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Comparison operators test a relation on two operands and are considered
to represent a machine-dependent nonzero value described by, but not
necessarily equal to, `STORE_FLAG_VALUE`

(see section 21.21 Miscellaneous Parameters)
if the relation holds, or zero if it does not. The mode of the
comparison operation is independent of the mode of the data being
compared. If the comparison operation is being tested (e.g., the first
operand of an `if_then_else`

), the mode must be `VOIDmode`

.
If the comparison operation is producing data to be stored in some
variable, the mode must be in class `MODE_INT`

. All comparison
operations producing data must use the same mode, which is
machine-specific.

There are two ways that comparison operations may be used. The
comparison operators may be used to compare the condition codes
`(cc0)`

against zero, as in `(eq (cc0) (const_int 0))`

. Such
a construct actually refers to the result of the preceding instruction
in which the condition codes were set. The instruction setting the
condition code must be adjacent to the instruction using the condition
code; only `note`

insns may separate them.

Alternatively, a comparison operation may directly compare two data objects. The mode of the comparison is determined by the operands; they must both be valid for a common machine mode. A comparison with both operands constant would be invalid as the machine mode could not be deduced from it, but such a comparison should never exist in RTL due to constant folding.

In the example above, if `(cc0)`

were last set to
`(compare `

, the comparison operation is
identical to `x` `y`)`(eq `

. Usually only one style
of comparisons is supported on a particular machine, but the combine
pass will try to merge the operations to produce the `x` `y`)`eq`

shown
in case it exists in the context of the particular insn involved.

Inequality comparisons come in two flavors, signed and unsigned. Thus,
there are distinct expression codes `gt`

and `gtu`

for signed and
unsigned greater-than. These can produce different results for the same
pair of integer values: for example, 1 is signed greater-than -1 but not
unsigned greater-than, because -1 when regarded as unsigned is actually
`0xffffffff`

which is greater than 1.

The signed comparisons are also used for floating point values. Floating point comparisons are distinguished by the machine modes of the operands.

`(eq:`

`m``x``y`)`STORE_FLAG_VALUE`

if the values represented by`x`and`y`are equal, otherwise 0.`(ne:`

`m``x``y`)`STORE_FLAG_VALUE`

if the values represented by`x`and`y`are not equal, otherwise 0.`(gt:`

`m``x``y`)`STORE_FLAG_VALUE`

if the`x`is greater than`y`. If they are fixed-point, the comparison is done in a signed sense.`(gtu:`

`m``x``y`)- Like
`gt`

but does unsigned comparison, on fixed-point numbers only. `(lt:`

`m``x``y`)`(ltu:`

`m``x``y`)- Like
`gt`

and`gtu`

but test for "less than". `(ge:`

`m``x``y`)`(geu:`

`m``x``y`)- Like
`gt`

and`gtu`

but test for "greater than or equal". `(le:`

`m``x``y`)`(leu:`

`m``x``y`)- Like
`gt`

and`gtu`

but test for "less than or equal". `(if_then_else`

`cond``then``else`)- This is not a comparison operation but is listed here because it is
always used in conjunction with a comparison operation. To be
precise,
`cond`is a comparison expression. This expression represents a choice, according to`cond`, between the value represented by`then`and the one represented by`else`.On most machines,

`if_then_else`

expressions are valid only to express conditional jumps. `(cond [`

`test1``value1``test2``value2`...]`default`)- Similar to
`if_then_else`

, but more general. Each of`test1`,`test2`, ... is performed in turn. The result of this expression is the`value`corresponding to the first non-zero test, or`default`if none of the tests are non-zero expressions.This is currently not valid for instruction patterns and is supported only for insn attributes. See section 20.17 Instruction Attributes.

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