src/third_party/llvm-project/clang/test/SemaOpenCL/address-spaces-conversions-cl2.0.cl - cobalt - Git at Google

 // RUN: %clang_cc1 %s -ffake-address-space-map -verify -pedantic -fsyntax-only -DCONSTANT -cl-std=CL2.0
 // RUN: %clang_cc1 %s -ffake-address-space-map -verify -pedantic -fsyntax-only -DGLOBAL -cl-std=CL2.0
 // RUN: %clang_cc1 %s -ffake-address-space-map -verify -pedantic -fsyntax-only -DGENERIC -cl-std=CL2.0

 /* OpenCLC v2.0 adds a set of restrictions for conversions between pointers to
 *  different address spaces, mainly described in Sections 6.5.5 and 6.5.6.
 *
 *  It adds notion of overlapping address spaces. The main differention is that
 *  an unnamed address space is added, called '__generic'. Pointers to the
 *  generic address space can be interchangabley used with pointers to any
 *  other address space except for __constant address space (Section 6.5.5).
 *
 *  Based on this there are 3 sets of tests: __generic, named (__global in this
 *  case), and __constant, that should cover all program paths for CL address
 *  space conversions used in initialisations, assignments, casts, comparisons
 *  and arithmetic operations.
 */

 #ifdef GENERIC
 #define AS generic
 #define AS_COMP local
 #define AS_INCOMP constant
 #endif

 #ifdef GLOBAL
 #define AS global
 #define AS_COMP global
 #define AS_INCOMP local
 #endif

 #ifdef CONSTANT
 #define AS constant
 #define AS_COMP constant
 #define AS_INCOMP global
 #endif

 void f_glob(global int *arg_glob) {}
 #ifndef GLOBAL
 // expected-note@-2{{passing argument to parameter 'arg_glob' here}}
 #endif

 void f_loc(local int *arg_loc) {
 } // expected-note@-1{{passing argument to parameter 'arg_loc' here}}

 void f_const(constant int *arg_const) {}
 #ifndef CONSTANT
 // expected-note@-2{{passing argument to parameter 'arg_const' here}}
 #endif

 void f_priv(private int *arg_priv) {
 } // expected-note@-1{{passing argument to parameter 'arg_priv' here}}

 void f_gen(generic int *arg_gen) {}
 #ifdef CONSTANT
 // expected-note@-2{{passing argument to parameter 'arg_gen' here}}
 #endif

 void test_conversion(global int *arg_glob, local int *arg_loc,
                      constant int *arg_const, private int *arg_priv,
                      generic int *arg_gen) {

   AS int *var_init1 = arg_glob;
 #ifdef CONSTANT
 // expected-error@-2{{initializing '__constant int *' with an expression of type '__global int *' changes address space of pointer}}
 #endif

   AS int *var_init2 = arg_loc;
 #ifndef GENERIC
 // expected-error-re@-2{{initializing '__{{global|constant}} int *' with an expression of type '__local int *' changes address space of pointer}}
 #endif

   AS int *var_init3 = arg_const;
 #ifndef CONSTANT
 // expected-error-re@-2{{initializing '__{{global|generic}} int *' with an expression of type '__constant int *' changes address space of pointer}}
 #endif

   AS int *var_init4 = arg_priv;
 #ifndef GENERIC
 // expected-error-re@-2{{initializing '__{{global|constant}} int *' with an expression of type 'int *' changes address space of pointer}}
 #endif

   AS int *var_init5 = arg_gen;
 #ifndef GENERIC
 // expected-error-re@-2{{initializing '__{{global|constant}} int *' with an expression of type '__generic int *' changes address space of pointer}}
 #endif

   AS int *var_cast1 = (AS int *)arg_glob;
 #ifdef CONSTANT
 // expected-error@-2{{casting '__global int *' to type '__constant int *' changes address space of pointer}}
 #endif

   AS int *var_cast2 = (AS int *)arg_loc;
 #ifndef GENERIC
 // expected-error-re@-2{{casting '__local int *' to type '__{{global|constant}} int *' changes address space of pointer}}
 #endif

   AS int *var_cast3 = (AS int *)arg_const;
 #ifndef CONSTANT
 // expected-error-re@-2{{casting '__constant int *' to type '__{{global|generic}} int *' changes address space of pointer}}
 #endif

