#include "../common/Ikari.h"
#include "../common/Item.h"
#include "../common/Spell.h"
+#include "../common/Stats.h"
#include "../common/TargetingMode.h"
#include "../graphics/ComplexAnimation.h"
#include "../graphics/Font.h"
using battle::Hero;
using battle::Monster;
using battle::PartyLayout;
-using battle::Stats;
using common::Ikari;
using common::Item;
using common::Spell;
+using common::Stats;
using common::TargetingMode;
using graphics::Animation;
using graphics::Color;
using graphics::Sprite;
using geometry::Vector;
using std::make_pair;
-using std::map;
using std::set;
using std::string;
using std::vector;
namespace loader {
Interpreter::~Interpreter() {
- for (vector<PostponedDefinition>::const_iterator i(postponedDefinitions.begin()), end(postponedDefinitions.end()); i != end; ++i) {
- delete i->identifier;
- }
- for (map<string, SDL_Surface *>::const_iterator i(imageCache.begin()), end(imageCache.end()); i != end; ++i) {
+ for (std::map<string, SDL_Surface *>::const_iterator i(imageCache.begin()), end(imageCache.end()); i != end; ++i) {
SDL_FreeSurface(i->second);
}
- // TODO: maybe need to reverse the array deletion check if most objects turn out to be arrays (of char)
- for (map<int, vector<void *> >::const_iterator i(values.begin()), end(values.end()); i != end; ++i) {
- for (vector<void *>::const_iterator j(i->second.begin()), end(i->second.end()); j != end; ++j) {
- delete[] reinterpret_cast<char *>(*j);
- }
- }
+}
+
+
+const Interpreter::ParsedDefinition &Interpreter::GetDefinition(const string &identifier) const {
+ return parsedDefinitions.at(identifier);
}
void *Interpreter::GetObject(int typeId, const std::string &name) {
- map<string, ParsedDefinition>::const_iterator i(parsedDefinitions.find(name));
+ std::map<string, ParsedDefinition>::const_iterator i(parsedDefinitions.find(name));
if (i != parsedDefinitions.end()) {
const TypeDescription &requested(TypeDescription::Get(typeId));
const TypeDescription &actual(TypeDescription::Get(i->second.type));
}
void Interpreter::ReadLiteral(const Definition &dfn) {
- switch (dfn.GetLiteral()->GetType()) {
+ const string &typeName(dfn.GetLiteral()->IsArray() ? "Array" : dfn.GetLiteral()->GetTypeName());
+ int typeId(TypeDescription::GetTypeId(typeName));
+ int id(values[typeId].size());
+ const TypeDescription &td(TypeDescription::Get(typeId));
+ int size(
+ (dfn.GetLiteral()->GetType() == Literal::PATH
+ || dfn.GetLiteral()->GetType() == Literal::STRING)
+ ? dfn.GetLiteral()->GetString().size() : td.Size());
+ char *object(alloc.Alloc(size));
+ if (dfn.GetLiteral()->GetType() == Literal::OBJECT) {
+ ReadObject(typeId, id, object, *dfn.GetLiteral()->GetProperties());
+ } else {
+ ReadLiteral(typeId, id, object, *dfn.GetLiteral());
+ }
+ values[typeId].push_back(object);
+ parsedDefinitions.insert(make_pair(dfn.Identifier(), ParsedDefinition(&dfn, typeId, id)));
+}
+
+void Interpreter::ReadLiteral(int typeId, int id, char *object, const Literal &literal) {
+ switch (literal.GetType()) {
case Literal::ARRAY_VALUES:
throw Error("named value arrays are not supported, sorry");
break;
throw Error("named property list arrays are not supported, sorry");
break;
case Literal::BOOLEAN:
- {
- int typeId(TypeDescription::GetTypeId("Boolean"));
- values[typeId].push_back(new bool(dfn.GetLiteral()->GetBoolean()));
