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authorIan Romanick <[email protected]>2019-08-01 11:51:36 -0700
committerIan Romanick <[email protected]>2019-08-05 20:14:13 -0700
commitfa116ce357b4be9373bfef4f45d42bd303fd270b (patch)
treea195528adb6e6ea8006ff59ccb920c3f3241d304
parent586602c5d90a57717df9cf94ada3d66432ee4893 (diff)
nir/range-analysis: Range tracking for ffma and flrp
A similar technique could be used for fmin3, fmax3, and fmid3. This could be squashed with the previous commit. I kept it separate to ease review. Reviewed-by: Caio Marcelo de Oliveira Filho <[email protected]>
-rw-r--r--src/compiler/nir/nir_range_analysis.c252
1 files changed, 138 insertions, 114 deletions
diff --git a/src/compiler/nir/nir_range_analysis.c b/src/compiler/nir/nir_range_analysis.c
index 9555be3fa13..7b908105b98 100644
--- a/src/compiler/nir/nir_range_analysis.c
+++ b/src/compiler/nir/nir_range_analysis.c
@@ -232,6 +232,99 @@ analyze_expression(const nir_alu_instr *instr, unsigned src,
struct ssa_result_range r = {unknown, false};
+ /* ge_zero: ge_zero + ge_zero
+ *
+ * gt_zero: gt_zero + eq_zero
+ * | gt_zero + ge_zero
+ * | eq_zero + gt_zero # Addition is commutative
+ * | ge_zero + gt_zero # Addition is commutative
+ * | gt_zero + gt_zero
+ * ;
+ *
+ * le_zero: le_zero + le_zero
+ *
+ * lt_zero: lt_zero + eq_zero
+ * | lt_zero + le_zero
+ * | eq_zero + lt_zero # Addition is commutative
+ * | le_zero + lt_zero # Addition is commutative
+ * | lt_zero + lt_zero
+ * ;
+ *
+ * eq_zero: eq_zero + eq_zero
+ *
+ * All other cases are 'unknown'.
+ */
+ static const enum ssa_ranges fadd_table[last_range + 1][last_range + 1] = {
+ /* left\right unknown lt_zero le_zero gt_zero ge_zero ne_zero eq_zero */
+ /* unknown */ { _______, _______, _______, _______, _______, _______, _______ },
+ /* lt_zero */ { _______, lt_zero, lt_zero, _______, _______, _______, lt_zero },
+ /* le_zero */ { _______, lt_zero, le_zero, _______, _______, _______, le_zero },
+ /* gt_zero */ { _______, _______, _______, gt_zero, gt_zero, _______, gt_zero },
+ /* ge_zero */ { _______, _______, _______, gt_zero, ge_zero, _______, ge_zero },
+ /* ne_zero */ { _______, _______, _______, _______, _______, ne_zero, ne_zero },
+ /* eq_zero */ { _______, lt_zero, le_zero, gt_zero, ge_zero, ne_zero, eq_zero },
+ };
+
+ ASSERT_TABLE_IS_COMMUTATIVE(fadd_table);
+ ASSERT_TABLE_IS_DIAGONAL(fadd_table);
+
+ /* ge_zero: ge_zero * ge_zero
+ * | ge_zero * gt_zero
+ * | ge_zero * eq_zero
+ * | le_zero * lt_zero
+ * | lt_zero * le_zero # Multiplication is commutative
+ * | le_zero * le_zero
+ * | gt_zero * ge_zero # Multiplication is commutative
+ * | eq_zero * ge_zero # Multiplication is commutative
+ * | a * a # Left source == right source
+ * ;
+ *
+ * gt_zero: gt_zero * gt_zero
+ * | lt_zero * lt_zero
+ * ;
+ *
+ * le_zero: ge_zero * le_zero
+ * | ge_zero * lt_zero
+ * | lt_zero * ge_zero # Multiplication is commutative
+ * | le_zero * ge_zero # Multiplication is commutative
+ * | le_zero * gt_zero
+ * ;
+ *
+ * lt_zero: lt_zero * gt_zero
+ * | gt_zero * lt_zero # Multiplication is commutative
+ * ;
+ *
+ * ne_zero: ne_zero * gt_zero
+ * | ne_zero * lt_zero
+ * | gt_zero * ne_zero # Multiplication is commutative
+ * | lt_zero * ne_zero # Multiplication is commutative
+ * | ne_zero * ne_zero
+ * ;
+ *
+ * eq_zero: eq_zero * <any>
+ * <any> * eq_zero # Multiplication is commutative
+ *
+ * All other cases are 'unknown'.
