#endif
/** The params got from the factory in arch_dep_init(...). */
-static const arch_dep_params_t *params = NULL;
+static const ir_settings_arch_dep_t *params = NULL;
/** The bit mask, which optimizations to apply. */
static arch_dep_opts_t opts;
*/
static ir_node *
new_rd_Mulh (dbg_info *db, ir_graph *irg, ir_node *block,
- ir_node *op1, ir_node *op2, ir_mode *mode)
-{
- ir_node *in[2];
- ir_node *res;
-
- in[0] = op1;
- in[1] = op2;
- res = new_ir_node(db, irg, block, op_Mulh, mode, 2, in);
- res = optimize_node(res);
- IRN_VRFY_IRG(res, irg);
- return res;
+ ir_node *op1, ir_node *op2, ir_mode *mode) {
+ ir_node *in[2];
+ ir_node *res;
+
+ in[0] = op1;
+ in[1] = op2;
+ res = new_ir_node(db, irg, block, op_Mulh, mode, 2, in);
+ res = optimize_node(res);
+ IRN_VRFY_IRG(res, irg);
+ return res;
}
ir_op *get_op_Mulh(void) { return op_Mulh; }
-void arch_dep_init(arch_dep_params_factory_t factory)
-{
- opts = arch_dep_none;
+void arch_dep_init(arch_dep_params_factory_t factory) {
+ opts = arch_dep_none;
- if (factory != NULL)
- params = factory();
+ if (factory != NULL)
+ params = factory();
- if (! op_Mulh) {
- int mulh_opc = get_next_ir_opcode();
+ if (! op_Mulh) {
+ int mulh_opc = get_next_ir_opcode();
- /* create the Mulh operation */
- op_Mulh = new_ir_op(mulh_opc, "Mulh", op_pin_state_floats, irop_flag_commutative, oparity_binary, 0, 0, NULL);
- }
+ /* create the Mulh operation */
+ op_Mulh = new_ir_op(mulh_opc, "Mulh", op_pin_state_floats, irop_flag_commutative, oparity_binary, 0, 0, NULL);
+ }
}
void arch_dep_set_opts(arch_dep_opts_t the_opts) {
- opts = the_opts;
+ opts = the_opts;
}
/** check, whether a mode allows a Mulh instruction. */
-static int allow_Mulh(ir_mode *mode)
-{
- if (get_mode_size_bits(mode) > params->max_bits_for_mulh)
- return 0;
- return (mode_is_signed(mode) && params->allow_mulhs) || (!mode_is_signed(mode) && params->allow_mulhu);
+static int allow_Mulh(ir_mode *mode) {
+ if (get_mode_size_bits(mode) > params->max_bits_for_mulh)
+ return 0;
+ return (mode_is_signed(mode) && params->allow_mulhs) || (!mode_is_signed(mode) && params->allow_mulhu);
}
/* Replace Muls with Shifts and Add/Subs. */
-ir_node *arch_dep_replace_mul_with_shifts(ir_node *irn)
-{
- ir_node *res = irn;
- ir_mode *mode = get_irn_mode(irn);
-
- /* If the architecture dependent optimizations were not initialized
- or this optimization was not enabled. */
- if (params == NULL || (opts & arch_dep_mul_to_shift) == 0)
- return irn;
-
- if (get_irn_op(irn) == op_Mul && mode_is_int(mode)) {
- ir_node *block = get_irn_n(irn, -1);
- ir_node *left = get_binop_left(irn);
- ir_node *right = get_binop_right(irn);
- tarval *tv = NULL;
- ir_node *operand = NULL;
-
- /* Look, if one operand is a constant. */
- if (get_irn_opcode(left) == iro_Const) {
- tv = get_Const_tarval(left);
- operand = right;
- } else if(get_irn_opcode(right) == iro_Const) {
- tv = get_Const_tarval(right);
- operand = left;
- }
-
- if (tv != NULL) {
- int maximum_shifts = params->maximum_shifts;
- int also_use_subs = params->also_use_subs;
- int highest_shift_amount = params->highest_shift_amount;
-
- char *bitstr = get_tarval_bitpattern(tv);
- char *p;
- int i, last = 0;
- int counter = 0;
- int curr_bit;
- int compr_len = 0;
- char compr[MAX_BITSTR];
-
- int singleton;
- int end_of_group;
- int shift_with_sub[MAX_BITSTR] = { 0 };
- int shift_without_sub[MAX_BITSTR] = { 0 };
- int shift_with_sub_pos = 0;
- int shift_without_sub_pos = 0;
+ir_node *arch_dep_replace_mul_with_shifts(ir_node *irn) {
+ ir_node *res = irn;
+ ir_mode *mode = get_irn_mode(irn);
+
+ /* If the architecture dependent optimizations were not initialized
+ or this optimization was not enabled. */
+ if (params == NULL || (opts & arch_dep_mul_to_shift) == 0)
+ return irn;
+
+ if (get_irn_op(irn) == op_Mul && mode_is_int(mode)) {
+ ir_node *block = get_irn_n(irn, -1);
+ ir_node *left = get_binop_left(irn);
+ ir_node *right = get_binop_right(irn);
+ tarval *tv = NULL;
+ ir_node *operand = NULL;
+
+ /* Look, if one operand is a constant. */
+ if (get_irn_opcode(left) == iro_Const) {
+ tv = get_Const_tarval(left);
+ operand = right;
+ } else if(get_irn_opcode(right) == iro_Const) {
+ tv = get_Const_tarval(right);
+ operand = left;
+ }
+
+ if (tv != NULL) {
+ int maximum_shifts = params->maximum_shifts;
+ int also_use_subs = params->also_use_subs;
+ int highest_shift_amount = params->highest_shift_amount;
+
+ char *bitstr = get_tarval_bitpattern(tv);
+ char *p;
+ int i, last = 0;
+ int counter = 0;
+ int curr_bit;
+ int compr_len = 0;
+ char compr[MAX_BITSTR];
+
+ int singleton;
+ int end_of_group;
+ int shift_with_sub[MAX_BITSTR] = { 0 };
+ int shift_without_sub[MAX_BITSTR] = { 0 };
+ int shift_with_sub_pos = 0;
+ int shift_without_sub_pos = 0;
#if DEB
- {
- long val = get_tarval_long(tv);
- fprintf(stderr, "Found mul with %ld(%lx) = ", val, val);
- for(p = bitstr; *p != '\0'; p++)
- printf("%c", *p);
- printf("\n");
- }
+ {
+ long val = get_tarval_long(tv);
+ fprintf(stderr, "Found mul with %ld(%lx) = ", val, val);
+ for(p = bitstr; *p != '\0'; p++)
+ printf("%c", *p);
+ printf("\n");
+ }
#endif
- for(p = bitstr; *p != '\0'; p++) {
- int bit = *p != '0';
+ for(p = bitstr; *p != '\0'; p++) {
+ int bit = *p != '0';
- if (bit != last) {
- /* The last was 1 we are now at 0 OR
- * The last was 0 and we are now at 1 */
- compr[compr_len++] = counter;
