use wsi_dicom::{
DicomExportMetrics, DicomExportReport, DicomRouteCorpusCoverageReport,
DicomRouteCoverageReport, DicomRouteProfileReport,
};
fn format_requested_frames_per_level(max_frames_per_level: u64) -> String {
if max_frames_per_level == u64::MAX {
"all".into()
} else {
max_frames_per_level.to_string()
}
}
pub(crate) fn format_report_summary(report: &DicomExportReport) -> String {
format_report_summary_with_memory(report, process_resident_memory_bytes())
}
pub(crate) fn format_report_summary_with_memory(
report: &DicomExportReport,
rss_bytes: Option<u64>,
) -> String {
let metrics = report.metrics;
let route_passthrough = metrics.route_passthrough_frames();
let route_unclassified = metrics.route_unclassified_frames();
format!(
"wrote {} DICOM instance(s) to {}; frames total={} route_passthrough={} route_passthrough_pct={:.1} route_gpu_transcode={} route_gpu_transcode_pct={:.1} route_resident_gpu_transcode={} route_partial_gpu_transcode={} route_cpu_fallback={} route_cpu_fallback_pct={:.1} route_unclassified={} cpu_input={} gpu_input_decode={} gpu_encode={} gpu_validation={} gray_frames={} rgb_like_frames={} other_component_frames={} unknown_pixel_profile_frames={} bits8_frames={} bits16_frames={} other_bit_depth_frames={} gpu_input_batches={} gpu_compose_batches={} gpu_encode_batches={} {} gpu_dispatch_ms={:.3} gpu_encode_hardware_ms={:.3} gpu_encode_dispatch_overhead_ms={:.3} auto_probe_frames={} auto_probe_selected_gpu_input={} auto_probe_gpu_batches={} auto_probe_cpu_ms={:.3} auto_probe_gpu_ms={:.3} jpeg_passthrough={} j2k_passthrough={} jpeg_decode_fallback={} jpeg_cpu_encode={} jpeg_metal_encode={} input_decode_ms={:.3} compose_ms={:.3} encode_ms={:.3} validation_ms={:.3} write_ms={:.3} rss_mb={}",
report.instances.len(),
report.output_dir.display(),
metrics.total_frames,
route_passthrough,
frame_percent(route_passthrough, metrics.total_frames),
metrics.gpu_transcode_frames,
frame_percent(metrics.gpu_transcode_frames, metrics.total_frames),
metrics.resident_gpu_transcode_frames,
metrics.partial_gpu_transcode_frames,
metrics.cpu_fallback_frames,
frame_percent(metrics.cpu_fallback_frames, metrics.total_frames),
route_unclassified,
metrics.cpu_input_frames,
metrics.gpu_input_decode_frames,
metrics.gpu_encode_frames,
metrics.gpu_validation_frames,
metrics.gray_frames,
metrics.rgb_like_frames,
metrics.other_component_frames,
metrics.unknown_pixel_profile_frames,
metrics.bits8_frames,
metrics.bits16_frames,
metrics.other_bit_depth_frames,
metrics.gpu_input_decode_batches,
metrics.gpu_compose_batches,
metrics.gpu_encode_batches,
format_gpu_encode_metrics(metrics),
micros_to_ms(metrics.gpu_dispatch_micros),
micros_to_ms(metrics.gpu_encode_hardware_micros),
micros_to_ms(metrics.gpu_encode_dispatch_overhead_micros),
metrics.auto_route_probe_frames,
metrics.auto_route_probe_selected_gpu_input_frames,
metrics.auto_route_probe_gpu_batches,
micros_to_ms(metrics.auto_route_probe_cpu_micros),
micros_to_ms(metrics.auto_route_probe_gpu_micros),
metrics.jpeg_passthrough_frames,
metrics.j2k_passthrough_frames,
metrics.jpeg_decode_fallback_frames,
metrics.jpeg_cpu_encode_frames,
metrics.jpeg_metal_encode_frames,
micros_to_ms(metrics.input_decode_micros),
micros_to_ms(metrics.compose_micros),
micros_to_ms(metrics.encode_micros),
micros_to_ms(metrics.validation_micros),
micros_to_ms(metrics.write_micros),
format_rss_mb(rss_bytes),
