rui_orig/animation.go

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package rui
import (
"fmt"
"math"
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"strconv"
"strings"
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)
// Constants which related to view's animation
const (
// AnimationTag is the constant for "animation" property tag.
//
// Used by `View`.
// Sets and starts animations.
//
// Supported types: `Animation`, `[]Animation`.
//
// Internal type is `[]Animation`, other types converted to it during assignment.
// See `Animation` description for more details.
AnimationTag = "animation"
// AnimationPaused is the constant for "animation-paused" property tag.
//
// Used by `Animation`.
// Controls whether the animation is running or paused.
//
// Supported types: `bool`, `int`, `string`.
//
// Values:
// `true` or `1` or "true", "yes", "on", "1" - Animation is paused.
// `false` or `0` or "false", "no", "off", "0" - Animation is playing.
AnimationPaused = "animation-paused"
// Transition is the constant for "transition" property tag.
//
// Used by `View`.
// Sets transition animation of view properties. Each provided property must contain `Animation` which describe how
// particular property will be animated on property value change. Transition animation can be applied to properties of the
// type `SizeUnit`, `Color`, `AngleUnit`, `float64` and composite properties that contain elements of the listed types(for
// example, "shadow", "border", etc.). If we'll try to animate other properties with internal type like `bool` or
// `string` no error will occur, simply there will be no animation.
//
// Supported types: `Params`.
//
// See `Params` description for more details.
Transition = "transition"
// PropertyTag is the constant for "property" property tag.
//
// Used by `Animation`.
// Describes a scenario for changing a `View`'s property. Used only for animation script.
//
// Supported types: `[]AnimatedProperty`, `AnimatedProperty`.
//
// Internal type is `[]AnimatedProperty`, other types converted to it during assignment.
// See `AnimatedProperty` description for more details.
PropertyTag = "property"
// Duration is the constant for "duration" property tag.
//
// Used by `Animation`.
// Sets the length of time in seconds that an animation takes to complete one cycle.
//
// Supported types: `float`, `int`, `string`.
//
// Internal type is `float`, other types converted to it during assignment.
Duration = "duration"
// Delay is the constant for "delay" property tag.
//
// Used by `Animation`.
// Specifies the amount of time in seconds to wait from applying the animation to an element before beginning to perform
// the animation. The animation can start later, immediately from its beginning or immediately and partway through the
// animation.
//
// Supported types: `float`, `int`, `string`.
//
// Internal type is `float`, other types converted to it during assignment.
Delay = "delay"
// TimingFunction is the constant for "timing-function" property tag.
//
// Used by `Animation`.
// Set how an animation progresses through the duration of each cycle.
//
// Supported types: `string`.
//
// Values:
// "ease"(`EaseTiming`) - Speed increases towards the middle and slows down at the end.
// "ease-in"(`EaseInTiming`) - Speed is slow at first, but increases in the end.
// "ease-out"(`EaseOutTiming`) - Speed is fast at first, but decreases in the end.
// "ease-in-out"(`EaseInOutTiming`) - Speed is slow at first, but quickly increases and at the end it decreases again.
// "linear"(`LinearTiming`) - Constant speed.
TimingFunction = "timing-function"
// IterationCount is the constant for "iteration-count" property tag.
//
// Used by `Animation`.
// Sets the number of times an animation sequence should be played before stopping. Used only for animation script.
//
// Supported types: `int`, `string`.
//
// Internal type is `int`, other types converted to it during assignment.
IterationCount = "iteration-count"
// AnimationDirection is the constant for "animation-direction" property tag.
//
// Used by `Animation`.
// Whether an animation should play forward, backward, or alternate back and forth between playing the sequence forward
// and backward. Used only for animation script.
//
// Supported types: `int`, `string`.
//
// Values:
// `0`(`NormalAnimation`) or "normal" - The animation plays forward every iteration, that is, when the animation ends, it is immediately reset to its starting position and played again.
