PrusaSlicer-NonPlainar/xs/src/libslic3r/Config.cpp

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#include "Config.hpp"
#include "Utils.hpp"
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#include <assert.h>
#include <fstream>
#include <iostream>
#include <exception> // std::runtime_error
#include <boost/algorithm/string.hpp>
#include <boost/algorithm/string/classification.hpp>
#include <boost/algorithm/string/erase.hpp>
#include <boost/algorithm/string/predicate.hpp>
#include <boost/algorithm/string/replace.hpp>
#include <boost/algorithm/string/split.hpp>
#include <boost/config.hpp>
#include <boost/foreach.hpp>
#include <boost/lexical_cast.hpp>
#include <boost/nowide/cenv.hpp>
#include <boost/nowide/fstream.hpp>
#include <boost/property_tree/ini_parser.hpp>
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#include <string.h>
#if defined(_WIN32) && !defined(setenv) && defined(_putenv_s)
#define setenv(k, v, o) _putenv_s(k, v)
#endif
namespace Slic3r {
std::string escape_string_cstyle(const std::string &str)
{
// Allocate a buffer twice the input string length,
// so the output will fit even if all input characters get escaped.
std::vector<char> out(str.size() * 2, 0);
char *outptr = out.data();
for (size_t i = 0; i < str.size(); ++ i) {
char c = str[i];
if (c == '\n' || c == '\r') {
(*outptr ++) = '\\';
(*outptr ++) = 'n';
} else
(*outptr ++) = c;
}
return std::string(out.data(), outptr - out.data());
}
std::string escape_strings_cstyle(const std::vector<std::string> &strs)
{
// 1) Estimate the output buffer size to avoid buffer reallocation.
size_t outbuflen = 0;
for (size_t i = 0; i < strs.size(); ++ i)
// Reserve space for every character escaped + quotes + semicolon.
outbuflen += strs[i].size() * 2 + 3;
// 2) Fill in the buffer.
std::vector<char> out(outbuflen, 0);
char *outptr = out.data();
for (size_t j = 0; j < strs.size(); ++ j) {
if (j > 0)
// Separate the strings.
(*outptr ++) = ';';
const std::string &str = strs[j];
// Is the string simple or complex? Complex string contains spaces, tabs, new lines and other
// escapable characters. Empty string shall be quoted as well, if it is the only string in strs.
bool should_quote = strs.size() == 1 && str.empty();
for (size_t i = 0; i < str.size(); ++ i) {
char c = str[i];
if (c == ' ' || c == '\t' || c == '\\' || c == '"' || c == '\r' || c == '\n') {
should_quote = true;
break;
}
}
if (should_quote) {
(*outptr ++) = '"';
for (size_t i = 0; i < str.size(); ++ i) {
char c = str[i];
if (c == '\\' || c == '"') {
(*outptr ++) = '\\';
(*outptr ++) = c;
} else if (c == '\n' || c == '\r') {
(*outptr ++) = '\\';
(*outptr ++) = 'n';
} else
(*outptr ++) = c;
}
(*outptr ++) = '"';
} else {
memcpy(outptr, str.data(), str.size());
outptr += str.size();
}
}
return std::string(out.data(), outptr - out.data());
}
bool unescape_string_cstyle(const std::string &str, std::string &str_out)
{
std::vector<char> out(str.size(), 0);
char *outptr = out.data();
for (size_t i = 0; i < str.size(); ++ i) {
char c = str[i];
if (c == '\\') {
if (++ i == str.size())
return false;
c = str[i];
if (c == 'n')
(*outptr ++) = '\n';
} else
(*outptr ++) = c;
}
str_out.assign(out.data(), outptr - out.data());
return true;
}
bool unescape_strings_cstyle(const std::string &str, std::vector<std::string> &out)
{
if (str.empty())
return true;
size_t i = 0;
for (;;) {
// Skip white spaces.
char c = str[i];
while (c == ' ' || c == '\t') {
if (++ i == str.size())
return true;
c = str[i];
}
// Start of a word.
std::vector<char> buf;
buf.reserve(16);
// Is it enclosed in quotes?
c = str[i];
if (c == '"') {
// Complex case, string is enclosed in quotes.
for (++ i; i < str.size(); ++ i) {
c = str[i];
if (c == '"') {
// End of string.
break;
}
if (c == '\\') {
if (++ i == str.size())
return false;
c = str[i];
if (c == 'n')
c = '\n';
}
buf.push_back(c);
}
if (i == str.size())
return false;
++ i;
} else {
for (; i < str.size(); ++ i) {
c = str[i];
if (c == ';')
break;
buf.push_back(c);
}
}
// Store the string into the output vector.
