Fix to not blow away files with comments

Fix so that only comments doesn't format to empty
A snapshot a day keeps the bugs away! 📷🐛
2025-03-21 16:54:19 -04:00 · 2025-03-21 16:54:19 -04:00 · 2025-03-21 20:40:04 +00:00 · 2025-03-21 20:25:24 +00:00 · 2025-03-21 20:01:12 +00:00 · 2025-03-21 15:46:42 -04:00
563 changed files with 15737 additions and 48523 deletions
--- a/.github/actions/github-release/package.json
+++ b/.github/actions/github-release/package.json
@ -4,7 +4,7 @@
  "main": "main.js",
  "dependencies": {
    "@actions/core": "^1.6",
-    "@actions/github": "^5.0",
-    "glob": "^7.1.5"
+    "@actions/github": "^6.0",
+    "glob": "^11.0.1"
  }
 }
--- a/.github/ci-cd-scripts/playwright-electron.sh
+++ b/.github/ci-cd-scripts/playwright-electron.sh
@ -4,7 +4,7 @@
 set -euo pipefail

 if [[ ! -f "test-results/.last-run.json" ]]; then
-    # if no last run artifact, than run plawright normally
+    # If no last run artifact, than run Playwright normally
    echo "run playwright normally"
    if [[ "$3" == *ubuntu* ]]; then
        xvfb-run --auto-servernum --server-args="-screen 0 1280x960x24" -- yarn test:playwright:electron:ubuntu -- --shard=$1/$2 || true
@ -13,18 +13,18 @@ if [[ ! -f "test-results/.last-run.json" ]]; then
    elif [[ "$3" == *macos* ]]; then
        yarn test:playwright:electron:macos  -- --shard=$1/$2 || true
    else
-            echo "Do not run playwright. Unable to detect os runtime."
+        echo "Do not run Playwright. Unable to detect os runtime."
        exit 1
    fi
-        # # send to axiom
-        node playwrightProcess.mjs | tee /tmp/github-actions.log > /dev/null 2>&1
+    # Log failures for Axiom to pick up
+    node playwrightProcess.mjs > /tmp/github-actions.log
 fi

 retry=1
-max_retrys=1
+max_retries=1

-# retry failed tests, doing our own retries because using inbuilt playwright retries causes connection issues
-while [[ $retry -le $max_retrys ]]; do
+# Retry failed tests, doing our own retries because using inbuilt Playwright retries causes connection issues
+while [[ $retry -le $max_retries ]]; do
    if [[ -f "test-results/.last-run.json" ]]; then
        failed_tests=$(jq '.failedTests | length' test-results/.last-run.json)
        if [[ $failed_tests -gt 0 ]]; then
@ -40,8 +40,8 @@ while [[ $retry -le $max_retrys ]]; do
                echo "Do not run playwright. Unable to detect os runtime."
                exit 1
            fi
-            # send to axiom
-            node playwrightProcess.mjs | tee /tmp/github-actions.log > /dev/null 2>&1
+            # Log failures for Axiom to pick up
+            node playwrightProcess.mjs > /tmp/github-actions.log
            retry=$((retry + 1))
        else
            echo "retried=false" >>$GITHUB_OUTPUT
@ -58,7 +58,7 @@ echo "retried=false" >>$GITHUB_OUTPUT
 if [[ -f "test-results/.last-run.json" ]]; then
    failed_tests=$(jq '.failedTests | length' test-results/.last-run.json)
    if [[ $failed_tests -gt 0 ]]; then
-        # if it still fails after 3 retrys, then fail the job
+        # If it still fails after 3 retries, then fail the job
        exit 1
    fi
 fi
--- a/.github/workflows/build-and-store-wasm.yml
+++ b/.github/workflows/build-and-store-wasm.yml
@ -24,7 +24,7 @@ jobs:
        uses: actions-rust-lang/setup-rust-toolchain@v1
        with:
          cache: false # Configured below.
-      - uses: taiki-e/install-action@955a6ff1416eae278c9f833008a9beb4b7f9afe3
+      - uses: taiki-e/install-action@37bdc826eaedac215f638a96472df572feab0f9b
        with:
          tool: wasm-pack
      - name: Rust Cache
--- a/.github/workflows/build-apps.yml
+++ b/.github/workflows/build-apps.yml
@ -77,7 +77,7 @@ jobs:
        with:
          cache: false # Configured below.

-      - uses: taiki-e/install-action@955a6ff1416eae278c9f833008a9beb4b7f9afe3
+      - uses: taiki-e/install-action@37bdc826eaedac215f638a96472df572feab0f9b
        if: ${{ steps.wasm.outputs.should-build-wasm == 'true' }}
        with:
          tool: wasm-pack
--- a/.github/workflows/e2e-tests.yml
+++ b/.github/workflows/e2e-tests.yml
@ -137,7 +137,7 @@ jobs:
        with:
          cache: false # Configured below.

-      - uses: taiki-e/install-action@955a6ff1416eae278c9f833008a9beb4b7f9afe3
+      - uses: taiki-e/install-action@37bdc826eaedac215f638a96472df572feab0f9b
        if: ${{ needs.conditions.outputs.should-run == 'true' && steps.wasm.outputs.should-build-wasm == 'true' }}
        with:
          tool: wasm-pack
@ -340,14 +340,22 @@ jobs:
        if: needs.conditions.outputs.should-run == 'true'
        run: yarn tronb:vite:dev

-      - name: Install good sed
-        if: startsWith(matrix.os, 'macos')
+      - name: Install vector
+        if: contains(matrix.os, 'ubuntu')
        shell: bash
        run: |
-          brew install gnu-sed
-          echo "/opt/homebrew/opt/gnu-sed/libexec/gnubin" >> $GITHUB_PATH
-
-        # TODO: Add back axiom logs
+          curl --proto '=https' --tlsv1.2 -sSfL https://sh.vector.dev > /tmp/vector.sh
+          chmod +x /tmp/vector.sh
+          /tmp/vector.sh -y -no-modify-path
+          mkdir -p /tmp/vector
+          cp .github/workflows/vector.toml /tmp/vector.toml
+          sed -i "s#GITHUB_WORKFLOW#${GITHUB_WORKFLOW}#g" /tmp/vector.toml
+          sed -i "s#GITHUB_REPOSITORY#${GITHUB_REPOSITORY}#g" /tmp/vector.toml
+          sed -i "s#GITHUB_SHA#${GITHUB_SHA}#g" /tmp/vector.toml
+          sed -i "s#GITHUB_REF_NAME#${GITHUB_REF_NAME}#g" /tmp/vector.toml
+          sed -i "s#GH_ACTIONS_AXIOM_TOKEN#${{secrets.GH_ACTIONS_AXIOM_TOKEN}}#g" /tmp/vector.toml
+          cat /tmp/vector.toml
+          ${HOME}/.vector/bin/vector --config /tmp/vector.toml &

      - uses: actions/download-artifact@v4
        if: ${{ needs.conditions.outputs.should-run == 'true' && !cancelled() && (success() || failure()) }}
--- a/.github/workflows/kcl-language-server.yml
+++ b/.github/workflows/kcl-language-server.yml
@ -376,7 +376,7 @@ jobs:
        with:
          credentials_json: "${{ secrets.GOOGLE_CLOUD_DL_SA }}"
      - name: Set up Cloud SDK
-        uses: google-github-actions/setup-gcloud@v2.1.2
+        uses: google-github-actions/setup-gcloud@v2.1.4
        with:
          project_id: kittycadapi
      - name: "upload files to gcp"
--- a/.github/workflows/static-analysis.yml
+++ b/.github/workflows/static-analysis.yml
@ -37,7 +37,7 @@ jobs:
          node-version-file: '.nvmrc'
          cache: 'yarn'
      - run: yarn install
-      - uses: taiki-e/install-action@955a6ff1416eae278c9f833008a9beb4b7f9afe3
+      - uses: taiki-e/install-action@37bdc826eaedac215f638a96472df572feab0f9b
        with:
          tool: wasm-pack
      - run: yarn build:wasm
@ -57,7 +57,7 @@ jobs:
        with:
          workspaces: './rust'

-      - uses: taiki-e/install-action@955a6ff1416eae278c9f833008a9beb4b7f9afe3
+      - uses: taiki-e/install-action@37bdc826eaedac215f638a96472df572feab0f9b
        with:
          tool: wasm-pack
      - run: yarn build:wasm
@ -100,7 +100,7 @@ jobs:
          cache: 'yarn'

      - run: yarn install
-      - uses: taiki-e/install-action@955a6ff1416eae278c9f833008a9beb4b7f9afe3
+      - uses: taiki-e/install-action@37bdc826eaedac215f638a96472df572feab0f9b
        with:
          tool: wasm-pack
      - run: yarn build:wasm
@ -129,7 +129,7 @@ jobs:
          cache: 'yarn'

      - run: yarn install
-      - uses: taiki-e/install-action@955a6ff1416eae278c9f833008a9beb4b7f9afe3
+      - uses: taiki-e/install-action@37bdc826eaedac215f638a96472df572feab0f9b
        with:
          tool: wasm-pack
      - run: yarn build:wasm
--- a/.github/workflows/update-dev-branch.yml
+++ b/.github/workflows/update-dev-branch.yml
@ -1,5 +1,8 @@
 name: update-dev-branch

+# This is used to sync the `dev` branch with the `main` branch to continuously
+# deploy a second instance of the app to Vercel: https://app.dev.zoo.dev
+
 on:
  push:
    branches:
@ -26,4 +29,4 @@ jobs:
          # reset to main
          git reset --hard origin/main
          # force push it
-          git push -f origin dev
+          git push --force origin dev
--- a/.github/workflows/update-e2e-branch.yml
+++ b/.github/workflows/update-e2e-branch.yml
@ -0,0 +1,29 @@
+name: update-e2e-branch
+
+# This is used to sync the `all-e2e` branch with the `main` branch for the
+# logic in the test utility `orRunWhenFullSuiteEnabled()` that allows all e2e
+# tests to run on a particular branch to analyze failures metrics in Axiom.
+
+on:
+  schedule:
+    - cron: '0 * * * *' # runs every hour
+
+permissions:
+  contents: write
+
+jobs:
+  update-branch:
+    runs-on: ubuntu-latest
+
+    steps:
+      - uses: actions/checkout@v4
+      - shell: bash
+        run: |
+          # checkout our branch
+          git checkout all-e2e || git checkout -b all-e2e
+          # fetch origin
+          git fetch origin
+          # reset to main
+          git reset --hard origin/main
+          # force push it
+          git push --force origin all-e2e
--- a/.gitignore
+++ b/.gitignore
@ -50,6 +50,7 @@ e2e/playwright/**/*.png
 e2e/playwright/export-snapshots/*
 !e2e/playwright/export-snapshots/*.png
 !e2e/playwright/snapshot-tests.spec.ts-snapshots/*.png
+trace.zip

 /public/kcl-samples.zip
 /public/kcl-samples/.github
--- a/118
+++ b/118
@ -1,12 +1,111 @@
-.PHONY: dev
+.PHONY: all
+all: install build check

-KCL_WASM_LIB_FILES := $(wildcard rust/**/*.rs)
-TS_SRC := $(wildcard src/**/*.tsx) $(wildcard src/**/*.ts)
-XSTATE_TYPEGENS := $(wildcard src/machines/*.typegen.ts)
+###############################################################################
+# INSTALL

-dev: node_modules public/kcl_wasm_lib_bg.wasm $(XSTATE_TYPEGENS)
+WASM_PACK ?= ~/.cargo/bin/wasm-pack
+
+.PHONY: install
+install: node_modules/.yarn-integrity $(WASM_PACK) ## Install dependencies
+
+node_modules/.yarn-integrity: package.json yarn.lock
+	yarn install
+	@ touch $@
+
+$(WASM_PACK):
+	yarn install:rust
+	yarn install:wasm-pack:sh
+
+###############################################################################
+# BUILD
+
+RUST_SOURCES := $(wildcard rust/*) $(wildcard rust/**/*)
+TYPESCRIPT_SOURCES := $(wildcard src/**/*.tsx) $(wildcard src/**/*.ts)
+
+.PHONY: build
+build: build-web build-desktop
+
+.PHONY: build-web
+build-web: public/kcl_wasm_lib_bg.wasm build/index.html
+
+.PHONY: build-desktop
+build-desktop: public/kcl_wasm_lib_bg.wasm .vite/build/main.js
+
+public/kcl_wasm_lib_bg.wasm: $(RUST_SOURCES)
+	yarn build:wasm
+
+build/index.html: $(TYPESCRIPT_SOURCES)
+	yarn build:local
+
+.vite/build/main.js: $(TYPESCRIPT_SOURCES)
+	yarn tronb:vite:dev
+
+###############################################################################
+# CHECK
+
+.PHONY: check
+check: format lint
+
+.PHONY: format
+format: install ## Format the code
+	yarn fmt
+
+.PHONY: lint
+lint: install ## Lint the code
+	yarn tsc
+	yarn lint
+
+###############################################################################
+# RUN
+
+.PHONY: run
+run: run-web
+
+.PHONY: run-web
+run-web: install build-web ## Start the web app
 	yarn start

+.PHONY: run-desktop
+run-desktop: install build-desktop ## Start the desktop app
+	yarn tron:start
+
+###############################################################################
+# TEST
+
+GREP ?= ""
+
+.PHONY: test
+test: test-unit test-e2e
+
+.PHONY: test-unit
+test-unit: install ## Run the unit tests
+	@ nc -z localhost 3000 || ( echo "Error: localhost:3000 not available, 'make run-web' first" && exit 1 )
+	yarn test:unit
+
+.PHONY: test-e2e
+test-e2e: install build-desktop ## Run the e2e tests
+	yarn test:playwright:electron --workers=1 --grep=$(GREP)
+
+###############################################################################
+# CLEAN
+
+.PHONY: clean
+clean: ## Delete all artifacts
+	rm -rf .vite/ build/
+	rm -rf trace.zip playwright-report/ test-results/
+	rm -rf public/kcl_wasm_lib_bg.wasm
+	rm -rf rust/*/bindings/ rust/*/pkg/ rust/target/
+	rm -rf node_modules/ rust/*/node_modules/
+
+.PHONY: help
+help: install
+	@ grep -E '^[^[:space:]]+:.*## .*$$' $(MAKEFILE_LIST) | awk 'BEGIN {FS = ":.*?## "}; {printf "\033[36m%-30s\033[0m %s\n", $$1, $$2}'
+
+.DEFAULT_GOAL := help
+
+###############################################################################
+
 # I'm sorry this is so specific to my setup you may as well ignore this.
 # This is so you don't have to deal with electron windows popping up constantly.
 # It should work for you other Linux users.
@ -14,12 +113,3 @@ lee-electron-test:
 	Xephyr -br -ac -noreset -screen 1200x500 :2 &
 	DISPLAY=:2 NODE_ENV=development PW_TEST_CONNECT_WS_ENDPOINT=ws://127.0.0.1:4444/ yarn tron:test -g "when using the file tree"
 	killall Xephyr
-
-$(XSTATE_TYPEGENS): $(TS_SRC)
-	yarn xstate typegen 'src/**/*.ts?(x)'
-
-public/kcl_wasm_lib_bg.wasm: $(KCL_WASM_LIB_FILES)
-	yarn build:wasm
-
-node_modules: package.json yarn.lock
-	yarn install
--- a/docs/kcl/abs.md
+++ b/docs/kcl/abs.md
@ -33,7 +33,7 @@ abs(num: number): number
 ```js
 myAngle = -120

-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [8, 0])
  |> angledLine({ angle = abs(myAngle), length = 5 }, %)
--- a/docs/kcl/acos.md
+++ b/docs/kcl/acos.md
@ -31,7 +31,7 @@ acos(num: number): number
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({
       angle = toDegrees(acos(0.5)),
--- a/docs/kcl/angleToMatchLengthX.md
+++ b/docs/kcl/angleToMatchLengthX.md
@ -33,7 +33,7 @@ angleToMatchLengthX(
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [2, 5], tag = $seg01)
  |> angledLineToX([-angleToMatchLengthX(seg01, 7, %), 10], %)
--- a/docs/kcl/angleToMatchLengthY.md
+++ b/docs/kcl/angleToMatchLengthY.md
@ -33,7 +33,7 @@ angleToMatchLengthY(
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [1, 2], tag = $seg01)
  |> angledLine({
--- a/docs/kcl/appearance.md
+++ b/docs/kcl/appearance.md
@ -36,7 +36,7 @@ appearance(

 ```js
 // Add color to an extruded solid.
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(endAbsolute = [10, 0])
  |> line(endAbsolute = [0, 10])
@ -52,7 +52,7 @@ example = extrude(exampleSketch, length = 5)

 ```js
 // Add color to a revolved solid.
-sketch001 = startSketchOn('XY')
+sketch001 = startSketchOn(XY)
  |> circle(center = [15, 0], radius = 5)
  |> revolve(angle = 360, axis = 'y')
  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)
@ -63,7 +63,7 @@ sketch001 = startSketchOn('XY')
 ```js
 // Add color to different solids.
 fn cube(center) {
-  return startSketchOn('XY')
+  return startSketchOn(XY)
    |> startProfileAt([center[0] - 10, center[1] - 10], %)
    |> line(endAbsolute = [center[0] + 10, center[1] - 10])
    |> line(endAbsolute = [center[0] + 10, center[1] + 10])
@ -95,7 +95,7 @@ appearance(
 ```js
 // You can set the appearance before or after you shell it will yield the same result.
 // This example shows setting the appearance _after_ the shell.
-firstSketch = startSketchOn('XY')
+firstSketch = startSketchOn(XY)
  |> startProfileAt([-12, 12], %)
  |> line(end = [24, 0])
  |> line(end = [0, -24])
@ -112,7 +112,7 @@ shell(firstSketch, faces = ['end'], thickness = 0.25)
 ```js
 // You can set the appearance before or after you shell it will yield the same result.
 // This example shows setting the appearance _before_ the shell.
-firstSketch = startSketchOn('XY')
+firstSketch = startSketchOn(XY)
  |> startProfileAt([-12, 12], %)
  |> line(end = [24, 0])
  |> line(end = [0, -24])
@ -129,7 +129,7 @@ shell(firstSketch, faces = ['end'], thickness = 0.25)
 ```js
 // Setting the appearance of a 3D pattern can be done _before_ or _after_ the pattern.
 // This example shows _before_ the pattern.
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [0, 2])
  |> line(end = [3, 1])
@ -146,7 +146,7 @@ example = extrude(exampleSketch, length = 1)
 ```js
 // Setting the appearance of a 3D pattern can be done _before_ or _after_ the pattern.
 // This example shows _after_ the pattern.
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [0, 2])
  |> line(end = [3, 1])
@ -162,7 +162,7 @@ example = extrude(exampleSketch, length = 1)

 ```js
 // Color the result of a 2D pattern that was extruded.
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([.5, 25], %)
  |> line(end = [0, 5])
  |> line(end = [-1, 0])
@ -185,7 +185,7 @@ example = extrude(exampleSketch, length = 1)
 // Color the result of a sweep.

 // Create a path for the sweep.
-sweepPath = startSketchOn('XZ')
+sweepPath = startSketchOn(XZ)
  |> startProfileAt([0.05, 0.05], %)
  |> line(end = [0, 7])
  |> tangentialArc({ offset = 90, radius = 5 }, %)
@ -193,10 +193,10 @@ sweepPath = startSketchOn('XZ')
  |> tangentialArc({ offset = -90, radius = 5 }, %)
  |> line(end = [0, 7])

-pipeHole = startSketchOn('XY')
+pipeHole = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 1.5)

-sweepSketch = startSketchOn('XY')
+sweepSketch = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 2)
  |> hole(pipeHole, %)
  |> sweep(path = sweepPath)
--- a/docs/kcl/asin.md
+++ b/docs/kcl/asin.md
@ -31,7 +31,7 @@ asin(num: number): number
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({
       angle = toDegrees(asin(0.5)),
--- a/docs/kcl/atan.md
+++ b/docs/kcl/atan.md
@ -31,7 +31,7 @@ atan(num: number): number
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({
       angle = toDegrees(atan(1.25)),
--- a/docs/kcl/atan2.md
+++ b/docs/kcl/atan2.md
@ -35,7 +35,7 @@ atan2(
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({
       angle = toDegrees(atan2(1.25, 2)),
--- a/docs/kcl/ceil.md
+++ b/docs/kcl/ceil.md
@ -31,7 +31,7 @@ ceil(num: number): number
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(endAbsolute = [12, 10])
  |> line(end = [ceil(7.02986), 0])
--- a/docs/kcl/chamfer.md
+++ b/docs/kcl/chamfer.md
@ -41,7 +41,7 @@ length = 10
 thickness = 1
 chamferLength = 2

-mountingPlateSketch = startSketchOn("XY")
+mountingPlateSketch = startSketchOn(XY)
  |> startProfileAt([-width / 2, -length / 2], %)
  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)
  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)
@ -65,7 +65,7 @@ mountingPlate = extrude(mountingPlateSketch, length = thickness)
 ```js
 // Sketch on the face of a chamfer.
 fn cube(pos, scale) {
-  sg = startSketchOn('XY')
+  sg = startSketchOn(XY)
    |> startProfileAt(pos, %)
    |> line(end = [0, scale])
    |> line(end = [scale, 0])
--- a/docs/kcl/circle.md
+++ b/docs/kcl/circle.md
--- a/docs/kcl/circleThreePoint.md
+++ b/docs/kcl/circleThreePoint.md
@ -37,7 +37,7 @@ circleThreePoint(
 ### Examples

 ```js
-exampleSketch = startSketchOn("XY")
+exampleSketch = startSketchOn(XY)
  |> circleThreePoint(p1 = [10, 10], p2 = [20, 8], p3 = [15, 5])
  |> extrude(length = 5)
 ```
--- a/docs/kcl/e.md
+++ b/docs/kcl/e.md
@ -28,7 +28,7 @@ e(): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({ angle = 30, length = 2 * e() ^ 2 }, %)
  |> yLine(endAbsolute = 0)
--- a/docs/kcl/extrude.md
+++ b/docs/kcl/extrude.md
--- a/docs/kcl/fillet.md
+++ b/docs/kcl/fillet.md
@ -42,7 +42,7 @@ length = 10
 thickness = 1
 filletRadius = 2

-mountingPlateSketch = startSketchOn("XY")
+mountingPlateSketch = startSketchOn(XY)
  |> startProfileAt([-width / 2, -length / 2], %)
  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)
  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)
@ -69,7 +69,7 @@ length = 10
 thickness = 1
 filletRadius = 1

-mountingPlateSketch = startSketchOn("XY")
+mountingPlateSketch = startSketchOn(XY)
  |> startProfileAt([-width / 2, -length / 2], %)
  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)
  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)
--- a/docs/kcl/floor.md
+++ b/docs/kcl/floor.md
@ -31,7 +31,7 @@ floor(num: number): number
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(endAbsolute = [12, 10])
  |> line(end = [floor(7.02986), 0])
--- a/docs/kcl/getCommonEdge.md
+++ b/docs/kcl/getCommonEdge.md
@ -31,7 +31,7 @@ getCommonEdge(faces: [TagIdentifier]): Uuid


 scale = 20
-part001 = startSketchOn('XY')
+part001 = startSketchOn(XY)
  |> startProfileAt([0, 0], %)
  |> line(end = [0, scale])
  |> line(end = [scale, 0])
--- a/docs/kcl/getNextAdjacentEdge.md
+++ b/docs/kcl/getNextAdjacentEdge.md
@ -27,7 +27,7 @@ getNextAdjacentEdge(tag: TagIdentifier): Uuid
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [10, 0])
  |> angledLine({ angle = 60, length = 10 }, %)
--- a/docs/kcl/getOppositeEdge.md
+++ b/docs/kcl/getOppositeEdge.md
@ -27,7 +27,7 @@ getOppositeEdge(tag: TagIdentifier): Uuid
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [10, 0])
  |> angledLine({ angle = 60, length = 10 }, %)
--- a/docs/kcl/getPreviousAdjacentEdge.md
+++ b/docs/kcl/getPreviousAdjacentEdge.md
@ -27,7 +27,7 @@ getPreviousAdjacentEdge(tag: TagIdentifier): Uuid
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [10, 0])
  |> angledLine({ angle = 60, length = 10 }, %)
--- a/docs/kcl/helix.md
+++ b/docs/kcl/helix.md
@ -50,7 +50,7 @@ helixPath = helix(
 )

 // Create a spring by sweeping around the helix path.
-springSketch = startSketchOn('YZ')
+springSketch = startSketchOn(YZ)
  |> circle(center = [0, 0], radius = 0.5)
  |> sweep(path = helixPath)
 ```
@ -59,7 +59,7 @@ springSketch = startSketchOn('YZ')

 ```js
 // Create a helix around an edge.
-helper001 = startSketchOn('XZ')
+helper001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [0, 10], tag = $edge001)

@ -73,7 +73,7 @@ helixPath = helix(
 )

