#ifndef FIRM_BE_BEARCH_H
#define FIRM_BE_BEARCH_H
+#include <stdbool.h>
+
#include "firm_types.h"
#include "bitset.h"
-#include "be.h"
#include "obst.h"
+#include "raw_bitset.h"
+#include "irop_t.h"
-typedef struct arch_register_class_t arch_register_class_t;
-typedef struct arch_register_req_t arch_register_req_t;
-typedef struct arch_register_t arch_register_t;
-typedef struct arch_flag_t arch_flag_t;
-typedef struct arch_inverse_t arch_inverse_t;
-typedef struct arch_isa_if_t arch_isa_if_t;
-typedef struct arch_env_t arch_env_t;
-typedef struct arch_code_generator_t arch_code_generator_t;
-typedef struct arch_code_generator_if_t arch_code_generator_if_t;
+#include "be_types.h"
+#include "beinfo.h"
+#include "be.h"
+#include "beirg.h"
+#include "error.h"
typedef enum arch_register_class_flags_t {
arch_register_class_flag_none = 0,
- arch_register_class_flag_manual_ra = 1, /**< don't do automatic register allocation for this class */
- arch_register_class_flag_state = 2
+ /** don't do automatic register allocation for this class */
+ arch_register_class_flag_manual_ra = 1U << 0,
+ /** the register models an abstract state (example: fpu rounding mode) */
+ arch_register_class_flag_state = 1U << 1
} arch_register_class_flags_t;
typedef enum arch_register_type_t {
arch_register_type_none = 0,
- arch_register_type_caller_save = 1, /**< The register must be saved by the caller
- upon a function call. It thus can be overwritten
- in the called function. */
- arch_register_type_callee_save = 2, /**< The register must be saved by the caller
- upon a function call. It thus can be overwritten
- in the called function. */
- arch_register_type_ignore = 4, /**< Do not consider this register when allocating. */
- arch_register_type_joker = 8, /**< The emitter can choose an arbitrary register */
- arch_register_type_virtual = 16, /**< This is just a virtual register.Virtual registers have
- nearly no constraints, it is a allowed to have multiple
- definition for the same register at a point) */
- arch_register_type_state = 32, /**< The register represents a state that should be handled by
- bestate code */
+ /** The register must be saved by the caller upon a function call. It thus
+ * can be overwritten in the called function. */
+ arch_register_type_caller_save = 1U << 0,
+ /** The register must be saved by the caller upon a function call. It thus
+ * can be overwritten in the called function. */
+ arch_register_type_callee_save = 1U << 1,
+ /** Do not consider this register when allocating. */
+ arch_register_type_ignore = 1U << 2,
+ /** The emitter can choose an arbitrary register. The register fulfills any
+ * register constraints as long as the register class matches */
+ arch_register_type_joker = 1U << 3,
+ /** This is just a virtual register. Virtual registers fulfill any register
+ * constraints as long as the register class matches. It is a allowed to
+ * have multiple definitions for the same virtual register at a point */
+ arch_register_type_virtual = 1U << 4,
+ /** The register represents a state that should be handled by bestate
+ * code */
+ arch_register_type_state = 1U << 5,
} arch_register_type_t;
-typedef enum arch_operand_type_t {
- arch_operand_type_invalid,
- arch_operand_type_memory,
- arch_operand_type_register,
- arch_operand_type_immediate,
- arch_operand_type_symconst
-} arch_operand_type_t;
-
/**
* Different types of register allocation requirements.