)
}
fn micros_to_ms(micros: u128) -> f64 {
micros as f64 / 1_000.0
}
fn format_gpu_encode_metrics(metrics: DicomExportMetrics) -> String {
format!(
"gpu_encode_configured_inflight_tiles={} gpu_encode_effective_inflight_tiles={} gpu_encode_max_observed_inflight_tiles={} gpu_encode_configured_memory_mib={} gpu_encode_effective_memory_mib={} gpu_encode_wall_ms={:.3} gpu_encode_effective_parallelism={:.3}",
metrics.gpu_encode_configured_inflight_tiles,
metrics.gpu_encode_effective_inflight_tiles,
metrics.gpu_encode_max_observed_inflight_tiles,
metrics.gpu_encode_configured_memory_mib,
metrics.gpu_encode_effective_memory_mib,
micros_to_ms(metrics.gpu_encode_wall_micros),
metrics.gpu_encode_effective_parallelism(),
)
}
pub(crate) fn format_profile_summary(report: &DicomRouteProfileReport) -> String {
format_profile_summary_with_memory(report, process_resident_memory_bytes())
}
pub(crate) fn format_profile_summary_with_memory(
report: &DicomRouteProfileReport,
rss_bytes: Option<u64>,
) -> String {
let metrics = report.metrics;
let route_passthrough = metrics.route_passthrough_frames();
let route_unclassified = metrics.route_unclassified_frames();
format!(
"profiled {} level={} transfer_syntax={} requested_frames={} available_frames={} sampled_frames_pct={:.4} frames total={} route_passthrough={} route_passthrough_pct={:.1} route_gpu_transcode={} route_gpu_transcode_pct={:.1} route_resident_gpu_transcode={} route_partial_gpu_transcode={} route_cpu_fallback={} route_cpu_fallback_pct={:.1} route_unclassified={} cpu_input={} gpu_input_decode={} gpu_encode={} gpu_validation={} gray_frames={} rgb_like_frames={} other_component_frames={} unknown_pixel_profile_frames={} bits8_frames={} bits16_frames={} other_bit_depth_frames={} gpu_input_batches={} gpu_compose_batches={} gpu_encode_batches={} {} gpu_dispatch_ms={:.3} gpu_encode_hardware_ms={:.3} gpu_encode_dispatch_overhead_ms={:.3} auto_probe_frames={} auto_probe_selected_gpu_input={} auto_probe_gpu_batches={} auto_probe_cpu_ms={:.3} auto_probe_gpu_ms={:.3} jpeg_passthrough={} j2k_passthrough={} jpeg_decode_fallback={} jpeg_cpu_encode={} jpeg_metal_encode={} final_byte_ms={:.3} input_decode_ms={:.3} compose_ms={:.3} encode_ms={:.3} validation_ms={:.3} elapsed_ms={:.3} rss_mb={}",
report.source_path.display(),
report.level,
report.transfer_syntax_uid,
report.requested_frames,
report.available_frames,
frame_percent(metrics.total_frames, report.available_frames),
metrics.total_frames,
route_passthrough,
frame_percent(route_passthrough, metrics.total_frames),
metrics.gpu_transcode_frames,
frame_percent(metrics.gpu_transcode_frames, metrics.total_frames),
metrics.resident_gpu_transcode_frames,
metrics.partial_gpu_transcode_frames,
metrics.cpu_fallback_frames,
frame_percent(metrics.cpu_fallback_frames, metrics.total_frames),
route_unclassified,
metrics.cpu_input_frames,
metrics.gpu_input_decode_frames,
metrics.gpu_encode_frames,
metrics.gpu_validation_frames,
metrics.gray_frames,
metrics.rgb_like_frames,
metrics.other_component_frames,
metrics.unknown_pixel_profile_frames,
metrics.bits8_frames,
metrics.bits16_frames,
metrics.other_bit_depth_frames,
metrics.gpu_input_decode_batches,
metrics.gpu_compose_batches,
metrics.gpu_encode_batches,
format_gpu_encode_metrics(metrics),
micros_to_ms(metrics.gpu_dispatch_micros),
micros_to_ms(metrics.gpu_encode_hardware_micros),