 // Create a spring by sweeping around the helix path.
-springSketch = startSketchOn('XY')
+springSketch = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 0.5)
  |> sweep(path = helixPath)
 ```
@ -97,7 +97,7 @@ helixPath = helix(
 )

 // Create a spring by sweeping around the helix path.
-springSketch = startSketchOn('XY')
+springSketch = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 1)
  |> sweep(path = helixPath)
 ```
--- a/docs/kcl/helixRevolutions.md
+++ b/docs/kcl/helixRevolutions.md
@ -31,7 +31,7 @@ helixRevolutions(
 ### Examples

 ```js
-part001 = startSketchOn('XY')
+part001 = startSketchOn(XY)
  |> circle(center = [5, 5], radius = 10)
  |> extrude(length = 10)
  |> helixRevolutions({
--- a/docs/kcl/hollow.md
+++ b/docs/kcl/hollow.md
@ -32,7 +32,7 @@ hollow(

 ```js
 // Hollow a basic sketch.
-firstSketch = startSketchOn('XY')
+firstSketch = startSketchOn(XY)
  |> startProfileAt([-12, 12], %)
  |> line(end = [24, 0])
  |> line(end = [0, -24])
@ -46,7 +46,7 @@ firstSketch = startSketchOn('XY')

 ```js
 // Hollow a basic sketch.
-firstSketch = startSketchOn('-XZ')
+firstSketch = startSketchOn(-XZ)
  |> startProfileAt([-12, 12], %)
  |> line(end = [24, 0])
  |> line(end = [0, -24])
@ -61,7 +61,7 @@ firstSketch = startSketchOn('-XZ')
 ```js
 // Hollow a sketch on face object.
 size = 100
-case = startSketchOn('-XZ')
+case = startSketchOn(-XZ)
  |> startProfileAt([-size, -size], %)
  |> line(end = [2 * size, 0])
  |> line(end = [0, 2 * size])
--- a/docs/kcl/import.md
+++ b/docs/kcl/import.md
@ -69,7 +69,7 @@ model = import("tests/inputs/cube.step")
 ```js
 import height, buildSketch from "common.kcl"

-plane = 'XZ'
+plane = XZ
 margin = 2
 s1 = buildSketch(plane, [0, 0])
 s2 = buildSketch(plane, [0, height() + margin])
--- a/docs/kcl/index.md
+++ b/docs/kcl/index.md
@ -22,8 +22,12 @@ layout: manual
  * [`string`](kcl/types/string)
  * [`tag`](kcl/types/tag)
 * **std**
+  * [`Face`](kcl/types/Face)
  * [`HALF_TURN`](kcl/consts/std-HALF_TURN)
+  * [`Helix`](kcl/types/Helix)
  * [`Plane`](kcl/types/Plane)
+  * [`Point2d`](kcl/types/Point2d)
+  * [`Point3d`](kcl/types/Point3d)
  * [`QUARTER_TURN`](kcl/consts/std-QUARTER_TURN)
  * [`Sketch`](kcl/types/Sketch)
  * [`Solid`](kcl/types/Solid)
--- a/docs/kcl/int.md
+++ b/docs/kcl/int.md
@ -36,7 +36,7 @@ int(num: number): number
 n = int(ceil(5 / 2))
 assertEqual(n, 3, 0.0001, "5/2 = 2.5, rounded up makes 3")
 // Draw n cylinders.
-startSketchOn('XZ')
+startSketchOn(XZ)
  |> circle(center = [0, 0], radius = 2)
  |> extrude(length = 5)
  |> patternTransform(
--- a/docs/kcl/intersect.md
+++ b/docs/kcl/intersect.md
@ -30,7 +30,7 @@ intersect(solids: [Solid]): [Solid]

 ```js
 fn cube(center) {
-  return startSketchOn('XY')
+  return startSketchOn(XY)
    |> startProfileAt([center[0] - 10, center[1] - 10], %)
    |> line(endAbsolute = [center[0] + 10, center[1] - 10])
    |> line(endAbsolute = [center[0] + 10, center[1] + 10])
--- a/docs/kcl/lastSegX.md
+++ b/docs/kcl/lastSegX.md
@ -27,7 +27,7 @@ lastSegX(sketch: Sketch): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [5, 0])
  |> line(end = [20, 5])
--- a/docs/kcl/lastSegY.md
+++ b/docs/kcl/lastSegY.md
@ -27,7 +27,7 @@ lastSegY(sketch: Sketch): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [5, 0])
  |> line(end = [20, 5])
--- a/docs/kcl/ln.md
+++ b/docs/kcl/ln.md
@ -31,7 +31,7 @@ ln(num: number): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [ln(100), 15])
  |> line(end = [5, -6])
--- a/docs/kcl/loft.md
+++ b/docs/kcl/loft.md
@ -42,7 +42,7 @@ loft(

 ```js
 // Loft a square and a triangle.
-squareSketch = startSketchOn('XY')
+squareSketch = startSketchOn(XY)
  |> startProfileAt([-100, 200], %)
  |> line(end = [200, 0])
  |> line(end = [0, -200])
@ -50,7 +50,7 @@ squareSketch = startSketchOn('XY')
  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])
  |> close()

-triangleSketch = startSketchOn(offsetPlane('XY', offset = 75))
+triangleSketch = startSketchOn(offsetPlane(XY, offset = 75))
  |> startProfileAt([0, 125], %)
  |> line(end = [-15, -30])
  |> line(end = [30, 0])
@ -64,7 +64,7 @@ loft([squareSketch, triangleSketch])

 ```js
 // Loft a square, a circle, and another circle.
-squareSketch = startSketchOn('XY')
+squareSketch = startSketchOn(XY)
  |> startProfileAt([-100, 200], %)
  |> line(end = [200, 0])
  |> line(end = [0, -200])
@ -72,10 +72,10 @@ squareSketch = startSketchOn('XY')
  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])
  |> close()

-circleSketch0 = startSketchOn(offsetPlane('XY', offset = 75))
+circleSketch0 = startSketchOn(offsetPlane(XY, offset = 75))
  |> circle(center = [0, 100], radius = 50)

-circleSketch1 = startSketchOn(offsetPlane('XY', offset = 150))
+circleSketch1 = startSketchOn(offsetPlane(XY, offset = 150))
  |> circle(center = [0, 100], radius = 20)

 loft([
@ -89,7 +89,7 @@ loft([

 ```js
 // Loft a square, a circle, and another circle with options.
-squareSketch = startSketchOn('XY')
+squareSketch = startSketchOn(XY)
  |> startProfileAt([-100, 200], %)
  |> line(end = [200, 0])
  |> line(end = [0, -200])
@ -97,10 +97,10 @@ squareSketch = startSketchOn('XY')
  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])
  |> close()

-circleSketch0 = startSketchOn(offsetPlane('XY', offset = 75))
+circleSketch0 = startSketchOn(offsetPlane(XY, offset = 75))
  |> circle(center = [0, 100], radius = 50)

-circleSketch1 = startSketchOn(offsetPlane('XY', offset = 150))
+circleSketch1 = startSketchOn(offsetPlane(XY, offset = 150))
  |> circle(center = [0, 100], radius = 20)

 loft(
--- a/docs/kcl/log.md
+++ b/docs/kcl/log.md
@ -35,7 +35,7 @@ log(
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [log(100, 5), 0])
  |> line(end = [5, 8])
--- a/docs/kcl/log10.md
+++ b/docs/kcl/log10.md
@ -31,7 +31,7 @@ log10(num: number): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [log10(100), 0])
  |> line(end = [5, 8])
--- a/docs/kcl/log2.md
+++ b/docs/kcl/log2.md
@ -31,7 +31,7 @@ log2(num: number): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [log2(100), 0])
  |> line(end = [5, 8])
--- a/docs/kcl/map.md
+++ b/docs/kcl/map.md
@ -33,7 +33,7 @@ map(
 ```js
 r = 10 // radius
 fn drawCircle(id) {
-  return startSketchOn("XY")
+  return startSketchOn(XY)
    |> circle(center = [id * 2 * r, 0], radius = r)
 }

@ -49,7 +49,7 @@ circles = map([1..3], drawCircle)
 r = 10 // radius
 // Call `map`, using an anonymous function instead of a named one.
 circles = map([1..3], fn(id) {
-  return startSketchOn("XY")
+  return startSketchOn(XY)
    |> circle(center = [id * 2 * r, 0], radius = r)
 })
 ```
--- a/docs/kcl/max.md
+++ b/docs/kcl/max.md
@ -31,7 +31,7 @@ max(args: [number]): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({
       angle = 70,
--- a/docs/kcl/min.md
+++ b/docs/kcl/min.md
@ -31,7 +31,7 @@ min(args: [number]): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({
       angle = 70,
--- a/docs/kcl/mirror2d.md
+++ b/docs/kcl/mirror2d.md
@ -34,7 +34,7 @@ mirror2d(

 ```js
 // Mirror an un-closed sketch across the Y axis.
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 10], %)
  |> line(end = [15, 0])
  |> line(end = [-7, -3])
@ -53,7 +53,7 @@ example = extrude(sketch001, length = 10)

 ```js
 // Mirror a un-closed sketch across the Y axis.
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 8.5], %)
  |> line(end = [20, -8.5])
  |> line(end = [-20, -8.5])
@ -66,11 +66,11 @@ example = extrude(sketch001, length = 10)

 ```js
 // Mirror a un-closed sketch across an edge.
-helper001 = startSketchOn('XZ')
+helper001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [0, 10], tag = $edge001)

-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 8.5], %)
  |> line(end = [20, -8.5])
  |> line(end = [-20, -8.5])
@ -83,7 +83,7 @@ sketch001 = startSketchOn('XZ')

 ```js
 // Mirror an un-closed sketch across a custom axis.
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 8.5], %)
  |> line(end = [20, -8.5])
  |> line(end = [-20, -8.5])
--- a/docs/kcl/offsetPlane.md
+++ b/docs/kcl/offsetPlane.md
@ -32,7 +32,7 @@ offsetPlane(

 ```js
 // Loft a square and a circle on the `XY` plane using offset.
-squareSketch = startSketchOn('XY')
+squareSketch = startSketchOn(XY)
  |> startProfileAt([-100, 200], %)
  |> line(end = [200, 0])
  |> line(end = [0, -200])
@ -40,7 +40,7 @@ squareSketch = startSketchOn('XY')
  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])
  |> close()

-circleSketch = startSketchOn(offsetPlane('XY', offset = 150))
+circleSketch = startSketchOn(offsetPlane(XY, offset = 150))
  |> circle(center = [0, 100], radius = 50)

 loft([squareSketch, circleSketch])
@ -50,7 +50,7 @@ loft([squareSketch, circleSketch])

 ```js
 // Loft a square and a circle on the `XZ` plane using offset.
-squareSketch = startSketchOn('XZ')
+squareSketch = startSketchOn(XZ)
  |> startProfileAt([-100, 200], %)
  |> line(end = [200, 0])
  |> line(end = [0, -200])
@ -58,7 +58,7 @@ squareSketch = startSketchOn('XZ')
  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])
  |> close()

-circleSketch = startSketchOn(offsetPlane('XZ', offset = 150))
+circleSketch = startSketchOn(offsetPlane(XZ, offset = 150))
  |> circle(center = [0, 100], radius = 50)

 loft([squareSketch, circleSketch])
@ -68,7 +68,7 @@ loft([squareSketch, circleSketch])

 ```js
 // Loft a square and a circle on the `YZ` plane using offset.
-squareSketch = startSketchOn('YZ')
+squareSketch = startSketchOn(YZ)
  |> startProfileAt([-100, 200], %)
  |> line(end = [200, 0])
  |> line(end = [0, -200])
@ -76,7 +76,7 @@ squareSketch = startSketchOn('YZ')
  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])
  |> close()

-circleSketch = startSketchOn(offsetPlane('YZ', offset = 150))
+circleSketch = startSketchOn(offsetPlane(YZ, offset = 150))
  |> circle(center = [0, 100], radius = 50)

 loft([squareSketch, circleSketch])
@ -86,7 +86,7 @@ loft([squareSketch, circleSketch])

 ```js
 // Loft a square and a circle on the `-XZ` plane using offset.
-squareSketch = startSketchOn('-XZ')
+squareSketch = startSketchOn(-XZ)
  |> startProfileAt([-100, 200], %)
  |> line(end = [200, 0])
  |> line(end = [0, -200])
@ -94,7 +94,7 @@ squareSketch = startSketchOn('-XZ')
  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])
  |> close()

-circleSketch = startSketchOn(offsetPlane('-XZ', offset = -150))
+circleSketch = startSketchOn(offsetPlane(-XZ, offset = -150))
  |> circle(center = [0, 100], radius = 50)

 loft([squareSketch, circleSketch])
@ -104,12 +104,12 @@ loft([squareSketch, circleSketch])

 ```js
 // A circle on the XY plane
-startSketchOn("XY")
+startSketchOn(XY)
  |> startProfileAt([0, 0], %)
  |> circle(radius = 10, center = [0, 0])

 // Triangle on the plane 4 units above
-startSketchOn(offsetPlane("XY", offset = 4))
+startSketchOn(offsetPlane(XY, offset = 4))
  |> startProfileAt([0, 0], %)
  |> line(end = [10, 0])
  |> line(end = [0, 10])
--- a/docs/kcl/patternCircular2d.md
+++ b/docs/kcl/patternCircular2d.md
@ -39,7 +39,7 @@ patternCircular2d(
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([.5, 25], %)
  |> line(end = [0, 5])
  |> line(end = [-1, 0])
--- a/docs/kcl/patternCircular3d.md
+++ b/docs/kcl/patternCircular3d.md
@ -41,7 +41,7 @@ patternCircular3d(
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> circle(center = [0, 0], radius = 1)

 example = extrude(exampleSketch, length = -5)
--- a/docs/kcl/patternLinear2d.md
+++ b/docs/kcl/patternLinear2d.md
@ -37,7 +37,7 @@ patternLinear2d(
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> circle(center = [0, 0], radius = 1)
  |> patternLinear2d(axis = [1, 0], instances = 7, distance = 4)

--- a/docs/kcl/patternLinear3d.md
+++ b/docs/kcl/patternLinear3d.md
@ -37,7 +37,7 @@ patternLinear3d(
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [0, 2])
  |> line(end = [3, 1])
@ -53,7 +53,7 @@ example = extrude(exampleSketch, length = 1)
 ```js
 // Pattern a whole sketch on face.
 size = 100
-case = startSketchOn('XY')
+case = startSketchOn(XY)
  |> startProfileAt([-size, -size], %)
  |> line(end = [2 * size, 0])
  |> line(end = [0, 2 * size])
@ -84,7 +84,7 @@ patternLinear3d(
 ```js
 // Pattern an object on a face.
 size = 100
-case = startSketchOn('XY')
+case = startSketchOn(XY)
  |> startProfileAt([-size, -size], %)
  |> line(end = [2 * size, 0])
  |> line(end = [0, 2 * size])
--- a/docs/kcl/patternTransform.md
+++ b/docs/kcl/patternTransform.md
@ -67,7 +67,7 @@ fn transform(id) {
 }

 // Sketch 4 cylinders.
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> circle(center = [0, 0], radius = 2)
  |> extrude(length = 5)
  |> patternTransform(instances = 4, transform = transform)
@ -83,7 +83,7 @@ fn transform(id) {
  return { translate = [4 * (1 + id), 0, 0] }
 }

-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> circle(center = [0, 0], radius = 2)
  |> extrude(length = 5)
  |> patternTransform(instances = 4, transform = transform)
@ -101,7 +101,7 @@ fn cube(length, center) {
  p2 = [l + x, l + y]
  p3 = [l + x, -l + y]

-  return startSketchOn('XY')
+  return startSketchOn(XY)
    |> startProfileAt(p0, %)
    |> line(endAbsolute = p1)
    |> line(endAbsolute = p2)
@ -139,7 +139,7 @@ fn cube(length, center) {
  p2 = [l + x, l + y]
  p3 = [l + x, -l + y]

-  return startSketchOn('XY')
+  return startSketchOn(XY)
    |> startProfileAt(p0, %)
    |> line(endAbsolute = p1)
    |> line(endAbsolute = p2)
@ -182,7 +182,7 @@ fn transform(replicaId) {
 }
 // Each layer is just a pretty thin cylinder.
 fn layer() {
-  return startSketchOn("XY")
+  return startSketchOn(XY)
    // or some other plane idk
    |> circle(center = [0, 0], radius = 1, tag = $tag1)
    |> extrude(length = h)
@ -203,7 +203,7 @@ fn transform(i) {
    { rotation = { angle = 45 * i } }
  ]
 }
-startSketchOn('XY')
+startSketchOn(XY)
  |> startProfileAt([0, 0], %)
  |> polygon({
       radius = 10,
--- a/docs/kcl/patternTransform2d.md
+++ b/docs/kcl/patternTransform2d.md
@ -41,7 +41,7 @@ fn transform(id) {
 }

 // Sketch 4 circles.
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> circle(center = [0, 0], radius = 2)
  |> patternTransform2d(instances = 4, transform = transform)
 ```
--- a/docs/kcl/pi.md
+++ b/docs/kcl/pi.md
@ -30,7 +30,7 @@ pi(): number
 ```js
 circumference = 70

-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> circle(center = [0, 0], radius = circumference / (2 * pi()))

 example = extrude(exampleSketch, length = 5)
--- a/docs/kcl/polar.md
+++ b/docs/kcl/polar.md
@ -27,7 +27,7 @@ polar(data: PolarCoordsData): [number]
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = polar({ angle = 30, length = 5 }), tag = $thing)
  |> line(end = [0, 5])
--- a/docs/kcl/polygon.md
+++ b/docs/kcl/polygon.md
@ -34,7 +34,7 @@ polygon(

 ```js
 // Create a regular hexagon inscribed in a circle of radius 10
-hex = startSketchOn('XY')
+hex = startSketchOn(XY)
  |> polygon({
       radius = 10,
       numSides = 6,
@ -49,7 +49,7 @@ example = extrude(hex, length = 5)

 ```js
 // Create a square circumscribed around a circle of radius 5
-square = startSketchOn('XY')
+square = startSketchOn(XY)
  |> polygon({
       radius = 5.0,
       numSides = 4,
--- a/docs/kcl/pow.md
+++ b/docs/kcl/pow.md
@ -35,7 +35,7 @@ pow(
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({ angle = 50, length = pow(5, 2) }, %)
  |> yLine(endAbsolute = 0)
--- a/docs/kcl/reduce.md
+++ b/docs/kcl/reduce.md
@ -82,7 +82,7 @@ fn decagon(radius) {
  stepAngle = 1 / 10 * TAU

  // Start the decagon sketch at this point.
-  startOfDecagonSketch = startSketchOn('XY')
+  startOfDecagonSketch = startSketchOn(XY)
    |> startProfileAt([cos(0) * radius, sin(0) * radius], %)

    // Use a `reduce` to draw the remaining decagon sides.
--- a/docs/kcl/revolve.md
+++ b/docs/kcl/revolve.md
--- a/docs/kcl/rotate.md
+++ b/docs/kcl/rotate.md
@ -58,7 +58,7 @@ rotate(
 // Rotate a pipe with roll, pitch, and yaw.

 // Create a path for the sweep.
-sweepPath = startSketchOn('XZ')
+sweepPath = startSketchOn(XZ)
  |> startProfileAt([0.05, 0.05], %)
  |> line(end = [0, 7])
  |> tangentialArc({ offset = 90, radius = 5 }, %)
@ -67,10 +67,10 @@ sweepPath = startSketchOn('XZ')
  |> line(end = [0, 7])

 // Create a hole for the pipe.
-pipeHole = startSketchOn('XY')
+pipeHole = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 1.5)

-sweepSketch = startSketchOn('XY')
+sweepSketch = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 2)
  |> hole(pipeHole, %)
  |> sweep(path = sweepPath)
@ -83,7 +83,7 @@ sweepSketch = startSketchOn('XY')
 // Rotate a pipe about an axis with an angle.

 // Create a path for the sweep.
-sweepPath = startSketchOn('XZ')
+sweepPath = startSketchOn(XZ)
  |> startProfileAt([0.05, 0.05], %)
  |> line(end = [0, 7])
  |> tangentialArc({ offset = 90, radius = 5 }, %)
@ -92,10 +92,10 @@ sweepPath = startSketchOn('XZ')
  |> line(end = [0, 7])

 // Create a hole for the pipe.
-pipeHole = startSketchOn('XY')
+pipeHole = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 1.5)

-sweepSketch = startSketchOn('XY')
+sweepSketch = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 2)
  |> hole(pipeHole, %)
  |> sweep(path = sweepPath)
@ -120,7 +120,7 @@ cube
 // Sweep two sketches along the same path.


-sketch001 = startSketchOn('XY')
+sketch001 = startSketchOn(XY)
 rectangleSketch = startProfileAt([-200, 23.86], sketch001)
  |> angledLine([0, 73.47], %, $rectangleSegmentA001)
  |> angledLine([
@ -136,7 +136,7 @@ rectangleSketch = startProfileAt([-200, 23.86], sketch001)

 circleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)

-sketch002 = startSketchOn('YZ')
+sketch002 = startSketchOn(YZ)
 sweepPath = startProfileAt([0, 0], sketch002)
  |> yLine(length = 231.81)
  |> tangentialArc({ radius = 80, offset = -90 }, %)
@ -152,7 +152,7 @@ rotate(parts, axis = [0, 0, 1.0], angle = 90)

 ```js
 // Translate and rotate a sketch to create a loft.
-sketch001 = startSketchOn('XY')
+sketch001 = startSketchOn(XY)

 fn square() {
  return startProfileAt([-10, 10], sketch001)
--- a/docs/kcl/round.md
+++ b/docs/kcl/round.md
@ -31,7 +31,7 @@ round(num: number): number
 ### Examples

 ```js
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(endAbsolute = [12, 10])
  |> line(end = [round(7.02986), 0])
--- a/docs/kcl/scale.md
+++ b/docs/kcl/scale.md
@ -38,7 +38,7 @@ scale(
 // Scale a pipe.

 // Create a path for the sweep.
-sweepPath = startSketchOn('XZ')
+sweepPath = startSketchOn(XZ)
  |> startProfileAt([0.05, 0.05], %)
  |> line(end = [0, 7])
  |> tangentialArc({ offset = 90, radius = 5 }, %)
@ -47,10 +47,10 @@ sweepPath = startSketchOn('XZ')
  |> line(end = [0, 7])

 // Create a hole for the pipe.
-pipeHole = startSketchOn('XY')
+pipeHole = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 1.5)

-sweepSketch = startSketchOn('XY')
+sweepSketch = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 2)
  |> hole(pipeHole, %)
  |> sweep(path = sweepPath)
@ -75,7 +75,7 @@ cube
 // Sweep two sketches along the same path.


