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

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#ifndef slic3r_Config_hpp_
#define slic3r_Config_hpp_
#include <assert.h>
#include <map>
#include <climits>
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#include <cstdio>
#include <cstdlib>
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#include <iostream>
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#include <stdexcept>
#include <string>
#include <vector>
#include "libslic3r.h"
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#include "Point.hpp"
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namespace Slic3r {
// Name of the configuration option.
typedef std::string t_config_option_key;
typedef std::vector<std::string> t_config_option_keys;
extern std::string escape_string_cstyle(const std::string &str);
extern std::string escape_strings_cstyle(const std::vector<std::string> &strs);
extern bool unescape_string_cstyle(const std::string &str, std::string &out);
extern bool unescape_strings_cstyle(const std::string &str, std::vector<std::string> &out);
// A generic value of a configuration option.
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class ConfigOption {
public:
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virtual ~ConfigOption() {};
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virtual std::string serialize() const = 0;
virtual bool deserialize(const std::string &str, bool append = false) = 0;
virtual void set(const ConfigOption &option) = 0;
virtual int getInt() const { return 0; };
virtual double getFloat() const { return 0; };
virtual bool getBool() const { return false; };
virtual void setInt(int /* val */) { };
bool operator==(const ConfigOption &rhs) { return this->serialize().compare(rhs.serialize()) == 0; }
bool operator!=(const ConfigOption &rhs) { return this->serialize().compare(rhs.serialize()) != 0; }
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};
// Value of a single valued option (bool, int, float, string, point, enum)
template <class T>
class ConfigOptionSingle : public ConfigOption {
public:
T value;
ConfigOptionSingle(T _value) : value(_value) {};
operator T() const { return this->value; };
void set(const ConfigOption &option) {
const ConfigOptionSingle<T>* other = dynamic_cast< const ConfigOptionSingle<T>* >(&option);
if (other != NULL) this->value = other->value;
};
};
// Value of a vector valued option (bools, ints, floats, strings, points)
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class ConfigOptionVectorBase : public ConfigOption {
public:
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virtual ~ConfigOptionVectorBase() {};
// Currently used only to initialize the PlaceholderParser.
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virtual std::vector<std::string> vserialize() const = 0;
};
// Value of a vector valued option (bools, ints, floats, strings, points), template
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template <class T>
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class ConfigOptionVector : public ConfigOptionVectorBase
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{
public:
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virtual ~ConfigOptionVector() {};
std::vector<T> values;
void set(const ConfigOption &option) {
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const ConfigOptionVector<T>* other = dynamic_cast< const ConfigOptionVector<T>* >(&option);
if (other != NULL) this->values = other->values;
};
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T get_at(size_t i) const {
assert(! this->values.empty());
return (i < this->values.size()) ? this->values[i] : this->values.front();
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};
};
class ConfigOptionFloat : public ConfigOptionSingle<double>
{
public:
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ConfigOptionFloat() : ConfigOptionSingle<double>(0) {};
ConfigOptionFloat(double _value) : ConfigOptionSingle<double>(_value) {};
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double getFloat() const { return this->value; };
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std::string serialize() const {
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std::ostringstream ss;
ss << this->value;
return ss.str();
};
bool deserialize(const std::string &str, bool append = false) {
std::istringstream iss(str);
iss >> this->value;
return !iss.fail();
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};
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};
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class ConfigOptionFloats : public ConfigOptionVector<double>
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{
public:
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std::string serialize() const {
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std::ostringstream ss;
for (std::vector<double>::const_iterator it = this->values.begin(); it != this->values.end(); ++it) {
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if (it - this->values.begin() != 0) ss << ",";
ss << *it;
}
return ss.str();
};
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std::vector<std::string> vserialize() const {
std::vector<std::string> vv;
vv.reserve(this->values.size());
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for (std::vector<double>::const_iterator it = this->values.begin(); it != this->values.end(); ++it) {
std::ostringstream ss;
ss << *it;
vv.push_back(ss.str());
}
return vv;
};
bool deserialize(const std::string &str, bool append = false) {
if (! append)
this->values.clear();
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std::istringstream is(str);
std::string item_str;
while (std::getline(is, item_str, ',')) {
std::istringstream iss(item_str);
double value;
iss >> value;
this->values.push_back(value);
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}
return true;
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};
};
class ConfigOptionInt : public ConfigOptionSingle<int>