micros_to_ms(metrics.gpu_encode_dispatch_overhead_micros),
metrics.auto_route_probe_frames,
metrics.auto_route_probe_selected_gpu_input_frames,
metrics.auto_route_probe_gpu_batches,
micros_to_ms(metrics.auto_route_probe_cpu_micros),
micros_to_ms(metrics.auto_route_probe_gpu_micros),
metrics.jpeg_passthrough_frames,
metrics.j2k_passthrough_frames,
metrics.jpeg_decode_fallback_frames,
metrics.jpeg_cpu_encode_frames,
metrics.jpeg_metal_encode_frames,
micros_to_ms(metrics.write_micros),
micros_to_ms(metrics.input_decode_micros),
micros_to_ms(metrics.compose_micros),
micros_to_ms(metrics.encode_micros),
micros_to_ms(metrics.validation_micros),
micros_to_ms(report.elapsed_micros),
format_rss_mb(rss_bytes),
)
}
pub(crate) fn format_coverage_summary(report: &DicomRouteCoverageReport) -> String {
format_coverage_summary_with_memory(report, process_resident_memory_bytes())
}
pub(crate) fn format_coverage_summary_with_memory(
report: &DicomRouteCoverageReport,
rss_bytes: Option<u64>,
) -> String {
let metrics = report.metrics;
let route_passthrough = metrics.route_passthrough_frames();
let route_unclassified = metrics.route_unclassified_frames();
format!(
"covered {} levels={} transfer_syntax={} requested_frames_per_level={} available_frames={} sampled_frames_pct={:.4} complete_frame_coverage={} frames total={} route_passthrough={} route_passthrough_pct={:.1} route_gpu_transcode={} route_gpu_transcode_pct={:.1} route_resident_gpu_transcode={} route_partial_gpu_transcode={} route_cpu_fallback={} route_cpu_fallback_pct={:.1} route_unclassified={} cpu_input={} gpu_input_decode={} gpu_encode={} gpu_validation={} gray_frames={} rgb_like_frames={} other_component_frames={} unknown_pixel_profile_frames={} bits8_frames={} bits16_frames={} other_bit_depth_frames={} gpu_input_batches={} gpu_compose_batches={} gpu_encode_batches={} {} gpu_dispatch_ms={:.3} gpu_encode_hardware_ms={:.3} gpu_encode_dispatch_overhead_ms={:.3} auto_probe_frames={} auto_probe_selected_gpu_input={} auto_probe_gpu_batches={} auto_probe_cpu_ms={:.3} auto_probe_gpu_ms={:.3} jpeg_passthrough={} j2k_passthrough={} jpeg_decode_fallback={} jpeg_cpu_encode={} jpeg_metal_encode={} final_byte_ms={:.3} input_decode_ms={:.3} compose_ms={:.3} encode_ms={:.3} validation_ms={:.3} elapsed_ms={:.3} rss_mb={}",
report.source_path.display(),
report.levels.len(),
report.transfer_syntax_uid,
format_requested_frames_per_level(report.requested_frames_per_level),
report.available_frames,
frame_percent(metrics.total_frames, report.available_frames),
report.complete_frame_coverage,
metrics.total_frames,
route_passthrough,
frame_percent(route_passthrough, metrics.total_frames),
metrics.gpu_transcode_frames,
frame_percent(metrics.gpu_transcode_frames, metrics.total_frames),
metrics.resident_gpu_transcode_frames,
metrics.partial_gpu_transcode_frames,
metrics.cpu_fallback_frames,
frame_percent(metrics.cpu_fallback_frames, metrics.total_frames),
route_unclassified,
metrics.cpu_input_frames,
metrics.gpu_input_decode_frames,
metrics.gpu_encode_frames,
metrics.gpu_validation_frames,
metrics.gray_frames,
metrics.rgb_like_frames,
metrics.other_component_frames,
metrics.unknown_pixel_profile_frames,
metrics.bits8_frames,
metrics.bits16_frames,
metrics.other_bit_depth_frames,
metrics.gpu_input_decode_batches,
metrics.gpu_compose_batches,
metrics.gpu_encode_batches,
format_gpu_encode_metrics(metrics),