*/
typedef enum arch_register_req_type_t {
- arch_register_req_type_none = 0, /**< No register requirement. */
- arch_register_req_type_normal = 1, /**< All registers in the class are allowed. */
- arch_register_req_type_limited = 2, /**< Only a real subset of the class is allowed. */
- arch_register_req_type_should_be_same = 4, /**< The register should be equal to another one at the node. */
- arch_register_req_type_must_be_different = 8, /**< The register must be unequal from some other at the node. */
+ /** No register requirement. */
+ arch_register_req_type_none = 0,
+ /** All registers in the class are allowed. */
+ arch_register_req_type_normal = 1U << 0,
+ /** Only a real subset of the class is allowed. */
+ arch_register_req_type_limited = 1U << 1,
+ /** The register should be equal to another one at the node. */
+ arch_register_req_type_should_be_same = 1U << 2,
+ /** The register must be unequal from some other at the node. */
+ arch_register_req_type_must_be_different = 1U << 3,
+ /** The registernumber should be aligned (in case of multiregister values)*/
+ arch_register_req_type_must_be_aligned = 1U << 4,
+ /** ignore while allocating registers */
+ arch_register_req_type_ignore = 1U << 5,
+ /** the output produces a new value for the stack pointer
+ * (this is not really a constraint but a marker to guide the stackpointer
+ * rewiring logic) */
+ arch_register_req_type_produces_sp = 1U << 6,
} arch_register_req_type_t;
extern const arch_register_req_t *arch_no_register_req;
/**
- * Format a register requirements information into a string.
- * @param buf The string where to put it to.
- * @param len The size of @p buf.
+ * Print information about a register requirement in human readable form
+ * @param F output stream/file
* @param req The requirements structure to format.
- * @return A pointer to buf.
*/
-extern char *arch_register_req_format(char *buf, size_t len, const arch_register_req_t *req, const ir_node *node);
+void arch_dump_register_req(FILE *F, const arch_register_req_t *req,
+ const ir_node *node);
+
+void arch_dump_register_reqs(FILE *F, const ir_node *node);
+void arch_dump_reqs_and_registers(FILE *F, const ir_node *node);
/**
- * Certain node classes which are relevant for the register allocator.
+ * Node classification. Used for statistics and for detecting reload nodes.
*/
typedef enum arch_irn_class_t {
- arch_irn_class_normal = 1 << 0,
- arch_irn_class_spill = 1 << 1,
- arch_irn_class_reload = 1 << 2,
- arch_irn_class_remat = 1 << 3,
- arch_irn_class_copy = 1 << 4,
- arch_irn_class_perm = 1 << 5,
- arch_irn_class_branch = 1 << 6,
- arch_irn_class_call = 1 << 7,
- arch_irn_class_load = 1 << 8,
- arch_irn_class_store = 1 << 9,
- arch_irn_class_stackparam = 1 << 10,
+ arch_irn_class_spill = 1 << 0,
+ arch_irn_class_reload = 1 << 1,
+ arch_irn_class_remat = 1 << 2,
+ arch_irn_class_copy = 1 << 3,
+ arch_irn_class_perm = 1 << 4
} arch_irn_class_t;
-/**
- * Some flags describing a node in more detail.
- */
-typedef enum arch_irn_flags_t {
- arch_irn_flags_none = 0, /**< Node flags. */
- arch_irn_flags_dont_spill = 1U << 0, /**< This must not be spilled. */
- arch_irn_flags_rematerializable = 1U << 1, /**< This can be replicated instead of spilled/reloaded. */
- arch_irn_flags_ignore = 1U << 2, /**< Ignore node during register allocation. */
- arch_irn_flags_modify_sp = 1U << 3, /**< I modify the stack pointer. */
- arch_irn_flags_modify_flags = 1U << 4 /**< I modify flags. */
-} arch_irn_flags_t;
-
void arch_set_frame_offset(ir_node *irn, int bias);
ir_entity *arch_get_frame_entity(const ir_node *irn);
-void arch_set_frame_entity(ir_node *irn, ir_entity *ent);
int arch_get_sp_bias(ir_node *irn);
int arch_get_op_estimated_cost(const ir_node *irn);
-arch_inverse_t *arch_get_inverse(const ir_node *irn, int i, arch_inverse_t *inverse, struct obstack *obstack);
-int arch_possible_memory_operand(const ir_node *irn, unsigned int i);
-void arch_perform_memory_operand(ir_node *irn, ir_node *spill, unsigned int i);
+arch_inverse_t *arch_get_inverse(const ir_node *irn, int i,
+ arch_inverse_t *inverse,
+ struct obstack *obstack);
+int arch_possible_memory_operand(const ir_node *irn,
+ unsigned int i);
+void arch_perform_memory_operand(ir_node *irn, ir_node *spill,
+ unsigned int i);
/**
* Get the register requirements for a node.
