gcc/testsuite/gcc.target/ia64/pr49303.c - gcc - Git at Google

 /* { dg-do compile } */
 /* { dg-options "-w -O2 -fselective-scheduling2 -fsel-sched-pipelining" } */

 typedef struct rtx_def *rtx;
 typedef const struct rtx_def *const_rtx;
 typedef struct basic_block_def *basic_block;
 enum machine_mode {
   VOIDmode, BLKmode, CCmode, CCImode, BImode, QImode, HImode, SImode, DImode, TImode, OImode, QQmode, HQmode, SQmode, DQmode, TQmode, UQQmode, UHQmode, USQmode, UDQmode, UTQmode, HAmode, SAmode, DAmode, TAmode, UHAmode, USAmode, UDAmode, UTAmode, SFmode, DFmode, XFmode, RFmode, TFmode, SDmode, DDmode, TDmode, CQImode, CHImode, CSImode, CDImode, CTImode, COImode, SCmode, DCmode, XCmode, RCmode, TCmode, V4QImode, V2HImode, V8QImode, V4HImode, V2SImode, V16QImode, V8HImode, V4SImode, V2SFmode, V4SFmode, MAX_MACHINE_MODE, MIN_MODE_RANDOM = VOIDmode, MAX_MODE_RANDOM = BLKmode, MIN_MODE_CC = CCmode, MAX_MODE_CC = CCImode, MIN_MODE_INT = QImode, MAX_MODE_INT = OImode, MIN_MODE_PARTIAL_INT = VOIDmode, MAX_MODE_PARTIAL_INT = VOIDmode, MIN_MODE_FRACT = QQmode, MAX_MODE_FRACT = TQmode, MIN_MODE_UFRACT = UQQmode, MAX_MODE_UFRACT = UTQmode, MIN_MODE_ACCUM = HAmode, MAX_MODE_ACCUM = TAmode, MIN_MODE_UACCUM = UHAmode, MAX_MODE_UACCUM = UTAmode, MIN_MODE_FLOAT = SFmode, MAX_MODE_FLOAT = TFmode, MIN_MODE_DECIMAL_FLOAT = SDmode, MAX_MODE_DECIMAL_FLOAT = TDmode, MIN_MODE_COMPLEX_INT = CQImode, MAX_MODE_COMPLEX_INT = COImode, MIN_MODE_COMPLEX_FLOAT = SCmode, MAX_MODE_COMPLEX_FLOAT = TCmode, MIN_MODE_VECTOR_INT = V4QImode, MAX_MODE_VECTOR_INT = V4SImode, MIN_MODE_VECTOR_FRACT = VOIDmode, MAX_MODE_VECTOR_FRACT = VOIDmode, MIN_MODE_VECTOR_UFRACT = VOIDmode, MAX_MODE_VECTOR_UFRACT = VOIDmode, MIN_MODE_VECTOR_ACCUM = VOIDmode, MAX_MODE_VECTOR_ACCUM = VOIDmode, MIN_MODE_VECTOR_UACCUM = VOIDmode, MAX_MODE_VECTOR_UACCUM = VOIDmode, MIN_MODE_VECTOR_FLOAT = V2SFmode, MAX_MODE_VECTOR_FLOAT = V4SFmode, NUM_MACHINE_MODES = MAX_MACHINE_MODE };
 struct real_value {
 };
 extern void vec_assert_fail (const char *, const char * ,const char *file_,unsigned line_,const char *function_) __attribute__ ((__noreturn__));
 typedef struct vec_prefix {
   unsigned num;
 };
 enum rtx_code {
   UNKNOWN , VALUE , DEBUG_EXPR , EXPR_LIST , INSN_LIST , SEQUENCE , ADDRESS , DEBUG_INSN , INSN , JUMP_INSN , CALL_INSN , BARRIER , CODE_LABEL , NOTE , COND_EXEC , PARALLEL , ASM_INPUT , ASM_OPERANDS , UNSPEC , UNSPEC_VOLATILE , ADDR_VEC , ADDR_DIFF_VEC , PREFETCH , SET , USE , CLOBBER , CALL , RETURN , EH_RETURN , TRAP_IF , CONST_INT , CONST_FIXED , CONST_DOUBLE , CONST_VECTOR , CONST_STRING , CONST , PC , REG , SCRATCH , SUBREG , STRICT_LOW_PART , CONCAT , CONCATN , MEM , LABEL_REF , SYMBOL_REF , CC0 , IF_THEN_ELSE , COMPARE , PLUS , MINUS , NEG , MULT , SS_MULT , US_MULT , DIV , SS_DIV , US_DIV , MOD , UDIV , UMOD , AND , IOR , XOR , NOT , ASHIFT , ROTATE , ASHIFTRT , LSHIFTRT , ROTATERT , SMIN , SMAX , UMIN , UMAX , PRE_DEC , PRE_INC , POST_DEC , POST_INC , PRE_MODIFY , POST_MODIFY , NE , EQ , GE , GT , LE , LT , GEU , GTU , LEU , LTU , UNORDERED , ORDERED , UNEQ , UNGE , UNGT , UNLE , UNLT , LTGT , SIGN_EXTEND , ZERO_EXTEND , TRUNCATE , FLOAT_EXTEND , FLOAT_TRUNCATE , FLOAT , FIX , UNSIGNED_FLOAT , UNSIGNED_FIX , FRACT_CONVERT , UNSIGNED_FRACT_CONVERT , SAT_FRACT , UNSIGNED_SAT_FRACT , ABS , SQRT , BSWAP , FFS , CLZ , CTZ , POPCOUNT , PARITY , SIGN_EXTRACT , ZERO_EXTRACT , HIGH , LO_SUM , VEC_MERGE , VEC_SELECT , VEC_CONCAT , VEC_DUPLICATE , SS_PLUS , US_PLUS , SS_MINUS , SS_NEG , US_NEG , SS_ABS , SS_ASHIFT , US_ASHIFT , US_MINUS , SS_TRUNCATE , US_TRUNCATE , FMA , VAR_LOCATION , DEBUG_IMPLICIT_PTR , ENTRY_VALUE , LAST_AND_UNUSED_RTX_CODE};
 enum rtx_class {
   RTX_COMPARE, RTX_COMM_COMPARE, RTX_BIN_ARITH, RTX_COMM_ARITH, RTX_UNARY, RTX_EXTRA, RTX_MATCH, RTX_INSN, RTX_OBJ, RTX_CONST_OBJ, RTX_TERNARY, RTX_BITFIELD_OPS, RTX_AUTOINC };
 extern const enum rtx_class rtx_class[((int) LAST_AND_UNUSED_RTX_CODE)];
 union rtunion_def {
   int rt_int;
   unsigned int rt_uint;
   rtx rt_rtx;
 };
 typedef union rtunion_def rtunion;
 struct rtx_def {
   __extension__ enum rtx_code code: 16;
   __extension__ enum machine_mode mode : 8;
   unsigned int unchanging : 1;
   union u {
     rtunion fld[1];
   }
   u;
 };
 static __inline__ unsigned int rhs_regno (const_rtx x) {
   return (((x)->u.fld[0]).rt_uint);
 }
 struct regstat_n_sets_and_refs_t {
   int sets;
 };
 extern struct regstat_n_sets_and_refs_t *regstat_n_sets_and_refs;
 static __inline__ int REG_N_SETS (int regno) {
   return regstat_n_sets_and_refs[regno].sets;
 }
 struct target_regs {
   unsigned char x_hard_regno_nregs[334][MAX_MACHINE_MODE];
 };
 extern struct target_regs default_target_regs;
 static __inline__ unsigned int end_hard_regno (enum machine_mode mode, unsigned int regno) {
   return regno + ((&default_target_regs)->x_hard_regno_nregs)[regno][(int) mode];
 }
 struct function {
   struct eh_status *eh;
   struct control_flow_graph *cfg;
 };
 extern struct function *cfun;
 typedef struct VEC_edge_gc {
 }
 VEC_edge_gc;
 struct basic_block_def {
   VEC_edge_gc *preds;
   struct basic_block_def *next_bb;
   int index;
 }
 VEC_basic_block_gc;
 struct control_flow_graph {
   basic_block x_entry_block_ptr;
 }
 bitmap_obstack;
 typedef struct bitmap_element_def {
 }
 bitmap_element;
 typedef struct bitmap_head_def {
   bitmap_element *first;
   bitmap_element *current;
 }
 bitmap_head;
 struct dataflow {
   struct df_problem *problem;
   void *block_info;
