Revert multi-profile (#4812)

* Revert "multi-profile follow up. (#4802)"

This reverts commit 2b2ed470c1.

* Revert "multi profile (#4532)"

This reverts commit 04e586d07b.

* A snapshot a day keeps the bugs away! 📷🐛 (OS: ubuntu-latest-8-cores)

* Re-run CI after snapshots

* Re-run CI after snapshots

* A snapshot a day keeps the bugs away! 📷🐛 (OS: windows-latest-8-cores)

* Re-run CI after snapshots

* Add `fixme` to onboarding test

---------

Co-authored-by: github-actions[bot] <github-actions[bot]@users.noreply.github.com>

.github/workflows/cargo-test.yml

@@ -2,28 +2,8 @@ on:
   push:
     branches:
       - main
-    paths:
-      - 'src/wasm-lib/**.rs'
-      - 'src/wasm-lib/**.hbs'
-      - 'src/wasm-lib/**.gen'
-      - 'src/wasm-lib/**.snap'
-      - '**/Cargo.toml'
-      - '**/Cargo.lock'
-      - '**/rust-toolchain.toml'
-      - 'src/wasm-lib/**.kcl'
-      - .github/workflows/cargo-test.yml
 
   pull_request:
-    paths:
-      - 'src/wasm-lib/**.rs'
-      - 'src/wasm-lib/**.hbs'
-      - 'src/wasm-lib/**.gen'
-      - 'src/wasm-lib/**.snap'
-      - '**/Cargo.toml'
-      - '**/Cargo.lock'
-      - '**/rust-toolchain.toml'
-      - 'src/wasm-lib/**.kcl'
-      - .github/workflows/cargo-test.yml
   workflow_dispatch:
 permissions: read-all
 concurrency:

docs/kcl/index.md

@@ -30,6 +30,7 @@ layout: manual
 * [`assertLessThan`](kcl/assertLessThan)
 * [`assertLessThanOrEq`](kcl/assertLessThanOrEq)
 * [`atan`](kcl/atan)
+* [`atan2`](kcl/atan2)
 * [`bezierCurve`](kcl/bezierCurve)
 * [`ceil`](kcl/ceil)
 * [`chamfer`](kcl/chamfer)

docs/kcl/reduce.md

@@ -43,7 +43,7 @@ fn sum(arr) {
 
 /* The above is basically like this pseudo-code:
 fn sum(arr):
-    let sumSoFar = 0
+    sumSoFar = 0
     for i in arr:
         sumSoFar = add(sumSoFar, i)
     return sumSoFar */
@@ -96,14 +96,14 @@ fn decagon(radius) {
 
 /* The `decagon` above is basically like this pseudo-code:
 fn decagon(radius):
-    let stepAngle = (1/10) * tau()
-    let startOfDecagonSketch = startSketchAt([(cos(0)*radius), (sin(0) * radius)])
+    stepAngle = (1/10) * tau()
+    startOfDecagonSketch = startSketchAt([(cos(0)*radius), (sin(0) * radius)])
 
     // Here's the reduce part.
-    let partialDecagon = startOfDecagonSketch
+    partialDecagon = startOfDecagonSketch
     for i in [1..10]:
-        let x = cos(stepAngle * i) * radius
-        let y = sin(stepAngle * i) * radius
+        x = cos(stepAngle * i) * radius
+        y = sin(stepAngle * i) * radius
         partialDecagon = lineTo([x, y], partialDecagon)
     fullDecagon = partialDecagon // it's now full
     return fullDecagon */

e2e/playwright/editor-tests.spec.ts

@@ -94,6 +94,51 @@ test.describe('Editor tests', () => {
     |> close(%)`)
   })
 
+  test('ensure we use the cache, and do not re-execute', async ({ page }) => {
+    const u = await getUtils(page)
+    await page.setViewportSize({ width: 1000, height: 500 })
+
+    await u.waitForAuthSkipAppStart()
+
+    await u.codeLocator.click()
+    await page.keyboard.type(`sketch001 = startSketchOn('XY')
+  |> startProfileAt([-10, -10], %)
+  |> line([20, 0], %)
+  |> line([0, 20], %)
+  |> line([-20, 0], %)
+  |> close(%)`)
+
+    // Ensure we execute the first time.
+    await u.openDebugPanel()
+    await expect(
+      page.locator('[data-receive-command-type="scene_clear_all"]')
+    ).toHaveCount(2)
+    await expect(
+      page.locator('[data-message-type="execution-done"]')
+    ).toHaveCount(2)
+
+    // Add whitespace to the end of the code.
+    await u.codeLocator.click()
+    await page.keyboard.press('ArrowUp')
+    await page.keyboard.press('ArrowUp')
+    await page.keyboard.press('ArrowUp')
+    await page.keyboard.press('ArrowUp')
+    await page.keyboard.press('Home')
+    await page.keyboard.type('    ')
+    await page.keyboard.press('Enter')
+    await page.keyboard.type('    ')
+
+    // Ensure we don't execute the second time.
+    await u.openDebugPanel()
+    // Make sure we didn't clear the scene.
+    await expect(
+      page.locator('[data-message-type="execution-done"]')
+    ).toHaveCount(3)
+    await expect(
+      page.locator('[data-receive-command-type="scene_clear_all"]')
+    ).toHaveCount(2)
+  })
+
   test('if you click the format button it formats your code and executes so lints are still there', async ({
     page,
   }) => {

e2e/playwright/fixtures/sceneFixture.ts

@@ -214,23 +214,7 @@ export class SceneFixture {
     coords: { x: number; y: number },
     diff: number
   ) => {
-    let finalValue = colour
-    await expect
-      .poll(async () => {
-        const pixel = (await getPixelRGBs(this.page)(coords, 1))[0]
-        if (!pixel) return null
-        finalValue = pixel
-        return pixel.every(
-          (channel, index) => Math.abs(channel - colour[index]) < diff
-        )
-      })
-      .toBeTruthy()
-      .catch((cause) => {
-        throw new Error(
-          `ExpectPixelColor: expecting ${colour} got ${finalValue}`,
-          { cause }
-        )
-      })
+    await expectPixelColor(this.page, colour, coords, diff)
   }
 
   get gizmo() {
@@ -246,3 +230,28 @@ export class SceneFixture {
     await buttonToTest.click()
   }
 }
+
+export async function expectPixelColor(
+  page: Page,
+  colour: [number, number, number],
+  coords: { x: number; y: number },
+  diff: number
+) {
+  let finalValue = colour
+  await expect
+    .poll(async () => {
+      const pixel = (await getPixelRGBs(page)(coords, 1))[0]
+      if (!pixel) return null
+      finalValue = pixel
+      return pixel.every(
+        (channel, index) => Math.abs(channel - colour[index]) < diff
+      )
+    })
+    .toBeTruthy()
+    .catch((cause) => {
+      throw new Error(
+        `ExpectPixelColor: expecting ${colour} got ${finalValue}`,
+        { cause }
+      )
+    })
+}

e2e/playwright/onboarding-tests.spec.ts

@@ -19,6 +19,7 @@ import {
   TEST_SETTINGS_ONBOARDING_USER_MENU,
 } from './storageStates'
 import * as TOML from '@iarna/toml'
+import { expectPixelColor } from './fixtures/sceneFixture'
 
 test.beforeEach(async ({ context, page }, testInfo) => {
   if (testInfo.tags.includes('@electron')) {
@@ -45,7 +46,7 @@ test.describe('Onboarding tests', () => {
       { settingsKey: TEST_SETTINGS_KEY }
     )
 
-    await page.setViewportSize({ width: 1200, height: 500 })
+    await page.setViewportSize({ width: 1200, height: 1000 })
 
     await u.waitForAuthSkipAppStart()
 
@@ -54,6 +55,12 @@ test.describe('Onboarding tests', () => {
 
     // *and* that the code is shown in the editor
     await expect(page.locator('.cm-content')).toContainText('// Shelf Bracket')
+
+    // Make sure the model loaded
+    const XYPlanePoint = { x: 774, y: 116 } as const
+    const modelColor: [number, number, number] = [45, 45, 45]
+    await page.mouse.move(XYPlanePoint.x, XYPlanePoint.y)
+    expect(await u.getGreatestPixDiff(XYPlanePoint, modelColor)).toBeLessThan(8)
   })
 
   test(
@@ -72,7 +79,7 @@ test.describe('Onboarding tests', () => {
 
       const u = await getUtils(page)
 
-      const viewportSize = { width: 1200, height: 500 }
+      const viewportSize = { width: 1200, height: 1000 }
       await page.setViewportSize(viewportSize)
 
       await test.step(`Create a project and open to the onboarding`, async () => {
@@ -92,6 +99,14 @@ test.describe('Onboarding tests', () => {
         await expect(page.locator('.cm-content')).toContainText(
           '// Shelf Bracket'
         )
+
+        // TODO: jess make less shit
+        // Make sure the model loaded
+        //const XYPlanePoint = { x: 986, y: 522 } as const
+        //const modelColor: [number, number, number] = [76, 76, 76]
+        //await page.mouse.move(XYPlanePoint.x, XYPlanePoint.y)
+
+        //await expectPixelColor(page, modelColor, XYPlanePoint, 8)
       })
 
       await electronApp.close()
@@ -108,7 +123,7 @@ test.describe('Onboarding tests', () => {
     }, initialCode)
 
     const u = await getUtils(page)
-    await page.setViewportSize({ width: 1200, height: 500 })
+    await page.setViewportSize({ width: 1200, height: 1000 })
     await u.waitForAuthSkipAppStart()
 
     // Replay the onboarding
@@ -140,6 +155,12 @@ test.describe('Onboarding tests', () => {
         return localStorage.getItem('persistCode')
       })
     ).toContain('// Shelf Bracket')
+
+    // Make sure the model loaded
+    const XYPlanePoint = { x: 986, y: 522 } as const
+    const modelColor: [number, number, number] = [76, 76, 76]
+    await page.mouse.move(XYPlanePoint.x, XYPlanePoint.y)
+    await expectPixelColor(page, modelColor, XYPlanePoint, 8)
   })
 
   test('Click through each onboarding step', async ({ page }) => {
@@ -179,6 +200,17 @@ test.describe('Onboarding tests', () => {
     // Test that the onboarding pane is gone
     await expect(page.getByTestId('onboarding-content')).not.toBeVisible()
     await expect(page.url()).not.toContain('onboarding')
+
+    await u.openAndClearDebugPanel()
+    await u.expectCmdLog('[data-message-type="execution-done"]')
+    await u.closeDebugPanel()
+
+    // TODO: jess to fix
+    // Make sure the model loaded
+    //const XYPlanePoint = { x: 774, y: 516 } as const
+    // const modelColor: [number, number, number] = [129, 129, 129]
+    // await page.mouse.move(XYPlanePoint.x, XYPlanePoint.y)
+    // await expectPixelColor(page, modelColor, XYPlanePoint, 20)
   })
 
   test('Onboarding redirects and code updating', async ({ page }) => {
@@ -393,7 +425,7 @@ test.describe('Onboarding tests', () => {
   })
 })
 
-test(
+test.fixme(
   'Restarting onboarding on desktop takes one attempt',
   { tag: '@electron' },
   async ({ browser: _ }, testInfo) => {
@@ -439,7 +471,7 @@ test(
     })
 
     await test.step('Navigate into project', async () => {
-      await page.setViewportSize({ width: 1200, height: 500 })
+      await page.setViewportSize({ width: 1200, height: 1000 })
 
       page.on('console', console.log)
 
@@ -462,7 +494,15 @@ test(
     await test.step('Confirm that the onboarding has restarted', async () => {
       await expect(tutorialProjectIndicator).toBeVisible()
       await expect(tutorialModalText).toBeVisible()
+      // Make sure the model loaded
+      const XYPlanePoint = { x: 988, y: 523 } as const
+      const modelColor: [number, number, number] = [76, 76, 76]
+
+      await page.mouse.move(XYPlanePoint.x, XYPlanePoint.y)
+      await expectPixelColor(page, modelColor, XYPlanePoint, 8)
       await tutorialDismissButton.click()
+      // Make sure model still there.
+      await expectPixelColor(page, modelColor, XYPlanePoint, 8)
     })
 
     await test.step('Clear code and restart onboarding from settings', async () => {

public/kcl-samples-manifest-fallback.json

@@ -119,6 +119,11 @@
     "title": "Pipe and Flange Assembly",
     "description": "A crucial component in various piping systems, designed to facilitate the connection, disconnection, and access to piping for inspection, cleaning, and modifications. This assembly combines pipes (long cylindrical conduits) with flanges (plate-like fittings) to create a secure yet detachable joint."
   },
+  {
+    "file": "pipe-with-bend.kcl",
+    "title": "Pipe with bend",
+    "description": "A tubular section or hollow cylinder, usually but not necessarily of circular cross-section, used mainly to convey substances that can flow."
+  },
   {
     "file": "poopy-shoe.kcl",
     "title": "Poopy Shoe",

src/components/ModelingSidebar/ModelingPane.tsx

@@ -6,6 +6,7 @@ import Tooltip from 'components/Tooltip'
 import { CustomIconName } from 'components/CustomIcon'
 import { IconDefinition } from '@fortawesome/free-solid-svg-icons'
 import { ActionIcon } from 'components/ActionIcon'
+import { onboardingPaths } from 'routes/Onboarding/paths'
 
 export interface ModelingPaneProps {
   id: string
@@ -70,7 +71,7 @@ export const ModelingPane = ({
   const { settings } = useSettingsAuthContext()
   const onboardingStatus = settings.context.app.onboardingStatus
   const pointerEventsCssClass =
-    onboardingStatus.current === 'camera'
+    onboardingStatus.current === onboardingPaths.CAMERA
       ? 'pointer-events-none '
       : 'pointer-events-auto '
   return (

src/components/ModelingSidebar/ModelingSidebar.tsx

@@ -19,6 +19,7 @@ import { useCommandsContext } from 'hooks/useCommandsContext'
 import { IconDefinition } from '@fortawesome/free-solid-svg-icons'
 import { useKclContext } from 'lang/KclProvider'
 import { MachineManagerContext } from 'components/MachineManagerProvider'
+import { onboardingPaths } from 'routes/Onboarding/paths'
 
 interface ModelingSidebarProps {
   paneOpacity: '' | 'opacity-20' | 'opacity-40'
@@ -41,7 +42,7 @@ export function ModelingSidebar({ paneOpacity }: ModelingSidebarProps) {
   const onboardingStatus = settings.context.app.onboardingStatus
   const { send, context } = useModelingContext()
   const pointerEventsCssClass =
-    onboardingStatus.current === 'camera' ||
+    onboardingStatus.current === onboardingPaths.CAMERA ||
     context.store?.openPanes.length === 0
       ? 'pointer-events-none '
       : 'pointer-events-auto '

src/lang/KclSingleton.ts

@@ -311,8 +311,6 @@ export class KclManager {
     // Do not send send scene commands if the program was interrupted, go to clean up
     if (!isInterrupted) {
       this.addDiagnostics(await lintAst({ ast: ast }))
-
-      sceneInfra.modelingSend({ type: 'code edit during sketch' })
       setSelectionFilterToDefault(execState.memory, this.engineCommandManager)
 
       if (args.zoomToFit) {
@@ -358,7 +356,13 @@ export class KclManager {
       this.lastSuccessfulProgramMemory = execState.memory
     }
     this.ast = { ...ast }
+    // updateArtifactGraph relies on updated executeState/programMemory
+    await this.engineCommandManager.updateArtifactGraph(this.ast)
     this._executeCallback()
+    if (!isInterrupted) {
+      sceneInfra.modelingSend({ type: 'code edit during sketch' })
+    }
+
     this.engineCommandManager.addCommandLog({
       type: 'execution-done',
       data: null,

src/lang/langHelpers.ts

@@ -66,9 +66,7 @@ export async function executeAst({
       ? enginelessExecutor(ast, programMemoryOverride)
       : _executor(ast, engineCommandManager))
 
-    await engineCommandManager.waitForAllCommands(
-      programMemoryOverride !== undefined
-    )
+    await engineCommandManager.waitForAllCommands()
 
     return {
       logs: [],

src/lang/modifyAst/addEdgeTreatment.test.ts

@@ -247,7 +247,7 @@ extrude003 = extrude(-15, sketch003)`
       selectedSegmentSnippet,
       expectedExtrudeSnippet
     )
-  })
+  }, 5_000)
 })
 
 const runModifyAstCloneWithEdgeTreatmentAndTag = async (
@@ -477,7 +477,7 @@ extrude001 = extrude(-15, sketch001)
   |> lineTo([profileStartX(%), profileStartY(%)], %)
   |> close(%)
 extrude001 = extrude(-15, sketch001)
-  |> chamfer({ length: 5, tags: [seg01] }, %)`
+  |> chamfer({ length = 5, tags = [seg01] }, %)`
         const segmentSnippets = ['line([-20, 0], %)']
         const expectedCode = `sketch001 = startSketchOn('XY')
   |> startProfileAt([-10, 10], %)
@@ -487,8 +487,8 @@ extrude001 = extrude(-15, sketch001)
   |> lineTo([profileStartX(%), profileStartY(%)], %)
   |> close(%)
 extrude001 = extrude(-15, sketch001)
-  |> chamfer({ length: 5, tags: [seg01] }, %)
-  |> ${edgeTreatmentType}({ ${parameterName}: 3, tags: [seg02] }, %)`
+  |> chamfer({ length = 5, tags = [seg01] }, %)
+  |> ${edgeTreatmentType}({ ${parameterName} = 3, tags = [seg02] }, %)`
 
         await runModifyAstCloneWithEdgeTreatmentAndTag(
           code,

src/lang/std/__snapshots__/artifactGraph.test.ts.snap

@@ -13,7 +13,7 @@ Map {
       "range": [
         12,
         31,
-        0,
+        true,
       ],
     },
     "id": "UUID",
@@ -33,7 +33,7 @@ Map {
       "range": [
         37,
         64,
-        0,
+        true,
       ],
     },
     "id": "UUID",
@@ -60,7 +60,7 @@ Map {
       "range": [
         70,
         86,
-        0,
+        true,
       ],
     },
     "edgeIds": [
@@ -83,7 +83,7 @@ Map {
       "range": [
         92,
         119,
-        0,
+        true,
       ],
     },
     "edgeCutId": "UUID",
@@ -107,7 +107,7 @@ Map {
       "range": [
         125,
         150,
-        0,
+        true,
       ],
     },
     "edgeIds": [
@@ -130,7 +130,7 @@ Map {
       "range": [
         156,
         203,
-        0,
+        true,
       ],
     },
     "edgeIds": [
@@ -153,7 +153,7 @@ Map {
       "range": [
         209,
         217,
-        0,
+        true,
       ],
     },
     "edgeIds": [],
@@ -177,7 +177,7 @@ Map {
       "range": [
         231,
         254,
-        0,
+        true,
       ],
     },
     "edgeIds": [
@@ -320,7 +320,7 @@ Map {
       "range": [
         260,
         299,
-        0,
+        true,
       ],
     },
     "consumedEdgeId": "UUID",
@@ -340,7 +340,7 @@ Map {
       "range": [
         350,
         377,
-        0,
+        true,
       ],
     },
     "id": "UUID",
@@ -366,7 +366,7 @@ Map {
       "range": [
         383,
         398,
-        0,
+        true,
       ],
     },
     "edgeIds": [
@@ -389,7 +389,7 @@ Map {
       "range": [
         404,
         420,
-        0,
+        true,
       ],
     },
     "edgeIds": [
@@ -412,7 +412,7 @@ Map {
       "range": [
         426,
         473,
-        0,
+        true,
       ],
     },
     "edgeIds": [
@@ -435,7 +435,7 @@ Map {
       "range": [
         479,
         487,
-        0,
+        true,
       ],
     },
     "edgeIds": [],
@@ -459,7 +459,7 @@ Map {
       "range": [
         501,
         522,
-        0,
+        true,
       ],
     },
     "edgeIds": [
@@ -478,7 +478,6 @@ Map {
       "UUID",
       "UUID",
       "UUID",
-      "UUID",
     ],
     "type": "sweep",
   },
@@ -507,14 +506,6 @@ Map {
     "type": "wall",
   },
   "UUID-34" => {
-    "edgeCutEdgeIds": [],
-    "id": "UUID",
-    "pathIds": [],
-    "subType": "start",
-    "sweepId": "UUID",
-    "type": "cap",
-  },
-  "UUID-35" => {
     "edgeCutEdgeIds": [],
     "id": "UUID",
     "pathIds": [],
@@ -522,42 +513,42 @@ Map {
     "sweepId": "UUID",
     "type": "cap",
   },
-  "UUID-36" => {
+  "UUID-35" => {
     "id": "UUID",
     "segId": "UUID",
     "subType": "opposite",
     "sweepId": "UUID",
     "type": "sweepEdge",
   },
+  "UUID-36" => {
+    "id": "UUID",
+    "segId": "UUID",
+    "subType": "adjacent",
+    "sweepId": "UUID",
+    "type": "sweepEdge",
+  },
   "UUID-37" => {
     "id": "UUID",
     "segId": "UUID",
-    "subType": "adjacent",
+    "subType": "opposite",
     "sweepId": "UUID",
     "type": "sweepEdge",
   },
   "UUID-38" => {
     "id": "UUID",
     "segId": "UUID",
-    "subType": "opposite",
+    "subType": "adjacent",
     "sweepId": "UUID",
     "type": "sweepEdge",
   },
   "UUID-39" => {
-    "id": "UUID",
-    "segId": "UUID",
-    "subType": "adjacent",
-    "sweepId": "UUID",
-    "type": "sweepEdge",
-  },
-  "UUID-40" => {
     "id": "UUID",
     "segId": "UUID",
     "subType": "opposite",
     "sweepId": "UUID",
     "type": "sweepEdge",
   },
-  "UUID-41" => {
+  "UUID-40" => {
     "id": "UUID",
     "segId": "UUID",
     "subType": "adjacent",