+ * @note Deprecated API! Preferably use
+ * arch_get_in_register_req and
+ * arch_get_out_register_req.
+ *
* @param irn The node.
* @param pos The position of the operand you're interested in.
* @return A pointer to the register requirements. If NULL is returned, the
*/
const arch_register_req_t *arch_get_register_req(const ir_node *irn, int pos);
-/**
- * Check if an operand is a register operand.
- * @param irn The node.
- * @param pos The position of the operand.
- * @return 1, if the operand is significant for register allocation, 0
- * if not.
- */
-int arch_is_register_operand(const ir_node *irn, int pos);
-
-/**
- * Get the number of allocatable registers concerning
- * a register class for an operand of a node.
- * @param irn The node.
- * @param pos The position of the node's operand.
- * @param bs The bitset all allocatable registers shall be put into.
- * Note, that you can also pass NULL here. If you don't,
- * make sure, the bitset is as large as the register class
- * has registers.
- * @return The amount of registers allocatable for that operand.
- */
-int arch_get_allocatable_regs(const ir_node *irn, int pos, bitset_t *bs);
-
/**
* Put all registers which shall not be ignored by the register
* allocator in a bit set.
* @param cls The register class to consider.
* @param bs The bit set to put the registers to.
*/
-extern void arch_put_non_ignore_regs(const arch_register_class_t *cls, bitset_t *bs);
+extern void arch_put_non_ignore_regs(const arch_register_class_t *cls,
+ bitset_t *bs);
/**
* Check, if a register is assignable to an operand of a node.
* @param reg The register.
* @return 1, if the register might be allocated to the operand 0 if not.
*/
-int arch_reg_is_allocatable(const ir_node *irn, int pos, const arch_register_t *reg);
+int arch_reg_is_allocatable(const ir_node *irn, int pos,
+ const arch_register_t *reg);
+
+#define arch_reg_out_is_allocatable(irn, reg) arch_reg_is_allocatable(irn, -1, reg)
/**
* Get the register class of an operand of a node.
* @return The register class of the operand or NULL, if
* operand is a non-register operand.
*/
-const arch_register_class_t *arch_get_irn_reg_class(const ir_node *irn, int pos);
+const arch_register_class_t *arch_get_irn_reg_class(const ir_node *irn,
+ int pos);
+
+#define arch_get_irn_reg_class_out(irn) arch_get_irn_reg_class(irn, -1)
/**
* Get the register allocated at a certain output operand of a node.
* @return The register allocated for this operand
*/
const arch_register_t *arch_get_irn_register(const ir_node *irn);
+const arch_register_t *arch_irn_get_register(const ir_node *irn, int pos);
/**
* Set the register for a certain output operand.
* @param reg The register.
*/
void arch_set_irn_register(ir_node *irn, const arch_register_t *reg);
+void arch_irn_set_register(ir_node *irn, int pos, const arch_register_t *reg);
/**
* Classify a node.
*/
arch_irn_class_t arch_irn_classify(const ir_node *irn);
-#define arch_irn_class_is(irn, irn_class) ((arch_irn_classify(irn) & arch_irn_class_ ## irn_class) != 0)
-
/**
* Get the flags of a node.
* @param irn The node.
*/
arch_irn_flags_t arch_irn_get_flags(const ir_node *irn);
-#define arch_irn_is(irn, flag) ((arch_irn_get_flags(irn) & arch_irn_flags_ ## flag) != 0)
-
-#define arch_irn_has_reg_class(irn, pos, cls) \
- ((cls) == arch_get_irn_reg_class(irn, pos))
+void arch_irn_set_flags(ir_node *node, arch_irn_flags_t flags);
+void arch_irn_add_flags(ir_node *node, arch_irn_flags_t flags);
-#define arch_irn_consider_in_reg_alloc(cls, irn) \
- (arch_irn_has_reg_class(irn, -1, cls) && !arch_irn_is(irn, ignore))
+#define arch_irn_is(irn, flag) ((arch_irn_get_flags(irn) & arch_irn_flags_ ## flag) != 0)
/**
* Get the operations of an irn.
