#define FIRM_LOWERING_H
#include "firm_types.h"
+
+#include "begin.h"
+
/**
* A type telling where to add hidden parameters.
*/
* If params->find_pointer_type is NULL, new pointer types
* are always created automatically.
*/
-void lower_calls_with_compounds(const lower_params_t *params);
+FIRM_API void lower_calls_with_compounds(const lower_params_t *params);
/**
- * * Lower CopyB nodes of size smaller that max_size into Loads/Stores
+ * Lower CopyB nodes of size smaller that max_size into Loads/Stores
*/
-void lower_CopyB(ir_graph *irg, unsigned max_size, unsigned native_mode_bytes);
+FIRM_API void lower_CopyB(ir_graph *irg, unsigned max_size,
+ unsigned native_mode_bytes);
/**
* Lowers all Switches (Cond nodes with non-boolean mode) depending on spare_size.
* @param irg The ir graph to be lowered.
* @param spare_size Allowed spare size for table switches in machine words.
* (Default in edgfe: 128)
+ * @param allow_out_of_bounds backend can handle out-of-bounds values
+ * (values bigger than minimum and maximum proj
+ * number)
*/
-void lower_switch(ir_graph *irg, unsigned spare_size);
-
-/**
- * Creates an ir_graph pass for lower_switch().
- *
- * @param name the name of this pass or NULL
- * @param spare_size Allowed spare size for table switches in machine words.
- * (Default in edgfe: 128)
- *
- * @return the newly created ir_graph pass
- */
-ir_graph_pass_t *lower_switch_pass(const char *name, unsigned spare_size);
+FIRM_API void lower_switch(ir_graph *irg, unsigned spare_size,
+ int allow_out_of_bounds);
/**
* A callback type for creating an intrinsic entity for a given opcode.
* @param context the context parameter
*/
typedef ir_entity *(create_intrinsic_fkt)(ir_type *method, const ir_op *op,
- const ir_mode *imode, const ir_mode *omode,
- void *context);
+ const ir_mode *imode,
+ const ir_mode *omode, void *context);
/**
* The lowering parameter description.
*/
-typedef struct _lwrdw_param_t {
- int enable; /**< if true lowering is enabled */
- int little_endian; /**< if true should be lowered for little endian, else big endian */
- ir_mode *high_signed; /**< the double word signed mode to be lowered, typically Ls */
- ir_mode *high_unsigned; /**< the double word unsigned mode to be lowered, typically Lu */
- ir_mode *low_signed; /**< the word signed mode to be used, typically Is */
- ir_mode *low_unsigned; /**< the word unsigned mode to be used, typically Iu */
-
- /** callback that creates the intrinsic entity */
- create_intrinsic_fkt *create_intrinsic;
- void *ctx; /**< context parameter for the creator function */
+typedef struct lwrdw_param_t {
+ unsigned little_endian : 1; /**< if true should be lowered for little endian, else big endian */
+ unsigned doubleword_size; /**< bitsize of the doubleword mode */
+ create_intrinsic_fkt *create_intrinsic; /**< callback that creates the intrinsic entity */
+ void *ctx; /**< context parameter for the creator function */
} lwrdw_param_t;
/**
*
* @param param parameter for lowering
*/
-void lower_dw_ops(const lwrdw_param_t *param);
-
-/**
- * Creates an ir_prog pass for lower_dw_ops().
- *
- * @param name the name of this pass or NULL
- * @param param parameter for lowering
- *
- * @return the newly created ir_prog pass
- */
-ir_prog_pass_t *lower_dw_ops_pass(const char *name, const lwrdw_param_t *param);
+FIRM_API void lower_dw_ops(const lwrdw_param_t *param);
/**
* Default implementation. Context is unused.
*/
-ir_entity *def_create_intrinsic_fkt(ir_type *method, const ir_op *op,
- const ir_mode *imode, const ir_mode *omode,
- void *context);
+FIRM_API ir_entity *def_create_intrinsic_fkt(ir_type *method, const ir_op *op,
+ const ir_mode *imode,
+ const ir_mode *omode,
+ void *context);
/**
* Replaces SymConsts by a real constant if possible.
* @note: There is NO lowering ob objects oriented types. This is highly compiler
* and ABI specific and should be placed directly in the compiler.
