PkmnLib/extern/angelscript_addons/scripthelper/scripthelper.cpp

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#include <string.h>
#include "scripthelper.h"
#include <assert.h>
#include <stdio.h>
#include <fstream>
#include <set>
#include <stdlib.h>
using namespace std;
BEGIN_AS_NAMESPACE
int CompareRelation(asIScriptEngine *engine, void *lobj, void *robj, int typeId, int &result)
{
// TODO: If a lot of script objects are going to be compared, e.g. when sorting an array,
// then the method id and context should be cached between calls.
int retval = -1;
asIScriptFunction *func = 0;
asITypeInfo *ti = engine->GetTypeInfoById(typeId);
if( ti )
{
// Check if the object type has a compatible opCmp method
for( asUINT n = 0; n < ti->GetMethodCount(); n++ )
{
asIScriptFunction *f = ti->GetMethodByIndex(n);
asDWORD flags;
if( strcmp(f->GetName(), "opCmp") == 0 &&
f->GetReturnTypeId(&flags) == asTYPEID_INT32 &&
flags == asTM_NONE &&
f->GetParamCount() == 1 )
{
int paramTypeId;
f->GetParam(0, &paramTypeId, &flags);
// The parameter must be an input reference of the same type
// If the reference is a inout reference, then it must also be read-only
if( !(flags & asTM_INREF) || typeId != paramTypeId || ((flags & asTM_OUTREF) && !(flags & asTM_CONST)) )
break;
// Found the method
func = f;
break;
}
}
}
if( func )
{
// Call the method
asIScriptContext *ctx = engine->CreateContext();
ctx->Prepare(func);
ctx->SetObject(lobj);
ctx->SetArgAddress(0, robj);
int r = ctx->Execute();
if( r == asEXECUTION_FINISHED )
{
result = (int)ctx->GetReturnDWord();
// The comparison was successful
retval = 0;
}
ctx->Release();
}
return retval;
}
int CompareEquality(asIScriptEngine *engine, void *lobj, void *robj, int typeId, bool &result)
{
// TODO: If a lot of script objects are going to be compared, e.g. when searching for an
// entry in a set, then the method and context should be cached between calls.
int retval = -1;
asIScriptFunction *func = 0;
asITypeInfo *ti = engine->GetTypeInfoById(typeId);
if( ti )
{
// Check if the object type has a compatible opEquals method
for( asUINT n = 0; n < ti->GetMethodCount(); n++ )
{
asIScriptFunction *f = ti->GetMethodByIndex(n);
asDWORD flags;
if( strcmp(f->GetName(), "opEquals") == 0 &&
f->GetReturnTypeId(&flags) == asTYPEID_BOOL &&
flags == asTM_NONE &&
f->GetParamCount() == 1 )
{
int paramTypeId;
f->GetParam(0, &paramTypeId, &flags);
// The parameter must be an input reference of the same type
// If the reference is a inout reference, then it must also be read-only
if( !(flags & asTM_INREF) || typeId != paramTypeId || ((flags & asTM_OUTREF) && !(flags & asTM_CONST)) )
break;
// Found the method
func = f;
break;
}
}
}
if( func )
{
// Call the method
asIScriptContext *ctx = engine->CreateContext();
ctx->Prepare(func);
ctx->SetObject(lobj);
ctx->SetArgAddress(0, robj);
int r = ctx->Execute();
if( r == asEXECUTION_FINISHED )
{
result = ctx->GetReturnByte() ? true : false;
// The comparison was successful
retval = 0;
}
ctx->Release();
}
else
{
// If the opEquals method doesn't exist, then we try with opCmp instead
int relation;
retval = CompareRelation(engine, lobj, robj, typeId, relation);
if( retval >= 0 )
result = relation == 0 ? true : false;
}
return retval;
}
int ExecuteString(asIScriptEngine *engine, const char *code, asIScriptModule *mod, asIScriptContext *ctx)
{
return ExecuteString(engine, code, 0, asTYPEID_VOID, mod, ctx);
}
int ExecuteString(asIScriptEngine *engine, const char *code, void *ref, int refTypeId, asIScriptModule *mod, asIScriptContext *ctx)
{
// Wrap the code in a function so that it can be compiled and executed
string funcCode = " ExecuteString() {\n";
funcCode += code;
funcCode += "\n;}";
// Determine the return type based on the type of the ref arg