   AS int *var_cast4 = (AS int *)arg_priv;
 #ifndef GENERIC
 // expected-error-re@-2{{casting 'int *' to type '__{{global|constant}} int *' changes address space of pointer}}
 #endif

   AS int *var_cast5 = (AS int *)arg_gen;
 #ifdef CONSTANT
 // expected-error@-2{{casting '__generic int *' to type '__constant int *' changes address space of pointer}}
 #endif

   AS int *var_impl;
   var_impl = arg_glob;
 #ifdef CONSTANT
 // expected-error@-2{{assigning '__global int *' to '__constant int *' changes address space of pointer}}
 #endif

   var_impl = arg_loc;
 #ifndef GENERIC
 // expected-error-re@-2{{assigning '__local int *' to '__{{global|constant}} int *' changes address space of pointer}}
 #endif

   var_impl = arg_const;
 #ifndef CONSTANT
 // expected-error-re@-2{{assigning '__constant int *' to '__{{global|generic}} int *' changes address space of pointer}}
 #endif

   var_impl = arg_priv;
 #ifndef GENERIC
 // expected-error-re@-2{{assigning 'int *' to '__{{global|constant}} int *' changes address space of pointer}}
 #endif

   var_impl = arg_gen;
 #ifndef GENERIC
 // expected-error-re@-2{{assigning '__generic int *' to '__{{global|constant}} int *' changes address space of pointer}}
 #endif

   var_cast1 = (AS int *)arg_glob;
 #ifdef CONSTANT
 // expected-error@-2{{casting '__global int *' to type '__constant int *' changes address space of pointer}}
 #endif

   var_cast2 = (AS int *)arg_loc;
 #ifndef GENERIC
 // expected-error-re@-2{{casting '__local int *' to type '__{{global|constant}} int *' changes address space of pointer}}
 #endif

   var_cast3 = (AS int *)arg_const;
 #ifndef CONSTANT
 // expected-error-re@-2{{casting '__constant int *' to type '__{{global|generic}} int *' changes address space of pointer}}
 #endif

   var_cast4 = (AS int *)arg_priv;
 #ifndef GENERIC
 // expected-error-re@-2{{casting 'int *' to type '__{{global|constant}} int *' changes address space of pointer}}
 #endif

   var_cast5 = (AS int *)arg_gen;
 #ifdef CONSTANT
 // expected-error@-2{{casting '__generic int *' to type '__constant int *' changes address space of pointer}}
 #endif

   AS int *var_cmp;
   int b = var_cmp != arg_glob;
 #ifdef CONSTANT
 // expected-error@-2{{comparison between  ('__constant int *' and '__global int *') which are pointers to non-overlapping address spaces}}
 #endif

   b = var_cmp != arg_loc;
 #ifndef GENERIC
 // expected-error-re@-2{{comparison between  ('__{{global|constant}} int *' and '__local int *') which are pointers to non-overlapping address spaces}}
 #endif

   b = var_cmp == arg_const;
 #ifndef CONSTANT
 // expected-error-re@-2{{comparison between  ('__{{global|generic}} int *' and '__constant int *') which are pointers to non-overlapping address spaces}}
 #endif

   b = var_cmp <= arg_priv;
 #ifndef GENERIC
 // expected-error-re@-2{{comparison between  ('__{{global|constant}} int *' and 'int *') which are pointers to non-overlapping address spaces}}
 #endif

   b = var_cmp >= arg_gen;
 #ifdef CONSTANT
 // expected-error@-2{{comparison between  ('__constant int *' and '__generic int *') which are pointers to non-overlapping address spaces}}
 #endif

   AS int *var_sub;
   b = var_sub - arg_glob;
 #ifdef CONSTANT
 // expected-error@-2{{arithmetic operation with operands of type  ('__constant int *' and '__global int *') which are pointers to non-overlapping address spaces}}
 #endif

   b = var_sub - arg_loc;
 #ifndef GENERIC
 // expected-error-re@-2{{arithmetic operation with operands of type  ('__{{global|constant}} int *' and '__local int *') which are pointers to non-overlapping address spaces}}
 #endif

   b = var_sub - arg_const;
 #ifndef CONSTANT
 // expected-error-re@-2{{arithmetic operation with operands of type  ('__{{global|generic}} int *' and '__constant int *') which are pointers to non-overlapping address spaces}}
 #endif

