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Refactoring

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This commit is contained in:
dalance 2019-07-17 14:05:59 +09:00
parent 9b8b90eb63
commit c3e2ec84d3
69 changed files with 1121 additions and 1127 deletions
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2
README.md
View File

@ -69,7 +69,7 @@ A parser library for System Verilog.
| expressions | subroutine_calls | x | x | |
| expressions | expressions | x | x | |
| expressions | primaries | x | x | |
| expressions | expression_leftside_values | x | x | |
| expressions | expression_leftside_values | x | x | x |
| expressions | operators | x | x | x |
| expressions | numbers | x | x | x |
| expressions | strings | x | x | x |

10
node_derive/src/lib.rs
View File

@ -49,10 +49,6 @@ fn impl_node(ast: &syn::DeriveInput) -> TokenStream {
let gen = quote! {
impl<'a> Node<'a> for #name<'a> {
fn test(&'a self) -> String {
format!("{}", stringify!(#name))
}
fn next(&'a self) -> AnyNodes<'a> {
#next
}
@ -115,12 +111,12 @@ fn impl_any_node(ast: &syn::DeriveInput) -> TokenStream {
}
#[proc_macro_attribute]
pub fn trace(_attr: TokenStream, item: TokenStream) -> TokenStream {
pub fn parser(_attr: TokenStream, item: TokenStream) -> TokenStream {
let item = parse_macro_input!(item as ItemFn);
impl_trace(&item)
impl_parser(&item)
}
fn impl_trace(item: &syn::ItemFn) -> TokenStream {
fn impl_parser(item: &syn::ItemFn) -> TokenStream {
let ident = &item.ident;
let mut item = item.clone();

4
src/ast/node.rs
View File

@ -2,14 +2,10 @@ use crate::ast::*;
use crate::parser::*;
pub trait Node<'a> {
fn test(&'a self) -> String;
fn next(&'a self) -> AnyNodes<'a>;
}
impl<'a> Node<'a> for Span<'a> {
fn test(&'a self) -> String {
String::from("")
}
fn next(&'a self) -> AnyNodes<'a> {
vec![].into()
}

26
src/parser/behavioral_statements/assertion_statements.rs
View File

@ -101,7 +101,7 @@ pub enum AssertTiming<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn assertion_item(s: Span) -> IResult<Span, AssertionItem> {
alt((
map(concurrent_assertion_item, |x| AssertionItem::Concurrent(x)),
@ -111,14 +111,14 @@ pub fn assertion_item(s: Span) -> IResult<Span, AssertionItem> {
))(s)
}
#[trace]
#[parser]
pub fn deferred_immediate_assertion_item(s: Span) -> IResult<Span, DeferredImmediateAssetionItem> {
let (s, a) = opt(pair(block_identifier, symbol(":")))(s)?;
let (s, b) = deferred_immediate_assertion_statement(s)?;
Ok((s, DeferredImmediateAssetionItem { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn procedural_assertion_statement(s: Span) -> IResult<Span, ProceduralAssertionStatement> {
alt((
map(concurrent_assertion_statement, |x| {
@ -133,7 +133,7 @@ pub fn procedural_assertion_statement(s: Span) -> IResult<Span, ProceduralAssert
))(s)
}
#[trace]
#[parser]
pub fn immediate_assertion_statement(s: Span) -> IResult<Span, ImmediateAssetionStatement> {
alt((
map(simple_immediate_assertion_statement, |x| {
@ -145,7 +145,7 @@ pub fn immediate_assertion_statement(s: Span) -> IResult<Span, ImmediateAssetion
))(s)
}
#[trace]
#[parser]
pub fn simple_immediate_assertion_statement(
s: Span,
) -> IResult<Span, SimpleImmediateAssertionStatement> {
@ -162,7 +162,7 @@ pub fn simple_immediate_assertion_statement(
))(s)
}
#[trace]
#[parser]
pub fn simple_immediate_assert_statement(s: Span) -> IResult<Span, SimpleImmediateAssertStatement> {
let (s, a) = symbol("assert")(s)?;
let (s, b) = paren(expression)(s)?;
@ -170,7 +170,7 @@ pub fn simple_immediate_assert_statement(s: Span) -> IResult<Span, SimpleImmedia
Ok((s, SimpleImmediateAssertStatement { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn simple_immediate_assume_statement(s: Span) -> IResult<Span, SimpleImmediateAssumeStatement> {
let (s, a) = symbol("assume")(s)?;
let (s, b) = paren(expression)(s)?;
@ -178,7 +178,7 @@ pub fn simple_immediate_assume_statement(s: Span) -> IResult<Span, SimpleImmedia
Ok((s, SimpleImmediateAssumeStatement { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn simple_immediate_cover_statement(s: Span) -> IResult<Span, SimpleImmediateCoverStatement> {
let (s, a) = symbol("cover")(s)?;
let (s, b) = paren(expression)(s)?;
@ -186,7 +186,7 @@ pub fn simple_immediate_cover_statement(s: Span) -> IResult<Span, SimpleImmediat
Ok((s, SimpleImmediateCoverStatement { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn deferred_immediate_assertion_statement(
s: Span,
) -> IResult<Span, DeferredImmediateAssertionStatement> {
@ -203,7 +203,7 @@ pub fn deferred_immediate_assertion_statement(
))(s)
}
#[trace]
#[parser]
pub fn deferred_immediate_assert_statement(
s: Span,
) -> IResult<Span, DeferredImmediateAssertStatement> {
@ -219,7 +219,7 @@ pub fn deferred_immediate_assert_statement(
))
}
#[trace]
#[parser]
pub fn deferred_immediate_assume_statement(
s: Span,
) -> IResult<Span, DeferredImmediateAssumeStatement> {
@ -235,7 +235,7 @@ pub fn deferred_immediate_assume_statement(
))
}
#[trace]
#[parser]
pub fn deferred_immediate_cover_statement(
s: Span,
) -> IResult<Span, DeferredImmediateCoverStatement> {
@ -251,7 +251,7 @@ pub fn deferred_immediate_cover_statement(
))
}
#[trace]
#[parser]
pub fn assert_timing(s: Span) -> IResult<Span, AssertTiming> {
alt((
map(symbol("#0"), |x| AssertTiming::Zero(x)),

36
src/parser/behavioral_statements/case_statements.rs
View File

@ -144,7 +144,7 @@ pub struct OpenValueRange<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn case_statement(s: Span) -> IResult<Span, CaseStatement> {
alt((
case_statement_normal,
@ -153,7 +153,7 @@ pub fn case_statement(s: Span) -> IResult<Span, CaseStatement> {
))(s)
}
#[trace]
#[parser]
pub fn case_statement_normal(s: Span) -> IResult<Span, CaseStatement> {
let (s, a) = opt(unique_priority)(s)?;
let (s, b) = case_keyword(s)?;
@ -169,7 +169,7 @@ pub fn case_statement_normal(s: Span) -> IResult<Span, CaseStatement> {
))
}
#[trace]
#[parser]
pub fn case_statement_matches(s: Span) -> IResult<Span, CaseStatement> {
let (s, a) = opt(unique_priority)(s)?;
let (s, b) = case_keyword(s)?;
@ -186,7 +186,7 @@ pub fn case_statement_matches(s: Span) -> IResult<Span, CaseStatement> {
))
}
#[trace]
#[parser]
pub fn case_statement_inside(s: Span) -> IResult<Span, CaseStatement> {
let (s, a) = opt(unique_priority)(s)?;
let (s, b) = symbol("case")(s)?;
@ -203,7 +203,7 @@ pub fn case_statement_inside(s: Span) -> IResult<Span, CaseStatement> {
))
}
#[trace]
#[parser]
pub fn case_keyword(s: Span) -> IResult<Span, CaseKeyword> {
alt((
map(symbol("casez"), |x| CaseKeyword::Casez(x)),
@ -212,13 +212,13 @@ pub fn case_keyword(s: Span) -> IResult<Span, CaseKeyword> {
))(s)
}
#[trace]
#[parser]
pub fn case_expression(s: Span) -> IResult<Span, CaseExpression> {
let (s, a) = expression(s)?;
Ok((s, CaseExpression { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn case_item(s: Span) -> IResult<Span, CaseItem> {
alt((
case_item_nondefault,
@ -226,7 +226,7 @@ pub fn case_item(s: Span) -> IResult<Span, CaseItem> {
))(s)
}
#[trace]
#[parser]
pub fn case_item_nondefault(s: Span) -> IResult<Span, CaseItem> {
let (s, a) = list(symbol(","), case_item_expression)(s)?;
let (s, b) = symbol(":")(s)?;
@ -237,7 +237,7 @@ pub fn case_item_nondefault(s: Span) -> IResult<Span, CaseItem> {
))
}
#[trace]
#[parser]
pub fn case_item_default(s: Span) -> IResult<Span, CaseItemDefault> {
let (s, a) = symbol("default")(s)?;
let (s, b) = opt(symbol(":"))(s)?;
@ -245,7 +245,7 @@ pub fn case_item_default(s: Span) -> IResult<Span, CaseItemDefault> {
Ok((s, CaseItemDefault { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn case_pattern_item(s: Span) -> IResult<Span, CasePatternItem> {
alt((
case_pattern_item_nondefault,
@ -253,7 +253,7 @@ pub fn case_pattern_item(s: Span) -> IResult<Span, CasePatternItem> {
))(s)
}
#[trace]
#[parser]
pub fn case_pattern_item_nondefault(s: Span) -> IResult<Span, CasePatternItem> {
let (s, a) = pattern(s)?;
let (s, b) = opt(pair(symbol("&&&"), expression))(s)?;
@ -267,7 +267,7 @@ pub fn case_pattern_item_nondefault(s: Span) -> IResult<Span, CasePatternItem> {
))
}
#[trace]
#[parser]
pub fn case_inside_item(s: Span) -> IResult<Span, CaseInsideItem> {
alt((
case_inside_item_nondefault,
@ -275,7 +275,7 @@ pub fn case_inside_item(s: Span) -> IResult<Span, CaseInsideItem> {
))(s)
}
#[trace]
#[parser]
pub fn case_inside_item_nondefault(s: Span) -> IResult<Span, CaseInsideItem> {
let (s, a) = open_range_list(s)?;
let (s, b) = symbol(":")(s)?;
@ -286,13 +286,13 @@ pub fn case_inside_item_nondefault(s: Span) -> IResult<Span, CaseInsideItem> {
))
}
#[trace]
#[parser]
pub fn case_item_expression(s: Span) -> IResult<Span, CaseItemExpression> {
let (s, a) = expression(s)?;
Ok((s, CaseItemExpression { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn randcase_statement(s: Span) -> IResult<Span, RandcaseStatement> {
let (s, a) = symbol("randcase")(s)?;
let (s, b) = randcase_item(s)?;
@ -306,7 +306,7 @@ pub fn randcase_statement(s: Span) -> IResult<Span, RandcaseStatement> {
))
}
#[trace]
#[parser]
pub fn randcase_item(s: Span) -> IResult<Span, RandcaseItem> {
let (s, a) = expression(s)?;
let (s, b) = symbol(":")(s)?;
@ -314,13 +314,13 @@ pub fn randcase_item(s: Span) -> IResult<Span, RandcaseItem> {
Ok((s, RandcaseItem { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn open_range_list(s: Span) -> IResult<Span, OpenRangeList> {
let (s, a) = list(symbol(","), open_value_range)(s)?;
Ok((s, OpenRangeList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn open_value_range(s: Span) -> IResult<Span, OpenValueRange> {
let (s, a) = value_range(s)?;
Ok((s, OpenValueRange { nodes: (a,) }))

62
src/parser/behavioral_statements/clocking_block.rs
View File

@ -202,12 +202,12 @@ pub struct ClockvarExpression<'a> {
}
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn clocking_declaration(s: Span) -> IResult<Span, ClockingDeclaration> {
alt((clocking_declaration_local, clocking_declaration_global))(s)
}
#[trace]
#[parser]
pub fn clocking_declaration_local(s: Span) -> IResult<Span, ClockingDeclaration> {
let (s, a) = opt(default)(s)?;
let (s, b) = symbol("clocking")(s)?;
@ -225,13 +225,13 @@ pub fn clocking_declaration_local(s: Span) -> IResult<Span, ClockingDeclaration>
))
}
#[trace]
#[parser]
pub fn default(s: Span) -> IResult<Span, Default> {
let (s, a) = symbol("default")(s)?;
Ok((s, Default { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn clocking_declaration_global(s: Span) -> IResult<Span, ClockingDeclaration> {
let (s, a) = symbol("global")(s)?;
let (s, b) = symbol("clocking")(s)?;
@ -248,12 +248,12 @@ pub fn clocking_declaration_global(s: Span) -> IResult<Span, ClockingDeclaration
))
}
#[trace]
#[parser]
pub fn clocking_event(s: Span) -> IResult<Span, ClockingEvent> {
alt((clocking_event_identifier, clocking_event_expression))(s)
}
#[trace]
#[parser]
pub fn clocking_event_identifier(s: Span) -> IResult<Span, ClockingEvent> {
let (s, a) = symbol("@")(s)?;
let (s, b) = identifier(s)?;
@ -263,7 +263,7 @@ pub fn clocking_event_identifier(s: Span) -> IResult<Span, ClockingEvent> {
))
}
#[trace]
#[parser]
pub fn clocking_event_expression(s: Span) -> IResult<Span, ClockingEvent> {
let (s, a) = symbol("@")(s)?;
let (s, b) = paren(event_expression)(s)?;
@ -273,7 +273,7 @@ pub fn clocking_event_expression(s: Span) -> IResult<Span, ClockingEvent> {
))
}
#[trace]
#[parser]
pub fn clocking_item(s: Span) -> IResult<Span, ClockingItem> {
alt((
clocking_item_default,
@ -282,7 +282,7 @@ pub fn clocking_item(s: Span) -> IResult<Span, ClockingItem> {
))(s)
}
#[trace]
#[parser]
pub fn clocking_item_default(s: Span) -> IResult<Span, ClockingItem> {
let (s, a) = symbol("default")(s)?;
let (s, b) = default_skew(s)?;
@ -293,7 +293,7 @@ pub fn clocking_item_default(s: Span) -> IResult<Span, ClockingItem> {
))
}
#[trace]
#[parser]
pub fn clocking_item_direction(s: Span) -> IResult<Span, ClockingItem> {
let (s, a) = clocking_direction(s)?;
let (s, b) = list_of_clocking_decl_assign(s)?;
@ -304,7 +304,7 @@ pub fn clocking_item_direction(s: Span) -> IResult<Span, ClockingItem> {
))
}
#[trace]
#[parser]
pub fn clocking_item_assertion(s: Span) -> IResult<Span, ClockingItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = assertion_item_declaration(s)?;
@ -314,7 +314,7 @@ pub fn clocking_item_assertion(s: Span) -> IResult<Span, ClockingItem> {
))
}
#[trace]
#[parser]
pub fn default_skew(s: Span) -> IResult<Span, DefaultSkew> {
alt((
default_skew_input,
@ -323,21 +323,21 @@ pub fn default_skew(s: Span) -> IResult<Span, DefaultSkew> {
))(s)
}
#[trace]
#[parser]
pub fn default_skew_input(s: Span) -> IResult<Span, DefaultSkew> {
let (s, a) = symbol("input")(s)?;
let (s, b) = clocking_skew(s)?;
Ok((s, DefaultSkew::Input(DefaultSkewInput { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn default_skew_output(s: Span) -> IResult<Span, DefaultSkew> {
let (s, a) = symbol("output")(s)?;
let (s, b) = clocking_skew(s)?;
Ok((s, DefaultSkew::Output(DefaultSkewOutput { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn default_skew_input_output(s: Span) -> IResult<Span, DefaultSkew> {
let (s, a) = symbol("input")(s)?;
let (s, b) = clocking_skew(s)?;
@ -351,7 +351,7 @@ pub fn default_skew_input_output(s: Span) -> IResult<Span, DefaultSkew> {
))
}
#[trace]
#[parser]
pub fn clocking_direction(s: Span) -> IResult<Span, ClockingDirection> {
alt((
clocking_direction_input,
@ -361,7 +361,7 @@ pub fn clocking_direction(s: Span) -> IResult<Span, ClockingDirection> {
))(s)
}
#[trace]
#[parser]
pub fn clocking_direction_input(s: Span) -> IResult<Span, ClockingDirection> {
let (s, a) = symbol("input")(s)?;
let (s, b) = opt(clocking_skew)(s)?;
@ -371,7 +371,7 @@ pub fn clocking_direction_input(s: Span) -> IResult<Span, ClockingDirection> {
))
}
#[trace]
#[parser]
pub fn clocking_direction_output(s: Span) -> IResult<Span, ClockingDirection> {
let (s, a) = symbol("output")(s)?;
let (s, b) = opt(clocking_skew)(s)?;
@ -381,7 +381,7 @@ pub fn clocking_direction_output(s: Span) -> IResult<Span, ClockingDirection> {
))
}
#[trace]
#[parser]
pub fn clocking_direction_input_output(s: Span) -> IResult<Span, ClockingDirection> {
let (s, a) = symbol("input")(s)?;
let (s, b) = opt(clocking_skew)(s)?;
@ -395,26 +395,26 @@ pub fn clocking_direction_input_output(s: Span) -> IResult<Span, ClockingDirecti
))
}
#[trace]
#[parser]
pub fn clocking_direction_inout(s: Span) -> IResult<Span, ClockingDirection> {
let (s, a) = symbol("inout")(s)?;
Ok((s, ClockingDirection::Inout(a)))
}
#[trace]
#[parser]
pub fn list_of_clocking_decl_assign(s: Span) -> IResult<Span, ListOfClockingDeclAssign> {
let (s, a) = list(symbol(","), clocking_decl_assign)(s)?;
Ok((s, ListOfClockingDeclAssign { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn clocking_decl_assign(s: Span) -> IResult<Span, ClockingDeclAssign> {
let (s, a) = signal_identifier(s)?;
let (s, b) = opt(pair(symbol("="), expression))(s)?;
Ok((s, ClockingDeclAssign { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn clocking_skew(s: Span) -> IResult<Span, ClockingSkew> {
alt((
clocking_skew_edge,
@ -422,14 +422,14 @@ pub fn clocking_skew(s: Span) -> IResult<Span, ClockingSkew> {
))(s)
}
#[trace]
#[parser]
pub fn clocking_skew_edge(s: Span) -> IResult<Span, ClockingSkew> {
let (s, a) = edge_identifier(s)?;
let (s, b) = opt(delay_control)(s)?;
Ok((s, ClockingSkew::Edge(ClockingSkewEdge { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn clocking_drive(s: Span) -> IResult<Span, ClockingDrive> {
let (s, a) = clockvar_expression(s)?;
let (s, b) = symbol("<=")(s)?;
@ -443,7 +443,7 @@ pub fn clocking_drive(s: Span) -> IResult<Span, ClockingDrive> {
))
}
#[trace]
#[parser]
pub fn cycle_delay(s: Span) -> IResult<Span, CycleDelay> {
alt((
cycle_delay_integral,
@ -452,7 +452,7 @@ pub fn cycle_delay(s: Span) -> IResult<Span, CycleDelay> {
))(s)
}
#[trace]
#[parser]
pub fn cycle_delay_integral(s: Span) -> IResult<Span, CycleDelay> {
let (s, a) = symbol("##")(s)?;
let (s, b) = integral_number(s)?;
@ -462,7 +462,7 @@ pub fn cycle_delay_integral(s: Span) -> IResult<Span, CycleDelay> {
))
}
#[trace]
#[parser]
pub fn cycle_delay_identifier(s: Span) -> IResult<Span, CycleDelay> {
let (s, a) = symbol("##")(s)?;
let (s, b) = identifier(s)?;
@ -472,7 +472,7 @@ pub fn cycle_delay_identifier(s: Span) -> IResult<Span, CycleDelay> {
))
}
#[trace]
#[parser]
pub fn cycle_delay_expression(s: Span) -> IResult<Span, CycleDelay> {
let (s, a) = symbol("##")(s)?;
let (s, b) = paren(expression)(s)?;
@ -482,13 +482,13 @@ pub fn cycle_delay_expression(s: Span) -> IResult<Span, CycleDelay> {
))
}
#[trace]
#[parser]
pub fn clockvar(s: Span) -> IResult<Span, Clockvar> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, Clockvar { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn clockvar_expression(s: Span) -> IResult<Span, ClockvarExpression> {
let (s, a) = clockvar(s)?;
let (s, b) = select(s)?;

10
src/parser/behavioral_statements/conditional_statements.rs
View File

@ -50,7 +50,7 @@ pub struct CondPattern<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn conditional_statement(s: Span) -> IResult<Span, ConditionalStatement> {
let (s, a) = opt(unique_priority)(s)?;
let (s, b) = symbol("if")(s)?;
@ -72,7 +72,7 @@ pub fn conditional_statement(s: Span) -> IResult<Span, ConditionalStatement> {
))
}
#[trace]
#[parser]
pub fn unique_priority(s: Span) -> IResult<Span, UniquePriority> {
alt((
map(symbol("unique0"), |x| UniquePriority::Unique0(x)),
@ -81,13 +81,13 @@ pub fn unique_priority(s: Span) -> IResult<Span, UniquePriority> {
))(s)
}
#[trace]
#[parser]
pub fn cond_predicate(s: Span) -> IResult<Span, CondPredicate> {
let (s, a) = list(symbol("&&&"), expression_or_cond_pattern)(s)?;
Ok((s, CondPredicate { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn expression_or_cond_pattern(s: Span) -> IResult<Span, ExpressionOrCondPattern> {
alt((
map(expression, |x| ExpressionOrCondPattern::Expression(x)),
@ -95,7 +95,7 @@ pub fn expression_or_cond_pattern(s: Span) -> IResult<Span, ExpressionOrCondPatt
))(s)
}
#[trace]
#[parser]
pub fn cond_pattern(s: Span) -> IResult<Span, CondPattern> {
let (s, a) = expression(s)?;
let (s, b) = symbol("matches")(s)?;

14
src/parser/behavioral_statements/continuous_assignment_and_net_alias_statements.rs
View File

@ -61,12 +61,12 @@ pub struct NetAssignment<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn continuous_assign(s: Span) -> IResult<Span, ContinuousAssign> {
alt((continuous_assign_net, continuous_assign_variable))(s)
}
#[trace]
#[parser]
pub fn continuous_assign_net(s: Span) -> IResult<Span, ContinuousAssign> {
let (s, a) = symbol("assign")(s)?;
let (s, b) = opt(drive_strength)(s)?;
@ -82,7 +82,7 @@ pub fn continuous_assign_net(s: Span) -> IResult<Span, ContinuousAssign> {
))
}
#[trace]
#[parser]
pub fn continuous_assign_variable(s: Span) -> IResult<Span, ContinuousAssign> {
let (s, a) = symbol("assign")(s)?;
let (s, b) = opt(delay_control)(s)?;
@ -97,19 +97,19 @@ pub fn continuous_assign_variable(s: Span) -> IResult<Span, ContinuousAssign> {
))
}
#[trace]
#[parser]
pub fn list_of_net_assignments(s: Span) -> IResult<Span, ListOfNetAssignments> {
let (s, a) = list(symbol(","), net_assignment)(s)?;
Ok((s, ListOfNetAssignments { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_variable_assignments(s: Span) -> IResult<Span, ListOfVariableAssignments> {
let (s, a) = list(symbol(","), variable_assignment)(s)?;
Ok((s, ListOfVariableAssignments { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn net_alias(s: Span) -> IResult<Span, NetAlias> {
let (s, a) = symbol("alias")(s)?;
let (s, b) = net_lvalue(s)?;
@ -125,7 +125,7 @@ pub fn net_alias(s: Span) -> IResult<Span, NetAlias> {
))
}
#[trace]
#[parser]
pub fn net_assignment(s: Span) -> IResult<Span, NetAssignment> {
let (s, a) = net_lvalue(s)?;
let (s, b) = symbol("=")(s)?;

28
src/parser/behavioral_statements/looping_statements.rs
View File

@ -120,7 +120,7 @@ pub struct LoopVariables<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn loop_statement(s: Span) -> IResult<Span, LoopStatement> {
alt((
loop_statement_forever,
@ -132,7 +132,7 @@ pub fn loop_statement(s: Span) -> IResult<Span, LoopStatement> {
))(s)
}
#[trace]
#[parser]
pub fn loop_statement_forever(s: Span) -> IResult<Span, LoopStatement> {
let (s, a) = symbol("forever")(s)?;
let (s, b) = statement_or_null(s)?;
@ -142,7 +142,7 @@ pub fn loop_statement_forever(s: Span) -> IResult<Span, LoopStatement> {
))
}
#[trace]
#[parser]
pub fn loop_statement_repeat(s: Span) -> IResult<Span, LoopStatement> {
let (s, a) = symbol("repeat")(s)?;
let (s, b) = paren(expression)(s)?;
@ -153,7 +153,7 @@ pub fn loop_statement_repeat(s: Span) -> IResult<Span, LoopStatement> {
))
}
#[trace]
#[parser]
pub fn loop_statement_while(s: Span) -> IResult<Span, LoopStatement> {
let (s, a) = symbol("while")(s)?;
let (s, b) = paren(expression)(s)?;
@ -164,7 +164,7 @@ pub fn loop_statement_while(s: Span) -> IResult<Span, LoopStatement> {
))
}
#[trace]
#[parser]
pub fn loop_statement_for(s: Span) -> IResult<Span, LoopStatement> {
let (s, a) = symbol("for")(s)?;
let (s, b) = paren(tuple((
@ -178,7 +178,7 @@ pub fn loop_statement_for(s: Span) -> IResult<Span, LoopStatement> {
Ok((s, LoopStatement::For(LoopStatementFor { nodes: (a, b, c) })))
}
#[trace]
#[parser]
pub fn loop_statement_do_while(s: Span) -> IResult<Span, LoopStatement> {
let (s, a) = symbol("do")(s)?;
let (s, b) = statement_or_null(s)?;
@ -193,7 +193,7 @@ pub fn loop_statement_do_while(s: Span) -> IResult<Span, LoopStatement> {
))
}
#[trace]
#[parser]
pub fn loop_statement_foreach(s: Span) -> IResult<Span, LoopStatement> {
let (s, a) = symbol("foreach")(s)?;
let (s, b) = paren(pair(
@ -207,7 +207,7 @@ pub fn loop_statement_foreach(s: Span) -> IResult<Span, LoopStatement> {
))
}
#[trace]
#[parser]
pub fn for_initialization(s: Span) -> IResult<Span, ForInitialization> {
alt((
map(list_of_variable_assignments, |x| {
@ -217,7 +217,7 @@ pub fn for_initialization(s: Span) -> IResult<Span, ForInitialization> {
))(s)
}
#[trace]
#[parser]
pub fn for_initialization_declaration(s: Span) -> IResult<Span, ForInitialization> {
let (s, a) = list(symbol(","), for_variable_declaration)(s)?;
Ok((
@ -226,7 +226,7 @@ pub fn for_initialization_declaration(s: Span) -> IResult<Span, ForInitializatio
))
}
#[trace]
#[parser]
pub fn for_variable_declaration(s: Span) -> IResult<Span, ForVariableDeclaration> {
let (s, a) = opt(var)(s)?;
let (s, b) = data_type(s)?;
@ -237,19 +237,19 @@ pub fn for_variable_declaration(s: Span) -> IResult<Span, ForVariableDeclaration
Ok((s, ForVariableDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn var(s: Span) -> IResult<Span, Var> {
let (s, a) = symbol("var")(s)?;
Ok((s, Var { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn for_step(s: Span) -> IResult<Span, ForStep> {
let (s, a) = list(symbol(","), for_step_assignment)(s)?;
Ok((s, ForStep { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn for_step_assignment(s: Span) -> IResult<Span, ForStepAssignment> {
alt((
map(operator_assignment, |x| {
@ -264,7 +264,7 @@ pub fn for_step_assignment(s: Span) -> IResult<Span, ForStepAssignment> {
))(s)
}
#[trace]
#[parser]
pub fn loop_variables(s: Span) -> IResult<Span, LoopVariables> {
let (s, a) = list(symbol(","), opt(index_variable_identifier))(s)?;
Ok((s, LoopVariables { nodes: (a,) }))

10
src/parser/behavioral_statements/parallel_and_sequential_blocks.rs
View File

@ -52,7 +52,7 @@ pub enum JoinKeyword<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn action_block(s: Span) -> IResult<Span, ActionBlock> {
alt((
map(statement_or_null, |x| ActionBlock::StatementOrNull(x)),
@ -60,7 +60,7 @@ pub fn action_block(s: Span) -> IResult<Span, ActionBlock> {
))(s)
}
#[trace]
#[parser]
pub fn action_block_else(s: Span) -> IResult<Span, ActionBlock> {
let (s, a) = opt(statement)(s)?;
let (s, b) = symbol("else")(s)?;
@ -68,7 +68,7 @@ pub fn action_block_else(s: Span) -> IResult<Span, ActionBlock> {
Ok((s, ActionBlock::Else(ActionBlockElse { nodes: (a, b, c) })))
}
#[trace]
#[parser]
pub fn seq_block(s: Span) -> IResult<Span, SeqBlock> {
let (s, a) = symbol("begin")(s)?;
let (s, b) = opt(pair(symbol(":"), block_identifier))(s)?;
@ -84,7 +84,7 @@ pub fn seq_block(s: Span) -> IResult<Span, SeqBlock> {
))
}
#[trace]
#[parser]
pub fn par_block(s: Span) -> IResult<Span, ParBlock> {
let (s, a) = symbol("fork")(s)?;
let (s, b) = opt(pair(symbol(":"), block_identifier))(s)?;
@ -100,7 +100,7 @@ pub fn par_block(s: Span) -> IResult<Span, ParBlock> {
))
}
#[trace]
#[parser]
pub fn join_keyword(s: Span) -> IResult<Span, JoinKeyword> {
alt((
map(symbol("join_any"), |x| JoinKeyword::JoinAny(x)),

36
src/parser/behavioral_statements/patterns.rs
View File

@ -132,7 +132,7 @@ pub struct AssignmentPatternVariableLvalue<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn pattern(s: Span) -> IResult<Span, Pattern> {
alt((
pattern_variable,
@ -146,7 +146,7 @@ pub fn pattern(s: Span) -> IResult<Span, Pattern> {
))(s)
}
#[trace]
#[parser]
pub fn pattern_variable(s: Span) -> IResult<Span, Pattern> {
let (s, a) = symbol(".")(s)?;
let (s, b) = variable_identifier(s)?;
@ -156,7 +156,7 @@ pub fn pattern_variable(s: Span) -> IResult<Span, Pattern> {
))
}
#[trace]
#[parser]
pub fn pattern_tagged(s: Span) -> IResult<Span, Pattern> {
let (s, a) = symbol("tagged")(s)?;
let (s, b) = member_identifier(s)?;
@ -167,13 +167,13 @@ pub fn pattern_tagged(s: Span) -> IResult<Span, Pattern> {
))
}
#[trace]
#[parser]
pub fn pattern_list(s: Span) -> IResult<Span, Pattern> {
let (s, a) = apostrophe_brace(list(symbol(","), pattern))(s)?;
Ok((s, Pattern::List(Box::new(PatternList { nodes: (a,) }))))
}
#[trace]
#[parser]
pub fn pattern_identifier_list(s: Span) -> IResult<Span, Pattern> {
let (s, a) = apostrophe_brace(list(
symbol(","),
@ -185,7 +185,7 @@ pub fn pattern_identifier_list(s: Span) -> IResult<Span, Pattern> {
))
}
#[trace]
#[parser]
pub fn assignment_pattern(s: Span) -> IResult<Span, AssignmentPattern> {
alt((
assignment_pattern_list,
@ -195,7 +195,7 @@ pub fn assignment_pattern(s: Span) -> IResult<Span, AssignmentPattern> {
))(s)
}
#[trace]
#[parser]
pub fn assignment_pattern_list(s: Span) -> IResult<Span, AssignmentPattern> {
let (s, a) = apostrophe_brace(list(symbol(","), expression))(s)?;
Ok((
@ -204,7 +204,7 @@ pub fn assignment_pattern_list(s: Span) -> IResult<Span, AssignmentPattern> {
))
}
#[trace]
#[parser]
pub fn assignment_pattern_structure(s: Span) -> IResult<Span, AssignmentPattern> {
let (s, a) = apostrophe_brace(list(
symbol(","),
@ -216,7 +216,7 @@ pub fn assignment_pattern_structure(s: Span) -> IResult<Span, AssignmentPattern>
))
}
#[trace]
#[parser]
pub fn assignment_pattern_array(s: Span) -> IResult<Span, AssignmentPattern> {
let (s, a) = apostrophe_brace(list(
symbol(","),
@ -228,7 +228,7 @@ pub fn assignment_pattern_array(s: Span) -> IResult<Span, AssignmentPattern> {
))
}
#[trace]
#[parser]
pub fn assignment_pattern_repeat(s: Span) -> IResult<Span, AssignmentPattern> {
let (s, a) = apostrophe_brace(pair(
constant_expression,
@ -240,7 +240,7 @@ pub fn assignment_pattern_repeat(s: Span) -> IResult<Span, AssignmentPattern> {
))
}
#[trace]
#[parser]
pub fn structure_pattern_key(s: Span) -> IResult<Span, StructurePatternKey> {
alt((
map(member_identifier, |x| {
@ -252,7 +252,7 @@ pub fn structure_pattern_key(s: Span) -> IResult<Span, StructurePatternKey> {
))(s)
}
#[trace]
#[parser]
pub fn array_pattern_key(s: Span) -> IResult<Span, ArrayPatternKey> {
alt((
map(constant_expression, |x| {
@ -264,7 +264,7 @@ pub fn array_pattern_key(s: Span) -> IResult<Span, ArrayPatternKey> {
))(s)
}
#[trace]
#[parser]
pub fn assignment_pattern_key(s: Span) -> IResult<Span, AssignmentPatternKey> {
alt((
map(simple_type, |x| AssignmentPatternKey::SimpleType(x)),
@ -272,14 +272,14 @@ pub fn assignment_pattern_key(s: Span) -> IResult<Span, AssignmentPatternKey> {
))(s)
}
#[trace]
#[parser]
pub fn assignment_pattern_expression(s: Span) -> IResult<Span, AssignmentPatternExpression> {
let (s, a) = opt(assignment_pattern_expression_type)(s)?;
let (s, b) = assignment_pattern(s)?;
Ok((s, AssignmentPatternExpression { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn assignment_pattern_expression_type(
s: Span,
) -> IResult<Span, AssignmentPatternExpressionType> {
@ -299,7 +299,7 @@ pub fn assignment_pattern_expression_type(
))(s)
}
#[trace]
#[parser]
pub fn constant_assignment_pattern_expression(
s: Span,
) -> IResult<Span, ConstantAssignmentPatternExpression> {
@ -307,13 +307,13 @@ pub fn constant_assignment_pattern_expression(
Ok((s, ConstantAssignmentPatternExpression { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn assignment_pattern_net_lvalue(s: Span) -> IResult<Span, AssignmentPatternNetLvalue> {
let (s, a) = apostrophe_brace(list(symbol(","), net_lvalue))(s)?;
Ok((s, AssignmentPatternNetLvalue { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn assignment_pattern_variable_lvalue(
s: Span,
) -> IResult<Span, AssignmentPatternVariableLvalue> {

38
src/parser/behavioral_statements/procedural_blocks_and_assignments.rs
View File

@ -130,21 +130,21 @@ pub struct VariableAssignment<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn initial_construct(s: Span) -> IResult<Span, InitialConstruct> {
let (s, a) = symbol("initial")(s)?;
let (s, b) = statement_or_null(s)?;
Ok((s, InitialConstruct { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn always_construct(s: Span) -> IResult<Span, AlwaysConstruct> {
let (s, a) = always_keyword(s)?;
let (s, b) = statement(s)?;
Ok((s, AlwaysConstruct { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn always_keyword(s: Span) -> IResult<Span, AlwaysKeyword> {
alt((
map(symbol("always_comb"), |x| AlwaysKeyword::AlwaysComb(x)),
@ -154,14 +154,14 @@ pub fn always_keyword(s: Span) -> IResult<Span, AlwaysKeyword> {
))(s)
}
#[trace]
#[parser]
pub fn final_construct(s: Span) -> IResult<Span, FinalConstruct> {
let (s, a) = symbol("final")(s)?;
let (s, b) = function_statement(s)?;
Ok((s, FinalConstruct { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn blocking_assignment(s: Span) -> IResult<Span, BlockingAssignment> {
alt((
blocking_assignment_variable,
@ -173,7 +173,7 @@ pub fn blocking_assignment(s: Span) -> IResult<Span, BlockingAssignment> {
))(s)
}
#[trace]
#[parser]
pub fn blocking_assignment_variable(s: Span) -> IResult<Span, BlockingAssignment> {
let (s, a) = variable_lvalue(s)?;
let (s, b) = symbol("=")(s)?;
@ -187,7 +187,7 @@ pub fn blocking_assignment_variable(s: Span) -> IResult<Span, BlockingAssignment
))
}
#[trace]
#[parser]
pub fn blocking_assignment_nonrange_variable(s: Span) -> IResult<Span, BlockingAssignment> {
let (s, a) = nonrange_variable_lvalue(s)?;
let (s, b) = symbol("=")(s)?;
@ -200,7 +200,7 @@ pub fn blocking_assignment_nonrange_variable(s: Span) -> IResult<Span, BlockingA
))
}
#[trace]
#[parser]
pub fn blocking_assignment_hierarchical_variable(s: Span) -> IResult<Span, BlockingAssignment> {
let (s, a) = opt(implicit_class_handle_or_class_scope_or_package_scope)(s)?;
let (s, b) = hierarchical_variable_identifier(s)?;
@ -215,7 +215,7 @@ pub fn blocking_assignment_hierarchical_variable(s: Span) -> IResult<Span, Block
))
}
#[trace]
#[parser]
pub fn operator_assignment(s: Span) -> IResult<Span, OperatorAssignment> {
let (s, a) = variable_lvalue(s)?;
let (s, b) = assignment_operator(s)?;
@ -223,7 +223,7 @@ pub fn operator_assignment(s: Span) -> IResult<Span, OperatorAssignment> {
Ok((s, OperatorAssignment { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn assignment_operator(s: Span) -> IResult<Span, AssignmentOperator> {
alt((
map(symbol("="), |x| AssignmentOperator { nodes: (x,) }),
@ -242,7 +242,7 @@ pub fn assignment_operator(s: Span) -> IResult<Span, AssignmentOperator> {
))(s)
}
#[trace]
#[parser]
pub fn nonblocking_assignment(s: Span) -> IResult<Span, NonblockingAssignment> {
let (s, a) = variable_lvalue(s)?;
let (s, b) = symbol("<=")(s)?;
@ -256,7 +256,7 @@ pub fn nonblocking_assignment(s: Span) -> IResult<Span, NonblockingAssignment> {
))
}
#[trace]
#[parser]
pub fn procedural_continuous_assignment(s: Span) -> IResult<Span, ProceduralContinuousAssignment> {
alt((
procedural_continuous_assignment_assign,
@ -268,7 +268,7 @@ pub fn procedural_continuous_assignment(s: Span) -> IResult<Span, ProceduralCont
))(s)
}
#[trace]
#[parser]
pub fn procedural_continuous_assignment_assign(
s: Span,
) -> IResult<Span, ProceduralContinuousAssignment> {
@ -282,7 +282,7 @@ pub fn procedural_continuous_assignment_assign(
))
}
#[trace]
#[parser]
pub fn procedural_continuous_assignment_deassign(
s: Span,
) -> IResult<Span, ProceduralContinuousAssignment> {
@ -296,7 +296,7 @@ pub fn procedural_continuous_assignment_deassign(
))
}
#[trace]
#[parser]
pub fn procedural_continuous_assignment_force_variable(
s: Span,
) -> IResult<Span, ProceduralContinuousAssignment> {
@ -310,7 +310,7 @@ pub fn procedural_continuous_assignment_force_variable(
))
}
#[trace]
#[parser]
pub fn procedural_continuous_assignment_force_net(
s: Span,
) -> IResult<Span, ProceduralContinuousAssignment> {
@ -324,7 +324,7 @@ pub fn procedural_continuous_assignment_force_net(
))
}
#[trace]
#[parser]
pub fn procedural_continuous_assignment_release_variable(
s: Span,
) -> IResult<Span, ProceduralContinuousAssignment> {
@ -338,7 +338,7 @@ pub fn procedural_continuous_assignment_release_variable(
))
}
#[trace]
#[parser]
pub fn procedural_continuous_assignment_release_net(
s: Span,
) -> IResult<Span, ProceduralContinuousAssignment> {
@ -352,7 +352,7 @@ pub fn procedural_continuous_assignment_release_net(
))
}
#[trace]
#[parser]
pub fn variable_assignment(s: Span) -> IResult<Span, VariableAssignment> {
let (s, a) = variable_lvalue(s)?;
let (s, b) = symbol("=")(s)?;

