Next: Misc, Previous: C++ ABI, Up: Target Macros [Contents][Index]
The draft technical report of the ISO/IEC JTC1 S22 WG14 N1275
standards committee, Programming Languages - C - Extensions to
support embedded processors, specifies a syntax for embedded
processors to specify alternate address spaces. You can configure a
GCC port to support section 5.1 of the draft report to add support for
address spaces other than the default address space. These address
spaces are new keywords that are similar to the volatile
and
const
type attributes.
Pointers to named address spaces can have a different size than pointers to the generic address space.
For example, the SPU port uses the __ea
address space to refer
to memory in the host processor, rather than memory local to the SPU
processor. Access to memory in the __ea
address space involves
issuing DMA operations to move data between the host processor and the
local processor memory address space. Pointers in the __ea
address space are either 32 bits or 64 bits based on the
-mea32 or -mea64 switches (native SPU pointers are
always 32 bits).
Internally, address spaces are represented as a small integer in the range 0 to 15 with address space 0 being reserved for the generic address space.
To register a named address space qualifier keyword with the C front end,
the target may call the c_register_addr_space
routine. For example,
the SPU port uses the following to declare __ea
as the keyword for
named address space #1:
#define ADDR_SPACE_EA 1 c_register_addr_space ("__ea", ADDR_SPACE_EA);
Define this to return the machine mode to use for pointers to
address_space if the target supports named address spaces.
The default version of this hook returns ptr_mode
.
Define this to return the machine mode to use for addresses in
address_space if the target supports named address spaces.
The default version of this hook returns Pmode
.
Define this to return nonzero if the port can handle pointers
with machine mode mode to address space as. This target
hook is the same as the TARGET_VALID_POINTER_MODE
target hook,
except that it includes explicit named address space support. The default
version of this hook returns true for the modes returned by either the
TARGET_ADDR_SPACE_POINTER_MODE
or TARGET_ADDR_SPACE_ADDRESS_MODE
target hooks for the given address space.
Define this to return true if exp is a valid address for mode
mode in the named address space as. The strict
parameter says whether strict addressing is in effect after reload has
finished. This target hook is the same as the
TARGET_LEGITIMATE_ADDRESS_P
target hook, except that it includes
explicit named address space support.
Define this to modify an invalid address x to be a valid address
with mode mode in the named address space as. This target
hook is the same as the TARGET_LEGITIMIZE_ADDRESS
target hook,
except that it includes explicit named address space support.
Define this to return whether the subset named address space is contained within the superset named address space. Pointers to a named address space that is a subset of another named address space will be converted automatically without a cast if used together in arithmetic operations. Pointers to a superset address space can be converted to pointers to a subset address space via explicit casts.
Define this to modify the default handling of address 0 for the address space. Return true if 0 should be considered a valid address.
Define this to convert the pointer expression represented by the RTL
op with type from_type that points to a named address
space to a new pointer expression with type to_type that points
to a different named address space. When this hook it called, it is
guaranteed that one of the two address spaces is a subset of the other,
as determined by the TARGET_ADDR_SPACE_SUBSET_P
target hook.
Define this to define how the address space is encoded in dwarf.
The result is the value to be used with DW_AT_address_class
.
Next: Misc, Previous: C++ ABI, Up: Target Macros [Contents][Index]