-sketch001 = startSketchOn('XY')
+sketch001 = startSketchOn(XY)
 rectangleSketch = startProfileAt([-200, 23.86], sketch001)
  |> angledLine([0, 73.47], %, $rectangleSegmentA001)
  |> angledLine([
@ -91,7 +91,7 @@ rectangleSketch = startProfileAt([-200, 23.86], sketch001)

 circleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)

-sketch002 = startSketchOn('YZ')
+sketch002 = startSketchOn(YZ)
 sweepPath = startProfileAt([0, 0], sketch002)
  |> yLine(length = 231.81)
  |> tangentialArc({ radius = 80, offset = -90 }, %)
--- a/docs/kcl/segAng.md
+++ b/docs/kcl/segAng.md
@ -27,7 +27,7 @@ segAng(tag: TagIdentifier): number
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [10, 0])
  |> line(end = [5, 10], tag = $seg01)
--- a/docs/kcl/segEnd.md
+++ b/docs/kcl/segEnd.md
@ -28,7 +28,7 @@ segEnd(tag: TagIdentifier): [number]

 ```js
 w = 15
-cube = startSketchOn('XY')
+cube = startSketchOn(XY)
  |> startProfileAt([0, 0], %)
  |> line(end = [w, 0], tag = $line1)
  |> line(end = [0, w], tag = $line2)
@ -38,7 +38,7 @@ cube = startSketchOn('XY')
  |> extrude(length = 5)

 fn cylinder(radius, tag) {
-  return startSketchOn('XY')
+  return startSketchOn(XY)
    |> startProfileAt([0, 0], %)
    |> circle(radius = radius, center = segEnd(tag))
    |> extrude(length = radius)
--- a/docs/kcl/segEndX.md
+++ b/docs/kcl/segEndX.md
@ -27,7 +27,7 @@ segEndX(tag: TagIdentifier): number
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [20, 0], tag = $thing)
  |> line(end = [0, 5])
--- a/docs/kcl/segEndY.md
+++ b/docs/kcl/segEndY.md
@ -27,7 +27,7 @@ segEndY(tag: TagIdentifier): number
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [20, 0])
  |> line(end = [0, 3], tag = $thing)
--- a/docs/kcl/segLen.md
+++ b/docs/kcl/segLen.md
@ -27,7 +27,7 @@ segLen(tag: TagIdentifier): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({ angle = 60, length = 10 }, %, $thing)
  |> tangentialArc({ offset = -120, radius = 5 }, %)
--- a/docs/kcl/segStart.md
+++ b/docs/kcl/segStart.md
@ -28,7 +28,7 @@ segStart(tag: TagIdentifier): [number]

 ```js
 w = 15
-cube = startSketchOn('XY')
+cube = startSketchOn(XY)
  |> startProfileAt([0, 0], %)
  |> line(end = [w, 0], tag = $line1)
  |> line(end = [0, w], tag = $line2)
@ -38,7 +38,7 @@ cube = startSketchOn('XY')
  |> extrude(length = 5)

 fn cylinder(radius, tag) {
-  return startSketchOn('XY')
+  return startSketchOn(XY)
    |> startProfileAt([0, 0], %)
    |> circle(radius = radius, center = segStart(tag))
    |> extrude(length = radius)
--- a/docs/kcl/segStartX.md
+++ b/docs/kcl/segStartX.md
@ -27,7 +27,7 @@ segStartX(tag: TagIdentifier): number
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [20, 0], tag = $thing)
  |> line(end = [0, 5])
--- a/docs/kcl/segStartY.md
+++ b/docs/kcl/segStartY.md
@ -27,7 +27,7 @@ segStartY(tag: TagIdentifier): number
 ### Examples

 ```js
-exampleSketch = startSketchOn('XZ')
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> line(end = [20, 0])
  |> line(end = [0, 3], tag = $thing)
--- a/docs/kcl/shell.md
+++ b/docs/kcl/shell.md
@ -34,7 +34,7 @@ shell(

 ```js
 // Remove the end face for the extrusion.
-firstSketch = startSketchOn('XY')
+firstSketch = startSketchOn(XY)
  |> startProfileAt([-12, 12], %)
  |> line(end = [24, 0])
  |> line(end = [0, -24])
@ -50,7 +50,7 @@ shell(firstSketch, faces = ['end'], thickness = 0.25)

 ```js
 // Remove the start face for the extrusion.
-firstSketch = startSketchOn('-XZ')
+firstSketch = startSketchOn(-XZ)
  |> startProfileAt([-12, 12], %)
  |> line(end = [24, 0])
  |> line(end = [0, -24])
@ -66,7 +66,7 @@ shell(firstSketch, faces = ['start'], thickness = 0.25)