micros_to_ms(metrics.gpu_dispatch_micros),
micros_to_ms(metrics.gpu_encode_hardware_micros),
micros_to_ms(metrics.gpu_encode_dispatch_overhead_micros),
metrics.auto_route_probe_frames,
metrics.auto_route_probe_selected_gpu_input_frames,
metrics.auto_route_probe_gpu_batches,
micros_to_ms(metrics.auto_route_probe_cpu_micros),
micros_to_ms(metrics.auto_route_probe_gpu_micros),
metrics.jpeg_passthrough_frames,
metrics.j2k_passthrough_frames,
metrics.jpeg_decode_fallback_frames,
metrics.jpeg_cpu_encode_frames,
metrics.jpeg_metal_encode_frames,
micros_to_ms(metrics.write_micros),
micros_to_ms(metrics.input_decode_micros),
micros_to_ms(metrics.compose_micros),
micros_to_ms(metrics.encode_micros),
micros_to_ms(metrics.validation_micros),
micros_to_ms(report.elapsed_micros),
format_rss_mb(rss_bytes),
)
}
pub(crate) fn format_corpus_coverage_summary(report: &DicomRouteCorpusCoverageReport) -> String {
format_corpus_coverage_summary_with_memory(report, process_resident_memory_bytes())
}
pub(crate) fn format_corpus_coverage_summary_with_memory(
report: &DicomRouteCorpusCoverageReport,
rss_bytes: Option<u64>,
) -> String {
let metrics = report.metrics;
let route_passthrough = metrics.route_passthrough_frames();
let route_unclassified = metrics.route_unclassified_frames();
format!(
"covered_corpus {} sources_considered={} sources_profiled={} failures={} transfer_syntax={} requested_frames_per_level={} available_frames={} sampled_frames_pct={:.4} complete_frame_coverage={} frames total={} route_passthrough={} route_passthrough_pct={:.1} route_gpu_transcode={} route_gpu_transcode_pct={:.1} route_resident_gpu_transcode={} route_partial_gpu_transcode={} route_cpu_fallback={} route_cpu_fallback_pct={:.1} route_unclassified={} cpu_input={} gpu_input_decode={} gpu_encode={} gpu_validation={} gray_frames={} rgb_like_frames={} other_component_frames={} unknown_pixel_profile_frames={} bits8_frames={} bits16_frames={} other_bit_depth_frames={} gpu_input_batches={} gpu_compose_batches={} gpu_encode_batches={} {} gpu_dispatch_ms={:.3} gpu_encode_hardware_ms={:.3} gpu_encode_dispatch_overhead_ms={:.3} auto_probe_frames={} auto_probe_selected_gpu_input={} auto_probe_gpu_batches={} auto_probe_cpu_ms={:.3} auto_probe_gpu_ms={:.3} jpeg_passthrough={} j2k_passthrough={} jpeg_decode_fallback={} jpeg_cpu_encode={} jpeg_metal_encode={} final_byte_ms={:.3} input_decode_ms={:.3} compose_ms={:.3} encode_ms={:.3} validation_ms={:.3} elapsed_ms={:.3} rss_mb={}",
report.source_root.display(),
report.sources_considered,
report.reports.len(),
report.failures.len(),
report.transfer_syntax_uid,
format_requested_frames_per_level(report.requested_frames_per_level),
report.available_frames,
frame_percent(metrics.total_frames, report.available_frames),
report.complete_frame_coverage,
metrics.total_frames,
route_passthrough,
frame_percent(route_passthrough, metrics.total_frames),
metrics.gpu_transcode_frames,
frame_percent(metrics.gpu_transcode_frames, metrics.total_frames),
metrics.resident_gpu_transcode_frames,
metrics.partial_gpu_transcode_frames,
metrics.cpu_fallback_frames,
frame_percent(metrics.cpu_fallback_frames, metrics.total_frames),
route_unclassified,
metrics.cpu_input_frames,
metrics.gpu_input_decode_frames,
metrics.gpu_encode_frames,
metrics.gpu_validation_frames,
metrics.gray_frames,
metrics.rgb_like_frames,
metrics.other_component_frames,