*/
-void lower_highlevel_graph(ir_graph *irg, int lower_bitfields);
+FIRM_API void lower_highlevel_graph(ir_graph *irg, int lower_bitfields);
/**
* Creates an ir_graph pass for lower_highlevel_graph().
*
* @return the newly created ir_graph pass
*/
-ir_graph_pass_t *lower_highlevel_graph_pass(const char *name, int lower_bitfields);
+FIRM_API ir_graph_pass_t *lower_highlevel_graph_pass(const char *name,
+ int lower_bitfields);
/**
* Replaces SymConsts by a real constant if possible.
* Handle bit fields by added And/Or calculations.
* Lowers all graphs.
*
- * @Note: There is NO lowering of objects oriented types. This is highly compiler
- * and ABI specific and should be placed directly in the compiler.
+ * @note There is NO lowering of objects oriented types. This is highly compiler
+ * and ABI specific and should be placed directly in the compiler.
*/
-void lower_highlevel(int lower_bitfields);
+FIRM_API void lower_highlevel(int lower_bitfields);
/**
* does the same as lower_highlevel for all nodes on the const code irg
*/
-void lower_const_code(void);
+FIRM_API void lower_const_code(void);
/**
* Creates an ir_prog pass for lower_const_code().
*
* @return the newly created ir_prog pass
*/
-ir_prog_pass_t *lower_const_code_pass(const char *name);
+FIRM_API ir_prog_pass_t *lower_const_code_pass(const char *name);
typedef struct lower_mode_b_config_t {
/* mode that is used to transport 0/1 values */
* @param irg the firm graph to lower
* @param config configuration for mode_b lowerer
*/
-void ir_lower_mode_b(ir_graph *irg, const lower_mode_b_config_t *config);
+FIRM_API void ir_lower_mode_b(ir_graph *irg,
+ const lower_mode_b_config_t *config);
+
+/**
+ * Used as callback, whenever a lowerable mux is found. The return value
+ * indicates, whether the mux should be lowered. This may be used, to lower
+ * floating point muxes, while keeping mux nodes for integers, for example.
+ *
+ * @param mux The mux node that may be lowered.
+ * @return A non-zero value indicates that the mux should be lowered.
+ */
+typedef int lower_mux_callback(ir_node* mux);
/**
- * Creates an ir_graph pass for ir_lower_mode_b().
+ * Lowers all mux nodes in the given graph. A callback function may be
+ * given, to select the mux nodes to lower.
+ *
+ * @param irg The graph to lower mux nodes in.
+ * @param cb_func The callback function for mux selection. Can be NULL,
+ * to lower all mux nodes.
+ */
+FIRM_API void lower_mux(ir_graph *irg, lower_mux_callback *cb_func);
+
+/**
+ * Creates an ir_graph pass for lower_mux().
*
* @param name the name of this pass or NULL
- * @param config configuration for mode_b lowerer
+ * @param cb_func The callback function for mux selection. Can be NULL,
+ * to lower all mux nodes.
*
* @return the newly created ir_graph pass
*/
-ir_graph_pass_t *ir_lower_mode_b_pass(
- const char *name, const lower_mode_b_config_t *config);
+FIRM_API ir_graph_pass_t *lower_mux_pass(const char *name,
+ lower_mux_callback *cb_func);
/**
* An intrinsic mapper function.
/**
* An intrinsic call record.
*/
-typedef struct _i_call_record {
+typedef struct i_call_record {
enum ikind kind; /**< must be INTRINSIC_CALL */
ir_entity *i_ent; /**< the entity representing an intrinsic call */
i_mapper_func i_mapper; /**< the mapper function to call */
/**
* An intrinsic instruction record.
*/
-typedef struct _i_instr_record {
+typedef struct i_instr_record {
enum ikind kind; /**< must be INTRINSIC_INSTR */
ir_op *op; /**< the opcode that must be mapped. */
i_mapper_func i_mapper; /**< the mapper function to call */
/**
* An intrinsic record.
*/
-typedef union _i_record {
+typedef union i_record {
i_call_record i_call;
i_instr_record i_instr;
} i_record;
*
* @return number of found intrinsics.
*/
-unsigned lower_intrinsics(i_record *list, int length, int part_block_used);
+FIRM_API unsigned lower_intrinsics(i_record *list, int length,
+ int part_block_used);
/**
* Creates an irprog pass for lower_intrinsics.
