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TheZone:main
TheZone:014-clip-config
TheZone:014-single-char-hash
TheZone:experimental-render-command-tree-depth
TheZone:014-simd-hash
TheZone:013-config-refactor
TheZone:013-tst-branch
TheZone:013-add-text-contents-hash-option
TheZone:013-arena-align-cache-line
TheZone:013-measure-text-string-slice
TheZone:013-expose-bounding-boxes
TheZone:013-split-padding-values
TheZone:013-fix-newline-handling
TheZone:v0.13
TheZone:v0.12
TheZone:v0.11
TheZone:v0.10
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compare: TheZone:9fb7e1e2db7f537b69b226e0e52c0511866a9c5c
Branches Tags
TheZone:main
TheZone:014-clip-config
TheZone:014-single-char-hash
TheZone:experimental-render-command-tree-depth
TheZone:014-simd-hash
TheZone:013-config-refactor
TheZone:013-tst-branch
TheZone:013-add-text-contents-hash-option
TheZone:013-arena-align-cache-line
TheZone:013-measure-text-string-slice
TheZone:013-expose-bounding-boxes
TheZone:013-split-padding-values
TheZone:013-fix-newline-handling
TheZone:v0.13
TheZone:v0.12
TheZone:v0.11
TheZone:v0.10

9 Commits
5e8026be44 ... 9fb7e1e2db

Author SHA1 Message Date
Harrison Lambeth
9fb7e1e2db
Merge 38bb241ced into a60b977946 2025-02-17 13:48:49 -07:00
Nic Barker
a60b977946 [Core] Fix a bug where floating elements would be incorrectly configured
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2025-02-18 09:41:06 +13:00
Laytan
20340f6544
[Bindings/Odin] add missing bindings, fix binding, improve ergonomics of userdata, conform to stricter style flags (#270) 
Co-authored-by: Nic Barker <contact+github@nicbarker.com>
Co-authored-by: Courtney Strachan <courtney.strachan@gmail.com>
 2025-02-18 09:16:31 +13:00
Harrison Lambeth
38bb241ced small fixes 2025-02-10 23:14:44 -07:00
Harrison Lambeth
f4933c6669 small refactor 2025-02-10 23:14:44 -07:00
Harrison Lambeth
61ba36753b Fix Clay_OnHover 2025-02-10 23:14:44 -07:00
Harrison Lambeth
4f4605eff9 Add proper support for function arguments 2025-02-10 23:14:44 -07:00
Harrison Lambeth
7c65f31f46 Some fixes after rebasing 2025-02-10 23:14:44 -07:00
Harrison Lambeth
01025e9157 initial pass 2025-02-10 23:14:44 -07:00
26 changed files with 1598 additions and 290 deletions
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7
.gitignore vendored
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@ -4,4 +4,9 @@ cmake-build-release/
.idea/
node_modules/
*.dSYM
.vs/
.vs/
bindings/odin/clay-odin/tmp/
generator/__pycache__/
generator/generators/__pycache__/

