test/Fir/rebox-susbtring.fir - llvm-project/flang - Git at Google

 // Test translation to llvm IR of fir.rebox with substring array sections.

 // RUN: fir-opt -o - -cg-rewrite --fir-to-llvm-ir -cse %s | FileCheck %s
 // RUN: tco -o - -cg-rewrite --fir-to-llvm-ir -cse %s | FileCheck %s

 // Test a fir.rebox with a substring on a character array with constant
 // length (like c(:)(2:*) where c is a fir.box array with constant length).

 // CHECK-LABEL: llvm.func @char_section(
 // CHECK-SAME:                          %[[VAL_0:.*]]: !llvm.ptr) {
 func.func @char_section(%arg0: !fir.box<!fir.array<?x!fir.char<1,20>>>) {
   %c7_i64 = arith.constant 7 : i64
   %c1_i64 = arith.constant 1 : i64
   %c0 = arith.constant 0 : index
   %c1 = arith.constant 1 : index
   %0:3 = fir.box_dims %arg0, %c0 : (!fir.box<!fir.array<?x!fir.char<1,20>>>, index) -> (index, index, index)
   %1 = fir.slice %c1, %0#1, %c1_i64 substr %c1_i64, %c7_i64 : (index, index, i64, i64, i64) -> !fir.slice<1>

 // Only test the computation of the base address offset computation accounting for the substring

 // CHECK:         %[[VAL_4:.*]] = llvm.mlir.constant(1 : i64) : i64

 // CHECK:         %[[VAL_37:.*]] = llvm.getelementptr %[[VAL_0]]{{\[}}0, 0] : (!llvm.ptr) -> !llvm.ptr, !llvm.struct<{{.*}}>
 // CHECK:         %[[VAL_38:.*]] = llvm.load %[[VAL_37]] : !llvm.ptr -> !llvm.ptr
 // CHECK:         %[[VAL_30:.*]] = llvm.mlir.constant(0 : i64) : i64
 // CHECK:         %[[VAL_40:.*]] = llvm.getelementptr %[[VAL_38]]{{\[}}%[[VAL_30]], %[[VAL_4]]] : (!llvm.ptr, i64, i64) -> !llvm.ptr, !llvm.array<20 x i8>

 // More offset computation with descriptor strides and triplets that is not character specific ...

   %2 = fir.rebox %arg0 [%1] : (!fir.box<!fir.array<?x!fir.char<1,20>>>, !fir.slice<1>) -> !fir.box<!fir.array<?x!fir.char<1,?>>>
   fir.call @bar(%2) : (!fir.box<!fir.array<?x!fir.char<1,?>>>) -> ()
   return
 }

 // Test a rebox of an array section like x(3:60:9)%c(2:8) with both a triplet, a component and a substring where x is a fir.box.

 // CHECK-LABEL: llvm.func @foo(
 // CHECK-SAME:                 %[[VAL_0:.*]]: !llvm.ptr) {
 func.func private @bar(!fir.box<!fir.array<?x!fir.char<1,?>>>)
 func.func @foo(%arg0: !fir.box<!fir.array<?x!fir.type<t{i:i32,c:!fir.char<1,10>}>>>) {
   %c7_i64 = arith.constant 7 : i64
   %c1_i64 = arith.constant 1 : i64
   %c9_i64 = arith.constant 9 : i64
   %c60_i64 = arith.constant 60 : i64
   %c3_i64 = arith.constant 3 : i64
   %0 = fir.field_index c, !fir.type<t{i:i32,c:!fir.char<1,10>}>
   %1 = fir.slice %c3_i64, %c60_i64, %c9_i64 path %0 substr %c1_i64, %c7_i64 : (i64, i64, i64, !fir.field, i64, i64) -> !fir.slice<1>

 // Only test the computation of the base address offset computation accounting for the substring of the component

 // CHECK:         %[[VAL_1:.*]] = llvm.mlir.constant(1 : i32) : i32

 // CHECK:         %[[VAL_30:.*]] = llvm.getelementptr %[[VAL_0]]{{\[}}0, 0] : (!llvm.ptr) -> !llvm.ptr, !llvm.struct<{{.*}}>
 // CHECK:         %[[VAL_31:.*]] = llvm.load %[[VAL_30]] : !llvm.ptr -> !llvm.ptr
 // CHECK:         %[[VAL_21:.*]] = llvm.mlir.constant(0 : i64) : i64
 // CHECK:         %[[VAL_33:.*]] = llvm.getelementptr %[[VAL_31]]{{\[}}%[[VAL_21]], 1, %[[VAL_4]]] : (!llvm.ptr, i64, i64) -> !llvm.ptr, !llvm.struct<{{.*}}>

 // More offset computation with descriptor strides and triplets that is not character specific ...

