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|
use either::Either;
use ptx_parser_macros_impl::parser;
use proc_macro2::{Span, TokenStream};
use quote::{format_ident, quote, ToTokens};
use rustc_hash::{FxHashMap, FxHashSet};
use std::{collections::hash_map, hash::Hash, iter, rc::Rc};
use syn::{
parse_macro_input, parse_quote, punctuated::Punctuated, Ident, ItemEnum, Token, Type, TypePath,
Variant,
};
// https://docs.nvidia.com/cuda/parallel-thread-execution/index.html#vectors
// https://docs.nvidia.com/cuda/parallel-thread-execution/index.html#fundamental-types
// https://docs.nvidia.com/cuda/parallel-thread-execution/index.html#alternate-floating-point-data-formats
// https://docs.nvidia.com/cuda/parallel-thread-execution/index.html#packed-floating-point-data-types
// https://docs.nvidia.com/cuda/parallel-thread-execution/index.html#packed-integer-data-types
#[rustfmt::skip]
static POSTFIX_MODIFIERS: &[&str] = &[
".v2", ".v4", ".v8",
".s8", ".s16", ".s16x2", ".s32", ".s64",
".u8", ".u16", ".u16x2", ".u32", ".u64",
".f16", ".f16x2", ".f32", ".f64",
".b8", ".b16", ".b32", ".b64", ".b128",
".pred",
".bf16", ".bf16x2", ".e4m3", ".e5m2", ".tf32",
];
static POSTFIX_TYPES: &[&str] = &["ScalarType", "VectorPrefix"];
struct OpcodeDefinitions {
definitions: Vec<SingleOpcodeDefinition>,
block_selection: Vec<Vec<(Option<Vec<parser::DotModifier>>, usize)>>,
}
impl OpcodeDefinitions {
fn new(opcode: &Ident, definitions: Vec<SingleOpcodeDefinition>) -> Self {
let mut selections = vec![None; definitions.len()];
let mut generation = 0usize;
loop {
let mut selected_something = false;
let unselected = selections
.iter()
.enumerate()
.filter_map(|(idx, s)| if s.is_none() { Some(idx) } else { None })
.collect::<Vec<_>>();
match &*unselected {
[] => break,
[remaining] => {
selections[*remaining] = Some((None, generation));
break;
}
_ => {}
}
'check_definitions: for i in unselected.iter().copied() {
let mut candidates = definitions[i]
.unordered_modifiers
.iter()
.chain(definitions[i].ordered_modifiers.iter())
.filter(|modifier| match modifier {
DotModifierRef::Direct {
optional: false, ..
}
| DotModifierRef::Indirect {
optional: false, ..
} => true,
_ => false,
})
.collect::<Vec<_>>();
candidates.sort_by_key(|modifier| match modifier {
DotModifierRef::Direct { .. } => 1,
DotModifierRef::Indirect { value, .. } => value.alternatives.len(),
});
// Attempt every modifier
'check_candidates: for candidate_modifier in candidates {
// check all other unselected patterns
for j in unselected.iter().copied() {
if i == j {
continue;
}
let candidate_set = match candidate_modifier {
DotModifierRef::Direct { value, .. } => Either::Left(iter::once(value)),
DotModifierRef::Indirect { value, .. } => {
Either::Right(value.alternatives.iter())
}
};
for candidate_value in candidate_set {
if definitions[j].possible_modifiers.contains(candidate_value) {
continue 'check_candidates;
}
}
}
// it's unique
let candidate_vec = match candidate_modifier {
DotModifierRef::Direct { value, .. } => vec![value.clone()],
DotModifierRef::Indirect { value, .. } => {
value.alternatives.iter().cloned().collect::<Vec<_>>()
}
};
selections[i] = Some((Some(candidate_vec), generation));
selected_something = true;
continue 'check_definitions;
}
}
if !selected_something {
panic!(
"Failed to generate pattern selection for `{}`. State: {:?}",
opcode,
selections.into_iter().rev().collect::<Vec<_>>()
);
}
generation += 1;
}
let mut block_selection = Vec::new();