out.push_back(std::string(buf.data(), buf.size()));
if (i == str.size())
return true;
// Skip white spaces.
c = str[i];
while (c == ' ' || c == '\t') {
if (++ i == str.size())
// End of string. This is correct.
return true;
c = str[i];
}
if (c != ';')
return false;
if (++ i == str.size()) {
// Emit one additional empty string.
out.push_back(std::string());
return true;
}
}
}
void ConfigBase::apply_only(const ConfigBase &other, const t_config_option_keys &keys, bool ignore_nonexistent)
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{
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// loop through options and apply them
for (const t_config_option_key &opt_key : keys) {
// Create a new option with default value for the key.
// If the key is not in the parameter definition, or this ConfigBase is a static type and it does not support the parameter,
// an exception is thrown if not ignore_nonexistent.
ConfigOption *my_opt = this->option(opt_key, true);
if (my_opt == nullptr) {
// opt_key does not exist in this ConfigBase and it cannot be created, because it is not defined by this->def().
// This is only possible if other is of DynamicConfig type.
if (ignore_nonexistent)
continue;
throw UnknownOptionException();
}
const ConfigOption *other_opt = other.option(opt_key);
if (other_opt != nullptr)
my_opt->set(other_opt);
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}
}
// this will *ignore* options not present in both configs
t_config_option_keys ConfigBase::diff(const ConfigBase &other) const
{
t_config_option_keys diff;
for (const t_config_option_key &opt_key : this->keys()) {
const ConfigOption *this_opt = this->option(opt_key);
const ConfigOption *other_opt = other.option(opt_key);
if (this_opt != nullptr && other_opt != nullptr && *this_opt != *other_opt)
diff.emplace_back(opt_key);
}
return diff;
}
std::string ConfigBase::serialize(const t_config_option_key &opt_key) const
{
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const ConfigOption* opt = this->option(opt_key);
assert(opt != nullptr);
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return opt->serialize();
}
bool ConfigBase::set_deserialize(const t_config_option_key &opt_key_src, const std::string &value_src, bool append)
{
t_config_option_key opt_key = opt_key_src;
std::string value = value_src;
// Both opt_key and value may be modified by _handle_legacy().
// If the opt_key is no more valid in this version of Slic3r, opt_key is cleared by _handle_legacy().
this->handle_legacy(opt_key, value);
if (opt_key.empty())
// Ignore the option.
return true;
return this->set_deserialize_raw(opt_key, value, append);
}
bool ConfigBase::set_deserialize_raw(const t_config_option_key &opt_key_src, const std::string &value, bool append)
{
t_config_option_key opt_key = opt_key_src;
// Try to deserialize the option by its name.
const ConfigDef *def = this->def();
if (def == nullptr)
throw NoDefinitionException();
const ConfigOptionDef *optdef = def->get(opt_key);
if (optdef == nullptr) {
// If we didn't find an option, look for any other option having this as an alias.
for (const auto &opt : def->options) {
for (const t_config_option_key &opt_key2 : opt.second.aliases) {
if (opt_key2 == opt_key) {
opt_key = opt_key2;
optdef = &opt.second;
break;
}
}
if (optdef != nullptr)
break;
}
if (optdef == nullptr)
throw UnknownOptionException();
}
if (! optdef->shortcut.empty()) {
// Aliasing for example "solid_layers" to "top_solid_layers" and "bottom_solid_layers".
for (const t_config_option_key &shortcut : optdef->shortcut)
// Recursive call.
if (! this->set_deserialize_raw(shortcut, value, append))
return false;
return true;
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}
ConfigOption *opt = this->option(opt_key, true);
assert(opt != nullptr);
return opt->deserialize(value, append);
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}
// Return an absolute value of a possibly relative config variable.
// For example, return absolute infill extrusion width, either from an absolute value, or relative to the layer height.
double ConfigBase::get_abs_value(const t_config_option_key &opt_key) const
{
// Get stored option value.
const ConfigOption *raw_opt = this->option(opt_key);
assert(raw_opt != nullptr);
if (raw_opt->type() == coFloat)
return static_cast<const ConfigOptionFloat*>(raw_opt)->value;
if (raw_opt->type() == coFloatOrPercent) {
// Get option definition.
const ConfigDef *def = this->def();
if (def == nullptr)
throw NoDefinitionException();
const ConfigOptionDef *opt_def = def->get(opt_key);
assert(opt_def != nullptr);
// Compute absolute value over the absolute value of the base option.