- counter = 1;
- }
- else
- counter++;
-
- last = bit;
- }
- compr[compr_len++] = counter;
+ if (bit != last) {
+ /* The last was 1 we are now at 0 OR
+ * The last was 0 and we are now at 1 */
+ compr[compr_len++] = counter;
+ counter = 1;
+ } else
+ counter++;
+ last = bit;
+ }
+ compr[compr_len++] = counter;
#ifdef DEB
- {
- const char *prefix = "";
- for(i = 0; i < compr_len; i++, prefix = ",")
- fprintf(stderr, "%s%d", prefix, compr[i]);
- fprintf("\n");
- }
+ {
+ const char *prefix = "";
+ for(i = 0; i < compr_len; i++, prefix = ",")
+ fprintf(stderr, "%s%d", prefix, compr[i]);
+ fprintf("\n");
+ }
#endif
- /* Go over all recorded one groups. */
- curr_bit = compr[0];
+ /* Go over all recorded one groups. */
+ curr_bit = compr[0];
- for(i = 1; i < compr_len; i = end_of_group + 2) {
- int j, zeros_in_group, ones_in_group;
+ for(i = 1; i < compr_len; i = end_of_group + 2) {
+ int j, zeros_in_group, ones_in_group;
- ones_in_group = compr[i];
- zeros_in_group = 0;
+ ones_in_group = compr[i];
+ zeros_in_group = 0;
- /* Scan for singular 0s in a sequence. */
- for(j = i + 1; j < compr_len && compr[j] == 1; j += 2) {
- zeros_in_group += 1;
- ones_in_group += (j + 1 < compr_len ? compr[j + 1] : 0);
- }
- end_of_group = j - 1;
+ /* Scan for singular 0s in a sequence. */
+ for(j = i + 1; j < compr_len && compr[j] == 1; j += 2) {
+ zeros_in_group += 1;
+ ones_in_group += (j + 1 < compr_len ? compr[j + 1] : 0);
+ }
+ end_of_group = j - 1;
- if(zeros_in_group >= ones_in_group - 1)
- end_of_group = i;
+ if(zeros_in_group >= ones_in_group - 1)
+ end_of_group = i;
#ifdef DEB
- fprintf(stderr, " i:%d, eg:%d\n", i, end_of_group);
+ fprintf(stderr, " i:%d, eg:%d\n", i, end_of_group);
#endif
- singleton = compr[i] == 1 && i == end_of_group;
- for(j = i; j <= end_of_group; j += 2) {
- int curr_ones = compr[j];
- int biased_curr_bit = curr_bit + 1;
- int k;
+ singleton = compr[i] == 1 && i == end_of_group;
+ for(j = i; j <= end_of_group; j += 2) {
+ int curr_ones = compr[j];
+ int biased_curr_bit = curr_bit + 1;
+ int k;
#ifdef DEB
- fprintf(stderr, " j:%d, ones:%d\n", j, curr_ones);
+ fprintf(stderr, " j:%d, ones:%d\n", j, curr_ones);
#endif
- /* If this ones group is a singleton group (it has no
- singleton zeros inside. */
- if(singleton)
- shift_with_sub[shift_with_sub_pos++] = biased_curr_bit;
- else if(j == i)
- shift_with_sub[shift_with_sub_pos++] = -biased_curr_bit;
-
- for(k = 0; k < curr_ones; k++)
- shift_without_sub[shift_without_sub_pos++] = biased_curr_bit + k;
-
- curr_bit += curr_ones;
- biased_curr_bit = curr_bit + 1;
-
- if(!singleton && j == end_of_group)
- shift_with_sub[shift_with_sub_pos++] = biased_curr_bit;
- else if(j != end_of_group)
- shift_with_sub[shift_with_sub_pos++] = -biased_curr_bit;
-
- curr_bit += compr[j + 1];
- }
-
- }
-
- {
- int *shifts = shift_with_sub;
- int n = shift_with_sub_pos;
- int highest_shift_wide = 0;
- int highest_shift_seq = 0;
- int last_shift = 0;
-
- /* If we may not use subs, or we can achive the same with adds,
- prefer adds. */
- if(!also_use_subs || shift_with_sub_pos >= shift_without_sub_pos) {
- shifts = shift_without_sub;
- n = shift_without_sub_pos;
- }
-
- /* If the number of needed shifts exceeds the given maximum,
- use the Mul and exit. */
- if(n > maximum_shifts) {
+ /* If this ones group is a singleton group (it has no
+ singleton zeros inside. */
+ if(singleton)
+ shift_with_sub[shift_with_sub_pos++] = biased_curr_bit;
+ else if(j == i)
+ shift_with_sub[shift_with_sub_pos++] = -biased_curr_bit;
+
+ for(k = 0; k < curr_ones; k++)
+ shift_without_sub[shift_without_sub_pos++] = biased_curr_bit + k;
+
+ curr_bit += curr_ones;
+ biased_curr_bit = curr_bit + 1;
+
+ if(!singleton && j == end_of_group)
+ shift_with_sub[shift_with_sub_pos++] = biased_curr_bit;
+ else if(j != end_of_group)
+ shift_with_sub[shift_with_sub_pos++] = -biased_curr_bit;
+
+ curr_bit += compr[j + 1];
+ }
+ }
+
+ {
+ int *shifts = shift_with_sub;
+ int n = shift_with_sub_pos;
+ int highest_shift_wide = 0;
+ int highest_shift_seq = 0;
+ int last_shift = 0;
+
+ /* If we may not use subs, or we can achive the same with adds,
+ prefer adds. */
+ if(!also_use_subs || shift_with_sub_pos >= shift_without_sub_pos) {
+ shifts = shift_without_sub;
+ n = shift_without_sub_pos;
+ }
+
+ /* If the number of needed shifts exceeds the given maximum,
+ use the Mul and exit. */
+ if(n > maximum_shifts) {
#ifdef DEB
- fprintf(stderr, "Only allowed %d shifts, but %d are needed\n",
- maximum_shifts, n);
+ fprintf(stderr, "Only allowed %d shifts, but %d are needed\n",
+ maximum_shifts, n);
#endif
- return irn;
- }
-
- /* Compute the highest shift needed for both, the
- sequential and wide representations. */
- for(i = 0; i < n; i++) {
- int curr = abs(shifts[i]);
- int curr_seq = curr - last;
-
- highest_shift_wide = curr > highest_shift_wide ? curr
- : highest_shift_wide;
- highest_shift_seq = curr_seq > highest_shift_seq ? curr_seq
- : highest_shift_seq;
-
- last_shift = curr;
- }
-
- /* If the highest shift amount is greater than the given limit,
- give back the Mul */
- if(highest_shift_seq > highest_shift_amount) {
+ return irn;
+ }
+
+ /* Compute the highest shift needed for both, the
+ sequential and wide representations. */
+ for(i = 0; i < n; i++) {
+ int curr = abs(shifts[i]);
+ int curr_seq = curr - last;
+