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{
public:
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ConfigOptionInt() : ConfigOptionSingle<int>(0) {};
ConfigOptionInt(double _value) : ConfigOptionSingle<int>(int(floor(_value + 0.5))) {};
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int getInt() const { return this->value; };
void setInt(int val) { this->value = val; };
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std::string serialize() const {
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std::ostringstream ss;
ss << this->value;
return ss.str();
};
bool deserialize(const std::string &str, bool append = false) {
std::istringstream iss(str);
iss >> this->value;
return !iss.fail();
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};
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};
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class ConfigOptionInts : public ConfigOptionVector<int>
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{
public:
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std::string serialize() const {
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std::ostringstream ss;
for (std::vector<int>::const_iterator it = this->values.begin(); it != this->values.end(); ++it) {
if (it - this->values.begin() != 0) ss << ",";
ss << *it;
}
return ss.str();
};
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std::vector<std::string> vserialize() const {
std::vector<std::string> vv;
vv.reserve(this->values.size());
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for (std::vector<int>::const_iterator it = this->values.begin(); it != this->values.end(); ++it) {
std::ostringstream ss;
ss << *it;
vv.push_back(ss.str());
}
return vv;
};
bool deserialize(const std::string &str, bool append = false) {
if (! append)
this->values.clear();
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std::istringstream is(str);
std::string item_str;
while (std::getline(is, item_str, ',')) {
std::istringstream iss(item_str);
int value;
iss >> value;
this->values.push_back(value);
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}
return true;
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};
};
class ConfigOptionString : public ConfigOptionSingle<std::string>
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{
public:
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ConfigOptionString() : ConfigOptionSingle<std::string>("") {};
ConfigOptionString(std::string _value) : ConfigOptionSingle<std::string>(_value) {};
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std::string serialize() const {
return escape_string_cstyle(this->value);
}
bool deserialize(const std::string &str, bool append = false) {
return unescape_string_cstyle(str, this->value);
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};
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};
// semicolon-separated strings
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class ConfigOptionStrings : public ConfigOptionVector<std::string>
{
public:
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std::string serialize() const {
return escape_strings_cstyle(this->values);
};
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std::vector<std::string> vserialize() const {
return this->values;
};
bool deserialize(const std::string &str, bool append = false) {
if (! append)
this->values.clear();
return unescape_strings_cstyle(str, this->values);
};
};
class ConfigOptionPercent : public ConfigOptionFloat
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{
public:
ConfigOptionPercent() : ConfigOptionFloat(0) {};
ConfigOptionPercent(double _value) : ConfigOptionFloat(_value) {};
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double get_abs_value(double ratio_over) const {
return ratio_over * this->value / 100;
};
std::string serialize() const {
std::ostringstream ss;
ss << this->value;
std::string s(ss.str());
s += "%";
return s;
};
bool deserialize(const std::string &str, bool append = false) {
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// don't try to parse the trailing % since it's optional
std::istringstream iss(str);
iss >> this->value;
return !iss.fail();
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};
};
class ConfigOptionPercents : public ConfigOptionFloats
{
public:
std::string serialize() const {
std::ostringstream ss;
for (const auto &v : this->values) {
if (&v != &this->values.front()) ss << ",";
ss << v << "%";
}
std::string str = ss.str();
return str;
};
std::vector<std::string> vserialize() const {
std::vector<std::string> vv;
vv.reserve(this->values.size());
for (const auto v : this->values) {
std::ostringstream ss;
ss << v;
std::string sout = ss.str() + "%";
vv.push_back(sout);
}
return vv;
};
bool deserialize(const std::string &str, bool append = false) {
if (! append)
this->values.clear();
std::istringstream is(str);
std::string item_str;
while (std::getline(is, item_str, ',')) {
std::istringstream iss(item_str);
double value;
// don't try to parse the trailing % since it's optional
iss >> value;
this->values.push_back(value);
}
return true;
};
};
class ConfigOptionFloatOrPercent : public ConfigOptionPercent
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{
public:
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bool percent;
ConfigOptionFloatOrPercent() : ConfigOptionPercent(0), percent(false) {};
ConfigOptionFloatOrPercent(double _value, bool _percent)
: ConfigOptionPercent(_value), percent(_percent) {};
void set(const ConfigOption &option) {
const ConfigOptionFloatOrPercent* other = dynamic_cast< const ConfigOptionFloatOrPercent* >(&option);
if (other != NULL) {
this->value = other->value;
this->percent = other->percent;
}
};
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double get_abs_value(double ratio_over) const {
if (this->percent) {
return ratio_over * this->value / 100;
} else {
return this->value;
}
};
std::string serialize() const {
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std::ostringstream ss;
ss << this->value;
std::string s(ss.str());
