gcc/testsuite/gcc.dg/strlenopt-52.c - gcc - Git at Google

 /* PR tree-optimization/77357 - strlen of constant strings not folded
    { dg-do compile }
    { dg-options "-O2 -Wall -fdump-tree-gimple -fdump-tree-ccp" } */

 #include "strlenopt.h"

 #define CONCAT(x, y) x ## y
 #define CAT(x, y) CONCAT (x, y)
 #define FAILNAME(name) CAT (call_ ## name ##_on_line_, __LINE__)

 #define FAIL(name) do {				\
     extern void FAILNAME (name) (void);		\
     FAILNAME (name)();				\
   } while (0)

 /* Macro to emit a call to funcation named
      call_in_true_branch_not_eliminated_on_line_NNN()
    for each call that's expected to be eliminated.  The dg-final
    scan-tree-dump-time directive at the bottom of the test verifies
    that no such call appears in output.  */
 #define ELIM(expr) \
   if (!(expr)) FAIL (in_true_branch_not_eliminated); else (void)0

 #define T(s, n) ELIM (strlen (s) == n)


 struct S
 {
   char a1[1], a2[2], a3[3], a4[4], a5[5], a6[6], a7[7], a8[8], a9[9];
 };

 #define S0 ""
 #define S1 "1"
 #define S2 "12"
 #define S3 "123"
 #define S4 "1234"
 #define S5 "12345"
 #define S6 "123456"
 #define S7 "1234567"
 #define S8 "12345678"

 const char a9[][9] = { S0, S1, S2, S3, S4, S5, S6, S7, S8 };

 const char a_1_9[1][9] = { S8 };
 const char a_2_9[2][9] = { S8, S7};

 const char a9_9[][9][9] = {
   { S0, S0, S0, S0, S0, S0, S0, S0, S0 },
   { S0, S1, S1, S1, S1, S1, S1, S1, S1 },
   { S0, S1, S2, S2, S2, S2, S2, S2, S2 },
   { S0, S1, S2, S3, S3, S3, S3, S3, S3 },
   { S0, S1, S2, S3, S4, S4, S4, S4, S4 },
   { S0, S1, S2, S3, S4, S5, S5, S5, S5 },
   { S0, S1, S2, S3, S4, S5, S6, S6, S6 },
   { S0, S1, S2, S3, S4, S5, S6, S7, S7 },
   { S0, S1, S2, S3, S4, S5, S6, S7, S8 }
 };

 const struct S s = { S0, S1, S2, S3, S4, S5, S6, S7, S8 };

 const struct S sa[9] = {
   { S0, S0, S0, S0, S0, S0, S0, S0, S0 },
   { S0, S1, S1, S1, S1, S1, S1, S1, S1 },
   { S0, S1, S2, S2, S2, S2, S2, S2, S2 },
   { S0, S1, S2, S3, S3, S3, S3, S3, S3 },
   { S0, S1, S2, S3, S4, S4, S4, S4, S4 },
   { S0, S1, S2, S3, S4, S5, S5, S5, S5 },
   { S0, S1, S2, S3, S4, S5, S6, S6, S6 },
   { S0, S1, S2, S3, S4, S5, S6, S7, S7 },
   { S0, S1, S2, S3, S4, S5, S6, S7, S8 }
 };

 const struct S sa3_5_7[3][5][7] = {
   [1][2][3].a2 = S1, [1][3][5].a3 = S2, [2][4][5].a4 = S3
 };


 void test_global_array (void)
 {
   T (a9[0], 0);  T (a9[0] + 0, 0);  T (a9[0] + 0, 0);  T (a9[0] + 0, 0);
   T (a9[1], 1);  T (a9[1] + 1, 0);  T (a9[1] + 1, 0);  T (a9[1] + 1, 0);
   T (a9[2], 2);
   T (a9[2] + 1, 1);
   T (a9[2] + 2, 0);
   T (a9[2] + 2, 0);