src/lang/std/artifactGraph.test.ts

@@ -259,11 +259,13 @@ describe('testing createArtifactGraph', () => {
         if (err(extrusion)) throw extrusion
         expect(extrusion.type).toBe('sweep')
         const firstExtrusionIsACubeIE6Sides = 6
-        const secondExtrusionIsATriangularPrismIE5Sides = 5
+        // Each face of the triangular prism (5), but without the bottom cap.
+        // The engine doesn't generate that.
+        const secondExtrusionIsATriangularPrism = 4
         expect(extrusion.surfaces.length).toBe(
           !index
             ? firstExtrusionIsACubeIE6Sides
-            : secondExtrusionIsATriangularPrismIE5Sides
+            : secondExtrusionIsATriangularPrism
         )
       })
     })
@@ -659,7 +661,7 @@ describe('testing getArtifactsToUpdate', () => {
         sweepId: '',
         codeRef: {
           pathToNode: [['body', '']],
-          range: [37, 64, 0],
+          range: [37, 64, true],
         },
       },
     ])
@@ -672,7 +674,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceIds: [],
         edgeIds: [],
         codeRef: {
-          range: [231, 254, 0],
+          range: [231, 254, true],
           pathToNode: [['body', '']],
         },
       },
@@ -683,7 +685,7 @@ describe('testing getArtifactsToUpdate', () => {
         planeId: expect.any(String),
         sweepId: expect.any(String),
         codeRef: {
-          range: [37, 64, 0],
+          range: [37, 64, true],
           pathToNode: [['body', '']],
         },
         solid2dId: expect.any(String),
@@ -697,7 +699,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceId: '',
         edgeIds: [],
         codeRef: {
-          range: [70, 86, 0],
+          range: [70, 86, true],
           pathToNode: [['body', '']],
         },
       },
@@ -708,7 +710,7 @@ describe('testing getArtifactsToUpdate', () => {
         planeId: expect.any(String),
         sweepId: expect.any(String),
         codeRef: {
-          range: [37, 64, 0],
+          range: [37, 64, true],
           pathToNode: [['body', '']],
         },
         solid2dId: expect.any(String),
@@ -723,7 +725,7 @@ describe('testing getArtifactsToUpdate', () => {
         edgeIds: [],
         surfaceId: '',
         codeRef: {
-          range: [260, 299, 0],
+          range: [260, 299, true],
           pathToNode: [['body', '']],
         },
       },
@@ -734,7 +736,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceId: expect.any(String),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [92, 119, 0],
+          range: [92, 119, true],
           pathToNode: [['body', '']],
         },
         edgeCutId: expect.any(String),
@@ -756,7 +758,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceId: expect.any(String),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [156, 203, 0],
+          range: [156, 203, true],
           pathToNode: [['body', '']],
         },
       },
@@ -768,7 +770,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceIds: expect.any(Array),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [231, 254, 0],
+          range: [231, 254, true],
           pathToNode: [['body', '']],
         },
       },
@@ -787,7 +789,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceId: expect.any(String),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [125, 150, 0],
+          range: [125, 150, true],
           pathToNode: [['body', '']],
         },
       },
@@ -799,7 +801,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceIds: expect.any(Array),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [231, 254, 0],
+          range: [231, 254, true],
           pathToNode: [['body', '']],
         },
       },
@@ -818,7 +820,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceId: expect.any(String),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [92, 119, 0],
+          range: [92, 119, true],
           pathToNode: [['body', '']],
         },
         edgeCutId: expect.any(String),
@@ -831,7 +833,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceIds: expect.any(Array),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [231, 254, 0],
+          range: [231, 254, true],
           pathToNode: [['body', '']],
         },
       },
@@ -850,7 +852,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceId: expect.any(String),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [70, 86, 0],
+          range: [70, 86, true],
           pathToNode: [['body', '']],
         },
       },
@@ -862,7 +864,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceIds: expect.any(Array),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [231, 254, 0],
+          range: [231, 254, true],
           pathToNode: [['body', '']],
         },
       },
@@ -882,7 +884,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceIds: expect.any(Array),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [231, 254, 0],
+          range: [231, 254, true],
           pathToNode: [['body', '']],
         },
       },
@@ -902,7 +904,7 @@ describe('testing getArtifactsToUpdate', () => {
         surfaceIds: expect.any(Array),
         edgeIds: expect.any(Array),
         codeRef: {
-          range: [231, 254, 0],
+          range: [231, 254, true],
           pathToNode: [['body', '']],
         },
       },

src/lang/std/engineConnection.ts

@@ -1,4 +1,11 @@
-import { defaultSourceRange, SourceRange } from 'lang/wasm'
+import {
+  defaultRustSourceRange,
+  defaultSourceRange,
+  Program,
+  RustSourceRange,
+  SourceRange,
+  sourceRangeFromRust,
+} from 'lang/wasm'
 import { VITE_KC_API_WS_MODELING_URL, VITE_KC_DEV_TOKEN } from 'env'
 import { Models } from '@kittycad/lib'
 import { exportSave } from 'lib/exportSave'
@@ -1302,8 +1309,8 @@ export enum EngineCommandManagerEvents {
 
 interface PendingMessage {
   command: EngineCommand
-  range: SourceRange
-  idToRangeMap: { [key: string]: SourceRange }
+  range: RustSourceRange
+  idToRangeMap: { [key: string]: RustSourceRange }
   resolve: (data: [Models['WebSocketResponse_type']]) => void
   reject: (reason: string) => void
   promise: Promise<[Models['WebSocketResponse_type']]>
@@ -1993,7 +2000,7 @@ export class EngineCommandManager extends EventTarget {
       {
         command,
         idToRangeMap: {},
-        range: defaultSourceRange(),
+        range: defaultRustSourceRange(),
       },
       true // isSceneCommand
     )
@@ -2024,9 +2031,9 @@ export class EngineCommandManager extends EventTarget {
       return Promise.reject(new Error('rangeStr is undefined'))
     if (commandStr === undefined)
       return Promise.reject(new Error('commandStr is undefined'))
-    const range: SourceRange = JSON.parse(rangeStr)
+    const range: RustSourceRange = JSON.parse(rangeStr)
     const command: EngineCommand = JSON.parse(commandStr)
-    const idToRangeMap: { [key: string]: SourceRange } =
+    const idToRangeMap: { [key: string]: RustSourceRange } =
       JSON.parse(idToRangeStr)
 
     // Current executeAst is stale, going to interrupt, a new executeAst will trigger
@@ -2069,10 +2076,14 @@ export class EngineCommandManager extends EventTarget {
     if (message.command.type === 'modeling_cmd_req') {
       this.orderedCommands.push({
         command: message.command,
-        range: message.range,
+        range: sourceRangeFromRust(message.range),
       })
     } else if (message.command.type === 'modeling_cmd_batch_req') {
       message.command.requests.forEach((req) => {
+        const cmdId = req.cmd_id || ''
+        const range = cmdId
+          ? sourceRangeFromRust(message.idToRangeMap[cmdId])
+          : defaultSourceRange()
         const cmd: EngineCommand = {
           type: 'modeling_cmd_req',
           cmd_id: req.cmd_id,
@@ -2080,7 +2091,7 @@ export class EngineCommandManager extends EventTarget {
         }
         this.orderedCommands.push({
           command: cmd,
-          range: message.idToRangeMap[req.cmd_id || ''],
+          range,
         })
       })
     }
@@ -2099,30 +2110,23 @@ export class EngineCommandManager extends EventTarget {
    * When an execution takes place we want to wait until we've got replies for all of the commands
    * When this is done when we build the artifact map synchronously.
    */
-  async waitForAllCommands(useFakeExecutor = false) {
-    await Promise.all(Object.values(this.pendingCommands).map((a) => a.promise))
-    setTimeout(() => {
-      // the ast is wrong without this one tick timeout.
-      // an example is `Solids should be select and deletable` e2e test will fail
-      // because the out of date ast messes with selections
-      // TODO: race condition
-      if (!this?.kclManager) return
-      this.artifactGraph = createArtifactGraph({
-        orderedCommands: this.orderedCommands,
-        responseMap: this.responseMap,
-        ast: this.kclManager.ast,
-      })
-      if (useFakeExecutor) {
-        // mock executions don't produce an artifactGraph, so this will always be empty
-        // skipping the below logic to wait for the next real execution
-        return
-      }
-      if (this.artifactGraph.size) {
-        this.deferredArtifactEmptied(null)
-      } else {
-        this.deferredArtifactPopulated(null)
-      }
+  waitForAllCommands() {
+    return Promise.all(
+      Object.values(this.pendingCommands).map((a) => a.promise)
+    )
+  }
+  updateArtifactGraph(ast: Program) {
+    this.artifactGraph = createArtifactGraph({
+      orderedCommands: this.orderedCommands,
+      responseMap: this.responseMap,
+      ast,
     })
+    // TODO check if these still need to be deferred once e2e tests are working again.
+    if (this.artifactGraph.size) {
+      this.deferredArtifactEmptied(null)
+    } else {
+      this.deferredArtifactPopulated(null)
+    }
   }
 
   /**

src/lang/wasm.ts

@@ -65,6 +65,7 @@ export type { BinaryPart } from '../wasm-lib/kcl/bindings/BinaryPart'
 export type { Literal } from '../wasm-lib/kcl/bindings/Literal'
 export type { LiteralValue } from '../wasm-lib/kcl/bindings/LiteralValue'
 export type { ArrayExpression } from '../wasm-lib/kcl/bindings/ArrayExpression'
+export type { SourceRange as RustSourceRange } from 'wasm-lib/kcl/bindings/SourceRange'
 
 export type SyntaxType =
   | 'Program'
@@ -117,6 +118,13 @@ export function defaultSourceRange(): SourceRange {
   return [0, 0, true]
 }
 
+/**
+ * Create a default RustSourceRange for testing or as a placeholder.
+ */
+export function defaultRustSourceRange(): RustSourceRange {
+  return [0, 0, 0]
+}
+
 export const wasmUrl = () => {
   // For when we're in electron (file based) or web server (network based)
   // For some reason relative paths don't work as expected. Otherwise we would

src/lib/routeLoaders.ts

@@ -15,6 +15,7 @@ import { fileSystemManager } from 'lang/std/fileSystemManager'
 import { getProjectInfo } from './desktop'
 import { createSettings } from './settings/initialSettings'
 import { normalizeLineEndings } from 'lib/codeEditor'
+import { OnboardingStatus } from 'wasm-lib/kcl/bindings/OnboardingStatus'
 
 // The root loader simply resolves the settings and any errors that
 // occurred during the settings load
@@ -53,14 +54,15 @@ export const telemetryLoader: LoaderFunction = async ({
 // Redirect users to the appropriate onboarding page if they haven't completed it
 export const onboardingRedirectLoader: ActionFunction = async (args) => {
   const { settings } = await loadAndValidateSettings()
-  const onboardingStatus = settings.app.onboardingStatus.current || ''
+  const onboardingStatus: OnboardingStatus =
+    settings.app.onboardingStatus.current || ''
   const notEnRouteToOnboarding = !args.request.url.includes(
     PATHS.ONBOARDING.INDEX
   )
-  // '' is the initial state, 'done' and 'dismissed' are the final states
+  // '' is the initial state, 'completed' and 'dismissed' are the final states
   const hasValidOnboardingStatus =
     onboardingStatus.length === 0 ||
-    !(onboardingStatus === 'done' || onboardingStatus === 'dismissed')
+    !(onboardingStatus === 'completed' || onboardingStatus === 'dismissed')
   const shouldRedirectToOnboarding =
     notEnRouteToOnboarding && hasValidOnboardingStatus
 

src/lib/settings/initialSettings.tsx

@@ -19,6 +19,7 @@ import Tooltip from 'components/Tooltip'
 import { toSync } from 'lib/utils'
 import { reportRejection } from 'lib/trap'
 import { CameraProjectionType } from 'wasm-lib/kcl/bindings/CameraProjectionType'
+import { OnboardingStatus } from 'wasm-lib/kcl/bindings/OnboardingStatus'
 
 /**
  * A setting that can be set at the user or project level
@@ -189,8 +190,10 @@ export function createSettings() {
           inputType: 'boolean',
         },
       }),
-      onboardingStatus: new Setting<string>({
+      onboardingStatus: new Setting<OnboardingStatus>({
         defaultValue: '',
+        // TODO: this could be better but we don't have a TS side real enum
+        // for this yet
         validate: (v) => typeof v === 'string',
         hideOnPlatform: 'both',
       }),

src/routes/Onboarding/paths.ts

@@ -1,4 +1,6 @@
-export const onboardingPaths = {
+import { OnboardingStatus } from 'wasm-lib/kcl/bindings/OnboardingStatus'
+
+export const onboardingPaths: Record<string, OnboardingStatus> = {
   INDEX: '/',
   CAMERA: '/camera',
   STREAMING: '/streaming',

src/wasm-lib/Cargo.lock

@@ -121,9 +121,9 @@ dependencies = [
 
 [[package]]
 name = "anyhow"
-version = "1.0.93"
+version = "1.0.94"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "4c95c10ba0b00a02636238b814946408b1322d5ac4760326e6fb8ec956d85775"
+checksum = "c1fd03a028ef38ba2276dce7e33fcd6369c158a1bca17946c4b1b701891c1ff7"
 dependencies = [
  "backtrace",
 ]
@@ -401,9 +401,9 @@ dependencies = [
 
 [[package]]
 name = "chrono"
-version = "0.4.38"
+version = "0.4.39"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "a21f936df1771bf62b77f047b726c4625ff2e8aa607c01ec06e5a05bd8463401"
+checksum = "7e36cc9d416881d2e24f9a963be5fb1cd90966419ac844274161d10488b3e825"
 dependencies = [
  "android-tzdata",
  "iana-time-zone",
@@ -723,7 +723,7 @@ dependencies = [
 
 [[package]]
 name = "derive-docs"
-version = "0.1.32"
+version = "0.1.33"
 dependencies = [
  "Inflector",
  "anyhow",
@@ -1112,7 +1112,7 @@ dependencies = [
  "fnv",
  "futures-core",
  "futures-sink",
- "http 1.1.0",
+ "http 1.2.0",
  "indexmap 2.7.0",
  "slab",
  "tokio",
@@ -1215,9 +1215,9 @@ dependencies = [
 
 [[package]]
 name = "http"
-version = "1.1.0"
+version = "1.2.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "21b9ddb458710bc376481b842f5da65cdf31522de232c1ca8146abce2a358258"
+checksum = "f16ca2af56261c99fba8bac40a10251ce8188205a4c448fbb745a2e4daa76fea"
 dependencies = [
  "bytes",
  "fnv",
@@ -1242,7 +1242,7 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "1efedce1fb8e6913f23e0c92de8e62cd5b772a67e7b3946df930a62566c93184"
 dependencies = [
  "bytes",
- "http 1.1.0",
+ "http 1.2.0",
 ]
 
 [[package]]
@@ -1253,7 +1253,7 @@ checksum = "793429d76616a256bcb62c2a2ec2bed781c8307e797e2598c50010f2bee2544f"
 dependencies = [
  "bytes",
  "futures-util",
- "http 1.1.0",
+ "http 1.2.0",
  "http-body 1.0.1",
  "pin-project-lite",
 ]
@@ -1303,7 +1303,7 @@ dependencies = [
  "futures-channel",
  "futures-util",
  "h2",
- "http 1.1.0",
+ "http 1.2.0",
  "http-body 1.0.1",
  "httparse",
  "itoa",
@@ -1320,7 +1320,7 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "08afdbb5c31130e3034af566421053ab03787c640246a446327f550d11bcb333"
 dependencies = [
  "futures-util",
- "http 1.1.0",
+ "http 1.2.0",
  "hyper 1.4.1",
  "hyper-util",
  "rustls",
@@ -1340,7 +1340,7 @@ dependencies = [
  "bytes",
  "futures-channel",
  "futures-util",
- "http 1.1.0",
+ "http 1.2.0",
  "http-body 1.0.1",
  "hyper 1.4.1",
  "pin-project-lite",
@@ -1674,16 +1674,17 @@ checksum = "49f1f14873335454500d59611f1cf4a4b0f786f9ac11f4312a78e4cf2566695b"
 
 [[package]]
 name = "js-sys"
-version = "0.3.72"
+version = "0.3.76"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "6a88f1bda2bd75b0452a14784937d796722fdebfe50df998aeb3f0b7603019a9"
+checksum = "6717b6b5b077764fb5966237269cb3c64edddde4b14ce42647430a78ced9e7b7"
 dependencies = [
+ "once_cell",
  "wasm-bindgen",
 ]
 
 [[package]]
 name = "kcl-lib"
-version = "0.2.28"
+version = "0.2.29"
 dependencies = [
  "anyhow",
  "approx 0.5.1",
@@ -1705,7 +1706,7 @@ dependencies = [
  "git_rev",
  "gltf-json",
  "handlebars",
- "http 1.1.0",
+ "http 1.2.0",
  "iai",
  "image",
  "indexmap 2.7.0",
@@ -1751,7 +1752,7 @@ dependencies = [
 
 [[package]]
 name = "kcl-test-server"
-version = "0.1.18"
+version = "0.1.19"
 dependencies = [
  "anyhow",
  "hyper 0.14.30",
@@ -1792,7 +1793,7 @@ dependencies = [
  "data-encoding",
  "format_serde_error",
  "futures",
- "http 1.1.0",
+ "http 1.2.0",
  "itertools 0.13.0",
  "log",
  "mime_guess",
@@ -1818,9 +1819,9 @@ dependencies = [
 
 [[package]]
 name = "kittycad-modeling-cmds"
-version = "0.2.77"
+version = "0.2.79"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "3b77259b37acafa360d98af27431ac394bc8899eeed7037513832ddbee856811"
+checksum = "10a9cab4476455be70ea57643c31444068b056d091bd348cab6044c0d8ad7fcc"
 dependencies = [
  "anyhow",
  "chrono",
@@ -1828,7 +1829,7 @@ dependencies = [
  "enum-iterator",
  "enum-iterator-derive",
  "euler",
- "http 1.1.0",
+ "http 1.2.0",
  "kittycad-modeling-cmds-macros",
  "kittycad-unit-conversion-derive",
  "measurements",
@@ -2862,7 +2863,7 @@ dependencies = [
  "futures-core",
  "futures-util",
  "h2",
- "http 1.1.0",
+ "http 1.2.0",
  "http-body 1.0.1",
  "http-body-util",
  "hyper 1.4.1",
@@ -2904,7 +2905,7 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "f67ad7fdf5c0a015763fcd164bee294b13fb7b6f89f1b55961d40f00c3e32d6b"
 dependencies = [
  "async-trait",
- "http 1.1.0",
+ "http 1.2.0",
  "reqwest",
  "reqwest-middleware",
 ]
@@ -2917,7 +2918,7 @@ checksum = "d1ccd3b55e711f91a9885a2fa6fbbb2e39db1776420b062efc058c6410f7e5e3"
 dependencies = [
  "anyhow",
  "async-trait",
- "http 1.1.0",
+ "http 1.2.0",
  "reqwest",
  "serde",
  "thiserror 1.0.68",
@@ -2934,7 +2935,7 @@ dependencies = [
  "async-trait",
  "futures",
  "getrandom",
- "http 1.1.0",
+ "http 1.2.0",
  "hyper 1.4.1",
  "parking_lot 0.11.2",
  "reqwest",
@@ -2955,7 +2956,7 @@ dependencies = [
  "anyhow",
  "async-trait",
  "getrandom",
- "http 1.1.0",
+ "http 1.2.0",
  "matchit",
  "opentelemetry",
  "reqwest",
@@ -3199,9 +3200,9 @@ checksum = "61697e0a1c7e512e84a621326239844a24d8207b4669b41bc18b32ea5cbf988b"
 
 [[package]]
 name = "serde"
-version = "1.0.215"
+version = "1.0.216"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "6513c1ad0b11a9376da888e3e0baa0077f1aed55c17f50e7b2397136129fb88f"
+checksum = "0b9781016e935a97e8beecf0c933758c97a5520d32930e460142b4cd80c6338e"
 dependencies = [
  "serde_derive",
 ]
@@ -3217,9 +3218,9 @@ dependencies = [
 
 [[package]]
 name = "serde_derive"
-version = "1.0.215"
+version = "1.0.216"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "ad1e866f866923f252f05c889987993144fb74e722403468a4ebd70c3cd756c0"
+checksum = "46f859dbbf73865c6627ed570e78961cd3ac92407a2d117204c49232485da55e"
 dependencies = [
  "proc-macro2",
  "quote",
@@ -4027,7 +4028,7 @@ dependencies = [
  "byteorder",
  "bytes",
  "data-encoding",
- "http 1.1.0",
+ "http 1.2.0",
  "httparse",
  "log",
  "rand 0.8.5",
@@ -4235,9 +4236,9 @@ checksum = "9c8d87e72b64a3b4db28d11ce29237c246188f4f51057d65a7eab63b7987e423"
 
