Last active
November 5, 2023 00:10
-
-
Save dermesser/e751aa5b0f90f258b15e to your computer and use it in GitHub Desktop.
A simple rope implementation in C++ – should work well enough.
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
// Licensed under MIT license. | |
// (c) Lewin Bormann 2014 | |
# include <string> | |
# include <iostream> | |
# include <list> | |
# include <cstring> | |
# include <algorithm> | |
using std::string; | |
class Rope | |
{ | |
public: | |
Rope(const string&); | |
Rope(const char*); | |
Rope(const Rope&); | |
Rope(Rope&&); | |
~Rope(void); | |
typedef string::value_type CharT; | |
CharT at(unsigned int); | |
void insert(unsigned int, const char*); | |
void insert(unsigned int, const string&); | |
unsigned int length(void) const; | |
void print_tree(std::ostream&); | |
void copy(char*, unsigned int) const; | |
void consolidate(void); // make one contiguous node. | |
private: | |
struct RopeNode | |
{ | |
~RopeNode(void); | |
RopeNode(void); | |
void print_tree(std::ostream&, unsigned int); | |
const char* fragment; | |
RopeNode *left, *right; | |
unsigned int weight; | |
}; | |
// Management | |
void update_weights(RopeNode*) const; | |
unsigned int internal_copy(RopeNode*, char*, unsigned int) const; | |
unsigned int weight_sum(RopeNode*) const; | |
// Data. | |
RopeNode* root; | |
std::list<const char*> to_delete; | |
}; | |
Rope::Rope(const char* s) | |
: Rope(string(s)) | |
{} | |
Rope::Rope(const string& s) | |
{ | |
char* permanent_buffer = new char[s.length()+1]; | |
std::strncpy(permanent_buffer,s.c_str(),s.length()+1); | |
to_delete.push_back(permanent_buffer); | |
root = new RopeNode; | |
root->fragment = nullptr; | |
root->left = root->right = nullptr; | |
root->weight = s.length();; | |
root->left = new RopeNode; | |
root->left->fragment = permanent_buffer; | |
root->left->left = root->left->right = nullptr; | |
root->left->weight = s.length(); | |
} | |
Rope::Rope(const Rope& other) | |
{ | |
char* buffer = new char[other.length()]; | |
other.copy(buffer,other.length()); | |
to_delete.push_back(buffer); | |
root = new RopeNode; | |
root->left = new RopeNode; | |
root->weight = root->left->weight = other.length(); | |
root->left->fragment = buffer; | |
} | |
Rope::Rope(Rope&& other) | |
: root(other.root), | |
to_delete(other.to_delete) | |
{ | |
other.root = nullptr; | |
other.to_delete.clear(); | |
} | |
Rope::~Rope(void) | |
{ | |
if ( root ) | |
delete root; | |
for ( auto it = to_delete.begin(); it != to_delete.end(); it++ ) | |
delete[] *it; | |
} | |
Rope::RopeNode::RopeNode(void) | |
: fragment(nullptr), left(nullptr), right(nullptr) | |
{ | |
} | |
Rope::RopeNode::~RopeNode(void) | |
{ | |
if ( left ) | |
delete left; | |
if ( right ) | |
delete right; | |
} | |
Rope::CharT Rope::at(unsigned int ix) // zero-based index | |
{ | |
unsigned int current_ix = ix + 1; // We deal with length values, 1-based index | |
RopeNode* current = root->left; // root has only a left child | |
while ( ! current->fragment ) | |
{ | |
if ( current_ix > current->weight ) | |
{ | |
current_ix -= current->weight; | |
current = current->right; | |
} else if ( current_ix <= current->weight ) | |
{ | |
current = current->left; | |
} | |
} | |
current_ix--; // address array, 0-based index | |
if ( current_ix < current->weight ) | |
return current->fragment[current_ix]; | |
else | |
throw "Shouldn't happen"; | |
} | |
void Rope::insert(unsigned int ix, const string& s) | |
{ | |
insert(ix,s.c_str()); | |
} | |
void Rope::insert(unsigned int ix, const char* s) | |
{ | |
unsigned int new_cont_length = std::strlen(s); | |
char* new_s = new char[new_cont_length]; | |
std::strncpy(new_s,s,new_cont_length); | |
to_delete.push_back(new_s); | |
if ( ix >= root->weight ) // append | |
{ | |
RopeNode* new_root = new RopeNode; | |
RopeNode* new_cont = new RopeNode; | |
new_cont->fragment = new_s; | |
new_cont->weight = new_cont_length; | |
new_root->left = root; | |
root->right = new_cont; | |
new_root->weight = new_cont->weight + root->weight; | |
root = new_root; | |
// No weights update necessary | |
} else if ( ix < root->weight ) | |
{ | |
unsigned int current_ix = ix + 1; | |
RopeNode* current = root; | |
while ( ! current->fragment ) | |
