#define LLVM_MC_MCVALUE_H
#include "llvm/Support/DataTypes.h"
+#include "llvm/MC/MCSymbol.h"
+#include <cassert>
namespace llvm {
class MCSymbol;
/// form, this can hold "SymbolA - SymbolB + imm64". Not all targets supports
/// relocations of this general form, but we need to represent this anyway.
///
+/// In the general form, SymbolB can only be defined if SymbolA is, and both
+/// must be in the same (non-external) section.
+///
/// Note that this class must remain a simple POD value class, because we need
/// it to live in unions etc.
class MCValue {
MCSymbol *getSymB() const { return SymB; }
bool isConstant() const { return !SymA && !SymB; }
-
+
+ /// getAssociatedSection - For relocatable values, return the section the
+ /// value is associated with.
+ ///
+ /// @result - The value's associated section, or null for external or constant
+ /// values.
+ MCSection *getAssociatedSection() const {
+ return SymA ? SymA->getSection() : 0;
+ }
+
static MCValue get(MCSymbol *SymA, MCSymbol *SymB = 0, int64_t Val = 0) {
MCValue R;
+ assert((!SymB || (SymA && SymA->getSection() &&
+ SymA->getSection() == SymB->getSection())) &&
+ "Invalid relocatable MCValue!");
R.Cst = Val;
R.SymA = SymA;
R.SymB = SymB;
#include "AsmExpr.h"
#include "llvm/MC/MCContext.h"
+#include "llvm/MC/MCSymbol.h"
#include "llvm/MC/MCValue.h"
using namespace llvm;
}
bool AsmExpr::EvaluateAsAbsolute(MCContext &Ctx, int64_t &Res) const {
+ MCValue Value;
+
+ if (!EvaluateAsRelocatable(Ctx, Value) || !Value.isConstant())
+ return false;
+
+ Res = Value.getConstant();
+ return true;
+}
+
+bool AsmExpr::EvaluateAsRelocatable(MCContext &Ctx, MCValue &Res) const {
switch (getKind()) {
default:
assert(0 && "Invalid assembly expression kind!");
case Constant:
- Res = cast<AsmConstantExpr>(this)->getValue();
+ Res = MCValue::get(cast<AsmConstantExpr>(this)->getValue());
return true;
case SymbolRef: {
MCSymbol *Sym = cast<AsmSymbolRefExpr>(this)->getSymbol();
- const MCValue *Value = Ctx.GetSymbolValue(Sym);
-
- // FIXME: Return more information about the failure.
- if (!Value || !Value->isConstant())
- return false;
-
- Res = Value->getConstant();
+ if (const MCValue *Value = Ctx.GetSymbolValue(Sym))
+ Res = *Value;
+ else
+ Res = MCValue::get(Sym, 0, 0);
return true;
}
case Unary: {
const AsmUnaryExpr *AUE = cast<AsmUnaryExpr>(this);
- int64_t Value;
+ MCValue Value;
- if (!AUE->getSubExpr()->EvaluateAsAbsolute(Ctx, Value))
+ if (!AUE->getSubExpr()->EvaluateAsRelocatable(Ctx, Value))
return false;
switch (AUE->getOpcode()) {
- case AsmUnaryExpr::LNot: Res = !Value; break;
- case AsmUnaryExpr::Minus: Res = -Value; break;
- case AsmUnaryExpr::Not: Res = ~Value; break;
- case AsmUnaryExpr::Plus: Res = +Value; break;
+ case AsmUnaryExpr::LNot:
+ if (!Value.isConstant())
+ return false;
+ Res = MCValue::get(!Value.getConstant());
+ break;
+ case AsmUnaryExpr::Minus:
+ /// -(a - b + const) ==> (b - a - const)
+ if (Value.getSymA() && !Value.getSymA())
+ return false;
+ Res = MCValue::get(Value.getSymB(), Value.getSymA(),
+ -Value.getConstant());
+ break;
+ case AsmUnaryExpr::Not:
+ if (!Value.isConstant())
+ return false;
+ Res = MCValue::get(~Value.getConstant());
+ break;
+ case AsmUnaryExpr::Plus:
+ Res = Value;
+ break;
}
return true;
case Binary: {
const AsmBinaryExpr *ABE = cast<AsmBinaryExpr>(this);
- int64_t LHS, RHS;
+ MCValue LHSValue, RHSValue;
- if (!ABE->getLHS()->EvaluateAsAbsolute(Ctx, LHS) ||
- !ABE->getRHS()->EvaluateAsAbsolute(Ctx, RHS))
+ if (!ABE->getLHS()->EvaluateAsRelocatable(Ctx, LHSValue) ||
+ !ABE->getRHS()->EvaluateAsRelocatable(Ctx, RHSValue))
return false;
+ // We only support a few operations on non-constant expressions, handle
+ // those first.