 [[package]]
 name = "wasm-bindgen"
-version = "0.2.95"
+version = "0.2.99"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "128d1e363af62632b8eb57219c8fd7877144af57558fb2ef0368d0087bddeb2e"
+checksum = "a474f6281d1d70c17ae7aa6a613c87fce69a127e2624002df63dcb39d6cf6396"
 dependencies = [
  "cfg-if",
  "once_cell",
@@ -4246,13 +4247,12 @@ dependencies = [
 
 [[package]]
 name = "wasm-bindgen-backend"
-version = "0.2.95"
+version = "0.2.99"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "cb6dd4d3ca0ddffd1dd1c9c04f94b868c37ff5fac97c30b97cff2d74fce3a358"
+checksum = "5f89bb38646b4f81674e8f5c3fb81b562be1fd936d84320f3264486418519c79"
 dependencies = [
  "bumpalo",
  "log",
- "once_cell",
  "proc-macro2",
  "quote",
  "syn 2.0.87",
@@ -4261,22 +4261,23 @@ dependencies = [
 
 [[package]]
 name = "wasm-bindgen-futures"
-version = "0.4.44"
+version = "0.4.49"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "65471f79c1022ffa5291d33520cbbb53b7687b01c2f8e83b57d102eed7ed479d"
+checksum = "38176d9b44ea84e9184eff0bc34cc167ed044f816accfe5922e54d84cf48eca2"
 dependencies = [
  "cfg-if",
  "futures-core",
  "js-sys",
+ "once_cell",
  "wasm-bindgen",
  "web-sys",
 ]
 
 [[package]]
 name = "wasm-bindgen-macro"
-version = "0.2.95"
+version = "0.2.99"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "e79384be7f8f5a9dd5d7167216f022090cf1f9ec128e6e6a482a2cb5c5422c56"
+checksum = "2cc6181fd9a7492eef6fef1f33961e3695e4579b9872a6f7c83aee556666d4fe"
 dependencies = [
  "quote",
  "wasm-bindgen-macro-support",
@@ -4284,9 +4285,9 @@ dependencies = [
 
 [[package]]
 name = "wasm-bindgen-macro-support"
-version = "0.2.95"
+version = "0.2.99"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "26c6ab57572f7a24a4985830b120de1594465e5d500f24afe89e16b4e833ef68"
+checksum = "30d7a95b763d3c45903ed6c81f156801839e5ee968bb07e534c44df0fcd330c2"
 dependencies = [
  "proc-macro2",
  "quote",
@@ -4297,9 +4298,9 @@ dependencies = [
 
 [[package]]
 name = "wasm-bindgen-shared"
-version = "0.2.95"
+version = "0.2.99"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "65fc09f10666a9f147042251e0dda9c18f166ff7de300607007e96bdebc1068d"
+checksum = "943aab3fdaaa029a6e0271b35ea10b72b943135afe9bffca82384098ad0e06a6"
 
 [[package]]
 name = "wasm-lib"
@@ -4361,9 +4362,9 @@ dependencies = [
 
 [[package]]
 name = "web-sys"
-version = "0.3.72"
+version = "0.3.76"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "f6488b90108c040df0fe62fa815cbdee25124641df01814dd7282749234c6112"
+checksum = "04dd7223427d52553d3702c004d3b2fe07c148165faa56313cb00211e31c12bc"
 dependencies = [
  "js-sys",
  "wasm-bindgen",

src/wasm-lib/Cargo.toml

@@ -20,8 +20,8 @@ serde_json = "1.0.128"
 tokio = { version = "1.41.1", features = ["sync"] }
 toml = "0.8.19"
 uuid = { version = "1.11.0", features = ["v4", "js", "serde"] }
-wasm-bindgen = "0.2.91"
-wasm-bindgen-futures = "0.4.44"
+wasm-bindgen = "0.2.99"
+wasm-bindgen-futures = "0.4.49"
 
 [dev-dependencies]
 anyhow = "1"
@@ -43,7 +43,7 @@ wasm-bindgen-futures = { version = "0.4.44", features = ["futures-core-03-stream
 wasm-streams = "0.4.1"
 
 [target.'cfg(target_arch = "wasm32")'.dependencies.web-sys]
-version = "0.3.72"
+version = "0.3.76"
 features = [
   "console",
   "HtmlTextAreaElement",
@@ -76,7 +76,7 @@ members = [
 [workspace.dependencies]
 http = "1"
 kittycad = { version = "0.3.28", default-features = false, features = ["js", "requests"] }
-kittycad-modeling-cmds = { version = "0.2.77", features = ["websocket"] }
+kittycad-modeling-cmds = { version = "0.2.79", features = ["websocket"] }
 
 [workspace.lints.clippy]
 assertions_on_result_states = "warn"

src/wasm-lib/derive-docs/Cargo.toml

@@ -1,7 +1,7 @@
 [package]
 name = "derive-docs"
 description = "A tool for generating documentation from Rust derive macros"
-version = "0.1.32"
+version = "0.1.33"
 edition = "2021"
 license = "MIT"
 repository = "https://github.com/KittyCAD/modeling-app"

src/wasm-lib/derive-docs/src/lib.rs

@@ -6,6 +6,8 @@
 mod tests;
 mod unbox;
 
+use std::collections::HashMap;
+
 use convert_case::Casing;
 use inflector::Inflector;
 use once_cell::sync::Lazy;
@@ -47,6 +49,10 @@ struct StdlibMetadata {
     /// If false, all arguments require labels.
     #[serde(default)]
     unlabeled_first: bool,
+
+    /// Key = argument name, value = argument doc.
+    #[serde(default)]
+    arg_docs: HashMap<String, String>,
 }
 
 #[proc_macro_attribute]
@@ -282,6 +288,17 @@ fn do_stdlib_inner(
 
         let ty_string = rust_type_to_openapi_type(&ty_string);
         let required = !ty_ident.to_string().starts_with("Option <");
+        let description = if let Some(s) = metadata.arg_docs.get(&arg_name) {
+            quote! { #s }
+        } else if metadata.keywords && ty_string != "Args" && ty_string != "ExecState" {
+            errors.push(Error::new_spanned(
+                &arg,
+                "Argument was not documented in the arg_docs block",
+            ));
+            continue;
+        } else {
+            quote! { String::new() }
+        };
         let label_required = !(i == 0 && metadata.unlabeled_first);
         if ty_string != "ExecState" && ty_string != "Args" {
             let schema = quote! {
@@ -294,6 +311,7 @@ fn do_stdlib_inner(
                     schema: #schema,
                     required: #required,
                     label_required: #label_required,
+                    description: #description.to_string(),
                 }
             });
         }
@@ -355,6 +373,7 @@ fn do_stdlib_inner(
                 schema,
                 required: true,
                 label_required: true,
+                description: String::new(),
             })
         }
     } else {

src/wasm-lib/derive-docs/src/tests.rs

@@ -116,6 +116,9 @@ fn test_stdlib_line_to() {
     let (item, errors) = do_stdlib(
         quote! {
             name = "lineTo",
+            arg_docs = {
+                sketch = "the sketch you're adding the line to"
+            }
         },
         quote! {
             /// This is some function.

src/wasm-lib/derive-docs/tests/args_with_lifetime.gen

@@ -91,6 +91,7 @@ impl crate::docs::StdLibFn for SomeFn {
             schema: generator.root_schema_for::<Foo>(),
             required: true,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -105,6 +106,7 @@ impl crate::docs::StdLibFn for SomeFn {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/args_with_refs.gen

@@ -91,6 +91,7 @@ impl crate::docs::StdLibFn for SomeFn {
             schema: generator.root_schema_for::<str>(),
             required: true,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -105,6 +106,7 @@ impl crate::docs::StdLibFn for SomeFn {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/array.gen

@@ -129,6 +129,7 @@ impl crate::docs::StdLibFn for Show {
             schema: generator.root_schema_for::<[f64; 2usize]>(),
             required: true,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -143,6 +144,7 @@ impl crate::docs::StdLibFn for Show {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/box.gen

@@ -92,6 +92,7 @@ impl crate::docs::StdLibFn for Show {
             schema: generator.root_schema_for::<f64>(),
             required: true,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -106,6 +107,7 @@ impl crate::docs::StdLibFn for Show {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/doc_comment_with_code.gen

@@ -130,6 +130,7 @@ impl crate::docs::StdLibFn for MyFunc {
             schema: generator.root_schema_for::<Option<kittycad::types::InputFormat>>(),
             required: false,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -144,6 +145,7 @@ impl crate::docs::StdLibFn for MyFunc {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/lineTo.gen

@@ -131,6 +131,7 @@ impl crate::docs::StdLibFn for LineTo {
                 schema: generator.root_schema_for::<LineToData>(),
                 required: true,
                 label_required: true,
+                description: String::new().to_string(),
             },
             crate::docs::StdLibFnArg {
                 name: "sketch".to_string(),
@@ -138,6 +139,7 @@ impl crate::docs::StdLibFn for LineTo {
                 schema: generator.root_schema_for::<Sketch>(),
                 required: true,
                 label_required: true,
+                description: "the sketch you're adding the line to".to_string(),
             },
         ]
     }
@@ -153,6 +155,7 @@ impl crate::docs::StdLibFn for LineTo {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/min.gen

@@ -129,6 +129,7 @@ impl crate::docs::StdLibFn for Min {
             schema: generator.root_schema_for::<Vec<f64>>(),
             required: true,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -143,6 +144,7 @@ impl crate::docs::StdLibFn for Min {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/option.gen

@@ -92,6 +92,7 @@ impl crate::docs::StdLibFn for Show {
             schema: generator.root_schema_for::<Option<f64>>(),
             required: false,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -106,6 +107,7 @@ impl crate::docs::StdLibFn for Show {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/option_input_format.gen

@@ -92,6 +92,7 @@ impl crate::docs::StdLibFn for Import {
             schema: generator.root_schema_for::<Option<kittycad::types::InputFormat>>(),
             required: false,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -106,6 +107,7 @@ impl crate::docs::StdLibFn for Import {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/return_vec_box_sketch.gen

@@ -92,6 +92,7 @@ impl crate::docs::StdLibFn for Import {
             schema: generator.root_schema_for::<Option<kittycad::types::InputFormat>>(),
             required: false,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -106,6 +107,7 @@ impl crate::docs::StdLibFn for Import {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/return_vec_sketch.gen

@@ -92,6 +92,7 @@ impl crate::docs::StdLibFn for Import {
             schema: generator.root_schema_for::<Option<kittycad::types::InputFormat>>(),
             required: false,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -106,6 +107,7 @@ impl crate::docs::StdLibFn for Import {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/show.gen

@@ -92,6 +92,7 @@ impl crate::docs::StdLibFn for Show {
             schema: generator.root_schema_for::<Vec<f64>>(),
             required: true,
             label_required: true,
+            description: String::new().to_string(),
         }]
     }
 
@@ -106,6 +107,7 @@ impl crate::docs::StdLibFn for Show {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/derive-docs/tests/test_args_with_exec_state.gen

@@ -99,6 +99,7 @@ impl crate::docs::StdLibFn for SomeFunction {
             schema,
             required: true,
             label_required: true,
+            description: String::new(),
         })
     }
 

src/wasm-lib/kcl-test-server/Cargo.toml

@@ -1,7 +1,7 @@
 [package]
 name = "kcl-test-server"
 description = "A test server for KCL"
-version = "0.1.18"
+version = "0.1.19"
 edition = "2021"
 license = "MIT"
 

src/wasm-lib/kcl-to-core/src/conn_mock_core.rs

@@ -189,7 +189,11 @@ impl EngineConnection {
                     uuid_to_cpp(path_id)
                 )
             }
-            kcmc::ModelingCmd::Extrude(kcmc::Extrude { distance, target }) => {
+            kcmc::ModelingCmd::Extrude(kcmc::Extrude {
+                distance,
+                target,
+                faces: _, // Engine team: start using this once the frontend and engine both use it.
+            }) => {
                 format!(
                     r#"
                     scene->getSceneObject(Utils::UUID("{target}"))->extrudeToSolid3D({} * scaleFactor, true);

src/wasm-lib/kcl/Cargo.toml

@@ -1,7 +1,7 @@
 [package]
 name = "kcl-lib"
 description = "KittyCAD Language implementation and tools"
-version = "0.2.28"
+version = "0.2.29"
 edition = "2021"
 license = "MIT"
 repository = "https://github.com/KittyCAD/modeling-app"
@@ -22,7 +22,7 @@ clap = { version = "4.5.21", default-features = false, optional = true, features
 ] }
 convert_case = "0.6.0"
 dashmap = "6.1.0"
-derive-docs = { version = "0.1.32", path = "../derive-docs" }
+derive-docs = { version = "0.1.33", path = "../derive-docs" }
 dhat = { version = "0.3", optional = true }
 fnv = "1.0.7"
 form_urlencoded = "1.2.1"
@@ -82,9 +82,9 @@ tokio = { version = "1.41.1", features = ["sync", "time"] }
 tower-lsp = { version = "0.20.0", default-features = false, features = [
     "runtime-agnostic",
 ] }
-wasm-bindgen = "0.2.91"
-wasm-bindgen-futures = "0.4.44"
-web-sys = { version = "0.3.72", features = ["console"] }
+wasm-bindgen = "0.2.99"
+wasm-bindgen-futures = "0.4.49"
+web-sys = { version = "0.3.76", features = ["console"] }
 
 [target.'cfg(not(target_arch = "wasm32"))'.dependencies]
 approx = "0.5"

src/wasm-lib/kcl/src/docs/gen_std_tests.rs

@@ -597,6 +597,8 @@ fn clean_function_name(name: &str) -> String {
         fn_name = fn_name.replace("seg_", "segment_");
     } else if fn_name.starts_with("log_") {
         fn_name = fn_name.replace("log_", "log");
+    } else if fn_name.ends_with("tan_2") {
+        fn_name = fn_name.replace("tan_2", "tan2");
     }
 
     fn_name

src/wasm-lib/kcl/src/docs/mod.rs

@@ -59,6 +59,12 @@ pub struct StdLibFnArg {
     pub schema: schemars::schema::RootSchema,
     /// If the argument is required.
     pub required: bool,
+    /// Additional information that could be used instead of the type's description.
+    /// This is helpful if the type is really basic, like "u32" -- that won't tell the user much about
+    /// how this argument is meant to be used.
+    /// Empty string means this has no docs.
+    #[serde(default, skip_serializing_if = "String::is_empty")]
+    pub description: String,
     /// Even in functions that use keyword arguments, not every parameter requires a label (most do though).
     /// Some functions allow one unlabeled parameter, which has to be first in the
     /// argument list.
@@ -106,6 +112,11 @@ impl StdLibFnArg {
     }
 
     pub fn description(&self) -> Option<String> {
+        // Check if we explicitly gave this stdlib arg a description.
+        if !self.description.is_empty() {
+            return Some(self.description.clone());
+        }
+        // If not, then try to get something meaningful from the schema.
         get_description_string_from_schema(&self.schema.clone())
     }
 }

src/wasm-lib/kcl/src/execution/exec_ast.rs

@@ -353,7 +353,6 @@ impl Node<CallExpressionKw> {
 
         // Build a hashmap from argument labels to the final evaluated values.
         let mut fn_args = HashMap::with_capacity(self.arguments.len());
-        let mut tag_declarator_args = Vec::new();
         for arg_expr in &self.arguments {
             let source_range = SourceRange::from(arg_expr.arg.clone());
             let metadata = Metadata { source_range };
@@ -361,12 +360,8 @@ impl Node<CallExpressionKw> {
                 .execute_expr(&arg_expr.arg, exec_state, &metadata, StatementKind::Expression)
                 .await?;
             fn_args.insert(arg_expr.label.name.clone(), Arg::new(value, source_range));
-            if let Expr::TagDeclarator(td) = &arg_expr.arg {
-                tag_declarator_args.push((td.inner.clone(), source_range));
-            }
         }
         let fn_args = fn_args; // remove mutability
-        let tag_declarator_args = tag_declarator_args; // remove mutability
 
         // Evaluate the unlabeled first param, if any exists.
         let unlabeled = if let Some(ref arg_expr) = self.unlabeled {
@@ -392,7 +387,7 @@ impl Node<CallExpressionKw> {
             FunctionKind::Core(func) => {
                 // Attempt to call the function.
                 let mut result = func.std_lib_fn()(exec_state, args).await?;
-                update_memory_for_tags_of_geometry(&mut result, &tag_declarator_args, exec_state)?;
+                update_memory_for_tags_of_geometry(&mut result, exec_state)?;
                 Ok(result)
             }
             FunctionKind::UserDefined => {
@@ -440,7 +435,6 @@ impl Node<CallExpression> {
         let fn_name = &self.callee.name;
 
         let mut fn_args: Vec<Arg> = Vec::with_capacity(self.arguments.len());
-        let mut tag_declarator_args = Vec::new();
 
         for arg_expr in &self.arguments {
             let metadata = Metadata {
@@ -450,19 +444,15 @@ impl Node<CallExpression> {
                 .execute_expr(arg_expr, exec_state, &metadata, StatementKind::Expression)
                 .await?;
             let arg = Arg::new(value, SourceRange::from(arg_expr));
-            if let Expr::TagDeclarator(td) = arg_expr {
-                tag_declarator_args.push((td.inner.clone(), arg.source_range));
-            }
             fn_args.push(arg);
         }
-        let tag_declarator_args = tag_declarator_args; // remove mutability
 
         match ctx.stdlib.get_either(fn_name) {
             FunctionKind::Core(func) => {
                 // Attempt to call the function.
                 let args = crate::std::Args::new(fn_args, self.into(), ctx.clone());
                 let mut result = func.std_lib_fn()(exec_state, args).await?;
-                update_memory_for_tags_of_geometry(&mut result, &tag_declarator_args, exec_state)?;
+                update_memory_for_tags_of_geometry(&mut result, exec_state)?;
                 Ok(result)
             }
             FunctionKind::UserDefined => {
@@ -501,24 +491,7 @@ impl Node<CallExpression> {
     }
 }
 
-/// `tag_declarator_args` should only contain tag declarator literals, which
-/// will be defined as local variables.  Non-literals that evaluate to tag
-/// declarators should not be defined.
-fn update_memory_for_tags_of_geometry(
-    result: &mut KclValue,
-    tag_declarator_args: &[(TagDeclarator, SourceRange)],
-    exec_state: &mut ExecState,
-) -> Result<(), KclError> {
-    // Define all the tags in the memory.
-    for (tag_declarator, arg_sr) in tag_declarator_args {
-        let tag = TagIdentifier {
-            value: tag_declarator.name.clone(),
-            info: None,
-            meta: vec![Metadata { source_range: *arg_sr }],
-        };
-
-        exec_state.memory.add_tag(&tag.value, tag.clone(), *arg_sr)?;
-    }
+fn update_memory_for_tags_of_geometry(result: &mut KclValue, exec_state: &mut ExecState) -> Result<(), KclError> {
     // If the return result is a sketch or solid, we want to update the
     // memory for the tags of the group.
     // TODO: This could probably be done in a better way, but as of now this was my only idea
@@ -526,7 +499,7 @@ fn update_memory_for_tags_of_geometry(
     match result {
         KclValue::Sketch { value: ref mut sketch } => {
             for (_, tag) in sketch.tags.iter() {
-                exec_state.memory.update_tag_if_defined(&tag.value, tag.clone());
+                exec_state.memory.update_tag(&tag.value, tag.clone())?;
             }
         }
         KclValue::Solid(ref mut solid) => {
@@ -564,7 +537,7 @@ fn update_memory_for_tags_of_geometry(
                     info.sketch = solid.id;
                     t.info = Some(info);
 
-                    exec_state.memory.update_tag_if_defined(&tag.name, t.clone());
+                    exec_state.memory.update_tag(&tag.name, t.clone())?;
 
                     // update the sketch tags.
                     solid.sketch.tags.insert(tag.name.clone(), t);
@@ -585,6 +558,22 @@ fn update_memory_for_tags_of_geometry(
     Ok(())
 }
 
+impl Node<TagDeclarator> {
+    pub async fn execute(&self, exec_state: &mut ExecState) -> Result<KclValue, KclError> {
+        let memory_item = KclValue::TagIdentifier(Box::new(TagIdentifier {
+            value: self.name.clone(),
+            info: None,
+            meta: vec![Metadata {
+                source_range: self.into(),
+            }],
+        }));
+
+        exec_state.memory.add(&self.name, memory_item.clone(), self.into())?;
+
+        Ok(self.into())
+    }
+}
+
 impl Node<ArrayExpression> {
     #[async_recursion]
     pub async fn execute(&self, exec_state: &mut ExecState, ctx: &ExecutorContext) -> Result<KclValue, KclError> {

src/wasm-lib/kcl/src/execution/mod.rs

@@ -124,16 +124,10 @@ impl ProgramMemory {
         Ok(())
     }
 
-    pub fn add_tag(&mut self, tag: &str, value: TagIdentifier, source_range: SourceRange) -> Result<(), KclError> {
-        self.add(tag, KclValue::TagIdentifier(Box::new(value)), source_range)
-    }
-
-    pub fn update_tag_if_defined(&mut self, tag: &str, value: TagIdentifier) {
-        if !self.environments[self.current_env.index()].contains_key(tag) {
-            // Do nothing if the tag isn't defined.
-            return;
-        }
+    pub fn update_tag(&mut self, tag: &str, value: TagIdentifier) -> Result<(), KclError> {
         self.environments[self.current_env.index()].insert(tag.to_string(), KclValue::TagIdentifier(Box::new(value)));
+
+        Ok(())
     }
 
