/// been initialized.
void LayoutFragment(MCFragment *Fragment);
- /// \brief Performs layout for a single section, assuming that the previous
- /// section has already been layed out correctly.
+ /// \brief Performs initial layout for a single section, assuming that the
+ /// previous section (including its fragments) has already been layed out
+ /// correctly.
void LayoutSection(MCSectionData *SD);
/// @name Section Access (in layout order)
/// current layout.
uint64_t getFragmentEffectiveSize(const MCFragment *F) const;
- /// \brief Set the effective size of the given fragment.
- void setFragmentEffectiveSize(MCFragment *F, uint64_t Value);
-
/// \brief Get the offset of the given fragment inside its containing section.
uint64_t getFragmentOffset(const MCFragment *F) const;
- /// \brief Set the offset of the given fragment inside its containing section.
- void setFragmentOffset(MCFragment *F, uint64_t Value);
-
/// @}
/// @name Section Layout Data
/// @{
/// \brief Get the computed address of the given section.
uint64_t getSectionAddress(const MCSectionData *SD) const;
- /// \brief Set the computed address of the given section.
- void setSectionAddress(MCSectionData *SD, uint64_t Value);
-
/// @}
/// @name Utility Functions
/// @{
return F->EffectiveSize;
}
-void MCAsmLayout::setFragmentEffectiveSize(MCFragment *F, uint64_t Value) {
- F->EffectiveSize = Value;
-}
-
uint64_t MCAsmLayout::getFragmentOffset(const MCFragment *F) const {
assert(F->Offset != ~UINT64_C(0) && "Address not set!");
return F->Offset;
}
-void MCAsmLayout::setFragmentOffset(MCFragment *F, uint64_t Value) {
- F->Offset = Value;
-}
-
uint64_t MCAsmLayout::getSymbolAddress(const MCSymbolData *SD) const {
assert(SD->getFragment() && "Invalid getAddress() on undefined symbol!");
return getFragmentAddress(SD->getFragment()) + SD->getOffset();
return SD->Address;
}
-void MCAsmLayout::setSectionAddress(MCSectionData *SD, uint64_t Value) {
- SD->Address = Value;
-}
-
uint64_t MCAsmLayout::getSectionAddressSize(const MCSectionData *SD) const {
- // Otherwise, the size is the last fragment's end offset.
+ // The size is the last fragment's end offset.
const MCFragment &F = SD->getFragmentList().back();
return getFragmentOffset(&F) + getFragmentEffectiveSize(&F);
}
}
void MCAsmLayout::LayoutFile() {
- for (unsigned i = 0, e = getSectionOrder().size(); i != e; ++i)
- LayoutSection(getSectionOrder()[i]);
+ for (unsigned i = 0, e = getSectionOrder().size(); i != e; ++i) {
+ MCSectionData *SD = getSectionOrder()[i];
+
+ LayoutSection(SD);
+ for (MCSectionData::iterator it = SD->begin(),
+ ie = SD->end(); it != ie; ++it)
+ LayoutFragment(it);
+ }
}
void MCAsmLayout::LayoutFragment(MCFragment *F) {
++stats::FragmentLayouts;
// Compute fragment offset and size.
- uint64_t Offset = Address - StartAddress;
- uint64_t EffectiveSize =
- getAssembler().ComputeFragmentSize(*this, *F, StartAddress, Offset);
-
- setFragmentOffset(F, Offset);
- setFragmentEffectiveSize(F, EffectiveSize);
+ F->Offset = Address - StartAddress;
+ F->EffectiveSize = getAssembler().ComputeFragmentSize(*this, *F, StartAddress,
+ F->Offset);
}
void MCAsmLayout::LayoutSection(MCSectionData *SD) {
StartAddress = RoundUpToAlignment(StartAddress, SD->getAlignment());
// Set the section address.
- setSectionAddress(SD, StartAddress);
-
- for (MCSectionData::iterator it = SD->begin(), ie = SD->end(); it != ie; ++it)
- LayoutFragment(it);
+ SD->Address = StartAddress;
}
/// WriteFragmentData - Write the \arg F data to the output file.