void mergeAt(diff_t const i) {
diff_t const stackSize = pending_.size();
assert( stackSize >= 2 );
assert( i >= 0 );
assert( i == stackSize - 2 || i == stackSize - 3 );
iter_t base1 = pending_[i].base;
diff_t len1 = pending_[i].len;
iter_t base2 = pending_[i + 1].base;
diff_t len2 = pending_[i + 1].len;
assert( len1 > 0 && len2 > 0 );
assert( base1 + len1 == base2 );
pending_[i].len = len1 + len2;
if(i == stackSize - 3) {
pending_[i + 1] = pending_[i + 2];
}
pending_.pop_back();
diff_t const k = gallopRight(*base2, base1, len1, 0);
assert( k >= 0 );
base1 += k;
len1 -= k;
if(len1 == 0) {
return;
}
len2 = gallopLeft(*(base1 + (len1 - 1)), base2, len2, len2 - 1);
assert( len2 >= 0 );
if(len2 == 0) {
return;
}
if(len1 <= len2) {
mergeLo(base1, len1, base2, len2);
}
else {
mergeHi(base1, len1, base2, len2);
}
}
void mergeHi(iter_t const base1, diff_t len1, iter_t const base2, diff_t len2) {
assert(len1 > 0 && len2 > 0 && base1 + len1 == base2);
copy_to_tmp(base2, len2);
iter_t cursor1 = base1 + len1;
tmp_iter_t cursor2 = tmp_.begin() + len2;
iter_t dest = base2 + len2;
*(--dest) = GFX_TIMSORT_MOVE(*(--cursor1));
if (--len1 == 0) {
GFX_TIMSORT_MOVE_RANGE(tmp_.begin(), tmp_.begin() + len2, dest - len2);
return;
}
if (len2 == 1) {
dest -= len1;
cursor1 -= len1;
GFX_TIMSORT_MOVE_BACKWARD(cursor1, cursor1 + len1, dest + len1);
*(--dest) = GFX_TIMSORT_MOVE(*(--cursor2));
return;
}
int minGallop(minGallop_);
// outer:
while (true) {
diff_t count1 = 0;
diff_t count2 = 0;
bool break_outer = false;
do {
assert(len1 > 0 && len2 > 1);
if (comp_.lt(*(cursor2-1), *(cursor1-1))) {
*(--dest) = GFX_TIMSORT_MOVE(*(--cursor1));
++count1;
count2 = 0;
if (--len1 == 0) {
break_outer = true;
break;
}
} else {
*(--dest) = GFX_TIMSORT_MOVE(*(--cursor2));
++count2;
count1 = 0;
if (--len2 == 1) {
break_outer = true;
break;
}
}
} while ((count1 | count2) < minGallop);
if (break_outer) {
break;
}
do {
assert(len1 > 0 && len2 > 1);
count1 = len1 - gallopRight(*(cursor2-1), base1, len1, len1 - 1);
if (count1 != 0) {
dest -= count1;
cursor1 -= count1;
len1 -= count1;
GFX_TIMSORT_MOVE_BACKWARD(cursor1, cursor1 + count1, dest + count1);
if (len1 == 0) {
break_outer = true;
break;
}
}
*(--dest) = GFX_TIMSORT_MOVE(*(--cursor2));
if (--len2 == 1) {
break_outer = true;
break;
}
count2 = len2 - gallopLeft(*(cursor1-1), tmp_.begin(), len2, len2 - 1);
if (count2 != 0) {
dest -= count2;
cursor2 -= count2;
len2 -= count2;
GFX_TIMSORT_MOVE_RANGE(cursor2, cursor2 + count2, dest);
if (len2 <= 1) {
break_outer = true;
break;
}
}
*(--dest) = GFX_TIMSORT_MOVE(*(--cursor1));
if (--len1 == 0) {
break_outer = true;
break;
}
minGallop--;
} while ((count1 >= MIN_GALLOP) | (count2 >= MIN_GALLOP));
if (break_outer) {
break;
}
if (minGallop < 0) {
minGallop = 0;
}
minGallop += 2;
} // end of "outer" loop
minGallop_ = std::min(minGallop, 1);
if (len2 == 1) {
assert(len1 > 0);
dest -= len1;
GFX_TIMSORT_MOVE_BACKWARD(cursor1 - len1, cursor1, dest + len1);
*(--dest) = GFX_TIMSORT_MOVE(*(--cursor2));
} else {
assert(len2 != 0 && "Comparison function violates its general contract");
assert(len1 == 0);
assert(len2 > 1);
GFX_TIMSORT_MOVE_RANGE(tmp_.begin(), tmp_.begin() + len2, dest - len2);
}
}
void mergeHi(iter_t const base1, diff_t len1, iter_t const base2, diff_t len2) {
assert( len1 > 0 && len2 > 0 && base1 + len1 == base2 );
copy_to_tmp(base2, len2);
iter_t cursor1 = base1 + (len1 - 1);
tmp_iter_t cursor2 = tmp_.begin() + (len2 - 1);
iter_t dest = base2 + (len2 - 1);
*(dest--) = *(cursor1--);
if(--len1 == 0) {
std::copy(tmp_.begin(), tmp_.begin() + len2, dest - (len2 - 1));
return;
}
if(len2 == 1) {
dest -= len1;
cursor1 -= len1;
std::copy(cursor1 + 1, cursor1 + (1 + len1), dest + 1);
