Merge pull request #3658 from rtfeldman/wasm-fix-shiftRightBy

wasm: Fix shiftRightBy for U8 and U16

crates/compiler/gen_wasm/src/low_level.rs

@@ -1610,13 +1610,46 @@ impl<'a> LowLevelCall<'a> {
                 }
             }
             NumShiftRightBy => {
-                backend.storage.load_symbols(
-                    &mut backend.code_builder,
-                    &[self.arguments[1], self.arguments[0]],
-                );
+                let bits = self.arguments[0];
+                let num = self.arguments[1];
                 match CodeGenNumType::from(self.ret_layout) {
-                    I32 => backend.code_builder.i32_shr_s(),
-                    I64 => backend.code_builder.i64_shr_s(),
+                    I32 => {
+                        // In most languages this operation is for signed numbers, but Roc defines it on all integers.
+                        // So the argument is implicitly converted to signed before the shift operator.
+                        // We need to make that conversion explicit for i8 and i16, which use Wasm's i32 type.
+                        let bit_width = 8 * self.ret_layout.stack_size(TARGET_INFO) as i32;
+                        if bit_width < 32 && !symbol_is_signed_int(backend, num) {
+                            // Sign-extend the number by shifting left and right again
+                            backend
+                                .storage
+                                .load_symbols(&mut backend.code_builder, &[num]);
+                            backend.code_builder.i32_const(32 - bit_width);
+                            backend.code_builder.i32_shl();
+                            backend.code_builder.i32_const(32 - bit_width);
+                            backend.code_builder.i32_shr_s();
+                            backend
+                                .storage
+                                .load_symbols(&mut backend.code_builder, &[bits]);
+
+                            // Do the actual bitshift operation
+                            backend.code_builder.i32_shr_s();
+
+                            // Restore to unsigned
+                            backend.code_builder.i32_const((1 << bit_width) - 1);
+                            backend.code_builder.i32_and();
+                        } else {
+                            backend
+                                .storage
+                                .load_symbols(&mut backend.code_builder, &[num, bits]);
+                            backend.code_builder.i32_shr_s();
+                        }
+                    }
+                    I64 => {
+                        backend
+                            .storage
+                            .load_symbols(&mut backend.code_builder, &[num, bits]);
+                        backend.code_builder.i64_shr_s();
+                    }
                     I128 => todo!("{:?} for I128", self.lowlevel),
                     _ => panic_ret_type(),
                 }
@@ -1624,7 +1657,7 @@ impl<'a> LowLevelCall<'a> {
             NumShiftRightZfBy => {
                 match CodeGenNumType::from(self.ret_layout) {
                     I32 => {
-                        // This is normally an unsigned operation, but Roc defines it on all integer types.
+                        // In most languages this operation is for unsigned numbers, but Roc defines it on all integers.
                         // So the argument is implicitly converted to unsigned before the shift operator.
                         // We need to make that conversion explicit for i8 and i16, which use Wasm's i32 type.
                         let bit_width = 8 * self.ret_layout.stack_size(TARGET_INFO);

crates/compiler/test_gen/src/gen_num.rs

@@ -2004,25 +2004,22 @@ fn shift_left_by() {
 fn shift_right_by() {
     // Sign Extended Right Shift
 
-    let is_wasm = cfg!(feature = "gen-wasm");
     let is_llvm_release_mode = cfg!(feature = "gen-llvm") && !cfg!(debug_assertions);
 
     // FIXME (Brian) Something funny happening with 8-bit binary literals in tests
-    if !is_wasm {
-        assert_evals_to!(
-            "Num.shiftRightBy 2 (Num.toI8 0b1100_0000u8)",
-            0b1111_0000u8 as i8,
-            i8
-        );
-        assert_evals_to!("Num.shiftRightBy 2 0b0100_0000i8", 0b0001_0000i8, i8);
-        assert_evals_to!("Num.shiftRightBy 1 0b1110_0000u8", 0b1111_0000u8, u8);
-        assert_evals_to!("Num.shiftRightBy 2 0b1100_0000u8", 0b1111_0000u8, u8);
-        assert_evals_to!("Num.shiftRightBy 12 0b0100_0000u8", 0b0000_0000u8, u8);
+    assert_evals_to!(
+        "Num.shiftRightBy 2 (Num.toI8 0b1100_0000u8)",
+        0b1111_0000u8 as i8,
+        i8
+    );
+    assert_evals_to!("Num.shiftRightBy 2 0b0100_0000i8", 0b0001_0000i8, i8);
+    assert_evals_to!("Num.shiftRightBy 1 0b1110_0000u8", 0b1111_0000u8, u8);
+    assert_evals_to!("Num.shiftRightBy 2 0b1100_0000u8", 0b1111_0000u8, u8);
+    assert_evals_to!("Num.shiftRightBy 12 0b0100_0000u8", 0b0000_0000u8, u8);
 
-        // LLVM in release mode returns 0 instead of -1 for some reason
-        if !is_llvm_release_mode {
-            assert_evals_to!("Num.shiftRightBy 12 0b1000_0000u8", 0b1111_1111u8, u8);
-        }
+    // LLVM in release mode returns 0 instead of -1 for some reason
+    if !is_llvm_release_mode {
+        assert_evals_to!("Num.shiftRightBy 12 0b1000_0000u8", 0b1111_1111u8, u8);
     }
     assert_evals_to!("Num.shiftRightBy 0 12", 12, i64);
     assert_evals_to!("Num.shiftRightBy 1 12", 6, i64);