   T (a9[3], 3);  T (a9[3] + 1, 2);  T (a9[3] + 2, 1);  T (a9[3] + 3, 0);
   T (a9[4], 4);  T (a9[4] + 1, 3);  T (a9[4] + 2, 2);  T (a9[4] + 3, 1);
   T (a9[5], 5);  T (a9[5] + 1, 4);  T (a9[5] + 2, 3);  T (a9[5] + 3, 2);
   T (a9[6], 6);  T (a9[6] + 1, 5);  T (a9[6] + 2, 4);  T (a9[6] + 3, 3);
   T (a9[7], 7);  T (a9[7] + 1, 6);  T (a9[7] + 2, 5);  T (a9[7] + 3, 4);
   T (a9[8], 8);  T (a9[8] + 1, 7);  T (a9[8] + 2, 6);  T (a9[8] + 3, 5);

   T (a_1_9[0], 8);
   T (a_1_9[0] + 1, 7);
   T (a_1_9[0] + 7, 1);
   T (a_1_9[0] + 8, 0);

   T (a_2_9[0], 8);
   T (a_2_9[0] + 1, 7);
   T (a_2_9[0] + 7, 1);
   T (a_2_9[0] + 8, 0);

   T (a_2_9[1], 7);
   T (a_2_9[1] + 1, 6);
   T (a_2_9[1] + 6, 1);
   T (a_2_9[1] + 7, 0);
   T (a_2_9[1] + 8, 0);
 }

 void test_global_array_array (void)
 {
   T (a9_9[0][0], 0);  T (a9_9[1][0], 0);  T (a9_9[2][0], 0);
   T (a9_9[0][1], 0);  T (a9_9[1][1], 1);  T (a9_9[2][1], 1);
   T (a9_9[0][2], 0);  T (a9_9[1][2], 1);  T (a9_9[2][2], 2);
   T (a9_9[0][3], 0);  T (a9_9[1][3], 1);  T (a9_9[2][3], 2);
   T (a9_9[0][4], 0);  T (a9_9[1][4], 1);  T (a9_9[2][4], 2);
   T (a9_9[0][5], 0);  T (a9_9[1][5], 1);  T (a9_9[2][5], 2);
   T (a9_9[0][6], 0);  T (a9_9[1][6], 1);  T (a9_9[2][6], 2);
   T (a9_9[0][7], 0);  T (a9_9[1][7], 1);  T (a9_9[2][7], 2);
   T (a9_9[0][8], 0);  T (a9_9[1][8], 1);  T (a9_9[2][8], 2);

   T (a9_9[3][0], 0);  T (a9_9[4][0], 0);  T (a9_9[5][0], 0);
   T (a9_9[3][1], 1);  T (a9_9[4][1], 1);  T (a9_9[5][1], 1);
   T (a9_9[3][2], 2);  T (a9_9[4][2], 2);  T (a9_9[5][2], 2);
   T (a9_9[3][3], 3);  T (a9_9[4][3], 3);  T (a9_9[5][3], 3);
   T (a9_9[3][4], 3);  T (a9_9[4][4], 4);  T (a9_9[5][4], 4);
   T (a9_9[3][5], 3);  T (a9_9[4][5], 4);  T (a9_9[5][5], 5);
   T (a9_9[3][6], 3);  T (a9_9[4][6], 4);  T (a9_9[5][6], 5);
   T (a9_9[3][7], 3);  T (a9_9[4][7], 4);  T (a9_9[5][7], 5);
   T (a9_9[3][8], 3);  T (a9_9[4][8], 4);  T (a9_9[5][8], 5);

   T (a9_9[6][0], 0);  T (a9_9[7][0], 0);  T (a9_9[8][0], 0);
   T (a9_9[6][1], 1);  T (a9_9[7][1], 1);  T (a9_9[8][1], 1);
   T (a9_9[6][2], 2);  T (a9_9[7][2], 2);  T (a9_9[8][2], 2);
   T (a9_9[6][3], 3);  T (a9_9[7][3], 3);  T (a9_9[8][3], 3);
   T (a9_9[6][4], 4);  T (a9_9[7][4], 4);  T (a9_9[8][4], 4);
   T (a9_9[6][5], 5);  T (a9_9[7][5], 5);  T (a9_9[8][5], 5);
   T (a9_9[6][6], 6);  T (a9_9[7][6], 6);  T (a9_9[8][6], 6);
   T (a9_9[6][7], 6);  T (a9_9[7][7], 7);  T (a9_9[8][7], 7);
   T (a9_9[6][8], 6);  T (a9_9[7][8], 7);  T (a9_9[8][8], 8);