   unsigned int block_info_size;
 };
 struct df_insn_info {
   int luid;
 };
 struct df_d {
   struct dataflow *problems_by_index[(7 + 1)];
   struct df_insn_info **insns;
 };
 struct df_lr_bb_info {
   bitmap_head def;
   bitmap_head in;
 };
 extern struct df_d *df;
 static __inline__ struct df_lr_bb_info * df_lr_get_bb_info (unsigned int index) {
   if (index < (df->problems_by_index[1])->block_info_size) return &((struct df_lr_bb_info *) (df->problems_by_index[1])->block_info)[index];
   else return ((void *)0);
 }
 typedef struct reg_stat_struct {
   int last_set_label;
   unsigned long last_set_nonzero_bits;
   char last_set_invalid;
 }
 reg_stat_type;
 typedef struct VEC_reg_stat_type_base {
   struct vec_prefix prefix;
   reg_stat_type vec[1];
 }
 VEC_reg_stat_type_base;
 static __inline__ reg_stat_type *VEC_reg_stat_type_base_index (VEC_reg_stat_type_base *vec_, unsigned ix_ ,const char *file_,unsigned line_,const char *function_) {
   (void)((vec_ && ix_ < vec_->prefix.num) ? 0 : (vec_assert_fail ("index","VEC(reg_stat_type,base)" ,file_,line_,function_), 0));
   return &vec_->vec[ix_];
 }
 typedef struct VEC_reg_stat_type_heap {
   VEC_reg_stat_type_base base;
 }
 VEC_reg_stat_type_heap;
 static VEC_reg_stat_type_heap *reg_stat;
 static int mem_last_set;
 static int label_tick;
 int get_last_value_validate (rtx *loc, rtx insn, int tick, int replace)
 {
   rtx x = *loc;
   int i, j;
   if ((((enum rtx_code) (x)->code) == REG))
     {
       unsigned int regno = (rhs_regno(x));
       unsigned int endregno = (((((rhs_regno(x))) < 334)) ? end_hard_regno (((enum machine_mode) (x)->mode), (rhs_regno(x))) : (rhs_regno(x)) + 1);
       for (j = regno;
 	   j < endregno;
 	   j++)
 	{
 	  reg_stat_type *rsp = (VEC_reg_stat_type_base_index(((reg_stat) ? &(reg_stat)->base : 0),j ,"/gcc/combine.c",12640,__FUNCTION__));
 	  if (
 	      rsp->last_set_invalid
 	      ||
 	      (
 	       (
 		regno >= 334
 		&& REG_N_SETS (regno) == 1
 		&& (!bitmap_bit_p ((&(df_lr_get_bb_info((((cfun + 0)->cfg->x_entry_block_ptr)->next_bb)->index))->in), regno) )
 	       )
 	       && rsp->last_set_label > tick
 	      )
 	     )
 	    {
 	      return replace;
 	    }
 	}
     }
   else if ((((enum rtx_code) (x)->code) == MEM)
 	   &&
 	   (
 	    (
 	     {
 	     __typeof ((x)) const _rtx = ((x));
 	     _rtx;
 	     }
 	    )->unchanging
 	   )
 	   &&
 	   (
 	    tick != label_tick
 	    || ((((df->insns[((((insn)->u.fld[0]).rt_int))]))->luid)) <= mem_last_set
 	   )
 	  )
     {
 	{
 	  if (
 	      i == 1
 	     )
 	    {
 	      rtx x0 = (((x)->u.fld[0]).rt_rtx);
 	      rtx x1 = (((x)->u.fld[1]).rt_rtx);
 	      if ((((rtx_class[(int) (((enum rtx_code) (x1)->code))]) & (~1)) == (RTX_COMM_ARITH & (~1)))