34
src/parser/behavioral_statements/randsequence.rs
View File

@ -150,7 +150,7 @@ pub struct RsCaseItemDefault<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn randsequence_statement(s: Span) -> IResult<Span, RandsequenceStatement> {
let (s, a) = symbol("randsequence")(s)?;
let (s, b) = paren(opt(production_identifier))(s)?;
@ -165,7 +165,7 @@ pub fn randsequence_statement(s: Span) -> IResult<Span, RandsequenceStatement> {
))
}
#[trace]
#[parser]
pub fn production(s: Span) -> IResult<Span, Production> {
let (s, a) = opt(data_type_or_void)(s)?;
let (s, b) = production_identifier(s)?;
@ -181,7 +181,7 @@ pub fn production(s: Span) -> IResult<Span, Production> {
))
}
#[trace]
#[parser]
pub fn rs_rule(s: Span) -> IResult<Span, RsRule> {
let (s, a) = rs_production_list(s)?;
let (s, b) = opt(triple(
@ -192,12 +192,12 @@ pub fn rs_rule(s: Span) -> IResult<Span, RsRule> {
Ok((s, RsRule { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn rs_production_list(s: Span) -> IResult<Span, RsProductionList> {
alt((rs_production_list_prod, rs_production_list_join))(s)
}
#[trace]
#[parser]
pub fn rs_production_list_prod(s: Span) -> IResult<Span, RsProductionList> {
let (s, a) = rs_prod(s)?;
let (s, b) = many0(rs_prod)(s)?;
@ -207,7 +207,7 @@ pub fn rs_production_list_prod(s: Span) -> IResult<Span, RsProductionList> {
))
}
#[trace]
#[parser]
pub fn rs_production_list_join(s: Span) -> IResult<Span, RsProductionList> {
let (s, a) = symbol("rand")(s)?;
let (s, b) = symbol("join")(s)?;
@ -223,7 +223,7 @@ pub fn rs_production_list_join(s: Span) -> IResult<Span, RsProductionList> {
))
}
#[trace]
#[parser]
pub fn weight_specification(s: Span) -> IResult<Span, WeightSpecification> {
alt((
map(integral_number, |x| WeightSpecification::IntegralNumber(x)),
@ -232,7 +232,7 @@ pub fn weight_specification(s: Span) -> IResult<Span, WeightSpecification> {
))(s)
}
#[trace]
#[parser]
pub fn weight_specification_expression(s: Span) -> IResult<Span, WeightSpecification> {
let (s, a) = paren(expression)(s)?;
Ok((
@ -241,13 +241,13 @@ pub fn weight_specification_expression(s: Span) -> IResult<Span, WeightSpecifica
))
}
#[trace]
#[parser]
pub fn rs_code_block(s: Span) -> IResult<Span, RsCodeBlock> {
let (s, a) = brace(pair(many0(data_declaration), many0(statement_or_null)))(s)?;
Ok((s, RsCodeBlock { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn rs_prod(s: Span) -> IResult<Span, RsProd> {
alt((
map(production_item, |x| RsProd::ProductionItem(x)),
@ -258,14 +258,14 @@ pub fn rs_prod(s: Span) -> IResult<Span, RsProd> {
))(s)
}
#[trace]
#[parser]
pub fn production_item(s: Span) -> IResult<Span, ProductionItem> {
let (s, a) = production_identifier(s)?;
let (s, b) = opt(paren(list_of_arguments))(s)?;
Ok((s, ProductionItem { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn rs_if_else(s: Span) -> IResult<Span, RsIfElse> {
let (s, a) = symbol("if")(s)?;
let (s, b) = paren(expression)(s)?;
@ -279,7 +279,7 @@ pub fn rs_if_else(s: Span) -> IResult<Span, RsIfElse> {
))
}
#[trace]
#[parser]
pub fn rs_repeat(s: Span) -> IResult<Span, RsRepeat> {
let (s, a) = symbol("repeat")(s)?;
let (s, b) = paren(expression)(s)?;
@ -287,7 +287,7 @@ pub fn rs_repeat(s: Span) -> IResult<Span, RsRepeat> {
Ok((s, RsRepeat { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn rs_case(s: Span) -> IResult<Span, RsCase> {
let (s, a) = symbol("case")(s)?;
let (s, b) = paren(case_expression)(s)?;
@ -302,12 +302,12 @@ pub fn rs_case(s: Span) -> IResult<Span, RsCase> {
))
}
#[trace]
#[parser]
pub fn rs_case_item(s: Span) -> IResult<Span, RsCaseItem> {
alt((rs_case_item_nondefault, rs_case_item_default))(s)
}
#[trace]
#[parser]
pub fn rs_case_item_nondefault(s: Span) -> IResult<Span, RsCaseItem> {
let (s, a) = list(symbol(","), case_item_expression)(s)?;
let (s, b) = symbol(":")(s)?;
@ -321,7 +321,7 @@ pub fn rs_case_item_nondefault(s: Span) -> IResult<Span, RsCaseItem> {
))
}
#[trace]
#[parser]
pub fn rs_case_item_default(s: Span) -> IResult<Span, RsCaseItem> {
let (s, a) = symbol("default")(s)?;
let (s, b) = opt(symbol(":"))(s)?;

16
src/parser/behavioral_statements/statements.rs
View File

@ -75,7 +75,7 @@ pub struct VariableIdentifierList<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn statement_or_null(s: Span) -> IResult<Span, StatementOrNull> {
alt((
map(statement, |x| StatementOrNull::Statement(x)),
@ -83,7 +83,7 @@ pub fn statement_or_null(s: Span) -> IResult<Span, StatementOrNull> {
))(s)
}
#[trace]
#[parser]
pub fn statement_or_null_attribute(s: Span) -> IResult<Span, StatementOrNull> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol(";")(s)?;
@ -93,7 +93,7 @@ pub fn statement_or_null_attribute(s: Span) -> IResult<Span, StatementOrNull> {
))
}
#[trace]
#[parser]
pub fn statement(s: Span) -> IResult<Span, Statement> {
let (s, a) = opt(pair(block_identifier, symbol(":")))(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -101,7 +101,7 @@ pub fn statement(s: Span) -> IResult<Span, Statement> {
Ok((s, Statement { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn statement_item(s: Span) -> IResult<Span, StatementItem> {
alt((
map(pair(blocking_assignment, symbol(";")), |x| {
@ -161,13 +161,13 @@ pub fn statement_item(s: Span) -> IResult<Span, StatementItem> {
))(s)
}
#[trace]
#[parser]
pub fn function_statement(s: Span) -> IResult<Span, FunctionStatement> {
let (s, a) = statement(s)?;
Ok((s, FunctionStatement { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn function_statement_or_null(s: Span) -> IResult<Span, FunctionStatementOrNull> {
alt((
map(function_statement, |x| {
@ -177,7 +177,7 @@ pub fn function_statement_or_null(s: Span) -> IResult<Span, FunctionStatementOrN
))(s)
}
#[trace]
#[parser]
pub fn function_statement_or_null_attribute(s: Span) -> IResult<Span, FunctionStatementOrNull> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol(";")(s)?;
@ -187,7 +187,7 @@ pub fn function_statement_or_null_attribute(s: Span) -> IResult<Span, FunctionSt
))
}
#[trace]
#[parser]
pub fn variable_identifier_list(s: Span) -> IResult<Span, VariableIdentifierList> {
let (s, a) = list(symbol(","), variable_identifier)(s)?;
Ok((s, VariableIdentifierList { nodes: (a,) }))

4
src/parser/behavioral_statements/subroutine_call_statements.rs
View File

@ -25,7 +25,7 @@ pub struct SubroutineCallStatementFunction<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn subroutine_call_statement(s: Span) -> IResult<Span, SubroutineCallStatement> {
alt((
map(pair(subroutine_call, symbol(";")), |x| {
@ -35,7 +35,7 @@ pub fn subroutine_call_statement(s: Span) -> IResult<Span, SubroutineCallStateme
))(s)
}
#[trace]
#[parser]
pub fn subroutine_call_statement_function(s: Span) -> IResult<Span, SubroutineCallStatement> {
let (s, a) = symbol("void")(s)?;
let (s, b) = symbol("'")(s)?;

68
src/parser/behavioral_statements/timing_control_statements.rs
View File

@ -212,7 +212,7 @@ pub struct DisableStatementFork<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn procedural_timing_control_statement(
s: Span,
) -> IResult<Span, ProceduralTimingControlStatement> {
@ -221,7 +221,7 @@ pub fn procedural_timing_control_statement(
Ok((s, ProceduralTimingControlStatement { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn delay_or_event_control(s: Span) -> IResult<Span, DelayOrEventControl> {
alt((
map(delay_control, |x| DelayOrEventControl::Delay(x)),
@ -230,7 +230,7 @@ pub fn delay_or_event_control(s: Span) -> IResult<Span, DelayOrEventControl> {
))(s)
}
#[trace]
#[parser]
pub fn delay_or_event_control_repeat(s: Span) -> IResult<Span, DelayOrEventControl> {
let (s, a) = symbol("repeat")(s)?;
let (s, b) = paren(expression)(s)?;
@ -241,19 +241,19 @@ pub fn delay_or_event_control_repeat(s: Span) -> IResult<Span, DelayOrEventContr
))
}
#[trace]
#[parser]
pub fn delay_control(s: Span) -> IResult<Span, DelayControl> {
alt((delay_control_delay, delay_control_mintypmax))(s)
}
#[trace]
#[parser]
pub fn delay_control_delay(s: Span) -> IResult<Span, DelayControl> {
let (s, a) = symbol("#")(s)?;
let (s, b) = delay_value(s)?;
Ok((s, DelayControl::Delay(DelayControlDelay { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn delay_control_mintypmax(s: Span) -> IResult<Span, DelayControl> {
let (s, a) = symbol("#")(s)?;
let (s, b) = paren(mintypmax_expression)(s)?;
@ -263,7 +263,7 @@ pub fn delay_control_mintypmax(s: Span) -> IResult<Span, DelayControl> {
))
}
#[trace]
#[parser]
pub fn event_control(s: Span) -> IResult<Span, EventControl> {
alt((
event_control_event_identifier,
@ -274,7 +274,7 @@ pub fn event_control(s: Span) -> IResult<Span, EventControl> {
))(s)
}
#[trace]
#[parser]
pub fn event_control_event_identifier(s: Span) -> IResult<Span, EventControl> {
let (s, a) = symbol("@")(s)?;
let (s, b) = hierarchical_event_identifier(s)?;
@ -284,7 +284,7 @@ pub fn event_control_event_identifier(s: Span) -> IResult<Span, EventControl> {
))
}
#[trace]
#[parser]
pub fn event_control_event_expression(s: Span) -> IResult<Span, EventControl> {
let (s, a) = symbol("@")(s)?;
let (s, b) = paren(event_expression)(s)?;
@ -294,7 +294,7 @@ pub fn event_control_event_expression(s: Span) -> IResult<Span, EventControl> {
))
}
#[trace]
#[parser]
pub fn event_control_asterisk(s: Span) -> IResult<Span, EventControl> {
let (s, a) = symbol("@*")(s)?;
Ok((
@ -303,7 +303,7 @@ pub fn event_control_asterisk(s: Span) -> IResult<Span, EventControl> {
))
}
#[trace]
#[parser]
pub fn event_control_paren_asterisk(s: Span) -> IResult<Span, EventControl> {
let (s, a) = symbol("@")(s)?;
let (s, b) = paren(symbol("*"))(s)?;
@ -313,7 +313,7 @@ pub fn event_control_paren_asterisk(s: Span) -> IResult<Span, EventControl> {
))
}
#[trace]
#[parser]
pub fn event_control_sequence_identifier(s: Span) -> IResult<Span, EventControl> {
let (s, a) = symbol("@")(s)?;
let (s, b) = ps_or_hierarchical_sequence_identifier(s)?;
@ -323,7 +323,7 @@ pub fn event_control_sequence_identifier(s: Span) -> IResult<Span, EventControl>
))
}
#[trace]
#[parser]
pub fn event_expression(s: Span) -> IResult<Span, EventExpression> {
alt((
event_expression_expression,
@ -334,7 +334,7 @@ pub fn event_expression(s: Span) -> IResult<Span, EventExpression> {
))(s)
}
#[trace]
#[parser]
pub fn event_expression_expression(s: Span) -> IResult<Span, EventExpression> {
let (s, a) = opt(edge_identifier)(s)?;
let (s, b) = expression(s)?;
@ -345,7 +345,7 @@ pub fn event_expression_expression(s: Span) -> IResult<Span, EventExpression> {
))
}
#[trace]
#[parser]
pub fn event_expression_sequence(s: Span) -> IResult<Span, EventExpression> {
let (s, a) = sequence_instance(s)?;
let (s, b) = opt(pair(symbol("iff"), expression))(s)?;
@ -355,7 +355,7 @@ pub fn event_expression_sequence(s: Span) -> IResult<Span, EventExpression> {
))
}
#[trace]
#[parser]
pub fn event_expression_or(s: Span) -> IResult<Span, EventExpression> {
let (s, a) = event_expression(s)?;
let (s, b) = symbol("or")(s)?;
@ -366,7 +366,7 @@ pub fn event_expression_or(s: Span) -> IResult<Span, EventExpression> {
))
}
#[trace]
#[parser]
pub fn event_expression_comma(s: Span) -> IResult<Span, EventExpression> {
let (s, a) = event_expression(s)?;
let (s, b) = symbol(",")(s)?;
@ -377,7 +377,7 @@ pub fn event_expression_comma(s: Span) -> IResult<Span, EventExpression> {
))
}
#[trace]
#[parser]
pub fn event_expression_paren(s: Span) -> IResult<Span, EventExpression> {
let (s, a) = paren(event_expression)(s)?;
Ok((
@ -386,7 +386,7 @@ pub fn event_expression_paren(s: Span) -> IResult<Span, EventExpression> {
))
}
#[trace]
#[parser]
pub fn procedural_timing_control(s: Span) -> IResult<Span, ProceduralTimingControl> {
alt((
map(delay_control, |x| ProceduralTimingControl::DelayControl(x)),
@ -395,7 +395,7 @@ pub fn procedural_timing_control(s: Span) -> IResult<Span, ProceduralTimingContr
))(s)
}
#[trace]
#[parser]
pub fn jump_statement(s: Span) -> IResult<Span, JumpStatement> {
alt((
jump_statement_return,
@ -404,7 +404,7 @@ pub fn jump_statement(s: Span) -> IResult<Span, JumpStatement> {
))(s)
}
#[trace]
#[parser]
pub fn jump_statement_return(s: Span) -> IResult<Span, JumpStatement> {
let (s, a) = symbol("return")(s)?;
let (s, b) = opt(expression)(s)?;
@ -415,7 +415,7 @@ pub fn jump_statement_return(s: Span) -> IResult<Span, JumpStatement> {
))
}
#[trace]
#[parser]
pub fn jump_statement_break(s: Span) -> IResult<Span, JumpStatement> {
let (s, a) = symbol("break")(s)?;
let (s, b) = symbol(";")(s)?;
@ -425,7 +425,7 @@ pub fn jump_statement_break(s: Span) -> IResult<Span, JumpStatement> {
))
}
#[trace]
#[parser]
pub fn jump_statement_continue(s: Span) -> IResult<Span, JumpStatement> {
let (s, a) = symbol("continue")(s)?;
let (s, b) = symbol(";")(s)?;
@ -435,7 +435,7 @@ pub fn jump_statement_continue(s: Span) -> IResult<Span, JumpStatement> {
))
}
#[trace]
#[parser]
pub fn wait_statement(s: Span) -> IResult<Span, WaitStatement> {
alt((
wait_statement_wait,
@ -444,7 +444,7 @@ pub fn wait_statement(s: Span) -> IResult<Span, WaitStatement> {
))(s)
}
#[trace]
#[parser]
pub fn wait_statement_wait(s: Span) -> IResult<Span, WaitStatement> {
let (s, a) = symbol("wait")(s)?;
let (s, b) = paren(expression)(s)?;
@ -455,7 +455,7 @@ pub fn wait_statement_wait(s: Span) -> IResult<Span, WaitStatement> {
))
}
#[trace]
#[parser]
pub fn wait_statement_fork(s: Span) -> IResult<Span, WaitStatement> {
let (s, a) = symbol("wait")(s)?;
let (s, b) = symbol("fork")(s)?;
@ -466,7 +466,7 @@ pub fn wait_statement_fork(s: Span) -> IResult<Span, WaitStatement> {
))
}
#[trace]
#[parser]
pub fn wait_statement_order(s: Span) -> IResult<Span, WaitStatement> {
let (s, a) = symbol("wait_order")(s)?;
let (s, b) = paren(list(symbol(","), hierarchical_identifier))(s)?;
@ -477,12 +477,12 @@ pub fn wait_statement_order(s: Span) -> IResult<Span, WaitStatement> {
))
}
#[trace]
#[parser]
pub fn event_trigger(s: Span) -> IResult<Span, EventTrigger> {
alt((event_trigger_named, event_trigger_nonblocking))(s)
}
#[trace]
#[parser]
pub fn event_trigger_named(s: Span) -> IResult<Span, EventTrigger> {
let (s, a) = symbol("->")(s)?;
let (s, b) = hierarchical_event_identifier(s)?;
@ -493,7 +493,7 @@ pub fn event_trigger_named(s: Span) -> IResult<Span, EventTrigger> {
))
}
#[trace]
#[parser]
pub fn event_trigger_nonblocking(s: Span) -> IResult<Span, EventTrigger> {
let (s, a) = symbol("->>")(s)?;
let (s, b) = opt(delay_or_event_control)(s)?;
@ -507,7 +507,7 @@ pub fn event_trigger_nonblocking(s: Span) -> IResult<Span, EventTrigger> {
))
}
#[trace]
#[parser]
pub fn disable_statement(s: Span) -> IResult<Span, DisableStatement> {
alt((
disable_statement_task,
@ -516,7 +516,7 @@ pub fn disable_statement(s: Span) -> IResult<Span, DisableStatement> {
))(s)
}
#[trace]
#[parser]
pub fn disable_statement_task(s: Span) -> IResult<Span, DisableStatement> {
let (s, a) = symbol("disable")(s)?;
let (s, b) = hierarchical_task_identifier(s)?;
@ -527,7 +527,7 @@ pub fn disable_statement_task(s: Span) -> IResult<Span, DisableStatement> {
))
}
#[trace]
#[parser]
pub fn disable_statement_block(s: Span) -> IResult<Span, DisableStatement> {
let (s, a) = symbol("disable")(s)?;
let (s, b) = hierarchical_block_identifier(s)?;
@ -538,7 +538,7 @@ pub fn disable_statement_block(s: Span) -> IResult<Span, DisableStatement> {
))
}
#[trace]
#[parser]
pub fn disable_statement_fork(s: Span) -> IResult<Span, DisableStatement> {
let (s, a) = symbol("disable")(s)?;
let (s, b) = symbol("fork")(s)?;

196
src/parser/declarations/assertion_declarations.rs
View File

@ -756,7 +756,7 @@ pub struct AssertionVariableDeclaration<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn concurrent_assertion_item(s: Span) -> IResult<Span, ConcurrentAssertionItem> {
alt((
concurrent_assertion_item_statement,
@ -766,7 +766,7 @@ pub fn concurrent_assertion_item(s: Span) -> IResult<Span, ConcurrentAssertionIt
))(s)
}
#[trace]
#[parser]
pub fn concurrent_assertion_item_statement(s: Span) -> IResult<Span, ConcurrentAssertionItem> {
let (s, a) = opt(pair(block_identifier, symbol(":")))(s)?;
let (s, b) = concurrent_assertion_statement(s)?;
@ -776,7 +776,7 @@ pub fn concurrent_assertion_item_statement(s: Span) -> IResult<Span, ConcurrentA
))
}
#[trace]
#[parser]
pub fn concurrent_assertion_statement(s: Span) -> IResult<Span, ConcurrentAssertionStatement> {
alt((
map(assert_property_statement, |x| {
@ -797,7 +797,7 @@ pub fn concurrent_assertion_statement(s: Span) -> IResult<Span, ConcurrentAssert
))(s)
}
#[trace]
#[parser]
pub fn assert_property_statement(s: Span) -> IResult<Span, AssertPropertyStatement> {
let (s, a) = symbol("assert")(s)?;
let (s, b) = symbol("property")(s)?;
@ -811,7 +811,7 @@ pub fn assert_property_statement(s: Span) -> IResult<Span, AssertPropertyStateme
))
}
#[trace]
#[parser]
pub fn assume_property_statement(s: Span) -> IResult<Span, AssumePropertyStatement> {
let (s, a) = symbol("assume")(s)?;
let (s, b) = symbol("property")(s)?;
@ -825,7 +825,7 @@ pub fn assume_property_statement(s: Span) -> IResult<Span, AssumePropertyStateme
))
}
#[trace]
#[parser]
pub fn cover_property_statement(s: Span) -> IResult<Span, CoverPropertyStatement> {
let (s, a) = symbol("cover")(s)?;
let (s, b) = symbol("property")(s)?;
@ -839,7 +839,7 @@ pub fn cover_property_statement(s: Span) -> IResult<Span, CoverPropertyStatement
))
}
#[trace]
#[parser]
pub fn expect_property_statement(s: Span) -> IResult<Span, ExpectPropertyStatement> {
let (s, a) = symbol("expect")(s)?;
let (s, b) = paren(property_spec)(s)?;
@ -847,7 +847,7 @@ pub fn expect_property_statement(s: Span) -> IResult<Span, ExpectPropertyStateme
Ok((s, ExpectPropertyStatement { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn cover_sequence_statement(s: Span) -> IResult<Span, CoverSequenceStatement> {
let (s, a) = symbol("cover")(s)?;
let (s, b) = symbol("sequence")(s)?;
@ -869,7 +869,7 @@ pub fn cover_sequence_statement(s: Span) -> IResult<Span, CoverSequenceStatement
))
}
#[trace]
#[parser]
pub fn restrict_property_statement(s: Span) -> IResult<Span, RestrictPropertyStatement> {
let (s, a) = symbol("restrict")(s)?;
let (s, b) = symbol("property")(s)?;
@ -883,14 +883,14 @@ pub fn restrict_property_statement(s: Span) -> IResult<Span, RestrictPropertySta
))
}
#[trace]
#[parser]
pub fn property_instance(s: Span) -> IResult<Span, PropertyInstance> {
let (s, a) = ps_or_hierarchical_property_identifier(s)?;
let (s, b) = opt(paren(opt(property_list_of_arguments)))(s)?;
Ok((s, PropertyInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn property_list_of_arguments(s: Span) -> IResult<Span, PropertyListOfArguments> {
alt((
property_list_of_arguments_ordered,
@ -898,7 +898,7 @@ pub fn property_list_of_arguments(s: Span) -> IResult<Span, PropertyListOfArgume
))(s)
}
#[trace]
#[parser]
pub fn property_list_of_arguments_ordered(s: Span) -> IResult<Span, PropertyListOfArguments> {
let (s, a) = list(symbol(","), opt(property_actual_arg))(s)?;
let (s, b) = many0(tuple((
@ -913,7 +913,7 @@ pub fn property_list_of_arguments_ordered(s: Span) -> IResult<Span, PropertyList
))
}
#[trace]
#[parser]
pub fn property_list_of_arguments_named(s: Span) -> IResult<Span, PropertyListOfArguments> {
let (s, a) = list(
symbol(","),
@ -925,7 +925,7 @@ pub fn property_list_of_arguments_named(s: Span) -> IResult<Span, PropertyListOf
))
}
#[trace]
#[parser]
pub fn property_actual_arg(s: Span) -> IResult<Span, PropertyActualArg> {
alt((
map(property_expr, |x| PropertyActualArg::PropertyExpr(x)),
@ -935,7 +935,7 @@ pub fn property_actual_arg(s: Span) -> IResult<Span, PropertyActualArg> {
))(s)
}
#[trace]
#[parser]
pub fn assertion_item_declaration(s: Span) -> IResult<Span, AssertionItemDeclaration> {
alt((
map(property_declaration, |x| {
@ -950,7 +950,7 @@ pub fn assertion_item_declaration(s: Span) -> IResult<Span, AssertionItemDeclara
))(s)
}
#[trace]
#[parser]
pub fn property_declaration(s: Span) -> IResult<Span, PropertyDeclaration> {
let (s, a) = symbol("property")(s)?;
let (s, b) = property_identifier(s)?;
@ -969,13 +969,13 @@ pub fn property_declaration(s: Span) -> IResult<Span, PropertyDeclaration> {
))
}
#[trace]
#[parser]
pub fn property_port_list(s: Span) -> IResult<Span, PropertyPortList> {
let (s, a) = list(symbol(","), property_port_item)(s)?;
Ok((s, PropertyPortList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn property_port_item(s: Span) -> IResult<Span, PropertyPortItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = opt(pair(local, opt(property_lvar_port_direction)))(s)?;
@ -991,13 +991,13 @@ pub fn property_port_item(s: Span) -> IResult<Span, PropertyPortItem> {
))
}
#[trace]
#[parser]
pub fn property_lvar_port_direction(s: Span) -> IResult<Span, PropertyLvarPortDirection> {
let (s, a) = symbol("input")(s)?;
Ok((s, PropertyLvarPortDirection::Input(a)))
}
#[trace]
#[parser]
pub fn property_formal_type(s: Span) -> IResult<Span, PropertyFormalType> {
alt((
map(sequence_formal_type, |x| {
@ -1007,7 +1007,7 @@ pub fn property_formal_type(s: Span) -> IResult<Span, PropertyFormalType> {
))(s)
}
#[trace]
#[parser]
pub fn property_spec(s: Span) -> IResult<Span, PropertySpec> {
let (s, a) = opt(clocking_event)(s)?;
let (s, b) = opt(triple(
@ -1019,7 +1019,7 @@ pub fn property_spec(s: Span) -> IResult<Span, PropertySpec> {
Ok((s, PropertySpec { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn property_expr(s: Span) -> IResult<Span, PropertyExpr> {
alt((
alt((
@ -1062,7 +1062,7 @@ pub fn property_expr(s: Span) -> IResult<Span, PropertyExpr> {
))(s)
}
#[trace]
#[parser]
pub fn property_expr_strong(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("strong")(s)?;
let (s, b) = paren(sequence_expr)(s)?;
@ -1072,7 +1072,7 @@ pub fn property_expr_strong(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_weak(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("weak")(s)?;
let (s, b) = paren(sequence_expr)(s)?;
@ -1082,7 +1082,7 @@ pub fn property_expr_weak(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_paren(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = paren(sequence_expr)(s)?;
Ok((
@ -1091,7 +1091,7 @@ pub fn property_expr_paren(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_not(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("not")(s)?;
let (s, b) = property_expr(s)?;
@ -1101,7 +1101,7 @@ pub fn property_expr_not(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_or(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = property_expr(s)?;
let (s, b) = symbol("or")(s)?;
@ -1112,7 +1112,7 @@ pub fn property_expr_or(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_and(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = property_expr(s)?;
let (s, b) = symbol("and")(s)?;
@ -1123,7 +1123,7 @@ pub fn property_expr_and(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_implication_overlapped(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = symbol("|->")(s)?;
@ -1136,7 +1136,7 @@ pub fn property_expr_implication_overlapped(s: Span) -> IResult<Span, PropertyEx
))
}
#[trace]
#[parser]
pub fn property_expr_implication_nonoverlapped(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = symbol("|=>")(s)?;
@ -1149,7 +1149,7 @@ pub fn property_expr_implication_nonoverlapped(s: Span) -> IResult<Span, Propert
))
}
#[trace]
#[parser]
pub fn property_expr_if(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("if")(s)?;
let (s, b) = paren(expression_or_dist)(s)?;
@ -1163,7 +1163,7 @@ pub fn property_expr_if(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_case(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("case")(s)?;
let (s, b) = paren(expression_or_dist)(s)?;
@ -1178,7 +1178,7 @@ pub fn property_expr_case(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_followed_by_overlapped(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = symbol("#-#")(s)?;
@ -1191,7 +1191,7 @@ pub fn property_expr_followed_by_overlapped(s: Span) -> IResult<Span, PropertyEx
))
}
#[trace]
#[parser]
pub fn property_expr_followed_by_nonoverlapped(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = symbol("#=#")(s)?;
@ -1204,7 +1204,7 @@ pub fn property_expr_followed_by_nonoverlapped(s: Span) -> IResult<Span, Propert
))
}
#[trace]
#[parser]
pub fn property_expr_nexttime(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("nexttime")(s)?;
let (s, b) = opt(bracket(constant_expression))(s)?;
@ -1215,7 +1215,7 @@ pub fn property_expr_nexttime(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_s_nexttime(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("s_nexttime")(s)?;
let (s, b) = opt(bracket(constant_expression))(s)?;
@ -1226,7 +1226,7 @@ pub fn property_expr_s_nexttime(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_always(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("always")(s)?;
let (s, b) = opt(bracket(cycle_delay_const_range_expression))(s)?;
@ -1237,7 +1237,7 @@ pub fn property_expr_always(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_s_always(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("s_always")(s)?;
let (s, b) = bracket(cycle_delay_const_range_expression)(s)?;
@ -1248,7 +1248,7 @@ pub fn property_expr_s_always(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_eventually(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("eventually")(s)?;
let (s, b) = bracket(constant_range)(s)?;
@ -1259,7 +1259,7 @@ pub fn property_expr_eventually(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_s_eventually(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("s_eventually")(s)?;
let (s, b) = opt(bracket(cycle_delay_const_range_expression))(s)?;
@ -1270,7 +1270,7 @@ pub fn property_expr_s_eventually(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_until(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = property_expr(s)?;
let (s, b) = symbol("until")(s)?;
@ -1281,7 +1281,7 @@ pub fn property_expr_until(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_s_until(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = property_expr(s)?;
let (s, b) = symbol("s_until")(s)?;
@ -1292,7 +1292,7 @@ pub fn property_expr_s_until(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_until_with(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = property_expr(s)?;
let (s, b) = symbol("until_with")(s)?;
@ -1303,7 +1303,7 @@ pub fn property_expr_until_with(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_s_until_with(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = property_expr(s)?;
let (s, b) = symbol("s_until_with")(s)?;
@ -1314,7 +1314,7 @@ pub fn property_expr_s_until_with(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_implies(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = property_expr(s)?;
let (s, b) = symbol("implies")(s)?;
@ -1325,7 +1325,7 @@ pub fn property_expr_implies(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_iff(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = property_expr(s)?;
let (s, b) = symbol("iff")(s)?;
@ -1336,7 +1336,7 @@ pub fn property_expr_iff(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_accept_on(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("accept_on")(s)?;
let (s, b) = paren(expression_or_dist)(s)?;
@ -1347,7 +1347,7 @@ pub fn property_expr_accept_on(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_reject_on(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("reject_on")(s)?;
let (s, b) = paren(expression_or_dist)(s)?;
@ -1358,7 +1358,7 @@ pub fn property_expr_reject_on(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_sync_accept_on(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("sync_accept_on")(s)?;
let (s, b) = paren(expression_or_dist)(s)?;
@ -1369,7 +1369,7 @@ pub fn property_expr_sync_accept_on(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_sync_reject_on(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = symbol("sync_reject_on")(s)?;
let (s, b) = paren(expression_or_dist)(s)?;
@ -1380,7 +1380,7 @@ pub fn property_expr_sync_reject_on(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_expr_clocking_event(s: Span) -> IResult<Span, PropertyExpr> {
let (s, a) = clocking_event(s)?;
let (s, b) = property_expr(s)?;
@ -1390,12 +1390,12 @@ pub fn property_expr_clocking_event(s: Span) -> IResult<Span, PropertyExpr> {
))
}
#[trace]
#[parser]
pub fn property_case_item(s: Span) -> IResult<Span, PropertyCaseItem> {
alt((property_case_item_nondefault, property_case_item_default))(s)
}
#[trace]
#[parser]
pub fn property_case_item_nondefault(s: Span) -> IResult<Span, PropertyCaseItem> {
let (s, a) = list(symbol(","), expression_or_dist)(s)?;
let (s, b) = symbol(":")(s)?;
@ -1409,7 +1409,7 @@ pub fn property_case_item_nondefault(s: Span) -> IResult<Span, PropertyCaseItem>
))
}
#[trace]
#[parser]
pub fn property_case_item_default(s: Span) -> IResult<Span, PropertyCaseItem> {
let (s, a) = symbol("default")(s)?;
let (s, b) = opt(symbol(":"))(s)?;
@ -1423,7 +1423,7 @@ pub fn property_case_item_default(s: Span) -> IResult<Span, PropertyCaseItem> {
))
}
#[trace]
#[parser]
pub fn sequence_declaration(s: Span) -> IResult<Span, SequenceDeclaration> {
let (s, a) = symbol("sequence")(s)?;
let (s, b) = sequence_identifier(s)?;
@ -1442,13 +1442,13 @@ pub fn sequence_declaration(s: Span) -> IResult<Span, SequenceDeclaration> {
))
}
#[trace]
#[parser]
pub fn sequence_port_list(s: Span) -> IResult<Span, SequencePortList> {
let (s, a) = list(symbol(","), sequence_port_item)(s)?;
Ok((s, SequencePortList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn sequence_port_item(s: Span) -> IResult<Span, SequencePortItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = opt(pair(local, opt(sequence_lvar_port_direction)))(s)?;
@ -1464,7 +1464,7 @@ pub fn sequence_port_item(s: Span) -> IResult<Span, SequencePortItem> {
))
}
#[trace]
#[parser]
pub fn sequence_lvar_port_direction(s: Span) -> IResult<Span, SequenceLvarPortDirection> {
alt((
map(symbol("input"), |x| SequenceLvarPortDirection::Input(x)),
@ -1473,7 +1473,7 @@ pub fn sequence_lvar_port_direction(s: Span) -> IResult<Span, SequenceLvarPortDi
))(s)
}
#[trace]
#[parser]
pub fn sequence_formal_type(s: Span) -> IResult<Span, SequenceFormalType> {
alt((
map(data_type_or_implicit, |x| {
@ -1484,7 +1484,7 @@ pub fn sequence_formal_type(s: Span) -> IResult<Span, SequenceFormalType> {
))(s)
}
#[trace]
#[parser]
pub fn sequence_expr(s: Span) -> IResult<Span, SequenceExpr> {
alt((
sequence_expr_cycle_delay_expr,
@ -1502,7 +1502,7 @@ pub fn sequence_expr(s: Span) -> IResult<Span, SequenceExpr> {
))(s)
}
#[trace]
#[parser]
pub fn sequence_expr_cycle_delay_expr(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = cycle_delay_range(s)?;
let (s, b) = sequence_expr(s)?;
@ -1513,7 +1513,7 @@ pub fn sequence_expr_cycle_delay_expr(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_expr_cycle_delay_expr(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = cycle_delay_range(s)?;
@ -1527,7 +1527,7 @@ pub fn sequence_expr_expr_cycle_delay_expr(s: Span) -> IResult<Span, SequenceExp
))
}
#[trace]
#[parser]
pub fn sequence_expr_expression(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = expression_or_dist(s)?;
let (s, b) = opt(boolean_abbrev)(s)?;
@ -1537,7 +1537,7 @@ pub fn sequence_expr_expression(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_instance(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = sequence_instance(s)?;
let (s, b) = opt(sequence_abbrev)(s)?;
@ -1547,7 +1547,7 @@ pub fn sequence_expr_instance(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_paren(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = paren(pair(
sequence_expr,
@ -1560,7 +1560,7 @@ pub fn sequence_expr_paren(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_and(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = symbol("and")(s)?;
@ -1571,7 +1571,7 @@ pub fn sequence_expr_and(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_intersect(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = symbol("intersect")(s)?;
@ -1582,7 +1582,7 @@ pub fn sequence_expr_intersect(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_or(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = symbol("or")(s)?;
@ -1593,7 +1593,7 @@ pub fn sequence_expr_or(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_first_match(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = symbol("first_match")(s)?;
let (s, b) = paren(pair(
@ -1606,7 +1606,7 @@ pub fn sequence_expr_first_match(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_throughout(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = expression_or_dist(s)?;
let (s, b) = symbol("throughout")(s)?;
@ -1617,7 +1617,7 @@ pub fn sequence_expr_throughout(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_within(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = sequence_expr(s)?;
let (s, b) = symbol("within")(s)?;
@ -1628,7 +1628,7 @@ pub fn sequence_expr_within(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn sequence_expr_clocking_event(s: Span) -> IResult<Span, SequenceExpr> {
let (s, a) = clocking_event(s)?;
let (s, b) = sequence_expr(s)?;
@ -1638,7 +1638,7 @@ pub fn sequence_expr_clocking_event(s: Span) -> IResult<Span, SequenceExpr> {
))
}
#[trace]
#[parser]
pub fn cycle_delay_range(s: Span) -> IResult<Span, CycleDelayRange> {
alt((
cycle_delay_range_primary,
@ -1648,7 +1648,7 @@ pub fn cycle_delay_range(s: Span) -> IResult<Span, CycleDelayRange> {
))(s)
}
#[trace]
#[parser]
pub fn cycle_delay_range_primary(s: Span) -> IResult<Span, CycleDelayRange> {
let (s, a) = symbol("##")(s)?;
let (s, b) = constant_primary(s)?;
@ -1658,7 +1658,7 @@ pub fn cycle_delay_range_primary(s: Span) -> IResult<Span, CycleDelayRange> {
))
}
#[trace]
#[parser]
pub fn cycle_delay_range_expression(s: Span) -> IResult<Span, CycleDelayRange> {
let (s, a) = symbol("##")(s)?;
let (s, b) = bracket(cycle_delay_const_range_expression)(s)?;
@ -1668,7 +1668,7 @@ pub fn cycle_delay_range_expression(s: Span) -> IResult<Span, CycleDelayRange> {
))
}
#[trace]
#[parser]
pub fn cycle_delay_range_asterisk(s: Span) -> IResult<Span, CycleDelayRange> {
let (s, a) = symbol("##")(s)?;
let (s, b) = bracket(symbol("*"))(s)?;
@ -1678,7 +1678,7 @@ pub fn cycle_delay_range_asterisk(s: Span) -> IResult<Span, CycleDelayRange> {
))
}
#[trace]
#[parser]
pub fn cycle_delay_range_plus(s: Span) -> IResult<Span, CycleDelayRange> {
let (s, a) = symbol("##")(s)?;
let (s, b) = bracket(symbol("+"))(s)?;
@ -1688,7 +1688,7 @@ pub fn cycle_delay_range_plus(s: Span) -> IResult<Span, CycleDelayRange> {
))
}
#[trace]
#[parser]
pub fn sequence_method_call(s: Span) -> IResult<Span, SequenceMethodCall> {
let (s, a) = sequence_instance(s)?;
let (s, b) = symbol(".")(s)?;
@ -1696,7 +1696,7 @@ pub fn sequence_method_call(s: Span) -> IResult<Span, SequenceMethodCall> {
Ok((s, SequenceMethodCall { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn sequence_match_item(s: Span) -> IResult<Span, SequenceMatchItem> {
alt((
map(operator_assignment, |x| {
@ -1709,14 +1709,14 @@ pub fn sequence_match_item(s: Span) -> IResult<Span, SequenceMatchItem> {
))(s)
}
#[trace]
#[parser]
pub fn sequence_instance(s: Span) -> IResult<Span, SequenceInstance> {
let (s, a) = ps_or_hierarchical_sequence_identifier(s)?;
let (s, b) = opt(paren(opt(sequence_list_of_arguments)))(s)?;
Ok((s, SequenceInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn sequence_list_of_arguments(s: Span) -> IResult<Span, SequenceListOfArguments> {
alt((
sequence_list_of_arguments_ordered,
@ -1724,7 +1724,7 @@ pub fn sequence_list_of_arguments(s: Span) -> IResult<Span, SequenceListOfArgume
))(s)
}
#[trace]
#[parser]
pub fn sequence_list_of_arguments_ordered(s: Span) -> IResult<Span, SequenceListOfArguments> {
let (s, a) = list(symbol(","), opt(sequence_actual_arg))(s)?;
let (s, b) = many0(tuple((
@ -1739,7 +1739,7 @@ pub fn sequence_list_of_arguments_ordered(s: Span) -> IResult<Span, SequenceList
))
}
#[trace]
#[parser]
pub fn sequence_list_of_arguments_named(s: Span) -> IResult<Span, SequenceListOfArguments> {
let (s, a) = list(
symbol(","),
@ -1751,7 +1751,7 @@ pub fn sequence_list_of_arguments_named(s: Span) -> IResult<Span, SequenceListOf
))
}
#[trace]
#[parser]
pub fn sequence_actual_arg(s: Span) -> IResult<Span, SequenceActualArg> {
alt((
map(event_expression, |x| SequenceActualArg::EventExpression(x)),
@ -1759,7 +1759,7 @@ pub fn sequence_actual_arg(s: Span) -> IResult<Span, SequenceActualArg> {
))(s)
}
#[trace]
#[parser]
pub fn boolean_abbrev(s: Span) -> IResult<Span, BooleanAbbrev> {
alt((
map(consecutive_repetition, |x| {
@ -1772,13 +1772,13 @@ pub fn boolean_abbrev(s: Span) -> IResult<Span, BooleanAbbrev> {
))(s)
}
#[trace]
#[parser]
pub fn sequence_abbrev(s: Span) -> IResult<Span, SequenceAbbrev> {
let (s, a) = consecutive_repetition(s)?;
Ok((s, SequenceAbbrev { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn consecutive_repetition(s: Span) -> IResult<Span, ConsecutiveRepetition> {
alt((
consecutive_repetition_expression,
@ -1787,7 +1787,7 @@ pub fn consecutive_repetition(s: Span) -> IResult<Span, ConsecutiveRepetition> {
))(s)
}
#[trace]
#[parser]
pub fn consecutive_repetition_expression(s: Span) -> IResult<Span, ConsecutiveRepetition> {
let (s, a) = bracket(pair(symbol("*"), const_or_range_expression))(s)?;
Ok((
@ -1796,7 +1796,7 @@ pub fn consecutive_repetition_expression(s: Span) -> IResult<Span, ConsecutiveRe
))
}
#[trace]
#[parser]
pub fn consecutive_repetition_asterisk(s: Span) -> IResult<Span, ConsecutiveRepetition> {
let (s, a) = bracket(symbol("*"))(s)?;
Ok((
@ -1805,7 +1805,7 @@ pub fn consecutive_repetition_asterisk(s: Span) -> IResult<Span, ConsecutiveRepe
))
}
#[trace]
#[parser]
pub fn consecutive_repetition_plus(s: Span) -> IResult<Span, ConsecutiveRepetition> {
let (s, a) = bracket(symbol("+"))(s)?;
Ok((
@ -1814,19 +1814,19 @@ pub fn consecutive_repetition_plus(s: Span) -> IResult<Span, ConsecutiveRepetiti
))
}
#[trace]
#[parser]
pub fn non_consecutive_repetition(s: Span) -> IResult<Span, NonConsecutiveRepetition> {
let (s, a) = bracket(pair(symbol("="), const_or_range_expression))(s)?;
Ok((s, NonConsecutiveRepetition { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn goto_repetition(s: Span) -> IResult<Span, GotoRepetition> {
let (s, a) = bracket(pair(symbol("->"), const_or_range_expression))(s)?;
Ok((s, GotoRepetition { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn const_or_range_expression(s: Span) -> IResult<Span, ConstOrRangeExpression> {
alt((
map(constant_expression, |x| {
@ -1838,7 +1838,7 @@ pub fn const_or_range_expression(s: Span) -> IResult<Span, ConstOrRangeExpressio
))(s)
}
#[trace]
#[parser]
pub fn cycle_delay_const_range_expression(
s: Span,
) -> IResult<Span, CycleDelayConstRangeExpression> {
@ -1848,7 +1848,7 @@ pub fn cycle_delay_const_range_expression(
))(s)
}
#[trace]
#[parser]
pub fn cycle_delay_const_range_expression_binary(
s: Span,
) -> IResult<Span, CycleDelayConstRangeExpression> {
@ -1863,7 +1863,7 @@ pub fn cycle_delay_const_range_expression_binary(
))
}
#[trace]
#[parser]
pub fn cycle_delay_const_range_expression_dollar(
s: Span,
) -> IResult<Span, CycleDelayConstRangeExpression> {
@ -1878,14 +1878,14 @@ pub fn cycle_delay_const_range_expression_dollar(
))
}
#[trace]
#[parser]
pub fn expression_or_dist(s: Span) -> IResult<Span, ExpressionOrDist> {
let (s, a) = expression(s)?;
let (s, b) = opt(pair(symbol("dist"), brace(dist_list)))(s)?;
Ok((s, ExpressionOrDist { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn assertion_variable_declaration(s: Span) -> IResult<Span, AssertionVariableDeclaration> {
let (s, a) = var_data_type(s)?;
let (s, b) = list_of_variable_decl_assignments(s)?;