+ highest_shift_wide = curr > highest_shift_wide ? curr : highest_shift_wide;
+ highest_shift_seq = curr_seq > highest_shift_seq ? curr_seq : highest_shift_seq;
+
+ last_shift = curr;
+ }
+
+ /* If the highest shift amount is greater than the given limit,
+ give back the Mul */
+ if(highest_shift_seq > highest_shift_amount) {
#ifdef DEB
- fprintf(stderr, "Shift argument %d exceeds maximum %d\n",
- highest_shift_seq, highest_shift_amount);
+ fprintf(stderr, "Shift argument %d exceeds maximum %d\n",
+ highest_shift_seq, highest_shift_amount);
#endif
- return irn;
- }
+ return irn;
+ }
- /* If we have subs, we cannot do sequential. */
- if(1 /* also_use_subs */) {
- if(n > 0) {
- ir_node *curr = NULL;
+ /* If we have subs, we cannot do sequential. */
+ if(1 /* also_use_subs */) {
+ if(n > 0) {
+ ir_node *curr = NULL;
- i = n - 1;
+ i = n - 1;
- do {
- int curr_shift = shifts[i];
- int sub = curr_shift < 0;
- int amount = abs(curr_shift) - 1;
- ir_node *aux = operand;
+ do {
+ int curr_shift = shifts[i];
+ int sub = curr_shift < 0;
+ int amount = abs(curr_shift) - 1;
+ ir_node *aux = operand;
- assert(amount >= 0 && "What is a negative shift??");
+ assert(amount >= 0 && "What is a negative shift??");
- if (amount != 0) {
- ir_node *cnst = new_r_Const_long(current_ir_graph, block, mode_Iu, amount);
- aux = new_r_Shl(current_ir_graph, block, operand, cnst, mode);
- }
+ if (amount != 0) {
+ ir_node *cnst = new_r_Const_long(current_ir_graph, block, mode_Iu, amount);
+ aux = new_r_Shl(current_ir_graph, block, operand, cnst, mode);
+ }
- if (curr) {
- if (sub)
- curr = new_r_Sub(current_ir_graph, block, curr, aux, mode);
- else
- curr = new_r_Add(current_ir_graph, block, curr, aux, mode);
- } else
- curr = aux;
+ if (curr) {
+ if (sub)
+ curr = new_r_Sub(current_ir_graph, block, curr, aux, mode);
+ else
+ curr = new_r_Add(current_ir_graph, block, curr, aux, mode);
+ } else
+ curr = aux;
- } while(--i >= 0);
+ } while(--i >= 0);
- res = curr;
- }
- }
+ res = curr;
+ }
+ }
#ifdef DEB
- {
- const char *prefix = "";
- for (i = 0; i < n; ++i) {
- fprintf(stderr, "%s%d", prefix, shifts[i]);
- prefix = ", ";
- }
- fprintf(stderr, "\n");
- }
+ {
+ const char *prefix = "";
+ for (i = 0; i < n; ++i) {
+ fprintf(stderr, "%s%d", prefix, shifts[i]);
+ prefix = ", ";
+ }
+ fprintf(stderr, "\n");
+ }
#endif
- }
+ }
- if(bitstr)
- free(bitstr);
- }
+ if(bitstr)
+ free(bitstr);
+ }
- }
+ }
- if (res != irn)
- hook_arch_dep_replace_mul_with_shifts(irn);
+ if (res != irn)
+ hook_arch_dep_replace_mul_with_shifts(irn);
- return res;
+ return res;
}
/**
* calculated the ld2 of a tarval if tarval is 2^n, else returns -1.
*/
-static int tv_ld2(tarval *tv, int bits)
-{
- int i, k = 0, num;
-
- for (num = i = 0; i < bits; ++i) {
- unsigned char v = get_tarval_sub_bits(tv, i);
-
- if (v) {
- int j;
-
- for (j = 0; j < 8; ++j)
- if ((1 << j) & v) {
- ++num;
- k = 8 * i + j;
- }
- }
- }
- if (num == 1)
- return k;
- return -1;
+static int tv_ld2(tarval *tv, int bits) {
+ int i, k = 0, num;
+
+ for (num = i = 0; i < bits; ++i) {
+ unsigned char v = get_tarval_sub_bits(tv, i);
+
+ if (v) {
+ int j;
+
+ for (j = 0; j < 8; ++j)
+ if ((1 << j) & v) {
+ ++num;
+ k = 8 * i + j;
+ }
+ }
+ }
+ if (num == 1)
+ return k;
+ return -1;
}
/** The result of a the magic() function. */
struct ms {
- tarval *M; /**< magic number */
- int s; /**< shift amount */
- int need_add; /**< an additional add is needed */
- int need_sub; /**< an additional sub is needed */
+ tarval *M; /**< magic number */
+ int s; /**< shift amount */
+ int need_add; /**< an additional add is needed */
+ int need_sub; /**< an additional sub is needed */
};
/**
*
* see Hacker's Delight: 10-6 Integer Division by Constants: Incorporation into a Compiler
*/
-static struct ms magic(tarval *d)
-{
- ir_mode *mode = get_tarval_mode(d);
- ir_mode *u_mode = find_unsigned_mode(mode);
- int bits = get_mode_size_bits(u_mode);
- int p;
- tarval *ad, *anc, *delta, *q1, *r1, *q2, *r2, *t; /* unsigned */
- pn_Cmp d_cmp, M_cmp;
+static struct ms magic(tarval *d) {
+ ir_mode *mode = get_tarval_mode(d);
+ ir_mode *u_mode = find_unsigned_mode(mode);
+ int bits = get_mode_size_bits(u_mode);
+ int p;
+ tarval *ad, *anc, *delta, *q1, *r1, *q2, *r2, *t; /* unsigned */
+ pn_Cmp d_cmp, M_cmp;
- tarval *bits_minus_1, *two_bits_1;
+ tarval *bits_minus_1, *two_bits_1;
- struct ms mag;
+ struct ms mag;
- tarval_int_overflow_mode_t rem = tarval_get_integer_overflow_mode();
+ tarval_int_overflow_mode_t rem = tarval_get_integer_overflow_mode();
- /* we need overflow mode to work correctly */
- tarval_set_integer_overflow_mode(TV_OVERFLOW_WRAP);
+ /* we need overflow mode to work correctly */
+ tarval_set_integer_overflow_mode(TV_OVERFLOW_WRAP);
- /* 2^(bits-1) */
- bits_minus_1 = new_tarval_from_long(bits - 1, u_mode);
- two_bits_1 = SHL(get_mode_one(u_mode), bits_minus_1);
+ /* 2^(bits-1) */
+ bits_minus_1 = new_tarval_from_long(bits - 1, u_mode);
+ two_bits_1 = SHL(get_mode_one(u_mode), bits_minus_1);
- ad = CNV(ABS(d), u_mode);
- t = ADD(two_bits_1, SHR(CNV(d, u_mode), bits_minus_1));
- anc = SUB(SUB(t, ONE(u_mode)), MOD(t, ad)); /* Absolute value of nc */
- p = bits - 1; /* Init: p */
- q1 = DIV(two_bits_1, anc); /* Init: q1 = 2^p/|nc| */
- r1 = SUB(two_bits_1, MUL(q1, anc)); /* Init: r1 = rem(2^p, |nc|) */
- q2 = DIV(two_bits_1, ad); /* Init: q2 = 2^p/|d| */