for current_generation in 0usize.. {
let mut current_generation_definitions = Vec::new();
for (idx, selection) in selections.iter_mut().enumerate() {
match selection {
Some((modifier_set, generation)) => {
if *generation == current_generation {
current_generation_definitions.push((modifier_set.clone(), idx));
*selection = None;
}
}
None => {}
}
}
if current_generation_definitions.is_empty() {
break;
}
block_selection.push(current_generation_definitions);
}
#[cfg(debug_assertions)]
{
let selected = block_selection
.iter()
.map(|x| x.len())
.reduce(|x, y| x + y)
.unwrap();
if selected != definitions.len() {
panic!(
"Internal error when generating pattern selection for `{}`: {:?}",
opcode, &block_selection
);
}
}
Self {
definitions,
block_selection,
}
}
fn get_enum_types(
parse_definitions: &[parser::OpcodeDefinition],
) -> FxHashMap<syn::Type, FxHashSet<parser::DotModifier>> {
let mut result = FxHashMap::default();
for parser::OpcodeDefinition(_, rules) in parse_definitions.iter() {
for rule in rules {
let type_ = match rule.type_ {
Some(ref type_) => type_.clone(),
None => continue,
};
let insert_values = |set: &mut FxHashSet<_>| {
for value in rule.alternatives.iter().cloned() {
set.insert(value);
}
};
match result.entry(type_) {
hash_map::Entry::Occupied(mut entry) => insert_values(entry.get_mut()),
hash_map::Entry::Vacant(entry) => {
insert_values(entry.insert(FxHashSet::default()))
}
};
}
}
result
}
}
struct SingleOpcodeDefinition {
possible_modifiers: FxHashSet<parser::DotModifier>,
unordered_modifiers: Vec<DotModifierRef>,
ordered_modifiers: Vec<DotModifierRef>,
arguments: parser::Arguments,
code_block: parser::CodeBlock,
}
impl SingleOpcodeDefinition {
fn function_arguments_declarations(&self) -> impl Iterator<Item = TokenStream> + '_ {
self.unordered_modifiers
.iter()
.chain(self.ordered_modifiers.iter())
.filter_map(|modf| {
let type_ = modf.type_of();
type_.map(|t| {
let name = modf.ident();
quote! { #name : #t }
})
})
.chain(self.arguments.0.iter().map(|arg| {
let name = &arg.ident;
let arg_type = if arg.unified {
quote! { (ParsedOperandStr<'input>, bool) }
} else if arg.can_be_negated {
quote! { (bool, ParsedOperandStr<'input>) }
} else {
quote! { ParsedOperandStr<'input> }
};
if arg.optional {
quote! { #name : Option<#arg_type> }
} else {
quote! { #name : #arg_type }
}
}))
}
fn function_arguments(&self) -> impl Iterator<Item = TokenStream> + '_ {
self.unordered_modifiers
.iter()
.chain(self.ordered_modifiers.iter())
.filter_map(|modf| {
let type_ = modf.type_of();
type_.map(|_| {
let name = modf.ident();
quote! { #name }
})
})
.chain(self.arguments.0.iter().map(|arg| {
let name = &arg.ident;
quote! { #name }
}))
}
fn extract_and_insert(
definitions: &mut FxHashMap<Ident, Vec<SingleOpcodeDefinition>>,
special_definitions: &mut FxHashMap<Ident, proc_macro2::Group>,
parser::OpcodeDefinition(pattern_seq, rules): parser::OpcodeDefinition,
) {
let (mut named_rules, mut unnamed_rules) = gather_rules(rules);
let mut last_opcode = pattern_seq.0.last().unwrap().0 .0.name.clone();
for (opcode_decl, code_block) in pattern_seq.0.into_iter().rev() {
let current_opcode = opcode_decl.0.name.clone();
if last_opcode != current_opcode {
named_rules = FxHashMap::default();
unnamed_rules = FxHashMap::default();
}
let parser::OpcodeDecl(instruction, arguments) = opcode_decl;
if code_block.special {
if !instruction.modifiers.is_empty() || !arguments.0.is_empty() {
panic!(
