budibase/packages/client/src/components/Component.svelte

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<script context="module">
// Cache the definition of settings for each component type
let SettingsDefinitionCache = {}
let SettingsDefinitionMapCache = {}
// Cache the settings of each component ID.
// This speeds up remounting as well as repeaters.
let InstanceSettingsCache = {}
</script>
<script>
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import { getContext, setContext, onMount } from "svelte"
import { writable, get } from "svelte/store"
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import {
enrichProps,
propsAreSame,
getSettingsDefinition,
} from "utils/componentProps"
import {
builderStore,
devToolsStore,
componentStore,
appStore,
dndComponentPath,
dndIsDragging,
themeStore,
} from "stores"
import { Helpers } from "@budibase/bbui"
import { getActiveConditions, reduceConditionActions } from "utils/conditions"
import EmptyPlaceholder from "components/app/EmptyPlaceholder.svelte"
import ScreenPlaceholder from "components/app/ScreenPlaceholder.svelte"
import ComponentErrorState from "components/error-states/ComponentErrorState.svelte"
import { BudibasePrefix } from "../stores/components.js"
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import {
decodeJSBinding,
findHBSBlocks,
isJSBinding,
} from "@budibase/string-templates"
import {
getActionContextKey,
getActionDependentContextKeys,
} from "../utils/buttonActions.js"
export let instance = {}
export let isLayout = false
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export let isRoot = false
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export let isBlock = false
// Get parent contexts
const context = getContext("context")
const insideScreenslot = !!getContext("screenslot")
const component = getContext("component")
// Create component context
const store = writable({})
setContext("component", store)
// Ref to the svelte component
let ref
// Initial settings are passed in on first render of the component.
// When the first instance of cachedSettings are set, this object is set to
// reference cachedSettings, so that mutations to cachedSettings also affect
// initialSettings, but it does not get caught by svelte invalidation - which
// would happen if we spread cachedSettings directly to the component.
let initialSettings
// Dynamic settings contain bindings and need enriched
let dynamicSettings
// Static settings do not contain any bindings and can be passed on down
let staticSettings
// The enriched component settings
let enrichedSettings
// Any setting overrides that need to be applied due to conditional UI
let conditionalSettings
// Resultant cached settings which will be passed to the component instance.
// These are a combination of the enriched, nested and conditional settings.
let cachedSettings
// Conditional UI expressions, enriched and ready to evaluate
let conditions
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// Latest timestamp that we started a props update.
// Due to enrichment now being async, we need to avoid overwriting newer
// settings with old ones, depending on how long enrichment takes.
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let latestUpdateTime
// Keep track of stringified representations of context and instance
// to avoid enriching bindings as much as possible
let lastInstanceKey
// Visibility flag used by conditional UI
let visible = true
// Component information derived during initialisation
let constructor
let definition
let settingsDefinition
let settingsDefinitionMap
let missingRequiredSettings = false
// Temporary styles which can be added in the app preview for things like DND.
// We clear these whenever a new instance is received.
let ephemeralStyles
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// Single string of all HBS blocks, used to check if we use a certain binding
// or not
let bindingString = ""
// List of context keys which we use inside bindings
let knownContextKeyMap = {}
// Cleanup function to stop observing context changes when unmounting
let unobserve
// Set up initial state for each new component instance
$: initialise(instance)
// Extract component instance info
$: children = instance._children || []
$: id = instance._id
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$: name = isRoot ? "Screen" : instance._instanceName
$: icon = definition?.icon
// Determine if the component is selected or is part of the critical path
// leading to the selected component
$: selected =
$builderStore.inBuilder && $builderStore.selectedComponentId === id
$: inSelectedPath = $componentStore.selectedComponentPath?.includes(id)
$: inDragPath = inSelectedPath && $builderStore.editMode
$: inDndPath = $dndComponentPath?.includes(id)
// Derive definition properties which can all be optional, so need to be
// coerced to booleans
$: hasChildren = !!definition?.hasChildren
$: showEmptyState = definition?.showEmptyState !== false
$: hasMissingRequiredSettings = missingRequiredSettings?.length > 0
$: editable = !!definition?.editable && !hasMissingRequiredSettings
$: requiredAncestors = definition?.requiredAncestors || []
$: missingRequiredAncestors = requiredAncestors.filter(
ancestor => !$component.ancestors.includes(`${BudibasePrefix}${ancestor}`)
)
$: hasMissingRequiredAncestors = missingRequiredAncestors?.length > 0
$: errorState = hasMissingRequiredSettings || hasMissingRequiredAncestors
// Interactive components can be selected, dragged and highlighted inside
// the builder preview
$: builderInteractive =
$builderStore.inBuilder && insideScreenslot && !isBlock && !instance.static
$: devToolsInteractive = $devToolsStore.allowSelection && !isBlock
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$: interactive = !isRoot && (builderInteractive || devToolsInteractive)
$: editing = editable && selected && $builderStore.editMode
$: draggable =
!inDragPath &&
interactive &&
!isLayout &&
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!isRoot &&
!isBlock &&
definition?.draggable !== false
$: droppable = interactive
$: builderHidden =
$builderStore.inBuilder && $builderStore.hiddenComponentIds?.includes(id)
// Empty components are those which accept children but do not have any.
