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authorIan Romanick <[email protected]>2011-08-03 15:42:05 -0700
committerIan Romanick <[email protected]>2011-08-16 14:09:43 -0700
commitba01df11c4d09c65514a8522cb319e29034ab5a8 (patch)
tree830204cec99c9eff16dd6dde7c0571accc10437f /src/mesa
parente7bf096e8b04931996c8c56548ce0b2c0af3a0dc (diff)
ir_to_mesa: Implement ir_binop_all_equal using DP4 w/SGE
The operation ir_binop_all_equal is !(a.x != b.x || a.y != b.y || a.z != b.z || a.w != b.w). Logical-or is implemented using addition (followed by clampling to [0,1]) on values of 0.0 and 1.0. Replacing the logical-or operators with addition gives !bool((int(a.x != b.x) + int(a.y == b.y) + int(a.z == b.z) + int(a.w == b.w)). This can be implemented using a dot-product with a vector of all 1.0. After the dot-product, the value will be an integer on the range [0,4]. Previously a SEQ instruction was used to clamp the resulting logic value to [0,1] and invert the result. Using an SGE instruction on the negation of the dot-product result has the same effect. Many older shader architectures do not support the SEQ instruction. It must be emulated using two SGE instructions and a MUL. On these architectures, the single SGE saves two instructions. Reviewed-by: Eric Anholt <[email protected]>
Diffstat (limited to 'src/mesa')
-rw-r--r--src/mesa/program/ir_to_mesa.cpp13
1 files changed, 12 insertions, 1 deletions
diff --git a/src/mesa/program/ir_to_mesa.cpp b/src/mesa/program/ir_to_mesa.cpp
index 1c674ea8756..4c8b097de6b 100644
--- a/src/mesa/program/ir_to_mesa.cpp
+++ b/src/mesa/program/ir_to_mesa.cpp
@@ -1237,8 +1237,19 @@ ir_to_mesa_visitor::visit(ir_expression *ir)
ir->operands[1]->type->is_vector()) {
src_reg temp = get_temp(glsl_type::vec4_type);
emit(ir, OPCODE_SNE, dst_reg(temp), op[0], op[1]);
+
+ /* After the dot-product, the value will be an integer on the
+ * range [0,4]. Zero becomes 1.0, and positive values become zero.
+ */
emit_dp(ir, result_dst, temp, temp, vector_elements);
- emit(ir, OPCODE_SEQ, result_dst, result_src, src_reg_for_float(0.0));
+
+ /* Negating the result of the dot-product gives values on the range
+ * [-4, 0]. Zero becomes 1.0, and negative values become zero. This
+ * achieved using SGE.
+ */
+ src_reg sge_src = result_src;
+ sge_src.negate = ~sge_src.negate;
+ emit(ir, OPCODE_SGE, result_dst, sge_src, src_reg_for_float(0.0));
} else {
emit(ir, OPCODE_SEQ, result_dst, op[0], op[1]);
}