// `1`(`ReverseAnimation`) or "reverse" - The animation plays backwards, from the last position to the first, and then resets to the final position and plays again.
// `2`(`AlternateAnimation`) or "alternate" - The animation changes direction in each cycle, that is, in the first cycle, it starts from the start position, reaches the end position, and in the second cycle, it continues from the end position and reaches the start position, and so on.
// `3`(`AlternateReverseAnimation`) or "alternate-reverse" - The animation starts playing from the end position and reaches the start position, and in the next cycle, continuing from the start position, it goes to the end position.
AnimationDirection = "animation-direction"
// NormalAnimation is value of the "animation-direction" property.
// The animation plays forwards each cycle. In other words, each time the animation cycles,
// the animation will reset to the beginning state and start over again. This is the default value.
NormalAnimation = 0
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// ReverseAnimation is value of the "animation-direction" property.
// The animation plays backwards each cycle. In other words, each time the animation cycles,
// the animation will reset to the end state and start over again. Animation steps are performed
// backwards, and timing functions are also reversed.
// For example, an "ease-in" timing function becomes "ease-out".
ReverseAnimation = 1
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// AlternateAnimation is value of the "animation-direction" property.
// The animation reverses direction each cycle, with the first iteration being played forwards.
// The count to determine if a cycle is even or odd starts at one.
AlternateAnimation = 2
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// AlternateReverseAnimation is value of the "animation-direction" property.
// The animation reverses direction each cycle, with the first iteration being played backwards.
// The count to determine if a cycle is even or odd starts at one.
AlternateReverseAnimation = 3
// EaseTiming - a timing function which increases in velocity towards the middle of the transition, slowing back down at the end
EaseTiming = "ease"
// EaseInTiming - a timing function which starts off slowly, with the transition speed increasing until complete
EaseInTiming = "ease-in"
// EaseOutTiming - a timing function which starts transitioning quickly, slowing down the transition continues.
EaseOutTiming = "ease-out"
// EaseInOutTiming - a timing function which starts transitioning slowly, speeds up, and then slows down again.
EaseInOutTiming = "ease-in-out"
// LinearTiming - a timing function at an even speed
LinearTiming = "linear"
)
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// StepsTiming return a timing function along stepCount stops along the transition, displaying each stop for equal lengths of time
func StepsTiming(stepCount int) string {
return "steps(" + strconv.Itoa(stepCount) + ")"
}
// CubicBezierTiming return a cubic-Bezier curve timing function. x1 and x2 must be in the range [0, 1].
func CubicBezierTiming(x1, y1, x2, y2 float64) string {
if x1 < 0 {
x1 = 0
} else if x1 > 1 {
x1 = 1
}
if x2 < 0 {
x2 = 0
} else if x2 > 1 {
x2 = 1
}
return fmt.Sprintf("cubic-bezier(%g, %g, %g, %g)", x1, y1, x2, y2)
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}
// AnimatedProperty describes the change script of one property
type AnimatedProperty struct {
// Tag is the name of the property
Tag string
// From is the initial value of the property
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From any
// To is the final value of the property
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To any
// KeyFrames is intermediate property values
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KeyFrames map[int]any
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}
type animationData struct {
propertyList
keyFramesName string
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usageCounter int
view View
listener func(view View, animation Animation, event string)
oldListeners map[string][]func(View, string)
oldAnimation []Animation
}
// Animation interface is used to set animation parameters. Used properties:
// "property", "id", "duration", "delay", "timing-function", "iteration-count", and "animation-direction"
type Animation interface {
Properties
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fmt.Stringer
// Start starts the animation for the view specified by the first argument.