funcCode = engine->GetTypeDeclaration(refTypeId, true) + funcCode;
// GetModule will free unused types, so to be on the safe side we'll hold on to a reference to the type
asITypeInfo *type = 0;
if( refTypeId & asTYPEID_MASK_OBJECT )
{
type = engine->GetTypeInfoById(refTypeId);
if( type )
type->AddRef();
}
// If no module was provided, get a dummy from the engine
asIScriptModule *execMod = mod ? mod : engine->GetModule("ExecuteString", asGM_ALWAYS_CREATE);
// Now it's ok to release the type
if( type )
type->Release();
// Compile the function that can be executed
asIScriptFunction *func = 0;
int r = execMod->CompileFunction("ExecuteString", funcCode.c_str(), -1, 0, &func);
if( r < 0 )
return r;
// If no context was provided, request a new one from the engine
asIScriptContext *execCtx = ctx ? ctx : engine->RequestContext();
r = execCtx->Prepare(func);
if (r >= 0)
{
// Execute the function
r = execCtx->Execute();
// Unless the provided type was void retrieve it's value
if (ref != 0 && refTypeId != asTYPEID_VOID)
{
if (refTypeId & asTYPEID_OBJHANDLE)
{
// Expect the pointer to be null to start with
assert(*reinterpret_cast<void**>(ref) == 0);
*reinterpret_cast<void**>(ref) = *reinterpret_cast<void**>(execCtx->GetAddressOfReturnValue());
engine->AddRefScriptObject(*reinterpret_cast<void**>(ref), engine->GetTypeInfoById(refTypeId));
}
else if (refTypeId & asTYPEID_MASK_OBJECT)
{
// Use the registered assignment operator to do a value assign.
// This assumes that the ref is pointing to a valid object instance.
engine->AssignScriptObject(ref, execCtx->GetAddressOfReturnValue(), engine->GetTypeInfoById(refTypeId));
}
else
{
// Copy the primitive value
memcpy(ref, execCtx->GetAddressOfReturnValue(), engine->GetSizeOfPrimitiveType(refTypeId));
}
}
}
// Clean up
func->Release();
if( !ctx ) engine->ReturnContext(execCtx);
return r;
}
int WriteConfigToFile(asIScriptEngine *engine, const char *filename)
{
ofstream strm;
strm.open(filename);
return WriteConfigToStream(engine, strm);
}
int WriteConfigToStream(asIScriptEngine *engine, ostream &strm)
{
// A helper function for escaping quotes in default arguments
struct Escape
{
static string Quotes(const char *decl)
{
string str = decl;
size_t pos = 0;
for(;;)
{
// Find " characters
pos = str.find("\"",pos);
if( pos == string::npos )
break;
// Add a \ to escape them
str.insert(pos, "\\");
pos += 2;
}
return str;
}
};
int c, n;
asDWORD currAccessMask = 0;
string currNamespace = "";
engine->SetDefaultNamespace("");
// Export the engine version, just for info
strm << "// AngelScript " << asGetLibraryVersion() << "\n";
strm << "// Lib options " << asGetLibraryOptions() << "\n";
// Export the relevant engine properties
strm << "// Engine properties\n";
for( n = 0; n < asEP_LAST_PROPERTY; n++ )
strm << "ep " << n << " " << engine->GetEngineProperty(asEEngineProp(n)) << "\n";
// Make sure the default array type is expanded to the template form
bool expandDefArrayToTempl = engine->GetEngineProperty(asEP_EXPAND_DEF_ARRAY_TO_TMPL) ? true : false;
engine->SetEngineProperty(asEP_EXPAND_DEF_ARRAY_TO_TMPL, true);
// Write enum types and their values
strm << "\n// Enums\n";
c = engine->GetEnumCount();
for( n = 0; n < c; n++ )
{
asITypeInfo *ti = engine->GetEnumByIndex(n);
asDWORD accessMask = ti->GetAccessMask();
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
const char *nameSpace = ti->GetNamespace();
if( nameSpace != currNamespace )
{
strm << "namespace \"" << nameSpace << "\"\n";
currNamespace = nameSpace;
engine->SetDefaultNamespace(currNamespace.c_str());
}
const char *enumName = ti->GetName();
strm << "enum " << enumName << "\n";
for( asUINT m = 0; m < ti->GetEnumValueCount(); m++ )
{
const char *valName;
int val;
valName = ti->GetEnumValueByIndex(m, &val);
