blob: 143e4026add02cf0816df5fe25791f66e982fb38 [file] [log] [blame]
// Copyright (C) 2018 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use size file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
import m from 'mithril';
import {Time, time, toISODateOnly} from '../base/time';
import {TimestampFormat, timestampFormat} from '../core/timestamp_format';
import {TRACK_SHELL_WIDTH} from './css_constants';
import {
getMaxMajorTicks,
MIN_PX_PER_STEP,
generateTicks,
TickType,
} from './gridline_helper';
import {Size2D} from '../base/geom';
import {Panel} from './panel_container';
import {TimeScale} from '../base/time_scale';
import {canvasClip} from '../base/canvas_utils';
import {Trace} from '../public/trace';
export class TimeAxisPanel implements Panel {
readonly kind = 'panel';
readonly selectable = false;
readonly id = 'time-axis-panel';
constructor(private readonly trace: Trace) {}
render(): m.Children {
return m('.time-axis-panel');
}
renderCanvas(ctx: CanvasRenderingContext2D, size: Size2D) {
ctx.fillStyle = '#999';
ctx.textAlign = 'left';
ctx.font = '11px Roboto Condensed';
this.renderOffsetTimestamp(ctx);
const trackSize = {...size, width: size.width - TRACK_SHELL_WIDTH};
ctx.save();
ctx.translate(TRACK_SHELL_WIDTH, 0);
canvasClip(ctx, 0, 0, trackSize.width, trackSize.height);
this.renderPanel(ctx, trackSize);
ctx.restore();
ctx.fillRect(TRACK_SHELL_WIDTH - 2, 0, 2, size.height);
}
private renderOffsetTimestamp(ctx: CanvasRenderingContext2D): void {
const offset = this.trace.timeline.timestampOffset();
switch (timestampFormat()) {
case TimestampFormat.TraceNs:
case TimestampFormat.TraceNsLocale:
break;
case TimestampFormat.Seconds:
case TimestampFormat.Timecode:
const width = renderTimestamp(ctx, offset, 6, 10, MIN_PX_PER_STEP);
ctx.fillText('+', 6 + width + 2, 10, 6);
break;
case TimestampFormat.UTC:
const offsetDate = Time.toDate(
this.trace.traceInfo.utcOffset,
this.trace.traceInfo.realtimeOffset,
);
const dateStr = toISODateOnly(offsetDate);
ctx.fillText(`UTC ${dateStr}`, 6, 10);
break;
case TimestampFormat.TraceTz:
const offsetTzDate = Time.toDate(
this.trace.traceInfo.traceTzOffset,
this.trace.traceInfo.realtimeOffset,
);
const dateTzStr = toISODateOnly(offsetTzDate);
ctx.fillText(dateTzStr, 6, 10);
break;
}
}
private renderPanel(ctx: CanvasRenderingContext2D, size: Size2D): void {
const visibleWindow = this.trace.timeline.visibleWindow;
const timescale = new TimeScale(visibleWindow, {
left: 0,
right: size.width,
});
const timespan = visibleWindow.toTimeSpan();
const offset = this.trace.timeline.timestampOffset();
// Draw time axis.
if (size.width > 0 && timespan.duration > 0n) {
const maxMajorTicks = getMaxMajorTicks(size.width);
const tickGen = generateTicks(timespan, maxMajorTicks, offset);
for (const {type, time} of tickGen) {
if (type === TickType.MAJOR) {
const position = Math.floor(timescale.timeToPx(time));
ctx.fillRect(position, 0, 1, size.height);
const domainTime = this.trace.timeline.toDomainTime(time);
renderTimestamp(ctx, domainTime, position + 5, 10, MIN_PX_PER_STEP);
}
}
}
}
}
function renderTimestamp(
ctx: CanvasRenderingContext2D,
time: time,
x: number,
y: number,
minWidth: number,
) {
const fmt = timestampFormat();
switch (fmt) {
case TimestampFormat.UTC:
case TimestampFormat.TraceTz:
case TimestampFormat.Timecode:
return renderTimecode(ctx, time, x, y, minWidth);
case TimestampFormat.TraceNs:
return renderRawTimestamp(ctx, time.toString(), x, y, minWidth);
case TimestampFormat.TraceNsLocale:
return renderRawTimestamp(ctx, time.toLocaleString(), x, y, minWidth);
case TimestampFormat.Seconds:
return renderRawTimestamp(ctx, Time.formatSeconds(time), x, y, minWidth);
case TimestampFormat.Milliseoncds:
return renderRawTimestamp(
ctx,
Time.formatMilliseconds(time),
x,
y,
minWidth,
);
case TimestampFormat.Microseconds:
return renderRawTimestamp(
ctx,
Time.formatMicroseconds(time),
x,
y,
minWidth,
);
default:
const z: never = fmt;
throw new Error(`Invalid timestamp ${z}`);
}
}
// Print a time on the canvas in raw format.
function renderRawTimestamp(
ctx: CanvasRenderingContext2D,
time: string,
x: number,
y: number,
minWidth: number,
) {
ctx.font = '11px Roboto Condensed';
ctx.fillText(time, x, y, minWidth);
return ctx.measureText(time).width;
}
// Print a timecode over 2 lines with this formatting:
// DdHH:MM:SS
// mmm uuu nnn
// Returns the resultant width of the timecode.
function renderTimecode(
ctx: CanvasRenderingContext2D,
time: time,
x: number,
y: number,
minWidth: number,
): number {
const timecode = Time.toTimecode(time);
ctx.font = '11px Roboto Condensed';
const {dhhmmss} = timecode;
const thinSpace = '\u2009';
const subsec = timecode.subsec(thinSpace);
ctx.fillText(dhhmmss, x, y, minWidth);
const {width: firstRowWidth} = ctx.measureText(subsec);
ctx.font = '10.5px Roboto Condensed';
ctx.fillText(subsec, x, y + 10, minWidth);
const {width: secondRowWidth} = ctx.measureText(subsec);
return Math.max(firstRowWidth, secondRowWidth);
}