* @param length the length of the array
* @param part_block_used set to true if part_block() must be using during lowering
*/
-ir_prog_pass_t *lower_intrinsics_pass(
- const char *name,
- i_record *list, int length, int part_block_used);
+FIRM_API ir_prog_pass_t *lower_intrinsics_pass(const char *name, i_record *list,
+ int length, int part_block_used);
/**
* A mapper for the integer/float absolute value: type abs(type v).
*
* @return always 1
*/
-int i_mapper_abs(ir_node *call, void *ctx);
+FIRM_API int i_mapper_abs(ir_node *call, void *ctx);
/**
* A mapper for the integer byte swap value: type bswap(type v).
*
* @return always 1
*/
-int i_mapper_bswap(ir_node *call, void *ctx);
+FIRM_API int i_mapper_bswap(ir_node *call, void *ctx);
/**
* A mapper for the floating point sqrt(v): floattype sqrt(floattype v);
*
* @return 1 if the sqrt call was removed, 0 else.
*/
-int i_mapper_sqrt(ir_node *call, void *ctx);
+FIRM_API int i_mapper_sqrt(ir_node *call, void *ctx);
/**
* A mapper for the floating point cbrt(v): floattype sqrt(floattype v);
*
* @return 1 if the cbrt call was removed, 0 else.
*/
-int i_mapper_cbrt(ir_node *call, void *ctx);
+FIRM_API int i_mapper_cbrt(ir_node *call, void *ctx);
/**
* A mapper for the floating point pow(a, b): floattype pow(floattype a, floattype b);
*
* @return 1 if the pow call was removed, 0 else.
*/
-int i_mapper_pow(ir_node *call, void *ctx);
+FIRM_API int i_mapper_pow(ir_node *call, void *ctx);
/**
* A mapper for the floating point exp(a): floattype exp(floattype a);
*
* @return 1 if the exp call was removed, 0 else.
*/
-int i_mapper_exp(ir_node *call, void *ctx);
+FIRM_API int i_mapper_exp(ir_node *call, void *ctx);
#define i_mapper_exp2 i_mapper_exp
#define i_mapper_exp10 i_mapper_exp
*
* @return 1 if the log call was removed, 0 else.
*/
-int i_mapper_log(ir_node *call, void *ctx);
+FIRM_API int i_mapper_log(ir_node *call, void *ctx);
#define i_mapper_log2 i_mapper_log
#define i_mapper_log10 i_mapper_log
*
* @return 1 if the sin call was removed, 0 else.
*/
-int i_mapper_sin(ir_node *call, void *ctx);
+FIRM_API int i_mapper_sin(ir_node *call, void *ctx);
/**
* A mapper for the floating point sin(a): floattype cos(floattype a);
*
* @return 1 if the cos call was removed, 0 else.
*/
-int i_mapper_cos(ir_node *call, void *ctx);
+FIRM_API int i_mapper_cos(ir_node *call, void *ctx);
/**
* A mapper for the floating point tan(a): floattype tan(floattype a);
*
* @return 1 if the tan call was removed, 0 else.
*/
-int i_mapper_tan(ir_node *call, void *ctx);
+FIRM_API int i_mapper_tan(ir_node *call, void *ctx);
/**
* A mapper for the floating point asin(a): floattype asin(floattype a);
*
* @return 1 if the asin call was removed, 0 else.
*/
-int i_mapper_asin(ir_node *call, void *ctx);
+FIRM_API int i_mapper_asin(ir_node *call, void *ctx);
/**
* A mapper for the floating point acos(a): floattype acos(floattype a);
*
* @return 1 if the tan call was removed, 0 else.
*/
-int i_mapper_acos(ir_node *call, void *ctx);
+FIRM_API int i_mapper_acos(ir_node *call, void *ctx);
/**
* A mapper for the floating point atan(a): floattype atan(floattype a);
*
* @return 1 if the atan call was removed, 0 else.
*/
-int i_mapper_atan(ir_node *call, void *ctx);
+FIRM_API int i_mapper_atan(ir_node *call, void *ctx);
/**
* A mapper for the floating point sinh(a): floattype sinh(floattype a);
*
* @return 1 if the sinh call was removed, 0 else.
*/
-int i_mapper_sinh(ir_node *call, void *ctx);
+FIRM_API int i_mapper_sinh(ir_node *call, void *ctx);
/**
* A mapper for the floating point cosh(a): floattype cosh(floattype a);
*
* @return 1 if the cosh call was removed, 0 else.