*dest = *cursor2;
return;
}
int minGallop( minGallop_ );
// outer:
while(true) {
int count1 = 0;
int count2 = 0;
bool break_outer = false;
do {
assert( len1 > 0 && len2 > 1 );
if(comp_.lt(*cursor2, *cursor1)) {
*(dest--) = *(cursor1--);
++count1;
count2 = 0;
if(--len1 == 0) {
break_outer = true;
break;
}
}
else {
*(dest--) = *(cursor2--);
++count2;
count1 = 0;
if(--len2 == 1) {
break_outer = true;
break;
}
}
} while( (count1 | count2) < minGallop );
if(break_outer) {
break;
}
do {
assert( len1 > 0 && len2 > 1 );
count1 = len1 - gallopRight(*cursor2, base1, len1, len1 - 1);
if(count1 != 0) {
dest -= count1;
cursor1 -= count1;
len1 -= count1;
std::copy(cursor1 + 1, cursor1 + (1 + count1), dest + 1);
if(len1 == 0) {
break_outer = true;
break;
}
}
*(dest--) = *(cursor2--);
if(--len2 == 1) {
break_outer = true;
break;
}
count2 = len2 - gallopLeft(*cursor1, tmp_.begin(), len2, len2 - 1);
if(count2 != 0) {
dest -= count2;
cursor2 -= count2;
len2 -= count2;
std::copy(cursor2 + 1, cursor2 + (1 + count2), dest + 1);
if(len2 <= 1) {
break_outer = true;
break;
}
}
*(dest--) = *(cursor1--);
if(--len1 == 0) {
break_outer = true;
break;
}
minGallop--;
} while( (count1 >= MIN_GALLOP) | (count2 >= MIN_GALLOP) );
if(break_outer) {
break;
}
if(minGallop < 0) {
minGallop = 0;
}
minGallop += 2;
} // end of "outer" loop
minGallop_ = std::min(minGallop, 1);
if(len2 == 1) {
assert( len1 > 0 );
dest -= len1;
cursor1 -= len1;
std::copy(cursor1 + 1, cursor1 + (1 + len1), dest + 1);
*dest = *cursor2;
}
else {
assert( len2 != 0 && "Comparision function violates its general contract");
assert( len1 == 0 );
assert( len2 > 1 );
std::copy(tmp_.begin(), tmp_.begin() + len2, dest - (len2 - 1));
}
}
void mergeLo(iter_t const base1, diff_t len1, iter_t const base2, diff_t len2) {
assert( len1 > 0 && len2 > 0 && base1 + len1 == base2 );
copy_to_tmp(base1, len1);
tmp_iter_t cursor1 = tmp_.begin();
iter_t cursor2 = base2;
iter_t dest = base1;
*(dest++) = *(cursor2++);
if(--len2 == 0) {
std::copy(cursor1, cursor1 + len1, dest);
return;
}
if(len1 == 1) {
std::copy(cursor2, cursor2 + len2, dest);
*(dest + len2) = *cursor1;
return;
}
int minGallop(minGallop_);
// outer:
while(true) {
int count1 = 0;
int count2 = 0;
bool break_outer = false;
do {
assert( len1 > 1 && len2 > 0 );
if(comp_.lt(*cursor2, *cursor1)) {
*(dest++) = *(cursor2++);
++count2;
count1 = 0;
if(--len2 == 0) {
break_outer = true;
break;
}
}
else {
*(dest++) = *(cursor1++);
++count1;
count2 = 0;
if(--len1 == 1) {
break_outer = true;
break;
}
}
} while( (count1 | count2) < minGallop );
if(break_outer) {
break;
}
do {
assert( len1 > 1 && len2 > 0 );
count1 = gallopRight(*cursor2, cursor1, len1, 0);
if(count1 != 0) {
std::copy(cursor1, cursor1 + count1, dest);
dest += count1;
cursor1 += count1;
len1 -= count1;
if(len1 <= 1) {
break_outer = true;
break;
}
}
*(dest++) = *(cursor2++);
if(--len2 == 0) {
break_outer = true;
break;
}
count2 = gallopLeft(*cursor1, cursor2, len2, 0);
if(count2 != 0) {
std::copy(cursor2, cursor2 + count2, dest);
dest += count2;
cursor2 += count2;
len2 -= count2;
if(len2 == 0) {
break_outer = true;
break;
}
}
*(dest++) = *(cursor1++);
if(--len1 == 1) {
break_outer = true;
break;
}
--minGallop;
} while( (count1 >= MIN_GALLOP) | (count2 >= MIN_GALLOP) );
if(break_outer) {
break;
}
if(minGallop < 0) {
minGallop = 0;
}
minGallop += 2;
} // end of "outer" loop
minGallop_ = std::min(minGallop, 1);
if(len1 == 1) {
assert( len2 > 0 );
std::copy(cursor2, cursor2 + len2, dest);
*(dest + len2) = *cursor1;
}
else {
assert( len1 != 0 && "Comparision function violates its general contract");
assert( len2 == 0 );
assert( len1 > 1 );
std::copy(cursor1, cursor1 + len1, dest);
}
}
