diff options
Diffstat (limited to 'mesalib/src/glsl/opt_algebraic.cpp')
| -rw-r--r-- | mesalib/src/glsl/opt_algebraic.cpp | 98 |
1 files changed, 98 insertions, 0 deletions
diff --git a/mesalib/src/glsl/opt_algebraic.cpp b/mesalib/src/glsl/opt_algebraic.cpp index ac7514acf..447618f9e 100644 --- a/mesalib/src/glsl/opt_algebraic.cpp +++ b/mesalib/src/glsl/opt_algebraic.cpp @@ -110,6 +110,48 @@ is_vec_basis(ir_constant *ir) return (ir == NULL) ? false : ir->is_basis(); } +static inline bool +is_valid_vec_const(ir_constant *ir) +{ + if (ir == NULL) + return false; + + if (!ir->type->is_scalar() && !ir->type->is_vector()) + return false; + + return true; +} + +static inline bool +is_less_than_one(ir_constant *ir) +{ + if (!is_valid_vec_const(ir)) + return false; + + unsigned component = 0; + for (int c = 0; c < ir->type->vector_elements; c++) { + if (ir->get_float_component(c) < 1.0f) + component++; + } + + return (component == ir->type->vector_elements); +} + +static inline bool +is_greater_than_zero(ir_constant *ir) +{ + if (!is_valid_vec_const(ir)) + return false; + + unsigned component = 0; + for (int c = 0; c < ir->type->vector_elements; c++) { + if (ir->get_float_component(c) > 0.0f) + component++; + } + + return (component == ir->type->vector_elements); +} + static void update_type(ir_expression *ir) { @@ -614,6 +656,62 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir) break; + case ir_binop_min: + case ir_binop_max: + if (ir->type->base_type != GLSL_TYPE_FLOAT) + break; + + /* Replace min(max) operations and its commutative combinations with + * a saturate operation + */ + for (int op = 0; op < 2; op++) { + ir_expression *minmax = op_expr[op]; + ir_constant *outer_const = op_const[1 - op]; + ir_expression_operation op_cond = (ir->operation == ir_binop_max) ? + ir_binop_min : ir_binop_max; + + if (!minmax || !outer_const || (minmax->operation != op_cond)) + continue; + + /* Found a min(max) combination. Now try to see if its operands + * meet our conditions that we can do just a single saturate operation + */ + for (int minmax_op = 0; minmax_op < 2; minmax_op++) { + ir_rvalue *inner_val_a = minmax->operands[minmax_op]; + ir_rvalue *inner_val_b = minmax->operands[1 - minmax_op]; + + if (!inner_val_a || !inner_val_b) + continue; + + /* Found a {min|max} ({max|min} (x, 0.0), 1.0) operation and its variations */ + if ((outer_const->is_one() && inner_val_a->is_zero()) || + (inner_val_a->is_one() && outer_const->is_zero())) + return saturate(inner_val_b); + + /* Found a {min|max} ({max|min} (x, 0.0), b) where b < 1.0 + * and its variations + */ + if (is_less_than_one(outer_const) && inner_val_b->is_zero()) + return expr(ir_binop_min, saturate(inner_val_a), outer_const); + + if (!inner_val_b->as_constant()) + continue; + + if (is_less_than_one(inner_val_b->as_constant()) && outer_const->is_zero()) + return expr(ir_binop_min, saturate(inner_val_a), inner_val_b); + + /* Found a {min|max} ({max|min} (x, b), 1.0), where b > 0.0 + * and its variations + */ + if (outer_const->is_one() && is_greater_than_zero(inner_val_b->as_constant())) + return expr(ir_binop_max, saturate(inner_val_a), inner_val_b); + if (inner_val_b->as_constant()->is_one() && is_greater_than_zero(outer_const)) + return expr(ir_binop_max, saturate(inner_val_a), outer_const); + } + } + + break; + case ir_unop_rcp: if (op_expr[0] && op_expr[0]->operation == ir_unop_rcp) return op_expr[0]->operands[0]; |