- r2 = SUB(two_bits_1, MUL(q2, ad)); /* Init: r2 = rem(2^p, |d|) */
+ ad = CNV(ABS(d), u_mode);
+ t = ADD(two_bits_1, SHR(CNV(d, u_mode), bits_minus_1));
+ anc = SUB(SUB(t, ONE(u_mode)), MOD(t, ad)); /* Absolute value of nc */
+ p = bits - 1; /* Init: p */
+ q1 = DIV(two_bits_1, anc); /* Init: q1 = 2^p/|nc| */
+ r1 = SUB(two_bits_1, MUL(q1, anc)); /* Init: r1 = rem(2^p, |nc|) */
+ q2 = DIV(two_bits_1, ad); /* Init: q2 = 2^p/|d| */
+ r2 = SUB(two_bits_1, MUL(q2, ad)); /* Init: r2 = rem(2^p, |d|) */
- do {
- ++p;
- q1 = ADD(q1, q1); /* Update q1 = 2^p/|nc| */
- r1 = ADD(r1, r1); /* Update r1 = rem(2^p, |nc|) */
+ do {
+ ++p;
+ q1 = ADD(q1, q1); /* Update q1 = 2^p/|nc| */
+ r1 = ADD(r1, r1); /* Update r1 = rem(2^p, |nc|) */
- if (CMP(r1, anc) & pn_Cmp_Ge) {
- q1 = ADD(q1, ONE(u_mode));
- r1 = SUB(r1, anc);
- }
+ if (CMP(r1, anc) & pn_Cmp_Ge) {
+ q1 = ADD(q1, ONE(u_mode));
+ r1 = SUB(r1, anc);
+ }
- q2 = ADD(q2, q2); /* Update q2 = 2^p/|d| */
- r2 = ADD(r2, r2); /* Update r2 = rem(2^p, |d|) */
+ q2 = ADD(q2, q2); /* Update q2 = 2^p/|d| */
+ r2 = ADD(r2, r2); /* Update r2 = rem(2^p, |d|) */
- if (CMP(r2, ad) & pn_Cmp_Ge) {
- q2 = ADD(q2, ONE(u_mode));
- r2 = SUB(r2, ad);
- }
+ if (CMP(r2, ad) & pn_Cmp_Ge) {
+ q2 = ADD(q2, ONE(u_mode));
+ r2 = SUB(r2, ad);
+ }
- delta = SUB(ad, r2);
- } while (CMP(q1, delta) & pn_Cmp_Lt || (CMP(q1, delta) & pn_Cmp_Eq && CMP(r1, ZERO(u_mode)) & pn_Cmp_Eq));
+ delta = SUB(ad, r2);
+ } while (CMP(q1, delta) & pn_Cmp_Lt || (CMP(q1, delta) & pn_Cmp_Eq && CMP(r1, ZERO(u_mode)) & pn_Cmp_Eq));
- d_cmp = CMP(d, ZERO(mode));
+ d_cmp = CMP(d, ZERO(mode));
- if (d_cmp & pn_Cmp_Ge)
- mag.M = ADD(CNV(q2, mode), ONE(mode));
- else
- mag.M = SUB(ZERO(mode), ADD(CNV(q2, mode), ONE(mode)));
+ if (d_cmp & pn_Cmp_Ge)
+ mag.M = ADD(CNV(q2, mode), ONE(mode));
+ else
+ mag.M = SUB(ZERO(mode), ADD(CNV(q2, mode), ONE(mode)));
- M_cmp = CMP(mag.M, ZERO(mode));
+ M_cmp = CMP(mag.M, ZERO(mode));
- mag.s = p - bits;
+ mag.s = p - bits;
- /* need an add if d > 0 && M < 0 */
- mag.need_add = d_cmp & pn_Cmp_Gt && M_cmp & pn_Cmp_Lt;
+ /* need an add if d > 0 && M < 0 */
+ mag.need_add = d_cmp & pn_Cmp_Gt && M_cmp & pn_Cmp_Lt;
- /* need a sub if d < 0 && M > 0 */
- mag.need_sub = d_cmp & pn_Cmp_Lt && M_cmp & pn_Cmp_Gt;
+ /* need a sub if d < 0 && M > 0 */
+ mag.need_sub = d_cmp & pn_Cmp_Lt && M_cmp & pn_Cmp_Gt;
- tarval_set_integer_overflow_mode(rem);
+ tarval_set_integer_overflow_mode(rem);
- return mag;
+ return mag;
}
/** The result of the magicu() function. */
struct mu {
- tarval *M; /**< magic add constant */
- int s; /**< shift amount */
- int need_add; /**< add indicator */
+ tarval *M; /**< magic add constant */
+ int s; /**< shift amount */
+ int need_add; /**< add indicator */
};
/**
*
* see Hacker's Delight: 10-10 Integer Division by Constants: Incorporation into a Compiler (Unsigned)
*/
-static struct mu magicu(tarval *d)
-{
- ir_mode *mode = get_tarval_mode(d);
- int bits = get_mode_size_bits(mode);
- int p;
- tarval *nc, *delta, *q1, *r1, *q2, *r2;
- tarval *bits_minus_1, *two_bits_1, *seven_ff;
-
- struct mu magu;
-
- tarval_int_overflow_mode_t rem = tarval_get_integer_overflow_mode();
-
- /* we need overflow mode to work correctly */
- tarval_set_integer_overflow_mode(TV_OVERFLOW_WRAP);
-
- bits_minus_1 = new_tarval_from_long(bits - 1, mode);
- two_bits_1 = SHL(get_mode_one(mode), bits_minus_1);
- seven_ff = SUB(two_bits_1, ONE(mode));
-
- magu.need_add = 0; /* initialize the add indicator */
- nc = SUB(NEG(ONE(mode)), MOD(NEG(d), d));
- p = bits - 1; /* Init: p */
- q1 = DIV(two_bits_1, nc); /* Init: q1 = 2^p/nc */
- r1 = SUB(two_bits_1, MUL(q1, nc)); /* Init: r1 = rem(2^p, nc) */
- q2 = DIV(seven_ff, d); /* Init: q2 = (2^p - 1)/d */
- r2 = SUB(seven_ff, MUL(q2, d)); /* Init: r2 = rem(2^p - 1, d) */
-
- do {
- ++p;
- if (CMP(r1, SUB(nc, r1)) & pn_Cmp_Ge) {
- q1 = ADD(ADD(q1, q1), ONE(mode));
- r1 = SUB(ADD(r1, r1), nc);
- }
- else {
- q1 = ADD(q1, q1);
- r1 = ADD(r1, r1);
- }
-
- if (CMP(ADD(r2, ONE(mode)), SUB(d, r2)) & pn_Cmp_Ge) {
- if (CMP(q2, seven_ff) & pn_Cmp_Ge)
- magu.need_add = 1;
-
- q2 = ADD(ADD(q2, q2), ONE(mode));
- r2 = SUB(ADD(ADD(r2, r2), ONE(mode)), d);
- }
- else {
- if (CMP(q2, two_bits_1) & pn_Cmp_Ge)
- magu.need_add = 1;
-
- q2 = ADD(q2, q2);
- r2 = ADD(ADD(r2, r2), ONE(mode));
- }
- delta = SUB(SUB(d, ONE(mode)), r2);
- } while (p < 2*bits &&
- (CMP(q1, delta) & pn_Cmp_Lt || (CMP(q1, delta) & pn_Cmp_Eq && CMP(r1, ZERO(mode)) & pn_Cmp_Eq)));
-
- magu.M = ADD(q2, ONE(mode)); /* Magic number */
- magu.s = p - bits; /* and shift amount */
-
- tarval_set_integer_overflow_mode(rem);
-
- return magu;
+static struct mu magicu(tarval *d) {
+ ir_mode *mode = get_tarval_mode(d);
+ int bits = get_mode_size_bits(mode);
+ int p;
+ tarval *nc, *delta, *q1, *r1, *q2, *r2;
+ tarval *bits_minus_1, *two_bits_1, *seven_ff;
+
+ struct mu magu;
+
+ tarval_int_overflow_mode_t rem = tarval_get_integer_overflow_mode();
+
+ /* we need overflow mode to work correctly */
+ tarval_set_integer_overflow_mode(TV_OVERFLOW_WRAP);
+
+ bits_minus_1 = new_tarval_from_long(bits - 1, mode);
+ two_bits_1 = SHL(get_mode_one(mode), bits_minus_1);
+ seven_ff = SUB(two_bits_1, ONE(mode));
+
+ magu.need_add = 0; /* initialize the add indicator */
+ nc = SUB(NEG(ONE(mode)), MOD(NEG(d), d));
+ p = bits - 1; /* Init: p */
+ q1 = DIV(two_bits_1, nc); /* Init: q1 = 2^p/nc */