   T (a9_9[0][0] + 1, 0);  T (a9_9[1][0] + 1, 0);  T (a9_9[2][0] + 2, 0);
   T (a9_9[0][1] + 2, 0);  T (a9_9[1][1] + 1, 0);  T (a9_9[2][1] + 2, 0);
   T (a9_9[0][2] + 3, 0);  T (a9_9[1][2] + 1, 0);  T (a9_9[2][2] + 2, 0);
   T (a9_9[0][3] + 4, 0);  T (a9_9[1][3] + 1, 0);  T (a9_9[2][3] + 2, 0);
   T (a9_9[0][4] + 5, 0);  T (a9_9[1][4] + 1, 0);  T (a9_9[2][4] + 2, 0);
   T (a9_9[0][5] + 6, 0);  T (a9_9[1][5] + 1, 0);  T (a9_9[2][5] + 2, 0);
   T (a9_9[0][6] + 7, 0);  T (a9_9[1][6] + 1, 0);  T (a9_9[2][6] + 2, 0);
   T (a9_9[0][7] + 8, 0);  T (a9_9[1][7] + 1, 0);  T (a9_9[2][7] + 2, 0);
 }

 void test_global_struct (void)
 {
   T (s.a1, 0);
   T (s.a2, 1);
   T (s.a3, 2);
   T (s.a4, 3);
   T (s.a5, 4);
   T (s.a6, 5);
   T (s.a7, 6);
   T (s.a8, 7);
   T (s.a9, 8);
 }

 void test_global_struct_array (void)
 {
   T (sa[0].a1, 0);  T (sa[1].a1, 0);  T (sa[2].a1, 0);  T (sa[3].a1, 0);
   T (sa[0].a2, 0);  T (sa[1].a2, 1);  T (sa[2].a2, 1);  T (sa[3].a2, 1);
   T (sa[0].a3, 0);  T (sa[1].a3, 1);  T (sa[2].a3, 2);  T (sa[3].a3, 2);
   T (sa[0].a4, 0);  T (sa[1].a4, 1);  T (sa[2].a4, 2);  T (sa[3].a4, 3);
   T (sa[0].a5, 0);  T (sa[1].a5, 1);  T (sa[2].a5, 2);  T (sa[3].a5, 3);
   T (sa[0].a6, 0);  T (sa[1].a6, 1);  T (sa[2].a6, 2);  T (sa[3].a6, 3);
   T (sa[0].a7, 0);  T (sa[1].a7, 1);  T (sa[2].a7, 2);  T (sa[3].a7, 3);
   T (sa[0].a8, 0);  T (sa[1].a8, 1);  T (sa[2].a8, 2);  T (sa[3].a8, 3);
   T (sa[0].a9, 0);  T (sa[1].a9, 1);  T (sa[2].a9, 2);  T (sa[3].a9, 3);

   T (sa[4].a1, 0);  T (sa[5].a1, 0);  T (sa[6].a1, 0);  T (sa[7].a1, 0);
   T (sa[4].a2, 1);  T (sa[5].a2, 1);  T (sa[6].a2, 1);  T (sa[7].a2, 1);
   T (sa[4].a3, 2);  T (sa[5].a3, 2);  T (sa[6].a3, 2);  T (sa[7].a3, 2);
   T (sa[4].a4, 3);  T (sa[5].a4, 3);  T (sa[6].a4, 3);  T (sa[7].a4, 3);
   T (sa[4].a5, 4);  T (sa[5].a5, 4);  T (sa[6].a5, 4);  T (sa[7].a5, 4);
   T (sa[4].a6, 4);  T (sa[5].a6, 5);  T (sa[6].a6, 5);  T (sa[7].a6, 5);
   T (sa[4].a7, 4);  T (sa[5].a7, 5);  T (sa[6].a7, 6);  T (sa[7].a7, 6);
   T (sa[4].a8, 4);  T (sa[5].a8, 5);  T (sa[6].a8, 6);  T (sa[7].a8, 7);
   T (sa[4].a9, 4);  T (sa[5].a9, 5);  T (sa[6].a9, 6);  T (sa[7].a9, 7);

