/*
- * Copyright (C) 1995-2007 University of Karlsruhe. All right reserved.
+ * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved.
*
* This file is part of libFirm.
*
{ FS_OPT_ADD_MUL_A_X_A, "algebraic simplification: a * x + a = a * (x + 1)" },
{ FS_OPT_SUB_0_A, "algebraic simplification: 0 - a = -a" },
{ FS_OPT_MINUS_SUB, "algebraic simplification: -(a - b) = b - a" },
+ { FS_OPT_SUB_MINUS, "algebraic simplification: a - (-b) = a + b" },
{ FS_OPT_SUB_MUL_A_X_A, "algebraic simplification: a * x - a = a * (x - 1)" },
{ FS_OPT_SUB_SUB_X_Y_Z, "algebraic simplification: (x - y) - z = x - (y + z)" },
+ { FS_OPT_SUB_C_NOT_X, "algebraic simplification: c - ~a = a + (c+1)" },
+ { FS_OPT_SUB_TO_ADD, "algebraic simplification: (-a) - b = -(a + b), a - (b - c) = a + (c - b), a - (b * C) -> a + (b * -C)" },
+ { FS_OPT_MUL_MINUS, "algebraic simplification: (-a) * (b - c) -> a * (c - b)" },
{ FS_OPT_MUL_MINUS_1, "algebraic simplification: a * -1 = -a" },
+ { FS_OPT_MINUS_MUL_C, "algebraic simplification: (-a) * C = a * (-C)" },
+ { FS_OPT_MUL_MINUS_MINUS,"algebraic simplification: (-a) * (-b) = a * b" },
{ FS_OPT_OR, "algebraic simplification: a | a = a | 0 = 0 | a = a" },
- { FS_OPT_AND, "algebraic simplification: a & 0b1...1 = 0b1...1 & a = a & a = a" },
+ { FS_OPT_AND, "algebraic simplification: a & 0b1...1 = 0b1...1 & a = a & a = (a|X) & a = a" },
+ { FS_OPT_TO_EOR, "algebraic simplification: (a|b) & ~(a&b) = a^b" },
{ FS_OPT_EOR_A_A, "algebraic simplification: a ^ a = 0" },
{ FS_OPT_EOR_TO_NOT_BOOL,"algebraic simplification: bool ^ 1 = !bool" },
- { FS_OPT_EOR_TO_NOT, "algebraic simplification: x ^ 0b1..1 = ~x" },
+ { FS_OPT_EOR_TO_NOT, "algebraic simplification: x ^ 0b1..1 = ~x, (a ^ b) & b -> ~a & b" },
{ FS_OPT_NOT_CMP, "algebraic simplification: !(a cmp b) = a !cmp b" },
{ FS_OPT_OR_SHFT_TO_ROT, "algebraic simplification: (x << c) | (x >> (bits - c)) == Rot(x, c)" },
{ FS_OPT_REASSOC_SHIFT, "algebraic simplification: (x SHF c1) SHF c2 = x SHF (c1+c2)" },
{ FS_OPT_MINUS_NOT, "algebraic simplification: -(~x) = x + 1" },
{ FS_OPT_NOT_MINUS_1, "algebraic simplification: ~(x - 1) = -x" },
{ FS_OPT_NOT_PLUS_1, "algebraic simplification: ~x + 1 = -x" },
- { FS_OPT_FP_INV_MUL, "algebraic simplification: x / y = x * (1.0/y)" },
+ { FS_OPT_ADD_X_NOT_X, "algebraic simplification: ~x + x = -1" },
+ { FS_OPT_FP_INV_MUL, "algebraic simplification: x / y = x * (1.0/y)" },
+ { FS_OPT_ABS_MINUS_X, "algebraic simplification: Abs(-x) = Abs(x)" },
{ FS_OPT_CONST_PHI, "constant evaluation on Phi node" },
+ { FS_OPT_PREDICATE, "predicate optimization" },
+ { FS_OPT_DEMORGAN, "optimization using DeMorgan's law" },
+ { FS_OPT_CMP_OP_OP, "CMP optimization: Cmp(OP(x), OP(y)) = Cmp(x, y)" },
+ { FS_OPT_CMP_OP_C, "CMP optimization: Cmp(OP(x), c1) = Cmp(x, c2)" },
+ { FS_OPT_CMP_CONV_CONV, "CMP optimization: Cmp(Conv(x), Conv(y)) = Cmp(x, y)" },
+ { FS_OPT_CMP_CONV, "CMP optimization: Cmp(Conv(x), Conv(y)) = Cmp(Conv(x), y)" },
+ { FS_OPT_CMP_TO_BOOL, "CMP optimization: Cmp(x, y) = BoolOP(x, y)" },
+ { FS_OPT_CMP_CNST_MAGN, "CMP optimization: reduced magnitude of a const" },
+ { FS_OPT_CMP_SHF_TO_AND, "CMP optimization: transformed shift into And" },
+ { FS_OPT_CMP_MOD_TO_AND, "CMP optimization: transformed Mod into And" },
+ { FS_OPT_RTS_ABS, "RTS optimization: call to abs() replaced" },
+ { FS_OPT_RTS_ALLOCA, "RTS optimization: call to alloca() replaced" },
+ { FS_OPT_RTS_SQRT, "RTS optimization: call to sqrt() replaced" },
+ { FS_OPT_RTS_CBRT, "RTS optimization: call to cbrt() replaced" },
+ { FS_OPT_RTS_POW, "RTS optimization: call to pow() replaced" },
+ { FS_OPT_RTS_EXP, "RTS optimization: call to exp() replaced" },
+ { FS_OPT_RTS_LOG, "RTS optimization: call to log() replaced" },
+ { FS_OPT_RTS_SIN, "RTS optimization: call to sin() replaced" },