metrics.unknown_pixel_profile_frames,
metrics.bits8_frames,
metrics.bits16_frames,
metrics.other_bit_depth_frames,
metrics.gpu_input_decode_batches,
metrics.gpu_compose_batches,
metrics.gpu_encode_batches,
format_gpu_encode_metrics(metrics),
micros_to_ms(metrics.gpu_dispatch_micros),
micros_to_ms(metrics.gpu_encode_hardware_micros),
micros_to_ms(metrics.gpu_encode_dispatch_overhead_micros),
metrics.auto_route_probe_frames,
metrics.auto_route_probe_selected_gpu_input_frames,
metrics.auto_route_probe_gpu_batches,
micros_to_ms(metrics.auto_route_probe_cpu_micros),
micros_to_ms(metrics.auto_route_probe_gpu_micros),
metrics.jpeg_passthrough_frames,
metrics.j2k_passthrough_frames,
metrics.jpeg_decode_fallback_frames,
metrics.jpeg_cpu_encode_frames,
metrics.jpeg_metal_encode_frames,
micros_to_ms(metrics.write_micros),
micros_to_ms(metrics.input_decode_micros),
micros_to_ms(metrics.compose_micros),
micros_to_ms(metrics.encode_micros),
micros_to_ms(metrics.validation_micros),
micros_to_ms(report.elapsed_micros),
format_rss_mb(rss_bytes),
)
}
pub(crate) fn format_sustain_export_iteration_summary(
iteration: u32,
iterations: u32,
report: &DicomExportReport,
elapsed_micros: u128,
rss_bytes: Option<u64>,
thermal_state: Option<&str>,
memory_pressure: Option<&str>,
) -> String {
let metrics = report.metrics;
let route_passthrough = metrics.route_passthrough_frames();
let route_unclassified = metrics.route_unclassified_frames();
let elapsed_seconds = elapsed_micros as f64 / 1_000_000.0;
let frames_per_sec = if elapsed_seconds > 0.0 {
metrics.total_frames as f64 / elapsed_seconds
} else {
0.0
};
let thermal_state = thermal_state
.map(escape_summary_value)
.unwrap_or_else(|| "unknown".into());
let memory_pressure = memory_pressure
.map(escape_summary_value)
.unwrap_or_else(|| "unknown".into());
format!(
"sustain_iteration={}/{} mode=convert output={} instances={} frames={} frames_per_sec={:.2} route_passthrough={} route_passthrough_pct={:.1} route_gpu_transcode={} route_gpu_transcode_pct={:.1} route_resident_gpu_transcode={} route_partial_gpu_transcode={} route_cpu_fallback={} route_cpu_fallback_pct={:.1} route_unclassified={} cpu_input={} gpu_input_decode={} gpu_encode={} gpu_validation={} gray_frames={} rgb_like_frames={} other_component_frames={} unknown_pixel_profile_frames={} bits8_frames={} bits16_frames={} other_bit_depth_frames={} gpu_input_batches={} gpu_compose_batches={} gpu_encode_batches={} {} gpu_dispatch_ms={:.3} gpu_encode_hardware_ms={:.3} gpu_encode_dispatch_overhead_ms={:.3} auto_probe_frames={} auto_probe_selected_gpu_input={} auto_probe_gpu_batches={} auto_probe_cpu_ms={:.3} auto_probe_gpu_ms={:.3} jpeg_passthrough={} j2k_passthrough={} jpeg_decode_fallback={} jpeg_cpu_encode={} jpeg_metal_encode={} final_byte_ms={:.3} input_decode_ms={:.3} compose_ms={:.3} encode_ms={:.3} validation_ms={:.3} elapsed_ms={:.3} rss_mb={} thermal=\"{}\" memory_pressure=\"{}\"",
iteration,
iterations,
report.output_dir.display(),
report.instances.len(),
metrics.total_frames,
frames_per_sec,
route_passthrough,
frame_percent(route_passthrough, metrics.total_frames),
metrics.gpu_transcode_frames,
frame_percent(metrics.gpu_transcode_frames, metrics.total_frames),
metrics.resident_gpu_transcode_frames,
metrics.partial_gpu_transcode_frames,
metrics.cpu_fallback_frames,
frame_percent(metrics.cpu_fallback_frames, metrics.total_frames),
route_unclassified,
