/* This file is part of libeval, a simple math expression evaluator Copyright (C) 2017 Michael Geselbracht, mgeselbracht3@gmail.com Copyright (C) 2019-2020 KiCad Developers, see AUTHORS.txt for contributors. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ %token_type { LIBEVAL::T_TOKEN } %extra_argument { LIBEVAL::COMPILER* pEval } %type nt {LIBEVAL::TREE_NODE*} %nonassoc G_IDENTIFIER G_ASSIGN G_SEMCOL. %left G_BOOL_AND. %left G_BOOL_OR. %left G_BOOL_XOR. %nonassoc G_LESS_THAN G_GREATER_THAN G_LESS_EQUAL_THAN G_GREATER_EQUAL_THAN G_EQUAL G_NOT_EQUAL. %right G_BOOL_NOT. %left G_PLUS G_MINUS. %left G_DIVIDE G_MULT. %nonassoc G_STRUCT_REF. %nonassoc G_UNIT. %include { #include #include } %syntax_error { pEval->parseError("Syntax error"); } %parse_accept { pEval->parseOk(); } main ::= in. /* Allow multiple statements in input string: x=1; y=2 */ in ::= stmt. in ::= in stmt. /* A statement can be empty, an expr or an expr followed by ';' */ stmt ::= G_ENDS. stmt ::= nt(A) G_ENDS. { pEval->setRoot(A); } nt(A) ::= G_VALUE(B). { A = newNode( pEval, TR_NUMBER, B.value ); } nt(A) ::= G_VALUE(B) G_UNIT(C). { A = newNode( pEval, TR_NUMBER, B.value ); A->leaf[0] = newNode( pEval, TR_UNIT, C.value ); } nt(A) ::= G_STRING(B). { A = newNode( pEval, TR_STRING, B.value ); } nt(A) ::= G_IDENTIFIER(B). { A = newNode( pEval, TR_IDENTIFIER, B.value ); } nt(A) ::= nt(B) G_LESS_THAN nt(C). { A = newNode( pEval, TR_OP_LESS ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_GREATER_THAN nt(C). { A = newNode( pEval, TR_OP_GREATER ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_LESS_EQUAL_THAN nt(C). { A = newNode( pEval, TR_OP_LESS_EQUAL ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_GREATER_EQUAL_THAN nt(C). { A = newNode( pEval, TR_OP_GREATER_EQUAL ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_NOT_EQUAL nt(C). { A = newNode( pEval, TR_OP_NOT_EQUAL ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_BOOL_AND nt(C). { A = newNode( pEval, TR_OP_BOOL_AND ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_BOOL_OR nt(C). { A = newNode( pEval, TR_OP_BOOL_OR ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_PLUS nt(C). { A = newNode( pEval, TR_OP_ADD ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= G_PLUS nt(B). { A = newNode( pEval, B->op, B->value ); A->leaf[0] = B->leaf[0]; A->leaf[1] = B->leaf[1]; } nt(A) ::= G_MINUS nt(B). { A = newNode( pEval, TR_OP_SUB ); A->leaf[0] = newNode( pEval, TR_NUMBER ); A->leaf[1] = B; } nt(A) ::= nt(B) G_MINUS nt(C). { A = newNode( pEval, TR_OP_SUB ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_MULT nt(C). { A = newNode( pEval, TR_OP_MUL ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_DIVIDE nt(C). { A = newNode( pEval, TR_OP_DIV ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_EQUAL nt(C). { A = newNode( pEval, TR_OP_EQUAL ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= nt(B) G_STRUCT_REF nt(C). { A = newNode( pEval, TR_STRUCT_REF ); A->leaf[0] = B; A->leaf[1] = C; } nt(A) ::= G_PARENL nt(B) G_PARENR. { A = newNode( pEval, B->op, B->value ); A->leaf[0] = B->leaf[0]; A->leaf[1] = B->leaf[1]; } nt(A) ::= G_IDENTIFIER(F) G_PARENL nt(B) G_PARENR. { A = newNode( pEval, TR_OP_FUNC_CALL ); A->leaf[0] = newNode( pEval, TR_IDENTIFIER, F.value); A->leaf[1] = B; }