   T (sa[8].a1, 0);
   T (sa[8].a2, 1);  T (sa[8].a2 + 1, 0);
   T (sa[8].a3, 2);  T (sa[8].a3 + 1, 1);  T (sa[8].a3 + 2, 0);
   T (sa[8].a4, 3);  T (sa[8].a4 + 1, 2);  T (sa[8].a4 + 2, 1);
   T (sa[8].a5, 4);  T (sa[8].a5 + 1, 3);  T (sa[8].a5 + 2, 2);
   T (sa[8].a6, 5);  T (sa[8].a6 + 1, 4);  T (sa[8].a6 + 2, 3);
   T (sa[8].a7, 6);  T (sa[8].a7 + 1, 5);  T (sa[8].a7 + 2, 4);
   T (sa[8].a8, 7);  T (sa[8].a8 + 1, 6);  T (sa[8].a8 + 2, 5);
   T (sa[8].a9, 8);  T (sa[8].a9 + 1, 7);  T (sa[8].a9 + 2, 6);


   T (sa3_5_7[1][2][3].a2, 1);
   T (sa3_5_7[1][3][5].a3, 2);
   T (sa3_5_7[2][4][5].a4, 3);

   T (sa3_5_7[0][0][0].a1, 0);
   T (sa3_5_7[0][0][0].a2, 0);
   T (sa3_5_7[0][0][0].a3, 0);
   T (sa3_5_7[0][0][0].a4, 0);
   T (sa3_5_7[0][0][0].a5, 0);
   T (sa3_5_7[0][0][0].a6, 0);
   T (sa3_5_7[0][0][0].a7, 0);
   T (sa3_5_7[0][0][0].a8, 0);
   T (sa3_5_7[0][0][0].a9, 0);

   T (sa3_5_7[0][0][1].a1, 0);
   T (sa3_5_7[0][0][1].a2, 0);
   T (sa3_5_7[0][0][1].a3, 0);
   T (sa3_5_7[0][0][1].a4, 0);
   T (sa3_5_7[0][0][1].a5, 0);
   T (sa3_5_7[0][0][1].a6, 0);
   T (sa3_5_7[0][0][1].a7, 0);
   T (sa3_5_7[0][0][1].a8, 0);
   T (sa3_5_7[0][0][1].a9, 0);

   T (sa3_5_7[0][1][0].a1, 0);
   T (sa3_5_7[0][1][0].a2, 0);
   T (sa3_5_7[0][1][0].a3, 0);
   T (sa3_5_7[0][1][0].a4, 0);
   T (sa3_5_7[0][1][0].a5, 0);
   T (sa3_5_7[0][1][0].a6, 0);
   T (sa3_5_7[0][1][0].a7, 0);
   T (sa3_5_7[0][1][0].a8, 0);
   T (sa3_5_7[0][1][0].a9, 0);

   T (sa3_5_7[1][0][0].a1, 0);
   T (sa3_5_7[1][0][0].a2, 0);
   T (sa3_5_7[1][0][0].a3, 0);
   T (sa3_5_7[1][0][0].a4, 0);
   T (sa3_5_7[1][0][0].a5, 0);
   T (sa3_5_7[1][0][0].a6, 0);
   T (sa3_5_7[1][0][0].a7, 0);
   T (sa3_5_7[1][0][0].a8, 0);
   T (sa3_5_7[1][0][0].a9, 0);
 }


 struct SS {
   char a9[9][9];
   struct S sa9[9];
 };

 const struct SS ssa[] = {
   [1] = {
     .a9 = { [3] = S3, [7] = S7 },
     .sa9 = { [5] = { .a5 = S4, .a7 = S6 } }
   },
   [5] = {
     .a9 = { [1] = S8, [5] = S4 },
     .sa9 = { [3] = { .a3 = S2, .a6 = S3 } }
   }
 };

 void test_global_struct_struct_array (void)
 {
   T (ssa[0].a9[0], 0);
   T (ssa[0].a9[3], 0);
   T (ssa[0].sa9[5].a5, 0);
   T (ssa[0].sa9[5].a7, 0);

   T (ssa[1].a9[0], 0);

   T (ssa[1].a9[3], 3);
   T (ssa[1].a9[7], 7);
   T (ssa[1].sa9[5].a5, 4);
   T (ssa[1].sa9[5].a7, 6);

   T (ssa[2].a9[3], 0);
   T (ssa[2].a9[7], 0);
   T (ssa[2].sa9[5].a5, 0);
   T (ssa[2].sa9[5].a7, 0);

   T (ssa[5].a9[1], 8);
   T (ssa[5].a9[5], 4);
   T (ssa[5].sa9[3].a3, 2);
   T (ssa[5].sa9[3].a6, 3);
 }