metrics.cpu_input_frames,
metrics.gpu_input_decode_frames,
metrics.gpu_encode_frames,
metrics.gpu_validation_frames,
metrics.gray_frames,
metrics.rgb_like_frames,
metrics.other_component_frames,
metrics.unknown_pixel_profile_frames,
metrics.bits8_frames,
metrics.bits16_frames,
metrics.other_bit_depth_frames,
metrics.gpu_input_decode_batches,
metrics.gpu_compose_batches,
metrics.gpu_encode_batches,
format_gpu_encode_metrics(metrics),
micros_to_ms(metrics.gpu_dispatch_micros),
micros_to_ms(metrics.gpu_encode_hardware_micros),
micros_to_ms(metrics.gpu_encode_dispatch_overhead_micros),
metrics.auto_route_probe_frames,
metrics.auto_route_probe_selected_gpu_input_frames,
metrics.auto_route_probe_gpu_batches,
micros_to_ms(metrics.auto_route_probe_cpu_micros),
micros_to_ms(metrics.auto_route_probe_gpu_micros),
metrics.jpeg_passthrough_frames,
metrics.j2k_passthrough_frames,
metrics.jpeg_decode_fallback_frames,
metrics.jpeg_cpu_encode_frames,
metrics.jpeg_metal_encode_frames,
micros_to_ms(metrics.write_micros),
micros_to_ms(metrics.input_decode_micros),
micros_to_ms(metrics.compose_micros),
micros_to_ms(metrics.encode_micros),
micros_to_ms(metrics.validation_micros),
micros_to_ms(elapsed_micros),
format_rss_mb(rss_bytes),
thermal_state,
memory_pressure,
)
}
pub(crate) fn format_sustain_iteration_summary(
iteration: u32,
iterations: u32,
report: &DicomRouteCoverageReport,
rss_bytes: Option<u64>,
thermal_state: Option<&str>,
memory_pressure: Option<&str>,
) -> String {
let metrics = report.metrics;
let route_passthrough = metrics.route_passthrough_frames();
let route_unclassified = metrics.route_unclassified_frames();
let elapsed_seconds = report.elapsed_micros as f64 / 1_000_000.0;
let frames_per_sec = if elapsed_seconds > 0.0 {
metrics.total_frames as f64 / elapsed_seconds
} else {
0.0
};
let thermal_state = thermal_state
.map(escape_summary_value)
.unwrap_or_else(|| "unknown".into());
let memory_pressure = memory_pressure
.map(escape_summary_value)
.unwrap_or_else(|| "unknown".into());
format!(
"sustain_iteration={}/{} source={} transfer_syntax={} frames={} available_frames={} sampled_frames_pct={:.4} complete_frame_coverage={} frames_per_sec={:.2} route_passthrough={} route_passthrough_pct={:.1} route_gpu_transcode={} route_gpu_transcode_pct={:.1} route_resident_gpu_transcode={} route_partial_gpu_transcode={} route_cpu_fallback={} route_cpu_fallback_pct={:.1} route_unclassified={} cpu_input={} gpu_input_decode={} gpu_encode={} gpu_validation={} gray_frames={} rgb_like_frames={} other_component_frames={} unknown_pixel_profile_frames={} bits8_frames={} bits16_frames={} other_bit_depth_frames={} gpu_input_batches={} gpu_compose_batches={} gpu_encode_batches={} {} gpu_dispatch_ms={:.3} gpu_encode_hardware_ms={:.3} gpu_encode_dispatch_overhead_ms={:.3} auto_probe_frames={} auto_probe_selected_gpu_input={} auto_probe_gpu_batches={} auto_probe_cpu_ms={:.3} auto_probe_gpu_ms={:.3} jpeg_passthrough={} j2k_passthrough={} jpeg_decode_fallback={} jpeg_cpu_encode={} jpeg_metal_encode={} final_byte_ms={:.3} input_decode_ms={:.3} compose_ms={:.3} encode_ms={:.3} validation_ms={:.3} elapsed_ms={:.3} rss_mb={} thermal=\"{}\" memory_pressure=\"{}\"",
iteration,
iterations,
report.source_path.display(),
report.transfer_syntax_uid,
metrics.total_frames,
report.available_frames,
frame_percent(metrics.total_frames, report.available_frames),