"`{}`: no modifiers or arguments are allowed in parser definition.",
instruction.name
);
}
special_definitions.insert(instruction.name, code_block.code);
continue;
}
let mut possible_modifiers = FxHashSet::default();
let mut unordered_modifiers = instruction
.modifiers
.into_iter()
.map(|parser::MaybeDotModifier { optional, modifier }| {
match named_rules.get(&modifier) {
Some(alts) => {
possible_modifiers.extend(alts.alternatives.iter().cloned());
if alts.alternatives.len() == 1 && alts.type_.is_none() {
DotModifierRef::Direct {
optional,
value: alts.alternatives[0].clone(),
name: modifier,
type_: alts.type_.clone(),
}
} else {
DotModifierRef::Indirect {
optional,
value: alts.clone(),
name: modifier,
}
}
}
None => {
let type_ = unnamed_rules.get(&modifier).cloned();
possible_modifiers.insert(modifier.clone());
DotModifierRef::Direct {
optional,
value: modifier.clone(),
name: modifier,
type_,
}
}
}
})
.collect::<Vec<_>>();
let ordered_modifiers = Self::extract_ordered_modifiers(&mut unordered_modifiers);
let entry = Self {
possible_modifiers,
unordered_modifiers,
ordered_modifiers,
arguments,
code_block,
};
multihash_extend(definitions, current_opcode.clone(), entry);
last_opcode = current_opcode;
}
}
fn extract_ordered_modifiers(
unordered_modifiers: &mut Vec<DotModifierRef>,
) -> Vec<DotModifierRef> {
let mut result = Vec::new();
loop {
let is_ordered = match unordered_modifiers.last() {
Some(DotModifierRef::Direct { value, .. }) => {
let name = value.to_string();
POSTFIX_MODIFIERS.contains(&&*name)
}
Some(DotModifierRef::Indirect { value, .. }) => {
let type_ = value.type_.to_token_stream().to_string();
//panic!("{} {}", type_, POSTFIX_TYPES.contains(&&*type_));
POSTFIX_TYPES.contains(&&*type_)
}
None => break,
};
if is_ordered {
result.push(unordered_modifiers.pop().unwrap());
} else {
break;
}
}
if unordered_modifiers.len() == 1 {
result.push(unordered_modifiers.pop().unwrap());
}
result.reverse();
result
}
}
fn gather_rules(
rules: Vec<parser::Rule>,
) -> (
FxHashMap<parser::DotModifier, Rc<parser::Rule>>,
FxHashMap<parser::DotModifier, Type>,
) {
let mut named = FxHashMap::default();
let mut unnamed = FxHashMap::default();
for rule in rules {
match rule.modifier {
Some(ref modifier) => {
named.insert(modifier.clone(), Rc::new(rule));
}
None => unnamed.extend(
rule.alternatives
.into_iter()
.map(|alt| (alt, rule.type_.as_ref().unwrap().clone())),
),
}
}
(named, unnamed)
}
#[proc_macro]
pub fn derive_parser(tokens: proc_macro::TokenStream) -> proc_macro::TokenStream {
let parse_definitions = parse_macro_input!(tokens as ptx_parser_macros_impl::parser::ParseDefinitions);
let mut definitions = FxHashMap::default();
let mut special_definitions = FxHashMap::default();
let types = OpcodeDefinitions::get_enum_types(&parse_definitions.definitions);
let enum_types_tokens = emit_enum_types(types, parse_definitions.additional_enums);
for definition in parse_definitions.definitions.into_iter() {
SingleOpcodeDefinition::extract_and_insert(
&mut definitions,
&mut special_definitions,
definition,
);
}
let definitions = definitions
.into_iter()
.map(|(k, v)| {
let v = OpcodeDefinitions::new(&k, v);
(k, v)
})
.collect::<FxHashMap<_, _>>();
let mut token_enum = parse_definitions.token_type;
let (all_opcode, all_modifier) = write_definitions_into_tokens(
&definitions,
special_definitions.keys(),
&mut token_enum.variants,
);
let token_impl = emit_parse_function(&token_enum.ident, &definitions, &special_definitions, all_opcode, all_modifier);
