# Taken from Features/ExprLogging.c # FIXME: Make this test actual check for something (other than # crashing/errors). # RUN: %kleaver -print-ast %s # Query 0 -- Type: Truth, Instructions: 31 array arr53[4] : w32 -> w8 = symbolic (query [] (Not (Ult (ReadLSB w32 0 arr53) 16))) # OK -- Elapsed: 0.00137401 # Is Valid: false # Query 1 -- Type: Value, Instructions: 39 array arr53[4] : w32 -> w8 = symbolic (query [(Ult N0:(ReadLSB w32 0 arr53) 16)] false [(Add w32 31543488 (Mul w32 4 N0))]) # OK -- Elapsed: 0.000108004 # Result: 31543488 # Query 2 -- Type: Truth, Instructions: 39 array arr53[4] : w32 -> w8 = symbolic (query [(Ult N0:(ReadLSB w32 0 arr53) 16)] (Ult (Mul w32 4 N0) 61)) # OK -- Elapsed: 0.00140095 # Is Valid: true # Query 3 -- Type: Truth, Instructions: 55 array arr53[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16)] (Not (Ult (ReadLSB w32 0 arr60) 16))) # OK -- Elapsed: 0.00106597 # Is Valid: false # Query 4 -- Type: Value, Instructions: 60 array arr53[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult N0:(ReadLSB w32 0 arr60) 16)] false [(Add w32 31543488 (Mul w32 4 N0))]) # OK -- Elapsed: 0.000138998 # Result: 31543488 # Query 5 -- Type: Truth, Instructions: 60 array arr53[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult N0:(ReadLSB w32 0 arr60) 16)] (Ult (Mul w32 4 N0) 61)) # OK -- Elapsed: 0.00137782 # Is Valid: true # Query 6 -- Type: Truth, Instructions: 77 array arr53[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16)] (Not (Ult (ReadLSB w32 0 arr67) 16))) # OK -- Elapsed: 0.001127 # Is Valid: false # Query 7 -- Type: Value, Instructions: 85 array arr53[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16) (Ult N0:(ReadLSB w32 0 arr67) 16)] false [(Add w32 31543488 (Mul w32 4 N0))]) # OK -- Elapsed: 0.000175953 # Result: 31543488 # Query 8 -- Type: Truth, Instructions: 85 array arr53[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16) (Ult N0:(ReadLSB w32 0 arr67) 16)] (Ult (Mul w32 4 N0) 61)) # OK -- Elapsed: 0.00141382 # Is Valid: true # Query 9 -- Type: Truth, Instructions: 101 array arr53[4] : w32 -> w8 = symbolic array arr74[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16) (Ult (ReadLSB w32 0 arr67) 16)] (And (Not (Eq 3 N0:(ReadLSB w32 0 arr74))) (And (Not (Eq 2 N0)) (And (Not (Eq 1 N0)) (Not (Eq 0 N0)))))) # OK -- Elapsed: 0.00157499 # Is Valid: false # Query 10 -- Type: Value, Instructions: 106 array arr53[4] : w32 -> w8 = symbolic array arr74[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16) (Ult (ReadLSB w32 0 arr67) 16) (Not (And (Not (Eq 3 N0:(ReadLSB w32 0 arr74))) (And (Not (Eq 2 N0)) (And (Not (Eq 1 N0)) (Not (Eq 0 N0))))))] false [(Add w32 31583232 N0)]) # OK -- Elapsed: 0.000259876 # Result: 31583235 # Query 11 -- Type: Truth, Instructions: 106 array arr53[4] : w32 -> w8 = symbolic array arr74[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16) (Ult (ReadLSB w32 0 arr67) 16) (Not (And (Not N0:(Eq 3 N1:(ReadLSB w32 0 arr74))) (And (Not N2:(Eq 2 N1)) (And (Not N3:(Eq 1 N1)) (Not N4:(Eq 0 N1))))))] (Or N0 (Or N2 (Or N3 N4)))) # OK -- Elapsed: 0.00194788 # Is Valid: true # Query 12 -- Type: Truth, Instructions: 112 array arr53[4] : w32 -> w8 = symbolic array arr49[4] : w32 -> w8 = symbolic array arr74[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16) (Ult (ReadLSB w32 0 arr67) 16) (Not (And (Not (Eq 3 N0:(ReadLSB w32 0 arr74))) (And (Not (Eq 2 N0)) (And (Not (Eq 1 N0)) (Not (Eq 0 N0))))))] (Not (Eq 104 (Read w8 0 [N0=0, 1=97] @ arr49)))) # OK -- Elapsed: 0.0030148 # Is Valid: false # Query 13 -- Type: Truth, Instructions: 122 array arr53[4] : w32 -> w8 = symbolic array arr49[4] : w32 -> w8 = symbolic array arr74[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult (ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16) (Ult (ReadLSB w32 0 arr67) 16) (Not (And (Not (Eq 3 N0:(ReadLSB w32 0 arr74))) (And (Not (Eq 2 N0)) (And (Not (Eq 1 N0)) (Not (Eq 0 N0)))))) (Eq 104 (Read w8 0 U0:[N0=0, 1=97] @ arr49))] (Not (Slt 2 (Concat w32 (Read w8 3 U0) (Concat w24 (Read w8 2 U0) (Concat w16 (Read w8 1 U0) (w8 104))))))) # OK -- Elapsed: 0.000394106 # Is Valid: false # Query 14 -- Type: Truth, Instructions: 128 array arr5[64] : w32 -> w8 = symbolic array arr53[4] : w32 -> w8 = symbolic array arr49[4] : w32 -> w8 = symbolic array arr74[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult N0:(ReadLSB w32 0 arr53) 16) (Ult (ReadLSB w32 0 arr60) 16) (Ult N1:(ReadLSB w32 0 arr67) 16) (Not (And (Not (Eq 3 N2:(ReadLSB w32 0 arr74))) (And (Not (Eq 2 N2)) (And (Not (Eq 1 N2)) (Not (Eq 0 N2)))))) (Eq 104 (Read w8 0 U0:[N2=0, 1=97] @ arr49)) (Slt 2 N3:(Concat w32 (Read w8 3 U0) (Concat w24 (Read w8 2 U0) (Concat w16 (Read w8 1 U0) (w8 104)))))] (Not (Eq (ReadLSB w32 48 U1:[N4:(Mul w32 4 N1)=(Extract w8 0 N5:(SExt w32 (Read w8 3 arr49))), (Add w32 1 N4)=(Extract w8 8 N5), (Add w32 2 N4)=(Extract w8 16 N5), (Add w32 3 N4)=(Extract w8 24 N5), N6:(Mul w32 4 N0)=(Extract w8 0 N7:(SExt w32 (Read w8 0 arr49))), (Add w32 1 N6)=(Extract w8 8 N7), (Add w32 2 N6)=(Extract w8 16 N7), (Add w32 3 N6)=(Extract w8 24 N7), 63=0, 62=0, 61=128, 60=0, 59=0, 58=0, 57=64, 56=0, 55=0, 54=0, 53=32, 52=0, 51=0, 50=0, 49=16, 48=0, 47=0, 46=0, 45=8, 44=0, 43=0, 42=0, 41=4, 40=0, 39=0, 38=0, 37=2, 36=0, 35=0, 34=0, 33=1, 32=0, 31=0, 30=0, 29=0, 28=128, 27=0, 26=0, 25=0, 24=64, 23=0, 22=0, 21=0, 20=32, 19=0, 18=0, 17=0, 16=16, 15=0, 14=0, 13=0, 12=8, 11=0, 10=0, 9=0, 8=4, 7=0, 6=0, 5=0, 4=2, 3=0, 2=0, 1=0, 0=1] @ arr5) N3))) # OK -- Elapsed: 0.0180621 # Is Valid: false # Query 15 -- Type: Truth, Instructions: 133 array arr5[64] : w32 -> w8 = symbolic array arr53[4] : w32 -> w8 = symbolic array arr49[4] : w32 -> w8 = symbolic array arr74[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult N0:(ReadLSB w32 0 arr53) 16) (Ult N1:(ReadLSB w32 0 arr60) 16) (Ult N2:(ReadLSB w32 0 arr67) 16) (Not (And (Not (Eq 3 N3:(ReadLSB w32 0 arr74))) (And (Not (Eq 2 N3)) (And (Not (Eq 1 N3)) (Not (Eq 0 N3)))))) (Eq 104 (Read w8 0 U0:[N3=0, 1=97] @ arr49)) (Slt 2 N4:(Concat w32 (Read w8 3 U0) (Concat w24 (Read w8 2 U0) (Concat w16 (Read w8 1 U0) (w8 104))))) (Eq (ReadLSB w32 48 U1:[N5:(Mul w32 4 N2)=(Extract w8 0 N6:(SExt w32 (Read w8 3 arr49))), (Add w32 1 N5)=(Extract w8 8 N6), (Add w32 2 N5)=(Extract w8 16 N6), (Add w32 3 N5)=(Extract w8 24 N6)] @ U2:[N7:(Mul w32 4 N0)=(Extract w8 0 N8:(SExt w32 (Read w8 0 arr49))), (Add w32 1 N7)=(Extract w8 8 N8), (Add w32 2 N7)=(Extract w8 16 N8), (Add w32 3 N7)=(Extract w8 24 N8), 63=0, 62=0, 61=128, 60=0, 59=0, 58=0, 57=64, 56=0, 55=0, 54=0, 53=32, 52=0, 51=0, 50=0, 49=16, 48=0, 47=0, 46=0, 45=8, 44=0, 43=0, 42=0, 41=4, 40=0, 39=0, 38=0, 37=2, 36=0, 35=0, 34=0, 33=1, 32=0, 31=0, 30=0, 29=0, 28=128, 27=0, 26=0, 25=0, 24=64, 23=0, 22=0, 21=0, 20=32, 19=0, 18=0, 17=0, 16=16, 15=0, 14=0, 13=0, 12=8, 11=0, 10=0, 9=0, 8=4, 7=0, 6=0, 5=0, 4=2, 3=0, 2=0, 1=0, 0=1] @ arr5) N4)] (Eq 32 (ReadLSB w32 N9:(Mul w32 4 N1) U2))) # OK -- Elapsed: 0.00104594 # Is Valid: false # Query 16 -- Type: InitialValues, Instructions: 135 array arr5[64] : w32 -> w8 = symbolic array arr53[4] : w32 -> w8 = symbolic array arr49[4] : w32 -> w8 = symbolic array arr74[4] : w32 -> w8 = symbolic array arr60[4] : w32 -> w8 = symbolic array arr67[4] : w32 -> w8 = symbolic (query [(Ult N0:(ReadLSB w32 0 arr53) 16) (Ult N1:(ReadLSB w32 0 arr60) 16) (Ult N2:(ReadLSB w32 0 arr67) 16) (Not (And (Not (Eq 3 N3:(ReadLSB w32 0 arr74))) (And (Not (Eq 2 N3)) (And (Not (Eq 1 N3)) (Not (Eq 0 N3)))))) (Eq 104 (Read w8 0 U0:[N3=0, 1=97] @ arr49)) (Slt 2 N4:(Concat w32 (Read w8 3 U0) (Concat w24 (Read w8 2 U0) (Concat w16 (Read w8 1 U0) (w8 104))))) (Eq (ReadLSB w32 48 U1:[N5:(Mul w32 4 N2)=(Extract w8 0 N6:(SExt w32 (Read w8 3 arr49))), (Add w32 1 N5)=(Extract w8 8 N6), (Add w32 2 N5)=(Extract w8 16 N6), (Add w32 3 N5)=(Extract w8 24 N6)] @ U2:[N7:(Mul w32 4 N0)=(Extract w8 0 N8:(SExt w32 (Read w8 0 arr49))), (Add w32 1 N7)=(Extract w8 8 N8), (Add w32 2 N7)=(Extract w8 16 N8), (Add w32 3 N7)=(Extract w8 24 N8), 63=0, 62=0, 61=128, 60=0, 59=0, 58=0, 57=64, 56=0, 55=0, 54=0, 53=32, 52=0, 51=0, 50=0, 49=16, 48=0, 47=0, 46=0, 45=8, 44=0, 43=0, 42=0, 41=4, 40=0, 39=0, 38=0, 37=2, 36=0, 35=0, 34=0, 33=1, 32=0, 31=0, 30=0, 29=0, 28=128, 27=0, 26=0, 25=0, 24=64, 23=0, 22=0, 21=0, 20=32, 19=0, 18=0, 17=0, 16=16, 15=0, 14=0, 13=0, 12=8, 11=0, 10=0, 9=0, 8=4, 7=0, 6=0, 5=0, 4=2, 3=0, 2=0, 1=0, 0=1] @ arr5) N4) (Not (Eq 32 (ReadLSB w32 N9:(Mul w32 4 N1) U2)))] false [] [arr49 arr53 arr60 arr67 arr74]) # OK -- Elapsed: 0.000574112 # Solvable: true # arr49 = [104,0,0,0] # arr53 = [12,0,0,0] # arr60 = [0,0,0,0] # arr67 = [0,0,0,0] # arr74 = [1,0,0,0]