+ if (!LHSValue.isConstant() || !RHSValue.isConstant()) {
+ switch (ABE->getOpcode()) {
+ default:
+ return false;
+ case AsmBinaryExpr::Sub:
+ // Negate RHS and fall through.
+ RHSValue = MCValue::get(RHSValue.getSymB(), RHSValue.getSymA(),
+ -RHSValue.getConstant());
+ case AsmBinaryExpr::Add:
+ // (a_0 - b_0 + cst_0) + (a_1 - b_1 + cst_1)
+
+ // We can't add or subtract two symbols.
+ if ((LHSValue.getSymA() && RHSValue.getSymB()) ||
+ (LHSValue.getSymB() && RHSValue.getSymB()))
+ return false;
+
+ MCSymbol *A =
+ LHSValue.getSymA() ? LHSValue.getSymA() : RHSValue.getSymA();
+ MCSymbol *B =
+ LHSValue.getSymB() ? LHSValue.getSymB() : RHSValue.getSymB();
+ if (B) {
+ // If we have a negated symbol, then we must have also have a
+ // non-negated symbol, and both symbols must be in the same
+ // non-external section. We can do this check later to permit
+ // expressions which eventually fold to a representable form -- such
+ // as (a + (0 - b)) -- if necessary.
+ if (!A || !A->getSection() || A->getSection() != B->getSection())
+ return false;
+ }
+ Res = MCValue::get(A, B,
+ LHSValue.getConstant() + RHSValue.getConstant());
+ return true;
+ }
+ }
+
// FIXME: We need target hooks for the evaluation. It may be limited in
// width, and gas defines the result of comparisons differently from Apple
// as (the result is sign extended).
+ int64_t Result, LHS = LHSValue.getConstant(), RHS = RHSValue.getConstant();
switch (ABE->getOpcode()) {
- case AsmBinaryExpr::Add: Res = LHS + RHS; break;
- case AsmBinaryExpr::And: Res = LHS & RHS; break;
- case AsmBinaryExpr::Div: Res = LHS / RHS; break;
- case AsmBinaryExpr::EQ: Res = LHS == RHS; break;
- case AsmBinaryExpr::GT: Res = LHS > RHS; break;
- case AsmBinaryExpr::GTE: Res = LHS >= RHS; break;
- case AsmBinaryExpr::LAnd: Res = LHS && RHS; break;
- case AsmBinaryExpr::LOr: Res = LHS || RHS; break;
- case AsmBinaryExpr::LT: Res = LHS < RHS; break;
- case AsmBinaryExpr::LTE: Res = LHS <= RHS; break;
- case AsmBinaryExpr::Mod: Res = LHS % RHS; break;
- case AsmBinaryExpr::Mul: Res = LHS * RHS; break;
- case AsmBinaryExpr::NE: Res = LHS != RHS; break;
- case AsmBinaryExpr::Or: Res = LHS | RHS; break;
- case AsmBinaryExpr::Shl: Res = LHS << RHS; break;
- case AsmBinaryExpr::Shr: Res = LHS >> RHS; break;
- case AsmBinaryExpr::Sub: Res = LHS - RHS; break;
- case AsmBinaryExpr::Xor: Res = LHS ^ RHS; break;
+ case AsmBinaryExpr::Add: Result = LHS + RHS; break;
+ case AsmBinaryExpr::And: Result = LHS & RHS; break;
+ case AsmBinaryExpr::Div: Result = LHS / RHS; break;
+ case AsmBinaryExpr::EQ: Result = LHS == RHS; break;
+ case AsmBinaryExpr::GT: Result = LHS > RHS; break;
+ case AsmBinaryExpr::GTE: Result = LHS >= RHS; break;
+ case AsmBinaryExpr::LAnd: Result = LHS && RHS; break;
+ case AsmBinaryExpr::LOr: Result = LHS || RHS; break;
+ case AsmBinaryExpr::LT: Result = LHS < RHS; break;
+ case AsmBinaryExpr::LTE: Result = LHS <= RHS; break;
+ case AsmBinaryExpr::Mod: Result = LHS % RHS; break;
+ case AsmBinaryExpr::Mul: Result = LHS * RHS; break;
+ case AsmBinaryExpr::NE: Result = LHS != RHS; break;
+ case AsmBinaryExpr::Or: Result = LHS | RHS; break;
+ case AsmBinaryExpr::Shl: Result = LHS << RHS; break;
+ case AsmBinaryExpr::Shr: Result = LHS >> RHS; break;
+ case AsmBinaryExpr::Sub: Result = LHS - RHS; break;
+ case AsmBinaryExpr::Xor: Result = LHS ^ RHS; break;
}
+ Res = MCValue::get(Result);
return true;
}
}
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