- parsedDefinitions.insert(make_pair(dfn.Identifier(), ParsedDefinition(&dfn, typeId, values[typeId].size() - 1)));
- }
+ new (object) bool(literal.GetBoolean());
break;
case Literal::COLOR:
- {
- int typeId(TypeDescription::GetTypeId("Color"));
- values[typeId].push_back(new Color(dfn.GetLiteral()->GetRed(), dfn.GetLiteral()->GetGreen(), dfn.GetLiteral()->GetBlue(), dfn.GetLiteral()->GetAlpha()));
- parsedDefinitions.insert(make_pair(dfn.Identifier(), ParsedDefinition(&dfn, typeId, values[typeId].size() - 1)));
- }
+ new (object) Color(literal.GetRed(), literal.GetGreen(), literal.GetBlue(), literal.GetAlpha());
break;
case Literal::NUMBER:
- {
- int typeId(TypeDescription::GetTypeId("Number"));
- values[typeId].push_back(new int(dfn.GetLiteral()->GetNumber()));
- parsedDefinitions.insert(make_pair(dfn.Identifier(), ParsedDefinition(&dfn, typeId, values[typeId].size() - 1)));
- }
+ new (object) int(literal.GetNumber());
break;
case Literal::PATH:
- {
- int typeId(TypeDescription::GetTypeId("Path"));
- char *str(new char[dfn.GetLiteral()->GetString().size() + 1]);
- std::memcpy(str, dfn.GetLiteral()->GetString().c_str(), dfn.GetLiteral()->GetString().size());
- str[dfn.GetLiteral()->GetString().size()] = '\0';
- values[typeId].push_back(str);
- parsedDefinitions.insert(make_pair(dfn.Identifier(), ParsedDefinition(&dfn, typeId, values[typeId].size() - 1)));
- }
+ std::memcpy(object, literal.GetString().c_str(), literal.GetString().size());
+ object[literal.GetString().size()] = '\0';
break;
case Literal::STRING:
- {
- int typeId(TypeDescription::GetTypeId("String"));
- char *str(new char[dfn.GetLiteral()->GetString().size() + 1]);
- std::memcpy(str, dfn.GetLiteral()->GetString().c_str(), dfn.GetLiteral()->GetString().size());
- str[dfn.GetLiteral()->GetString().size()] = '\0';
- values[typeId].push_back(str);
- parsedDefinitions.insert(make_pair(dfn.Identifier(), ParsedDefinition(&dfn, typeId, values[typeId].size() - 1)));
- }
+ std::memcpy(object, literal.GetString().c_str(), literal.GetString().size());
+ object[literal.GetString().size()] = '\0';
break;
case Literal::VECTOR:
- {
- int typeId(TypeDescription::GetTypeId("Vector"));
- values[typeId].push_back(new Vector<int>(dfn.GetLiteral()->GetX(), dfn.GetLiteral()->GetY()));
- parsedDefinitions.insert(make_pair(dfn.Identifier(), ParsedDefinition(&dfn, typeId, values[typeId].size() - 1)));
- }
+ new (object) Vector<int>(literal.GetX(), literal.GetY());
break;
case Literal::OBJECT:
- ReadObject(dfn);
+ throw Error("illogical branch: read literal object as non-object literal");
break;
}
}
if (v.GetLiteral().IsObject()) {
int typeId(TypeDescription::GetTypeId(v.GetLiteral().GetTypeName()));
const TypeDescription &td(TypeDescription::Get(typeId));
- char *object(new char[td.Size()]);
+ char *object(alloc.Alloc(td.Size()));
td.Construct(object);
int id(values[typeId].size());
values[typeId].push_back(object);
typeId = TypeDescription::GetTypeId("Boolean");
id = values[typeId].size();
const TypeDescription &td(TypeDescription::Get(typeId));
- char *object(new char[td.Size()]);
+ char *object(alloc.Alloc(td.Size()));
values[typeId].push_back(new (object) bool(v.GetLiteral().GetBoolean()));
}
break;
typeId = TypeDescription::GetTypeId("Color");
id = values[typeId].size();
const TypeDescription &td(TypeDescription::Get(typeId));
- char *object(new char[td.Size()]);
+ char *object(alloc.Alloc(td.Size()));
