable due to possible v8 bug -- self.do_test(src, '*166*\n*ok*', post_build=post)
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# Way 2: use CppHeaderParser
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global RUNTIME_TYPE_INFO ; RUNTIME_TYPE_INFO = 1
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header = '''
#include <stdio.h>
class Parent {
protected :
int value ;
public :
Parent ( int val ) ;
int getVal ( ) { return value ; } ; / / inline should work just fine here , unlike Way 1 before
void mulVal ( int mul ) ;
} ;
class Child1 : public Parent {
public :
Child1 ( ) : Parent ( 7 ) { printf ( " Child1: %d \\ n " , value ) ; } ;
Child1 ( int val ) : Parent ( val * 2 ) { value - = 1 ; printf ( " Child1: %d \\ n " , value ) ; } ;
int getValSqr ( ) { return value * value ; }
int getValSqr ( int more ) { return value * value * more ; }
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int getValTimes ( int times = 1 ) { return value * times ; }
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} ;
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class Child2 : public Parent {
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public :
Child2 ( ) : Parent ( 9 ) { printf ( " Child2: %d \\ n " , value ) ; } ;
int getValCube ( ) { return value * value * value ; }
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static void printStatic ( ) { printf ( " *static* \\ n " ) ; }
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private :
void doSomethingSecret ( ) { printf ( " security breached! \\ n " ) ; } ; / / we should not be able to do this
} ;
'''
open ( header_filename , ' w ' ) . write ( header )
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basename = os . path . join ( self . get_dir ( ) , ' bindingtest ' )
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output = Popen ( [ BINDINGS_GENERATOR , basename , header_filename ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
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#print output
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assert ' Traceback ' not in output , ' Failure in binding generation: ' + output
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src = '''
#include "header.h"
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Parent : : Parent ( int val ) : value ( val ) { printf ( " Parent: %d \\ n " , val ) ; }
void Parent : : mulVal ( int mul ) { value * = mul ; }
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#include "bindingtest.cpp"
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'''
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script_src_2 = '''
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var sme = new Parent ( 42 ) ;
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sme . mulVal ( 2 ) ;
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print ( ' * ' )
print ( sme . getVal ( ) ) ;
print ( ' c1 ' ) ;
var c1 = new Child1 ( ) ;
print ( c1 . getVal ( ) ) ;
c1 . mulVal ( 2 ) ;
print ( c1 . getVal ( ) ) ;
print ( c1 . getValSqr ( ) ) ;
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print ( c1 . getValSqr ( 3 ) ) ;
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print ( c1 . getValTimes ( ) ) ; / / default argument should be 1
print ( c1 . getValTimes ( 2 ) ) ;
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print ( ' c1 v2 ' ) ;
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c1 = new Child1 ( 8 ) ; / / now with a parameter , we should handle the overloading automatically and properly and use constructor #2
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print ( c1 . getVal ( ) ) ;
c1 . mulVal ( 2 ) ;
print ( c1 . getVal ( ) ) ;
print ( c1 . getValSqr ( ) ) ;
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print ( c1 . getValSqr ( 3 ) ) ;
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print ( ' c2 ' )
var c2 = new Child2 ( ) ;
print ( c2 . getVal ( ) ) ;
c2 . mulVal ( 2 ) ;
print ( c2 . getVal ( ) ) ;
print ( c2 . getValCube ( ) ) ;
var succeeded ;
try {
succeeded = 0 ;
print ( c2 . doSomethingSecret ( ) ) ; / / should fail since private
succeeded = 1 ;
} catch ( e ) { }
print ( succeeded ) ;
try {
succeeded = 0 ;
print ( c2 . getValSqr ( ) ) ; / / function from the other class
succeeded = 1 ;
} catch ( e ) { }
print ( succeeded ) ;
try {
succeeded = 0 ;