     /// Get a value from the program memory.
@@ -850,7 +844,7 @@ impl GetTangentialInfoFromPathsResult {
 
 impl Sketch {
     pub(crate) fn add_tag(&mut self, tag: NodeRef<'_, TagDeclarator>, current_path: &Path) {
-        let mut tag_identifier = TagIdentifier::from(tag);
+        let mut tag_identifier: TagIdentifier = tag.into();
         let base = current_path.get_base();
         tag_identifier.info = Some(TagEngineInfo {
             id: base.geo_meta.id,
@@ -1895,11 +1889,19 @@ impl ExecutorContext {
         };
 
         if cache_result.clear_scene && !self.is_mock() {
+            // Pop the execution state, since we are starting fresh.
+            let mut id_generator = exec_state.id_generator.clone();
+            // We do not pop the ids, since we want to keep the same id generator.
+            // This is for the front end to keep track of the ids.
+            id_generator.next_id = 0;
+            *exec_state = ExecState {
+                id_generator,
+                ..Default::default()
+            };
+
             // We don't do this in mock mode since there is no engine connection
             // anyways and from the TS side we override memory and don't want to clear it.
             self.reset_scene(exec_state, Default::default()).await?;
-            // Pop the execution state, since we are starting fresh.
-            *exec_state = Default::default();
         }
 
         // TODO: Use the top-level file's path.
@@ -2128,7 +2130,7 @@ impl ExecutorContext {
         let item = match init {
             Expr::None(none) => KclValue::from(none),
             Expr::Literal(literal) => KclValue::from(literal),
-            Expr::TagDeclarator(tag) => KclValue::from(tag),
+            Expr::TagDeclarator(tag) => tag.execute(exec_state).await?,
             Expr::Identifier(identifier) => {
                 let value = exec_state.memory.get(&identifier.name, identifier.into())?;
                 value.clone()
@@ -2808,6 +2810,28 @@ const answer = returnX()"#;
         );
     }
 
+    #[tokio::test(flavor = "multi_thread")]
+    async fn test_cannot_shebang_in_fn() {
+        let ast = r#"
+fn foo () {
+  #!hello
+  return true
+}
+
+foo
+"#;
+
+        let result = parse_execute(ast).await;
+        let err = result.unwrap_err().downcast::<KclError>().unwrap();
+        assert_eq!(
+            err,
+            KclError::Syntax(KclErrorDetails {
+                message: "Unexpected token: #".to_owned(),
+                source_ranges: vec![SourceRange::new(15, 16, ModuleId::default())],
+            }),
+        );
+    }
+
     #[tokio::test(flavor = "multi_thread")]
     async fn test_pattern_transform_function_cannot_access_future_definitions() {
         let ast = r#"
@@ -3024,10 +3048,8 @@ let notTagDeclarator = !myTagDeclarator";
         );
 
         let code9 = "
-sk = startSketchOn('XY')
-  |> startProfileAt([0, 0], %)
-  |> line([5, 0], %, $myTag)
-notTagIdentifier = !myTag";
+let myTagDeclarator = $myTag
+let notTagIdentifier = !myTag";
         let tag_identifier_err = parse_execute(code9).await.unwrap_err().downcast::<KclError>().unwrap();
         // These are currently printed out as JSON objects, so we don't want to
         // check the full error.
@@ -3497,12 +3519,7 @@ shell({ faces = ['end'], thickness = 0.25 }, firstSketch)"#;
             })
             .await;
 
-        assert!(result.is_some());
-
-        let result = result.unwrap();
-
-        assert_eq!(result.program, program_new.ast);
-        assert!(result.clear_scene);
+        assert!(result.is_none());
     }
 
     // Changing the units with the exact same file should bust the cache.

src/wasm-lib/kcl/src/parsing/ast/digest.rs

@@ -3,11 +3,10 @@ use sha2::{Digest as DigestTrait, Sha256};
 use super::types::{DefaultParamVal, ItemVisibility, LabelledExpression, VariableKind};
 use crate::parsing::ast::types::{
     ArrayExpression, ArrayRangeExpression, BinaryExpression, BinaryPart, BodyItem, CallExpression, CallExpressionKw,
-    CommentStyle, ElseIf, Expr, ExpressionStatement, FnArgType, FunctionExpression, Identifier, IfExpression,
-    ImportItem, ImportSelector, ImportStatement, KclNone, Literal, LiteralIdentifier, MemberExpression, MemberObject,
-    NonCodeMeta, NonCodeNode, NonCodeValue, ObjectExpression, ObjectProperty, Parameter, PipeExpression,
-    PipeSubstitution, Program, ReturnStatement, TagDeclarator, UnaryExpression, VariableDeclaration,
-    VariableDeclarator,
+    ElseIf, Expr, ExpressionStatement, FnArgType, FunctionExpression, Identifier, IfExpression, ImportItem,
+    ImportSelector, ImportStatement, KclNone, Literal, LiteralIdentifier, MemberExpression, MemberObject,
+    ObjectExpression, ObjectProperty, Parameter, PipeExpression, PipeSubstitution, Program, ReturnStatement,
+    TagDeclarator, UnaryExpression, VariableDeclaration, VariableDeclarator,
 };
 
 /// Position-independent digest of the AST node.
@@ -82,7 +81,6 @@ impl Program {
         if let Some(shebang) = &slf.shebang {
             hasher.update(&shebang.inner.content);
         }
-        hasher.update(slf.non_code_meta.compute_digest());
     });
 }
 
@@ -234,53 +232,6 @@ impl ReturnStatement {
     });
 }
 
-impl CommentStyle {
-    fn digestable_id(&self) -> [u8; 2] {
-        match &self {
-            CommentStyle::Line => *b"//",
-            CommentStyle::Block => *b"/*",
-        }
-    }
-}
-
-impl NonCodeNode {
-    compute_digest!(|slf, hasher| {
-        match &slf.value {
-            NonCodeValue::InlineComment { value, style } => {
-                hasher.update(value);
-                hasher.update(style.digestable_id());
-            }
-            NonCodeValue::BlockComment { value, style } => {
-                hasher.update(value);
-                hasher.update(style.digestable_id());
-            }
-            NonCodeValue::NewLineBlockComment { value, style } => {
-                hasher.update(value);
-                hasher.update(style.digestable_id());
-            }
-            NonCodeValue::NewLine => {
-                hasher.update(b"\r\n");
-            }
-        }
-    });
-}
-
-impl NonCodeMeta {
-    compute_digest!(|slf, hasher| {
-        let mut keys = slf.non_code_nodes.keys().copied().collect::<Vec<_>>();
-        keys.sort();
-
-        for key in keys.into_iter() {
-            hasher.update(key.to_ne_bytes());
-            let nodes = slf.non_code_nodes.get_mut(&key).unwrap();
-            hasher.update(nodes.len().to_ne_bytes());
-            for node in nodes.iter_mut() {
-                hasher.update(node.compute_digest());
-            }
-        }
-    });
-}
-
 impl ExpressionStatement {
     compute_digest!(|slf, hasher| {
         hasher.update(slf.expression.compute_digest());
@@ -416,7 +367,6 @@ impl PipeExpression {
         for value in slf.body.iter_mut() {
             hasher.update(value.compute_digest());
         }
-        hasher.update(slf.non_code_meta.compute_digest());
     });
 }
 

src/wasm-lib/kcl/src/parsing/parser.rs

@@ -2256,12 +2256,16 @@ fn arguments(i: &mut TokenSlice) -> PResult<Vec<Expr>> {
 }
 
 fn labeled_argument(i: &mut TokenSlice) -> PResult<LabeledArg> {
-    separated_pair(identifier, (one_of(TokenType::Colon), opt(whitespace)), expression)
-        .map(|(label, arg)| LabeledArg {
-            label: label.inner,
-            arg,
-        })
-        .parse_next(i)
+    separated_pair(
+        terminated(identifier, opt(whitespace)),
+        terminated(one_of((TokenType::Operator, "=")), opt(whitespace)),
+        expression,
+    )
+    .map(|(label, arg)| LabeledArg {
+        label: label.inner,
+        arg,
+    })
+    .parse_next(i)
 }
 
 /// Arguments are passed into a function,
@@ -2535,6 +2539,7 @@ fn fn_call_kw(i: &mut TokenSlice) -> PResult<Node<CallExpressionKw>> {
     let initial_unlabeled_arg = opt((expression, comma, opt(whitespace)).map(|(arg, _, _)| arg)).parse_next(i)?;
     let args = labeled_arguments(i)?;
     ignore_whitespace(i);
+    opt(comma_sep).parse_next(i)?;
     let end = close_paren.parse_next(i)?.end;
 
     Ok(Node {
@@ -4057,7 +4062,7 @@ let myBox = box([0,0], -3, -16, -10)
 
     #[test]
     fn kw_fn() {
-        for input in ["val = foo(x, y: z)", "val = foo(y: z)"] {
+        for input in ["val = foo(x, y = z)", "val = foo(y = z)"] {
             let module_id = ModuleId::default();
             let tokens = crate::parsing::token::lex(input, module_id).unwrap();
             super::program.parse(tokens.as_slice()).unwrap();
@@ -4497,8 +4502,8 @@ my14 = 4 ^ 2 - 3 ^ 2 * 2
         r#"x = 3
         obj = { x, y: 4}"#
     );
-    snapshot_test!(kw_function_unnamed_first, r#"val = foo(x, y: z)"#);
-    snapshot_test!(kw_function_all_named, r#"val = foo(x: a, y: b)"#);
+    snapshot_test!(kw_function_unnamed_first, r#"val = foo(x, y = z)"#);
+    snapshot_test!(kw_function_all_named, r#"val = foo(x = a, y = b)"#);
     snapshot_test!(kw_function_decl_all_labeled, r#"fn foo(x, y) { return 1 }"#);
     snapshot_test!(kw_function_decl_first_unlabeled, r#"fn foo(@x, y) { return 1 }"#);
     snapshot_test!(kw_function_decl_with_default_no_type, r#"fn foo(x? = 2) { return 1 }"#);

src/wasm-lib/kcl/src/parsing/snapshots/kcl_lib__parsing__parser__snapshot_tests__kw_function_all_named.snap

@@ -1,12 +1,13 @@
 ---
 source: kcl/src/parsing/parser.rs
 expression: actual
+snapshot_kind: text
 ---
 {
   "body": [
     {
       "declaration": {
-        "end": 21,
+        "end": 23,
         "id": {
           "end": 3,
           "name": "val",
@@ -22,9 +23,9 @@ expression: actual
                 "name": "x"
               },
               "arg": {
-                "end": 14,
+                "end": 15,
                 "name": "a",
-                "start": 13,
+                "start": 14,
                 "type": "Identifier",
                 "type": "Identifier"
               }
@@ -36,9 +37,9 @@ expression: actual
                 "name": "y"
               },
               "arg": {
-                "end": 20,
+                "end": 22,
                 "name": "b",
-                "start": 19,
+                "start": 21,
                 "type": "Identifier",
                 "type": "Identifier"
               }
@@ -50,7 +51,7 @@ expression: actual
             "start": 6,
             "type": "Identifier"
           },
-          "end": 21,
+          "end": 23,
           "start": 6,
           "type": "CallExpressionKw",
           "type": "CallExpressionKw",
@@ -59,13 +60,13 @@ expression: actual
         "start": 0,
         "type": "VariableDeclarator"
       },
-      "end": 21,
+      "end": 23,
       "kind": "const",
       "start": 0,
       "type": "VariableDeclaration",
       "type": "VariableDeclaration"
     }
   ],
-  "end": 21,
+  "end": 23,
   "start": 0
 }

src/wasm-lib/kcl/src/parsing/snapshots/kcl_lib__parsing__parser__snapshot_tests__kw_function_unnamed_first.snap

@@ -1,12 +1,13 @@
 ---
 source: kcl/src/parsing/parser.rs
 expression: actual
+snapshot_kind: text
 ---
 {
   "body": [
     {
       "declaration": {
-        "end": 18,
+        "end": 19,
         "id": {
           "end": 3,
           "name": "val",
@@ -22,9 +23,9 @@ expression: actual
                 "name": "y"
               },
               "arg": {
-                "end": 17,
+                "end": 18,
                 "name": "z",
-                "start": 16,
+                "start": 17,
                 "type": "Identifier",
                 "type": "Identifier"
               }
@@ -36,7 +37,7 @@ expression: actual
             "start": 6,
             "type": "Identifier"
           },
-          "end": 18,
+          "end": 19,
           "start": 6,
           "type": "CallExpressionKw",
           "type": "CallExpressionKw",
@@ -51,13 +52,13 @@ expression: actual
         "start": 0,
         "type": "VariableDeclarator"
       },
-      "end": 18,
+      "end": 19,
       "kind": "const",
       "start": 0,
       "type": "VariableDeclaration",
       "type": "VariableDeclaration"
     }
   ],
-  "end": 18,
+  "end": 19,
   "start": 0
 }

src/wasm-lib/kcl/src/settings/types/mod.rs

@@ -477,6 +477,10 @@ pub struct CommandBarSettings {
 #[serde(rename_all = "snake_case")]
 #[display(style = "snake_case")]
 pub enum OnboardingStatus {
+    /// The unset state.
+    #[serde(rename = "")]
+    #[display("")]
+    Unset,
     /// The user has completed onboarding.
     Completed,
     /// The user has not completed onboarding.

src/wasm-lib/kcl/src/simulation_tests.rs

@@ -1502,48 +1502,6 @@ mod kw_fn {
         super::execute(TEST_NAME, true).await
     }
 }
-mod tag_can_be_proxied_through_parameter {
-    const TEST_NAME: &str = "tag_can_be_proxied_through_parameter";
-
-    /// Test parsing KCL.
-    #[test]
-    fn parse() {
-        super::parse(TEST_NAME)
-    }
-
-    /// Test that parsing and unparsing KCL produces the original KCL input.
-    #[test]
-    fn unparse() {
-        super::unparse(TEST_NAME)
-    }
-
-    /// Test that KCL is executed correctly.
-    #[tokio::test(flavor = "multi_thread")]
-    async fn kcl_test_execute() {
-        super::execute(TEST_NAME, false).await
-    }
-}
-mod tag_proxied_through_function_does_not_define_var {
-    const TEST_NAME: &str = "tag_proxied_through_function_does_not_define_var";
-
-    /// Test parsing KCL.
-    #[test]
-    fn parse() {
-        super::parse(TEST_NAME)
-    }
-
-    /// Test that parsing and unparsing KCL produces the original KCL input.
-    #[test]
-    fn unparse() {
-        super::unparse(TEST_NAME)
-    }
-
-    /// Test that KCL is executed correctly.
-    #[tokio::test(flavor = "multi_thread")]
-    async fn kcl_test_execute() {
-        super::execute(TEST_NAME, false).await
-    }
-}
 mod kw_fn_too_few_args {
     const TEST_NAME: &str = "kw_fn_too_few_args";
 

src/wasm-lib/kcl/src/std/args.rs

@@ -133,12 +133,16 @@ impl Args {
     where
         T: FromKclValue<'a>,
     {
-        let Some(ref arg) = self.kw_args.unlabeled else {
-            return Err(KclError::Semantic(KclErrorDetails {
+        let arg = self
+            .kw_args
+            .unlabeled
+            .as_ref()
+            .or(self.args.first())
+            .ok_or(KclError::Semantic(KclErrorDetails {
                 source_ranges: vec![self.source_range],
                 message: format!("This function requires a value for the special unlabeled first parameter, '{label}'"),
-            }));
-        };
+            }))?;
+
         T::from_kcl_val(&arg.value).ok_or_else(|| {
             KclError::Semantic(KclErrorDetails {
                 source_ranges: arg.source_ranges(),
@@ -411,13 +415,6 @@ impl Args {
         FromArgs::from_args(self, 0)
     }
 
-    pub(crate) fn get_sketches_and_data<'a, T>(&'a self) -> Result<(Vec<Sketch>, Option<T>), KclError>
-    where
-        T: FromArgs<'a> + serde::de::DeserializeOwned + FromKclValue<'a> + Sized,
-    {
-        FromArgs::from_args(self, 0)
-    }
-
     pub(crate) fn get_data_and_optional_tag<'a, T>(&'a self) -> Result<(T, Option<FaceTag>), KclError>
     where
         T: serde::de::DeserializeOwned + FromKclValue<'a> + Sized,
@@ -865,22 +862,6 @@ impl<'a> FromKclValue<'a> for crate::std::polar::PolarCoordsData {
     }
 }
 
-impl<'a> FromKclValue<'a> for crate::std::loft::LoftData {
-    fn from_kcl_val(arg: &'a KclValue) -> Option<Self> {
-        let obj = arg.as_object()?;
-        let_field_of!(obj, v_degree?);
-        let_field_of!(obj, bez_approximate_rational?);
-        let_field_of!(obj, base_curve_index?);
-        let_field_of!(obj, tolerance?);
-        Some(Self {
-            v_degree,
-            bez_approximate_rational,
-            base_curve_index,
-            tolerance,
-        })
-    }
-}
-
 impl<'a> FromKclValue<'a> for crate::std::planes::StandardPlane {
     fn from_kcl_val(arg: &'a KclValue) -> Option<Self> {
         let s = arg.as_str()?;

src/wasm-lib/kcl/src/std/array.rs

@@ -30,7 +30,7 @@ pub async fn map(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// Given a list like `[a, b, c]`, and a function like `f`, returns
 /// `[f(a), f(b), f(c)]`
 /// ```no_run
-/// const r = 10 // radius
+/// r = 10 // radius
 /// fn drawCircle(id) {
 ///   return startSketchOn("XY")
 ///     |> circle({ center: [id * 2 * r, 0], radius: r}, %)
@@ -39,15 +39,15 @@ pub async fn map(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// // Call `drawCircle`, passing in each element of the array.
 /// // The outputs from each `drawCircle` form a new array,
 /// // which is the return value from `map`.
-/// const circles = map(
+/// circles = map(
 ///   [1..3],
 ///   drawCircle
 /// )
 /// ```
 /// ```no_run
-/// const r = 10 // radius
+/// r = 10 // radius
 /// // Call `map`, using an anonymous function instead of a named one.
-/// const circles = map(
+/// circles = map(
 ///   [1..3],
 ///   fn(id) {
 ///     return startSketchOn("XY")
@@ -106,17 +106,17 @@ pub async fn reduce(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// using the previous value and the element.
 /// ```no_run
 /// // This function adds two numbers.
-/// fn add = (a, b) => { return a + b }
+/// fn add(a, b) { return a + b }
 ///
 /// // This function adds an array of numbers.
 /// // It uses the `reduce` function, to call the `add` function on every
 /// // element of the `arr` parameter. The starting value is 0.
-/// fn sum = (arr) => { return reduce(arr, 0, add) }
+/// fn sum(arr) { return reduce(arr, 0, add) }
 ///
 /// /*
 /// The above is basically like this pseudo-code:
 /// fn sum(arr):
-///     let sumSoFar = 0
+///     sumSoFar = 0
 ///     for i in arr:
 ///         sumSoFar = add(sumSoFar, i)
 ///     return sumSoFar
@@ -139,7 +139,7 @@ pub async fn reduce(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 /// ```no_run
 /// // Declare a function that sketches a decagon.
-/// fn decagon = (radius) => {
+/// fn decagon(radius) {
 ///   // Each side of the decagon is turned this many degrees from the previous angle.
 ///   stepAngle = (1/10) * tau()
 ///
@@ -151,8 +151,8 @@ pub async fn reduce(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///   // which takes a partially-sketched decagon and adds one more edge to it.
 ///   fullDecagon = reduce([1..10], startOfDecagonSketch, fn(i, partialDecagon) {
 ///       // Draw one edge of the decagon.
-///       let x = cos(stepAngle * i) * radius
-///       let y = sin(stepAngle * i) * radius
+///       x = cos(stepAngle * i) * radius
+///       y = sin(stepAngle * i) * radius
 ///       return lineTo([x, y], partialDecagon)
 ///   })
 ///
@@ -163,14 +163,14 @@ pub async fn reduce(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// /*
 /// The `decagon` above is basically like this pseudo-code:
 /// fn decagon(radius):
-///     let stepAngle = (1/10) * tau()
-///     let startOfDecagonSketch = startSketchAt([(cos(0)*radius), (sin(0) * radius)])
+///     stepAngle = (1/10) * tau()
+///     startOfDecagonSketch = startSketchAt([(cos(0)*radius), (sin(0) * radius)])
 ///
 ///     // Here's the reduce part.
-///     let partialDecagon = startOfDecagonSketch
+///     partialDecagon = startOfDecagonSketch
 ///     for i in [1..10]:
-///         let x = cos(stepAngle * i) * radius
-///         let y = sin(stepAngle * i) * radius
+///         x = cos(stepAngle * i) * radius
+///         y = sin(stepAngle * i) * radius
 ///         partialDecagon = lineTo([x, y], partialDecagon)
 ///     fullDecagon = partialDecagon // it's now full
 ///     return fullDecagon
@@ -224,8 +224,8 @@ async fn call_reduce_closure<'a>(
 /// Returns a new array with the element appended.
 ///
 /// ```no_run
-/// let arr = [1, 2, 3]
-/// let new_arr = push(arr, 4)
+/// arr = [1, 2, 3]
+/// new_arr = push(arr, 4)
 /// assertEqual(new_arr[3], 4, 0.00001, "4 was added to the end of the array")
 /// ```
 #[stdlib {

