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ADR-0019 §9 sweep (1/2): replay/client_side/ok/mode/messages/project/parse

Browse Source 
First half of the catalog migration sweep. Six categories of
user-visible literals moved from inline `format!` calls to the
i18n catalog via `t!()`:

- **replay.*** — `[ok] replay … N command(s) run`,
  `replay … failed at line N: …`, the `> command` echo, and
  the inner `could not open` / `parse error` / `nested replay`
  wordings the runtime constructs inside `ReplayFailed.error`.
- **client_side.*** — the four [client-side] pedagogical notes
  from ADR-0017 §6 / ADR-0018 §9 (transformed,
  transformed_lossy, auto_fill_transition,
  auto_fill_add_serial, auto_fill_add_shortid). The
  `format_auto_fill_add_note` helper in db.rs now routes via
  the catalog too.
- **ok.*** — the `[ok] {verb} {subject}` summary header
  (consolidated through a new `App::note_ok_summary` helper)
  plus the per-operation row-count footers
  (`{count} row(s) inserted/updated/deleted`).
- **mode.*** — `mode: simple/advanced` set/show banners +
  `usage: mode …` + `unknown mode '{value}' …` errors.
- **messages.*** — `messages: short/verbose` set/show + the
  `unknown messages mode` error.
- **project.*** — `[ok] rebuild — {summary}`, `[ok] now
  editing: {display_name}`, `[ok] export — wrote {path}`, plus
  matching failure variants and the `usage: export/import`
  + `import: empty target after as` argument-parsing errors.
- **parse.*** — the `parse error: {detail}` wrapper around
  chumsky's structural output, the `{padding}^` caret pointer,
  and the `empty input` fallback for `ParseError::Empty`.

Catalog total: 99 lines of YAML across the new categories,
44 new entries declared in `keys.rs::KEYS_AND_PLACEHOLDERS`.
The validator (`keys_validate_against_catalog`) walks the
expanded list and confirms placeholder coverage / no format
specifiers / no engine vocabulary across every entry.

Anchor phrases (ADR-0019 §10) preserved verbatim; existing
substring assertions in the test suite hold.

## Tally

610 tests passing (no change in count — pure refactor).
Clippy clean with nursery lints. Release builds.

## Still ahead in the sweep

- Sweep 7: HELP_TEXT (CLI banner) + in-app `note_help` —
  large multi-line blocks.
- Sweep 8: modal labels (load picker, rebuild confirm,
  save-as path entry) + any remaining strays. Final pass.

Both shipping in a follow-up commit so this checkpoint
stays reviewable.
This commit is contained in:
claude@clouddev1
2026-05-09 22:20:34 +00:00
parent 431645ae60
commit aff528aa3f
5 changed files with 240 additions and 86 deletions
Download Patch File Download Diff File Expand all files Collapse all files
src/app.rs
+84 -73
View File
@@ -359,12 +359,12 @@ impl App {
} }
AppEvent::RebuildSucceeded { summary } => { AppEvent::RebuildSucceeded { summary } => {
self.modal = None; self.modal = None;
self.note_system(format!("[ok] rebuild — {summary}")); self.note_system(crate::t!("project.rebuild_ok", summary = summary));
Vec::new() Vec::new()
} }
AppEvent::RebuildFailed { error } => { AppEvent::RebuildFailed { error } => {
self.modal = None; self.modal = None;
self.note_error(format!("rebuild failed: {error}")); self.note_error(crate::t!("project.rebuild_failed", error = error));
Vec::new() Vec::new()
} }
AppEvent::LoadPickerReady { entries } => { AppEvent::LoadPickerReady { entries } => {
@@ -394,7 +394,10 @@ impl App {
is_temp, is_temp,
history_entries, history_entries,
} => { } => {
self.note_system(format!("[ok] now editing: {display_name}")); self.note_system(crate::t!(
"project.switched_ok",
display_name = display_name
));
self.project_name = Some(display_name); self.project_name = Some(display_name);
self.project_is_temp = is_temp; self.project_is_temp = is_temp;
self.tables.clear(); self.tables.clear();
@@ -403,20 +406,25 @@ impl App {
Vec::new() Vec::new()
} }
AppEvent::ProjectSwitchFailed { error } => { AppEvent::ProjectSwitchFailed { error } => {
self.note_error(format!("project switch failed: {error}")); self.note_error(crate::t!("project.switch_failed", error = error));
Vec::new() Vec::new()
} }
AppEvent::ExportSucceeded { path } => { AppEvent::ExportSucceeded { path } => {
self.note_system(format!("[ok] export — wrote {}", path.display())); self.note_system(crate::t!(
"project.export_ok",
path = path.display()
));
Vec::new() Vec::new()
} }
AppEvent::ExportFailed { error } => { AppEvent::ExportFailed { error } => {
self.note_error(format!("export failed: {error}")); self.note_error(crate::t!("project.export_failed", error = error));
Vec::new() Vec::new()
} }
AppEvent::ReplayCompleted { path, count } => { AppEvent::ReplayCompleted { path, count } => {
self.note_system(format!( self.note_system(crate::t!(
"[ok] replay {path}{count} command(s) run" "replay.completed",
path = path,
count = count
)); ));
Vec::new() Vec::new()
} }
@@ -433,13 +441,23 @@ impl App {
// it, mirroring how the interactive `running: …` // it, mirroring how the interactive `running: …`
// path renders source-line context above an error. // path renders source-line context above an error.