   b = var_sub - arg_priv;
 #ifndef GENERIC
 // expected-error-re@-2{{arithmetic operation with operands of type  ('__{{global|constant}} int *' and 'int *') which are pointers to non-overlapping address spaces}}
 #endif

   b = var_sub - arg_gen;
 #ifdef CONSTANT
 // expected-error@-2{{arithmetic operation with operands of type  ('__constant int *' and '__generic int *') which are pointers to non-overlapping address spaces}}
 #endif

   f_glob(var_sub);
 #ifndef GLOBAL
 // expected-error-re@-2{{passing '__{{constant|generic}} int *' to parameter of type '__global int *' changes address space of pointer}}
 #endif

   f_loc(var_sub); // expected-error-re{{passing '__{{global|constant|generic}} int *' to parameter of type '__local int *' changes address space of pointer}}

   f_const(var_sub);
 #ifndef CONSTANT
 // expected-error-re@-2{{passing '__{{global|generic}} int *' to parameter of type '__constant int *' changes address space of pointer}}
 #endif

   f_priv(var_sub); // expected-error-re{{passing '__{{global|constant|generic}} int *' to parameter of type 'int *' changes address space of pointer}}

   f_gen(var_sub);
 #ifdef CONSTANT
 // expected-error@-2{{passing '__constant int *' to parameter of type '__generic int *' changes address space of pointer}}
 #endif
 }

 void test_ternary() {
   AS int *var_cond;
   generic int *var_gen;
   global int *var_glob;
   var_gen = 0 ? var_cond : var_glob;
 #ifdef CONSTANT
 // expected-error@-2{{conditional operator with the second and third operands of type  ('__constant int *' and '__global int *') which are pointers to non-overlapping address spaces}}
 #endif

   local int *var_loc;
   var_gen = 0 ? var_cond : var_loc;
 #ifndef GENERIC
 // expected-error-re@-2{{conditional operator with the second and third operands of type  ('__{{global|constant}} int *' and '__local int *') which are pointers to non-overlapping address spaces}}
 #endif

   constant int *var_const;
   var_cond = 0 ? var_cond : var_const;
 #ifndef CONSTANT
 // expected-error-re@-2{{conditional operator with the second and third operands of type  ('__{{global|generic}} int *' and '__constant int *') which are pointers to non-overlapping address spaces}}
 #endif

   private int *var_priv;
   var_gen = 0 ? var_cond : var_priv;
 #ifndef GENERIC
 // expected-error-re@-2{{conditional operator with the second and third operands of type  ('__{{global|constant}} int *' and 'int *') which are pointers to non-overlapping address spaces}}
 #endif

   var_gen = 0 ? var_cond : var_gen;
 #ifdef CONSTANT
 // expected-error@-2{{conditional operator with the second and third operands of type  ('__constant int *' and '__generic int *') which are pointers to non-overlapping address spaces}}
 #endif

   void *var_void_gen;
   global char *var_glob_ch;
   var_void_gen = 0 ? var_cond : var_glob_ch;
 #ifdef CONSTANT
 // expected-error@-2{{conditional operator with the second and third operands of type  ('__constant int *' and '__global char *') which are pointers to non-overlapping address spaces}}
 #else
 // expected-warning-re@-4{{pointer type mismatch ('__{{global|generic}} int *' and '__global char *')}}
 #endif

   local char *var_loc_ch;
   var_void_gen = 0 ? var_cond : var_loc_ch;
 #ifndef GENERIC
 // expected-error-re@-2{{conditional operator with the second and third operands of type  ('__{{global|constant}} int *' and '__local char *') which are pointers to non-overlapping address spaces}}
 #else
 // expected-warning@-4{{pointer type mismatch ('__generic int *' and '__local char *')}}
 #endif

   constant void *var_void_const;
   constant char *var_const_ch;
   var_void_const = 0 ? var_cond : var_const_ch;
 #ifndef CONSTANT
 // expected-error-re@-2{{conditional operator with the second and third operands of type  ('__{{global|generic}} int *' and '__constant char *') which are pointers to non-overlapping address spaces}}
 #else
 // expected-warning@-4{{pointer type mismatch ('__constant int *' and '__constant char *')}}
 #endif

