// { dg-do compile } // { dg-options "-ftrack-macro-expansion=0" } // Test for PR c++/67927 - array new expression with excessive number // of elements not diagnosed. // GCC uses a different maximum value at compile time and at runtime: // 1) The compile-time maximum, MAX, is SIZE_MAX / 2 minus the size // of a cookie (sizeof (size_t)). Exceeding the compile-time // maximum is ill-formed and diagnosed. This test verifies this // diagnostic. // 2) The runtime runtime maximum is the most significant 7 bits, // starting with the first most significant non-zero bit, of // the dividend of the compile-time constant MAX and the product // of the constant array dimensions and the element size, minus // the size of the "cookie." This is also roughly (though not // exactly) SIZE_MAX / 2. Exceeding the runtime maximum is // diagnosed at runtime by throwing a bad_array_new_length // exception. // The cookie is the number of elements in the array, and is // only added for non-POD types, but the its size factors into // the maximum size formula regardless. // See also PR c++/19351 - integer overflow in operator new[]. // For convenience. #define MAX __SIZE_MAX__ typedef __typeof__ (sizeof 0) size_t; void* operator new (size_t, void*); void* operator new[] (size_t, void*); void *p; // Exercise new expression with one-dimensional arrays of char. static void __attribute__ ((used)) test_one_dim_char_array () { p = new char [MAX]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX - 99]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } p = new char [MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid testing the expressions below since whether or not they // are accepted depends on the precision of size_t (which also // determines the size of the cookie). // p = new char [MAX / 2 - 3]; // p = new char [MAX / 2 - 4]; // p = new char [MAX / 2 - 5]; // p = new char [MAX / 2 - 6]; // The following expressions are accepted on ILP32 as well LP64 // (they will be diagnosed on LP128 if there ever is such a data // model). p = new char [MAX / 2 - 7]; // okay p = new char [MAX / 2 - 8]; // okay } static void __attribute__ ((used)) test_one_dim_short_array () { p = new short [MAX]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX - 99]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2 - 3]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2 - 4]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2 - 5]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2 - 6]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of array" } p = new short [MAX / 4]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new short [MAX / 4 - 1]; p = new short [MAX / 4 - 4]; // okay } // Exercise new expression with two-dimensional arrays or char. static void __attribute__ ((used)) test_two_dim_char_array () { p = new char [1][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [1][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } p = new char [1][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new char [1][MAX / 2 - 3]; // p = new char [1][MAX / 2 - 4]; // p = new char [1][MAX / 2 - 5]; // p = new char [1][MAX / 2 - 6]; p = new char [1][MAX / 2 - 7]; // okay p = new char [1][MAX / 2 - 8]; // okay p = new char [2][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [MAX][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [MAX][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [MAX][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX][1]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2][1]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 1][1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } p = new char [MAX / 2 - 2][1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new char [MAX / 2 - 3][1]; // p = new char [MAX / 2 - 4][1]; // p = new char [MAX / 2 - 5][1]; // p = new char [MAX / 2 - 6][1]; p = new char [MAX / 2 - 7][1]; // okay p = new char [MAX / 2 - 8][1]; // okay } // Exercise new expression with three-dimensional arrays. static __attribute__ ((used)) void test_three_dim_char_array () { p = new char [1][1][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][1][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][1][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][1][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][1][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [1][1][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } p = new char [1][1][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new char [1][1][MAX / 2 - 3]; // p = new char [1][1][MAX / 2 - 4]; // p = new char [1][1][MAX / 2 - 5]; // p = new char [1][1][MAX / 2 - 6]; p = new char [1][1][MAX / 2 - 7]; // okay p = new char [1][1][MAX / 2 - 8]; // okay p = new char [1][2][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2 - 3]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2 - 4]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2 - 5]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2 - 6]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [1][2][MAX / 4]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new char [1][2][MAX / 4 - 1]; // p = new char [1][2][MAX / 4 - 2]; p = new char [1][2][MAX / 4 - 3]; // okay p = new char [1][2][MAX / 4 - 4]; // okay p = new char [2][1][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][1][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][1][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][1][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][1][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 2 - 3]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 2 - 4]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 2 - 5]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 2 - 6]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][1][MAX / 4]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new char [2][1][MAX / 4 - 1]; // p = new char [2][1][MAX / 4 - 2]; p = new char [2][1][MAX / 4 - 3]; // okay p = new char [2][1][MAX / 4 - 4]; // okay p = new char [2][2][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2 - 3]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2 - 4]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2 - 5]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2 - 6]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][2][MAX / 4]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][2][MAX / 4 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][2][MAX / 4 - 2]; // { dg-error "size .