let tokens = quote! {
#enum_types_tokens
#token_enum
#token_impl
};
tokens.into()
}
fn emit_enum_types(
types: FxHashMap<syn::Type, FxHashSet<parser::DotModifier>>,
mut existing_enums: FxHashMap<Ident, ItemEnum>,
) -> TokenStream {
let token_types = types.into_iter().filter_map(|(type_, variants)| {
match type_ {
syn::Type::Path(TypePath {
qself: None,
ref path,
}) => {
if let Some(ident) = path.get_ident() {
if let Some(enum_) = existing_enums.get_mut(ident) {
enum_.variants.extend(variants.into_iter().map(|modifier| {
let ident = modifier.variant_capitalized();
let variant: syn::Variant = syn::parse_quote! {
#ident
};
variant
}));
return None;
}
}
}
_ => {}
}
let variants = variants.iter().map(|v| v.variant_capitalized());
Some(quote! {
#[derive(Copy, Clone, PartialEq, Eq, Hash)]
enum #type_ {
#(#variants),*
}
})
});
let mut result = TokenStream::new();
for tokens in token_types {
tokens.to_tokens(&mut result);
}
for (_, enum_) in existing_enums {
quote! { #enum_ }.to_tokens(&mut result);
}
result
}
fn emit_parse_function(
type_name: &Ident,
defs: &FxHashMap<Ident, OpcodeDefinitions>,
special_defs: &FxHashMap<Ident, proc_macro2::Group>,
all_opcode: Vec<&Ident>,
all_modifier: FxHashSet<&parser::DotModifier>,
) -> TokenStream {
use std::fmt::Write;
let fns_ = defs
.iter()
.map(|(opcode, defs)| {
defs.definitions.iter().enumerate().map(|(idx, def)| {
let mut fn_name = opcode.to_string();
write!(&mut fn_name, "_{}", idx).ok();
let fn_name = Ident::new(&fn_name, Span::call_site());
let code_block = &def.code_block.code;
let args = def.function_arguments_declarations();
quote! {
fn #fn_name<'input>(state: &mut PtxParserState, #(#args),* ) -> Instruction<ParsedOperandStr<'input>> #code_block
}
})
})
.flatten();
let selectors = defs.iter().map(|(opcode, def)| {
let opcode_variant = Ident::new(&capitalize(&opcode.to_string()), opcode.span());
let mut result = TokenStream::new();
let mut selectors = TokenStream::new();
quote! {
if false {
unsafe { std::hint::unreachable_unchecked() }
}
}
.to_tokens(&mut selectors);
let mut has_default_selector = false;
for selection_layer in def.block_selection.iter() {
for (selection_key, selected_definition) in selection_layer {
let def_parser = emit_definition_parser(type_name, (opcode,*selected_definition), &def.definitions[*selected_definition]);
match selection_key {
Some(selection_keys) => {
let selection_keys = selection_keys.iter().map(|k| k.dot_capitalized());
quote! {
else if false #(|| modifiers.contains(& #type_name :: #selection_keys))* {
#def_parser
}
}
.to_tokens(&mut selectors);
}
None => {
has_default_selector = true;
quote! {
else {
#def_parser
}
}
.to_tokens(&mut selectors);
}
}
}
}
if !has_default_selector {
quote! {
else {
return Err(winnow::error::ErrMode::from_error_kind(stream, winnow::error::ErrorKind::Token))
}
}
.to_tokens(&mut selectors);
}
quote! {
#opcode_variant => {
let modifers_start = stream.checkpoint();
let modifiers = take_while(0.., Token::modifier).parse_next(stream)?;
#selectors
}
}
.to_tokens(&mut result);
result
}).chain(special_defs.iter().map(|(opcode, code)| {
let opcode_variant = Ident::new(&capitalize(&opcode.to_string()), opcode.span());
quote! {
#opcode_variant => { #code? }
}
}));
let opcodes = all_opcode.into_iter().map(|op_ident| {
let op = op_ident.to_string();
let variant = Ident::new(&capitalize(&op), op_ident.span());
let value = op;
quote! {
#type_name :: #variant => Some(#value),
}
});
