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feature: Add detailed sequence verification tests for PEN encoding

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Enhanced penEncoder test suite with byte-level sequence verification:
- Added helper functions to decode PEN bytes for detailed assertions
- Replaced length-only tests with precise operation order verification
- Added tests for color change sequences (same position and with jump)
- Added test for color change followed by explicit JUMP command
- Added test for long jump sequences with lock stitches
- Verified exact placement of lock stitches, cuts, jumps, and color markers

All 27 tests passing with comprehensive coverage of PEN format encoding.

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
This commit is contained in:
Jan-Henrik 2025-12-14 11:59:46 +01:00
parent 584f795330
commit 6699fcf8e7
1 changed files with 345 additions and 22 deletions
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367
src/utils/penEncoder.test.ts
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@ -7,6 +7,73 @@ import {
} from './penEncoder';
import { STITCH, MOVE, TRIM, END } from './embroideryConstants';
// PEN format flag constants for testing
const PEN_FEED_DATA = 0x01;
const PEN_CUT_DATA = 0x02;
const PEN_COLOR_END = 0x03;
const PEN_DATA_END = 0x05;
/**
* Helper function to decode a single PEN stitch (4 bytes) into coordinates and flags
*/
function decodePenStitch(bytes: number[], offset: number): {
x: number;
y: number;
xFlags: number;
yFlags: number;
isFeed: boolean;
isCut: boolean;
isColorEnd: boolean;
isDataEnd: boolean;
} {
const xLow = bytes[offset];
const xHigh = bytes[offset + 1];
const yLow = bytes[offset + 2];
const yHigh = bytes[offset + 3];
const xRaw = xLow | (xHigh << 8);
const yRaw = yLow | (yHigh << 8);
// Extract flags from low 3 bits
const xFlags = xRaw & 0x07;
const yFlags = yRaw & 0x07;
// Clear flags and shift right to get actual coordinates
const xClean = xRaw & 0xFFF8;
const yClean = yRaw & 0xFFF8;
// Convert to signed
let xSigned = xClean;
let ySigned = yClean;
if (xSigned > 0x7FFF) xSigned = xSigned - 0x10000;
if (ySigned > 0x7FFF) ySigned = ySigned - 0x10000;
const x = xSigned >> 3;
const y = ySigned >> 3;
return {
x,
y,
xFlags,
yFlags,
isFeed: (yFlags & PEN_FEED_DATA) !== 0,
isCut: (yFlags & PEN_CUT_DATA) !== 0,
isColorEnd: xFlags === PEN_COLOR_END,
isDataEnd: xFlags === PEN_DATA_END,
};
}
/**
* Helper to parse all stitches from PEN bytes
*/
function decodeAllPenStitches(bytes: number[]) {
const stitches = [];
for (let i = 0; i < bytes.length; i += 4) {
stitches.push(decodePenStitch(bytes, i));
}
return stitches;
}
describe('encodeStitchPosition', () => {
it('should encode position (0, 0) correctly', () => {
const result = encodeStitchPosition(0, 0);
@ -240,29 +307,273 @@ describe('encodeStitchesToPen', () => {
expect(result.penBytes.length).toBeGreaterThan(90); // Should have many bytes from lock stitches
});
it('should handle long jumps with lock stitches and cut', () => {
it('should encode color change sequence in correct order', () => {