+ */
+ static const enum ssa_ranges fmul_table[last_range + 1][last_range + 1] = {
+ /* left\right unknown lt_zero le_zero gt_zero ge_zero ne_zero eq_zero */
+ /* unknown */ { _______, _______, _______, _______, _______, _______, eq_zero },
+ /* lt_zero */ { _______, gt_zero, ge_zero, lt_zero, le_zero, ne_zero, eq_zero },
+ /* le_zero */ { _______, ge_zero, ge_zero, le_zero, le_zero, _______, eq_zero },
+ /* gt_zero */ { _______, lt_zero, le_zero, gt_zero, ge_zero, ne_zero, eq_zero },
+ /* ge_zero */ { _______, le_zero, le_zero, ge_zero, ge_zero, _______, eq_zero },
+ /* ne_zero */ { _______, ne_zero, _______, ne_zero, _______, ne_zero, eq_zero },
+ /* eq_zero */ { eq_zero, eq_zero, eq_zero, eq_zero, eq_zero, eq_zero, eq_zero }
+ };
+
+ ASSERT_TABLE_IS_COMMUTATIVE(fmul_table);
+
+ static const enum ssa_ranges fneg_table[last_range + 1] = {
+ /* unknown lt_zero le_zero gt_zero ge_zero ne_zero eq_zero */
+ _______, gt_zero, ge_zero, lt_zero, le_zero, ne_zero, eq_zero
+ };
+
+
switch (alu->op) {
case nir_op_b2f32:
case nir_op_b2i32:
@@ -353,44 +446,7 @@ analyze_expression(const nir_alu_instr *instr, unsigned src,
const struct ssa_result_range right = analyze_expression(alu, 1, ht);
r.is_integral = left.is_integral && right.is_integral;
-
- /* ge_zero: ge_zero + ge_zero
- *
- * gt_zero: gt_zero + eq_zero
- * | gt_zero + ge_zero
- * | eq_zero + gt_zero # Addition is commutative
- * | ge_zero + gt_zero # Addition is commutative
- * | gt_zero + gt_zero
- * ;
- *
- * le_zero: le_zero + le_zero
- *
- * lt_zero: lt_zero + eq_zero
- * | lt_zero + le_zero
- * | eq_zero + lt_zero # Addition is commutative
- * | le_zero + lt_zero # Addition is commutative
- * | lt_zero + lt_zero
- * ;
- *
- * eq_zero: eq_zero + eq_zero
- *
- * All other cases are 'unknown'.
- */
- static const enum ssa_ranges table[last_range + 1][last_range + 1] = {
- /* left\right unknown lt_zero le_zero gt_zero ge_zero ne_zero eq_zero */
- /* unknown */ { _______, _______, _______, _______, _______, _______, _______ },
- /* lt_zero */ { _______, lt_zero, lt_zero, _______, _______, _______, lt_zero },
- /* le_zero */ { _______, lt_zero, le_zero, _______, _______, _______, le_zero },
- /* gt_zero */ { _______, _______, _______, gt_zero, gt_zero, _______, gt_zero },
- /* ge_zero */ { _______, _______, _______, gt_zero, ge_zero, _______, ge_zero },
- /* ne_zero */ { _______, _______, _______, _______, _______, ne_zero, ne_zero },
- /* eq_zero */ { _______, lt_zero, le_zero, gt_zero, ge_zero, ne_zero, eq_zero },
- };
-
- ASSERT_TABLE_IS_COMMUTATIVE(table);
- ASSERT_TABLE_IS_DIAGONAL(table);
-
- r.range = table[left.range][right.range];
+ r.range = fadd_table[left.range][right.range];
break;
}
@@ -528,57 +584,6 @@ analyze_expression(const nir_alu_instr *instr, unsigned src,
r.is_integral = left.is_integral && right.is_integral;
- /* ge_zero: ge_zero * ge_zero
- * | ge_zero * gt_zero
- * | ge_zero * eq_zero
- * | le_zero * lt_zero
- * | lt_zero * le_zero # Multiplication is commutative
- * | le_zero * le_zero
- * | gt_zero * ge_zero # Multiplication is commutative
- * | eq_zero * ge_zero # Multiplication is commutative
- * | a * a # Left source == right source
- * ;
- *
- * gt_zero: gt_zero * gt_zero
- * | lt_zero * lt_zero
- * ;
- *
- * le_zero: ge_zero * le_zero
- * | ge_zero * lt_zero
- * | lt_zero * ge_zero # Multiplication is commutative
- * | le_zero * ge_zero # Multiplication is commutative
- * | le_zero * gt_zero
- * ;
- *
- * lt_zero: lt_zero * gt_zero
- * | gt_zero * lt_zero # Multiplication is commutative
- * ;
- *
- * ne_zero: ne_zero * gt_zero
- * | ne_zero * lt_zero
- * | gt_zero * ne_zero # Multiplication is commutative
- * | lt_zero * ne_zero # Multiplication is commutative
- * | ne_zero * ne_zero
- * ;
- *
- * eq_zero: eq_zero * <any>
- * <any> * eq_zero # Multiplication is commutative
- *
- * All other cases are 'unknown'.