let modifier_names = iter::once(Ident::new("DotUnified", Span::call_site()))
.chain(all_modifier.iter().map(|m| m.dot_capitalized()));
quote! {
impl<'input> #type_name<'input> {
fn opcode_text(self) -> Option<&'static str> {
match self {
#(#opcodes)*
_ => None
}
}
fn modifier(self) -> bool {
match self {
#(
#type_name :: #modifier_names => true,
)*
_ => false
}
}
}
#(#fns_)*
fn parse_instruction<'a, 'input>(stream: &mut PtxParser<'a, 'input>) -> winnow::error::PResult<Instruction<ParsedOperandStr<'input>>>
{
use winnow::Parser;
use winnow::token::*;
use winnow::combinator::*;
let opcode = any.parse_next(stream)?;
let modifiers_start = stream.checkpoint();
Ok(match opcode {
#(
#type_name :: #selectors
)*
_ => return Err(winnow::error::ErrMode::from_error_kind(stream, winnow::error::ErrorKind::Token))
})
}
}
}
fn emit_definition_parser(
token_type: &Ident,
(opcode, fn_idx): (&Ident, usize),
definition: &SingleOpcodeDefinition,
) -> TokenStream {
let return_error_ref = quote! {
return Err(winnow::error::ErrMode::from_error_kind(&stream, winnow::error::ErrorKind::Token))
};
let return_error = quote! {
return Err(winnow::error::ErrMode::from_error_kind(stream, winnow::error::ErrorKind::Token))
};
let ordered_parse_declarations = definition.ordered_modifiers.iter().map(|modifier| {
modifier.type_of().map(|type_| {
let name = modifier.ident();
quote! {
let #name : #type_;
}
})
});
let ordered_parse = definition.ordered_modifiers.iter().rev().map(|modifier| {
let arg_name = modifier.ident();
match modifier {
DotModifierRef::Direct { optional, value, type_: None, .. } => {
let variant = value.dot_capitalized();
if *optional {
quote! {
#arg_name = opt(any.verify(|t| *t == #token_type :: #variant)).parse_next(&mut stream)?.is_some();
}
} else {
quote! {
any.verify(|t| *t == #token_type :: #variant).parse_next(&mut stream)?;
}
}
}
DotModifierRef::Direct { optional: false, type_: Some(type_), name, value } => {
let variable = name.ident();
let variant = value.dot_capitalized();
let parsed_variant = value.variant_capitalized();
quote! {
any.verify(|t| *t == #token_type :: #variant).parse_next(&mut stream)?;
#variable = #type_ :: #parsed_variant;
}
}
DotModifierRef::Direct { optional: true, type_: Some(_), .. } => { todo!() }
DotModifierRef::Indirect { optional, value, .. } => {
let variants = value.alternatives.iter().map(|alt| {
let type_ = value.type_.as_ref().unwrap();
let token_variant = alt.dot_capitalized();
let parsed_variant = alt.variant_capitalized();
quote! {
#token_type :: #token_variant => #type_ :: #parsed_variant,
}
});
if *optional {
quote! {
#arg_name = opt(any.verify_map(|tok| {
Some(match tok {
#(#variants)*
_ => return None
})
})).parse_next(&mut stream)?;
}
} else {
quote! {
#arg_name = any.verify_map(|tok| {
Some(match tok {
#(#variants)*
_ => return None
})
}).parse_next(&mut stream)?;
}
}
}
}
});
let unordered_parse_declarations = definition.unordered_modifiers.iter().map(|modifier| {
let name = modifier.ident();
let type_ = modifier.type_of_check();
quote! {
let mut #name : #type_ = std::default::Default::default();
}
});
let unordered_parse = definition
.unordered_modifiers
.iter()
.map(|modifier| match modifier {
DotModifierRef::Direct {
name,
value,
type_: None,
..
} => {
let name = name.ident();
let token_variant = value.dot_capitalized();
quote! {
#token_type :: #token_variant => {
if #name {
#return_error_ref;
}
#name = true;
}
}
}
DotModifierRef::Direct {
name,
value,
type_: Some(type_),
..