c2 . getValCube ( ) ; / / sanity
succeeded = 1 ;
} catch ( e ) { }
print ( succeeded ) ;
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Child2 . prototype . printStatic ( ) ; / / static calls go through the prototype
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print ( ' *ok* ' ) ;
'''
def post2 ( filename ) :
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ MODULE_ADDITIONS} ' ,
''' load( ' bindingtest.js ' ) ''' + ' \n \n ' + script_src_2 + ' \n \n ' +
' // {{ MODULE_ADDITIONS} '
)
open ( filename , ' w ' ) . write ( src )
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self . do_test ( src , ''' *
84
c1
Parent : 7
Child1 : 7
7
14
196
588
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14
28
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c1 v2
Parent : 16
Child1 : 15
15
30
900
2700
c2
Parent : 9
Child2 : 9
9
18
5832
0
0
1
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* static *
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* ok *
''' , post_build=post2)
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def test_typeinfo ( self ) :
global RUNTIME_TYPE_INFO ; RUNTIME_TYPE_INFO = 1
global QUANTUM_SIZE
if QUANTUM_SIZE != 4 : return self . skip ( )
src = '''
#include<stdio.h>
struct UserStruct {
int x ;
char y ;
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short z ;
} ;
struct Encloser {
short x ;
UserStruct us ;
int y ;
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} ;
int main ( ) {
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Encloser e ;
e . us . y = 5 ;
printf ( " *ok: %d * \\ n " , e . us . y ) ;
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return 0 ;
}
'''
def post ( filename ) :
src = open ( filename , ' r ' ) . read ( ) . replace (
' // {{ POST_RUN_ADDITIONS}} ' ,
'''
if ( Runtime . typeInfo ) {
print ( ' | ' + Runtime . typeInfo . UserStruct . fields + ' | ' + Runtime . typeInfo . UserStruct . flatIndexes + ' | ' ) ;
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var t = Runtime . generateStructInfo ( [ ' x ' , { us : [ ' x ' , ' y ' , ' z ' ] } , ' y ' ] , ' Encloser ' )
print ( ' | ' + [ t . x , t . us . x , t . us . y , t . us . z , t . y ] + ' | ' ) ;
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print ( ' | ' + JSON . stringify ( Runtime . generateStructInfo ( null , ' UserStruct ' ) ) + ' | ' ) ;
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} else {
print ( ' No type info. ' ) ;
}
'''
)
open ( filename , ' w ' ) . write ( src )
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self . do_test ( src ,
' *ok:5* \n |i32,i8,i16|0,4,6| \n |0,4,8,10,12| \n | { " __size__ " :8, " x " :0, " y " :4, " z " :6}| ' ,
post_build = post )
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# Make sure that without the setting, we don't spam the .js with the type info
RUNTIME_TYPE_INFO = 0
self . do_test ( src , ' No type info. ' , post_build = post )
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### Tests for tools
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def test_closure_compiler ( self ) :
src = '''
#include<stdio.h>
int main ( ) {
printf ( " *closured* \\ n " ) ;
return 0 ;
}
'''
def add_cc ( filename ) :
Popen ( [ ' java ' , ' -jar ' , CLOSURE_COMPILER ,
' --compilation_level ' , ' ADVANCED_OPTIMIZATIONS ' ,
' --formatting ' , ' PRETTY_PRINT ' ,
' --variable_map_output_file ' , filename + ' .vars ' ,
' --js ' , filename , ' --js_output_file ' , filename + ' .cc.js ' ] , stdout = PIPE , stderr = STDOUT ) . communicate ( )
assert not re . search ( ' function \ w \ ( ' , open ( filename , ' r ' ) . read ( ) ) # closure generates this kind of stuff - functions with single letters. Normal doesn't.
src = open ( filename + ' .cc.js ' , ' r ' ) . read ( )
assert re . search ( ' function \ w \ ( ' , src ) # see before
assert ' function _main() ' not in src # closure should have wiped it out
open ( filename , ' w ' ) . write ( src )
self . do_test ( src , ' *closured* ' , post_build = add_cc )
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def test_safe_heap ( self ) :
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global SAFE_HEAP , SAFE_HEAP_LINES
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if not SAFE_HEAP : return self . skip ( )
if LLVM_OPTS : return self . skip ( ) # LLVM can optimize away the intermediate |x|...