strm << "enumval " << enumName << " " << valName << " " << val << "\n";
}
}
// Enumerate all types
strm << "\n// Types\n";
// Keep a list of the template types, as the methods for these need to be exported first
set<asITypeInfo*> templateTypes;
c = engine->GetObjectTypeCount();
for( n = 0; n < c; n++ )
{
asITypeInfo *type = engine->GetObjectTypeByIndex(n);
asDWORD accessMask = type->GetAccessMask();
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
const char *nameSpace = type->GetNamespace();
if( nameSpace != currNamespace )
{
strm << "namespace \"" << nameSpace << "\"\n";
currNamespace = nameSpace;
engine->SetDefaultNamespace(currNamespace.c_str());
}
if( type->GetFlags() & asOBJ_SCRIPT_OBJECT )
{
// This should only be interfaces
assert( type->GetSize() == 0 );
strm << "intf " << type->GetName() << "\n";
}
else
{
// Only the type flags are necessary. The application flags are application
// specific and doesn't matter to the offline compiler. The object size is also
// unnecessary for the offline compiler
strm << "objtype \"" << engine->GetTypeDeclaration(type->GetTypeId()) << "\" " << (unsigned int)(type->GetFlags() & asOBJ_MASK_VALID_FLAGS) << "\n";
// Store the template types (but not template instances)
if( (type->GetFlags() & asOBJ_TEMPLATE) && type->GetSubType() && (type->GetSubType()->GetFlags() & asOBJ_TEMPLATE_SUBTYPE) )
templateTypes.insert(type);
}
}
c = engine->GetTypedefCount();
for( n = 0; n < c; n++ )
{
asITypeInfo *ti = engine->GetTypedefByIndex(n);
const char *nameSpace = ti->GetNamespace();
if( nameSpace != currNamespace )
{
strm << "namespace \"" << nameSpace << "\"\n";
currNamespace = nameSpace;
engine->SetDefaultNamespace(currNamespace.c_str());
}
asDWORD accessMask = ti->GetAccessMask();
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
strm << "typedef " << ti->GetName() << " \"" << engine->GetTypeDeclaration(ti->GetTypedefTypeId()) << "\"\n";
}
c = engine->GetFuncdefCount();
for( n = 0; n < c; n++ )
{
asITypeInfo *funcDef = engine->GetFuncdefByIndex(n);
asDWORD accessMask = funcDef->GetAccessMask();
const char *nameSpace = funcDef->GetNamespace();
// Child funcdefs do not have any namespace, as they belong to the parent object
if( nameSpace && nameSpace != currNamespace )
{
strm << "namespace \"" << nameSpace << "\"\n";
currNamespace = nameSpace;
engine->SetDefaultNamespace(currNamespace.c_str());
}
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
strm << "funcdef \"" << funcDef->GetFuncdefSignature()->GetDeclaration() << "\"\n";
}
// A helper for writing object type members
struct TypeWriter
{
static void Write(asIScriptEngine *engine, ostream &strm, asITypeInfo *type, string &currNamespace, asDWORD &currAccessMask)
{
const char *nameSpace = type->GetNamespace();
if( nameSpace != currNamespace )
{
strm << "namespace \"" << nameSpace << "\"\n";
currNamespace = nameSpace;
engine->SetDefaultNamespace(currNamespace.c_str());
}
string typeDecl = engine->GetTypeDeclaration(type->GetTypeId());
if( type->GetFlags() & asOBJ_SCRIPT_OBJECT )
{
for( asUINT m = 0; m < type->GetMethodCount(); m++ )
{
asIScriptFunction *func = type->GetMethodByIndex(m);
asDWORD accessMask = func->GetAccessMask();
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
strm << "intfmthd " << typeDecl.c_str() << " \"" << Escape::Quotes(func->GetDeclaration(false)).c_str() << (func->IsProperty() ? " property" : "") << "\"\n";
}
}
else
{
asUINT m;
for( m = 0; m < type->GetFactoryCount(); m++ )
{
asIScriptFunction *func = type->GetFactoryByIndex(m);
asDWORD accessMask = func->GetAccessMask();
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
strm << "objbeh \"" << typeDecl.c_str() << "\" " << asBEHAVE_FACTORY << " \"" << Escape::Quotes(func->GetDeclaration(false)).c_str() << "\"\n";