// The second argument specifies the animation event listener (can be nil)
Start(view View, listener func(view View, animation Animation, event string)) bool
// Stop stops the animation
Stop()
// Pause pauses the animation
Pause()
// Resume resumes an animation that was stopped using the Pause method
Resume()
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writeTransitionString(tag string, buffer *strings.Builder)
animationCSS(session Session) string
transitionCSS(buffer *strings.Builder, session Session)
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hasAnimatedProperty() bool
animationName() string
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used()
unused(session Session)
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}
func parseAnimation(obj DataObject) Animation {
animation := new(animationData)
animation.init()
for i := 0; i < obj.PropertyCount(); i++ {
if node := obj.Property(i); node != nil {
if node.Type() == TextNode {
animation.Set(node.Tag(), node.Text())
} else {
animation.Set(node.Tag(), node)
}
}
}
return animation
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}
// NewAnimation creates a new animation object and return its interface
func NewAnimation(params Params) Animation {
animation := new(animationData)
animation.init()
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for tag, value := range params {
animation.Set(tag, value)
}
return animation
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}
func (animation *animationData) animatedProperties() []AnimatedProperty {
value := animation.getRaw(PropertyTag)
if value == nil {
ErrorLog("There are no animated properties.")
return nil
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}
props, ok := value.([]AnimatedProperty)
if !ok {
ErrorLog("Invalid animated properties.")
return nil
}
if len(props) == 0 {
ErrorLog("There are no animated properties.")
return nil
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}
return props
}
func (animation *animationData) hasAnimatedProperty() bool {
return animation.animatedProperties() != nil
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}
func (animation *animationData) animationName() string {
return animation.keyFramesName
}
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func (animation *animationData) used() {
animation.usageCounter++
}
func (animation *animationData) unused(session Session) {
animation.usageCounter--
if animation.usageCounter <= 0 && animation.keyFramesName != "" {
session.removeAnimation(animation.keyFramesName)
}
}
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func (animation *animationData) normalizeTag(tag string) string {
tag = strings.ToLower(tag)
if tag == Direction {
return AnimationDirection
}
return tag
}
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func (animation *animationData) Set(tag string, value any) bool {
if value == nil {
animation.Remove(tag)
return true
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}
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switch tag = animation.normalizeTag(tag); tag {
case ID:
if text, ok := value.(string); ok {
text = strings.Trim(text, " \t\n\r")
if text == "" {
delete(animation.properties, tag)
} else {
animation.properties[tag] = text
}
return true
}
notCompatibleType(tag, value)
return false
case PropertyTag:
switch value := value.(type) {
case AnimatedProperty:
if value.From == nil && value.KeyFrames != nil {
if val, ok := value.KeyFrames[0]; ok {
value.From = val
delete(value.KeyFrames, 0)
}
}
if value.To == nil && value.KeyFrames != nil {
if val, ok := value.KeyFrames[100]; ok {
value.To = val
delete(value.KeyFrames, 100)
}
}
if value.From == nil {
ErrorLog("AnimatedProperty.From is nil")
} else if value.To == nil {
ErrorLog("AnimatedProperty.To is nil")
} else {
animation.properties[tag] = []AnimatedProperty{value}
return true
}
case []AnimatedProperty:
props := []AnimatedProperty{}
for _, val := range value {
if val.From == nil && val.KeyFrames != nil {
if v, ok := val.KeyFrames[0]; ok {
val.From = v
delete(val.KeyFrames, 0)
}
}
if val.To == nil && val.KeyFrames != nil {
if v, ok := val.KeyFrames[100]; ok {
val.To = v
delete(val.KeyFrames, 100)
}
}
if val.From == nil {
ErrorLog("AnimatedProperty.From is nil")
} else if val.To == nil {
ErrorLog("AnimatedProperty.To is nil")
} else {
props = append(props, val)
}
}
if len(props) > 0 {
animation.properties[tag] = props
return true
} else {
ErrorLog("[]AnimatedProperty is empty")
}
case DataNode:
parseObject := func(obj DataObject) (AnimatedProperty, bool) {