*/
void be_register_isa_if(const char *name, const arch_isa_if_t *isa);
-#endif /* FIRM_BE_BEARCH_H */
+/**
+ * A register.
+ */
+struct arch_register_t {
+ const char *name; /**< The name of the register. */
+ const arch_register_class_t *reg_class; /**< The class of the register */
+ unsigned index; /**< The index of the register in
+ the class. */
+ arch_register_type_t type; /**< The type of the register. */
+ /** register constraint allowing just this register */
+ const arch_register_req_t *single_req;
+};
+
+static inline const arch_register_class_t *_arch_register_get_class(
+ const arch_register_t *reg)
+{
+ return reg->reg_class;
+}
+
+static inline unsigned _arch_register_get_index(const arch_register_t *reg)
+{
+ return reg->index;
+}
+
+static inline const char *_arch_register_get_name(const arch_register_t *reg)
+{
+ return reg->name;
+}
+
+#define arch_register_get_class(reg) _arch_register_get_class(reg)
+#define arch_register_get_index(reg) _arch_register_get_index(reg)
+#define arch_register_get_name(reg) _arch_register_get_name(reg)
+
+/**
+ * Convenience macro to check for register type.
+ * @param req A pointer to register.
+ * @param kind The kind of type to check for (see arch_register_type_t).
+ * @return 1, If register is of given kind, 0 if not.
+ */
+#define arch_register_type_is(reg, kind) \
+ (((reg)->type & arch_register_type_ ## kind) != 0)
+
+/**
+ * A class of registers.
+ * Like general purpose or floating point.
+ */
+struct arch_register_class_t {
+ unsigned index; /**< index of this register class */
+ const char *name; /**< The name of the register class.*/
+ unsigned n_regs; /**< Number of registers in this
+ class. */
+ ir_mode *mode; /**< The mode of the register class.*/
+ const arch_register_t *regs; /**< The array of registers. */
+ arch_register_class_flags_t flags; /**< register class flags. */
+ const arch_register_req_t *class_req;
+};
+
+/** return the number of registers in this register class */
+#define arch_register_class_n_regs(cls) ((cls)->n_regs)
+
+/** return the largest mode of this register class */
+#define arch_register_class_mode(cls) ((cls)->mode)
+
+/** return the name of this register class */
+#define arch_register_class_name(cls) ((cls)->name)
+
+/** return the index of this register class */
+#define arch_register_class_index(cls) ((cls)->index)
+
+/** return the register class flags */
+#define arch_register_class_flags(cls) ((cls)->flags)
+
+static inline const arch_register_t *_arch_register_for_index(
+ const arch_register_class_t *cls, unsigned idx)
+{
+ assert(idx < cls->n_regs);
+ return &cls->regs[idx];
+}
+
+#define arch_register_for_index(cls, idx) _arch_register_for_index(cls, idx)
+
+/**
+ * Convenience macro to check for set constraints.
+ * @param req A pointer to register requirements.
+ * @param kind The kind of constraint to check for
+ * (see arch_register_req_type_t).
+ * @return 1, If the kind of constraint is present, 0 if not.
+ */
+#define arch_register_req_is(req, kind) \
+ (((req)->type & (arch_register_req_type_ ## kind)) != 0)
+
+/**
+ * Expresses requirements to register allocation for an operand.
+ */
+struct arch_register_req_t {
+ arch_register_req_type_t type; /**< The type of the constraint. */
+ const arch_register_class_t *cls; /**< The register class this constraint
+ belongs to. */
+ const unsigned *limited; /**< allowed register bitset */
+ unsigned other_same; /**< Bitmask of ins which should use the
+ same register (should_be_same). */
+ unsigned other_different; /**< Bitmask of ins which shall use a
+ different register
+ (must_be_different) */
+ unsigned char width; /**< specifies how many sequential
+ registers are required */
+};
+
+static inline int reg_reqs_equal(const arch_register_req_t *req1,
+ const arch_register_req_t *req2)
+{
+ if (req1 == req2)
+ return 1;
+
+ if (req1->type != req2->type
+ || req1->cls != req2->cls
+ || req1->other_same != req2->other_same
+ || req1->other_different != req2->other_different)
+ return 0;
+
+ if (req1->limited != NULL) {
+ size_t n_regs;
+
+ if (req2->limited == NULL)
+ return 0;
+
+ n_regs = arch_register_class_n_regs(req1->cls);
+ if (!rbitsets_equal(req1->limited, req2->limited, n_regs))
+ return 0;
+ }
+
+ return 1;
+}
+
+/**
+ * An inverse operation returned by the backend
+ */
+struct arch_inverse_t {
+ int n; /**< count of nodes returned in nodes array */
+ int costs; /**< costs of this remat */
+
+ /** nodes for this inverse operation. shall be in schedule order.