if line_number == 0 { if line_number == 0 {
self.note_error(format!("replay {path} failed: {error}")); self.note_error(crate::t!(
"replay.failed_open",
path = path,
error = error
));
} else { } else {
self.note_error(format!( self.note_error(crate::t!(
"replay {path} failed at line {line_number}: {error}" "replay.failed_at_line",
path = path,
line_number = line_number,
error = error
)); ));
if !command.is_empty() { if !command.is_empty() {
self.note_error(format!(" > {command}")); self.note_error(crate::t!(
"replay.command_echo",
command = command
));
} }
} }
Vec::new() Vec::new()
@@ -705,7 +723,7 @@ impl App {
other if other.starts_with("export ") => { other if other.starts_with("export ") => {
let target = other["export ".len()..].trim(); let target = other["export ".len()..].trim();
if target.is_empty() { if target.is_empty() {
self.note_error("usage: export [<path>]"); self.note_error(crate::t!("project.export_usage"));
return Vec::new(); return Vec::new();
} }
return vec![Action::Export { return vec![Action::Export {
@@ -800,17 +818,33 @@ impl App {
let prefix = "running: "; let prefix = "running: ";
let trimmed_offset = leading_trim_offset(input); let trimmed_offset = leading_trim_offset(input);
let pad = prefix.chars().count() + trimmed_offset + position; let pad = prefix.chars().count() + trimmed_offset + position;
self.note_error(format!("{}^", " ".repeat(pad))); self.note_error(crate::t!(
"parse.caret",
padding = " ".repeat(pad)
));
} }
self.note_error(format!("parse error: {}", parse_error_message(&err))); self.note_error(crate::t!(
"parse.error",
detail = parse_error_message(&err)
));
Vec::new() Vec::new()
} }
} }
} }
/// Emit the standard `[ok] <verb> <subject>` header used by
/// every successful DSL command. Routes through the i18n
/// catalog (ADR-0019 §9 sweep).
fn note_ok_summary(&mut self, command: &Command) {
self.note_system(crate::t!(
"ok.summary",
verb = command.verb(),
subject = command.display_subject()
));
}
fn handle_dsl_success(&mut self, command: &Command, description: Option<TableDescription>) { fn handle_dsl_success(&mut self, command: &Command, description: Option<TableDescription>) {
let summary = format!("[ok] {} {}", command.verb(), command.display_subject()); self.note_ok_summary(command);
self.note_system(summary);
if let Some(desc) = description.as_ref() { if let Some(desc) = description.as_ref() {
for line in crate::output_render::render_structure(desc) { for line in crate::output_render::render_structure(desc) {
self.note_system(line); self.note_system(line);
@@ -820,32 +854,23 @@ impl App {
} }
fn handle_dsl_query_success(&mut self, command: &Command, data: &DataResult) { fn handle_dsl_query_success(&mut self, command: &Command, data: &DataResult) {
let summary = format!("[ok] {} {}", command.verb(), command.display_subject()); self.note_ok_summary(command);
self.note_system(summary);
for line in crate::output_render::render_data_table(data) { for line in crate::output_render::render_data_table(data) {
self.note_system(line); self.note_system(line);
} }
} }
fn handle_dsl_insert_success(&mut self, command: &Command, result: &InsertResult) { fn handle_dsl_insert_success(&mut self, command: &Command, result: &InsertResult) {
self.note_system(format!( self.note_ok_summary(command);
"[ok] {} {}", self.note_system(crate::t!("ok.rows_inserted", count = result.rows_affected));
command.verb(),
command.display_subject()
));
self.note_system(format!(" {} row(s) inserted", result.rows_affected));
for line in crate::output_render::render_data_table(&result.data) { for line in crate::output_render::render_data_table(&result.data) {
self.note_system(line); self.note_system(line);
} }
} }
fn handle_dsl_update_success(&mut self, command: &Command, result: &UpdateResult) { fn handle_dsl_update_success(&mut self, command: &Command, result: &UpdateResult) {
self.note_system(format!( self.note_ok_summary(command);
"[ok] {} {}", self.note_system(crate::t!("ok.rows_updated", count = result.rows_affected));
command.verb(),
command.display_subject()
));