if (this->percent) s += "%";
return s;
};
bool deserialize(const std::string &str, bool append = false) {
this->percent = str.find_first_of("%") != std::string::npos;
std::istringstream iss(str);
iss >> this->value;
return !iss.fail();
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};
};
class ConfigOptionPoint : public ConfigOptionSingle<Pointf>
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{
public:
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ConfigOptionPoint() : ConfigOptionSingle<Pointf>(Pointf(0,0)) {};
ConfigOptionPoint(Pointf _value) : ConfigOptionSingle<Pointf>(_value) {};
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std::string serialize() const {
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std::ostringstream ss;
ss << this->value.x;
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ss << ",";
ss << this->value.y;
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return ss.str();
};
bool deserialize(const std::string &str, bool append = false) {
std::istringstream iss(str);
iss >> this->value.x;
iss.ignore(std::numeric_limits<std::streamsize>::max(), ',');
iss.ignore(std::numeric_limits<std::streamsize>::max(), 'x');
iss >> this->value.y;
return true;
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};
};
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class ConfigOptionPoints : public ConfigOptionVector<Pointf>
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{
public:
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std::string serialize() const {
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std::ostringstream ss;
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for (Pointfs::const_iterator it = this->values.begin(); it != this->values.end(); ++it) {
if (it - this->values.begin() != 0) ss << ",";
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ss << it->x;
ss << "x";
ss << it->y;
}
return ss.str();
};
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std::vector<std::string> vserialize() const {
std::vector<std::string> vv;
for (Pointfs::const_iterator it = this->values.begin(); it != this->values.end(); ++it) {
std::ostringstream ss;
ss << *it;
vv.push_back(ss.str());
}
return vv;
};
bool deserialize(const std::string &str, bool append = false) {
if (! append)
this->values.clear();
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std::istringstream is(str);
std::string point_str;
while (std::getline(is, point_str, ',')) {
Pointf point;
std::istringstream iss(point_str);
std::string coord_str;
if (std::getline(iss, coord_str, 'x')) {
std::istringstream(coord_str) >> point.x;
if (std::getline(iss, coord_str, 'x')) {
std::istringstream(coord_str) >> point.y;
}
}
this->values.push_back(point);
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}
return true;
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};
};
class ConfigOptionBool : public ConfigOptionSingle<bool>
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{
public:
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ConfigOptionBool() : ConfigOptionSingle<bool>(false) {};
ConfigOptionBool(bool _value) : ConfigOptionSingle<bool>(_value) {};
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bool getBool() const { return this->value; };
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std::string serialize() const {
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return std::string(this->value ? "1" : "0");
};
bool deserialize(const std::string &str, bool append = false) {
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this->value = (str.compare("1") == 0);
return true;
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};
};
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class ConfigOptionBools : public ConfigOptionVector<bool>
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{
public:
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std::string serialize() const {
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std::ostringstream ss;
for (std::vector<bool>::const_iterator it = this->values.begin(); it != this->values.end(); ++it) {
if (it - this->values.begin() != 0) ss << ",";
ss << (*it ? "1" : "0");
}
return ss.str();
};
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std::vector<std::string> vserialize() const {
std::vector<std::string> vv;
for (std::vector<bool>::const_iterator it = this->values.begin(); it != this->values.end(); ++it) {
std::ostringstream ss;
ss << (*it ? "1" : "0");
vv.push_back(ss.str());
}
return vv;
};
bool deserialize(const std::string &str, bool append = false) {
if (! append)
this->values.clear();
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std::istringstream is(str);
std::string item_str;
while (std::getline(is, item_str, ',')) {
this->values.push_back(item_str.compare("1") == 0);
}
return true;
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};
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};
// Map from an enum name to an enum integer value.
typedef std::map<std::string,int> t_config_enum_values;
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template <class T>
class ConfigOptionEnum : public ConfigOptionSingle<T>
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{
public:
// by default, use the first value (0) of the T enum type
ConfigOptionEnum() : ConfigOptionSingle<T>(static_cast<T>(0)) {};
ConfigOptionEnum(T _value) : ConfigOptionSingle<T>(_value) {};
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std::string serialize() const {
t_config_enum_values enum_keys_map = ConfigOptionEnum<T>::get_enum_values();
for (t_config_enum_values::iterator it = enum_keys_map.begin(); it != enum_keys_map.end(); ++it) {
if (it->second == static_cast<int>(this->value)) return it->first;
}
return "";
};
bool deserialize(const std::string &str, bool append = false) {
t_config_enum_values enum_keys_map = ConfigOptionEnum<T>::get_enum_values();
if (enum_keys_map.count(str) == 0) return false;
this->value = static_cast<T>(enum_keys_map[str]);
return true;
};
// Map from an enum name to an enum integer value.