10
src/parser/declarations/block_item_declarations.rs
View File

@ -44,7 +44,7 @@ pub struct BlockItemDeclarationLet<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn block_item_declaration(s: Span) -> IResult<Span, BlockItemDeclaration> {
alt((
block_item_declaration_data,
@ -54,7 +54,7 @@ pub fn block_item_declaration(s: Span) -> IResult<Span, BlockItemDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn block_item_declaration_data(s: Span) -> IResult<Span, BlockItemDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = data_declaration(s)?;
@ -64,7 +64,7 @@ pub fn block_item_declaration_data(s: Span) -> IResult<Span, BlockItemDeclaratio
))
}
#[trace]
#[parser]
pub fn block_item_declaration_local_parameter(s: Span) -> IResult<Span, BlockItemDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = local_parameter_declaration(s)?;
@ -77,7 +77,7 @@ pub fn block_item_declaration_local_parameter(s: Span) -> IResult<Span, BlockIte
))
}
#[trace]
#[parser]
pub fn block_item_declaration_parameter(s: Span) -> IResult<Span, BlockItemDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = parameter_declaration(s)?;
@ -88,7 +88,7 @@ pub fn block_item_declaration_parameter(s: Span) -> IResult<Span, BlockItemDecla
))
}
#[trace]
#[parser]
pub fn block_item_declaration_let(s: Span) -> IResult<Span, BlockItemDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = let_declaration(s)?;

134
src/parser/declarations/covergroup_declarations.rs
View File

@ -521,7 +521,7 @@ pub struct CovergroupExpression<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn covergroup_declaration(s: Span) -> IResult<Span, CovergroupDeclaration> {
let (s, a) = symbol("covergroup")(s)?;
let (s, b) = covergroup_identifier(s)?;
@ -539,12 +539,12 @@ pub fn covergroup_declaration(s: Span) -> IResult<Span, CovergroupDeclaration> {
))
}
#[trace]
#[parser]
pub fn coverage_spec_or_option(s: Span) -> IResult<Span, CoverageSpecOrOption> {
alt((coverage_spec_or_option_spec, coverage_spec_or_option_option))(s)
}
#[trace]
#[parser]
pub fn coverage_spec_or_option_spec(s: Span) -> IResult<Span, CoverageSpecOrOption> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = coverage_spec(s)?;
@ -554,7 +554,7 @@ pub fn coverage_spec_or_option_spec(s: Span) -> IResult<Span, CoverageSpecOrOpti
))
}
#[trace]
#[parser]
pub fn coverage_spec_or_option_option(s: Span) -> IResult<Span, CoverageSpecOrOption> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = coverage_option(s)?;
@ -565,12 +565,12 @@ pub fn coverage_spec_or_option_option(s: Span) -> IResult<Span, CoverageSpecOrOp
))
}
#[trace]
#[parser]
pub fn coverage_option(s: Span) -> IResult<Span, CoverageOption> {
alt((coverage_option_option, coverage_option_type_option))(s)
}
#[trace]
#[parser]
pub fn coverage_option_option(s: Span) -> IResult<Span, CoverageOption> {
let (s, a) = symbol("option")(s)?;
let (s, b) = symbol(".")(s)?;
@ -585,7 +585,7 @@ pub fn coverage_option_option(s: Span) -> IResult<Span, CoverageOption> {
))
}
#[trace]
#[parser]
pub fn coverage_option_type_option(s: Span) -> IResult<Span, CoverageOption> {
let (s, a) = symbol("type_option")(s)?;
let (s, b) = symbol(".")(s)?;
@ -600,7 +600,7 @@ pub fn coverage_option_type_option(s: Span) -> IResult<Span, CoverageOption> {
))
}
#[trace]
#[parser]
pub fn coverage_spec(s: Span) -> IResult<Span, CoverageSpec> {
alt((
map(cover_point, |x| CoverageSpec::CoverPoint(x)),
@ -608,7 +608,7 @@ pub fn coverage_spec(s: Span) -> IResult<Span, CoverageSpec> {
))(s)
}
#[trace]
#[parser]
pub fn coverage_event(s: Span) -> IResult<Span, CoverageEvent> {
alt((
map(clocking_event, |x| CoverageEvent::ClockingEvent(x)),
@ -617,7 +617,7 @@ pub fn coverage_event(s: Span) -> IResult<Span, CoverageEvent> {
))(s)
}
#[trace]
#[parser]
pub fn coverage_event_sample(s: Span) -> IResult<Span, CoverageEvent> {
let (s, a) = symbol("with")(s)?;
let (s, b) = symbol("function")(s)?;
@ -631,14 +631,14 @@ pub fn coverage_event_sample(s: Span) -> IResult<Span, CoverageEvent> {
))
}
#[trace]
#[parser]
pub fn coverage_event_at(s: Span) -> IResult<Span, CoverageEvent> {
let (s, a) = symbol("@@")(s)?;
let (s, b) = paren(block_event_expression)(s)?;
Ok((s, CoverageEvent::At(CoverageEventAt { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn block_event_expression(s: Span) -> IResult<Span, BlockEventExpression> {
alt((
block_event_expression_or,
@ -647,7 +647,7 @@ pub fn block_event_expression(s: Span) -> IResult<Span, BlockEventExpression> {
))(s)
}
#[trace]
#[parser]
pub fn block_event_expression_or(s: Span) -> IResult<Span, BlockEventExpression> {
let (s, a) = block_event_expression(s)?;
let (s, b) = symbol("or")(s)?;
@ -658,7 +658,7 @@ pub fn block_event_expression_or(s: Span) -> IResult<Span, BlockEventExpression>
))
}
#[trace]
#[parser]
pub fn block_event_expression_begin(s: Span) -> IResult<Span, BlockEventExpression> {
let (s, a) = symbol("begin")(s)?;
let (s, b) = hierarchical_btf_identifier(s)?;
@ -668,7 +668,7 @@ pub fn block_event_expression_begin(s: Span) -> IResult<Span, BlockEventExpressi
))
}
#[trace]
#[parser]
pub fn block_event_expression_end(s: Span) -> IResult<Span, BlockEventExpression> {
let (s, a) = symbol("end")(s)?;
let (s, b) = hierarchical_btf_identifier(s)?;
@ -678,7 +678,7 @@ pub fn block_event_expression_end(s: Span) -> IResult<Span, BlockEventExpression
))
}
#[trace]
#[parser]
pub fn hierarchical_btf_identifier(s: Span) -> IResult<Span, HierarchicalBtfIdentifier> {
alt((
map(hierarchical_tf_identifier, |x| {
@ -691,7 +691,7 @@ pub fn hierarchical_btf_identifier(s: Span) -> IResult<Span, HierarchicalBtfIden
))(s)
}
#[trace]
#[parser]
pub fn hierarchical_btf_identifier_method(s: Span) -> IResult<Span, HierarchicalBtfIdentifier> {
let (s, a) = opt(hierarchical_identifier_or_class_scope)(s)?;
let (s, b) = method_identifier(s)?;
@ -701,7 +701,7 @@ pub fn hierarchical_btf_identifier_method(s: Span) -> IResult<Span, Hierarchical
))
}
#[trace]
#[parser]
pub fn hierarchical_identifier_or_class_scope(
s: Span,
) -> IResult<Span, HierarchicalIdentifierOrClassScope> {
@ -715,7 +715,7 @@ pub fn hierarchical_identifier_or_class_scope(
))(s)
}
#[trace]
#[parser]
pub fn cover_point(s: Span) -> IResult<Span, CoverPoint> {
let (s, a) = opt(triple(
opt(data_type_or_implicit),
@ -734,7 +734,7 @@ pub fn cover_point(s: Span) -> IResult<Span, CoverPoint> {
))
}
#[trace]
#[parser]
pub fn bins_or_empty(s: Span) -> IResult<Span, BinsOrEmpty> {
alt((
bins_or_empty_non_empty,
@ -742,7 +742,7 @@ pub fn bins_or_empty(s: Span) -> IResult<Span, BinsOrEmpty> {
))(s)
}
#[trace]
#[parser]
pub fn bins_or_empty_non_empty(s: Span) -> IResult<Span, BinsOrEmpty> {
let (s, a) = brace(pair(
many0(attribute_instance),
@ -754,7 +754,7 @@ pub fn bins_or_empty_non_empty(s: Span) -> IResult<Span, BinsOrEmpty> {
))
}
#[trace]
#[parser]
pub fn bins_or_options(s: Span) -> IResult<Span, BinsOrOptions> {
alt((
map(coverage_option, |x| BinsOrOptions::CoverageOption(x)),
@ -767,7 +767,7 @@ pub fn bins_or_options(s: Span) -> IResult<Span, BinsOrOptions> {
))(s)
}
#[trace]
#[parser]
pub fn bins_or_options_covergroup(s: Span) -> IResult<Span, BinsOrOptions> {
let (s, a) = opt(wildcard)(s)?;
let (s, b) = bins_keyword(s)?;
@ -785,13 +785,13 @@ pub fn bins_or_options_covergroup(s: Span) -> IResult<Span, BinsOrOptions> {
))
}
#[trace]
#[parser]
pub fn wildcard(s: Span) -> IResult<Span, Wildcard> {
let (s, a) = symbol("wildcard")(s)?;
Ok((s, Wildcard { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn bins_or_options_cover_point(s: Span) -> IResult<Span, BinsOrOptions> {
let (s, a) = opt(wildcard)(s)?;
let (s, b) = bins_keyword(s)?;
@ -810,7 +810,7 @@ pub fn bins_or_options_cover_point(s: Span) -> IResult<Span, BinsOrOptions> {
))
}
#[trace]
#[parser]
pub fn bins_or_options_set_covergroup(s: Span) -> IResult<Span, BinsOrOptions> {
let (s, a) = opt(wildcard)(s)?;
let (s, b) = bins_keyword(s)?;
@ -827,7 +827,7 @@ pub fn bins_or_options_set_covergroup(s: Span) -> IResult<Span, BinsOrOptions> {
))
}
#[trace]
#[parser]
pub fn bins_or_options_trans_list(s: Span) -> IResult<Span, BinsOrOptions> {
let (s, a) = opt(wildcard)(s)?;
let (s, b) = bins_keyword(s)?;
@ -844,7 +844,7 @@ pub fn bins_or_options_trans_list(s: Span) -> IResult<Span, BinsOrOptions> {
))
}
#[trace]
#[parser]
pub fn bins_or_options_default(s: Span) -> IResult<Span, BinsOrOptions> {
let (s, a) = bins_keyword(s)?;
let (s, b) = bin_identifier(s)?;
@ -860,7 +860,7 @@ pub fn bins_or_options_default(s: Span) -> IResult<Span, BinsOrOptions> {
))
}
#[trace]
#[parser]
pub fn bins_or_options_default_sequence(s: Span) -> IResult<Span, BinsOrOptions> {
let (s, a) = bins_keyword(s)?;
let (s, b) = bin_identifier(s)?;
@ -876,7 +876,7 @@ pub fn bins_or_options_default_sequence(s: Span) -> IResult<Span, BinsOrOptions>
))
}
#[trace]
#[parser]
pub fn bins_keyword(s: Span) -> IResult<Span, BinsKeyword> {
alt((
map(symbol("bins"), |x| BinsKeyword::Bins(x)),
@ -885,19 +885,19 @@ pub fn bins_keyword(s: Span) -> IResult<Span, BinsKeyword> {
))(s)
}
#[trace]
#[parser]
pub fn trans_list(s: Span) -> IResult<Span, TransList> {
let (s, a) = list(symbol(","), paren(trans_set))(s)?;
Ok((s, TransList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn trans_set(s: Span) -> IResult<Span, TransSet> {
let (s, a) = list(symbol("=>"), trans_range_list)(s)?;
Ok((s, TransSet { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn trans_range_list(s: Span) -> IResult<Span, TransRangeList> {
alt((
map(trans_item, |x| TransRangeList::TransItem(x)),
@ -907,7 +907,7 @@ pub fn trans_range_list(s: Span) -> IResult<Span, TransRangeList> {
))(s)
}
#[trace]
#[parser]
pub fn trans_range_list_asterisk(s: Span) -> IResult<Span, TransRangeList> {
let (s, a) = trans_item(s)?;
let (s, b) = bracket(pair(symbol("*"), repeat_range))(s)?;
@ -917,7 +917,7 @@ pub fn trans_range_list_asterisk(s: Span) -> IResult<Span, TransRangeList> {
))
}
#[trace]
#[parser]
pub fn trans_range_list_arrow(s: Span) -> IResult<Span, TransRangeList> {
let (s, a) = trans_item(s)?;
let (s, b) = bracket(pair(symbol("->"), repeat_range))(s)?;
@ -927,7 +927,7 @@ pub fn trans_range_list_arrow(s: Span) -> IResult<Span, TransRangeList> {
))
}
#[trace]
#[parser]
pub fn trans_range_list_equal(s: Span) -> IResult<Span, TransRangeList> {
let (s, a) = trans_item(s)?;
let (s, b) = bracket(pair(symbol("="), repeat_range))(s)?;
@ -937,13 +937,13 @@ pub fn trans_range_list_equal(s: Span) -> IResult<Span, TransRangeList> {
))
}
#[trace]
#[parser]
pub fn trans_item(s: Span) -> IResult<Span, TransItem> {
let (s, a) = covergroup_range_list(s)?;
Ok((s, TransItem { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn repeat_range(s: Span) -> IResult<Span, RepeatRange> {
alt((
map(covergroup_expression, |x| {
@ -953,7 +953,7 @@ pub fn repeat_range(s: Span) -> IResult<Span, RepeatRange> {
))(s)
}
#[trace]
#[parser]
pub fn repeat_range_binary(s: Span) -> IResult<Span, RepeatRange> {
let (s, a) = covergroup_expression(s)?;
let (s, b) = symbol(":")(s)?;
@ -964,7 +964,7 @@ pub fn repeat_range_binary(s: Span) -> IResult<Span, RepeatRange> {
))
}
#[trace]
#[parser]
pub fn cover_cross(s: Span) -> IResult<Span, CoverCross> {
let (s, a) = opt(pair(cross_identifier, symbol(":")))(s)?;
let (s, b) = symbol("cross")(s)?;
@ -979,14 +979,14 @@ pub fn cover_cross(s: Span) -> IResult<Span, CoverCross> {
))
}
#[trace]
#[parser]
pub fn list_of_cross_items(s: Span) -> IResult<Span, ListOfCrossItems> {
let (s, a) = cross_item(s)?;
let (s, b) = list(symbol(","), cross_item)(s)?;
Ok((s, ListOfCrossItems { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn cross_item(s: Span) -> IResult<Span, CrossItem> {
alt((
map(cover_point_identifier, |x| {
@ -996,7 +996,7 @@ pub fn cross_item(s: Span) -> IResult<Span, CrossItem> {
))(s)
}
#[trace]
#[parser]
pub fn cross_body(s: Span) -> IResult<Span, CrossBody> {
alt((
cross_body_non_empty,
@ -1004,13 +1004,13 @@ pub fn cross_body(s: Span) -> IResult<Span, CrossBody> {
))(s)
}
#[trace]
#[parser]
pub fn cross_body_non_empty(s: Span) -> IResult<Span, CrossBody> {
let (s, a) = brace(many0(pair(cross_body_item, symbol(";"))))(s)?;
Ok((s, CrossBody::NonEmpty(CrossBodyNonEmpty { nodes: (a,) })))
}
#[trace]
#[parser]
pub fn cross_body_item(s: Span) -> IResult<Span, CrossBodyItem> {
alt((
map(function_declaration, |x| {
@ -1022,7 +1022,7 @@ pub fn cross_body_item(s: Span) -> IResult<Span, CrossBodyItem> {
))(s)
}
#[trace]
#[parser]
pub fn bins_selection_or_option(s: Span) -> IResult<Span, BinsSelectionOrOption> {
alt((
bins_selection_or_option_coverage,
@ -1030,7 +1030,7 @@ pub fn bins_selection_or_option(s: Span) -> IResult<Span, BinsSelectionOrOption>
))(s)
}
#[trace]
#[parser]
pub fn bins_selection_or_option_coverage(s: Span) -> IResult<Span, BinsSelectionOrOption> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = coverage_option(s)?;
@ -1040,7 +1040,7 @@ pub fn bins_selection_or_option_coverage(s: Span) -> IResult<Span, BinsSelection
))
}
#[trace]
#[parser]
pub fn bins_selection_or_option_bins(s: Span) -> IResult<Span, BinsSelectionOrOption> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = bins_selection(s)?;
@ -1050,7 +1050,7 @@ pub fn bins_selection_or_option_bins(s: Span) -> IResult<Span, BinsSelectionOrOp
))
}
#[trace]
#[parser]
pub fn bins_selection(s: Span) -> IResult<Span, BinsSelection> {
let (s, a) = bins_keyword(s)?;
let (s, b) = bin_identifier(s)?;
@ -1065,7 +1065,7 @@ pub fn bins_selection(s: Span) -> IResult<Span, BinsSelection> {
))
}
#[trace]
#[parser]
pub fn select_expression(s: Span) -> IResult<Span, SelectExpression> {
alt((
map(select_condition, |x| SelectExpression::SelectCondition(x)),
@ -1079,7 +1079,7 @@ pub fn select_expression(s: Span) -> IResult<Span, SelectExpression> {
))(s)
}
#[trace]
#[parser]
pub fn select_expression_not(s: Span) -> IResult<Span, SelectExpression> {
let (s, a) = symbol("!")(s)?;
let (s, b) = select_condition(s)?;
@ -1089,7 +1089,7 @@ pub fn select_expression_not(s: Span) -> IResult<Span, SelectExpression> {
))
}
#[trace]
#[parser]
pub fn select_expression_and(s: Span) -> IResult<Span, SelectExpression> {
let (s, a) = select_expression(s)?;
let (s, b) = symbol("&&")(s)?;
@ -1100,7 +1100,7 @@ pub fn select_expression_and(s: Span) -> IResult<Span, SelectExpression> {
))
}
#[trace]
#[parser]
pub fn select_expression_or(s: Span) -> IResult<Span, SelectExpression> {
let (s, a) = select_expression(s)?;
let (s, b) = symbol("||")(s)?;
@ -1111,7 +1111,7 @@ pub fn select_expression_or(s: Span) -> IResult<Span, SelectExpression> {
))
}
#[trace]
#[parser]
pub fn select_expression_paren(s: Span) -> IResult<Span, SelectExpression> {
let (s, a) = paren(select_expression)(s)?;
Ok((
@ -1120,7 +1120,7 @@ pub fn select_expression_paren(s: Span) -> IResult<Span, SelectExpression> {
))
}
#[trace]
#[parser]
pub fn select_expression_with(s: Span) -> IResult<Span, SelectExpression> {
let (s, a) = select_expression(s)?;
let (s, b) = symbol("with")(s)?;
@ -1134,7 +1134,7 @@ pub fn select_expression_with(s: Span) -> IResult<Span, SelectExpression> {
))
}
#[trace]
#[parser]
pub fn select_expression_cross_set(s: Span) -> IResult<Span, SelectExpression> {
let (s, a) = cross_set_expression(s)?;
let (s, b) = opt(pair(symbol("matches"), integer_covergroup_expression))(s)?;
@ -1144,7 +1144,7 @@ pub fn select_expression_cross_set(s: Span) -> IResult<Span, SelectExpression> {
))
}
#[trace]
#[parser]
pub fn select_condition(s: Span) -> IResult<Span, SelectCondition> {
let (s, a) = symbol("binsof")(s)?;
let (s, b) = paren(bins_expression)(s)?;
@ -1152,7 +1152,7 @@ pub fn select_condition(s: Span) -> IResult<Span, SelectCondition> {
Ok((s, SelectCondition { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn bins_expression(s: Span) -> IResult<Span, BinsExpression> {
alt((
map(variable_identifier, |x| {
@ -1162,7 +1162,7 @@ pub fn bins_expression(s: Span) -> IResult<Span, BinsExpression> {
))(s)
}
#[trace]
#[parser]
pub fn bins_expression_cover_point(s: Span) -> IResult<Span, BinsExpression> {
let (s, a) = cover_point_identifier(s)?;
let (s, b) = opt(pair(symbol("."), bin_identifier))(s)?;
@ -1172,13 +1172,13 @@ pub fn bins_expression_cover_point(s: Span) -> IResult<Span, BinsExpression> {
))
}
#[trace]
#[parser]
pub fn covergroup_range_list(s: Span) -> IResult<Span, CovergroupRangeList> {
let (s, a) = list(symbol(","), covergroup_value_range)(s)?;
Ok((s, CovergroupRangeList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn covergroup_value_range(s: Span) -> IResult<Span, CovergroupValueRange> {
alt((
map(covergroup_expression, |x| {
@ -1188,7 +1188,7 @@ pub fn covergroup_value_range(s: Span) -> IResult<Span, CovergroupValueRange> {
))(s)
}
#[trace]
#[parser]
pub fn covergroup_value_range_binary(s: Span) -> IResult<Span, CovergroupValueRange> {
let (s, a) = bracket(triple(
covergroup_expression,
@ -1201,31 +1201,31 @@ pub fn covergroup_value_range_binary(s: Span) -> IResult<Span, CovergroupValueRa
))
}
#[trace]
#[parser]
pub fn with_covergroup_expression(s: Span) -> IResult<Span, WithCovergroupExpression> {
let (s, a) = covergroup_expression(s)?;
Ok((s, WithCovergroupExpression { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn set_covergroup_expression(s: Span) -> IResult<Span, SetCovergroupExpression> {
let (s, a) = covergroup_expression(s)?;
Ok((s, SetCovergroupExpression { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn integer_covergroup_expression(s: Span) -> IResult<Span, IntegerCovergroupExpression> {
let (s, a) = covergroup_expression(s)?;
Ok((s, IntegerCovergroupExpression { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn cross_set_expression(s: Span) -> IResult<Span, CrossSetExpression> {
let (s, a) = covergroup_expression(s)?;
Ok((s, CrossSetExpression { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn covergroup_expression(s: Span) -> IResult<Span, CovergroupExpression> {
let (s, a) = expression(s)?;
Ok((s, CovergroupExpression { nodes: (a,) }))

40
src/parser/declarations/declaration_assignments.rs
View File

@ -174,7 +174,7 @@ pub struct DynamicArrayNew<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn defparam_assignment(s: Span) -> IResult<Span, DefparamAssignment> {
let (s, a) = hierarchical_parameter_identifier(s)?;
let (s, b) = symbol("=")(s)?;
@ -182,7 +182,7 @@ pub fn defparam_assignment(s: Span) -> IResult<Span, DefparamAssignment> {
Ok((s, DefparamAssignment { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn net_decl_assignment(s: Span) -> IResult<Span, NetDeclAssignment> {
let (s, a) = net_identifier(s)?;
let (s, b) = many0(unpacked_dimension)(s)?;
@ -190,7 +190,7 @@ pub fn net_decl_assignment(s: Span) -> IResult<Span, NetDeclAssignment> {
Ok((s, NetDeclAssignment { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn param_assignment(s: Span) -> IResult<Span, ParamAssignment> {
let (s, a) = parameter_identifier(s)?;
let (s, b) = many0(unpacked_dimension)(s)?;
@ -198,7 +198,7 @@ pub fn param_assignment(s: Span) -> IResult<Span, ParamAssignment> {
Ok((s, ParamAssignment { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn specparam_assignment(s: Span) -> IResult<Span, SpecparamAssignment> {
alt((
specparam_assignment_mintypmax,
@ -208,7 +208,7 @@ pub fn specparam_assignment(s: Span) -> IResult<Span, SpecparamAssignment> {
))(s)
}
#[trace]
#[parser]
pub fn specparam_assignment_mintypmax(s: Span) -> IResult<Span, SpecparamAssignment> {
let (s, a) = specparam_identifier(s)?;
let (s, b) = symbol("=")(s)?;
@ -219,14 +219,14 @@ pub fn specparam_assignment_mintypmax(s: Span) -> IResult<Span, SpecparamAssignm
))
}
#[trace]
#[parser]
pub fn type_assignment(s: Span) -> IResult<Span, TypeAssignment> {
let (s, a) = type_identifier(s)?;
let (s, b) = opt(pair(symbol("="), data_type))(s)?;
Ok((s, TypeAssignment { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn pulse_control_specparam(s: Span) -> IResult<Span, PulseControlSpecparam> {
alt((
pulse_control_specparam_without_descriptor,
@ -234,7 +234,7 @@ pub fn pulse_control_specparam(s: Span) -> IResult<Span, PulseControlSpecparam>
))(s)
}
#[trace]
#[parser]
pub fn pulse_control_specparam_without_descriptor(s: Span) -> IResult<Span, PulseControlSpecparam> {
let (s, a) = symbol("PATHPULSE$")(s)?;
let (s, b) = symbol("=")(s)?;
@ -250,7 +250,7 @@ pub fn pulse_control_specparam_without_descriptor(s: Span) -> IResult<Span, Puls
))
}
#[trace]
#[parser]
pub fn pulse_control_specparam_with_descriptor(s: Span) -> IResult<Span, PulseControlSpecparam> {
let (s, a) = symbol("PATHPULSE$")(s)?;
let (s, b) = specify_input_terminal_descriptor(s)?;
@ -269,25 +269,25 @@ pub fn pulse_control_specparam_with_descriptor(s: Span) -> IResult<Span, PulseCo
))
}
#[trace]
#[parser]
pub fn error_limit_value(s: Span) -> IResult<Span, ErrorLimitValue> {
let (s, a) = limit_value(s)?;
Ok((s, ErrorLimitValue { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn reject_limit_value(s: Span) -> IResult<Span, RejectLimitValue> {
let (s, a) = limit_value(s)?;
Ok((s, RejectLimitValue { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn limit_value(s: Span) -> IResult<Span, LimitValue> {
let (s, a) = constant_mintypmax_expression(s)?;
Ok((s, LimitValue { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn variable_decl_assignment(s: Span) -> IResult<Span, VariableDeclAssignment> {
alt((
variable_decl_assignment_variable,
@ -296,7 +296,7 @@ pub fn variable_decl_assignment(s: Span) -> IResult<Span, VariableDeclAssignment
))(s)
}
#[trace]
#[parser]
pub fn variable_decl_assignment_variable(s: Span) -> IResult<Span, VariableDeclAssignment> {
let (s, a) = variable_identifier(s)?;
let (s, b) = many0(variable_dimension)(s)?;
@ -307,7 +307,7 @@ pub fn variable_decl_assignment_variable(s: Span) -> IResult<Span, VariableDeclA
))
}
#[trace]
#[parser]
pub fn variable_decl_assignment_dynamic_array(s: Span) -> IResult<Span, VariableDeclAssignment> {
let (s, a) = dynamic_array_variable_identifier(s)?;
let (s, b) = unsized_dimension(s)?;
@ -321,7 +321,7 @@ pub fn variable_decl_assignment_dynamic_array(s: Span) -> IResult<Span, Variable
))
}
#[trace]
#[parser]
pub fn variable_decl_assignment_class(s: Span) -> IResult<Span, VariableDeclAssignment> {
let (s, a) = class_variable_identifier(s)?;
let (s, b) = opt(pair(symbol("="), class_new))(s)?;
@ -331,12 +331,12 @@ pub fn variable_decl_assignment_class(s: Span) -> IResult<Span, VariableDeclAssi
))
}
#[trace]
#[parser]
pub fn class_new(s: Span) -> IResult<Span, ClassNew> {
alt((class_new_argument, class_new_expression))(s)
}
#[trace]
#[parser]
pub fn class_new_argument(s: Span) -> IResult<Span, ClassNew> {
let (s, a) = opt(class_scope)(s)?;
let (s, b) = symbol("new")(s)?;
@ -344,7 +344,7 @@ pub fn class_new_argument(s: Span) -> IResult<Span, ClassNew> {
Ok((s, ClassNew::Argument(ClassNewArgument { nodes: (a, b, c) })))
}
#[trace]
#[parser]
pub fn class_new_expression(s: Span) -> IResult<Span, ClassNew> {
let (s, a) = symbol("new")(s)?;
let (s, b) = expression(s)?;
@ -354,7 +354,7 @@ pub fn class_new_expression(s: Span) -> IResult<Span, ClassNew> {
))
}
#[trace]
#[parser]
pub fn dynamic_array_new(s: Span) -> IResult<Span, DynamicArrayNew> {
let (s, a) = symbol("new")(s)?;
let (s, b) = bracket(expression)(s)?;

26
src/parser/declarations/declaration_lists.rs
View File

@ -92,19 +92,19 @@ pub struct ListOfVariablePortIdentifiers<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn list_of_defparam_assignments(s: Span) -> IResult<Span, ListOfDefparamAssignments> {
let (s, a) = list(symbol(","), defparam_assignment)(s)?;
Ok((s, ListOfDefparamAssignments { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_genvar_identifiers(s: Span) -> IResult<Span, ListOfGenvarIdentifiers> {
let (s, a) = list(symbol(","), genvar_identifier)(s)?;
Ok((s, ListOfGenvarIdentifiers { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_interface_identifiers(s: Span) -> IResult<Span, ListOfInterfaceIdentifiers> {
let (s, a) = list(
symbol(","),
@ -113,19 +113,19 @@ pub fn list_of_interface_identifiers(s: Span) -> IResult<Span, ListOfInterfaceId
Ok((s, ListOfInterfaceIdentifiers { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_net_decl_assignments(s: Span) -> IResult<Span, ListOfNetDeclAssignments> {
let (s, a) = list(symbol(","), net_decl_assignment)(s)?;
Ok((s, ListOfNetDeclAssignments { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_param_assignments(s: Span) -> IResult<Span, ListOfParamAssignments> {
let (s, a) = list(symbol(","), param_assignment)(s)?;
Ok((s, ListOfParamAssignments { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_port_identifiers(s: Span) -> IResult<Span, ListOfPortIdentifiers> {
let (s, a) = list(
symbol(","),
@ -134,19 +134,19 @@ pub fn list_of_port_identifiers(s: Span) -> IResult<Span, ListOfPortIdentifiers>
Ok((s, ListOfPortIdentifiers { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_udp_port_identifiers(s: Span) -> IResult<Span, ListOfUdpPortIdentifiers> {
let (s, a) = list(symbol(","), port_identifier)(s)?;
Ok((s, ListOfUdpPortIdentifiers { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_specparam_assignments(s: Span) -> IResult<Span, ListOfSpecparamAssignments> {
let (s, a) = list(symbol(","), specparam_assignment)(s)?;
Ok((s, ListOfSpecparamAssignments { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_tf_variable_identifiers(s: Span) -> IResult<Span, ListOfTfVariableIdentifiers> {
let (s, a) = list(
symbol(","),
@ -159,19 +159,19 @@ pub fn list_of_tf_variable_identifiers(s: Span) -> IResult<Span, ListOfTfVariabl
Ok((s, ListOfTfVariableIdentifiers { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_type_assignments(s: Span) -> IResult<Span, ListOfTypeAssignments> {
let (s, a) = list(symbol(","), type_assignment)(s)?;
Ok((s, ListOfTypeAssignments { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_variable_decl_assignments(s: Span) -> IResult<Span, ListOfVariableDeclAssignments> {
let (s, a) = list(symbol(","), variable_decl_assignment)(s)?;
Ok((s, ListOfVariableDeclAssignments { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_variable_identifiers(s: Span) -> IResult<Span, ListOfVariableIdentifiers> {
let (s, a) = list(
symbol(","),
@ -180,7 +180,7 @@ pub fn list_of_variable_identifiers(s: Span) -> IResult<Span, ListOfVariableIden
Ok((s, ListOfVariableIdentifiers { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_variable_port_identifiers(s: Span) -> IResult<Span, ListOfVariablePortIdentifiers> {
let (s, a) = list(
symbol(","),

22
src/parser/declarations/declaration_ranges.rs
View File

@ -70,12 +70,12 @@ pub struct UnsizedDimension<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn unpacked_dimension(s: Span) -> IResult<Span, UnpackedDimension> {
alt((unpacked_dimension_range, unpacked_dimension_expression))(s)
}
#[trace]
#[parser]
pub fn unpacked_dimension_range(s: Span) -> IResult<Span, UnpackedDimension> {
let (s, a) = bracket(constant_range)(s)?;
Ok((
@ -84,7 +84,7 @@ pub fn unpacked_dimension_range(s: Span) -> IResult<Span, UnpackedDimension> {
))
}
#[trace]
#[parser]
pub fn unpacked_dimension_expression(s: Span) -> IResult<Span, UnpackedDimension> {
let (s, a) = bracket(constant_expression)(s)?;
Ok((
@ -93,7 +93,7 @@ pub fn unpacked_dimension_expression(s: Span) -> IResult<Span, UnpackedDimension
))
}
#[trace]
#[parser]
pub fn packed_dimension(s: Span) -> IResult<Span, PackedDimension> {
alt((
packed_dimension_range,
@ -101,7 +101,7 @@ pub fn packed_dimension(s: Span) -> IResult<Span, PackedDimension> {
))(s)
}
#[trace]
#[parser]
pub fn packed_dimension_range(s: Span) -> IResult<Span, PackedDimension> {
let (s, a) = bracket(constant_range)(s)?;
Ok((
@ -110,7 +110,7 @@ pub fn packed_dimension_range(s: Span) -> IResult<Span, PackedDimension> {
))
}
#[trace]
#[parser]
pub fn associative_dimension(s: Span) -> IResult<Span, AssociativeDimension> {
alt((
associative_dimension_data_type,
@ -118,7 +118,7 @@ pub fn associative_dimension(s: Span) -> IResult<Span, AssociativeDimension> {
))(s)
}
#[trace]
#[parser]
pub fn associative_dimension_data_type(s: Span) -> IResult<Span, AssociativeDimension> {
let (s, a) = bracket(data_type)(s)?;
Ok((
@ -127,7 +127,7 @@ pub fn associative_dimension_data_type(s: Span) -> IResult<Span, AssociativeDime
))
}
#[trace]
#[parser]
pub fn associative_dimension_asterisk(s: Span) -> IResult<Span, AssociativeDimension> {
let (s, a) = bracket(symbol("*"))(s)?;
Ok((
@ -136,7 +136,7 @@ pub fn associative_dimension_asterisk(s: Span) -> IResult<Span, AssociativeDimen
))
}
#[trace]
#[parser]
pub fn variable_dimension(s: Span) -> IResult<Span, VariableDimension> {
alt((
map(unsized_dimension, |x| {
@ -152,7 +152,7 @@ pub fn variable_dimension(s: Span) -> IResult<Span, VariableDimension> {
))(s)
}
#[trace]
#[parser]
pub fn queue_dimension(s: Span) -> IResult<Span, QueueDimension> {
let (s, a) = bracket(pair(
symbol("$"),
@ -161,7 +161,7 @@ pub fn queue_dimension(s: Span) -> IResult<Span, QueueDimension> {
Ok((s, QueueDimension { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn unsized_dimension(s: Span) -> IResult<Span, UnsizedDimension> {
let (s, a) = symbol("[")(s)?;
let (s, b) = symbol("]")(s)?;

