I had a grammar file written for a Perl parser generator to parse expressions from given input string. There is a limitation that the end expression or goal/target should be a logical expression and not mathematical still the grammar should be able to parse the mathematical expressions and if the goal/target after semantic evaluation is mathematical the parser should fail.

Here is the grammar written for Perl parser generator:

```
# There are three known and expected reduce/reduce conflicts caused by
# parenthesized variables -- e.g. (X), [X], and {X} -- appearing in
# both the logical_grouping and mathematical_expression rules.
%expect 0 3
# tokens
%token DECIMAL = /([+-]?[0-9]+\.[0-9]+)/
%token UNSIGNED_INTEGER = /([0-9]+)/
%token SIGNED_INTEGER = /([+-][0-9]+)/
%token GE = /(>=|(?i:\.GE\.))/
%token LE = /(<=|(?i:\.LE\.))/
%token NE = /(\/=|(?i:\.NE\.))/
%token GT = /(>|(?i:\.GT\.))/
%token LT = /(<|(?i:\.LT\.))/
%token EQ = /(=|(?i:\.EQ\.))/
%token DIV = /(\/)/
%token MUL = /(\*)/
%token ADD = /(\+)/
%token SUB = /(-)/
%token AND = /(?i:AND)/
%token OR = /(?i:OR)/
%token XOR = /(?i:XOR)/
%token NOT = /(?i:NOT\.)(?=\S)/
%token PRE = /(?i:PRE\.)(?=\S)/
%token ABS = /(?i:ABS\.)(?=\S)/
%token VAL = /(?i:VAL\.)(?=\S)/
%token DELAY = /((?i:TD[TF]\d+(?:M|S|MS)\.))(?=\S)/
%token N_OR_MORE = /(?i:N_OR_MORE_OF)/
%token VARIABLE = /([A-Za-z][A-Za-z0-9_]{0,39})/
# operator precedence (low to high) and associativity
%left AND OR XOR
%nonassoc EQ NE GT GE LT LE
%left ADD SUB
%left MUL DIV
%right POS NEG
%right ABS PRE NOT VAL N_OR_MORE DELAY
# entry point for parsing
%start logical_expression
%strict
%%
# An expression could be either logical or mathematical, but my tool must
# return a logical result so we don't enable this rule.
#expression:
# $logical_expression
# | $mathematical_expression
#;
logical_expression:
logical_grouping
| logical_function
| relational_expression
| logical_expression.left AND logical_expression.right { "AND($left, $right)" }
| logical_expression.left OR logical_expression.right { "OR($left, $right)" }
| logical_expression.left XOR logical_expression.right { "XOR($left, $right)" }
;
logical_grouping:
'(' logical_expression.expression ')' { $expression }
| '[' logical_expression.expression ']' { $expression }
| '{' logical_expression.expression '}' { $expression }
| VARIABLE
;
logical_function:
NOT logical_grouping.expr { "NOT($expr)" }
| NOT logical_function.expr { "NOT($expr)" }
| PRE logical_grouping.expr { "PRE($expr)" }
| PRE logical_function.expr { "PRE($expr)" }
| $DELAY logical_grouping.expr { "DELAY(" . delay_terms($DELAY) . ", $expr)" }
| $DELAY logical_function.expr { "DELAY(" . delay_terms($DELAY) . ", $expr)" }
| VAL statusable_term.term { "IS_VALID($term)" }
| N_OR_MORE '(' UNSIGNED_INTEGER.n ',' logical_expression_list.list ')' { "N_OR_MORE($n, " . arglist($list) . ")" }
| N_OR_MORE '[' UNSIGNED_INTEGER.n ',' logical_expression_list.list ']' { "N_OR_MORE($n, " . arglist($list) . ")" }
| N_OR_MORE '{' UNSIGNED_INTEGER.n ',' logical_expression_list.list '}' { "N_OR_MORE($n, " . arglist($list) . ")" }
;
logical_expression_list: logical_expression <+ ','>
;
statusable_term:
'(' statusable_term.term ')' { $term }
| '[' statusable_term.term ']' { $term }
| '{' statusable_term.term '}' { $term }
| PRE statusable_term.term { "PRE($term)" }
| VARIABLE
;
relational_expression:
mathematical_expression.left EQ mathematical_expression.right { "EQ($left, $right)" }
| mathematical_expression.left NE mathematical_expression.right { "NE($left, $right)" }
| mathematical_expression.left LT mathematical_expression.right { "LT($left, $right)" }
| mathematical_expression.left LE mathematical_expression.right { "LE($left, $right)" }
| mathematical_expression.left GT mathematical_expression.right { "GT($left, $right)" }
| mathematical_expression.left GE mathematical_expression.right { "GE($left, $right)" }
;
mathematical_expression:
'(' mathematical_expression.expression ')' { $expression }
| '[' mathematical_expression.expression ']' { $expression }
| '{' mathematical_expression.expression '}' { $expression }
| mathematical_expression.left ADD mathematical_expression.right { "ADD($left, $right)" }
| mathematical_expression.left SUB mathematical_expression.right { "SUB($left, $right)" }
| mathematical_expression.left MUL mathematical_expression.right { "MUL($left, $right)" }
| mathematical_expression.left DIV mathematical_expression.right { "DIV($left, $right)" }
| SUB mathematical_expression.expr %prec NEG { "NEG($expr)" }
| ADD mathematical_expression.expr %prec POS { "POS($expr)" }
| PRE mathematical_expression.expr { "PRE($expr)" }
| ABS mathematical_expression.expr { "ABS($expr)" }
| term
;
term:
UNSIGNED_INTEGER
| SIGNED_INTEGER
| DECIMAL
| VARIABLE
;
%%
sub arglist {
my $list = shift;
return join ', ', grep { $_ ne ',' } @$list;
}
sub delay_terms {
my $op = lc shift;
if ($op =~ /td([tf])(\d+)(m|s|ms)\./) {
my $to = $1 eq 't' ? 'TRUE' : 'FALSE';
my $time = $2 . $3;
return join ', ', $to, $time;
}
return;
}
```