values[typeId].push_back(new (object) Color(v.GetLiteral().GetRed(), v.GetLiteral().GetGreen(), v.GetLiteral().GetBlue(), v.GetLiteral().GetAlpha()));
}
break;
typeId = TypeDescription::GetTypeId("Number");
id = values[typeId].size();
const TypeDescription &td(TypeDescription::Get(typeId));
- char *object(new char[td.Size()]);
+ char *object(alloc.Alloc(td.Size()));
values[typeId].push_back(new (object) int(v.GetLiteral().GetNumber()));
}
break;
{
typeId = TypeDescription::GetTypeId("Path");
id = values[typeId].size();
- char *str(new char[v.GetLiteral().GetString().size() + 1]);
+ char *str(alloc.Alloc(v.GetLiteral().GetString().size() + 1));
std::memcpy(str, v.GetLiteral().GetString().c_str(), v.GetLiteral().GetString().size());
str[v.GetLiteral().GetString().size()] = '\0';
values[typeId].push_back(str);
{
typeId = TypeDescription::GetTypeId("String");
id = values[typeId].size();
- char *str(new char[v.GetLiteral().GetString().size() + 1]);
+ char *str(alloc.Alloc(v.GetLiteral().GetString().size() + 1));
std::memcpy(str, v.GetLiteral().GetString().c_str(), v.GetLiteral().GetString().size());
str[v.GetLiteral().GetString().size()] = '\0';
values[typeId].push_back(str);
typeId = TypeDescription::GetTypeId("Vector");
id = values[typeId].size();
const TypeDescription &td(TypeDescription::Get(typeId));
- char *object(new char[td.Size()]);
+ char *object(alloc.Alloc(td.Size()));
values[typeId].push_back(new (object) Vector<int>(v.GetLiteral().GetX(), v.GetLiteral().GetY()));
}
break;
typeId = TypeDescription::GetTypeId(v.GetLiteral().GetTypeName());
const TypeDescription &td(TypeDescription::Get(typeId));
id = values[typeId].size();
- char *object(new char[td.Size()]);
+ char *object(alloc.Alloc(td.Size()));
td.Construct(object);
ReadObject(typeId, id, object, *v.GetLiteral().GetProperties());
}
int typeId(TypeDescription::GetTypeId(dfn.TypeName()));
const TypeDescription &td(TypeDescription::Get(typeId));
int id(values[typeId].size());
- char *object(new char[td.Size()]);
+ char *object(alloc.Alloc(td.Size()));
td.Construct(object);
values[typeId].push_back(object);
ReadObject(typeId, id, object, *dfn.GetProperties());
if (CanLink(*i->second)) {
char *dest(object + fd.Offset());
if (fd.IsAggregate()) {
- if (i->second->GetLiteral().GetType() != Literal::ARRAY_PROPS) {
- throw Error("unsupported aggregate type");
- }
int arraySize(i->second->GetLiteral().ArraySize());
- char *aggregate(new char[fieldType.Size() * arraySize]);
+ char *aggregate(alloc.Alloc(fieldType.Size() * arraySize));
char *iter(aggregate);
- vector<PropertyList *> list(i->second->GetLiteral().GetPropertyLists());
- for (vector<PropertyList *>::const_iterator j(list.begin()), end(list.end()); j != end; ++j, iter += fieldType.Size()) {
- fieldType.Construct(iter);
- ReadObject(fieldType.TypeId(), -1, iter, **j);
+ if (i->second->GetLiteral().GetType() == Literal::ARRAY_PROPS) {
+ const vector<PropertyList *> &list(i->second->GetLiteral().GetPropertyLists());
+ for (vector<PropertyList *>::const_iterator j(list.begin()), end(list.end()); j != end; ++j, iter += fieldType.Size()) {
+ fieldType.Construct(iter);
+ ReadObject(fieldType.TypeId(), -1, iter, **j);
+ }
+ } else {
+ const vector<Value *> &list(i->second->GetLiteral().GetValues());
+ for (vector<Value *>::const_iterator j(list.begin()), end(list.end()); j != end; ++j, iter += fieldType.Size()) {