 /* { dg-final { scan-tree-dump-times "strlen1" 0 "gimple" } }
    { dg-final { scan-tree-dump-times "call_in_true_branch_not_eliminated" 0 "ccp1" } } */
	/* PR tree-optimization/77357 - strlen of constant strings not folded
	{ dg-do compile }
	{ dg-options "-O2 -Wall -fdump-tree-gimple -fdump-tree-ccp" } */

	#include "strlenopt.h"

	#define CONCAT(x, y) x ## y
	#define CAT(x, y) CONCAT (x, y)
	#define FAILNAME(name) CAT (call_ ## name ##_on_line_, __LINE__)

	#define FAIL(name) do { \
	extern void FAILNAME (name) (void); \
	FAILNAME (name)(); \
	} while (0)

	/* Macro to emit a call to funcation named
	call_in_true_branch_not_eliminated_on_line_NNN()
	for each call that's expected to be eliminated. The dg-final
	scan-tree-dump-time directive at the bottom of the test verifies
	that no such call appears in output. */
	#define ELIM(expr) \
	if (!(expr)) FAIL (in_true_branch_not_eliminated); else (void)0

	#define T(s, n) ELIM (strlen (s) == n)


	struct S
	{
	char a1[1], a2[2], a3[3], a4[4], a5[5], a6[6], a7[7], a8[8], a9[9];
	};

	#define S0 ""
	#define S1 "1"
	#define S2 "12"
	#define S3 "123"
	#define S4 "1234"
	#define S5 "12345"
	#define S6 "123456"
	#define S7 "1234567"
	#define S8 "12345678"

	const char a9[][9] = { S0, S1, S2, S3, S4, S5, S6, S7, S8 };

	const char a_1_9[1][9] = { S8 };
	const char a_2_9[2][9] = { S8, S7};

	const char a9_9[][9][9] = {
	{ S0, S0, S0, S0, S0, S0, S0, S0, S0 },
	{ S0, S1, S1, S1, S1, S1, S1, S1, S1 },
	{ S0, S1, S2, S2, S2, S2, S2, S2, S2 },
	{ S0, S1, S2, S3, S3, S3, S3, S3, S3 },
	{ S0, S1, S2, S3, S4, S4, S4, S4, S4 },
	{ S0, S1, S2, S3, S4, S5, S5, S5, S5 },
	{ S0, S1, S2, S3, S4, S5, S6, S6, S6 },
	{ S0, S1, S2, S3, S4, S5, S6, S7, S7 },
	{ S0, S1, S2, S3, S4, S5, S6, S7, S8 }
	};

	const struct S s = { S0, S1, S2, S3, S4, S5, S6, S7, S8 };

	const struct S sa[9] = {
	{ S0, S0, S0, S0, S0, S0, S0, S0, S0 },
	{ S0, S1, S1, S1, S1, S1, S1, S1, S1 },
	{ S0, S1, S2, S2, S2, S2, S2, S2, S2 },
	{ S0, S1, S2, S3, S3, S3, S3, S3, S3 },
	{ S0, S1, S2, S3, S4, S4, S4, S4, S4 },
	{ S0, S1, S2, S3, S4, S5, S5, S5, S5 },
	{ S0, S1, S2, S3, S4, S5, S6, S6, S6 },
	{ S0, S1, S2, S3, S4, S5, S6, S7, S7 },
	{ S0, S1, S2, S3, S4, S5, S6, S7, S8 }
	};

	const struct S sa3_5_7[3][5][7] = {
	[1][2][3].a2 = S1, [1][3][5].a3 = S2, [2][4][5].a4 = S3
	};


	void test_global_array (void)
	{
	T (a9[0], 0); T (a9[0] + 0, 0); T (a9[0] + 0, 0); T (a9[0] + 0, 0);
	T (a9[1], 1); T (a9[1] + 1, 0); T (a9[1] + 1, 0); T (a9[1] + 1, 0);
	T (a9[2], 2);
	T (a9[2] + 1, 1);
	T (a9[2] + 2, 0);
	T (a9[2] + 2, 0);