// Test the exact sequence of operations for a color change
const stitches = [
[0, 0, STITCH, 0],
[10, 0, STITCH, 0],
[100, 0, MOVE, 0], // Long jump (distance > 50)
[110, 0, STITCH, 0],
[120, 0, END, 0],
[0, 0, STITCH, 0], // Color 0
[10, 0, STITCH, 0], // Color 0 - last stitch before color change
[10, 0, STITCH, 1], // Color 1 - first stitch (same position)
[20, 0, STITCH | END, 1], // Color 1 - last stitch
];
const result = encodeStitchesToPen(stitches);
const decoded = decodeAllPenStitches(result.penBytes);
// Should include:
// - Initial stitches
// - Finishing lock stitches before jump (32 bytes)
// - Jump with FEED and CUT flags (4 bytes)
// - Starting lock stitches after jump (32 bytes)
// - Final stitches
// Expected sequence:
// 1. Stitch at (0, 0) - color 0
// 2. Stitch at (10, 0) - color 0 (last before change)
// 3. 8 finishing lock stitches around (10, 0)
// 4. Cut command at (10, 0)
// 5. COLOR_END marker at (10, 0) - no jump needed since next color is at same position
// 6. 8 starting lock stitches around (10, 0)
// 7. Stitch at (10, 0) - color 1
// 8. Stitch at (20, 0) - color 1 (last, with END flag)
expect(result.penBytes.length).toBeGreaterThan(80);
let idx = 0;
// Jump stitch should have both FEED (0x01) and CUT (0x02) flags
// We need to find the jump in the output
// The jump will have Y coordinate with flags 0x03 (FEED | CUT)
// 1. First stitch (0, 0)
expect(decoded[idx].x).toBe(0);
expect(decoded[idx].y).toBe(0);
expect(decoded[idx].isFeed).toBe(false);
expect(decoded[idx].isCut).toBe(false);
idx++;
// 2. Second stitch (10, 0) - last before color change
expect(decoded[idx].x).toBe(10);
expect(decoded[idx].y).toBe(0);
idx++;
// 3. 8 finishing lock stitches (should be around position 10, 0)
for (let i = 0; i < 8; i++) {
const lockStitch = decoded[idx];
expect(lockStitch.x).toBeCloseTo(10, 1); // Allow some deviation due to rotation
expect(lockStitch.y).toBeCloseTo(0, 1);
expect(lockStitch.isFeed).toBe(false);
expect(lockStitch.isCut).toBe(false);
idx++;
}
// 4. Cut command
const cutStitch = decoded[idx];
expect(cutStitch.x).toBe(10);
expect(cutStitch.y).toBe(0);
expect(cutStitch.isCut).toBe(true);
idx++;
// 5. COLOR_END marker (no jump needed since same position)
const colorEndStitch = decoded[idx];
expect(colorEndStitch.x).toBe(10);
expect(colorEndStitch.y).toBe(0);
expect(colorEndStitch.isColorEnd).toBe(true);
idx++;
// 6. 8 starting lock stitches for new color
for (let i = 0; i < 8; i++) {
const lockStitch = decoded[idx];
expect(lockStitch.x).toBeCloseTo(10, 1);
expect(lockStitch.y).toBeCloseTo(0, 1);
idx++;
}
// 7. First stitch of new color
expect(decoded[idx].x).toBe(10);
expect(decoded[idx].y).toBe(0);
idx++;
// 8. Last stitch with DATA_END flag
expect(decoded[idx].x).toBe(20);
expect(decoded[idx].y).toBe(0);
expect(decoded[idx].isDataEnd).toBe(true);
});
it('should encode color change with jump in correct order', () => {
// Test color change when next color is at a different position
const stitches = [
[0, 0, STITCH, 0], // Color 0
[10, 0, STITCH, 0], // Color 0 - last before change
[30, 10, STITCH, 1], // Color 1 - different position, requires jump