// Empty states can be shown for these components, but can be disabled
// in the component manifest.
$: empty =
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!isBlock &&
((interactive && !children.length && hasChildren) ||
hasMissingRequiredSettings)
$: emptyState = empty && showEmptyState
// Evaluate conditional UI settings and store any component setting changes
// which need to be made
$: evaluateConditions(conditions)
// Determine and apply settings to the component
$: applySettings(staticSettings, enrichedSettings, conditionalSettings)
// Determine custom css.
// Broken out as a separate variable to minimize reactivity updates.
$: customCSS = cachedSettings?._css
// Scroll the selected element into view
$: selected && scrollIntoView()
// When dragging and dropping, pad components to allow dropping between
// nested layers. Only reset this when dragging stops.
let pad = false
$: pad = pad || (interactive && hasChildren && inDndPath)
$: $dndIsDragging, (pad = false)
$: isDark = !$themeStore.theme?.includes("light")
// Update component context
$: store.set({
id,
children: children.length,
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styles: {
...instance._styles,
normal: {
...instance._styles?.normal,
...ephemeralStyles,
},
custom: customCSS,
id,
empty: emptyState,
selected,
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interactive,
draggable,
editable,
isBlock,
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},
empty: emptyState,
selected,
inSelectedPath,
name,
editing,
type: instance._component,
errorState,
parent: id,
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ancestors: [...($component?.ancestors ?? []), instance._component],
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path: [...($component?.path ?? []), id],
isDark,
})
const initialise = (instance, force = false) => {
if (instance == null) {
return
}
// Ensure we're processing a new instance
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const stringifiedInstance = JSON.stringify(instance)
const instanceKey = Helpers.hashString(stringifiedInstance)
if (instanceKey === lastInstanceKey && !force) {
return
} else {
lastInstanceKey = instanceKey
}
// Pull definition and constructor
const component = instance._component
constructor = componentStore.actions.getComponentConstructor(component)
definition = componentStore.actions.getComponentDefinition(component)
if (!definition) {
return
}
const cacheId = `${definition.name}${
definition?.deprecated === true ? "_deprecated" : ""
}`
// Get the settings definition for this component, and cache it
if (SettingsDefinitionCache[cacheId]) {
settingsDefinition = SettingsDefinitionCache[cacheId]
settingsDefinitionMap = SettingsDefinitionMapCache[cacheId]
} else {
settingsDefinition = getSettingsDefinition(definition)
settingsDefinitionMap = getSettingsDefinitionMap(settingsDefinition)
SettingsDefinitionCache[cacheId] = settingsDefinition
SettingsDefinitionMapCache[cacheId] = settingsDefinitionMap
}
// Parse the instance settings, and cache them
let instanceSettings
if (InstanceSettingsCache[instanceKey]) {
instanceSettings = InstanceSettingsCache[instanceKey]
} else {
instanceSettings = getInstanceSettings(instance, settingsDefinition)
InstanceSettingsCache[instanceKey] = instanceSettings
}
// Update the settings types
staticSettings = instanceSettings.staticSettings
dynamicSettings = instanceSettings.dynamicSettings
// Check if we have any missing required settings
missingRequiredSettings = settingsDefinition.filter(setting => {
let empty = instance[setting.key] == null || instance[setting.key] === ""
let missing = setting.required && empty
// Check if this setting depends on another, as it may not be required
if (setting.dependsOn) {
const dependsOnKey = setting.dependsOn.setting || setting.dependsOn
const dependsOnValue = setting.dependsOn.value
const realDependentValue = instance[dependsOnKey]
if (dependsOnValue == null && realDependentValue == null) {
return false
}
if (dependsOnValue !== realDependentValue) {
return false
}
}
return missing
})
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// When considering bindings we can ignore children, so we remove that
// before storing the reference stringified version
const noChildren = JSON.stringify({ ...instance, _children: null })
const bindings = findHBSBlocks(noChildren).map(binding => {
let sanitizedBinding = binding.replace(/\\"/g, '"')
if (isJSBinding(sanitizedBinding)) {
return decodeJSBinding(sanitizedBinding)
} else {
return sanitizedBinding
}
})
// The known context key map is built up at runtime, as changes to keys are
// encountered. We manually seed this to the required action keys as these
// are not encountered at runtime and so need computed in advance.
