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// Copyright 2012-2015 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use errors::{Error, ErrorKind};
use serde_json;
use std::str::FromStr;
use std::path::Path;
use runtest::ProcRes;
// These structs are a subset of the ones found in
// `syntax::json`.
#[derive(Deserialize)]
struct Diagnostic {
message: String,
code: Option<DiagnosticCode>,
level: String,
spans: Vec<DiagnosticSpan>,
children: Vec<Diagnostic>,
rendered: Option<String>,
}
#[derive(Deserialize, Clone)]
struct DiagnosticSpan {
file_name: String,
line_start: usize,
line_end: usize,
column_start: usize,
column_end: usize,
is_primary: bool,
label: Option<String>,
suggested_replacement: Option<String>,
expansion: Option<Box<DiagnosticSpanMacroExpansion>>,
}
impl DiagnosticSpan {
/// Returns the deepest source span in the macro call stack with a given file name.
/// This is either the supplied span, or the span for some macro callsite that expanded to it.
fn first_callsite_in_file(&self, file_name: &str) -> &DiagnosticSpan {
if self.file_name == file_name {
self
} else {
self.expansion
.as_ref()
.map(|origin| origin.span.first_callsite_in_file(file_name))
.unwrap_or(self)
}
}
}
#[derive(Deserialize, Clone)]
struct DiagnosticSpanMacroExpansion {
/// span where macro was applied to generate this code
span: DiagnosticSpan,
/// name of macro that was applied (e.g., "foo!" or "#[derive(Eq)]")
macro_decl_name: String,
}
#[derive(Deserialize, Clone)]
struct DiagnosticCode {
/// The code itself.
code: String,
/// An explanation for the code.
explanation: Option<String>,
}
pub fn extract_rendered(output: &str, proc_res: &ProcRes) -> String {
output
.lines()
.filter_map(|line| {
if line.starts_with('{') {
match serde_json::from_str::<Diagnostic>(line) {
Ok(diagnostic) => diagnostic.rendered,
Err(error) => {
proc_res.fatal(Some(&format!(
"failed to decode compiler output as json: \
`{}`\nline: {}\noutput: {}",
error, line, output
)));
}
}
} else {
// preserve non-JSON lines, such as ICEs
Some(format!("{}\n", line))
}
})
.collect()
}
pub fn parse_output(file_name: &str, output: &str, proc_res: &ProcRes) -> Vec<Error> {
output.lines()
.flat_map(|line| parse_line(file_name, line, output, proc_res))
.collect()
}
fn parse_line(file_name: &str, line: &str, output: &str, proc_res: &ProcRes) -> Vec<Error> {
// The compiler sometimes intermingles non-JSON stuff into the
// output. This hack just skips over such lines. Yuck.
if line.starts_with('{') {
match serde_json::from_str::<Diagnostic>(line) {
Ok(diagnostic) => {
let mut expected_errors = vec![];
push_expected_errors(&mut expected_errors, &diagnostic, &[], file_name);
expected_errors
}
Err(error) => {
proc_res.fatal(Some(&format!("failed to decode compiler output as json: \
`{}`\noutput: {}\nline: {}",
error,
line,
output)));
}
}
} else {
vec![]
}
}
fn push_expected_errors(expected_errors: &mut Vec<Error>,
diagnostic: &Diagnostic,
default_spans: &[&DiagnosticSpan],
file_name: &str) {
// In case of macro expansions, we need to get the span of the callsite
let spans_info_in_this_file: Vec<_> = diagnostic
.spans
.iter()
.map(|span| (span.is_primary, span.first_callsite_in_file(file_name)))
.filter(|(_, span)| Path::new(&span.file_name) == Path::new(&file_name))
.collect();
let spans_in_this_file: Vec<_> = spans_info_in_this_file.iter()
.map(|(_, span)| span)
.collect();
let primary_spans: Vec<_> = spans_info_in_this_file.iter()
.filter(|(is_primary, _)| *is_primary)
.map(|(_, span)| span)
.take(1) // sometimes we have more than one showing up in the json; pick first
.cloned()
.collect();
let primary_spans = if primary_spans.is_empty() {
// subdiagnostics often don't have a span of their own;
// inherit the span from the parent in that case
default_spans
} else {
&primary_spans
};
// We break the output into multiple lines, and then append the
// [E123] to every line in the output. This may be overkill. The
// intention was to match existing tests that do things like "//|
// found `i32` [E123]" and expect to match that somewhere, and yet
// also ensure that `//~ ERROR E123` *always* works. The
// assumption is that these multi-line error messages are on their
// way out anyhow.
let with_code = |span: &DiagnosticSpan, text: &str| {
match diagnostic.code {
Some(ref code) =>
// FIXME(#33000) -- it'd be better to use a dedicated
// UI harness than to include the line/col number like
// this, but some current tests rely on it.
//
// Note: Do NOT include the filename. These can easily
// cause false matches where the expected message
// appears in the filename, and hence the message
// changes but the test still passes.
format!("{}:{}: {}:{}: {} [{}]",
span.line_start, span.column_start,
span.line_end, span.column_end,
text, code.code.clone()),
None =>
// FIXME(#33000) -- it'd be better to use a dedicated UI harness
format!("{}:{}: {}:{}: {}",
span.line_start, span.column_start,
span.line_end, span.column_end,
text),
}
};
// Convert multi-line messages into multiple expected
// errors. We expect to replace these with something
// more structured shortly anyhow.
let mut message_lines = diagnostic.message.lines();
if let Some(first_line) = message_lines.next() {
for span in primary_spans {
let msg = with_code(span, first_line);
let kind = ErrorKind::from_str(&diagnostic.level).ok();
expected_errors.push(Error {
line_num: span.line_start,
kind,
msg,
});
}
}
for next_line in message_lines {
for span in primary_spans {
expected_errors.push(Error {
line_num: span.line_start,
kind: None,
msg: with_code(span, next_line),
});
}
}
// If the message has a suggestion, register that.
for span in primary_spans {
if let Some(ref suggested_replacement) = span.suggested_replacement {
for (index, line) in suggested_replacement.lines().enumerate() {
expected_errors.push(Error {
line_num: span.line_start + index,
kind: Some(ErrorKind::Suggestion),
msg: line.to_string(),
});
}
}
}
// Add notes for the backtrace
for span in primary_spans {
for frame in &span.expansion {
push_backtrace(expected_errors, frame, file_name);
}
}
// Add notes for any labels that appear in the message.
for span in spans_in_this_file.iter()
.filter(|span| span.label.is_some()) {
expected_errors.push(Error {
line_num: span.line_start,
kind: Some(ErrorKind::Note),
msg: span.label.clone().unwrap(),
});
}
// Flatten out the children.
for child in &diagnostic.children {
push_expected_errors(expected_errors, child, primary_spans, file_name);
}
}
fn push_backtrace(expected_errors: &mut Vec<Error>,
expansion: &DiagnosticSpanMacroExpansion,
file_name: &str) {
if Path::new(&expansion.span.file_name) == Path::new(&file_name) {
expected_errors.push(Error {
line_num: expansion.span.line_start,
kind: Some(ErrorKind::Note),
msg: format!("in this expansion of {}", expansion.macro_decl_name),
});
}
for previous_expansion in &expansion.span.expansion {
push_backtrace(expected_errors, previous_expansion, file_name);
}
}
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