   private char *var_priv_ch;
   var_void_gen = 0 ? var_cond : var_priv_ch;
 #ifndef GENERIC
 // expected-error-re@-2{{conditional operator with the second and third operands of type  ('__{{global|constant}} int *' and 'char *') which are pointers to non-overlapping address spaces}}
 #else
 // expected-warning@-4{{pointer type mismatch ('__generic int *' and 'char *')}}
 #endif

   generic char *var_gen_ch;
   var_void_gen = 0 ? var_cond : var_gen_ch;
 #ifdef CONSTANT
 // expected-error@-2{{conditional operator with the second and third operands of type  ('__constant int *' and '__generic char *') which are pointers to non-overlapping address spaces}}
 #else
 // expected-warning-re@-4{{pointer type mismatch ('__{{global|generic}} int *' and '__generic char *')}}
 #endif
 }

 void test_pointer_chains() {
   AS int *AS *var_as_as_int;
   AS int *AS_COMP *var_asc_as_int;
   AS_INCOMP int *AS_COMP *var_asc_asn_int;
   AS_COMP int *AS_COMP *var_asc_asc_int;

   // Case 1:
   //  * address spaces of corresponded most outer pointees overlaps, their canonical types are equal
   //  * CVR, address spaces and canonical types of the rest of pointees are equivalent.
   var_as_as_int = 0 ? var_as_as_int : var_asc_as_int;

   // Case 2: Corresponded inner pointees has non-overlapping address spaces.
   var_as_as_int = 0 ? var_as_as_int : var_asc_asn_int;
 // expected-warning-re@-1{{pointer type mismatch ('__{{(generic|global|constant)}} int *__{{(generic|global|constant)}} *' and '__{{(local|global|constant)}} int *__{{(constant|local|global)}} *')}}

   // Case 3: Corresponded inner pointees has overlapping but not equivalent address spaces.
 #ifdef GENERIC
   var_as_as_int = 0 ? var_as_as_int : var_asc_asc_int;
 // expected-warning-re@-1{{pointer type mismatch ('__{{(generic|global|constant)}} int *__{{(generic|global|constant)}} *' and '__{{(local|global|constant)}} int *__{{(local|global|constant)}} *')}}
 #endif
 }
	// RUN: %clang_cc1 %s -ffake-address-space-map -verify -pedantic -fsyntax-only -DCONSTANT -cl-std=CL2.0
	// RUN: %clang_cc1 %s -ffake-address-space-map -verify -pedantic -fsyntax-only -DGLOBAL -cl-std=CL2.0
	// RUN: %clang_cc1 %s -ffake-address-space-map -verify -pedantic -fsyntax-only -DGENERIC -cl-std=CL2.0

	/* OpenCLC v2.0 adds a set of restrictions for conversions between pointers to
	* different address spaces, mainly described in Sections 6.5.5 and 6.5.6.
	*
	* It adds notion of overlapping address spaces. The main differention is that
	* an unnamed address space is added, called '__generic'. Pointers to the
	* generic address space can be interchangabley used with pointers to any
	* other address space except for __constant address space (Section 6.5.5).
	*
	* Based on this there are 3 sets of tests: __generic, named (__global in this
	* case), and __constant, that should cover all program paths for CL address
	* space conversions used in initialisations, assignments, casts, comparisons
	* and arithmetic operations.
	*/

	#ifdef GENERIC
	#define AS generic
	#define AS_COMP local
	#define AS_INCOMP constant
	#endif

	#ifdef GLOBAL
	#define AS global
	#define AS_COMP global
	#define AS_INCOMP local
	#endif

	#ifdef CONSTANT
	#define AS constant
	#define AS_COMP constant
	#define AS_INCOMP global
	#endif

	void f_glob(global int *arg_glob) {}
	#ifndef GLOBAL
	// expected-note@-2{{passing argument to parameter 'arg_glob' here}}
	#endif

	void f_loc(local int *arg_loc) {
	} // expected-note@-1{{passing argument to parameter 'arg_loc' here}}

	void f_const(constant int *arg_const) {}
	#ifndef CONSTANT
	// expected-note@-2{{passing argument to parameter 'arg_const' here}}
	#endif

	void f_priv(private int *arg_priv) {
	} // expected-note@-1{{passing argument to parameter 'arg_priv' here}}

	void f_gen(generic int *arg_gen) {}
	#ifdef CONSTANT
	// expected-note@-2{{passing argument to parameter 'arg_gen' here}}
	#endif

	void test_conversion(global int arg_glob, local int arg_loc,
	constant int arg_const, private int arg_priv,
	generic int *arg_gen) {

