Trait cranelift_codegen::MachInst
source · pub trait MachInst: Clone + Debug {
type ABIMachineSpec: ABIMachineSpec<I = Self>;
type LabelUse: MachInstLabelUse;
const TRAP_OPCODE: &'static [u8];
Show 21 methods
// Required methods
fn get_operands<F: Fn(VReg) -> VReg>(
&self,
collector: &mut OperandCollector<'_, F>
);
fn is_move(&self) -> Option<(Writable<Reg>, Reg)>;
fn is_term(&self) -> MachTerminator;
fn is_trap(&self) -> bool;
fn is_args(&self) -> bool;
fn is_included_in_clobbers(&self) -> bool;
fn is_mem_access(&self) -> bool;
fn gen_move(to_reg: Writable<Reg>, from_reg: Reg, ty: Type) -> Self;
fn gen_dummy_use(reg: Reg) -> Self;
fn rc_for_type(
ty: Type
) -> CodegenResult<(&'static [RegClass], &'static [Type])>;
fn canonical_type_for_rc(rc: RegClass) -> Type;
fn gen_jump(target: MachLabel) -> Self;
fn gen_nop(preferred_size: usize) -> Self;
fn worst_case_size() -> CodeOffset;
fn ref_type_regclass(_flags: &Flags) -> RegClass;
fn is_safepoint(&self) -> bool;
fn function_alignment() -> FunctionAlignment;
// Provided methods
fn gen_imm_u64(_value: u64, _dst: Writable<Reg>) -> Option<Self> { ... }
fn gen_imm_f64(
_value: f64,
_tmp: Writable<Reg>,
_dst: Writable<Reg>
) -> SmallVec<[Self; 2]> { ... }
fn align_basic_block(offset: CodeOffset) -> CodeOffset { ... }
fn gen_block_start(
_is_indirect_branch_target: bool,
_is_forward_edge_cfi_enabled: bool
) -> Option<Self> { ... }
}
Expand description
A machine instruction.
Required Associated Types§
sourcetype ABIMachineSpec: ABIMachineSpec<I = Self>
type ABIMachineSpec: ABIMachineSpec<I = Self>
The ABI machine spec for this MachInst
.
Required Associated Constants§
sourceconst TRAP_OPCODE: &'static [u8]
const TRAP_OPCODE: &'static [u8]
Byte representation of a trap opcode which is inserted by MachBuffer
during its defer_trap
method.
Required Methods§
sourcefn get_operands<F: Fn(VReg) -> VReg>(
&self,
collector: &mut OperandCollector<'_, F>
)
fn get_operands<F: Fn(VReg) -> VReg>( &self, collector: &mut OperandCollector<'_, F> )
Return the registers referenced by this machine instruction along with the modes of reference (use, def, modify).
sourcefn is_move(&self) -> Option<(Writable<Reg>, Reg)>
fn is_move(&self) -> Option<(Writable<Reg>, Reg)>
If this is a simple move, return the (source, destination) tuple of registers.
sourcefn is_term(&self) -> MachTerminator
fn is_term(&self) -> MachTerminator
Is this a terminator (branch or ret)? If so, return its type (ret/uncond/cond) and target if applicable.
sourcefn is_included_in_clobbers(&self) -> bool
fn is_included_in_clobbers(&self) -> bool
Should this instruction be included in the clobber-set?
sourcefn is_mem_access(&self) -> bool
fn is_mem_access(&self) -> bool
Does this instruction access memory?
sourcefn gen_dummy_use(reg: Reg) -> Self
fn gen_dummy_use(reg: Reg) -> Self
Generate a dummy instruction that will keep a value alive but has no other purpose.
sourcefn rc_for_type(
ty: Type
) -> CodegenResult<(&'static [RegClass], &'static [Type])>
fn rc_for_type( ty: Type ) -> CodegenResult<(&'static [RegClass], &'static [Type])>
Determine register class(es) to store the given Cranelift type, and the Cranelift type actually stored in the underlying register(s). May return an error if the type isn’t supported by this backend.
If the type requires multiple registers, then the list of registers is returned in little-endian order.
Note that the type actually stored in the register(s) may differ in the case that a value is split across registers: for example, on a 32-bit target, an I64 may be stored in two registers, each of which holds an I32. The actually-stored types are used only to inform the backend when generating spills and reloads for individual registers.
sourcefn canonical_type_for_rc(rc: RegClass) -> Type
fn canonical_type_for_rc(rc: RegClass) -> Type
Get an appropriate type that can fully hold a value in a given
register class. This may not be the only type that maps to
that class, but when used with gen_move()
or the ABI trait’s
load/spill constructors, it should produce instruction(s) that
move the entire register contents.
sourcefn gen_jump(target: MachLabel) -> Self
fn gen_jump(target: MachLabel) -> Self
Generate a jump to another target. Used during lowering of control flow.
sourcefn gen_nop(preferred_size: usize) -> Self
fn gen_nop(preferred_size: usize) -> Self
Generate a NOP. The preferred_size
parameter allows the caller to
request a NOP of that size, or as close to it as possible. The machine
backend may return a NOP whose binary encoding is smaller than the
preferred size, but must not return a NOP that is larger. However,
the instruction must have a nonzero size if preferred_size is nonzero.
sourcefn worst_case_size() -> CodeOffset
fn worst_case_size() -> CodeOffset
What is the worst-case instruction size emitted by this instruction type?
sourcefn ref_type_regclass(_flags: &Flags) -> RegClass
fn ref_type_regclass(_flags: &Flags) -> RegClass
What is the register class used for reference types (GC-observable pointers)? Can be dependent on compilation flags.
sourcefn is_safepoint(&self) -> bool
fn is_safepoint(&self) -> bool
Is this a safepoint?
sourcefn function_alignment() -> FunctionAlignment
fn function_alignment() -> FunctionAlignment
Returns a description of the alignment required for functions for this architecture.
Provided Methods§
sourcefn gen_imm_u64(_value: u64, _dst: Writable<Reg>) -> Option<Self>
fn gen_imm_u64(_value: u64, _dst: Writable<Reg>) -> Option<Self>
Generate a store of an immediate 64-bit integer to a register. Used by the control plane to generate random instructions.
sourcefn gen_imm_f64(
_value: f64,
_tmp: Writable<Reg>,
_dst: Writable<Reg>
) -> SmallVec<[Self; 2]>
fn gen_imm_f64( _value: f64, _tmp: Writable<Reg>, _dst: Writable<Reg> ) -> SmallVec<[Self; 2]>
Generate a store of an immediate 64-bit integer to a register. Used by the control plane to generate random instructions. The tmp register may be used by architectures which don’t support writing immediate values to floating point registers directly.
sourcefn align_basic_block(offset: CodeOffset) -> CodeOffset
fn align_basic_block(offset: CodeOffset) -> CodeOffset
Align a basic block offset (from start of function). By default, no alignment occurs.
sourcefn gen_block_start(
_is_indirect_branch_target: bool,
_is_forward_edge_cfi_enabled: bool
) -> Option<Self>
fn gen_block_start( _is_indirect_branch_target: bool, _is_forward_edge_cfi_enabled: bool ) -> Option<Self>
Generate an instruction that must appear at the beginning of a basic block, if any. Note that the return value must not be subject to register allocation.