1 // Inline assembly support.
5 use rustc_data_structures::thin_vec::ThinVec;
7 use errors::DiagnosticBuilder;
10 use syntax::ext::base::{self, *};
11 use syntax::feature_gate;
12 use syntax::parse::{self, token};
14 use syntax::symbol::{kw, sym, Symbol};
15 use syntax::ast::AsmDialect;
17 use syntax::tokenstream;
18 use syntax::{span_err, struct_span_err};
30 fn next(&self) -> State {
37 StateNone => StateNone,
42 const OPTIONS: &[Symbol] = &[sym::volatile, sym::alignstack, sym::intel];
44 pub fn expand_asm<'cx>(cx: &'cx mut ExtCtxt<'_>,
46 tts: &[tokenstream::TokenTree])
47 -> Box<dyn base::MacResult + 'cx> {
48 if !cx.ecfg.enable_asm() {
49 feature_gate::emit_feature_err(&cx.parse_sess,
52 feature_gate::GateIssue::Language,
53 feature_gate::EXPLAIN_ASM);
56 let mut inline_asm = match parse_inline_asm(cx, sp, tts) {
57 Ok(Some(inline_asm)) => inline_asm,
58 Ok(None) => return DummyResult::expr(sp),
61 return DummyResult::expr(sp);
65 // If there are no outputs, the inline assembly is executed just for its side effects,
66 // so ensure that it is volatile
67 if inline_asm.outputs.is_empty() {
68 inline_asm.volatile = true;
71 MacEager::expr(P(ast::Expr {
72 id: ast::DUMMY_NODE_ID,
73 node: ast::ExprKind::InlineAsm(P(inline_asm)),
75 attrs: ThinVec::new(),
79 fn parse_inline_asm<'a>(
82 tts: &[tokenstream::TokenTree],
83 ) -> Result<Option<ast::InlineAsm>, DiagnosticBuilder<'a>> {
84 // Split the tts before the first colon, to avoid `asm!("x": y)` being
85 // parsed as `asm!(z)` with `z = "x": y` which is type ascription.
86 let first_colon = tts.iter()
89 tokenstream::TokenTree::Token(_, token::Colon) |
90 tokenstream::TokenTree::Token(_, token::ModSep) => true,
94 .unwrap_or(tts.len());
95 let mut p = cx.new_parser_from_tts(&tts[first_colon..]);
96 let mut asm = kw::Invalid;
97 let mut asm_str_style = None;
98 let mut outputs = Vec::new();
99 let mut inputs = Vec::new();
100 let mut clobs = Vec::new();
101 let mut volatile = false;
102 let mut alignstack = false;
103 let mut dialect = AsmDialect::Att;
110 if asm_str_style.is_some() {
111 // If we already have a string with instructions,
112 // ending up in Asm state again is an error.
113 return Err(struct_span_err!(
114 cx.parse_sess.span_diagnostic,
117 "malformed inline assembly"
120 // Nested parser, stop before the first colon (see above).
121 let mut p2 = cx.new_parser_from_tts(&tts[..first_colon]);
123 if p2.token == token::Eof {
125 cx.struct_span_err(sp, "macro requires a string literal as an argument");
126 err.span_label(sp, "string literal required");
130 let expr = p2.parse_expr()?;
132 match expr_to_string(cx, expr, "inline assembly must be a string literal") {
133 Some((s, st)) => (s, st),
134 None => return Ok(None),
137 // This is most likely malformed.
138 if p2.token != token::Eof {
139 let mut extra_tts = p2.parse_all_token_trees()?;
140 extra_tts.extend(tts[first_colon..].iter().cloned());
141 p = parse::stream_to_parser(
143 extra_tts.into_iter().collect(),
144 Some("inline assembly"),
149 asm_str_style = Some(style);
152 while p.token != token::Eof && p.token != token::Colon && p.token != token::ModSep {
153 if !outputs.is_empty() {
154 p.eat(&token::Comma);
157 let (constraint, _) = p.parse_str()?;
159 let span = p.prev_span;
161 p.expect(&token::OpenDelim(token::Paren))?;
162 let expr = p.parse_expr()?;
163 p.expect(&token::CloseDelim(token::Paren))?;
165 // Expands a read+write operand into two operands.
167 // Use '+' modifier when you want the same expression
168 // to be both an input and an output at the same time.
169 // It's the opposite of '=&' which means that the memory
170 // cannot be shared with any other operand (usually when
171 // a register is clobbered early.)
172 let constraint_str = constraint.as_str();
173 let mut ch = constraint_str.chars();
174 let output = match ch.next() {
177 Some(Symbol::intern(&format!("={}", ch.as_str())))
180 span_err!(cx, span, E0661,
181 "output operand constraint lacks '=' or '+'");
186 let is_rw = output.is_some();
187 let is_indirect = constraint_str.contains("*");
188 outputs.push(ast::InlineAsmOutput {
189 constraint: output.unwrap_or(constraint),
197 while p.token != token::Eof && p.token != token::Colon && p.token != token::ModSep {
198 if !inputs.is_empty() {
199 p.eat(&token::Comma);
202 let (constraint, _) = p.parse_str()?;
204 if constraint.as_str().starts_with("=") {
205 span_err!(cx, p.prev_span, E0662,
206 "input operand constraint contains '='");
207 } else if constraint.as_str().starts_with("+") {
208 span_err!(cx, p.prev_span, E0663,
209 "input operand constraint contains '+'");
212 p.expect(&token::OpenDelim(token::Paren))?;
213 let input = p.parse_expr()?;
214 p.expect(&token::CloseDelim(token::Paren))?;
216 inputs.push((constraint, input));
220 while p.token != token::Eof && p.token != token::Colon && p.token != token::ModSep {
221 if !clobs.is_empty() {
222 p.eat(&token::Comma);
225 let (s, _) = p.parse_str()?;
227 if OPTIONS.iter().any(|&opt| s == opt) {
228 cx.span_warn(p.prev_span, "expected a clobber, found an option");
229 } else if s.as_str().starts_with("{") || s.as_str().ends_with("}") {
230 span_err!(cx, p.prev_span, E0664,
231 "clobber should not be surrounded by braces");
238 let (option, _) = p.parse_str()?;
240 if option == sym::volatile {
241 // Indicates that the inline assembly has side effects
242 // and must not be optimized out along with its outputs.
244 } else if option == sym::alignstack {
246 } else if option == sym::intel {
247 dialect = AsmDialect::Intel;
249 cx.span_warn(p.prev_span, "unrecognized option");
252 if p.token == token::Comma {
253 p.eat(&token::Comma);
260 // MOD_SEP is a double colon '::' without space in between.
261 // When encountered, the state must be advanced twice.
262 match (&p.token, state.next(), state.next().next()) {
263 (&token::Colon, StateNone, _) |
264 (&token::ModSep, _, StateNone) => {
268 (&token::Colon, st, _) |
269 (&token::ModSep, _, st) => {
273 (&token::Eof, ..) => break 'statement,
279 Ok(Some(ast::InlineAsm {
281 asm_str_style: asm_str_style.unwrap(),
288 ctxt: cx.backtrace(),
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