knownContextKeyMap = generateActionKeyMap(instance, settingsDefinition)
bindingString = bindings.join(" ")
// Run any migrations
runMigrations(instance, settingsDefinition)
// Force an initial enrichment of the new settings
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enrichComponentSettings(get(context), settingsDefinitionMap)
// Start observing changes in context now that we are initialised
if (!unobserve) {
unobserve = context.actions.observeChanges(handleContextChange)
}
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}
// Extracts a map of all context keys which are required by action settings
// to provide the functions to evaluate at runtime. This needs done manually
// as the action definitions themselves do not specify bindings for action
// keys, meaning we cannot do this while doing the other normal bindings.
const generateActionKeyMap = (instance, settingsDefinition) => {
let map = {}
settingsDefinition.forEach(setting => {
if (setting.type === "event") {
instance[setting.key]?.forEach(action => {
// We depend on the actual action key
const actionKey = getActionContextKey(action)
if (actionKey) {
map[actionKey] = true
}
// We also depend on any manually declared context keys
getActionDependentContextKeys(action)?.forEach(key => {
map[key] = true
})
})
}
})
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return map
}
const runMigrations = (instance, settingsDefinition) => {
settingsDefinition.forEach(setting => {
// Migrate "table" settings to ensure they have a type and resource ID
if (setting.type === "table") {
const val = instance[setting.key]
if (val) {
if (!val.type) {
val.type = "table"
}
if (!val.resourceId) {
if (val.type === "viewV2") {
val.resourceId = val.id
} else {
val.resourceId = val.tableId
}
}
}
}
})
}
const getSettingsDefinitionMap = settingsDefinition => {
let map = {}
settingsDefinition?.forEach(setting => {
map[setting.key] = setting
})
return map
}
const getInstanceSettings = (instance, settingsDefinition) => {
// Get raw settings
let settings = {}
Object.entries(instance)
.filter(([name]) => !name.startsWith("_"))
.forEach(([key, value]) => {
settings[key] = value
})
let newStaticSettings = { ...settings }
let newDynamicSettings = { ...settings }
// Attach some internal properties which we assume always need enriched
newDynamicSettings["_conditions"] = instance._conditions
newDynamicSettings["_css"] = instance._styles?.custom
// Derive static, dynamic and nested settings if the instance changed
settingsDefinition?.forEach(setting => {
if (setting.nested) {
delete newDynamicSettings[setting.key]
} else {
const value = settings[setting.key]
if (value == null) {
delete newDynamicSettings[setting.key]
} else if (typeof value === "string" && value.includes("{{")) {
// Strings can be trivially checked
delete newStaticSettings[setting.key]
} else if (setting.type === "event") {
// Always treat button actions as dynamic
delete newStaticSettings[setting.key]
} else if (typeof value === "object") {
// Stringify and check objects
const stringified = JSON.stringify(value)
if (stringified.includes("{{")) {
delete newStaticSettings[setting.key]
} else {
delete newDynamicSettings[setting.key]
}
} else {
// For other types, we can safely assume they are static
delete newDynamicSettings[setting.key]
}
}
})
return {
staticSettings: newStaticSettings,
dynamicSettings: newDynamicSettings,
}
}
// Generates the array of conditional UI expressions, accounting for both
// nested and non-nested settings, extracting a mixture of values from both
// the un-enriched and enriched settings
const generateConditions = () => {
if (!enrichedSettings?._conditions) {
conditions = []
return
}
conditions = enrichedSettings._conditions.map(condition => {
const raw = instance._conditions?.find(x => x.id === condition.id)
if (settingsDefinitionMap[condition.setting]?.nested && raw) {
return { ...condition, settingValue: raw.settingValue }
} else {
return condition
}
})
}
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// Enriches any string component props using handlebars
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const enrichComponentSettings = (context, settingsDefinitionMap) => {
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// Record the timestamp so we can reference it after enrichment
latestUpdateTime = Date.now()
const enrichmentTime = latestUpdateTime
// Enrich settings with context
const newEnrichedSettings = enrichProps(
dynamicSettings,
context,
settingsDefinitionMap
)
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// Abandon this update if a newer update has started
if (enrichmentTime !== latestUpdateTime) {
return
}
// Store new enriched settings
enrichedSettings = newEnrichedSettings
// Once settings have been enriched, re-evaluate conditions
generateConditions()
}
// Evaluates the list of conditional UI conditions and determines any setting
// or visibility changes required
const evaluateConditions = conditions => {
if (!conditions?.length) {
return
}
// Default visible to false if there is a show condition
let nextVisible = !conditions.find(condition => condition.action === "show")
// Execute conditions and determine settings and visibility changes
const activeConditions = getActiveConditions(conditions)
const result = reduceConditionActions(activeConditions)
if (result.visible != null) {
nextVisible = result.visible
}
// Update state from condition results
conditionalSettings = result.settingUpdates
visible = nextVisible
}
// Combines and caches all settings which will be passed to the component
// instance. Settings are aggressively memoized to avoid triggering svelte
// reactive statements as much as possible.