   %2 = fir.rebox %arg0 [%1] : (!fir.box<!fir.array<?x!fir.type<t{i:i32,c:!fir.char<1,10>}>>>, !fir.slice<1>) -> !fir.box<!fir.array<?x!fir.char<1,?>>>
   fir.call @bar(%2) : (!fir.box<!fir.array<?x!fir.char<1,?>>>) -> ()
   return
 }

 // Test that a rebox with `index` substring parameter is converted
 // to legal IR. It used to produce:
 //   %63 = "llvm.mul"(%62, <<NULL VALUE>>) : (i64, <<NULL TYPE>>) -> i64
 // because the substr was not accessed via the adaptor's operands.

 // CHECK-LABEL: llvm.func @index_substr(
 // CHECK-NOT: NULL_VALUE
 // CHECK-NOT: NULL_TYPE
 func.func @index_substr(%arg0: !fir.box<!fir.array<?x!fir.char<1,20>>>) {
   %c7_index = arith.constant 7 : index
   %c1_i64 = arith.constant 1 : i64
   %c0 = arith.constant 0 : index
   %c1 = arith.constant 1 : index
   %0:3 = fir.box_dims %arg0, %c0 : (!fir.box<!fir.array<?x!fir.char<1,20>>>, index) -> (index, index, index)
   %1 = fir.slice %c1, %0#1, %c1_i64 substr %c1_i64, %c7_index : (index, index, i64, i64, index) -> !fir.slice<1>
   %2 = fir.rebox %arg0 [%1] : (!fir.box<!fir.array<?x!fir.char<1,20>>>, !fir.slice<1>) -> !fir.box<!fir.array<?x!fir.char<1,?>>>
   fir.call @bar(%2) : (!fir.box<!fir.array<?x!fir.char<1,?>>>) -> ()
   return
 }
	// Test translation to llvm IR of fir.rebox with substring array sections.

	// RUN: fir-opt -o - -cg-rewrite --fir-to-llvm-ir -cse %s \| FileCheck %s
	// RUN: tco -o - -cg-rewrite --fir-to-llvm-ir -cse %s \| FileCheck %s

	// Test a fir.rebox with a substring on a character array with constant
	// length (like c(:)(2:*) where c is a fir.box array with constant length).

	// CHECK-LABEL: llvm.func @char_section(
	// CHECK-SAME: %[[VAL_0:.*]]: !llvm.ptr) {
	func.func @char_section(%arg0: !fir.box<!fir.array<?x!fir.char<1,20>>>) {
	%c7_i64 = arith.constant 7 : i64
	%c1_i64 = arith.constant 1 : i64
	%c0 = arith.constant 0 : index
	%c1 = arith.constant 1 : index
	%0:3 = fir.box_dims %arg0, %c0 : (!fir.box<!fir.array<?x!fir.char<1,20>>>, index) -> (index, index, index)
	%1 = fir.slice %c1, %0#1, %c1_i64 substr %c1_i64, %c7_i64 : (index, index, i64, i64, i64) -> !fir.slice<1>

	// Only test the computation of the base address offset computation accounting for the substring

	// CHECK: %[[VAL_4:.*]] = llvm.mlir.constant(1 : i64) : i64

	// CHECK: %[[VAL_37:.]] = llvm.getelementptr %[[VAL_0]]{{\[}}0, 0] : (!llvm.ptr) -> !llvm.ptr, !llvm.struct<{{.}}>
	// CHECK: %[[VAL_38:.*]] = llvm.load %[[VAL_37]] : !llvm.ptr -> !llvm.ptr
	// CHECK: %[[VAL_30:.*]] = llvm.mlir.constant(0 : i64) : i64
	// CHECK: %[[VAL_40:.*]] = llvm.getelementptr %[[VAL_38]]{{\[}}%[[VAL_30]], %[[VAL_4]]] : (!llvm.ptr, i64, i64) -> !llvm.ptr, !llvm.array<20 x i8>

	// More offset computation with descriptor strides and triplets that is not character specific ...