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src = '''
#include<stdio.h>
int main ( ) {
int * x = new int ;
* x = 20 ;
float * y = ( float * ) x ;
printf ( " %f \\ n " , * y ) ;
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printf ( " *ok* \\ n " ) ;
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return 0 ;
}
'''
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try :
self . do_test ( src , ' *nothingatall* ' )
except Exception , e :
# This test *should* fail, by throwing this exception
assert ' Assertion failed: Load-store consistency assumption failure! ' in str ( e ) , str ( e )
# And we should not fail if we disable checking on that line
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SAFE_HEAP = 3
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SAFE_HEAP_LINES = [ " src.cpp:7 " ]
self . do_test ( src , ' *ok* ' )
# But if we disable the wrong lines, we still fail
SAFE_HEAP_LINES = [ " src.cpp:99 " ]
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try :
self . do_test ( src , ' *nothingatall* ' )
except Exception , e :
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# This test *should* fail, by throwing this exception
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assert ' Assertion failed: Load-store consistency assumption failure! ' in str ( e ) , str ( e )
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# And reverse the checks with = 2
SAFE_HEAP = 2
SAFE_HEAP_LINES = [ " src.cpp:99 " ]
self . do_test ( src , ' *ok* ' )
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def test_check_overflow ( self ) :
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global CHECK_OVERFLOWS ; CHECK_OVERFLOWS = 1
global CORRECT_OVERFLOWS ; CORRECT_OVERFLOWS = 0
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src = '''
#include<stdio.h>
int main ( ) {
int t = 77 ;
for ( int i = 0 ; i < 30 ; i + + ) {
/ / t = ( t << 2 ) + t + 1 ; / / This would have worked , since << forces into 32 - bit int . . .
t = t * 5 + 1 ; / / Python lookdict_string has ~ the above line , which turns into this one with optimizations . . .
printf ( " %d , %d \\ n " , t , t & 127 ) ;
}
return 0 ;
}
'''
try :
self . do_test ( src , ' *nothingatall* ' )
except Exception , e :
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# This test *should* fail, by throwing this exception
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assert ' Too many corrections ' in str ( e ) , str ( e )
assert ' CHECK_OVERFLOW ' in str ( e ) , str ( e )
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def test_debug ( self ) :
src = '''
#include <stdio.h>
#include <assert.h>
void checker ( int x ) {
x + = 20 ;
assert ( x < 15 ) ; / / this is line 7 !
}
int main ( ) {
checker ( 10 ) ;
return 0 ;
}
'''
try :
def post ( filename ) :
lines = open ( filename , ' r ' ) . readlines ( )
line = filter ( lambda line : ' ___assert_fail( ' in line , lines ) [ 0 ]
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assert ' //@line 7 " ' in line , ' Must have debug info with the line number '
assert ' src.cpp " \n ' in line , ' Must have debug info with the filename '
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self . do_test ( src , ' *nothingatall* ' , post_build = post )
except Exception , e :
# This test *should* fail
assert ' Assertion failed ' in str ( e ) , str ( e )
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def test_autoassemble ( self ) :
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src = r '''
#include <stdio.h>
int main ( ) {
puts ( " test \n " ) ;
return 0 ;
}
'''
dirname = self . get_dir ( )
filename = os . path . join ( dirname , ' src.cpp ' )
self . build ( src , dirname , filename )
new_filename = os . path . join ( dirname , ' new.bc ' )
shutil . copy ( filename + ' .o ' , new_filename )
self . do_emscripten ( new_filename , append_ext = False )
shutil . copy ( filename + ' .o.js ' , os . path . join ( self . get_dir ( ) , ' new.cpp.o.js ' ) )
self . do_test ( None , ' test \n ' , basename = ' new.cpp ' , no_build = True )
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def test_dlmalloc_linked ( self ) :
src = open ( path_from_root ( ' tests ' , ' dlmalloc_test.c ' ) , ' r ' ) . read ( )
self . do_test ( src , ' *1,0* ' , [ ' 200 ' , ' 1 ' ] , extra_emscripten_args = [ ' -m ' ] )
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def test_linespecific ( self ) :
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global CHECK_SIGNS ; CHECK_SIGNS = 0
global CHECK_OVERFLOWS ; CHECK_OVERFLOWS = 0
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global CORRECT_SIGNS , CORRECT_OVERFLOWS , CORRECT_ROUNDINGS , CORRECT_SIGNS_LINES , CORRECT_OVERFLOWS_LINES , CORRECT_ROUNDINGS_LINES
# Signs
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src = '''
#include <stdio.h>
#include <assert.h>
int main ( )
{
int varey = 100 ;
unsigned int MAXEY = - 1 ;
printf ( " * %d * \\ n " , varey > = MAXEY ) ; / / 100 > = - 1 ? not in unsigned !