 ```js
 // Remove a tagged face and the end face for the extrusion.
-firstSketch = startSketchOn('XY')
+firstSketch = startSketchOn(XY)
  |> startProfileAt([-12, 12], %)
  |> line(end = [24, 0])
  |> line(end = [0, -24])
@ -82,7 +82,7 @@ shell(firstSketch, faces = [myTag], thickness = 0.25)

 ```js
 // Remove multiple faces at once.
-firstSketch = startSketchOn('XY')
+firstSketch = startSketchOn(XY)
  |> startProfileAt([-12, 12], %)
  |> line(end = [24, 0])
  |> line(end = [0, -24])
@ -99,7 +99,7 @@ shell(firstSketch, faces = [myTag, 'end'], thickness = 0.25)
 ```js
 // Shell a sketch on face.
 size = 100
-case = startSketchOn('-XZ')
+case = startSketchOn(-XZ)
  |> startProfileAt([-size, -size], %)
  |> line(end = [2 * size, 0])
  |> line(end = [0, 2 * size])
@ -124,7 +124,7 @@ shell(case, faces = ['start'], thickness = 5)
 ```js
 // Shell a sketch on face object on the end face.
 size = 100
-case = startSketchOn('XY')
+case = startSketchOn(XY)
  |> startProfileAt([-size, -size], %)
  |> line(end = [2 * size, 0])
  |> line(end = [0, 2 * size])
@ -152,7 +152,7 @@ shell(thing1, faces = ['end'], thickness = 5)


 size = 100
-case = startSketchOn('XY')
+case = startSketchOn(XY)
  |> startProfileAt([-size, -size], %)
  |> line(end = [2 * size, 0])
  |> line(end = [0, 2 * size])
--- a/docs/kcl/sqrt.md
+++ b/docs/kcl/sqrt.md
@ -31,7 +31,7 @@ sqrt(num: number): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({ angle = 50, length = sqrt(2500) }, %)
  |> yLine(endAbsolute = 0)
--- a/docs/kcl/std.json
+++ b/docs/kcl/std.json
@ -38,7 +38,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "myAngle = -120\n\nsketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [8, 0])\n  |> angledLine({ angle = abs(myAngle), length = 5 }, %)\n  |> line(end = [-5, 0])\n  |> angledLine({ angle = myAngle, length = 5 }, %)\n  |> close()\n\nbaseExtrusion = extrude(sketch001, length = 5)"
+      "myAngle = -120\n\nsketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [8, 0])\n  |> angledLine({ angle = abs(myAngle), length = 5 }, %)\n  |> line(end = [-5, 0])\n  |> angledLine({ angle = myAngle, length = 5 }, %)\n  |> close()\n\nbaseExtrusion = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -80,7 +80,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = toDegrees(acos(0.5)),\n       length = 10\n     }, %)\n  |> line(end = [5, 0])\n  |> line(endAbsolute = [12, 0])\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = toDegrees(acos(0.5)),\n       length = 10\n     }, %)\n  |> line(end = [5, 0])\n  |> line(endAbsolute = [12, 0])\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -1796,7 +1796,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [2, 5], tag = $seg01)\n  |> angledLineToX([-angleToMatchLengthX(seg01, 7, %), 10], %)\n  |> close()\n\nextrusion = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [2, 5], tag = $seg01)\n  |> angledLineToX([-angleToMatchLengthX(seg01, 7, %), 10], %)\n  |> close()\n\nextrusion = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -3512,7 +3512,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [1, 2], tag = $seg01)\n  |> angledLine({\n       angle = angleToMatchLengthY(seg01, 15, %),\n       length = 5\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrusion = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [1, 2], tag = $seg01)\n  |> angledLine({\n       angle = angleToMatchLengthY(seg01, 15, %),\n       length = 5\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrusion = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -41304,15 +41304,15 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Add color to an extruded solid.\nexampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> line(endAbsolute = [10, 0])\n  |> line(endAbsolute = [0, 10])\n  |> line(endAbsolute = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)\n  // There are other options besides 'color', but they're optional.\n  |> appearance(color = '#ff0000')",
-      "// Add color to a revolved solid.\nsketch001 = startSketchOn('XY')\n  |> circle(center = [15, 0], radius = 5)\n  |> revolve(angle = 360, axis = 'y')\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)",
-      "// Add color to different solids.\nfn cube(center) {\n  return startSketchOn('XY')\n    |> startProfileAt([center[0] - 10, center[1] - 10], %)\n    |> line(endAbsolute = [center[0] + 10, center[1] - 10])\n    |> line(endAbsolute = [center[0] + 10, center[1] + 10])\n    |> line(endAbsolute = [center[0] - 10, center[1] + 10])\n    |> close()\n    |> extrude(length = 10)\n}\n\nexample0 = cube([0, 0])\nexample1 = cube([20, 0])\nexample2 = cube([40, 0])\n\nappearance(\n  [example0, example1],\n  color = '#ff0000',\n  metalness = 50,\n  roughness = 50,\n)\nappearance(\n  example2,\n  color = '#00ff00',\n  metalness = 50,\n  roughness = 50,\n)",
-      "// You can set the appearance before or after you shell it will yield the same result.\n// This example shows setting the appearance _after_ the shell.\nfirstSketch = startSketchOn('XY')\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n\nshell(firstSketch, faces = ['end'], thickness = 0.25)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)",
-      "// You can set the appearance before or after you shell it will yield the same result.\n// This example shows setting the appearance _before_ the shell.\nfirstSketch = startSketchOn('XY')\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)\n\nshell(firstSketch, faces = ['end'], thickness = 0.25)",
-      "// Setting the appearance of a 3D pattern can be done _before_ or _after_ the pattern.\n// This example shows _before_ the pattern.\nexampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 2])\n  |> line(end = [3, 1])\n  |> line(end = [0, -4])\n  |> close()\n\nexample = extrude(exampleSketch, length = 1)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)\n  |> patternLinear3d(axis = [1, 0, 1], instances = 7, distance = 6)",
-      "// Setting the appearance of a 3D pattern can be done _before_ or _after_ the pattern.\n// This example shows _after_ the pattern.\nexampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 2])\n  |> line(end = [3, 1])\n  |> line(end = [0, -4])\n  |> close()\n\nexample = extrude(exampleSketch, length = 1)\n  |> patternLinear3d(axis = [1, 0, 1], instances = 7, distance = 6)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)",
-      "// Color the result of a 2D pattern that was extruded.\nexampleSketch = startSketchOn('XZ')\n  |> startProfileAt([.5, 25], %)\n  |> line(end = [0, 5])\n  |> line(end = [-1, 0])\n  |> line(end = [0, -5])\n  |> close()\n  |> patternCircular2d(\n       center = [0, 0],\n       instances = 13,\n       arcDegrees = 360,\n       rotateDuplicates = true,\n     )\n\nexample = extrude(exampleSketch, length = 1)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)",
-      "// Color the result of a sweep.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn('XZ')\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\npipeHole = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> appearance(color = \"#ff0000\", metalness = 50, roughness = 50)"
+      "// Add color to an extruded solid.\nexampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(endAbsolute = [10, 0])\n  |> line(endAbsolute = [0, 10])\n  |> line(endAbsolute = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)\n  // There are other options besides 'color', but they're optional.\n  |> appearance(color = '#ff0000')",
+      "// Add color to a revolved solid.\nsketch001 = startSketchOn(XY)\n  |> circle(center = [15, 0], radius = 5)\n  |> revolve(angle = 360, axis = 'y')\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)",
+      "// Add color to different solids.\nfn cube(center) {\n  return startSketchOn(XY)\n    |> startProfileAt([center[0] - 10, center[1] - 10], %)\n    |> line(endAbsolute = [center[0] + 10, center[1] - 10])\n    |> line(endAbsolute = [center[0] + 10, center[1] + 10])\n    |> line(endAbsolute = [center[0] - 10, center[1] + 10])\n    |> close()\n    |> extrude(length = 10)\n}\n\nexample0 = cube([0, 0])\nexample1 = cube([20, 0])\nexample2 = cube([40, 0])\n\nappearance(\n  [example0, example1],\n  color = '#ff0000',\n  metalness = 50,\n  roughness = 50,\n)\nappearance(\n  example2,\n  color = '#00ff00',\n  metalness = 50,\n  roughness = 50,\n)",
+      "// You can set the appearance before or after you shell it will yield the same result.\n// This example shows setting the appearance _after_ the shell.\nfirstSketch = startSketchOn(XY)\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n\nshell(firstSketch, faces = ['end'], thickness = 0.25)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)",
+      "// You can set the appearance before or after you shell it will yield the same result.\n// This example shows setting the appearance _before_ the shell.\nfirstSketch = startSketchOn(XY)\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)\n\nshell(firstSketch, faces = ['end'], thickness = 0.25)",
+      "// Setting the appearance of a 3D pattern can be done _before_ or _after_ the pattern.\n// This example shows _before_ the pattern.\nexampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 2])\n  |> line(end = [3, 1])\n  |> line(end = [0, -4])\n  |> close()\n\nexample = extrude(exampleSketch, length = 1)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)\n  |> patternLinear3d(axis = [1, 0, 1], instances = 7, distance = 6)",
+      "// Setting the appearance of a 3D pattern can be done _before_ or _after_ the pattern.\n// This example shows _after_ the pattern.\nexampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 2])\n  |> line(end = [3, 1])\n  |> line(end = [0, -4])\n  |> close()\n\nexample = extrude(exampleSketch, length = 1)\n  |> patternLinear3d(axis = [1, 0, 1], instances = 7, distance = 6)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)",
+      "// Color the result of a 2D pattern that was extruded.\nexampleSketch = startSketchOn(XZ)\n  |> startProfileAt([.5, 25], %)\n  |> line(end = [0, 5])\n  |> line(end = [-1, 0])\n  |> line(end = [0, -5])\n  |> close()\n  |> patternCircular2d(\n       center = [0, 0],\n       instances = 13,\n       arcDegrees = 360,\n       rotateDuplicates = true,\n     )\n\nexample = extrude(exampleSketch, length = 1)\n  |> appearance(color = '#ff0000', metalness = 90, roughness = 90)",
+      "// Color the result of a sweep.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn(XZ)\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\npipeHole = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> appearance(color = \"#ff0000\", metalness = 50, roughness = 50)"
    ]
  },
  {
@ -51323,7 +51323,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = toDegrees(asin(0.5)),\n       length = 20\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = toDegrees(asin(0.5)),\n       length = 20\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -51748,7 +51748,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = toDegrees(atan(1.25)),\n       length = 20\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = toDegrees(atan(1.25)),\n       length = 20\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -51803,7 +51803,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = toDegrees(atan2(1.25, 2)),\n       length = 20\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = toDegrees(atan2(1.25, 2)),\n       length = 20\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -56820,7 +56820,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(endAbsolute = [12, 10])\n  |> line(end = [ceil(7.02986), 0])\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(endAbsolute = [12, 10])\n  |> line(end = [ceil(7.02986), 0])\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -64987,8 +64987,8 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Chamfer a mounting plate.\nwidth = 20\nlength = 10\nthickness = 1\nchamferLength = 2\n\nmountingPlateSketch = startSketchOn(\"XY\")\n  |> startProfileAt([-width / 2, -length / 2], %)\n  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)\n  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)\n  |> line(endAbsolute = [-width / 2, length / 2], tag = $edge3)\n  |> close(tag = $edge4)\n\nmountingPlate = extrude(mountingPlateSketch, length = thickness)\n  |> chamfer(\n       length = chamferLength,\n       tags = [\n         getNextAdjacentEdge(edge1),\n         getNextAdjacentEdge(edge2),\n         getNextAdjacentEdge(edge3),\n         getNextAdjacentEdge(edge4)\n       ],\n     )",
-      "// Sketch on the face of a chamfer.\nfn cube(pos, scale) {\n  sg = startSketchOn('XY')\n    |> startProfileAt(pos, %)\n    |> line(end = [0, scale])\n    |> line(end = [scale, 0])\n    |> line(end = [0, -scale])\n\n  return sg\n}\n\npart001 = cube([0, 0], 20)\n  |> close(tag = $line1)\n  |> extrude(length = 20)\n  // We tag the chamfer to reference it later.\n  |> chamfer(length = 10, tags = [getOppositeEdge(line1)], tag = $chamfer1)\n\nsketch001 = startSketchOn(part001, chamfer1)\n  |> startProfileAt([10, 10], %)\n  |> line(end = [2, 0])\n  |> line(end = [0, 2])\n  |> line(end = [-2, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n  |> extrude(length = 10)"
+      "// Chamfer a mounting plate.\nwidth = 20\nlength = 10\nthickness = 1\nchamferLength = 2\n\nmountingPlateSketch = startSketchOn(XY)\n  |> startProfileAt([-width / 2, -length / 2], %)\n  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)\n  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)\n  |> line(endAbsolute = [-width / 2, length / 2], tag = $edge3)\n  |> close(tag = $edge4)\n\nmountingPlate = extrude(mountingPlateSketch, length = thickness)\n  |> chamfer(\n       length = chamferLength,\n       tags = [\n         getNextAdjacentEdge(edge1),\n         getNextAdjacentEdge(edge2),\n         getNextAdjacentEdge(edge3),\n         getNextAdjacentEdge(edge4)\n       ],\n     )",
+      "// Sketch on the face of a chamfer.\nfn cube(pos, scale) {\n  sg = startSketchOn(XY)\n    |> startProfileAt(pos, %)\n    |> line(end = [0, scale])\n    |> line(end = [scale, 0])\n    |> line(end = [0, -scale])\n\n  return sg\n}\n\npart001 = cube([0, 0], 20)\n  |> close(tag = $line1)\n  |> extrude(length = 20)\n  // We tag the chamfer to reference it later.\n  |> chamfer(length = 10, tags = [getOppositeEdge(line1)], tag = $chamfer1)\n\nsketch001 = startSketchOn(part001, chamfer1)\n  |> startProfileAt([10, 10], %)\n  |> line(end = [2, 0])\n  |> line(end = [0, 2])\n  |> line(end = [-2, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n  |> extrude(length = 10)"
    ]
  },
  {
@ -73061,8 +73061,8 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"-XZ\")\n  |> circle(center = [0, 0], radius = 10)\n\nexample = extrude(exampleSketch, length = 5)",
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([-15, 0], %)\n  |> line(end = [30, 0])\n  |> line(end = [0, 30])\n  |> line(end = [-30, 0])\n  |> close()\n  |> hole(circle(center = [0, 15], radius = 5), %)\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(-XZ)\n  |> circle(center = [0, 0], radius = 10)\n\nexample = extrude(exampleSketch, length = 5)",
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([-15, 0], %)\n  |> line(end = [30, 0])\n  |> line(end = [0, 30])\n  |> line(end = [-30, 0])\n  |> close()\n  |> hole(circle(center = [0, 15], radius = 5), %)\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -77993,7 +77993,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XY\")\n  |> circleThreePoint(p1 = [10, 10], p2 = [20, 8], p3 = [15, 5])\n  |> extrude(length = 5)"
+      "exampleSketch = startSketchOn(XY)\n  |> circleThreePoint(p1 = [10, 10], p2 = [20, 8], p3 = [15, 5])\n  |> extrude(length = 5)"
    ]
  },
  {
@ -82977,7 +82977,7 @@
    "unpublished": false,
    "deprecated": true,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 30, length = 2 * e() ^ 2 }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 10)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 30, length = 2 * e() ^ 2 }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 10)"
    ]
  },
  {
@ -90985,8 +90985,8 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "example = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> arc({\n       angleStart = 120,\n       angleEnd = 0,\n       radius = 5\n     }, %)\n  |> line(end = [5, 0])\n  |> line(end = [0, 10])\n  |> bezierCurve({\n       control1 = [-10, 0],\n       control2 = [2, 10],\n       to = [-5, 10]\n     }, %)\n  |> line(end = [-5, -2])\n  |> close()\n  |> extrude(length = 10)",
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([-10, 0], %)\n  |> arc({\n       angleStart = 120,\n       angleEnd = -60,\n       radius = 5\n     }, %)\n  |> line(end = [10, 0])\n  |> line(end = [5, 0])\n  |> bezierCurve({\n       control1 = [-3, 0],\n       control2 = [2, 10],\n       to = [-5, 10]\n     }, %)\n  |> line(end = [-4, 10])\n  |> line(end = [-5, -2])\n  |> close()\n\nexample = extrude(exampleSketch, length = 10)"
+      "example = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> arc({\n       angleStart = 120,\n       angleEnd = 0,\n       radius = 5\n     }, %)\n  |> line(end = [5, 0])\n  |> line(end = [0, 10])\n  |> bezierCurve({\n       control1 = [-10, 0],\n       control2 = [2, 10],\n       to = [-5, 10]\n     }, %)\n  |> line(end = [-5, -2])\n  |> close()\n  |> extrude(length = 10)",
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([-10, 0], %)\n  |> arc({\n       angleStart = 120,\n       angleEnd = -60,\n       radius = 5\n     }, %)\n  |> line(end = [10, 0])\n  |> line(end = [5, 0])\n  |> bezierCurve({\n       control1 = [-3, 0],\n       control2 = [2, 10],\n       to = [-5, 10]\n     }, %)\n  |> line(end = [-4, 10])\n  |> line(end = [-5, -2])\n  |> close()\n\nexample = extrude(exampleSketch, length = 10)"
    ]
  },
  {
@ -100768,8 +100768,8 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "width = 20\nlength = 10\nthickness = 1\nfilletRadius = 2\n\nmountingPlateSketch = startSketchOn(\"XY\")\n  |> startProfileAt([-width / 2, -length / 2], %)\n  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)\n  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)\n  |> line(endAbsolute = [-width / 2, length / 2], tag = $edge3)\n  |> close(tag = $edge4)\n\nmountingPlate = extrude(mountingPlateSketch, length = thickness)\n  |> fillet(\n       radius = filletRadius,\n       tags = [\n         getNextAdjacentEdge(edge1),\n         getNextAdjacentEdge(edge2),\n         getNextAdjacentEdge(edge3),\n         getNextAdjacentEdge(edge4)\n       ],\n     )",
-      "width = 20\nlength = 10\nthickness = 1\nfilletRadius = 1\n\nmountingPlateSketch = startSketchOn(\"XY\")\n  |> startProfileAt([-width / 2, -length / 2], %)\n  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)\n  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)\n  |> line(endAbsolute = [-width / 2, length / 2], tag = $edge3)\n  |> close(tag = $edge4)\n\nmountingPlate = extrude(mountingPlateSketch, length = thickness)\n  |> fillet(\n       radius = filletRadius,\n       tolerance = 0.000001,\n       tags = [\n         getNextAdjacentEdge(edge1),\n         getNextAdjacentEdge(edge2),\n         getNextAdjacentEdge(edge3),\n         getNextAdjacentEdge(edge4)\n       ],\n     )"
+      "width = 20\nlength = 10\nthickness = 1\nfilletRadius = 2\n\nmountingPlateSketch = startSketchOn(XY)\n  |> startProfileAt([-width / 2, -length / 2], %)\n  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)\n  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)\n  |> line(endAbsolute = [-width / 2, length / 2], tag = $edge3)\n  |> close(tag = $edge4)\n\nmountingPlate = extrude(mountingPlateSketch, length = thickness)\n  |> fillet(\n       radius = filletRadius,\n       tags = [\n         getNextAdjacentEdge(edge1),\n         getNextAdjacentEdge(edge2),\n         getNextAdjacentEdge(edge3),\n         getNextAdjacentEdge(edge4)\n       ],\n     )",
+      "width = 20\nlength = 10\nthickness = 1\nfilletRadius = 1\n\nmountingPlateSketch = startSketchOn(XY)\n  |> startProfileAt([-width / 2, -length / 2], %)\n  |> line(endAbsolute = [width / 2, -length / 2], tag = $edge1)\n  |> line(endAbsolute = [width / 2, length / 2], tag = $edge2)\n  |> line(endAbsolute = [-width / 2, length / 2], tag = $edge3)\n  |> close(tag = $edge4)\n\nmountingPlate = extrude(mountingPlateSketch, length = thickness)\n  |> fillet(\n       radius = filletRadius,\n       tolerance = 0.000001,\n       tags = [\n         getNextAdjacentEdge(edge1),\n         getNextAdjacentEdge(edge2),\n         getNextAdjacentEdge(edge3),\n         getNextAdjacentEdge(edge4)\n       ],\n     )"
    ]
  },
  {
@ -100811,7 +100811,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(endAbsolute = [12, 10])\n  |> line(end = [floor(7.02986), 0])\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(endAbsolute = [12, 10])\n  |> line(end = [floor(7.02986), 0])\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -100895,7 +100895,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Get an edge shared between two faces, created after a chamfer.\n\n\nscale = 20\npart001 = startSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, scale])\n  |> line(end = [scale, 0])\n  |> line(end = [0, -scale])\n  |> close(tag = $line0)\n  |> extrude(length = 20, tagEnd = $end0)\n  // We tag the chamfer to reference it later.\n  |> chamfer(length = 10, tags = [getOppositeEdge(line0)], tag = $chamfer0)\n\n// Get the shared edge between the chamfer and the extrusion.\ncommonEdge = getCommonEdge(faces = [chamfer0, end0])\n\n// Chamfer the shared edge.\n// TODO: uncomment this when ssi for fillets lands\n// chamfer(part001, length = 5, tags = [commonEdge])"
+      "// Get an edge shared between two faces, created after a chamfer.\n\n\nscale = 20\npart001 = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, scale])\n  |> line(end = [scale, 0])\n  |> line(end = [0, -scale])\n  |> close(tag = $line0)\n  |> extrude(length = 20, tagEnd = $end0)\n  // We tag the chamfer to reference it later.\n  |> chamfer(length = 10, tags = [getOppositeEdge(line0)], tag = $chamfer0)\n\n// Get the shared edge between the chamfer and the extrusion.\ncommonEdge = getCommonEdge(faces = [chamfer0, end0])\n\n// Chamfer the shared edge.\n// TODO: uncomment this when ssi for fillets lands\n// chamfer(part001, length = 5, tags = [commonEdge])"
    ]
  },
  {
@ -100942,7 +100942,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> angledLine({ angle = 60, length = 10 }, %)\n  |> angledLine({ angle = 120, length = 10 }, %)\n  |> line(end = [-10, 0])\n  |> angledLine({ angle = 240, length = 10 }, %, $referenceEdge)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)\n  |> fillet(radius = 3, tags = [getNextAdjacentEdge(referenceEdge)])"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> angledLine({ angle = 60, length = 10 }, %)\n  |> angledLine({ angle = 120, length = 10 }, %)\n  |> line(end = [-10, 0])\n  |> angledLine({ angle = 240, length = 10 }, %, $referenceEdge)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)\n  |> fillet(radius = 3, tags = [getNextAdjacentEdge(referenceEdge)])"
    ]
  },
  {
@ -100989,7 +100989,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> angledLine({ angle = 60, length = 10 }, %)\n  |> angledLine({ angle = 120, length = 10 }, %)\n  |> line(end = [-10, 0])\n  |> angledLine({ angle = 240, length = 10 }, %, $referenceEdge)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)\n  |> fillet(radius = 3, tags = [getOppositeEdge(referenceEdge)])"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> angledLine({ angle = 60, length = 10 }, %)\n  |> angledLine({ angle = 120, length = 10 }, %)\n  |> line(end = [-10, 0])\n  |> angledLine({ angle = 240, length = 10 }, %, $referenceEdge)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)\n  |> fillet(radius = 3, tags = [getOppositeEdge(referenceEdge)])"
    ]
  },
  {
@ -101036,7 +101036,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> angledLine({ angle = 60, length = 10 }, %)\n  |> angledLine({ angle = 120, length = 10 }, %)\n  |> line(end = [-10, 0])\n  |> angledLine({ angle = 240, length = 10 }, %, $referenceEdge)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)\n  |> fillet(radius = 3, tags = [getPreviousAdjacentEdge(referenceEdge)])"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> angledLine({ angle = 60, length = 10 }, %)\n  |> angledLine({ angle = 120, length = 10 }, %)\n  |> line(end = [-10, 0])\n  |> angledLine({ angle = 240, length = 10 }, %, $referenceEdge)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)\n  |> fillet(radius = 3, tags = [getPreviousAdjacentEdge(referenceEdge)])"
    ]
  },
  {
@ -101531,9 +101531,9 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Create a helix around the Z axis.\nhelixPath = helix(\n  angleStart = 0,\n  ccw = true,\n  revolutions = 5,\n  length = 10,\n  radius = 5,\n  axis = 'Z',\n)\n\n// Create a spring by sweeping around the helix path.\nspringSketch = startSketchOn('YZ')\n  |> circle(center = [0, 0], radius = 0.5)\n  |> sweep(path = helixPath)",
-      "// Create a helix around an edge.\nhelper001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 10], tag = $edge001)\n\nhelixPath = helix(\n  angleStart = 0,\n  ccw = true,\n  revolutions = 5,\n  length = 10,\n  radius = 5,\n  axis = edge001,\n)\n\n// Create a spring by sweeping around the helix path.\nspringSketch = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 0.5)\n  |> sweep(path = helixPath)",
-      "// Create a helix around a custom axis.\nhelixPath = helix(\n  angleStart = 0,\n  ccw = true,\n  revolutions = 5,\n  length = 10,\n  radius = 5,\n  axis = {\n    custom = {\n      axis = [0, 0, 1.0],\n      origin = [0, 0.25, 0]\n    }\n  },\n)\n\n// Create a spring by sweeping around the helix path.\nspringSketch = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 1)\n  |> sweep(path = helixPath)"
+      "// Create a helix around the Z axis.\nhelixPath = helix(\n  angleStart = 0,\n  ccw = true,\n  revolutions = 5,\n  length = 10,\n  radius = 5,\n  axis = 'Z',\n)\n\n// Create a spring by sweeping around the helix path.\nspringSketch = startSketchOn(YZ)\n  |> circle(center = [0, 0], radius = 0.5)\n  |> sweep(path = helixPath)",
+      "// Create a helix around an edge.\nhelper001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 10], tag = $edge001)\n\nhelixPath = helix(\n  angleStart = 0,\n  ccw = true,\n  revolutions = 5,\n  length = 10,\n  radius = 5,\n  axis = edge001,\n)\n\n// Create a spring by sweeping around the helix path.\nspringSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 0.5)\n  |> sweep(path = helixPath)",
+      "// Create a helix around a custom axis.\nhelixPath = helix(\n  angleStart = 0,\n  ccw = true,\n  revolutions = 5,\n  length = 10,\n  radius = 5,\n  axis = {\n    custom = {\n      axis = [0, 0, 1.0],\n      origin = [0, 0.25, 0]\n    }\n  },\n)\n\n// Create a spring by sweeping around the helix path.\nspringSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 1)\n  |> sweep(path = helixPath)"
    ]
  },
  {
@ -104907,7 +104907,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "part001 = startSketchOn('XY')\n  |> circle(center = [5, 5], radius = 10)\n  |> extrude(length = 10)\n  |> helixRevolutions({\n       angleStart = 0,\n       ccw = true,\n       revolutions = 16\n     }, %)"
+      "part001 = startSketchOn(XY)\n  |> circle(center = [5, 5], radius = 10)\n  |> extrude(length = 10)\n  |> helixRevolutions({\n       angleStart = 0,\n       ccw = true,\n       revolutions = 16\n     }, %)"
    ]
  },
  {
@ -113179,9 +113179,9 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Hollow a basic sketch.\nfirstSketch = startSketchOn('XY')\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n  |> hollow(0.25, %)",
-      "// Hollow a basic sketch.\nfirstSketch = startSketchOn('-XZ')\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n  |> hollow(0.5, %)",
-      "// Hollow a sketch on face object.\nsize = 100\ncase = startSketchOn('-XZ')\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close()\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nhollow(0.5, case)"
+      "// Hollow a basic sketch.\nfirstSketch = startSketchOn(XY)\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n  |> hollow(0.25, %)",
+      "// Hollow a basic sketch.\nfirstSketch = startSketchOn(-XZ)\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n  |> hollow(0.5, %)",
+      "// Hollow a sketch on face object.\nsize = 100\ncase = startSketchOn(-XZ)\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close()\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nhollow(0.5, case)"
    ]
  },
  {
@ -113562,7 +113562,7 @@
      "model = import(\"tests/inputs/cube.gltf\")",
      "model = import(\"tests/inputs/cube.sldprt\")",
      "model = import(\"tests/inputs/cube.step\")",
-      "import height, buildSketch from \"common.kcl\"\n\nplane = 'XZ'\nmargin = 2\ns1 = buildSketch(plane, [0, 0])\ns2 = buildSketch(plane, [0, height() + margin])"
+      "import height, buildSketch from \"common.kcl\"\n\nplane = XZ\nmargin = 2\ns1 = buildSketch(plane, [0, 0])\ns2 = buildSketch(plane, [0, height() + margin])"
    ]
  },
  {
@ -113632,7 +113632,7 @@
    "unpublished": false,
    "deprecated": true,
    "examples": [
-      "n = int(ceil(5 / 2))\nassertEqual(n, 3, 0.0001, \"5/2 = 2.5, rounded up makes 3\")\n// Draw n cylinders.\nstartSketchOn('XZ')\n  |> circle(center = [0, 0], radius = 2)\n  |> extrude(length = 5)\n  |> patternTransform(\n       instances = n,\n       transform = fn(id) {\n      return { translate = [4 * id, 0, 0] }\n    },\n     )"
+      "n = int(ceil(5 / 2))\nassertEqual(n, 3, 0.0001, \"5/2 = 2.5, rounded up makes 3\")\n// Draw n cylinders.\nstartSketchOn(XZ)\n  |> circle(center = [0, 0], radius = 2)\n  |> extrude(length = 5)\n  |> patternTransform(\n       instances = n,\n       transform = fn(id) {\n      return { translate = [4 * id, 0, 0] }\n    },\n     )"
    ]
  },
  {
@ -116843,7 +116843,7 @@
    "unpublished": false,
    "deprecated": true,
    "examples": [
-      "fn cube(center) {\n  return startSketchOn('XY')\n    |> startProfileAt([center[0] - 10, center[1] - 10], %)\n    |> line(endAbsolute = [center[0] + 10, center[1] - 10])\n    |> line(endAbsolute = [center[0] + 10, center[1] + 10])\n    |> line(endAbsolute = [center[0] - 10, center[1] + 10])\n    |> close()\n    |> extrude(length = 10)\n}\n\npart001 = cube([0, 0])\npart002 = cube([8, 8])\n\nintersectedPart = intersect([part001, part002])"
+      "fn cube(center) {\n  return startSketchOn(XY)\n    |> startProfileAt([center[0] - 10, center[1] - 10], %)\n    |> line(endAbsolute = [center[0] + 10, center[1] - 10])\n    |> line(endAbsolute = [center[0] + 10, center[1] + 10])\n    |> line(endAbsolute = [center[0] - 10, center[1] + 10])\n    |> close()\n    |> extrude(length = 10)\n}\n\npart001 = cube([0, 0])\npart002 = cube([8, 8])\n\nintersectedPart = intersect([part001, part002])"
    ]
  },
  {
@ -118527,7 +118527,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> line(end = [5, 0])\n  |> line(end = [20, 5])\n  |> line(end = [lastSegX(%), 0])\n  |> line(end = [-15, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [5, 0])\n  |> line(end = [20, 5])\n  |> line(end = [lastSegX(%), 0])\n  |> line(end = [-15, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -120211,7 +120211,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> line(end = [5, 0])\n  |> line(end = [20, 5])\n  |> line(end = [0, lastSegY(%)])\n  |> line(end = [-15, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [5, 0])\n  |> line(end = [20, 5])\n  |> line(end = [0, lastSegY(%)])\n  |> line(end = [-15, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -128550,7 +128550,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> line(end = [ln(100), 15])\n  |> line(end = [5, -6])\n  |> line(end = [-10, -10])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [ln(100), 15])\n  |> line(end = [5, -6])\n  |> line(end = [-10, -10])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -141412,9 +141412,9 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Loft a square and a triangle.\nsquareSketch = startSketchOn('XY')\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ntriangleSketch = startSketchOn(offsetPlane('XY', offset = 75))\n  |> startProfileAt([0, 125], %)\n  |> line(end = [-15, -30])\n  |> line(end = [30, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\nloft([squareSketch, triangleSketch])",
-      "// Loft a square, a circle, and another circle.\nsquareSketch = startSketchOn('XY')\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch0 = startSketchOn(offsetPlane('XY', offset = 75))\n  |> circle(center = [0, 100], radius = 50)\n\ncircleSketch1 = startSketchOn(offsetPlane('XY', offset = 150))\n  |> circle(center = [0, 100], radius = 20)\n\nloft([\n  squareSketch,\n  circleSketch0,\n  circleSketch1\n])",