[40, 10, STITCH | END, 1],
];
const result = encodeStitchesToPen(stitches);
const decoded = decodeAllPenStitches(result.penBytes);
let idx = 2; // Skip first two regular stitches
// After second stitch, should have:
// 1. 8 finishing lock stitches at (10, 0)
for (let i = 0; i < 8; i++) {
expect(decoded[idx].x).toBeCloseTo(10, 1);
expect(decoded[idx].y).toBeCloseTo(0, 1);
idx++;
}
// 2. Cut command at (10, 0)
expect(decoded[idx].isCut).toBe(true);
expect(decoded[idx].x).toBe(10);
idx++;
// 3. Jump to new position (30, 10)
expect(decoded[idx].x).toBe(30);
expect(decoded[idx].y).toBe(10);
expect(decoded[idx].isFeed).toBe(true);
idx++;
// 4. COLOR_END marker at (30, 10)
expect(decoded[idx].x).toBe(30);
expect(decoded[idx].y).toBe(10);
expect(decoded[idx].isColorEnd).toBe(true);
idx++;
// 5. 8 starting lock stitches at (30, 10)
for (let i = 0; i < 8; i++) {
expect(decoded[idx].x).toBeCloseTo(30, 1);
expect(decoded[idx].y).toBeCloseTo(10, 1);
idx++;
}
// 6. Continue with new color stitches
expect(decoded[idx].x).toBe(30);
expect(decoded[idx].y).toBe(10);
});
it('should encode color change followed by explicit JUMP in correct order', () => {
// Test when PES data has a JUMP stitch immediately after color change
// This is a common pattern: color change, then jump to new location
const stitches = [
[0, 0, STITCH, 0], // Color 0
[10, 0, STITCH, 0], // Color 0 - last before change
[50, 20, MOVE, 1], // Color 1 - JUMP to new location (50, 20)
[50, 20, STITCH, 1], // Color 1 - first actual stitch at new location
[60, 20, STITCH | END, 1],
];
const result = encodeStitchesToPen(stitches);
const decoded = decodeAllPenStitches(result.penBytes);
// Expected sequence:
// 1. Stitch at (0, 0) - color 0
// 2. Stitch at (10, 0) - color 0 (last before change)
// 3. 8 finishing lock stitches at (10, 0)
// 4. Cut command at (10, 0)
// 5. Jump to (50, 20) - from MOVE stitch (the encoder skips this MOVE in the loop with i++)
// 6. COLOR_END marker at (50, 20)
// 7. 8 starting lock stitches at (50, 20)
// 8. First stitch of new color at (50, 20)
// 9. Last stitch at (60, 20) with END flag
let idx = 0;
// 1-2. First two stitches
expect(decoded[idx++].x).toBe(0);
expect(decoded[idx++].x).toBe(10);
// 3. 8 finishing lock stitches at (10, 0)
for (let i = 0; i < 8; i++) {
expect(decoded[idx].x).toBeCloseTo(10, 1);
expect(decoded[idx].y).toBeCloseTo(0, 1);
idx++;
}
// 4. Cut command at (10, 0)
expect(decoded[idx].x).toBe(10);
expect(decoded[idx].y).toBe(0);
expect(decoded[idx].isCut).toBe(true);
idx++;
// 5. Jump to new location (50, 20) - extracted from the MOVE stitch
expect(decoded[idx].x).toBe(50);
expect(decoded[idx].y).toBe(20);
expect(decoded[idx].isFeed).toBe(true);
idx++;
// 6. COLOR_END marker at (50, 20)
expect(decoded[idx].x).toBe(50);
expect(decoded[idx].y).toBe(20);
expect(decoded[idx].isColorEnd).toBe(true);
idx++;
// 7. 8 starting lock stitches at (50, 20)
for (let i = 0; i < 8; i++) {
expect(decoded[idx].x).toBeCloseTo(50, 1);
expect(decoded[idx].y).toBeCloseTo(20, 1);
idx++;
}
// 8. First actual stitch of new color at (50, 20)
expect(decoded[idx].x).toBe(50);
expect(decoded[idx].y).toBe(20);
