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

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#include "Config.hpp"
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#include <stdlib.h> // for setenv()
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#include <assert.h>
#if defined(_WIN32) && !defined(setenv) && defined(_putenv_s)
#define setenv(k, v, o) _putenv_s(k, v)
#endif
namespace Slic3r {
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bool
operator== (const ConfigOption &a, const ConfigOption &b)
{
return a.serialize().compare(b.serialize()) == 0;
}
bool
operator!= (const ConfigOption &a, const ConfigOption &b)
{
return !(a == b);
}
ConfigDef::~ConfigDef()
{
for (t_optiondef_map::iterator it = this->options.begin(); it != this->options.end(); ++it) {
if (it->second.default_value != NULL)
delete it->second.default_value;
}
}
const ConfigOptionDef*
ConfigDef::get(const t_config_option_key &opt_key) const
{
if (this->options.count(opt_key) == 0) return NULL;
return &const_cast<ConfigDef*>(this)->options[opt_key];
}
bool
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ConfigBase::has(const t_config_option_key &opt_key) {
return (this->option(opt_key, false) != NULL);
}
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void
ConfigBase::apply(const ConfigBase &other, bool ignore_nonexistent) {
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// get list of option keys to apply
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t_config_option_keys opt_keys = other.keys();
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// loop through options and apply them
for (t_config_option_keys::const_iterator it = opt_keys.begin(); it != opt_keys.end(); ++it) {
ConfigOption* my_opt = this->option(*it, true);
if (my_opt == NULL) {
if (ignore_nonexistent == false) throw "Attempt to apply non-existent option";
continue;
}
// not the most efficient way, but easier than casting pointers to subclasses
bool res = my_opt->deserialize( other.option(*it)->serialize() );
if (!res) CONFESS("Unexpected failure when deserializing serialized value");
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}
}
bool
ConfigBase::equals(ConfigBase &other) {
return this->diff(other).empty();
}
// this will *ignore* options not present in both configs
t_config_option_keys
ConfigBase::diff(ConfigBase &other) {
t_config_option_keys diff;
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t_config_option_keys my_keys = this->keys();
for (t_config_option_keys::const_iterator opt_key = my_keys.begin(); opt_key != my_keys.end(); ++opt_key) {
if (other.has(*opt_key) && other.serialize(*opt_key) != this->serialize(*opt_key)) {
diff.push_back(*opt_key);
}
}
return diff;
}
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std::string
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ConfigBase::serialize(const t_config_option_key &opt_key) const {
const ConfigOption* opt = this->option(opt_key);
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assert(opt != NULL);
return opt->serialize();
}
bool
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ConfigBase::set_deserialize(const t_config_option_key &opt_key, std::string str) {
const ConfigOptionDef* optdef = this->def->get(opt_key);
if (optdef == NULL) throw "Calling set_deserialize() on unknown option";
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if (!optdef->shortcut.empty()) {
for (std::vector<t_config_option_key>::const_iterator it = optdef->shortcut.begin(); it != optdef->shortcut.end(); ++it) {
if (!this->set_deserialize(*it, str)) return false;
}
return true;
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}
ConfigOption* opt = this->option(opt_key, true);
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assert(opt != NULL);
return opt->deserialize(str);
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}
double
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ConfigBase::get_abs_value(const t_config_option_key &opt_key) {
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ConfigOption* opt = this->option(opt_key, false);
if (ConfigOptionFloatOrPercent* optv = dynamic_cast<ConfigOptionFloatOrPercent*>(opt)) {
// get option definition
const ConfigOptionDef* def = this->def->get(opt_key);
assert(def != NULL);
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// compute absolute value over the absolute value of the base option
return optv->get_abs_value(this->get_abs_value(def->ratio_over));
} else if (ConfigOptionFloat* optv = dynamic_cast<ConfigOptionFloat*>(opt)) {
return optv->value;
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} else {
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throw "Not a valid option type for get_abs_value()";
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}
}
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double
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ConfigBase::get_abs_value(const t_config_option_key &opt_key, double ratio_over) {
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// get stored option value
ConfigOptionFloatOrPercent* opt = dynamic_cast<ConfigOptionFloatOrPercent*>(this->option(opt_key));
assert(opt != NULL);
// compute absolute value
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return opt->get_abs_value(ratio_over);
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}
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void
ConfigBase::setenv_()
{
#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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}
