# $FreeBSD$ # Test for broken LHS expansion. # This *must* case make(1) to detect a recursive variable, and fail as such. .if make(lhs_expn) FOO= ${BAR} BAR${NIL}= ${FOO} FOO${BAR}= ${FOO} .endif DATA1= helllo DATA2:= ${DATA1} DATA3= ${DATA2:S/ll/rr/g} DATA4:= ${DATA2:S/ll/rr/g} DATA2?= allo DATA5:= ${DATA2:S/ll/ii/g} ${DATA1:S/ll/rr/g} DATA2= yello DATA1:= ${DATA5:S/l/r/g} NIL= all: @echo "Running test variables" @echo 1:${DATA1} 2:${DATA2} 3:${DATA3} 4:${DATA4} 5:${DATA5} | \ diff -u ${.CURDIR}/regress.variables.out - || ${MAKE} failure @echo "PASS: Test variables detected no regression, output matches." @echo "Running test targets" @${MAKE} double || ${MAKE} failure @echo "PASS: Test targets detected no regression." @echo "Running test sysvmatch" @${MAKE} sysvmatch || ${MAKE} failure @echo "PASS: Test sysvmatch detected no regression." @echo "Running test lhs_expn" @! ${MAKE} lhs_expn && true || ${MAKE} failure @echo "PASS: Test lhs_expn detected no regression." # Doubly-defined targets. NetBSD make(1) will warn, ours will silently use the # ``right'' one. double: @true double: @false # Some versions of FreeBSD make(1) do not handle a nil LHS in sysvsubst. sysvmatch: @echo EMPTY ${NIL:=foo} LHS | \ diff -u ${.CURDIR}/regress.sysvmatch.out - || false # A bogus target for the lhs_expn test; If this is reached, then the make(1) # program has not errored out because of the recursion caused by not expanding # the left-hand-side's embedded variables above. lhs_expn: @true failure: @echo "FAIL: Test failed: regression detected. See above." @false