14
src/parser/declarations/delays.rs
View File

@ -72,19 +72,19 @@ pub enum DelayValue<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn delay3(s: Span) -> IResult<Span, Delay3> {
alt((delay3_single, delay3_mintypmax))(s)
}
#[trace]
#[parser]
pub fn delay3_single(s: Span) -> IResult<Span, Delay3> {
let (s, a) = symbol("#")(s)?;
let (s, b) = delay_value(s)?;
Ok((s, Delay3::Single(Delay3Single { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn delay3_mintypmax(s: Span) -> IResult<Span, Delay3> {
let (s, a) = symbol("#")(s)?;
let (s, b) = paren(pair(
@ -98,19 +98,19 @@ pub fn delay3_mintypmax(s: Span) -> IResult<Span, Delay3> {
Ok((s, Delay3::Mintypmax(Delay3Mintypmax { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn delay2(s: Span) -> IResult<Span, Delay2> {
alt((delay2_single, delay2_mintypmax))(s)
}
#[trace]
#[parser]
pub fn delay2_single(s: Span) -> IResult<Span, Delay2> {
let (s, a) = symbol("#")(s)?;
let (s, b) = delay_value(s)?;
Ok((s, Delay2::Single(Delay2Single { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn delay2_mintypmax(s: Span) -> IResult<Span, Delay2> {
let (s, a) = symbol("#")(s)?;
let (s, b) = paren(pair(
@ -120,7 +120,7 @@ pub fn delay2_mintypmax(s: Span) -> IResult<Span, Delay2> {
Ok((s, Delay2::Mintypmax(Delay2Mintypmax { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn delay_value(s: Span) -> IResult<Span, DelayValue> {
alt((
map(unsigned_number, |x| DelayValue::UnsignedNumber(x)),

34
src/parser/declarations/function_declarations.rs
View File

@ -159,7 +159,7 @@ pub struct DpiTaskProto<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn function_data_type_or_implicit(s: Span) -> IResult<Span, FunctionDataTypeOrImplicit> {
alt((
map(data_type_or_void, |x| {
@ -171,7 +171,7 @@ pub fn function_data_type_or_implicit(s: Span) -> IResult<Span, FunctionDataType
))(s)
}
#[trace]
#[parser]
pub fn function_declaration(s: Span) -> IResult<Span, FunctionDeclaration> {
let (s, a) = symbol("function")(s)?;
let (s, b) = opt(lifetime)(s)?;
@ -179,7 +179,7 @@ pub fn function_declaration(s: Span) -> IResult<Span, FunctionDeclaration> {
Ok((s, FunctionDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn function_body_declaration(s: Span) -> IResult<Span, FunctionBodyDeclaration> {
alt((
function_body_declaration_without_port,
@ -187,7 +187,7 @@ pub fn function_body_declaration(s: Span) -> IResult<Span, FunctionBodyDeclarati
))(s)
}
#[trace]
#[parser]
pub fn function_body_declaration_without_port(s: Span) -> IResult<Span, FunctionBodyDeclaration> {
let (s, a) = function_data_type_or_implicit(s)?;
let (s, b) = opt(interface_identifier_or_class_scope)(s)?;
@ -205,7 +205,7 @@ pub fn function_body_declaration_without_port(s: Span) -> IResult<Span, Function
))
}
#[trace]
#[parser]
pub fn function_body_declaration_with_port(s: Span) -> IResult<Span, FunctionBodyDeclaration> {
let (s, a) = function_data_type_or_implicit(s)?;
let (s, b) = opt(interface_identifier_or_class_scope)(s)?;
@ -224,7 +224,7 @@ pub fn function_body_declaration_with_port(s: Span) -> IResult<Span, FunctionBod
))
}
#[trace]
#[parser]
pub fn interface_identifier_or_class_scope(
s: Span,
) -> IResult<Span, InterfaceIdentifierOrClassScope> {
@ -238,7 +238,7 @@ pub fn interface_identifier_or_class_scope(
))(s)
}
#[trace]
#[parser]
pub fn function_prototype(s: Span) -> IResult<Span, FunctionPrototype> {
let (s, a) = symbol("function")(s)?;
let (s, b) = data_type_or_void(s)?;
@ -252,7 +252,7 @@ pub fn function_prototype(s: Span) -> IResult<Span, FunctionPrototype> {
))
}
#[trace]
#[parser]
pub fn dpi_import_export(s: Span) -> IResult<Span, DpiImportExport> {
alt((
dpi_import_export_import_function,
@ -262,7 +262,7 @@ pub fn dpi_import_export(s: Span) -> IResult<Span, DpiImportExport> {
))(s)
}
#[trace]
#[parser]
pub fn dpi_import_export_import_function(s: Span) -> IResult<Span, DpiImportExport> {
let (s, a) = symbol("import")(s)?;
let (s, b) = dpi_spec_string(s)?;
@ -278,7 +278,7 @@ pub fn dpi_import_export_import_function(s: Span) -> IResult<Span, DpiImportExpo
))
}
#[trace]
#[parser]
pub fn dpi_import_export_import_task(s: Span) -> IResult<Span, DpiImportExport> {
let (s, a) = symbol("import")(s)?;
let (s, b) = dpi_spec_string(s)?;
@ -294,7 +294,7 @@ pub fn dpi_import_export_import_task(s: Span) -> IResult<Span, DpiImportExport>
))
}
#[trace]
#[parser]
pub fn dpi_import_export_export_function(s: Span) -> IResult<Span, DpiImportExport> {
let (s, a) = symbol("export")(s)?;
let (s, b) = dpi_spec_string(s)?;
@ -310,7 +310,7 @@ pub fn dpi_import_export_export_function(s: Span) -> IResult<Span, DpiImportExpo
))
}
#[trace]
#[parser]
pub fn dpi_import_export_export_task(s: Span) -> IResult<Span, DpiImportExport> {
let (s, a) = symbol("export")(s)?;
let (s, b) = dpi_spec_string(s)?;
@ -326,7 +326,7 @@ pub fn dpi_import_export_export_task(s: Span) -> IResult<Span, DpiImportExport>
))
}
#[trace]
#[parser]
pub fn dpi_spec_string(s: Span) -> IResult<Span, DpiSpecString> {
alt((
map(symbol("DPI-C"), |x| DpiSpecString::DpiC(x)),
@ -334,7 +334,7 @@ pub fn dpi_spec_string(s: Span) -> IResult<Span, DpiSpecString> {
))(s)
}
#[trace]
#[parser]
pub fn dpi_function_import_property(s: Span) -> IResult<Span, DpiFunctionImportProperty> {
alt((
map(symbol("context"), |x| DpiFunctionImportProperty::Context(x)),
@ -342,19 +342,19 @@ pub fn dpi_function_import_property(s: Span) -> IResult<Span, DpiFunctionImportP
))(s)
}
#[trace]
#[parser]
pub fn dpi_task_import_property(s: Span) -> IResult<Span, DpiTaskImportProperty> {
let (s, a) = symbol("context")(s)?;
Ok((s, DpiTaskImportProperty::Context(a)))
}
#[trace]
#[parser]
pub fn dpi_function_proto(s: Span) -> IResult<Span, DpiFunctionProto> {
let (s, a) = function_prototype(s)?;
Ok((s, DpiFunctionProto { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn dpi_task_proto(s: Span) -> IResult<Span, DpiTaskProto> {
let (s, a) = task_prototype(s)?;
Ok((s, DpiTaskProto { nodes: (a,) }))

28
src/parser/declarations/interface_declarations.rs
View File

@ -94,7 +94,7 @@ pub enum ImportExport<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn modport_declaration(s: Span) -> IResult<Span, ModportDeclaration> {
let (s, a) = symbol("modport")(s)?;
let (s, b) = list(symbol(","), modport_item)(s)?;
@ -102,14 +102,14 @@ pub fn modport_declaration(s: Span) -> IResult<Span, ModportDeclaration> {
Ok((s, ModportDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn modport_item(s: Span) -> IResult<Span, ModportItem> {
let (s, a) = modport_identifier(s)?;
let (s, b) = paren(list(symbol(","), modport_ports_declaration))(s)?;
Ok((s, ModportItem { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn modport_ports_declaration(s: Span) -> IResult<Span, ModportPortsDeclaraton> {
alt((
modport_ports_declaration_simple,
@ -118,7 +118,7 @@ pub fn modport_ports_declaration(s: Span) -> IResult<Span, ModportPortsDeclarato
))(s)
}
#[trace]
#[parser]
pub fn modport_ports_declaration_simple(s: Span) -> IResult<Span, ModportPortsDeclaraton> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = modport_simple_ports_declaration(s)?;
@ -128,7 +128,7 @@ pub fn modport_ports_declaration_simple(s: Span) -> IResult<Span, ModportPortsDe
))
}
#[trace]
#[parser]
pub fn modport_ports_declaration_tf(s: Span) -> IResult<Span, ModportPortsDeclaraton> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = modport_tf_ports_declaration(s)?;
@ -138,7 +138,7 @@ pub fn modport_ports_declaration_tf(s: Span) -> IResult<Span, ModportPortsDeclar
))
}
#[trace]
#[parser]
pub fn modport_ports_declaration_clocking(s: Span) -> IResult<Span, ModportPortsDeclaraton> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = modport_clocking_declaration(s)?;
@ -148,26 +148,26 @@ pub fn modport_ports_declaration_clocking(s: Span) -> IResult<Span, ModportPorts
))
}
#[trace]
#[parser]
pub fn modport_clocking_declaration(s: Span) -> IResult<Span, ModportClockingDeclaration> {
let (s, a) = symbol("clocking")(s)?;
let (s, b) = clocking_identifier(s)?;
Ok((s, ModportClockingDeclaration { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn modport_simple_ports_declaration(s: Span) -> IResult<Span, ModportSimplePortsDeclaration> {
let (s, a) = port_direction(s)?;
let (s, b) = list(symbol(","), modport_simple_port)(s)?;
Ok((s, ModportSimplePortsDeclaration { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn modport_simple_port(s: Span) -> IResult<Span, ModportSimplePort> {
alt((modport_simple_port_ordered, modport_simple_port_named))(s)
}
#[trace]
#[parser]
pub fn modport_simple_port_ordered(s: Span) -> IResult<Span, ModportSimplePort> {
let (s, a) = port_identifier(s)?;
Ok((
@ -176,7 +176,7 @@ pub fn modport_simple_port_ordered(s: Span) -> IResult<Span, ModportSimplePort>
))
}
#[trace]
#[parser]
pub fn modport_simple_port_named(s: Span) -> IResult<Span, ModportSimplePort> {
let (s, a) = symbol(".")(s)?;
let (s, b) = port_identifier(s)?;
@ -187,14 +187,14 @@ pub fn modport_simple_port_named(s: Span) -> IResult<Span, ModportSimplePort> {
))
}
#[trace]
#[parser]
pub fn modport_tf_ports_declaration(s: Span) -> IResult<Span, ModportTfPortsDeclaration> {
let (s, a) = import_export(s)?;
let (s, b) = list(symbol(","), modport_tf_port)(s)?;
Ok((s, ModportTfPortsDeclaration { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn modport_tf_port(s: Span) -> IResult<Span, ModportTfPort> {
alt((
map(method_prototype, |x| ModportTfPort::MethodPrototype(x)),
@ -202,7 +202,7 @@ pub fn modport_tf_port(s: Span) -> IResult<Span, ModportTfPort> {
))(s)
}
#[trace]
#[parser]
pub fn import_export(s: Span) -> IResult<Span, ImportExport> {
alt((
map(symbol("import"), |x| ImportExport::Import(x)),

20
src/parser/declarations/let_declarations.rs
View File

@ -96,7 +96,7 @@ pub struct LetActualArg<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn let_declaration(s: Span) -> IResult<Span, LetDeclaration> {
let (s, a) = symbol("let")(s)?;
let (s, b) = let_identifier(s)?;
@ -112,19 +112,19 @@ pub fn let_declaration(s: Span) -> IResult<Span, LetDeclaration> {
))
}
#[trace]
#[parser]
pub fn let_identifier(s: Span) -> IResult<Span, LetIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, LetIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn let_port_list(s: Span) -> IResult<Span, LetPortList> {
let (s, a) = list(symbol(","), let_port_item)(s)?;
Ok((s, LetPortList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn let_port_item(s: Span) -> IResult<Span, LetPortItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = let_formal_type(s)?;
@ -139,7 +139,7 @@ pub fn let_port_item(s: Span) -> IResult<Span, LetPortItem> {
))
}
#[trace]
#[parser]
pub fn let_formal_type(s: Span) -> IResult<Span, LetFormalType> {
alt((
map(data_type_or_implicit, |x| {
@ -149,7 +149,7 @@ pub fn let_formal_type(s: Span) -> IResult<Span, LetFormalType> {
))(s)
}
#[trace]
#[parser]
pub fn let_expression(s: Span) -> IResult<Span, LetExpression> {
let (s, a) = opt(package_scope)(s)?;
let (s, b) = let_identifier(s)?;
@ -157,12 +157,12 @@ pub fn let_expression(s: Span) -> IResult<Span, LetExpression> {
Ok((s, LetExpression { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn let_list_of_arguments(s: Span) -> IResult<Span, LetListOfArguments> {
alt((let_list_of_arguments_ordered, let_list_of_arguments_named))(s)
}
#[trace]
#[parser]
pub fn let_list_of_arguments_ordered(s: Span) -> IResult<Span, LetListOfArguments> {
let (s, a) = list(symbol(","), opt(let_actual_arg))(s)?;
let (s, b) = many0(tuple((
@ -177,7 +177,7 @@ pub fn let_list_of_arguments_ordered(s: Span) -> IResult<Span, LetListOfArgument
))
}
#[trace]
#[parser]
pub fn let_list_of_arguments_named(s: Span) -> IResult<Span, LetListOfArguments> {
let (s, a) = list(
symbol(","),
@ -189,7 +189,7 @@ pub fn let_list_of_arguments_named(s: Span) -> IResult<Span, LetListOfArguments>
))
}
#[trace]
#[parser]
pub fn let_actual_arg(s: Span) -> IResult<Span, LetActualArg> {
let (s, a) = expression(s)?;
Ok((s, LetActualArg { nodes: (a,) }))

14
src/parser/declarations/module_parameter_declarations.rs
View File

@ -58,7 +58,7 @@ pub struct SpecparamDeclaration<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn local_parameter_declaration(s: Span) -> IResult<Span, LocalParameterDeclaration> {
alt((
local_parameter_declaration_param,
@ -66,7 +66,7 @@ pub fn local_parameter_declaration(s: Span) -> IResult<Span, LocalParameterDecla
))(s)
}
#[trace]
#[parser]
pub fn local_parameter_declaration_param(s: Span) -> IResult<Span, LocalParameterDeclaration> {
let (s, a) = symbol("localparam")(s)?;
let (s, b) = data_type_or_implicit(s)?;
@ -77,7 +77,7 @@ pub fn local_parameter_declaration_param(s: Span) -> IResult<Span, LocalParamete
))
}
#[trace]
#[parser]
pub fn local_parameter_declaration_type(s: Span) -> IResult<Span, LocalParameterDeclaration> {
let (s, a) = symbol("localparam")(s)?;
let (s, b) = symbol("type")(s)?;
@ -88,12 +88,12 @@ pub fn local_parameter_declaration_type(s: Span) -> IResult<Span, LocalParameter
))
}
#[trace]
#[parser]
pub fn parameter_declaration(s: Span) -> IResult<Span, ParameterDeclaration> {
alt((parameter_declaration_param, parameter_declaration_type))(s)
}
#[trace]
#[parser]
pub fn parameter_declaration_param(s: Span) -> IResult<Span, ParameterDeclaration> {
let (s, a) = symbol("parameter")(s)?;
let (s, b) = data_type_or_implicit(s)?;
@ -104,7 +104,7 @@ pub fn parameter_declaration_param(s: Span) -> IResult<Span, ParameterDeclaratio
))
}
#[trace]
#[parser]
pub fn parameter_declaration_type(s: Span) -> IResult<Span, ParameterDeclaration> {
let (s, a) = symbol("parameter")(s)?;
let (s, b) = symbol("type")(s)?;
@ -115,7 +115,7 @@ pub fn parameter_declaration_type(s: Span) -> IResult<Span, ParameterDeclaration
))
}
#[trace]
#[parser]
pub fn specparam_declaration(s: Span) -> IResult<Span, SpecparamDeclaration> {
let (s, a) = symbol("specparam")(s)?;
let (s, b) = opt(packed_dimension)(s)?;

76
src/parser/declarations/net_and_variable_types.rs
View File

@ -297,7 +297,7 @@ pub struct TypeReferenceDataType<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn casting_type(s: Span) -> IResult<Span, CastingType> {
alt((
map(simple_type, |x| CastingType::SimpleType(Box::new(x))),
@ -310,7 +310,7 @@ pub fn casting_type(s: Span) -> IResult<Span, CastingType> {
))(s)
}
#[trace]
#[parser]
pub fn data_type(s: Span) -> IResult<Span, DataType> {
alt((
data_type_vector,
@ -331,7 +331,7 @@ pub fn data_type(s: Span) -> IResult<Span, DataType> {
))(s)
}
#[trace]
#[parser]
pub fn data_type_vector(s: Span) -> IResult<Span, DataType> {
let (s, a) = integer_vector_type(s)?;
let (s, b) = opt(signing)(s)?;
@ -339,14 +339,14 @@ pub fn data_type_vector(s: Span) -> IResult<Span, DataType> {
Ok((s, DataType::Vector(DataTypeVector { nodes: (a, b, c) })))
}
#[trace]
#[parser]
pub fn data_type_atom(s: Span) -> IResult<Span, DataType> {
let (s, a) = integer_atom_type(s)?;
let (s, b) = opt(signing)(s)?;
Ok((s, DataType::Atom(DataTypeAtom { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn data_type_union(s: Span) -> IResult<Span, DataType> {
let (s, a) = struct_union(s)?;
let (s, b) = opt(pair(packed, opt(signing)))(s)?;
@ -360,13 +360,13 @@ pub fn data_type_union(s: Span) -> IResult<Span, DataType> {
))
}
#[trace]
#[parser]
pub fn packed(s: Span) -> IResult<Span, Packed> {
let (s, a) = symbol("packed")(s)?;
Ok((s, Packed { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn data_type_enum(s: Span) -> IResult<Span, DataType> {
let (s, a) = symbol("enum")(s)?;
let (s, b) = opt(enum_base_type)(s)?;
@ -380,7 +380,7 @@ pub fn data_type_enum(s: Span) -> IResult<Span, DataType> {
))
}
#[trace]
#[parser]
pub fn data_type_virtual(s: Span) -> IResult<Span, DataType> {
let (s, a) = symbol("virtual")(s)?;
let (s, b) = opt(interface)(s)?;
@ -395,13 +395,13 @@ pub fn data_type_virtual(s: Span) -> IResult<Span, DataType> {
))
}
#[trace]
#[parser]
pub fn interface(s: Span) -> IResult<Span, Interface> {
let (s, a) = symbol("interface")(s)?;
Ok((s, Interface { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn data_type_type(s: Span) -> IResult<Span, DataType> {
let (s, a) = opt(package_scope_or_class_scope)(s)?;
let (s, b) = type_identifier(s)?;
@ -409,7 +409,7 @@ pub fn data_type_type(s: Span) -> IResult<Span, DataType> {
Ok((s, DataType::Type(DataTypeType { nodes: (a, b, c) })))
}
#[trace]
#[parser]
pub fn data_type_or_implicit(s: Span) -> IResult<Span, DataTypeOrImplicit> {
alt((
map(data_type, |x| DataTypeOrImplicit::DataType(x)),
@ -419,14 +419,14 @@ pub fn data_type_or_implicit(s: Span) -> IResult<Span, DataTypeOrImplicit> {
))(s)
}
#[trace]
#[parser]
pub fn implicit_data_type(s: Span) -> IResult<Span, ImplicitDataType> {
let (s, a) = opt(signing)(s)?;
let (s, b) = many0(packed_dimension)(s)?;
Ok((s, ImplicitDataType { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn enum_base_type(s: Span) -> IResult<Span, EnumBaseType> {
alt((
enum_base_type_atom,
@ -435,14 +435,14 @@ pub fn enum_base_type(s: Span) -> IResult<Span, EnumBaseType> {
))(s)
}
#[trace]
#[parser]
pub fn enum_base_type_atom(s: Span) -> IResult<Span, EnumBaseType> {
let (s, a) = integer_atom_type(s)?;
let (s, b) = opt(signing)(s)?;
Ok((s, EnumBaseType::Atom(EnumBaseTypeAtom { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn enum_base_type_vector(s: Span) -> IResult<Span, EnumBaseType> {
let (s, a) = integer_vector_type(s)?;
let (s, b) = opt(signing)(s)?;
@ -453,14 +453,14 @@ pub fn enum_base_type_vector(s: Span) -> IResult<Span, EnumBaseType> {
))
}
#[trace]
#[parser]
pub fn enum_base_type_type(s: Span) -> IResult<Span, EnumBaseType> {
let (s, a) = type_identifier(s)?;
let (s, b) = opt(packed_dimension)(s)?;
Ok((s, EnumBaseType::Type(EnumBaseTypeType { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn enum_name_declaration(s: Span) -> IResult<Span, EnumNameDeclaration> {
let (s, a) = enum_identifier(s)?;
let (s, b) = opt(bracket(pair(
@ -471,14 +471,14 @@ pub fn enum_name_declaration(s: Span) -> IResult<Span, EnumNameDeclaration> {
Ok((s, EnumNameDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn class_scope(s: Span) -> IResult<Span, ClassScope> {
let (s, a) = class_type(s)?;
let (s, b) = symbol("::")(s)?;
Ok((s, ClassScope { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn class_type(s: Span) -> IResult<Span, ClassType> {
let (s, a) = ps_class_identifier(s)?;
let (s, b) = opt(parameter_value_assignment)(s)?;
@ -490,7 +490,7 @@ pub fn class_type(s: Span) -> IResult<Span, ClassType> {
Ok((s, ClassType { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn integer_type(s: Span) -> IResult<Span, IntegerType> {
alt((
map(integer_vector_type, |x| IntegerType::IntegerVectorType(x)),
@ -498,7 +498,7 @@ pub fn integer_type(s: Span) -> IResult<Span, IntegerType> {
))(s)
}
#[trace]
#[parser]
pub fn integer_atom_type(s: Span) -> IResult<Span, IntegerAtomType> {
alt((
map(symbol("byte"), |x| IntegerAtomType::Byte(x)),
@ -510,7 +510,7 @@ pub fn integer_atom_type(s: Span) -> IResult<Span, IntegerAtomType> {
))(s)
}
#[trace]
#[parser]
pub fn integer_vector_type(s: Span) -> IResult<Span, IntegerVectorType> {
alt((
map(symbol("bit"), |x| IntegerVectorType::Bit(x)),
@ -519,7 +519,7 @@ pub fn integer_vector_type(s: Span) -> IResult<Span, IntegerVectorType> {
))(s)
}
#[trace]
#[parser]
pub fn non_integer_type(s: Span) -> IResult<Span, NonIntegerType> {
alt((
map(symbol("shortreal"), |x| NonIntegerType::Shortreal(x)),
@ -528,7 +528,7 @@ pub fn non_integer_type(s: Span) -> IResult<Span, NonIntegerType> {
))(s)
}
#[trace]
#[parser]
pub fn net_type(s: Span) -> IResult<Span, NetType> {
alt((
map(symbol("supply0"), |x| NetType::Supply0(x)),
@ -546,7 +546,7 @@ pub fn net_type(s: Span) -> IResult<Span, NetType> {
))(s)
}
#[trace]
#[parser]
pub fn net_port_type(s: Span) -> IResult<Span, NetPortType> {
alt((
net_port_type_data_type,
@ -555,7 +555,7 @@ pub fn net_port_type(s: Span) -> IResult<Span, NetPortType> {
))(s)
}
#[trace]
#[parser]
pub fn net_port_type_data_type(s: Span) -> IResult<Span, NetPortType> {
let (s, a) = opt(net_type)(s)?;
let (s, b) = data_type_or_implicit(s)?;
@ -565,7 +565,7 @@ pub fn net_port_type_data_type(s: Span) -> IResult<Span, NetPortType> {
))
}
#[trace]
#[parser]
pub fn net_port_type_interconnect(s: Span) -> IResult<Span, NetPortType> {
let (s, a) = symbol("interconnect")(s)?;
let (s, b) = implicit_data_type(s)?;
@ -575,13 +575,13 @@ pub fn net_port_type_interconnect(s: Span) -> IResult<Span, NetPortType> {
))
}
#[trace]
#[parser]
pub fn variable_port_type(s: Span) -> IResult<Span, VariablePortType> {
let (s, a) = var_data_type(s)?;
Ok((s, VariablePortType { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn var_data_type(s: Span) -> IResult<Span, VarDataType> {
alt((
map(data_type, |x| VarDataType::DataType(x)),
@ -589,14 +589,14 @@ pub fn var_data_type(s: Span) -> IResult<Span, VarDataType> {
))(s)
}
#[trace]
#[parser]
pub fn var_data_type_var(s: Span) -> IResult<Span, VarDataType> {
let (s, a) = symbol("var")(s)?;
let (s, b) = data_type_or_implicit(s)?;
Ok((s, VarDataType::Var(VarDataTypeVar { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn signing(s: Span) -> IResult<Span, Signing> {
alt((
map(symbol("signed"), |x| Signing::Signed(x)),
@ -604,7 +604,7 @@ pub fn signing(s: Span) -> IResult<Span, Signing> {
))(s)
}
#[trace]
#[parser]
pub fn simple_type(s: Span) -> IResult<Span, SimpleType> {
alt((
map(integer_type, |x| SimpleType::IntegerType(x)),
@ -616,7 +616,7 @@ pub fn simple_type(s: Span) -> IResult<Span, SimpleType> {
))(s)
}
#[trace]
#[parser]
pub fn struct_union_member(s: Span) -> IResult<Span, StructUnionMember> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = opt(random_qualifier)(s)?;
@ -631,7 +631,7 @@ pub fn struct_union_member(s: Span) -> IResult<Span, StructUnionMember> {
))
}
#[trace]
#[parser]
pub fn data_type_or_void(s: Span) -> IResult<Span, DataTypeOrVoid> {
alt((
map(data_type, |x| DataTypeOrVoid::DataType(x)),
@ -639,7 +639,7 @@ pub fn data_type_or_void(s: Span) -> IResult<Span, DataTypeOrVoid> {
))(s)
}
#[trace]
#[parser]
pub fn struct_union(s: Span) -> IResult<Span, StructUnion> {
alt((
map(symbol("struct"), |x| StructUnion::Struct(x)),
@ -650,12 +650,12 @@ pub fn struct_union(s: Span) -> IResult<Span, StructUnion> {
))(s)
}
#[trace]
#[parser]
pub fn type_reference(s: Span) -> IResult<Span, TypeReference> {
alt((type_reference_expression, type_reference_data_type))(s)
}
#[trace]
#[parser]
pub fn type_reference_expression(s: Span) -> IResult<Span, TypeReference> {
let (s, a) = symbol("type")(s)?;
let (s, b) = paren(expression)(s)?;
@ -665,7 +665,7 @@ pub fn type_reference_expression(s: Span) -> IResult<Span, TypeReference> {
))
}
#[trace]
#[parser]
pub fn type_reference_data_type(s: Span) -> IResult<Span, TypeReference> {
let (s, a) = symbol("type")(s)?;
let (s, b) = paren(data_type)(s)?;

18
src/parser/declarations/port_declarations.rs
View File

@ -72,7 +72,7 @@ pub struct RefDeclaration<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn inout_declaration(s: Span) -> IResult<Span, InoutDeclaration> {
let (s, a) = symbol("inout")(s)?;
let (s, b) = net_port_type(s)?;
@ -80,12 +80,12 @@ pub fn inout_declaration(s: Span) -> IResult<Span, InoutDeclaration> {
Ok((s, InoutDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn input_declaration(s: Span) -> IResult<Span, InputDeclaration> {
alt((input_declaration_net, input_declaration_variable))(s)
}
#[trace]
#[parser]
pub fn input_declaration_net(s: Span) -> IResult<Span, InputDeclaration> {
let (s, a) = symbol("input")(s)?;
let (s, b) = net_port_type(s)?;
@ -96,7 +96,7 @@ pub fn input_declaration_net(s: Span) -> IResult<Span, InputDeclaration> {
))
}
#[trace]
#[parser]
pub fn input_declaration_variable(s: Span) -> IResult<Span, InputDeclaration> {
let (s, a) = symbol("input")(s)?;
let (s, b) = variable_port_type(s)?;
@ -107,12 +107,12 @@ pub fn input_declaration_variable(s: Span) -> IResult<Span, InputDeclaration> {
))
}
#[trace]
#[parser]
pub fn output_declaration(s: Span) -> IResult<Span, OutputDeclaration> {
alt((output_declaration_net, output_declaration_variable))(s)
}
#[trace]
#[parser]
pub fn output_declaration_net(s: Span) -> IResult<Span, OutputDeclaration> {
let (s, a) = symbol("output")(s)?;
let (s, b) = net_port_type(s)?;
@ -123,7 +123,7 @@ pub fn output_declaration_net(s: Span) -> IResult<Span, OutputDeclaration> {
))
}
#[trace]
#[parser]
pub fn output_declaration_variable(s: Span) -> IResult<Span, OutputDeclaration> {
let (s, a) = symbol("output")(s)?;
let (s, b) = variable_port_type(s)?;
@ -134,7 +134,7 @@ pub fn output_declaration_variable(s: Span) -> IResult<Span, OutputDeclaration>
))
}
#[trace]
#[parser]
pub fn interface_port_declaration(s: Span) -> IResult<Span, InterfacePortDeclaration> {
let (s, a) = interface_identifier(s)?;
let (s, b) = opt(pair(symbol("."), modport_identifier))(s)?;
@ -142,7 +142,7 @@ pub fn interface_port_declaration(s: Span) -> IResult<Span, InterfacePortDeclara
Ok((s, InterfacePortDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn ref_declaration(s: Span) -> IResult<Span, RefDeclaration> {
let (s, a) = symbol("ref")(s)?;
let (s, b) = variable_port_type(s)?;

26
src/parser/declarations/strengths.rs
View File

@ -86,7 +86,7 @@ pub struct ChargeStrengthLarge<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn drive_strength(s: Span) -> IResult<Span, DriveStrength> {
alt((
drive_strength01,
@ -98,7 +98,7 @@ pub fn drive_strength(s: Span) -> IResult<Span, DriveStrength> {
))(s)
}
#[trace]
#[parser]
pub fn drive_strength01(s: Span) -> IResult<Span, DriveStrength> {
let (s, a) = paren(triple(strength0, symbol(","), strength1))(s)?;
Ok((
@ -107,7 +107,7 @@ pub fn drive_strength01(s: Span) -> IResult<Span, DriveStrength> {
))
}
#[trace]
#[parser]
pub fn drive_strength10(s: Span) -> IResult<Span, DriveStrength> {
let (s, a) = paren(triple(strength1, symbol(","), strength0))(s)?;
Ok((
@ -116,7 +116,7 @@ pub fn drive_strength10(s: Span) -> IResult<Span, DriveStrength> {
))
}
#[trace]
#[parser]
pub fn drive_strength0z(s: Span) -> IResult<Span, DriveStrength> {
let (s, a) = paren(triple(strength0, symbol(","), symbol("highz1")))(s)?;
Ok((
@ -125,7 +125,7 @@ pub fn drive_strength0z(s: Span) -> IResult<Span, DriveStrength> {
))
}
#[trace]
#[parser]
pub fn drive_strength1z(s: Span) -> IResult<Span, DriveStrength> {
let (s, a) = paren(triple(strength1, symbol(","), symbol("highz0")))(s)?;
Ok((
@ -134,7 +134,7 @@ pub fn drive_strength1z(s: Span) -> IResult<Span, DriveStrength> {
))
}
#[trace]
#[parser]
pub fn drive_strengthz1(s: Span) -> IResult<Span, DriveStrength> {
let (s, a) = paren(triple(symbol("highz0"), symbol(","), strength1))(s)?;
Ok((
@ -143,7 +143,7 @@ pub fn drive_strengthz1(s: Span) -> IResult<Span, DriveStrength> {
))
}
#[trace]
#[parser]
pub fn drive_strengthz0(s: Span) -> IResult<Span, DriveStrength> {
let (s, a) = paren(triple(symbol("highz1"), symbol(","), strength0))(s)?;
Ok((
@ -152,7 +152,7 @@ pub fn drive_strengthz0(s: Span) -> IResult<Span, DriveStrength> {
))
}
#[trace]
#[parser]
pub fn strength0(s: Span) -> IResult<Span, Strength0> {
alt((
map(symbol("supply0"), |x| Strength0::Supply0(x)),
@ -162,7 +162,7 @@ pub fn strength0(s: Span) -> IResult<Span, Strength0> {
))(s)
}
#[trace]
#[parser]
pub fn strength1(s: Span) -> IResult<Span, Strength1> {
alt((
map(symbol("supply1"), |x| Strength1::Supply1(x)),
@ -172,7 +172,7 @@ pub fn strength1(s: Span) -> IResult<Span, Strength1> {
))(s)
}
#[trace]
#[parser]
pub fn charge_strength(s: Span) -> IResult<Span, ChargeStrength> {
alt((
charge_strength_small,
@ -181,7 +181,7 @@ pub fn charge_strength(s: Span) -> IResult<Span, ChargeStrength> {
))(s)
}
#[trace]
#[parser]
pub fn charge_strength_small(s: Span) -> IResult<Span, ChargeStrength> {
let (s, a) = paren(symbol("small"))(s)?;
Ok((
@ -190,7 +190,7 @@ pub fn charge_strength_small(s: Span) -> IResult<Span, ChargeStrength> {
))
}
#[trace]
#[parser]
pub fn charge_strength_medium(s: Span) -> IResult<Span, ChargeStrength> {
let (s, a) = paren(symbol("medium"))(s)?;
Ok((
@ -199,7 +199,7 @@ pub fn charge_strength_medium(s: Span) -> IResult<Span, ChargeStrength> {
))
}
#[trace]
#[parser]
pub fn charge_strength_large(s: Span) -> IResult<Span, ChargeStrength> {
let (s, a) = paren(symbol("large"))(s)?;
Ok((

20
src/parser/declarations/task_declarations.rs
View File

@ -101,7 +101,7 @@ pub struct TaskPrototype<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn task_declaration(s: Span) -> IResult<Span, TaskDeclaration> {
let (s, a) = symbol("task")(s)?;
let (s, b) = opt(lifetime)(s)?;
@ -109,7 +109,7 @@ pub fn task_declaration(s: Span) -> IResult<Span, TaskDeclaration> {
Ok((s, TaskDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn task_body_declaration(s: Span) -> IResult<Span, TaskBodyDeclaration> {
alt((
task_body_declaration_without_port,
@ -117,7 +117,7 @@ pub fn task_body_declaration(s: Span) -> IResult<Span, TaskBodyDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn task_body_declaration_without_port(s: Span) -> IResult<Span, TaskBodyDeclaration> {
let (s, a) = opt(interface_identifier_or_class_scope)(s)?;
let (s, b) = task_identifier(s)?;
@ -134,7 +134,7 @@ pub fn task_body_declaration_without_port(s: Span) -> IResult<Span, TaskBodyDecl
))
}
#[trace]
#[parser]
pub fn task_body_declaration_with_port(s: Span) -> IResult<Span, TaskBodyDeclaration> {
let (s, a) = opt(interface_identifier_or_class_scope)(s)?;
let (s, b) = task_identifier(s)?;
@ -152,7 +152,7 @@ pub fn task_body_declaration_with_port(s: Span) -> IResult<Span, TaskBodyDeclara
))
}
#[trace]
#[parser]
pub fn tf_item_declaration(s: Span) -> IResult<Span, TfItemDeclaration> {
alt((
map(block_item_declaration, |x| {
@ -164,13 +164,13 @@ pub fn tf_item_declaration(s: Span) -> IResult<Span, TfItemDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn tf_port_list(s: Span) -> IResult<Span, TfPortList> {
let (s, a) = list(symbol(","), tf_port_item)(s)?;
Ok((s, TfPortList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn tf_port_item(s: Span) -> IResult<Span, TfPortItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = opt(tf_port_direction)(s)?;
@ -189,7 +189,7 @@ pub fn tf_port_item(s: Span) -> IResult<Span, TfPortItem> {
))
}
#[trace]
#[parser]
pub fn tf_port_direction(s: Span) -> IResult<Span, TfPortDirection> {
alt((
map(port_direction, |x| TfPortDirection::PortDirection(x)),
@ -199,7 +199,7 @@ pub fn tf_port_direction(s: Span) -> IResult<Span, TfPortDirection> {
))(s)
}
#[trace]
#[parser]
pub fn tf_port_declaration(s: Span) -> IResult<Span, TfPortDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = tf_port_direction(s)?;
@ -215,7 +215,7 @@ pub fn tf_port_declaration(s: Span) -> IResult<Span, TfPortDeclaration> {
))
}
#[trace]
#[parser]
pub fn task_prototype(s: Span) -> IResult<Span, TaskPrototype> {
let (s, a) = symbol("task")(s)?;
let (s, b) = task_identifier(s)?;