src/wasm-lib/kcl/src/std/assert.rs

@@ -31,7 +31,7 @@ pub async fn assert(_exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// is false.
 ///
 /// ```no_run
-/// const myVar = true
+/// myVar = true
 /// assert(myVar, "should always be true")
 /// ```
 #[stdlib {
@@ -70,8 +70,8 @@ pub async fn assert_gt(_exec_state: &mut ExecState, args: Args) -> Result<KclVal
 /// otherwise raise an error.
 ///
 /// ```no_run
-/// let n = 1.0285
-/// let o = 1.0286
+/// n = 1.0285
+/// o = 1.0286
 /// assertEqual(n, o, 0.01, "n is within the given tolerance for o")
 /// ```
 #[stdlib {

src/wasm-lib/kcl/src/std/chamfer.rs

@@ -43,19 +43,19 @@ pub async fn chamfer(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///
 /// ```no_run
 /// // Chamfer a mounting plate.
-/// const width = 20
-/// const length = 10
-/// const thickness = 1
-/// const chamferLength = 2
+/// width = 20
+/// length = 10
+/// thickness = 1
+/// chamferLength = 2
 ///
-/// const mountingPlateSketch = startSketchOn("XY")
+/// mountingPlateSketch = startSketchOn("XY")
 ///   |> startProfileAt([-width/2, -length/2], %)
 ///   |> lineTo([width/2, -length/2], %, $edge1)
 ///   |> lineTo([width/2, length/2], %, $edge2)
 ///   |> lineTo([-width/2, length/2], %, $edge3)
 ///   |> close(%, $edge4)
 ///
-/// const mountingPlate = extrude(thickness, mountingPlateSketch)
+/// mountingPlate = extrude(thickness, mountingPlateSketch)
 ///   |> chamfer({
 ///     length = chamferLength,
 ///     tags = [
@@ -69,8 +69,8 @@ pub async fn chamfer(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///
 /// ```no_run
 /// // Sketch on the face of a chamfer.
-/// fn cube = (pos, scale) => {
-/// const sg = startSketchOn('XY')
+/// fn cube(pos, scale) {
+/// sg = startSketchOn('XY')
 ///     |> startProfileAt(pos, %)
 ///     |> line([0, scale], %)
 ///     |> line([scale, 0], %)
@@ -79,7 +79,7 @@ pub async fn chamfer(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///     return sg
 /// }
 ///
-/// const part001 = cube([0,0], 20)
+/// part001 = cube([0,0], 20)
 ///     |> close(%, $line1)
 ///     |> extrude(20, %)
 ///     |> chamfer({
@@ -87,7 +87,7 @@ pub async fn chamfer(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///         tags = [getOppositeEdge(line1)]
 ///     }, %, $chamfer1) // We tag the chamfer to reference it later.
 ///
-/// const sketch001 = startSketchOn(part001, chamfer1)
+/// sketch001 = startSketchOn(part001, chamfer1)
 ///     |> startProfileAt([10, 10], %)
 ///     |> line([2, 0], %)
 ///     |> line([0, 2], %)

src/wasm-lib/kcl/src/std/convert.rs

@@ -21,7 +21,7 @@ pub async fn int(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// DEPRECATED use floor(), ceil(), or round().
 ///
 /// ```no_run
-/// let n = int(ceil(5/2))
+/// n = int(ceil(5/2))
 /// assertEqual(n, 3, 0.0001, "5/2 = 2.5, rounded up makes 3")
 /// // Draw n cylinders.
 /// startSketchOn('XZ')

src/wasm-lib/kcl/src/std/extrude.rs

@@ -33,7 +33,7 @@ pub async fn extrude(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// cut into an existing solid.
 ///
 /// ```no_run
-/// const example = startSketchOn('XZ')
+/// example = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> arc({
@@ -54,7 +54,7 @@ pub async fn extrude(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([-10, 0], %)
 ///   |> arc({
 ///     angleStart = 120,
@@ -72,7 +72,7 @@ pub async fn extrude(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///   |> line([-5, -2], %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "extrude"
@@ -113,6 +113,7 @@ async fn inner_extrude(
             ModelingCmd::from(mcmd::Extrude {
                 target: sketch.id.into(),
                 distance: LengthUnit(length),
+                faces: Default::default(),
             }),
         )
         .await?;

src/wasm-lib/kcl/src/std/fillet.rs

@@ -68,19 +68,19 @@ pub async fn fillet(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// will smoothly blend the transition.
 ///
 /// ```no_run
-/// const width = 20
-/// const length = 10
-/// const thickness = 1
-/// const filletRadius = 2
+/// width = 20
+/// length = 10
+/// thickness = 1
+/// filletRadius = 2
 ///
-/// const mountingPlateSketch = startSketchOn("XY")
+/// mountingPlateSketch = startSketchOn("XY")
 ///   |> startProfileAt([-width/2, -length/2], %)
 ///   |> lineTo([width/2, -length/2], %, $edge1)
 ///   |> lineTo([width/2, length/2], %, $edge2)
 ///   |> lineTo([-width/2, length/2], %, $edge3)
 ///   |> close(%, $edge4)
 ///
-/// const mountingPlate = extrude(thickness, mountingPlateSketch)
+/// mountingPlate = extrude(thickness, mountingPlateSketch)
 ///   |> fillet({
 ///     radius = filletRadius,
 ///     tags = [
@@ -93,19 +93,19 @@ pub async fn fillet(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 ///
 /// ```no_run
-/// const width = 20
-/// const length = 10
-/// const thickness = 1
-/// const filletRadius = 1
+/// width = 20
+/// length = 10
+/// thickness = 1
+/// filletRadius = 1
 ///
-/// const mountingPlateSketch = startSketchOn("XY")
+/// mountingPlateSketch = startSketchOn("XY")
 ///   |> startProfileAt([-width/2, -length/2], %)
 ///   |> lineTo([width/2, -length/2], %, $edge1)
 ///   |> lineTo([width/2, length/2], %, $edge2)
 ///   |> lineTo([-width/2, length/2], %, $edge3)
 ///   |> close(%, $edge4)
 ///
-/// const mountingPlate = extrude(thickness, mountingPlateSketch)
+/// mountingPlate = extrude(thickness, mountingPlateSketch)
 ///   |> fillet({
 ///     radius = filletRadius,
 ///     tolerance = 0.000001,
@@ -195,7 +195,7 @@ pub async fn get_opposite_edge(exec_state: &mut ExecState, args: Args) -> Result
 /// Get the opposite edge to the edge given.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> angledLine({
@@ -213,7 +213,7 @@ pub async fn get_opposite_edge(exec_state: &mut ExecState, args: Args) -> Result
 ///   }, %, $referenceEdge)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 ///   |> fillet({
 ///     radius = 3,
 ///     tags = [getOppositeEdge(referenceEdge)],
@@ -268,7 +268,7 @@ pub async fn get_next_adjacent_edge(exec_state: &mut ExecState, args: Args) -> R
 /// Get the next adjacent edge to the edge given.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> angledLine({
@@ -286,7 +286,7 @@ pub async fn get_next_adjacent_edge(exec_state: &mut ExecState, args: Args) -> R
 ///   }, %, $referenceEdge)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 ///   |> fillet({
 ///     radius = 3,
 ///     tags = [getNextAdjacentEdge(referenceEdge)],
@@ -353,7 +353,7 @@ pub async fn get_previous_adjacent_edge(exec_state: &mut ExecState, args: Args)
 /// Get the previous adjacent edge to the edge given.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> angledLine({
@@ -371,7 +371,7 @@ pub async fn get_previous_adjacent_edge(exec_state: &mut ExecState, args: Args)
 ///   }, %, $referenceEdge)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 ///   |> fillet({
 ///     radius = 3,
 ///     tags = [getPreviousAdjacentEdge(referenceEdge)],

src/wasm-lib/kcl/src/std/helix.rs

@@ -42,7 +42,7 @@ pub async fn helix(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// Create a helix on a cylinder.
 ///
 /// ```no_run
-/// const part001 = startSketchOn('XY')
+/// part001 = startSketchOn('XY')
 ///   |> circle({ center: [5, 5], radius: 10 }, %)
 ///   |> extrude(10, %)
 ///   |> helix({

src/wasm-lib/kcl/src/std/import.rs

@@ -148,23 +148,23 @@ pub async fn import(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// [KCL modules](/docs/kcl/modules).
 ///
 /// ```no_run
-/// const model = import("tests/inputs/cube.obj")
+/// model = import("tests/inputs/cube.obj")
 /// ```
 ///
 /// ```no_run
-/// const model = import("tests/inputs/cube.obj", {format: "obj", units: "m"})
+/// model = import("tests/inputs/cube.obj", {format: "obj", units: "m"})
 /// ```
 ///
 /// ```no_run
-/// const model = import("tests/inputs/cube.gltf")
+/// model = import("tests/inputs/cube.gltf")
 /// ```
 ///
 /// ```no_run
-/// const model = import("tests/inputs/cube.sldprt")
+/// model = import("tests/inputs/cube.sldprt")
 /// ```
 ///
 /// ```no_run
-/// const model = import("tests/inputs/cube.step")
+/// model = import("tests/inputs/cube.step")
 /// ```
 ///
 /// ```no_run

src/wasm-lib/kcl/src/std/loft.rs

@@ -1,11 +1,11 @@
 //! Standard library lofts.
 
+use std::num::NonZeroU32;
+
 use anyhow::Result;
 use derive_docs::stdlib;
 use kcmc::{each_cmd as mcmd, length_unit::LengthUnit, ModelingCmd};
 use kittycad_modeling_cmds as kcmc;
-use schemars::JsonSchema;
-use serde::{Deserialize, Serialize};
 
 use crate::{
     errors::{KclError, KclErrorDetails},
@@ -15,45 +15,31 @@ use crate::{
 
 const DEFAULT_V_DEGREE: u32 = 2;
 
-/// Data for a loft.
-#[derive(Debug, Clone, Deserialize, Serialize, PartialEq, ts_rs::TS, JsonSchema)]
-#[ts(export)]
-#[serde(rename_all = "camelCase")]
-pub struct LoftData {
-    /// Degree of the interpolation. Must be greater than zero.
-    /// For example, use 2 for quadratic, or 3 for cubic interpolation in the V direction.
-    /// This defaults to 2, if not specified.
-    pub v_degree: Option<std::num::NonZeroU32>,
-    /// Attempt to approximate rational curves (such as arcs) using a bezier.
-    /// This will remove banding around interpolations between arcs and non-arcs.  It may produce errors in other scenarios
-    /// Over time, this field won't be necessary.
-    #[serde(default)]
-    pub bez_approximate_rational: Option<bool>,
-    /// This can be set to override the automatically determined topological base curve, which is usually the first section encountered.
-    #[serde(default)]
-    pub base_curve_index: Option<u32>,
-    /// Tolerance for the loft operation.
-    #[serde(default)]
-    pub tolerance: Option<f64>,
-}
-
-impl Default for LoftData {
-    fn default() -> Self {
-        Self {
-            // This unwrap is safe because the default value is always greater than zero.
-            v_degree: Some(std::num::NonZeroU32::new(DEFAULT_V_DEGREE).unwrap()),
-            bez_approximate_rational: None,
-            base_curve_index: None,
-            tolerance: None,
-        }
-    }
-}
-
 /// Create a 3D surface or solid by interpolating between two or more sketches.
 pub async fn loft(exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
-    let (sketches, data): (Vec<Sketch>, Option<LoftData>) = args.get_sketches_and_data()?;
+    let sketches = args.get_unlabeled_kw_arg("sketches")?;
+    let v_degree: NonZeroU32 = args
+        .get_kw_arg_opt("vDegree")
+        .unwrap_or(NonZeroU32::new(DEFAULT_V_DEGREE).unwrap());
+    // Attempt to approximate rational curves (such as arcs) using a bezier.
+    // This will remove banding around interpolations between arcs and non-arcs.  It may produce errors in other scenarios
+    // Over time, this field won't be necessary.
+    let bez_approximate_rational = args.get_kw_arg_opt("bezApproximateRational").unwrap_or(false);
+    // This can be set to override the automatically determined topological base curve, which is usually the first section encountered.
+    let base_curve_index: Option<u32> = args.get_kw_arg_opt("baseCurveIndex");
+    // Tolerance for the loft operation.
+    let tolerance: Option<f64> = args.get_kw_arg_opt("tolerance");
 
-    let solid = inner_loft(sketches, data, exec_state, args).await?;
+    let solid = inner_loft(
+        sketches,
+        v_degree,
+        bez_approximate_rational,
+        base_curve_index,
+        tolerance,
+        exec_state,
+        args,
+    )
+    .await?;
     Ok(KclValue::Solid(solid))
 }
 
@@ -63,7 +49,7 @@ pub async fn loft(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///
 /// ```no_run
 /// // Loft a square and a triangle.
-/// const squareSketch = startSketchOn('XY')
+/// squareSketch = startSketchOn('XY')
 ///     |> startProfileAt([-100, 200], %)
 ///     |> line([200, 0], %)
 ///     |> line([0, -200], %)
@@ -71,7 +57,7 @@ pub async fn loft(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///     |> lineTo([profileStartX(%), profileStartY(%)], %)
 ///     |> close(%)
 ///
-/// const triangleSketch = startSketchOn(offsetPlane('XY', 75))
+/// triangleSketch = startSketchOn(offsetPlane('XY', 75))
 ///     |> startProfileAt([0, 125], %)
 ///     |> line([-15, -30], %)
 ///     |> line([30, 0], %)
@@ -83,7 +69,7 @@ pub async fn loft(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///
 /// ```no_run
 /// // Loft a square, a circle, and another circle.
-/// const squareSketch = startSketchOn('XY')
+/// squareSketch = startSketchOn('XY')
 ///     |> startProfileAt([-100, 200], %)
 ///     |> line([200, 0], %)
 ///     |> line([0, -200], %)
@@ -91,10 +77,10 @@ pub async fn loft(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///     |> lineTo([profileStartX(%), profileStartY(%)], %)
 ///     |> close(%)
 ///
-/// const circleSketch0 = startSketchOn(offsetPlane('XY', 75))
+/// circleSketch0 = startSketchOn(offsetPlane('XY', 75))
 ///     |> circle({ center = [0, 100], radius = 50 }, %)
 ///
-/// const circleSketch1 = startSketchOn(offsetPlane('XY', 150))
+/// circleSketch1 = startSketchOn(offsetPlane('XY', 150))
 ///     |> circle({ center = [0, 100], radius = 20 }, %)
 ///
 /// loft([squareSketch, circleSketch0, circleSketch1])
@@ -102,7 +88,7 @@ pub async fn loft(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///
 /// ```no_run
 /// // Loft a square, a circle, and another circle with options.
-/// const squareSketch = startSketchOn('XY')
+/// squareSketch = startSketchOn('XY')
 ///     |> startProfileAt([-100, 200], %)
 ///     |> line([200, 0], %)
 ///     |> line([0, -200], %)
@@ -110,34 +96,37 @@ pub async fn loft(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///     |> lineTo([profileStartX(%), profileStartY(%)], %)
 ///     |> close(%)
 ///
-/// const circleSketch0 = startSketchOn(offsetPlane('XY', 75))
+/// circleSketch0 = startSketchOn(offsetPlane('XY', 75))
 ///     |> circle({ center = [0, 100], radius = 50 }, %)
 ///
-/// const circleSketch1 = startSketchOn(offsetPlane('XY', 150))
+/// circleSketch1 = startSketchOn(offsetPlane('XY', 150))
 ///     |> circle({ center = [0, 100], radius = 20 }, %)
 ///
-/// loft([squareSketch, circleSketch0, circleSketch1], {
-///     // This can be set to override the automatically determined
-///     // topological base curve, which is usually the first section encountered.
+/// loft([squareSketch, circleSketch0, circleSketch1],
 ///     baseCurveIndex = 0,
-///     // Attempt to approximate rational curves (such as arcs) using a bezier.
-///     // This will remove banding around interpolations between arcs and non-arcs.
-///     // It may produce errors in other scenarios Over time, this field won't be necessary.
 ///     bezApproximateRational = false,
-///     // Tolerance for the loft operation.
 ///     tolerance = 0.000001,
-///     // Degree of the interpolation. Must be greater than zero.
-///     // For example, use 2 for quadratic, or 3 for cubic interpolation in
-///     // the V direction. This defaults to 2, if not specified.
 ///     vDegree = 2,
-/// })
+/// )
 /// ```
 #[stdlib {
     name = "loft",
+    keywords = true,
+    unlabeled_first = true,
+    arg_docs = {
+        sketches = "Which sketches to loft. Must include at least 2 sketches.",
+        v_degree = "Degree of the interpolation. Must be greater than zero. For example, use 2 for quadratic, or 3 for cubic interpolation in the V direction. This defaults to 2, if not specified.",
+        bez_approximate_rational = "Attempt to approximate rational curves (such as arcs) using a bezier. This will remove banding around interpolations between arcs and non-arcs. It may produce errors in other scenarios Over time, this field won't be necessary.",
+        base_curve_index = "This can be set to override the automatically determined topological base curve, which is usually the first section encountered.",
+        tolerance = "Tolerance for the loft operation.",
+    }
 }]
 async fn inner_loft(
     sketches: Vec<Sketch>,
-    data: Option<LoftData>,
+    v_degree: NonZeroU32,
+    bez_approximate_rational: bool,
+    base_curve_index: Option<u32>,
+    tolerance: Option<f64>,
     exec_state: &mut ExecState,
     args: Args,
 ) -> Result<Box<Solid>, KclError> {
@@ -152,20 +141,15 @@ async fn inner_loft(
         }));
     }
 
-    // Get the loft data.
-    let data = data.unwrap_or_default();
-
     let id = exec_state.id_generator.next_uuid();
     args.batch_modeling_cmd(
         id,
         ModelingCmd::from(mcmd::Loft {
             section_ids: sketches.iter().map(|group| group.id).collect(),
-            base_curve_index: data.base_curve_index,
-            bez_approximate_rational: data.bez_approximate_rational.unwrap_or(false),
-            tolerance: LengthUnit(data.tolerance.unwrap_or(default_tolerance(&args.ctx.settings.units))),
-            v_degree: data
-                .v_degree
-                .unwrap_or_else(|| std::num::NonZeroU32::new(DEFAULT_V_DEGREE).unwrap()),
+            base_curve_index,
+            bez_approximate_rational,
+            tolerance: LengthUnit(tolerance.unwrap_or(default_tolerance(&args.ctx.settings.units))),
+            v_degree,
         }),
     )
     .await?;

src/wasm-lib/kcl/src/std/math.rs

@@ -9,6 +9,8 @@ use crate::{
     std::Args,
 };
 
+use super::args::FromArgs;
+
 /// Compute the remainder after dividing `num` by `div`.
 /// If `num` is negative, the result will be too.
 pub async fn rem(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
@@ -23,15 +25,19 @@ pub async fn rem(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// If `num` is negative, the result will be too.
 ///
 /// ```no_run
-/// assertEqual(rem(7, divisor: 4),  3, 0.01, "remainder is 3")
-/// assertEqual(rem(-7, divisor: 4), -3, 0.01, "remainder is 3")
-/// assertEqual(rem(7, divisor: -4), 3, 0.01, "remainder is 3")
+/// assertEqual(rem( 7,  divisor =  4),  3, 0.01, "remainder is 3" )
+/// assertEqual(rem(-7,  divisor =  4), -3, 0.01, "remainder is -3")
+/// assertEqual(rem( 7,  divisor = -4),  3, 0.01, "remainder is 3" )
 /// ```
 #[stdlib {
     name = "rem",
     tags = ["math"],
     keywords = true,
     unlabeled_first = true,
+    arg_docs = {
+        num = "The number which will be divided by `divisor`.",
+        divisor = "The number which will divide `num`.",
+    }
 }]
 fn inner_rem(num: i64, divisor: i64) -> Result<i64, KclError> {
     Ok(num % divisor)
@@ -48,7 +54,7 @@ pub async fn cos(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Compute the cosine of a number (in radians).
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 30,
@@ -57,7 +63,7 @@ pub async fn cos(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///  
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "cos",
@@ -78,7 +84,7 @@ pub async fn sin(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Compute the sine of a number (in radians).
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 50,
@@ -87,7 +93,7 @@ pub async fn sin(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "sin",
@@ -108,7 +114,7 @@ pub async fn tan(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Compute the tangent of a number (in radians).
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 50,
@@ -117,7 +123,7 @@ pub async fn tan(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "tan",
@@ -137,12 +143,12 @@ pub async fn pi(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// Return the value of `pi`. Archimedes’ constant (π).
 ///
 /// ```no_run
-/// const circumference = 70
+/// circumference = 70
 ///
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///  |> circle({ center = [0, 0], radius = circumference/ (2 * pi()) }, %)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "pi",
@@ -163,7 +169,7 @@ pub async fn sqrt(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// Compute the square root of a number.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 50,
@@ -172,7 +178,7 @@ pub async fn sqrt(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "sqrt",
@@ -193,9 +199,9 @@ pub async fn abs(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Compute the absolute value of a number.
 ///
 /// ```no_run
-/// const myAngle = -120
+/// myAngle = -120
 ///
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([8, 0], %)
 ///   |> angledLine({
@@ -209,7 +215,7 @@ pub async fn abs(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   }, %)
 ///   |> close(%)
 ///
-/// const baseExtrusion = extrude(5, sketch001)
+/// baseExtrusion = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "abs",
@@ -230,14 +236,14 @@ pub async fn round(_exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// Round a number to the nearest integer.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///    |> startProfileAt([0, 0], %)
 ///    |> lineTo([12, 10], %)
 ///    |> line([round(7.02986), 0], %)
 ///    |> yLineTo(0, %)
 ///    |> close(%)
 ///
-///  const extrude001 = extrude(5, sketch001)
+/// extrude001 = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "round",
@@ -258,14 +264,14 @@ pub async fn floor(_exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// Compute the largest integer less than or equal to a number.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///    |> startProfileAt([0, 0], %)
 ///    |> lineTo([12, 10], %)
 ///    |> line([floor(7.02986), 0], %)
 ///    |> yLineTo(0, %)
 ///    |> close(%)
 ///
-///  const extrude001 = extrude(5, sketch001)
+/// extrude001 = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "floor",
@@ -286,14 +292,14 @@ pub async fn ceil(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// Compute the smallest integer greater than or equal to a number.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> lineTo([12, 10], %)
 ///   |> line([ceil(7.02986), 0], %)
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const extrude001 = extrude(5, sketch001)
+/// extrude001 = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "ceil",
@@ -314,7 +320,7 @@ pub async fn min(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Compute the minimum of the given arguments.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 70,
@@ -323,7 +329,7 @@ pub async fn min(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   |> line([20, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "min",
@@ -351,7 +357,7 @@ pub async fn max(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Compute the maximum of the given arguments.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 70,
@@ -360,7 +366,7 @@ pub async fn max(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   |> line([20, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "max",
@@ -402,7 +408,7 @@ pub async fn pow(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Compute the number to a power.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 50,
@@ -411,7 +417,7 @@ pub async fn pow(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "pow",
@@ -432,7 +438,7 @@ pub async fn acos(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// Compute the arccosine of a number (in radians).
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = toDegrees(acos(0.5)),
@@ -442,7 +448,7 @@ pub async fn acos(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///   |> lineTo([12, 0], %)
 ///   |> close(%)
 ///
-/// const extrude001 = extrude(5, sketch001)
+/// extrude001 = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "acos",
@@ -463,7 +469,7 @@ pub async fn asin(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// Compute the arcsine of a number (in radians).
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = toDegrees(asin(0.5)),
@@ -472,7 +478,7 @@ pub async fn asin(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const extrude001 = extrude(5, sketch001)
+/// extrude001 = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "asin",
@@ -493,7 +499,7 @@ pub async fn atan(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// Compute the arctangent of a number (in radians).
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = toDegrees(atan(1.25)),
@@ -502,7 +508,7 @@ pub async fn atan(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const extrude001 = extrude(5, sketch001)
+/// extrude001 = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "atan",
@@ -512,6 +518,36 @@ fn inner_atan(num: f64) -> Result<f64, KclError> {
     Ok(num.atan())
 }
 
