#include "visual_script_expression.h" bool VisualScriptExpression::_set(const StringName& p_name, const Variant& p_value) { if (String(p_name)=="expression") { expression=p_value; expression_dirty=true; ports_changed_notify(); return true; } if (String(p_name)=="out_type") { output_type=Variant::Type(int(p_value)); expression_dirty=true; ports_changed_notify(); return true; } if (String(p_name)=="sequenced") { sequenced=p_value; ports_changed_notify(); return true; } if (String(p_name)=="input_count") { int from=inputs.size(); inputs.resize(int(p_value)); for(int i=from;i *p_list) const { String argt="Any"; for(int i=1;ipush_back(PropertyInfo(Variant::STRING,"expression")); p_list->push_back(PropertyInfo(Variant::INT,"out_type",PROPERTY_HINT_ENUM,argt)); p_list->push_back(PropertyInfo(Variant::INT,"input_count",PROPERTY_HINT_RANGE,"0,64,1")); p_list->push_back(PropertyInfo(Variant::BOOL,"sequenced")); for(int i=0;ipush_back(PropertyInfo(Variant::INT,"input/"+itos(i)+"/type",PROPERTY_HINT_ENUM,argt)); p_list->push_back(PropertyInfo(Variant::STRING,"input/"+itos(i)+"/name")); } } int VisualScriptExpression::get_output_sequence_port_count() const { return sequenced?1:0; } bool VisualScriptExpression::has_input_sequence_port() const{ return sequenced; } String VisualScriptExpression::get_output_sequence_port_text(int p_port) const{ return String(); } int VisualScriptExpression::get_input_value_port_count() const{ return inputs.size(); } int VisualScriptExpression::get_output_value_port_count() const{ return 1; } PropertyInfo VisualScriptExpression::get_input_value_port_info(int p_idx) const{ return PropertyInfo(inputs[p_idx].type,inputs[p_idx].name); } PropertyInfo VisualScriptExpression::get_output_value_port_info(int p_idx) const{ return PropertyInfo(output_type,"result"); } String VisualScriptExpression::get_caption() const{ return "Expression"; } String VisualScriptExpression::get_text() const{ return expression; } Error VisualScriptExpression::_get_token(Token& r_token) { while (true) { #define GET_CHAR() (str_ofs>=expression.length()?0:expression[str_ofs++]) CharType cchar = GET_CHAR(); if (cchar==0) { r_token.type=TK_EOF; return OK; } switch(cchar) { case 0: { r_token.type=TK_EOF; return OK; } break; case '{': { r_token.type=TK_CURLY_BRACKET_OPEN; return OK; }; case '}': { r_token.type=TK_CURLY_BRACKET_CLOSE; return OK; }; case '[': { r_token.type=TK_BRACKET_OPEN; return OK; }; case ']': { r_token.type=TK_BRACKET_CLOSE; return OK; }; case '(': { r_token.type=TK_PARENTHESIS_OPEN; return OK; }; case ')': { r_token.type=TK_PARENTHESIS_CLOSE; return OK; }; case ',': { r_token.type=TK_COMMA; return OK; }; case ':': { r_token.type=TK_COLON; return OK; }; case '.': { r_token.type=TK_PERIOD; return OK; }; case '=': { cchar=GET_CHAR(); if (cchar=='=') { r_token.type=TK_OP_EQUAL; } else { _set_error("Expected '='"); r_token.type=TK_ERROR; return ERR_PARSE_ERROR; } return OK; }; case '!': { if (expression[str_ofs]=='=') { r_token.type=TK_OP_NOT_EQUAL; str_ofs++; } else { r_token.type=TK_OP_NOT; } return OK; }; case '>': { if (expression[str_ofs]=='=') { r_token.type=TK_OP_GREATER_EQUAL; str_ofs++; } else if (expression[str_ofs]=='>') { r_token.type=TK_OP_SHIFT_RIGHT; str_ofs++; } else { r_token.type=TK_OP_GREATER; } return OK; }; case '<': { if (expression[str_ofs]=='=') { r_token.type=TK_OP_LESS_EQUAL; str_ofs++; } else if (expression[str_ofs]=='<') { r_token.type=TK_OP_SHIFT_LEFT; str_ofs++; } else { r_token.type=TK_OP_LESS; } return OK; }; case '+': { r_token.type=TK_OP_ADD; return OK; }; case '-': { r_token.type=TK_OP_SUB; return OK; }; case '/': { r_token.type=TK_OP_DIV; return OK; }; case '*': { r_token.type=TK_OP_MUL; return OK; }; case '%': { r_token.type=TK_OP_MOD; return OK; }; case '&': { if (expression[str_ofs]=='&') { r_token.type=TK_OP_AND; str_ofs++; } else { r_token.type=TK_OP_BIT_AND; } return OK; }; case '|': { if (expression[str_ofs]=='|') { r_token.type=TK_OP_OR; str_ofs++; } else { r_token.type=TK_OP_BIT_OR; } return OK; }; case '^': { r_token.type=TK_OP_BIT_XOR; return OK; }; case '~': { r_token.type=TK_OP_BIT_INVERT; return OK; }; case '"': { String str; while(true) { CharType ch=GET_CHAR(); if (ch==0) { _set_error("Unterminated String"); r_token.type=TK_ERROR; return ERR_PARSE_ERROR; } else if (ch=='"') { break; } else if (ch=='\\') { //escaped characters... CharType next = GET_CHAR(); if (next==0) { _set_error("Unterminated String"); r_token.type=TK_ERROR; return ERR_PARSE_ERROR; } CharType res=0; switch(next) { case 'b': res=8; break; case 't': res=9; break; case 'n': res=10; break; case 'f': res=12; break; case 'r': res=13; break; case 'u': { //hexnumbarh - oct is deprecated for(int j=0;j<4;j++) { CharType c = GET_CHAR(); if (c==0) { _set_error("Unterminated String"); r_token.type=TK_ERROR; return ERR_PARSE_ERROR; } if (!((c>='0' && c<='9') || (c>='a' && c<='f') || (c>='A' && c<='F'))) { _set_error("Malformed hex constant in string"); r_token.type=TK_ERROR; return ERR_PARSE_ERROR; } CharType v; if (c>='0' && c<='9') { v=c-'0'; } else if (c>='a' && c<='f') { v=c-'a'; v+=10; } else if (c>='A' && c<='F') { v=c-'A'; v+=10; } else { ERR_PRINT("BUG"); v=0; } res<<=4; res|=v; } } break; //case '\"': res='\"'; break; //case '\\': res='\\'; break; //case '/': res='/'; break; default: { res = next; //r_err_str="Invalid escape sequence"; //return ERR_PARSE_ERROR; } break; } str+=res; } else { str+=ch; } } r_token.type=TK_CONSTANT; r_token.value=str; return OK; } break; default: { if (cchar<=32) { break; } if (cchar=='-' || (cchar>='0' && cchar<='9')) { //a number String num; #define READING_SIGN 0 #define READING_INT 1 #define READING_DEC 2 #define READING_EXP 3 #define READING_DONE 4 int reading=READING_INT; if (cchar=='-') { num+='-'; cchar=GET_CHAR(); } CharType c = cchar; bool exp_sign=false; bool exp_beg=false; bool is_float=false; while(true) { switch(reading) { case READING_INT: { if (c>='0' && c<='9') { //pass } else if (c=='.') { reading=READING_DEC; is_float=true; } else if (c=='e') { reading=READING_EXP; } else { reading=READING_DONE; } } break; case READING_DEC: { if (c>='0' && c<='9') { } else if (c=='e') { reading=READING_EXP; } else { reading=READING_DONE; } } break; case READING_EXP: { if (c>='0' && c<='9') { exp_beg=true; } else if ((c=='-' || c=='+') && !exp_sign && !exp_beg) { if (c=='-') is_float=true; exp_sign=true; } else { reading=READING_DONE; } } break; } if (reading==READING_DONE) break; num+=String::chr(c); c = GET_CHAR(); } str_ofs--; r_token.type=TK_CONSTANT; if (is_float) r_token.value=num.to_double(); else r_token.value=num.to_int(); return OK; } else if ((cchar>='A' && cchar<='Z') || (cchar>='a' && cchar<='z') || cchar=='_') { String id; bool first=true; while((cchar>='A' && cchar<='Z') || (cchar>='a' && cchar<='z') || cchar=='_' || (!first && cchar>='0' && cchar<='9')) { id+=String::chr(cchar); cchar=GET_CHAR(); first=false; } str_ofs--; //go back one if (id=="in") { r_token.type=TK_OP_IN; } else if (id=="null") { r_token.type=TK_CONSTANT; r_token.value=Variant(); } else if (id=="true") { r_token.type=TK_CONSTANT; r_token.value=true; } else if (id=="false") { r_token.type=TK_CONSTANT; r_token.value=false; } else if (id=="PI") { r_token.type=TK_CONSTANT; r_token.value=Math_PI; } else if (id=="not") { r_token.type=TK_OP_NOT; } else if (id=="or") { r_token.type=TK_OP_OR; } else if (id=="and") { r_token.type=TK_OP_AND; } else if (id=="self") { r_token.type=TK_SELF; } else { for(int i=0;i expression; while(true) { //keep appending stuff to expression ENode*expr=NULL; Token tk; _get_token(tk); if (error_set) return NULL; switch(tk.type) { case TK_CURLY_BRACKET_OPEN: { //a dictionary DictionaryNode *dn = alloc_node(); while(true) { int cofs=str_ofs; _get_token(tk); if (tk.type==TK_CURLY_BRACKET_CLOSE) { break; } str_ofs=cofs; //revert //parse an expression ENode* expr=_parse_expression(); if (!expr) return NULL; dn->dict.push_back(expr); _get_token(tk); if (tk.type!=TK_COLON) { _set_error("Expected ':'"); return NULL; } expr=_parse_expression(); if (!expr) return NULL; dn->dict.push_back(expr); cofs=str_ofs; _get_token(tk); if (tk.type==TK_COMMA) { //all good } else if (tk.type==TK_CURLY_BRACKET_CLOSE) { str_ofs=cofs; } else { _set_error("Expected ',' or '}'"); } } expr=dn; } break; case TK_BRACKET_OPEN: { //an array ArrayNode *an = alloc_node(); while(true) { int cofs=str_ofs; _get_token(tk); if (tk.type==TK_BRACKET_CLOSE) { break; } str_ofs=cofs; //revert //parse an expression ENode* expr=_parse_expression(); if (!expr) return NULL; an->array.push_back(expr); cofs=str_ofs; _get_token(tk); if (tk.type==TK_COMMA) { //all good } else if (tk.type==TK_BRACKET_CLOSE) { str_ofs=cofs; } else { _set_error("Expected ',' or ']'"); } } expr=an; } break; case TK_PARENTHESIS_OPEN: { //a suexpression ENode* e=_parse_expression(); if (error_set) return NULL; _get_token(tk); if (tk.type!=TK_PARENTHESIS_CLOSE) { _set_error("Expected ')'"); return NULL; } expr=e; } break; case TK_IDENTIFIER: { String what = tk.value; int index=-1; for(int i=0;i(); input->index=index; expr=input; } else { _set_error("Invalid input identifier '"+what+"'. For script variables, use self (locals are for inputs)."+what); return NULL; } } break; case TK_SELF: { SelfNode *self = alloc_node(); expr=self; } break; case TK_CONSTANT: { ConstantNode *constant = alloc_node(); constant->value=tk.value; expr=constant; } break; case TK_BASIC_TYPE: { //constructor.. Variant::Type bt = Variant::Type(int(tk.value)); _get_token(tk); if (tk.type!