}
for( m = 0; m < type->GetBehaviourCount(); m++ )
{
asEBehaviours beh;
asIScriptFunction *func = type->GetBehaviourByIndex(m, &beh);
if( beh == asBEHAVE_CONSTRUCT )
// Prefix 'void'
strm << "objbeh \"" << typeDecl.c_str() << "\" " << beh << " \"void " << Escape::Quotes(func->GetDeclaration(false)).c_str() << "\"\n";
else if( beh == asBEHAVE_DESTRUCT )
// Prefix 'void' and remove ~
strm << "objbeh \"" << typeDecl.c_str() << "\" " << beh << " \"void " << Escape::Quotes(func->GetDeclaration(false)).c_str()+1 << "\"\n";
else
strm << "objbeh \"" << typeDecl.c_str() << "\" " << beh << " \"" << Escape::Quotes(func->GetDeclaration(false)).c_str() << "\"\n";
}
for( m = 0; m < type->GetMethodCount(); m++ )
{
asIScriptFunction *func = type->GetMethodByIndex(m);
asDWORD accessMask = func->GetAccessMask();
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
strm << "objmthd \"" << typeDecl.c_str() << "\" \"" << Escape::Quotes(func->GetDeclaration(false)).c_str() << (func->IsProperty() ? " property" : "") << "\"\n";
}
for( m = 0; m < type->GetPropertyCount(); m++ )
{
asDWORD accessMask;
type->GetProperty(m, 0, 0, 0, 0, 0, 0, &accessMask);
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
strm << "objprop \"" << typeDecl.c_str() << "\" \"" << type->GetPropertyDeclaration(m) << "\"";
// Save information about composite properties
int compositeOffset;
bool isCompositeIndirect;
type->GetProperty(m, 0, 0, 0, 0, 0, 0, 0, &compositeOffset, &isCompositeIndirect);
strm << " " << compositeOffset << " " << (isCompositeIndirect ? "1" : "0") << "\n";
}
}
}
};
// Write the members of the template types, so they can be fully registered before any other type uses them
// TODO: Order the template types based on dependency to avoid failure if one type uses instances of another
strm << "\n// Template type members\n";
for( set<asITypeInfo*>::iterator it = templateTypes.begin(); it != templateTypes.end(); ++it )
{
asITypeInfo *type = *it;
TypeWriter::Write(engine, strm, type, currNamespace, currAccessMask);
}
// Write the object types members
strm << "\n// Type members\n";
c = engine->GetObjectTypeCount();
for( n = 0; n < c; n++ )
{
asITypeInfo *type = engine->GetObjectTypeByIndex(n);
if( templateTypes.find(type) == templateTypes.end() )
TypeWriter::Write(engine, strm, type, currNamespace, currAccessMask);
}
// Write functions
strm << "\n// Functions\n";
c = engine->GetGlobalFunctionCount();
for( n = 0; n < c; n++ )
{
asIScriptFunction *func = engine->GetGlobalFunctionByIndex(n);
const char *nameSpace = func->GetNamespace();
if( nameSpace != currNamespace )
{
strm << "namespace \"" << nameSpace << "\"\n";
currNamespace = nameSpace;
engine->SetDefaultNamespace(currNamespace.c_str());
}
asDWORD accessMask = func->GetAccessMask();
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
strm << "func \"" << Escape::Quotes(func->GetDeclaration()).c_str() << (func->IsProperty() ? " property" : "") << "\"\n";
}
// Write global properties
strm << "\n// Properties\n";
c = engine->GetGlobalPropertyCount();
for( n = 0; n < c; n++ )
{
const char *name;
int typeId;
bool isConst;
asDWORD accessMask;
const char *nameSpace;
engine->GetGlobalPropertyByIndex(n, &name, &nameSpace, &typeId, &isConst, 0, 0, &accessMask);
if( accessMask != currAccessMask )
{
strm << "access " << hex << (unsigned int)(accessMask) << dec << "\n";
currAccessMask = accessMask;
}
if( nameSpace != currNamespace )
{
strm << "namespace \"" << nameSpace << "\"\n";
currNamespace = nameSpace;
engine->SetDefaultNamespace(currNamespace.c_str());
}
strm << "prop \"" << (isConst ? "const " : "") << engine->GetTypeDeclaration(typeId) << " " << name << "\"\n";
}
// Write string factory
strm << "\n// String factory\n";
// Reset the namespace for the string factory and default array type
