test/TableGen/defvar.td - llvm-project/llvm - Git at Google

 // RUN: llvm-tblgen %s | FileCheck %s
 // RUN: not llvm-tblgen -DERROR1 %s 2>&1 | FileCheck --check-prefix=ERROR1 %s
 // RUN: not llvm-tblgen -DERROR2 %s 2>&1 | FileCheck --check-prefix=ERROR2 %s
 // RUN: not llvm-tblgen -DERROR3 %s 2>&1 | FileCheck --check-prefix=ERROR3 %s
 // RUN: not llvm-tblgen -DERROR4 %s 2>&1 | FileCheck --check-prefix=ERROR4 %s
 // RUN: not llvm-tblgen -DERROR5 %s 2>&1 | FileCheck --check-prefix=ERROR5 %s

 #ifdef ERROR1
 // Refer to a variable we haven't defined *yet*, expecting an error.
 // ERROR1: [[@LINE+1]]:22: error: Variable not defined: 'myvar'
 def bad { dag x = (? myvar); }
 #endif

 // Define a global variable.
 defvar myvar = "foo";

 #ifdef ERROR2
 // Demonstrate an error when a global variable is redefined.
 // ERROR2: [[@LINE+1]]:8: error: def or global variable of this name already exists
 defvar myvar = "another value";
 #endif

 multiclass Test<int x> {
   // Refer to a global variable, while inside a local scope like a multiclass.
   def _with_global_string { string s = myvar; }

   // Define some variables local to this multiclass, and prove we can refer to
   // those too.
   defvar myvar = !add(x, 100);
   defvar myvar2 = "string of " # myvar;
   def _with_local_int { int i = myvar; string s = myvar2; }

 #ifdef ERROR3
   // Demonstrate an error when a local variable is redefined.
   // ERROR3: [[@LINE+1]]:10: error: local variable of this name already exists
   defvar myvar = "another value";
 #endif
 }

 // Instantiate the above multiclass, and expect all the right outputs.

 // CHECK: def aaa_with_global_string {
 // CHECK-NEXT: string s = "foo";
 // CHECK: def aaa_with_local_int {
 // CHECK-NEXT: int i = 101;
 // CHECK-NEXT: string s = "string of 101";
 // CHECK: def bbb_with_global_string {
 // CHECK-NEXT: string s = "foo";
 // CHECK: def bbb_with_local_int {
 // CHECK-NEXT: int i = 102;
 // CHECK-NEXT: string s = "string of 102";
 defm aaa: Test<1>;
 defm bbb: Test<2>;

 // Test that local variables can be defined inside a foreach block, and inside
 // an object body.
 //
 // The scopes nest (you can refer to variables in an outer block from an inner
 // one), and the variables go out of scope again at the end of the block (in
 // particular, you don't get a redefinition error the next time round the
 // loop).

 // CHECK: def nest_f1_s3 {
 // CHECK-NEXT: int member = 113;
 // CHECK-NEXT: }
 // CHECK: def nest_f1_s4 {
 // CHECK-NEXT: int member = 114;
 // CHECK-NEXT: }
 // CHECK: def nest_f2_s3 {
 // CHECK-NEXT: int member = 123;
 // CHECK-NEXT: }
 // CHECK: def nest_f2_s4 {
 // CHECK-NEXT: int member = 124;
 // CHECK-NEXT: }
 foreach first = [ 1, 2 ] in {
   defvar firstStr = "f" # first;
   foreach second = [ 3, 4 ] in {
     defvar secondStr = "s" # second;
     def "nest_" # firstStr # "_" # secondStr {
       defvar defLocalVariable = !add(!mul(first, 10), second);
       int member = !add(100, defLocalVariable);
     }
   }
 }
 defvar firstStr = "now define this at the top level and still expect no error";

 // Test that you can shadow an outer declaration with an inner one. Here, we
 // expect all the shadowOuter records (both above and below the inner foreach)
 // to get the value 1 from the outer definition of shadowedVariable, and the
 // shadowInner ones to get 2 from the inner definition.