self.note_system(format!(" {} row(s) updated", result.rows_affected));
for line in crate::output_render::render_data_table(&result.data) { for line in crate::output_render::render_data_table(&result.data) {
self.note_system(line); self.note_system(line);
} }
@@ -856,8 +881,7 @@ impl App {
command: &Command, command: &Command,
result: AddColumnResult, result: AddColumnResult,
) { ) {
let summary = format!("[ok] {} {}", command.verb(), command.display_subject()); self.note_ok_summary(command);
self.note_system(summary);
// ADR-0018 §9: emit auto-fill note(s) before the // ADR-0018 §9: emit auto-fill note(s) before the
// structure render, so the pedagogical "the tool did // structure render, so the pedagogical "the tool did
// this for you" line is in the user's eye-line next to // this for you" line is in the user's eye-line next to
@@ -876,8 +900,7 @@ impl App {
command: &Command, command: &Command,
result: ChangeColumnTypeResult, result: ChangeColumnTypeResult,
) { ) {
let summary = format!("[ok] {} {}", command.verb(), command.display_subject()); self.note_ok_summary(command);
self.note_system(summary);
if let Some(note) = result.client_side { if let Some(note) = result.client_side {
// ADR-0017 §6 + ADR-0018 §9: pedagogical hook // ADR-0017 §6 + ADR-0018 §9: pedagogical hook
// telling the learner "the tool did this for you; // telling the learner "the tool did this for you;
@@ -888,19 +911,15 @@ impl App {
// emitted in order (ADR-0018 §9 explicit rule). // emitted in order (ADR-0018 §9 explicit rule).
if note.transformed > 0 { if note.transformed > 0 {
let line = if note.lossy > 0 { let line = if note.lossy > 0 {
format!( crate::t!(
"[client-side] {n} row(s) transformed; {l} of those discarded \ "client_side.transformed_lossy",
information (lossy). In raw SQL this would need an explicit \ count = note.transformed,
`CAST` or application-level code.", lossy = note.lossy
n = note.transformed,
l = note.lossy
) )
} else { } else {
format!( crate::t!(
"[client-side] {n} row(s) were transformed before being stored. \ "client_side.transformed",
In raw SQL this would need an explicit `CAST` or \ count = note.transformed
application-level code.",
n = note.transformed
) )
}; };
self.note_system(line); self.note_system(line);
@@ -911,10 +930,10 @@ impl App {
Some(crate::db::AutoFillKind::ShortId) => "shortid", Some(crate::db::AutoFillKind::ShortId) => "shortid",
None => "auto-generated", None => "auto-generated",
}; };
self.note_system(format!( self.note_system(crate::t!(
"[client-side] {m} null cell(s) given auto-generated {kind} values. \ "client_side.auto_fill_transition",
In raw SQL this would need an explicit UPDATE to populate.", count = note.auto_filled,
m = note.auto_filled, kind = kind
)); ));
} }
} }
@@ -925,12 +944,8 @@ impl App {
} }
fn handle_dsl_delete_success(&mut self, command: &Command, result: &DeleteResult) { fn handle_dsl_delete_success(&mut self, command: &Command, result: &DeleteResult) {
self.note_system(format!( self.note_ok_summary(command);
"[ok] {} {}", self.note_system(crate::t!("ok.rows_deleted", count = result.rows_affected));
command.verb(),
command.display_subject()
));
self.note_system(format!(" {} row(s) deleted", result.rows_affected));
for effect in &result.cascade { for effect in &result.cascade {
self.note_system(render_cascade_effect(effect)); self.note_system(render_cascade_effect(effect));
} }
@@ -1065,7 +1080,7 @@ impl App {
fn handle_import_command(&mut self, rest: &str) -> Vec<Action> { fn handle_import_command(&mut self, rest: &str) -> Vec<Action> {
let rest = rest.trim(); let rest = rest.trim();
if rest.is_empty() { if rest.is_empty() {
self.note_error("usage: import <zip-path> [as <target>]"); self.note_error(crate::t!("project.import_usage"));
return Vec::new(); return Vec::new();
} }
// `submit()` trims trailing whitespace from the raw // `submit()` trims trailing whitespace from the raw
@@ -1074,7 +1089,7 @@ impl App {
// than silently treating "as" as part of the zip // than silently treating "as" as part of the zip
// path. // path.