-      "// Loft a square, a circle, and another circle with options.\nsquareSketch = startSketchOn('XY')\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch0 = startSketchOn(offsetPlane('XY', offset = 75))\n  |> circle(center = [0, 100], radius = 50)\n\ncircleSketch1 = startSketchOn(offsetPlane('XY', offset = 150))\n  |> circle(center = [0, 100], radius = 20)\n\nloft(\n  [\n    squareSketch,\n    circleSketch0,\n    circleSketch1\n  ],\n  baseCurveIndex = 0,\n  bezApproximateRational = false,\n  tolerance = 0.000001,\n  vDegree = 2,\n)"
+      "// Loft a square and a triangle.\nsquareSketch = startSketchOn(XY)\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ntriangleSketch = startSketchOn(offsetPlane(XY, offset = 75))\n  |> startProfileAt([0, 125], %)\n  |> line(end = [-15, -30])\n  |> line(end = [30, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\nloft([squareSketch, triangleSketch])",
+      "// Loft a square, a circle, and another circle.\nsquareSketch = startSketchOn(XY)\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch0 = startSketchOn(offsetPlane(XY, offset = 75))\n  |> circle(center = [0, 100], radius = 50)\n\ncircleSketch1 = startSketchOn(offsetPlane(XY, offset = 150))\n  |> circle(center = [0, 100], radius = 20)\n\nloft([\n  squareSketch,\n  circleSketch0,\n  circleSketch1\n])",
+      "// Loft a square, a circle, and another circle with options.\nsquareSketch = startSketchOn(XY)\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch0 = startSketchOn(offsetPlane(XY, offset = 75))\n  |> circle(center = [0, 100], radius = 50)\n\ncircleSketch1 = startSketchOn(offsetPlane(XY, offset = 150))\n  |> circle(center = [0, 100], radius = 20)\n\nloft(\n  [\n    squareSketch,\n    circleSketch0,\n    circleSketch1\n  ],\n  baseCurveIndex = 0,\n  bezApproximateRational = false,\n  tolerance = 0.000001,\n  vDegree = 2,\n)"
    ]
  },
  {
@ -141469,7 +141469,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> line(end = [log(100, 5), 0])\n  |> line(end = [5, 8])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [log(100, 5), 0])\n  |> line(end = [5, 8])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -141511,7 +141511,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> line(end = [log10(100), 0])\n  |> line(end = [5, 8])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [log10(100), 0])\n  |> line(end = [5, 8])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -141553,7 +141553,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> line(end = [log2(100), 0])\n  |> line(end = [5, 8])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [log2(100), 0])\n  |> line(end = [5, 8])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -148936,8 +148936,8 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "r = 10 // radius\nfn drawCircle(id) {\n  return startSketchOn(\"XY\")\n    |> circle(center = [id * 2 * r, 0], radius = r)\n}\n\n// Call `drawCircle`, passing in each element of the array.\n// The outputs from each `drawCircle` form a new array,\n// which is the return value from `map`.\ncircles = map([1..3], drawCircle)",
-      "r = 10 // radius\n// Call `map`, using an anonymous function instead of a named one.\ncircles = map([1..3], fn(id) {\n  return startSketchOn(\"XY\")\n    |> circle(center = [id * 2 * r, 0], radius = r)\n})"
+      "r = 10 // radius\nfn drawCircle(id) {\n  return startSketchOn(XY)\n    |> circle(center = [id * 2 * r, 0], radius = r)\n}\n\n// Call `drawCircle`, passing in each element of the array.\n// The outputs from each `drawCircle` form a new array,\n// which is the return value from `map`.\ncircles = map([1..3], drawCircle)",
+      "r = 10 // radius\n// Call `map`, using an anonymous function instead of a named one.\ncircles = map([1..3], fn(id) {\n  return startSketchOn(XY)\n    |> circle(center = [id * 2 * r, 0], radius = r)\n})"
    ]
  },
  {
@ -148982,7 +148982,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = 70,\n       length = max(15, 31, 4, 13, 22)\n     }, %)\n  |> line(end = [20, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = 70,\n       length = max(15, 31, 4, 13, 22)\n     }, %)\n  |> line(end = [20, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -149027,7 +149027,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = 70,\n       length = min(15, 31, 4, 13, 22)\n     }, %)\n  |> line(end = [20, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = 70,\n       length = min(15, 31, 4, 13, 22)\n     }, %)\n  |> line(end = [20, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -152496,10 +152496,10 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Mirror an un-closed sketch across the Y axis.\nsketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 10], %)\n  |> line(end = [15, 0])\n  |> line(end = [-7, -3])\n  |> line(end = [9, -1])\n  |> line(end = [-8, -5])\n  |> line(end = [9, -3])\n  |> line(end = [-8, -3])\n  |> line(end = [9, -1])\n  |> line(end = [-19, -0])\n  |> mirror2d({ axis = 'Y' }, %)\n\nexample = extrude(sketch001, length = 10)",
-      "// Mirror a un-closed sketch across the Y axis.\nsketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 8.5], %)\n  |> line(end = [20, -8.5])\n  |> line(end = [-20, -8.5])\n  |> mirror2d({ axis = 'Y' }, %)\n\nexample = extrude(sketch001, length = 10)",
-      "// Mirror a un-closed sketch across an edge.\nhelper001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 10], tag = $edge001)\n\nsketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 8.5], %)\n  |> line(end = [20, -8.5])\n  |> line(end = [-20, -8.5])\n  |> mirror2d({ axis = edge001 }, %)\n\n// example = extrude(sketch001, length = 10)",
-      "// Mirror an un-closed sketch across a custom axis.\nsketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 8.5], %)\n  |> line(end = [20, -8.5])\n  |> line(end = [-20, -8.5])\n  |> mirror2d({\n       axis = {\n         custom = {\n           axis = [0.0, 1.0],\n           origin = [0.0, 0.0]\n         }\n       }\n     }, %)\n\nexample = extrude(sketch001, length = 10)"
+      "// Mirror an un-closed sketch across the Y axis.\nsketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 10], %)\n  |> line(end = [15, 0])\n  |> line(end = [-7, -3])\n  |> line(end = [9, -1])\n  |> line(end = [-8, -5])\n  |> line(end = [9, -3])\n  |> line(end = [-8, -3])\n  |> line(end = [9, -1])\n  |> line(end = [-19, -0])\n  |> mirror2d({ axis = 'Y' }, %)\n\nexample = extrude(sketch001, length = 10)",
+      "// Mirror a un-closed sketch across the Y axis.\nsketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 8.5], %)\n  |> line(end = [20, -8.5])\n  |> line(end = [-20, -8.5])\n  |> mirror2d({ axis = 'Y' }, %)\n\nexample = extrude(sketch001, length = 10)",
+      "// Mirror a un-closed sketch across an edge.\nhelper001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 10], tag = $edge001)\n\nsketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 8.5], %)\n  |> line(end = [20, -8.5])\n  |> line(end = [-20, -8.5])\n  |> mirror2d({ axis = edge001 }, %)\n\n// example = extrude(sketch001, length = 10)",
+      "// Mirror an un-closed sketch across a custom axis.\nsketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 8.5], %)\n  |> line(end = [20, -8.5])\n  |> line(end = [-20, -8.5])\n  |> mirror2d({\n       axis = {\n         custom = {\n           axis = [0.0, 1.0],\n           origin = [0.0, 0.0]\n         }\n       }\n     }, %)\n\nexample = extrude(sketch001, length = 10)"
    ]
  },
  {
@ -152932,11 +152932,11 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Loft a square and a circle on the `XY` plane using offset.\nsquareSketch = startSketchOn('XY')\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = startSketchOn(offsetPlane('XY', offset = 150))\n  |> circle(center = [0, 100], radius = 50)\n\nloft([squareSketch, circleSketch])",
-      "// Loft a square and a circle on the `XZ` plane using offset.\nsquareSketch = startSketchOn('XZ')\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = startSketchOn(offsetPlane('XZ', offset = 150))\n  |> circle(center = [0, 100], radius = 50)\n\nloft([squareSketch, circleSketch])",
-      "// Loft a square and a circle on the `YZ` plane using offset.\nsquareSketch = startSketchOn('YZ')\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = startSketchOn(offsetPlane('YZ', offset = 150))\n  |> circle(center = [0, 100], radius = 50)\n\nloft([squareSketch, circleSketch])",
-      "// Loft a square and a circle on the `-XZ` plane using offset.\nsquareSketch = startSketchOn('-XZ')\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = startSketchOn(offsetPlane('-XZ', offset = -150))\n  |> circle(center = [0, 100], radius = 50)\n\nloft([squareSketch, circleSketch])",
-      "// A circle on the XY plane\nstartSketchOn(\"XY\")\n  |> startProfileAt([0, 0], %)\n  |> circle(radius = 10, center = [0, 0])\n\n// Triangle on the plane 4 units above\nstartSketchOn(offsetPlane(\"XY\", offset = 4))\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> line(end = [0, 10])\n  |> close()"
+      "// Loft a square and a circle on the `XY` plane using offset.\nsquareSketch = startSketchOn(XY)\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = startSketchOn(offsetPlane(XY, offset = 150))\n  |> circle(center = [0, 100], radius = 50)\n\nloft([squareSketch, circleSketch])",
+      "// Loft a square and a circle on the `XZ` plane using offset.\nsquareSketch = startSketchOn(XZ)\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = startSketchOn(offsetPlane(XZ, offset = 150))\n  |> circle(center = [0, 100], radius = 50)\n\nloft([squareSketch, circleSketch])",
+      "// Loft a square and a circle on the `YZ` plane using offset.\nsquareSketch = startSketchOn(YZ)\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = startSketchOn(offsetPlane(YZ, offset = 150))\n  |> circle(center = [0, 100], radius = 50)\n\nloft([squareSketch, circleSketch])",
+      "// Loft a square and a circle on the `-XZ` plane using offset.\nsquareSketch = startSketchOn(-XZ)\n  |> startProfileAt([-100, 200], %)\n  |> line(end = [200, 0])\n  |> line(end = [0, -200])\n  |> line(end = [-200, 0])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = startSketchOn(offsetPlane(-XZ, offset = -150))\n  |> circle(center = [0, 100], radius = 50)\n\nloft([squareSketch, circleSketch])",
+      "// A circle on the XY plane\nstartSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> circle(radius = 10, center = [0, 0])\n\n// Triangle on the plane 4 units above\nstartSketchOn(offsetPlane(XY, offset = 4))\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> line(end = [0, 10])\n  |> close()"
    ]
  },
  {
@ -164136,7 +164136,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([.5, 25], %)\n  |> line(end = [0, 5])\n  |> line(end = [-1, 0])\n  |> line(end = [0, -5])\n  |> close()\n  |> patternCircular2d(\n       center = [0, 0],\n       instances = 13,\n       arcDegrees = 360,\n       rotateDuplicates = true,\n     )\n\nexample = extrude(exampleSketch, length = 1)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([.5, 25], %)\n  |> line(end = [0, 5])\n  |> line(end = [-1, 0])\n  |> line(end = [0, -5])\n  |> close()\n  |> patternCircular2d(\n       center = [0, 0],\n       instances = 13,\n       arcDegrees = 360,\n       rotateDuplicates = true,\n     )\n\nexample = extrude(exampleSketch, length = 1)"
    ]
  },
  {
@ -176938,7 +176938,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> circle(center = [0, 0], radius = 1)\n\nexample = extrude(exampleSketch, length = -5)\n  |> patternCircular3d(\n       axis = [1, -1, 0],\n       center = [10, -20, 0],\n       instances = 11,\n       arcDegrees = 360,\n       rotateDuplicates = true,\n     )"
+      "exampleSketch = startSketchOn(XZ)\n  |> circle(center = [0, 0], radius = 1)\n\nexample = extrude(exampleSketch, length = -5)\n  |> patternCircular3d(\n       axis = [1, -1, 0],\n       center = [10, -20, 0],\n       instances = 11,\n       arcDegrees = 360,\n       rotateDuplicates = true,\n     )"
    ]
  },
  {
@ -186542,7 +186542,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> circle(center = [0, 0], radius = 1)\n  |> patternLinear2d(axis = [1, 0], instances = 7, distance = 4)\n\nexample = extrude(exampleSketch, length = 1)"
+      "exampleSketch = startSketchOn(XZ)\n  |> circle(center = [0, 0], radius = 1)\n  |> patternLinear2d(axis = [1, 0], instances = 7, distance = 4)\n\nexample = extrude(exampleSketch, length = 1)"
    ]
  },
  {
@ -196146,9 +196146,9 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 2])\n  |> line(end = [3, 1])\n  |> line(end = [0, -4])\n  |> close()\n\nexample = extrude(exampleSketch, length = 1)\n  |> patternLinear3d(axis = [1, 0, 1], instances = 7, distance = 6)",
-      "// Pattern a whole sketch on face.\nsize = 100\ncase = startSketchOn('XY')\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close(%)\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n  // We pass in the \"case\" here since we want to pattern the whole sketch.\n// And the case was the base of the sketch.\npatternLinear3d(\n  case,\n  axis = [1, 0, 0],\n  distance = 250,\n  instances = 2,\n)",
-      "// Pattern an object on a face.\nsize = 100\ncase = startSketchOn('XY')\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close(%)\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n// We pass in `thing1` here with `useOriginal` since we want to pattern just this object on the face.\npatternLinear3d(\n  thing1,\n  axis = [1, 0, 0],\n  distance = size,\n  instances = 2,\n  useOriginal = true,\n)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 2])\n  |> line(end = [3, 1])\n  |> line(end = [0, -4])\n  |> close()\n\nexample = extrude(exampleSketch, length = 1)\n  |> patternLinear3d(axis = [1, 0, 1], instances = 7, distance = 6)",
+      "// Pattern a whole sketch on face.\nsize = 100\ncase = startSketchOn(XY)\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close(%)\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n  // We pass in the \"case\" here since we want to pattern the whole sketch.\n// And the case was the base of the sketch.\npatternLinear3d(\n  case,\n  axis = [1, 0, 0],\n  distance = 250,\n  instances = 2,\n)",
+      "// Pattern an object on a face.\nsize = 100\ncase = startSketchOn(XY)\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close(%)\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n// We pass in `thing1` here with `useOriginal` since we want to pattern just this object on the face.\npatternLinear3d(\n  thing1,\n  axis = [1, 0, 0],\n  distance = size,\n  instances = 2,\n  useOriginal = true,\n)"
    ]
  },
  {
@ -204149,12 +204149,12 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Each instance will be shifted along the X axis.\nfn transform(id) {\n  return { translate = [4 * id, 0, 0] }\n}\n\n// Sketch 4 cylinders.\nsketch001 = startSketchOn('XZ')\n  |> circle(center = [0, 0], radius = 2)\n  |> extrude(length = 5)\n  |> patternTransform(instances = 4, transform = transform)",
-      "// Each instance will be shifted along the X axis,\n// with a gap between the original (at x = 0) and the first replica\n// (at x = 8). This is because `id` starts at 1.\nfn transform(id) {\n  return { translate = [4 * (1 + id), 0, 0] }\n}\n\nsketch001 = startSketchOn('XZ')\n  |> circle(center = [0, 0], radius = 2)\n  |> extrude(length = 5)\n  |> patternTransform(instances = 4, transform = transform)",
-      "fn cube(length, center) {\n  l = length / 2\n  x = center[0]\n  y = center[1]\n  p0 = [-l + x, -l + y]\n  p1 = [-l + x, l + y]\n  p2 = [l + x, l + y]\n  p3 = [l + x, -l + y]\n\n  return startSketchOn('XY')\n    |> startProfileAt(p0, %)\n    |> line(endAbsolute = p1)\n    |> line(endAbsolute = p2)\n    |> line(endAbsolute = p3)\n    |> line(endAbsolute = p0)\n    |> close()\n    |> extrude(length = length)\n}\n\nwidth = 20\nfn transform(i) {\n  return {\n    // Move down each time.\n    translate = [0, 0, -i * width],\n    // Make the cube longer, wider and flatter each time.\n    scale = [pow(1.1, i), pow(1.1, i), pow(0.9, i)],\n    // Turn by 15 degrees each time.\n    rotation = { angle = 15 * i, origin = \"local\" }\n  }\n}\n\nmyCubes = cube(width, [100, 0])\n  |> patternTransform(instances = 25, transform = transform)",
-      "fn cube(length, center) {\n  l = length / 2\n  x = center[0]\n  y = center[1]\n  p0 = [-l + x, -l + y]\n  p1 = [-l + x, l + y]\n  p2 = [l + x, l + y]\n  p3 = [l + x, -l + y]\n\n  return startSketchOn('XY')\n    |> startProfileAt(p0, %)\n    |> line(endAbsolute = p1)\n    |> line(endAbsolute = p2)\n    |> line(endAbsolute = p3)\n    |> line(endAbsolute = p0)\n    |> close()\n    |> extrude(length = length)\n}\n\nwidth = 20\nfn transform(i) {\n  return {\n    translate = [0, 0, -i * width],\n    rotation = {\n      angle = 90 * i,\n      // Rotate around the overall scene's origin.\n      origin = \"global\"\n    }\n  }\n}\nmyCubes = cube(width, [100, 100])\n  |> patternTransform(instances = 4, transform = transform)",
-      "// Parameters\nr = 50 // base radius\nh = 10 // layer height\nt = 0.005 // taper factor [0-1)\n// Defines how to modify each layer of the vase.\n// Each replica is shifted up the Z axis, and has a smoothly-varying radius\nfn transform(replicaId) {\n  scale = r * abs(1 - (t * replicaId)) * (5 + cos(replicaId / 8))\n  return {\n    translate = [0, 0, replicaId * 10],\n    scale = [scale, scale, 0]\n  }\n}\n// Each layer is just a pretty thin cylinder.\nfn layer() {\n  return startSketchOn(\"XY\")\n    // or some other plane idk\n    |> circle(center = [0, 0], radius = 1, tag = $tag1)\n    |> extrude(length = h)\n}\n// The vase is 100 layers tall.\n// The 100 layers are replica of each other, with a slight transformation applied to each.\nvase = layer()\n  |> patternTransform(instances = 100, transform = transform)",
-      "fn transform(i) {\n  // Transform functions can return multiple transforms. They'll be applied in order.\n  return [\n    { translate = [30 * i, 0, 0] },\n    { rotation = { angle = 45 * i } }\n  ]\n}\nstartSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> polygon({\n       radius = 10,\n       numSides = 4,\n       center = [0, 0],\n       inscribed = false\n     }, %)\n  |> extrude(length = 4)\n  |> patternTransform(instances = 3, transform = transform)"
+      "// Each instance will be shifted along the X axis.\nfn transform(id) {\n  return { translate = [4 * id, 0, 0] }\n}\n\n// Sketch 4 cylinders.\nsketch001 = startSketchOn(XZ)\n  |> circle(center = [0, 0], radius = 2)\n  |> extrude(length = 5)\n  |> patternTransform(instances = 4, transform = transform)",
+      "// Each instance will be shifted along the X axis,\n// with a gap between the original (at x = 0) and the first replica\n// (at x = 8). This is because `id` starts at 1.\nfn transform(id) {\n  return { translate = [4 * (1 + id), 0, 0] }\n}\n\nsketch001 = startSketchOn(XZ)\n  |> circle(center = [0, 0], radius = 2)\n  |> extrude(length = 5)\n  |> patternTransform(instances = 4, transform = transform)",
+      "fn cube(length, center) {\n  l = length / 2\n  x = center[0]\n  y = center[1]\n  p0 = [-l + x, -l + y]\n  p1 = [-l + x, l + y]\n  p2 = [l + x, l + y]\n  p3 = [l + x, -l + y]\n\n  return startSketchOn(XY)\n    |> startProfileAt(p0, %)\n    |> line(endAbsolute = p1)\n    |> line(endAbsolute = p2)\n    |> line(endAbsolute = p3)\n    |> line(endAbsolute = p0)\n    |> close()\n    |> extrude(length = length)\n}\n\nwidth = 20\nfn transform(i) {\n  return {\n    // Move down each time.\n    translate = [0, 0, -i * width],\n    // Make the cube longer, wider and flatter each time.\n    scale = [pow(1.1, i), pow(1.1, i), pow(0.9, i)],\n    // Turn by 15 degrees each time.\n    rotation = { angle = 15 * i, origin = \"local\" }\n  }\n}\n\nmyCubes = cube(width, [100, 0])\n  |> patternTransform(instances = 25, transform = transform)",
+      "fn cube(length, center) {\n  l = length / 2\n  x = center[0]\n  y = center[1]\n  p0 = [-l + x, -l + y]\n  p1 = [-l + x, l + y]\n  p2 = [l + x, l + y]\n  p3 = [l + x, -l + y]\n\n  return startSketchOn(XY)\n    |> startProfileAt(p0, %)\n    |> line(endAbsolute = p1)\n    |> line(endAbsolute = p2)\n    |> line(endAbsolute = p3)\n    |> line(endAbsolute = p0)\n    |> close()\n    |> extrude(length = length)\n}\n\nwidth = 20\nfn transform(i) {\n  return {\n    translate = [0, 0, -i * width],\n    rotation = {\n      angle = 90 * i,\n      // Rotate around the overall scene's origin.\n      origin = \"global\"\n    }\n  }\n}\nmyCubes = cube(width, [100, 100])\n  |> patternTransform(instances = 4, transform = transform)",
+      "// Parameters\nr = 50 // base radius\nh = 10 // layer height\nt = 0.005 // taper factor [0-1)\n// Defines how to modify each layer of the vase.\n// Each replica is shifted up the Z axis, and has a smoothly-varying radius\nfn transform(replicaId) {\n  scale = r * abs(1 - (t * replicaId)) * (5 + cos(replicaId / 8))\n  return {\n    translate = [0, 0, replicaId * 10],\n    scale = [scale, scale, 0]\n  }\n}\n// Each layer is just a pretty thin cylinder.\nfn layer() {\n  return startSketchOn(XY)\n    // or some other plane idk\n    |> circle(center = [0, 0], radius = 1, tag = $tag1)\n    |> extrude(length = h)\n}\n// The vase is 100 layers tall.\n// The 100 layers are replica of each other, with a slight transformation applied to each.\nvase = layer()\n  |> patternTransform(instances = 100, transform = transform)",
+      "fn transform(i) {\n  // Transform functions can return multiple transforms. They'll be applied in order.\n  return [\n    { translate = [30 * i, 0, 0] },\n    { rotation = { angle = 45 * i } }\n  ]\n}\nstartSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> polygon({\n       radius = 10,\n       numSides = 4,\n       center = [0, 0],\n       inscribed = false\n     }, %)\n  |> extrude(length = 4)\n  |> patternTransform(instances = 3, transform = transform)"
    ]
  },
  {
@ -212155,7 +212155,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Each instance will be shifted along the X axis.\nfn transform(id) {\n  return { translate = [4 * id, 0] }\n}\n\n// Sketch 4 circles.\nsketch001 = startSketchOn('XZ')\n  |> circle(center = [0, 0], radius = 2)\n  |> patternTransform2d(instances = 4, transform = transform)"
+      "// Each instance will be shifted along the X axis.\nfn transform(id) {\n  return { translate = [4 * id, 0] }\n}\n\n// Sketch 4 circles.\nsketch001 = startSketchOn(XZ)\n  |> circle(center = [0, 0], radius = 2)\n  |> patternTransform2d(instances = 4, transform = transform)"
    ]
  },
  {
@ -212183,7 +212183,7 @@
    "unpublished": false,
    "deprecated": true,
    "examples": [
-      "circumference = 70\n\nexampleSketch = startSketchOn(\"XZ\")\n  |> circle(center = [0, 0], radius = circumference / (2 * pi()))\n\nexample = extrude(exampleSketch, length = 5)"
+      "circumference = 70\n\nexampleSketch = startSketchOn(XZ)\n  |> circle(center = [0, 0], radius = circumference / (2 * pi()))\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -212617,7 +212617,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = polar({ angle = 30, length = 5 }), tag = $thing)\n  |> line(end = [0, 5])\n  |> line(end = [segEndX(thing), 0])\n  |> line(end = [-20, 10])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = polar({ angle = 30, length = 5 }), tag = $thing)\n  |> line(end = [0, 5])\n  |> line(end = [segEndX(thing), 0])\n  |> line(end = [-20, 10])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -217535,8 +217535,8 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Create a regular hexagon inscribed in a circle of radius 10\nhex = startSketchOn('XY')\n  |> polygon({\n       radius = 10,\n       numSides = 6,\n       center = [0, 0],\n       inscribed = true\n     }, %)\n\nexample = extrude(hex, length = 5)",
-      "// Create a square circumscribed around a circle of radius 5\nsquare = startSketchOn('XY')\n  |> polygon({\n       radius = 5.0,\n       numSides = 4,\n       center = [10, 10],\n       inscribed = false\n     }, %)\nexample = extrude(square, length = 5)"
+      "// Create a regular hexagon inscribed in a circle of radius 10\nhex = startSketchOn(XY)\n  |> polygon({\n       radius = 10,\n       numSides = 6,\n       center = [0, 0],\n       inscribed = true\n     }, %)\n\nexample = extrude(hex, length = 5)",
+      "// Create a square circumscribed around a circle of radius 5\nsquare = startSketchOn(XY)\n  |> polygon({\n       radius = 5.0,\n       numSides = 4,\n       center = [10, 10],\n       inscribed = false\n     }, %)\nexample = extrude(square, length = 5)"
    ]
  },
  {
@ -222882,7 +222882,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 50, length = pow(5, 2) }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 50, length = pow(5, 2) }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -246619,7 +246619,7 @@
    "examples": [
      "// This function adds two numbers.\nfn add(a, b) {\n  return a + b\n}\n\n// This function adds an array of numbers.\n// It uses the `reduce` function, to call the `add` function on every\n// element of the `arr` parameter. The starting value is 0.\nfn sum(arr) {\n  return reduce(arr, 0, add)\n}\n\n/* The above is basically like this pseudo-code:\nfn sum(arr):\n    sumSoFar = 0\n    for i in arr:\n        sumSoFar = add(sumSoFar, i)\n    return sumSoFar */\n\n// We use `assertEqual` to check that our `sum` function gives the\n// expected result. It's good to check your work!\nassertEqual(sum([1, 2, 3]), 6, 0.00001, \"1 + 2 + 3 summed is 6\")",
      "// This example works just like the previous example above, but it uses\n// an anonymous `add` function as its parameter, instead of declaring a\n// named function outside.\narr = [1, 2, 3]\nsum = reduce(arr, 0, fn(i, result_so_far) {\n  return i + result_so_far\n})\n\n// We use `assertEqual` to check that our `sum` function gives the\n// expected result. It's good to check your work!\nassertEqual(sum, 6, 0.00001, \"1 + 2 + 3 summed is 6\")",
-      "// Declare a function that sketches a decagon.\nfn decagon(radius) {\n  // Each side of the decagon is turned this many degrees from the previous angle.\n  stepAngle = 1 / 10 * TAU\n\n  // Start the decagon sketch at this point.\n  startOfDecagonSketch = startSketchOn('XY')\n    |> startProfileAt([cos(0) * radius, sin(0) * radius], %)\n\n    // Use a `reduce` to draw the remaining decagon sides.\n    // For each number in the array 1..10, run the given function,\n  // which takes a partially-sketched decagon and adds one more edge to it.\n  fullDecagon = reduce([1..10], startOfDecagonSketch, fn(i, partialDecagon) {\n    // Draw one edge of the decagon.\n    x = cos(stepAngle * i) * radius\n    y = sin(stepAngle * i) * radius\n    return line(partialDecagon, end = [x, y])\n  })\n\n  return fullDecagon\n}\n\n/* The `decagon` above is basically like this pseudo-code:\nfn decagon(radius):\n    stepAngle = (1/10) * TAU\n    plane = startSketchOn('XY')\n    startOfDecagonSketch = startProfileAt([(cos(0)*radius), (sin(0) * radius)], plane)\n\n    // Here's the reduce part.\n    partialDecagon = startOfDecagonSketch\n    for i in [1..10]:\n        x = cos(stepAngle * i) * radius\n        y = sin(stepAngle * i) * radius\n        partialDecagon = line(partialDecagon, end = [x, y])\n    fullDecagon = partialDecagon // it's now full\n    return fullDecagon */\n\n// Use the `decagon` function declared above, to sketch a decagon with radius 5.\ndecagon(5.0)\n  |> close()"
+      "// Declare a function that sketches a decagon.\nfn decagon(radius) {\n  // Each side of the decagon is turned this many degrees from the previous angle.\n  stepAngle = 1 / 10 * TAU\n\n  // Start the decagon sketch at this point.\n  startOfDecagonSketch = startSketchOn(XY)\n    |> startProfileAt([cos(0) * radius, sin(0) * radius], %)\n\n    // Use a `reduce` to draw the remaining decagon sides.\n    // For each number in the array 1..10, run the given function,\n  // which takes a partially-sketched decagon and adds one more edge to it.\n  fullDecagon = reduce([1..10], startOfDecagonSketch, fn(i, partialDecagon) {\n    // Draw one edge of the decagon.\n    x = cos(stepAngle * i) * radius\n    y = sin(stepAngle * i) * radius\n    return line(partialDecagon, end = [x, y])\n  })\n\n  return fullDecagon\n}\n\n/* The `decagon` above is basically like this pseudo-code:\nfn decagon(radius):\n    stepAngle = (1/10) * TAU\n    plane = startSketchOn('XY')\n    startOfDecagonSketch = startProfileAt([(cos(0)*radius), (sin(0) * radius)], plane)\n\n    // Here's the reduce part.\n    partialDecagon = startOfDecagonSketch\n    for i in [1..10]:\n        x = cos(stepAngle * i) * radius\n        y = sin(stepAngle * i) * radius\n        partialDecagon = line(partialDecagon, end = [x, y])\n    fullDecagon = partialDecagon // it's now full\n    return fullDecagon */\n\n// Use the `decagon` function declared above, to sketch a decagon with radius 5.\ndecagon(5.0)\n  |> close()"
    ]
  },
  {
@ -258340,17 +258340,17 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "part001 = startSketchOn('XY')\n  |> startProfileAt([4, 12], %)\n  |> line(end = [2, 0])\n  |> line(end = [0, -6])\n  |> line(end = [4, -6])\n  |> line(end = [0, -6])\n  |> line(end = [-3.75, -4.5])\n  |> line(end = [0, -5.5])\n  |> line(end = [-2, 0])\n  |> close()\n  |> revolve(axis = 'y') // default angle is 360",
-      "// A donut shape.\nsketch001 = startSketchOn('XY')\n  |> circle(center = [15, 0], radius = 5)\n  |> revolve(angle = 360, axis = 'y')",
-      "part001 = startSketchOn('XY')\n  |> startProfileAt([4, 12], %)\n  |> line(end = [2, 0])\n  |> line(end = [0, -6])\n  |> line(end = [4, -6])\n  |> line(end = [0, -6])\n  |> line(end = [-3.75, -4.5])\n  |> line(end = [0, -5.5])\n  |> line(end = [-2, 0])\n  |> close()\n  |> revolve(axis = 'y', angle = 180)",
-      "part001 = startSketchOn('XY')\n  |> startProfileAt([4, 12], %)\n  |> line(end = [2, 0])\n  |> line(end = [0, -6])\n  |> line(end = [4, -6])\n  |> line(end = [0, -6])\n  |> line(end = [-3.75, -4.5])\n  |> line(end = [0, -5.5])\n  |> line(end = [-2, 0])\n  |> close()\n  |> revolve(axis = 'y', angle = 180)\n\npart002 = startSketchOn(part001, 'end')\n  |> startProfileAt([4.5, -5], %)\n  |> line(end = [0, 5])\n  |> line(end = [5, 0])\n  |> line(end = [0, -5])\n  |> close()\n  |> extrude(length = 5)",
-      "box = startSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20])\n  |> line(end = [20, 0])\n  |> line(end = [0, -20])\n  |> close()\n  |> extrude(length = 20)\n\nsketch001 = startSketchOn(box, \"END\")\n  |> circle(center = [10, 10], radius = 4)\n  |> revolve(angle = -90, axis = 'y')",
-      "box = startSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20])\n  |> line(end = [20, 0])\n  |> line(end = [0, -20], tag = $revolveAxis)\n  |> close()\n  |> extrude(length = 20)\n\nsketch001 = startSketchOn(box, \"END\")\n  |> circle(center = [10, 10], radius = 4)\n  |> revolve(angle = 90, axis = getOppositeEdge(revolveAxis))",
-      "box = startSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20])\n  |> line(end = [20, 0])\n  |> line(end = [0, -20], tag = $revolveAxis)\n  |> close()\n  |> extrude(length = 20)\n\nsketch001 = startSketchOn(box, \"END\")\n  |> circle(center = [10, 10], radius = 4)\n  |> revolve(angle = 90, axis = getOppositeEdge(revolveAxis), tolerance = 0.0001)",
-      "sketch001 = startSketchOn('XY')\n  |> startProfileAt([10, 0], %)\n  |> line(end = [5, -5])\n  |> line(end = [5, 5])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\npart001 = revolve(\n  sketch001,\n  axis = {\n    custom = {\n      axis = [0.0, 1.0],\n      origin = [0.0, 0.0]\n    }\n  },\n)",
-      "// Revolve two sketches around the same axis.\n\n\nsketch001 = startSketchOn('XY')\nprofile001 = startProfileAt([4, 8], sketch001)\n  |> xLine(length = 3)\n  |> yLine(length = -3)\n  |> xLine(length = -3)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\nprofile002 = startProfileAt([-5, 8], sketch001)\n  |> xLine(length = 3)\n  |> yLine(length = -3)\n  |> xLine(length = -3)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\nrevolve([profile001, profile002], axis = \"X\")",
-      "// Revolve around a path that has not been extruded.\n\n\nprofile001 = startSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20], tag = $revolveAxis)\n  |> line(end = [20, 0])\n  |> line(end = [0, -20])\n  |> close(%)\n\nsketch001 = startSketchOn('XY')\n  |> circle(center = [-10, 10], radius = 4)\n  |> revolve(angle = 90, axis = revolveAxis)",