result := AnimatedProperty{}
for i := 0; i < obj.PropertyCount(); i++ {
if node := obj.Property(i); node.Type() == TextNode {
propTag := strings.ToLower(node.Tag())
switch propTag {
case "from", "0", "0%":
result.From = node.Text()
case "to", "100", "100%":
result.To = node.Text()
default:
tagLen := len(propTag)
if tagLen > 0 && propTag[tagLen-1] == '%' {
propTag = propTag[:tagLen-1]
}
n, err := strconv.Atoi(propTag)
if err != nil {
ErrorLog(err.Error())
} else if n < 0 || n > 100 {
ErrorLogF(`key-frame "%d" is out of range`, n)
} else {
if result.KeyFrames == nil {
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result.KeyFrames = map[int]any{n: node.Text()}
} else {
result.KeyFrames[n] = node.Text()
}
}
}
}
}
if result.From != nil && result.To != nil {
return result, true
}
return result, false
}
switch value.Type() {
case ObjectNode:
if prop, ok := parseObject(value.Object()); ok {
animation.properties[tag] = []AnimatedProperty{prop}
return true
}
case ArrayNode:
props := []AnimatedProperty{}
for _, val := range value.ArrayElements() {
if val.IsObject() {
if prop, ok := parseObject(val.Object()); ok {
props = append(props, prop)
}
} else {
notCompatibleType(tag, val)
}
}
if len(props) > 0 {
animation.properties[tag] = props
return true
}
default:
notCompatibleType(tag, value)
}
default:
notCompatibleType(tag, value)
}
case Duration:
return animation.setFloatProperty(tag, value, 0, math.MaxFloat64)
case Delay:
return animation.setFloatProperty(tag, value, -math.MaxFloat64, math.MaxFloat64)
case TimingFunction:
if text, ok := value.(string); ok {
animation.properties[tag] = text
return true
}
case IterationCount:
return animation.setIntProperty(tag, value)
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case AnimationDirection:
return animation.setEnumProperty(AnimationDirection, value, enumProperties[AnimationDirection].values)
default:
ErrorLogF(`The "%s" property is not supported by Animation`, tag)
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}
return false
}
func (animation *animationData) Remove(tag string) {
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delete(animation.properties, animation.normalizeTag(tag))
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}
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func (animation *animationData) Get(tag string) any {
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return animation.getRaw(animation.normalizeTag(tag))
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}
func (animation *animationData) String() string {
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buffer := allocStringBuilder()
defer freeStringBuilder(buffer)
buffer.WriteString("animation {")
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for _, tag := range animation.AllTags() {
if tag != PropertyTag {
if value, ok := animation.properties[tag]; ok && value != nil {
buffer.WriteString("\n\t")
buffer.WriteString(tag)
buffer.WriteString(" = ")
writePropertyValue(buffer, tag, value, "\t")
buffer.WriteRune(',')
}
}
}
writeProperty := func(prop AnimatedProperty, indent string) {
buffer.WriteString(prop.Tag)
buffer.WriteString("{\n")
buffer.WriteString(indent)
buffer.WriteString("from = ")
writePropertyValue(buffer, "from", prop.From, indent)
buffer.WriteString(",\n")
buffer.WriteString(indent)
buffer.WriteString("to = ")
writePropertyValue(buffer, "to", prop.To, indent)
for key, value := range prop.KeyFrames {
buffer.WriteString(",\n")
buffer.WriteString(indent)
tag := strconv.Itoa(key) + "%"
buffer.WriteString(tag)
buffer.WriteString(" = ")
writePropertyValue(buffer, tag, value, indent)
}
buffer.WriteString("\n")
buffer.WriteString(indent[1:])
buffer.WriteString("}")
}
if props := animation.animatedProperties(); len(props) > 0 {
buffer.WriteString("\n\t")
buffer.WriteString(PropertyTag)
buffer.WriteString(" = ")
if len(props) > 1 {
buffer.WriteString("[\n")
for _, prop := range props {
buffer.WriteString("\t\t")
writeProperty(prop, "\t\t\t")
buffer.WriteString(",\n")
}
buffer.WriteString("\t]")
} else {
writeProperty(props[0], "\t\t")
}
}
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buffer.WriteString("\n}")
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return buffer.String()
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}
func (animation *animationData) animationCSS(session Session) string {
if animation.keyFramesName == "" {
if props := animation.animatedProperties(); props != nil {
animation.keyFramesName = session.registerAnimation(props)
} else {
return ""
}
