JSON Output

This chapter documents the JSON structures emitted by rustc. JSON may be enabled with the --error-format=json flag. Additional options may be specified with the --json flag which can change which messages are generated, and the format of the messages.

JSON messages are emitted one per line to stderr.

If parsing the output with Rust, the cargo_metadata crate provides some support for parsing the messages.

Each type of message has a $message_type field which can be used to distinguish the different formats. When parsing, care should be taken to be forwards-compatible with future changes to the format. Optional values may be null. New fields may be added. Enumerated fields like "level" or "suggestion_applicability" may add new values.

Diagnostics

Diagnostic messages provide errors or possible concerns generated during compilation. rustc provides detailed information about where the diagnostic originates, along with hints and suggestions.

Diagnostics are arranged in a parent/child relationship where the parent diagnostic value is the core of the diagnostic, and the attached children provide additional context, help, and information.

Diagnostics have the following format:

{
    /* Type of this message */
    "$message_type": "diagnostic",
    /* The primary message. */
    "message": "unused variable: `x`",
    /* The diagnostic code.
       Some messages may set this value to null.
    */
    "code": {
        /* A unique string identifying which diagnostic triggered. */
        "code": "unused_variables",
        /* An optional string explaining more detail about the diagnostic code. */
        "explanation": null
    },
    /* The severity of the diagnostic.
       Values may be:
       - "error": A fatal error that prevents compilation.
       - "warning": A possible error or concern.
       - "note": Additional information or context about the diagnostic.
       - "help": A suggestion on how to resolve the diagnostic.
       - "failure-note": A note attached to the message for further information.
       - "error: internal compiler error": Indicates a bug within the compiler.
    */
    "level": "warning",
    /* An array of source code locations to point out specific details about
       where the diagnostic originates from. This may be empty, for example
       for some global messages, or child messages attached to a parent.

       Character offsets are offsets of Unicode Scalar Values.
    */
    "spans": [
        {
            /* The file where the span is located.
               Note that this path may not exist. For example, if the path
               points to the standard library, and the rust src is not
               available in the sysroot, then it may point to a nonexistent
               file. Beware that this may also point to the source of an
               external crate.
            */
            "file_name": "lib.rs",
            /* The byte offset where the span starts (0-based, inclusive). */
            "byte_start": 21,
            /* The byte offset where the span ends (0-based, exclusive). */
            "byte_end": 22,
            /* The first line number of the span (1-based, inclusive). */
            "line_start": 2,
            /* The last line number of the span (1-based, inclusive). */
            "line_end": 2,
            /* The first character offset of the line_start (1-based, inclusive). */
            "column_start": 9,
            /* The last character offset of the line_end (1-based, exclusive). */
            "column_end": 10,
            /* Whether or not this is the "primary" span.

               This indicates that this span is the focal point of the
               diagnostic.

               There are rare cases where multiple spans may be marked as
               primary. For example, "immutable borrow occurs here" and
               "mutable borrow ends here" can be two separate primary spans.

               The top (parent) message should always have at least one
               primary span, unless it has zero spans. Child messages may have
               zero or more primary spans.
            */
            "is_primary": true,
            /* An array of objects showing the original source code for this
               span. This shows the entire lines of text where the span is
               located. A span across multiple lines will have a separate
               value for each line.
            */
            "text": [
                {
                    /* The entire line of the original source code. */
                    "text": "    let x = 123;",
                    /* The first character offset of the line of
                       where the span covers this line (1-based, inclusive). */
                    "highlight_start": 9,
                    /* The last character offset of the line of
                       where the span covers this line (1-based, exclusive). */
                    "highlight_end": 10
                }
            ],
            /* An optional message to display at this span location.
               This is typically null for primary spans.
            */
            "label": null,
            /* An optional string of a suggested replacement for this span to
               solve the issue. Tools may try to replace the contents of the
               span with this text.
            */
            "suggested_replacement": null,
            /* An optional string that indicates the confidence of the
               "suggested_replacement". Tools may use this value to determine
               whether or not suggestions should be automatically applied.

               Possible values may be:
               - "MachineApplicable": The suggestion is definitely what the
                 user intended. This suggestion should be automatically
                 applied.
               - "MaybeIncorrect": The suggestion may be what the user
                 intended, but it is uncertain. The suggestion should result
                 in valid Rust code if it is applied.
               - "HasPlaceholders": The suggestion contains placeholders like
                 `(...)`. The suggestion cannot be applied automatically
                 because it will not result in valid Rust code. The user will
                 need to fill in the placeholders.
               - "Unspecified": The applicability of the suggestion is unknown.
            */
            "suggestion_applicability": null,
            /* An optional object indicating the expansion of a macro within
               this span.