expect(decoded[idx].isFeed).toBe(false);
idx++;
// 9. Last stitch with DATA_END
expect(decoded[idx].x).toBe(60);
expect(decoded[idx].y).toBe(20);
expect(decoded[idx].isDataEnd).toBe(true);
});
it('should handle long jumps with lock stitches and cut in correct order', () => {
// Test the exact sequence for a long jump (distance > 50)
const stitches = [
[0, 0, STITCH, 0],
[10, 0, STITCH, 0],
[100, 0, MOVE, 0], // Long jump (distance = 90 > 50)
[110, 0, STITCH, 0],
[120, 0, STITCH | END, 0],
];
const result = encodeStitchesToPen(stitches);
const decoded = decodeAllPenStitches(result.penBytes);
// Expected sequence:
// 1. Stitch at (0, 0)
// 2. Stitch at (10, 0)
// 3. 8 finishing lock stitches at (10, 0)
// 4. Jump to (100, 0) with FEED and CUT flags
// 5. 8 starting lock stitches at (100, 0)
// 6. Stitch at (110, 0)
// 7. Stitch at (120, 0) with END flag
let idx = 0;
// 1-2. First two stitches
expect(decoded[idx++].x).toBe(0);
expect(decoded[idx++].x).toBe(10);
// 3. 8 finishing lock stitches at (10, 0)
for (let i = 0; i < 8; i++) {
const lockStitch = decoded[idx];
expect(lockStitch.x).toBeCloseTo(10, 1);
expect(lockStitch.y).toBeCloseTo(0, 1);
expect(lockStitch.isFeed).toBe(false);
expect(lockStitch.isCut).toBe(false);
idx++;
}
// 4. Jump to (100, 0) with BOTH FEED and CUT flags
const jumpStitch = decoded[idx];
expect(jumpStitch.x).toBe(100);
expect(jumpStitch.y).toBe(0);
expect(jumpStitch.isFeed).toBe(true);
expect(jumpStitch.isCut).toBe(true);
expect(jumpStitch.yFlags).toBe(PEN_FEED_DATA | PEN_CUT_DATA); // 0x03
idx++;
// 5. 8 starting lock stitches at (100, 0)
for (let i = 0; i < 8; i++) {
const lockStitch = decoded[idx];
expect(lockStitch.x).toBeCloseTo(100, 1);
expect(lockStitch.y).toBeCloseTo(0, 1);
idx++;
}
// 6-7. Final two stitches
expect(decoded[idx].x).toBe(110);
expect(decoded[idx].y).toBe(0);
idx++;
expect(decoded[idx].x).toBe(120);
expect(decoded[idx].isDataEnd).toBe(true);
});
it('should encode MOVE flag for jump stitches', () => {
@ -299,19 +610,31 @@ describe('encodeStitchesToPen', () => {
expect(result.bounds.maxY).toBe(20);
});
it('should handle TRIM flag', () => {
it('should handle TRIM flag correctly', () => {
const stitches = [
[0, 0, STITCH, 0],
[10, 0, TRIM, 0],
[20, 0, END, 0],
[20, 0, STITCH | END, 0],
];
const result = encodeStitchesToPen(stitches);
const decoded = decodeAllPenStitches(result.penBytes);
// TRIM stitch should have CUT_DATA flag (0x02) in Y low byte
const trimStitchStart = 4;
const yLow = result.penBytes[trimStitchStart + 2];
expect(yLow & 0x02).toBe(0x02); // CUT_DATA flag
// Verify sequence:
// 1. Regular stitch at (0, 0)
expect(decoded[0].x).toBe(0);
expect(decoded[0].isCut).toBe(false);
// 2. TRIM command at (10, 0) - should have CUT flag
expect(decoded[1].x).toBe(10);
expect(decoded[1].y).toBe(0);
expect(decoded[1].isCut).toBe(true);
expect(decoded[1].isFeed).toBe(false); // TRIM doesn't include FEED
expect(decoded[1].yFlags).toBe(PEN_CUT_DATA); // Only CUT flag
// 3. Final stitch with DATA_END
expect(decoded[2].x).toBe(20);
expect(decoded[2].isDataEnd).toBe(true);
});
it('should handle empty stitch array', () => {