############################################################################## # data validation # # 1. should prompt again for a bad date rm -f t$$.j; bin/hledger -f t$$.j add; rm -f t$$.j <<< 2009/1/32 >>> /date, or \. to end.*: date, or \. to end.*/ >>>=0 # 2. should accept a blank date rm -f t$$.j; bin/hledger -f t$$.j add; rm -f t$$.j <<< >>> /date,.*: description/ >>>=0 ############################################################################## # precision and commodity handling # # 3. simple add with no existing journal, no commodity entered rm -f t$$.j; bin/hledger -f t$$.j add; rm -f t$$.j <<< a 1000.0 b . >>> /^date, or \. to end \[.*\]: description \[\]: account 1: amount 1: account 2: amount 2 \[-1000.0\]: account 3, or \. to record: date, or \. to end \[.*\]: $/ >>>=0 # 4. default commodity with greater precision printf 'D $1000.00\n' >t$$.j; bin/hledger -f t$$.j add >/dev/null; cat t$$.j; rm -f t$$.j <<< a $1000.0 b . >>> /a +\$1000\.0/ >>>=0 # 5. default commodity with less precision printf 'D $1000.0\n' >t$$.j; bin/hledger -f t$$.j add >/dev/null; cat t$$.j; rm -f t$$.j <<< a $1000.00 b . >>> /a +\$1000\.00/ >>>=0 # 6. existing commodity with greater precision printf '2010/1/1\n a $1000.00\n b\n' >t$$.j; bin/hledger -f t$$.j add >/dev/null; cat t$$.j; rm -f t$$.j <<< a $1000.0 b . >>> /a +\$1000\.0/ >>>=0 # 7. existing commodity with less precision printf '2010/1/1\n a $1000.0\n b\n' >t$$.j; bin/hledger -f t$$.j add >/dev/null; cat t$$.j; rm -f t$$.j <<< a $1000.00 b . >>> /a +\$1000\.00/ >>>=0 # 8. no commodity entered, the (most recent) default commodity should be applied printf 'D $1000.0\nD £1,000.00\n' >t$$.j; bin/hledger -f t$$.j add; cat t$$.j; rm -f t$$.j <<< 2010/1/1 a 1000 b . >>> /a +£1,000.00/ >>>=0 # 9. default amounts should not fail to balance due to precision rm -f nosuch.journal; bin/hledger -f nosuch.journal add; rm -f nosuch.journal <<< 2010/1/1 x a 0.25 b 0.5 c >>> /amount 3 \[-0.75\]/ >>>=0