; RUN: %S/ConcreteTest.py --klee='%klee' --lli=%lli %s ; Most of the test below use the *address* of gInt as part of their computation, ; and then perform some operation (like x | ~x) which makes the result ; deterministic. They do, however, assume that the sign bit of the address as a ; 64-bit value will never be set. @gInt = global i32 10 @gIntWithConstant = global i32 sub(i32 ptrtoint(i32* @gInt to i32), i32 ptrtoint(i32* @gInt to i32)) define void @"test_int_to_ptr"() { %t1 = add i8 ptrtoint(i8* inttoptr(i32 100 to i8*) to i8), 0 %t2 = add i32 ptrtoint(i32* inttoptr(i8 100 to i32*) to i32), 0 %t3 = add i32 ptrtoint(i32* inttoptr(i64 100 to i32*) to i32), 0 %t4 = add i64 ptrtoint(i8* inttoptr(i32 100 to i8*) to i64), 0 call void @print_i8(i8 %t1) call void @print_i32(i32 %t2) call void @print_i32(i32 %t3) call void @print_i64(i64 %t4) ret void } define void @"test_constant_ops"() { %t1 = add i8 trunc(i64 add(i64 ptrtoint(i32* @gInt to i64), i64 -10) to i8), 10 %t2 = and i64 sub(i64 sext(i32 ptrtoint(i32* @gInt to i32) to i64), i64 ptrtoint(i32* @gInt to i64)), 4294967295 %t3 = and i64 sub(i64 zext(i32 ptrtoint(i32* @gInt to i32) to i64), i64 ptrtoint(i32* @gInt to i64)), 4294967295 %t4 = icmp eq i8 trunc(i64 ptrtoint(i32* @gInt to i64) to i8), %t1 %t5 = zext i1 %t4 to i8 call void @print_i8(i8 %t5) call void @print_i64(i64 %t2) call void @print_i64(i64 %t3) ret void } define void @"test_logical_ops"() { %t1 = add i32 -10, and(i32 ptrtoint(i32* @gInt to i32), i32 xor(i32 ptrtoint(i32* @gInt to i32), i32 -1)) %t2 = add i32 -10, or(i32 ptrtoint(i32* @gInt to i32), i32 xor(i32 ptrtoint(i32* @gInt to i32), i32 -1)) %t3 = add i32 -10, xor(i32 xor(i32 ptrtoint(i32* @gInt to i32), i32 1024), i32 ptrtoint(i32* @gInt to i32)) call void @print_i32(i32 %t1) call void @print_i32(i32 %t2) call void @print_i32(i32 %t3) ; or the address with 1 to ensure the addresses will differ in 'ne' below %t4 = shl i64 lshr(i64 or(i64 ptrtoint(i32* @gInt to i64), i64 1), i64 8), 8 %t5 = shl i64 ashr(i64 or(i64 ptrtoint(i32* @gInt to i64), i64 1), i64 8), 8 %t6 = lshr i64 shl(i64 or(i64 ptrtoint(i32* @gInt to i64), i64 1), i64 8), 8 %t7 = icmp eq i64 %t4, %t5 %t8 = icmp ne i64 %t4, %t6 %t9 = zext i1 %t7 to i8 %t10 = zext i1 %t8 to i8 call void @print_i8(i8 %t9) call void @print_i8(i8 %t10) ret void } %test.struct.type = type { i32, i32 } @test_struct = global %test.struct.type { i32 0, i32 10 } define void @"test_misc"() { ; probability that @gInt == 100 is very very low %t1 = add i32 select(i1 icmp eq (i32* @gInt, i32* inttoptr(i32 100 to i32*)), i32 10, i32 0), 0 call void @print_i32(i32 %t1) %t2 = load i32* getelementptr(%test.struct.type* @test_struct, i32 0, i32 1) call void @print_i32(i32 %t2) ret void } define void @"test_simple_arith"() { %t1 = add i32 add(i32 ptrtoint(i32* @gInt to i32), i32 0), 0 %t2 = add i32 sub(i32 0, i32 ptrtoint(i32* @gInt to i32)), %t1 %t3 = mul i32 mul(i32 ptrtoint(i32* @gInt to i32), i32 10), %t2 call void @print_i32(i32 %t3) ret void } define void @"test_div_and_mod"() { %t1 = add i32 udiv(i32 ptrtoint(i32* @gInt to i32), i32 13), 0 %t2 = add i32 urem(i32 ptrtoint(i32* @gInt to i32), i32 13), 0 %t3 = add i32 sdiv(i32 ptrtoint(i32* @gInt to i32), i32 13), 0 %t4 = add i32 srem(i32 ptrtoint(i32* @gInt to i32), i32 13), 0 %p = ptrtoint i32* @gInt to i32 %i1 = udiv i32 %p, 13 %i2 = urem i32 %p, 13 %i3 = sdiv i32 %p, 13 %i4 = srem i32 %p, 13 %x1 = sub i32 %t1, %i1 %x2 = sub i32 %t2, %i2 %x3 = sub i32 %t3, %i3 %x4 = sub i32 %t4, %i4 call void @print_i32(i32 %x1) call void @print_i32(i32 %x2) call void @print_i32(i32 %x3) call void @print_i32(i32 %x4) ret void } define void @test_cmp() { %t1 = add i8 zext(i1 icmp ult (i64 ptrtoint(i32* @gInt to i64), i64 0) to i8), 1 %t2 = add i8 zext(i1 icmp ule (i64 ptrtoint(i32* @gInt to i64), i64 0) to i8), 1 %t3 = add i8 zext(i1 icmp uge (i64 ptrtoint(i32* @gInt to i64), i64 0) to i8), 1 %t4 = add i8 zext(i1 icmp ugt (i64 ptrtoint(i32* @gInt to i64), i64 0) to i8), 1 %t5 = add i8 zext(i1 icmp slt (i64 ptrtoint(i32* @gInt to i64), i64 0) to i8), 1 %t6 = add i8 zext(i1 icmp sle (i64 ptrtoint(i32* @gInt to i64), i64 0) to i8), 1 %t7 = add i8 zext(i1 icmp sge (i64 ptrtoint(i32* @gInt to i64), i64 0) to i8), 1 %t8 = add i8 zext(i1 icmp sgt (i64 ptrtoint(i32* @gInt to i64), i64 0) to i8), 1 %t9 = add i8 zext(i1 icmp eq (i64 ptrtoint(i32* @gInt to i64), i64 10) to i8), 1 %t10 = add i8 zext(i1 icmp ne (i64 ptrtoint(i32* @gInt to i64), i64 10) to i8), 1 call void @print_i1(i8 %t1) call void @print_i1(i8 %t2) call void @print_i1(i8 %t3) call void @print_i1(i8 %t4) call void @print_i1(i8 %t5) call void @print_i1(i8 %t6) call void @print_i1(i8 %t7) call void @print_i1(i8 %t8) call void @print_i1(i8 %t9) call void @print_i1(i8 %t10) ret void } define i32 @main() { call void @test_simple_arith() call void @test_div_and_mod() call void @test_cmp() call void @test_int_to_ptr() call void @test_constant_ops() call void @test_logical_ops() call void @test_misc() ret i32 0 } ; defined in print_int.c declare void @print_i1(i8) declare void @print_i8(i8) declare void @print_i16(i16) declare void @print_i32(i32) declare void @print_i64(i64)