-      "// Revolve around a path that has not been extruded or closed.\n\n\nprofile001 = startSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20], tag = $revolveAxis)\n  |> line(end = [20, 0])\n\nsketch001 = startSketchOn('XY')\n  |> circle(center = [-10, 10], radius = 4)\n  |> revolve(angle = 90, axis = revolveAxis)"
+      "part001 = startSketchOn(XY)\n  |> startProfileAt([4, 12], %)\n  |> line(end = [2, 0])\n  |> line(end = [0, -6])\n  |> line(end = [4, -6])\n  |> line(end = [0, -6])\n  |> line(end = [-3.75, -4.5])\n  |> line(end = [0, -5.5])\n  |> line(end = [-2, 0])\n  |> close()\n  |> revolve(axis = 'y') // default angle is 360",
+      "// A donut shape.\nsketch001 = startSketchOn(XY)\n  |> circle(center = [15, 0], radius = 5)\n  |> revolve(angle = 360, axis = 'y')",
+      "part001 = startSketchOn(XY)\n  |> startProfileAt([4, 12], %)\n  |> line(end = [2, 0])\n  |> line(end = [0, -6])\n  |> line(end = [4, -6])\n  |> line(end = [0, -6])\n  |> line(end = [-3.75, -4.5])\n  |> line(end = [0, -5.5])\n  |> line(end = [-2, 0])\n  |> close()\n  |> revolve(axis = 'y', angle = 180)",
+      "part001 = startSketchOn(XY)\n  |> startProfileAt([4, 12], %)\n  |> line(end = [2, 0])\n  |> line(end = [0, -6])\n  |> line(end = [4, -6])\n  |> line(end = [0, -6])\n  |> line(end = [-3.75, -4.5])\n  |> line(end = [0, -5.5])\n  |> line(end = [-2, 0])\n  |> close()\n  |> revolve(axis = 'y', angle = 180)\n\npart002 = startSketchOn(part001, 'end')\n  |> startProfileAt([4.5, -5], %)\n  |> line(end = [0, 5])\n  |> line(end = [5, 0])\n  |> line(end = [0, -5])\n  |> close()\n  |> extrude(length = 5)",
+      "box = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20])\n  |> line(end = [20, 0])\n  |> line(end = [0, -20])\n  |> close()\n  |> extrude(length = 20)\n\nsketch001 = startSketchOn(box, \"END\")\n  |> circle(center = [10, 10], radius = 4)\n  |> revolve(angle = -90, axis = 'y')",
+      "box = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20])\n  |> line(end = [20, 0])\n  |> line(end = [0, -20], tag = $revolveAxis)\n  |> close()\n  |> extrude(length = 20)\n\nsketch001 = startSketchOn(box, \"END\")\n  |> circle(center = [10, 10], radius = 4)\n  |> revolve(angle = 90, axis = getOppositeEdge(revolveAxis))",
+      "box = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20])\n  |> line(end = [20, 0])\n  |> line(end = [0, -20], tag = $revolveAxis)\n  |> close()\n  |> extrude(length = 20)\n\nsketch001 = startSketchOn(box, \"END\")\n  |> circle(center = [10, 10], radius = 4)\n  |> revolve(angle = 90, axis = getOppositeEdge(revolveAxis), tolerance = 0.0001)",
+      "sketch001 = startSketchOn(XY)\n  |> startProfileAt([10, 0], %)\n  |> line(end = [5, -5])\n  |> line(end = [5, 5])\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\npart001 = revolve(\n  sketch001,\n  axis = {\n    custom = {\n      axis = [0.0, 1.0],\n      origin = [0.0, 0.0]\n    }\n  },\n)",
+      "// Revolve two sketches around the same axis.\n\n\nsketch001 = startSketchOn(XY)\nprofile001 = startProfileAt([4, 8], sketch001)\n  |> xLine(length = 3)\n  |> yLine(length = -3)\n  |> xLine(length = -3)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\nprofile002 = startProfileAt([-5, 8], sketch001)\n  |> xLine(length = 3)\n  |> yLine(length = -3)\n  |> xLine(length = -3)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\nrevolve([profile001, profile002], axis = \"X\")",
+      "// Revolve around a path that has not been extruded.\n\n\nprofile001 = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20], tag = $revolveAxis)\n  |> line(end = [20, 0])\n  |> line(end = [0, -20])\n  |> close(%)\n\nsketch001 = startSketchOn(XY)\n  |> circle(center = [-10, 10], radius = 4)\n  |> revolve(angle = 90, axis = revolveAxis)",
+      "// Revolve around a path that has not been extruded or closed.\n\n\nprofile001 = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20], tag = $revolveAxis)\n  |> line(end = [20, 0])\n\nsketch001 = startSketchOn(XY)\n  |> circle(center = [-10, 10], radius = 4)\n  |> revolve(angle = 90, axis = revolveAxis)"
    ]
  },
  {
@ -271286,11 +271286,11 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Rotate a pipe with roll, pitch, and yaw.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn('XZ')\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> rotate(roll = 10, pitch = 10, yaw = 90)",
-      "// Rotate a pipe about an axis with an angle.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn('XZ')\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> rotate(axis = [0, 0, 1.0], angle = 90)",
+      "// Rotate a pipe with roll, pitch, and yaw.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn(XZ)\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> rotate(roll = 10, pitch = 10, yaw = 90)",
+      "// Rotate a pipe about an axis with an angle.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn(XZ)\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> rotate(axis = [0, 0, 1.0], angle = 90)",
      "// Rotate an imported model.\n\n\nimport \"tests/inputs/cube.sldprt\" as cube\n\ncube\n  |> rotate(axis = [0, 0, 1.0], angle = 90)",
-      "// Sweep two sketches along the same path.\n\n\nsketch001 = startSketchOn('XY')\nrectangleSketch = startProfileAt([-200, 23.86], sketch001)\n  |> angledLine([0, 73.47], %, $rectangleSegmentA001)\n  |> angledLine([\n       segAng(rectangleSegmentA001) - 90,\n       50.61\n     ], %)\n  |> angledLine([\n       segAng(rectangleSegmentA001),\n       -segLen(rectangleSegmentA001)\n     ], %)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn('YZ')\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nparts = sweep([rectangleSketch, circleSketch], path = sweepPath)\n\n// Rotate the sweeps.\nrotate(parts, axis = [0, 0, 1.0], angle = 90)",
-      "// Translate and rotate a sketch to create a loft.\nsketch001 = startSketchOn('XY')\n\nfn square() {\n  return startProfileAt([-10, 10], sketch001)\n    |> xLine(length = 20)\n    |> yLine(length = -20)\n    |> xLine(length = -20)\n    |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n    |> close()\n}\n\nprofile001 = square()\n\nprofile002 = square()\n  |> translate(translate = [0, 0, 20])\n  |> rotate(axis = [0, 0, 1.0], angle = 45)\n\nloft([profile001, profile002])"
+      "// Sweep two sketches along the same path.\n\n\nsketch001 = startSketchOn(XY)\nrectangleSketch = startProfileAt([-200, 23.86], sketch001)\n  |> angledLine([0, 73.47], %, $rectangleSegmentA001)\n  |> angledLine([\n       segAng(rectangleSegmentA001) - 90,\n       50.61\n     ], %)\n  |> angledLine([\n       segAng(rectangleSegmentA001),\n       -segLen(rectangleSegmentA001)\n     ], %)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn(YZ)\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nparts = sweep([rectangleSketch, circleSketch], path = sweepPath)\n\n// Rotate the sweeps.\nrotate(parts, axis = [0, 0, 1.0], angle = 90)",
+      "// Translate and rotate a sketch to create a loft.\nsketch001 = startSketchOn(XY)\n\nfn square() {\n  return startProfileAt([-10, 10], sketch001)\n    |> xLine(length = 20)\n    |> yLine(length = -20)\n    |> xLine(length = -20)\n    |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n    |> close()\n}\n\nprofile001 = square()\n\nprofile002 = square()\n  |> translate(translate = [0, 0, 20])\n  |> rotate(axis = [0, 0, 1.0], angle = 45)\n\nloft([profile001, profile002])"
    ]
  },
  {
@ -271332,7 +271332,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "sketch001 = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(endAbsolute = [12, 10])\n  |> line(end = [round(7.02986), 0])\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
+      "sketch001 = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(endAbsolute = [12, 10])\n  |> line(end = [round(7.02986), 0])\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nextrude001 = extrude(sketch001, length = 5)"
    ]
  },
  {
@ -277877,9 +277877,9 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Scale a pipe.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn('XZ')\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> scale(scale = [1.0, 1.0, 2.5])",
+      "// Scale a pipe.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn(XZ)\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> scale(scale = [1.0, 1.0, 2.5])",
      "// Scale an imported model.\n\n\nimport \"tests/inputs/cube.sldprt\" as cube\n\ncube\n  |> scale(scale = [1.0, 1.0, 2.5])",
-      "// Sweep two sketches along the same path.\n\n\nsketch001 = startSketchOn('XY')\nrectangleSketch = startProfileAt([-200, 23.86], sketch001)\n  |> angledLine([0, 73.47], %, $rectangleSegmentA001)\n  |> angledLine([\n       segAng(rectangleSegmentA001) - 90,\n       50.61\n     ], %)\n  |> angledLine([\n       segAng(rectangleSegmentA001),\n       -segLen(rectangleSegmentA001)\n     ], %)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn('YZ')\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nparts = sweep([rectangleSketch, circleSketch], path = sweepPath)\n\n// Scale the sweep.\nscale(parts, scale = [1.0, 1.0, 0.5])"
+      "// Sweep two sketches along the same path.\n\n\nsketch001 = startSketchOn(XY)\nrectangleSketch = startProfileAt([-200, 23.86], sketch001)\n  |> angledLine([0, 73.47], %, $rectangleSegmentA001)\n  |> angledLine([\n       segAng(rectangleSegmentA001) - 90,\n       50.61\n     ], %)\n  |> angledLine([\n       segAng(rectangleSegmentA001),\n       -segLen(rectangleSegmentA001)\n     ], %)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn(YZ)\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nparts = sweep([rectangleSketch, circleSketch], path = sweepPath)\n\n// Scale the sweep.\nscale(parts, scale = [1.0, 1.0, 0.5])"
    ]
  },
  {
@ -277927,7 +277927,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> line(end = [5, 10], tag = $seg01)\n  |> line(end = [-10, 0])\n  |> angledLine([segAng(seg01), 10], %)\n  |> line(end = [-10, 0])\n  |> angledLine([segAng(seg01), -15], %)\n  |> close()\n\nexample = extrude(exampleSketch, length = 4)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0])\n  |> line(end = [5, 10], tag = $seg01)\n  |> line(end = [-10, 0])\n  |> angledLine([segAng(seg01), 10], %)\n  |> line(end = [-10, 0])\n  |> angledLine([segAng(seg01), -15], %)\n  |> close()\n\nexample = extrude(exampleSketch, length = 4)"
    ]
  },
  {
@ -277980,7 +277980,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "w = 15\ncube = startSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [w, 0], tag = $line1)\n  |> line(end = [0, w], tag = $line2)\n  |> line(end = [-w, 0], tag = $line3)\n  |> line(end = [0, -w], tag = $line4)\n  |> close()\n  |> extrude(length = 5)\n\nfn cylinder(radius, tag) {\n  return startSketchOn('XY')\n    |> startProfileAt([0, 0], %)\n    |> circle(radius = radius, center = segEnd(tag))\n    |> extrude(length = radius)\n}\n\ncylinder(1, line1)\ncylinder(2, line2)\ncylinder(3, line3)\ncylinder(4, line4)"
+      "w = 15\ncube = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [w, 0], tag = $line1)\n  |> line(end = [0, w], tag = $line2)\n  |> line(end = [-w, 0], tag = $line3)\n  |> line(end = [0, -w], tag = $line4)\n  |> close()\n  |> extrude(length = 5)\n\nfn cylinder(radius, tag) {\n  return startSketchOn(XY)\n    |> startProfileAt([0, 0], %)\n    |> circle(radius = radius, center = segEnd(tag))\n    |> extrude(length = radius)\n}\n\ncylinder(1, line1)\ncylinder(2, line2)\ncylinder(3, line3)\ncylinder(4, line4)"
    ]
  },
  {
@ -278028,7 +278028,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0], tag = $thing)\n  |> line(end = [0, 5])\n  |> line(end = [segEndX(thing), 0])\n  |> line(end = [-20, 10])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0], tag = $thing)\n  |> line(end = [0, 5])\n  |> line(end = [segEndX(thing), 0])\n  |> line(end = [-20, 10])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -278076,7 +278076,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0])\n  |> line(end = [0, 3], tag = $thing)\n  |> line(end = [-10, 0])\n  |> line(end = [0, segEndY(thing)])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0])\n  |> line(end = [0, 3], tag = $thing)\n  |> line(end = [-10, 0])\n  |> line(end = [0, segEndY(thing)])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -278124,7 +278124,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 60, length = 10 }, %, $thing)\n  |> tangentialArc({ offset = -120, radius = 5 }, %)\n  |> angledLine({ angle = -60, length = segLen(thing) }, %)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 60, length = 10 }, %, $thing)\n  |> tangentialArc({ offset = -120, radius = 5 }, %)\n  |> angledLine({ angle = -60, length = segLen(thing) }, %)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -278177,7 +278177,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "w = 15\ncube = startSketchOn('XY')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [w, 0], tag = $line1)\n  |> line(end = [0, w], tag = $line2)\n  |> line(end = [-w, 0], tag = $line3)\n  |> line(end = [0, -w], tag = $line4)\n  |> close()\n  |> extrude(length = 5)\n\nfn cylinder(radius, tag) {\n  return startSketchOn('XY')\n    |> startProfileAt([0, 0], %)\n    |> circle(radius = radius, center = segStart(tag))\n    |> extrude(length = radius)\n}\n\ncylinder(1, line1)\ncylinder(2, line2)\ncylinder(3, line3)\ncylinder(4, line4)"
+      "w = 15\ncube = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [w, 0], tag = $line1)\n  |> line(end = [0, w], tag = $line2)\n  |> line(end = [-w, 0], tag = $line3)\n  |> line(end = [0, -w], tag = $line4)\n  |> close()\n  |> extrude(length = 5)\n\nfn cylinder(radius, tag) {\n  return startSketchOn(XY)\n    |> startProfileAt([0, 0], %)\n    |> circle(radius = radius, center = segStart(tag))\n    |> extrude(length = radius)\n}\n\ncylinder(1, line1)\ncylinder(2, line2)\ncylinder(3, line3)\ncylinder(4, line4)"
    ]
  },
  {
@ -278225,7 +278225,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0], tag = $thing)\n  |> line(end = [0, 5])\n  |> line(end = [20 - segStartX(thing), 0])\n  |> line(end = [-20, 10])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0], tag = $thing)\n  |> line(end = [0, 5])\n  |> line(end = [20 - segStartX(thing), 0])\n  |> line(end = [-20, 10])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -278273,7 +278273,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0])\n  |> line(end = [0, 3], tag = $thing)\n  |> line(end = [-10, 0])\n  |> line(end = [0, 20 - segStartY(thing)])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0])\n  |> line(end = [0, 3], tag = $thing)\n  |> line(end = [-10, 0])\n  |> line(end = [0, 20 - segStartY(thing)])\n  |> line(end = [-10, 0])\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -284714,13 +284714,13 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Remove the end face for the extrusion.\nfirstSketch = startSketchOn('XY')\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n\n// Remove the end face for the extrusion.\nshell(firstSketch, faces = ['end'], thickness = 0.25)",
-      "// Remove the start face for the extrusion.\nfirstSketch = startSketchOn('-XZ')\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n\n// Remove the start face for the extrusion.\nshell(firstSketch, faces = ['start'], thickness = 0.25)",
-      "// Remove a tagged face and the end face for the extrusion.\nfirstSketch = startSketchOn('XY')\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0], tag = $myTag)\n  |> close()\n  |> extrude(length = 6)\n\n// Remove a tagged face for the extrusion.\nshell(firstSketch, faces = [myTag], thickness = 0.25)",
-      "// Remove multiple faces at once.\nfirstSketch = startSketchOn('XY')\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0], tag = $myTag)\n  |> close()\n  |> extrude(length = 6)\n\n// Remove a tagged face and the end face for the extrusion.\nshell(firstSketch, faces = [myTag, 'end'], thickness = 0.25)",
-      "// Shell a sketch on face.\nsize = 100\ncase = startSketchOn('-XZ')\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close()\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n// We put \"case\" in the shell function to shell the entire object.\nshell(case, faces = ['start'], thickness = 5)",
-      "// Shell a sketch on face object on the end face.\nsize = 100\ncase = startSketchOn('XY')\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close()\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n// We put \"thing1\" in the shell function to shell the end face of the object.\nshell(thing1, faces = ['end'], thickness = 5)",
-      "// Shell sketched on face objects on the end face, include all sketches to shell\n// the entire object.\n\n\nsize = 100\ncase = startSketchOn('XY')\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close()\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n// We put \"thing1\" and \"thing2\" in the shell function to shell the end face of the object.\nshell([thing1, thing2], faces = ['end'], thickness = 5)"
+      "// Remove the end face for the extrusion.\nfirstSketch = startSketchOn(XY)\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n\n// Remove the end face for the extrusion.\nshell(firstSketch, faces = ['end'], thickness = 0.25)",
+      "// Remove the start face for the extrusion.\nfirstSketch = startSketchOn(-XZ)\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0])\n  |> close()\n  |> extrude(length = 6)\n\n// Remove the start face for the extrusion.\nshell(firstSketch, faces = ['start'], thickness = 0.25)",
+      "// Remove a tagged face and the end face for the extrusion.\nfirstSketch = startSketchOn(XY)\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0], tag = $myTag)\n  |> close()\n  |> extrude(length = 6)\n\n// Remove a tagged face for the extrusion.\nshell(firstSketch, faces = [myTag], thickness = 0.25)",
+      "// Remove multiple faces at once.\nfirstSketch = startSketchOn(XY)\n  |> startProfileAt([-12, 12], %)\n  |> line(end = [24, 0])\n  |> line(end = [0, -24])\n  |> line(end = [-24, 0], tag = $myTag)\n  |> close()\n  |> extrude(length = 6)\n\n// Remove a tagged face and the end face for the extrusion.\nshell(firstSketch, faces = [myTag, 'end'], thickness = 0.25)",
+      "// Shell a sketch on face.\nsize = 100\ncase = startSketchOn(-XZ)\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close()\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n// We put \"case\" in the shell function to shell the entire object.\nshell(case, faces = ['start'], thickness = 5)",
+      "// Shell a sketch on face object on the end face.\nsize = 100\ncase = startSketchOn(XY)\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close()\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n// We put \"thing1\" in the shell function to shell the end face of the object.\nshell(thing1, faces = ['end'], thickness = 5)",
+      "// Shell sketched on face objects on the end face, include all sketches to shell\n// the entire object.\n\n\nsize = 100\ncase = startSketchOn(XY)\n  |> startProfileAt([-size, -size], %)\n  |> line(end = [2 * size, 0])\n  |> line(end = [0, 2 * size])\n  |> tangentialArcTo([-size, size], %)\n  |> close()\n  |> extrude(length = 65)\n\nthing1 = startSketchOn(case, 'end')\n  |> circle(center = [-size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\nthing2 = startSketchOn(case, 'end')\n  |> circle(center = [size / 2, -size / 2], radius = 25)\n  |> extrude(length = 50)\n\n// We put \"thing1\" and \"thing2\" in the shell function to shell the end face of the object.\nshell([thing1, thing2], faces = ['end'], thickness = 5)"
    ]
  },
  {
@ -284762,7 +284762,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 50, length = sqrt(2500) }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 50, length = sqrt(2500) }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -299941,7 +299941,7 @@
    "unpublished": false,
    "deprecated": true,
    "examples": [
-      "fn cube(center) {\n  return startSketchOn('XY')\n    |> startProfileAt([center[0] - 10, center[1] - 10], %)\n    |> line(endAbsolute = [center[0] + 10, center[1] - 10])\n    |> line(endAbsolute = [center[0] + 10, center[1] + 10])\n    |> line(endAbsolute = [center[0] - 10, center[1] + 10])\n    |> close()\n    |> extrude(length = 10)\n}\n\npart001 = cube([0, 0])\npart002 = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 2)\n  |> extrude(length = 10)\n\nsubtractedPart = subtract([part001], tools = [part002])"
+      "fn cube(center) {\n  return startSketchOn(XY)\n    |> startProfileAt([center[0] - 10, center[1] - 10], %)\n    |> line(endAbsolute = [center[0] + 10, center[1] - 10])\n    |> line(endAbsolute = [center[0] + 10, center[1] + 10])\n    |> line(endAbsolute = [center[0] - 10, center[1] + 10])\n    |> close()\n    |> extrude(length = 10)\n}\n\npart001 = cube([0, 0])\npart002 = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 2)\n  |> extrude(length = 10)\n\nsubtractedPart = subtract([part001], tools = [part002])"
    ]
  },
  {
@ -311369,9 +311369,10 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Create a pipe using a sweep.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn('XZ')\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)",
-      "// Create a spring by sweeping around a helix path.\n\n// Create a helix around the Z axis.\nhelixPath = helix(\n  angleStart = 0,\n  ccw = true,\n  revolutions = 4,\n  length = 10,\n  radius = 5,\n  axis = 'Z',\n)\n\n// Create a spring by sweeping around the helix path.\nspringSketch = startSketchOn('YZ')\n  |> circle(center = [0, 0], radius = 1)\n  |> sweep(path = helixPath)",
-      "// Sweep two sketches along the same path.\n\n\nsketch001 = startSketchOn('XY')\nrectangleSketch = startProfileAt([-200, 23.86], sketch001)\n  |> angledLine([0, 73.47], %, $rectangleSegmentA001)\n  |> angledLine([\n       segAng(rectangleSegmentA001) - 90,\n       50.61\n     ], %)\n  |> angledLine([\n       segAng(rectangleSegmentA001),\n       -segLen(rectangleSegmentA001)\n     ], %)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn('YZ')\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nsweep([rectangleSketch, circleSketch], path = sweepPath)"
+      "// Create a pipe using a sweep.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn(XZ)\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)",
+      "// Create a spring by sweeping around a helix path.\n\n// Create a helix around the Z axis.\nhelixPath = helix(\n  angleStart = 0,\n  ccw = true,\n  revolutions = 4,\n  length = 10,\n  radius = 5,\n  axis = 'Z',\n)\n\n// Create a spring by sweeping around the helix path.\nspringSketch = startSketchOn(YZ)\n  |> circle(center = [0, 0], radius = 1)\n  |> sweep(path = helixPath)",
+      "// Sweep two sketches along the same path.\n\n\nsketch001 = startSketchOn(XY)\nrectangleSketch = startProfileAt([-200, 23.86], sketch001)\n  |> angledLine([0, 73.47], %, $rectangleSegmentA001)\n  |> angledLine([\n       segAng(rectangleSegmentA001) - 90,\n       50.61\n     ], %)\n  |> angledLine([\n       segAng(rectangleSegmentA001),\n       -segLen(rectangleSegmentA001)\n     ], %)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn(YZ)\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nsweep([rectangleSketch, circleSketch], path = sweepPath)",
+      "// Sectionally sweep one sketch along the path\n\n\nsketch001 = startSketchOn(XY)\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn(YZ)\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nsweep(circleSketch, path = sweepPath, sectional = true)"
    ]
  },
  {
@ -311419,11 +311420,11 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Horizontal pill.\npillSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0])\n  |> tangentialArcToRelative([0, 10], %, $arc1)\n  |> angledLine({\n       angle = tangentToEnd(arc1),\n       length = 20\n     }, %)\n  |> tangentialArcToRelative([0, -10], %)\n  |> close()\n\npillExtrude = extrude(pillSketch, length = 10)",
-      "// Vertical pill.  Use absolute coordinate for arc.\npillSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20])\n  |> tangentialArcTo([10, 20], %, $arc1)\n  |> angledLine({\n       angle = tangentToEnd(arc1),\n       length = 20\n     }, %)\n  |> tangentialArcToRelative([-10, 0], %)\n  |> close()\n\npillExtrude = extrude(pillSketch, length = 10)",
-      "rectangleSketch = startSketchOn('XZ')\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0], tag = $seg1)\n  |> angledLine({\n       angle = tangentToEnd(seg1),\n       length = 10\n     }, %)\n  |> line(end = [0, 10])\n  |> line(end = [-20, 0])\n  |> close()\n\nrectangleExtrude = extrude(rectangleSketch, length = 10)",
-      "bottom = startSketchOn(\"XY\")\n  |> startProfileAt([0, 0], %)\n  |> arcTo({ end = [10, 10], interior = [5, 1] }, %, $arc1)\n  |> angledLine([tangentToEnd(arc1), 20], %)\n  |> close()",
-      "circSketch = startSketchOn(\"XY\")\n  |> circle(center = [0, 0], radius = 3, tag = $circ)\n\ntriangleSketch = startSketchOn(\"XY\")\n  |> startProfileAt([-5, 0], %)\n  |> angledLine([tangentToEnd(circ), 10], %)\n  |> line(end = [-15, 0])\n  |> close()"
+      "// Horizontal pill.\npillSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [20, 0])\n  |> tangentialArcToRelative([0, 10], %, $arc1)\n  |> angledLine({\n       angle = tangentToEnd(arc1),\n       length = 20\n     }, %)\n  |> tangentialArcToRelative([0, -10], %)\n  |> close()\n\npillExtrude = extrude(pillSketch, length = 10)",
+      "// Vertical pill.  Use absolute coordinate for arc.\npillSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [0, 20])\n  |> tangentialArcTo([10, 20], %, $arc1)\n  |> angledLine({\n       angle = tangentToEnd(arc1),\n       length = 20\n     }, %)\n  |> tangentialArcToRelative([-10, 0], %)\n  |> close()\n\npillExtrude = extrude(pillSketch, length = 10)",
+      "rectangleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> line(end = [10, 0], tag = $seg1)\n  |> angledLine({\n       angle = tangentToEnd(seg1),\n       length = 10\n     }, %)\n  |> line(end = [0, 10])\n  |> line(end = [-20, 0])\n  |> close()\n\nrectangleExtrude = extrude(rectangleSketch, length = 10)",
+      "bottom = startSketchOn(XY)\n  |> startProfileAt([0, 0], %)\n  |> arcTo({ end = [10, 10], interior = [5, 1] }, %, $arc1)\n  |> angledLine([tangentToEnd(arc1), 20], %)\n  |> close()",
+      "circSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 3, tag = $circ)\n\ntriangleSketch = startSketchOn(XY)\n  |> startProfileAt([-5, 0], %)\n  |> angledLine([tangentToEnd(circ), 10], %)\n  |> line(end = [-15, 0])\n  |> close()"
    ]
  },
  {
@ -326295,7 +326296,7 @@
    "unpublished": false,
    "deprecated": true,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 50, length = 10 * tau() }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({ angle = 50, length = 10 * tau() }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -326337,7 +326338,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = 50,\n       length = 70 * cos(toDegrees(pi() / 4))\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = 50,\n       length = 70 * cos(toDegrees(pi() / 4))\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -326379,7 +326380,7 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "exampleSketch = startSketchOn(\"XZ\")\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = 50,\n       length = 70 * cos(toRadians(45))\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
+      "exampleSketch = startSketchOn(XZ)\n  |> startProfileAt([0, 0], %)\n  |> angledLine({\n       angle = 50,\n       length = 70 * cos(toRadians(45))\n     }, %)\n  |> yLine(endAbsolute = 0)\n  |> close()\n\nexample = extrude(exampleSketch, length = 5)"
    ]
  },
  {
@ -332924,11 +332925,11 @@
    "unpublished": false,
    "deprecated": false,
    "examples": [
-      "// Move a pipe.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn('XZ')\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn('XY')\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> translate(translate = [1.0, 1.0, 2.5])",
+      "// Move a pipe.\n\n// Create a path for the sweep.\nsweepPath = startSketchOn(XZ)\n  |> startProfileAt([0.05, 0.05], %)\n  |> line(end = [0, 7])\n  |> tangentialArc({ offset = 90, radius = 5 }, %)\n  |> line(end = [-3, 0])\n  |> tangentialArc({ offset = -90, radius = 5 }, %)\n  |> line(end = [0, 7])\n\n// Create a hole for the pipe.\npipeHole = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 1.5)\n\nsweepSketch = startSketchOn(XY)\n  |> circle(center = [0, 0], radius = 2)\n  |> hole(pipeHole, %)\n  |> sweep(path = sweepPath)\n  |> translate(translate = [1.0, 1.0, 2.5])",
      "// Move an imported model.\n\n\nimport \"tests/inputs/cube.sldprt\" as cube\n\ncube\n  |> translate(translate = [1.0, 1.0, 2.5])",
-      "// Sweep two sketches along the same path.\n\n\nsketch001 = startSketchOn('XY')\nrectangleSketch = startProfileAt([-200, 23.86], sketch001)\n  |> angledLine([0, 73.47], %, $rectangleSegmentA001)\n  |> angledLine([\n       segAng(rectangleSegmentA001) - 90,\n       50.61\n     ], %)\n  |> angledLine([\n       segAng(rectangleSegmentA001),\n       -segLen(rectangleSegmentA001)\n     ], %)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn('YZ')\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nparts = sweep([rectangleSketch, circleSketch], path = sweepPath)\n\n// Move the sweeps.\ntranslate(parts, translate = [1.0, 1.0, 2.5])",
+      "// Sweep two sketches along the same path.\n\n\nsketch001 = startSketchOn(XY)\nrectangleSketch = startProfileAt([-200, 23.86], sketch001)\n  |> angledLine([0, 73.47], %, $rectangleSegmentA001)\n  |> angledLine([\n       segAng(rectangleSegmentA001) - 90,\n       50.61\n     ], %)\n  |> angledLine([\n       segAng(rectangleSegmentA001),\n       -segLen(rectangleSegmentA001)\n     ], %)\n  |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n  |> close()\n\ncircleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)\n\nsketch002 = startSketchOn(YZ)\nsweepPath = startProfileAt([0, 0], sketch002)\n  |> yLine(length = 231.81)\n  |> tangentialArc({ radius = 80, offset = -90 }, %)\n  |> xLine(length = 384.93)\n\nparts = sweep([rectangleSketch, circleSketch], path = sweepPath)\n\n// Move the sweeps.\ntranslate(parts, translate = [1.0, 1.0, 2.5])",
      "// Move a sketch.\n\n\nfn square(length) {\n  l = length / 2\n  p0 = [-l, -l]\n  p1 = [-l, l]\n  p2 = [l, l]\n  p3 = [l, -l]\n\n  return startSketchOn(XY)\n    |> startProfileAt(p0, %)\n    |> line(endAbsolute = p1)\n    |> line(endAbsolute = p2)\n    |> line(endAbsolute = p3)\n    |> close()\n}\n\nsquare(10)\n  |> translate(translate = [5, 5, 0])\n  |> extrude(length = 10)",
-      "// Translate and rotate a sketch to create a loft.\nsketch001 = startSketchOn('XY')\n\nfn square() {\n  return startProfileAt([-10, 10], sketch001)\n    |> xLine(length = 20)\n    |> yLine(length = -20)\n    |> xLine(length = -20)\n    |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n    |> close()\n}\n\nprofile001 = square()\n\nprofile002 = square()\n  |> translate(translate = [0, 0, 20])\n  |> rotate(axis = [0, 0, 1.0], angle = 45)\n\nloft([profile001, profile002])"
+      "// Translate and rotate a sketch to create a loft.\nsketch001 = startSketchOn(XY)\n\nfn square() {\n  return startProfileAt([-10, 10], sketch001)\n    |> xLine(length = 20)\n    |> yLine(length = -20)\n    |> xLine(length = -20)\n    |> line(endAbsolute = [profileStartX(%), profileStartY(%)])\n    |> close()\n}\n\nprofile001 = square()\n\nprofile002 = square()\n  |> translate(translate = [0, 0, 20])\n  |> rotate(axis = [0, 0, 1.0], angle = 45)\n\nloft([profile001, profile002])"
    ]
  },
  {
@ -336139,7 +336140,7 @@
    "unpublished": false,
    "deprecated": true,
    "examples": [
-      "fn cube(center) {\n  return startSketchOn('XY')\n    |> startProfileAt([center[0] - 10, center[1] - 10], %)\n    |> line(endAbsolute = [center[0] + 10, center[1] - 10])\n    |> line(endAbsolute = [center[0] + 10, center[1] + 10])\n    |> line(endAbsolute = [center[0] - 10, center[1] + 10])\n    |> close()\n    |> extrude(length = 10)\n}\n\npart001 = cube([0, 0])\npart002 = cube([20, 10])\n\nunionedPart = union([part001, part002])"
+      "fn cube(center) {\n  return startSketchOn(XY)\n    |> startProfileAt([center[0] - 10, center[1] - 10], %)\n    |> line(endAbsolute = [center[0] + 10, center[1] - 10])\n    |> line(endAbsolute = [center[0] + 10, center[1] + 10])\n    |> line(endAbsolute = [center[0] - 10, center[1] + 10])\n    |> close()\n    |> extrude(length = 10)\n}\n\npart001 = cube([0, 0])\npart002 = cube([20, 10])\n\nunionedPart = union([part001, part002])"
    ]
  },
  {
--- a/docs/kcl/subtract.md
+++ b/docs/kcl/subtract.md
@ -34,7 +34,7 @@ subtract(