=TK_PARENTHESIS_OPEN) { _set_error("Expected '('"); return NULL; } ConstructorNode *constructor = alloc_node(); constructor->data_type=bt; while(true) { int cofs=str_ofs; _get_token(tk); if (tk.type==TK_PARENTHESIS_CLOSE) { break; } str_ofs=cofs; //revert //parse an expression ENode* expr=_parse_expression(); if (!expr) return NULL; constructor->arguments.push_back(expr); cofs=str_ofs; _get_token(tk); if (tk.type==TK_COMMA) { //all good } else if (tk.type==TK_PARENTHESIS_CLOSE) { str_ofs=cofs; } else { _set_error("Expected ',' or ')'"); } } expr=constructor; } break; case TK_BUILTIN_FUNC: { //builtin function Variant::Type bt = Variant::Type(int(tk.value)); _get_token(tk); if (tk.type!=TK_PARENTHESIS_OPEN) { _set_error("Expected '('"); return NULL; } BuiltinFuncNode *bifunc = alloc_node(); bifunc->func=VisualScriptBuiltinFunc::BuiltinFunc(int(tk.value)); while(true) { int cofs=str_ofs; _get_token(tk); if (tk.type==TK_PARENTHESIS_CLOSE) { break; } str_ofs=cofs; //revert //parse an expression ENode* expr=_parse_expression(); if (!expr) return NULL; bifunc->arguments.push_back(expr); cofs=str_ofs; _get_token(tk); if (tk.type==TK_COMMA) { //all good } else if (tk.type==TK_PARENTHESIS_CLOSE) { str_ofs=cofs; } else { _set_error("Expected ',' or ')'"); } } int expected_args = VisualScriptBuiltinFunc::get_func_argument_count(bifunc->func); if (bifunc->arguments.size() != expected_args) { _set_error("Builtin func '"+VisualScriptBuiltinFunc::get_func_name(bifunc->func)+"' expects "+itos(expected_args)+" arguments."); } expr=bifunc; } break; case TK_OP_SUB: { Expression e; e.is_op=true; e.op=Variant::OP_NEGATE; expression.push_back(e); continue; } break; case TK_OP_NOT: { Expression e; e.is_op=true; e.op=Variant::OP_NOT; expression.push_back(e); continue; } break; default: { _set_error("Expected expression."); return NULL; } break; } //before going to operators, must check indexing! while(true) { int cofs2=str_ofs; _get_token(tk); if (error_set) return NULL; bool done=false; switch(tk.type) { case TK_BRACKET_OPEN: { //value indexing IndexNode *index = alloc_node(); index->base=expr; ENode* what=_parse_expression(); if (!what) return NULL; index->index=what; _get_token(tk); if (tk.type!=TK_BRACKET_CLOSE) { _set_error("Expected ']' at end of index."); return NULL; } expr=index; } break; case TK_PERIOD: { //named indexing or function call _get_token(tk); if (tk.type!=TK_IDENTIFIER) { _set_error("Expected identifier after '.'"); return NULL; } StringName identifier=tk.value; int cofs=str_ofs; _get_token(tk); if (tk.type==TK_PARENTHESIS_OPEN) { //function call CallNode *func_call = alloc_node(); func_call->method=identifier; func_call->base=expr; while(true) { int cofs=str_ofs; _get_token(tk); if (tk.type==TK_PARENTHESIS_CLOSE) { break; } str_ofs=cofs; //revert //parse an expression ENode* expr=_parse_expression(); if (!expr) return NULL; func_call->arguments.push_back(expr); cofs=str_ofs; _get_token(tk); if (tk.type==TK_COMMA) { //all good } else if (tk.type==TK_PARENTHESIS_CLOSE) { str_ofs=cofs; } else { _set_error("Expected ',' or ')'"); } } expr=func_call; } else { //named indexing str_ofs=cofs; NamedIndexNode *index = alloc_node(); index->base=expr; index->name=identifier; expr=index; } } break; default: { str_ofs=cofs2; done=true; } break; } if (done) break; } //push expression { Expression e; e.is_op=false; e.node=expr; expression.push_back(e); } //ok finally look for an operator int cofs=str_ofs; _get_token(tk); if (error_set) return NULL; Variant::Operator op = Variant::OP_MAX; switch(tk.type) { case TK_OP_IN: op=Variant::OP_IN; break; case TK_OP_EQUAL: op=Variant::OP_EQUAL; break; case TK_OP_NOT_EQUAL: op=Variant::OP_NOT_EQUAL; break; case TK_OP_LESS: op=Variant::OP_LESS; break; case TK_OP_LESS_EQUAL: op=Variant::OP_LESS_EQUAL; break; case TK_OP_GREATER: op=Variant::OP_GREATER; break; case TK_OP_GREATER_EQUAL: op=Variant::OP_GREATER_EQUAL; break; case TK_OP_AND: op=Variant::OP_AND; break; case TK_OP_OR: op=Variant::OP_OR; break; case TK_OP_NOT: op=Variant::OP_NOT; break; case TK_OP_ADD: op=Variant::OP_ADD; break; case TK_OP_SUB: op=Variant::OP_SUBSTRACT; break; case TK_OP_MUL: op=Variant::OP_MULTIPLY; break; case TK_OP_DIV: op=Variant::OP_DIVIDE; break; case TK_OP_MOD: op=Variant::OP_MODULE; break; case TK_OP_SHIFT_LEFT: op=Variant::OP_SHIFT_LEFT; break; case TK_OP_SHIFT_RIGHT: op=Variant::OP_SHIFT_RIGHT; break; case TK_OP_BIT_AND: op=Variant::OP_BIT_AND; break; case TK_OP_BIT_OR: op=Variant::OP_BIT_OR; break; case TK_OP_BIT_XOR: op=Variant::OP_BIT_XOR; break; case TK_OP_BIT_INVERT: op=Variant::OP_BIT_NEGATE; break; default: {}; } if (op==Variant::OP_MAX) { //stop appending stuff str_ofs=cofs; break; } //push operator and go on { Expression e; e.is_op=true; e.op=op; expression.push_back(e); } } /* Reduce the set set of expressions and place them in an operator tree, respecting precedence */ while(expression.size()>1) { int next_op=-1; int min_priority=0xFFFFF; bool is_unary=false; for(int i=0;i=next_op;i--) { OperatorNode *op = alloc_node(); op->op=expression[i].op; op->nodes[0]=expression[i+1].node; op->nodes[1]=NULL; expression[i].is_op=false; expression[i].node=op; expression.remove(i+1); } } else { if (next_op <1 || next_op>=(expression.size()-1)) { _set_error("Parser bug.."); ERR_FAIL_V(NULL); } OperatorNode *op = alloc_node(); op->op=expression[next_op].op; if (expression[next_op-1].is_op) { _set_error("Parser bug.."); ERR_FAIL_V(NULL); } if (expression[next_op+1].is_op) { // this is not invalid and can really appear // but it becomes invalid anyway because no binary op // can be followed by an unary op in a valid combination, // due to how precedence works, unaries will always dissapear first _set_error("Unexpected two consecutive operators."); return NULL; } op->nodes[0]=expression[next_op-1].node; //expression goes as left op->nodes[1]=expression[next_op+1].node; //next expression goes as right //replace all 3 nodes by this operator and make it an expression expression[next_op-1].node=op; expression.remove(next_op); expression.remove(next_op); } } return expression[0].node; } bool VisualScriptExpression::_compile_expression() { if (!expression_dirty) return error_set; if (nodes) { memdelete(nodes); nodes=NULL; root=NULL; } error_str=String(); error_set=false; str_ofs=0; root=_parse_expression(); if (error_set) { root=NULL; if (nodes) { memdelete(nodes); } nodes=NULL; return true; } expression_dirty=false; return false; } class VisualScriptNodeInstanceExpression : public VisualScriptNodeInstance { public: VisualScriptInstance* instance; VisualScriptExpression *expression; //virtual int get_working_memory_size() const { return 0; } //execute by parsing the tree directly virtual