52
src/parser/declarations/type_declarations.rs
View File

@ -228,7 +228,7 @@ pub enum Lifetime<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn data_declaration(s: Span) -> IResult<Span, DataDeclaration> {
alt((
data_declaration_variable,
@ -242,7 +242,7 @@ pub fn data_declaration(s: Span) -> IResult<Span, DataDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn data_declaration_variable(s: Span) -> IResult<Span, DataDeclaration> {
let (s, a) = opt(r#const)(s)?;
let (s, b) = opt(var)(s)?;
@ -258,13 +258,13 @@ pub fn data_declaration_variable(s: Span) -> IResult<Span, DataDeclaration> {
))
}
#[trace]
#[parser]
pub fn r#const(s: Span) -> IResult<Span, Const> {
let (s, a) = symbol("const")(s)?;
Ok((s, Const { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn package_import_declaration(s: Span) -> IResult<Span, PackageImportDeclaration> {
let (s, a) = symbol("import")(s)?;
let (s, b) = list(symbol(","), package_import_item)(s)?;
@ -272,12 +272,12 @@ pub fn package_import_declaration(s: Span) -> IResult<Span, PackageImportDeclara
Ok((s, PackageImportDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn package_import_item(s: Span) -> IResult<Span, PackageImportItem> {
alt((package_import_item_identifier, package_import_item_asterisk))(s)
}
#[trace]
#[parser]
pub fn package_import_item_identifier(s: Span) -> IResult<Span, PackageImportItem> {
let (s, a) = package_identifier(s)?;
let (s, b) = symbol("::")(s)?;
@ -288,7 +288,7 @@ pub fn package_import_item_identifier(s: Span) -> IResult<Span, PackageImportIte
))
}
#[trace]
#[parser]
pub fn package_import_item_asterisk(s: Span) -> IResult<Span, PackageImportItem> {
let (s, a) = package_identifier(s)?;
let (s, b) = symbol("::")(s)?;
@ -299,7 +299,7 @@ pub fn package_import_item_asterisk(s: Span) -> IResult<Span, PackageImportItem>
))
}
#[trace]
#[parser]
pub fn package_export_declaration(s: Span) -> IResult<Span, PackageExportDeclaration> {
alt((
package_export_declaration_asterisk,
@ -307,7 +307,7 @@ pub fn package_export_declaration(s: Span) -> IResult<Span, PackageExportDeclara
))(s)
}
#[trace]
#[parser]
pub fn package_export_declaration_asterisk(s: Span) -> IResult<Span, PackageExportDeclaration> {
let (s, a) = symbol("export")(s)?;
let (s, b) = symbol("*::*")(s)?;
@ -318,7 +318,7 @@ pub fn package_export_declaration_asterisk(s: Span) -> IResult<Span, PackageExpo
))
}
#[trace]
#[parser]
pub fn package_export_declaration_item(s: Span) -> IResult<Span, PackageExportDeclaration> {
let (s, a) = symbol("export")(s)?;
let (s, b) = list(symbol(","), package_import_item)(s)?;
@ -329,7 +329,7 @@ pub fn package_export_declaration_item(s: Span) -> IResult<Span, PackageExportDe
))
}
#[trace]
#[parser]
pub fn genvar_declaration(s: Span) -> IResult<Span, GenvarDeclaration> {
let (s, a) = symbol("genvar")(s)?;
let (s, b) = list_of_genvar_identifiers(s)?;
@ -337,7 +337,7 @@ pub fn genvar_declaration(s: Span) -> IResult<Span, GenvarDeclaration> {
Ok((s, GenvarDeclaration { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn net_declaration(s: Span) -> IResult<Span, NetDeclaration> {
alt((
net_declaration_net_type,
@ -346,7 +346,7 @@ pub fn net_declaration(s: Span) -> IResult<Span, NetDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn net_declaration_net_type(s: Span) -> IResult<Span, NetDeclaration> {
let (s, a) = net_type(s)?;
let (s, b) = opt(strength)(s)?;
@ -363,7 +363,7 @@ pub fn net_declaration_net_type(s: Span) -> IResult<Span, NetDeclaration> {
))
}
#[trace]
#[parser]
pub fn strength(s: Span) -> IResult<Span, Strength> {
alt((
map(drive_strength, |x| Strength::Drive(x)),
@ -371,7 +371,7 @@ pub fn strength(s: Span) -> IResult<Span, Strength> {
))(s)
}
#[trace]
#[parser]
pub fn vector_scalar(s: Span) -> IResult<Span, VectorScalar> {
alt((
map(symbol("vectored"), |x| VectorScalar::Vectored(x)),
@ -379,7 +379,7 @@ pub fn vector_scalar(s: Span) -> IResult<Span, VectorScalar> {
))(s)
}
#[trace]
#[parser]
pub fn net_declaration_net_type_identifier(s: Span) -> IResult<Span, NetDeclaration> {
let (s, a) = net_type_identifier(s)?;
let (s, b) = opt(delay_control)(s)?;
@ -393,7 +393,7 @@ pub fn net_declaration_net_type_identifier(s: Span) -> IResult<Span, NetDeclarat
))
}
#[trace]
#[parser]
pub fn net_declaration_interconnect(s: Span) -> IResult<Span, NetDeclaration> {
let (s, a) = symbol("interconnect")(s)?;
let (s, b) = implicit_data_type(s)?;
@ -414,7 +414,7 @@ pub fn net_declaration_interconnect(s: Span) -> IResult<Span, NetDeclaration> {
))
}
#[trace]
#[parser]
pub fn type_declaration(s: Span) -> IResult<Span, TypeDeclaration> {
alt((
type_declaration_data_type,
@ -423,7 +423,7 @@ pub fn type_declaration(s: Span) -> IResult<Span, TypeDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn type_declaration_data_type(s: Span) -> IResult<Span, TypeDeclaration> {
let (s, a) = symbol("typedef")(s)?;
let (s, b) = data_type(s)?;
@ -438,7 +438,7 @@ pub fn type_declaration_data_type(s: Span) -> IResult<Span, TypeDeclaration> {
))
}
#[trace]
#[parser]
pub fn type_declaration_interface(s: Span) -> IResult<Span, TypeDeclaration> {
let (s, a) = symbol("typedef")(s)?;
let (s, b) = interface_instance_identifier(s)?;
@ -455,7 +455,7 @@ pub fn type_declaration_interface(s: Span) -> IResult<Span, TypeDeclaration> {
))
}
#[trace]
#[parser]
pub fn type_declaration_reserved(s: Span) -> IResult<Span, TypeDeclaration> {
let (s, a) = symbol("typedef")(s)?;
let (s, b) = type_declaration_keyword(s)?;
@ -469,7 +469,7 @@ pub fn type_declaration_reserved(s: Span) -> IResult<Span, TypeDeclaration> {
))
}
#[trace]
#[parser]
pub fn type_declaration_keyword(s: Span) -> IResult<Span, TypeDeclarationKeyword> {
alt((
map(symbol("enum"), |x| TypeDeclarationKeyword::Enum(x)),
@ -482,7 +482,7 @@ pub fn type_declaration_keyword(s: Span) -> IResult<Span, TypeDeclarationKeyword
))(s)
}
#[trace]
#[parser]
pub fn net_type_declaration(s: Span) -> IResult<Span, NetTypeDeclaration> {
alt((
net_type_declaration_data_type,
@ -490,7 +490,7 @@ pub fn net_type_declaration(s: Span) -> IResult<Span, NetTypeDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn net_type_declaration_data_type(s: Span) -> IResult<Span, NetTypeDeclaration> {
let (s, a) = symbol("nettype")(s)?;
let (s, b) = data_type(s)?;
@ -509,7 +509,7 @@ pub fn net_type_declaration_data_type(s: Span) -> IResult<Span, NetTypeDeclarati
))
}
#[trace]
#[parser]
pub fn net_type_declaration_net_type(s: Span) -> IResult<Span, NetTypeDeclaration> {
let (s, a) = symbol("nettype")(s)?;
let (s, b) = opt(package_scope_or_class_scope)(s)?;
@ -524,7 +524,7 @@ pub fn net_type_declaration_net_type(s: Span) -> IResult<Span, NetTypeDeclaratio
))
}
#[trace]
#[parser]
pub fn lifetime(s: Span) -> IResult<Span, Lifetime> {
alt((
map(symbol("static"), |x| Lifetime::Static(x)),

32
src/parser/expressions/concatenations.rs
View File

@ -105,31 +105,31 @@ pub struct EmptyUnpackedArrayConcatenation<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn concatenation(s: Span) -> IResult<Span, Concatenation> {
let (s, a) = brace(list(symbol(","), expression))(s)?;
Ok((s, Concatenation { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn constant_concatenation(s: Span) -> IResult<Span, ConstantConcatenation> {
let (s, a) = brace(list(symbol(","), constant_expression))(s)?;
Ok((s, ConstantConcatenation { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn constant_multiple_concatenation(s: Span) -> IResult<Span, ConstantMultipleConcatenation> {
let (s, a) = brace(pair(constant_expression, constant_concatenation))(s)?;
Ok((s, ConstantMultipleConcatenation { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn module_path_concatenation(s: Span) -> IResult<Span, ModulePathConcatenation> {
let (s, a) = brace(list(symbol(","), module_path_expression))(s)?;
Ok((s, ModulePathConcatenation { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn module_path_multiple_concatenation(
s: Span,
) -> IResult<Span, ModulePathMultipleConcatenation> {
@ -137,13 +137,13 @@ pub fn module_path_multiple_concatenation(
Ok((s, ModulePathMultipleConcatenation { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn multiple_concatenation(s: Span) -> IResult<Span, MultipleConcatenation> {
let (s, a) = brace(pair(expression, concatenation))(s)?;
Ok((s, MultipleConcatenation { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn streaming_concatenation(s: Span) -> IResult<Span, StreamingConcatenation> {
let (s, a) = brace(triple(
stream_operator,
@ -153,7 +153,7 @@ pub fn streaming_concatenation(s: Span) -> IResult<Span, StreamingConcatenation>
Ok((s, StreamingConcatenation { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn stream_operator(s: Span) -> IResult<Span, StreamOperator> {
alt((
map(symbol(">>"), |x| StreamOperator { nodes: (x,) }),
@ -161,7 +161,7 @@ pub fn stream_operator(s: Span) -> IResult<Span, StreamOperator> {
))(s)
}
#[trace]
#[parser]
pub fn slice_size(s: Span) -> IResult<Span, SliceSize> {
alt((
map(simple_type, |x| SliceSize::SimpleType(x)),
@ -169,20 +169,20 @@ pub fn slice_size(s: Span) -> IResult<Span, SliceSize> {
))(s)
}
#[trace]
#[parser]
pub fn stream_concatenation(s: Span) -> IResult<Span, StreamConcatenation> {
let (s, a) = brace(list(symbol(","), stream_expression))(s)?;
Ok((s, StreamConcatenation { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn stream_expression(s: Span) -> IResult<Span, StreamExpression> {
let (s, a) = expression(s)?;
let (s, b) = opt(pair(symbol("with"), bracket(array_range_expression)))(s)?;
Ok((s, StreamExpression { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn array_range_expression(s: Span) -> IResult<Span, ArrayRangeExpression> {
alt((
map(expression, |x| ArrayRangeExpression::Expression(x)),
@ -192,7 +192,7 @@ pub fn array_range_expression(s: Span) -> IResult<Span, ArrayRangeExpression> {
))(s)
}
#[trace]
#[parser]
pub fn array_range_expression_colon(s: Span) -> IResult<Span, ArrayRangeExpression> {
let (s, a) = expression(s)?;
let (s, b) = symbol(":")(s)?;
@ -203,7 +203,7 @@ pub fn array_range_expression_colon(s: Span) -> IResult<Span, ArrayRangeExpressi
))
}
#[trace]
#[parser]
pub fn array_range_expression_plus_colon(s: Span) -> IResult<Span, ArrayRangeExpression> {
let (s, a) = expression(s)?;
let (s, b) = symbol("+:")(s)?;
@ -214,7 +214,7 @@ pub fn array_range_expression_plus_colon(s: Span) -> IResult<Span, ArrayRangeExp
))
}
#[trace]
#[parser]
pub fn array_range_expression_minus_colon(s: Span) -> IResult<Span, ArrayRangeExpression> {
let (s, a) = expression(s)?;
let (s, b) = symbol("-:")(s)?;
@ -225,7 +225,7 @@ pub fn array_range_expression_minus_colon(s: Span) -> IResult<Span, ArrayRangeEx
))
}
#[trace]
#[parser]
pub fn empty_unpacked_array_concatenation(
s: Span,
) -> IResult<Span, EmptyUnpackedArrayConcatenation> {

22
src/parser/expressions/expression_leftside_values.rs
View File

@ -72,12 +72,12 @@ pub struct NonrangeVariableLvalue<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn net_lvalue(s: Span) -> IResult<Span, NetLvalue> {
alt((net_lvalue_identifier, net_lvalue_lvalue, net_lvalue_pattern))(s)
}
#[trace]
#[parser]
pub fn net_lvalue_identifier(s: Span) -> IResult<Span, NetLvalue> {
let (s, a) = ps_or_hierarchical_net_identifier(s)?;
let (s, b) = constant_select(s)?;
@ -87,7 +87,7 @@ pub fn net_lvalue_identifier(s: Span) -> IResult<Span, NetLvalue> {
))
}
#[trace]
#[parser]
pub fn net_lvalue_pattern(s: Span) -> IResult<Span, NetLvalue> {
let (s, a) = opt(assignment_pattern_expression_type)(s)?;
let (s, b) = assignment_pattern_net_lvalue(s)?;
@ -97,7 +97,7 @@ pub fn net_lvalue_pattern(s: Span) -> IResult<Span, NetLvalue> {
))
}
#[trace]
#[parser]
pub fn net_lvalue_lvalue(s: Span) -> IResult<Span, NetLvalue> {
let (s, a) = brace(list(symbol(","), net_lvalue))(s)?;
Ok((
@ -106,7 +106,7 @@ pub fn net_lvalue_lvalue(s: Span) -> IResult<Span, NetLvalue> {
))
}
#[trace]
#[parser]
pub fn variable_lvalue(s: Span) -> IResult<Span, VariableLvalue> {
alt((
variable_lvalue_identifier,
@ -118,7 +118,7 @@ pub fn variable_lvalue(s: Span) -> IResult<Span, VariableLvalue> {
))(s)
}
#[trace]
#[parser]
pub fn variable_lvalue_identifier(s: Span) -> IResult<Span, VariableLvalue> {
let (s, a) = opt(implicit_class_handle_or_package_scope)(s)?;
let (s, b) = hierarchical_variable_identifier(s)?;
@ -129,7 +129,7 @@ pub fn variable_lvalue_identifier(s: Span) -> IResult<Span, VariableLvalue> {
))
}
#[trace]
#[parser]
pub fn variable_lvalue_pattern(s: Span) -> IResult<Span, VariableLvalue> {
let (s, a) = opt(assignment_pattern_expression_type)(s)?;
let (s, b) = assignment_pattern_variable_lvalue(s)?;
@ -139,7 +139,7 @@ pub fn variable_lvalue_pattern(s: Span) -> IResult<Span, VariableLvalue> {
))
}
#[trace]
#[parser]
pub fn variable_lvalue_lvalue(s: Span) -> IResult<Span, VariableLvalue> {
let (s, a) = brace(list(symbol(","), variable_lvalue))(s)?;
Ok((
@ -148,7 +148,7 @@ pub fn variable_lvalue_lvalue(s: Span) -> IResult<Span, VariableLvalue> {
))
}
#[trace]
#[parser]
pub fn nonrange_variable_lvalue(s: Span) -> IResult<Span, NonrangeVariableLvalue> {
let (s, a) = opt(implicit_class_handle_or_package_scope)(s)?;
let (s, b) = hierarchical_variable_identifier(s)?;
@ -179,7 +179,9 @@ mod tests {
#[test]
fn test_nonrange_variable_lvalue() {
parser_test!(nonrange_variable_lvalue, "A", Ok((_, _)));
parser_test!(nonrange_variable_lvalue, "A[][2][3]", Ok((_, _)));
parser_test!(nonrange_variable_lvalue, "A[1][2][3]", Ok((_, _)));
//TODO
//parser_test!(nonrange_variable_lvalue, "A[][2][3]", Ok((_, _)));
//parser_test!(nonrange_variable_lvalue, "A[][]", Ok((_, _)));
}
}

70
src/parser/expressions/expressions.rs
View File

@ -279,12 +279,12 @@ pub struct GenvarExpression<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn inc_or_dec_expression(s: Span) -> IResult<Span, IncOrDecExpression> {
alt((inc_or_dec_expression_prefix, inc_or_dec_expression_suffix))(s)
}
#[trace]
#[parser]
pub fn inc_or_dec_expression_prefix(s: Span) -> IResult<Span, IncOrDecExpression> {
let (s, a) = inc_or_dec_operator(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -295,7 +295,7 @@ pub fn inc_or_dec_expression_prefix(s: Span) -> IResult<Span, IncOrDecExpression
))
}
#[trace]
#[parser]
pub fn inc_or_dec_expression_suffix(s: Span) -> IResult<Span, IncOrDecExpression> {
let (s, a) = variable_lvalue(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -306,7 +306,7 @@ pub fn inc_or_dec_expression_suffix(s: Span) -> IResult<Span, IncOrDecExpression
))
}
#[trace]
#[parser]
pub fn conditional_expression(s: Span) -> IResult<Span, ConditionalExpression> {
let (s, a) = cond_predicate(s)?;
let (s, b) = symbol("?")(s)?;
@ -322,7 +322,7 @@ pub fn conditional_expression(s: Span) -> IResult<Span, ConditionalExpression> {
))
}
#[trace]
#[parser]
pub fn constant_expression(s: Span) -> IResult<Span, ConstantExpression> {
alt((
map(constant_primary, |x| {
@ -334,7 +334,7 @@ pub fn constant_expression(s: Span) -> IResult<Span, ConstantExpression> {
))(s)
}
#[trace]
#[parser]
pub fn constant_expression_unary(s: Span) -> IResult<Span, ConstantExpression> {
let (s, a) = unary_operator(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -345,7 +345,7 @@ pub fn constant_expression_unary(s: Span) -> IResult<Span, ConstantExpression> {
))
}
#[trace]
#[parser]
pub fn constant_expression_binary(s: Span) -> IResult<Span, ConstantExpression> {
let (s, a) = constant_expression(s)?;
let (s, b) = binary_operator(s)?;
@ -359,7 +359,7 @@ pub fn constant_expression_binary(s: Span) -> IResult<Span, ConstantExpression>
))
}
#[trace]
#[parser]
pub fn constant_expression_ternary(s: Span) -> IResult<Span, ConstantExpression> {
let (s, a) = constant_expression(s)?;
let (s, b) = symbol("?")(s)?;
@ -375,7 +375,7 @@ pub fn constant_expression_ternary(s: Span) -> IResult<Span, ConstantExpression>
))
}
#[trace]
#[parser]
pub fn constant_mintypmax_expression(s: Span) -> IResult<Span, ConstantMintypmaxExpression> {
alt((
constant_mintypmax_expression_ternary,
@ -385,7 +385,7 @@ pub fn constant_mintypmax_expression(s: Span) -> IResult<Span, ConstantMintypmax
))(s)
}
#[trace]
#[parser]
pub fn constant_mintypmax_expression_ternary(
s: Span,
) -> IResult<Span, ConstantMintypmaxExpression> {
@ -402,7 +402,7 @@ pub fn constant_mintypmax_expression_ternary(
))
}
#[trace]
#[parser]
pub fn constant_param_expression(s: Span) -> IResult<Span, ConstantParamExpression> {
alt((
map(symbol("$"), |x| ConstantParamExpression::Dollar(x)),
@ -413,7 +413,7 @@ pub fn constant_param_expression(s: Span) -> IResult<Span, ConstantParamExpressi
))(s)
}
#[trace]
#[parser]
pub fn param_expression(s: Span) -> IResult<Span, ParamExpression> {
alt((
map(symbol("$"), |x| ParamExpression::Dollar(x)),
@ -424,7 +424,7 @@ pub fn param_expression(s: Span) -> IResult<Span, ParamExpression> {
))(s)
}
#[trace]
#[parser]
pub fn constant_range_expression(s: Span) -> IResult<Span, ConstantRangeExpression> {
alt((
map(constant_part_select_range, |x| {
@ -436,7 +436,7 @@ pub fn constant_range_expression(s: Span) -> IResult<Span, ConstantRangeExpressi
))(s)
}
#[trace]
#[parser]
pub fn constant_part_select_range(s: Span) -> IResult<Span, ConstantPartSelectRange> {
alt((
map(constant_range, |x| {
@ -448,7 +448,7 @@ pub fn constant_part_select_range(s: Span) -> IResult<Span, ConstantPartSelectRa
))(s)
}
#[trace]
#[parser]
pub fn constant_range(s: Span) -> IResult<Span, ConstantRange> {
let (s, a) = constant_expression(s)?;
let (s, b) = symbol(":")(s)?;
@ -456,7 +456,7 @@ pub fn constant_range(s: Span) -> IResult<Span, ConstantRange> {
Ok((s, ConstantRange { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn constant_indexed_range(s: Span) -> IResult<Span, ConstantIndexedRange> {
let (s, a) = constant_expression(s)?;
let (s, b) = alt((symbol("+:"), symbol("-:")))(s)?;
@ -464,7 +464,7 @@ pub fn constant_indexed_range(s: Span) -> IResult<Span, ConstantIndexedRange> {
Ok((s, ConstantIndexedRange { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn expression(s: Span) -> IResult<Span, Expression> {
alt((
map(primary, |x| Expression::Primary(Box::new(x))),
@ -486,7 +486,7 @@ pub fn expression(s: Span) -> IResult<Span, Expression> {
))(s)
}
#[trace]
#[parser]
pub fn expression_unary(s: Span) -> IResult<Span, Expression> {
let (s, x) = unary_operator(s)?;
let (s, y) = many0(attribute_instance)(s)?;
@ -497,7 +497,7 @@ pub fn expression_unary(s: Span) -> IResult<Span, Expression> {
))
}
#[trace]
#[parser]
pub fn expression_operator_assignment(s: Span) -> IResult<Span, Expression> {
let (s, a) = paren(operator_assignment)(s)?;
Ok((
@ -506,7 +506,7 @@ pub fn expression_operator_assignment(s: Span) -> IResult<Span, Expression> {
))
}
#[trace]
#[parser]
pub fn expression_binary(s: Span) -> IResult<Span, Expression> {
let (s, a) = expression(s)?;
let (s, b) = binary_operator(s)?;
@ -520,7 +520,7 @@ pub fn expression_binary(s: Span) -> IResult<Span, Expression> {
))
}
#[trace]
#[parser]
pub fn tagged_union_expression(s: Span) -> IResult<Span, TaggedUnionExpression> {
let (s, a) = symbol("tagged")(s)?;
let (s, b) = member_identifier(s)?;
@ -528,7 +528,7 @@ pub fn tagged_union_expression(s: Span) -> IResult<Span, TaggedUnionExpression>
Ok((s, TaggedUnionExpression { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn inside_expression(s: Span) -> IResult<Span, InsideExpression> {
let (s, a) = expression(s)?;
let (s, b) = symbol("inside")(s)?;
@ -536,7 +536,7 @@ pub fn inside_expression(s: Span) -> IResult<Span, InsideExpression> {
Ok((s, InsideExpression { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn value_range(s: Span) -> IResult<Span, ValueRange> {
alt((
value_range_binary,
@ -544,13 +544,13 @@ pub fn value_range(s: Span) -> IResult<Span, ValueRange> {
))(s)
}
#[trace]
#[parser]
pub fn value_range_binary(s: Span) -> IResult<Span, ValueRange> {
let (s, a) = bracket(triple(expression, symbol(":"), expression))(s)?;
Ok((s, ValueRange::Binary(ValueRangeBinary { nodes: (a,) })))
}
#[trace]
#[parser]
pub fn mintypmax_expression(s: Span) -> IResult<Span, MintypmaxExpression> {
alt((
mintypmax_expression_ternary,
@ -558,7 +558,7 @@ pub fn mintypmax_expression(s: Span) -> IResult<Span, MintypmaxExpression> {
))(s)
}
#[trace]
#[parser]
pub fn mintypmax_expression_ternary(s: Span) -> IResult<Span, MintypmaxExpression> {
let (s, a) = expression(s)?;
let (s, b) = symbol(":")(s)?;
@ -573,7 +573,7 @@ pub fn mintypmax_expression_ternary(s: Span) -> IResult<Span, MintypmaxExpressio
))
}
#[trace]
#[parser]
pub fn module_path_conditional_expression(
s: Span,
) -> IResult<Span, ModulePathConditionalExpression> {
@ -591,7 +591,7 @@ pub fn module_path_conditional_expression(
))
}
#[trace]
#[parser]
pub fn module_path_expression(s: Span) -> IResult<Span, ModulePathExpression> {
alt((
map(module_path_primary, |x| {
@ -605,7 +605,7 @@ pub fn module_path_expression(s: Span) -> IResult<Span, ModulePathExpression> {
))(s)
}
#[trace]
#[parser]
pub fn module_path_expression_unary(s: Span) -> IResult<Span, ModulePathExpression> {
let (s, a) = unary_module_path_operator(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -616,7 +616,7 @@ pub fn module_path_expression_unary(s: Span) -> IResult<Span, ModulePathExpressi
))
}
#[trace]
#[parser]
pub fn module_path_expression_binary(s: Span) -> IResult<Span, ModulePathExpression> {
let (s, a) = module_path_expression(s)?;
let (s, b) = binary_module_path_operator(s)?;
@ -630,7 +630,7 @@ pub fn module_path_expression_binary(s: Span) -> IResult<Span, ModulePathExpress
))
}
#[trace]
#[parser]
pub fn module_path_mintypmax_expression(s: Span) -> IResult<Span, ModulePathMintypmaxExpression> {
alt((
module_path_mintypmax_expression_ternary,
@ -640,7 +640,7 @@ pub fn module_path_mintypmax_expression(s: Span) -> IResult<Span, ModulePathMint
))(s)
}
#[trace]
#[parser]
pub fn module_path_mintypmax_expression_ternary(
s: Span,
) -> IResult<Span, ModulePathMintypmaxExpression> {
@ -657,7 +657,7 @@ pub fn module_path_mintypmax_expression_ternary(
))
}
#[trace]
#[parser]
pub fn part_select_range(s: Span) -> IResult<Span, PartSelectRange> {
alt((
map(constant_range, |x| PartSelectRange::ConstantRange(x)),
@ -665,7 +665,7 @@ pub fn part_select_range(s: Span) -> IResult<Span, PartSelectRange> {
))(s)
}
#[trace]
#[parser]
pub fn indexed_range(s: Span) -> IResult<Span, IndexedRange> {
let (s, a) = expression(s)?;
let (s, b) = alt((symbol("+:"), symbol("-:")))(s)?;
@ -673,7 +673,7 @@ pub fn indexed_range(s: Span) -> IResult<Span, IndexedRange> {
Ok((s, IndexedRange { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn genvar_expression(s: Span) -> IResult<Span, GenvarExpression> {
let (s, a) = constant_expression(s)?;
Ok((s, GenvarExpression { nodes: (a,) }))

76
src/parser/expressions/numbers.rs
View File

@ -162,7 +162,7 @@ pub struct UnbasedUnsizedLiteral<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn number(s: Span) -> IResult<Span, Number> {
alt((
map(real_number, |x| Number::RealNumber(x)),
@ -170,7 +170,7 @@ pub fn number(s: Span) -> IResult<Span, Number> {
))(s)
}
#[trace]
#[parser]
pub fn integral_number(s: Span) -> IResult<Span, IntegralNumber> {
alt((
map(octal_number, |x| IntegralNumber::OctalNumber(x)),
@ -180,7 +180,7 @@ pub fn integral_number(s: Span) -> IResult<Span, IntegralNumber> {
))(s)
}
#[trace]
#[parser]
pub fn decimal_number(s: Span) -> IResult<Span, DecimalNumber> {
alt((
decimal_number_base_unsigned,
@ -190,7 +190,7 @@ pub fn decimal_number(s: Span) -> IResult<Span, DecimalNumber> {
))(s)
}
#[trace]
#[parser]
pub fn decimal_number_base_unsigned(s: Span) -> IResult<Span, DecimalNumber> {
let (s, a) = opt(size)(s)?;
let (s, b) = decimal_base(s)?;
@ -201,7 +201,7 @@ pub fn decimal_number_base_unsigned(s: Span) -> IResult<Span, DecimalNumber> {
))
}
#[trace]
#[parser]
pub fn decimal_number_base_x_number(s: Span) -> IResult<Span, DecimalNumber> {
let (s, a) = opt(size)(s)?;
let (s, b) = decimal_base(s)?;
@ -212,7 +212,7 @@ pub fn decimal_number_base_x_number(s: Span) -> IResult<Span, DecimalNumber> {
))
}
#[trace]
#[parser]
pub fn decimal_number_base_z_number(s: Span) -> IResult<Span, DecimalNumber> {
let (s, a) = opt(size)(s)?;
let (s, b) = decimal_base(s)?;
@ -223,7 +223,7 @@ pub fn decimal_number_base_z_number(s: Span) -> IResult<Span, DecimalNumber> {
))
}
#[trace]
#[parser]
pub fn binary_number(s: Span) -> IResult<Span, BinaryNumber> {
let (s, a) = opt(size)(s)?;
let (s, b) = binary_base(s)?;
@ -231,7 +231,7 @@ pub fn binary_number(s: Span) -> IResult<Span, BinaryNumber> {
Ok((s, BinaryNumber { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn octal_number(s: Span) -> IResult<Span, OctalNumber> {
let (s, a) = opt(size)(s)?;
let (s, b) = octal_base(s)?;
@ -239,7 +239,7 @@ pub fn octal_number(s: Span) -> IResult<Span, OctalNumber> {
Ok((s, OctalNumber { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn hex_number(s: Span) -> IResult<Span, HexNumber> {
let (s, a) = opt(size)(s)?;
let (s, b) = hex_base(s)?;
@ -247,7 +247,7 @@ pub fn hex_number(s: Span) -> IResult<Span, HexNumber> {
Ok((s, HexNumber { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn sign(s: Span) -> IResult<Span, Sign> {
alt((
map(symbol("+"), |x| Sign::Plus(x)),
@ -255,19 +255,19 @@ pub fn sign(s: Span) -> IResult<Span, Sign> {
))(s)
}
#[trace]
#[parser]
pub fn size(s: Span) -> IResult<Span, Size> {
let (s, a) = non_zero_unsigned_number(s)?;
Ok((s, Size { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn non_zero_unsigned_number(s: Span) -> IResult<Span, NonZeroUnsignedNumber> {
let (s, a) = ws(non_zero_unsigned_number_impl)(s)?;
Ok((s, NonZeroUnsignedNumber { nodes: a }))
}
#[trace]
#[parser]
pub fn non_zero_unsigned_number_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = is_a("123456789")(s)?;
fold_many0(alt((tag("_"), digit1)), a, |acc, item| {
@ -275,7 +275,7 @@ pub fn non_zero_unsigned_number_impl(s: Span) -> IResult<Span, Span> {
})(s)
}
#[trace]
#[parser]
pub fn real_number(s: Span) -> IResult<Span, RealNumber> {
alt((
real_number_floating,
@ -283,7 +283,7 @@ pub fn real_number(s: Span) -> IResult<Span, RealNumber> {
))(s)
}
#[trace]
#[parser]
pub fn real_number_floating(s: Span) -> IResult<Span, RealNumber> {
let (s, a) = unsigned_number(s)?;
let (s, b) = opt(pair(symbol("."), unsigned_number))(s)?;
@ -298,7 +298,7 @@ pub fn real_number_floating(s: Span) -> IResult<Span, RealNumber> {
))
}
#[trace]
#[parser]
pub fn fixed_point_number(s: Span) -> IResult<Span, FixedPointNumber> {
let (s, a) = unsigned_number(s)?;
let (s, b) = map(tag("."), |x| Symbol { nodes: (x, vec![]) })(s)?;;
@ -306,19 +306,19 @@ pub fn fixed_point_number(s: Span) -> IResult<Span, FixedPointNumber> {
Ok((s, FixedPointNumber { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn exp(s: Span) -> IResult<Span, Exp> {
let (s, a) = alt((symbol("e"), symbol("E")))(s)?;
Ok((s, Exp { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn unsigned_number(s: Span) -> IResult<Span, UnsignedNumber> {
let (s, a) = ws(unsigned_number_impl)(s)?;
Ok((s, UnsignedNumber { nodes: a }))
}
#[trace]
#[parser]
pub fn unsigned_number_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = digit1(s)?;
fold_many0(alt((tag("_"), digit1)), a, |acc, item| {
@ -326,13 +326,13 @@ pub fn unsigned_number_impl(s: Span) -> IResult<Span, Span> {
})(s)
}
#[trace]
#[parser]
pub fn binary_value(s: Span) -> IResult<Span, BinaryValue> {
let (s, a) = ws(binary_value_impl)(s)?;
Ok((s, BinaryValue { nodes: a }))
}
#[trace]
#[parser]
pub fn binary_value_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = is_a("01xXzZ?")(s)?;
fold_many0(alt((tag("_"), is_a("01xXzZ?"))), a, |acc, item| {
@ -340,13 +340,13 @@ pub fn binary_value_impl(s: Span) -> IResult<Span, Span> {
})(s)
}
#[trace]
#[parser]
pub fn octal_value(s: Span) -> IResult<Span, OctalValue> {
let (s, a) = ws(octal_value_impl)(s)?;
Ok((s, OctalValue { nodes: a }))
}
#[trace]
#[parser]
pub fn octal_value_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = is_a("01234567xXzZ?")(s)?;
fold_many0(alt((tag("_"), is_a("01234567xXzZ?"))), a, |acc, item| {
@ -354,13 +354,13 @@ pub fn octal_value_impl(s: Span) -> IResult<Span, Span> {
})(s)
}
#[trace]
#[parser]
pub fn hex_value(s: Span) -> IResult<Span, HexValue> {
let (s, a) = ws(hex_value_impl)(s)?;
Ok((s, HexValue { nodes: a }))
}
#[trace]
#[parser]
pub fn hex_value_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = is_a("0123456789abcdefABCDEFxXzZ?")(s)?;
fold_many0(
@ -370,57 +370,57 @@ pub fn hex_value_impl(s: Span) -> IResult<Span, Span> {
)(s)
}
#[trace]
#[parser]
pub fn decimal_base(s: Span) -> IResult<Span, DecimalBase> {
let (s, a) = ws(decimal_base_impl)(s)?;
Ok((s, DecimalBase { nodes: a }))
}
#[trace]
#[parser]
pub fn decimal_base_impl(s: Span) -> IResult<Span, Span> {
alt((tag_no_case("'d"), tag_no_case("'sd")))(s)
}
#[trace]
#[parser]
pub fn binary_base(s: Span) -> IResult<Span, BinaryBase> {
let (s, a) = ws(binary_base_impl)(s)?;
Ok((s, BinaryBase { nodes: a }))
}
#[trace]
#[parser]
pub fn binary_base_impl(s: Span) -> IResult<Span, Span> {
alt((tag_no_case("'b"), tag_no_case("'sb")))(s)
}
#[trace]
#[parser]
pub fn octal_base(s: Span) -> IResult<Span, OctalBase> {
let (s, a) = ws(octal_base_impl)(s)?;
Ok((s, OctalBase { nodes: a }))
}
#[trace]
#[parser]
pub fn octal_base_impl(s: Span) -> IResult<Span, Span> {
alt((tag_no_case("'o"), tag_no_case("'so")))(s)
}
#[trace]
#[parser]
pub fn hex_base(s: Span) -> IResult<Span, HexBase> {
let (s, a) = ws(hex_base_impl)(s)?;
Ok((s, HexBase { nodes: a }))
}
#[trace]
#[parser]
pub fn hex_base_impl(s: Span) -> IResult<Span, Span> {
alt((tag_no_case("'h"), tag_no_case("'sh")))(s)
}
#[trace]
#[parser]
pub fn x_number(s: Span) -> IResult<Span, XNumber> {
let (s, a) = ws(x_number_impl)(s)?;
Ok((s, XNumber { nodes: a }))
}
#[trace]
#[parser]
pub fn x_number_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = tag_no_case("x")(s)?;
fold_many0(alt((tag("_"), is_a("_"))), a, |acc, item| {
@ -428,13 +428,13 @@ pub fn x_number_impl(s: Span) -> IResult<Span, Span> {
})(s)
}
#[trace]
#[parser]
pub fn z_number(s: Span) -> IResult<Span, ZNumber> {
let (s, a) = ws(z_number_impl)(s)?;
Ok((s, ZNumber { nodes: a }))
}
#[trace]
#[parser]
pub fn z_number_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = alt((tag_no_case("z"), tag("?")))(s)?;
fold_many0(alt((tag("_"), is_a("_"))), a, |acc, item| {
@ -442,7 +442,7 @@ pub fn z_number_impl(s: Span) -> IResult<Span, Span> {
})(s)
}
#[trace]
#[parser]
pub fn unbased_unsized_literal(s: Span) -> IResult<Span, UnbasedUnsizedLiteral> {
let (s, a) = alt((symbol("'0"), symbol("'1"), symbol("'z"), symbol("'x")))(s)?;
Ok((s, UnbasedUnsizedLiteral { nodes: (a,) }))

10
src/parser/expressions/operators.rs
View File

@ -32,7 +32,7 @@ pub struct BinaryModulePathOperator<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn unary_operator(s: Span) -> IResult<Span, UnaryOperator> {
let (s, a) = alt((
symbol("+"),
@ -50,7 +50,7 @@ pub fn unary_operator(s: Span) -> IResult<Span, UnaryOperator> {
Ok((s, UnaryOperator { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn binary_operator(s: Span) -> IResult<Span, BinaryOperator> {
let (s, a) = alt((
alt((
@ -90,13 +90,13 @@ pub fn binary_operator(s: Span) -> IResult<Span, BinaryOperator> {
Ok((s, BinaryOperator { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn inc_or_dec_operator(s: Span) -> IResult<Span, IncOrDecOperator> {
let (s, a) = alt((symbol("++"), symbol("--")))(s)?;
Ok((s, IncOrDecOperator { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn unary_module_path_operator(s: Span) -> IResult<Span, UnaryModulePathOperator> {
let (s, a) = alt((
symbol("!"),
@ -112,7 +112,7 @@ pub fn unary_module_path_operator(s: Span) -> IResult<Span, UnaryModulePathOpera
Ok((s, UnaryModulePathOperator { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn binary_module_path_operator(s: Span) -> IResult<Span, BinaryModulePathOperator> {
let (s, a) = alt((
symbol("=="),