 ```js
 fn cube(center) {
-  return startSketchOn('XY')
+  return startSketchOn(XY)
    |> startProfileAt([center[0] - 10, center[1] - 10], %)
    |> line(endAbsolute = [center[0] + 10, center[1] - 10])
    |> line(endAbsolute = [center[0] + 10, center[1] + 10])
@ -44,7 +44,7 @@ fn cube(center) {
 }

 part001 = cube([0, 0])
-part002 = startSketchOn('XY')
+part002 = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 2)
  |> extrude(length = 10)

--- a/docs/kcl/sweep.md
+++ b/docs/kcl/sweep.md
--- a/docs/kcl/tangentToEnd.md
+++ b/docs/kcl/tangentToEnd.md
--- a/docs/kcl/tau.md
+++ b/docs/kcl/tau.md
@ -28,7 +28,7 @@ tau(): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({ angle = 50, length = 10 * tau() }, %)
  |> yLine(endAbsolute = 0)
--- a/docs/kcl/toDegrees.md
+++ b/docs/kcl/toDegrees.md
@ -31,7 +31,7 @@ toDegrees(num: number): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({
       angle = 50,
--- a/docs/kcl/toRadians.md
+++ b/docs/kcl/toRadians.md
@ -31,7 +31,7 @@ toRadians(num: number): number
 ### Examples

 ```js
-exampleSketch = startSketchOn("XZ")
+exampleSketch = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine({
       angle = 50,
--- a/docs/kcl/translate.md
+++ b/docs/kcl/translate.md
@ -36,7 +36,7 @@ translate(
 // Move a pipe.

 // Create a path for the sweep.
-sweepPath = startSketchOn('XZ')
+sweepPath = startSketchOn(XZ)
  |> startProfileAt([0.05, 0.05], %)
  |> line(end = [0, 7])
  |> tangentialArc({ offset = 90, radius = 5 }, %)
@ -45,10 +45,10 @@ sweepPath = startSketchOn('XZ')
  |> line(end = [0, 7])

 // Create a hole for the pipe.
-pipeHole = startSketchOn('XY')
+pipeHole = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 1.5)

-sweepSketch = startSketchOn('XY')
+sweepSketch = startSketchOn(XY)
  |> circle(center = [0, 0], radius = 2)
  |> hole(pipeHole, %)
  |> sweep(path = sweepPath)
@ -73,7 +73,7 @@ cube
 // Sweep two sketches along the same path.


-sketch001 = startSketchOn('XY')
+sketch001 = startSketchOn(XY)
 rectangleSketch = startProfileAt([-200, 23.86], sketch001)
  |> angledLine([0, 73.47], %, $rectangleSegmentA001)
  |> angledLine([
@ -89,7 +89,7 @@ rectangleSketch = startProfileAt([-200, 23.86], sketch001)

 circleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)

-sketch002 = startSketchOn('YZ')
+sketch002 = startSketchOn(YZ)
 sweepPath = startProfileAt([0, 0], sketch002)
  |> yLine(length = 231.81)
  |> tangentialArc({ radius = 80, offset = -90 }, %)
@ -131,7 +131,7 @@ square(10)

 ```js
 // Translate and rotate a sketch to create a loft.
-sketch001 = startSketchOn('XY')
+sketch001 = startSketchOn(XY)

 fn square() {
  return startProfileAt([-10, 10], sketch001)
--- a/docs/kcl/types/Face.md
+++ b/docs/kcl/types/Face.md
@ -1,28 +1,12 @@
 ---
-title: "Face"
+title: "std::Face"
 excerpt: "A face."
 layout: manual
 ---

 A face.

-**Type:** `object`




-
-## Properties
-
-| Property | Type | Description | Required |
-|----------|------|-------------|----------|
-| `id` |[`string`](/docs/kcl/types/string)| The id of the face. | No |
-| `artifactId` |[`ArtifactId`](/docs/kcl/types/ArtifactId)| The artifact ID. | No |
-| `value` |[`string`](/docs/kcl/types/string)| The tag of the face. | No |
-| `xAxis` |[`Point3d`](/docs/kcl/types/Point3d)| What should the face's X axis be? | No |
-| `yAxis` |[`Point3d`](/docs/kcl/types/Point3d)| What should the face's Y axis be? | No |
-| `zAxis` |[`Point3d`](/docs/kcl/types/Point3d)| The z-axis (normal). | No |
-| `solid` |[`Solid`](/docs/kcl/types/Solid)| The solid the face is on. | No |
-| `units` |[`UnitLen`](/docs/kcl/types/UnitLen)| A unit of length. | No |
-
-
--- a/docs/kcl/types/Helix.md
+++ b/docs/kcl/types/Helix.md
@ -1,26 +1,12 @@
 ---
-title: "Helix"
+title: "std::Helix"
 excerpt: "A helix."
 layout: manual
 ---

 A helix.

-**Type:** `object`




-
-## Properties
-
-| Property | Type | Description | Required |
-|----------|------|-------------|----------|
-| `value` |[`string`](/docs/kcl/types/string)| The id of the helix. | No |
-| `artifactId` |[`ArtifactId`](/docs/kcl/types/ArtifactId)| The artifact ID. | No |
-| `revolutions` |[`number`](/docs/kcl/types/number)| Number of revolutions. | No |
-| `angleStart` |[`number`](/docs/kcl/types/number)| Start angle (in degrees). | No |
-| `ccw` |`boolean`| Is the helix rotation counter clockwise? | No |
-| `units` |[`UnitLen`](/docs/kcl/types/UnitLen)| A unit of length. | No |
-
-
--- a/docs/kcl/types/KclValue.md
+++ b/docs/kcl/types/KclValue.md
@ -188,7 +188,7 @@ Any KCL value.
 | Property | Type | Description | Required |
 |----------|------|-------------|----------|
 | `type` |enum: [`Face`](/docs/kcl/types/Face)|  | No |
-| `value` |[`Face`](/docs/kcl/types/Face)| A face. | No |
+| `value` |[`Face`](/docs/kcl/types/Face)|  | No |


 ----
@ -236,7 +236,7 @@ Any KCL value.
 | Property | Type | Description | Required |
 |----------|------|-------------|----------|
 | `type` |enum: [`Helix`](/docs/kcl/types/Helix)|  | No |
-| `value` |[`Helix`](/docs/kcl/types/Helix)| A helix. | No |
+| `value` |[`Helix`](/docs/kcl/types/Helix)|  | No |


 ----
--- a/docs/kcl/types/Point2d.md
+++ b/docs/kcl/types/Point2d.md
@ -0,0 +1,17 @@
+---
+title: "std::Point2d"
+excerpt: "A point in two dimensional space."
+layout: manual
+---
+
+A point in two dimensional space.
+
+```kcl
+type Point2d = [number; 2]
+```
+
+`Point2d` is an alias for a two-element array of [number](/docs/kcl/types/number)s. To write a value
+with type `Point2d`, use an array, e.g., `[0, 0]` or `[5.0, 3.14]`.
+
+
+
--- a/docs/kcl/types/Point3d.md
+++ b/docs/kcl/types/Point3d.md
@ -1,22 +1,17 @@
 ---
-title: "Point3d"
-excerpt: ""
+title: "std::Point3d"
+excerpt: "A point in three dimensional space."
 layout: manual
 ---

+A point in three dimensional space.

-**Type:** `object`
+```kcl
+type Point3d = [number; 3]
+```
+
+`Point3d` is an alias for a three-element array of [number](/docs/kcl/types/number)s. To write a value
+with type `Point3d`, use an array, e.g., `[0, 0, 0]` or `[5.0, 3.14, 6.8]`.



-
-
-## Properties
-
-| Property | Type | Description | Required |
-|----------|------|-------------|----------|
-| `x` |[`number`](/docs/kcl/types/number)|  | No |
-| `y` |[`number`](/docs/kcl/types/number)|  | No |
-| `z` |[`number`](/docs/kcl/types/number)|  | No |
-
-
--- a/docs/kcl/types/SweepPath.md
+++ b/docs/kcl/types/SweepPath.md
@ -22,7 +22,6 @@ A path to sweep along.


 ----
-A helix.

 [`Helix`](/docs/kcl/types/Helix)