bool _execute(const Variant** p_inputs,VisualScriptExpression::ENode *p_node,Variant& r_ret,String& r_error_str,Variant::CallError &ce) { switch(p_node->type) { case VisualScriptExpression::ENode::TYPE_INPUT: { const VisualScriptExpression::InputNode *in = static_cast(p_node); r_ret=*p_inputs[in->index]; } break; case VisualScriptExpression::ENode::TYPE_CONSTANT: { const VisualScriptExpression::ConstantNode *c = static_cast(p_node); r_ret=c->value; } break; case VisualScriptExpression::ENode::TYPE_SELF: { r_ret=instance->get_owner_ptr(); } break; case VisualScriptExpression::ENode::TYPE_OPERATOR: { const VisualScriptExpression::OperatorNode *op = static_cast(p_node); Variant a; bool ret = _execute(p_inputs,op->nodes[0],a,r_error_str,ce); if (ret) return true; Variant b; if (op->nodes[1]) { ret = _execute(p_inputs,op->nodes[1],b,r_error_str,ce); if (ret) return true; } bool valid=true; Variant::evaluate(op->op,a,b,r_ret,valid); if (!valid) { r_error_str="Invalid operands to operator "+Variant::get_operator_name(op->op)+": "+Variant::get_type_name(a.get_type())+" and "+Variant::get_type_name(b.get_type())+"."; return true; } } break; case VisualScriptExpression::ENode::TYPE_INDEX: { const VisualScriptExpression::IndexNode *index = static_cast(p_node); Variant base; bool ret = _execute(p_inputs,index->base,base,r_error_str,ce); if (ret) return true; Variant idx; ret = _execute(p_inputs,index->index,idx,r_error_str,ce); if (ret) return true; bool valid; r_ret=base.get(idx,&valid); if (!valid) { r_error_str="Invalid index of type "+Variant::get_type_name(idx.get_type())+" for base of type "+Variant::get_type_name(base.get_type())+"."; return true; } } break; case VisualScriptExpression::ENode::TYPE_NAMED_INDEX: { const VisualScriptExpression::NamedIndexNode *index = static_cast(p_node); Variant base; bool ret = _execute(p_inputs,index->base,base,r_error_str,ce); if (ret) return true; bool valid; r_ret=base.get_named(index->name,&valid); if (!valid) { r_error_str="Invalid index '"+String(index->name)+"' for base of type "+Variant::get_type_name(base.get_type())+"."; return true; } } break; case VisualScriptExpression::ENode::TYPE_ARRAY: { const VisualScriptExpression::ArrayNode *array = static_cast(p_node); Array arr; arr.resize(array->array.size()); for (int i=0;iarray.size();i++) { Variant value; bool ret = _execute(p_inputs,array->array[i],value,r_error_str,ce); if (ret) return true; arr[i]=value; } r_ret=arr; } break; case VisualScriptExpression::ENode::TYPE_DICTIONARY: { const VisualScriptExpression::DictionaryNode *dictionary = static_cast(p_node); Dictionary d; for (int i=0;idict.size();i+=2) { Variant key; bool ret = _execute(p_inputs,dictionary->dict[i+0],key,r_error_str,ce); if (ret) return true; Variant value; ret = _execute(p_inputs,dictionary->dict[i+1],value,r_error_str,ce); if (ret) return true; d[key]=value; } r_ret=d; } break; case VisualScriptExpression::ENode::TYPE_CONSTRUCTOR: { const VisualScriptExpression::ConstructorNode *constructor = static_cast(p_node); Vector arr; Vector argp; arr.resize(constructor->arguments.size()); argp.resize(constructor->arguments.size()); for (int i=0;iarguments.size();i++) { Variant value; bool ret = _execute(p_inputs,constructor->arguments[i],value,r_error_str,ce); if (ret) return true; arr[i]=value; argp[i]=&arr[i]; } r_ret=Variant::construct(constructor->data_type,argp.ptr(),argp.size(),ce); if (ce.error!