if ("" != currNamespace)
{
strm << "namespace \"\"\n";
currNamespace = "";
engine->SetDefaultNamespace("");
}
asDWORD flags = 0;
int typeId = engine->GetStringFactoryReturnTypeId(&flags);
if( typeId > 0 )
strm << "strfactory \"" << ((flags & asTM_CONST) ? "const " : "") << engine->GetTypeDeclaration(typeId) << ((flags & asTM_INOUTREF) ? "&" : "") << "\"\n";
// Write default array type
strm << "\n// Default array type\n";
typeId = engine->GetDefaultArrayTypeId();
if( typeId > 0 )
strm << "defarray \"" << engine->GetTypeDeclaration(typeId) << "\"\n";
// Restore original settings
engine->SetEngineProperty(asEP_EXPAND_DEF_ARRAY_TO_TMPL, expandDefArrayToTempl);
return 0;
}
int ConfigEngineFromStream(asIScriptEngine *engine, istream &strm, const char *configFile, asIStringFactory *stringFactory)
{
int r;
// Some helper functions for parsing the configuration
struct in
{
static asETokenClass GetToken(asIScriptEngine *engine, string &token, const string &text, asUINT &pos)
{
asUINT len = 0;
asETokenClass t = engine->ParseToken(&text[pos], text.length() - pos, &len);
while( (t == asTC_WHITESPACE || t == asTC_COMMENT) && pos < text.length() )
{
pos += len;
t = engine->ParseToken(&text[pos], text.length() - pos, &len);
}
token.assign(&text[pos], len);
pos += len;
return t;
}
static void ReplaceSlashQuote(string &str)
{
size_t pos = 0;
for(;;)
{
// Search for \" in the string
pos = str.find("\\\"", pos);
if( pos == string::npos )
break;
// Remove the \ character
str.erase(pos, 1);
}
}
static asUINT GetLineNumber(const string &text, asUINT pos)
{
asUINT count = 1;
for( asUINT n = 0; n < pos; n++ )
if( text[n] == '\n' )
count++;
return count;
}
};
// Since we are only going to compile the script and never actually execute it,
// we turn off the initialization of global variables, so that the compiler can
// just register dummy types and functions for the application interface.
r = engine->SetEngineProperty(asEP_INIT_GLOBAL_VARS_AFTER_BUILD, false); assert( r >= 0 );
// Read the entire file
char buffer[1000];
string config;
do {
strm.getline(buffer, 1000);
config += buffer;
config += "\n";
} while( !strm.eof() && strm.good() );
// Process the configuration file and register each entity
asUINT pos = 0;
while( pos < config.length() )
{
string token;
// TODO: The position where the initial token is found should be stored for error messages
in::GetToken(engine, token, config, pos);
if( token == "ep" )
{
string tmp;
in::GetToken(engine, tmp, config, pos);
asEEngineProp ep = asEEngineProp(atol(tmp.c_str()));
// Only set properties that affect the compiler
if( ep != asEP_COPY_SCRIPT_SECTIONS &&
ep != asEP_MAX_STACK_SIZE &&
ep != asEP_INIT_GLOBAL_VARS_AFTER_BUILD &&
ep != asEP_EXPAND_DEF_ARRAY_TO_TMPL &&
ep != asEP_AUTO_GARBAGE_COLLECT )
{
// Get the value for the property
in::GetToken(engine, tmp, config, pos);
stringstream s(tmp);
asPWORD value;
s >> value;
engine->SetEngineProperty(ep, value);
}
}
else if( token == "namespace" )
{
string ns;
in::GetToken(engine, ns, config, pos);
ns = ns.substr(1, ns.length() - 2);
r = engine->SetDefaultNamespace(ns.c_str());
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to set namespace");
return -1;
}
}
else if( token == "access" )
{
string maskStr;
in::GetToken(engine, maskStr, config, pos);
asDWORD mask = strtoul(maskStr.c_str(), 0, 16);
engine->SetDefaultAccessMask(mask);
}
else if( token == "objtype" )
{
string name, flags;
in::GetToken(engine, name, config, pos);
name = name.substr(1, name.length() - 2);
in::GetToken(engine, flags, config, pos);
// The size of the value type doesn't matter, because the
// engine must adjust it anyway for different platforms
r = engine->RegisterObjectType(name.c_str(), (atol(flags.c_str()) & asOBJ_VALUE) ? 1 : 0, atol(flags.c_str()));