487
bindings/odin/clay-odin/clay.odin
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@ -1,436 +1,459 @@
package clay
import "core:c"
import "core:strings"
when ODIN_OS == .Windows {
foreign import Clay "windows/clay.lib"
foreign import Clay "windows/clay.lib"
} else when ODIN_OS == .Linux {
foreign import Clay "linux/clay.a"
foreign import Clay "linux/clay.a"
} else when ODIN_OS == .Darwin {
when ODIN_ARCH == .arm64 {
foreign import Clay "macos-arm64/clay.a"
} else {
foreign import Clay "macos/clay.a"
}
when ODIN_ARCH == .arm64 {
foreign import Clay "macos-arm64/clay.a"
} else {
foreign import Clay "macos/clay.a"
}
} else when ODIN_ARCH == .wasm32 || ODIN_ARCH == .wasm64p32 {
foreign import Clay "wasm/clay.o"
foreign import Clay "wasm/clay.o"
}
String :: struct {
length: c.int32_t,
chars: [^]c.char,
length: c.int32_t,
chars: [^]c.char,
}
StringSlice :: struct {
length: c.int32_t,
chars: [^]c.char,
baseChars: [^]c.char,
length: c.int32_t,
chars: [^]c.char,
baseChars: [^]c.char,
}
Vector2 :: [2]c.float
Dimensions :: struct {
width: c.float,
height: c.float,
width: c.float,
height: c.float,
}
Arena :: struct {
nextAllocation: uintptr,
capacity: uintptr,
memory: [^]c.char,
nextAllocation: uintptr,
capacity: uintptr,
memory: [^]c.char,
}
BoundingBox :: struct {
x: c.float,
y: c.float,
width: c.float,
height: c.float,
x: c.float,
y: c.float,
width: c.float,
height: c.float,
}
Color :: [4]c.float
CornerRadius :: struct {
topLeft: c.float,
topRight: c.float,
bottomLeft: c.float,
bottomRight: c.float,
topLeft: c.float,
topRight: c.float,
bottomLeft: c.float,
bottomRight: c.float,
}
BorderData :: struct {
width: u32,
color: Color,
width: u32,
color: Color,
}
ElementId :: struct {
id: u32,
offset: u32,
baseId: u32,
stringId: String,
id: u32,
offset: u32,
baseId: u32,
stringId: String,
}
when ODIN_OS == .Windows {
EnumBackingType :: u32
EnumBackingType :: u32
} else {
EnumBackingType :: u8
EnumBackingType :: u8
}
RenderCommandType :: enum EnumBackingType {
None,
Rectangle,
Border,
Text,
Image,
ScissorStart,
ScissorEnd,
Custom,
None,
Rectangle,
Border,
Text,
Image,
ScissorStart,
ScissorEnd,
Custom,
}
RectangleElementConfig :: struct {
color: Color,
color: Color,
}
TextWrapMode :: enum EnumBackingType {
Words,
Newlines,
None,
Words,
Newlines,
None,
}
TextAlignment :: enum EnumBackingType {
Left,
Center,
Right,
Left,
Center,
Right,
}
TextElementConfig :: struct {
textColor: Color,
fontId: u16,
fontSize: u16,
letterSpacing: u16,
lineHeight: u16,
wrapMode: TextWrapMode,
textAlignment: TextAlignment,
hashStringContents: bool,
textColor: Color,
fontId: u16,
fontSize: u16,
letterSpacing: u16,
lineHeight: u16,
wrapMode: TextWrapMode,
textAlignment: TextAlignment,
hashStringContents: bool,
}
ImageElementConfig :: struct {
imageData: rawptr,
sourceDimensions: Dimensions,
imageData: rawptr,
sourceDimensions: Dimensions,
}
CustomElementConfig :: struct {
customData: rawptr,
customData: rawptr,
}
BorderWidth :: struct {
left: u16,
right: u16,
top: u16,
bottom: u16,
betweenChildren: u16,
left: u16,
right: u16,
top: u16,
bottom: u16,
betweenChildren: u16,
}
BorderElementConfig :: struct {
color: Color,
width: BorderWidth,
color: Color,
width: BorderWidth,
}
ScrollElementConfig :: struct {
horizontal: bool,
vertical: bool,
horizontal: bool,
vertical: bool,
}
FloatingAttachPointType :: enum EnumBackingType {
LeftTop,
LeftCenter,
LeftBottom,
CenterTop,
CenterCenter,
CenterBottom,
RightTop,
RightCenter,
RightBottom,
LeftTop,
LeftCenter,
LeftBottom,
CenterTop,
CenterCenter,
CenterBottom,
RightTop,
RightCenter,
RightBottom,
}
FloatingAttachPoints :: struct {
element: FloatingAttachPointType,
parent: FloatingAttachPointType,
element: FloatingAttachPointType,
parent: FloatingAttachPointType,
}
PointerCaptureMode :: enum EnumBackingType {
Capture,
Passthrough,
Capture,
Passthrough,
}
FloatingAttachToElement :: enum EnumBackingType {
None,
Parent,
ElementWithId,
Root,
None,
Parent,
ElementWithId,
Root,
}
FloatingElementConfig :: struct {
offset: Vector2,
expand: Dimensions,
parentId: u32,
zIndex: i32,
attachment: FloatingAttachPoints,
pointerCaptureMode: PointerCaptureMode,
attachTo: FloatingAttachToElement
offset: Vector2,
expand: Dimensions,
parentId: u32,
zIndex: i32,
attachment: FloatingAttachPoints,
pointerCaptureMode: PointerCaptureMode,
attachTo: FloatingAttachToElement,
}
TextRenderData :: struct {
stringContents: StringSlice,
textColor: Color,
fontId: u16,
fontSize: u16,
letterSpacing: u16,
lineHeight: u16,
stringContents: StringSlice,
textColor: Color,
fontId: u16,
fontSize: u16,
letterSpacing: u16,
lineHeight: u16,
}
RectangleRenderData :: struct {
backgroundColor: Color,
cornerRadius: CornerRadius,
backgroundColor: Color,
cornerRadius: CornerRadius,
}
ImageRenderData :: struct {
backgroundColor: Color,
cornerRadius: CornerRadius,
sourceDimensions: Dimensions,
imageData: rawptr,
backgroundColor: Color,
cornerRadius: CornerRadius,
sourceDimensions: Dimensions,
imageData: rawptr,
}
CustomRenderData :: struct {
backgroundColor: Color,
cornerRadius: CornerRadius,
customData: rawptr,
backgroundColor: Color,
cornerRadius: CornerRadius,
customData: rawptr,
}
BorderRenderData :: struct {
color: Color,
cornerRadius: CornerRadius,
width: BorderWidth,
color: Color,
cornerRadius: CornerRadius,
width: BorderWidth,
}
RenderCommandData :: struct #raw_union {
rectangle: RectangleRenderData,
text: TextRenderData,
image: ImageRenderData,
custom: CustomRenderData,
border: BorderRenderData,
rectangle: RectangleRenderData,
text: TextRenderData,
image: ImageRenderData,
custom: CustomRenderData,
border: BorderRenderData,
}
RenderCommand :: struct {
boundingBox: BoundingBox,
renderData: RenderCommandData,
userData: rawptr,
id: u32,
zIndex: i16,
commandType: RenderCommandType,
boundingBox: BoundingBox,
renderData: RenderCommandData,
userData: rawptr,
id: u32,
zIndex: i16,
commandType: RenderCommandType,
}
ScrollContainerData :: struct {
// Note: This is a pointer to the real internal scroll position, mutating it may cause a change in final layout.
// Intended for use with external functionality that modifies scroll position, such as scroll bars or auto scrolling.
scrollPosition: ^Vector2,
scrollContainerDimensions: Dimensions,
contentDimensions: Dimensions,
config: ScrollElementConfig,
// Indicates whether an actual scroll container matched the provided ID or if the default struct was returned.
found: bool,
// Note: This is a pointer to the real internal scroll position, mutating it may cause a change in final layout.
// Intended for use with external functionality that modifies scroll position, such as scroll bars or auto scrolling.
scrollPosition: ^Vector2,
scrollContainerDimensions: Dimensions,
contentDimensions: Dimensions,
config: ScrollElementConfig,
// Indicates whether an actual scroll container matched the provided ID or if the default struct was returned.
found: bool,
}
ElementData :: struct {
boundingBox: BoundingBox,
found: bool,
}
PointerDataInteractionState :: enum EnumBackingType {
PressedThisFrame,
Pressed,
ReleasedThisFrame,
Released,
}
PointerData :: struct {
position: Vector2,
state: PointerDataInteractionState,
}
SizingType :: enum EnumBackingType {
Fit,
Grow,
Percent,
Fixed,
Fit,
Grow,
Percent,
Fixed,
}
SizingConstraintsMinMax :: struct {
min: c.float,
max: c.float,
min: c.float,
max: c.float,
}
SizingConstraints :: struct #raw_union {
sizeMinMax: SizingConstraintsMinMax,
sizePercent: c.float,
sizeMinMax: SizingConstraintsMinMax,
sizePercent: c.float,
}
SizingAxis :: struct {
// Note: `min` is used for CLAY_SIZING_PERCENT, slightly different to clay.h due to lack of C anonymous unions
constraints: SizingConstraints,
type: SizingType,
// Note: `min` is used for CLAY_SIZING_PERCENT, slightly different to clay.h due to lack of C anonymous unions
constraints: SizingConstraints,
type: SizingType,
}
Sizing :: struct {
width: SizingAxis,
height: SizingAxis,
width: SizingAxis,
height: SizingAxis,
}
Padding :: struct {
left: u16,
right: u16,
top: u16,
bottom: u16,
left: u16,
right: u16,
top: u16,
bottom: u16,
}
LayoutDirection :: enum EnumBackingType {
LeftToRight,
TopToBottom,
LeftToRight,
TopToBottom,
}
LayoutAlignmentX :: enum EnumBackingType {
Left,
Right,
Center,
Left,
Right,
Center,
}
LayoutAlignmentY :: enum EnumBackingType {