- */
- static const enum ssa_ranges table[last_range + 1][last_range + 1] = {
- /* left\right unknown lt_zero le_zero gt_zero ge_zero ne_zero eq_zero */
- /* unknown */ { _______, _______, _______, _______, _______, _______, eq_zero },
- /* lt_zero */ { _______, gt_zero, ge_zero, lt_zero, le_zero, ne_zero, eq_zero },
- /* le_zero */ { _______, ge_zero, ge_zero, le_zero, le_zero, _______, eq_zero },
- /* gt_zero */ { _______, lt_zero, le_zero, gt_zero, ge_zero, ne_zero, eq_zero },
- /* ge_zero */ { _______, le_zero, le_zero, ge_zero, ge_zero, _______, eq_zero },
- /* ne_zero */ { _______, ne_zero, _______, ne_zero, _______, ne_zero, eq_zero },
- /* eq_zero */ { eq_zero, eq_zero, eq_zero, eq_zero, eq_zero, eq_zero, eq_zero }
- };
-
- ASSERT_TABLE_IS_COMMUTATIVE(table);
-
/* x * x => ge_zero */
if (left.range != eq_zero && nir_alu_srcs_equal(alu, alu, 0, 1)) {
/* x * x => ge_zero or gt_zero depending on the range of x. */
@@ -587,7 +592,7 @@ analyze_expression(const nir_alu_instr *instr, unsigned src,
/* -x * x => le_zero or lt_zero depending on the range of x. */
r.range = is_not_zero(left.range) ? lt_zero : le_zero;
} else
- r.range = table[left.range][right.range];
+ r.range = fmul_table[left.range][right.range];
break;
}
@@ -603,30 +608,7 @@ analyze_expression(const nir_alu_instr *instr, unsigned src,
case nir_op_fneg:
r = analyze_expression(alu, 0, ht);
- switch (r.range) {
- case le_zero:
- r.range = ge_zero;
- break;
-
- case ge_zero:
- r.range = le_zero;
- break;
-
- case lt_zero:
- r.range = gt_zero;
- break;
-
- case gt_zero:
- r.range = lt_zero;
- break;
-
- case ne_zero:
- case eq_zero:
- case unknown:
- /* Negation doesn't change anything about these ranges. */
- break;
- }
-
+ r.range = fneg_table[r.range];
break;
case nir_op_fsat:
@@ -724,6 +706,48 @@ analyze_expression(const nir_alu_instr *instr, unsigned src,
r = (struct ssa_result_range){le_zero, false};
break;
+ case nir_op_ffma: {
+ const struct ssa_result_range first = analyze_expression(alu, 0, ht);
+ const struct ssa_result_range second = analyze_expression(alu, 1, ht);
+ const struct ssa_result_range third = analyze_expression(alu, 2, ht);
+
+ r.is_integral = first.is_integral && second.is_integral &&
+ third.is_integral;
+
+ enum ssa_ranges fmul_range;
+
+ if (first.range != eq_zero && nir_alu_srcs_equal(alu, alu, 0, 1)) {
+ /* x * x => ge_zero or gt_zero depending on the range of x. */
+ fmul_range = is_not_zero(first.range) ? gt_zero : ge_zero;
+ } else if (first.range != eq_zero && nir_alu_srcs_negative_equal(alu, alu, 0, 1)) {
+ /* -x * x => le_zero or lt_zero depending on the range of x. */
+ fmul_range = is_not_zero(first.range) ? lt_zero : le_zero;
+ } else
+ fmul_range = fmul_table[first.range][second.range];
+
+ r.range = fadd_table[fmul_range][third.range];
+ break;
+ }
+
+ case nir_op_flrp: {
+ const struct ssa_result_range first = analyze_expression(alu, 0, ht);
+ const struct ssa_result_range second = analyze_expression(alu, 1, ht);
+ const struct ssa_result_range third = analyze_expression(alu, 2, ht);
+
+ r.is_integral = first.is_integral && second.is_integral &&
+ third.is_integral;
+
+ /* Decompose the flrp to first + third * (second + -first) */
+ const enum ssa_ranges inner_fadd_range =
+ fadd_table[second.range][fneg_table[first.range]];
+
+ const enum ssa_ranges fmul_range =
+ fmul_table[third.range][inner_fadd_range];
+
+ r.range = fadd_table[first.range][fmul_range];
+ break;
+ }
+
default:
r = (struct ssa_result_range){unknown, false};
break;