=Variant::CallError::CALL_OK) { r_error_str="Invalid arguments to construct '"+Variant::get_type_name(constructor->data_type)+"'."; return true; } } break; case VisualScriptExpression::ENode::TYPE_BUILTIN_FUNC: { const VisualScriptExpression::BuiltinFuncNode *bifunc = static_cast(p_node); Vector arr; Vector argp; arr.resize(bifunc->arguments.size()); argp.resize(bifunc->arguments.size()); for (int i=0;iarguments.size();i++) { Variant value; bool ret = _execute(p_inputs,bifunc->arguments[i],value,r_error_str,ce); if (ret) return true; arr[i]=value; argp[i]=&arr[i]; } VisualScriptBuiltinFunc::exec_func(bifunc->func,argp.ptr(),&r_ret,ce,r_error_str); if (ce.error!=Variant::CallError::CALL_OK) { r_error_str="Builtin Call Failed. "+r_error_str; return true; } } break; case VisualScriptExpression::ENode::TYPE_CALL: { const VisualScriptExpression::CallNode *call = static_cast(p_node); Variant base; bool ret = _execute(p_inputs,call->base,base,r_error_str,ce); if (ret) return true; Vector arr; Vector argp; arr.resize(call->arguments.size()); argp.resize(call->arguments.size()); for (int i=0;iarguments.size();i++) { Variant value; bool ret = _execute(p_inputs,call->arguments[i],value,r_error_str,ce); if (ret) return true; arr[i]=value; argp[i]=&arr[i]; } r_ret=base.call(call->method,argp.ptr(),argp.size(),ce); if (ce.error!=Variant::CallError::CALL_OK) { r_error_str="On call to '"+String(call->method)+"':"; return true; } } break; } return false; } virtual int step(const Variant** p_inputs,Variant** p_outputs,StartMode p_start_mode,Variant* p_working_mem,Variant::CallError& r_error,String& r_error_str) { if (!expression->root || expression->error_set) { r_error_str=expression->error_str; r_error.error=Variant::CallError::CALL_ERROR_INVALID_METHOD; return 0; } bool error = _execute(p_inputs,expression->root,*p_outputs[0],r_error_str,r_error); if (error && r_error.error==Variant::CallError::CALL_OK) { r_error.error=Variant::CallError::CALL_ERROR_INVALID_METHOD; } #ifdef DEBUG_ENABLED if (!error && expression->output_type!=Variant::NIL && !Variant::can_convert_strict(p_outputs[0]->get_type(),expression->output_type)) { r_error_str+="Can't convert expression result from "+Variant::get_type_name(p_outputs[0]->get_type())+" to "+Variant::get_type_name(expression->output_type)+"."; r_error.error=Variant::CallError::CALL_ERROR_INVALID_METHOD; } #endif return 0; } }; VisualScriptNodeInstance* VisualScriptExpression::instance(VisualScriptInstance* p_instance){ _compile_expression(); VisualScriptNodeInstanceExpression *instance = memnew( VisualScriptNodeInstanceExpression ); instance->instance=p_instance; instance->expression=this; return instance; } VisualScriptExpression::VisualScriptExpression() { output_type=Variant::NIL; expression_dirty=true; error_set=true; root=NULL; nodes=NULL; sequenced=false; } VisualScriptExpression::~VisualScriptExpression() { if (nodes) { memdelete(nodes); } } void register_visual_script_expression_node() { VisualScriptLanguage::singleton->add_register_func("operators/expression",create_node_generic); }