Top,
Bottom,
Center,
Top,
Bottom,
Center,
}
ChildAlignment :: struct {
x: LayoutAlignmentX,
y: LayoutAlignmentY,
x: LayoutAlignmentX,
y: LayoutAlignmentY,
}
LayoutConfig :: struct {
sizing: Sizing,
padding: Padding,
childGap: u16,
childAlignment: ChildAlignment,
layoutDirection: LayoutDirection,
sizing: Sizing,
padding: Padding,
childGap: u16,
childAlignment: ChildAlignment,
layoutDirection: LayoutDirection,
}
ClayArray :: struct($type: typeid) {
capacity: i32,
length: i32,
internalArray: [^]type,
capacity: i32,
length: i32,
internalArray: [^]type,
}
ElementDeclaration :: struct {
id: ElementId,
layout: LayoutConfig,
backgroundColor: Color,
cornerRadius: CornerRadius,
image: ImageElementConfig,
floating: FloatingElementConfig,
custom: CustomElementConfig,
scroll: ScrollElementConfig,
border: BorderElementConfig,
userData: rawptr
id: ElementId,
layout: LayoutConfig,
backgroundColor: Color,
cornerRadius: CornerRadius,
image: ImageElementConfig,
floating: FloatingElementConfig,
custom: CustomElementConfig,
scroll: ScrollElementConfig,
border: BorderElementConfig,
userData: rawptr,
}
ErrorType :: enum EnumBackingType {
TextMeasurementFunctionNotProvided,
ArenaCapacityExceeded,
ElementsCapacityExceeded,
TextMeasurementCapacityExceeded,
DuplicateId,
FloatingContainerParentNotFound,
PercentageOver1,
InternalError,
TextMeasurementFunctionNotProvided,
ArenaCapacityExceeded,
ElementsCapacityExceeded,
TextMeasurementCapacityExceeded,
DuplicateId,
FloatingContainerParentNotFound,
PercentageOver1,
InternalError,
}
ErrorData :: struct {
errorType: ErrorType,
errorText: String,
userData: rawptr
errorType: ErrorType,
errorText: String,
userData: rawptr,
}
ErrorHandler :: struct {
handler: proc "c" (errorData: ErrorData),
userData: rawptr
handler: proc "c" (errorData: ErrorData),
userData: rawptr,
}
Context :: struct {} // opaque structure, only use as a pointer
@(link_prefix = "Clay_", default_calling_convention = "c")
foreign Clay {
MinMemorySize :: proc() -> u32 ---
CreateArenaWithCapacityAndMemory :: proc(capacity: u32, offset: [^]u8) -> Arena ---
SetPointerState :: proc(position: Vector2, pointerDown: bool) ---
Initialize :: proc(arena: Arena, layoutDimensions: Dimensions, errorHandler: ErrorHandler) ---
UpdateScrollContainers :: proc(enableDragScrolling: bool, scrollDelta: Vector2, deltaTime: c.float) ---
SetLayoutDimensions :: proc(dimensions: Dimensions) ---
BeginLayout :: proc() ---
EndLayout :: proc() -> ClayArray(RenderCommand) ---
Hovered :: proc() -> bool ---
PointerOver :: proc(id: ElementId) -> bool ---
GetElementId :: proc(id: String) -> ElementId ---
GetScrollContainerData :: proc(id: ElementId) -> ScrollContainerData ---
SetMeasureTextFunction :: proc(measureTextFunction: proc "c" (text: StringSlice, config: ^TextElementConfig, userData: uintptr) -> Dimensions, userData: uintptr) ---
RenderCommandArray_Get :: proc(array: ^ClayArray(RenderCommand), index: i32) -> ^RenderCommand ---
SetDebugModeEnabled :: proc(enabled: bool) ---
GetCurrentContext :: proc() -> ^Context ---
SetCurrentContext :: proc(ctx: ^Context) ---
MinMemorySize :: proc() -> u32 ---
CreateArenaWithCapacityAndMemory :: proc(capacity: u32, offset: [^]u8) -> Arena ---
SetPointerState :: proc(position: Vector2, pointerDown: bool) ---
Initialize :: proc(arena: Arena, layoutDimensions: Dimensions, errorHandler: ErrorHandler) -> ^Context ---
GetCurrentContext :: proc() -> ^Context ---
SetCurrentContext :: proc(ctx: ^Context) ---
UpdateScrollContainers :: proc(enableDragScrolling: bool, scrollDelta: Vector2, deltaTime: c.float) ---
SetLayoutDimensions :: proc(dimensions: Dimensions) ---
BeginLayout :: proc() ---
EndLayout :: proc() -> ClayArray(RenderCommand) ---
GetElementId :: proc(id: String) -> ElementId ---
GetElementIdWithIndex :: proc(id: String, index: u32) -> ElementId ---
GetElementData :: proc(id: ElementId) -> ElementData ---
Hovered :: proc() -> bool ---
OnHover :: proc(onHoverFunction: proc "c" (id: ElementId, pointerData: PointerData, userData: rawptr), userData: rawptr) ---
PointerOver :: proc(id: ElementId) -> bool ---
GetScrollContainerData :: proc(id: ElementId) -> ScrollContainerData ---
SetMeasureTextFunction :: proc(measureTextFunction: proc "c" (text: StringSlice, config: ^TextElementConfig, userData: rawptr) -> Dimensions, userData: rawptr) ---
SetQueryScrollOffsetFunction :: proc(queryScrollOffsetFunction: proc "c" (elementId: u32, userData: rawptr) -> Vector2, userData: rawptr) ---
RenderCommandArray_Get :: proc(array: ^ClayArray(RenderCommand), index: i32) -> ^RenderCommand ---
SetDebugModeEnabled :: proc(enabled: bool) ---
IsDebugModeEnabled :: proc() -> bool ---
SetCullingEnabled :: proc(enabled: bool) ---
GetMaxElementCount :: proc() -> i32 ---
SetMaxElementCount :: proc(maxElementCount: i32) ---
GetMaxMeasureTextCacheWordCount :: proc() -> i32 ---
SetMaxMeasureTextCacheWordCount :: proc(maxMeasureTextCacheWordCount: i32) ---
ResetMeasureTextCache :: proc() ---
}
@(link_prefix = "Clay_", default_calling_convention = "c", private)
foreign Clay {
_OpenElement :: proc() ---
_ConfigureOpenElement :: proc(config: ElementDeclaration) ---
_CloseElement :: proc() ---
_OpenTextElement :: proc(text: String, textConfig: ^TextElementConfig) ---
_StoreTextElementConfig :: proc(config: TextElementConfig) -> ^TextElementConfig ---
_HashString :: proc(toHash: String, index: u32, seed: u32) -> ElementId ---
_GetOpenLayoutElementId :: proc() -> u32 ---
}
ClayOpenElement :: struct {
configure: proc (config: ElementDeclaration) -> bool
_OpenElement :: proc() ---
_ConfigureOpenElement :: proc(config: ElementDeclaration) ---
_CloseElement :: proc() ---
_HashString :: proc(key: String, offset: u32, seed: u32) -> ElementId ---
_OpenTextElement :: proc(text: String, textConfig: ^TextElementConfig) ---
_StoreTextElementConfig :: proc(config: TextElementConfig) -> ^TextElementConfig ---
_GetParentElementId :: proc() -> u32 ---
}
ConfigureOpenElement :: proc(config: ElementDeclaration) -> bool {
_ConfigureOpenElement(config)
return true;
_ConfigureOpenElement(config)
return true
}
@(deferred_none = _CloseElement)
UI :: proc() -> ClayOpenElement {
_OpenElement()
return { configure = ConfigureOpenElement }
UI :: proc() -> proc (config: ElementDeclaration) -> bool {
_OpenElement()
return ConfigureOpenElement
}
Text :: proc(text: string, config: ^TextElementConfig) {
_OpenTextElement(MakeString(text), config)
_OpenTextElement(MakeString(text), config)
}
TextConfig :: proc(config: TextElementConfig) -> ^TextElementConfig {
return _StoreTextElementConfig(config)
return _StoreTextElementConfig(config)
}
PaddingAll :: proc(allPadding: u16) -> Padding {
return { left = allPadding, right = allPadding, top = allPadding, bottom = allPadding }
return { left = allPadding, right = allPadding, top = allPadding, bottom = allPadding }
}
CornerRadiusAll :: proc(radius: f32) -> CornerRadius {
return CornerRadius{radius, radius, radius, radius}
return CornerRadius{radius, radius, radius, radius}
}
SizingFit :: proc(sizeMinMax: SizingConstraintsMinMax) -> SizingAxis {
return SizingAxis{type = SizingType.Fit, constraints = {sizeMinMax = sizeMinMax}}
return SizingAxis{type = SizingType.Fit, constraints = {sizeMinMax = sizeMinMax}}
}
SizingGrow :: proc(sizeMinMax: SizingConstraintsMinMax) -> SizingAxis {
return SizingAxis{type = SizingType.Grow, constraints = {sizeMinMax = sizeMinMax}}
return SizingAxis{type = SizingType.Grow, constraints = {sizeMinMax = sizeMinMax}}
}
SizingFixed :: proc(size: c.float) -> SizingAxis {
return SizingAxis{type = SizingType.Fixed, constraints = {sizeMinMax = {size, size}}}
return SizingAxis{type = SizingType.Fixed, constraints = {sizeMinMax = {size, size}}}
}
SizingPercent :: proc(sizePercent: c.float) -> SizingAxis {
return SizingAxis{type = SizingType.Percent, constraints = {sizePercent = sizePercent}}
return SizingAxis{type = SizingType.Percent, constraints = {sizePercent = sizePercent}}
}
MakeString :: proc(label: string) -> String {
return String{chars = raw_data(label), length = cast(c.int)len(label)}
return String{chars = raw_data(label), length = cast(c.int)len(label)}
}
ID :: proc(label: string, index: u32 = 0) -> ElementId {
return _HashString(MakeString(label), index, 0)
return _HashString(MakeString(label), index, 0)
}