}
'''
CORRECT_SIGNS = 0
self . do_test ( src , ' *1* ' ) # This is a fail - we expect 0
CORRECT_SIGNS = 1
self . do_test ( src , ' *0* ' ) # Now it will work properly
# And now let's fix just that one line
CORRECT_SIGNS = 2
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CORRECT_SIGNS_LINES = [ " src.cpp:9 " ]
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self . do_test ( src , ' *0* ' )
# Fixing the wrong line should not work
CORRECT_SIGNS = 2
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CORRECT_SIGNS_LINES = [ " src.cpp:3 " ]
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self . do_test ( src , ' *1* ' )
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# And reverse the checks with = 2
CORRECT_SIGNS = 3
CORRECT_SIGNS_LINES = [ " src.cpp:3 " ]
self . do_test ( src , ' *0* ' )
CORRECT_SIGNS = 3
CORRECT_SIGNS_LINES = [ " src.cpp:9 " ]
self . do_test ( src , ' *1* ' )
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# Overflows
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src = '''
#include<stdio.h>
int main ( ) {
int t = 77 ;
for ( int i = 0 ; i < 30 ; i + + ) {
t = t * 5 + 1 ;
}
printf ( " * %d , %d * \\ n " , t , t & 127 ) ;
return 0 ;
}
'''
correct = ' *186854335,63* '
CORRECT_OVERFLOWS = 0
try :
self . do_test ( src , correct )
raise Exception ( ' UNEXPECTED-PASS ' )
except Exception , e :
assert ' UNEXPECTED ' not in str ( e ) , str ( e )
assert ' Expected to find ' in str ( e ) , str ( e )
CORRECT_OVERFLOWS = 1
self . do_test ( src , correct ) # Now it will work properly
# And now let's fix just that one line
CORRECT_OVERFLOWS = 2
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CORRECT_OVERFLOWS_LINES = [ " src.cpp:6 " ]
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self . do_test ( src , correct )
# Fixing the wrong line should not work
CORRECT_OVERFLOWS = 2
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CORRECT_OVERFLOWS_LINES = [ " src.cpp:3 " ]
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try :
self . do_test ( src , correct )
raise Exception ( ' UNEXPECTED-PASS ' )
except Exception , e :
assert ' UNEXPECTED ' not in str ( e ) , str ( e )
assert ' Expected to find ' in str ( e ) , str ( e )
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# And reverse the checks with = 2
CORRECT_OVERFLOWS = 3
CORRECT_OVERFLOWS_LINES = [ " src.cpp:3 " ]
self . do_test ( src , correct )
CORRECT_OVERFLOWS = 3
CORRECT_OVERFLOWS_LINES = [ " src.cpp:6 " ]
try :
self . do_test ( src , correct )
raise Exception ( ' UNEXPECTED-PASS ' )
except Exception , e :
assert ' UNEXPECTED ' not in str ( e ) , str ( e )
assert ' Expected to find ' in str ( e ) , str ( e )
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# Roundings
src = '''
#include <stdio.h>
#include <assert.h>
int main ( )
{
TYPE x = - 5 ;
printf ( " * %d * " , x / 2 ) ;
x = 5 ;
printf ( " * %d * " , x / 2 ) ;
float y = - 5.33 ;
x = y ;
printf ( " * %d * " , x ) ;
y = 5.33 ;
x = y ;
printf ( " * %d * " , x ) ;
printf ( " \\ n " ) ;
}
'''
CORRECT_ROUNDINGS = 0
self . do_test ( src . replace ( ' TYPE ' , ' long long ' ) , ' *-3**2**-6**5* ' ) # JS floor operations, always to the negative. This is an undetected error here!