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}
buffer := allocStringBuilder()
defer freeStringBuilder(buffer)
buffer.WriteString(animation.keyFramesName)
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if duration, ok := floatProperty(animation, Duration, session, 1); ok && duration > 0 {
buffer.WriteString(fmt.Sprintf(" %gs ", duration))
} else {
buffer.WriteString(" 1s ")
}
buffer.WriteString(animation.timingFunctionCSS(session))
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if delay, ok := floatProperty(animation, Delay, session, 0); ok && delay > 0 {
buffer.WriteString(fmt.Sprintf(" %gs", delay))
} else {
buffer.WriteString(" 0s")
}
if iterationCount, _ := intProperty(animation, IterationCount, session, 0); iterationCount >= 0 {
if iterationCount == 0 {
iterationCount = 1
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}
buffer.WriteString(fmt.Sprintf(" %d ", iterationCount))
} else {
buffer.WriteString(" infinite ")
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}
direction, _ := enumProperty(animation, AnimationDirection, session, 0)
values := enumProperties[AnimationDirection].cssValues
if direction < 0 || direction >= len(values) {
direction = 0
}
buffer.WriteString(values[direction])
// TODO "animation-fill-mode"
buffer.WriteString(" forwards")
return buffer.String()
}
func (animation *animationData) transitionCSS(buffer *strings.Builder, session Session) {
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if duration, ok := floatProperty(animation, Duration, session, 1); ok && duration > 0 {
buffer.WriteString(fmt.Sprintf(" %gs ", duration))
} else {
buffer.WriteString(" 1s ")
}
buffer.WriteString(animation.timingFunctionCSS(session))
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if delay, ok := floatProperty(animation, Delay, session, 0); ok && delay > 0 {
buffer.WriteString(fmt.Sprintf(" %gs", delay))
}
}
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func (animation *animationData) writeTransitionString(tag string, buffer *strings.Builder) {
buffer.WriteString(tag)
buffer.WriteString("{")
lead := " "
writeFloatProperty := func(name string) bool {
if value := animation.getRaw(name); value != nil {
buffer.WriteString(lead)
buffer.WriteString(name)
buffer.WriteString(" = ")
writePropertyValue(buffer, name, value, "")
lead = ", "
return true
}
return false
}
if !writeFloatProperty(Duration) {
buffer.WriteString(" duration = 1")
lead = ", "
}
writeFloatProperty(Delay)
if value := animation.getRaw(TimingFunction); value != nil {
if timingFunction, ok := value.(string); ok && timingFunction != "" {
buffer.WriteString(lead)
buffer.WriteString(TimingFunction)
buffer.WriteString(" = ")
if strings.ContainsAny(timingFunction, " ,()") {
buffer.WriteRune('"')
buffer.WriteString(timingFunction)
buffer.WriteRune('"')
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} else {
buffer.WriteString(timingFunction)
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}
}
}
buffer.WriteString(" }")
}
func (animation *animationData) timingFunctionCSS(session Session) string {
if timingFunction, ok := stringProperty(animation, TimingFunction, session); ok {
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if timingFunction, ok = session.resolveConstants(timingFunction); ok && isTimingFunctionValid(timingFunction) {
return timingFunction
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}
}
return ("ease")
}
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func isTimingFunctionValid(timingFunction string) bool {
switch timingFunction {
case "", EaseTiming, EaseInTiming, EaseOutTiming, EaseInOutTiming, LinearTiming:
return true
}
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size := len(timingFunction)
if size > 0 && timingFunction[size-1] == ')' {
if index := strings.IndexRune(timingFunction, '('); index > 0 {
args := timingFunction[index+1 : size-1]
switch timingFunction[:index] {
case "steps":
if _, err := strconv.Atoi(strings.Trim(args, " \t\n")); err == nil {
return true
}
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case "cubic-bezier":
if params := strings.Split(args, ","); len(params) == 4 {
for _, param := range params {
if _, err := strconv.ParseFloat(strings.Trim(param, " \t\n"), 64); err != nil {
return false
}
}
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return true
}
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}
}
}
return false
}
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// IsTimingFunctionValid returns "true" if the "timingFunction" argument is the valid timing function.