+ r1 = SUB(two_bits_1, MUL(q1, nc)); /* Init: r1 = rem(2^p, nc) */
+ q2 = DIV(seven_ff, d); /* Init: q2 = (2^p - 1)/d */
+ r2 = SUB(seven_ff, MUL(q2, d)); /* Init: r2 = rem(2^p - 1, d) */
+
+ do {
+ ++p;
+ if (CMP(r1, SUB(nc, r1)) & pn_Cmp_Ge) {
+ q1 = ADD(ADD(q1, q1), ONE(mode));
+ r1 = SUB(ADD(r1, r1), nc);
+ }
+ else {
+ q1 = ADD(q1, q1);
+ r1 = ADD(r1, r1);
+ }
+
+ if (CMP(ADD(r2, ONE(mode)), SUB(d, r2)) & pn_Cmp_Ge) {
+ if (CMP(q2, seven_ff) & pn_Cmp_Ge)
+ magu.need_add = 1;
+
+ q2 = ADD(ADD(q2, q2), ONE(mode));
+ r2 = SUB(ADD(ADD(r2, r2), ONE(mode)), d);
+ }
+ else {
+ if (CMP(q2, two_bits_1) & pn_Cmp_Ge)
+ magu.need_add = 1;
+
+ q2 = ADD(q2, q2);
+ r2 = ADD(ADD(r2, r2), ONE(mode));
+ }
+ delta = SUB(SUB(d, ONE(mode)), r2);
+ } while (p < 2*bits &&
+ (CMP(q1, delta) & pn_Cmp_Lt || (CMP(q1, delta) & pn_Cmp_Eq && CMP(r1, ZERO(mode)) & pn_Cmp_Eq)));
+
+ magu.M = ADD(q2, ONE(mode)); /* Magic number */
+ magu.s = p - bits; /* and shift amount */
+
+ tarval_set_integer_overflow_mode(rem);
+
+ return magu;
}
/**
*
* Note that 'div' might be a mod or DivMod operation as well
*/
-static ir_node *replace_div_by_mulh(ir_node *div, tarval *tv)
-{
- dbg_info *dbg = get_irn_dbg_info(div);
- ir_node *n = get_binop_left(div);
- ir_node *block = get_irn_n(div, -1);
- ir_mode *mode = get_irn_mode(n);
- int bits = get_mode_size_bits(mode);
- ir_node *q, *t, *c;
-
- /* Beware: do not transform bad code */
- if (is_Bad(n) || is_Bad(block))
- return div;
-
- if (mode_is_signed(mode)) {
- struct ms mag = magic(tv);
-
- /* generate the Mulh instruction */
- c = new_r_Const(current_ir_graph, block, mode, mag.M);
- q = new_rd_Mulh(dbg, current_ir_graph, block, n, c, mode);
-
- /* do we need an Add or Sub */
- if (mag.need_add)
- q = new_rd_Add(dbg, current_ir_graph, block, q, n, mode);
- else if (mag.need_sub)
- q = new_rd_Sub(dbg, current_ir_graph, block, q, n, mode);
-
- /* Do we need the shift */
- if (mag.s > 0) {
- c = new_r_Const_long(current_ir_graph, block, mode_Iu, mag.s);
- q = new_rd_Shrs(dbg, current_ir_graph, block, q, c, mode);
- }
-
- /* final */
- c = new_r_Const_long(current_ir_graph, block, mode_Iu, bits-1);
- t = new_rd_Shr(dbg, current_ir_graph, block, q, c, mode);
-
- q = new_rd_Add(dbg, current_ir_graph, block, q, t, mode);
- }
- else {
- struct mu mag = magicu(tv);
- ir_node *c;
-
- /* generate the Mulh instruction */
- c = new_r_Const(current_ir_graph, block, mode, mag.M);
- q = new_rd_Mulh(dbg, current_ir_graph, block, n, c, mode);
-
- if (mag.need_add) {
- if (mag.s > 0) {
- /* use the GM scheme */
- t = new_rd_Sub(dbg, current_ir_graph, block, n, q, mode);
-
- c = new_r_Const(current_ir_graph, block, mode_Iu, get_mode_one(mode_Iu));
- t = new_rd_Shr(dbg, current_ir_graph, block, t, c, mode);
-
- t = new_rd_Add(dbg, current_ir_graph, block, t, q, mode);
-
- c = new_r_Const_long(current_ir_graph, block, mode_Iu, mag.s-1);
- q = new_rd_Shr(dbg, current_ir_graph, block, t, c, mode);
- }
- else {
- /* use the default scheme */
- q = new_rd_Add(dbg, current_ir_graph, block, q, n, mode);
- }
- }
- else if (mag.s > 0) { /* default scheme, shift needed */
- c = new_r_Const_long(current_ir_graph, block, mode_Iu, mag.s);
- q = new_rd_Shr(dbg, current_ir_graph, block, q, c, mode);
- }
- }
- return q;
+static ir_node *replace_div_by_mulh(ir_node *div, tarval *tv) {
+ dbg_info *dbg = get_irn_dbg_info(div);
+ ir_node *n = get_binop_left(div);
+ ir_node *block = get_irn_n(div, -1);
+ ir_mode *mode = get_irn_mode(n);
+ int bits = get_mode_size_bits(mode);
+ ir_node *q, *t, *c;
+
+ /* Beware: do not transform bad code */
+ if (is_Bad(n) || is_Bad(block))
+ return div;
+
+ if (mode_is_signed(mode)) {
+ struct ms mag = magic(tv);
+
+ /* generate the Mulh instruction */
+ c = new_r_Const(current_ir_graph, block, mode, mag.M);
+ q = new_rd_Mulh(dbg, current_ir_graph, block, n, c, mode);
+
+ /* do we need an Add or Sub */
+ if (mag.need_add)
+ q = new_rd_Add(dbg, current_ir_graph, block, q, n, mode);
+ else if (mag.need_sub)
+ q = new_rd_Sub(dbg, current_ir_graph, block, q, n, mode);
+
+ /* Do we need the shift */
+ if (mag.s > 0) {
+ c = new_r_Const_long(current_ir_graph, block, mode_Iu, mag.s);
+ q = new_rd_Shrs(dbg, current_ir_graph, block, q, c, mode);
+ }
+
+ /* final */
+ c = new_r_Const_long(current_ir_graph, block, mode_Iu, bits-1);
+ t = new_rd_Shr(dbg, current_ir_graph, block, q, c, mode);
+
+ q = new_rd_Add(dbg, current_ir_graph, block, q, t, mode);
+ } else {
+ struct mu mag = magicu(tv);
+ ir_node *c;
+
+ /* generate the Mulh instruction */
+ c = new_r_Const(current_ir_graph, block, mode, mag.M);
+ q = new_rd_Mulh(dbg, current_ir_graph, block, n, c, mode);
+
+ if (mag.need_add) {
+ if (mag.s > 0) {
+ /* use the GM scheme */
+ t = new_rd_Sub(dbg, current_ir_graph, block, n, q, mode);
+
+ c = new_r_Const(current_ir_graph, block, mode_Iu, get_mode_one(mode_Iu));
+ t = new_rd_Shr(dbg, current_ir_graph, block, t, c, mode);
+
+ t = new_rd_Add(dbg, current_ir_graph, block, t, q, mode);
+
+ c = new_r_Const_long(current_ir_graph, block, mode_Iu, mag.s-1);
+ q = new_rd_Shr(dbg, current_ir_graph, block, t, c, mode);
+ } else {
+ /* use the default scheme */
+ q = new_rd_Add(dbg, current_ir_graph, block, q, n, mode);
+ }
+ } else if (mag.s > 0) { /* default scheme, shift needed */
+ c = new_r_Const_long(current_ir_graph, block, mode_Iu, mag.s);
