[llvm] aec685e - [DataLayout] Introduce DataLayout::getAddressSize(AS)

[via llvm-commits]

Author: Alexander Richardson
Date: 2025-05-16T10:04:00-07:00
New Revision: aec685ea77e97bcc6892b12e970857fb1b049528

URL: https://github.com/llvm/llvm-project/commit/aec685ea77e97bcc6892b12e970857fb1b049528
DIFF: https://github.com/llvm/llvm-project/commit/aec685ea77e97bcc6892b12e970857fb1b049528.diff

LOG: [DataLayout] Introduce DataLayout::getAddressSize(AS)

This function can be used to retrieve the number of bits that can be used
for arithmetic in a given address space (i.e. the range of the address
space). For most in-tree targets this should not make any difference
but differentiating between the size of a pointer in bits and the address
range is extremely important e.g. for CHERI-enabled targets, where pointers
carry additional metadata such as bounds and permissions and only a subset
of the pointer bits is used as the address.

The address size is defined to be the same as the index size.

We considered adding a separate property since targets exist where indexing
and address range actually use different sizes (AMDGPU fat pointers with
160 representation, 48 bit address and 32 bit index), but for the purposes
of LLVM semantics, differentiating them does not add much value and it
introduces a lot of complexity in ensure the correct bits are used. See
the reasoning by @nikic on https://discourse.llvm.org/t/clarifiying-the-semantics-of-ptrtoint/83987/38https://discourse.llvm.org/t/clarifiying-the-semantics-of-ptrtoint/83987/49

Originally uploaded as https://reviews.llvm.org/D135158

Reviewed By: davidchisnall, krzysz00

Pull Request: https://github.com/llvm/llvm-project/pull/139347

Added: 
    

Modified: 
    llvm/docs/LangRef.rst
    llvm/include/llvm/IR/DataLayout.h

Removed: 
    


################################################################################
diff  --git a/llvm/docs/LangRef.rst b/llvm/docs/LangRef.rst
index a1ae6611acd3c..343ca743c74f8 100644
--- a/llvm/docs/LangRef.rst
+++ b/llvm/docs/LangRef.rst
@@ -3150,14 +3150,21 @@ as follows:
 ``A<address space>``
     Specifies the address space of objects created by '``alloca``'.
     Defaults to the default address space of 0.
-``p[n]:<size>:<abi>[:<pref>][:<idx>]``
-    This specifies the *size* of a pointer and its ``<abi>`` and
-    ``<pref>``\erred alignments for address space ``n``.
-    The fourth parameter ``<idx>`` is the size of the
-    index that used for address calculation, which must be less than or equal
-    to the pointer size. If not
-    specified, the default index size is equal to the pointer size. All sizes
-    are in bits. The address space, ``n``, is optional, and if not specified,
+``p[n]:<size>:<abi>[:<pref>[:<idx>]]``
+    This specifies the properties of a pointer in address space ``n``.
+    The ``<size>`` parameter specifies the size of the bitwise representation.
+    For :ref:`non-integral pointers <nointptrtype>` the representation size may
+    be larger than the address width of the underlying address space (e.g. to
+    accommodate additional metadata).
+    The alignment requirements are specified via the ``<abi>`` and
+    ``<pref>``\erred alignments parameters.
+    The fourth parameter ``<idx>`` is the size of the index that used for
+    address calculations such as :ref:`getelementptr <i_getelementptr>`.
+    It must be less than or equal to the pointer size. If not specified, the
+    default index size is equal to the pointer size.
+    The index size also specifies the width of addresses in this address space.
+    All sizes are in bits.
+    The address space, ``n``, is optional, and if not specified,
     denotes the default address space 0. The value of ``n`` must be
     in the range [1,2^24).
 ``i<size>:<abi>[:<pref>]``
@@ -4269,6 +4276,16 @@ address spaces defined in the :ref:`datalayout string<langref_datalayout>`.
 the default globals address space and ``addrspace("P")`` the program address
 space.
 
+The representation of pointers can be 
diff erent for each address space and does
+not necessarily need to be a plain integer address (e.g. for
+:ref:`non-integral pointers <nointptrtype>`). In addition to a representation
+bits size, pointers in each address space also have an index size which defines
+the bitwidth of indexing operations as well as the size of `integer addresses`
+in this address space. For example, CHERI capabilities are twice the size of the
+underlying addresses to accommodate for additional metadata such as bounds and
+permissions: on a 32-bit system the bitwidth of the pointer representation size
+is 64, but the underlying address width remains 32 bits.
+
 The default address space is number zero.
 
 The semantics of non-zero address spaces are target-specific. Memory

diff  --git a/llvm/include/llvm/IR/DataLayout.h b/llvm/include/llvm/IR/DataLayout.h
index d83fe1299237b..e399a2f29e545 100644
--- a/llvm/include/llvm/IR/DataLayout.h
+++ b/llvm/include/llvm/IR/DataLayout.h
@@ -92,6 +92,7 @@ class DataLayout {
     /// The function pointer alignment is a multiple of the function alignment.
     MultipleOfFunctionAlign,
   };
+
 private:
   bool BigEndian = false;
 
@@ -324,16 +325,38 @@ class DataLayout {
   /// the backends/clients are updated.
   Align getPointerPrefAlignment(unsigned AS = 0) const;
 
-  /// Layout pointer size in bytes, rounded up to a whole
-  /// number of bytes.
+  /// The pointer representation size in bytes, rounded up to a whole number of
+  /// bytes. The 
diff erence between this function and getAddressSize() is that
+  /// this one returns the size of the entire pointer representation (including
+  /// metadata bits for fat pointers) and the latter only returns the number of
+  /// address bits.
+  /// \sa DataLayout::getAddressSizeInBits
   /// FIXME: The defaults need to be removed once all of
   /// the backends/clients are updated.
   unsigned getPointerSize(unsigned AS = 0) const;
 
