${'true' if val.inexact else 'false'},
nir_op_${val.opcode},
{ ${', '.join(src.c_ptr for src in val.sources)} },
+ ${val.cond if val.cond else 'NULL'},
% endif
};""")
elif self.required_type == 'float':
return "nir_type_float"
-_opcode_re = re.compile(r"(?P<inexact>~)?(?P<opcode>\w+)(?:@(?P<bits>\d+))?")
+_opcode_re = re.compile(r"(?P<inexact>~)?(?P<opcode>\w+)(?:@(?P<bits>\d+))?"
+ r"(?P<cond>\([^\)]+\))?")
class Expression(Value):
def __init__(self, expr, name_base, varset):
self.opcode = m.group('opcode')
self.bit_size = int(m.group('bits')) if m.group('bits') else 0
self.inexact = m.group('inexact') is not None
+ self.cond = m.group('cond')
self.sources = [ Value.create(src, "{0}_{1}".format(name_base, i), varset)
for (i, src) in enumerate(expr[1:]) ]
unsigned num_components, const uint8_t *swizzle,
struct match_state *state)
{
+ if (expr->cond && !expr->cond(instr))
+ return false;
+
if (instr->op != expr->opcode)
return false;
nir_op opcode;
const nir_search_value *srcs[4];
+
+ /** Optional condition fxn ptr
+ *
+ * This allows additional constraints on expression matching, it is
+ * typically used to match an expressions uses such as the number of times
+ * the expression is used, and whether its used by an if.
+ */
+ bool (*cond)(nir_alu_instr *instr);
} nir_search_expression;
NIR_DEFINE_CAST(nir_search_value_as_variable, nir_search_value,
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