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@ -63,13 +63,13 @@ border2pxRed := clay.BorderElementConfig {
}
LandingPageBlob :: proc(index: u32, fontSize: u16, fontId: u16, color: clay.Color, text: string, image: ^raylib.Texture2D) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("HeroBlob", index),
layout = { sizing = { width = clay.SizingGrow({ max = 480 }) }, padding = clay.PaddingAll(16), childGap = 16, childAlignment = clay.ChildAlignment{ y = .Center } },
border = border2pxRed,
cornerRadius = clay.CornerRadiusAll(10)
}) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("CheckImage", index),
layout = { sizing = { width = clay.SizingFixed(32) } },
image = { imageData = image, sourceDimensions = { 128, 128 } },
@ -79,27 +79,27 @@ LandingPageBlob :: proc(index: u32, fontSize: u16, fontId: u16, color: clay.Colo
}
LandingPageDesktop :: proc() {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("LandingPage1Desktop"),
layout = { sizing = { width = clay.SizingGrow({ }), height = clay.SizingFit({ min = cast(f32)windowHeight - 70 }) }, childAlignment = { y = .Center }, padding = { left = 50, right = 50 } },
}) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("LandingPage1"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingGrow({ }) }, childAlignment = { y = .Center }, padding = clay.PaddingAll(32), childGap = 32 },
border = { COLOR_RED, { left = 2, right = 2 } },
}) {
if clay.UI().configure({ id = clay.ID("LeftText"), layout = { sizing = { width = clay.SizingPercent(0.55) }, layoutDirection = .TopToBottom, childGap = 8 } }) {
if clay.UI()({ id = clay.ID("LeftText"), layout = { sizing = { width = clay.SizingPercent(0.55) }, layoutDirection = .TopToBottom, childGap = 8 } }) {
clay.Text(
"Clay is a flex-box style UI auto layout library in C, with declarative syntax and microsecond performance.",
clay.TextConfig({fontSize = 56, fontId = FONT_ID_TITLE_56, textColor = COLOR_RED}),
)
if clay.UI().configure({ layout = { sizing = { width = clay.SizingGrow({}), height = clay.SizingFixed(32) } } }) {}
if clay.UI()({ layout = { sizing = { width = clay.SizingGrow({}), height = clay.SizingFixed(32) } } }) {}
clay.Text(
"Clay is laying out this webpage right now!",
clay.TextConfig({fontSize = 36, fontId = FONT_ID_TITLE_36, textColor = COLOR_ORANGE}),
)
}
if clay.UI().configure({
if clay.UI()({
id = clay.ID("HeroImageOuter"),
layout = { layoutDirection = .TopToBottom, sizing = { width = clay.SizingPercent(0.45) }, childAlignment = { x = .Center }, childGap = 16 },
}) {
@ -114,7 +114,7 @@ LandingPageDesktop :: proc() {
}
LandingPageMobile :: proc() {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("LandingPage1Mobile"),
layout = {
layoutDirection = .TopToBottom,
@ -124,18 +124,18 @@ LandingPageMobile :: proc() {
childGap = 32,
},
}) {
if clay.UI().configure({ id = clay.ID("LeftText"), layout = { sizing = { width = clay.SizingGrow({ }) }, layoutDirection = .TopToBottom, childGap = 8 } }) {
if clay.UI()({ id = clay.ID("LeftText"), layout = { sizing = { width = clay.SizingGrow({ }) }, layoutDirection = .TopToBottom, childGap = 8 } }) {
clay.Text(
"Clay is a flex-box style UI auto layout library in C, with declarative syntax and microsecond performance.",
clay.TextConfig({fontSize = 48, fontId = FONT_ID_TITLE_48, textColor = COLOR_RED}),
)
if clay.UI().configure({ layout = { sizing = { width = clay.SizingGrow({}), height = clay.SizingFixed(32) } } }) {}
if clay.UI()({ layout = { sizing = { width = clay.SizingGrow({}), height = clay.SizingFixed(32) } } }) {}
clay.Text(
"Clay is laying out this webpage right now!",
clay.TextConfig({fontSize = 32, fontId = FONT_ID_TITLE_32, textColor = COLOR_ORANGE}),
)
}
if clay.UI().configure({
if clay.UI()({
id = clay.ID("HeroImageOuter"),
layout = { layoutDirection = .TopToBottom, sizing = { width = clay.SizingGrow({ }) }, childAlignment = { x = .Center }, childGap = 16 },
}) {
@ -150,17 +150,17 @@ LandingPageMobile :: proc() {
FeatureBlocks :: proc(widthSizing: clay.SizingAxis, outerPadding: u16) {
textConfig := clay.TextConfig({fontSize = 24, fontId = FONT_ID_BODY_24, textColor = COLOR_RED})
if clay.UI().configure({
if clay.UI()({
id = clay.ID("HFileBoxOuter"),
layout = { layoutDirection = .TopToBottom, sizing = { width = widthSizing }, childAlignment = { y = .Center }, padding = { outerPadding, outerPadding, 32, 32 }, childGap = 8 },
}) {
if clay.UI().configure({ id = clay.ID("HFileIncludeOuter"), layout = { padding = { 8, 8, 4, 4 } }, backgroundColor = COLOR_RED, cornerRadius = clay.CornerRadiusAll(8) }) {
if clay.UI()({ id = clay.ID("HFileIncludeOuter"), layout = { padding = { 8, 8, 4, 4 } }, backgroundColor = COLOR_RED, cornerRadius = clay.CornerRadiusAll(8) }) {
clay.Text("#include clay.h", clay.TextConfig({fontSize = 24, fontId = FONT_ID_BODY_24, textColor = COLOR_LIGHT}))
}
clay.Text("~2000 lines of C99.", textConfig)
clay.Text("Zero dependencies, including no C standard library.", textConfig)
}
if clay.UI().configure({
if clay.UI()({
id = clay.ID("BringYourOwnRendererOuter"),
layout = { layoutDirection = .TopToBottom, sizing = { width = widthSizing }, childAlignment = { y = .Center }, padding = { outerPadding, outerPadding, 32, 32 }, childGap = 8 },
}) {
@ -171,8 +171,8 @@ FeatureBlocks :: proc(widthSizing: clay.SizingAxis, outerPadding: u16) {
}
FeatureBlocksDesktop :: proc() {
if clay.UI().configure({ id = clay.ID("FeatureBlocksOuter"), layout = { sizing = { width = clay.SizingGrow({}) } } }) {
if clay.UI().configure({
if clay.UI()({ id = clay.ID("FeatureBlocksOuter"), layout = { sizing = { width = clay.SizingGrow({}) } } }) {
if clay.UI()({
id = clay.ID("FeatureBlocksInner"),
layout = { sizing = { width = clay.SizingGrow({ }) }, childAlignment = { y = .Center } },
border = { width = { betweenChildren = 2}, color = COLOR_RED },
@ -183,7 +183,7 @@ FeatureBlocksDesktop :: proc() {
}
FeatureBlocksMobile :: proc() {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("FeatureBlocksInner"),
layout = { layoutDirection = .TopToBottom, sizing = { width = clay.SizingGrow({ }) } },
border = { width = { betweenChildren = 2}, color = COLOR_RED },
@ -193,9 +193,9 @@ FeatureBlocksMobile :: proc() {
}
DeclarativeSyntaxPage :: proc(titleTextConfig: clay.TextElementConfig, widthSizing: clay.SizingAxis) {
if clay.UI().configure({ id = clay.ID("SyntaxPageLeftText"), layout = { sizing = { width = widthSizing }, layoutDirection = .TopToBottom, childGap = 8 } }) {
if clay.UI()({ id = clay.ID("SyntaxPageLeftText"), layout = { sizing = { width = widthSizing }, layoutDirection = .TopToBottom, childGap = 8 } }) {
clay.Text("Declarative Syntax", clay.TextConfig(titleTextConfig))
if clay.UI().configure({ id = clay.ID("SyntaxSpacer"), layout = { sizing = { width = clay.SizingGrow({ max = 16 }) } } }) {}
if clay.UI()({ id = clay.ID("SyntaxSpacer"), layout = { sizing = { width = clay.SizingGrow({ max = 16 }) } } }) {}
clay.Text(
"Flexible and readable declarative syntax with nested UI element hierarchies.",
clay.TextConfig({fontSize = 28, fontId = FONT_ID_BODY_28, textColor = COLOR_RED}),
@ -209,8 +209,8 @@ DeclarativeSyntaxPage :: proc(titleTextConfig: clay.TextElementConfig, widthSizi
clay.TextConfig({fontSize = 28, fontId = FONT_ID_BODY_28, textColor = COLOR_RED}),
)
}
if clay.UI().configure({ id = clay.ID("SyntaxPageRightImage"), layout = { sizing = { width = widthSizing }, childAlignment = { x = .Center } } }) {
if clay.UI().configure({
if clay.UI()({ id = clay.ID("SyntaxPageRightImage"), layout = { sizing = { width = widthSizing }, childAlignment = { x = .Center } } }) {
if clay.UI()({
id = clay.ID("SyntaxPageRightImageInner"),
layout = { sizing = { width = clay.SizingGrow({ max = 568 }) } },
image = { imageData = &syntaxImage, sourceDimensions = { 1136, 1194 } },
@ -219,11 +219,11 @@ DeclarativeSyntaxPage :: proc(titleTextConfig: clay.TextElementConfig, widthSizi
}
DeclarativeSyntaxPageDesktop :: proc() {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("SyntaxPageDesktop"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingFit({ min = cast(f32)windowHeight - 50 }) }, childAlignment = { y = .Center }, padding = { left = 50, right = 50 } },
}) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("SyntaxPage"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingGrow({ }) }, childAlignment = { y = .Center }, padding = clay.PaddingAll(32), childGap = 32 },
border = border2pxRed,
@ -234,7 +234,7 @@ DeclarativeSyntaxPageDesktop :: proc() {
}
DeclarativeSyntaxPageMobile :: proc() {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("SyntaxPageMobile"),
layout = {
layoutDirection = .TopToBottom,
@ -255,9 +255,9 @@ ColorLerp :: proc(a: clay.Color, b: clay.Color, amount: f32) -> clay.Color {
LOREM_IPSUM_TEXT := "Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua."
HighPerformancePage :: proc(lerpValue: f32, titleTextConfig: clay.TextElementConfig, widthSizing: clay.SizingAxis) {
if clay.UI().configure({ id = clay.ID("PerformanceLeftText"), layout = { sizing = { width = widthSizing }, layoutDirection = .TopToBottom, childGap = 8 } }) {
if clay.UI()({ id = clay.ID("PerformanceLeftText"), layout = { sizing = { width = widthSizing }, layoutDirection = .TopToBottom, childGap = 8 } }) {
clay.Text("High Performance", clay.TextConfig(titleTextConfig))
