// Game_Music_Emu https://bitbucket.org/mpyne/game-music-emu/ #include #include #include #include "Bml_Parser.h" /* Copyright (C) 2013-2022 Christopher Snowhill. This module is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This module is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this module; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ const char * strchr_limited( const char * in, const char * end, char c ) { while ( in < end && *in != c ) ++in; if ( in < end ) return in; else return 0; } Bml_Node Bml_Node::emptyNode; Bml_Node::Bml_Node() { name = 0; value = 0; } Bml_Node::Bml_Node(char const* name, size_t max_length) { size_t length = 0; char const* ptr = name; while (*ptr && length < max_length) { ++ptr; ++length; } this->name = new char[ length + 1 ]; memcpy( this->name, name, length ); this->name[ length ] = '\0'; value = 0; } Bml_Node::Bml_Node(const Bml_Node &in) { size_t length; name = 0; if (in.name) { length = strlen(in.name); name = new char[length + 1]; memcpy(name, in.name, length + 1); } value = 0; if (in.value) { length = strlen(in.value); value = new char[length + 1]; memcpy(value, in.value, length + 1); } children = in.children; } Bml_Node::~Bml_Node() { delete [] name; delete [] value; } void Bml_Node::clear() { delete [] name; delete [] value; name = 0; value = 0; children.resize( 0 ); } void Bml_Node::setLine(const char *line, size_t max_length) { delete [] name; delete [] value; name = 0; value = 0; size_t length = 0; const char * end = line; while (*end && length < max_length) ++end; const char * line_end = strchr_limited(line, end, '\n'); if ( !line_end ) line_end = end; const char * first_letter = line; while ( first_letter < line_end && *first_letter <= 0x20 ) first_letter++; const char * colon = strchr_limited(first_letter, line_end, ':'); const char * last_letter = line_end - 1; if (colon) { const char * first_value_letter = colon + 1; while (first_value_letter < line_end && *first_value_letter <= 0x20) first_value_letter++; last_letter = line_end - 1; while (last_letter > first_value_letter && *last_letter <= 0x20) last_letter--; value = new char[last_letter - first_value_letter + 2]; memcpy(value, first_value_letter, last_letter - first_value_letter + 1); value[last_letter - first_value_letter + 1] = '\0'; last_letter = colon - 1; } while (last_letter > first_letter && *last_letter <= 0x20) last_letter--; name = new char[last_letter - first_letter + 2]; memcpy(name, first_letter, last_letter - first_letter + 1); name[last_letter - first_letter + 1] = '\0'; } Bml_Node& Bml_Node::addChild(const Bml_Node &child) { children.push_back(child); return *(children.end() - 1); } const char * Bml_Node::getName() const { return name; } const char * Bml_Node::getValue() const { return value; } void Bml_Node::setValue(char const* value) { delete [] this->value; size_t length = strlen( value ) + 1; this->value = new char[ length ]; memcpy( this->value, value, length ); } size_t Bml_Node::getChildCount() const { return children.size(); } Bml_Node const& Bml_Node::getChild(size_t index) const { return children[index]; } Bml_Node & Bml_Node::walkToNode(const char *path, bool use_indexes) { Bml_Node * next_node; Bml_Node * node = this; while ( *path ) { bool item_found = false; size_t array_index = 0; const char * array_index_start = strchr( path, '[' ); const char * next_separator = strchr( path, ':' ); if ( !next_separator ) next_separator = path + strlen(path); if ( use_indexes && array_index_start && array_index_start < next_separator ) { char * temp; array_index = strtoul( array_index_start + 1, &temp, 10 ); } else { array_index_start = next_separator; } if ( use_indexes ) { for ( std::vector::iterator it = node->children.begin(); it != node->children.end(); ++it ) { if ( size_t (array_index_start - path) == strlen(it->name) && strncmp( it->name, path, array_index_start - path ) == 0 ) { next_node = &(*it); if ( array_index == 0 ) { item_found = true; break; } --array_index; } if (array_index) item_found = false; } } else { for ( std::vector::iterator it = node->children.end(); it != node->children.begin(); ) { --it; if ( size_t (next_separator - path) == strlen(it->name) && strncmp( it->name, path, next_separator - path ) == 0 ) { next_node = &(*it); item_found = true; break; } } } if ( !item_found ) { Bml_Node child( path, next_separator - path ); node = &(node->addChild( child )); } else node = next_node; if ( *next_separator ) { path = next_separator + 1; } else break; } return *node; } Bml_Node const& Bml_Node::walkToNode(const char *path) const { Bml_Node const* next_node; Bml_Node const* node = this; while ( *path ) { bool item_found = false; size_t array_index = 0; const char * array_index_start = strchr( path, '[' ); const char * next_separator = strchr( path, ':' ); if ( !next_separator ) next_separator = path + strlen(path); if ( array_index_start && array_index_start < next_separator ) { char * temp; array_index = strtoul( array_index_start + 1, &temp, 10 ); } else { array_index_start = next_separator; } for ( std::vector::const_iterator it = node->children.begin(), ite = node->children.end(); it != ite; ++it ) { if ( size_t (array_index_start - path) == strlen(it->name) && strncmp( it->name, path, array_index_start - path ) == 0 ) { next_node = &(*it); if ( array_index == 0 ) { item_found = true; break; } --array_index; } } if ( !item_found ) return emptyNode; node = next_node; if ( *next_separator ) { path = next_separator + 1; } else break; } return *node; } void Bml_Parser::parseDocument( const char * source, size_t max_length ) { std::vector indents; std::string last_name; std::string current_path; document.clear(); size_t last_indent = ~0ULL; Bml_Node node; size_t length = 0; const char * end = source; while ( *end && length < max_length ) { ++end; ++length; } while ( source < end ) { const char * line_end = strchr_limited( source, end, '\n' ); if ( !line_end ) line_end = end; if ( node.getName() ) last_name = node.getName(); node.setLine( source, line_end - source ); size_t indent = 0; while ( source < line_end && *source <= 0x20 ) { source++; indent++; } if ( last_indent == ~0ULL ) last_indent = indent; if ( indent > last_indent ) { indents.push_back( last_indent ); last_indent = indent; if ( current_path.length() ) current_path += ":"; current_path += last_name; } else if ( indent < last_indent ) { while ( last_indent > indent && indents.size() ) { last_indent = *(indents.end() - 1); indents.pop_back(); size_t colon = current_path.find_last_of( ':' ); if ( colon != std::string::npos ) current_path.resize( colon ); else current_path.resize( 0 ); } last_indent = indent; } document.walkToNode( current_path.c_str() ).addChild( node ); source = line_end; while ( *source && *source == '\n' ) source++; } } const char * Bml_Parser::enumValue(std::string const& path) const { return document.walkToNode(path.c_str()).getValue(); } void Bml_Parser::setValue(std::string const& path, const char *value) { document.walkToNode(path.c_str(), true).setValue(value); } void Bml_Parser::setValue(std::string const& path, long value) { std::ostringstream str; str << value; setValue( path, str.str().c_str() ); } void Bml_Parser::serialize(std::string & out) const { std::ostringstream strOut; serialize(strOut, &document, 0); out = strOut.str(); } void Bml_Parser::serialize(std::ostringstream & out, Bml_Node const* node, unsigned int indent) const { for (unsigned i = 1; i < indent; ++i) out << " "; if ( indent ) { out << node->getName(); if (node->getValue() && strlen(node->getValue())) out << ":" << node->getValue(); out << std::endl; } for (size_t i = 0, j = node->getChildCount(); i < j; ++i) { Bml_Node const& child = node->getChild(i); if ( (!child.getValue() || !strlen(child.getValue())) && !child.getChildCount() ) continue; serialize( out, &child, indent + 1 ); if ( indent == 0 ) out << std::endl; } }