} => {
let variable = name.ident();
let token_variant = value.dot_capitalized();
let enum_variant = value.variant_capitalized();
quote! {
#token_type :: #token_variant => {
if #variable.is_some() {
#return_error_ref;
}
#variable = Some(#type_ :: #enum_variant);
}
}
}
DotModifierRef::Indirect { value, name, .. } => {
let variable = name.ident();
let type_ = value.type_.as_ref().unwrap();
let alternatives = value.alternatives.iter().map(|alt| {
let token_variant = alt.dot_capitalized();
let enum_variant = alt.variant_capitalized();
quote! {
#token_type :: #token_variant => {
if #variable.is_some() {
#return_error_ref;
}
#variable = Some(#type_ :: #enum_variant);
}
}
});
quote! {
#(#alternatives)*
}
}
});
let unordered_parse_validations =
definition
.unordered_modifiers
.iter()
.map(|modifier| match modifier {
DotModifierRef::Direct {
optional: false,
name,
type_: None,
..
} => {
let variable = name.ident();
quote! {
if !#variable {
#return_error;
}
}
}
DotModifierRef::Direct {
optional: false,
name,
type_: Some(_),
..
} => {
let variable = name.ident();
quote! {
let #variable = match #variable {
Some(x) => x,
None => #return_error
};
}
}
DotModifierRef::Indirect {
optional: false,
name,
..
} => {
let variable = name.ident();
quote! {
let #variable = match #variable {
Some(x) => x,
None => #return_error
};
}
}
DotModifierRef::Direct { optional: true, .. }
| DotModifierRef::Indirect { optional: true, .. } => TokenStream::new(),
});
let arguments_parse = definition.arguments.0.iter().enumerate().map(|(idx, arg)| {
let comma = if idx == 0 || arg.pre_pipe {
quote! { empty }
} else {
quote! { any.verify(|t| *t == #token_type::Comma).void() }
};
let pre_bracket = if arg.pre_bracket {
quote! {
any.verify(|t| *t == #token_type::LBracket).void()
}
} else {
quote! {
empty
}
};
let pre_pipe = if arg.pre_pipe {
quote! {
any.verify(|t| *t == #token_type::Pipe).void()
}
} else {
quote! {
empty
}
};
let can_be_negated = if arg.can_be_negated {
quote! {
opt(any.verify(|t| *t == #token_type::Not)).map(|o| o.is_some())
}
} else {
quote! {
empty
}
};
let operand = {
quote! {
ParsedOperandStr::parse
}
};
let post_bracket = if arg.post_bracket {
quote! {
any.verify(|t| *t == #token_type::RBracket).void()
}
} else {
quote! {
empty
}
};
let unified = if arg.unified {
quote! {
opt(any.verify(|t| *t == #token_type::DotUnified).void()).map(|u| u.is_some())
}
} else {
quote! {
empty
}
};
let pattern = quote! {
(#comma, #pre_bracket, #pre_pipe, #can_be_negated, #operand, #post_bracket, #unified)
};
let arg_name = &arg.ident;
if arg.unified && arg.can_be_negated {
panic!("TODO: argument can't be both prefixed by `!` and suffixed by `.unified`")
}
let inner_parser = if arg.unified {
quote! {
#pattern.map(|(_, _, _, _, name, _, unified)| (name, unified))
}
} else if arg.can_be_negated {
quote! {
#pattern.map(|(_, _, _, negated, name, _, _)| (negated, name))
}
} else {
quote! {
#pattern.map(|(_, _, _, _, name, _, _)| name)
}
};
if arg.optional {
quote! {
let #arg_name = opt(#inner_parser).parse_next(stream)?;
}
} else {
quote! {
let #arg_name = #inner_parser.parse_next(stream)?;
}
}
});
let fn_args = definition.function_arguments();
let fn_name = format_ident!("{}_{}", opcode, fn_idx);
let fn_call = quote! {
#fn_name(&mut stream.state, #(#fn_args),* )
};
quote! {
#(#unordered_parse_declarations)*
#(#ordered_parse_declarations)*
{
let mut stream = ReverseStream(modifiers);
#(#ordered_parse)*
let mut stream: &[#token_type] = stream.0;
for token in stream.iter().copied() {
match token {
#(#unordered_parse)*
_ => #return_error_ref
}
}
}
#(#unordered_parse_validations)*
#(#arguments_parse)*
#fn_call
}
}