               If a message occurs within a macro invocation, this object will
               provide details of where within the macro expansion the message
               is located.
            */
            "expansion": {
                /* The span of the macro invocation.
                   Uses the same span definition as the "spans" array.
                */
                "span": {/*...*/}
                /* Name of the macro, such as "foo!" or "#[derive(Eq)]". */
                "macro_decl_name": "some_macro!",
                /* Optional span where the relevant part of the macro is
                  defined. */
                "def_site_span": {/*...*/},
            }
        }
    ],
    /* Array of attached diagnostic messages.
       This is an array of objects using the same format as the parent
       message. Children are not nested (children do not themselves
       contain "children" definitions).
    */
    "children": [
        {
            "message": "`#[warn(unused_variables)]` on by default",
            "code": null,
            "level": "note",
            "spans": [],
            "children": [],
            "rendered": null
        },
        {
            "message": "if this is intentional, prefix it with an underscore",
            "code": null,
            "level": "help",
            "spans": [
                {
                    "file_name": "lib.rs",
                    "byte_start": 21,
                    "byte_end": 22,
                    "line_start": 2,
                    "line_end": 2,
                    "column_start": 9,
                    "column_end": 10,
                    "is_primary": true,
                    "text": [
                        {
                            "text": "    let x = 123;",
                            "highlight_start": 9,
                            "highlight_end": 10
                        }
                    ],
                    "label": null,
                    "suggested_replacement": "_x",
                    "suggestion_applicability": "MachineApplicable",
                    "expansion": null
                }
            ],
            "children": [],
            "rendered": null
        }
    ],
    /* Optional string of the rendered version of the diagnostic as displayed
       by rustc. Note that this may be influenced by the `--json` flag.
    */
    "rendered": "warning: unused variable: `x`\n --> lib.rs:2:9\n  |\n2 |     let x = 123;\n  |         ^ help: if this is intentional, prefix it with an underscore: `_x`\n  |\n  = note: `#[warn(unused_variables)]` on by default\n\n"
}

Artifact notifications

Artifact notifications are emitted when the --json=artifacts flag is used. They indicate that a file artifact has been saved to disk. More information about emit kinds may be found in the --emit flag documentation. Notifications can contain more than one file for each type, for example when using multiple codegen units.

{
    /* Type of this message */
    "$message_type": "artifact",
    /* The filename that was generated. */
    "artifact": "libfoo.rlib",
    /* The kind of artifact that was generated. Possible values:
       - "link": The generated crate as specified by the crate-type.
       - "dep-info": The `.d` file with dependency information in a Makefile-like syntax.
       - "metadata": The Rust `.rmeta` file containing metadata about the crate.
       - "asm": The `.s` file with generated assembly
       - "llvm-ir": The `.ll` file with generated textual LLVM IR
       - "llvm-bc": The `.bc` file with generated LLVM bitcode
       - "mir": The `.mir` file with rustc's mid-level intermediate representation.
       - "obj": The `.o` file with generated native object code
    */
    "emit": "link"
}

Future-incompatible reports

If the --json=future-incompat flag is used, then a separate JSON structure will be emitted if the crate may stop compiling in the future. This contains diagnostic information about the particular warnings that may be turned into a hard error in the future. This will include the diagnostic information, even if the diagnostics have been suppressed (such as with an #[allow] attribute or the --cap-lints option).

{
    /* Type of this message */
    "$message_type": "future_incompat",
    /* An array of objects describing a warning that will become a hard error
       in the future.
    */
    "future_incompat_report":
    [
        {
            /* A diagnostic structure as defined in
               https://doc.rust-lang.org/rustc/json.html#diagnostics
            */
            "diagnostic": {...},
        }
    ]
}

Unused Dependency Notifications

The options --json=unused-externs and --json=unused-externs-silent in conjunction with the unused-crate-dependencies lint will emit JSON structures reporting any crate dependencies (specified with --extern) which never had any symbols referenced. These are intended to be consumed by the build system which can then emit diagnostics telling the user to remove the unused dependencies from Cargo.toml (or whatever build-system file defines dependencies).

The JSON structure is:

{
    "lint_level": "deny", /* Level of the warning */
    "unused_names": [
        "foo"  /* Names of unused crates, as specified with --extern foo=libfoo.rlib */
    ],
}

The warn/deny/forbid lint level (as defined either on the command line or in the source) dictates the lint_level in the JSON. With unused-externs, a deny or forbid level diagnostic will also cause rustc to exit with a failure exit code.

unused-externs-silent will report the diagnostic the same way, but will not cause rustc to exit with failure - it's up to the consumer to flag failure appropriately. (This is needed by Cargo which shares the same dependencies across multiple build targets, so it should only report an unused dependency if its not used by any of the targets.)