	T (a9[3], 3); T (a9[3] + 1, 2); T (a9[3] + 2, 1); T (a9[3] + 3, 0);
	T (a9[4], 4); T (a9[4] + 1, 3); T (a9[4] + 2, 2); T (a9[4] + 3, 1);
	T (a9[5], 5); T (a9[5] + 1, 4); T (a9[5] + 2, 3); T (a9[5] + 3, 2);
	T (a9[6], 6); T (a9[6] + 1, 5); T (a9[6] + 2, 4); T (a9[6] + 3, 3);
	T (a9[7], 7); T (a9[7] + 1, 6); T (a9[7] + 2, 5); T (a9[7] + 3, 4);
	T (a9[8], 8); T (a9[8] + 1, 7); T (a9[8] + 2, 6); T (a9[8] + 3, 5);

	T (a_1_9[0], 8);
	T (a_1_9[0] + 1, 7);
	T (a_1_9[0] + 7, 1);
	T (a_1_9[0] + 8, 0);

	T (a_2_9[0], 8);
	T (a_2_9[0] + 1, 7);
	T (a_2_9[0] + 7, 1);
	T (a_2_9[0] + 8, 0);

	T (a_2_9[1], 7);
	T (a_2_9[1] + 1, 6);
	T (a_2_9[1] + 6, 1);
	T (a_2_9[1] + 7, 0);
	T (a_2_9[1] + 8, 0);
	}

	void test_global_array_array (void)
	{
	T (a9_9[0][0], 0); T (a9_9[1][0], 0); T (a9_9[2][0], 0);
	T (a9_9[0][1], 0); T (a9_9[1][1], 1); T (a9_9[2][1], 1);
	T (a9_9[0][2], 0); T (a9_9[1][2], 1); T (a9_9[2][2], 2);
	T (a9_9[0][3], 0); T (a9_9[1][3], 1); T (a9_9[2][3], 2);
	T (a9_9[0][4], 0); T (a9_9[1][4], 1); T (a9_9[2][4], 2);
	T (a9_9[0][5], 0); T (a9_9[1][5], 1); T (a9_9[2][5], 2);
	T (a9_9[0][6], 0); T (a9_9[1][6], 1); T (a9_9[2][6], 2);
	T (a9_9[0][7], 0); T (a9_9[1][7], 1); T (a9_9[2][7], 2);
	T (a9_9[0][8], 0); T (a9_9[1][8], 1); T (a9_9[2][8], 2);

	T (a9_9[3][0], 0); T (a9_9[4][0], 0); T (a9_9[5][0], 0);
	T (a9_9[3][1], 1); T (a9_9[4][1], 1); T (a9_9[5][1], 1);
	T (a9_9[3][2], 2); T (a9_9[4][2], 2); T (a9_9[5][2], 2);
	T (a9_9[3][3], 3); T (a9_9[4][3], 3); T (a9_9[5][3], 3);
	T (a9_9[3][4], 3); T (a9_9[4][4], 4); T (a9_9[5][4], 4);
	T (a9_9[3][5], 3); T (a9_9[4][5], 4); T (a9_9[5][5], 5);
	T (a9_9[3][6], 3); T (a9_9[4][6], 4); T (a9_9[5][6], 5);
	T (a9_9[3][7], 3); T (a9_9[4][7], 4); T (a9_9[5][7], 5);
	T (a9_9[3][8], 3); T (a9_9[4][8], 4); T (a9_9[5][8], 5);

	T (a9_9[6][0], 0); T (a9_9[7][0], 0); T (a9_9[8][0], 0);
	T (a9_9[6][1], 1); T (a9_9[7][1], 1); T (a9_9[8][1], 1);
	T (a9_9[6][2], 2); T (a9_9[7][2], 2); T (a9_9[8][2], 2);
	T (a9_9[6][3], 3); T (a9_9[7][3], 3); T (a9_9[8][3], 3);
	T (a9_9[6][4], 4); T (a9_9[7][4], 4); T (a9_9[8][4], 4);
	T (a9_9[6][5], 5); T (a9_9[7][5], 5); T (a9_9[8][5], 5);
	T (a9_9[6][6], 6); T (a9_9[7][6], 6); T (a9_9[8][6], 6);
	T (a9_9[6][7], 6); T (a9_9[7][7], 7); T (a9_9[8][7], 7);
	T (a9_9[6][8], 6); T (a9_9[7][8], 7); T (a9_9[8][8], 8);