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const ConfigOption*
ConfigBase::option(const t_config_option_key &opt_key) const {
return const_cast<ConfigBase*>(this)->option(opt_key, false);
}
ConfigOption*
ConfigBase::option(const t_config_option_key &opt_key, bool create) {
return this->optptr(opt_key, create);
}
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DynamicConfig& DynamicConfig::operator= (DynamicConfig other)
{
this->swap(other);
return *this;
}
void
DynamicConfig::swap(DynamicConfig &other)
{
std::swap(this->options, other.options);
}
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DynamicConfig::~DynamicConfig () {
for (t_options_map::iterator it = this->options.begin(); it != this->options.end(); ++it) {
ConfigOption* opt = it->second;
if (opt != NULL) delete opt;
}
}
DynamicConfig::DynamicConfig (const DynamicConfig& other) {
this->def = other.def;
this->apply(other, false);
}
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ConfigOption*
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DynamicConfig::optptr(const t_config_option_key &opt_key, bool create) {
if (this->options.count(opt_key) == 0) {
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if (create) {
const ConfigOptionDef* optdef = this->def->get(opt_key);
assert(optdef != NULL);
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ConfigOption* opt;
if (optdef->type == coFloat) {
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opt = new ConfigOptionFloat ();
} else if (optdef->type == coFloats) {
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opt = new ConfigOptionFloats ();
} else if (optdef->type == coInt) {
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opt = new ConfigOptionInt ();
} else if (optdef->type == coInts) {
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opt = new ConfigOptionInts ();
} else if (optdef->type == coString) {
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opt = new ConfigOptionString ();
} else if (optdef->type == coStrings) {
opt = new ConfigOptionStrings ();
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} else if (optdef->type == coPercent) {
opt = new ConfigOptionPercent ();
} else if (optdef->type == coFloatOrPercent) {
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opt = new ConfigOptionFloatOrPercent ();
} else if (optdef->type == coPoint) {
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opt = new ConfigOptionPoint ();
} else if (optdef->type == coPoints) {
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opt = new ConfigOptionPoints ();
} else if (optdef->type == coBool) {
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opt = new ConfigOptionBool ();
} else if (optdef->type == coBools) {
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opt = new ConfigOptionBools ();
} else if (optdef->type == coEnum) {
ConfigOptionEnumGeneric* optv = new ConfigOptionEnumGeneric ();
optv->keys_map = &optdef->enum_keys_map;
opt = static_cast<ConfigOption*>(optv);
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} else {
throw "Unknown option type";
}
this->options[opt_key] = opt;
return opt;
} else {
return NULL;
}
}
return this->options[opt_key];
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}
template<class T>
T*
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DynamicConfig::opt(const t_config_option_key &opt_key, bool create) {
return dynamic_cast<T*>(this->option(opt_key, create));
}
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template ConfigOptionInt* DynamicConfig::opt<ConfigOptionInt>(const t_config_option_key &opt_key, bool create);
template ConfigOptionBool* DynamicConfig::opt<ConfigOptionBool>(const t_config_option_key &opt_key, bool create);
template ConfigOptionBools* DynamicConfig::opt<ConfigOptionBools>(const t_config_option_key &opt_key, bool create);
template ConfigOptionPercent* DynamicConfig::opt<ConfigOptionPercent>(const t_config_option_key &opt_key, bool create);
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t_config_option_keys
DynamicConfig::keys() const {
t_config_option_keys keys;
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for (t_options_map::const_iterator it = this->options.begin(); it != this->options.end(); ++it)
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keys.push_back(it->first);
return keys;
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}
void
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DynamicConfig::erase(const t_config_option_key &opt_key) {
this->options.erase(opt_key);
}
void
StaticConfig::set_defaults()
{
// use defaults from definition
if (this->def == NULL) return;
t_config_option_keys keys = this->keys();
for (t_config_option_keys::const_iterator it = keys.begin(); it != keys.end(); ++it) {
const ConfigOptionDef* def = this->def->get(*it);
if (def->default_value != NULL)
this->option(*it)->set(*def->default_value);
}
}
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t_config_option_keys
StaticConfig::keys() const {
t_config_option_keys keys;
for (t_optiondef_map::const_iterator it = this->def->options.begin(); it != this->def->options.end(); ++it) {
const ConfigOption* opt = this->option(it->first);
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if (opt != NULL) keys.push_back(it->first);
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}
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return keys;
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}
}