fn write_definitions_into_tokens<'a>(
defs: &'a FxHashMap<Ident, OpcodeDefinitions>,
special_definitions: impl Iterator<Item = &'a Ident>,
variants: &mut Punctuated<Variant, Token![,]>,
) -> (Vec<&'a Ident>, FxHashSet<&'a parser::DotModifier>) {
let mut all_opcodes = Vec::new();
let mut all_modifiers = FxHashSet::default();
for (opcode, definitions) in defs.iter() {
all_opcodes.push(opcode);
let opcode_as_string = opcode.to_string();
let variant_name = Ident::new(&capitalize(&opcode_as_string), opcode.span());
let arg: Variant = syn::parse_quote! {
#[token(#opcode_as_string)]
#variant_name
};
variants.push(arg);
for definition in definitions.definitions.iter() {
for modifier in definition.possible_modifiers.iter() {
all_modifiers.insert(modifier);
}
}
}
for opcode in special_definitions {
all_opcodes.push(opcode);
let opcode_as_string = opcode.to_string();
let variant_name = Ident::new(&capitalize(&opcode_as_string), opcode.span());
let arg: Variant = syn::parse_quote! {
#[token(#opcode_as_string)]
#variant_name
};
variants.push(arg);
}
for modifier in all_modifiers.iter() {
let modifier_as_string = modifier.to_string();
let variant_name = modifier.dot_capitalized();
let arg: Variant = syn::parse_quote! {
#[token(#modifier_as_string)]
#variant_name
};
variants.push(arg);
}
variants.push(parse_quote! {
#[token(".unified")]
DotUnified
});
(all_opcodes, all_modifiers)
}
fn capitalize(s: &str) -> String {
let mut c = s.chars();
match c.next() {
None => String::new(),
Some(f) => f.to_uppercase().collect::<String>() + c.as_str(),
}
}
fn multihash_extend<K: Eq + Hash, V>(multimap: &mut FxHashMap<K, Vec<V>>, k: K, v: V) {
match multimap.entry(k) {
hash_map::Entry::Occupied(mut entry) => entry.get_mut().push(v),
hash_map::Entry::Vacant(entry) => {
entry.insert(vec![v]);
}
}
}
enum DotModifierRef {
Direct {
optional: bool,
value: parser::DotModifier,
name: parser::DotModifier,
type_: Option<Type>,
},
Indirect {
optional: bool,
name: parser::DotModifier,
value: Rc<parser::Rule>,
},
}
impl DotModifierRef {
fn ident(&self) -> Ident {
match self {
DotModifierRef::Direct { name, .. } => name.ident(),
DotModifierRef::Indirect { name, .. } => name.ident(),
}
}
fn type_of(&self) -> Option<syn::Type> {
Some(match self {
DotModifierRef::Direct {
optional: true,
type_: None,
..
} => syn::parse_quote! { bool },
DotModifierRef::Direct {
optional: false,
type_: None,
..
} => return None,
DotModifierRef::Direct {
optional: true,
type_: Some(type_),
..
} => syn::parse_quote! { Option<#type_> },
DotModifierRef::Direct {
optional: false,
type_: Some(type_),
..
} => type_.clone(),
DotModifierRef::Indirect {
optional, value, ..
} => {
let type_ = value
.type_
.as_ref()
.expect("Indirect modifer must have a type");
if *optional {
syn::parse_quote! { Option<#type_> }
} else {
type_.clone()
}
}
})
}
fn type_of_check(&self) -> syn::Type {
match self {
DotModifierRef::Direct { type_: None, .. } => syn::parse_quote! { bool },
DotModifierRef::Direct {
type_: Some(type_), ..
} => syn::parse_quote! { Option<#type_> },
DotModifierRef::Indirect { value, .. } => {
let type_ = value
.type_
.as_ref()
.expect("Indirect modifer must have a type");
syn::parse_quote! { Option<#type_> }
}
}
}
}
#[proc_macro]
pub fn generate_instruction_type(tokens: proc_macro::TokenStream) -> proc_macro::TokenStream {
let input = parse_macro_input!(tokens as ptx_parser_macros_impl::GenerateInstructionType);
let mut result = proc_macro2::TokenStream::new();
input.emit_arg_types(&mut result);
input.emit_instruction_type(&mut result);
input.emit_visit(&mut result);
input.emit_visit_mut(&mut result);
input.emit_visit_map(&mut result);
result.into()
}
|