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register object type");
return -1;
}
}
else if( token == "objbeh" )
{
string name, behaviour, decl;
in::GetToken(engine, name, config, pos);
name = name.substr(1, name.length() - 2);
in::GetToken(engine, behaviour, config, pos);
in::GetToken(engine, decl, config, pos);
decl = decl.substr(1, decl.length() - 2);
in::ReplaceSlashQuote(decl);
// Remove the $ that the engine prefixes the behaviours with
size_t n = decl.find("$");
if( n != string::npos )
decl[n] = ' ';
asEBehaviours behave = static_cast<asEBehaviours>(atol(behaviour.c_str()));
if( behave == asBEHAVE_TEMPLATE_CALLBACK )
{
// TODO: How can we let the compiler register this? Maybe through a plug-in system? Or maybe by implementing the callback as a script itself
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_WARNING, "Cannot register template callback without the actual implementation");
}
else
{
r = engine->RegisterObjectBehaviour(name.c_str(), behave, decl.c_str(), asFUNCTION(0), asCALL_GENERIC);
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register behaviour");
return -1;
}
}
}
else if( token == "objmthd" )
{
string name, decl;
in::GetToken(engine, name, config, pos);
name = name.substr(1, name.length() - 2);
in::GetToken(engine, decl, config, pos);
decl = decl.substr(1, decl.length() - 2);
in::ReplaceSlashQuote(decl);
r = engine->RegisterObjectMethod(name.c_str(), decl.c_str(), asFUNCTION(0), asCALL_GENERIC);
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register object method");
return -1;
}
}
else if( token == "objprop" )
{
string name, decl, compositeOffset, isCompositeIndirect;
in::GetToken(engine, name, config, pos);
name = name.substr(1, name.length() - 2);
in::GetToken(engine, decl, config, pos);
decl = decl.substr(1, decl.length() - 2);
in::GetToken(engine, compositeOffset, config, pos);
in::GetToken(engine, isCompositeIndirect, config, pos);
asITypeInfo *type = engine->GetTypeInfoById(engine->GetTypeIdByDecl(name.c_str()));
if( type == 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Type doesn't exist for property registration");
return -1;
}
// All properties must have different offsets in order to make them
// distinct, so we simply register them with an incremental offset
r = engine->RegisterObjectProperty(name.c_str(), decl.c_str(), type->GetPropertyCount(), compositeOffset != "0" ? type->GetPropertyCount() : 0, isCompositeIndirect != "0");
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register object property");
return -1;
}
}
else if( token == "intf" )
{
string name, size, flags;
in::GetToken(engine, name, config, pos);
r = engine->RegisterInterface(name.c_str());
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register interface");
return -1;
}
}
else if( token == "intfmthd" )
{
string name, decl;
in::GetToken(engine, name, config, pos);
in::GetToken(engine, decl, config, pos);
decl = decl.substr(1, decl.length() - 2);
in::ReplaceSlashQuote(decl);
r = engine->RegisterInterfaceMethod(name.c_str(), decl.c_str());
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register interface method");
return -1;
}
}
else if( token == "func" )
{
string decl;
in::GetToken(engine, decl, config, pos);
decl = decl.substr(1, decl.length() - 2);
in::ReplaceSlashQuote(decl);
r = engine->RegisterGlobalFunction(decl.c_str(), asFUNCTION(0), asCALL_GENERIC);
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register global function");
return -1;
}
}
else if( token == "prop" )
{
string decl;
in::GetToken(engine, decl, config, pos);
decl = decl.substr(1, decl.length() - 2);
// All properties must have different offsets in order to make them
// distinct, so we simply register them with an incremental offset.