	T (a9_9[0][0] + 1, 0); T (a9_9[1][0] + 1, 0); T (a9_9[2][0] + 2, 0);
	T (a9_9[0][1] + 2, 0); T (a9_9[1][1] + 1, 0); T (a9_9[2][1] + 2, 0);
	T (a9_9[0][2] + 3, 0); T (a9_9[1][2] + 1, 0); T (a9_9[2][2] + 2, 0);
	T (a9_9[0][3] + 4, 0); T (a9_9[1][3] + 1, 0); T (a9_9[2][3] + 2, 0);
	T (a9_9[0][4] + 5, 0); T (a9_9[1][4] + 1, 0); T (a9_9[2][4] + 2, 0);
	T (a9_9[0][5] + 6, 0); T (a9_9[1][5] + 1, 0); T (a9_9[2][5] + 2, 0);
	T (a9_9[0][6] + 7, 0); T (a9_9[1][6] + 1, 0); T (a9_9[2][6] + 2, 0);
	T (a9_9[0][7] + 8, 0); T (a9_9[1][7] + 1, 0); T (a9_9[2][7] + 2, 0);
	}

	void test_global_struct (void)
	{
	T (s.a1, 0);
	T (s.a2, 1);
	T (s.a3, 2);
	T (s.a4, 3);
	T (s.a5, 4);
	T (s.a6, 5);
	T (s.a7, 6);
	T (s.a8, 7);
	T (s.a9, 8);
	}

	void test_global_struct_array (void)
	{
	T (sa[0].a1, 0); T (sa[1].a1, 0); T (sa[2].a1, 0); T (sa[3].a1, 0);
	T (sa[0].a2, 0); T (sa[1].a2, 1); T (sa[2].a2, 1); T (sa[3].a2, 1);
	T (sa[0].a3, 0); T (sa[1].a3, 1); T (sa[2].a3, 2); T (sa[3].a3, 2);
	T (sa[0].a4, 0); T (sa[1].a4, 1); T (sa[2].a4, 2); T (sa[3].a4, 3);
	T (sa[0].a5, 0); T (sa[1].a5, 1); T (sa[2].a5, 2); T (sa[3].a5, 3);
	T (sa[0].a6, 0); T (sa[1].a6, 1); T (sa[2].a6, 2); T (sa[3].a6, 3);
	T (sa[0].a7, 0); T (sa[1].a7, 1); T (sa[2].a7, 2); T (sa[3].a7, 3);
	T (sa[0].a8, 0); T (sa[1].a8, 1); T (sa[2].a8, 2); T (sa[3].a8, 3);
	T (sa[0].a9, 0); T (sa[1].a9, 1); T (sa[2].a9, 2); T (sa[3].a9, 3);

	T (sa[4].a1, 0); T (sa[5].a1, 0); T (sa[6].a1, 0); T (sa[7].a1, 0);
	T (sa[4].a2, 1); T (sa[5].a2, 1); T (sa[6].a2, 1); T (sa[7].a2, 1);
	T (sa[4].a3, 2); T (sa[5].a3, 2); T (sa[6].a3, 2); T (sa[7].a3, 2);
	T (sa[4].a4, 3); T (sa[5].a4, 3); T (sa[6].a4, 3); T (sa[7].a4, 3);
	T (sa[4].a5, 4); T (sa[5].a5, 4); T (sa[6].a5, 4); T (sa[7].a5, 4);
	T (sa[4].a6, 4); T (sa[5].a6, 5); T (sa[6].a6, 5); T (sa[7].a6, 5);
	T (sa[4].a7, 4); T (sa[5].a7, 5); T (sa[6].a7, 6); T (sa[7].a7, 6);
	T (sa[4].a8, 4); T (sa[5].a8, 5); T (sa[6].a8, 6); T (sa[7].a8, 7);
	T (sa[4].a9, 4); T (sa[5].a9, 5); T (sa[6].a9, 6); T (sa[7].a9, 7);

	T (sa[8].a1, 0);
	T (sa[8].a2, 1); T (sa[8].a2 + 1, 0);
	T (sa[8].a3, 2); T (sa[8].a3 + 1, 1); T (sa[8].a3 + 2, 0);
	T (sa[8].a4, 3); T (sa[8].a4 + 1, 2); T (sa[8].a4 + 2, 1);
	T (sa[8].a5, 4); T (sa[8].a5 + 1, 3); T (sa[8].a5 + 2, 2);
	T (sa[8].a6, 5); T (sa[8].a6 + 1, 4); T (sa[8].a6 + 2, 3);
	T (sa[8].a7, 6); T (sa[8].a7 + 1, 5); T (sa[8].a7 + 2, 4);
	T (sa[8].a8, 7); T (sa[8].a8 + 1, 6); T (sa[8].a8 + 2, 5);
	T (sa[8].a9, 8); T (sa[8].a9 + 1, 7); T (sa[8].a9 + 2, 6);