self . do_test ( src . replace ( ' TYPE ' , ' int ' ) , ' *-2**2**-5**5* ' ) # We get these right, since they are 32-bit and we can shortcut using the |0 trick
CORRECT_ROUNDINGS = 1
self . do_test ( src . replace ( ' TYPE ' , ' long long ' ) , ' *-2**2**-5**5* ' ) # Correct
self . do_test ( src . replace ( ' TYPE ' , ' int ' ) , ' *-2**2**-5**5* ' ) # Correct
CORRECT_ROUNDINGS = 2
CORRECT_ROUNDINGS_LINES = [ " src.cpp:13 " ] # Fix just the last mistake
self . do_test ( src . replace ( ' TYPE ' , ' long long ' ) , ' *-3**2**-5**5* ' )
self . do_test ( src . replace ( ' TYPE ' , ' int ' ) , ' *-2**2**-5**5* ' ) # Here we are lucky and also get the first one right
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# And reverse the check with = 2
CORRECT_ROUNDINGS = 3
CORRECT_ROUNDINGS_LINES = [ " src.cpp:999 " ]
self . do_test ( src . replace ( ' TYPE ' , ' long long ' ) , ' *-2**2**-5**5* ' )
self . do_test ( src . replace ( ' TYPE ' , ' int ' ) , ' *-2**2**-5**5* ' )
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def test_autooptimize ( self ) :
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global CHECK_OVERFLOWS , CORRECT_OVERFLOWS , CHECK_SIGNS , CORRECT_SIGNS , AUTO_OPTIMIZE
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AUTO_OPTIMIZE = CHECK_OVERFLOWS = CORRECT_OVERFLOWS = CHECK_SIGNS = CORRECT_SIGNS = 1
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src = '''
#include<stdio.h>
int main ( ) {
int t = 77 ;
for ( int i = 0 ; i < 30 ; i + + ) {
t = t * 5 + 1 ;
}
printf ( " * %d , %d * \\ n " , t , t & 127 ) ;
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int varey = 100 ;
unsigned int MAXEY = - 1 ;
for ( int j = 0 ; j < 2 ; j + + ) {
printf ( " * %d * \\ n " , varey > = MAXEY ) ; / / 100 > = - 1 ? not in unsigned !
MAXEY = 1 ; / / So we succeed the second time around
}
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return 0 ;
}
'''
def check ( output ) :
# TODO: check the line #
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assert ' Overflow|src.cpp:6 : 60 hits, % 20 failures ' in output , ' no indication of Overflow corrections '
assert ' UnSign|src.cpp:13 : 6 hits, % 16 failures ' in output , ' no indication of Sign corrections '
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return output
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self . do_test ( src , ' *186854335,63* \n ' , output_nicerizer = check )
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# Generate tests for all our compilers
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def make_test ( name , compiler , llvm_opts , embetter , quantum_size , typed_arrays ) :
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exec ( '''
class % s ( T ) :
def setUp ( self ) :
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global COMPILER , QUANTUM_SIZE , RELOOP , OPTIMIZE , ASSERTIONS , USE_TYPED_ARRAYS , LLVM_OPTS , SAFE_HEAP , CHECK_OVERFLOWS , CORRECT_OVERFLOWS , CORRECT_OVERFLOWS_LINES , CORRECT_SIGNS , CORRECT_SIGNS_LINES , CHECK_SIGNS , COMPILER_TEST_OPTS , CORRECT_ROUNDINGS , CORRECT_ROUNDINGS_LINES , INVOKE_RUN , SAFE_HEAP_LINES , INIT_STACK , AUTO_OPTIMIZE , RUNTIME_TYPE_INFO , DISABLE_EXCEPTIONS
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COMPILER = ' %s '
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llvm_opts = % d
embetter = % d
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quantum_size = % d
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USE_TYPED_ARRAYS = % d
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INVOKE_RUN = 1
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RELOOP = OPTIMIZE = embetter
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if USE_TYPED_ARRAYS == 2 : RELOOP = 0 # XXX Would be better to use this, but it isn't really what we test in this case, and is very slow
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QUANTUM_SIZE = quantum_size
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ASSERTIONS = 1 - embetter
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SAFE_HEAP = 1 - ( embetter and llvm_opts )
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LLVM_OPTS = llvm_opts
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AUTO_OPTIMIZE = 0
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CHECK_OVERFLOWS = 1 - ( embetter or llvm_opts )
CORRECT_OVERFLOWS = 1 - ( embetter and llvm_opts )
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CORRECT_SIGNS = 0
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CORRECT_ROUNDINGS = 0
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CORRECT_OVERFLOWS_LINES = CORRECT_SIGNS_LINES = CORRECT_ROUNDINGS_LINES = SAFE_HEAP_LINES = [ ]
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CHECK_SIGNS = 0 #1-(embetter or llvm_opts)
