From: Ian Romanick Date: Mon, 12 Aug 2019 22:40:20 +0000 (-0700) Subject: nir/range-analysis: Add a lot more assertions about the contents of tables X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=9ad4a2eac5471404ae59fabefb7b8e1bb38d8d0f;p=mesa.git nir/range-analysis: Add a lot more assertions about the contents of tables v2: Update several of the comments. Drop some redundant uses of ASSERT_UNION_OF_OTHERS_MATCHES_UNKNOWN_*_SOURCE source. Suggested by Caio. Reviewed-by: Caio Marcelo de Oliveira Filho Suggested-by: Caio Marcelo de Oliveira Filho --- diff --git a/src/compiler/nir/nir_range_analysis.c b/src/compiler/nir/nir_range_analysis.c index 7fbf4217239..a313087e056 100644 --- a/src/compiler/nir/nir_range_analysis.c +++ b/src/compiler/nir/nir_range_analysis.c @@ -179,6 +179,12 @@ analyze_constant(const struct nir_alu_instr *instr, unsigned src) } } +/** + * Short-hand name for use in the tables in analyze_expression. If this name + * becomes a problem on some compiler, we can change it to _. + */ +#define _______ unknown + #ifndef NDEBUG #define ASSERT_TABLE_IS_COMMUTATIVE(t) \ do { \ @@ -193,17 +199,117 @@ analyze_constant(const struct nir_alu_instr *instr, unsigned src) for (unsigned r = 0; r < ARRAY_SIZE(t); r++) \ assert(t[r][r] == r); \ } while (false) + +static enum ssa_ranges +union_ranges(enum ssa_ranges a, enum ssa_ranges b) +{ + static const enum ssa_ranges union_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, le_zero, ne_zero, _______, ne_zero, le_zero }, + /* le_zero */ { _______, le_zero, le_zero, _______, _______, _______, le_zero }, + /* gt_zero */ { _______, ne_zero, _______, gt_zero, ge_zero, ne_zero, ge_zero }, + /* ge_zero */ { _______, _______, _______, ge_zero, ge_zero, _______, ge_zero }, + /* ne_zero */ { _______, ne_zero, _______, ne_zero, _______, ne_zero, _______ }, + /* eq_zero */ { _______, le_zero, le_zero, ge_zero, ge_zero, _______, eq_zero }, + }; + + ASSERT_TABLE_IS_COMMUTATIVE(union_table); + ASSERT_TABLE_IS_DIAGONAL(union_table); + + return union_table[a][b]; +} + +/* Verify that the 'unknown' entry in each row (or column) of the table is the + * union of all the other values in the row (or column). + */ +#define ASSERT_UNION_OF_OTHERS_MATCHES_UNKNOWN_2_SOURCE(t) \ + do { \ + for (unsigned i = 0; i < last_range; i++) { \ + enum ssa_ranges col_range = t[i][unknown + 1]; \ + enum ssa_ranges row_range = t[unknown + 1][i]; \ + \ + for (unsigned j = unknown + 2; j < last_range; j++) { \ + col_range = union_ranges(col_range, t[i][j]); \ + row_range = union_ranges(row_range, t[j][i]); \ + } \ + \ + assert(col_range == t[i][unknown]); \ + assert(row_range == t[unknown][i]); \ + } \ + } while (false) + +/* For most operations, the union of ranges for a strict inequality and + * equality should be the range of the non-strict inequality (e.g., + * union_ranges(range(op(lt_zero), range(op(eq_zero))) == range(op(le_zero)). + * + * Does not apply to selection-like opcodes (bcsel, fmin, fmax, etc.). + */ +#define ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_1_SOURCE(t) \ + do { \ + assert(union_ranges(t[lt_zero], t[eq_zero]) == t[le_zero]); \ + assert(union_ranges(t[gt_zero], t[eq_zero]) == t[ge_zero]); \ + } while (false) + +#define ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_2_SOURCE(t) \ + do { \ + for (unsigned i = 0; i < last_range; i++) { \ + assert(union_ranges(t[i][lt_zero], t[i][eq_zero]) == t[i][le_zero]); \ + assert(union_ranges(t[i][gt_zero], t[i][eq_zero]) == t[i][ge_zero]); \ + assert(union_ranges(t[lt_zero][i], t[eq_zero][i]) == t[le_zero][i]); \ + assert(union_ranges(t[gt_zero][i], t[eq_zero][i]) == t[ge_zero][i]); \ + } \ + } while (false) + +/* Several other unordered tuples span the range of "everything." Each should + * have the same value as unknown: (lt_zero, ge_zero), (le_zero, gt_zero), and + * (eq_zero, ne_zero). union_ranges is already commutative, so only one + * ordering needs to be checked. + * + * Does not apply to selection-like opcodes (bcsel, fmin, fmax, etc.). + * + * In cases where this can be used, it is unnecessary to also use + * ASSERT_UNION_OF_OTHERS_MATCHES_UNKNOWN_*_SOURCE. For any range X, + * union_ranges(X, X) == X. The disjoint ranges cover all of the non-unknown + * possibilities, so the