+/// Compute the four quadrant arctangent of Y and X (in radians).
+pub async fn atan2(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclError> {
+    let (y, x) = FromArgs::from_args(&args, 0)?;
+    let result = inner_atan2(y, x)?;
+
+    Ok(args.make_user_val_from_f64(result))
+}
+
+/// Compute the four quadrant arctangent of Y and X (in radians).
+///
+/// ```no_run
+/// sketch001 = startSketchOn('XZ')
+///   |> startProfileAt([0, 0], %)
+///   |> angledLine({
+///     angle = toDegrees(atan2(1.25, 2)),
+///     length = 20,
+///   }, %)
+///   |> yLineTo(0, %)
+///   |> close(%)
+///
+/// extrude001 = extrude(5, sketch001)
+/// ```
+#[stdlib {
+    name = "atan2",
+    tags = ["math"],
+}]
+fn inner_atan2(y: f64, x: f64) -> Result<f64, KclError> {
+    Ok(y.atan2(x))
+}
+
 /// Compute the logarithm of the number with respect to an arbitrary base.
 ///
 /// The result might not be correctly rounded owing to implementation
@@ -544,14 +580,14 @@ pub async fn log(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// and `log10()` can produce more accurate results for base 10.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([log(100, 5), 0], %)
 ///   |> line([5, 8], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "log",
@@ -572,14 +608,14 @@ pub async fn log2(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// Compute the base 2 logarithm of the number.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([log2(100), 0], %)
 ///   |> line([5, 8], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "log2",
@@ -600,14 +636,14 @@ pub async fn log10(_exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// Compute the base 10 logarithm of the number.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([log10(100), 0], %)
 ///   |> line([5, 8], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "log10",
@@ -628,14 +664,14 @@ pub async fn ln(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// Compute the natural logarithm of the number.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([ln(100), 15], %)
 ///   |> line([5, -6], %)
 ///   |> line([-10, -10], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "ln",
@@ -655,7 +691,7 @@ pub async fn e(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclE
 /// Return the value of Euler’s number `e`.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 30,
@@ -664,7 +700,7 @@ pub async fn e(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclE
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///  
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "e",
@@ -684,7 +720,7 @@ pub async fn tau(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Return the value of `tau`. The full circle constant (τ). Equal to 2π.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 50,
@@ -693,7 +729,7 @@ pub async fn tau(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "tau",
@@ -714,7 +750,7 @@ pub async fn to_radians(_exec_state: &mut ExecState, args: Args) -> Result<KclVa
 /// Converts a number from degrees to radians.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 50,
@@ -723,7 +759,7 @@ pub async fn to_radians(_exec_state: &mut ExecState, args: Args) -> Result<KclVa
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "toRadians",
@@ -744,7 +780,7 @@ pub async fn to_degrees(_exec_state: &mut ExecState, args: Args) -> Result<KclVa
 /// Converts a number from radians to degrees.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 50,
@@ -753,7 +789,7 @@ pub async fn to_degrees(_exec_state: &mut ExecState, args: Args) -> Result<KclVa
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "toDegrees",

src/wasm-lib/kcl/src/std/mirror.rs

@@ -40,7 +40,7 @@ pub async fn mirror_2d(exec_state: &mut ExecState, args: Args) -> Result<KclValu
 ///
 /// ```no_run
 /// // Mirror an un-closed sketch across the Y axis.
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///     |> startProfileAt([0, 10], %)
 ///     |> line([15, 0], %)
 ///     |> line([-7, -3], %)
@@ -52,38 +52,38 @@ pub async fn mirror_2d(exec_state: &mut ExecState, args: Args) -> Result<KclValu
 ///     |> line([-19, -0], %)
 ///     |> mirror2d({axis = 'Y'}, %)
 ///
-/// const example = extrude(10, sketch001)
+/// example = extrude(10, sketch001)
 /// ```
 ///
 /// ```no_run
 /// // Mirror a un-closed sketch across the Y axis.
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///     |> startProfileAt([0, 8.5], %)
 ///     |> line([20, -8.5], %)
 ///     |> line([-20, -8.5], %)
 ///     |> mirror2d({axis = 'Y'}, %)
 ///
-/// const example = extrude(10, sketch001)
+/// example = extrude(10, sketch001)
 /// ```
 ///
 /// ```no_run
 /// // Mirror a un-closed sketch across an edge.
-/// const helper001 = startSketchOn('XZ')
+/// helper001 = startSketchOn('XZ')
 ///  |> startProfileAt([0, 0], %)
 ///  |> line([0, 10], %, $edge001)
 ///
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///     |> startProfileAt([0, 8.5], %)
 ///     |> line([20, -8.5], %)
 ///     |> line([-20, -8.5], %)
 ///     |> mirror2d({axis = edge001}, %)
 ///
-/// const example = extrude(10, sketch001)
+/// example = extrude(10, sketch001)
 /// ```
 ///
 /// ```no_run
 /// // Mirror an un-closed sketch across a custom axis.
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///     |> startProfileAt([0, 8.5], %)
 ///     |> line([20, -8.5], %)
 ///     |> line([-20, -8.5], %)
@@ -96,7 +96,7 @@ pub async fn mirror_2d(exec_state: &mut ExecState, args: Args) -> Result<KclValu
 ///   }
 /// }, %)
 ///
-/// const example = extrude(10, sketch001)
+/// example = extrude(10, sketch001)
 /// ```
 #[stdlib {
     name = "mirror2d",

src/wasm-lib/kcl/src/std/mod.rs

@@ -125,6 +125,7 @@ lazy_static! {
         Box::new(crate::std::math::Acos),
         Box::new(crate::std::math::Asin),
         Box::new(crate::std::math::Atan),
+        Box::new(crate::std::math::Atan2),
         Box::new(crate::std::math::Pi),
         Box::new(crate::std::math::E),
         Box::new(crate::std::math::Tau),

src/wasm-lib/kcl/src/std/patterns.rs

@@ -146,12 +146,12 @@ pub async fn pattern_transform_2d(exec_state: &mut ExecState, args: Args) -> Res
 ///
 /// ```no_run
 /// // Each instance will be shifted along the X axis.
-/// fn transform = (id) => {
+/// fn transform(id) {
 ///   return { translate = [4 * id, 0, 0] }
 /// }
 ///
 /// // Sketch 4 cylinders.
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> circle({ center = [0, 0], radius = 2 }, %)
 ///   |> extrude(5, %)
 ///   |> patternTransform(4, transform, %)
@@ -160,24 +160,24 @@ pub async fn pattern_transform_2d(exec_state: &mut ExecState, args: Args) -> Res
 /// // Each instance will be shifted along the X axis,
 /// // with a gap between the original (at x = 0) and the first replica
 /// // (at x = 8). This is because `id` starts at 1.
-/// fn transform = (id) => {
+/// fn transform(id) {
 ///   return { translate: [4 * (1+id), 0, 0] }
 /// }
 ///
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> circle({ center = [0, 0], radius = 2 }, %)
 ///   |> extrude(5, %)
 ///   |> patternTransform(4, transform, %)
 /// ```
 /// ```no_run
-/// fn cube = (length, center) => {
-///   let l = length/2
-///   let x = center[0]
-///   let y = center[1]
-///   let p0 = [-l + x, -l + y]
-///   let p1 = [-l + x,  l + y]
-///   let p2 = [ l + x,  l + y]
-///   let p3 = [ l + x, -l + y]
+/// fn cube(length, center) {
+///   l = length/2
+///   x = center[0]
+///   y = center[1]
+///   p0 = [-l + x, -l + y]
+///   p1 = [-l + x,  l + y]
+///   p2 = [ l + x,  l + y]
+///   p3 = [ l + x, -l + y]
 ///
 ///   return startSketchAt(p0)
 ///   |> lineTo(p1, %)
@@ -188,8 +188,8 @@ pub async fn pattern_transform_2d(exec_state: &mut ExecState, args: Args) -> Res
 ///   |> extrude(length, %)
 /// }
 ///
-/// let width = 20
-/// fn transform = (i) => {
+/// width = 20
+/// fn transform(i) {
 ///   return {
 ///     // Move down each time.
 ///     translate = [0, 0, -i * width],
@@ -203,20 +203,20 @@ pub async fn pattern_transform_2d(exec_state: &mut ExecState, args: Args) -> Res
 ///   }
 /// }
 ///
-/// let myCubes =
+/// myCubes =
 ///   cube(width, [100,0])
 ///   |> patternTransform(25, transform, %)
 /// ```
 ///
 /// ```no_run
-/// fn cube = (length, center) => {
-///   let l = length/2
-///   let x = center[0]
-///   let y = center[1]
-///   let p0 = [-l + x, -l + y]
-///   let p1 = [-l + x,  l + y]
-///   let p2 = [ l + x,  l + y]
-///   let p3 = [ l + x, -l + y]
+/// fn cube(length, center) {
+///   l = length/2
+///   x = center[0]
+///   y = center[1]
+///   p0 = [-l + x, -l + y]
+///   p1 = [-l + x,  l + y]
+///   p2 = [ l + x,  l + y]
+///   p3 = [ l + x, -l + y]
 ///   
 ///   return startSketchAt(p0)
 ///   |> lineTo(p1, %)
@@ -227,8 +227,8 @@ pub async fn pattern_transform_2d(exec_state: &mut ExecState, args: Args) -> Res
 ///   |> extrude(length, %)
 /// }
 ///
-/// let width = 20
-/// fn transform = (i) => {
+/// width = 20
+/// fn transform(i) {
 ///   return {
 ///     translate = [0, 0, -i * width],
 ///     rotation = {
@@ -238,36 +238,36 @@ pub async fn pattern_transform_2d(exec_state: &mut ExecState, args: Args) -> Res
 ///     }
 ///   }
 /// }
-/// let myCubes =
+/// myCubes =
 ///   cube(width, [100,100])
 ///   |> patternTransform(4, transform, %)
 /// ```
 /// ```no_run
 /// // Parameters
-/// const r = 50    // base radius
-/// const h = 10    // layer height
-/// const t = 0.005 // taper factor [0-1)
+/// r = 50    // base radius
+/// h = 10    // layer height
+/// t = 0.005 // taper factor [0-1)
 /// // Defines how to modify each layer of the vase.
 /// // Each replica is shifted up the Z axis, and has a smoothly-varying radius
-/// fn transform = (replicaId) => {
-///   let scale = r * abs(1 - (t * replicaId)) * (5 + cos(replicaId / 8))
+/// fn transform(replicaId) {
+///   scale = r * abs(1 - (t * replicaId)) * (5 + cos(replicaId / 8))
 ///   return {
 ///     translate = [0, 0, replicaId * 10],
 ///     scale = [scale, scale, 0],
 ///   }
 /// }
 /// // Each layer is just a pretty thin cylinder.
-/// fn layer = () => {
+/// fn layer() {
 ///   return startSketchOn("XY") // or some other plane idk
 ///     |> circle({ center = [0, 0], radius = 1 }, %, $tag1)
 ///     |> extrude(h, %)
 /// }
 /// // The vase is 100 layers tall.
 /// // The 100 layers are replica of each other, with a slight transformation applied to each.
-/// let vase = layer() |> patternTransform(100, transform, %)
+/// vase = layer() |> patternTransform(100, transform, %)
 /// ```
 /// ```
-/// fn transform = (i) => {
+/// fn transform(i) {
 ///   // Transform functions can return multiple transforms. They'll be applied in order.
 ///   return [
 ///     { translate: [30 * i, 0, 0] },
@@ -312,7 +312,7 @@ async fn inner_pattern_transform<'a>(
 /// Just like patternTransform, but works on 2D sketches not 3D solids.
 /// ```no_run
 /// // Each instance will be shifted along the X axis.
-/// fn transform = (id) => {
+/// fn transform(id) {
 ///   return { translate: [4 * id, 0] }
 /// }
 ///
@@ -689,7 +689,7 @@ pub async fn pattern_linear_2d(exec_state: &mut ExecState, args: Args) -> Result
 /// of distance between each repetition, some specified number of times.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> circle({ center = [0, 0], radius = 1 }, %)
 ///   |> patternLinear2d({
 ///        axis = [1, 0],
@@ -697,7 +697,7 @@ pub async fn pattern_linear_2d(exec_state: &mut ExecState, args: Args) -> Result
 ///        distance = 4
 ///      }, %)
 ///
-/// const example = extrude(1, exampleSketch)
+/// example = extrude(1, exampleSketch)
 /// ```
 #[stdlib {
     name = "patternLinear2d",
@@ -746,14 +746,14 @@ pub async fn pattern_linear_3d(exec_state: &mut ExecState, args: Args) -> Result
 /// of distance between each repetition, some specified number of times.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([0, 2], %)
 ///   |> line([3, 1], %)
 ///   |> line([0, -4], %)
 ///   |> close(%)
 ///
-/// const example = extrude(1, exampleSketch)
+/// example = extrude(1, exampleSketch)
 ///   |> patternLinear3d({
 ///       axis = [1, 0, 1],
 ///       instances = 7,
@@ -900,7 +900,7 @@ pub async fn pattern_circular_2d(exec_state: &mut ExecState, args: Args) -> Resu
 /// solid with respect to the center of the circle is maintained.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([.5, 25], %)
 ///   |> line([0, 5], %)
 ///   |> line([-1, 0], %)
@@ -913,7 +913,7 @@ pub async fn pattern_circular_2d(exec_state: &mut ExecState, args: Args) -> Resu
 ///        rotateDuplicates = true
 ///      }, %)
 ///
-/// const example = extrude(1, exampleSketch)
+/// example = extrude(1, exampleSketch)
 /// ```
 #[stdlib {
     name = "patternCircular2d",
@@ -967,10 +967,10 @@ pub async fn pattern_circular_3d(exec_state: &mut ExecState, args: Args) -> Resu
 /// solid with respect to the center of the circle is maintained.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> circle({ center = [0, 0], radius = 1 }, %)
 ///
-/// const example = extrude(-5, exampleSketch)
+/// example = extrude(-5, exampleSketch)
 ///   |> patternCircular3d({
 ///        axis = [1, -1, 0],
 ///        center = [10, -20, 0],

src/wasm-lib/kcl/src/std/planes.rs

@@ -65,7 +65,7 @@ pub async fn offset_plane(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///
 /// ```no_run
 /// // Loft a square and a circle on the `XY` plane using offset.
-/// const squareSketch = startSketchOn('XY')
+/// squareSketch = startSketchOn('XY')
 ///     |> startProfileAt([-100, 200], %)
 ///     |> line([200, 0], %)
 ///     |> line([0, -200], %)
@@ -73,7 +73,7 @@ pub async fn offset_plane(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///     |> lineTo([profileStartX(%), profileStartY(%)], %)
 ///     |> close(%)
 ///
-/// const circleSketch = startSketchOn(offsetPlane('XY', 150))
+/// circleSketch = startSketchOn(offsetPlane('XY', 150))
 ///     |> circle({ center = [0, 100], radius = 50 }, %)
 ///
 /// loft([squareSketch, circleSketch])
@@ -81,7 +81,7 @@ pub async fn offset_plane(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///
 /// ```no_run
 /// // Loft a square and a circle on the `XZ` plane using offset.
-/// const squareSketch = startSketchOn('XZ')
+/// squareSketch = startSketchOn('XZ')
 ///     |> startProfileAt([-100, 200], %)
 ///     |> line([200, 0], %)
 ///     |> line([0, -200], %)
@@ -89,7 +89,7 @@ pub async fn offset_plane(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///     |> lineTo([profileStartX(%), profileStartY(%)], %)
 ///     |> close(%)
 ///
-/// const circleSketch = startSketchOn(offsetPlane('XZ', 150))
+/// circleSketch = startSketchOn(offsetPlane('XZ', 150))
 ///     |> circle({ center = [0, 100], radius = 50 }, %)
 ///
 /// loft([squareSketch, circleSketch])
@@ -97,7 +97,7 @@ pub async fn offset_plane(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///
 /// ```no_run
 /// // Loft a square and a circle on the `YZ` plane using offset.
-/// const squareSketch = startSketchOn('YZ')
+/// squareSketch = startSketchOn('YZ')
 ///     |> startProfileAt([-100, 200], %)
 ///     |> line([200, 0], %)
 ///     |> line([0, -200], %)
@@ -105,7 +105,7 @@ pub async fn offset_plane(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///     |> lineTo([profileStartX(%), profileStartY(%)], %)
 ///     |> close(%)
 ///
-/// const circleSketch = startSketchOn(offsetPlane('YZ', 150))
+/// circleSketch = startSketchOn(offsetPlane('YZ', 150))
 ///     |> circle({ center = [0, 100], radius = 50 }, %)
 ///
 /// loft([squareSketch, circleSketch])
@@ -113,7 +113,7 @@ pub async fn offset_plane(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///
 /// ```no_run
 /// // Loft a square and a circle on the `-XZ` plane using offset.
-/// const squareSketch = startSketchOn('-XZ')
+/// squareSketch = startSketchOn('-XZ')
 ///     |> startProfileAt([-100, 200], %)
 ///     |> line([200, 0], %)
 ///     |> line([0, -200], %)
@@ -121,7 +121,7 @@ pub async fn offset_plane(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///     |> lineTo([profileStartX(%), profileStartY(%)], %)
 ///     |> close(%)
 ///
-/// const circleSketch = startSketchOn(offsetPlane('-XZ', -150))
+/// circleSketch = startSketchOn(offsetPlane('-XZ', -150))
 ///     |> circle({ center = [0, 100], radius = 50 }, %)
 ///
 /// loft([squareSketch, circleSketch])

src/wasm-lib/kcl/src/std/polar.rs

@@ -34,7 +34,7 @@ pub async fn polar(_exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// cartesian (x/y/z grid) coordinates.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line(polar({angle: 30, length: 5}), %, $thing)
 ///   |> line([0, 5], %)
@@ -42,7 +42,7 @@ pub async fn polar(_exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///   |> line([-20, 10], %)
 ///   |> close(%)
 ///  
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "polar",