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INIT_STACK = 0
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RUNTIME_TYPE_INFO = 0
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DISABLE_EXCEPTIONS = 0
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if LLVM_OPTS :
self . pick_llvm_opts ( 3 , True )
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COMPILER_TEST_OPTS = [ ' -g ' ]
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shutil . rmtree ( self . get_dir ( ) ) # Useful in debugging sometimes to comment this out
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self . get_dir ( ) # make sure it exists
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TT = % s
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''' % (fullname, compiler, llvm_opts, embetter, quantum_size, typed_arrays, fullname))
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return TT
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for llvm_opts in [ 0 , 1 ] :
for name , compiler , quantum , embetter , typed_arrays in [
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( ' clang ' , CLANG , 1 , 0 , 0 ) ,
( ' clang ' , CLANG , 4 , 0 , 0 ) ,
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( ' llvm_gcc ' , LLVM_GCC , 4 , 0 , 0 ) ,
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( ' clang ' , CLANG , 1 , 1 , 1 ) ,
( ' clang ' , CLANG , 4 , 1 , 1 ) ,
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( ' llvm_gcc ' , LLVM_GCC , 4 , 1 , 1 ) ,
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( ' clang ' , CLANG , 4 , 1 , 2 ) ,
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#('llvm_gcc', LLVM_GCC, 4, 1, 2),
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] :
fullname = ' %s _ %d _ %d %s %s ' % (
name , llvm_opts , embetter , ' ' if quantum == 4 else ' _q ' + str ( quantum ) , ' ' if typed_arrays in [ 0 , 1 ] else ' _t ' + str ( typed_arrays )
)
exec ( ' %s = make_test( " %s " , " %s " , %d , %d , %d , %d ) ' % ( fullname , fullname , compiler , llvm_opts , embetter , quantum , typed_arrays ) )
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del T # T is just a shape for the specific subclasses, we don't test it itself
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class OtherTests ( RunnerCore ) :
def test_eliminator ( self ) :
coffee = path_from_root ( ' tools ' , ' eliminator ' , ' node_modules ' , ' coffee-script ' , ' bin ' , ' coffee ' )
eliminator = path_from_root ( ' tools ' , ' eliminator ' , ' eliminator.coffee ' )
input = open ( path_from_root ( ' tools ' , ' eliminator ' , ' eliminator-test.js ' ) ) . read ( )
expected = open ( path_from_root ( ' tools ' , ' eliminator ' , ' eliminator-test-output.js ' ) ) . read ( )
output = Popen ( [ coffee , eliminator ] , stdin = PIPE , stdout = PIPE , stderr = PIPE ) . communicate ( input ) [ 0 ]
self . assertEquals ( output , expected )
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else :
# Benchmarks
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print " Running Emscripten benchmarks... "
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sys . argv = filter ( lambda x : x != ' benchmark ' , sys . argv )
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assert ( os . path . exists ( CLOSURE_COMPILER ) )
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USE_CLOSURE_COMPILER = 1
if USE_CLOSURE_COMPILER :
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try :
index = SPIDERMONKEY_ENGINE . index ( " options( ' strict ' ) " )
SPIDERMONKEY_ENGINE = SPIDERMONKEY_ENGINE [ : index - 1 ] + SPIDERMONKEY_ENGINE [ index + 1 : ] # closure generates non-strict
except :
pass
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COMPILER = CLANG
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JS_ENGINE = SPIDERMONKEY_ENGINE
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#JS_ENGINE = V8_ENGINE
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global COMPILER_TEST_OPTS ; COMPILER_TEST_OPTS = [ ]
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QUANTUM_SIZE = 1
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RELOOP = OPTIMIZE = 1
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USE_TYPED_ARRAYS = 0
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ASSERTIONS = SAFE_HEAP = CHECK_OVERFLOWS = CORRECT_OVERFLOWS = CHECK_SIGNS = INIT_STACK = AUTO_OPTIMIZE = RUNTIME_TYPE_INFO = 0
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INVOKE_RUN = 1
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CORRECT_SIGNS = 0
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CORRECT_ROUNDINGS = 0
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CORRECT_OVERFLOWS_LINES = CORRECT_SIGNS_LINES = CORRECT_ROUNDINGS_LINES = SAFE_HEAP_LINES = [ ]
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LLVM_OPTS = 1