	%2 = fir.rebox %arg0 [%1] : (!fir.box<!fir.array<?x!fir.char<1,20>>>, !fir.slice<1>) -> !fir.box<!fir.array<?x!fir.char<1,?>>>
	fir.call @bar(%2) : (!fir.box<!fir.array<?x!fir.char<1,?>>>) -> ()
	return
	}

	// Test a rebox of an array section like x(3:60:9)%c(2:8) with both a triplet, a component and a substring where x is a fir.box.

	// CHECK-LABEL: llvm.func @foo(
	// CHECK-SAME: %[[VAL_0:.*]]: !llvm.ptr) {
	func.func private @bar(!fir.box<!fir.array<?x!fir.char<1,?>>>)
	func.func @foo(%arg0: !fir.box<!fir.array<?x!fir.type<t{i:i32,c:!fir.char<1,10>}>>>) {
	%c7_i64 = arith.constant 7 : i64
	%c1_i64 = arith.constant 1 : i64
	%c9_i64 = arith.constant 9 : i64
	%c60_i64 = arith.constant 60 : i64
	%c3_i64 = arith.constant 3 : i64
	%0 = fir.field_index c, !fir.type<t{i:i32,c:!fir.char<1,10>}>
	%1 = fir.slice %c3_i64, %c60_i64, %c9_i64 path %0 substr %c1_i64, %c7_i64 : (i64, i64, i64, !fir.field, i64, i64) -> !fir.slice<1>

	// Only test the computation of the base address offset computation accounting for the substring of the component

	// CHECK: %[[VAL_1:.*]] = llvm.mlir.constant(1 : i32) : i32

	// CHECK: %[[VAL_30:.]] = llvm.getelementptr %[[VAL_0]]{{\[}}0, 0] : (!llvm.ptr) -> !llvm.ptr, !llvm.struct<{{.}}>
	// CHECK: %[[VAL_31:.*]] = llvm.load %[[VAL_30]] : !llvm.ptr -> !llvm.ptr
	// CHECK: %[[VAL_21:.*]] = llvm.mlir.constant(0 : i64) : i64
	// CHECK: %[[VAL_33:.]] = llvm.getelementptr %[[VAL_31]]{{\[}}%[[VAL_21]], 1, %[[VAL_4]]] : (!llvm.ptr, i64, i64) -> !llvm.ptr, !llvm.struct<{{.}}>

	// More offset computation with descriptor strides and triplets that is not character specific ...

	%2 = fir.rebox %arg0 [%1] : (!fir.box<!fir.array<?x!fir.type<t{i:i32,c:!fir.char<1,10>}>>>, !fir.slice<1>) -> !fir.box<!fir.array<?x!fir.char<1,?>>>
	fir.call @bar(%2) : (!fir.box<!fir.array<?x!fir.char<1,?>>>) -> ()
	return
	}

	// Test that a rebox with `index` substring parameter is converted
	// to legal IR. It used to produce:
	// %63 = "llvm.mul"(%62, <<NULL VALUE>>) : (i64, <<NULL TYPE>>) -> i64
	// because the substr was not accessed via the adaptor's operands.

	// CHECK-LABEL: llvm.func @index_substr(
	// CHECK-NOT: NULL_VALUE
	// CHECK-NOT: NULL_TYPE
	func.func @index_substr(%arg0: !fir.box<!fir.array<?x!fir.char<1,20>>>) {
	%c7_index = arith.constant 7 : index
	%c1_i64 = arith.constant 1 : i64
	%c0 = arith.constant 0 : index
	%c1 = arith.constant 1 : index
	%0:3 = fir.box_dims %arg0, %c0 : (!fir.box<!fir.array<?x!fir.char<1,20>>>, index) -> (index, index, index)
	%1 = fir.slice %c1, %0#1, %c1_i64 substr %c1_i64, %c7_index : (index, index, i64, i64, index) -> !fir.slice<1>
	%2 = fir.rebox %arg0 [%1] : (!fir.box<!fir.array<?x!fir.char<1,20>>>, !fir.slice<1>) -> !fir.box<!fir.array<?x!fir.char<1,?>>>
	fir.call @bar(%2) : (!fir.box<!fir.array<?x!fir.char<1,?>>>) -> ()
	return
	}