// The pointer must also be non-null so we add 1 to have a value.
r = engine->RegisterGlobalProperty(decl.c_str(), reinterpret_cast<void*>(asPWORD(engine->GetGlobalPropertyCount()+1)));
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register global property");
return -1;
}
}
else if( token == "strfactory" )
{
string type;
in::GetToken(engine, type, config, pos);
type = type.substr(1, type.length() - 2);
if (stringFactory == 0)
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_WARNING, "Cannot register string factory without the actual implementation");
return -1;
}
else
{
r = engine->RegisterStringFactory(type.c_str(), stringFactory);
if (r < 0)
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register string factory");
return -1;
}
}
}
else if( token == "defarray" )
{
string type;
in::GetToken(engine, type, config, pos);
type = type.substr(1, type.length() - 2);
r = engine->RegisterDefaultArrayType(type.c_str());
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register the default array type");
return -1;
}
}
else if( token == "enum" )
{
string type;
in::GetToken(engine, type, config, pos);
r = engine->RegisterEnum(type.c_str());
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register enum type");
return -1;
}
}
else if( token == "enumval" )
{
string type, name, value;
in::GetToken(engine, type, config, pos);
in::GetToken(engine, name, config, pos);
in::GetToken(engine, value, config, pos);
r = engine->RegisterEnumValue(type.c_str(), name.c_str(), atol(value.c_str()));
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register enum value");
return -1;
}
}
else if( token == "typedef" )
{
string type, decl;
in::GetToken(engine, type, config, pos);
in::GetToken(engine, decl, config, pos);
decl = decl.substr(1, decl.length() - 2);
r = engine->RegisterTypedef(type.c_str(), decl.c_str());
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register typedef");
return -1;
}
}
else if( token == "funcdef" )
{
string decl;
in::GetToken(engine, decl, config, pos);
decl = decl.substr(1, decl.length() - 2);
r = engine->RegisterFuncdef(decl.c_str());
if( r < 0 )
{
engine->WriteMessage(configFile, in::GetLineNumber(config, pos), 0, asMSGTYPE_ERROR, "Failed to register funcdef");
return -1;
}
}
}
return 0;
}
string GetExceptionInfo(asIScriptContext *ctx, bool showStack)
{
if( ctx->GetState() != asEXECUTION_EXCEPTION ) return "";
stringstream text;
const asIScriptFunction *function = ctx->GetExceptionFunction();
text << "func: " << function->GetDeclaration() << "\n";
text << "modl: " << (function->GetModuleName() ? function->GetModuleName() : "") << "\n";
text << "sect: " << (function->GetScriptSectionName() ? function->GetScriptSectionName() : "") << "\n";
text << "line: " << ctx->GetExceptionLineNumber() << "\n";
text << "desc: " << ctx->GetExceptionString() << "\n";
if( showStack )
{
text << "--- call stack ---\n";
for( asUINT n = 1; n < ctx->GetCallstackSize(); n++ )
{
function = ctx->GetFunction(n);
if( function )
{
if( function->GetFuncType() == asFUNC_SCRIPT )
{
text << (function->GetScriptSectionName() ? function->GetScriptSectionName() : "") << " (" << ctx->GetLineNumber(n) << "): " << function->GetDeclaration() << "\n";
}
else
{
// The context is being reused by the application for a nested call
text << "{...application...}: " << function->GetDeclaration() << "\n";
}
}
else
{
// The context is being reused by the script engine for a nested call
text << "{...script engine...}\n";
}
}
}
return text.str();
}
void ScriptThrow(const string &msg)
{
asIScriptContext *ctx = asGetActiveContext();
if (ctx)
ctx->SetException(msg.c_str());
}
string ScriptGetExceptionInfo()
{
asIScriptContext *ctx = asGetActiveContext();
if (!ctx)
return "";
const char *msg = ctx->GetExceptionString();
if (msg == 0)
return "";
return string(msg);
}
void RegisterExceptionRoutines(asIScriptEngine *engine)
{
2020-01-12 17:20:59 +00:00
[[maybe_unused]]
int r;
// The string type must be available
assert(engine->GetTypeInfoByDecl("string"));
r = engine->RegisterGlobalFunction("void throw(const string &in)", asFUNCTION(ScriptThrow), asCALL_CDECL); assert(r >= 0);
r = engine->RegisterGlobalFunction("string getExceptionInfo()", asFUNCTION(ScriptGetExceptionInfo), asCALL_CDECL); assert(r >= 0);
}
END_AS_NAMESPACE