+ { FS_OPT_RTS_COS, "RTS optimization: call to cos() replaced" },
+ { FS_OPT_RTS_TAN, "RTS optimization: call to tan() replaced" },
+ { FS_OPT_RTS_ASIN, "RTS optimization: call to asin() replaced" },
+ { FS_OPT_RTS_ACOS, "RTS optimization: call to atan() replaced" },
+ { FS_OPT_RTS_ATAN, "RTS optimization: call to acos() replaced" },
+ { FS_OPT_RTS_SINH, "RTS optimization: call to sinh() replaced" },
+ { FS_OPT_RTS_COSH, "RTS optimization: call to cosh() replaced" },
+ { FS_OPT_RTS_TANH, "RTS optimization: call to tanh() replaced" },
+ { FS_OPT_RTS_STRCMP, "RTS optimization: call to strcmp() replaced" },
+ { FS_OPT_RTS_STRNCMP, "RTS optimization: call to strncmp() replaced" },
+ { FS_OPT_RTS_MEMCPY, "RTS optimization: call to memcpy() replaced" },
+ { FS_OPT_RTS_MEMSET, "RTS optimization: call to memset() replaced" },
+ { FS_OPT_RTS_STRLEN, "RTS optimization: call to strlen() replaced" },
{ FS_BE_IA32_LEA, "ia32 Backend transformation: Lea was created" },
{ FS_BE_IA32_LOAD_LEA, "ia32 Backend transformation: Load merged with a Lea" },
{ FS_BE_IA32_STORE_LEA, "ia32 Backend transformation: Store merged with a Lea" },
} /* simple_dump_opcode_hash */
/**
- * dumps an optimization hash into human readable form
+ * Return the name of an optimization.
*/
-static void simple_dump_opt_hash(dumper_t *dmp, pset *set, int index)
-{
+static const char *get_opt_name(int index) {
assert(index < (int) ARR_SIZE(opt_names) && "index out of range");
assert((int) opt_names[index].kind == index && "opt_names broken");
+ return opt_names[index].name;
+} /* get_opt_name */
+/**
+ * dumps an optimization hash into human readable form
+ */
+static void simple_dump_opt_hash(dumper_t *dmp, pset *set, int index)
+{
if (pset_count(set) > 0) {
opt_entry_t *entry;
+ const char *name = get_opt_name(index);
- fprintf(dmp->f, "\n%s:\n", opt_names[index].name);
+ fprintf(dmp->f, "\n%s:\n", name);
fprintf(dmp->f, "%-16s %-8s\n", "Opcode", "deref");
foreach_pset(set, entry) {
static void add_distrib_entry(const distrib_entry_t *entry, void *env) {
distrib_tbl_t *sum_tbl = env;
- stat_add_int_distrib_tbl(sum_tbl, (int)(entry->object), &entry->cnt);
+ stat_add_int_distrib_tbl(sum_tbl, PTR_TO_INT(entry->object), &entry->cnt);
} /* add_distrib_entry */
/**
fprintf(dmp->f, "-------------------------------\n");
for (i = 0; i < ARR_SIZE(tbl->int_bits_count); ++i) {
- fprintf(dmp->f, "%5d %12u\n", i + 1, cnt_to_uint(&tbl->int_bits_count[i]));
+ fprintf(dmp->f, "%5u %12u\n", (unsigned) (i + 1), cnt_to_uint(&tbl->int_bits_count[i]));
cnt_add(&sum, &tbl->int_bits_count[i]);
} /* for */
fprintf(dmp->f, "-------------------------------\n");
fprintf(dmp->f, "with local var adr params %12u\n", cnt_to_uint(&global->cnt[gcnt_call_with_local_adr]));
} /* simple_dump_param_tbl */
+/**
+ * dumps the optimization counter table
+ */
+static void simple_dump_opt_cnt(dumper_t *dmp, const counter_t *tbl, unsigned len) {
+ unsigned i;
+
+ fprintf(dmp->f, "\nOptimization counts:\n");
+ fprintf(dmp->f, "---------------------\n");
+
+ for (i = 0; i < len; ++i) {
+ unsigned cnt = cnt_to_uint(&tbl[i]);
+
+ if (cnt > 0) {
+ fprintf(dmp->f, "%8u %s\n", cnt, get_opt_name(i));
+ }
+ }
+} /* simple_dump_opt_cnt */
+
/**
* initialize the simple dumper
*/
simple_dump_graph,
simple_dump_const_tbl,
simple_dump_param_tbl,
+ simple_dump_opt_cnt,
simple_init,
simple_finish,
NULL,
/* FIXME: NYI */
} /* csv_dump_param_tbl */
+/**
+ * dumps the optimization counter
+ */
+static void csv_dump_opt_cnt(dumper_t *dmp, const counter_t *tbl, unsigned len) {
+ (void) dmp;
+ (void) tbl;
+ (void) len;
+ /* FIXME: NYI */
+} /* csv_dump_opt_cnt */
+
/**
* initialize the simple dumper
*/
csv_dump_graph,
csv_dump_const_tbl,
csv_dump_param_tbl,
+ csv_dump_opt_cnt,
csv_init,
csv_finish,
NULL,