if rest == "as" || rest.ends_with(" as") { if rest == "as" || rest.ends_with(" as") {
self.note_error("import: empty target after `as`"); self.note_error(crate::t!("project.import_empty_target"));
return Vec::new(); return Vec::new();
} }
let (zip_path, as_target) = match rest.split_once(" as ") { let (zip_path, as_target) = match rest.split_once(" as ") {
@@ -1082,13 +1097,13 @@ impl App {
None => (rest, None), None => (rest, None),
}; };
if zip_path.is_empty() { if zip_path.is_empty() {
self.note_error("usage: import <zip-path> [as <target>]"); self.note_error(crate::t!("project.import_usage"));
return Vec::new(); return Vec::new();
} }
if let Some(t) = as_target.as_deref() if let Some(t) = as_target.as_deref()
&& t.is_empty() && t.is_empty()
{ {
self.note_error("import: empty target after `as`"); self.note_error(crate::t!("project.import_empty_target"));
return Vec::new(); return Vec::new();
} }
vec![Action::Import { vec![Action::Import {
@@ -1419,19 +1434,17 @@ impl App {
crate::friendly::Verbosity::Short => "short", crate::friendly::Verbosity::Short => "short",
crate::friendly::Verbosity::Verbose => "verbose", crate::friendly::Verbosity::Verbose => "verbose",
}; };
self.note_system(format!("messages: {current}")); self.note_system(crate::t!("messages.show", current = current));
} }
"short" => { "short" => {
self.messages_verbosity = crate::friendly::Verbosity::Short; self.messages_verbosity = crate::friendly::Verbosity::Short;
self.note_system("messages: short"); self.note_system(crate::t!("messages.set_short"));
} }
"verbose" => { "verbose" => {
self.messages_verbosity = crate::friendly::Verbosity::Verbose; self.messages_verbosity = crate::friendly::Verbosity::Verbose;
self.note_system("messages: verbose"); self.note_system(crate::t!("messages.set_verbose"));
} }
other => self.note_error(format!( other => self.note_error(crate::t!("messages.unknown", value = other)),
"unknown messages mode '{other}' (expected 'short' or 'verbose')"
)),
} }
} }
@@ -1440,16 +1453,14 @@ impl App {
match arg { match arg {
"simple" => { "simple" => {
self.mode = Mode::Simple; self.mode = Mode::Simple;
self.note_system("mode: simple"); self.note_system(crate::t!("mode.set_simple"));
} }
"advanced" => { "advanced" => {
self.mode = Mode::Advanced; self.mode = Mode::Advanced;
self.note_system("mode: advanced"); self.note_system(crate::t!("mode.set_advanced"));
} }
"" => self.note_error("usage: mode simple | mode advanced"), "" => self.note_error(crate::t!("mode.usage")),
other => self.note_error(format!( other => self.note_error(crate::t!("mode.unknown", value = other)),
"unknown mode '{other}' (expected 'simple' or 'advanced')"
)),
} }
} }
@@ -1514,7 +1525,7 @@ impl App {
fn parse_error_message(err: &ParseError) -> String { fn parse_error_message(err: &ParseError) -> String {
match err { match err {
ParseError::Invalid { message, .. } => message.clone(), ParseError::Invalid { message, .. } => message.clone(),
ParseError::Empty => "empty input".to_string(), ParseError::Empty => crate::t!("parse.empty"),
} }
} }
src/db.rs
+6 -10
View File
@@ -1810,16 +1810,12 @@ fn generate_shortid_batch(
/// on a non-empty table per ADR-0018 §9. /// on a non-empty table per ADR-0018 §9.
fn format_auto_fill_add_note(ty: Type, row_count: usize) -> String { fn format_auto_fill_add_note(ty: Type, row_count: usize) -> String {
match ty { match ty {
Type::Serial => format!( Type::Serial => {
"[client-side] {row_count} row(s) given auto-generated serial \ crate::t!("client_side.auto_fill_add_serial", count = row_count)
values 1..{row_count}. In raw SQL this would need an explicit \ }
UPDATE to populate." Type::ShortId => {
), crate::t!("client_side.auto_fill_add_shortid", count = row_count)
Type::ShortId => format!( }
"[client-side] {row_count} row(s) given auto-generated shortid \
values. In raw SQL this would need an explicit UPDATE to \
populate."