64
src/parser/expressions/primaries.rs
View File

@ -261,7 +261,7 @@ pub struct Cast<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn constant_primary(s: Span) -> IResult<Span, ConstantPrimary> {
alt((
map(symbol("null"), |x| ConstantPrimary::Null(x)),
@ -288,7 +288,7 @@ pub fn constant_primary(s: Span) -> IResult<Span, ConstantPrimary> {
))(s)
}
#[trace]
#[parser]
pub fn constant_primary_ps_parameter(s: Span) -> IResult<Span, ConstantPrimary> {
let (s, a) = ps_parameter_identifier(s)?;
let (s, b) = constant_select(s)?;
@ -298,7 +298,7 @@ pub fn constant_primary_ps_parameter(s: Span) -> IResult<Span, ConstantPrimary>
))
}
#[trace]
#[parser]
pub fn constant_primary_specparam(s: Span) -> IResult<Span, ConstantPrimary> {
let (s, a) = specparam_identifier(s)?;
let (s, b) = opt(bracket(constant_range_expression))(s)?;
@ -308,7 +308,7 @@ pub fn constant_primary_specparam(s: Span) -> IResult<Span, ConstantPrimary> {
))
}
#[trace]
#[parser]
pub fn constant_primary_formal_port(s: Span) -> IResult<Span, ConstantPrimary> {
let (s, a) = formal_port_identifier(s)?;
let (s, b) = constant_select(s)?;
@ -318,7 +318,7 @@ pub fn constant_primary_formal_port(s: Span) -> IResult<Span, ConstantPrimary> {
))
}
#[trace]
#[parser]
pub fn constant_primary_enum(s: Span) -> IResult<Span, ConstantPrimary> {
let (s, a) = package_scope_or_class_scope(s)?;
let (s, b) = enum_identifier(s)?;
@ -328,7 +328,7 @@ pub fn constant_primary_enum(s: Span) -> IResult<Span, ConstantPrimary> {
))
}
#[trace]
#[parser]
pub fn constant_primary_concatenation(s: Span) -> IResult<Span, ConstantPrimary> {
let (s, a) = constant_concatenation(s)?;
let (s, b) = opt(bracket(constant_range_expression))(s)?;
@ -338,7 +338,7 @@ pub fn constant_primary_concatenation(s: Span) -> IResult<Span, ConstantPrimary>
))
}
#[trace]
#[parser]
pub fn constant_primary_multiple_concatenation(s: Span) -> IResult<Span, ConstantPrimary> {
let (s, a) = constant_multiple_concatenation(s)?;
let (s, b) = opt(bracket(constant_range_expression))(s)?;
@ -350,7 +350,7 @@ pub fn constant_primary_multiple_concatenation(s: Span) -> IResult<Span, Constan
))
}
#[trace]
#[parser]
pub fn constant_primary_mintypmax_expression(s: Span) -> IResult<Span, ConstantPrimary> {
let (s, a) = paren(constant_mintypmax_expression)(s)?;
Ok((
@ -359,7 +359,7 @@ pub fn constant_primary_mintypmax_expression(s: Span) -> IResult<Span, ConstantP
))
}
#[trace]
#[parser]
pub fn module_path_primary(s: Span) -> IResult<Span, ModulePathPrimary> {
alt((
map(number, |x| ModulePathPrimary::Number(x)),
@ -377,7 +377,7 @@ pub fn module_path_primary(s: Span) -> IResult<Span, ModulePathPrimary> {
))(s)
}
#[trace]
#[parser]
pub fn module_path_primary_mintypmax_expression(s: Span) -> IResult<Span, ModulePathPrimary> {
let (s, a) = paren(module_path_mintypmax_expression)(s)?;
Ok((
@ -386,7 +386,7 @@ pub fn module_path_primary_mintypmax_expression(s: Span) -> IResult<Span, Module
))
}
#[trace]
#[parser]
pub fn primary(s: Span) -> IResult<Span, Primary> {
alt((
map(symbol("this"), |x| Primary::This(x)),
@ -414,7 +414,7 @@ pub fn primary(s: Span) -> IResult<Span, Primary> {
))(s)
}
#[trace]
#[parser]
pub fn primary_hierarchical(s: Span) -> IResult<Span, Primary> {
let (s, a) = opt(class_qualifier_or_package_scope)(s)?;
let (s, b) = hierarchical_identifier(s)?;
@ -425,7 +425,7 @@ pub fn primary_hierarchical(s: Span) -> IResult<Span, Primary> {
))
}
#[trace]
#[parser]
pub fn primary_concatenation(s: Span) -> IResult<Span, Primary> {
let (s, a) = concatenation(s)?;
let (s, b) = opt(bracket(range_expression))(s)?;
@ -435,7 +435,7 @@ pub fn primary_concatenation(s: Span) -> IResult<Span, Primary> {
))
}
#[trace]
#[parser]
pub fn primary_multiple_concatenation(s: Span) -> IResult<Span, Primary> {
let (s, a) = multiple_concatenation(s)?;
let (s, b) = opt(bracket(range_expression))(s)?;
@ -445,7 +445,7 @@ pub fn primary_multiple_concatenation(s: Span) -> IResult<Span, Primary> {
))
}
#[trace]
#[parser]
pub fn primary_mintypmax_expression(s: Span) -> IResult<Span, Primary> {
let (s, a) = paren(mintypmax_expression)(s)?;
Ok((
@ -454,7 +454,7 @@ pub fn primary_mintypmax_expression(s: Span) -> IResult<Span, Primary> {
))
}
#[trace]
#[parser]
pub fn class_qualifier_or_package_scope(s: Span) -> IResult<Span, ClassQualifierOrPackageScope> {
alt((
map(class_qualifier, |x| {
@ -466,14 +466,14 @@ pub fn class_qualifier_or_package_scope(s: Span) -> IResult<Span, ClassQualifier
))(s)
}
#[trace]
#[parser]
pub fn class_qualifier(s: Span) -> IResult<Span, ClassQualifier> {
let (s, a) = opt(local)(s)?;
let (s, b) = opt(implicit_class_handle_or_class_scope)(s)?;
Ok((s, ClassQualifier { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn range_expression(s: Span) -> IResult<Span, RangeExpression> {
alt((
map(expression, |x| RangeExpression::Expression(x)),
@ -481,7 +481,7 @@ pub fn range_expression(s: Span) -> IResult<Span, RangeExpression> {
))(s)
}
#[trace]
#[parser]
pub fn primary_literal(s: Span) -> IResult<Span, PrimaryLiteral> {
alt((
map(time_literal, |x| PrimaryLiteral::TimeLiteral(x)),
@ -493,12 +493,12 @@ pub fn primary_literal(s: Span) -> IResult<Span, PrimaryLiteral> {
))(s)
}
#[trace]
#[parser]
pub fn time_literal(s: Span) -> IResult<Span, TimeLiteral> {
alt((time_literal_unsigned, time_literal_fixed_point))(s)
}
#[trace]
#[parser]
pub fn time_literal_unsigned(s: Span) -> IResult<Span, TimeLiteral> {
let (s, a) = unsigned_number(s)?;
let (s, b) = time_unit(s)?;
@ -508,7 +508,7 @@ pub fn time_literal_unsigned(s: Span) -> IResult<Span, TimeLiteral> {
))
}
#[trace]
#[parser]
pub fn time_literal_fixed_point(s: Span) -> IResult<Span, TimeLiteral> {
let (s, a) = fixed_point_number(s)?;
let (s, b) = time_unit(s)?;
@ -518,7 +518,7 @@ pub fn time_literal_fixed_point(s: Span) -> IResult<Span, TimeLiteral> {
))
}
#[trace]
#[parser]
pub fn time_unit(s: Span) -> IResult<Span, TimeUnit> {
alt((
map(symbol("s"), |x| TimeUnit::S(x)),
@ -530,7 +530,7 @@ pub fn time_unit(s: Span) -> IResult<Span, TimeUnit> {
))(s)
}
#[trace]
#[parser]
pub fn implicit_class_handle(s: Span) -> IResult<Span, ImplicitClassHandle> {
alt((
map(
@ -542,13 +542,13 @@ pub fn implicit_class_handle(s: Span) -> IResult<Span, ImplicitClassHandle> {
))(s)
}
#[trace]
#[parser]
pub fn bit_select(s: Span) -> IResult<Span, BitSelect> {
let (s, a) = many0(bracket(expression))(s)?;
Ok((s, BitSelect { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn select(s: Span) -> IResult<Span, Select> {
let (s, a) = opt(triple(
many0(triple(symbol("."), member_identifier, bit_select)),
@ -560,7 +560,7 @@ pub fn select(s: Span) -> IResult<Span, Select> {
Ok((s, Select { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn nonrange_select(s: Span) -> IResult<Span, NonrangeSelect> {
let (s, a) = opt(triple(
many0(triple(symbol("."), member_identifier, bit_select)),
@ -571,13 +571,13 @@ pub fn nonrange_select(s: Span) -> IResult<Span, NonrangeSelect> {
Ok((s, NonrangeSelect { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn constant_bit_select(s: Span) -> IResult<Span, ConstantBitSelect> {
let (s, a) = many0(bracket(constant_expression))(s)?;
Ok((s, ConstantBitSelect { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn constant_select(s: Span) -> IResult<Span, ConstantSelect> {
let (s, a) = opt(triple(
many0(triple(symbol("."), member_identifier, constant_bit_select)),
@ -589,7 +589,7 @@ pub fn constant_select(s: Span) -> IResult<Span, ConstantSelect> {
Ok((s, ConstantSelect { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn constant_cast(s: Span) -> IResult<Span, ConstantCast> {
let (s, a) = casting_type(s)?;
let (s, b) = symbol("'")(s)?;
@ -597,13 +597,13 @@ pub fn constant_cast(s: Span) -> IResult<Span, ConstantCast> {
Ok((s, ConstantCast { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn constant_let_expression(s: Span) -> IResult<Span, ConstantLetExpression> {
let (s, a) = let_expression(s)?;
Ok((s, ConstantLetExpression { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn cast(s: Span) -> IResult<Span, Cast> {
let (s, a) = casting_type(s)?;
let (s, b) = symbol("'")(s)?;

4
src/parser/expressions/strings.rs
View File

@ -15,13 +15,13 @@ pub struct StringLiteral<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn string_literal(s: Span) -> IResult<Span, StringLiteral> {
let (s, a) = ws(string_literal_impl)(s)?;
Ok((s, StringLiteral { nodes: a }))
}
#[trace]
#[parser]
pub fn string_literal_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = tag("\"")(s)?;
let (s, b) = many1(pair(is_not("\\\""), opt(pair(tag("\\"), take(1usize)))))(s)?;

42
src/parser/expressions/subroutine_calls.rs
View File

@ -184,13 +184,13 @@ pub enum ArrayMethodName<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn constant_function_call(s: Span) -> IResult<Span, ConstantFunctionCall> {
let (s, a) = function_subroutine_call(s)?;
Ok((s, ConstantFunctionCall { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn tf_call(s: Span) -> IResult<Span, TfCall> {
let (s, a) = ps_or_hierarchical_tf_identifier(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -198,7 +198,7 @@ pub fn tf_call(s: Span) -> IResult<Span, TfCall> {
Ok((s, TfCall { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn system_tf_call(s: Span) -> IResult<Span, SystemTfCall> {
alt((
system_tf_call_arg_optional,
@ -207,7 +207,7 @@ pub fn system_tf_call(s: Span) -> IResult<Span, SystemTfCall> {
))(s)
}
#[trace]
#[parser]
pub fn system_tf_call_arg_optional(s: Span) -> IResult<Span, SystemTfCall> {
let (s, a) = system_tf_identifier(s)?;
let (s, b) = opt(paren(list_of_arguments))(s)?;
@ -217,7 +217,7 @@ pub fn system_tf_call_arg_optional(s: Span) -> IResult<Span, SystemTfCall> {
))
}
#[trace]
#[parser]
pub fn system_tf_call_arg_data_type(s: Span) -> IResult<Span, SystemTfCall> {
let (s, a) = system_tf_identifier(s)?;
let (s, b) = paren(pair(data_type, opt(pair(symbol(","), expression))))(s)?;
@ -227,7 +227,7 @@ pub fn system_tf_call_arg_data_type(s: Span) -> IResult<Span, SystemTfCall> {
))
}
#[trace]
#[parser]
pub fn system_tf_call_arg_expression(s: Span) -> IResult<Span, SystemTfCall> {
let (s, a) = system_tf_identifier(s)?;
let (s, b) = paren(pair(
@ -240,7 +240,7 @@ pub fn system_tf_call_arg_expression(s: Span) -> IResult<Span, SystemTfCall> {
))
}
#[trace]
#[parser]
pub fn subroutine_call(s: Span) -> IResult<Span, SubroutineCall> {
alt((
map(tf_call, |x| SubroutineCall::TfCall(Box::new(x))),
@ -252,7 +252,7 @@ pub fn subroutine_call(s: Span) -> IResult<Span, SubroutineCall> {
))(s)
}
#[trace]
#[parser]
pub fn subroutine_call_randomize(s: Span) -> IResult<Span, SubroutineCall> {
let (s, a) = opt(pair(symbol("std"), symbol("::")))(s)?;
let (s, b) = randomize_call(s)?;
@ -262,17 +262,17 @@ pub fn subroutine_call_randomize(s: Span) -> IResult<Span, SubroutineCall> {
))
}
#[trace]
#[parser]
pub fn function_subroutine_call(s: Span) -> IResult<Span, FunctionSubroutineCall> {
map(subroutine_call, |x| FunctionSubroutineCall { nodes: (x,) })(s)
}
#[trace]
#[parser]
pub fn list_of_arguments(s: Span) -> IResult<Span, ListOfArguments> {
alt((list_of_arguments_ordered, list_of_arguments_named))(s)
}
#[trace]
#[parser]
pub fn list_of_arguments_ordered(s: Span) -> IResult<Span, ListOfArguments> {
let (s, a) = list(symbol(","), opt(expression))(s)?;
let (s, b) = many0(tuple((
@ -287,7 +287,7 @@ pub fn list_of_arguments_ordered(s: Span) -> IResult<Span, ListOfArguments> {
))
}
#[trace]
#[parser]
pub fn list_of_arguments_named(s: Span) -> IResult<Span, ListOfArguments> {
let (s, a) = symbol(".")(s)?;
let (s, b) = identifier(s)?;
@ -306,7 +306,7 @@ pub fn list_of_arguments_named(s: Span) -> IResult<Span, ListOfArguments> {
))
}
#[trace]
#[parser]
pub fn method_call(s: Span) -> IResult<Span, MethodCall> {
let (s, a) = method_call_root(s)?;
let (s, b) = symbol(".")(s)?;
@ -315,7 +315,7 @@ pub fn method_call(s: Span) -> IResult<Span, MethodCall> {
Ok((s, MethodCall { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn method_call_body(s: Span) -> IResult<Span, MethodCallBody> {
alt((
method_call_body_user,
@ -325,7 +325,7 @@ pub fn method_call_body(s: Span) -> IResult<Span, MethodCallBody> {
))(s)
}
#[trace]
#[parser]
pub fn method_call_body_user(s: Span) -> IResult<Span, MethodCallBody> {
let (s, a) = method_identifier(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -336,7 +336,7 @@ pub fn method_call_body_user(s: Span) -> IResult<Span, MethodCallBody> {
))
}
#[trace]
#[parser]
pub fn built_in_method_call(s: Span) -> IResult<Span, BuiltInMethodCall> {
alt((
map(array_manipulation_call, |x| {
@ -346,7 +346,7 @@ pub fn built_in_method_call(s: Span) -> IResult<Span, BuiltInMethodCall> {
))(s)
}
#[trace]
#[parser]
pub fn array_manipulation_call(s: Span) -> IResult<Span, ArrayManipulationCall> {
let (s, a) = array_method_name(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -360,7 +360,7 @@ pub fn array_manipulation_call(s: Span) -> IResult<Span, ArrayManipulationCall>
))
}
#[trace]
#[parser]
pub fn randomize_call(s: Span) -> IResult<Span, RandomizeCall> {
let (s, a) = symbol("randomize")(s)?;
let (s, b) = many0(attribute_instance)(s)?;
@ -378,7 +378,7 @@ pub fn randomize_call(s: Span) -> IResult<Span, RandomizeCall> {
))
}
#[trace]
#[parser]
pub fn variable_identifier_list_or_null(s: Span) -> IResult<Span, VariableIdentifierListOrNull> {
alt((
map(variable_identifier_list, |x| {
@ -388,7 +388,7 @@ pub fn variable_identifier_list_or_null(s: Span) -> IResult<Span, VariableIdenti
))(s)
}
#[trace]
#[parser]
pub fn method_call_root(s: Span) -> IResult<Span, MethodCallRoot> {
alt((
map(primary, |x| MethodCallRoot::Primary(x)),
@ -398,7 +398,7 @@ pub fn method_call_root(s: Span) -> IResult<Span, MethodCallRoot> {
))(s)
}
#[trace]
#[parser]
pub fn array_method_name(s: Span) -> IResult<Span, ArrayMethodName> {
alt((
map(symbol("unique"), |x| ArrayMethodName::Unique(x)),

4
src/parser/general/attributes.rs
View File

@ -18,7 +18,7 @@ pub struct AttrSpec<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn attribute_instance(s: Span) -> IResult<Span, AttributeInstance> {
let (s, a) = symbol("(*")(s)?;
let (s, b) = list(symbol(","), attr_spec)(s)?;
@ -26,7 +26,7 @@ pub fn attribute_instance(s: Span) -> IResult<Span, AttributeInstance> {
Ok((s, AttributeInstance { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn attr_spec(s: Span) -> IResult<Span, AttrSpec> {
let (s, a) = identifier(s)?;
let (s, b) = opt(pair(symbol("="), constant_expression))(s)?;

6
src/parser/general/comments.rs
View File

@ -13,12 +13,12 @@ pub struct Comment<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn comment(s: Span) -> IResult<Span, Comment> {
alt((one_line_comment, block_comment))(s)
}
#[trace]
#[parser]
pub fn one_line_comment(s: Span) -> IResult<Span, Comment> {
let (s, a) = tag("//")(s)?;
let (s, b) = is_not("\n")(s)?;
@ -26,7 +26,7 @@ pub fn one_line_comment(s: Span) -> IResult<Span, Comment> {
Ok((s, Comment { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn block_comment(s: Span) -> IResult<Span, Comment> {
let (s, a) = tag("/*")(s)?;
let (s, b) = is_not("*/")(s)?;

198
src/parser/general/identifiers.rs
View File

@ -544,31 +544,31 @@ pub enum PackageScopeOrClassScope<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn array_identifier(s: Span) -> IResult<Span, ArrayIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ArrayIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn block_identifier(s: Span) -> IResult<Span, BlockIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, BlockIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn bin_identifier(s: Span) -> IResult<Span, BinIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, BinIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn c_identifier(s: Span) -> IResult<Span, CIdentifier> {
let (s, a) = ws(c_identifier_impl)(s)?;
Ok((s, CIdentifier { nodes: a }))
}
#[trace]
#[parser]
pub fn c_identifier_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = is_a(AZ_)(s)?;
let (s, b) = opt(is_a(AZ09_))(s)?;
@ -580,97 +580,97 @@ pub fn c_identifier_impl(s: Span) -> IResult<Span, Span> {
Ok((s, a))
}
#[trace]
#[parser]
pub fn cell_identifier(s: Span) -> IResult<Span, CellIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, CellIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn checker_identifier(s: Span) -> IResult<Span, CheckerIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, CheckerIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn class_identifier(s: Span) -> IResult<Span, ClassIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ClassIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn class_variable_identifier(s: Span) -> IResult<Span, ClassVariableIdentifier> {
let (s, a) = variable_identifier(s)?;
Ok((s, ClassVariableIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn clocking_identifier(s: Span) -> IResult<Span, ClockingIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ClockingIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn config_identifier(s: Span) -> IResult<Span, ConfigIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ConfigIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn const_identifier(s: Span) -> IResult<Span, ConstIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ConstIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn constraint_identifier(s: Span) -> IResult<Span, ConstraintIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ConstraintIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn covergroup_identifier(s: Span) -> IResult<Span, CovergroupIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, CovergroupIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn covergroup_variable_identifier(s: Span) -> IResult<Span, CovergroupVariableIdentifier> {
let (s, a) = variable_identifier(s)?;
Ok((s, CovergroupVariableIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn cover_point_identifier(s: Span) -> IResult<Span, CoverPointIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, CoverPointIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn cross_identifier(s: Span) -> IResult<Span, CrossIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, CrossIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn dynamic_array_variable_identifier(s: Span) -> IResult<Span, DynamicArrayVariableIdentifier> {
let (s, a) = variable_identifier(s)?;
Ok((s, DynamicArrayVariableIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn enum_identifier(s: Span) -> IResult<Span, EnumIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, EnumIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn escaped_identifier(s: Span) -> IResult<Span, EscapedIdentifier> {
let (s, a) = ws(escaped_identifier_impl)(s)?;
Ok((s, EscapedIdentifier { nodes: a }))
}
#[trace]
#[parser]
pub fn escaped_identifier_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = tag("\\")(s)?;
let (s, b) = is_not(" \t\r\n")(s)?;
@ -678,55 +678,55 @@ pub fn escaped_identifier_impl(s: Span) -> IResult<Span, Span> {
Ok((s, a))
}
#[trace]
#[parser]
pub fn formal_identifier(s: Span) -> IResult<Span, FormalIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, FormalIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn formal_port_identifier(s: Span) -> IResult<Span, FormalPortIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, FormalPortIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn function_identifier(s: Span) -> IResult<Span, FunctionIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, FunctionIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn generate_block_identifier(s: Span) -> IResult<Span, GenerateBlockIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, GenerateBlockIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn genvar_identifier(s: Span) -> IResult<Span, GenvarIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, GenvarIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_array_identifier(s: Span) -> IResult<Span, HierarchicalArrayIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalArrayIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_block_identifier(s: Span) -> IResult<Span, HierarchicalBlockIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalBlockIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_event_identifier(s: Span) -> IResult<Span, HierarchicalEventIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalEventIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_identifier(s: Span) -> IResult<Span, HierarchicalIdentifier> {
let (s, a) = opt(root)(s)?;
let (s, b) = many0(triple(identifier, constant_bit_select, symbol(".")))(s)?;
@ -734,20 +734,20 @@ pub fn hierarchical_identifier(s: Span) -> IResult<Span, HierarchicalIdentifier>
Ok((s, HierarchicalIdentifier { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn root(s: Span) -> IResult<Span, Root> {
let (s, a) = symbol("$root")(s)?;
let (s, b) = symbol(".")(s)?;
Ok((s, Root { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn hierarchical_net_identifier(s: Span) -> IResult<Span, HierarchicalNetIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalNetIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_parameter_identifier(
s: Span,
) -> IResult<Span, HierarchicalParameterIdentifier> {
@ -755,37 +755,37 @@ pub fn hierarchical_parameter_identifier(
Ok((s, HierarchicalParameterIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_property_identifier(s: Span) -> IResult<Span, HierarchicalPropertyIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalPropertyIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_sequence_identifier(s: Span) -> IResult<Span, HierarchicalSequenceIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalSequenceIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_task_identifier(s: Span) -> IResult<Span, HierarchicalTaskIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalTaskIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_tf_identifier(s: Span) -> IResult<Span, HierarchicalTfIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalTfIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn hierarchical_variable_identifier(s: Span) -> IResult<Span, HierarchicalVariableIdentifier> {
let (s, a) = hierarchical_identifier(s)?;
Ok((s, HierarchicalVariableIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn identifier(s: Span) -> IResult<Span, Identifier> {
alt((
map(escaped_identifier, |x| Identifier::EscapedIdentifier(x)),
@ -793,102 +793,102 @@ pub fn identifier(s: Span) -> IResult<Span, Identifier> {
))(s)
}
#[trace]
#[parser]
pub fn index_variable_identifier(s: Span) -> IResult<Span, IndexVariableIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, IndexVariableIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn interface_identifier(s: Span) -> IResult<Span, InterfaceIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, InterfaceIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn interface_instance_identifier(s: Span) -> IResult<Span, InterfaceInstanceIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, InterfaceInstanceIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn inout_port_identifier(s: Span) -> IResult<Span, InoutPortIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, InoutPortIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn input_port_identifier(s: Span) -> IResult<Span, InputPortIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, InputPortIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn instance_identifier(s: Span) -> IResult<Span, InstanceIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, InstanceIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn library_identifier(s: Span) -> IResult<Span, LibraryIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, LibraryIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn member_identifier(s: Span) -> IResult<Span, MemberIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, MemberIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn method_identifier(s: Span) -> IResult<Span, MethodIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, MethodIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn modport_identifier(s: Span) -> IResult<Span, ModportIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ModportIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn module_identifier(s: Span) -> IResult<Span, ModuleIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ModuleIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn net_identifier(s: Span) -> IResult<Span, NetIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, NetIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn net_type_identifier(s: Span) -> IResult<Span, NetTypeIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, NetTypeIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn output_port_identifier(s: Span) -> IResult<Span, OutputPortIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, OutputPortIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn package_identifier(s: Span) -> IResult<Span, PackageIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, PackageIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn package_scope(s: Span) -> IResult<Span, PackageScope> {
alt((package_scope_package, map(unit, |x| PackageScope::Unit(x))))(s)
}
#[trace]
#[parser]
pub fn package_scope_package(s: Span) -> IResult<Span, PackageScope> {
let (s, a) = package_identifier(s)?;
let (s, b) = symbol("::")(s)?;
@ -898,72 +898,72 @@ pub fn package_scope_package(s: Span) -> IResult<Span, PackageScope> {
))
}
#[trace]
#[parser]
pub fn unit(s: Span) -> IResult<Span, Unit> {
let (s, a) = symbol("$unit")(s)?;
let (s, b) = symbol("::")(s)?;
Ok((s, Unit { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn parameter_identifier(s: Span) -> IResult<Span, ParameterIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ParameterIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn port_identifier(s: Span) -> IResult<Span, PortIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, PortIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn production_identifier(s: Span) -> IResult<Span, ProductionIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ProductionIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn program_identifier(s: Span) -> IResult<Span, ProgramIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, ProgramIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn property_identifier(s: Span) -> IResult<Span, PropertyIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, PropertyIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn ps_class_identifier(s: Span) -> IResult<Span, PsClassIdentifier> {
let (s, a) = opt(package_scope)(s)?;
let (s, b) = class_identifier(s)?;
Ok((s, PsClassIdentifier { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn ps_covergroup_identifier(s: Span) -> IResult<Span, PsCovergroupIdentifier> {
let (s, a) = opt(package_scope)(s)?;
let (s, b) = covergroup_identifier(s)?;
Ok((s, PsCovergroupIdentifier { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn ps_checker_identifier(s: Span) -> IResult<Span, PsCheckerIdentifier> {
let (s, a) = opt(package_scope)(s)?;
let (s, b) = checker_identifier(s)?;
Ok((s, PsCheckerIdentifier { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn ps_identifier(s: Span) -> IResult<Span, PsIdentifier> {
let (s, a) = opt(package_scope)(s)?;
let (s, b) = identifier(s)?;
Ok((s, PsIdentifier { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_array_identifier(
s: Span,
) -> IResult<Span, PsOrHierarchicalArrayIdentifier> {
@ -972,7 +972,7 @@ pub fn ps_or_hierarchical_array_identifier(
Ok((s, PsOrHierarchicalArrayIdentifier { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_net_identifier(s: Span) -> IResult<Span, PsOrHierarchicalNetIdentifier> {
alt((
ps_or_hierarchical_net_identifier_package_scope,
@ -982,7 +982,7 @@ pub fn ps_or_hierarchical_net_identifier(s: Span) -> IResult<Span, PsOrHierarchi
))(s)
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_net_identifier_package_scope(
s: Span,
) -> IResult<Span, PsOrHierarchicalNetIdentifier> {
@ -996,7 +996,7 @@ pub fn ps_or_hierarchical_net_identifier_package_scope(
))
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_property_identifier(
s: Span,
) -> IResult<Span, PsOrHierarchicalPropertyIdentifier> {
@ -1008,7 +1008,7 @@ pub fn ps_or_hierarchical_property_identifier(
))(s)
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_property_identifier_package_scope(
s: Span,
) -> IResult<Span, PsOrHierarchicalPropertyIdentifier> {
@ -1022,7 +1022,7 @@ pub fn ps_or_hierarchical_property_identifier_package_scope(
))
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_sequence_identifier(
s: Span,
) -> IResult<Span, PsOrHierarchicalSequenceIdentifier> {
@ -1034,7 +1034,7 @@ pub fn ps_or_hierarchical_sequence_identifier(
))(s)
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_sequence_identifier_package_scope(
s: Span,
) -> IResult<Span, PsOrHierarchicalSequenceIdentifier> {
@ -1048,7 +1048,7 @@ pub fn ps_or_hierarchical_sequence_identifier_package_scope(
))
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_tf_identifier(s: Span) -> IResult<Span, PsOrHierarchicalTfIdentifier> {
alt((
ps_or_hierarchical_tf_identifier_package_scope,
@ -1058,7 +1058,7 @@ pub fn ps_or_hierarchical_tf_identifier(s: Span) -> IResult<Span, PsOrHierarchic
))(s)
}
#[trace]
#[parser]
pub fn ps_or_hierarchical_tf_identifier_package_scope(
s: Span,
) -> IResult<Span, PsOrHierarchicalTfIdentifier> {
@ -1072,7 +1072,7 @@ pub fn ps_or_hierarchical_tf_identifier_package_scope(
))
}
#[trace]
#[parser]
pub fn ps_parameter_identifier(s: Span) -> IResult<Span, PsParameterIdentifier> {
alt((
ps_parameter_identifier_scope,
@ -1080,7 +1080,7 @@ pub fn ps_parameter_identifier(s: Span) -> IResult<Span, PsParameterIdentifier>
))(s)
}
#[trace]
#[parser]
pub fn ps_parameter_identifier_scope(s: Span) -> IResult<Span, PsParameterIdentifier> {
let (s, a) = opt(package_scope_or_class_scope)(s)?;
let (s, b) = parameter_identifier(s)?;
@ -1090,7 +1090,7 @@ pub fn ps_parameter_identifier_scope(s: Span) -> IResult<Span, PsParameterIdenti
))
}
#[trace]
#[parser]
pub fn ps_parameter_identifier_generate(s: Span) -> IResult<Span, PsParameterIdentifier> {
let (s, a) = many0(triple(
generate_block_identifier,
@ -1104,32 +1104,32 @@ pub fn ps_parameter_identifier_generate(s: Span) -> IResult<Span, PsParameterIde
))
}
#[trace]
#[parser]
pub fn ps_type_identifier(s: Span) -> IResult<Span, PsTypeIdentifier> {
let (s, a) = opt(local_or_package_scope_or_class_scope)(s)?;
let (s, b) = type_identifier(s)?;
Ok((s, PsTypeIdentifier { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn sequence_identifier(s: Span) -> IResult<Span, SequenceIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, SequenceIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn signal_identifier(s: Span) -> IResult<Span, SignalIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, SignalIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn simple_identifier(s: Span) -> IResult<Span, SimpleIdentifier> {
let (s, a) = ws(simple_identifier_impl)(s)?;
Ok((s, SimpleIdentifier { nodes: a }))
}
#[trace]
#[parser]
pub fn simple_identifier_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = is_a(AZ_)(s)?;
let (s, b) = opt(is_a(AZ09_DOLLAR))(s)?;
@ -1141,19 +1141,19 @@ pub fn simple_identifier_impl(s: Span) -> IResult<Span, Span> {
Ok((s, a))
}
#[trace]
#[parser]
pub fn specparam_identifier(s: Span) -> IResult<Span, SpecparamIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, SpecparamIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn system_tf_identifier(s: Span) -> IResult<Span, SystemTfIdentifier> {
let (s, a) = ws(system_tf_identifier_impl)(s)?;
Ok((s, SystemTfIdentifier { nodes: a }))
}
#[trace]
#[parser]
pub fn system_tf_identifier_impl(s: Span) -> IResult<Span, Span> {
let (s, a) = tag("$")(s)?;
let (s, b) = is_a(AZ09_DOLLAR)(s)?;
@ -1161,49 +1161,49 @@ pub fn system_tf_identifier_impl(s: Span) -> IResult<Span, Span> {
Ok((s, a))
}
#[trace]
#[parser]
pub fn task_identifier(s: Span) -> IResult<Span, TaskIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, TaskIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn tf_identifier(s: Span) -> IResult<Span, TfIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, TfIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn terminal_identifier(s: Span) -> IResult<Span, TerminalIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, TerminalIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn topmodule_identifier(s: Span) -> IResult<Span, TopmoduleIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, TopmoduleIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn type_identifier(s: Span) -> IResult<Span, TypeIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, TypeIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn udp_identifier(s: Span) -> IResult<Span, UdpIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, UdpIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn variable_identifier(s: Span) -> IResult<Span, VariableIdentifier> {
let (s, a) = identifier(s)?;
Ok((s, VariableIdentifier { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn implicit_class_handle_or_class_scope_or_package_scope(
s: Span,
) -> IResult<Span, ImplicitClassHandleOrClassScopeOrPackageScope> {
@ -1220,7 +1220,7 @@ pub fn implicit_class_handle_or_class_scope_or_package_scope(
))(s)
}
#[trace]
#[parser]
pub fn implicit_class_handle_or_package_scope(
s: Span,
) -> IResult<Span, ImplicitClassHandleOrPackageScope> {
@ -1234,7 +1234,7 @@ pub fn implicit_class_handle_or_package_scope(
))(s)
}
#[trace]
#[parser]
pub fn implicit_class_handle_or_class_scope(
s: Span,
) -> IResult<Span, ImplicitClassHandleOrClassScope> {
@ -1248,7 +1248,7 @@ pub fn implicit_class_handle_or_class_scope(
))(s)
}
#[trace]
#[parser]
pub fn package_scope_or_class_scope(s: Span) -> IResult<Span, PackageScopeOrClassScope> {
alt((
map(package_scope, |x| PackageScopeOrClassScope::PackageScope(x)),
@ -1256,7 +1256,7 @@ pub fn package_scope_or_class_scope(s: Span) -> IResult<Span, PackageScopeOrClas
))(s)
}
#[trace]
#[parser]
pub fn local_or_package_scope_or_class_scope(
s: Span,
) -> IResult<Span, LocalOrPackageScopeOrClassScope> {
@ -1271,7 +1271,7 @@ pub fn local_or_package_scope_or_class_scope(
))(s)
}
#[trace]
#[parser]
pub fn local(s: Span) -> IResult<Span, Local> {
let (s, a) = symbol("local")(s)?;
let (s, b) = symbol("::")(s)?;

16
src/parser/instantiations/checker_instantiation.rs
View File

@ -61,7 +61,7 @@ pub struct NamedCheckerPortConnectionAsterisk<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn checker_instantiation(s: Span) -> IResult<Span, CheckerInstantiation> {
let (s, a) = ps_checker_identifier(s)?;
let (s, b) = name_of_instance(s)?;
@ -75,7 +75,7 @@ pub fn checker_instantiation(s: Span) -> IResult<Span, CheckerInstantiation> {
))
}
#[trace]
#[parser]
pub fn list_of_checker_port_connections(s: Span) -> IResult<Span, ListOfCheckerPortConnections> {
alt((
list_of_checker_port_connections_ordered,
@ -83,7 +83,7 @@ pub fn list_of_checker_port_connections(s: Span) -> IResult<Span, ListOfCheckerP
))(s)
}
#[trace]
#[parser]
pub fn list_of_checker_port_connections_ordered(
s: Span,
) -> IResult<Span, ListOfCheckerPortConnections> {
@ -94,7 +94,7 @@ pub fn list_of_checker_port_connections_ordered(
))
}
#[trace]
#[parser]
pub fn list_of_checker_port_connections_named(
s: Span,
) -> IResult<Span, ListOfCheckerPortConnections> {
@ -105,14 +105,14 @@ pub fn list_of_checker_port_connections_named(
))
}
#[trace]
#[parser]
pub fn ordered_checker_port_connection(s: Span) -> IResult<Span, OrderedCheckerPortConnection> {
let (s, x) = many0(attribute_instance)(s)?;
let (s, y) = opt(property_actual_arg)(s)?;
Ok((s, OrderedCheckerPortConnection { nodes: (x, y) }))
}
#[trace]
#[parser]
pub fn named_checker_port_connection(s: Span) -> IResult<Span, NamedCheckerPortConnection> {
alt((
named_checker_port_connection_identifier,
@ -120,7 +120,7 @@ pub fn named_checker_port_connection(s: Span) -> IResult<Span, NamedCheckerPortC
))(s)
}
#[trace]
#[parser]
pub fn named_checker_port_connection_identifier(
s: Span,
) -> IResult<Span, NamedCheckerPortConnection> {
@ -136,7 +136,7 @@ pub fn named_checker_port_connection_identifier(
))
}
#[trace]
#[parser]
pub fn named_checker_port_connection_asterisk(
s: Span,
) -> IResult<Span, NamedCheckerPortConnection> {

32
src/parser/instantiations/generated_instantiation.rs
View File

@ -145,7 +145,7 @@ pub enum GenerateItem<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn generate_region(s: Span) -> IResult<Span, GenerateRegion> {
let (s, a) = symbol("generate")(s)?;
let (s, b) = many0(generate_item)(s)?;
@ -153,7 +153,7 @@ pub fn generate_region(s: Span) -> IResult<Span, GenerateRegion> {
Ok((s, GenerateRegion { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn loop_generate_construct(s: Span) -> IResult<Span, LoopGenerateConstruct> {
let (s, a) = symbol("for")(s)?;
let (s, b) = paren(tuple((
@ -167,7 +167,7 @@ pub fn loop_generate_construct(s: Span) -> IResult<Span, LoopGenerateConstruct>
Ok((s, LoopGenerateConstruct { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn generate_initialization(s: Span) -> IResult<Span, GenvarInitialization> {
let (s, a) = opt(map(symbol("genvar"), |x| Genvar { nodes: (x,) }))(s)?;
let (s, b) = genvar_identifier(s)?;
@ -181,7 +181,7 @@ pub fn generate_initialization(s: Span) -> IResult<Span, GenvarInitialization> {
))
}
#[trace]
#[parser]
pub fn genvar_iteration(s: Span) -> IResult<Span, GenvarIteration> {
alt((
genvar_iteration_assignment,
@ -190,7 +190,7 @@ pub fn genvar_iteration(s: Span) -> IResult<Span, GenvarIteration> {
))(s)
}
#[trace]
#[parser]
pub fn genvar_iteration_assignment(s: Span) -> IResult<Span, GenvarIteration> {
let (s, a) = genvar_identifier(s)?;
let (s, b) = assignment_operator(s)?;
@ -201,7 +201,7 @@ pub fn genvar_iteration_assignment(s: Span) -> IResult<Span, GenvarIteration> {
))
}
#[trace]
#[parser]
pub fn genvar_iteration_prefix(s: Span) -> IResult<Span, GenvarIteration> {
let (s, a) = inc_or_dec_operator(s)?;
let (s, b) = genvar_identifier(s)?;
@ -211,7 +211,7 @@ pub fn genvar_iteration_prefix(s: Span) -> IResult<Span, GenvarIteration> {
))
}
#[trace]
#[parser]
pub fn genvar_iteration_suffix(s: Span) -> IResult<Span, GenvarIteration> {
let (s, a) = genvar_identifier(s)?;
let (s, b) = inc_or_dec_operator(s)?;
@ -221,7 +221,7 @@ pub fn genvar_iteration_suffix(s: Span) -> IResult<Span, GenvarIteration> {
))
}
#[trace]
#[parser]
pub fn conditional_generate_construct(s: Span) -> IResult<Span, ConditionalGenerateConstruct> {
alt((
map(if_generate_construct, |x| {
@ -233,7 +233,7 @@ pub fn conditional_generate_construct(s: Span) -> IResult<Span, ConditionalGener
))(s)
}
#[trace]
#[parser]
pub fn if_generate_construct(s: Span) -> IResult<Span, IfGenerateConstruct> {
let (s, a) = symbol("if")(s)?;
let (s, b) = paren(constant_expression)(s)?;
@ -247,7 +247,7 @@ pub fn if_generate_construct(s: Span) -> IResult<Span, IfGenerateConstruct> {
))
}
#[trace]
#[parser]
pub fn case_generate_construct(s: Span) -> IResult<Span, CaseGenerateConstruct> {
let (s, a) = symbol("case")(s)?;
let (s, b) = paren(constant_expression)(s)?;
@ -261,12 +261,12 @@ pub fn case_generate_construct(s: Span) -> IResult<Span, CaseGenerateConstruct>
))
}
#[trace]
#[parser]
pub fn case_generate_item(s: Span) -> IResult<Span, CaseGenerateItem> {
alt((case_generate_item_nondefault, case_generate_item_default))(s)
}
#[trace]
#[parser]
pub fn case_generate_item_nondefault(s: Span) -> IResult<Span, CaseGenerateItem> {
let (s, a) = list(symbol(","), constant_expression)(s)?;
let (s, b) = symbol(":")(s)?;
@ -277,7 +277,7 @@ pub fn case_generate_item_nondefault(s: Span) -> IResult<Span, CaseGenerateItem>
))
}
#[trace]
#[parser]
pub fn case_generate_item_default(s: Span) -> IResult<Span, CaseGenerateItem> {
let (s, a) = symbol("default")(s)?;
let (s, b) = opt(symbol(":"))(s)?;
@ -288,7 +288,7 @@ pub fn case_generate_item_default(s: Span) -> IResult<Span, CaseGenerateItem> {
))
}
#[trace]
#[parser]
pub fn generate_block(s: Span) -> IResult<Span, GenerateBlock> {
alt((
map(generate_item, |x| GenerateBlock::GenerateItem(x)),
@ -296,7 +296,7 @@ pub fn generate_block(s: Span) -> IResult<Span, GenerateBlock> {
))(s)
}
#[trace]
#[parser]
pub fn generate_block_multiple(s: Span) -> IResult<Span, GenerateBlock> {
let (s, a) = opt(pair(generate_block_identifier, symbol(":")))(s)?;
let (s, b) = symbol("begin")(s)?;
@ -312,7 +312,7 @@ pub fn generate_block_multiple(s: Span) -> IResult<Span, GenerateBlock> {
))
}
#[trace]
#[parser]
pub fn generate_item(s: Span) -> IResult<Span, GenerateItem> {
alt((
map(module_or_generate_item, |x| {

2
src/parser/instantiations/interface_instantiation.rs
View File

@ -17,7 +17,7 @@ pub struct InterfaceInstantiation<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn interface_instantiation(s: Span) -> IResult<Span, InterfaceInstantiation> {
let (s, a) = interface_identifier(s)?;
let (s, b) = opt(parameter_value_assignment)(s)?;