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DISABLE_EXCEPTIONS = 1
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TEST_REPS = 4
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TOTAL_TESTS = 6
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tests_done = 0
total_times = map ( lambda x : 0. , range ( TEST_REPS ) )
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total_native_times = map ( lambda x : 0. , range ( TEST_REPS ) )
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class Benchmark ( RunnerCore ) :
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def print_stats ( self , times , native_times ) :
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mean = sum ( times ) / len ( times )
squared_times = map ( lambda x : x * x , times )
mean_of_squared = sum ( squared_times ) / len ( times )
std = math . sqrt ( mean_of_squared - mean * mean )
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mean_native = sum ( native_times ) / len ( native_times )
squared_native_times = map ( lambda x : x * x , native_times )
mean_of_squared_native = sum ( squared_native_times ) / len ( native_times )
std_native = math . sqrt ( mean_of_squared_native - mean_native * mean_native )
print
print ' JavaScript : mean: %.3f (+- %.3f ) seconds (max: %.3f , min: %.3f , noise/signal: %.3f ) ( %d runs) ' % ( mean , std , max ( times ) , min ( times ) , std / mean , TEST_REPS )
print ' Native (gcc): mean: %.3f (+- %.3f ) seconds (max: %.3f , min: %.3f , noise/signal: %.3f ) JS is %.2f times slower ' % ( mean_native , std_native , max ( native_times ) , min ( native_times ) , std_native / mean_native , mean / mean_native )
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def do_benchmark ( self , src , args = [ ] , expected_output = ' FAIL ' , main_file = None ) :
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global USE_TYPED_ARRAYS
self . pick_llvm_opts ( 3 , True , USE_TYPED_ARRAYS == 2 )
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dirname = self . get_dir ( )
filename = os . path . join ( dirname , ' src.cpp ' )
self . build ( src , dirname , filename , main_file = main_file )
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final_filename = filename + ' .o.js '
if USE_CLOSURE_COMPILER :
# Optimize using closure compiler
try :
os . remove ( filename + ' .cc.js ' )
except :
pass
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# Something like this (adjust memory as needed):
# java -Xmx1024m -jar CLOSURE_COMPILER --compilation_level ADVANCED_OPTIMIZATIONS --variable_map_output_file src.cpp.o.js.vars --js src.cpp.o.js --js_output_file src.cpp.o.cc.js
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cc_output = Popen ( [ ' java ' , ' -jar ' , CLOSURE_COMPILER ,
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' --compilation_level ' , ' ADVANCED_OPTIMIZATIONS ' ,
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' --formatting ' , ' PRETTY_PRINT ' ,
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' --variable_map_output_file ' , filename + ' .vars ' ,
' --js ' , filename + ' .o.js ' , ' --js_output_file ' , filename + ' .cc.js ' ] , stdout = PIPE , stderr = STDOUT ) . communicate ( ) [ 0 ]
if ' ERROR ' in cc_output :
raise Exception ( ' Error in cc output: ' + cc_output )
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final_filename = filename + ' .cc.js '
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# Run JS
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global total_times
times = [ ]
for i in range ( TEST_REPS ) :
start = time . time ( )
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js_output = self . run_generated_code ( JS_ENGINE , final_filename , args , check_timeout = False )
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curr = time . time ( ) - start
times . append ( curr )
total_times [ i ] + = curr
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if i == 0 :
# Sanity check on output
self . assertContained ( expected_output , js_output )
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# Run natively
self . build_native ( filename )
global total_native_times
native_times = [ ]
for i in range ( TEST_REPS ) :
start = time . time ( )
self . run_native ( filename , args )
curr = time . time ( ) - start
native_times . append ( curr )
total_native_times [ i ] + = curr
self . print_stats ( times , native_times )
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global tests_done
tests_done + = 1
if tests_done == TOTAL_TESTS :
print
print ' Total stats: '
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self . print_stats ( total_times , total_native_times )
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def test_primes ( self ) :
src = '''
#include<stdio.h>