),
_ => unreachable!("called only for serial/shortid"), _ => unreachable!("called only for serial/shortid"),
} }
} }
src/friendly/keys.rs
+44
View File
@@ -118,6 +118,50 @@ pub const KEYS_AND_PLACEHOLDERS: &[(&str, &[&str])] = &[
"error.type_mismatch.update.hint", "error.type_mismatch.update.hint",
&["table", "column", "expected_type"], &["table", "column", "expected_type"],
), ),
// ---- Parse error rendering ----
("parse.caret", &["padding"]),
("parse.empty", &[]),
("parse.error", &["detail"]),
// ---- Project lifecycle event notes ----
("project.export_failed", &["error"]),
("project.export_ok", &["path"]),
("project.export_usage", &[]),
("project.import_empty_target", &[]),
("project.import_usage", &[]),
("project.rebuild_failed", &["error"]),
("project.rebuild_ok", &["summary"]),
("project.switch_failed", &["error"]),
("project.switched_ok", &["display_name"]),
// ---- mode / messages banners ----
("messages.set_short", &[]),
("messages.set_verbose", &[]),
("messages.show", &["current"]),
("messages.unknown", &["value"]),
("mode.set_advanced", &[]),
("mode.set_simple", &[]),
("mode.show_advanced", &[]),
("mode.show_simple", &[]),
("mode.unknown", &["value"]),
("mode.usage", &[]),
// ---- DSL command success summaries (ADR-0019 §9 sweep) ----
("ok.rows_deleted", &["count"]),
("ok.rows_inserted", &["count"]),
("ok.rows_updated", &["count"]),
("ok.summary", &["verb", "subject"]),
// ---- Client-side success notes (ADR-0017 §6, ADR-0018 §9) ----
("client_side.auto_fill_add_serial", &["count"]),
("client_side.auto_fill_add_shortid", &["count"]),
("client_side.auto_fill_transition", &["count", "kind"]),
("client_side.transformed", &["count"]),
("client_side.transformed_lossy", &["count", "lossy"]),
// ---- Replay command surfaces (ADR-0019 §9 sweep) ----
("replay.command_echo", &["command"]),
("replay.completed", &["path", "count"]),
("replay.error_could_not_open", &["path", "detail"]),
("replay.error_nested", &[]),
("replay.error_parse", &["detail"]),
("replay.failed_at_line", &["path", "line_number", "error"]),
("replay.failed_open", &["path", "error"]),
// ---- UNIQUE violations (anchor: "already has the value") ---- // ---- UNIQUE violations (anchor: "already has the value") ----
( (
"error.unique.insert.headline", "error.unique.insert.headline",
src/friendly/strings/en-US.yaml
+99
View File
@@ -151,3 +151,102 @@ error:
headline: "INSERT requires at least one column value." headline: "INSERT requires at least one column value."
empty_update: empty_update:
headline: "UPDATE requires at least one assignment." headline: "UPDATE requires at least one assignment."
# ---- DSL parse error rendering --------------------------------------
parse:
# Wrapper around chumsky's structural error message. The
# caret pointer (visualising the failure column) is printed
# on its own preceding line via `parse.caret`.
error: "parse error: {detail}"
# Caret pointer showing where in the input the parser
# failed. `{padding}` is the leading whitespace; the
# template appends `^` so the rendered line places the
# marker under the offending character.
caret: "{padding}^"
# Default for the `ParseError::Empty` variant — surfaces as
# `{detail}` inside the wrapper.
empty: "empty input"
# ---- Project lifecycle event notes -----------------------------------
project:
rebuild_ok: "[ok] rebuild — {summary}"
rebuild_failed: "rebuild failed: {error}"
switched_ok: "[ok] now editing: {display_name}"
switch_failed: "project switch failed: {error}"
export_ok: "[ok] export — wrote {path}"
export_failed: "export failed: {error}"
