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authorEric Anholt <[email protected]>2013-10-24 14:55:50 -0700
committerEric Anholt <[email protected]>2013-10-28 14:07:31 -0700
commit27bcb5063f5713c3e60bcff153cbc59fbe01a1f3 (patch)
tree78efe5a811b5d643a434056198ba29d90deb7258 /src
parent29996e219912fb1fdf35a6595d8f6261384a18dc (diff)
glsl: Move common code out of opt_algebraic's handle_expression().
Matt and I had each screwed up these common required patterns recently, in ways that wouldn't have been noticed for a long time if not for code review. Just enforce it in the caller so that we don't rely on code review catching these bugs. Reviewed-by: Kenneth Graunke <[email protected]> Reviewed-by: Matt Turner <[email protected]>
Diffstat (limited to 'src')
-rw-r--r--src/glsl/opt_algebraic.cpp117
1 files changed, 39 insertions, 78 deletions
diff --git a/src/glsl/opt_algebraic.cpp b/src/glsl/opt_algebraic.cpp
index 1351904488b..8d02cad6480 100644
--- a/src/glsl/opt_algebraic.cpp
+++ b/src/glsl/opt_algebraic.cpp
@@ -197,7 +197,6 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
{
ir_constant *op_const[4] = {NULL, NULL, NULL, NULL};
ir_expression *op_expr[4] = {NULL, NULL, NULL, NULL};
- ir_expression *temp;
unsigned int i;
assert(ir->get_num_operands() <= 4);
@@ -220,12 +219,10 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
switch (op_expr[0]->operation) {
case ir_unop_abs:
case ir_unop_neg:
- this->progress = true;
- temp = new(mem_ctx) ir_expression(ir_unop_abs,
+ return new(mem_ctx) ir_expression(ir_unop_abs,
ir->type,
op_expr[0]->operands[0],
NULL);
- return swizzle_if_required(ir, temp);
default:
break;
}
@@ -236,8 +233,7 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
break;
if (op_expr[0]->operation == ir_unop_neg) {
- this->progress = true;
- return swizzle_if_required(ir, op_expr[0]->operands[0]);
+ return op_expr[0]->operands[0];
}
break;
@@ -264,7 +260,6 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
}
if (new_op != ir_unop_logic_not) {
- this->progress = true;
return new(mem_ctx) ir_expression(new_op,
ir->type,
op_expr[0]->operands[0],
@@ -275,14 +270,10 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
}
case ir_binop_add:
- if (is_vec_zero(op_const[0])) {
- this->progress = true;
- return swizzle_if_required(ir, ir->operands[1]);
- }
- if (is_vec_zero(op_const[1])) {
- this->progress = true;
- return swizzle_if_required(ir, ir->operands[0]);
- }
+ if (is_vec_zero(op_const[0]))
+ return ir->operands[1];
+ if (is_vec_zero(op_const[1]))
+ return ir->operands[0];
/* Reassociate addition of constants so that we can do constant
* folding.
@@ -295,48 +286,35 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
case ir_binop_sub:
if (is_vec_zero(op_const[0])) {
- this->progress = true;
- temp = new(mem_ctx) ir_expression(ir_unop_neg,
+ return new(mem_ctx) ir_expression(ir_unop_neg,
ir->operands[1]->type,
ir->operands[1],
NULL);
- return swizzle_if_required(ir, temp);
- }
- if (is_vec_zero(op_const[1])) {
- this->progress = true;
- return swizzle_if_required(ir, ir->operands[0]);
}
+ if (is_vec_zero(op_const[1]))
+ return ir->operands[0];
break;
case ir_binop_mul:
- if (is_vec_one(op_const[0])) {
- this->progress = true;
- return swizzle_if_required(ir, ir->operands[1]);
- }
- if (is_vec_one(op_const[1])) {
- this->progress = true;
- return swizzle_if_required(ir, ir->operands[0]);
- }
+ if (is_vec_one(op_const[0]))
+ return ir->operands[1];
+ if (is_vec_one(op_const[1]))
+ return ir->operands[0];
- if (is_vec_zero(op_const[0]) || is_vec_zero(op_const[1])) {
- this->progress = true;
+ if (is_vec_zero(op_const[0]) || is_vec_zero(op_const[1]))
return ir_constant::zero(ir, ir->type);
- }
+
if (is_vec_negative_one(op_const[0])) {
- this->progress = true;
- temp = new(mem_ctx) ir_expression(ir_unop_neg,
+ return new(mem_ctx) ir_expression(ir_unop_neg,
ir->operands[1]->type,
ir->operands[1],
NULL);
- return swizzle_if_required(ir, temp);
}
if (is_vec_negative_one(op_const[1])) {
- this->progress = true;
- temp = new(mem_ctx) ir_expression(ir_unop_neg,
+ return new(mem_ctx) ir_expression(ir_unop_neg,
ir->operands[0]->type,
ir->operands[0],
NULL);
- return swizzle_if_required(ir, temp);
}
@@ -352,26 +330,20 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
case ir_binop_div:
if (is_vec_one(op_const[0]) && ir->type->base_type == GLSL_TYPE_FLOAT) {
- this->progress = true;
- temp = new(mem_ctx) ir_expression(ir_unop_rcp,
+ return new(mem_ctx) ir_expression(ir_unop_rcp,
ir->operands[1]->type,
ir->operands[1],
NULL);
- return swizzle_if_required(ir, temp);
- }
- if (is_vec_one(op_const[1])) {
- this->progress = true;
- return swizzle_if_required(ir, ir->operands[0]);
}
+ if (is_vec_one(op_const[1]))
+ return ir->operands[0];
break;
case ir_binop_dot:
- if (is_vec_zero(op_const[0]) || is_vec_zero(op_const[1])) {
- this->progress = true;
+ if (is_vec_zero(op_const[0]) || is_vec_zero(op_const[1]))
return ir_constant::zero(mem_ctx, ir->type);
- }
+
if (is_vec_basis(op_const[0])) {
- this->progress = true;
unsigned component = 0;
for (unsigned c = 0; c < op_const[0]->type->vector_elements; c++) {
if (op_const[0]->value.f[c] == 1.0)
@@ -380,7 +352,6 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
return new(mem_ctx) ir_swizzle(ir->operands[1], component, 0, 0, 0, 1);
}
if (is_vec_basis(op_const[1])) {
- this->progress = true;
unsigned component = 0;
for (unsigned c = 0; c < op_const[1]->type->vector_elements; c++) {
if (op_const[1]->value.f[c] == 1.0)
@@ -393,40 +364,31 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
case ir_binop_logic_and:
/* FINISHME: Also simplify (a && a) to (a). */
if (is_vec_one(op_const[0])) {
- this->progress = true;
return ir->operands[1];
} else if (is_vec_one(op_const[1])) {
- this->progress = true;
return ir->operands[0];
} else if (is_vec_zero(op_const[0]) || is_vec_zero(op_const[1])) {
- this->progress = true;
return ir_constant::zero(mem_ctx, ir->type);
} else if (op_expr[0] && op_expr[0]->operation == ir_unop_logic_not &&
op_expr[1] && op_expr[1]->operation == ir_unop_logic_not) {
/* De Morgan's Law:
* (not A) and (not B) === not (A or B)
*/
- temp = logic_not(logic_or(op_expr[0]->operands[0],
+ return logic_not(logic_or(op_expr[0]->operands[0],
op_expr[1]->operands[0]));
- this->progress = true;
- return swizzle_if_required(ir, temp);
}
break;
case ir_binop_logic_xor:
/* FINISHME: Also simplify (a ^^ a) to (false). */
if (is_vec_zero(op_const[0])) {
- this->progress = true;
return ir->operands[1];
} else if (is_vec_zero(op_const[1])) {
- this->progress = true;
return ir->operands[0];
} else if (is_vec_one(op_const[0])) {
- this->progress = true;
return new(mem_ctx) ir_expression(ir_unop_logic_not, ir->type,
ir->operands[1], NULL);
} else if (is_vec_one(op_const[1])) {
- this->progress = true;
return new(mem_ctx) ir_expression(ir_unop_logic_not, ir->type,
ir->operands[0], NULL);
}
@@ -435,10 +397,8 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
case ir_binop_logic_or:
/* FINISHME: Also simplify (a || a) to (a). */
if (is_vec_zero(op_const[0])) {
- this->progress = true;
return ir->operands[1];
} else if (is_vec_zero(op_const[1])) {
- this->progress = true;
return ir->operands[0];
} else if (is_vec_one(op_const[0]) || is_vec_one(op_const[1])) {
ir_constant_data data;
@@ -446,25 +406,20 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
for (unsigned i = 0; i < 16; i++)
data.b[i] = true;
- this->progress = true;
return new(mem_ctx) ir_constant(ir->type, &data);
} else if (op_expr[0] && op_expr[0]->operation == ir_unop_logic_not &&
op_expr[1] && op_expr[1]->operation == ir_unop_logic_not) {
/* De Morgan's Law:
* (not A) or (not B) === not (A and B)
*/
- temp = logic_not(logic_and(op_expr[0]->operands[0],
+ return logic_not(logic_and(op_expr[0]->operands[0],
op_expr[1]->operands[0]));
- this->progress = true;
- return swizzle_if_required(ir, temp);
}
break;
case ir_unop_rcp:
- if (op_expr[0] && op_expr[0]->operation == ir_unop_rcp) {
- this->progress = true;
+ if (op_expr[0] && op_expr[0]->operation == ir_unop_rcp)
return op_expr[0]->operands[0];
- }
/* FINISHME: We should do rcp(rsq(x)) -> sqrt(x) for some
* backends, except that some backends will have done sqrt ->
@@ -473,12 +428,10 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
/* As far as we know, all backends are OK with rsq. */
if (op_expr[0] && op_expr[0]->operation == ir_unop_sqrt) {
- this->progress = true;
- temp = new(mem_ctx) ir_expression(ir_unop_rsq,
+ return new(mem_ctx) ir_expression(ir_unop_rsq,
op_expr[0]->operands[0]->type,
op_expr[0]->operands[0],
NULL);
- return swizzle_if_required(ir, temp);
}
break;
@@ -486,11 +439,9 @@ ir_algebraic_visitor::handle_expression(ir_expression *ir)
case ir_triop_lrp:
/* Operands are (x, y, a). */
if (is_vec_zero(op_const[2])) {
- this->progress = true;
- return swizzle_if_required(ir, ir->operands[0]);
+ return ir->operands[0];
} else if (is_vec_one(op_const[2])) {
- this->progress = true;
- return swizzle_if_required(ir, ir->operands[1]);
+ return ir->operands[1];
}
break;
@@ -511,7 +462,17 @@ ir_algebraic_visitor::handle_rvalue(ir_rvalue **rvalue)
if (!expr || expr->operation == ir_quadop_vector)
return;
- *rvalue = handle_expression(expr);
+ ir_rvalue *new_rvalue = handle_expression(expr);
+ if (new_rvalue == *rvalue)
+ return;
+
+ /* If the expr used to be some vec OP scalar returning a vector, and the
+ * optimization gave us back a scalar, we still need to turn it into a
+ * vector.
+ */
+ *rvalue = swizzle_if_required(expr, new_rvalue);
+
+ this->progress = true;
}
bool