report.complete_frame_coverage,
frames_per_sec,
route_passthrough,
frame_percent(route_passthrough, metrics.total_frames),
metrics.gpu_transcode_frames,
frame_percent(metrics.gpu_transcode_frames, metrics.total_frames),
metrics.resident_gpu_transcode_frames,
metrics.partial_gpu_transcode_frames,
metrics.cpu_fallback_frames,
frame_percent(metrics.cpu_fallback_frames, metrics.total_frames),
route_unclassified,
metrics.cpu_input_frames,
metrics.gpu_input_decode_frames,
metrics.gpu_encode_frames,
metrics.gpu_validation_frames,
metrics.gray_frames,
metrics.rgb_like_frames,
metrics.other_component_frames,
metrics.unknown_pixel_profile_frames,
metrics.bits8_frames,
metrics.bits16_frames,
metrics.other_bit_depth_frames,
metrics.gpu_input_decode_batches,
metrics.gpu_compose_batches,
metrics.gpu_encode_batches,
format_gpu_encode_metrics(metrics),
micros_to_ms(metrics.gpu_dispatch_micros),
micros_to_ms(metrics.gpu_encode_hardware_micros),
micros_to_ms(metrics.gpu_encode_dispatch_overhead_micros),
metrics.auto_route_probe_frames,
metrics.auto_route_probe_selected_gpu_input_frames,
metrics.auto_route_probe_gpu_batches,
micros_to_ms(metrics.auto_route_probe_cpu_micros),
micros_to_ms(metrics.auto_route_probe_gpu_micros),
metrics.jpeg_passthrough_frames,
metrics.j2k_passthrough_frames,
metrics.jpeg_decode_fallback_frames,
metrics.jpeg_cpu_encode_frames,
metrics.jpeg_metal_encode_frames,
micros_to_ms(metrics.write_micros),
micros_to_ms(metrics.input_decode_micros),
micros_to_ms(metrics.compose_micros),
micros_to_ms(metrics.encode_micros),
micros_to_ms(metrics.validation_micros),
micros_to_ms(report.elapsed_micros),
format_rss_mb(rss_bytes),
thermal_state,
memory_pressure,
)
}
fn frame_percent(frames: u64, total: u64) -> f64 {
if total == 0 {
0.0
} else {
frames as f64 * 100.0 / total as f64
}
}
fn escape_summary_value(value: &str) -> String {
value.replace('"', "'")
}
pub(crate) fn duration_as_reported_micros(duration: std::time::Duration) -> u128 {
match duration.as_micros() {
0 if duration > std::time::Duration::ZERO => 1,
micros => micros,
}
}
fn format_rss_mb(rss_bytes: Option<u64>) -> String {
rss_bytes
.map(|bytes| format!("{:.1}", bytes as f64 / (1024.0 * 1024.0)))
.unwrap_or_else(|| "unknown".into())
}
pub(crate) fn process_thermal_state() -> Option<String> {
let output = std::process::Command::new("pmset")
.args(["-g", "therm"])
.output()
.ok()?;
if !output.status.success() {
return None;
}
let text = String::from_utf8(output.stdout).ok()?;
let summary = text
.lines()
.map(str::trim)
.filter(|line| !line.is_empty())
.collect::<Vec<_>>()
.join("; ");
(!summary.is_empty()).then_some(summary)
}
pub(crate) fn process_memory_pressure() -> Option<String> {
let output = std::process::Command::new("memory_pressure")
.arg("-Q")
.output()
.ok()?;
if !output.status.success() {
return None;
}
let text = String::from_utf8(output.stdout).ok()?;
text.lines()
.map(str::trim)
.find(|line| line.starts_with("System-wide memory free percentage:"))
.map(str::to_string)
}
pub(crate) fn process_resident_memory_bytes() -> Option<u64> {
let pid = std::process::id().to_string();
let output = std::process::Command::new("ps")
.args(["-o", "rss=", "-p", &pid])
.output()
.ok()?;
if !output.status.success() {
return None;
}
let text = String::from_utf8(output.stdout).ok()?;
let kib = text.trim().parse::<u64>().ok()?;
kib.checked_mul(1024)
}