+ * last element is the target value */
+ ir_node **nodes;
+};
+
+struct arch_irn_ops_t {
+
+ /**
+ * Get the register requirements for a given operand.
+ * @param irn The node.
+ * @param pos The operand's position
+ * @return The register requirements for the selected operand.
+ * The pointer returned is never NULL.
+ */
+ const arch_register_req_t *(*get_irn_reg_req_in)(const ir_node *irn,
+ int pos);
+
+ /**
+ * Classify the node.
+ * @param irn The node.
+ * @return A classification.
+ */
+ arch_irn_class_t (*classify)(const ir_node *irn);
+
+ /**
+ * Get the entity on the stack frame this node depends on.
+ * @param irn The node in question.
+ * @return The entity on the stack frame or NULL, if the node does not have
+ * a stack frame entity.
+ */
+ ir_entity *(*get_frame_entity)(const ir_node *irn);
+
+ /**
+ * Set the offset of a node carrying an entity on the stack frame.
+ * @param irn The node.
+ * @param offset The offset of the node's stack frame entity.
+ */
+ void (*set_frame_offset)(ir_node *irn, int offset);
+
+ /**
+ * Returns the delta of the stackpointer for nodes that increment or
+ * decrement the stackpointer with a constant value. (push, pop
+ * nodes on most architectures).
+ * A positive value stands for an expanding stack area, a negative value for
+ * a shrinking one.
+ *
+ * @param irn The node
+ * @return 0 if the stackpointer is not modified with a constant
+ * value, otherwise the increment/decrement value
+ */
+ int (*get_sp_bias)(const ir_node *irn);
+
+ /**
+ * Returns an inverse operation which yields the i-th argument
+ * of the given node as result.
+ *
+ * @param irn The original operation
+ * @param i Index of the argument we want the inverse operation to
+ * yield
+ * @param inverse struct to be filled with the resulting inverse op
+ * @param obstack The obstack to use for allocation of the returned nodes
+ * array
+ * @return The inverse operation or NULL if operation invertible
+ */
+ arch_inverse_t *(*get_inverse)(const ir_node *irn, int i,
+ arch_inverse_t *inverse,
+ struct obstack *obstack);
+
+ /**
+ * Get the estimated cycle count for @p irn.
+ *
+ * @param irn The node.
+ * @return The estimated cycle count for this operation
+ */
+ int (*get_op_estimated_cost)(const ir_node *irn);
+
+ /**
+ * Asks the backend whether operand @p i of @p irn can be loaded form memory
+ * internally
+ *
+ * @param irn The node.
+ * @param i Index of the argument we would like to know whether @p irn
+ * can load it form memory internally
+ * @return nonzero if argument can be loaded or zero otherwise
+ */
+ int (*possible_memory_operand)(const ir_node *irn, unsigned int i);
+
+ /**
+ * Ask the backend to assimilate @p reload of operand @p i into @p irn.
+ *
+ * @param irn The node.
+ * @param spill The spill.
+ * @param i The position of the reload.
+ */
+ void (*perform_memory_operand)(ir_node *irn, ir_node *spill,
+ unsigned int i);
+};
+
+/**
+ * The code generator interface.
+ */
+struct arch_code_generator_if_t {
+ /**
+ * Initialize the code generator.
+ * @param irg A graph
+ * @return A newly created code generator.
+ */
+ void *(*init)(ir_graph *irg);
+
+ /**
+ * return node used as base in pic code addresses
+ */
+ ir_node* (*get_pic_base)(void *self);
+
+ /**
+ * Called before abi introduce.