+ q = new_rd_Shr(dbg, current_ir_graph, block, q, c, mode);
+ }
+ }
+ return q;
}
/* Replace Divs with Shifts and Add/Subs and Mulh. */
-ir_node *arch_dep_replace_div_by_const(ir_node *irn)
-{
- ir_node *res = irn;
-
- /* If the architecture dependent optimizations were not initialized
- or this optimization was not enabled. */
- if (params == NULL || (opts & arch_dep_div_by_const) == 0)
- return irn;
-
- if (get_irn_opcode(irn) == iro_Div) {
- ir_node *c = get_Div_right(irn);
- ir_node *block, *left;
- ir_mode *mode;
- tarval *tv, *ntv;
- dbg_info *dbg;
- int n, bits;
- int k, n_flag;
-
- if (get_irn_op(c) != op_Const)
- return irn;
-
- tv = get_Const_tarval(c);
-
- /* check for division by zero */
- if (classify_tarval(tv) == TV_CLASSIFY_NULL)
- return irn;
-
- left = get_Div_left(irn);
- mode = get_irn_mode(left);
- block = get_irn_n(irn, -1);
- dbg = get_irn_dbg_info(irn);
-
- bits = get_mode_size_bits(mode);
- n = (bits + 7) / 8;
-
- k = -1;
- if (mode_is_signed(mode)) {
- /* for signed divisions, the algorithm works for a / -2^k by negating the result */
- ntv = tarval_neg(tv);
- n_flag = 1;
- k = tv_ld2(ntv, n);
- }
-
- if (k < 0) {
- n_flag = 0;
- k = tv_ld2(tv, n);
- }
-
- if (k >= 0) { /* division by 2^k or -2^k */
- if (mode_is_signed(mode)) {
- ir_node *k_node;
- ir_node *curr = left;
-
- if (k != 1) {
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k - 1);
- curr = new_rd_Shrs(dbg, current_ir_graph, block, left, k_node, mode);
- }
-
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, bits - k);
- curr = new_rd_Shr(dbg, current_ir_graph, block, curr, k_node, mode);
-
- curr = new_rd_Add(dbg, current_ir_graph, block, left, curr, mode);
-
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k);
- res = new_rd_Shrs(dbg, current_ir_graph, block, curr, k_node, mode);
-
- if (n_flag) { /* negate the result */
- ir_node *k_node;
-
- k_node = new_r_Const(current_ir_graph, block, mode, get_mode_null(mode));
- res = new_rd_Sub(dbg, current_ir_graph, block, k_node, res, mode);
- }
- }
- else { /* unsigned case */
- ir_node *k_node;
-
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k);
- res = new_rd_Shr(dbg, current_ir_graph, block, left, k_node, mode);
- }
- }
- else {
- /* other constant */
- if (allow_Mulh(mode))
- res = replace_div_by_mulh(irn, tv);
- }
- }
-
- if (res != irn)
- hook_arch_dep_replace_division_by_const(irn);
-
- return res;
+ir_node *arch_dep_replace_div_by_const(ir_node *irn) {
+ ir_node *res = irn;
+
+ /* If the architecture dependent optimizations were not initialized
+ or this optimization was not enabled. */
+ if (params == NULL || (opts & arch_dep_div_by_const) == 0)
+ return irn;
+
+ if (get_irn_opcode(irn) == iro_Div) {
+ ir_node *c = get_Div_right(irn);
+ ir_node *block, *left;
+ ir_mode *mode;
+ tarval *tv, *ntv;
+ dbg_info *dbg;
+ int n, bits;
+ int k, n_flag;
+
+ if (get_irn_op(c) != op_Const)
+ return irn;
+
+ tv = get_Const_tarval(c);
+
+ /* check for division by zero */
+ if (classify_tarval(tv) == TV_CLASSIFY_NULL)
+ return irn;
+
+ left = get_Div_left(irn);
+ mode = get_irn_mode(left);
+ block = get_irn_n(irn, -1);
+ dbg = get_irn_dbg_info(irn);
+
+ bits = get_mode_size_bits(mode);
+ n = (bits + 7) / 8;
+
+ k = -1;
+ if (mode_is_signed(mode)) {
+ /* for signed divisions, the algorithm works for a / -2^k by negating the result */
+ ntv = tarval_neg(tv);
+ n_flag = 1;
+ k = tv_ld2(ntv, n);
+ }
+
+ if (k < 0) {
+ n_flag = 0;
+ k = tv_ld2(tv, n);
+ }
+
+ if (k >= 0) { /* division by 2^k or -2^k */
+ if (mode_is_signed(mode)) {
+ ir_node *k_node;
+ ir_node *curr = left;
+
+ if (k != 1) {
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k - 1);
+ curr = new_rd_Shrs(dbg, current_ir_graph, block, left, k_node, mode);
+ }
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, bits - k);
+ curr = new_rd_Shr(dbg, current_ir_graph, block, curr, k_node, mode);
+
+ curr = new_rd_Add(dbg, current_ir_graph, block, left, curr, mode);
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k);
+ res = new_rd_Shrs(dbg, current_ir_graph, block, curr, k_node, mode);
+
+ if (n_flag) { /* negate the result */
+ ir_node *k_node;
+
+ k_node = new_r_Const(current_ir_graph, block, mode, get_mode_null(mode));
+ res = new_rd_Sub(dbg, current_ir_graph, block, k_node, res, mode);
+ }
+ } else { /* unsigned case */
+ ir_node *k_node;
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k);
+ res = new_rd_Shr(dbg, current_ir_graph, block, left, k_node, mode);
+ }
+ } else {
+ /* other constant */
+ if (allow_Mulh(mode))
+ res = replace_div_by_mulh(irn, tv);
+ }
+ }
+
+ if (res != irn)
+ hook_arch_dep_replace_division_by_const(irn);
+
+ return res;
}
/* Replace Mods with Shifts and Add/Subs and Mulh. */
-ir_node *arch_dep_replace_mod_by_const(ir_node *irn)
-{
- ir_node *res = irn;
-
- /* If the architecture dependent optimizations were not initialized
- or this optimization was not enabled. */
- if (params == NULL || (opts & arch_dep_mod_by_const) == 0)
- return irn;
-
- if (get_irn_opcode(irn) == iro_Mod) {
- ir_node *c = get_Mod_right(irn);
- ir_node *block, *left;
- ir_mode *mode;
- tarval *tv, *ntv;
- dbg_info *dbg;
- int n, bits;
- int k;
-
- if (get_irn_op(c) != op_Const)
- return irn;
-
- tv = get_Const_tarval(c);
-
- /* check for division by zero */
- if (classify_tarval(tv) == TV_CLASSIFY_NULL)
- return irn;
-
- left = get_Mod_left(irn);