# Usage / argument-parsing errors for app-level commands.
export_usage: "usage: export [<path>]"
import_usage: "usage: import <zip-path> [as <target>]"
import_empty_target: "import: empty target after `as`"
# ---- mode / messages banners (app-level commands) -------------------
mode:
set_simple: "mode: simple"
set_advanced: "mode: advanced"
show_simple: "mode: simple"
show_advanced: "mode: advanced"
usage: "usage: mode simple | mode advanced"
unknown: "unknown mode '{value}' (expected 'simple' or 'advanced')"
messages:
show: "messages: {current}"
set_short: "messages: short"
set_verbose: "messages: verbose"
unknown: "unknown messages mode '{value}' (expected 'short' or 'verbose')"
# ---- DSL command success summaries (ADR-0019 §9 sweep) --------------
ok:
# Generic `[ok] <verb> <subject>` header used for every
# successful DSL command. Verbs come from `Command::verb()`
# (already English keywords); subjects are the table /
# relationship endpoints derived in `Command::display_subject()`.
summary: "[ok] {verb} {subject}"
# Per-operation row-count footers shown beneath the summary.
rows_inserted: " {count} row(s) inserted"
rows_updated: " {count} row(s) updated"
rows_deleted: " {count} row(s) deleted"
# ---- Client-side success notes (ADR-0017 §6, ADR-0018 §9) ------------
client_side:
# Per-cell transformation notice when `change column ...` rewrote
# at least one stored value (storage-class change or non-identity
# mapping). `lossy` variant fires under --force-conversion when
# information was discarded.
transformed: |-
[client-side] {count} row(s) were transformed before being stored. In raw SQL this would need an explicit `CAST` or application-level code.
transformed_lossy: |-
[client-side] {count} row(s) transformed; {lossy} of those discarded information (lossy). In raw SQL this would need an explicit `CAST` or application-level code.
# Auto-fill notice when null cells were populated by the
# serial/shortid auto-generation contract (change column path).
auto_fill_transition: |-
[client-side] {count} null cell(s) given auto-generated {kind} values. In raw SQL this would need an explicit UPDATE to populate.
# Auto-fill notice for `add column T: x (serial)` on a
# non-empty table — values run 1..N.
auto_fill_add_serial: |-
[client-side] {count} row(s) given auto-generated serial values 1..{count}. In raw SQL this would need an explicit UPDATE to populate.
# Auto-fill notice for `add column T: x (shortid)` on a
# non-empty table.
auto_fill_add_shortid: |-
[client-side] {count} row(s) given auto-generated shortid values. In raw SQL this would need an explicit UPDATE to populate.
# ---- Replay command surfaces (ADR-0019 §9 sweep) ---------------------
replay:
# Success summary printed when `replay <path>` completes
# without per-line failure.
completed: "[ok] replay {path} — {count} command(s) run"
# File-open failure (line_number == 0 from the runtime).
failed_open: "replay {path} failed: {error}"
# Per-line failure header. The command echo is on a
# follow-up `command_echo` line so the renderer can format
# them as separate output rows.
failed_at_line: "replay {path} failed at line {line_number}: {error}"
# Indented echo of the offending command line, shown after
# `failed_at_line` when the runtime supplied the source.
command_echo: " > {command}"
# Errors the runtime constructs inside ReplayFailed.error
# before forwarding to App. Carried as plain text so they
# compose with `failed_at_line`'s `{error}` placeholder.
error_could_not_open: "could not open `{path}`: {detail}"
error_parse: "parse error: {detail}"
error_nested: "nested `replay` is not allowed inside a replay file"
src/runtime.rs
+7 -3
View File
@@ -1355,7 +1355,11 @@ pub async fn run_replay(
path: path.to_string(), path: path.to_string(),
line_number: 0, line_number: 0,
command: String::new(), command: String::new(),
error: format!("could not open `{}`: {e}", resolved.display()), error: crate::t!(
"replay.error_could_not_open",
path = resolved.display(),
detail = e
),
}); });
return events; return events;
} }
@@ -1378,7 +1382,7 @@ pub async fn run_replay(
path: path.to_string(), path: path.to_string(),
line_number, line_number,
command: trimmed.to_string(), command: trimmed.to_string(),
error: format!("parse error: {e}"), error: crate::t!("replay.error_parse", detail = e),
}); });
return events; return events;
} }
@@ -1394,7 +1398,7 @@ pub async fn run_replay(
path: path.to_string(), path: path.to_string(),
line_number, line_number,
command: trimmed.to_string(), command: trimmed.to_string(),
error: "nested `replay` is not allowed inside a replay file".to_string(), error: crate::t!("replay.error_nested"),
}); });
return events; return events;
} }