func IsTimingFunctionValid(timingFunction string, session Session) bool {
if timingFunc, ok := session.resolveConstants(strings.Trim(timingFunction, " \t\n")); ok {
return isTimingFunctionValid(timingFunc)
}
return false
}
func (session *sessionData) registerAnimation(props []AnimatedProperty) string {
session.animationCounter++
name := fmt.Sprintf("kf%06d", session.animationCounter)
var cssBuilder cssStyleBuilder
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cssBuilder.init(0)
cssBuilder.startAnimation(name)
fromParams := Params{}
toParams := Params{}
frames := []int{}
for _, prop := range props {
fromParams[prop.Tag] = prop.From
toParams[prop.Tag] = prop.To
if len(prop.KeyFrames) > 0 {
for frame := range prop.KeyFrames {
needAppend := true
for i, n := range frames {
if n == frame {
needAppend = false
break
} else if frame < n {
needAppend = false
frames = append(append(frames[:i], frame), frames[i+1:]...)
break
}
}
if needAppend {
frames = append(frames, frame)
}
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}
}
}
cssBuilder.startAnimationFrame("from")
NewViewStyle(fromParams).cssViewStyle(&cssBuilder, session)
cssBuilder.endAnimationFrame()
if len(frames) > 0 {
for _, frame := range frames {
params := Params{}
for _, prop := range props {
if prop.KeyFrames != nil {
if value, ok := prop.KeyFrames[frame]; ok {
params[prop.Tag] = value
}
}
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}
if len(params) > 0 {
cssBuilder.startAnimationFrame(strconv.Itoa(frame) + "%")
NewViewStyle(params).cssViewStyle(&cssBuilder, session)
cssBuilder.endAnimationFrame()
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}
}
}
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cssBuilder.startAnimationFrame("to")
NewViewStyle(toParams).cssViewStyle(&cssBuilder, session)
cssBuilder.endAnimationFrame()
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cssBuilder.endAnimation()
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session.addAnimationCSS(cssBuilder.finish())
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return name
}
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func (view *viewData) SetAnimated(tag string, value any, animation Animation) bool {
if animation == nil {
return view.Set(tag, value)
}
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session := view.Session()
htmlID := view.htmlID()
session.startUpdateScript(htmlID)
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session.updateProperty(htmlID, "ontransitionend", "transitionEndEvent(this, event)")
session.updateProperty(htmlID, "ontransitioncancel", "transitionCancelEvent(this, event)")
if prevAnimation, ok := view.transitions[tag]; ok {
view.singleTransition[tag] = prevAnimation
} else {
view.singleTransition[tag] = nil
}
view.transitions[tag] = animation
view.updateTransitionCSS()
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session.finishUpdateScript(htmlID)
result := view.Set(tag, value)
if !result {
delete(view.singleTransition, tag)
view.updateTransitionCSS()
}
return result
}
func (style *viewStyle) animationCSS(session Session) string {
if value := style.getRaw(AnimationTag); value != nil {
if animations, ok := value.([]Animation); ok {
buffer := allocStringBuilder()
defer freeStringBuilder(buffer)
for _, animation := range animations {
if css := animation.animationCSS(session); css != "" {
if buffer.Len() > 0 {
buffer.WriteString(", ")
}
buffer.WriteString(css)
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}
}
return buffer.String()
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}
}
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return ""
}
func (style *viewStyle) transitionCSS(session Session) string {
buffer := allocStringBuilder()
defer freeStringBuilder(buffer)
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convert := map[string]string{
CellHeight: "grid-template-rows",
CellWidth: "grid-template-columns",
Row: "grid-row",
Column: "grid-column",
Clip: "clip-path",
Shadow: "box-shadow",
ColumnSeparator: "column-rule",
FontName: "font",
TextSize: "font-size",
TextLineThickness: "text-decoration-thickness",
}
for tag, animation := range style.transitions {
if buffer.Len() > 0 {
buffer.WriteString(", ")
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}
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if cssTag, ok := convert[tag]; ok {
buffer.WriteString(cssTag)
} else {
buffer.WriteString(tag)
}
animation.transitionCSS(buffer, session)
}
return buffer.String()
}