 		  &&
 		  (
 		   x0 == (((x1)->u.fld[0]).rt_rtx)
 		  )
 		 )
 		return get_last_value_validate (&(((x1)->u.fld[x0 == (((x1)->u.fld[0]).rt_rtx) ? 1 : 0]).rt_rtx) , insn, tick, replace);
 	    }
 	}
     }
 }
	/* { dg-do compile } */
	/* { dg-options "-w -O2 -fselective-scheduling2 -fsel-sched-pipelining" } */

	typedef struct rtx_def *rtx;
	typedef const struct rtx_def *const_rtx;
	typedef struct basic_block_def *basic_block;
	enum machine_mode {
	VOIDmode, BLKmode, CCmode, CCImode, BImode, QImode, HImode, SImode, DImode, TImode, OImode, QQmode, HQmode, SQmode, DQmode, TQmode, UQQmode, UHQmode, USQmode, UDQmode, UTQmode, HAmode, SAmode, DAmode, TAmode, UHAmode, USAmode, UDAmode, UTAmode, SFmode, DFmode, XFmode, RFmode, TFmode, SDmode, DDmode, TDmode, CQImode, CHImode, CSImode, CDImode, CTImode, COImode, SCmode, DCmode, XCmode, RCmode, TCmode, V4QImode, V2HImode, V8QImode, V4HImode, V2SImode, V16QImode, V8HImode, V4SImode, V2SFmode, V4SFmode, MAX_MACHINE_MODE, MIN_MODE_RANDOM = VOIDmode, MAX_MODE_RANDOM = BLKmode, MIN_MODE_CC = CCmode, MAX_MODE_CC = CCImode, MIN_MODE_INT = QImode, MAX_MODE_INT = OImode, MIN_MODE_PARTIAL_INT = VOIDmode, MAX_MODE_PARTIAL_INT = VOIDmode, MIN_MODE_FRACT = QQmode, MAX_MODE_FRACT = TQmode, MIN_MODE_UFRACT = UQQmode, MAX_MODE_UFRACT = UTQmode, MIN_MODE_ACCUM = HAmode, MAX_MODE_ACCUM = TAmode, MIN_MODE_UACCUM = UHAmode, MAX_MODE_UACCUM = UTAmode, MIN_MODE_FLOAT = SFmode, MAX_MODE_FLOAT = TFmode, MIN_MODE_DECIMAL_FLOAT = SDmode, MAX_MODE_DECIMAL_FLOAT = TDmode, MIN_MODE_COMPLEX_INT = CQImode, MAX_MODE_COMPLEX_INT = COImode, MIN_MODE_COMPLEX_FLOAT = SCmode, MAX_MODE_COMPLEX_FLOAT = TCmode, MIN_MODE_VECTOR_INT = V4QImode, MAX_MODE_VECTOR_INT = V4SImode, MIN_MODE_VECTOR_FRACT = VOIDmode, MAX_MODE_VECTOR_FRACT = VOIDmode, MIN_MODE_VECTOR_UFRACT = VOIDmode, MAX_MODE_VECTOR_UFRACT = VOIDmode, MIN_MODE_VECTOR_ACCUM = VOIDmode, MAX_MODE_VECTOR_ACCUM = VOIDmode, MIN_MODE_VECTOR_UACCUM = VOIDmode, MAX_MODE_VECTOR_UACCUM = VOIDmode, MIN_MODE_VECTOR_FLOAT = V2SFmode, MAX_MODE_VECTOR_FLOAT = V4SFmode, NUM_MACHINE_MODES = MAX_MACHINE_MODE };
	struct real_value {
	};
	extern void vec_assert_fail (const char , const char ,const char file_,unsigned line_,const char function_) __attribute__ ((__noreturn__));
	typedef struct vec_prefix {
	unsigned num;
	};
	enum rtx_code {