+ */
+ void (*before_abi)(void *self);
+
+ /**
+ * Called, when the graph is being normalized.
+ */
+ void (*prepare_graph)(void *self);
+
+ /**
+ * Backend may provide an own spiller.
+ * This spiller needs to spill all register classes.
+ */
+ void (*spill)(void *self, ir_graph *irg);
+
+ /**
+ * Called before register allocation.
+ */
+ void (*before_ra)(void *self);
+
+ /**
+ * Called after register allocation.
+ */
+ void (*after_ra)(void *self);
+
+ /**
+ * Called directly before done is called. This should be the last place
+ * where the irg is modified.
+ */
+ void (*finish)(void *self);
+
+ /**
+ * Called after everything happened. This call should emit the final
+ * assembly code but avoid changing the irg.
+ * The code generator must also be de-allocated here.
+ */
+ void (*done)(void *self);
+};
+
+/**
+ * helper macro: call function func from the code generator
+ * if it's implemented.
+ */
+#define _arch_cg_call(cg, func) \
+do { \
+ if((cg)->impl->func) \
+ (cg)->impl->func(cg); \
+} while(0)
+
+#define _arch_cg_call_env(cg, env, func) \
+do { \
+ if((cg)->impl->func) \
+ (cg)->impl->func(cg, env); \
+} while(0)
+
+#define arch_code_generator_before_abi(cg) _arch_cg_call(cg, before_abi)
+#define arch_code_generator_prepare_graph(cg) _arch_cg_call(cg, prepare_graph)
+#define arch_code_generator_before_ra(cg) _arch_cg_call(cg, before_ra)
+#define arch_code_generator_after_ra(cg) _arch_cg_call(cg, after_ra)
+#define arch_code_generator_finish(cg) _arch_cg_call(cg, finish)
+#define arch_code_generator_done(cg) _arch_cg_call(cg, done)
+#define arch_code_generator_spill(cg, irg) _arch_cg_call_env(cg, irg, spill)
+#define arch_code_generator_has_spiller(cg) ((cg)->impl->spill != NULL)
+#define arch_code_generator_get_pic_base(cg) \
+ ((cg)->impl->get_pic_base != NULL ? (cg)->impl->get_pic_base(cg) : NULL)
+
+/**
+ * Code generator base class.
+ */
+struct arch_code_generator_t {
+ const arch_code_generator_if_t *impl;
+};
+
+/**
+ * Architecture interface.
+ */
+struct arch_isa_if_t {
+ /**
+ * Initialize the isa interface.
+ * @param file_handle the file handle to write the output to
+ * @return a new isa instance
+ */
+ arch_env_t *(*init)(FILE *file_handle);
+
+ /**
+ * Free the isa instance.
+ */
+ void (*done)(void *self);
+
+ /**
+ * Called directly after initialization. Backend should handle all
+ * intrinsics here.
+ */
+ void (*handle_intrinsics)(void);
+
+ /**
+ * Get the the number of register classes in the isa.
+ * @return The number of register classes.
+ */
+ unsigned (*get_n_reg_class)(void);
+
+ /**
+ * Get the i-th register class.
+ * @param i The number of the register class.
+ * @return The register class.
+ */
+ const arch_register_class_t *(*get_reg_class)(unsigned i);
+
+ /**
+ * Get the register class which shall be used to store a value of a given
+ * mode.
+ * @param self The this pointer.
+ * @param mode The mode in question.
+ * @return A register class which can hold values of the given mode.
+ */
+ const arch_register_class_t *(*get_reg_class_for_mode)(const ir_mode *mode);
+
+ /**
+ * Get the ABI restrictions for procedure calls.
+ * @param self The this pointer.
+ * @param call_type The call type of the method (procedure) in question.
+ * @param p The array of parameter locations to be filled.
+ */
+ void (*get_call_abi)(const void *self, ir_type *call_type,
+ be_abi_call_t *abi);
+
+ /**
+ * Get the code generator interface.
+ * @param self The this pointer.
+ * @return Some code generator interface.
+ */
+ const arch_code_generator_if_t *(*get_code_generator_if)(void *self);
+
+ /**
+ * Get the list scheduler to use. There is already a selector given, the
+ * backend is free to modify and/or ignore it.