\[0-9\]+. of array" } // Avoid exercising data model-dependent expressions. // p = new char [2][2][MAX / 8]; // p = new char [2][2][MAX / 8 - 1]; p = new char [2][2][MAX / 8 - 2]; p = new char [2][2][MAX / 8 - 3]; p = new char [2][MAX][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX - 1][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX - 2][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX - 99][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2 - 1][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2 - 2][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2 - 3][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2 - 4][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2 - 5][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2 - 6][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2 - 7][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 2 - 8][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [2][MAX / 4][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][MAX / 4 - 1][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [2][MAX / 4 - 2][2]; // { dg-error "size .\[0-9\]+. of array" } // Avoid exercising data model-dependent expressions. // p = new char [2][MAX / 8][2]; // p = new char [2][MAX / 8 - 1][2]; p = new char [2][MAX / 8 - 2][2]; p = new char [2][MAX / 8 - 3][2]; p = new char [MAX][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX - 1][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX - 2][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX - 99][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 1][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 2][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 3][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 4][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 5][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 6][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 7][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 2 - 8][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 4][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 4 - 1][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new char [MAX / 4 - 2][2][2]; // { dg-error "size .\[0-9\]+. of array" } // Avoid exercising data model-dependent expressions. // p = new char [MAX / 8][2][2]; // p = new char [MAX / 8 - 1][2][2]; p = new char [MAX / 8 - 2][2][2]; p = new char [MAX / 8 - 3][2][2]; p = new char [MAX][MAX][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [MAX][MAX][MAX / 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [MAX][MAX / 2][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new char [MAX][MAX / 2][MAX / 2]; // { dg-error "size of (unnamed )?array" } p = new char [MAX / 2][MAX / 2][MAX / 2]; // { dg-error "size of (unnamed )?array" } } // Exercise new expression with N-dimensional arrays where N is // sizeof(size_t). static __attribute__ ((used)) void test_N_dim_char_array () { #if __SIZEOF_SIZE_T__ == 8 enum { N = 256 }; #elif __SIZEOF_SIZE_T__ == 4 enum { N = 16 }; #else enum { N = 4 }; #endif #ifndef __MSP430X_LARGE__ /* 20-bit size_t. */ p = new char [N][N][N][N][N][N][N]; p = new char [N / 2][2][N][N][N][N][N][N]; p = new char [N - 1][N / 2][N][N][N][N][N][N]; p = new char [N / 2][N][N][N][N][N][N][N]; // { dg-error "size .\[0-9\]+. of array" "" { target { ! msp430_large } } } p = new char [N - 1][N][N][N][N][N][N][N]; // { dg-error "size .\[0-9\]+. of array" "" { target { ! msp430_large } } } p = new char [N] [N][N][N][N][N][N][N]; // { dg-error "size .\[0-9\]+. of array" "" { target { ! msp430_large } } } #endif } typedef struct Byte { char c; void* operator new (size_t, void*); void* operator new[] (size_t, void*); } B; void* operator new (size_t, B*); void* operator new[] (size_t, B*); // Exercise placement new expression with one-dimensional arrays of a struct. static void __attribute__ ((used)) test_one_dim_byte_array (void *p) { p = new (p) B [MAX]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX - 99]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } p = new (p) B [MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid testing the expressions below since whether or not they // are accepted depends on the precision of size_t (which determines // the size .\[0-9\]+. of the cookie). // p = new (p) B [MAX / 2 - 3]; // p = new (p) B [MAX / 2 - 4]; // p = new (p) B [MAX / 2 - 5]; // p = new (p) B [MAX / 2 - 6]; // The following expressions are accepted on ILP32 as well LP64 // (they will be diagnosed on LP128 if there ever is such a data // model). p = new (p) B [MAX / 2 - 7]; // okay p = new (p) B [MAX / 2 - 8]; // okay } // Exercise placement new expression with two-dimensional arrays. static void __attribute__ ((used)) test_placement_two_dim_byte_struct_array (void *p) { p = new (p) B [1][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [1][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } p = new (p) B [1][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new (p) B [1][MAX / 2 - 3]; // p = new (p) B [1][MAX / 2 - 4]; // p = new (p) B [1][MAX / 2 - 5]; // p = new (p) B [1][MAX / 2 - 6]; p = new (p) B [1][MAX / 2 - 7]; // okay p = new (p) B [1][MAX / 2 - 8]; // okay p = new (p) B [2][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [MAX][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [MAX][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [MAX][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX][1]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2][1]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 