	UNKNOWN , VALUE , DEBUG_EXPR , EXPR_LIST , INSN_LIST , SEQUENCE , ADDRESS , DEBUG_INSN , INSN , JUMP_INSN , CALL_INSN , BARRIER , CODE_LABEL , NOTE , COND_EXEC , PARALLEL , ASM_INPUT , ASM_OPERANDS , UNSPEC , UNSPEC_VOLATILE , ADDR_VEC , ADDR_DIFF_VEC , PREFETCH , SET , USE , CLOBBER , CALL , RETURN , EH_RETURN , TRAP_IF , CONST_INT , CONST_FIXED , CONST_DOUBLE , CONST_VECTOR , CONST_STRING , CONST , PC , REG , SCRATCH , SUBREG , STRICT_LOW_PART , CONCAT , CONCATN , MEM , LABEL_REF , SYMBOL_REF , CC0 , IF_THEN_ELSE , COMPARE , PLUS , MINUS , NEG , MULT , SS_MULT , US_MULT , DIV , SS_DIV , US_DIV , MOD , UDIV , UMOD , AND , IOR , XOR , NOT , ASHIFT , ROTATE , ASHIFTRT , LSHIFTRT , ROTATERT , SMIN , SMAX , UMIN , UMAX , PRE_DEC , PRE_INC , POST_DEC , POST_INC , PRE_MODIFY , POST_MODIFY , NE , EQ , GE , GT , LE , LT , GEU , GTU , LEU , LTU , UNORDERED , ORDERED , UNEQ , UNGE , UNGT , UNLE , UNLT , LTGT , SIGN_EXTEND , ZERO_EXTEND , TRUNCATE , FLOAT_EXTEND , FLOAT_TRUNCATE , FLOAT , FIX , UNSIGNED_FLOAT , UNSIGNED_FIX , FRACT_CONVERT , UNSIGNED_FRACT_CONVERT , SAT_FRACT , UNSIGNED_SAT_FRACT , ABS , SQRT , BSWAP , FFS , CLZ , CTZ , POPCOUNT , PARITY , SIGN_EXTRACT , ZERO_EXTRACT , HIGH , LO_SUM , VEC_MERGE , VEC_SELECT , VEC_CONCAT , VEC_DUPLICATE , SS_PLUS , US_PLUS , SS_MINUS , SS_NEG , US_NEG , SS_ABS , SS_ASHIFT , US_ASHIFT , US_MINUS , SS_TRUNCATE , US_TRUNCATE , FMA , VAR_LOCATION , DEBUG_IMPLICIT_PTR , ENTRY_VALUE , LAST_AND_UNUSED_RTX_CODE};
	enum rtx_class {
	RTX_COMPARE, RTX_COMM_COMPARE, RTX_BIN_ARITH, RTX_COMM_ARITH, RTX_UNARY, RTX_EXTRA, RTX_MATCH, RTX_INSN, RTX_OBJ, RTX_CONST_OBJ, RTX_TERNARY, RTX_BITFIELD_OPS, RTX_AUTOINC };
	extern const enum rtx_class rtx_class[((int) LAST_AND_UNUSED_RTX_CODE)];
	union rtunion_def {
	int rt_int;
	unsigned int rt_uint;
	rtx rt_rtx;
	};
	typedef union rtunion_def rtunion;
	struct rtx_def {
	__extension__ enum rtx_code code: 16;
	__extension__ enum machine_mode mode : 8;
	unsigned int unchanging : 1;
	union u {
	rtunion fld[1];
	}
	u;
	};
	static __inline__ unsigned int rhs_regno (const_rtx x) {
	return (((x)->u.fld[0]).rt_uint);
	}
	struct regstat_n_sets_and_refs_t {
	int sets;
	};
	extern struct regstat_n_sets_and_refs_t *regstat_n_sets_and_refs;
	static __inline__ int REG_N_SETS (int regno) {
	return regstat_n_sets_and_refs[regno].sets;
	}
	struct target_regs {
	unsigned char x_hard_regno_nregs[334][MAX_MACHINE_MODE];
	};
	extern struct target_regs default_target_regs;
	static __inline__ unsigned int end_hard_regno (enum machine_mode mode, unsigned int regno) {
	return regno + ((&default_target_regs)->x_hard_regno_nregs)[regno][(int) mode];
	}
	struct function {
	struct eh_status *eh;
	struct control_flow_graph *cfg;
	};
	extern struct function *cfun;
	typedef struct VEC_edge_gc {
	}
	VEC_edge_gc;
	struct basic_block_def {
	VEC_edge_gc *preds;
	struct basic_block_def *next_bb;
	int index;
	}
	VEC_basic_block_gc;
	struct control_flow_graph {
	basic_block x_entry_block_ptr;
	}
	bitmap_obstack;
	typedef struct bitmap_element_def {
	}
	bitmap_element;
	typedef struct bitmap_head_def {
	bitmap_element *first;
	bitmap_element *current;