	AS int *var_init1 = arg_glob;
	#ifdef CONSTANT
	// expected-error@-2{{initializing '__constant int ' with an expression of type '__global int ' changes address space of pointer}}
	#endif

	AS int *var_init2 = arg_loc;
	#ifndef GENERIC
	// expected-error-re@-2{{initializing '__{{global\|constant}} int ' with an expression of type '__local int ' changes address space of pointer}}
	#endif

	AS int *var_init3 = arg_const;
	#ifndef CONSTANT
	// expected-error-re@-2{{initializing '__{{global\|generic}} int ' with an expression of type '__constant int ' changes address space of pointer}}
	#endif

	AS int *var_init4 = arg_priv;
	#ifndef GENERIC
	// expected-error-re@-2{{initializing '__{{global\|constant}} int ' with an expression of type 'int ' changes address space of pointer}}
	#endif

	AS int *var_init5 = arg_gen;
	#ifndef GENERIC
	// expected-error-re@-2{{initializing '__{{global\|constant}} int ' with an expression of type '__generic int ' changes address space of pointer}}
	#endif

	AS int var_cast1 = (AS int )arg_glob;
	#ifdef CONSTANT
	// expected-error@-2{{casting '__global int ' to type '__constant int ' changes address space of pointer}}
	#endif

	AS int var_cast2 = (AS int )arg_loc;
	#ifndef GENERIC
	// expected-error-re@-2{{casting '__local int ' to type '__{{global\|constant}} int ' changes address space of pointer}}
	#endif

	AS int var_cast3 = (AS int )arg_const;
	#ifndef CONSTANT
	// expected-error-re@-2{{casting '__constant int ' to type '__{{global\|generic}} int ' changes address space of pointer}}
	#endif

	AS int var_cast4 = (AS int )arg_priv;
	#ifndef GENERIC
	// expected-error-re@-2{{casting 'int ' to type '__{{global\|constant}} int ' changes address space of pointer}}
	#endif

	AS int var_cast5 = (AS int )arg_gen;
	#ifdef CONSTANT
	// expected-error@-2{{casting '__generic int ' to type '__constant int ' changes address space of pointer}}
	#endif

	AS int *var_impl;
	var_impl = arg_glob;
	#ifdef CONSTANT
	// expected-error@-2{{assigning '__global int ' to '__constant int ' changes address space of pointer}}
	#endif

	var_impl = arg_loc;
	#ifndef GENERIC
	// expected-error-re@-2{{assigning '__local int ' to '__{{global\|constant}} int ' changes address space of pointer}}
	#endif

	var_impl = arg_const;
	#ifndef CONSTANT
	// expected-error-re@-2{{assigning '__constant int ' to '__{{global\|generic}} int ' changes address space of pointer}}
	#endif

	var_impl = arg_priv;
	#ifndef GENERIC
	// expected-error-re@-2{{assigning 'int ' to '__{{global\|constant}} int ' changes address space of pointer}}
	#endif

	var_impl = arg_gen;
	#ifndef GENERIC
	// expected-error-re@-2{{assigning '__generic int ' to '__{{global\|constant}} int ' changes address space of pointer}}
	#endif

	var_cast1 = (AS int *)arg_glob;
	#ifdef CONSTANT
	// expected-error@-2{{casting '__global int ' to type '__constant int ' changes address space of pointer}}
	#endif

	var_cast2 = (AS int *)arg_loc;
	#ifndef GENERIC
	// expected-error-re@-2{{casting '__local int ' to type '__{{global\|constant}} int ' changes address space of pointer}}
	#endif

	var_cast3 = (AS int *)arg_const;
	#ifndef CONSTANT
	// expected-error-re@-2{{casting '__constant int ' to type '__{{global\|generic}} int ' changes address space of pointer}}
	#endif

	var_cast4 = (AS int *)arg_priv;
	#ifndef GENERIC
	// expected-error-re@-2{{casting 'int ' to type '__{{global\|constant}} int ' changes address space of pointer}}
	#endif

	var_cast5 = (AS int *)arg_gen;
	#ifdef CONSTANT
	// expected-error@-2{{casting '__generic int ' to type '__constant int ' changes address space of pointer}}
	#endif