//FIXME there are some ratio_over chains, which end with empty ratio_with.
// For example, XXX_extrusion_width parameters are not handled by get_abs_value correctly.
return opt_def->ratio_over.empty() ? 0. :
static_cast<const ConfigOptionFloatOrPercent*>(raw_opt)->get_abs_value(this->get_abs_value(opt_def->ratio_over));
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}
throw std::runtime_error("ConfigBase::get_abs_value(): Not a valid option type for get_abs_value()");
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}
// Return an absolute value of a possibly relative config variable.
// For example, return absolute infill extrusion width, either from an absolute value, or relative to a provided value.
double ConfigBase::get_abs_value(const t_config_option_key &opt_key, double ratio_over) const
{
// Get stored option value.
const ConfigOption *raw_opt = this->option(opt_key);
assert(raw_opt != nullptr);
if (raw_opt->type() != coFloatOrPercent)
throw std::runtime_error("ConfigBase::get_abs_value(): opt_key is not of coFloatOrPercent");
// Compute absolute value.
return static_cast<const ConfigOptionFloatOrPercent*>(raw_opt)->get_abs_value(ratio_over);
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}
void ConfigBase::setenv_()
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{
#ifdef setenv
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t_config_option_keys opt_keys = this->keys();
for (t_config_option_keys::const_iterator it = opt_keys.begin(); it != opt_keys.end(); ++it) {
// prepend the SLIC3R_ prefix
std::ostringstream ss;
ss << "SLIC3R_";
ss << *it;
std::string envname = ss.str();
// capitalize environment variable name
for (size_t i = 0; i < envname.size(); ++i)
envname[i] = (envname[i] <= 'z' && envname[i] >= 'a') ? envname[i]-('a'-'A') : envname[i];
setenv(envname.c_str(), this->serialize(*it).c_str(), 1);
}
#endif
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}
void ConfigBase::load(const std::string &file)
{
if (boost::iends_with(file, ".gcode") || boost::iends_with(file, ".g"))
this->load_from_gcode(file);
else
this->load_from_ini(file);
}
void ConfigBase::load_from_ini(const std::string &file)
{
boost::property_tree::ptree tree;
boost::nowide::ifstream ifs(file);
boost::property_tree::read_ini(ifs, tree);
this->load(tree);
}
void ConfigBase::load(const boost::property_tree::ptree &tree)
{
for (const boost::property_tree::ptree::value_type &v : tree) {
try {
t_config_option_key opt_key = v.first;
this->set_deserialize(opt_key, v.second.get_value<std::string>());
} catch (UnknownOptionException & /* e */) {
// ignore
}
}
}
// Load the config keys from the tail of a G-code.
void ConfigBase::load_from_gcode(const std::string &file)
{
// 1) Read a 64k block from the end of the G-code.
boost::nowide::ifstream ifs(file);
{
const char slic3r_gcode_header[] = "; generated by Slic3r ";
std::string firstline;
std::getline(ifs, firstline);
if (strncmp(slic3r_gcode_header, firstline.c_str(), strlen(slic3r_gcode_header)) != 0)
throw std::runtime_error("Not a Slic3r generated g-code.");
}
ifs.seekg(0, ifs.end);
auto file_length = ifs.tellg();
auto data_length = std::min<std::fstream::streampos>(65535, file_length);
ifs.seekg(file_length - data_length, ifs.beg);
std::vector<char> data(size_t(data_length) + 1, 0);
ifs.read(data.data(), data_length);
ifs.close();
// 2) Walk line by line in reverse until a non-configuration key appears.
char *data_start = data.data();
// boost::nowide::ifstream seems to cook the text data somehow, so less then the 64k of characters may be retrieved.
char *end = data_start + strlen(data.data());
size_t num_key_value_pairs = 0;
for (;;) {
// Extract next line.
for (-- end; end > data_start && (*end == '\r' || *end == '\n'); -- end);
if (end == data_start)
break;
char *start = end;
*(++ end) = 0;
for (; start > data_start && *start != '\r' && *start != '\n'; -- start);
if (start == data_start)
break;
// Extracted a line from start to end. Extract the key = value pair.
if (end - (++ start) < 10 || start[0] != ';' || start[1] != ' ')
break;
char *key = start + 2;
if (! (*key >= 'a' && *key <= 'z') || (*key >= 'A' && *key <= 'Z'))
// A key must start with a letter.