*/
-int i_mapper_cosh(ir_node *call, void *ctx);
+FIRM_API int i_mapper_cosh(ir_node *call, void *ctx);
/**
* A mapper for the floating point tanh(a): floattype tanh(floattype a);
*
* @return 1 if the tanh call was removed, 0 else.
*/
-int i_mapper_tanh(ir_node *call, void *ctx);
+FIRM_API int i_mapper_tanh(ir_node *call, void *ctx);
/**
* A mapper for the strcmp-Function: inttype strcmp(char pointer a, char pointer b);
*
* @return 1 if the strcmp call was removed, 0 else.
*/
-int i_mapper_strcmp(ir_node *call, void *ctx);
+FIRM_API int i_mapper_strcmp(ir_node *call, void *ctx);
/**
* A mapper for the strncmp-Function: inttype strncmp(char pointer a, char pointer b, inttype len);
*
* @return 1 if the strncmp call was removed, 0 else.
*/
-int i_mapper_strncmp(ir_node *call, void *ctx);
+FIRM_API int i_mapper_strncmp(ir_node *call, void *ctx);
/**
* A mapper for the strcpy-Function: char pointer strcpy(char pointer a, char pointer b);
*
* @return 1 if the strcpy call was removed, 0 else.
*/
-int i_mapper_strcpy(ir_node *call, void *ctx);
+FIRM_API int i_mapper_strcpy(ir_node *call, void *ctx);
/**
* A mapper for the strlen-Function: inttype strlen(char pointer a);
*
* @return 1 if the strlen call was removed, 0 else.
*/
-int i_mapper_strlen(ir_node *call, void *ctx);
+FIRM_API int i_mapper_strlen(ir_node *call, void *ctx);
/**
* A mapper for the memcpy-Function: void pointer memcpy(void pointer d, void pointer s, inttype c);
*
* @return 1 if the memcpy call was removed, 0 else.
*/
-int i_mapper_memcpy(ir_node *call, void *ctx);
+FIRM_API int i_mapper_memcpy(ir_node *call, void *ctx);
/**
* A mapper for the mempcpy-Function: void pointer mempcpy(void pointer d, void pointer s, inttype c);
*
* @return 1 if the mempcpy call was removed, 0 else.
*/
-int i_mapper_mempcpy(ir_node *call, void *ctx);
+FIRM_API int i_mapper_mempcpy(ir_node *call, void *ctx);
/**
* A mapper for the memmove-Function: void pointer memmove(void pointer d, void pointer s, inttype c);
*
* @return 1 if the memmove call was removed, 0 else.
*/
-int i_mapper_memmove(ir_node *call, void *ctx);
+FIRM_API int i_mapper_memmove(ir_node *call, void *ctx);
/**
* A mapper for the memset-Function: void pointer memset(void pointer d, inttype C, inttype len);
*
* @return 1 if the memset call was removed, 0 else.
*/
-int i_mapper_memset(ir_node *call, void *ctx);
+FIRM_API int i_mapper_memset(ir_node *call, void *ctx);
/**
* A mapper for the strncmp-Function: inttype memcmp(void pointer a, void pointer b, inttype len);
*
* @return 1 if the strncmp call was removed, 0 else.
*/
-int i_mapper_memcmp(ir_node *call, void *ctx);
+FIRM_API int i_mapper_memcmp(ir_node *call, void *ctx);
/**
* A mapper for the alloca() function: pointer alloca(inttype size)
*
* @return always 1
*/
-int i_mapper_alloca(ir_node *call, void *ctx);
+FIRM_API int i_mapper_alloca(ir_node *call, void *ctx);
/**
* A runtime routine description.
*/
-typedef struct _runtime_rt {
+typedef struct runtime_rt {
ir_entity *ent; /**< The entity representing the runtime routine. */
ir_mode *mode; /**< The operation mode of the mapped instruction. */
ir_mode *res_mode; /**< The result mode of the mapped instruction or NULL. */
};
@endcode
*/
-int i_mapper_RuntimeCall(ir_node *node, runtime_rt *rt);
+FIRM_API int i_mapper_RuntimeCall(ir_node *node, runtime_rt *rt);
+
+#include "end.h"
-#endif /* FIRM_LOWERING_H */
+#endif