- mode = get_irn_mode(left);
- block = get_irn_n(irn, -1);
- dbg = get_irn_dbg_info(irn);
- bits = get_mode_size_bits(mode);
- n = (bits + 7) / 8;
-
- k = -1;
- if (mode_is_signed(mode)) {
- /* for signed divisions, the algorithm works for a / -2^k by negating the result */
- ntv = tarval_neg(tv);
- k = tv_ld2(ntv, n);
- }
-
- if (k < 0) {
- k = tv_ld2(tv, n);
- }
-
- if (k >= 0) {
- /* division by 2^k or -2^k:
- * we use "modulus" here, so x % y == x % -y that's why is no difference between the case 2^k and -2^k
- */
- if (mode_is_signed(mode)) {
- ir_node *k_node;
- ir_node *curr = left;
-
- if (k != 1) {
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k - 1);
- curr = new_rd_Shrs(dbg, current_ir_graph, block, left, k_node, mode);
- }
-
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, bits - k);
- curr = new_rd_Shr(dbg, current_ir_graph, block, curr, k_node, mode);
-
- curr = new_rd_Add(dbg, current_ir_graph, block, left, curr, mode);
-
- k_node = new_r_Const_long(current_ir_graph, block, mode, (-1) << k);
- curr = new_rd_And(dbg, current_ir_graph, block, curr, k_node, mode);
-
- res = new_rd_Sub(dbg, current_ir_graph, block, left, curr, mode);
- }
- else { /* unsigned case */
- ir_node *k_node;
-
- k_node = new_r_Const_long(current_ir_graph, block, mode, (1 << k) - 1);
- res = new_rd_And(dbg, current_ir_graph, block, left, k_node, mode);
- }
- }
- else {
- /* other constant */
- if (allow_Mulh(mode)) {
- res = replace_div_by_mulh(irn, tv);
-
- res = new_rd_Mul(dbg, current_ir_graph, block, res, c, mode);
-
- /* res = arch_dep_mul_to_shift(res); */
-
- res = new_rd_Sub(dbg, current_ir_graph, block, left, res, mode);
- }
- }
- }
-
- if (res != irn)
- hook_arch_dep_replace_division_by_const(irn);
-
- return res;
+ir_node *arch_dep_replace_mod_by_const(ir_node *irn) {
+ ir_node *res = irn;
+
+ /* If the architecture dependent optimizations were not initialized
+ or this optimization was not enabled. */
+ if (params == NULL || (opts & arch_dep_mod_by_const) == 0)
+ return irn;
+
+ if (get_irn_opcode(irn) == iro_Mod) {
+ ir_node *c = get_Mod_right(irn);
+ ir_node *block, *left;
+ ir_mode *mode;
+ tarval *tv, *ntv;
+ dbg_info *dbg;
+ int n, bits;
+ int k;
+
+ if (get_irn_op(c) != op_Const)
+ return irn;
+
+ tv = get_Const_tarval(c);
+
+ /* check for division by zero */
+ if (classify_tarval(tv) == TV_CLASSIFY_NULL)
+ return irn;
+
+ left = get_Mod_left(irn);
+ mode = get_irn_mode(left);
+ block = get_irn_n(irn, -1);
+ dbg = get_irn_dbg_info(irn);
+ bits = get_mode_size_bits(mode);
+ n = (bits + 7) / 8;
+
+ k = -1;
+ if (mode_is_signed(mode)) {
+ /* for signed divisions, the algorithm works for a / -2^k by negating the result */
+ ntv = tarval_neg(tv);
+ k = tv_ld2(ntv, n);
+ }
+
+ if (k < 0) {
+ k = tv_ld2(tv, n);
+ }
+
+ if (k >= 0) {
+ /* division by 2^k or -2^k:
+ * we use "modulus" here, so x % y == x % -y that's why is no difference between the case 2^k and -2^k
+ */
+ if (mode_is_signed(mode)) {
+ ir_node *k_node;
+ ir_node *curr = left;
+
+ if (k != 1) {
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k - 1);
+ curr = new_rd_Shrs(dbg, current_ir_graph, block, left, k_node, mode);
+ }
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, bits - k);
+ curr = new_rd_Shr(dbg, current_ir_graph, block, curr, k_node, mode);
+
+ curr = new_rd_Add(dbg, current_ir_graph, block, left, curr, mode);
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode, (-1) << k);
+ curr = new_rd_And(dbg, current_ir_graph, block, curr, k_node, mode);
+
+ res = new_rd_Sub(dbg, current_ir_graph, block, left, curr, mode);
+ } else { /* unsigned case */
+ ir_node *k_node;
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode, (1 << k) - 1);
+ res = new_rd_And(dbg, current_ir_graph, block, left, k_node, mode);
+ }
+ } else {
+ /* other constant */
+ if (allow_Mulh(mode)) {
+ res = replace_div_by_mulh(irn, tv);
+
+ res = new_rd_Mul(dbg, current_ir_graph, block, res, c, mode);
+
+ /* res = arch_dep_mul_to_shift(res); */
+
+ res = new_rd_Sub(dbg, current_ir_graph, block, left, res, mode);
+ }
+ }
+ }
+
+ if (res != irn)
+ hook_arch_dep_replace_division_by_const(irn);
+
+ return res;
}
/* Replace DivMods with Shifts and Add/Subs and Mulh. */
-void arch_dep_replace_divmod_by_const(ir_node **div, ir_node **mod, ir_node *irn)
-{
- *div = *mod = NULL;
-
- /* If the architecture dependent optimizations were not initialized
- or this optimization was not enabled. */
- if (params == NULL ||
- ((opts & (arch_dep_div_by_const|arch_dep_mod_by_const)) != (arch_dep_div_by_const|arch_dep_mod_by_const)))
- return;
-
- if (get_irn_opcode(irn) == iro_DivMod) {
- ir_node *c = get_DivMod_right(irn);
- ir_node *block, *left;
- ir_mode *mode;
- tarval *tv, *ntv;
- dbg_info *dbg;
- int n, bits;
- int k, n_flag;
-
- if (get_irn_op(c) != op_Const)
- return;
-
- tv = get_Const_tarval(c);
-
- /* check for division by zero */
- if (classify_tarval(tv) == TV_CLASSIFY_NULL)
- return;
-
- left = get_DivMod_left(irn);
- mode = get_irn_mode(left);
- block = get_irn_n(irn, -1);
- dbg = get_irn_dbg_info(irn);
-
- bits = get_mode_size_bits(mode);
- n = (bits + 7) / 8;
-
- k = -1;
- if (mode_is_signed(mode)) {
- /* for signed divisions, the algorithm works for a / -2^k by negating the result */
- ntv = tarval_neg(tv);
- n_flag = 1;
- k = tv_ld2(ntv, n);
- }
-
- if (k < 0) {
- n_flag = 0;
- k = tv_ld2(tv, n);