if clay.UI().configure({ layout = { sizing = { width = clay.SizingGrow({ max = 16 }) } }}) {}
if clay.UI()({ layout = { sizing = { width = clay.SizingGrow({ max = 16 }) } }}) {}
clay.Text(
"Fast enough to recompute your entire UI every frame.",
clay.TextConfig({fontSize = 28, fontId = FONT_ID_BODY_36, textColor = COLOR_LIGHT}),
@ -271,20 +271,20 @@ HighPerformancePage :: proc(lerpValue: f32, titleTextConfig: clay.TextElementCon
clay.TextConfig({fontSize = 28, fontId = FONT_ID_BODY_36, textColor = COLOR_LIGHT}),
)
}
if clay.UI().configure({ id = clay.ID("PerformanceRightImageOuter"), layout = { sizing = { width = widthSizing }, childAlignment = { x = .Center } } }) {
if clay.UI().configure({
if clay.UI()({ id = clay.ID("PerformanceRightImageOuter"), layout = { sizing = { width = widthSizing }, childAlignment = { x = .Center } } }) {
if clay.UI()({
id = clay.ID("PerformanceRightBorder"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(400) } },
border = { COLOR_LIGHT, {2, 2, 2, 2, 2} },
}) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("AnimationDemoContainerLeft"),
layout = { sizing = { clay.SizingPercent(0.35 + 0.3 * lerpValue), clay.SizingGrow({ }) }, childAlignment = { y = .Center }, padding = clay.PaddingAll(16) },
backgroundColor = ColorLerp(COLOR_RED, COLOR_ORANGE, lerpValue),
}) {
clay.Text(LOREM_IPSUM_TEXT, clay.TextConfig({fontSize = 16, fontId = FONT_ID_BODY_16, textColor = COLOR_LIGHT}))
}
if clay.UI().configure({
if clay.UI()({
id = clay.ID("AnimationDemoContainerRight"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingGrow({ }) }, childAlignment = { y = .Center }, padding = clay.PaddingAll(16) },
backgroundColor = ColorLerp(COLOR_ORANGE, COLOR_RED, lerpValue),
@ -296,7 +296,7 @@ HighPerformancePage :: proc(lerpValue: f32, titleTextConfig: clay.TextElementCon
}
HighPerformancePageDesktop :: proc(lerpValue: f32) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("PerformanceDesktop"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingFit({ min = cast(f32)windowHeight - 50 }) }, childAlignment = { y = .Center }, padding = { 82, 82, 32, 32 }, childGap = 64 },
backgroundColor = COLOR_RED,
@ -306,7 +306,7 @@ HighPerformancePageDesktop :: proc(lerpValue: f32) {
}
HighPerformancePageMobile :: proc(lerpValue: f32) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("PerformanceMobile"),
layout = {
layoutDirection = .TopToBottom,
@ -322,7 +322,7 @@ HighPerformancePageMobile :: proc(lerpValue: f32) {
}
RendererButtonActive :: proc(index: i32, text: string) {
if clay.UI().configure({
if clay.UI()({
layout = { sizing = { width = clay.SizingFixed(300) }, padding = clay.PaddingAll(16) },
backgroundColor = COLOR_RED,
cornerRadius = clay.CornerRadiusAll(10)
@ -332,8 +332,8 @@ RendererButtonActive :: proc(index: i32, text: string) {
}
RendererButtonInactive :: proc(index: u32, text: string) {
if clay.UI().configure({ border = border2pxRed }) {
if clay.UI().configure({
if clay.UI()({ border = border2pxRed }) {
if clay.UI()({
id = clay.ID("RendererButtonInactiveInner", index),
layout = { sizing = { width = clay.SizingFixed(300) }, padding = clay.PaddingAll(16) },
backgroundColor = COLOR_LIGHT,
@ -345,9 +345,9 @@ RendererButtonInactive :: proc(index: u32, text: string) {
}
RendererPage :: proc(titleTextConfig: clay.TextElementConfig, widthSizing: clay.SizingAxis) {
if clay.UI().configure({ id = clay.ID("RendererLeftText"), layout = { sizing = { width = widthSizing }, layoutDirection = .TopToBottom, childGap = 8 } }) {
if clay.UI()({ id = clay.ID("RendererLeftText"), layout = { sizing = { width = widthSizing }, layoutDirection = .TopToBottom, childGap = 8 } }) {
clay.Text("Renderer & Platform Agnostic", clay.TextConfig(titleTextConfig))
if clay.UI().configure({ layout = { sizing = { width = clay.SizingGrow({ max = 16 }) } } }) {}
if clay.UI()({ layout = { sizing = { width = clay.SizingGrow({ max = 16 }) } } }) {}
clay.Text(
"Clay outputs a sorted array of primitive render commands, such as RECTANGLE, TEXT or IMAGE.",
clay.TextConfig({fontSize = 28, fontId = FONT_ID_BODY_36, textColor = COLOR_RED}),
@ -361,22 +361,22 @@ RendererPage :: proc(titleTextConfig: clay.TextElementConfig, widthSizing: clay.
clay.TextConfig({fontSize = 28, fontId = FONT_ID_BODY_36, textColor = COLOR_RED}),
)
}
if clay.UI().configure({
if clay.UI()({
id = clay.ID("RendererRightText"),
layout = { sizing = { width = widthSizing }, childAlignment = { x = .Center }, layoutDirection = .TopToBottom, childGap = 16 },
}) {
clay.Text("Try changing renderer!", clay.TextConfig({fontSize = 36, fontId = FONT_ID_BODY_36, textColor = COLOR_ORANGE}))
if clay.UI().configure({ layout = { sizing = { width = clay.SizingGrow({ max = 32 }) } } }) {}
if clay.UI()({ layout = { sizing = { width = clay.SizingGrow({ max = 32 }) } } }) {}
RendererButtonActive(0, "Raylib Renderer")
}
}
RendererPageDesktop :: proc() {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("RendererPageDesktop"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingFit({ min = cast(f32)windowHeight - 50 }) }, childAlignment = { y = .Center }, padding = { left = 50, right = 50 } },
}) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("RendererPage"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingGrow({ }) }, childAlignment = { y = .Center }, padding = clay.PaddingAll(32), childGap = 32 },
border = { COLOR_RED, { left = 2, right = 2 } },
@ -387,7 +387,7 @@ RendererPageDesktop :: proc() {
}
RendererPageMobile :: proc() {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("RendererMobile"),
layout = {
layoutDirection = .TopToBottom,
@ -414,27 +414,27 @@ animationLerpValue: f32 = -1.0
createLayout :: proc(lerpValue: f32) -> clay.ClayArray(clay.RenderCommand) {
mobileScreen := windowWidth < 750
clay.BeginLayout()
if clay.UI().configure({
if clay.UI()({
id = clay.ID("OuterContainer"),
layout = { layoutDirection = .TopToBottom, sizing = { clay.SizingGrow({ }), clay.SizingGrow({ }) } },
backgroundColor = COLOR_LIGHT,
}) {
if clay.UI().configure({
if clay.UI()({
id = clay.ID("Header"),
layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(50) }, childAlignment = { y = .Center }, childGap = 24, padding = { left = 32, right = 32 } },
}) {
clay.Text("Clay", &headerTextConfig)
if clay.UI().configure({ layout = { sizing = { width = clay.SizingGrow({ }) } } }) {}
if clay.UI()({ layout = { sizing = { width = clay.SizingGrow({ }) } } }) {}
if (!mobileScreen) {
if clay.UI().configure({ id = clay.ID("LinkExamplesOuter"), backgroundColor = {0, 0, 0, 0} }) {
if clay.UI()({ id = clay.ID("LinkExamplesOuter"), backgroundColor = {0, 0, 0, 0} }) {
clay.Text("Examples", clay.TextConfig({fontId = FONT_ID_BODY_24, fontSize = 24, textColor = {61, 26, 5, 255}}))
}
if clay.UI().configure({ id = clay.ID("LinkDocsOuter"), backgroundColor = {0, 0, 0, 0} }) {
if clay.UI()({ id = clay.ID("LinkDocsOuter"), backgroundColor = {0, 0, 0, 0} }) {
clay.Text("Docs", clay.TextConfig({fontId = FONT_ID_BODY_24, fontSize = 24, textColor = {61, 26, 5, 255}}))
}
}
if clay.UI().configure({
if clay.UI()({
id = clay.ID("LinkGithubOuter"),
layout = { padding = { 16, 16, 6, 6 } },
border = border2pxRed,
@ -444,12 +444,12 @@ createLayout :: proc(lerpValue: f32) -> clay.ClayArray(clay.RenderCommand) {
clay.Text("Github", clay.TextConfig({fontId = FONT_ID_BODY_24, fontSize = 24, textColor = {61, 26, 5, 255}}))
}
}
if clay.UI().configure({ id = clay.ID("TopBorder1"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_5 } ) {}
if clay.UI().configure({ id = clay.ID("TopBorder2"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_4 } ) {}
if clay.UI().configure({ id = clay.ID("TopBorder3"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_3 } ) {}
if clay.UI().configure({ id = clay.ID("TopBorder4"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_2 } ) {}
if clay.UI().configure({ id = clay.ID("TopBorder5"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_1 } ) {}
if clay.UI().configure({
if clay.UI()({ id = clay.ID("TopBorder1"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_5 } ) {}
if clay.UI()({ id = clay.ID("TopBorder2"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_4 } ) {}
if clay.UI()({ id = clay.ID("TopBorder3"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_3 } ) {}
if clay.UI()({ id = clay.ID("TopBorder4"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_2 } ) {}
if clay.UI()({ id = clay.ID("TopBorder5"), layout = { sizing = { clay.SizingGrow({ }), clay.SizingFixed(4) } }, backgroundColor = COLOR_TOP_BORDER_1 } ) {}
if clay.UI()({
id = clay.ID("ScrollContainerBackgroundRectangle"),
scroll = { vertical = true },
layout = { sizing = { clay.SizingGrow({ }), clay.SizingGrow({ }) }, layoutDirection = clay.LayoutDirection.TopToBottom },
@ -493,7 +493,7 @@ main :: proc() {
memory := make([^]u8, minMemorySize)
arena: clay.Arena = clay.CreateArenaWithCapacityAndMemory(minMemorySize, memory)
clay.Initialize(arena, {cast(f32)raylib.GetScreenWidth(), cast(f32)raylib.GetScreenHeight()}, { handler = errorHandler })
clay.SetMeasureTextFunction(measureText, 0)
clay.SetMeasureTextFunction(measureText, nil)
raylib.SetConfigFlags({.VSYNC_HINT, .WINDOW_RESIZABLE, .WINDOW_HIGHDPI, .MSAA_4X_HINT})
raylib.InitWindow(windowWidth, windowHeight, "Raylib Odin Example")

