use anyhow::{Context, Result};
use chrono::Local;
use console::Style;
use std::path::Path;
use crate::analyzer::{AudioAnalysis, GainMethod, TpTargetMode, GAIN_STEP};
pub fn generate_csv(
analyses: &[&AudioAnalysis],
output_dir: &Path,
explicit_path: Option<&Path>,
) -> Result<std::path::PathBuf> {
let output_path = if let Some(p) = explicit_path {
if let Some(parent) = p.parent() {
if !parent.as_os_str().is_empty() {
std::fs::create_dir_all(parent).context("Failed to create report directory")?;
}
}
p.to_path_buf()
} else {
let timestamp = Local::now().format("%Y%m%d_%H%M%S");
let filename = format!("headroom_report_{}.csv", timestamp);
output_dir.join(&filename)
};
let mut writer = csv::Writer::from_path(&output_path).context("Failed to create CSV file")?;
writer
.write_record([
"Filename",
"Format",
"Bitrate (kbps)",
"LUFS",
"True Peak (dBTP)",
"Target (dBTP)",
"Headroom (dB)",
"Method",
"Effective Gain (dB)",
])
.context("Failed to write CSV header")?;
for analysis in analyses {
let bitrate = analysis
.bitrate_kbps
.map(|b| b.to_string())
.unwrap_or_else(|| "-".to_string());
writer
.write_record([
&analysis.filename,
analysis.gain_method.format_label(),
&bitrate,
&format!("{:.1}", analysis.input_i),
&format!("{:.1}", analysis.input_tp),
&format!("{:.1}", analysis.target_tp),
&format!("{:+.1}", analysis.headroom),
analysis.gain_method.method_label(),
&format!("{:+.1}", analysis.effective_gain),
])
.context("Failed to write CSV record")?;
}
writer.flush().context("Failed to flush CSV")?;
Ok(output_path)
}
pub fn print_analysis_report(analyses: &[AudioAnalysis], tp_mode: TpTargetMode) {
let header_style = Style::new().bold().cyan();
let lossless_style = Style::new().green();
let mp3_lossless_style = Style::new().yellow();
let reencode_style = Style::new().magenta();
let dim_style = Style::new().dim();
let filename_width = analyses
.iter()
.filter(|a| a.has_headroom())
.map(|a| a.filename.chars().count())
.max()
.unwrap_or(8)
.clamp(8, 40);
println!();
let mp3_label = native_lossless_label("MP3", tp_mode);
let aac_label = native_lossless_label("AAC/M4A", tp_mode);
let sections: &[(GainMethod, &str, &Style)] = &[
(GainMethod::FfmpegLossless, "lossless files (ffmpeg, precise gain)", &lossless_style),
(GainMethod::Mp3Lossless, mp3_label.as_str(), &mp3_lossless_style),
(GainMethod::AacLossless, aac_label.as_str(), &mp3_lossless_style),
(GainMethod::Mp3Reencode, "MP3 files (re-encode required for precise gain)", &reencode_style),
(GainMethod::AacReencode, "AAC/M4A files (re-encode required)", &reencode_style),
];
let mut total = 0;
for (method, label, accent_style) in sections {
let files: Vec<_> = analyses.iter().filter(|a| a.gain_method == *method).collect();
if !files.is_empty() {
total += files.len();
println!(
"{} {} {}",
accent_style.apply_to("●"),
header_style.apply_to(format!("{}", files.len())),
label,
);
print_file_table(&files, filename_width, accent_style);
println!();
}
}
if total == 0 {
println!(
"{} No files with available headroom found.",
dim_style.apply_to("ℹ")
);
}
}
fn native_lossless_label(format: &str, tp_mode: TpTargetMode) -> String {
match tp_mode {
TpTargetMode::Uniform(t) => format!(
"{} files (native lossless, {:.1} dB steps, requires TP ≤ {:+.1} dBTP)",
format,
GAIN_STEP,
t - GAIN_STEP
),
TpTargetMode::SplitBitrate(high, low) => format!(
"{} files (native lossless, {:.1} dB steps; ≥256k requires TP ≤ {:+.1}, <256k requires TP ≤ {:+.1})",
format,
GAIN_STEP,
high - GAIN_STEP,
low - GAIN_STEP
),
}
}
fn print_file_table(files: &[&AudioAnalysis], filename_width: usize, accent_style: &Style) {
let dim_style = Style::new().dim();
println!(
" {:<width$} {:>8} {:>12} {:>10} {:>12}",
dim_style.apply_to("Filename"),
dim_style.apply_to("LUFS"),
dim_style.apply_to("True Peak"),
dim_style.apply_to("Target"),
dim_style.apply_to("Gain"),
width = filename_width,
);
for analysis in files {
let char_count = analysis.filename.chars().count();
let display_name: String = if char_count > filename_width {
let truncated: String = analysis.filename.chars().take(filename_width - 1).collect();
format!("{}…", truncated)
} else {
analysis.filename.clone()
};
let gain_str = format!("{:+.1} dB", analysis.effective_gain);
let target_str = format!("{:.1}", analysis.target_tp);
println!(
" {:<width$} {:>8.1} {:>10.1} dBTP {:>8} dBTP {:>12}",
display_name,
analysis.input_i,
analysis.input_tp,
dim_style.apply_to(target_str),
accent_style.apply_to(gain_str),
width = filename_width,
);
}
}
pub struct AnalysisSummary {
pub lossless_count: usize,
pub mp3_lossless_count: usize,
pub aac_lossless_count: usize,
pub mp3_reencode_count: usize,
pub aac_reencode_count: usize,
}
impl AnalysisSummary {
pub fn from_analyses(analyses: &[AudioAnalysis]) -> Self {
Self::from_iter(analyses.iter())
}
pub fn from_iter<'a, I: IntoIterator<Item = &'a AudioAnalysis>>(analyses: I) -> Self {
let mut summary = Self {
lossless_count: 0,
mp3_lossless_count: 0,
aac_lossless_count: 0,
mp3_reencode_count: 0,
aac_reencode_count: 0,
};
for a in analyses {
match a.gain_method {
GainMethod::FfmpegLossless => summary.lossless_count += 1,
GainMethod::Mp3Lossless => summary.mp3_lossless_count += 1,
GainMethod::AacLossless => summary.aac_lossless_count += 1,
GainMethod::Mp3Reencode => summary.mp3_reencode_count += 1,
GainMethod::AacReencode => summary.aac_reencode_count += 1,
GainMethod::None => {}
}
}
summary
}
pub fn total_lossless(&self) -> usize {
self.lossless_count + self.mp3_lossless_count + self.aac_lossless_count
}
pub fn total_reencode(&self) -> usize {
self.mp3_reencode_count + self.aac_reencode_count
}
pub fn has_processable(&self) -> bool {
self.total_lossless() + self.total_reencode() > 0
}
}