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func (view *viewData) updateTransitionCSS() {
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view.session.updateCSSProperty(view.htmlID(), "transition", view.transitionCSS(view.session))
}
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func (style *viewStyle) Transition(tag string) Animation {
if style.transitions != nil {
if anim, ok := style.transitions[tag]; ok {
return anim
}
}
return nil
}
func (style *viewStyle) Transitions() map[string]Animation {
result := map[string]Animation{}
for tag, animation := range style.transitions {
result[tag] = animation
}
return result
}
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func (style *viewStyle) SetTransition(tag string, animation Animation) {
if animation == nil {
delete(style.transitions, tag)
} else {
style.transitions[tag] = animation
}
}
func (view *viewData) SetTransition(tag string, animation Animation) {
view.viewStyle.SetTransition(tag, animation)
if view.created {
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view.session.updateCSSProperty(view.htmlID(), "transition", view.transitionCSS(view.session))
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}
}
// SetAnimated sets the property with name "tag" of the "rootView" subview with "viewID" id by value. Result:
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// true - success,
// false - error (incompatible type or invalid format of a string value, see AppLog).
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func SetAnimated(rootView View, viewID, tag string, value any, animation Animation) bool {
if view := ViewByID(rootView, viewID); view != nil {
return view.SetAnimated(tag, value, animation)
}
return false
}
// IsAnimationPaused returns "true" if an animation of the subview is paused, "false" otherwise.
// If the second argument (subviewID) is not specified or it is "" then a value from the first argument (view) is returned.
func IsAnimationPaused(view View, subviewID ...string) bool {
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return boolStyledProperty(view, subviewID, AnimationPaused, false)
}
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// GetTransitions returns the subview transitions. The result is always non-nil.
// If the second argument (subviewID) is not specified or it is "" then transitions of the first argument (view) is returned
func GetTransitions(view View, subviewID ...string) map[string]Animation {
if len(subviewID) > 0 && subviewID[0] != "" {
view = ViewByID(view, subviewID[0])
}
if view != nil {
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return view.Transitions()
}
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return map[string]Animation{}
}
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// GetTransition returns the subview property transition. If there is no transition for the given property then nil is returned.
// If the second argument (subviewID) is not specified or it is "" then transitions of the first argument (view) is returned
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func GetTransition(view View, subviewID, tag string) Animation {
if subviewID != "" {
view = ViewByID(view, subviewID)
}
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if view != nil {
return view.Transition(tag)
}
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return nil
}
// AddTransition adds the transition for the subview property.
// If the second argument (subviewID) is not specified or it is "" then the transition is added to the first argument (view)
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func AddTransition(view View, subviewID, tag string, animation Animation) bool {
if tag != "" {
if subviewID != "" {
view = ViewByID(view, subviewID)
}
if view != nil {
view.SetTransition(tag, animation)
return true
}
}
return false
}
// GetAnimation returns the subview animations. The result is always non-nil.
// If the second argument (subviewID) is not specified or it is "" then transitions of the first argument (view) is returned
func GetAnimation(view View, subviewID ...string) []Animation {
if len(subviewID) > 0 && subviewID[0] != "" {
view = ViewByID(view, subviewID[0])
}
if view != nil {
if value := view.getRaw(AnimationTag); value != nil {
if animations, ok := value.([]Animation); ok && animations != nil {
return animations
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}
}
}
return []Animation{}
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}