2
bindings/odin/examples/clay-official-website/clay_renderer_raylib.odin
View File

@ -16,7 +16,7 @@ clayColorToRaylibColor :: proc(color: clay.Color) -> raylib.Color {
raylibFonts := [10]RaylibFont{}
measureText :: proc "c" (text: clay.StringSlice, config: ^clay.TextElementConfig, userData: uintptr) -> clay.Dimensions {
measureText :: proc "c" (text: clay.StringSlice, config: ^clay.TextElementConfig, userData: rawptr) -> clay.Dimensions {
// Measure string size for Font
textSize: clay.Dimensions = {0, 0}

2
clay.h
View File

@ -1918,7 +1918,7 @@ void Clay__ConfigureOpenElement(const Clay_ElementDeclaration declaration) {
.clipElementId = clipElementId,
.zIndex = floatingConfig.zIndex,
});
Clay__AttachElementConfig(CLAY__INIT(Clay_ElementConfigUnion) { .floatingElementConfig = Clay__StoreFloatingElementConfig(declaration.floating) }, CLAY__ELEMENT_CONFIG_TYPE_FLOATING);
Clay__AttachElementConfig(CLAY__INIT(Clay_ElementConfigUnion) { .floatingElementConfig = Clay__StoreFloatingElementConfig(floatingConfig) }, CLAY__ELEMENT_CONFIG_TYPE_FLOATING);
}
}
if (declaration.custom.customData) {

BIN
examples/clay-official-website/build/clay/index.wasm
View File

Binary file not shown.