	AS int *var_cmp;
	int b = var_cmp != arg_glob;
	#ifdef CONSTANT
	// expected-error@-2{{comparison between ('__constant int ' and '__global int ') which are pointers to non-overlapping address spaces}}
	#endif

	b = var_cmp != arg_loc;
	#ifndef GENERIC
	// expected-error-re@-2{{comparison between ('__{{global\|constant}} int ' and '__local int ') which are pointers to non-overlapping address spaces}}
	#endif

	b = var_cmp == arg_const;
	#ifndef CONSTANT
	// expected-error-re@-2{{comparison between ('__{{global\|generic}} int ' and '__constant int ') which are pointers to non-overlapping address spaces}}
	#endif

	b = var_cmp <= arg_priv;
	#ifndef GENERIC
	// expected-error-re@-2{{comparison between ('__{{global\|constant}} int ' and 'int ') which are pointers to non-overlapping address spaces}}
	#endif

	b = var_cmp >= arg_gen;
	#ifdef CONSTANT
	// expected-error@-2{{comparison between ('__constant int ' and '__generic int ') which are pointers to non-overlapping address spaces}}
	#endif

	AS int *var_sub;
	b = var_sub - arg_glob;
	#ifdef CONSTANT
	// expected-error@-2{{arithmetic operation with operands of type ('__constant int ' and '__global int ') which are pointers to non-overlapping address spaces}}
	#endif

	b = var_sub - arg_loc;
	#ifndef GENERIC
	// expected-error-re@-2{{arithmetic operation with operands of type ('__{{global\|constant}} int ' and '__local int ') which are pointers to non-overlapping address spaces}}
	#endif

	b = var_sub - arg_const;
	#ifndef CONSTANT
	// expected-error-re@-2{{arithmetic operation with operands of type ('__{{global\|generic}} int ' and '__constant int ') which are pointers to non-overlapping address spaces}}
	#endif

	b = var_sub - arg_priv;
	#ifndef GENERIC
	// expected-error-re@-2{{arithmetic operation with operands of type ('__{{global\|constant}} int ' and 'int ') which are pointers to non-overlapping address spaces}}
	#endif

	b = var_sub - arg_gen;
	#ifdef CONSTANT
	// expected-error@-2{{arithmetic operation with operands of type ('__constant int ' and '__generic int ') which are pointers to non-overlapping address spaces}}
	#endif

	f_glob(var_sub);
	#ifndef GLOBAL
	// expected-error-re@-2{{passing '__{{constant\|generic}} int ' to parameter of type '__global int ' changes address space of pointer}}
	#endif

	f_loc(var_sub); // expected-error-re{{passing '__{{global\|constant\|generic}} int ' to parameter of type '__local int ' changes address space of pointer}}

	f_const(var_sub);
	#ifndef CONSTANT
	// expected-error-re@-2{{passing '__{{global\|generic}} int ' to parameter of type '__constant int ' changes address space of pointer}}
	#endif

	f_priv(var_sub); // expected-error-re{{passing '__{{global\|constant\|generic}} int ' to parameter of type 'int ' changes address space of pointer}}

	f_gen(var_sub);
	#ifdef CONSTANT
	// expected-error@-2{{passing '__constant int ' to parameter of type '__generic int ' changes address space of pointer}}
	#endif
	}

	void test_ternary() {
	AS int *var_cond;
	generic int *var_gen;
	global int *var_glob;
	var_gen = 0 ? var_cond : var_glob;
	#ifdef CONSTANT
	// expected-error@-2{{conditional operator with the second and third operands of type ('__constant int ' and '__global int ') which are pointers to non-overlapping address spaces}}
	#endif

	local int *var_loc;
	var_gen = 0 ? var_cond : var_loc;
	#ifndef GENERIC
	// expected-error-re@-2{{conditional operator with the second and third operands of type ('__{{global\|constant}} int ' and '__local int ') which are pointers to non-overlapping address spaces}}
	#endif

