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test('num001', normal, compile_and_run, [''])
test('num002', normal, compile_and_run, [''])
test('num003', normal, compile_and_run, [''])
test('num004', normal, compile_and_run, [''])
test('num005', normal, compile_and_run, [''])
test('num006', normal, compile_and_run, [''])
test('num007', normal, compile_and_run, [''])
test('num008', normal, compile_and_run, [''])
# On i386, we need -msse2 to get reliable floating point results
if config.arch == 'i386':
opts = '-msse2'
else:
opts = ''
test('num009', [ when(fast(), skip)
, when(wordsize(32), expect_broken(15062))
, when(platform('i386-apple-darwin'), expect_broken(2370))
, when(platform('powerpc64le-unknown-linux'), expect_broken(13634))
, when(opsys('mingw32'), omit_ways(['ghci'])) ],
# We get different results at 1e20 on x86/Windows, so there is
# a special output file for that. I (SDM) don't think these are
# serious, since the results for lower numbers are all fine.
# We also get another set of results for 1e02 with GHCi, so
# I'm skipping that way altogether.
compile_and_run, [opts])
test('num010',
when(platform('i386-apple-darwin'), expect_broken_for(7043, 'ghci')),
compile_and_run,
[''])
test('sqrt', normal, compile_and_run, [''])
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