{ | |
if ( current_ix > current->weight ) | |
{ | |
current_ix -= current->weight; | |
current = current->right; | |
} else | |
{ | |
current->weight += new_cont_length; // already update tree | |
current = current->left; | |
} | |
} | |
// Those nodes are attached to current. | |
RopeNode* new_left = new RopeNode; | |
RopeNode* new_right = new RopeNode; | |
RopeNode* new_content = new RopeNode; | |
new_left->fragment = nullptr; | |
new_left->weight = current_ix; | |
new_left->right = new_content; | |
new_left->left = new RopeNode; | |
new_left->left->fragment = current->fragment; | |
new_left->left->weight = current_ix; | |
new_right->fragment = current->fragment + current_ix; | |
new_right->weight = current->weight - current_ix; | |
new_content->fragment = new_s; | |
new_content->weight = std::strlen(new_s); | |
current->fragment = nullptr; | |
current->left = new_left; | |
current->right = new_right; | |
update_weights(current); | |
// no weights update necessary. | |
} else | |
throw 42; | |
} | |
unsigned int Rope::length(void) const | |
{ | |
return root->weight; | |
} | |
void Rope::consolidate(void) | |
{ | |
char* new_contiguous_string = new char[length()]; | |
unsigned int original_length = length(); | |
copy(new_contiguous_string,length()); | |
// Free memory. | |
delete root; | |
std::for_each(to_delete.begin(),to_delete.end(),[](const char* p) { delete[] p; }); | |
to_delete.clear(); | |
// New tree | |
RopeNode* root = new RopeNode, *left = new RopeNode; | |
root->left = left; | |
left->weight = root->weight = original_length; | |
left->fragment = new_contiguous_string; | |
to_delete.push_back(new_contiguous_string); | |
} | |
void Rope::copy(char* buffer, unsigned int length) const | |
{ | |
internal_copy(root,buffer,length); | |
buffer[length-1] = '\0'; | |
} | |
void Rope::print_tree(std::ostream& out) | |
{ | |
out << root->weight << " characters in rope.\n"; | |
root->left->print_tree(out,0); | |
} | |
void Rope::RopeNode::print_tree(std::ostream& out,unsigned int level) | |
{ | |
if ( ! this ) | |
return; | |
for ( unsigned int i = 0; i < level; i++ ) | |
out << "│ "; | |
if ( left ) | |
out << "├── " << string(fragment ? fragment : "<node>" ,fragment ? weight : 6) << " (" << weight << ")\n"; | |
else | |
out << "└── " << string(fragment ? fragment : "<node>",fragment ? weight : 6) << " (" << weight << ")\n"; | |
right->print_tree(out,level+1); | |
left->print_tree(out,level); | |
} | |
void Rope::update_weights(RopeNode* n) const | |
{ | |
if ( n->left ) | |
{ | |
update_weights(n->left); | |
n->weight = weight_sum(n->left); | |
} | |
if ( n->right ) | |
{ | |
update_weights(n->right); | |
} | |
} | |
unsigned int Rope::weight_sum(RopeNode* n) const | |
{ | |
if ( n->fragment ) | |
return n->weight; | |
else | |
{ | |
unsigned int sum = 0; | |
if ( n->left ) | |
sum += weight_sum(n->left); | |
if ( n->right ) | |
sum += weight_sum(n->right); | |
return sum; | |
} | |
} | |
unsigned int Rope::internal_copy(RopeNode* n, char* buffer, unsigned int length) const | |
{ | |
if ( length == 0 || ! n ) | |
return 0; | |
if ( ! n->fragment ) | |
{ | |
unsigned int copied = internal_copy(n->left,buffer,length); | |
unsigned int copied2 = internal_copy(n->right,buffer+copied,length-copied); | |
return copied + copied2; | |
} else | |
{ | |
unsigned int to_copy = n->weight < length ? n->weight : length; | |
std::strncpy(buffer,n->fragment,to_copy); | |
return to_copy; | |
} | |
} | |
int main(void) | |
{ | |
const char* str = "Hello, World!!"; | |
const char* other = "Lewin"; | |
Rope r(str); | |
r.insert(5,other); | |
r.insert(6,other); | |
r.insert(7,other); | |
r.insert(13,other); | |
r.insert(55,str); | |
r.print_tree(std::cout); | |
char* buf = new char[128]; | |
r.copy(buf,127); | |
std::cout << buf << std::endl << std::endl; | |
for ( unsigned int i = 0; i < r.length(); i++ ) | |
std::cout << r.at(i); | |
delete[] buf; | |
return 0; | |
} |
What license do you release this code under?
Same question.
Calling print_tree on a (potentially) nullptr is UB, unfortunately. At least since C++11.
Sign up for free
to join this conversation on GitHub.
Already have an account?
Sign in to comment
What license do you release this code under?