//FIXME The map is called often, it shall be initialized statically.
static t_config_enum_values get_enum_values();
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};
// Generic enum configuration value.
// We use this one in DynamicConfig objects when creating a config value object for ConfigOptionType == coEnum.
// In the StaticConfig, it is better to use the specialized ConfigOptionEnum<T> containers.
class ConfigOptionEnumGeneric : public ConfigOptionInt
{
public:
const t_config_enum_values* keys_map;
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std::string serialize() const {
for (t_config_enum_values::const_iterator it = this->keys_map->begin(); it != this->keys_map->end(); ++it) {
if (it->second == this->value) return it->first;
}
return "";
};
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bool deserialize(const std::string &str, bool append = false) {
if (this->keys_map->count(str) == 0) return false;
this->value = (*const_cast<t_config_enum_values*>(this->keys_map))[str];
return true;
};
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};
// Type of a configuration value.
enum ConfigOptionType {
coNone,
// single float
coFloat,
// vector of floats
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coFloats,
// single int
coInt,
// vector of ints
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coInts,
// single string
coString,
// vector of strings
coStrings,
// percent value. Currently only used for infill.
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coPercent,
// percents value. Currently used for retract before wipe only.
coPercents,
// a fraction or an absolute value
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coFloatOrPercent,
// single 2d point. Currently not used.
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coPoint,
// vector of 2d points. Currently used for the definition of the print bed and for the extruder offsets.
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coPoints,
// single boolean value
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coBool,
// vector of boolean values
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coBools,
// a generic enum
coEnum,
};
// Definition of a configuration value for the purpose of GUI presentation, editing, value mapping and config file handling.
class ConfigOptionDef
{
public:
// What type? bool, int, string etc.
ConfigOptionType type;
// Default value of this option. The default value object is owned by ConfigDef, it is released in its destructor.
ConfigOption* default_value;
// Usually empty.
// Special values - "i_enum_open", "f_enum_open" to provide combo box for int or float selection,
// "select_open" - to open a selection dialog (currently only a serial port selection).
std::string gui_type;
// Usually empty. Otherwise "serialized" or "show_value"
// The flags may be combined.
// "serialized" - vector valued option is entered in a single edit field. Values are separated by a semicolon.
// "show_value" - even if enum_values / enum_labels are set, still display the value, not the enum label.
std::string gui_flags;
// Label of the GUI input field.
// In case the GUI input fields are grouped in some views, the label defines a short label of a grouped value,
// while full_label contains a label of a stand-alone field.
// The full label is shown, when adding an override parameter for an object or a modified object.
std::string label;
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std::string full_label;
// Category of a configuration field, from the GUI perspective.
// One of: "Layers and Perimeters", "Infill", "Support material", "Speed", "Extruders", "Advanced", "Extrusion Width"
std::string category;
// A tooltip text shown in the GUI.
std::string tooltip;
// Text right from the input field, usually a unit of measurement.
std::string sidetext;
// Format of this parameter on a command line.
std::string cli;
// Set for type == coFloatOrPercent.
// It provides a link to a configuration value, of which this option provides a ratio.
// For example,
// For example external_perimeter_speed may be defined as a fraction of perimeter_speed.
t_config_option_key ratio_over;
// True for multiline strings.
bool multiline;
// For text input: If true, the GUI text box spans the complete page width.
bool full_width;
// Not editable. Currently only used for the display of the number of threads.
bool readonly;
// Height of a multiline GUI text box.
int height;
// Optional width of an input field.
int width;
// <min, max> limit of a numeric input.
// If not set, the <min, max> is set to <INT_MIN, INT_MAX>
// By setting min=0, only nonnegative input is allowed.
int min;
int max;
// Legacy names for this configuration option.
// Used when parsing legacy configuration file.
std::vector<t_config_option_key> aliases;
// Sometimes a single value may well define multiple values in a "beginner" mode.
// Currently used for aliasing "solid_layers" to "top_solid_layers", "bottom_solid_layers".
std::vector<t_config_option_key> shortcut;
// Definition of values / labels for a combo box.
// Mostly used for enums (when type == coEnum), but may be used for ints resp. floats, if gui_type is set to "i_enum_open" resp. "f_enum_open".
std::vector<std::string> enum_values;
std::vector<std::string> enum_labels;
// For enums (when type == coEnum). Maps enum_values to enums.
// Initialized by ConfigOptionEnum<xxx>::get_enum_values()
t_config_enum_values enum_keys_map;
ConfigOptionDef() : type(coNone), default_value(NULL),
multiline(false), full_width(false), readonly(false),
height(-1), width(-1), min(INT_MIN), max(INT_MAX) {};
};
// Map from a config option name to its definition.