break;
char *sep = strchr(key, '=');
if (sep == nullptr || sep[-1] != ' ' || sep[1] != ' ')
break;
char *value = sep + 2;
if (value > end)
break;
char *key_end = sep - 1;
if (key_end - key < 3)
break;
*key_end = 0;
// The key may contain letters, digits and underscores.
for (char *c = key; c != key_end; ++ c)
if (! ((*c >= 'a' && *c <= 'z') || (*c >= 'A' && *c <= 'Z') || (*c >= '0' && *c <= '9') || *c == '_')) {
key = nullptr;
break;
}
if (key == nullptr)
break;
try {
this->set_deserialize(key, value);
++ num_key_value_pairs;
} catch (UnknownOptionException & /* e */) {
// ignore
}
end = start;
}
if (num_key_value_pairs < 90) {
char msg[80];
sprintf(msg, "Suspiciously low number of configuration values extracted: %d", num_key_value_pairs);
throw std::runtime_error(msg);
}
}
void ConfigBase::save(const std::string &file) const
{
boost::nowide::ofstream c;
c.open(file, std::ios::out | std::ios::trunc);
c << "# " << Slic3r::header_slic3r_generated() << std::endl;
for (const std::string &opt_key : this->keys())
c << opt_key << " = " << this->serialize(opt_key) << std::endl;
c.close();
}
bool DynamicConfig::operator==(const DynamicConfig &rhs) const
{
t_options_map::const_iterator it1 = this->options.begin();
t_options_map::const_iterator it1_end = this->options.end();
t_options_map::const_iterator it2 = rhs.options.begin();
t_options_map::const_iterator it2_end = rhs.options.end();
for (; it1 != it1_end && it2 != it2_end; ++ it1, ++ it2)
if (*it1->second != *it2->second)
return false;
return it1 == it1_end && it2 == it2_end;
}
ConfigOption* DynamicConfig::optptr(const t_config_option_key &opt_key, bool create)
{
t_options_map::iterator it = options.find(opt_key);
if (it != options.end())
// Option was found.
return it->second;
if (! create)
// Option was not found and a new option shall not be created.
return nullptr;
// Try to create a new ConfigOption.
const ConfigDef *def = this->def();
if (def == nullptr)
throw NoDefinitionException();
const ConfigOptionDef *optdef = def->get(opt_key);
if (optdef == nullptr)
// throw std::runtime_error(std::string("Invalid option name: ") + opt_key);
// Let the parent decide what to do if the opt_key is not defined by this->def().
return nullptr;
ConfigOption *opt = nullptr;
switch (optdef->type) {
case coFloat: opt = new ConfigOptionFloat(); break;
case coFloats: opt = new ConfigOptionFloats(); break;
case coInt: opt = new ConfigOptionInt(); break;
case coInts: opt = new ConfigOptionInts(); break;
case coString: opt = new ConfigOptionString(); break;
case coStrings: opt = new ConfigOptionStrings(); break;
case coPercent: opt = new ConfigOptionPercent(); break;
case coPercents: opt = new ConfigOptionPercents(); break;
case coFloatOrPercent: opt = new ConfigOptionFloatOrPercent(); break;
case coPoint: opt = new ConfigOptionPoint(); break;
case coPoints: opt = new ConfigOptionPoints(); break;
case coBool: opt = new ConfigOptionBool(); break;
case coBools: opt = new ConfigOptionBools(); break;
case coEnum: opt = new ConfigOptionEnumGeneric(optdef->enum_keys_map); break;
default: throw std::runtime_error(std::string("Unknown option type for option ") + opt_key);
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}
this->options[opt_key] = opt;
return opt;
}
t_config_option_keys DynamicConfig::keys() const
{
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t_config_option_keys keys;
keys.reserve(this->options.size());
for (const auto &opt : this->options)
keys.emplace_back(opt.first);
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return keys;
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}
void StaticConfig::set_defaults()
{
// use defaults from definition
auto *defs = this->def();
if (defs != nullptr) {
for (const std::string &key : this->keys()) {
const ConfigOptionDef *def = defs->get(key);
ConfigOption *opt = this->option(key);
if (def != nullptr && opt != nullptr && def->default_value != nullptr)
opt->set(def->default_value);
}
}
}
t_config_option_keys StaticConfig::keys() const
{
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t_config_option_keys keys;
assert(this->def != nullptr);
for (const auto &opt_def : this->def()->options)
if (this->option(opt_def.first) != nullptr)
keys.push_back(opt_def.first);
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return keys;
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}
}