 // CHECK: def shadowInner11 {
 // CHECK-NEXT: int var = 2;
 // CHECK: def shadowInner12 {
 // CHECK-NEXT: int var = 2;
 // CHECK: def shadowInner21 {
 // CHECK-NEXT: int var = 2;
 // CHECK: def shadowInner22 {
 // CHECK-NEXT: int var = 2;
 // CHECK: def shadowInnerIf1 {
 // CHECK-NEXT: int var = 3;
 // CHECK: def shadowOuterAbove1 {
 // CHECK-NEXT: int var = 1;
 // CHECK: def shadowOuterAbove2 {
 // CHECK-NEXT: int var = 1;
 // CHECK: def shadowOuterBelowForeach1 {
 // CHECK-NEXT: int var = 1;
 // CHECK: def shadowOuterBelowForeach2 {
 // CHECK-NEXT: int var = 1;
 // CHECK: def shadowOuterBelowIf1 {
 // CHECK-NEXT: int var = 1;
 // CHECK: def shadowOuterBelowIf2 {
 // CHECK-NEXT: int var = 1;

 foreach first = [ 1, 2 ] in {
   defvar shadowedVariable = 1;
   def shadowOuterAbove # first { int var = shadowedVariable; }

   // The foreach statement opens a new scope, in which a new variable of the
   // same name can be defined without clashing with the outer one.
   foreach second = [ 1, 2 ] in {
     defvar shadowedVariable = 2;
     def shadowInner # first # second { int var = shadowedVariable; }
   }

   // Now the outer variable is back in scope.
   def shadowOuterBelowForeach # first { int var = shadowedVariable; }

   // An if statement also opens a new scope.
   if !eq(first, 1) then {
     defvar shadowedVariable = 3;
     def shadowInnerIf # first { int var = shadowedVariable; }
   }

   // Now the outer variable is back in scope again.
   def shadowOuterBelowIf # first { int var = shadowedVariable; }
 }

 class RedefinitionTest<int a, int b> {
   #ifdef ERROR4
   defvar value = !add(a, b);
   #endif
   // ERROR4: [[@LINE+1]]:7: error: local variable of this name already exists
   int value = !add(a, b);
   #ifdef ERROR5
   // ERROR5: [[@LINE+1]]:10: error: field of this name already exists
   defvar value = !add(a, b);
   #endif
 }

 // These variables should be shadowed by class/multiclass template arguments.
 defvar a = 2333;
 defvar b = 2333;
 defvar c = 2333;
 class ShadowGlobalsTest<int a, int b, int c> {
   // Template arguments have higher priorities than global variables.
   int value = !add(a, b, c);
 }

 class ShadowClassArgumentTest<int a, int b, int c> {
   // Local variable 'c' has higher priority than class template argument 'c'.
   defvar c = !add(c, c);
   int value = !add(a, b, c);
 }

 multiclass ShadowMulticlassArgumentTest<int a, int b, int c> {
   // Local variable 'c' has higher priority than multiclass template argument 'c'.
   defvar c = !add(c, c);
   def "" {
     int value = !add(a, b, c);
   }
 }

 // CHECK: def shadowTestOfClassArgument {
 // CHECK-NEXT: int value = 11;
 // CHECK: def shadowTestOfGlobals {
 // CHECK-NEXT: int value = 8;
 // CHECK: def shadowTestOfLoopIterator0 {
 // CHECK-NEXT: int value = 10;
 // CHECK: def shadowTestOfLoopIterator1 {
 // CHECK-NEXT: int value = 11;
 // CHECK: def shadowTestOfMulticlassArgument {
 // CHECK-NEXT: int value = 11;
 def shadowTestOfClassArgument: ShadowClassArgumentTest<2, 3, 3>;
 def shadowTestOfGlobals: ShadowGlobalsTest<2, 3, 3>;
 foreach i = 0...1 in {
   // Local variable 'i' has higher priority than loop iterator 'i'.
   def shadowTestOfLoopIterator # i {
     defvar i = !add(10, i);
     int value = i;
   }
 }
 defm shadowTestOfMulticlassArgument: ShadowMulticlassArgumentTest<2, 3, 3>;

 // Test that a top-level let statement also makes a variable scope (on the
 // general principle of consistency, because it defines a braced sub-block).