0
generator/__init__.py Normal file
View File

83
generator/cli.py Normal file
View File

@ -0,0 +1,83 @@
import argparse
import logging
import json
from pathlib import Path
from generators.base_generator import BaseGenerator
from generators.odin_generator import OdinGenerator
from parser import parse_headers
logger = logging.getLogger(__name__)
GeneratorMap = dict[str, type[BaseGenerator]]
GENERATORS = {
'odin': OdinGenerator,
}
def main() -> None:
arg_parser = argparse.ArgumentParser(description='Generate clay bindings')
# Directories
arg_parser.add_argument('input_files', nargs='+', type=str, help='Input header files')
arg_parser.add_argument('--output-dir', type=str, help='Output directory', required=True)
arg_parser.add_argument('--tmp-dir', type=str, help='Temporary directory')
# Generators
arg_parser.add_argument('--generator', type=str, choices=list(GENERATORS.keys()), help='Generators to run', required=True)
# Logging
arg_parser.add_argument('--verbose', action='store_true', help='Verbose logging')
args = arg_parser.parse_args()
log_formatter = logging.Formatter('%(asctime)s - %(name)s - %(levelname)s - %(message)s')
log_handler = logging.StreamHandler()
log_handler.setFormatter(log_formatter)
if args.verbose:
logging.basicConfig(level=logging.DEBUG, handlers=[log_handler])
else:
logging.basicConfig(level=logging.INFO, handlers=[log_handler])
output_dir = Path(args.output_dir)
output_dir.mkdir(parents=True, exist_ok=True)
if args.tmp_dir:
tmp_dir = Path(args.tmp_dir)
else:
tmp_dir = output_dir / 'tmp'
tmp_dir.mkdir(parents=True, exist_ok=True)
fake_libc_include_path = Path(__file__).parent / 'fake_libc_include'
input_files = list(fake_libc_include_path.glob('*.h')) + [Path(f) for f in args.input_files]
logger.info(f'Input files: {input_files}')
logger.info(f'Output directory: {output_dir}')
logger.info(f'Temporary directory: {tmp_dir}')
logger.info(f'Generator: {args.generator}')
logger.info('Parsing headers')
extracted_symbols = parse_headers(input_files, tmp_dir)
with open(tmp_dir / 'extracted_symbols.json', 'w') as f:
f.write(json.dumps({
'structs': extracted_symbols.structs,
'enums': extracted_symbols.enums,
'functions': extracted_symbols.functions,
}, indent=2))
logger.info('Generating bindings')
generator = GENERATORS[args.generator](extracted_symbols)
generator.generate()
logger.debug(f'Generated bindings:')
# for file_name, content in generator.get_outputs().items():
# logger.debug(f'{file_name}:')
# logger.debug(content)
# logger.debug('\n')
tmp_outputs_dir = tmp_dir / 'generated'
tmp_outputs_dir.mkdir(parents=True, exist_ok=True)
generator.write_outputs(tmp_outputs_dir)
if __name__ == '__main__':
main()

262
generator/fake_libc_include/_fake_defines.h Normal file
View File

@ -0,0 +1,262 @@
#ifndef _FAKE_DEFINES_H
#define _FAKE_DEFINES_H
#define NULL 0
#define BUFSIZ 1024
#define FOPEN_MAX 20
#define FILENAME_MAX 1024
#ifndef SEEK_SET
#define SEEK_SET 0 /* set file offset to offset */
#endif
#ifndef SEEK_CUR
#define SEEK_CUR 1 /* set file offset to current plus offset */
#endif
#ifndef SEEK_END
#define SEEK_END 2 /* set file offset to EOF plus offset */
#endif
#define __LITTLE_ENDIAN 1234
#define LITTLE_ENDIAN __LITTLE_ENDIAN
#define __BIG_ENDIAN 4321
#define BIG_ENDIAN __BIG_ENDIAN
#define __BYTE_ORDER __LITTLE_ENDIAN
#define BYTE_ORDER __BYTE_ORDER
#define EXIT_FAILURE 1
#define EXIT_SUCCESS 0
#define SCHAR_MIN -128
#define SCHAR_MAX 127
#define CHAR_MIN -128
#define CHAR_MAX 127
#define UCHAR_MAX 255
#define SHRT_MIN -32768
#define SHRT_MAX 32767
#define USHRT_MAX 65535
#define INT_MIN -2147483648
#define INT_MAX 2147483647
#define UINT_MAX 4294967295U
#define LONG_MIN -9223372036854775808L
#define LONG_MAX 9223372036854775807L
#define ULONG_MAX 18446744073709551615UL
#define RAND_MAX 32767
/* C99 inttypes.h defines */
#define PRId8 "d"
#define PRIi8 "i"
#define PRIo8 "o"
#define PRIu8 "u"
#define PRIx8 "x"
#define PRIX8 "X"
#define PRId16 "d"
#define PRIi16 "i"
#define PRIo16 "o"
#define PRIu16 "u"
#define PRIx16 "x"
#define PRIX16 "X"
#define PRId32 "d"
#define PRIi32 "i"
#define PRIo32 "o"
#define PRIu32 "u"
#define PRIx32 "x"
#define PRIX32 "X"
#define PRId64 "d"
#define PRIi64 "i"
#define PRIo64 "o"
#define PRIu64 "u"
#define PRIx64 "x"
#define PRIX64 "X"
#define PRIdLEAST8 "d"
#define PRIiLEAST8 "i"
#define PRIoLEAST8 "o"
#define PRIuLEAST8 "u"
#define PRIxLEAST8 "x"
#define PRIXLEAST8 "X"
#define PRIdLEAST16 "d"
#define PRIiLEAST16 "i"
#define PRIoLEAST16 "o"
#define PRIuLEAST16 "u"
#define PRIxLEAST16 "x"
#define PRIXLEAST16 "X"
#define PRIdLEAST32 "d"
#define PRIiLEAST32 "i"
#define PRIoLEAST32 "o"
#define PRIuLEAST32 "u"
#define PRIxLEAST32 "x"
#define PRIXLEAST32 "X"
#define PRIdLEAST64 "d"
#define PRIiLEAST64 "i"
#define PRIoLEAST64 "o"
#define PRIuLEAST64 "u"
#define PRIxLEAST64 "x"
#define PRIXLEAST64 "X"
#define PRIdFAST8 "d"
#define PRIiFAST8 "i"
#define PRIoFAST8 "o"
#define PRIuFAST8 "u"
#define PRIxFAST8 "x"
#define PRIXFAST8 "X"
#define PRIdFAST16 "d"
#define PRIiFAST16 "i"
#define PRIoFAST16 "o"
#define PRIuFAST16 "u"
#define PRIxFAST16 "x"
#define PRIXFAST16 "X"
#define PRIdFAST32 "d"
#define PRIiFAST32 "i"
#define PRIoFAST32 "o"
#define PRIuFAST32 "u"
#define PRIxFAST32 "x"
#define PRIXFAST32 "X"
#define PRIdFAST64 "d"
#define PRIiFAST64 "i"
#define PRIoFAST64 "o"
#define PRIuFAST64 "u"
#define PRIxFAST64 "x"
#define PRIXFAST64 "X"
#define PRIdPTR "d"
#define PRIiPTR "i"
#define PRIoPTR "o"
#define PRIuPTR "u"
#define PRIxPTR "x"
#define PRIXPTR "X"
#define PRIdMAX "d"
#define PRIiMAX "i"
#define PRIoMAX "o"
#define PRIuMAX "u"
#define PRIxMAX "x"
#define PRIXMAX "X"
#define SCNd8 "d"
#define SCNi8 "i"
#define SCNo8 "o"
#define SCNu8 "u"
#define SCNx8 "x"
#define SCNd16 "d"
#define SCNi16 "i"
#define SCNo16 "o"
#define SCNu16 "u"
#define SCNx16 "x"
#define SCNd32 "d"
#define SCNi32 "i"
#define SCNo32 "o"
#define SCNu32 "u"
#define SCNx32 "x"
#define SCNd64 "d"
#define SCNi64 "i"
#define SCNo64 "o"
#define SCNu64 "u"
#define SCNx64 "x"
#define SCNdLEAST8 "d"
#define SCNiLEAST8 "i"
#define SCNoLEAST8 "o"
#define SCNuLEAST8 "u"
#define SCNxLEAST8 "x"
#define SCNdLEAST16 "d"
#define SCNiLEAST16 "i"
#define SCNoLEAST16 "o"
#define SCNuLEAST16 "u"
#define SCNxLEAST16 "x"
#define SCNdLEAST32 "d"
#define SCNiLEAST32 "i"
#define SCNoLEAST32 "o"
#define SCNuLEAST32 "u"
#define SCNxLEAST32 "x"
#define SCNdLEAST64 "d"
#define SCNiLEAST64 "i"
#define SCNoLEAST64 "o"
#define SCNuLEAST64 "u"
#define SCNxLEAST64 "x"
#define SCNdFAST8 "d"
#define SCNiFAST8 "i"
#define SCNoFAST8 "o"
#define SCNuFAST8 "u"
#define SCNxFAST8 "x"
#define SCNdFAST16 "d"
#define SCNiFAST16 "i"
#define SCNoFAST16 "o"
#define SCNuFAST16 "u"
#define SCNxFAST16 "x"
#define SCNdFAST32 "d"
#define SCNiFAST32 "i"
#define SCNoFAST32 "o"
#define SCNuFAST32 "u"
#define SCNxFAST32 "x"
#define SCNdFAST64 "d"
#define SCNiFAST64 "i"
#define SCNoFAST64 "o"
#define SCNuFAST64 "u"
#define SCNxFAST64 "x"
#define SCNdPTR "d"
#define SCNiPTR "i"
#define SCNoPTR "o"
#define SCNuPTR "u"
#define SCNxPTR "x"
#define SCNdMAX "d"
#define SCNiMAX "i"
#define SCNoMAX "o"
#define SCNuMAX "u"
#define SCNxMAX "x"
/* C99 stdbool.h defines */
#define __bool_true_false_are_defined 1
#define false 0
#define true 1
/* va_arg macros and type*/
#define va_start(_ap, _type) __builtin_va_start((_ap))
#define va_arg(_ap, _type) __builtin_va_arg((_ap))
#define va_end(_list)
/* Vectors */
#define __m128 int
#define __m128_u int
#define __m128d int
#define __m128d_u int
#define __m128i int
#define __m128i_u int
#define __m256 int
#define __m256_u int
#define __m256d int
#define __m256d_u int
#define __m256i int
#define __m256i_u int
#define __m512 int
#define __m512_u int
#define __m512d int
#define __m512d_u int
#define __m512i int
#define __m512i_u int
/* C11 stdnoreturn.h defines */
#define __noreturn_is_defined 1
#define noreturn _Noreturn
/* C11 threads.h defines */
#define thread_local _Thread_local
/* C11 assert.h defines */
#define static_assert _Static_assert
/* C11 stdatomic.h defines */
#define ATOMIC_BOOL_LOCK_FREE 0
#define ATOMIC_CHAR_LOCK_FREE 0
#define ATOMIC_CHAR16_T_LOCK_FREE 0
#define ATOMIC_CHAR32_T_LOCK_FREE 0
#define ATOMIC_WCHAR_T_LOCK_FREE 0
#define ATOMIC_SHORT_LOCK_FREE 0
#define ATOMIC_INT_LOCK_FREE 0
#define ATOMIC_LONG_LOCK_FREE 0
#define ATOMIC_LLONG_LOCK_FREE 0
#define ATOMIC_POINTER_LOCK_FREE 0
#define ATOMIC_VAR_INIT(value) (value)
#define ATOMIC_FLAG_INIT { 0 }
#define kill_dependency(y) (y)
/* C11 stdalign.h defines */
#define alignas _Alignas
#define alignof _Alignof
#define __alignas_is_defined 1
#define __alignof_is_defined 1
#endif