	T (sa3_5_7[1][2][3].a2, 1);
	T (sa3_5_7[1][3][5].a3, 2);
	T (sa3_5_7[2][4][5].a4, 3);

	T (sa3_5_7[0][0][0].a1, 0);
	T (sa3_5_7[0][0][0].a2, 0);
	T (sa3_5_7[0][0][0].a3, 0);
	T (sa3_5_7[0][0][0].a4, 0);
	T (sa3_5_7[0][0][0].a5, 0);
	T (sa3_5_7[0][0][0].a6, 0);
	T (sa3_5_7[0][0][0].a7, 0);
	T (sa3_5_7[0][0][0].a8, 0);
	T (sa3_5_7[0][0][0].a9, 0);

	T (sa3_5_7[0][0][1].a1, 0);
	T (sa3_5_7[0][0][1].a2, 0);
	T (sa3_5_7[0][0][1].a3, 0);
	T (sa3_5_7[0][0][1].a4, 0);
	T (sa3_5_7[0][0][1].a5, 0);
	T (sa3_5_7[0][0][1].a6, 0);
	T (sa3_5_7[0][0][1].a7, 0);
	T (sa3_5_7[0][0][1].a8, 0);
	T (sa3_5_7[0][0][1].a9, 0);

	T (sa3_5_7[0][1][0].a1, 0);
	T (sa3_5_7[0][1][0].a2, 0);
	T (sa3_5_7[0][1][0].a3, 0);
	T (sa3_5_7[0][1][0].a4, 0);
	T (sa3_5_7[0][1][0].a5, 0);
	T (sa3_5_7[0][1][0].a6, 0);
	T (sa3_5_7[0][1][0].a7, 0);
	T (sa3_5_7[0][1][0].a8, 0);
	T (sa3_5_7[0][1][0].a9, 0);

	T (sa3_5_7[1][0][0].a1, 0);
	T (sa3_5_7[1][0][0].a2, 0);
	T (sa3_5_7[1][0][0].a3, 0);
	T (sa3_5_7[1][0][0].a4, 0);
	T (sa3_5_7[1][0][0].a5, 0);
	T (sa3_5_7[1][0][0].a6, 0);
	T (sa3_5_7[1][0][0].a7, 0);
	T (sa3_5_7[1][0][0].a8, 0);
	T (sa3_5_7[1][0][0].a9, 0);
	}


	struct SS {
	char a9[9][9];
	struct S sa9[9];
	};

	const struct SS ssa[] = {
	[1] = {
	.a9 = { [3] = S3, [7] = S7 },
	.sa9 = { [5] = { .a5 = S4, .a7 = S6 } }
	},
	[5] = {
	.a9 = { [1] = S8, [5] = S4 },
	.sa9 = { [3] = { .a3 = S2, .a6 = S3 } }
	}
	};

	void test_global_struct_struct_array (void)
	{
	T (ssa[0].a9[0], 0);
	T (ssa[0].a9[3], 0);
	T (ssa[0].sa9[5].a5, 0);
	T (ssa[0].sa9[5].a7, 0);

	T (ssa[1].a9[0], 0);

	T (ssa[1].a9[3], 3);
	T (ssa[1].a9[7], 7);
	T (ssa[1].sa9[5].a5, 4);
	T (ssa[1].sa9[5].a7, 6);

	T (ssa[2].a9[3], 0);
	T (ssa[2].a9[7], 0);
	T (ssa[2].sa9[5].a5, 0);
	T (ssa[2].sa9[5].a7, 0);

	T (ssa[5].a9[1], 8);
	T (ssa[5].a9[5], 4);
	T (ssa[5].sa9[3].a3, 2);
	T (ssa[5].sa9[3].a6, 3);
	}

	/* { dg-final { scan-tree-dump-times "strlen1" 0 "gimple" } }
	{ dg-final { scan-tree-dump-times "call_in_true_branch_not_eliminated" 0 "ccp1" } } */