 let someVariable = "some value" in {
   defvar myvar = "override the definition from above and expect no error";
 }
 // CHECK: def topLevelLetTest {
 // CHECK-NEXT: string val = "foo";
 def topLevelLetTest { string val = myvar; }
	// RUN: llvm-tblgen %s \| FileCheck %s
	// RUN: not llvm-tblgen -DERROR1 %s 2>&1 \| FileCheck --check-prefix=ERROR1 %s
	// RUN: not llvm-tblgen -DERROR2 %s 2>&1 \| FileCheck --check-prefix=ERROR2 %s
	// RUN: not llvm-tblgen -DERROR3 %s 2>&1 \| FileCheck --check-prefix=ERROR3 %s
	// RUN: not llvm-tblgen -DERROR4 %s 2>&1 \| FileCheck --check-prefix=ERROR4 %s
	// RUN: not llvm-tblgen -DERROR5 %s 2>&1 \| FileCheck --check-prefix=ERROR5 %s

	#ifdef ERROR1
	// Refer to a variable we haven't defined yet, expecting an error.
	// ERROR1: [[@LINE+1]]:22: error: Variable not defined: 'myvar'
	def bad { dag x = (? myvar); }
	#endif

	// Define a global variable.
	defvar myvar = "foo";

	#ifdef ERROR2
	// Demonstrate an error when a global variable is redefined.
	// ERROR2: [[@LINE+1]]:8: error: def or global variable of this name already exists
	defvar myvar = "another value";
	#endif

	multiclass Test<int x> {
	// Refer to a global variable, while inside a local scope like a multiclass.
	def _with_global_string { string s = myvar; }

	// Define some variables local to this multiclass, and prove we can refer to
	// those too.
	defvar myvar = !add(x, 100);
	defvar myvar2 = "string of " # myvar;
	def _with_local_int { int i = myvar; string s = myvar2; }

	#ifdef ERROR3
	// Demonstrate an error when a local variable is redefined.
	// ERROR3: [[@LINE+1]]:10: error: local variable of this name already exists
	defvar myvar = "another value";
	#endif
	}

	// Instantiate the above multiclass, and expect all the right outputs.

	// CHECK: def aaa_with_global_string {
	// CHECK-NEXT: string s = "foo";
	// CHECK: def aaa_with_local_int {
	// CHECK-NEXT: int i = 101;
	// CHECK-NEXT: string s = "string of 101";
	// CHECK: def bbb_with_global_string {
	// CHECK-NEXT: string s = "foo";
	// CHECK: def bbb_with_local_int {
	// CHECK-NEXT: int i = 102;
	// CHECK-NEXT: string s = "string of 102";
	defm aaa: Test<1>;
	defm bbb: Test<2>;

	// Test that local variables can be defined inside a foreach block, and inside
	// an object body.
	//
	// The scopes nest (you can refer to variables in an outer block from an inner
	// one), and the variables go out of scope again at the end of the block (in
	// particular, you don't get a redefinition error the next time round the
	// loop).

	// CHECK: def nest_f1_s3 {
	// CHECK-NEXT: int member = 113;
	// CHECK-NEXT: }
	// CHECK: def nest_f1_s4 {
	// CHECK-NEXT: int member = 114;
	// CHECK-NEXT: }
	// CHECK: def nest_f2_s3 {
	// CHECK-NEXT: int member = 123;
	// CHECK-NEXT: }
	// CHECK: def nest_f2_s4 {
	// CHECK-NEXT: int member = 124;
	// CHECK-NEXT: }
	foreach first = [ 1, 2 ] in {
	defvar firstStr = "f" # first;
	foreach second = [ 3, 4 ] in {
	defvar secondStr = "s" # second;
	def "nest_" # firstStr # "_" # secondStr {
	defvar defLocalVariable = !add(!mul(first, 10), second);
	int member = !add(100, defLocalVariable);
	}
	}
	}
	defvar firstStr = "now define this at the top level and still expect no error";

	// Test that you can shadow an outer declaration with an inner one. Here, we
	// expect all the shadowOuter records (both above and below the inner foreach)
	// to get the value 1 from the outer definition of shadowedVariable, and the
	// shadowInner ones to get 2 from the inner definition.