union of all the unions of disjoint ranges is + * equivalent to the union of "others." + */ +#define ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_1_SOURCE(t) \ + do { \ + assert(union_ranges(t[lt_zero], t[ge_zero]) == t[unknown]); \ + assert(union_ranges(t[le_zero], t[gt_zero]) == t[unknown]); \ + assert(union_ranges(t[eq_zero], t[ne_zero]) == t[unknown]); \ + } while (false) + +#define ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_2_SOURCE(t) \ + do { \ + for (unsigned i = 0; i < last_range; i++) { \ + assert(union_ranges(t[i][lt_zero], t[i][ge_zero]) == \ + t[i][unknown]); \ + assert(union_ranges(t[i][le_zero], t[i][gt_zero]) == \ + t[i][unknown]); \ + assert(union_ranges(t[i][eq_zero], t[i][ne_zero]) == \ + t[i][unknown]); \ + \ + assert(union_ranges(t[lt_zero][i], t[ge_zero][i]) == \ + t[unknown][i]); \ + assert(union_ranges(t[le_zero][i], t[gt_zero][i]) == \ + t[unknown][i]); \ + assert(union_ranges(t[eq_zero][i], t[ne_zero][i]) == \ + t[unknown][i]); \ + } \ + } while (false) + #else #define ASSERT_TABLE_IS_COMMUTATIVE(t) #define ASSERT_TABLE_IS_DIAGONAL(t) +#define ASSERT_UNION_OF_OTHERS_MATCHES_UNKNOWN_2_SOURCE(t) +#define ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_1_SOURCE(t) +#define ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_2_SOURCE(t) +#define ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_1_SOURCE(t) +#define ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_2_SOURCE(t) #endif -/** - * Short-hand name for use in the tables in analyze_expression. If this name - * becomes a problem on some compiler, we can change it to _. - */ -#define _______ unknown - /** * Analyze an expression to determine the range of its result * @@ -275,6 +381,8 @@ analyze_expression(const nir_alu_instr *instr, unsigned src, }; ASSERT_TABLE_IS_COMMUTATIVE(fadd_table); + ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_2_SOURCE(fadd_table); + ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_2_SOURCE(fadd_table); /* Due to flush-to-zero semanatics of floating-point numbers with very * small mangnitudes, we can never really be sure a result will be @@ -319,12 +427,17 @@ analyze_expression(const nir_alu_instr *instr, unsigned src, }; ASSERT_TABLE_IS_COMMUTATIVE(fmul_table); + ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_2_SOURCE(fmul_table); + ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_2_SOURCE(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 }; + ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_1_SOURCE(fneg_table); + ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_1_SOURCE(fneg_table); + switch (alu->op) { case nir_op_b2f32: @@ -404,6 +517,7 @@ analyze_expression(const nir_alu_instr *instr, unsigned src, ASSERT_TABLE_IS_COMMUTATIVE(table); ASSERT_TABLE_IS_DIAGONAL(table); + ASSERT_UNION_OF_OTHERS_MATCHES_UNKNOWN_2_SOURCE(table); r.range = table[left.range][right.range]; break; @@ -463,6 +577,9 @@ analyze_expression(const nir_alu_instr *instr, unsigned src, r = analyze_expression(alu, 0, ht); + ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_1_SOURCE(table); + ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_1_SOURCE(table); + r.range = table[r.range]; break; } @@ -524,6 +641,7 @@ analyze_expression(const nir_alu_instr *instr, unsigned src, /* Treat fmax as commutative. */ ASSERT_TABLE_IS_COMMUTATIVE(table); ASSERT_TABLE_IS_DIAGONAL(table); + ASSERT_UNION_OF_OTHERS_MATCHES_UNKNOWN_2_SOURCE(table); r.range = table[left.range][right.range]; break; @@ -586,6 +704,7 @@ analyze_expression(const nir_alu_instr *instr, unsigned src, /* Treat fmin as commutative. */ ASSERT_TABLE_IS_COMMUTATIVE(table); ASSERT_TABLE_IS_DIAGONAL(table); + ASSERT_UNION_OF_OTHERS_MATCHES_UNKNOWN_2_SOURCE(table); r.range = table[left.range][right.range]; break; @@ -782,6 +901,9 @@ analyze_expression(const nir_alu_instr *instr, unsigned src, const struct ssa_result_range left = analyze_expression(alu, 0, ht); const struct ssa_result_range right = analyze_expression(alu, 1, ht); + ASSERT_UNION_OF_DISJOINT_MATCHES_UNKNOWN_2_SOURCE(table); + ASSERT_UNION_OF_EQ_AND_STRICT_INEQ_MATCHES_NONSTRICT_2_SOURCE(table); + r.is_integral = left.is_integral && right.is_integral && is_not_negative(right.range); r.range = table[left.range][right.range];