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//! Global values.
use crate::ir::immediates::{Imm64, Offset32};
use crate::ir::{ExternalName, GlobalValue, Type};
use crate::isa::TargetIsa;
use core::fmt;
#[cfg(feature = "enable-serde")]
use serde::{Deserialize, Serialize};
/// Information about a global value declaration.
#[derive(Clone, PartialEq, Hash)]
#[cfg_attr(feature = "enable-serde", derive(Serialize, Deserialize))]
pub enum GlobalValueData {
/// Value is the address of the VM context struct.
VMContext,
/// Value is pointed to by another global value.
///
/// The `base` global value is assumed to contain a pointer. This global value is computed
/// by loading from memory at that pointer value. The memory must be accessible, and
/// naturally aligned to hold a value of the type. The data at this address is assumed
/// to never change while the current function is executing.
Load {
/// The base pointer global value.
base: GlobalValue,
/// Offset added to the base pointer before doing the load.
offset: Offset32,
/// Type of the loaded value.
global_type: Type,
/// Specifies whether the memory that this refers to is readonly, allowing for the
/// elimination of redundant loads.
readonly: bool,
},
/// Value is an offset from another global value.
IAddImm {
/// The base pointer global value.
base: GlobalValue,
/// Byte offset to be added to the value.
offset: Imm64,
/// Type of the iadd.
global_type: Type,
},
/// Value is symbolic, meaning it's a name which will be resolved to an
/// actual value later (eg. by linking). Cranelift itself does not interpret
/// this name; it's used by embedders to link with other data structures.
///
/// For now, symbolic values always have pointer type, and represent
/// addresses, however in the future they could be used to represent other
/// things as well.
Symbol {
/// The symbolic name.
name: ExternalName,
/// Offset from the symbol. This can be used instead of IAddImm to represent folding an
/// offset into a symbol.
offset: Imm64,
/// Will this symbol be defined nearby, such that it will always be a certain distance
/// away, after linking? If so, references to it can avoid going through a GOT. Note that
/// symbols meant to be preemptible cannot be colocated.
///
/// If `true`, some backends may use relocation forms that have limited range: for example,
/// a +/- 2^27-byte range on AArch64. See the documentation for
/// `RelocDistance` for more details.
colocated: bool,
/// Does this symbol refer to a thread local storage value?
tls: bool,
},
/// Value is a multiple of how many instances of `vector_type` will fit in
/// a target vector register.
DynScaleTargetConst {
/// Base vector type.
vector_type: Type,
},
}
impl GlobalValueData {
/// Assume that `self` is an `GlobalValueData::Symbol` and return its name.
pub fn symbol_name(&self) -> &ExternalName {
match *self {
Self::Symbol { ref name, .. } => name,
_ => panic!("only symbols have names"),
}
}
/// Return the type of this global.
pub fn global_type(&self, isa: &dyn TargetIsa) -> Type {
match *self {
Self::VMContext { .. } | Self::Symbol { .. } => isa.pointer_type(),
Self::IAddImm { global_type, .. } | Self::Load { global_type, .. } => global_type,
Self::DynScaleTargetConst { .. } => isa.pointer_type(),
}
}
}
impl fmt::Display for GlobalValueData {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Self::VMContext => write!(f, "vmctx"),
Self::Load {
base,
offset,
global_type,
readonly,
} => write!(
f,
"load.{} notrap aligned {}{}{}",
global_type,
if readonly { "readonly " } else { "" },
base,
offset
),
Self::IAddImm {
global_type,
base,
offset,
} => write!(f, "iadd_imm.{} {}, {}", global_type, base, offset),
Self::Symbol {
ref name,
offset,
colocated,
tls,
} => {
write!(
f,
"symbol {}{}{}",
if colocated { "colocated " } else { "" },
if tls { "tls " } else { "" },
name.display(None)
)?;
let offset_val: i64 = offset.into();
if offset_val > 0 {
write!(f, "+")?;
}
if offset_val != 0 {
write!(f, "{}", offset)?;
}
Ok(())
}
Self::DynScaleTargetConst { vector_type } => {
write!(f, "dyn_scale_target_const.{}", vector_type)
}
}
}
}