src/wasm-lib/kcl/src/std/revolve.rs

@@ -113,7 +113,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// Revolve occurs around a local sketch axis rather than a global axis.
 ///
 /// ```no_run
-/// const part001 = startSketchOn('XY')
+/// part001 = startSketchOn('XY')
 ///     |> startProfileAt([4, 12], %)
 ///     |> line([2, 0], %)
 ///     |> line([0, -6], %)
@@ -128,7 +128,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///
 /// ```no_run
 /// // A donut shape.
-/// const sketch001 = startSketchOn('XY')
+/// sketch001 = startSketchOn('XY')
 ///     |> circle({ center = [15, 0], radius = 5 }, %)
 ///     |> revolve({
 ///         angle = 360,
@@ -137,7 +137,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 ///
 /// ```no_run
-/// const part001 = startSketchOn('XY')
+/// part001 = startSketchOn('XY')
 ///     |> startProfileAt([4, 12], %)
 ///     |> line([2, 0], %)
 ///     |> line([0, -6], %)
@@ -151,7 +151,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 ///
 /// ```no_run
-/// const part001 = startSketchOn('XY')
+/// part001 = startSketchOn('XY')
 ///     |> startProfileAt([4, 12], %)
 ///     |> line([2, 0], %)
 ///     |> line([0, -6], %)
@@ -162,7 +162,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///     |> line([-2, 0], %)
 ///     |> close(%)
 ///     |> revolve({axis = 'y', angle = 180}, %)
-/// const part002 = startSketchOn(part001, 'end')
+/// part002 = startSketchOn(part001, 'end')
 ///     |> startProfileAt([4.5, -5], %)
 ///     |> line([0, 5], %)
 ///     |> line([5, 0], %)
@@ -172,7 +172,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 ///
 /// ```no_run
-/// const box = startSketchOn('XY')
+/// box = startSketchOn('XY')
 ///     |> startProfileAt([0, 0], %)
 ///     |> line([0, 20], %)
 ///     |> line([20, 0], %)
@@ -180,7 +180,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///     |> close(%)
 ///     |> extrude(20, %)
 ///
-/// const sketch001 = startSketchOn(box, "END")
+/// sketch001 = startSketchOn(box, "END")
 ///     |> circle({ center = [10,10], radius = 4 }, %)
 ///     |> revolve({
 ///         angle = -90,
@@ -189,7 +189,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 ///
 /// ```no_run
-/// const box = startSketchOn('XY')
+/// box = startSketchOn('XY')
 ///     |> startProfileAt([0, 0], %)
 ///     |> line([0, 20], %)
 ///     |> line([20, 0], %)
@@ -197,7 +197,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///     |> close(%)
 ///     |> extrude(20, %)
 ///
-/// const sketch001 = startSketchOn(box, "END")
+/// sketch001 = startSketchOn(box, "END")
 ///     |> circle({ center = [10,10], radius = 4 }, %)
 ///     |> revolve({
 ///         angle = 90,
@@ -206,7 +206,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 ///
 /// ```no_run
-/// const box = startSketchOn('XY')
+/// box = startSketchOn('XY')
 ///     |> startProfileAt([0, 0], %)
 ///     |> line([0, 20], %)
 ///     |> line([20, 0], %)
@@ -214,7 +214,7 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///     |> close(%)
 ///     |> extrude(20, %)
 ///
-/// const sketch001 = startSketchOn(box, "END")
+/// sketch001 = startSketchOn(box, "END")
 ///     |> circle({ center = [10,10], radius = 4 }, %)
 ///     |> revolve({
 ///         angle = 90,
@@ -224,14 +224,14 @@ pub async fn revolve(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// ```
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XY')
+/// sketch001 = startSketchOn('XY')
 ///   |> startProfileAt([10, 0], %)
 ///   |> line([5, -5], %)
 ///   |> line([5, 5], %)
 ///   |> lineTo([profileStartX(%), profileStartY(%)], %)
 ///   |> close(%)
 ///
-/// const part001 = revolve({
+/// part001 = revolve({
 ///   axis = {
 ///     custom: {
 ///       axis = [0.0, 1.0],

src/wasm-lib/kcl/src/std/segment.rs

@@ -30,7 +30,7 @@ pub async fn segment_end(exec_state: &mut ExecState, args: Args) -> Result<KclVa
 ///   |> close(%)
 ///   |> extrude(5, %)
 ///
-/// fn cylinder = (radius, tag) => {
+/// fn cylinder(radius, tag) {
 ///   return startSketchAt([0, 0])
 ///   |> circle({ radius = radius, center = segEnd(tag) }, %)
 ///   |> extrude(radius, %)
@@ -67,7 +67,7 @@ pub async fn segment_end_x(exec_state: &mut ExecState, args: Args) -> Result<Kcl
 /// Compute the ending point of the provided line segment along the 'x' axis.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([20, 0], %, $thing)
 ///   |> line([0, 5], %)
@@ -75,7 +75,7 @@ pub async fn segment_end_x(exec_state: &mut ExecState, args: Args) -> Result<Kcl
 ///   |> line([-20, 10], %)
 ///   |> close(%)
 ///  
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "segEndX",
@@ -103,7 +103,7 @@ pub async fn segment_end_y(exec_state: &mut ExecState, args: Args) -> Result<Kcl
 /// Compute the ending point of the provided line segment along the 'y' axis.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([20, 0], %)
 ///   |> line([0, 3], %, $thing)
@@ -112,7 +112,7 @@ pub async fn segment_end_y(exec_state: &mut ExecState, args: Args) -> Result<Kcl
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///  
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "segEndY",
@@ -149,7 +149,7 @@ pub async fn segment_start(exec_state: &mut ExecState, args: Args) -> Result<Kcl
 ///   |> close(%)
 ///   |> extrude(5, %)
 ///
-/// fn cylinder = (radius, tag) => {
+/// fn cylinder(radius, tag) {
 ///   return startSketchAt([0, 0])
 ///   |> circle({ radius = radius, center = segStart(tag) }, %)
 ///   |> extrude(radius, %)
@@ -186,7 +186,7 @@ pub async fn segment_start_x(exec_state: &mut ExecState, args: Args) -> Result<K
 /// Compute the starting point of the provided line segment along the 'x' axis.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([20, 0], %, $thing)
 ///   |> line([0, 5], %)
@@ -194,7 +194,7 @@ pub async fn segment_start_x(exec_state: &mut ExecState, args: Args) -> Result<K
 ///   |> line([-20, 10], %)
 ///   |> close(%)
 ///  
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "segStartX",
@@ -222,7 +222,7 @@ pub async fn segment_start_y(exec_state: &mut ExecState, args: Args) -> Result<K
 /// Compute the starting point of the provided line segment along the 'y' axis.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([20, 0], %)
 ///   |> line([0, 3], %, $thing)
@@ -231,7 +231,7 @@ pub async fn segment_start_y(exec_state: &mut ExecState, args: Args) -> Result<K
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///  
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "segStartY",
@@ -259,7 +259,7 @@ pub async fn last_segment_x(_exec_state: &mut ExecState, args: Args) -> Result<K
 /// sketch.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([5, 0], %)
 ///   |> line([20, 5], %)
@@ -267,7 +267,7 @@ pub async fn last_segment_x(_exec_state: &mut ExecState, args: Args) -> Result<K
 ///   |> line([-15, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "lastSegX",
@@ -299,7 +299,7 @@ pub async fn last_segment_y(_exec_state: &mut ExecState, args: Args) -> Result<K
 /// sketch.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([5, 0], %)
 ///   |> line([20, 5], %)
@@ -307,7 +307,7 @@ pub async fn last_segment_y(_exec_state: &mut ExecState, args: Args) -> Result<K
 ///   |> line([-15, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "lastSegY",
@@ -337,7 +337,7 @@ pub async fn segment_length(exec_state: &mut ExecState, args: Args) -> Result<Kc
 /// Compute the length of the provided line segment.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 60,
@@ -353,7 +353,7 @@ pub async fn segment_length(exec_state: &mut ExecState, args: Args) -> Result<Kc
 ///   }, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "segLen",
@@ -383,7 +383,7 @@ pub async fn segment_angle(exec_state: &mut ExecState, args: Args) -> Result<Kcl
 /// Compute the angle (in degrees) of the provided line segment.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> line([5, 10], %, $seg01)
@@ -393,7 +393,7 @@ pub async fn segment_angle(exec_state: &mut ExecState, args: Args) -> Result<Kcl
 ///   |> angledLine([segAng(seg01), -15], %)
 ///   |> close(%)
 ///
-/// const example = extrude(4, exampleSketch)
+/// example = extrude(4, exampleSketch)
 /// ```
 #[stdlib {
     name = "segAng",
@@ -528,7 +528,7 @@ pub async fn angle_to_match_length_x(exec_state: &mut ExecState, args: Args) ->
 /// Returns the angle to match the given length for x.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([2, 5], %, $seg01)
 ///   |> angledLineToX([
@@ -537,7 +537,7 @@ pub async fn angle_to_match_length_x(exec_state: &mut ExecState, args: Args) ->
 ///      ], %)
 ///   |> close(%)
 ///
-/// const extrusion = extrude(5, sketch001)
+/// extrusion = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "angleToMatchLengthX",
@@ -591,7 +591,7 @@ pub async fn angle_to_match_length_y(exec_state: &mut ExecState, args: Args) ->
 /// Returns the angle to match the given length for y.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([1, 2], %, $seg01)
 ///   |> angledLine({
@@ -601,7 +601,7 @@ pub async fn angle_to_match_length_y(exec_state: &mut ExecState, args: Args) ->
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///  
-/// const extrusion = extrude(5, sketch001)
+/// extrusion = extrude(5, sketch001)
 /// ```
 #[stdlib {
     name = "angleToMatchLengthY",

src/wasm-lib/kcl/src/std/shapes.rs

@@ -56,14 +56,14 @@ pub async fn circle(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// the provided (x, y) origin point.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("-XZ")
+/// exampleSketch = startSketchOn("-XZ")
 ///   |> circle({ center = [0, 0], radius = 10 }, %)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([-15, 0], %)
 ///   |> line([30, 0], %)
 ///   |> line([0, 30], %)
@@ -71,7 +71,7 @@ pub async fn circle(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///   |> close(%)
 ///   |> hole(circle({ center = [0, 15], radius = 5 }, %), %)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "circle",

src/wasm-lib/kcl/src/std/shell.rs

@@ -38,7 +38,7 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///
 /// ```no_run
 /// // Remove the end face for the extrusion.
-/// const firstSketch = startSketchOn('XY')
+/// firstSketch = startSketchOn('XY')
 ///     |> startProfileAt([-12, 12], %)
 ///     |> line([24, 0], %)
 ///     |> line([0, -24], %)
@@ -55,7 +55,7 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///
 /// ```no_run
 /// // Remove the start face for the extrusion.
-/// const firstSketch = startSketchOn('-XZ')
+/// firstSketch = startSketchOn('-XZ')
 ///     |> startProfileAt([-12, 12], %)
 ///     |> line([24, 0], %)
 ///     |> line([0, -24], %)
@@ -72,7 +72,7 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///
 /// ```no_run
 /// // Remove a tagged face and the end face for the extrusion.
-/// const firstSketch = startSketchOn('XY')
+/// firstSketch = startSketchOn('XY')
 ///     |> startProfileAt([-12, 12], %)
 ///     |> line([24, 0], %)
 ///     |> line([0, -24], %)
@@ -89,7 +89,7 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///
 /// ```no_run
 /// // Remove multiple faces at once.
-/// const firstSketch = startSketchOn('XY')
+/// firstSketch = startSketchOn('XY')
 ///     |> startProfileAt([-12, 12], %)
 ///     |> line([24, 0], %)
 ///     |> line([0, -24], %)
@@ -106,8 +106,8 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///
 /// ```no_run
 /// // Shell a sketch on face.
-/// let size = 100
-/// const case = startSketchOn('-XZ')
+/// size = 100
+/// case = startSketchOn('-XZ')
 ///     |> startProfileAt([-size, -size], %)
 ///     |> line([2 * size, 0], %)
 ///     |> line([0, 2 * size], %)
@@ -115,11 +115,11 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///     |> close(%)
 ///     |> extrude(65, %)
 ///
-/// const thing1 = startSketchOn(case, 'end')
+/// thing1 = startSketchOn(case, 'end')
 ///     |> circle({ center = [-size / 2, -size / 2], radius = 25 }, %)
 ///     |> extrude(50, %)
 ///
-/// const thing2 = startSketchOn(case, 'end')
+/// thing2 = startSketchOn(case, 'end')
 ///     |> circle({ center = [size / 2, -size / 2], radius = 25 }, %)
 ///     |> extrude(50, %)
 ///
@@ -129,8 +129,8 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///
 /// ```no_run
 /// // Shell a sketch on face object on the end face.
-/// let size = 100
-/// const case = startSketchOn('XY')
+/// size = 100
+/// case = startSketchOn('XY')
 ///     |> startProfileAt([-size, -size], %)
 ///     |> line([2 * size, 0], %)
 ///     |> line([0, 2 * size], %)
@@ -138,11 +138,11 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///     |> close(%)
 ///     |> extrude(65, %)
 ///
-/// const thing1 = startSketchOn(case, 'end')
+/// thing1 = startSketchOn(case, 'end')
 ///     |> circle({ center = [-size / 2, -size / 2], radius = 25 }, %)
 ///     |> extrude(50, %)
 ///
-/// const thing2 = startSketchOn(case, 'end')
+/// thing2 = startSketchOn(case, 'end')
 ///     |> circle({ center = [size / 2, -size / 2], radius = 25 }, %)
 ///     |> extrude(50, %)
 ///
@@ -154,8 +154,8 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// // Shell sketched on face objects on the end face, include all sketches to shell
 /// // the entire object.
 ///
-/// let size = 100
-/// const case = startSketchOn('XY')
+/// size = 100
+/// case = startSketchOn('XY')
 ///     |> startProfileAt([-size, -size], %)
 ///     |> line([2 * size, 0], %)
 ///     |> line([0, 2 * size], %)
@@ -163,11 +163,11 @@ pub async fn shell(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 ///     |> close(%)
 ///     |> extrude(65, %)
 ///
-/// const thing1 = startSketchOn(case, 'end')
+/// thing1 = startSketchOn(case, 'end')
 ///     |> circle({ center = [-size / 2, -size / 2], radius = 25 }, %)
 ///     |> extrude(50, %)
 ///
-/// const thing2 = startSketchOn(case, 'end')
+/// thing2 = startSketchOn(case, 'end')
 ///     |> circle({ center = [size / 2, -size / 2], radius = 25 }, %)
 ///     |> extrude(50, %)
 ///
@@ -257,7 +257,7 @@ pub async fn hollow(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///
 /// ```no_run
 /// // Hollow a basic sketch.
-/// const firstSketch = startSketchOn('XY')
+/// firstSketch = startSketchOn('XY')
 ///     |> startProfileAt([-12, 12], %)
 ///     |> line([24, 0], %)
 ///     |> line([0, -24], %)
@@ -269,7 +269,7 @@ pub async fn hollow(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///
 /// ```no_run
 /// // Hollow a basic sketch.
-/// const firstSketch = startSketchOn('-XZ')
+/// firstSketch = startSketchOn('-XZ')
 ///     |> startProfileAt([-12, 12], %)
 ///     |> line([24, 0], %)
 ///     |> line([0, -24], %)
@@ -281,8 +281,8 @@ pub async fn hollow(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///
 /// ```no_run
 /// // Hollow a sketch on face object.
-/// let size = 100
-/// const case = startSketchOn('-XZ')
+/// size = 100
+/// case = startSketchOn('-XZ')
 ///     |> startProfileAt([-size, -size], %)
 ///     |> line([2 * size, 0], %)
 ///     |> line([0, 2 * size], %)
@@ -290,11 +290,11 @@ pub async fn hollow(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///     |> close(%)
 ///     |> extrude(65, %)
 ///
-/// const thing1 = startSketchOn(case, 'end')
+/// thing1 = startSketchOn(case, 'end')
 ///     |> circle({ center = [-size / 2, -size / 2], radius = 25 }, %)
 ///     |> extrude(50, %)
 ///
-/// const thing2 = startSketchOn(case, 'end')
+/// thing2 = startSketchOn(case, 'end')
 ///     |> circle({ center = [size / 2, -size / 2], radius = 25 }, %)
 ///     |> extrude(50, %)
 ///