1][1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } p = new (p) B [MAX / 2 - 2][1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new (p) B [MAX / 2 - 3][1]; // p = new (p) B [MAX / 2 - 4][1]; // p = new (p) B [MAX / 2 - 5][1]; // p = new (p) B [MAX / 2 - 6][1]; p = new (p) B [MAX / 2 - 7][1]; // okay p = new (p) B [MAX / 2 - 8][1]; // okay } // Exercise placement new expression with three-dimensional arrays. static __attribute__ ((used)) void test_placement_three_dim_byte_struct_array (void *p) { p = new (p) B [1][1][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][1][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][1][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][1][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][1][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [1][1][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } p = new (p) B [1][1][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new (p) B [1][1][MAX / 2 - 3]; // p = new (p) B [1][1][MAX / 2 - 4]; // p = new (p) B [1][1][MAX / 2 - 5]; // p = new (p) B [1][1][MAX / 2 - 6]; p = new (p) B [1][1][MAX / 2 - 7]; // okay p = new (p) B [1][1][MAX / 2 - 8]; // okay p = new (p) B [1][2][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2 - 3]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2 - 4]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2 - 5]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2 - 6]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [1][2][MAX / 4]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new (p) B [1][2][MAX / 4 - 1]; // p = new (p) B [1][2][MAX / 4 - 2]; p = new (p) B [1][2][MAX / 4 - 3]; // okay p = new (p) B [1][2][MAX / 4 - 4]; // okay p = new (p) B [2][1][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][1][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][1][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][1][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][1][MAX / 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 2 - 3]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 2 - 4]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 2 - 5]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 2 - 6]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][1][MAX / 4]; // { dg-error "size .\[0-9\]+. of array" "cookie required" { target { ! msp430_small } } } // Avoid exercising data model-dependent expressions. // p = new (p) B [2][1][MAX / 4 - 1]; // p = new (p) B [2][1][MAX / 4 - 2]; p = new (p) B [2][1][MAX / 4 - 3]; // okay p = new (p) B [2][1][MAX / 4 - 4]; // okay p = new (p) B [2][2][MAX]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX - 99]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2 - 1]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2 - 2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2 - 3]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2 - 4]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2 - 5]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2 - 6]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2 - 7]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 2 - 8]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][2][MAX / 4]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][2][MAX / 4 - 1]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][2][MAX / 4 - 2]; // { dg-error "size .\[0-9\]+. of array" } // Avoid exercising data model-dependent expressions. // p = new (p) B [2][2][MAX / 8]; // p = new (p) B [2][2][MAX / 8 - 1]; p = new (p) B [2][2][MAX / 8 - 2]; p = new (p) B [2][2][MAX / 8 - 3]; p = new (p) B [2][MAX][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX - 1][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX - 2][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX - 99][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2 - 1][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2 - 2][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2 - 3][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2 - 4][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2 - 5][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2 - 6][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2 - 7][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 2 - 8][2]; // { dg-error "size .\[0-9\]+. of (unnamed )?array" } p = new (p) B [2][MAX / 4][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][MAX / 4 - 1][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [2][MAX / 4 - 2][2]; // { dg-error "size .\[0-9\]+. of array" } // Avoid exercising data model-dependent expressions. // p = new (p) B [2][MAX / 8][2]; // p = new (p) B [2][MAX / 8 - 1][2]; p = new (p) B [2][MAX / 8 - 2][2]; p = new (p) B [2][MAX / 8 - 3][2]; p = new (p) B [MAX][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX - 1][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX - 2][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX - 99][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 1][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 2][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 3][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 4][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 5][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 6][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 7][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 2 - 8][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 4][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 4 - 1][2][2]; // { dg-error "size .\[0-9\]+. of array" } p = new (p) B [MAX / 4 - 2][2][2]; // { dg-error "size .\[0-9\]+. of array" } // Avoid exercising data model-dependent expressions. // p = new (p) B [MAX / 8][2][2]; // p = new (p) B [MAX / 8 - 1][2][2]; p = new (p) B [MAX / 8 - 2][2][2]; p = new (p) B [MAX / 8 - 3][2][2]; }