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android / toolchain / rustc / 5c0824a599f2f1f4dcb9c92edf09f6c1b555988d / . / vendor / cranelift-codegen-meta / src / shared / formats.rs
blob: ad3bdd7e3198aff2cc627e1ef959b8cf28d9d688 [file] [log] [blame]
use crate::cdsl::formats::{InstructionFormat, InstructionFormatBuilder as Builder};
use crate::shared::{entities::EntityRefs, immediates::Immediates};
use std::rc::Rc;
pub(crate) struct Formats {
pub(crate) atomic_cas: Rc<InstructionFormat>,
pub(crate) atomic_rmw: Rc<InstructionFormat>,
pub(crate) binary: Rc<InstructionFormat>,
pub(crate) binary_imm8: Rc<InstructionFormat>,
pub(crate) binary_imm64: Rc<InstructionFormat>,
pub(crate) branch: Rc<InstructionFormat>,
pub(crate) branch_table: Rc<InstructionFormat>,
pub(crate) call: Rc<InstructionFormat>,
pub(crate) call_indirect: Rc<InstructionFormat>,
pub(crate) cond_trap: Rc<InstructionFormat>,
pub(crate) float_compare: Rc<InstructionFormat>,
pub(crate) func_addr: Rc<InstructionFormat>,
pub(crate) int_compare: Rc<InstructionFormat>,
pub(crate) int_compare_imm: Rc<InstructionFormat>,
pub(crate) int_add_trap: Rc<InstructionFormat>,
pub(crate) jump: Rc<InstructionFormat>,
pub(crate) load: Rc<InstructionFormat>,
pub(crate) load_no_offset: Rc<InstructionFormat>,
pub(crate) multiary: Rc<InstructionFormat>,
pub(crate) nullary: Rc<InstructionFormat>,
pub(crate) shuffle: Rc<InstructionFormat>,
pub(crate) stack_load: Rc<InstructionFormat>,
pub(crate) stack_store: Rc<InstructionFormat>,
pub(crate) dynamic_stack_load: Rc<InstructionFormat>,
pub(crate) dynamic_stack_store: Rc<InstructionFormat>,
pub(crate) store: Rc<InstructionFormat>,
pub(crate) store_no_offset: Rc<InstructionFormat>,
pub(crate) table_addr: Rc<InstructionFormat>,
pub(crate) ternary: Rc<InstructionFormat>,
pub(crate) ternary_imm8: Rc<InstructionFormat>,
pub(crate) trap: Rc<InstructionFormat>,
pub(crate) unary: Rc<InstructionFormat>,
pub(crate) unary_const: Rc<InstructionFormat>,
pub(crate) unary_global_value: Rc<InstructionFormat>,
pub(crate) unary_ieee32: Rc<InstructionFormat>,
pub(crate) unary_ieee64: Rc<InstructionFormat>,
pub(crate) unary_imm: Rc<InstructionFormat>,
}
impl Formats {
pub fn new(imm: &Immediates, entities: &EntityRefs) -> Self {
Self {
unary: Builder::new("Unary").value().build(),
unary_imm: Builder::new("UnaryImm").imm(&imm.imm64).build(),
unary_ieee32: Builder::new("UnaryIeee32").imm(&imm.ieee32).build(),
unary_ieee64: Builder::new("UnaryIeee64").imm(&imm.ieee64).build(),
unary_const: Builder::new("UnaryConst").imm(&imm.pool_constant).build(),
unary_global_value: Builder::new("UnaryGlobalValue")
.imm(&entities.global_value)
.build(),
binary: Builder::new("Binary").value().value().build(),
binary_imm8: Builder::new("BinaryImm8").value().imm(&imm.uimm8).build(),
binary_imm64: Builder::new("BinaryImm64").value().imm(&imm.imm64).build(),
// The select instructions are controlled by the second VALUE operand.
// The first VALUE operand is the controlling flag which has a derived type.
// The fma instruction has the same constraint on all inputs.
ternary: Builder::new("Ternary")
.value()
.value()
.value()
.typevar_operand(1)
.build(),
ternary_imm8: Builder::new("TernaryImm8")
.value()
.imm(&imm.uimm8)
.value()
.build(),
// Catch-all for instructions with many outputs and inputs and no immediate
// operands.
multiary: Builder::new("MultiAry").varargs().build(),
nullary: Builder::new("NullAry").build(),
shuffle: Builder::new("Shuffle")
.value()
.value()
.imm(&imm.uimm128)
.build(),
int_compare: Builder::new("IntCompare")
.imm(&imm.intcc)
.value()
.value()
.build(),
int_compare_imm: Builder::new("IntCompareImm")
.imm(&imm.intcc)
.value()
.imm(&imm.imm64)
.build(),
float_compare: Builder::new("FloatCompare")
.imm(&imm.floatcc)
.value()
.value()
.build(),
jump: Builder::new("Jump").imm(&entities.block).varargs().build(),
branch: Builder::new("Branch")
.value()
.imm(&entities.block)
.varargs()
.build(),
branch_table: Builder::new("BranchTable")
.value()
.imm(&entities.block)
.imm(&entities.jump_table)
.build(),
call: Builder::new("Call")
.imm(&entities.func_ref)
.varargs()
.build(),
call_indirect: Builder::new("CallIndirect")
.imm(&entities.sig_ref)
.value()
.varargs()
.build(),
func_addr: Builder::new("FuncAddr").imm(&entities.func_ref).build(),
atomic_rmw: Builder::new("AtomicRmw")
.imm(&imm.memflags)
.imm(&imm.atomic_rmw_op)
.value()
.value()
.build(),
atomic_cas: Builder::new("AtomicCas")
.imm(&imm.memflags)
.value()
.value()
.value()
.typevar_operand(2)
.build(),
load: Builder::new("Load")
.imm(&imm.memflags)
.value()
.imm(&imm.offset32)
.build(),
load_no_offset: Builder::new("LoadNoOffset")
.imm(&imm.memflags)
.value()
.build(),
store: Builder::new("Store")
.imm(&imm.memflags)
.value()
.value()
.imm(&imm.offset32)
.build(),
store_no_offset: Builder::new("StoreNoOffset")
.imm(&imm.memflags)
.value()
.value()
.build(),
stack_load: Builder::new("StackLoad")
.imm(&entities.stack_slot)
.imm(&imm.offset32)
.build(),
stack_store: Builder::new("StackStore")
.value()
.imm(&entities.stack_slot)
.imm(&imm.offset32)
.build(),
dynamic_stack_load: Builder::new("DynamicStackLoad")
.imm(&entities.dynamic_stack_slot)
.build(),
dynamic_stack_store: Builder::new("DynamicStackStore")
.value()
.imm(&entities.dynamic_stack_slot)
.build(),
// Accessing a WebAssembly table.
table_addr: Builder::new("TableAddr")
.imm(&entities.table)
.value()
.imm(&imm.offset32)
.build(),
trap: Builder::new("Trap").imm(&imm.trapcode).build(),
cond_trap: Builder::new("CondTrap").value().imm(&imm.trapcode).build(),
int_add_trap: Builder::new("IntAddTrap")
.value()
.value()
.imm(&imm.trapcode)
.build(),
}
}
}