src/wasm-lib/kcl/src/std/sketch.rs

@@ -104,14 +104,14 @@ pub async fn line_to(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// Draw a line from the current origin to some absolute (x, y) point.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> lineTo([10, 0], %)
 ///   |> lineTo([0, 10], %)
 ///   |> lineTo([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "lineTo",
@@ -175,7 +175,7 @@ pub async fn x_line_to(exec_state: &mut ExecState, args: Args) -> Result<KclValu
 /// then xLineTo(4) draws a line from (1, 1) to (4, 1)
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> xLineTo(15, %)
 ///   |> angledLine({
@@ -191,7 +191,7 @@ pub async fn x_line_to(exec_state: &mut ExecState, args: Args) -> Result<KclValu
 ///   |> xLineTo(10, %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "xLineTo",
@@ -225,7 +225,7 @@ pub async fn y_line_to(exec_state: &mut ExecState, args: Args) -> Result<KclValu
 /// then yLineTo(4) draws a line from (1, 1) to (1, 4)
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 50,
@@ -234,7 +234,7 @@ pub async fn y_line_to(exec_state: &mut ExecState, args: Args) -> Result<KclValu
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "yLineTo",
@@ -266,25 +266,25 @@ pub async fn line(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// from the current position.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([25, 15], %)
 ///   |> line([5, -6], %)
 ///   |> line([-10, -10], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XZ")
+/// exampleSketch = startSketchOn("XZ")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "line",
@@ -349,7 +349,7 @@ pub async fn x_line(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// from the current position along the 'x' axis.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> xLine(15, %)
 ///   |> angledLine({
@@ -365,7 +365,7 @@ pub async fn x_line(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///   |> xLine(-15, %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "xLine",
@@ -394,7 +394,7 @@ pub async fn y_line(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// from the current position along the 'y' axis.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> yLine(15, %)
 ///   |> angledLine({
@@ -405,7 +405,7 @@ pub async fn y_line(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 ///   |> yLine(-5, %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "yLine",
@@ -450,7 +450,7 @@ pub async fn angled_line(exec_state: &mut ExecState, args: Args) -> Result<KclVa
 /// measure of some angle and distance.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> yLineTo(15, %)
 ///   |> angledLine({
@@ -461,7 +461,7 @@ pub async fn angled_line(exec_state: &mut ExecState, args: Args) -> Result<KclVa
 ///   |> yLineTo(0, %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "angledLine",
@@ -537,14 +537,14 @@ pub async fn angled_line_of_x_length(exec_state: &mut ExecState, args: Args) ->
 /// along some angle (in degrees) for some relative length in the 'x' dimension.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XZ')
+/// sketch001 = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLineOfXLength({ angle = 45, length = 10 }, %, $edge1)
 ///   |> angledLineOfXLength({ angle = -15, length = 20 }, %, $edge2)
 ///   |> line([0, -5], %)
 ///   |> close(%, $edge3)
 ///
-/// const extrusion = extrude(10, sketch001)
+/// extrusion = extrude(10, sketch001)
 /// ```
 #[stdlib {
     name = "angledLineOfXLength",
@@ -608,14 +608,14 @@ pub async fn angled_line_to_x(exec_state: &mut ExecState, args: Args) -> Result<
 /// in the 'x' dimension.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLineToX({ angle = 30, to = 10 }, %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///  
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "angledLineToX",
@@ -667,7 +667,7 @@ pub async fn angled_line_of_y_length(exec_state: &mut ExecState, args: Args) ->
 /// along some angle (in degrees) for some relative length in the 'y' dimension.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> angledLineOfYLength({ angle = 45, length = 10 }, %)
@@ -676,7 +676,7 @@ pub async fn angled_line_of_y_length(exec_state: &mut ExecState, args: Args) ->
 ///   |> line([-10, 0], %)
 ///   |> line([0, -30], %)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "angledLineOfYLength",
@@ -729,14 +729,14 @@ pub async fn angled_line_to_y(exec_state: &mut ExecState, args: Args) -> Result<
 /// in the 'y' dimension.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLineToY({ angle = 60, to = 20 }, %)
 ///   |> line([-20, 0], %)
 ///   |> angledLineToY({ angle = 70, to = 10 }, %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "angledLineToY",
@@ -802,7 +802,7 @@ pub async fn angled_line_that_intersects(exec_state: &mut ExecState, args: Args)
 /// segment.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> lineTo([5, 10], %)
 ///   |> lineTo([-10, 10], %, $lineToIntersect)
@@ -814,7 +814,7 @@ pub async fn angled_line_that_intersects(exec_state: &mut ExecState, args: Args)
 ///      }, %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "angledLineThatIntersects",
@@ -859,33 +859,33 @@ pub async fn start_sketch_at(exec_state: &mut ExecState, args: Args) -> Result<K
 /// Start a new 2-dimensional sketch at a given point on the 'XY' plane.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchAt([0, 0])
+/// exampleSketch = startSketchAt([0, 0])
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchAt([10, 10])
+/// exampleSketch = startSketchAt([10, 10])
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchAt([-10, 23])
+/// exampleSketch = startSketchAt([-10, 23])
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "startSketchAt",
@@ -961,65 +961,65 @@ pub async fn start_sketch_on(exec_state: &mut ExecState, args: Args) -> Result<K
 /// Start a new 2-dimensional sketch on a specific plane or face.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XY")
+/// exampleSketch = startSketchOn("XY")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 ///
-/// const exampleSketch002 = startSketchOn(example, 'end')
+/// exampleSketch002 = startSketchOn(example, 'end')
 ///   |> startProfileAt([1, 1], %)
 ///   |> line([8, 0], %)
 ///   |> line([0, 8], %)
 ///   |> line([-8, 0], %)
 ///   |> close(%)
 ///
-/// const example002 = extrude(5, exampleSketch002)
+/// example002 = extrude(5, exampleSketch002)
 ///
-/// const exampleSketch003 = startSketchOn(example002, 'end')
+/// exampleSketch003 = startSketchOn(example002, 'end')
 ///   |> startProfileAt([2, 2], %)
 ///   |> line([6, 0], %)
 ///   |> line([0, 6], %)
 ///   |> line([-6, 0], %)
 ///   |> close(%)
 ///
-/// const example003 = extrude(5, exampleSketch003)
+/// example003 = extrude(5, exampleSketch003)
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn("XY")
+/// exampleSketch = startSketchOn("XY")
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %, $sketchingFace)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 ///
-/// const exampleSketch002 = startSketchOn(example, sketchingFace)
+/// exampleSketch002 = startSketchOn(example, sketchingFace)
 ///   |> startProfileAt([1, 1], %)
 ///   |> line([8, 0], %)
 ///   |> line([0, 8], %)
 ///   |> line([-8, 0], %)
 ///   |> close(%, $sketchingFace002)
 ///
-/// const example002 = extrude(10, exampleSketch002)
+/// example002 = extrude(10, exampleSketch002)
 ///
-/// const exampleSketch003 = startSketchOn(example002, sketchingFace002)
+/// exampleSketch003 = startSketchOn(example002, sketchingFace002)
 ///   |> startProfileAt([-8, 12], %)
 ///   |> line([0, 6], %)
 ///   |> line([6, 0], %)
 ///   |> line([0, -6], %)
 ///   |> close(%)
 ///
-/// const example003 = extrude(5, exampleSketch003)
+/// example003 = extrude(5, exampleSketch003)
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XY')
+/// exampleSketch = startSketchOn('XY')
 ///   |> startProfileAt([4, 12], %)
 ///   |> line([2, 0], %)
 ///   |> line([0, -6], %)
@@ -1030,20 +1030,20 @@ pub async fn start_sketch_on(exec_state: &mut ExecState, args: Args) -> Result<K
 ///   |> line([-2, 0], %)
 ///   |> close(%)
 ///
-/// const example = revolve({ axis: 'y', angle: 180 }, exampleSketch)
+/// example = revolve({ axis: 'y', angle: 180 }, exampleSketch)
 ///  
-/// const exampleSketch002 = startSketchOn(example, 'end')
+/// exampleSketch002 = startSketchOn(example, 'end')
 ///   |> startProfileAt([4.5, -5], %)
 ///   |> line([0, 5], %)
 ///   |> line([5, 0], %)
 ///   |> line([0, -5], %)
 ///   |> close(%)
 ///
-/// const example002 = extrude(5, exampleSketch002)
+/// example002 = extrude(5, exampleSketch002)
 /// ```
 ///
 /// ```no_run
-/// const a1 = startSketchOn({
+/// a1 = startSketchOn({
 ///       plane: {
 ///         origin = { x = 0, y = 0, z = 0 },
 ///         xAxis = { x = 1, y = 0, z = 0 },
@@ -1177,36 +1177,36 @@ pub async fn start_profile_at(exec_state: &mut ExecState, args: Args) -> Result<
 /// Start a new profile at a given point.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('-XZ')
+/// exampleSketch = startSketchOn('-XZ')
 ///   |> startProfileAt([10, 10], %)
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('-XZ')
+/// exampleSketch = startSketchOn('-XZ')
 ///   |> startProfileAt([-10, 23], %)
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(5, exampleSketch)
+/// example = extrude(5, exampleSketch)
 /// ```
 #[stdlib {
     name = "startProfileAt",
@@ -1320,7 +1320,7 @@ pub async fn profile_start_x(_exec_state: &mut ExecState, args: Args) -> Result<
 /// value.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XY')
+/// sketch001 = startSketchOn('XY')
 ///  |> startProfileAt([5, 2], %)
 ///  |> angledLine([-26.6, 50], %)
 ///  |> angledLine([90, 50], %)
@@ -1344,7 +1344,7 @@ pub async fn profile_start_y(_exec_state: &mut ExecState, args: Args) -> Result<
 /// value.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XY')
+/// sketch001 = startSketchOn('XY')
 ///  |> startProfileAt([5, 2], %)
 ///  |> angledLine({ angle = -60, length = 14 }, %)
 ///  |> angledLineToY({ angle = 30, to = profileStartY(%) }, %)
@@ -1367,7 +1367,7 @@ pub async fn profile_start(_exec_state: &mut ExecState, args: Args) -> Result<Kc
 /// value.
 ///
 /// ```no_run
-/// const sketch001 = startSketchOn('XY')
+/// sketch001 = startSketchOn('XY')
 ///  |> startProfileAt([5, 2], %)
 ///  |> angledLine({ angle = 120, length = 50 }, %, $seg01)
 ///  |> angledLine({ angle = segAng(seg01) + 120, length = 50 }, %)
@@ -1406,13 +1406,13 @@ pub async fn close(exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// ```
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('-XZ')
+/// exampleSketch = startSketchOn('-XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> line([0, 10], %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "close",
@@ -1524,7 +1524,7 @@ pub async fn arc(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// for to construct your shape, you're likely looking for tangentialArc.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([10, 0], %)
 ///   |> arc({
@@ -1533,7 +1533,7 @@ pub async fn arc(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 ///        radius = 16
 ///      }, %)
 ///   |> close(%)
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "arc",
@@ -1631,14 +1631,14 @@ pub async fn arc_to(exec_state: &mut ExecState, args: Args) -> Result<KclValue,
 /// the start and end.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> arcTo({
 ///         end = [10,0],
 ///         interior = [5,5]
 ///      }, %)
 ///   |> close(%)
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "arcTo",
@@ -1767,7 +1767,7 @@ pub async fn tangential_arc(exec_state: &mut ExecState, args: Args) -> Result<Kc
 /// degrees along the imaginary circle.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 60,
@@ -1780,7 +1780,7 @@ pub async fn tangential_arc(exec_state: &mut ExecState, args: Args) -> Result<Kc
 ///   }, %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "tangentialArc",
@@ -1900,7 +1900,7 @@ pub async fn tangential_arc_to_relative(exec_state: &mut ExecState, args: Args)
 /// coordinates.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 60,
@@ -1910,7 +1910,7 @@ pub async fn tangential_arc_to_relative(exec_state: &mut ExecState, args: Args)
 ///   |> line([10, -15], %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "tangentialArcTo",
@@ -1966,7 +1966,7 @@ async fn inner_tangential_arc_to(
 /// distance away.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> angledLine({
 ///     angle = 45,
@@ -1976,7 +1976,7 @@ async fn inner_tangential_arc_to(
 ///   |> line([-10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "tangentialArcToRelative",
@@ -2108,7 +2108,7 @@ pub async fn bezier_curve(exec_state: &mut ExecState, args: Args) -> Result<KclV
 /// shape.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XZ')
+/// exampleSketch = startSketchOn('XZ')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([0, 10], %)
 ///   |> bezierCurve({
@@ -2119,7 +2119,7 @@ pub async fn bezier_curve(exec_state: &mut ExecState, args: Args) -> Result<KclV
 ///   |> lineTo([10, 0], %)
 ///   |> close(%)
 ///
-/// const example = extrude(10, exampleSketch)
+/// example = extrude(10, exampleSketch)
 /// ```
 #[stdlib {
     name = "bezierCurve",
@@ -2188,7 +2188,7 @@ pub async fn hole(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 /// Use a 2-dimensional sketch to cut a hole in another 2-dimensional sketch.
 ///
 /// ```no_run
-/// const exampleSketch = startSketchOn('XY')
+/// exampleSketch = startSketchOn('XY')
 ///   |> startProfileAt([0, 0], %)
 ///   |> line([0, 5], %)
 ///   |> line([5, 0], %)
@@ -2197,24 +2197,24 @@ pub async fn hole(exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kc
 ///   |> hole(circle({ center = [1, 1], radius = .25 }, %), %)
 ///   |> hole(circle({ center = [1, 4], radius = .25 }, %), %)
 ///
-/// const example = extrude(1, exampleSketch)
+/// example = extrude(1, exampleSketch)
 /// ```
 ///
 /// ```no_run
-/// fn squareHoleSketch = () => {
-///     const squareSketch = startSketchOn('-XZ')
-///       |> startProfileAt([-1, -1], %)
-///       |> line([2, 0], %)
-///       |> line([0, 2], %)
-///       |> line([-2, 0], %)
-///       |> close(%)
-///     return squareSketch
-///   }
+/// fn squareHoleSketch() {
+///   squareSketch = startSketchOn('-XZ')
+///     |> startProfileAt([-1, -1], %)
+///     |> line([2, 0], %)
+///     |> line([0, 2], %)
+///     |> line([-2, 0], %)
+///     |> close(%)
+///   return squareSketch
+/// }
 ///
-///  const exampleSketch = startSketchOn('-XZ')
+/// exampleSketch = startSketchOn('-XZ')
 ///     |> circle({ center = [0, 0], radius = 3 }, %)
 ///     |> hole(squareHoleSketch(), %)
-///  const example = extrude(1, exampleSketch)
+/// example = extrude(1, exampleSketch)
 /// ```
 #[stdlib {
     name = "hole",

src/wasm-lib/kcl/src/std/units.rs

@@ -34,7 +34,7 @@ pub async fn mm(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// `10 * (1/25.4)`, if the project settings are in inches.
 ///
 /// ```no_run
-/// const totalWidth = 10 * mm()
+/// totalWidth = 10 * mm()
 /// ```
 #[stdlib {
     name = "mm",
@@ -75,7 +75,7 @@ pub async fn inch(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, K
 /// `10 * 25.4`, if the project settings are in millimeters.
 ///
 /// ```no_run
-/// const totalWidth = 10 * inch()
+/// totalWidth = 10 * inch()
 /// ```
 #[stdlib {
     name = "inch",
@@ -117,7 +117,7 @@ pub async fn ft(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// `10 * 304.8`, if the project settings are in millimeters.
 ///
 /// ```no_run
-/// const totalWidth = 10 * ft()
+/// totalWidth = 10 * ft()
 /// ```
 #[stdlib {
     name = "ft",
@@ -159,7 +159,7 @@ pub async fn m(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, KclE
 /// `10 * 1000`, if the project settings are in millimeters.
 ///
 /// ```no_run
-/// const totalWidth = 10 * m()
+/// totalWidth = 10 * m()
 /// ```
 #[stdlib {
     name = "m",
@@ -201,7 +201,7 @@ pub async fn cm(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// `10 * 10`, if the project settings are in millimeters.
 ///
 /// ```no_run
-/// const totalWidth = 10 * cm()
+/// totalWidth = 10 * cm()
 /// ```
 #[stdlib {
     name = "cm",
@@ -243,7 +243,7 @@ pub async fn yd(_exec_state: &mut ExecState, args: Args) -> Result<KclValue, Kcl
 /// `10 * 914.4`, if the project settings are in millimeters.
 ///
 /// ```no_run
-/// const totalWidth = 10 * yd()
+/// totalWidth = 10 * yd()
 /// ```
 #[stdlib {
     name = "yd",

src/wasm-lib/kcl/src/test_server.rs

@@ -69,7 +69,7 @@ async fn do_execute_and_snapshot(
     Ok((exec_state, img))
 }
 
-async fn new_context(
+pub async fn new_context(
     units: UnitLength,
     with_auth: bool,
     project_directory: Option<PathBuf>,

src/wasm-lib/kcl/src/unparser.rs

@@ -272,7 +272,7 @@ impl LabeledArg {
     fn recast(&self, options: &FormatOptions, indentation_level: usize, ctxt: ExprContext) -> String {
         let label = &self.label.name;
         let arg = self.arg.recast(options, indentation_level, ctxt);
-        format!("{label}: {arg}")
+        format!("{label} = {arg}")
     }
 }
 

src/wasm-lib/kcl/tests/kw_fn/ast.snap

@@ -196,7 +196,7 @@ snapshot_kind: text
       },
       {
         "declaration": {
-          "end": 122,
+          "end": 123,
           "id": {
             "end": 103,
             "name": "three",
@@ -212,9 +212,9 @@ snapshot_kind: text
                   "name": "delta"
                 },
                 "arg": {
-                  "end": 121,
+                  "end": 122,
                   "raw": "2",
-                  "start": 120,
+                  "start": 121,
                   "type": "Literal",
                   "type": "Literal",
                   "value": 2.0
@@ -227,7 +227,7 @@ snapshot_kind: text
               "start": 106,
               "type": "Identifier"
             },
-            "end": 122,
+            "end": 123,
             "start": 106,
             "type": "CallExpressionKw",
             "type": "CallExpressionKw",
@@ -243,14 +243,14 @@ snapshot_kind: text
           "start": 98,
           "type": "VariableDeclarator"
         },
-        "end": 122,
+        "end": 123,
         "kind": "const",
         "start": 98,
         "type": "VariableDeclaration",
         "type": "VariableDeclaration"
       }
     ],
-    "end": 123,
+    "end": 124,
     "nonCodeMeta": {
       "nonCodeNodes": {
         "0": [

src/wasm-lib/kcl/tests/kw_fn/input.kcl

@@ -7,4 +7,4 @@ fn add(@x, delta) {
 }
 
 two = increment(1)
-three = add(1, delta: 2)
+three = add(1, delta = 2)

src/wasm-lib/kcl/tests/kw_fn/program_memory.snap

@@ -330,8 +330,8 @@ snapshot_kind: text
             },
             {
               "sourceRange": [
-                120,
                 121,
+                122,
                 0
               ]
             }

src/wasm-lib/kcl/tests/kw_fn_too_few_args/ast.snap

@@ -85,7 +85,7 @@ snapshot_kind: text
       },
       {
         "declaration": {
-          "end": 50,
+          "end": 51,
           "id": {
             "end": 38,
             "name": "three",
@@ -101,9 +101,9 @@ snapshot_kind: text
                   "name": "x"
                 },
                 "arg": {
-                  "end": 49,
+                  "end": 50,
                   "raw": "1",
-                  "start": 48,
+                  "start": 49,
                   "type": "Literal",
                   "type": "Literal",
                   "value": 1.0
@@ -116,7 +116,7 @@ snapshot_kind: text
               "start": 41,
               "type": "Identifier"
             },
-            "end": 50,
+            "end": 51,
             "start": 41,
             "type": "CallExpressionKw",
             "type": "CallExpressionKw",
@@ -125,14 +125,14 @@ snapshot_kind: text
           "start": 33,
           "type": "VariableDeclarator"
         },
-        "end": 50,
+        "end": 51,
         "kind": "const",
         "start": 33,
         "type": "VariableDeclaration",
         "type": "VariableDeclaration"
       }
     ],
-    "end": 51,
+    "end": 52,
     "nonCodeMeta": {
       "nonCodeNodes": {
         "0": [

src/wasm-lib/kcl/tests/kw_fn_too_few_args/execution_error.snap

@@ -12,6 +12,6 @@ KCL Semantic error
  2 │ │     return x + y
  3 │ ╰─▶ }
  4 │     
- 5 │     three = add(x: 1)
-   ·             ─────────
+ 5 │     three = add(x = 1)
+   ·             ──────────
    ╰────

src/wasm-lib/kcl/tests/kw_fn_too_few_args/input.kcl

@@ -2,4 +2,4 @@ fn add(x, y) {
   return x + y
 }
 
-three = add(x: 1)
+three = add(x = 1)

src/wasm-lib/kcl/tests/kw_fn_unlabeled_but_has_label/ast.snap

@@ -78,7 +78,7 @@ snapshot_kind: text
       },
       {
         "declaration": {
-          "end": 46,
+          "end": 47,
           "id": {
             "end": 34,
             "name": "two",
@@ -94,9 +94,9 @@ snapshot_kind: text
                   "name": "x"
                 },
                 "arg": {
-                  "end": 45,
+                  "end": 46,
                   "raw": "1",
-                  "start": 44,
+                  "start": 45,
                   "type": "Literal",
                   "type": "Literal",
                   "value": 1.0
@@ -109,7 +109,7 @@ snapshot_kind: text
               "start": 37,
               "type": "Identifier"
             },
-            "end": 46,
+            "end": 47,
             "start": 37,
             "type": "CallExpressionKw",
             "type": "CallExpressionKw",
@@ -118,14 +118,14 @@ snapshot_kind: text
           "start": 31,
           "type": "VariableDeclarator"
         },
-        "end": 46,
+        "end": 47,
         "kind": "const",
         "start": 31,
         "type": "VariableDeclaration",
         "type": "VariableDeclaration"
       }
     ],
-    "end": 47,
+    "end": 48,
     "nonCodeMeta": {
       "nonCodeNodes": {
         "0": [

src/wasm-lib/kcl/tests/kw_fn_unlabeled_but_has_label/execution_error.snap

@@ -12,6 +12,6 @@ KCL Semantic error
  2 │ │     return x + 1
  3 │ ╰─▶ }
  4 │     
- 5 │     two = add(x: 1)
-   ·           ─────────
+ 5 │     two = add(x = 1)
+   ·           ──────────
    ╰────

src/wasm-lib/kcl/tests/kw_fn_unlabeled_but_has_label/input.kcl

@@ -2,4 +2,4 @@ fn add(@x) {
   return x + 1
 }
 
-two = add(x: 1)
+two = add(x = 1)

src/wasm-lib/kcl/tests/kw_fn_with_defaults/ast.snap

@@ -132,7 +132,7 @@ snapshot_kind: text
       },
       {
         "declaration": {
-          "end": 98,
+          "end": 99,
           "id": {
             "end": 75,
             "name": "twentyOne",
@@ -148,9 +148,9 @@ snapshot_kind: text
                   "name": "by"
                 },
                 "arg": {
-                  "end": 97,
+                  "end": 98,
                   "raw": "20",
-                  "start": 95,
+                  "start": 96,
                   "type": "Literal",
                   "type": "Literal",
                   "value": 20.0
@@ -163,7 +163,7 @@ snapshot_kind: text
               "start": 78,
               "type": "Identifier"
             },
-            "end": 98,
+            "end": 99,
             "start": 78,
             "type": "CallExpressionKw",
             "type": "CallExpressionKw",
@@ -179,14 +179,14 @@ snapshot_kind: text
           "start": 66,
           "type": "VariableDeclarator"
         },
-        "end": 98,
+        "end": 99,
         "kind": "const",
         "start": 66,
         "type": "VariableDeclaration",
         "type": "VariableDeclaration"
       }
     ],
-    "end": 99,
+    "end": 100,
     "nonCodeMeta": {
       "nonCodeNodes": {
         "0": [

src/wasm-lib/kcl/tests/kw_fn_with_defaults/input.kcl

@@ -3,4 +3,4 @@ fn increment(@x, by? = 1) {
 }
 
 two = increment(1)
-twentyOne = increment(1, by: 20)
+twentyOne = increment(1, by = 20)

src/wasm-lib/kcl/tests/kw_fn_with_defaults/program_memory.snap

@@ -148,8 +148,8 @@ snapshot_kind: text
             },
             {
               "sourceRange": [
-                95,
-                97,
+                96,
+                98,
                 0
               ]
             }

src/wasm-lib/kcl/tests/pentagon_fillet_sugar/program_memory.snap

@@ -87,6 +87,72 @@ snapshot_kind: text
             }
           ]
         },
+        "arc_tag": {
+          "type": "TagIdentifier",
+          "type": "TagIdentifier",
+          "value": "arc_tag",
+          "info": {
+            "type": "TagEngineInfo",
+            "id": "[uuid]",
+            "sketch": "[uuid]",
+            "path": {
+              "__geoMeta": {
+                "id": "[uuid]",
+                "sourceRange": [
+                  527,
+                  549,
+                  0
+                ]
+              },
+              "ccw": true,
+              "center": [
+                200.0,
+                100.0
+              ],
+              "from": [
+                280.0,
+                100.0
+              ],
+              "radius": 80.0,
+              "tag": {
+                "end": 548,
+                "start": 540,
+                "type": "TagDeclarator",
+                "value": "arc_tag"
+              },
+              "to": [
+                280.0,
+                99.99999999999999
+              ],
+              "type": "Arc"
+            },
+            "surface": {
+              "faceId": "[uuid]",
+              "id": "[uuid]",
+              "sourceRange": [
+                527,
+                549,
+                0
+              ],
+              "tag": {
+                "end": 548,
+                "start": 540,
+                "type": "TagDeclarator",
+                "value": "arc_tag"
+              },
+              "type": "extrudeArc"
+            }
+          },
+          "__meta": [
+            {
+              "sourceRange": [
+                540,
+                548,
+                0
+              ]
+            }
+          ]
+        },
         "b": {
           "type": "TagIdentifier",
           "type": "TagIdentifier",
@@ -3260,7 +3326,7 @@ snapshot_kind: text
             ]
           },
           "height": 100.0,
-          "startCapId": "[uuid]",
+          "startCapId": null,
           "endCapId": "[uuid]",
           "edgeCuts": [
             {
@@ -3872,7 +3938,7 @@ snapshot_kind: text
             ]
           },
           "height": 100.0,
-          "startCapId": "[uuid]",
+          "startCapId": null,
           "endCapId": "[uuid]",
           "edgeCuts": [
             {

src/wasm-lib/kcl/tests/sketch-on-chamfer-two-times-different-order/program_memory.snap

@@ -1,6 +1,5 @@
 ---
 source: kcl/src/simulation_tests.rs
-assertion_line: 105
 description: Program memory after executing sketch-on-chamfer-two-times-different-order.kcl
 snapshot_kind: text
 ---
@@ -1584,7 +1583,7 @@ snapshot_kind: text
             ]
           },
           "height": 50.0,
-          "startCapId": "[uuid]",
+          "startCapId": null,
           "endCapId": "[uuid]",
           "__meta": [
             {

src/wasm-lib/kcl/tests/sketch-on-chamfer-two-times/program_memory.snap

@@ -1,6 +1,5 @@
 ---
 source: kcl/src/simulation_tests.rs
-assertion_line: 105
 description: Program memory after executing sketch-on-chamfer-two-times.kcl
 snapshot_kind: text
 ---
@@ -1584,7 +1583,7 @@ snapshot_kind: text
             ]
           },
           "height": 50.0,
-          "startCapId": "[uuid]",
+          "startCapId": null,
           "endCapId": "[uuid]",
           "__meta": [
             {