+ *
+ * @param self The isa object.
+ * @param selector The selector given by options.
+ * @return The list scheduler selector.
+ */
+ const list_sched_selector_t *(*get_list_sched_selector)(const void *self,
+ list_sched_selector_t *selector);
+
+ /**
+ * Get the ILP scheduler to use.
+ * @param self The isa object.
+ * @return The ILP scheduler selector
+ */
+ const ilp_sched_selector_t *(*get_ilp_sched_selector)(const void *self);
+
+ /**
+ * Get the necessary alignment for storing a register of given class.
+ * @param self The isa object.
+ * @param cls The register class.
+ * @return The alignment in bytes.
+ */
+ int (*get_reg_class_alignment)(const arch_register_class_t *cls);
+
+ /**
+ * A "static" function, returns the frontend settings
+ * needed for this backend.
+ */
+ const backend_params *(*get_params)(void);
+
+ /**
+ * Returns an 2-dim array of execution units, @p irn can be executed on.
+ * The first dimension is the type, the second the allowed units of this
+ * type.
+ * Each dimension is a NULL terminated list.
+ * @param self The isa object.
+ * @param irn The node.
+ * @return An array of allowed execution units.
+ * exec_unit = {
+ * { unit1_of_tp1, ..., unitX1_of_tp1, NULL },
+ * ...,
+ * { unit1_of_tpY, ..., unitXn_of_tpY, NULL },
+ * NULL
+ * };
+ */
+ const be_execution_unit_t ***(*get_allowed_execution_units)(
+ const ir_node *irn);
+
+ /**
+ * Return the abstract machine for this isa.
+ * @param self The isa object.
+ */
+ const be_machine_t *(*get_machine)(const void *self);
+
+ /**
+ * Return an ordered list of irgs where code should be generated for.
+ * If NULL is returned, all irg will be taken into account and they will be
+ * generated in an arbitrary order.
+ * @param self The isa object.
+ * @param irgs A flexible array ARR_F of length 0 where the backend can
+ * append the desired irgs.
+ * @return A flexible array ARR_F containing all desired irgs in the
+ * desired order.
+ */
+ ir_graph **(*get_backend_irg_list)(const void *self, ir_graph ***irgs);
+
+ /**
+ * mark node as rematerialized
+ */
+ void (*mark_remat)(ir_node *node);
+
+ /**
+ * parse an assembler constraint part and set flags according to its nature
+ * advances the *c pointer to point to the last parsed character (so if you
+ * parse a single character don't advance c)
+ */
+ asm_constraint_flags_t (*parse_asm_constraint)(const char **c);
+
+ /**
+ * returns true if the string is a valid clobbered (register) in this
+ * backend
+ */
+ int (*is_valid_clobber)(const char *clobber);
+};
+
+#define arch_env_done(env) ((env)->impl->done(env))
+#define arch_env_handle_intrinsics(env) \
+ do { if((env)->impl->handle_intrinsics != NULL) (env)->impl->handle_intrinsics(); } while(0)
+#define arch_env_get_n_reg_class(env) ((env)->impl->get_n_reg_class())
+#define arch_env_get_reg_class(env,i) ((env)->impl->get_reg_class(i))
+#define arch_env_get_reg_class_for_mode(env,mode) ((env)->impl->get_reg_class_for_mode((mode)))
+#define arch_env_get_call_abi(env,tp,abi) ((env)->impl->get_call_abi((env), (tp), (abi)))
+#define arch_env_get_code_generator_if(env) ((env)->impl->get_code_generator_if((env)))
+#define arch_env_get_list_sched_selector(env,selector) ((env)->impl->get_list_sched_selector((env), (selector)))
+#define arch_env_get_ilp_sched_selector(env) ((env)->impl->get_ilp_sched_selector(env))
+#define arch_env_get_reg_class_alignment(env,cls) ((env)->impl->get_reg_class_alignment((cls)))
+#define arch_env_get_params(env) ((env)->impl->get_params())
+#define arch_env_get_allowed_execution_units(env,irn) ((env)->impl->get_allowed_execution_units((irn)))
+#define arch_env_get_machine(env) ((env)->impl->get_machine(env))
+#define arch_env_get_backend_irg_list(env,irgs) ((env)->impl->get_backend_irg_list((env), (irgs)))
+#define arch_env_parse_asm_constraint(env,c) ((env)->impl->parse_asm_constraint((c))
+#define arch_env_is_valid_clobber(env,clobber) ((env)->impl->is_valid_clobber((clobber))
+#define arch_env_mark_remat(env,node) \
+ do { if ((env)->impl->mark_remat != NULL) (env)->impl->mark_remat((node)); } while(0)
+
+/**
+ * ISA base class.