	}
	bitmap_head;
	struct dataflow {
	struct df_problem *problem;
	void *block_info;
	unsigned int block_info_size;
	};
	struct df_insn_info {
	int luid;
	};
	struct df_d {
	struct dataflow *problems_by_index[(7 + 1)];
	struct df_insn_info **insns;
	};
	struct df_lr_bb_info {
	bitmap_head def;
	bitmap_head in;
	};
	extern struct df_d *df;
	static __inline__ struct df_lr_bb_info * df_lr_get_bb_info (unsigned int index) {
	if (index < (df->problems_by_index[1])->block_info_size) return &((struct df_lr_bb_info *) (df->problems_by_index[1])->block_info)[index];
	else return ((void *)0);
	}
	typedef struct reg_stat_struct {
	int last_set_label;
	unsigned long last_set_nonzero_bits;
	char last_set_invalid;
	}
	reg_stat_type;
	typedef struct VEC_reg_stat_type_base {
	struct vec_prefix prefix;
	reg_stat_type vec[1];
	}
	VEC_reg_stat_type_base;
	static __inline__ reg_stat_type VEC_reg_stat_type_base_index (VEC_reg_stat_type_base vec_, unsigned ix_ ,const char file_,unsigned line_,const char function_) {
	(void)((vec_ && ix_ < vec_->prefix.num) ? 0 : (vec_assert_fail ("index","VEC(reg_stat_type,base)" ,file_,line_,function_), 0));
	return &vec_->vec[ix_];
	}
	typedef struct VEC_reg_stat_type_heap {
	VEC_reg_stat_type_base base;
	}
	VEC_reg_stat_type_heap;
	static VEC_reg_stat_type_heap *reg_stat;
	static int mem_last_set;
	static int label_tick;
	int get_last_value_validate (rtx *loc, rtx insn, int tick, int replace)
	{
	rtx x = *loc;
	int i, j;
	if ((((enum rtx_code) (x)->code) == REG))
	{
	unsigned int regno = (rhs_regno(x));
	unsigned int endregno = (((((rhs_regno(x))) < 334)) ? end_hard_regno (((enum machine_mode) (x)->mode), (rhs_regno(x))) : (rhs_regno(x)) + 1);
	for (j = regno;
	j < endregno;
	j++)
	{
	reg_stat_type *rsp = (VEC_reg_stat_type_base_index(((reg_stat) ? &(reg_stat)->base : 0),j ,"/gcc/combine.c",12640,__FUNCTION__));
	if (
	rsp->last_set_invalid
	\|\|
	(
	(
	regno >= 334
	&& REG_N_SETS (regno) == 1
	&& (!bitmap_bit_p ((&(df_lr_get_bb_info((((cfun + 0)->cfg->x_entry_block_ptr)->next_bb)->index))->in), regno) )
	)
	&& rsp->last_set_label > tick
	)
	)
	{
	return replace;
	}
	}
	}
	else if ((((enum rtx_code) (x)->code) == MEM)
	&&
	(
	(
	{
	__typeof ((x)) const _rtx = ((x));
	_rtx;
	}
	)->unchanging
	)
	&&
	(
	tick != label_tick
	\|\| ((((df->insns[((((insn)->u.fld[0]).rt_int))]))->luid)) <= mem_last_set
	)
	)
	{
	{
	if (
	i == 1
	)
	{
	rtx x0 = (((x)->u.fld[0]).rt_rtx);
	rtx x1 = (((x)->u.fld[1]).rt_rtx);
	if ((((rtx_class[(int) (((enum rtx_code) (x1)->code))]) & (~1)) == (RTX_COMM_ARITH & (~1)))
	&&
	(
	x0 == (((x1)->u.fld[0]).rt_rtx)
	)
	)
	return get_last_value_validate (&(((x1)->u.fld[x0 == (((x1)->u.fld[0]).rt_rtx) ? 1 : 0]).rt_rtx) , insn, tick, replace);
	}
	}
	}
	}