	// CHECK: def shadowInner11 {
	// CHECK-NEXT: int var = 2;
	// CHECK: def shadowInner12 {
	// CHECK-NEXT: int var = 2;
	// CHECK: def shadowInner21 {
	// CHECK-NEXT: int var = 2;
	// CHECK: def shadowInner22 {
	// CHECK-NEXT: int var = 2;
	// CHECK: def shadowInnerIf1 {
	// CHECK-NEXT: int var = 3;
	// CHECK: def shadowOuterAbove1 {
	// CHECK-NEXT: int var = 1;
	// CHECK: def shadowOuterAbove2 {
	// CHECK-NEXT: int var = 1;
	// CHECK: def shadowOuterBelowForeach1 {
	// CHECK-NEXT: int var = 1;
	// CHECK: def shadowOuterBelowForeach2 {
	// CHECK-NEXT: int var = 1;
	// CHECK: def shadowOuterBelowIf1 {
	// CHECK-NEXT: int var = 1;
	// CHECK: def shadowOuterBelowIf2 {
	// CHECK-NEXT: int var = 1;

	foreach first = [ 1, 2 ] in {
	defvar shadowedVariable = 1;
	def shadowOuterAbove # first { int var = shadowedVariable; }

	// The foreach statement opens a new scope, in which a new variable of the
	// same name can be defined without clashing with the outer one.
	foreach second = [ 1, 2 ] in {
	defvar shadowedVariable = 2;
	def shadowInner # first # second { int var = shadowedVariable; }
	}

	// Now the outer variable is back in scope.
	def shadowOuterBelowForeach # first { int var = shadowedVariable; }

	// An if statement also opens a new scope.
	if !eq(first, 1) then {
	defvar shadowedVariable = 3;
	def shadowInnerIf # first { int var = shadowedVariable; }
	}

	// Now the outer variable is back in scope again.
	def shadowOuterBelowIf # first { int var = shadowedVariable; }
	}

	class RedefinitionTest<int a, int b> {
	#ifdef ERROR4
	defvar value = !add(a, b);
	#endif
	// ERROR4: [[@LINE+1]]:7: error: local variable of this name already exists
	int value = !add(a, b);
	#ifdef ERROR5
	// ERROR5: [[@LINE+1]]:10: error: field of this name already exists
	defvar value = !add(a, b);
	#endif
	}

	// These variables should be shadowed by class/multiclass template arguments.
	defvar a = 2333;
	defvar b = 2333;
	defvar c = 2333;
	class ShadowGlobalsTest<int a, int b, int c> {
	// Template arguments have higher priorities than global variables.
	int value = !add(a, b, c);
	}

	class ShadowClassArgumentTest<int a, int b, int c> {
	// Local variable 'c' has higher priority than class template argument 'c'.
	defvar c = !add(c, c);
	int value = !add(a, b, c);
	}

	multiclass ShadowMulticlassArgumentTest<int a, int b, int c> {
	// Local variable 'c' has higher priority than multiclass template argument 'c'.
	defvar c = !add(c, c);
	def "" {
	int value = !add(a, b, c);
	}
	}

	// CHECK: def shadowTestOfClassArgument {
	// CHECK-NEXT: int value = 11;
	// CHECK: def shadowTestOfGlobals {
	// CHECK-NEXT: int value = 8;
	// CHECK: def shadowTestOfLoopIterator0 {
	// CHECK-NEXT: int value = 10;
	// CHECK: def shadowTestOfLoopIterator1 {
	// CHECK-NEXT: int value = 11;
	// CHECK: def shadowTestOfMulticlassArgument {
	// CHECK-NEXT: int value = 11;
	def shadowTestOfClassArgument: ShadowClassArgumentTest<2, 3, 3>;
	def shadowTestOfGlobals: ShadowGlobalsTest<2, 3, 3>;
	foreach i = 0...1 in {
	// Local variable 'i' has higher priority than loop iterator 'i'.
	def shadowTestOfLoopIterator # i {
	defvar i = !add(10, i);
	int value = i;
	}
	}
	defm shadowTestOfMulticlassArgument: ShadowMulticlassArgumentTest<2, 3, 3>;

	// Test that a top-level let statement also makes a variable scope (on the
	// general principle of consistency, because it defines a braced sub-block).

	let someVariable = "some value" in {
	defvar myvar = "override the definition from above and expect no error";
	}
	// CHECK: def topLevelLetTest {
	// CHECK-NEXT: string val = "foo";
	def topLevelLetTest { string val = myvar; }