	constant int *var_const;
	var_cond = 0 ? var_cond : var_const;
	#ifndef CONSTANT
	// expected-error-re@-2{{conditional operator with the second and third operands of type ('__{{global\|generic}} int ' and '__constant int ') which are pointers to non-overlapping address spaces}}
	#endif

	private int *var_priv;
	var_gen = 0 ? var_cond : var_priv;
	#ifndef GENERIC
	// expected-error-re@-2{{conditional operator with the second and third operands of type ('__{{global\|constant}} int ' and 'int ') which are pointers to non-overlapping address spaces}}
	#endif

	var_gen = 0 ? var_cond : var_gen;
	#ifdef CONSTANT
	// expected-error@-2{{conditional operator with the second and third operands of type ('__constant int ' and '__generic int ') which are pointers to non-overlapping address spaces}}
	#endif

	void *var_void_gen;
	global char *var_glob_ch;
	var_void_gen = 0 ? var_cond : var_glob_ch;
	#ifdef CONSTANT
	// expected-error@-2{{conditional operator with the second and third operands of type ('__constant int ' and '__global char ') which are pointers to non-overlapping address spaces}}
	#else
	// expected-warning-re@-4{{pointer type mismatch ('__{{global\|generic}} int ' and '__global char ')}}
	#endif

	local char *var_loc_ch;
	var_void_gen = 0 ? var_cond : var_loc_ch;
	#ifndef GENERIC
	// expected-error-re@-2{{conditional operator with the second and third operands of type ('__{{global\|constant}} int ' and '__local char ') which are pointers to non-overlapping address spaces}}
	#else
	// expected-warning@-4{{pointer type mismatch ('__generic int ' and '__local char ')}}
	#endif

	constant void *var_void_const;
	constant char *var_const_ch;
	var_void_const = 0 ? var_cond : var_const_ch;
	#ifndef CONSTANT
	// expected-error-re@-2{{conditional operator with the second and third operands of type ('__{{global\|generic}} int ' and '__constant char ') which are pointers to non-overlapping address spaces}}
	#else
	// expected-warning@-4{{pointer type mismatch ('__constant int ' and '__constant char ')}}
	#endif

	private char *var_priv_ch;
	var_void_gen = 0 ? var_cond : var_priv_ch;
	#ifndef GENERIC
	// expected-error-re@-2{{conditional operator with the second and third operands of type ('__{{global\|constant}} int ' and 'char ') which are pointers to non-overlapping address spaces}}
	#else
	// expected-warning@-4{{pointer type mismatch ('__generic int ' and 'char ')}}
	#endif

	generic char *var_gen_ch;
	var_void_gen = 0 ? var_cond : var_gen_ch;
	#ifdef CONSTANT
	// expected-error@-2{{conditional operator with the second and third operands of type ('__constant int ' and '__generic char ') which are pointers to non-overlapping address spaces}}
	#else
	// expected-warning-re@-4{{pointer type mismatch ('__{{global\|generic}} int ' and '__generic char ')}}
	#endif
	}

	void test_pointer_chains() {
	AS int AS var_as_as_int;
	AS int AS_COMP var_asc_as_int;
	AS_INCOMP int AS_COMP var_asc_asn_int;
	AS_COMP int AS_COMP var_asc_asc_int;

	// Case 1:
	// * address spaces of corresponded most outer pointees overlaps, their canonical types are equal
	// * CVR, address spaces and canonical types of the rest of pointees are equivalent.
	var_as_as_int = 0 ? var_as_as_int : var_asc_as_int;

	// Case 2: Corresponded inner pointees has non-overlapping address spaces.
	var_as_as_int = 0 ? var_as_as_int : var_asc_asn_int;
	// expected-warning-re@-1{{pointer type mismatch ('__{{(generic\|global\|constant)}} int __{{(generic\|global\|constant)}} ' and '__{{(local\|global\|constant)}} int __{{(constant\|local\|global)}} ')}}

	// Case 3: Corresponded inner pointees has overlapping but not equivalent address spaces.
	#ifdef GENERIC
	var_as_as_int = 0 ? var_as_as_int : var_asc_asc_int;
	// expected-warning-re@-1{{pointer type mismatch ('__{{(generic\|global\|constant)}} int __{{(generic\|global\|constant)}} ' and '__{{(local\|global\|constant)}} int __{{(local\|global\|constant)}} ')}}
	#endif
	}