const applySettings = (
staticSettings,
enrichedSettings,
conditionalSettings
) => {
const allSettings = {
...staticSettings,
...enrichedSettings,
...conditionalSettings,
}
if (!cachedSettings) {
cachedSettings = { ...allSettings }
initialSettings = cachedSettings
} else {
Object.keys(allSettings).forEach(key => {
const same = propsAreSame(allSettings[key], cachedSettings[key])
if (!same) {
// Updated cachedSettings (which is assigned by reference to
// initialSettings) so that if we remount the component then the
// initial props are up to date. By setting it this way rather than
// setting it on initialSettings directly, we avoid a double render.
cachedSettings[key] = allSettings[key]
// Don't update components for internal properties
if (key.startsWith("_")) {
return
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}
if (ref?.$$set) {
// Programmatically set the prop to avoid svelte reactive statements
// firing inside components. This circumvents the problems caused by
// spreading a props object.
ref.$$set({ [key]: allSettings[key] })
} else {
// Sometimes enrichment can occur multiple times before the
// component has mounted and been assigned a ref.
// In these cases, for some reason we need to update the
// initial settings object, even though it is equivalent by
// reference to cached settings. This solves the problem of multiple
// initial enrichments, while also not causing wasted renders for
// any components not affected by this issue.
initialSettings[key] = allSettings[key]
}
}
})
}
}
const scrollIntoView = () => {
// Don't scroll into view if we selected this component because we were
// starting dragging on it
if (get(dndIsDragging)) {
return
}
const node = document.getElementsByClassName(id)?.[0]?.children[0]
if (!node) {
return
}
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node.style.scrollMargin = "100px"
node.scrollIntoView({
behavior: "smooth",
block: "nearest",
inline: "start",
})
}
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const handleContextChange = key => {
// Check if we already know if this key is used
let used = knownContextKeyMap[key]
// If we don't know, check and cache
if (used == null) {
const searchString = key === "snippets" ? key : `[${key}]`
used = bindingString.indexOf(searchString) !== -1
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knownContextKeyMap[key] = used
}
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// Enrich settings if we use this key
if (used) {
enrichComponentSettings($context, settingsDefinitionMap)
}
}
const getDataContext = () => {
const normalContext = get(context)
const additionalContext = ref?.getAdditionalDataContext?.()
return {
...normalContext,
...additionalContext,
}
}
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onMount(() => {
// Register this component instance for external access
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if ($appStore.isDevApp) {
if (!componentStore.actions.isComponentRegistered(id)) {
componentStore.actions.registerInstance(id, {
component: instance._component,
getSettings: () => cachedSettings,
getRawSettings: () => ({ ...staticSettings, ...dynamicSettings }),
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getDataContext,
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reload: () => initialise(instance, true),
setEphemeralStyles: styles => (ephemeralStyles = styles),
state: store,
})
}
}
return () => {
// Unregister component
if (componentStore.actions.isComponentRegistered(id)) {
componentStore.actions.unregisterInstance(id)
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}
// Stop observing context changes
unobserve?.()
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}
})
</script>
{#if constructor && initialSettings && (visible || inSelectedPath) && !builderHidden}
<!-- The ID is used as a class because getElementsByClassName is O(1) -->
<!-- and the performance matters for the selection indicators -->
<div
class={`component ${id}`}
class:draggable
class:droppable
class:empty
class:interactive
class:editing
class:pad
class:parent={hasChildren}
class:block={isBlock}
class:error={errorState}
data-id={id}
data-name={name}
data-icon={icon}
data-parent={$component.id}
>
{#if errorState}
<ComponentErrorState
{missingRequiredSettings}
{missingRequiredAncestors}
/>
{:else}
<svelte:component this={constructor} bind:this={ref} {...initialSettings}>
{#if children.length}
{#each children as child (child._id)}
<svelte:self instance={child} />
{/each}
{:else if emptyState}
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{#if isRoot}
<ScreenPlaceholder />
{:else}
<EmptyPlaceholder />
{/if}
{:else if isBlock}
<slot />
{/if}
</svelte:component>
{/if}
</div>
{/if}
<style>
.component {
display: contents;
}
.component.pad :global(> *) {
padding: var(--spacing-m) !important;
gap: var(--spacing-m) !important;
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border: 2px dashed var(--spectrum-global-color-gray-400) !important;
border-radius: 4px !important;
transition: padding 260ms ease-out, border 260ms ease-out;
}
.interactive :global(*) {
cursor: default;
}
</style>