+ */
+struct arch_env_t {
+ const arch_isa_if_t *impl;
+ const arch_register_t *sp; /**< The stack pointer register. */
+ const arch_register_t *bp; /**< The base pointer register. */
+ const arch_register_class_t *link_class; /**< The static link pointer
+ register class. */
+ int stack_dir; /**< -1 for decreasing, 1 for
+ increasing. */
+ int stack_alignment; /**< power of 2 stack alignment */
+ const be_main_env_t *main_env; /**< the be main environment */
+ int spill_cost; /**< cost for a be_Spill node */
+ int reload_cost; /**< cost for a be_Reload node */
+ bool custom_abi : 1; /**< backend does all abi handling
+ and does not need the generic stuff
+ from beabi.h/.c */
+};
+
+static inline unsigned arch_irn_get_n_outs(const ir_node *node)
+{
+ backend_info_t *info = be_get_info(node);
+ if (info->out_infos == NULL)
+ return 0;
+
+ return ARR_LEN(info->out_infos);
+}
+
+static inline const arch_irn_ops_t *get_irn_ops_simple(const ir_node *node)
+{
+ const ir_op *ops = get_irn_op(node);
+ const arch_irn_ops_t *be_ops = get_op_ops(ops)->be_ops;
+ assert(!is_Proj(node));
+ return be_ops;
+}
+
+static inline const arch_register_req_t *arch_get_register_req_out(
+ const ir_node *irn)
+{
+ int pos = 0;
+ backend_info_t *info;
+
+ /* you have to query the Proj nodes for the constraints (or use
+ * arch_get_out_register_req. Querying a mode_T node and expecting
+ * arch_no_register_req is a bug in your code! */
+ assert(get_irn_mode(irn) != mode_T);
+
+ if (is_Proj(irn)) {
+ pos = get_Proj_proj(irn);
+ irn = get_Proj_pred(irn);
+ }
+
+ info = be_get_info(irn);
+ if (info->out_infos == NULL)
+ return arch_no_register_req;
+
+ return info->out_infos[pos].req;
+}
+
+static inline bool arch_irn_is_ignore(const ir_node *irn)
+{
+ const arch_register_req_t *req = arch_get_register_req_out(irn);
+ return !!(req->type & arch_register_req_type_ignore);
+}
+
+static inline bool arch_irn_consider_in_reg_alloc(
+ const arch_register_class_t *cls, const ir_node *node)
+{
+ const arch_register_req_t *req = arch_get_register_req_out(node);
+ return
+ req->cls == cls &&
+ !(req->type & arch_register_req_type_ignore);
+}
+
+/**
+ * Get register constraints for an operand at position @p
+ */
+static inline const arch_register_req_t *arch_get_in_register_req(
+ const ir_node *node, int pos)
+{
+ const arch_irn_ops_t *ops = get_irn_ops_simple(node);
+ return ops->get_irn_reg_req_in(node, pos);
+}
+
+/**
+ * Get register constraint for a produced result (the @p pos result)
+ */
+static inline const arch_register_req_t *arch_get_out_register_req(
+ const ir_node *node, int pos)
+{
+ const backend_info_t *info = be_get_info(node);
+ if (info->out_infos == NULL)
+ return arch_no_register_req;
+ return info->out_infos[pos].req;
+}
+
+static inline void arch_set_out_register_req(ir_node *node, int pos,
+ const arch_register_req_t *req)
+{
+ backend_info_t *info = be_get_info(node);
+ assert(pos < (int) arch_irn_get_n_outs(node));
+ info->out_infos[pos].req = req;
+}
+
+#endif