-  // Index size in bytes used for address calculation,
-  /// rounded up to a whole number of bytes.
+  /// The index size in bytes used for address calculation, rounded up to a
+  /// whole number of bytes. This not only defines the size used in
+  /// getelementptr operations, but also the size of addresses in this \p AS.
+  /// For example, a 64-bit CHERI-enabled target has 128-bit pointers of which
+  /// only 64 are used to represent the address and the remaining ones are used
+  /// for metadata such as bounds and access permissions. In this case
+  /// getPointerSize() returns 16, but getIndexSize() returns 8.
+  /// To help with code understanding, the alias getAddressSize() can be used
+  /// instead of getIndexSize() to clarify that an address width is needed.
   unsigned getIndexSize(unsigned AS) const;
 
+  /// The integral size of a pointer in a given address space in bytes, which
+  /// is defined to be the same as getIndexSize(). This exists as a separate
+  /// function to make it clearer when reading code that the size of an address
+  /// is being requested. While targets exist where index size and the
+  /// underlying address width are not identical (e.g. AMDGPU fat pointers with
+  /// 48-bit addresses and 32-bit offsets indexing), there is currently no need
+  /// to 
diff erentiate these properties in LLVM.
+  /// \sa DataLayout::getIndexSize
+  /// \sa DataLayout::getAddressSizeInBits
+  unsigned getAddressSize(unsigned AS) const { return getIndexSize(AS); }
+
   /// Return the address spaces containing non-integral pointers.  Pointers in
   /// this address space don't have a well-defined bitwise representation.
   SmallVector<unsigned, 8> getNonIntegralAddressSpaces() const {
@@ -358,29 +381,53 @@ class DataLayout {
     return PTy && isNonIntegralPointerType(PTy);
   }
 
-  /// Layout pointer size, in bits
+  /// The size in bits of the pointer representation in a given address space.
+  /// This is not necessarily the same as the integer address of a pointer (e.g.
+  /// for fat pointers).
+  /// \sa DataLayout::getAddressSizeInBits()
   /// FIXME: The defaults need to be removed once all of
   /// the backends/clients are updated.
   unsigned getPointerSizeInBits(unsigned AS = 0) const {
     return getPointerSpec(AS).BitWidth;
   }
 
-  /// Size in bits of index used for address calculation in getelementptr.
+  /// The size in bits of indices used for address calculation in getelementptr
+  /// and for addresses in the given AS. See getIndexSize() for more
+  /// information.
+  /// \sa DataLayout::getAddressSizeInBits()
   unsigned getIndexSizeInBits(unsigned AS) const {
     return getPointerSpec(AS).IndexBitWidth;
   }
 
-  /// Layout pointer size, in bits, based on the type.  If this function is
+  /// The size in bits of an address in for the given AS. This is defined to
+  /// return the same value as getIndexSizeInBits() since there is currently no
+  /// target that requires these two properties to have 
diff erent values. See
+  /// getIndexSize() for more information.
+  /// \sa DataLayout::getIndexSizeInBits()
+  unsigned getAddressSizeInBits(unsigned AS) const {
+    return getIndexSizeInBits(AS);
+  }
+
+  /// The pointer representation size in bits for this type. If this function is
   /// called with a pointer type, then the type size of the pointer is returned.
   /// If this function is called with a vector of pointers, then the type size
   /// of the pointer is returned.  This should only be called with a pointer or
   /// vector of pointers.
   unsigned getPointerTypeSizeInBits(Type *) const;
 
-  /// Layout size of the index used in GEP calculation.
+  /// The size in bits of the index used in GEP calculation for this type.
   /// The function should be called with pointer or vector of pointers type.
+  /// This is defined to return the same value as getAddressSizeInBits(),
+  /// but separate functions exist for code clarity.
   unsigned getIndexTypeSizeInBits(Type *Ty) const;
 
+  /// The size in bits of an address for this type.
+  /// This is defined to return the same value as getIndexTypeSizeInBits(),
+  /// but separate functions exist for code clarity.
+  unsigned getAddressSizeInBits(Type *Ty) const {
+    return getIndexTypeSizeInBits(Ty);
+  }
+
   unsigned getPointerTypeSize(Type *Ty) const {
     return getPointerTypeSizeInBits(Ty) / 8;
   }
@@ -515,15 +562,21 @@ class DataLayout {
   /// are set.
   unsigned getLargestLegalIntTypeSizeInBits() const;
 
-  /// Returns the type of a GEP index in AddressSpace.
+  /// Returns the type of a GEP index in \p AddressSpace.
   /// If it was not specified explicitly, it will be the integer type of the
   /// pointer width - IntPtrType.
   IntegerType *getIndexType(LLVMContext &C, unsigned AddressSpace) const;
+  /// Returns the type of an address in \p AddressSpace
+  IntegerType *getAddressType(LLVMContext &C, unsigned AddressSpace) const {
+    return getIndexType(C, AddressSpace);
+  }
 
   /// Returns the type of a GEP index.
   /// If it was not specified explicitly, it will be the integer type of the
   /// pointer width - IntPtrType.
   Type *getIndexType(Type *PtrTy) const;
+  /// Returns the type of an address in \p AddressSpace
+  Type *getAddressType(Type *PtrTy) const { return getIndexType(PtrTy); }
 
   /// Returns the offset from the beginning of the type for the specified
   /// indices.