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10.7 Constant Expression Types

The simplest RTL expressions are those that represent constant values.

(const_int i)
This type of expression represents the integer value i. i is customarily accessed with the macro INTVAL as in INTVAL (exp), which is equivalent to XWINT (exp, 0).

Constants generated for modes with fewer bits than HOST_WIDE_INT must be sign extended to full width (e.g., with gen_int_mode).

There is only one expression object for the integer value zero; it is the value of the variable const0_rtx. Likewise, the only expression for integer value one is found in const1_rtx, the only expression for integer value two is found in const2_rtx, and the only expression for integer value negative one is found in constm1_rtx. Any attempt to create an expression of code const_int and value zero, one, two or negative one will return const0_rtx, const1_rtx, const2_rtx or constm1_rtx as appropriate.

Similarly, there is only one object for the integer whose value is STORE_FLAG_VALUE. It is found in const_true_rtx. If STORE_FLAG_VALUE is one, const_true_rtx and const1_rtx will point to the same object. If STORE_FLAG_VALUE is −1, const_true_rtx and constm1_rtx will point to the same object.

(const_double:m i0 i1 ...)
Represents either a floating-point constant of mode m or an integer constant too large to fit into HOST_BITS_PER_WIDE_INT bits but small enough to fit within twice that number of bits (GCC does not provide a mechanism to represent even larger constants). In the latter case, m will be VOIDmode.

If m is VOIDmode, the bits of the value are stored in i0 and i1. i0 is customarily accessed with the macro CONST_DOUBLE_LOW and i1 with CONST_DOUBLE_HIGH.

If the constant is floating point (regardless of its precision), then the number of integers used to store the value depends on the size of REAL_VALUE_TYPE (see Floating Point). The integers represent a floating point number, but not precisely in the target machine's or host machine's floating point format. To convert them to the precise bit pattern used by the target machine, use the macro REAL_VALUE_TO_TARGET_DOUBLE and friends (see Data Output).

(const_fixed:m ...)
Represents a fixed-point constant of mode m. The operand is a data structure of type struct fixed_value and is accessed with the macro CONST_FIXED_VALUE. The high part of data is accessed with CONST_FIXED_VALUE_HIGH; the low part is accessed with CONST_FIXED_VALUE_LOW.

(const_vector:m [x0 x1 ...])
Represents a vector constant. The square brackets stand for the vector containing the constant elements. x0, x1 and so on are the const_int, const_double or const_fixed elements.

The number of units in a const_vector is obtained with the macro CONST_VECTOR_NUNITS as in CONST_VECTOR_NUNITS (v).

Individual elements in a vector constant are accessed with the macro CONST_VECTOR_ELT as in CONST_VECTOR_ELT (v, n) where v is the vector constant and n is the element desired.

(const_string str)
Represents a constant string with value str. Currently this is used only for insn attributes (see Insn Attributes) since constant strings in C are placed in memory.

(symbol_ref:mode symbol)
Represents the value of an assembler label for data. symbol is a string that describes the name of the assembler label. If it starts with a `*', the label is the rest of symbol not including the `*'. Otherwise, the label is symbol, usually prefixed with `_'.

The symbol_ref contains a mode, which is usually Pmode. Usually that is the only mode for which a symbol is directly valid.

(label_ref:mode label)
Represents the value of an assembler label for code. It contains one operand, an expression, which must be a code_label or a note of type NOTE_INSN_DELETED_LABEL that appears in the instruction sequence to identify the place where the label should go.

The reason for using a distinct expression type for code label references is so that jump optimization can distinguish them.

The label_ref contains a mode, which is usually Pmode. Usually that is the only mode for which a label is directly valid.

(const:m exp)
Represents a constant that is the result of an assembly-time arithmetic computation. The operand, exp, is an expression that contains only constants (const_int, symbol_ref and label_ref expressions) combined with plus and minus. However, not all combinations are valid, since the assembler cannot do arbitrary arithmetic on relocatable symbols.

m should be Pmode.

(high:m exp)
Represents the high-order bits of exp, usually a symbol_ref. The number of bits is machine-dependent and is normally the number of bits specified in an instruction that initializes the high order bits of a register. It is used with lo_sum to represent the typical two-instruction sequence used in RISC machines to reference a global memory location.

m should be Pmode.

The macro CONST0_RTX (mode) refers to an expression with value 0 in mode mode. If mode mode is of mode class MODE_INT, it returns const0_rtx. If mode mode is of mode class MODE_FLOAT, it returns a CONST_DOUBLE expression in mode mode. Otherwise, it returns a CONST_VECTOR expression in mode mode. Similarly, the macro CONST1_RTX (mode) refers to an expression with value 1 in mode mode and similarly for CONST2_RTX. The CONST1_RTX and CONST2_RTX macros are undefined for vector modes.