- }
-
- if (k >= 0) { /* division by 2^k or -2^k */
- if (mode_is_signed(mode)) {
- ir_node *k_node, *c_k;
- ir_node *curr = left;
-
- if (k != 1) {
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k - 1);
- curr = new_rd_Shrs(dbg, current_ir_graph, block, left, k_node, mode);
- }
-
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, bits - k);
- curr = new_rd_Shr(dbg, current_ir_graph, block, curr, k_node, mode);
-
- curr = new_rd_Add(dbg, current_ir_graph, block, left, curr, mode);
-
- c_k = new_r_Const_long(current_ir_graph, block, mode_Iu, k);
-
- *div = new_rd_Shrs(dbg, current_ir_graph, block, curr, c_k, mode);
-
- if (n_flag) { /* negate the div result */
- ir_node *k_node;
-
- k_node = new_r_Const(current_ir_graph, block, mode, get_mode_null(mode));
- *div = new_rd_Sub(dbg, current_ir_graph, block, k_node, *div, mode);
- }
-
- k_node = new_r_Const_long(current_ir_graph, block, mode, (-1) << k);
- curr = new_rd_And(dbg, current_ir_graph, block, curr, k_node, mode);
-
- *mod = new_rd_Sub(dbg, current_ir_graph, block, left, curr, mode);
- }
- else { /* unsigned case */
- ir_node *k_node;
-
- k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k);
- *div = new_rd_Shr(dbg, current_ir_graph, block, left, k_node, mode);
-
- k_node = new_r_Const_long(current_ir_graph, block, mode, (1 << k) - 1);
- *mod = new_rd_And(dbg, current_ir_graph, block, left, k_node, mode);
- }
- }
- else {
- /* other constant */
- if (allow_Mulh(mode)) {
- ir_node *t;
-
- *div = replace_div_by_mulh(irn, tv);
-
- t = new_rd_Mul(dbg, current_ir_graph, block, *div, c, mode);
-
- /* t = arch_dep_mul_to_shift(t); */
-
- *mod = new_rd_Sub(dbg, current_ir_graph, block, left, t, mode);
- }
- }
- }
+void arch_dep_replace_divmod_by_const(ir_node **div, ir_node **mod, ir_node *irn) {
+ *div = *mod = NULL;
+
+ /* If the architecture dependent optimizations were not initialized
+ or this optimization was not enabled. */
+ if (params == NULL ||
+ ((opts & (arch_dep_div_by_const|arch_dep_mod_by_const)) != (arch_dep_div_by_const|arch_dep_mod_by_const)))
+ return;
+
+ if (get_irn_opcode(irn) == iro_DivMod) {
+ ir_node *c = get_DivMod_right(irn);
+ ir_node *block, *left;
+ ir_mode *mode;
+ tarval *tv, *ntv;
+ dbg_info *dbg;
+ int n, bits;
+ int k, n_flag;
+
+ if (get_irn_op(c) != op_Const)
+ return;
+
+ tv = get_Const_tarval(c);
+
+ /* check for division by zero */
+ if (classify_tarval(tv) == TV_CLASSIFY_NULL)
+ return;
+
+ left = get_DivMod_left(irn);
+ mode = get_irn_mode(left);
+ block = get_irn_n(irn, -1);
+ dbg = get_irn_dbg_info(irn);
+
+ bits = get_mode_size_bits(mode);
+ n = (bits + 7) / 8;
+
+ k = -1;
+ if (mode_is_signed(mode)) {
+ /* for signed divisions, the algorithm works for a / -2^k by negating the result */
+ ntv = tarval_neg(tv);
+ n_flag = 1;
+ k = tv_ld2(ntv, n);
+ }
+
+ if (k < 0) {
+ n_flag = 0;
+ k = tv_ld2(tv, n);
+ }
+
+ if (k >= 0) { /* division by 2^k or -2^k */
+ if (mode_is_signed(mode)) {
+ ir_node *k_node, *c_k;
+ ir_node *curr = left;
+
+ if (k != 1) {
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k - 1);
+ curr = new_rd_Shrs(dbg, current_ir_graph, block, left, k_node, mode);
+ }
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, bits - k);
+ curr = new_rd_Shr(dbg, current_ir_graph, block, curr, k_node, mode);
+
+ curr = new_rd_Add(dbg, current_ir_graph, block, left, curr, mode);
+
+ c_k = new_r_Const_long(current_ir_graph, block, mode_Iu, k);
+
+ *div = new_rd_Shrs(dbg, current_ir_graph, block, curr, c_k, mode);
+
+ if (n_flag) { /* negate the div result */
+ ir_node *k_node;
+
+ k_node = new_r_Const(current_ir_graph, block, mode, get_mode_null(mode));
+ *div = new_rd_Sub(dbg, current_ir_graph, block, k_node, *div, mode);
+ }
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode, (-1) << k);
+ curr = new_rd_And(dbg, current_ir_graph, block, curr, k_node, mode);
+
+ *mod = new_rd_Sub(dbg, current_ir_graph, block, left, curr, mode);
+ } else { /* unsigned case */
+ ir_node *k_node;
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode_Iu, k);
+ *div = new_rd_Shr(dbg, current_ir_graph, block, left, k_node, mode);
+
+ k_node = new_r_Const_long(current_ir_graph, block, mode, (1 << k) - 1);
+ *mod = new_rd_And(dbg, current_ir_graph, block, left, k_node, mode);
+ }
+ } else {
+ /* other constant */
+ if (allow_Mulh(mode)) {
+ ir_node *t;
+
+ *div = replace_div_by_mulh(irn, tv);
+
+ t = new_rd_Mul(dbg, current_ir_graph, block, *div, c, mode);
+
+ /* t = arch_dep_mul_to_shift(t); */
+
+ *mod = new_rd_Sub(dbg, current_ir_graph, block, left, t, mode);
+ }
+ }
+ }
- if (*div)
- hook_arch_dep_replace_division_by_const(irn);
+ if (*div)
+ hook_arch_dep_replace_division_by_const(irn);
}
-static const arch_dep_params_t default_params = {
- 1, /* also use subs */
- 4, /* maximum shifts */
- 31, /* maximum shift amount */
+static const ir_settings_arch_dep_t default_params = {
+ 1, /* also use subs */
+ 4, /* maximum shifts */
+ 31, /* maximum shift amount */
- 0, /* allow Mulhs */
- 0, /* allow Mulus */
- 32 /* Mulh allowed up to 32 bit */
+ 0, /* allow Mulhs */
+ 0, /* allow Mulus */
+ 32 /* Mulh allowed up to 32 bit */
};
/* A default parameter factory for testing purposes. */
-const arch_dep_params_t *arch_dep_default_factory(void) {
- return &default_params;
+const ir_settings_arch_dep_t *arch_dep_default_factory(void) {
+ return &default_params;
}