+ fieldType.Construct(iter);
+ ReadLiteral(fieldType.TypeId(), -1, iter, (*j)->GetLiteral());
+ }
}
if (fd.IsReferenced()) {
std::memcpy(dest, &aggregate, sizeof(char *));
} else {
throw Error("aggregate type fields must be referenced");
}
+ } else if (i->second->IsLiteral() && !fd.IsReferenced()) {
+ // inline literals
+ if (i->second->GetLiteral().IsObject()) {
+ ReadObject(fd.TypeId(), -1, dest, *i->second->GetLiteral().GetProperties());
+ } else {
+ ReadLiteral(fd.TypeId(), -1, dest, i->second->GetLiteral());
+ }
} else {
char *src(reinterpret_cast<char *>(GetObject(fd.TypeId(), *i->second)));
+ if (fd.TypeId() == TypeDescription::GetTypeId("Image")) {
+ src = reinterpret_cast<char *>(GetImage(src));
+ }
if (fd.IsReferenced()) {
std::memcpy(dest, &src, sizeof(char *));
} else {
}
}
} else {
- Postpone(typeId, id, fd.Offset(), i->second->GetIdentifier(), fd.TypeId());
+ Postpone(typeId, id, fd.Offset(), i->second->GetIdentifier(), fd.TypeId(), !fd.IsReferenced());
}
}
+ td.Load(object);
+}
+
+
+SDL_Surface *Interpreter::GetImage(const string &path) {
+ std::map<string, SDL_Surface *>::const_iterator result(imageCache.find(path));
+ if (result != imageCache.end()) {
+ return result->second;
+ } else {
+ SDL_Surface *image(IMG_Load(path.c_str()));
+ imageCache.insert(make_pair(path, image));
+ return image;
+ }
}
return v.IsLiteral() || source.IsDefined(v.GetIdentifier());
}
-void Interpreter::Postpone(int type, int id, std::ptrdiff_t offset, const std::string &identifier, int linkedType) {
- char *str(new char[identifier.size() + 1]);
+void Interpreter::Postpone(int type, int id, std::ptrdiff_t offset, const std::string &identifier, int linkedType, bool inlined) {
+ char *str(alloc.Alloc(identifier.size() + 1));
std::memcpy(str, identifier.c_str(), identifier.size());
str[identifier.size()] = '\0';
- postponedDefinitions.push_back(PostponedDefinition(type, id, offset, str, linkedType));
+ postponedDefinitions.push_back(PostponedDefinition(type, id, offset, str, linkedType, inlined));
}
void Interpreter::CreateTypeDescriptions() {
{
TypeDescription &td(TypeDescription::CreateOrGet("Boolean"));
+ td.SetDescription("Logical value which can be either true or false.");
td.SetSize(sizeof(bool));
}
{
TypeDescription &td(TypeDescription::CreateOrGet("Color"));
+ td.SetDescription(
+ "A color in RGB format with an optional alpha channel.\n"
+ "Components range from 0 to 255.\n"
+ "Alpha defaults to 255 if omitted.");
td.SetSize(sizeof(Color));
}
{
TypeDescription &td(TypeDescription::CreateOrGet("Image"));
+ td.SetDescription("Path to a PNG file with image data.");
td.SetSize(sizeof(SDL_Surface));
}
{
TypeDescription &td(TypeDescription::CreateOrGet("Number"));
+ td.SetDescription("A signed integer.");
td.SetSize(sizeof(int));
}
{
int stringId(TypeDescription::GetTypeId("String"));
TypeDescription &td(TypeDescription::CreateOrGet("Path"));
+ td.SetDescription("A path in the filesystem which is interpreted relative to the source file's location.");
td.SetSize(1);
td.AddSupertype(stringId, 0);
}
{
TypeDescription &td(TypeDescription::CreateOrGet("String"));
+ td.SetDescription("Some characters.");
td.SetSize(1);
}
{
TypeDescription &td(TypeDescription::CreateOrGet("Vector"));
+ td.SetDescription("A pair of numbers usually describing a 2D translation or offset.");
td.SetSize(sizeof(Vector<int>));
}
}