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liquid/expressions/expressions.y
2017-06-30 11:21:10 -04:00

164 lines
3.5 KiB
Plaintext

%{
package expressions
import (
"fmt"
"github.com/osteele/liquid/generics"
)
func init() {
// This allows adding and removing references to fmt in the rules below,
// without having to edit the import statement to avoid erorrs each time.
_ = fmt.Sprint("")
}
%}
%union {
name string
val interface{}
f func(Context) interface{}
loopmods loopModifiers
filter_params []valueFn
}
%type <f> expr rel filtered cond loop
%type<filter_params> filter_params
%type<loopmods> loop_modifiers
%token <val> LITERAL
%token <name> IDENTIFIER KEYWORD
%token ASSIGN LOOP
%token EQ NEQ GE LE FOR IN AND OR CONTAINS
%left '.' '|'
%left '<' '>'
%%
start:
cond ';' { yylex.(*lexer).val = $1 }
| ASSIGN IDENTIFIER '=' filtered ';' {
name, expr := $2, $4
yylex.(*lexer).val = func(ctx Context) interface{} {
ctx.Set(name, expr(ctx))
return nil
}
}
| LOOP loop { yylex.(*lexer).val = $2 }
;
loop: IDENTIFIER IN filtered loop_modifiers ';' {
name, expr, mods := $1, $3, $4
$$ = func(ctx Context) interface{} {
return &Loop{name, expr(ctx), mods}
}
}
;
loop_modifiers: /* empty */ { $$ = loopModifiers{} }
| loop_modifiers IDENTIFIER {
switch $2 {
case "reversed":
$1.Reversed = true
default:
panic(ParseError(fmt.Sprintf("undefined loop modifier: %s", $2)))
}
$$ = $1
}
| loop_modifiers KEYWORD LITERAL { // TODO can this be a variable?
switch $2 {
case "limit":
limit, ok := $3.(int)
if !ok {
panic(ParseError(fmt.Sprintf("loop limit must an integer")))
}
$1.Limit = &limit
case "offset":
offset, ok := $3.(int)
if !ok {
panic(ParseError(fmt.Sprintf("loop offset must an integer")))
}
$1.Offset = offset
default:
panic(ParseError(fmt.Sprintf("undefined loop modifier: %s", $2)))
}
$$ = $1
}
;
expr:
LITERAL { val := $1; $$ = func(_ Context) interface{} { return val } }
| IDENTIFIER { name := $1; $$ = func(ctx Context) interface{} { return ctx.Get(name) } }
| expr '.' IDENTIFIER { $$ = makeObjectPropertyExpr($1, $3) }
| expr '[' expr ']' { $$ = makeIndexExpr($1, $3) }
| '(' cond ')' { $$ = $2 }
;
filtered:
expr
| filtered '|' IDENTIFIER { $$ = makeFilter($1, $3, nil) }
| filtered '|' KEYWORD filter_params { $$ = makeFilter($1, $3, $4) }
;
filter_params:
expr { $$ = []valueFn{$1} }
| filter_params ',' expr
{ $$ = append($1, $3) }
rel:
filtered
| expr EQ expr {
fa, fb := $1, $3
$$ = func(ctx Context) interface{} {
a, b := fa(ctx), fb(ctx)
return generics.Equal(a, b)
}
}
| expr NEQ expr {
fa, fb := $1, $3
$$ = func(ctx Context) interface{} {
a, b := fa(ctx), fb(ctx)
return !generics.Equal(a, b)
}
}
| expr '>' expr {
fa, fb := $1, $3
$$ = func(ctx Context) interface{} {
a, b := fa(ctx), fb(ctx)
return generics.Less(b, a)
}
}
| expr '<' expr {
fa, fb := $1, $3
$$ = func(ctx Context) interface{} {
a, b := fa(ctx), fb(ctx)
return generics.Less(a, b)
}
}
| expr GE expr {
fa, fb := $1, $3
$$ = func(ctx Context) interface{} {
a, b := fa(ctx), fb(ctx)
return generics.Less(b, a) || generics.Equal(a, b)
}
}
| expr LE expr {
fa, fb := $1, $3
$$ = func(ctx Context) interface{} {
a, b := fa(ctx), fb(ctx)
return generics.Less(a, b) || generics.Equal(a, b)
}
}
| expr CONTAINS expr { $$ = makeContainsExpr($1, $3) }
;
cond:
rel
| cond AND rel {
fa, fb := $1, $3
$$ = func(ctx Context) interface{} {
return generics.IsTrue(fa(ctx)) && generics.IsTrue(fb(ctx))
}
}
| cond OR rel {
fa, fb := $1, $3
$$ = func(ctx Context) interface{} {
return generics.IsTrue(fa(ctx)) || generics.IsTrue(fb(ctx))
}
}
;