--- a/docs/kcl/union.md
+++ b/docs/kcl/union.md
@ -30,7 +30,7 @@ union(solids: [Solid]): [Solid]

 ```js
 fn cube(center) {
-  return startSketchOn('XY')
+  return startSketchOn(XY)
    |> startProfileAt([center[0] - 10, center[1] - 10], %)
    |> line(endAbsolute = [center[0] + 10, center[1] - 10])
    |> line(endAbsolute = [center[0] + 10, center[1] + 10])
--- a/e2e/playwright/basic-sketch.spec.ts
+++ b/e2e/playwright/basic-sketch.spec.ts
@ -5,6 +5,7 @@ import {
  TEST_COLORS,
  commonPoints,
  PERSIST_MODELING_CONTEXT,
+  orRunWhenFullSuiteEnabled,
 } from './test-utils'
 import { HomePageFixture } from './fixtures/homePageFixture'

@ -46,7 +47,7 @@ async function doBasicSketch(
  await page.mouse.click(700, 200)

  if (openPanes.includes('code')) {
-    await expect(u.codeLocator).toHaveText(`sketch001 = startSketchOn('XZ')`)
+    await expect(u.codeLocator).toHaveText(`sketch001 = startSketchOn(XZ)`)
  }
  await u.closeDebugPanel()

@ -56,7 +57,7 @@ async function doBasicSketch(
  await page.mouse.click(startXPx + PUR * 10, 500 - PUR * 10)
  if (openPanes.includes('code')) {
    await expect(u.codeLocator).toContainText(
-      `sketch001 = startSketchOn('XZ')profile001 = startProfileAt(${commonPoints.startAt}, sketch001)`
+      `sketch001 = startSketchOn(XZ)profile001 = startProfileAt(${commonPoints.startAt}, sketch001)`
    )
  }
  await page.waitForTimeout(500)
@ -65,14 +66,14 @@ async function doBasicSketch(

  if (openPanes.includes('code')) {
    await expect(u.codeLocator)
-      .toHaveText(`sketch001 = startSketchOn('XZ')profile001 = startProfileAt(${commonPoints.startAt}, sketch001)
+      .toHaveText(`sketch001 = startSketchOn(XZ)profile001 = startProfileAt(${commonPoints.startAt}, sketch001)
  |> xLine(length = ${commonPoints.num1})`)
  }
  await page.waitForTimeout(500)
  await page.mouse.click(startXPx + PUR * 20, 500 - PUR * 20)
  if (openPanes.includes('code')) {
    await expect(u.codeLocator)
-      .toHaveText(`sketch001 = startSketchOn('XZ')profile001 = startProfileAt(${
+      .toHaveText(`sketch001 = startSketchOn(XZ)profile001 = startProfileAt(${
      commonPoints.startAt
    }, sketch001)
  |> xLine(length = ${commonPoints.num1})
@ -84,7 +85,7 @@ async function doBasicSketch(
  await page.mouse.click(startXPx, 500 - PUR * 20)
  if (openPanes.includes('code')) {
    await expect(u.codeLocator)
-      .toHaveText(`sketch001 = startSketchOn('XZ')profile001 = startProfileAt(${
+      .toHaveText(`@settings(defaultLengthUnit = in)sketch001 = startSketchOn('XZ')profile001 = startProfileAt(${
      commonPoints.startAt
    }, sketch001)
  |> xLine(length = ${commonPoints.num1})
@ -144,7 +145,7 @@ async function doBasicSketch(
  // Open the code pane.
  await u.openKclCodePanel()
  await expect(u.codeLocator)
-    .toHaveText(`sketch001 = startSketchOn('XZ')profile001 = startProfileAt(${
+    .toHaveText(`@settings(defaultLengthUnit = in)sketch001 = startSketchOn('XZ')profile001 = startProfileAt(${
    commonPoints.startAt
  }, sketch001)
  |> xLine(length = ${commonPoints.num1}, tag = $seg01)
@ -153,7 +154,8 @@ async function doBasicSketch(
 }

 test.describe('Basic sketch', { tag: ['@skipWin'] }, () => {
-  test.fixme('code pane open at start', async ({ page, homePage }) => {
+  test('code pane open at start', async ({ page, homePage }) => {
+    test.fixme(orRunWhenFullSuiteEnabled())
    await doBasicSketch(page, homePage, ['code'])
  })

--- a/e2e/playwright/can-create-sketches-on-all-planes-and-their-back-sides.spec.ts
+++ b/e2e/playwright/can-create-sketches-on-all-planes-and-their-back-sides.spec.ts
@ -46,7 +46,7 @@ test.describe(
        },
      }

-      const code = `sketch001 = startSketchOn('${plane}')profile001 = startProfileAt([0.91, -1.22], sketch001)`
+      const code = `@settings(defaultLengthUnit = in)sketch001 = startSketchOn('${plane}')profile001 = startProfileAt([0.91, -1.22], sketch001)`

      await u.openDebugPanel()

--- a/e2e/playwright/code-pane-and-errors.spec.ts
+++ b/e2e/playwright/code-pane-and-errors.spec.ts
@ -1,6 +1,9 @@
 import { test, expect } from './zoo-test'
-
-import { getUtils, executorInputPath } from './test-utils'
+import {
+  orRunWhenFullSuiteEnabled,
+  getUtils,
+  executorInputPath,
+} from './test-utils'
 import { join } from 'path'
 import { bracket } from 'lib/exampleKcl'
 import { TEST_CODE_LONG_WITH_ERROR_OUT_OF_VIEW } from './storageStates'
@ -19,7 +22,7 @@ test.describe('Code pane and errors', { tag: ['@skipWin'] }, () => {
      localStorage.setItem(
        'persistCode',
        `// Extruded Triangle
-  sketch001 = startSketchOn('XZ')
+  sketch001 = startSketchOn(XZ)
    |> startProfileAt([0, 0], %)
    |> line(end = [10, 0])
    |> line(end = [-5, 10])
@ -46,11 +49,12 @@ test.describe('Code pane and errors', { tag: ['@skipWin'] }, () => {
    await expect(codePaneButtonHolder).toContainText('notification')
  })

-  test.skip('Opening and closing the code pane will consistently show error diagnostics', async ({
+  test('Opening and closing the code pane will consistently show error diagnostics', async ({
    page,
    homePage,
    editor,
  }) => {
+    test.fixme(orRunWhenFullSuiteEnabled())
    const u = await getUtils(page)

    // Load the app with the working starter code
@ -119,9 +123,12 @@ test.describe('Code pane and errors', { tag: ['@skipWin'] }, () => {
    await expect(page.locator('.cm-tooltip').first()).toBeVisible()
  })

-  test.fixme(
-    'When error is not in view you can click the badge to scroll to it',
-    async ({ page, homePage, context }) => {
+  test('When error is not in view you can click the badge to scroll to it', async ({
+    page,
+    homePage,
+    context,
+  }) => {
+    test.fixme(orRunWhenFullSuiteEnabled())
    // Load the app with the working starter code
    await context.addInitScript((code) => {
      localStorage.setItem('persistCode', code)
@ -156,8 +163,7 @@ test.describe('Code pane and errors', { tag: ['@skipWin'] }, () => {
        )
        .first()
    ).toBeVisible()
-    }
-  )
+  })

  test('When error is not in view WITH LINTS you can click the badge to scroll to it', async ({
    context,
@ -244,11 +250,11 @@ test(
      ])
      await Promise.all([
        fsp.copyFile(
-          executorInputPath('router-template-slate.kcl'),
+          executorInputPath('cylinder-inches.kcl'),
          join(routerTemplateDir, 'main.kcl')
        ),
        fsp.copyFile(
-          executorInputPath('focusrite_scarlett_mounting_braket.kcl'),
+          executorInputPath('e2e-can-sketch-on-chamfer.kcl'),
          join(bracketDir, 'main.kcl')
        ),
      ])
--- a/e2e/playwright/command-bar-tests.spec.ts
+++ b/e2e/playwright/command-bar-tests.spec.ts
@ -1,6 +1,10 @@
 import { test, expect } from './zoo-test'
 import * as fsp from 'fs/promises'
-import { executorInputPath, getUtils } from './test-utils'
+import {
+  executorInputPath,
+  getUtils,
+  orRunWhenFullSuiteEnabled,
+} from './test-utils'
 import { KCL_DEFAULT_LENGTH } from 'lib/constants'
 import path, { join } from 'path'

@ -12,7 +16,7 @@ test.describe('Command bar tests', { tag: ['@skipWin'] }, () => {
    await page.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `sketch001 = startSketchOn('XY')
+        `sketch001 = startSketchOn(XY)
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
@ -47,11 +51,12 @@ test.describe('Command bar tests', { tag: ['@skipWin'] }, () => {
  })

  // TODO: fix this test after the electron migration
-  test.fixme('Fillet from command bar', async ({ page, homePage }) => {
+  test('Fillet from command bar', async ({ page, homePage }) => {
+    test.fixme(orRunWhenFullSuiteEnabled())
    await page.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `sketch001 = startSketchOn('XY')
+        `sketch001 = startSketchOn(XY)
    |> startProfileAt([-5, -5], %)
    |> line(end = [0, 10])
    |> line(end = [10, 0])
@ -234,7 +239,7 @@ test.describe('Command bar tests', { tag: ['@skipWin'] }, () => {
      localStorage.setItem(
        'persistCode',
        `distance = sqrt(20)
-    sketch001 = startSketchOn('XZ')
+    sketch001 = startSketchOn(XZ)
    |> startProfileAt([-6.95, 10.98], %)
    |> line(end = [25.1, 0.41])
    |> line(end = [0.73, -20.93])
@ -488,7 +493,7 @@ test.describe('Command bar tests', { tag: ['@skipWin'] }, () => {
    })
  })

-  test(`Can add a named parameter or constant`, async ({
+  test(`Can add and edit a named parameter or constant`, async ({
    page,
    homePage,
    context,
@ -510,7 +515,7 @@ c = 3 + a`
    // but you do because all modeling commands have that requirement
    await scene.settled(cmdBar)

-    await test.step(`Go through the command palette flow`, async () => {
+    await test.step(`Create a parameter via command bar`, async () => {
      await cmdBar.cmdBarOpenBtn.click()
      await cmdBar.chooseCommand('create parameter')
      await cmdBar.expectState({
@ -535,5 +540,57 @@ c = 3 + a`
    await editor.expectEditor.toContain(
      `a = 5b = a * amyParameter001 = b - 5c = 3 + a`
    )
+
+    const newValue = `2 * b + a`
+    await test.step(`Edit the parameter via command bar`, async () => {
+      await cmdBar.cmdBarOpenBtn.click()
+      await cmdBar.chooseCommand('edit parameter')
+      await cmdBar.expectState({
+        stage: 'arguments',
+        commandName: 'Edit parameter',
+        currentArgKey: 'Name',
+        currentArgValue: '',
+        headerArguments: {
+          Name: '',
+          Value: '',
+        },
+        highlightedHeaderArg: 'Name',
+      })
+      await cmdBar
+        .selectOption({
+          name: 'myParameter001',
+        })
+        .click()
+      await cmdBar.expectState({
+        stage: 'arguments',
+        commandName: 'Edit parameter',
+        currentArgKey: 'value',
+        currentArgValue: 'b - 5',
+        headerArguments: {
+          Name: 'myParameter001',
+          Value: '',
+        },
+        highlightedHeaderArg: 'value',
+      })
+      await cmdBar.argumentInput.locator('[contenteditable]').fill(newValue)
+      await cmdBar.progressCmdBar()
+      await cmdBar.expectState({
+        stage: 'review',
+        commandName: 'Edit parameter',
+        headerArguments: {
+          Name: 'myParameter001',
+          // KCL inputs show the *computed* value, not the input value, in the command palette header
+          Value: '55',
+        },
+      })
+      await cmdBar.progressCmdBar()
+      await cmdBar.expectState({
+        stage: 'commandBarClosed',
+      })
+    })
+
+    await editor.expectEditor.toContain(
+      `a = 5b = a * amyParameter001 = ${newValue}c = 3 + a`
+    )
  })
 })
--- a/e2e/playwright/copilot-ghost-test.spec.ts
+++ b/e2e/playwright/copilot-ghost-test.spec.ts
@ -20,7 +20,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -29,7 +29,7 @@ test.describe('Copilot ghost text', () => {
    // We should be able to hit Tab to accept the completion.
    await page.keyboard.press('Tab')
    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )

    // Hit enter a few times.
@ -37,7 +37,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')

    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)    `
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)    `
    )

    await expect(page.locator('.cm-ghostText')).not.toBeVisible()
@ -80,7 +80,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')

    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -89,7 +89,7 @@ test.describe('Copilot ghost text', () => {
    // We should be able to hit Tab to accept the completion.
    await page.keyboard.press('Tab')
    await expect(page.locator('.cm-content')).toContainText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
  })

@ -123,7 +123,7 @@ test.describe('Copilot ghost text', () => {
    await page.waitForTimeout(500)
    await expect(page.locator('.cm-ghostText').first()).not.toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `sketch001 = startSketchOn('XZ')`
+      `sketch001 = startSketchOn(XZ)`
    )

    // Escape to exit the tool.
@ -139,7 +139,7 @@ test.describe('Copilot ghost text', () => {
    await page.waitForTimeout(500)
    await expect(page.locator('.cm-ghostText').first()).not.toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `sketch001 = startSketchOn('XZ')`
+      `sketch001 = startSketchOn(XZ)`
    )

    // Escape again to exit sketch mode.
@ -156,7 +156,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')

    await expect(page.locator('.cm-content')).toHaveText(
-      `sketch001 = startSketchOn('XZ')fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `sketch001 = startSketchOn(XZ)fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -165,7 +165,7 @@ test.describe('Copilot ghost text', () => {
    // We should be able to hit Tab to accept the completion.
    await page.keyboard.press('Tab')
    await expect(page.locator('.cm-content')).toHaveText(
-      `sketch001 = startSketchOn('XZ')fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `sketch001 = startSketchOn(XZ)fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )

    // Hit enter a few times.
@ -173,7 +173,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')

    await expect(page.locator('.cm-content')).toHaveText(
-      `sketch001 = startSketchOn('XZ')fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)    `
+      `sketch001 = startSketchOn(XZ)fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)    `
    )

    await expect(page.locator('.cm-ghostText')).not.toBeVisible()
@ -194,7 +194,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -225,7 +225,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -256,7 +256,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -287,7 +287,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -315,7 +315,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -326,7 +326,7 @@ test.describe('Copilot ghost text', () => {
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()

    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
  })

@ -348,7 +348,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -409,7 +409,7 @@ test.describe('Copilot ghost text', () => {
    await page.keyboard.press('Enter')
    await expect(page.locator('.cm-ghostText').first()).toBeVisible()
    await expect(page.locator('.cm-content')).toHaveText(
-      `{thing: "blah"}fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+      `{thing: "blah"}fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
    )
    await expect(page.locator('.cm-ghostText').first()).toHaveText(
      `fn cube = (pos, scale) => {`
@ -450,7 +450,7 @@ test.describe('Copilot ghost text', () => {
      await page.keyboard.press('Enter')
      await expect(page.locator('.cm-ghostText').first()).toBeVisible()
      await expect(page.locator('.cm-content')).toHaveText(
-        `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+        `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
      )
      await expect(page.locator('.cm-ghostText').first()).toHaveText(
        `fn cube = (pos, scale) => {`
@ -483,7 +483,7 @@ test.describe('Copilot ghost text', () => {
      await page.keyboard.press('Enter')
      await expect(page.locator('.cm-ghostText').first()).toBeVisible()
      await expect(page.locator('.cm-content')).toHaveText(
-        `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+        `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
      )
      await expect(page.locator('.cm-ghostText').first()).toHaveText(
        `fn cube = (pos, scale) => {`
@ -514,7 +514,7 @@ test.describe('Copilot ghost text', () => {
      await page.keyboard.press('Enter')
      await expect(page.locator('.cm-ghostText').first()).toBeVisible()
      await expect(page.locator('.cm-content')).toHaveText(
-        `fn cube = (pos, scale) => {  sg = startSketchOn('XY')    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
+        `fn cube = (pos, scale) => {  sg = startSketchOn(XY)    |> startProfileAt(pos, %)    |> line(end = [0, scale], %)    |> line(end = [scale, 0])    |> line(end = [0, -scale])  return sg}part001 = cube([0,0], 20)    |> close()    |> extrude(length = 20)`
      )
      await expect(page.locator('.cm-ghostText').first()).toHaveText(
        `fn cube = (pos, scale) => {`
--- a/e2e/playwright/debug-pane.spec.ts
+++ b/e2e/playwright/debug-pane.spec.ts
@ -18,7 +18,7 @@ test.describe('Debug pane', () => {
    context,
    homePage,
  }) => {
-    const code = `sketch001 = startSketchOn('XZ')
+    const code = `sketch001 = startSketchOn(XZ)
    |> startProfileAt([0, 0], %)
  |> line(end = [1, 1])
  `
--- a/e2e/playwright/desktop-export.spec.ts
+++ b/e2e/playwright/desktop-export.spec.ts
@ -20,11 +20,11 @@ test(
      await Promise.all([fsp.mkdir(bracketDir, { recursive: true })])
      await Promise.all([
        fsp.copyFile(
-          executorInputPath('router-template-slate.kcl'),
+          executorInputPath('cylinder-inches.kcl'),
          path.join(bracketDir, 'other.kcl')
        ),
        fsp.copyFile(
-          executorInputPath('focusrite_scarlett_mounting_braket.kcl'),
+          executorInputPath('e2e-can-sketch-on-chamfer.kcl'),
          path.join(bracketDir, 'main.kcl')
        ),
      ])
@ -107,7 +107,7 @@ test(
            },
            { timeout: 15_000 }
          )
-          .toBeGreaterThan(300_000)
+          .toBeGreaterThan(30_000)
      })
    })

@ -187,7 +187,7 @@ test(
            },
            { timeout: 15_000 }
          )
-          .toBeGreaterThan(70_000)
+          .toBeGreaterThan(50_000)
      })
    })
  }
--- a/e2e/playwright/editor-tests.spec.ts
+++ b/e2e/playwright/editor-tests.spec.ts
@ -2,10 +2,10 @@ import { test, expect } from './zoo-test'
 import fsp from 'fs/promises'
 import { uuidv4 } from 'lib/utils'
 import {
-  darkModeBgColor,
-  darkModePlaneColorXZ,
  executorInputPath,
  getUtils,
+  orRunWhenFullSuiteEnabled,
+  TEST_COLORS,
 } from './test-utils'

 import { join } from 'path'
@ -21,7 +21,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await expect(page.locator('.cm-lint-marker-error')).not.toBeVisible()

    await u.codeLocator.click()
-    await page.keyboard.type(`sketch001 = startSketchOn('XY')
+    await page.keyboard.type(`sketch001 = startSketchOn(XY)
    |> startProfileAt([-10, -10], %)
    |> line(end = [20, 0])
    |> line(end = [0, 20])
@ -32,26 +32,30 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.keyboard.press('/')
    await page.keyboard.up('ControlOrMeta')

-    await expect(page.locator('.cm-content'))
-      .toHaveText(`sketch001 = startSketchOn('XY')
+    await expect(page.locator('.cm-content')).toHaveText(
+      `@settings(defaultLengthUnit = in)
+sketch001 = startSketchOn('XY')
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
  |> line(end = [-20, 0])
-  // |> close()`)
+  // |> close()`.replaceAll('\n', '')
+    )

    // uncomment the code
    await page.keyboard.down('ControlOrMeta')
    await page.keyboard.press('/')
    await page.keyboard.up('ControlOrMeta')

-    await expect(page.locator('.cm-content'))
-      .toHaveText(`sketch001 = startSketchOn('XY')
+    await expect(page.locator('.cm-content')).toHaveText(
+      `@settings(defaultLengthUnit = in)
+sketch001 = startSketchOn('XY')
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
  |> line(end = [-20, 0])
-  |> close()`)
+  |> close()`.replaceAll('\n', '')
+    )
  })

  test('ensure we use the cache, and do not re-execute', async ({
@ -65,7 +69,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await u.waitForPageLoad()

    await u.codeLocator.click()
-    await page.keyboard.type(`sketch001 = startSketchOn('XY')
+    await page.keyboard.type(`sketch001 = startSketchOn(XY)
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
@ -114,7 +118,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await u.waitForPageLoad()

    await u.codeLocator.click()
-    await page.keyboard.type(`sketch001 = startSketchOn('XY')
+    await page.keyboard.type(`sketch001 = startSketchOn(XY)
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
@ -169,7 +173,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await expect(page.locator('.cm-lint-marker-error')).not.toBeVisible()

    await u.codeLocator.click()
-    await page.keyboard.type(`sketch001 = startSketchOn('XY')
+    await page.keyboard.type(`sketch001 = startSketchOn(XY)
    |> startProfileAt([-10, -10], %)
    |> line(end = [20, 0])
    |> line(end = [0, 20])
@ -178,13 +182,15 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.locator('#code-pane button:first-child').click()
    await page.locator('button:has-text("Format code")').click()

-    await expect(page.locator('.cm-content'))
-      .toHaveText(`sketch001 = startSketchOn('XY')
+    await expect(page.locator('.cm-content')).toHaveText(
+      `@settings(defaultLengthUnit = in)
+sketch001 = startSketchOn('XY')
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
  |> line(end = [-20, 0])
-  |> close()`)
+  |> close()`.replaceAll('\n', '')
+    )
  })

  test('if you click the format button it formats your code and executes so lints are still there', async ({
@ -200,7 +206,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await expect(page.locator('.cm-lint-marker-error')).not.toBeVisible()

    await u.codeLocator.click()
-    await page.keyboard.type(`sketch_001 = startSketchOn('XY')
+    await page.keyboard.type(`sketch_001 = startSketchOn(XY)
    |> startProfileAt([-10, -10], %)
    |> line(end = [20, 0])
    |> line(end = [0, 20])
@ -227,13 +233,15 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await u.expectCmdLog('[data-message-type="execution-done"]')
    await u.closeDebugPanel()

-    await expect(page.locator('.cm-content'))
-      .toHaveText(`sketch_001 = startSketchOn('XY')
+    await expect(page.locator('.cm-content')).toHaveText(
+      `@settings(defaultLengthUnit = in)
+sketch_001 = startSketchOn('XY')
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
  |> line(end = [-20, 0])
-  |> close()`)
+  |> close()`.replaceAll('\n', '')
+    )

    // error in guter
    await expect(page.locator('.cm-lint-marker-info').first()).toBeVisible()
@ -246,7 +254,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
  })

  test('fold gutters work', async ({ page, homePage }) => {
-    const fullCode = `sketch001 = startSketchOn('XY')
+    const fullCode = `sketch001 = startSketchOn(XY)
   |> startProfileAt([-10, -10], %)
   |> line(end = [20, 0])
   |> line(end = [0, 20])
@ -255,7 +263,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `sketch001 = startSketchOn('XY')
+        `sketch001 = startSketchOn(XY)
   |> startProfileAt([-10, -10], %)
   |> line(end = [20, 0])
   |> line(end = [0, 20])
@ -293,7 +301,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await foldGutterFoldLine.click()

    await expect(page.locator('.cm-content')).toHaveText(
-      `sketch001 = startSketchOn('XY')…   `
+      `sketch001 = startSketchOn(XY)…   `
    )
    await expect(page.locator('.cm-content')).not.toHaveText(fullCode)
    await expect(foldGutterFoldLine).not.toBeVisible()
@ -324,7 +332,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `sketch001 = startSketchOn('XY')
+        `sketch001 = startSketchOn(XY)
    |> startProfileAt([-10, -10], %)
    |> line(end = [20, 0])
    |> line(end = [0, 20])
@ -371,7 +379,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `sketch001 = startSketchOn('XY')
+        `sketch001 = startSketchOn(XY)
    |> startProfileAt([-10, -10], %)
    |> line(end = [20, 0])
    |> line(end = [0, 20])
@ -398,7 +406,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.keyboard.press('Alt+Shift+KeyF')

    await expect(page.locator('.cm-content'))
-      .toHaveText(`sketch001 = startSketchOn('XY')
+      .toHaveText(`sketch001 = startSketchOn(XY)
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
@ -414,7 +422,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `sketch_001 = startSketchOn('XY')
+        `sketch_001 = startSketchOn(XY)
    |> startProfileAt([-10, -10], %)
    |> line(end = [20, 0])
    |> line(end = [0, 20])
@ -451,7 +459,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await u.closeDebugPanel()

    await expect(page.locator('.cm-content'))
-      .toHaveText(`sketch_001 = startSketchOn('XY')
+      .toHaveText(`sketch_001 = startSketchOn(XY)
  |> startProfileAt([-10, -10], %)
  |> line(end = [20, 0])
  |> line(end = [0, 20])
@ -524,7 +532,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `sketch001 = startSketchOn('XZ')
+        `sketch001 = startSketchOn(XZ)
    |> startProfileAt([3.29, 7.86], %)
    |> line(end = [2.48, 2.44])
    |> line(end = [2.66, 1.17])
@ -635,9 +643,11 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await expect(page.locator('.cm-lint-marker-error')).not.toBeVisible()
  })

-  test.fixme(
-    'error with 2 source ranges gets 2 diagnostics',
-    async ({ page, homePage }) => {
+  test('error with 2 source ranges gets 2 diagnostics', async ({
+    page,
+    homePage,
+  }) => {
+    test.fixme(orRunWhenFullSuiteEnabled())
    const u = await getUtils(page)
    await page.addInitScript(async () => {
      localStorage.setItem(
@ -648,7 +658,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    dia = 4

    fn squareHole = (l, w) => {
-  squareHoleSketch = startSketchOn('XY')
+  squareHoleSketch = startSketchOn(XY)
  |> startProfileAt([-width / 2, -length / 2], %)
  |> line(endAbsolute = [width / 2, -length / 2])
  |> line(endAbsolute = [width / 2, length / 2])
@ -688,7 +698,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await page.keyboard.press('ArrowDown')
    await page.keyboard.press('ArrowDown')
    await page.keyboard.press('Enter')
-      await page.keyboard.type(`extrusion = startSketchOn('XY')
+    await page.keyboard.type(`extrusion = startSketchOn(XY)
  |> circle(center: [0, 0], radius: dia/2)
    |> hole(squareHole(length, width, height), %)
    |> extrude(length = height)`)
@ -702,8 +712,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {

    // Make sure there are two diagnostics
    await expect(page.locator('.cm-lint-marker-error')).toHaveCount(2)
-    }
-  )
+  })
  test('if your kcl gets an error from the engine it is inlined', async ({
    context,
    page,
@ -712,7 +721,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await context.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `box = startSketchOn('XY')
+        `box = startSketchOn(XY)
    |> startProfileAt([0, 0], %)
    |> line(end = [0, 10])
    |> line(end = [10, 0])
@ -771,7 +780,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
      }).toPass()
      // this makes sure we can accept a completion with click
      await page.getByText('startSketchOn').click()
-      await page.keyboard.type("'XZ'")
+      await page.keyboard.type('XZ')
      await page.keyboard.press('Tab')
      await page.keyboard.press('Enter')
      await page.keyboard.type('  |> startProfi')
@ -814,10 +823,12 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
      // there shouldn't be any auto complete options for 'lin' in the comment
      await expect(page.locator('.cm-completionLabel')).not.toBeVisible()

-      await expect(page.locator('.cm-content'))
-        .toHaveText(`sketch001 = startSketchOn('XZ')
+      await expect(page.locator('.cm-content')).toHaveText(
+        `@settings(defaultLengthUnit = in)
+sketch001 = startSketchOn('XZ')
        |> startProfileAt([3.14, 12], %)
-        |> xLine(%, length = 5) // lin`)
+        |> xLine(%, length = 5) // lin`.replaceAll('\n', '')
+      )

      // expect there to be no KCL errors
      await expect(page.locator('.cm-lint-marker-error')).toHaveCount(0)
@ -845,7 +856,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
      await page.keyboard.press('ArrowDown')
      await page.keyboard.press('Tab')
      await page.waitForTimeout(500)
-      await page.keyboard.type("'XZ'")
+      await page.keyboard.type('XZ')
      await page.keyboard.press('Tab')
      await page.keyboard.press('Enter')
      await page.keyboard.type('  |> startProfi')
@ -887,10 +898,12 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
      // there shouldn't be any auto complete options for 'lin' in the comment
      await expect(page.locator('.cm-completionLabel')).not.toBeVisible()

-      await expect(page.locator('.cm-content'))
-        .toHaveText(`sketch001 = startSketchOn('XZ')
+      await expect(page.locator('.cm-content')).toHaveText(
+        `@settings(defaultLengthUnit = in)
+sketch001 = startSketchOn('XZ')
        |> startProfileAt([3.14, 12], %)
-        |> xLine(%, length = 5) // lin`)
+        |> xLine(%, length = 5) // lin`.replaceAll('\n', '')
+      )
    })
  })
  test('Can undo a click and point extrude with ctrl+z', async ({
@ -902,7 +915,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    await context.addInitScript(async () => {
      localStorage.setItem(
        'persistCode',
-        `sketch001 = startSketchOn('XZ')
+        `sketch001 = startSketchOn(XZ)
  |> startProfileAt([4.61, -14.01], %)
  |> line(end = [12.73, -0.09])
  |> tangentialArcTo([24.95, -5.38], %)
@ -954,7 +967,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {

    // expect the code to have changed
    await expect(page.locator('.cm-content')).toHaveText(
-      `sketch001 = startSketchOn('XZ')  |> startProfileAt([4.61, -14.01], %)  |> line(end = [12.73, -0.09])  |> tangentialArcTo([24.95, -5.38], %)  |> close()extrude001 = extrude(sketch001, length = 5)`
+      `sketch001 = startSketchOn(XZ)  |> startProfileAt([4.61, -14.01], %)  |> line(end = [12.73, -0.09])  |> tangentialArcTo([24.95, -5.38], %)  |> close()extrude001 = extrude(sketch001, length = 5)`
    )

    // Now hit undo
@ -964,7 +977,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {

    await page.waitForTimeout(100)
    await expect(page.locator('.cm-content'))
-      .toHaveText(`sketch001 = startSketchOn('XZ')
+      .toHaveText(`sketch001 = startSketchOn(XZ)
  |> startProfileAt([4.61, -14.01], %)
  |> line(end = [12.73, -0.09])
  |> tangentialArcTo([24.95, -5.38], %)
@ -979,7 +992,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
      await page.addInitScript(async () => {
        localStorage.setItem(
          'persistCode',
-          `sketch001 = startSketchOn('XZ')
+          `sketch001 = startSketchOn(XZ)
  |> startProfileAt([4.61, -10.01], %)
  |> line(end = [12.73, -0.09])
  |> tangentialArcTo([24.95, -0.38], %)
@ -1070,7 +1083,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {

      // expect the code to have changed
      await expect(page.locator('.cm-content'))
-        .toHaveText(`sketch001 = startSketchOn('XZ')
+        .toHaveText(`sketch001 = startSketchOn(XZ)
    |> startProfileAt([2.71, -2.71], %)
    |> line(end = [15.4, -2.78])
    |> tangentialArcTo([27.6, -3.05], %)
@ -1084,7 +1097,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
      await page.keyboard.up('Control')

      await expect(page.locator('.cm-content'))
-        .toHaveText(`sketch001 = startSketchOn('XZ')
+        .toHaveText(`sketch001 = startSketchOn(XZ)
    |> startProfileAt([2.71, -2.71], %)
    |> line(end = [15.4, -2.78])
    |> tangentialArcTo([24.95, -0.38], %)
@ -1097,7 +1110,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
      await page.keyboard.up('Control')

      await expect(page.locator('.cm-content'))
-        .toHaveText(`sketch001 = startSketchOn('XZ')
+        .toHaveText(`sketch001 = startSketchOn(XZ)
    |> startProfileAt([2.71, -2.71], %)
    |> line(end = [12.73, -0.09])
    |> tangentialArcTo([24.95, -0.38], %)
@ -1112,7 +1125,7 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {

      await page.waitForTimeout(100)
      await expect(page.locator('.cm-content'))
-        .toHaveText(`sketch001 = startSketchOn('XZ')
+        .toHaveText(`sketch001 = startSketchOn(XZ)
  |> startProfileAt([4.61, -10.01], %)
  |> line(end = [12.73, -0.09])
  |> tangentialArcTo([24.95, -0.38], %)
@ -1121,10 +1134,11 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
    }
  )

-  test.fixme(
+  test(
    `Can use the import stdlib function on a local OBJ file`,
    { tag: '@electron' },
    async ({ page, context }, testInfo) => {
+      test.fixme(orRunWhenFullSuiteEnabled())
      await context.folderSetupFn(async (dir) => {
        const bracketDir = join(dir, 'cube')
        await fsp.mkdir(bracketDir, { recursive: true })
@ -1161,7 +1175,8 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
        await u.waitForPageLoad()
        await expect
          .poll(
-            async () => locationToHavColor(notTheOrigin, darkModePlaneColorXZ),
+            async () =>
+              locationToHavColor(notTheOrigin, TEST_COLORS.DARK_MODE_PLANE_XZ),
            {
              timeout: 5000,
              message: 'XZ plane color is visible',
@ -1182,16 +1197,23 @@ test.describe('Editor tests', { tag: ['@skipWin'] }, () => {
      await test.step(`Verify that we see the imported geometry and no errors`, async () => {
        await expect(errorIndicators).toHaveCount(0)
        await expect
-          .poll(async () => locationToHavColor(origin, darkModePlaneColorXZ), {
+          .poll(
+            async () =>
+              locationToHavColor(origin, TEST_COLORS.DARK_MODE_PLANE_XZ),
+            {
              timeout: 3000,
              message: 'Plane color should not be visible',
-          })
+            }
+          )
          .toBeGreaterThan(15)
        await expect
-          .poll(async () => locationToHavColor(origin, darkModeBgColor), {
+          .poll(
+            async () => locationToHavColor(origin, TEST_COLORS.DARK_MODE_BKGD),
+            {
              timeout: 3000,
              message: 'Background color should not be visible',
-          })
+            }
+          )
          .toBeGreaterThan(15)
      })
    }
--- a/e2e/playwright/feature-tree-pane.spec.ts
+++ b/e2e/playwright/feature-tree-pane.spec.ts
@ -6,7 +6,7 @@ const FEATURE_TREE_EXAMPLE_CODE = `export fn timesFive(x) {
  return 5 * x
 }
 export fn triangle() {
-  return startSketchOn('XZ')
+  return startSketchOn(XZ)
    |> startProfileAt([0, 0], %)
    |> xLine(length = 10)
    |> line(end = [-10, -5])
@ -15,7 +15,7 @@ export fn triangle() {
 }

 length001 = timesFive(1) * 5
-sketch001 = startSketchOn('XZ')
+sketch001 = startSketchOn(XZ)
  |> startProfileAt([20, 10], %)
  |> line(end = [10, 10])
  |> angledLine([-45, length001], %)
@ -24,7 +24,7 @@ sketch001 = startSketchOn('XZ')
 revolve001 = revolve(sketch001, axis = "X")
 triangle()
  |> extrude(length = 30)
-plane001 = offsetPlane('XY', offset = 10)
+plane001 = offsetPlane(XY, offset = 10)
 sketch002 = startSketchOn(plane001)
  |> startProfileAt([-20, 0], %)
  |> line(end = [5, -15])
@ -35,7 +35,7 @@ sketch002 = startSketchOn(plane001)
 extrude001 = extrude(sketch002, length = 10)
 `

-const FEATURE_TREE_SKETCH_CODE = `sketch001 = startSketchOn('XZ')
+const FEATURE_TREE_SKETCH_CODE = `sketch001 = startSketchOn(XZ)
  |> startProfileAt([0, 0], %)
  |> angledLine([0, 4], %, $rectangleSegmentA001)
  |> angledLine([
@ -54,7 +54,7 @@ sketch002 = startSketchOn(extrude001, rectangleSegmentB001)
       center = [-1, 2],
       radius = .5
     )
-plane001 = offsetPlane('XZ', offset = -5)
+plane001 = offsetPlane(XZ, offset = -5)
 sketch003 = startSketchOn(plane001)
  |> circle(center = [0, 0], radius = 5)
 `
@ -116,7 +116,7 @@ test.describe('Feature Tree pane', () => {
      await testViewSource({
        operationName: 'Offset Plane',
        operationIndex: 0,
-        expectedActiveLine: "plane001 = offsetPlane('XY', offset = 10)",
+        expectedActiveLine: 'plane001 = offsetPlane(XY, offset = 10)',
      })
      await testViewSource({
        operationName: 'Extrude',
@ -174,7 +174,7 @@ test.describe('Feature Tree pane', () => {
        await editor.expectState({
          highlightedCode: '',
          diagnostics: [],
-          activeLines: ["sketch001 = startSketchOn('XZ')"],
+          activeLines: ['sketch001 = startSketchOn(XZ)'],
        })
        await toolbar.exitSketchBtn.click()
      })
@ -227,12 +227,12 @@ test.describe('Feature Tree pane', () => {
    page,
  }) => {
    const initialInput = '23'
-    const initialCode = `sketch001 = startSketchOn('XZ')
+    const initialCode = `sketch001 = startSketchOn(XZ)
      |> circle(center = [0, 0], radius = 5)
      renamedExtrude = extrude(sketch001, length = ${initialInput})`
    const newConstantName = 'distance001'
    const expectedCode = `${newConstantName} = 23
-    sketch001 = startSketchOn('XZ')
+    sketch001 = startSketchOn(XZ)
      |> circle(center = [0, 0], radius = 5)
            renamedExtrude = extrude(sketch001, length = ${newConstantName})`

@ -316,8 +316,7 @@ test.describe('Feature Tree pane', () => {
    toolbar,
    cmdBar,
  }) => {
-    const testCode = (value: string) =>
-      `p = offsetPlane('XY', offset = ${value})`
+    const testCode = (value: string) => `p = offsetPlane(XY, offset = ${value})`
    const initialInput = '10'
    const initialCode = testCode(initialInput)
    const newInput = '5 + 10'
@ -396,7 +395,7 @@ test.describe('Feature Tree pane', () => {
    toolbar,
    cmdBar,
  }) => {
-    const beforeKclCode = `plane001 = offsetPlane('XY', offset = 5)
+    const beforeKclCode = `plane001 = offsetPlane(XY, offset = 5)
 sketch001 = startSketchOn(plane001)
 profile001 = circle(sketch001, center = [0, 20], radius = 12)
 profile002 = startProfileAt([0, 7.25], sketch001)
--- a/e2e/playwright/file-tree.spec.ts
+++ b/e2e/playwright/file-tree.spec.ts
@ -1,7 +1,12 @@
 import { test, expect } from './zoo-test'
 import * as fsp from 'fs/promises'
 import * as fs from 'fs'
-import { createProject, executorInputPath, getUtils } from './test-utils'
+import {
+  createProject,
+  executorInputPath,
+  getUtils,
+  orRunWhenFullSuiteEnabled,
+} from './test-utils'
 import { join } from 'path'
 import { FILE_EXT } from 'lib/constants'

@ -266,12 +271,13 @@ test.describe('when using the file tree to', () => {
    }
  )

-  test.fixme(
+  test(
    'loading small file, then large, then back to small',
    {
      tag: '@electron',
    },
    async ({ page }, testInfo) => {
+      test.fixme(orRunWhenFullSuiteEnabled())
      const {
        panesOpen,
        pasteCodeInEditor,
@ -1058,7 +1064,7 @@ test.describe('Undo and redo do not keep history when navigating between files',
        // Click in the editor and add some new lines.
        await u.codeLocator.click()

-        await page.keyboard.type(`sketch001 = startSketchOn('XY')
+        await page.keyboard.type(`sketch001 = startSketchOn(XY)
    some other shit`)

        // Ensure the content in the editor changed.
--- a/Show More
+++ b/Show More