Index: lib/Transforms/InstCombine/InstCombineCompares.cpp
===================================================================
--- lib/Transforms/InstCombine/InstCombineCompares.cpp
+++ lib/Transforms/InstCombine/InstCombineCompares.cpp
@@ -1085,29 +1085,33 @@
     return getICmp(I.ICMP_EQ, A, ConstantInt::getNullValue(A->getType()));
   }
 
+  bool IsNegative = false;
   if (IsAShr) {
     if (AP1.isNegative() != AP2.isNegative()) {
       // Arithmetic shift will never change the sign.
       return getConstant(false);
     }
-    // Both the constants are negative, take their positive to calculate
-    // log.
+    // Both the constants are negative, take their positive to calculate log.
     if (AP1.isNegative()) {
-      AP1 = -AP1;
-      AP2 = -AP2;
+      if (AP1.slt(AP2))
+        // Right-shifting won't increase the magnitude.
+        return getConstant(false);
+      IsNegative = true;
     }
   }
 
-  if (AP1.ugt(AP2)) {
-    // Right-shifting will not increase the value.
+  if (!IsNegative && AP1.ugt(AP2))
+    // Right-shifting won't increase the magnitude.
     return getConstant(false);
-  }
 
   // Get the distance between the highest bit that's set.
-  int Shift = AP2.logBase2() - AP1.logBase2();
+  int Shift;
+  if (IsNegative)
+    Shift = (-AP2).logBase2() - (-AP1).logBase2();
+  else
+    Shift = AP2.logBase2() - AP1.logBase2();
 
-  // Use lshr here, since we've canonicalized to +ve numbers.
-  if (AP1 == AP2.lshr(Shift))
+  if (IsAShr ? AP1 == AP2.ashr(Shift) : AP1 == AP2.lshr(Shift))
     return getICmp(I.ICMP_EQ, A, ConstantInt::get(A->getType(), Shift));
 
   // Shifting const2 will never be equal to const1.
Index: test/Transforms/InstCombine/icmp-shr.ll
===================================================================
--- test/Transforms/InstCombine/icmp-shr.ll
+++ test/Transforms/InstCombine/icmp-shr.ll
@@ -675,3 +675,18 @@
  %cmp = icmp ne i8 %shr, -30
  ret i1 %cmp
 }
+
+; Don't try to fold the entire body of function @PR20945 into a
+; single `ret i1 true` statement.
+; If %B is equal to 1, then this function would return false.
+; As a consequence, the instruction combiner is not allowed to fold %cmp
+; to 'true'. Instead, it should replace %cmp with a simpler comparison
+; between %B and 1.
+
+; CHECK-LABEL: @PR20945(
+; CHECK: icmp ne i32 %B, 1
+define i1 @PR20945(i32 %B) {
+  %shr = ashr i32 -9, %B
+  %cmp = icmp ne i32 %shr, -5
+  ret i1 %cmp
+}