// The definition does not carry an actual value of the config option, only its constant default value.
// t_config_option_key is std::string
typedef std::map<t_config_option_key,ConfigOptionDef> t_optiondef_map;
// Definition of configuration values for the purpose of GUI presentation, editing, value mapping and config file handling.
// The configuration definition is static: It does not carry the actual configuration values,
// but it carries the defaults of the configuration values.
class ConfigDef
{
public:
t_optiondef_map options;
~ConfigDef() { for (auto &opt : this->options) delete opt.second.default_value; }
ConfigOptionDef* add(const t_config_option_key &opt_key, ConfigOptionType type) {
ConfigOptionDef* opt = &this->options[opt_key];
opt->type = type;
return opt;
}
const ConfigOptionDef* get(const t_config_option_key &opt_key) const {
t_optiondef_map::iterator it = const_cast<ConfigDef*>(this)->options.find(opt_key);
return (it == this->options.end()) ? nullptr : &it->second;
}
};
// An abstract configuration store.
class ConfigBase
{
public:
// Definition of configuration values for the purpose of GUI presentation, editing, value mapping and config file handling.
// The configuration definition is static: It does not carry the actual configuration values,
// but it carries the defaults of the configuration values.
// ConfigBase does not own ConfigDef, it only references it.
const ConfigDef* def;
ConfigBase(const ConfigDef *def = nullptr) : def(def) {};
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virtual ~ConfigBase() {};
bool has(const t_config_option_key &opt_key) const { return this->option(opt_key) != nullptr; }
const ConfigOption* option(const t_config_option_key &opt_key) const
{ return const_cast<ConfigBase*>(this)->option(opt_key, false); }
ConfigOption* option(const t_config_option_key &opt_key, bool create = false)
{ return this->optptr(opt_key, create); }
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virtual ConfigOption* optptr(const t_config_option_key &opt_key, bool create = false) = 0;
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virtual t_config_option_keys keys() const = 0;
void apply(const ConfigBase &other, bool ignore_nonexistent = false) { this->apply(other, other.keys(), ignore_nonexistent); }
void apply(const ConfigBase &other, const t_config_option_keys &keys, bool ignore_nonexistent = false);
bool equals(const ConfigBase &other) const { return this->diff(other).empty(); }
t_config_option_keys diff(const ConfigBase &other) const;
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std::string serialize(const t_config_option_key &opt_key) const;
bool set_deserialize(t_config_option_key opt_key, const std::string &str, bool append = false);
double get_abs_value(const t_config_option_key &opt_key) const;
double get_abs_value(const t_config_option_key &opt_key, double ratio_over) const;
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void setenv_();
void load(const std::string &file);
void load_from_gcode(const std::string &file);
void save(const std::string &file) const;
};
// Configuration store with dynamic number of configuration values.
// In Slic3r, the dynamic config is mostly used at the user interface layer.
class DynamicConfig : public virtual ConfigBase
{
public:
DynamicConfig() {};
DynamicConfig(const DynamicConfig& other) : ConfigBase(other.def) { this->apply(other, false); }
DynamicConfig& operator= (DynamicConfig other) { this->swap(other); return *this; }
virtual ~DynamicConfig() { for (auto &opt : this->options) delete opt.second; }
void swap(DynamicConfig &other) { std::swap(this->def, other.def); std::swap(this->options, other.options); }
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template<class T> T* opt(const t_config_option_key &opt_key, bool create = false);
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virtual ConfigOption* optptr(const t_config_option_key &opt_key, bool create = false);
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t_config_option_keys keys() const;
void erase(const t_config_option_key &opt_key) { this->options.erase(opt_key); }
private:
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typedef std::map<t_config_option_key,ConfigOption*> t_options_map;
t_options_map options;
};
// Configuration store with a static definition of configuration values.
// In Slic3r, the static configuration stores are during the slicing / g-code generation for efficiency reasons,
// because the configuration values could be accessed directly.
class StaticConfig : public virtual ConfigBase
{
public:
StaticConfig() : ConfigBase() {};
// Gets list of config option names for each config option of this->def, which has a static counter-part defined by the derived object
// and which could be resolved by this->optptr(key) call.
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t_config_option_keys keys() const;
// Set all statically defined config options to their defaults defined by this->def.
void set_defaults();
// The derived class has to implement optptr to resolve a static configuration value.
// virtual ConfigOption* optptr(const t_config_option_key &opt_key, bool create = false) = 0;
};
/// Specialization of std::exception to indicate that an unknown config option has been encountered.
class UnknownOptionException : public std::exception {};
}
#endif