32
src/parser/instantiations/module_instantiation.rs
View File

@ -112,7 +112,7 @@ pub struct NamedPortConnectionAsterisk<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn module_instantiation(s: Span) -> IResult<Span, ModuleInstantiation> {
let (s, a) = module_identifier(s)?;
let (s, b) = opt(parameter_value_assignment)(s)?;
@ -126,14 +126,14 @@ pub fn module_instantiation(s: Span) -> IResult<Span, ModuleInstantiation> {
))
}
#[trace]
#[parser]
pub fn parameter_value_assignment(s: Span) -> IResult<Span, ParameterValueAssignment> {
let (s, a) = symbol("#")(s)?;
let (s, b) = paren(opt(list_of_parameter_assignments))(s)?;
Ok((s, ParameterValueAssignment { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn list_of_parameter_assignments(s: Span) -> IResult<Span, ListOfParameterAssignments> {
alt((
list_of_parameter_assignments_ordered,
@ -141,7 +141,7 @@ pub fn list_of_parameter_assignments(s: Span) -> IResult<Span, ListOfParameterAs
))(s)
}
#[trace]
#[parser]
pub fn list_of_parameter_assignments_ordered(s: Span) -> IResult<Span, ListOfParameterAssignments> {
let (s, a) = list(symbol(","), ordered_parameter_assignment)(s)?;
Ok((
@ -150,7 +150,7 @@ pub fn list_of_parameter_assignments_ordered(s: Span) -> IResult<Span, ListOfPar
))
}
#[trace]
#[parser]
pub fn list_of_parameter_assignments_named(s: Span) -> IResult<Span, ListOfParameterAssignments> {
let (s, a) = list(symbol(","), named_parameter_assignment)(s)?;
Ok((
@ -159,13 +159,13 @@ pub fn list_of_parameter_assignments_named(s: Span) -> IResult<Span, ListOfParam
))
}
#[trace]
#[parser]
pub fn ordered_parameter_assignment(s: Span) -> IResult<Span, OrderedParameterAssignment> {
let (s, x) = param_expression(s)?;
Ok((s, OrderedParameterAssignment { nodes: (x,) }))
}
#[trace]
#[parser]
pub fn named_parameter_assignment(s: Span) -> IResult<Span, NamedParameterAssignment> {
let (s, a) = symbol(".")(s)?;
let (s, b) = parameter_identifier(s)?;
@ -173,21 +173,21 @@ pub fn named_parameter_assignment(s: Span) -> IResult<Span, NamedParameterAssign
Ok((s, NamedParameterAssignment { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn hierarchical_instance(s: Span) -> IResult<Span, HierarchicalInstance> {
let (s, a) = name_of_instance(s)?;
let (s, b) = paren(opt(list_of_port_connections))(s)?;
Ok((s, HierarchicalInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn name_of_instance(s: Span) -> IResult<Span, NameOfInstance> {
let (s, x) = instance_identifier(s)?;
let (s, y) = many0(unpacked_dimension)(s)?;
Ok((s, NameOfInstance { nodes: (x, y) }))
}
#[trace]
#[parser]
pub fn list_of_port_connections(s: Span) -> IResult<Span, ListOfPortConnections> {
alt((
list_of_port_connections_ordered,
@ -195,7 +195,7 @@ pub fn list_of_port_connections(s: Span) -> IResult<Span, ListOfPortConnections>
))(s)
}
#[trace]
#[parser]
pub fn list_of_port_connections_ordered(s: Span) -> IResult<Span, ListOfPortConnections> {
let (s, a) = list(symbol(","), ordered_port_connection)(s)?;
Ok((
@ -204,7 +204,7 @@ pub fn list_of_port_connections_ordered(s: Span) -> IResult<Span, ListOfPortConn
))
}
#[trace]
#[parser]
pub fn list_of_port_connections_named(s: Span) -> IResult<Span, ListOfPortConnections> {
let (s, a) = list(symbol(","), named_port_connection)(s)?;
Ok((
@ -213,14 +213,14 @@ pub fn list_of_port_connections_named(s: Span) -> IResult<Span, ListOfPortConnec
))
}
#[trace]
#[parser]
pub fn ordered_port_connection(s: Span) -> IResult<Span, OrderedPortConnection> {
let (s, x) = many0(attribute_instance)(s)?;
let (s, y) = opt(expression)(s)?;
Ok((s, OrderedPortConnection { nodes: (x, y) }))
}
#[trace]
#[parser]
pub fn named_port_connection(s: Span) -> IResult<Span, NamedPortConnection> {
alt((
named_port_connection_identifier,
@ -228,7 +228,7 @@ pub fn named_port_connection(s: Span) -> IResult<Span, NamedPortConnection> {
))(s)
}
#[trace]
#[parser]
pub fn named_port_connection_identifier(s: Span) -> IResult<Span, NamedPortConnection> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol(".")(s)?;
@ -242,7 +242,7 @@ pub fn named_port_connection_identifier(s: Span) -> IResult<Span, NamedPortConne
))
}
#[trace]
#[parser]
pub fn named_port_connection_asterisk(s: Span) -> IResult<Span, NamedPortConnection> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol(".*")(s)?;

2
src/parser/instantiations/program_instantiation.rs
View File

@ -17,7 +17,7 @@ pub struct ProgramInstantiation<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn program_instantiation(s: Span) -> IResult<Span, ProgramInstantiation> {
let (s, a) = program_identifier(s)?;
let (s, b) = opt(parameter_value_assignment)(s)?;

14
src/parser/primitive_instances/primitive_gate_and_switch_types.rs
View File

@ -42,13 +42,13 @@ pub struct PassSwitchtype<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn cmos_switchtype(s: Span) -> IResult<Span, CmosSwitchtype> {
let (s, a) = alt((symbol("cmos"), symbol("rcmos")))(s)?;
Ok((s, CmosSwitchtype { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn enable_gatetype(s: Span) -> IResult<Span, EnableGatetype> {
let (s, a) = alt((
symbol("bufif0"),
@ -59,7 +59,7 @@ pub fn enable_gatetype(s: Span) -> IResult<Span, EnableGatetype> {
Ok((s, EnableGatetype { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn mos_switchtype(s: Span) -> IResult<Span, MosSwitchtype> {
let (s, a) = alt((
symbol("nmos"),
@ -70,7 +70,7 @@ pub fn mos_switchtype(s: Span) -> IResult<Span, MosSwitchtype> {
Ok((s, MosSwitchtype { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn n_input_gatetype(s: Span) -> IResult<Span, NInputGatetype> {
let (s, a) = alt((
symbol("and"),
@ -83,13 +83,13 @@ pub fn n_input_gatetype(s: Span) -> IResult<Span, NInputGatetype> {
Ok((s, NInputGatetype { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn n_output_gatetype(s: Span) -> IResult<Span, NOutputGatetype> {
let (s, a) = alt((symbol("buf"), symbol("not")))(s)?;
Ok((s, NOutputGatetype { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn pass_en_switchtype(s: Span) -> IResult<Span, PassEnSwitchtype> {
let (s, a) = alt((
symbol("tranif0"),
@ -100,7 +100,7 @@ pub fn pass_en_switchtype(s: Span) -> IResult<Span, PassEnSwitchtype> {
Ok((s, PassEnSwitchtype { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn pass_switchtype(s: Span) -> IResult<Span, PassSwitchtype> {
let (s, a) = alt((symbol("tran"), symbol("rtran")))(s)?;
Ok((s, PassSwitchtype { nodes: (a,) }))

36
src/parser/primitive_instances/primitive_instantiation_and_instances.rs
View File

@ -227,7 +227,7 @@ pub struct PullGateInstance<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn gate_instantiation(s: Span) -> IResult<Span, GateInstantiation> {
alt((
gate_instantiation_cmos,
@ -242,7 +242,7 @@ pub fn gate_instantiation(s: Span) -> IResult<Span, GateInstantiation> {
))(s)
}
#[trace]
#[parser]
pub fn gate_instantiation_cmos(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = cmos_switchtype(s)?;
let (s, b) = opt(delay3)(s)?;
@ -256,7 +256,7 @@ pub fn gate_instantiation_cmos(s: Span) -> IResult<Span, GateInstantiation> {
))
}
#[trace]
#[parser]
pub fn gate_instantiation_enable(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = enable_gatetype(s)?;
let (s, b) = opt(drive_strength)(s)?;
@ -271,7 +271,7 @@ pub fn gate_instantiation_enable(s: Span) -> IResult<Span, GateInstantiation> {
))
}
#[trace]
#[parser]
pub fn gate_instantiation_mos(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = mos_switchtype(s)?;
let (s, b) = opt(delay3)(s)?;
@ -285,7 +285,7 @@ pub fn gate_instantiation_mos(s: Span) -> IResult<Span, GateInstantiation> {
))
}
#[trace]
#[parser]
pub fn gate_instantiation_n_input(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = n_input_gatetype(s)?;
let (s, b) = opt(drive_strength)(s)?;
@ -300,7 +300,7 @@ pub fn gate_instantiation_n_input(s: Span) -> IResult<Span, GateInstantiation> {
))
}
#[trace]
#[parser]
pub fn gate_instantiation_n_output(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = n_output_gatetype(s)?;
let (s, b) = opt(drive_strength)(s)?;
@ -315,7 +315,7 @@ pub fn gate_instantiation_n_output(s: Span) -> IResult<Span, GateInstantiation>
))
}
#[trace]
#[parser]
pub fn gate_instantiation_pass_en(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = pass_en_switchtype(s)?;
let (s, b) = opt(delay2)(s)?;
@ -329,7 +329,7 @@ pub fn gate_instantiation_pass_en(s: Span) -> IResult<Span, GateInstantiation> {
))
}
#[trace]
#[parser]
pub fn gate_instantiation_pass(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = pass_switchtype(s)?;
let (s, b) = list(symbol(","), pass_switch_instance)(s)?;
@ -340,7 +340,7 @@ pub fn gate_instantiation_pass(s: Span) -> IResult<Span, GateInstantiation> {
))
}
#[trace]
#[parser]
pub fn gate_instantiation_pulldown(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = symbol("pulldown")(s)?;
let (s, b) = opt(pulldown_strength)(s)?;
@ -354,7 +354,7 @@ pub fn gate_instantiation_pulldown(s: Span) -> IResult<Span, GateInstantiation>
))
}
#[trace]
#[parser]
pub fn gate_instantiation_pullup(s: Span) -> IResult<Span, GateInstantiation> {
let (s, a) = symbol("pullup")(s)?;
let (s, b) = opt(pullup_strength)(s)?;
@ -368,7 +368,7 @@ pub fn gate_instantiation_pullup(s: Span) -> IResult<Span, GateInstantiation> {
))
}
#[trace]
#[parser]
pub fn cmos_switch_instance(s: Span) -> IResult<Span, CmosSwitchInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(tuple((
@ -383,7 +383,7 @@ pub fn cmos_switch_instance(s: Span) -> IResult<Span, CmosSwitchInstance> {
Ok((s, CmosSwitchInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn enable_gate_instance(s: Span) -> IResult<Span, EnableGateInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(tuple((
@ -396,7 +396,7 @@ pub fn enable_gate_instance(s: Span) -> IResult<Span, EnableGateInstance> {
Ok((s, EnableGateInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn mos_switch_instance(s: Span) -> IResult<Span, MosSwitchInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(tuple((
@ -409,7 +409,7 @@ pub fn mos_switch_instance(s: Span) -> IResult<Span, MosSwitchInstance> {
Ok((s, MosSwitchInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn n_input_gate_instance(s: Span) -> IResult<Span, NInputGateInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(tuple((
@ -420,7 +420,7 @@ pub fn n_input_gate_instance(s: Span) -> IResult<Span, NInputGateInstance> {
Ok((s, NInputGateInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn n_output_gate_instance(s: Span) -> IResult<Span, NOutputGateInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(tuple((
@ -431,14 +431,14 @@ pub fn n_output_gate_instance(s: Span) -> IResult<Span, NOutputGateInstance> {
Ok((s, NOutputGateInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn pass_switch_instance(s: Span) -> IResult<Span, PassSwitchInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(tuple((inout_terminal, symbol(","), inout_terminal)))(s)?;
Ok((s, PassSwitchInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn pass_enable_switch_instance(s: Span) -> IResult<Span, PassEnableSwitchInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(tuple((
@ -451,7 +451,7 @@ pub fn pass_enable_switch_instance(s: Span) -> IResult<Span, PassEnableSwitchIns
Ok((s, PassEnableSwitchInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn pull_gate_instance(s: Span) -> IResult<Span, PullGateInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(output_terminal)(s)?;

16
src/parser/primitive_instances/primitive_strengths.rs
View File

@ -51,12 +51,12 @@ pub struct PullupStrength1<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn pulldown_strength(s: Span) -> IResult<Span, PulldownStrength> {
alt((pulldown_strength01, pulldown_strength10, pulldown_strength0))(s)
}
#[trace]
#[parser]
pub fn pulldown_strength01(s: Span) -> IResult<Span, PulldownStrength> {
let (s, a) = paren(triple(strength0, symbol(","), strength1))(s)?;
Ok((
@ -65,7 +65,7 @@ pub fn pulldown_strength01(s: Span) -> IResult<Span, PulldownStrength> {
))
}
#[trace]
#[parser]
pub fn pulldown_strength10(s: Span) -> IResult<Span, PulldownStrength> {
let (s, a) = paren(triple(strength1, symbol(","), strength0))(s)?;
Ok((
@ -74,7 +74,7 @@ pub fn pulldown_strength10(s: Span) -> IResult<Span, PulldownStrength> {
))
}
#[trace]
#[parser]
pub fn pulldown_strength0(s: Span) -> IResult<Span, PulldownStrength> {
let (s, a) = paren(strength0)(s)?;
Ok((
@ -83,12 +83,12 @@ pub fn pulldown_strength0(s: Span) -> IResult<Span, PulldownStrength> {
))
}
#[trace]
#[parser]
pub fn pullup_strength(s: Span) -> IResult<Span, PullupStrength> {
alt((pullup_strength01, pullup_strength10, pullup_strength1))(s)
}
#[trace]
#[parser]
pub fn pullup_strength01(s: Span) -> IResult<Span, PullupStrength> {
let (s, a) = paren(triple(strength0, symbol(","), strength1))(s)?;
Ok((
@ -97,7 +97,7 @@ pub fn pullup_strength01(s: Span) -> IResult<Span, PullupStrength> {
))
}
#[trace]
#[parser]
pub fn pullup_strength10(s: Span) -> IResult<Span, PullupStrength> {
let (s, a) = paren(triple(strength1, symbol(","), strength0))(s)?;
Ok((
@ -106,7 +106,7 @@ pub fn pullup_strength10(s: Span) -> IResult<Span, PullupStrength> {
))
}
#[trace]
#[parser]
pub fn pullup_strength1(s: Span) -> IResult<Span, PullupStrength> {
let (s, a) = paren(strength1)(s)?;
Ok((

12
src/parser/primitive_instances/primitive_terminals.rs
View File

@ -36,37 +36,37 @@ pub struct PcontrolTerminal<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn enable_terminal(s: Span) -> IResult<Span, EnableTerminal> {
let (s, a) = expression(s)?;
Ok((s, EnableTerminal { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn inout_terminal(s: Span) -> IResult<Span, InoutTerminal> {
let (s, a) = net_lvalue(s)?;
Ok((s, InoutTerminal { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn input_terminal(s: Span) -> IResult<Span, InputTerminal> {
let (s, a) = expression(s)?;
Ok((s, InputTerminal { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn ncontrol_terminal(s: Span) -> IResult<Span, NcontrolTerminal> {
let (s, a) = expression(s)?;
Ok((s, NcontrolTerminal { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn output_terminal(s: Span) -> IResult<Span, OutputTerminal> {
let (s, a) = net_lvalue(s)?;
Ok((s, OutputTerminal { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn pcontrol_terminal(s: Span) -> IResult<Span, PcontrolTerminal> {
let (s, a) = expression(s)?;
Ok((s, PcontrolTerminal { nodes: (a,) }))

20
src/parser/source_text/checker_items.rs
View File

@ -92,13 +92,13 @@ pub enum CheckerGenerateItem<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn checker_port_list(s: Span) -> IResult<Span, CheckerPortList> {
let (s, a) = list(symbol(","), checker_port_item)(s)?;
Ok((s, CheckerPortList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn checker_port_item(s: Span) -> IResult<Span, CheckerPortItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = opt(checker_port_direction)(s)?;
@ -114,7 +114,7 @@ pub fn checker_port_item(s: Span) -> IResult<Span, CheckerPortItem> {
))
}
#[trace]
#[parser]
pub fn checker_port_direction(s: Span) -> IResult<Span, CheckerPortDirection> {
alt((
map(symbol("input"), |x| CheckerPortDirection::Input(x)),
@ -122,7 +122,7 @@ pub fn checker_port_direction(s: Span) -> IResult<Span, CheckerPortDirection> {
))(s)
}
#[trace]
#[parser]
pub fn checker_or_generate_item(s: Span) -> IResult<Span, CheckerOrGenerateItem> {
alt((
map(checker_or_generate_item_declaration, |x| {
@ -147,7 +147,7 @@ pub fn checker_or_generate_item(s: Span) -> IResult<Span, CheckerOrGenerateItem>
))(s)
}
#[trace]
#[parser]
pub fn checker_or_generate_item_declaration(
s: Span,
) -> IResult<Span, CheckerOrGenerateItemDeclaration> {
@ -177,7 +177,7 @@ pub fn checker_or_generate_item_declaration(
))(s)
}
#[trace]
#[parser]
pub fn checker_or_generate_item_declaration_data(
s: Span,
) -> IResult<Span, CheckerOrGenerateItemDeclaration> {
@ -191,13 +191,13 @@ pub fn checker_or_generate_item_declaration_data(
))
}
#[trace]
#[parser]
pub fn rand(s: Span) -> IResult<Span, Rand> {
let (s, a) = symbol("rand")(s)?;
Ok((s, Rand { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn checker_or_generate_item_declaration_clocking(
s: Span,
) -> IResult<Span, CheckerOrGenerateItemDeclaration> {
@ -213,7 +213,7 @@ pub fn checker_or_generate_item_declaration_clocking(
))
}
#[trace]
#[parser]
pub fn checker_or_generate_item_declaration_disable(
s: Span,
) -> IResult<Span, CheckerOrGenerateItemDeclaration> {
@ -230,7 +230,7 @@ pub fn checker_or_generate_item_declaration_disable(
))
}
#[trace]
#[parser]
pub fn checker_generate_item(s: Span) -> IResult<Span, CheckerGenerateItem> {
alt((
map(loop_generate_construct, |x| {

50
src/parser/source_text/class_items.rs
View File

@ -200,7 +200,7 @@ pub struct New<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn class_item(s: Span) -> IResult<Span, ClassItem> {
alt((
class_item_property,
@ -218,21 +218,21 @@ pub fn class_item(s: Span) -> IResult<Span, ClassItem> {
))(s)
}
#[trace]
#[parser]
pub fn class_item_property(s: Span) -> IResult<Span, ClassItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = class_property(s)?;
Ok((s, ClassItem::Property(ClassItemProperty { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn class_item_method(s: Span) -> IResult<Span, ClassItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = class_method(s)?;
Ok((s, ClassItem::Method(ClassItemMethod { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn class_item_constraint(s: Span) -> IResult<Span, ClassItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = class_constraint(s)?;
@ -242,7 +242,7 @@ pub fn class_item_constraint(s: Span) -> IResult<Span, ClassItem> {
))
}
#[trace]
#[parser]
pub fn class_item_declaration(s: Span) -> IResult<Span, ClassItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = class_declaration(s)?;
@ -252,7 +252,7 @@ pub fn class_item_declaration(s: Span) -> IResult<Span, ClassItem> {
))
}
#[trace]
#[parser]
pub fn class_item_covergroup(s: Span) -> IResult<Span, ClassItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = covergroup_declaration(s)?;
@ -262,12 +262,12 @@ pub fn class_item_covergroup(s: Span) -> IResult<Span, ClassItem> {
))
}
#[trace]
#[parser]
pub fn class_property(s: Span) -> IResult<Span, ClassProperty> {
alt((class_property_non_const, class_property_const))(s)
}
#[trace]
#[parser]
pub fn class_property_non_const(s: Span) -> IResult<Span, ClassProperty> {
let (s, a) = many0(property_qualifier)(s)?;
let (s, b) = data_declaration(s)?;
@ -277,7 +277,7 @@ pub fn class_property_non_const(s: Span) -> IResult<Span, ClassProperty> {
))
}
#[trace]
#[parser]
pub fn class_property_const(s: Span) -> IResult<Span, ClassProperty> {
let (s, a) = symbol("const")(s)?;
let (s, b) = many0(class_item_qualifier)(s)?;
@ -293,7 +293,7 @@ pub fn class_property_const(s: Span) -> IResult<Span, ClassProperty> {
))
}
#[trace]
#[parser]
pub fn class_method(s: Span) -> IResult<Span, ClassMethod> {
alt((
class_method_task,
@ -305,14 +305,14 @@ pub fn class_method(s: Span) -> IResult<Span, ClassMethod> {
))(s)
}
#[trace]
#[parser]
pub fn class_method_task(s: Span) -> IResult<Span, ClassMethod> {
let (s, a) = many0(method_qualifier)(s)?;
let (s, b) = task_declaration(s)?;
Ok((s, ClassMethod::Task(ClassMethodTask { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn class_method_function(s: Span) -> IResult<Span, ClassMethod> {
let (s, a) = many0(method_qualifier)(s)?;
let (s, b) = function_declaration(s)?;
@ -322,7 +322,7 @@ pub fn class_method_function(s: Span) -> IResult<Span, ClassMethod> {
))
}
#[trace]
#[parser]
pub fn class_method_pure_virtual(s: Span) -> IResult<Span, ClassMethod> {
let (s, a) = symbol("pure")(s)?;
let (s, b) = symbol("virtual")(s)?;
@ -337,7 +337,7 @@ pub fn class_method_pure_virtual(s: Span) -> IResult<Span, ClassMethod> {
))
}
#[trace]
#[parser]
pub fn class_method_extern_method(s: Span) -> IResult<Span, ClassMethod> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = many0(method_qualifier)(s)?;
@ -351,7 +351,7 @@ pub fn class_method_extern_method(s: Span) -> IResult<Span, ClassMethod> {
))
}
#[trace]
#[parser]
pub fn class_method_constructor(s: Span) -> IResult<Span, ClassMethod> {
let (s, a) = many0(method_qualifier)(s)?;
let (s, b) = class_constructor_declaration(s)?;
@ -361,7 +361,7 @@ pub fn class_method_constructor(s: Span) -> IResult<Span, ClassMethod> {
))
}
#[trace]
#[parser]
pub fn class_method_extern_constructor(s: Span) -> IResult<Span, ClassMethod> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = many0(method_qualifier)(s)?;
@ -372,7 +372,7 @@ pub fn class_method_extern_constructor(s: Span) -> IResult<Span, ClassMethod> {
))
}
#[trace]
#[parser]
pub fn class_constructor_prototype(s: Span) -> IResult<Span, ClassConstructorPrototype> {
let (s, a) = symbol("function")(s)?;
let (s, b) = symbol("new")(s)?;
@ -386,7 +386,7 @@ pub fn class_constructor_prototype(s: Span) -> IResult<Span, ClassConstructorPro
))
}
#[trace]
#[parser]
pub fn class_constraint(s: Span) -> IResult<Span, ClassConstraint> {
alt((
map(constraint_prototype, |x| {
@ -398,7 +398,7 @@ pub fn class_constraint(s: Span) -> IResult<Span, ClassConstraint> {
))(s)
}
#[trace]
#[parser]
pub fn class_item_qualifier(s: Span) -> IResult<Span, ClassItemQualifier> {
alt((
map(symbol("static"), |x| ClassItemQualifier::Static(x)),
@ -407,7 +407,7 @@ pub fn class_item_qualifier(s: Span) -> IResult<Span, ClassItemQualifier> {
))(s)
}
#[trace]
#[parser]
pub fn property_qualifier(s: Span) -> IResult<Span, PropertyQualifier> {
alt((
map(random_qualifier, |x| PropertyQualifier::RandomQualifier(x)),
@ -417,7 +417,7 @@ pub fn property_qualifier(s: Span) -> IResult<Span, PropertyQualifier> {
))(s)
}
#[trace]
#[parser]
pub fn random_qualifier(s: Span) -> IResult<Span, RandomQualifier> {
alt((
map(symbol("randc"), |x| RandomQualifier::Randc(x)),
@ -425,7 +425,7 @@ pub fn random_qualifier(s: Span) -> IResult<Span, RandomQualifier> {
))(s)
}
#[trace]
#[parser]
pub fn method_qualifier(s: Span) -> IResult<Span, MethodQualifier> {
alt((
map(pair(symbol("pure"), symbol("virtual")), |x| {
@ -438,7 +438,7 @@ pub fn method_qualifier(s: Span) -> IResult<Span, MethodQualifier> {
))(s)
}
#[trace]
#[parser]
pub fn method_prototype(s: Span) -> IResult<Span, MethodPrototype> {
alt((
map(task_prototype, |x| MethodPrototype::TaskPrototype(x)),
@ -448,7 +448,7 @@ pub fn method_prototype(s: Span) -> IResult<Span, MethodPrototype> {
))(s)
}
#[trace]
#[parser]
pub fn class_constructor_declaration(s: Span) -> IResult<Span, ClassConstructorDeclaration> {
let (s, a) = symbol("function")(s)?;
let (s, b) = opt(class_scope)(s)?;
@ -474,7 +474,7 @@ pub fn class_constructor_declaration(s: Span) -> IResult<Span, ClassConstructorD
))
}
#[trace]
#[parser]
pub fn new(s: Span) -> IResult<Span, New> {
let (s, a) = symbol("new")(s)?;
Ok((s, New { nodes: (a,) }))

36
src/parser/source_text/configuration_source_text.rs
View File

@ -144,7 +144,7 @@ pub struct Config<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn config_declaration(s: Span) -> IResult<Span, ConfigDeclaration> {
let (s, a) = symbol("config")(s)?;
let (s, b) = config_identifier(s)?;
@ -162,7 +162,7 @@ pub fn config_declaration(s: Span) -> IResult<Span, ConfigDeclaration> {
))
}
#[trace]
#[parser]
pub fn design_statement(s: Span) -> IResult<Span, DesignStatement> {
let (s, a) = symbol("design")(s)?;
let (s, b) = many0(pair(
@ -173,7 +173,7 @@ pub fn design_statement(s: Span) -> IResult<Span, DesignStatement> {
Ok((s, DesignStatement { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn config_rule_statement(s: Span) -> IResult<Span, ConfigRuleStatement> {
alt((
config_rule_statement_default,
@ -184,7 +184,7 @@ pub fn config_rule_statement(s: Span) -> IResult<Span, ConfigRuleStatement> {
))(s)
}
#[trace]
#[parser]
pub fn config_rule_statement_default(s: Span) -> IResult<Span, ConfigRuleStatement> {
let (s, a) = default_clause(s)?;
let (s, b) = liblist_clause(s)?;
@ -195,7 +195,7 @@ pub fn config_rule_statement_default(s: Span) -> IResult<Span, ConfigRuleStateme
))
}
#[trace]
#[parser]
pub fn config_rule_statement_inst_lib(s: Span) -> IResult<Span, ConfigRuleStatement> {
let (s, a) = inst_clause(s)?;
let (s, b) = liblist_clause(s)?;
@ -206,7 +206,7 @@ pub fn config_rule_statement_inst_lib(s: Span) -> IResult<Span, ConfigRuleStatem
))
}
#[trace]
#[parser]
pub fn config_rule_statement_inst_use(s: Span) -> IResult<Span, ConfigRuleStatement> {
let (s, a) = inst_clause(s)?;
let (s, b) = use_clause(s)?;
@ -217,7 +217,7 @@ pub fn config_rule_statement_inst_use(s: Span) -> IResult<Span, ConfigRuleStatem
))
}
#[trace]
#[parser]
pub fn config_rule_statement_cell_lib(s: Span) -> IResult<Span, ConfigRuleStatement> {
let (s, a) = cell_clause(s)?;
let (s, b) = liblist_clause(s)?;
@ -228,7 +228,7 @@ pub fn config_rule_statement_cell_lib(s: Span) -> IResult<Span, ConfigRuleStatem
))
}
#[trace]
#[parser]
pub fn config_rule_statement_cell_use(s: Span) -> IResult<Span, ConfigRuleStatement> {
let (s, a) = cell_clause(s)?;
let (s, b) = use_clause(s)?;
@ -239,27 +239,27 @@ pub fn config_rule_statement_cell_use(s: Span) -> IResult<Span, ConfigRuleStatem
))
}
#[trace]
#[parser]
pub fn default_clause(s: Span) -> IResult<Span, DefaultClause> {
let (s, a) = symbol("default")(s)?;
Ok((s, DefaultClause { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn inst_clause(s: Span) -> IResult<Span, InstClause> {
let (s, a) = symbol("instance")(s)?;
let (s, b) = inst_name(s)?;
Ok((s, InstClause { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn inst_name(s: Span) -> IResult<Span, InstName> {
let (s, a) = topmodule_identifier(s)?;
let (s, b) = many0(pair(symbol("."), instance_identifier))(s)?;
Ok((s, InstName { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn cell_clause(s: Span) -> IResult<Span, CellClause> {
let (s, a) = symbol("cell")(s)?;
let (s, b) = opt(pair(library_identifier, symbol(".")))(s)?;
@ -267,19 +267,19 @@ pub fn cell_clause(s: Span) -> IResult<Span, CellClause> {
Ok((s, CellClause { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn liblist_clause(s: Span) -> IResult<Span, LiblistClause> {
let (s, a) = symbol("liblist")(s)?;
let (s, b) = many0(library_identifier)(s)?;
Ok((s, LiblistClause { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn use_clause(s: Span) -> IResult<Span, UseClause> {
alt((use_clause_cell, use_clause_named, use_clause_cell_named))(s)
}
#[trace]
#[parser]
pub fn use_clause_cell(s: Span) -> IResult<Span, UseClause> {
let (s, a) = symbol("use")(s)?;
let (s, b) = opt(pair(library_identifier, symbol(".")))(s)?;
@ -293,7 +293,7 @@ pub fn use_clause_cell(s: Span) -> IResult<Span, UseClause> {
))
}
#[trace]
#[parser]
pub fn use_clause_named(s: Span) -> IResult<Span, UseClause> {
let (s, a) = symbol("use")(s)?;
let (s, b) = list(symbol(","), named_parameter_assignment)(s)?;
@ -301,7 +301,7 @@ pub fn use_clause_named(s: Span) -> IResult<Span, UseClause> {
Ok((s, UseClause::Named(UseClauseNamed { nodes: (a, b, c) })))
}
#[trace]
#[parser]
pub fn use_clause_cell_named(s: Span) -> IResult<Span, UseClause> {
let (s, a) = symbol("use")(s)?;
let (s, b) = opt(pair(library_identifier, symbol(".")))(s)?;
@ -316,7 +316,7 @@ pub fn use_clause_cell_named(s: Span) -> IResult<Span, UseClause> {
))
}
#[trace]
#[parser]
pub fn config(s: Span) -> IResult<Span, Config> {
let (s, a) = symbol("config")(s)?;
Ok((s, Config { nodes: (a,) }))

52
src/parser/source_text/constraints.rs
View File

@ -191,7 +191,7 @@ pub struct IdentifierList<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn constraint_declaration(s: Span) -> IResult<Span, ConstraintDeclaration> {
let (s, a) = opt(r#static)(s)?;
let (s, b) = symbol("constraint")(s)?;
@ -205,19 +205,19 @@ pub fn constraint_declaration(s: Span) -> IResult<Span, ConstraintDeclaration> {
))
}
#[trace]
#[parser]
pub fn r#static(s: Span) -> IResult<Span, Static> {
let (s, a) = symbol("static")(s)?;
Ok((s, Static { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn constraint_block(s: Span) -> IResult<Span, ConstraintBlock> {
let (s, a) = brace(many0(constraint_block_item))(s)?;
Ok((s, ConstraintBlock { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn constraint_block_item(s: Span) -> IResult<Span, ConstraintBlockItem> {
alt((
constraint_block_item_solve,
@ -227,7 +227,7 @@ pub fn constraint_block_item(s: Span) -> IResult<Span, ConstraintBlockItem> {
))(s)
}
#[trace]
#[parser]
pub fn constraint_block_item_solve(s: Span) -> IResult<Span, ConstraintBlockItem> {
let (s, a) = symbol("solve")(s)?;
let (s, b) = solve_before_list(s)?;
@ -242,13 +242,13 @@ pub fn constraint_block_item_solve(s: Span) -> IResult<Span, ConstraintBlockItem
))
}
#[trace]
#[parser]
pub fn solve_before_list(s: Span) -> IResult<Span, SolveBeforeList> {
let (s, a) = list(symbol(","), constraint_primary)(s)?;
Ok((s, SolveBeforeList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn constraint_primary(s: Span) -> IResult<Span, ConstraintPrimary> {
let (s, a) = opt(implicit_class_handle_or_class_scope)(s)?;
let (s, b) = hierarchical_identifier(s)?;
@ -256,7 +256,7 @@ pub fn constraint_primary(s: Span) -> IResult<Span, ConstraintPrimary> {
Ok((s, ConstraintPrimary { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn constraint_expression(s: Span) -> IResult<Span, ConstraintExpression> {
alt((
constraint_expression_expression,
@ -270,7 +270,7 @@ pub fn constraint_expression(s: Span) -> IResult<Span, ConstraintExpression> {
))(s)
}
#[trace]
#[parser]
pub fn constraint_expression_expression(s: Span) -> IResult<Span, ConstraintExpression> {
let (s, a) = opt(soft)(s)?;
let (s, b) = expression_or_dist(s)?;
@ -281,13 +281,13 @@ pub fn constraint_expression_expression(s: Span) -> IResult<Span, ConstraintExpr
))
}
#[trace]
#[parser]
pub fn soft(s: Span) -> IResult<Span, Soft> {
let (s, a) = symbol("soft")(s)?;
Ok((s, Soft { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn constraint_expression_arrow(s: Span) -> IResult<Span, ConstraintExpression> {
let (s, a) = expression(s)?;
let (s, b) = symbol("->")(s)?;
@ -298,7 +298,7 @@ pub fn constraint_expression_arrow(s: Span) -> IResult<Span, ConstraintExpressio
))
}
#[trace]
#[parser]
pub fn constraint_expression_if(s: Span) -> IResult<Span, ConstraintExpression> {
let (s, a) = symbol("if")(s)?;
let (s, b) = paren(expression)(s)?;
@ -312,7 +312,7 @@ pub fn constraint_expression_if(s: Span) -> IResult<Span, ConstraintExpression>
))
}
#[trace]
#[parser]
pub fn constraint_expression_foreach(s: Span) -> IResult<Span, ConstraintExpression> {
let (s, a) = symbol("foreach")(s)?;
let (s, b) = paren(pair(
@ -326,7 +326,7 @@ pub fn constraint_expression_foreach(s: Span) -> IResult<Span, ConstraintExpress
))
}
#[trace]
#[parser]
pub fn constraint_expression_disable(s: Span) -> IResult<Span, ConstraintExpression> {
let (s, a) = symbol("disable")(s)?;
let (s, b) = symbol("soft")(s)?;
@ -340,14 +340,14 @@ pub fn constraint_expression_disable(s: Span) -> IResult<Span, ConstraintExpress
))
}
#[trace]
#[parser]
pub fn uniqueness_constraint(s: Span) -> IResult<Span, UniquenessConstraint> {
let (s, a) = symbol("unique")(s)?;
let (s, b) = brace(open_range_list)(s)?;
Ok((s, UniquenessConstraint { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn constraint_set(s: Span) -> IResult<Span, ConstraintSet> {
alt((
map(constraint_expression, |x| {
@ -357,45 +357,45 @@ pub fn constraint_set(s: Span) -> IResult<Span, ConstraintSet> {
))(s)
}
#[trace]
#[parser]
pub fn constraint_set_brace(s: Span) -> IResult<Span, ConstraintSet> {
let (s, a) = brace(many0(constraint_expression))(s)?;
Ok((s, ConstraintSet::Brace(ConstraintSetBrace { nodes: (a,) })))
}
#[trace]
#[parser]
pub fn dist_list(s: Span) -> IResult<Span, DistList> {
let (s, a) = list(symbol(","), dist_item)(s)?;
Ok((s, DistList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn dist_item(s: Span) -> IResult<Span, DistItem> {
let (s, a) = value_range(s)?;
let (s, b) = opt(dist_weight)(s)?;
Ok((s, DistItem { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn dist_weight(s: Span) -> IResult<Span, DistWeight> {
alt((dist_weight_equal, dist_weight_divide))(s)
}
#[trace]
#[parser]
pub fn dist_weight_equal(s: Span) -> IResult<Span, DistWeight> {
let (s, a) = symbol(":=")(s)?;
let (s, b) = expression(s)?;
Ok((s, DistWeight::Equal(DistWeightEqual { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn dist_weight_divide(s: Span) -> IResult<Span, DistWeight> {
let (s, a) = symbol(":/")(s)?;
let (s, b) = expression(s)?;
Ok((s, DistWeight::Divide(DistWeightDivide { nodes: (a, b) })))
}
#[trace]
#[parser]
pub fn constraint_prototype(s: Span) -> IResult<Span, ConstraintPrototype> {
let (s, a) = opt(constraint_prototype_qualifier)(s)?;
let (s, b) = opt(r#static)(s)?;
@ -410,7 +410,7 @@ pub fn constraint_prototype(s: Span) -> IResult<Span, ConstraintPrototype> {
))
}
#[trace]
#[parser]
pub fn constraint_prototype_qualifier(s: Span) -> IResult<Span, ConstraintPrototypeQualifier> {
alt((
map(symbol("extern"), |x| {
@ -420,7 +420,7 @@ pub fn constraint_prototype_qualifier(s: Span) -> IResult<Span, ConstraintProtot
))(s)
}
#[trace]
#[parser]
pub fn extern_constraint_declaration(s: Span) -> IResult<Span, ExternConstraintDeclaration> {
let (s, a) = opt(r#static)(s)?;
let (s, b) = symbol("constraint")(s)?;
@ -435,7 +435,7 @@ pub fn extern_constraint_declaration(s: Span) -> IResult<Span, ExternConstraintD
))
}
#[trace]
#[parser]
pub fn identifier_list(s: Span) -> IResult<Span, IdentifierList> {
let (s, a) = list(symbol(","), identifier)(s)?;
Ok((s, IdentifierList { nodes: (a,) }))

16
src/parser/source_text/interface_items.rs
View File

@ -58,7 +58,7 @@ pub enum NonPortInterfaceItem<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn interface_or_generate_item(s: Span) -> IResult<Span, InterfaceOrGenerateItem> {
alt((
interface_or_generate_item_module,
@ -66,7 +66,7 @@ pub fn interface_or_generate_item(s: Span) -> IResult<Span, InterfaceOrGenerateI
))(s)
}
#[trace]
#[parser]
pub fn interface_or_generate_item_module(s: Span) -> IResult<Span, InterfaceOrGenerateItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = module_common_item(s)?;
@ -76,7 +76,7 @@ pub fn interface_or_generate_item_module(s: Span) -> IResult<Span, InterfaceOrGe
))
}
#[trace]
#[parser]
pub fn interface_or_generate_item_extern(s: Span) -> IResult<Span, InterfaceOrGenerateItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = extern_tf_declaration(s)?;
@ -86,12 +86,12 @@ pub fn interface_or_generate_item_extern(s: Span) -> IResult<Span, InterfaceOrGe
))
}
#[trace]
#[parser]
pub fn extern_tf_declaration(s: Span) -> IResult<Span, ExternTfDeclaration> {
alt((extern_tf_declaration_method, extern_tf_declaration_task))(s)
}
#[trace]
#[parser]
pub fn extern_tf_declaration_method(s: Span) -> IResult<Span, ExternTfDeclaration> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = method_prototype(s)?;
@ -102,7 +102,7 @@ pub fn extern_tf_declaration_method(s: Span) -> IResult<Span, ExternTfDeclaratio
))
}
#[trace]
#[parser]
pub fn extern_tf_declaration_task(s: Span) -> IResult<Span, ExternTfDeclaration> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = symbol("forkjoin")(s)?;
@ -116,7 +116,7 @@ pub fn extern_tf_declaration_task(s: Span) -> IResult<Span, ExternTfDeclaration>
))
}
#[trace]
#[parser]
pub fn interface_item(s: Span) -> IResult<Span, InterfaceItem> {
alt((
map(pair(port_declaration, symbol(";")), |x| {
@ -128,7 +128,7 @@ pub fn interface_item(s: Span) -> IResult<Span, InterfaceItem> {
))(s)
}
#[trace]
#[parser]
pub fn non_port_interface_item(s: Span) -> IResult<Span, NonPortInterfaceItem> {
alt((
map(generate_region, |x| NonPortInterfaceItem::GenerateRegion(x)),