#include<math.h>
int main ( ) {
int primes = 0 , curri = 2 ;
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while ( primes < 100000 ) {
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int ok = true ;
for ( int j = 2 ; j < sqrtf ( curri ) ; j + + ) {
if ( curri % j == 0 ) {
ok = false ;
break ;
}
}
if ( ok ) {
primes + + ;
}
curri + + ;
}
printf ( " lastprime: %d . \\ n " , curri - 1 ) ;
return 1 ;
}
'''
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self . do_benchmark ( src , [ ] , ' lastprime: 1297001. ' )
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def test_memops ( self ) :
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# memcpy would also be interesting, however native code uses SSE/NEON/etc. and is much, much faster than JS can be
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src = '''
#include<stdio.h>
#include<string.h>
#include<stdlib.h>
int main ( ) {
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int N = 1024 * 1024 ;
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int M = 190 ;
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int final = 0 ;
char * buf = ( char * ) malloc ( N ) ;
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for ( int t = 0 ; t < M ; t + + ) {
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for ( int i = 0 ; i < N ; i + + )
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buf [ i ] = ( i + final ) % 256 ;
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for ( int i = 0 ; i < N ; i + + )
final + = buf [ i ] & 1 ;
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final = final % 1000 ;
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}
printf ( " final: %d . \\ n " , final ) ;
return 1 ;
}
'''
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self . do_benchmark ( src , [ ] , ' final: 720. ' )
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def test_fannkuch ( self ) :
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src = open ( path_from_root ( ' tests ' , ' fannkuch.cpp ' ) , ' r ' ) . read ( )
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self . do_benchmark ( src , [ ' 10 ' ] , ' Pfannkuchen(10) = 38. ' )
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def test_fasta ( self ) :
src = open ( path_from_root ( ' tests ' , ' fasta.cpp ' ) , ' r ' ) . read ( )
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self . do_benchmark ( src , [ ' 2100000 ' ] , ''' GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGA \n TCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACT \n AAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAG \n GCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCG \n CCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGT \n GGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCA \n GGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAA \n TTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAG \n AATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCA \n GCCTGGGCGA ''' )
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def test_raytrace ( self ) :
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global QUANTUM_SIZE , USE_TYPED_ARRAYS
old_quantum = QUANTUM_SIZE
old_use_typed_arrays = USE_TYPED_ARRAYS
QUANTUM_SIZE = 1
USE_TYPED_ARRAYS = 0 # Rounding errors with TA2 are too big in this very rounding-sensitive code
src = open ( path_from_root ( ' tests ' , ' raytrace.cpp ' ) , ' r ' ) . read ( ) . replace ( ' double ' , ' float ' ) # benchmark with floats
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self . do_benchmark ( src , [ ' 7 ' , ' 256 ' ] , ' 256 256 ' )
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QUANTUM_SIZE = old_quantum
USE_TYPED_ARRAYS = old_use_typed_arrays
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def test_dlmalloc ( self ) :
global COMPILER_TEST_OPTS ; COMPILER_TEST_OPTS = [ ' -g ' ]
global CORRECT_SIGNS ; CORRECT_SIGNS = 2
global CORRECT_SIGNS_LINES ; CORRECT_SIGNS_LINES = [ ' src.cpp: ' + str ( i ) for i in [ 4816 , 4191 , 4246 , 4199 , 4205 , 4235 , 4227 ] ]
src = open ( path_from_root ( ' tests ' , ' dlmalloc.c ' ) , ' r ' ) . read ( )
self . do_benchmark ( src , [ ' 400 ' , ' 400 ' ] , ' *400,0* ' )
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if __name__ == ' __main__ ' :
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sys . argv = [ sys . argv [ 0 ] ] + [ ' -v ' ] + sys . argv [ 1 : ] # Verbose output by default
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for cmd in [ CLANG , LLVM_GCC , LLVM_DIS , SPIDERMONKEY_ENGINE [ 0 ] , V8_ENGINE [ 0 ] ] :
if not os . path . exists ( cmd ) :
print ' WARNING: Cannot find ' , cmd
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unittest . main ( )
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