ORGANIZATION_BLOCK OB 1 BEGIN // Check instance-DB length AUF DB 1 L DBLG __ASSERT== __ACCU 1, 10 AUF DB 0 // Test CTU counter CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := TRUE, R := FALSE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 1 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 1 CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 1 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := TRUE, R := FALSE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 2 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 1 CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 2 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 // Check Reset CALL SFB 0, DB 1 ( CU := TRUE, R := TRUE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 1 CALL SFB 0, DB 1 ( CU := FALSE, R := TRUE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := TRUE, R := TRUE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 1 CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 2, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 // Test limit L 32766 T DB1.DBW 6 // CV CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 32767, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 32766 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := TRUE, R := FALSE, PV := 32767, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 32767 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 1 CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 32767, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 32767 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := TRUE, R := FALSE, PV := 32767, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 32767 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 1 CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 32767, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 32767 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := TRUE, R := FALSE, PV := 32767, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 32767 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 1 CALL SFB 0, DB 1 ( CU := FALSE, R := TRUE, PV := 0, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := -1, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 L -1 T DB1.DBW 6 // CV CALL SFB 0, DB 1 ( CU := FALSE, R := FALSE, PV := 0, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, -1 U M 0.0 __ASSERT== __STW VKE, 0 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 CALL SFB 0, DB 1 ( CU := FALSE, R := TRUE, PV := 0, Q := M 0.0, CV := MW 2, ) L MW 2 __ASSERT== __ACCU 1, 0 U M 0.0 __ASSERT== __STW VKE, 1 U DB1.DBX 8.0 // CUO __ASSERT== __STW VKE, 0 END_ORGANIZATION_BLOCK DATA_BLOCK DB 1 SFB 0 BEGIN END_DATA_BLOCK