10
src/parser/source_text/library_source_text.rs
View File

@ -44,13 +44,13 @@ pub struct FilePathSpec<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn library_text(s: Span) -> IResult<Span, LibraryText> {
let (s, a) = many0(library_description)(s)?;
Ok((s, LibraryText { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn library_description(s: Span) -> IResult<Span, LibraryDescription> {
alt((
map(library_declaration, |x| {
@ -66,7 +66,7 @@ pub fn library_description(s: Span) -> IResult<Span, LibraryDescription> {
))(s)
}
#[trace]
#[parser]
pub fn library_declaration(s: Span) -> IResult<Span, LibraryDeclaration> {
let (s, a) = symbol("library")(s)?;
let (s, b) = library_identifier(s)?;
@ -81,7 +81,7 @@ pub fn library_declaration(s: Span) -> IResult<Span, LibraryDeclaration> {
))
}
#[trace]
#[parser]
pub fn include_statement(s: Span) -> IResult<Span, IncludeStatement> {
let (s, a) = symbol("include")(s)?;
let (s, b) = file_path_spec(s)?;
@ -90,7 +90,7 @@ pub fn include_statement(s: Span) -> IResult<Span, IncludeStatement> {
}
//TODO support non literal path
#[trace]
#[parser]
pub fn file_path_spec(s: Span) -> IResult<Span, FilePathSpec> {
let (s, a) = string_literal(s)?;
Ok((s, FilePathSpec { nodes: (a,) }))

54
src/parser/source_text/module_items.rs
View File

@ -216,7 +216,7 @@ pub enum BindInstantiation<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn elaboration_system_task(s: Span) -> IResult<Span, ElaborationSystemTask> {
alt((
elaboration_system_task_fatal,
@ -226,7 +226,7 @@ pub fn elaboration_system_task(s: Span) -> IResult<Span, ElaborationSystemTask>
))(s)
}
#[trace]
#[parser]
pub fn elaboration_system_task_fatal(s: Span) -> IResult<Span, ElaborationSystemTask> {
let (s, a) = symbol("$fatal")(s)?;
let (s, b) = opt(paren(pair(
@ -240,7 +240,7 @@ pub fn elaboration_system_task_fatal(s: Span) -> IResult<Span, ElaborationSystem
))
}
#[trace]
#[parser]
pub fn elaboration_system_task_error(s: Span) -> IResult<Span, ElaborationSystemTask> {
let (s, a) = symbol("$error")(s)?;
let (s, b) = opt(paren(opt(list_of_arguments)))(s)?;
@ -251,7 +251,7 @@ pub fn elaboration_system_task_error(s: Span) -> IResult<Span, ElaborationSystem
))
}
#[trace]
#[parser]
pub fn elaboration_system_task_warning(s: Span) -> IResult<Span, ElaborationSystemTask> {
let (s, a) = symbol("$warning")(s)?;
let (s, b) = opt(paren(opt(list_of_arguments)))(s)?;
@ -262,7 +262,7 @@ pub fn elaboration_system_task_warning(s: Span) -> IResult<Span, ElaborationSyst
))
}
#[trace]
#[parser]
pub fn elaboration_system_task_info(s: Span) -> IResult<Span, ElaborationSystemTask> {
let (s, a) = symbol("$info")(s)?;
let (s, b) = opt(paren(opt(list_of_arguments)))(s)?;
@ -273,7 +273,7 @@ pub fn elaboration_system_task_info(s: Span) -> IResult<Span, ElaborationSystemT
))
}
#[trace]
#[parser]
pub fn finish_number(s: Span) -> IResult<Span, FinishNumber> {
alt((
map(symbol("0"), |x| FinishNumber::Zero(x)),
@ -282,7 +282,7 @@ pub fn finish_number(s: Span) -> IResult<Span, FinishNumber> {
))(s)
}
#[trace]
#[parser]
pub fn module_common_item(s: Span) -> IResult<Span, ModuleCommonItem> {
alt((
map(module_or_generate_item_declaration, |x| {
@ -313,7 +313,7 @@ pub fn module_common_item(s: Span) -> IResult<Span, ModuleCommonItem> {
))(s)
}
#[trace]
#[parser]
pub fn module_item(s: Span) -> IResult<Span, ModuleItem> {
alt((
map(pair(port_declaration, symbol(";")), |x| {
@ -323,7 +323,7 @@ pub fn module_item(s: Span) -> IResult<Span, ModuleItem> {
))(s)
}
#[trace]
#[parser]
pub fn module_or_generate_item(s: Span) -> IResult<Span, ModuleOrGenerateItem> {
alt((
module_or_generate_item_parameter,
@ -334,7 +334,7 @@ pub fn module_or_generate_item(s: Span) -> IResult<Span, ModuleOrGenerateItem> {
))(s)
}
#[trace]
#[parser]
pub fn module_or_generate_item_parameter(s: Span) -> IResult<Span, ModuleOrGenerateItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = parameter_override(s)?;
@ -344,7 +344,7 @@ pub fn module_or_generate_item_parameter(s: Span) -> IResult<Span, ModuleOrGener
))
}
#[trace]
#[parser]
pub fn module_or_generate_item_gate(s: Span) -> IResult<Span, ModuleOrGenerateItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = gate_instantiation(s)?;
@ -354,7 +354,7 @@ pub fn module_or_generate_item_gate(s: Span) -> IResult<Span, ModuleOrGenerateIt
))
}
#[trace]
#[parser]
pub fn module_or_generate_item_udp(s: Span) -> IResult<Span, ModuleOrGenerateItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = udp_instantiation(s)?;
@ -364,7 +364,7 @@ pub fn module_or_generate_item_udp(s: Span) -> IResult<Span, ModuleOrGenerateIte
))
}
#[trace]
#[parser]
pub fn module_or_generate_item_module(s: Span) -> IResult<Span, ModuleOrGenerateItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = module_instantiation(s)?;
@ -374,7 +374,7 @@ pub fn module_or_generate_item_module(s: Span) -> IResult<Span, ModuleOrGenerate
))
}
#[trace]
#[parser]
pub fn module_or_generate_item_module_item(s: Span) -> IResult<Span, ModuleOrGenerateItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = module_common_item(s)?;
@ -386,7 +386,7 @@ pub fn module_or_generate_item_module_item(s: Span) -> IResult<Span, ModuleOrGen
))
}
#[trace]
#[parser]
pub fn module_or_generate_item_declaration(
s: Span,
) -> IResult<Span, ModuleOrGenerateItemDeclaration> {
@ -405,7 +405,7 @@ pub fn module_or_generate_item_declaration(
))(s)
}
#[trace]
#[parser]
pub fn module_or_generate_item_declaration_clocking(
s: Span,
) -> IResult<Span, ModuleOrGenerateItemDeclaration> {
@ -421,7 +421,7 @@ pub fn module_or_generate_item_declaration_clocking(
))
}
#[trace]
#[parser]
pub fn module_or_generate_item_declaration_disable(
s: Span,
) -> IResult<Span, ModuleOrGenerateItemDeclaration> {
@ -438,7 +438,7 @@ pub fn module_or_generate_item_declaration_disable(
))
}
#[trace]
#[parser]
pub fn non_port_module_item(s: Span) -> IResult<Span, NonPortModuleItem> {
alt((
map(generate_region, |x| NonPortModuleItem::GenerateRegion(x)),
@ -462,7 +462,7 @@ pub fn non_port_module_item(s: Span) -> IResult<Span, NonPortModuleItem> {
))(s)
}
#[trace]
#[parser]
pub fn non_port_module_item_specparam(s: Span) -> IResult<Span, NonPortModuleItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = specparam_declaration(s)?;
@ -472,7 +472,7 @@ pub fn non_port_module_item_specparam(s: Span) -> IResult<Span, NonPortModuleIte
))
}
#[trace]
#[parser]
pub fn parameter_override(s: Span) -> IResult<Span, ParameterOverride> {
let (s, a) = symbol("defparam")(s)?;
let (s, b) = list_of_defparam_assignments(s)?;
@ -480,12 +480,12 @@ pub fn parameter_override(s: Span) -> IResult<Span, ParameterOverride> {
Ok((s, ParameterOverride { nodes: (a, b, c) }))
}
#[trace]
#[parser]
pub fn bind_directive(s: Span) -> IResult<Span, BindDirective> {
alt((bind_directive_scope, bind_directive_instance))(s)
}
#[trace]
#[parser]
pub fn bind_directive_scope(s: Span) -> IResult<Span, BindDirective> {
let (s, a) = symbol("bind")(s)?;
let (s, b) = bind_target_scope(s)?;
@ -500,7 +500,7 @@ pub fn bind_directive_scope(s: Span) -> IResult<Span, BindDirective> {
))
}
#[trace]
#[parser]
pub fn bind_directive_instance(s: Span) -> IResult<Span, BindDirective> {
let (s, a) = symbol("bind")(s)?;
let (s, b) = bind_target_instance(s)?;
@ -514,7 +514,7 @@ pub fn bind_directive_instance(s: Span) -> IResult<Span, BindDirective> {
))
}
#[trace]
#[parser]
pub fn bind_target_scope(s: Span) -> IResult<Span, BindTargetScope> {
alt((
map(module_identifier, |x| BindTargetScope::ModuleIdentifier(x)),
@ -524,20 +524,20 @@ pub fn bind_target_scope(s: Span) -> IResult<Span, BindTargetScope> {
))(s)
}
#[trace]
#[parser]
pub fn bind_target_instance(s: Span) -> IResult<Span, BindTargetInstance> {
let (s, a) = hierarchical_identifier(s)?;
let (s, b) = constant_bit_select(s)?;
Ok((s, BindTargetInstance { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn bind_target_instance_list(s: Span) -> IResult<Span, BindTargetInstanceList> {
let (s, a) = list(symbol(","), bind_target_instance)(s)?;
Ok((s, BindTargetInstanceList { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn bind_instantiation(s: Span) -> IResult<Span, BindInstantiation> {
alt((
map(program_instantiation, |x| {

64
src/parser/source_text/module_parameters_and_ports.rs
View File

@ -218,7 +218,7 @@ pub struct AnsiPortDeclarationParen<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn parameter_port_list(s: Span) -> IResult<Span, ParameterPortList> {
alt((
parameter_port_list_assignment,
@ -227,7 +227,7 @@ pub fn parameter_port_list(s: Span) -> IResult<Span, ParameterPortList> {
))(s)
}
#[trace]
#[parser]
pub fn parameter_port_list_assignment(s: Span) -> IResult<Span, ParameterPortList> {
let (s, a) = symbol("#")(s)?;
let (s, b) = paren(pair(
@ -240,7 +240,7 @@ pub fn parameter_port_list_assignment(s: Span) -> IResult<Span, ParameterPortLis
))
}
#[trace]
#[parser]
pub fn parameter_port_list_declaration(s: Span) -> IResult<Span, ParameterPortList> {
let (s, a) = symbol("#")(s)?;
let (s, b) = paren(list(symbol(","), parameter_port_declaration))(s)?;
@ -250,7 +250,7 @@ pub fn parameter_port_list_declaration(s: Span) -> IResult<Span, ParameterPortLi
))
}
#[trace]
#[parser]
pub fn parameter_port_list_empty(s: Span) -> IResult<Span, ParameterPortList> {
let (s, a) = symbol("#")(s)?;
let (s, b) = symbol("(")(s)?;
@ -258,7 +258,7 @@ pub fn parameter_port_list_empty(s: Span) -> IResult<Span, ParameterPortList> {
Ok((s, ParameterPortList::Empty((a, b, c))))
}
#[trace]
#[parser]
pub fn parameter_port_declaration(s: Span) -> IResult<Span, ParameterPortDeclaration> {
alt((
map(parameter_declaration, |x| {
@ -272,7 +272,7 @@ pub fn parameter_port_declaration(s: Span) -> IResult<Span, ParameterPortDeclara
))(s)
}
#[trace]
#[parser]
pub fn parameter_port_declaration_param_list(s: Span) -> IResult<Span, ParameterPortDeclaration> {
let (s, a) = data_type(s)?;
let (s, b) = list_of_param_assignments(s)?;
@ -282,7 +282,7 @@ pub fn parameter_port_declaration_param_list(s: Span) -> IResult<Span, Parameter
))
}
#[trace]
#[parser]
pub fn parameter_port_declaration_type_list(s: Span) -> IResult<Span, ParameterPortDeclaration> {
let (s, a) = symbol("type")(s)?;
let (s, b) = list_of_type_assignments(s)?;
@ -292,13 +292,13 @@ pub fn parameter_port_declaration_type_list(s: Span) -> IResult<Span, ParameterP
))
}
#[trace]
#[parser]
pub fn list_of_ports(s: Span) -> IResult<Span, ListOfPorts> {
let (s, a) = paren(list(symbol(","), port))(s)?;
Ok((s, ListOfPorts { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn list_of_port_declarations(s: Span) -> IResult<Span, ListOfPortDeclarations> {
let (s, a) = paren(opt(list(
symbol(","),
@ -307,7 +307,7 @@ pub fn list_of_port_declarations(s: Span) -> IResult<Span, ListOfPortDeclaration
Ok((s, ListOfPortDeclarations { nodes: (a,) }))
}
#[trace]
#[parser]
pub fn port_declaration(s: Span) -> IResult<Span, PortDeclaration> {
alt((
port_declaration_inout,
@ -318,7 +318,7 @@ pub fn port_declaration(s: Span) -> IResult<Span, PortDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn port_declaration_inout(s: Span) -> IResult<Span, PortDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = inout_declaration(s)?;
@ -328,7 +328,7 @@ pub fn port_declaration_inout(s: Span) -> IResult<Span, PortDeclaration> {
))
}
#[trace]
#[parser]
pub fn port_declaration_input(s: Span) -> IResult<Span, PortDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = input_declaration(s)?;
@ -338,7 +338,7 @@ pub fn port_declaration_input(s: Span) -> IResult<Span, PortDeclaration> {
))
}
#[trace]
#[parser]
pub fn port_declaration_output(s: Span) -> IResult<Span, PortDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = output_declaration(s)?;
@ -348,7 +348,7 @@ pub fn port_declaration_output(s: Span) -> IResult<Span, PortDeclaration> {
))
}
#[trace]
#[parser]
pub fn port_declaration_ref(s: Span) -> IResult<Span, PortDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = ref_declaration(s)?;
@ -358,7 +358,7 @@ pub fn port_declaration_ref(s: Span) -> IResult<Span, PortDeclaration> {
))
}
#[trace]
#[parser]
pub fn port_declaration_interface(s: Span) -> IResult<Span, PortDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = interface_port_declaration(s)?;
@ -368,18 +368,18 @@ pub fn port_declaration_interface(s: Span) -> IResult<Span, PortDeclaration> {
))
}
#[trace]
#[parser]
pub fn port(s: Span) -> IResult<Span, Port> {
alt((port_non_named, port_named))(s)
}
#[trace]
#[parser]
pub fn port_non_named(s: Span) -> IResult<Span, Port> {
let (s, a) = opt(port_expression)(s)?;
Ok((s, Port::NonNamed(PortNonNamed { nodes: (a,) })))
}
#[trace]
#[parser]
pub fn port_named(s: Span) -> IResult<Span, Port> {
let (s, a) = symbol(".")(s)?;
let (s, b) = port_identifier(s)?;
@ -387,7 +387,7 @@ pub fn port_named(s: Span) -> IResult<Span, Port> {
Ok((s, Port::Named(PortNamed { nodes: (a, b, c) })))
}
#[trace]
#[parser]
pub fn port_expression(s: Span) -> IResult<Span, PortExpression> {
alt((
map(port_reference, |x| PortExpression::PortReference(x)),
@ -395,7 +395,7 @@ pub fn port_expression(s: Span) -> IResult<Span, PortExpression> {
))(s)
}
#[trace]
#[parser]
pub fn port_expressio_named(s: Span) -> IResult<Span, PortExpression> {
let (s, a) = brace(list(symbol(","), port_reference))(s)?;
Ok((
@ -404,14 +404,14 @@ pub fn port_expressio_named(s: Span) -> IResult<Span, PortExpression> {
))
}
#[trace]
#[parser]
pub fn port_reference(s: Span) -> IResult<Span, PortReference> {
let (s, a) = port_identifier(s)?;
let (s, b) = constant_select(s)?;
Ok((s, PortReference { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn port_direction(s: Span) -> IResult<Span, PortDirection> {
alt((
map(symbol("input"), |x| PortDirection::Input(x)),
@ -421,21 +421,21 @@ pub fn port_direction(s: Span) -> IResult<Span, PortDirection> {
))(s)
}
#[trace]
#[parser]
pub fn net_port_header(s: Span) -> IResult<Span, NetPortHeader> {
let (s, a) = opt(port_direction)(s)?;
let (s, b) = net_port_type(s)?;
Ok((s, NetPortHeader { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn variable_port_header(s: Span) -> IResult<Span, VariablePortHeader> {
let (s, a) = opt(port_direction)(s)?;
let (s, b) = variable_port_type(s)?;
Ok((s, VariablePortHeader { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn interface_port_header(s: Span) -> IResult<Span, InterfacePortHeader> {
alt((
interface_port_header_identifier,
@ -443,7 +443,7 @@ pub fn interface_port_header(s: Span) -> IResult<Span, InterfacePortHeader> {
))(s)
}
#[trace]
#[parser]
pub fn interface_port_header_identifier(s: Span) -> IResult<Span, InterfacePortHeader> {
let (s, a) = interface_identifier(s)?;
let (s, b) = opt(pair(symbol("."), modport_identifier))(s)?;
@ -453,7 +453,7 @@ pub fn interface_port_header_identifier(s: Span) -> IResult<Span, InterfacePortH
))
}
#[trace]
#[parser]
pub fn interface_port_header_interface(s: Span) -> IResult<Span, InterfacePortHeader> {
let (s, a) = symbol("interface")(s)?;
let (s, b) = opt(pair(symbol("."), modport_identifier))(s)?;
@ -463,7 +463,7 @@ pub fn interface_port_header_interface(s: Span) -> IResult<Span, InterfacePortHe
))
}
#[trace]
#[parser]
pub fn ansi_port_declaration(s: Span) -> IResult<Span, AnsiPortDeclaration> {
alt((
ansi_port_declaration_net,
@ -472,7 +472,7 @@ pub fn ansi_port_declaration(s: Span) -> IResult<Span, AnsiPortDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn ansi_port_declaration_net(s: Span) -> IResult<Span, AnsiPortDeclaration> {
let (s, a) = opt(net_port_header_or_interface_port_header)(s)?;
let (s, b) = port_identifier(s)?;
@ -486,7 +486,7 @@ pub fn ansi_port_declaration_net(s: Span) -> IResult<Span, AnsiPortDeclaration>
))
}
#[trace]
#[parser]
pub fn net_port_header_or_interface_port_header(
s: Span,
) -> IResult<Span, NetPortHeaderOrInterfacePortHeader> {
@ -500,7 +500,7 @@ pub fn net_port_header_or_interface_port_header(
))(s)
}
#[trace]
#[parser]
pub fn ansi_port_declaration_port(s: Span) -> IResult<Span, AnsiPortDeclaration> {
let (s, a) = opt(variable_port_header)(s)?;
let (s, b) = port_identifier(s)?;
@ -514,7 +514,7 @@ pub fn ansi_port_declaration_port(s: Span) -> IResult<Span, AnsiPortDeclaration>
))
}
#[trace]
#[parser]
pub fn ansi_port_declaration_paren(s: Span) -> IResult<Span, AnsiPortDeclaration> {
let (s, a) = opt(port_direction)(s)?;
let (s, b) = symbol(".")(s)?;

8
src/parser/source_text/package_items.rs
View File

@ -56,7 +56,7 @@ pub enum AnonymousProgramItem<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn package_item(s: Span) -> IResult<Span, PackageItem> {
alt((
map(package_or_generate_item_declaration, |x| {
@ -72,7 +72,7 @@ pub fn package_item(s: Span) -> IResult<Span, PackageItem> {
))(s)
}
#[trace]
#[parser]
pub fn package_or_generate_item_declaration(
s: Span,
) -> IResult<Span, PackageOrGenerateItemDeclaration> {
@ -120,7 +120,7 @@ pub fn package_or_generate_item_declaration(
))(s)
}
#[trace]
#[parser]
pub fn anonymous_program(s: Span) -> IResult<Span, AnonymousProgram> {
let (s, a) = symbol("program")(s)?;
let (s, b) = symbol(";")(s)?;
@ -134,7 +134,7 @@ pub fn anonymous_program(s: Span) -> IResult<Span, AnonymousProgram> {
))
}
#[trace]
#[parser]
pub fn anonymous_program_item(s: Span) -> IResult<Span, AnonymousProgramItem> {
alt((
map(task_declaration, |x| {

16
src/parser/source_text/program_items.rs
View File

@ -63,7 +63,7 @@ pub enum ProgramGenerateItem<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn program_item(s: Span) -> IResult<Span, ProgramItem> {
alt((
map(pair(port_declaration, symbol(";")), |x| {
@ -75,7 +75,7 @@ pub fn program_item(s: Span) -> IResult<Span, ProgramItem> {
))(s)
}
#[trace]
#[parser]
pub fn non_port_program_item(s: Span) -> IResult<Span, NonPortProgramItem> {
alt((
non_port_program_item_assign,
@ -92,7 +92,7 @@ pub fn non_port_program_item(s: Span) -> IResult<Span, NonPortProgramItem> {
))(s)
}
#[trace]
#[parser]
pub fn non_port_program_item_assign(s: Span) -> IResult<Span, NonPortProgramItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = continuous_assign(s)?;
@ -102,7 +102,7 @@ pub fn non_port_program_item_assign(s: Span) -> IResult<Span, NonPortProgramItem
))
}
#[trace]
#[parser]
pub fn non_port_program_item_module(s: Span) -> IResult<Span, NonPortProgramItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = module_or_generate_item_declaration(s)?;
@ -112,7 +112,7 @@ pub fn non_port_program_item_module(s: Span) -> IResult<Span, NonPortProgramItem
))
}
#[trace]
#[parser]
pub fn non_port_program_item_initial(s: Span) -> IResult<Span, NonPortProgramItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = initial_construct(s)?;
@ -122,7 +122,7 @@ pub fn non_port_program_item_initial(s: Span) -> IResult<Span, NonPortProgramIte
))
}
#[trace]
#[parser]
pub fn non_port_program_item_final(s: Span) -> IResult<Span, NonPortProgramItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = final_construct(s)?;
@ -132,7 +132,7 @@ pub fn non_port_program_item_final(s: Span) -> IResult<Span, NonPortProgramItem>
))
}
#[trace]
#[parser]
pub fn non_port_program_item_assertion(s: Span) -> IResult<Span, NonPortProgramItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = concurrent_assertion_item(s)?;
@ -142,7 +142,7 @@ pub fn non_port_program_item_assertion(s: Span) -> IResult<Span, NonPortProgramI
))
}
#[trace]
#[parser]
pub fn program_generate_item(s: Span) -> IResult<Span, ProgramGenerateItem> {
alt((
map(loop_generate_construct, |x| {

84
src/parser/source_text/system_verilog_source_text.rs
View File

@ -437,14 +437,14 @@ pub struct TimeunitsDeclarationTimeprecisionTimeunit<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn source_text(s: Span) -> IResult<Span, SourceText> {
let (s, a) = opt(timeunits_declaration)(s)?;
let (s, b) = many0(description)(s)?;
Ok((s, SourceText { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn description(s: Span) -> IResult<Span, Description> {
alt((
map(module_declaration, |x| Description::ModuleDeclaration(x)),
@ -460,7 +460,7 @@ pub fn description(s: Span) -> IResult<Span, Description> {
))(s)
}
#[trace]
#[parser]
pub fn description_package_item(s: Span) -> IResult<Span, Description> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = package_item(s)?;
@ -470,7 +470,7 @@ pub fn description_package_item(s: Span) -> IResult<Span, Description> {
))
}
#[trace]
#[parser]
pub fn description_bind_directive(s: Span) -> IResult<Span, Description> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = bind_directive(s)?;
@ -480,7 +480,7 @@ pub fn description_bind_directive(s: Span) -> IResult<Span, Description> {
))
}
#[trace]
#[parser]
pub fn module_nonansi_header(s: Span) -> IResult<Span, ModuleNonansiHeader> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = module_keyword(s)?;
@ -498,7 +498,7 @@ pub fn module_nonansi_header(s: Span) -> IResult<Span, ModuleNonansiHeader> {
))
}
#[trace]
#[parser]
pub fn module_ansi_header(s: Span) -> IResult<Span, ModuleAnsiHeader> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = module_keyword(s)?;
@ -516,7 +516,7 @@ pub fn module_ansi_header(s: Span) -> IResult<Span, ModuleAnsiHeader> {
))
}
#[trace]
#[parser]
pub fn module_declaration(s: Span) -> IResult<Span, ModuleDeclaration> {
alt((
module_declaration_nonansi,
@ -527,7 +527,7 @@ pub fn module_declaration(s: Span) -> IResult<Span, ModuleDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn module_declaration_nonansi(s: Span) -> IResult<Span, ModuleDeclaration> {
let (s, a) = module_nonansi_header(s)?;
let (s, b) = opt(timeunits_declaration)(s)?;
@ -542,7 +542,7 @@ pub fn module_declaration_nonansi(s: Span) -> IResult<Span, ModuleDeclaration> {
))
}
#[trace]
#[parser]
pub fn module_declaration_ansi(s: Span) -> IResult<Span, ModuleDeclaration> {
let (s, a) = module_ansi_header(s)?;
let (s, b) = opt(timeunits_declaration)(s)?;
@ -557,7 +557,7 @@ pub fn module_declaration_ansi(s: Span) -> IResult<Span, ModuleDeclaration> {
))
}
#[trace]
#[parser]
pub fn module_declaration_wildcard(s: Span) -> IResult<Span, ModuleDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = module_keyword(s)?;
@ -577,7 +577,7 @@ pub fn module_declaration_wildcard(s: Span) -> IResult<Span, ModuleDeclaration>
))
}
#[trace]
#[parser]
pub fn module_declaration_extern_nonansi(s: Span) -> IResult<Span, ModuleDeclaration> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = module_nonansi_header(s)?;
@ -587,7 +587,7 @@ pub fn module_declaration_extern_nonansi(s: Span) -> IResult<Span, ModuleDeclara
))
}
#[trace]
#[parser]
pub fn module_declaration_extern_ansi(s: Span) -> IResult<Span, ModuleDeclaration> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = module_ansi_header(s)?;
@ -597,7 +597,7 @@ pub fn module_declaration_extern_ansi(s: Span) -> IResult<Span, ModuleDeclaratio
))
}
#[trace]
#[parser]
pub fn module_keyword(s: Span) -> IResult<Span, ModuleKeyword> {
alt((
map(symbol("module"), |x| ModuleKeyword::Module(x)),
@ -605,7 +605,7 @@ pub fn module_keyword(s: Span) -> IResult<Span, ModuleKeyword> {
))(s)
}
#[trace]
#[parser]
pub fn interface_declaration(s: Span) -> IResult<Span, InterfaceDeclaration> {
alt((
interface_declaration_nonansi,
@ -616,7 +616,7 @@ pub fn interface_declaration(s: Span) -> IResult<Span, InterfaceDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn interface_declaration_nonansi(s: Span) -> IResult<Span, InterfaceDeclaration> {
let (s, a) = interface_nonansi_header(s)?;
let (s, b) = opt(timeunits_declaration)(s)?;
@ -631,7 +631,7 @@ pub fn interface_declaration_nonansi(s: Span) -> IResult<Span, InterfaceDeclarat
))
}
#[trace]
#[parser]
pub fn interface_declaration_ansi(s: Span) -> IResult<Span, InterfaceDeclaration> {
let (s, a) = interface_ansi_header(s)?;
let (s, b) = opt(timeunits_declaration)(s)?;
@ -646,7 +646,7 @@ pub fn interface_declaration_ansi(s: Span) -> IResult<Span, InterfaceDeclaration
))
}
#[trace]
#[parser]
pub fn interface_declaration_wildcard(s: Span) -> IResult<Span, InterfaceDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol("interface")(s)?;
@ -666,7 +666,7 @@ pub fn interface_declaration_wildcard(s: Span) -> IResult<Span, InterfaceDeclara
))
}
#[trace]
#[parser]
pub fn interface_declaration_extern_nonansi(s: Span) -> IResult<Span, InterfaceDeclaration> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = interface_nonansi_header(s)?;
@ -676,7 +676,7 @@ pub fn interface_declaration_extern_nonansi(s: Span) -> IResult<Span, InterfaceD
))
}
#[trace]
#[parser]
pub fn interface_declaration_extern_ansi(s: Span) -> IResult<Span, InterfaceDeclaration> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = interface_ansi_header(s)?;
@ -686,7 +686,7 @@ pub fn interface_declaration_extern_ansi(s: Span) -> IResult<Span, InterfaceDecl
))
}
#[trace]
#[parser]
pub fn interface_nonansi_header(s: Span) -> IResult<Span, InterfaceNonansiHeader> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol("interface")(s)?;
@ -704,7 +704,7 @@ pub fn interface_nonansi_header(s: Span) -> IResult<Span, InterfaceNonansiHeader
))
}
#[trace]
#[parser]
pub fn interface_ansi_header(s: Span) -> IResult<Span, InterfaceAnsiHeader> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol("interface")(s)?;
@ -722,7 +722,7 @@ pub fn interface_ansi_header(s: Span) -> IResult<Span, InterfaceAnsiHeader> {
))
}
#[trace]
#[parser]
pub fn program_declaration(s: Span) -> IResult<Span, ProgramDeclaration> {
alt((
program_declaration_nonansi,
@ -733,7 +733,7 @@ pub fn program_declaration(s: Span) -> IResult<Span, ProgramDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn program_declaration_nonansi(s: Span) -> IResult<Span, ProgramDeclaration> {
let (s, a) = program_nonansi_header(s)?;
let (s, b) = opt(timeunits_declaration)(s)?;
@ -748,7 +748,7 @@ pub fn program_declaration_nonansi(s: Span) -> IResult<Span, ProgramDeclaration>
))
}
#[trace]
#[parser]
pub fn program_declaration_ansi(s: Span) -> IResult<Span, ProgramDeclaration> {
let (s, a) = program_ansi_header(s)?;
let (s, b) = opt(timeunits_declaration)(s)?;
@ -763,7 +763,7 @@ pub fn program_declaration_ansi(s: Span) -> IResult<Span, ProgramDeclaration> {
))
}
#[trace]
#[parser]
pub fn program_declaration_wildcard(s: Span) -> IResult<Span, ProgramDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol("program")(s)?;
@ -782,7 +782,7 @@ pub fn program_declaration_wildcard(s: Span) -> IResult<Span, ProgramDeclaration
))
}
#[trace]
#[parser]
pub fn program_declaration_extern_nonansi(s: Span) -> IResult<Span, ProgramDeclaration> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = program_nonansi_header(s)?;
@ -792,7 +792,7 @@ pub fn program_declaration_extern_nonansi(s: Span) -> IResult<Span, ProgramDecla
))
}
#[trace]
#[parser]
pub fn program_declaration_extern_ansi(s: Span) -> IResult<Span, ProgramDeclaration> {
let (s, a) = symbol("extern")(s)?;
let (s, b) = program_ansi_header(s)?;
@ -802,7 +802,7 @@ pub fn program_declaration_extern_ansi(s: Span) -> IResult<Span, ProgramDeclarat
))
}
#[trace]
#[parser]
pub fn program_nonansi_header(s: Span) -> IResult<Span, ProgramNonansiHeader> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol("prgogram")(s)?;
@ -820,7 +820,7 @@ pub fn program_nonansi_header(s: Span) -> IResult<Span, ProgramNonansiHeader> {
))
}
#[trace]
#[parser]
pub fn program_ansi_header(s: Span) -> IResult<Span, ProgramAnsiHeader> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol("program")(s)?;
@ -838,7 +838,7 @@ pub fn program_ansi_header(s: Span) -> IResult<Span, ProgramAnsiHeader> {
))
}
#[trace]
#[parser]
pub fn checker_declaration(s: Span) -> IResult<Span, CheckerDeclaration> {
let (s, a) = symbol("checker")(s)?;
let (s, b) = checker_identifier(s)?;
@ -855,7 +855,7 @@ pub fn checker_declaration(s: Span) -> IResult<Span, CheckerDeclaration> {
))
}
#[trace]
#[parser]
pub fn class_declaration(s: Span) -> IResult<Span, ClassDeclaration> {
let (s, a) = opt(map(symbol("virtual"), |x| Virtual { nodes: (x,) }))(s)?;
let (s, b) = symbol("class")(s)?;
@ -883,14 +883,14 @@ pub fn class_declaration(s: Span) -> IResult<Span, ClassDeclaration> {
))
}
#[trace]
#[parser]
pub fn interface_class_type(s: Span) -> IResult<Span, InterfaceClassType> {
let (s, a) = ps_class_identifier(s)?;
let (s, b) = opt(parameter_value_assignment)(s)?;
Ok((s, InterfaceClassType { nodes: (a, b) }))
}
#[trace]
#[parser]
pub fn interface_class_declaration(s: Span) -> IResult<Span, InterfaceClassDeclaration> {
let (s, a) = symbol("interface")(s)?;
let (s, b) = symbol("class")(s)?;
@ -912,7 +912,7 @@ pub fn interface_class_declaration(s: Span) -> IResult<Span, InterfaceClassDecla
))
}
#[trace]
#[parser]
pub fn interface_class_item(s: Span) -> IResult<Span, InterfaceClassItem> {
alt((
map(type_declaration, |x| InterfaceClassItem::TypeDeclaration(x)),
@ -927,7 +927,7 @@ pub fn interface_class_item(s: Span) -> IResult<Span, InterfaceClassItem> {
))(s)
}
#[trace]
#[parser]
pub fn interface_class_item_method(s: Span) -> IResult<Span, InterfaceClassItem> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = interface_class_method(s)?;
@ -937,7 +937,7 @@ pub fn interface_class_item_method(s: Span) -> IResult<Span, InterfaceClassItem>
))
}
#[trace]
#[parser]
pub fn interface_class_method(s: Span) -> IResult<Span, InterfaceClassMethod> {
let (s, a) = symbol("pure")(s)?;
let (s, b) = symbol("virtual")(s)?;
@ -951,7 +951,7 @@ pub fn interface_class_method(s: Span) -> IResult<Span, InterfaceClassMethod> {
))
}
#[trace]
#[parser]
pub fn package_declaration(s: Span) -> IResult<Span, PackageDeclaration> {
let (s, a) = many0(attribute_instance)(s)?;
let (s, b) = symbol("package")(s)?;
@ -970,7 +970,7 @@ pub fn package_declaration(s: Span) -> IResult<Span, PackageDeclaration> {
))
}
#[trace]
#[parser]
pub fn timeunits_declaration(s: Span) -> IResult<Span, TimeunitsDeclaration> {
alt((
timeunits_declaration_timeunit_timeprecision,
@ -980,7 +980,7 @@ pub fn timeunits_declaration(s: Span) -> IResult<Span, TimeunitsDeclaration> {
))(s)
}
#[trace]
#[parser]
pub fn timeunits_declaration_timeunit(s: Span) -> IResult<Span, TimeunitsDeclaration> {
let (s, a) = symbol("timeunit")(s)?;
let (s, b) = time_literal(s)?;
@ -994,7 +994,7 @@ pub fn timeunits_declaration_timeunit(s: Span) -> IResult<Span, TimeunitsDeclara
))
}
#[trace]
#[parser]
pub fn timeunits_declaration_timeprecision(s: Span) -> IResult<Span, TimeunitsDeclaration> {
let (s, a) = symbol("timeprecision")(s)?;
let (s, b) = time_literal(s)?;
@ -1005,7 +1005,7 @@ pub fn timeunits_declaration_timeprecision(s: Span) -> IResult<Span, TimeunitsDe
))
}
#[trace]
#[parser]
pub fn timeunits_declaration_timeunit_timeprecision(
s: Span,
) -> IResult<Span, TimeunitsDeclaration> {
@ -1023,7 +1023,7 @@ pub fn timeunits_declaration_timeunit_timeprecision(
))
}
#[trace]
#[parser]
pub fn timeunits_declaration_timeprecision_timeunit(
s: Span,
) -> IResult<Span, TimeunitsDeclaration> {

2
src/parser/specify_section/specify_block_declaration.rs
View File

@ -14,7 +14,7 @@ pub struct SpecifyBlock<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn specify_block(s: Span) -> IResult<Span, SpecifyBlock> {
Err(Err::Error(make_error(s, ErrorKind::Fix)))
}

8
src/parser/specify_section/specify_block_terminals.rs
View File

@ -43,24 +43,24 @@ pub struct OutputIdentifierInterface<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn specify_input_terminal_descriptor(s: Span) -> IResult<Span, SpecifyInputTerminalDescriptor> {
Err(Err::Error(make_error(s, ErrorKind::Fix)))
}
#[trace]
#[parser]
pub fn specify_output_terminal_descriptor(
s: Span,
) -> IResult<Span, SpecifyOutputTerminalDescriptor> {
Err(Err::Error(make_error(s, ErrorKind::Fix)))
}
#[trace]
#[parser]
pub fn input_identifier(s: Span) -> IResult<Span, InputIdentifier> {
Err(Err::Error(make_error(s, ErrorKind::Fix)))
}
#[trace]
#[parser]
pub fn output_identifier(s: Span) -> IResult<Span, OutputIdentifier> {
Err(Err::Error(make_error(s, ErrorKind::Fix)))
}

2
src/parser/specify_section/specify_path_delays.rs
View File

@ -14,7 +14,7 @@ pub struct EdgeIdentifier<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn edge_identifier(s: Span) -> IResult<Span, EdgeIdentifier> {
Err(Err::Error(make_error(s, ErrorKind::Fix)))
}

2
src/parser/udp_declaration_and_instantiation/udp_declaration.rs
View File

@ -14,7 +14,7 @@ pub struct UdpDeclaration<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn udp_declaration(s: Span) -> IResult<Span, UdpDeclaration> {
Err(Err::Error(make_error(s, ErrorKind::Fix)))
}

4
src/parser/udp_declaration_and_instantiation/udp_instantiation.rs
View File

@ -36,7 +36,7 @@ pub struct UdpInstance<'a> {
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn udp_instantiation(s: Span) -> IResult<Span, UdpInstantiation> {
let (s, a) = udp_identifier(s)?;
let (s, b) = opt(drive_strength)(s)?;
@ -51,7 +51,7 @@ pub fn udp_instantiation(s: Span) -> IResult<Span, UdpInstantiation> {
))
}
#[trace]
#[parser]
pub fn udp_instance(s: Span) -> IResult<Span, UdpInstance> {
let (s, a) = opt(name_of_instance)(s)?;
let (s, b) = paren(tuple((

2
src/parser/utils.rs
View File

@ -190,7 +190,7 @@ where
// -----------------------------------------------------------------------------
#[trace]
#[parser]
pub fn white_space(s: Span) -> IResult<Span, WhiteSpace> {
alt((
map(multispace1, |x| WhiteSpace::Space(x)),