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#ifndef _FAKE_TYPEDEFS_H
#define _FAKE_TYPEDEFS_H
typedef int size_t;
typedef int __builtin_va_list;
typedef int __gnuc_va_list;
typedef int va_list;
typedef int __int8_t;
typedef int __uint8_t;
typedef int __int16_t;
typedef int __uint16_t;
typedef int __int_least16_t;
typedef int __uint_least16_t;
typedef int __int32_t;
typedef int __uint32_t;
typedef int __int64_t;
typedef int __uint64_t;
typedef int __int_least32_t;
typedef int __uint_least32_t;
typedef int __s8;
typedef int __u8;
typedef int __s16;
typedef int __u16;
typedef int __s32;
typedef int __u32;
typedef int __s64;
typedef int __u64;
typedef int _LOCK_T;
typedef int _LOCK_RECURSIVE_T;
typedef int _off_t;
typedef int __dev_t;
typedef int __uid_t;
typedef int __gid_t;
typedef int _off64_t;
typedef int _fpos_t;
typedef int _ssize_t;
typedef int wint_t;
typedef int _mbstate_t;
typedef int _flock_t;
typedef int _iconv_t;
typedef int __ULong;
typedef int __FILE;
typedef int ptrdiff_t;
typedef int wchar_t;
typedef int char16_t;
typedef int char32_t;
typedef int __off_t;
typedef int __pid_t;
typedef int __loff_t;
typedef int u_char;
typedef int u_short;
typedef int u_int;
typedef int u_long;
typedef int ushort;
typedef int uint;
typedef int clock_t;
typedef int time_t;
typedef int daddr_t;
typedef int caddr_t;
typedef int ino_t;
typedef int off_t;
typedef int dev_t;
typedef int uid_t;
typedef int gid_t;
typedef int pid_t;
typedef int key_t;
typedef int ssize_t;
typedef int mode_t;
typedef int nlink_t;
typedef int fd_mask;
typedef int _types_fd_set;
typedef int clockid_t;
typedef int timer_t;
typedef int useconds_t;
typedef int suseconds_t;
typedef int FILE;
typedef int fpos_t;
typedef int cookie_read_function_t;
typedef int cookie_write_function_t;
typedef int cookie_seek_function_t;
typedef int cookie_close_function_t;
typedef int cookie_io_functions_t;
typedef int div_t;
typedef int ldiv_t;
typedef int lldiv_t;
typedef int sigset_t;
typedef int __sigset_t;
typedef int _sig_func_ptr;
typedef int sig_atomic_t;
typedef int __tzrule_type;
typedef int __tzinfo_type;
typedef int mbstate_t;
typedef int sem_t;
typedef int pthread_t;
typedef int pthread_attr_t;
typedef int pthread_mutex_t;
typedef int pthread_mutexattr_t;
typedef int pthread_cond_t;
typedef int pthread_condattr_t;
typedef int pthread_key_t;
typedef int pthread_once_t;
typedef int pthread_rwlock_t;
typedef int pthread_rwlockattr_t;
typedef int pthread_spinlock_t;
typedef int pthread_barrier_t;
typedef int pthread_barrierattr_t;
typedef int jmp_buf;
typedef int rlim_t;
typedef int sa_family_t;
typedef int sigjmp_buf;
typedef int stack_t;
typedef int siginfo_t;
typedef int z_stream;
/* C99 exact-width integer types */
typedef int int8_t;
typedef int uint8_t;
typedef int int16_t;
typedef int uint16_t;
typedef int int32_t;
typedef int uint32_t;
typedef int int64_t;
typedef int uint64_t;
/* C99 minimum-width integer types */
typedef int int_least8_t;
typedef int uint_least8_t;
typedef int int_least16_t;
typedef int uint_least16_t;
typedef int int_least32_t;
typedef int uint_least32_t;
typedef int int_least64_t;
typedef int uint_least64_t;
/* C99 fastest minimum-width integer types */
typedef int int_fast8_t;
typedef int uint_fast8_t;
typedef int int_fast16_t;
typedef int uint_fast16_t;
typedef int int_fast32_t;
typedef int uint_fast32_t;
typedef int int_fast64_t;
typedef int uint_fast64_t;
/* C99 integer types capable of holding object pointers */
typedef int intptr_t;
typedef int uintptr_t;
/* C99 greatest-width integer types */
typedef int intmax_t;
typedef int uintmax_t;
/* C99 stdbool.h bool type. _Bool is built-in in C99 */
typedef _Bool bool;
/* Mir typedefs */
typedef void* MirEGLNativeWindowType;
typedef void* MirEGLNativeDisplayType;
typedef struct MirConnection MirConnection;
typedef struct MirSurface MirSurface;
typedef struct MirSurfaceSpec MirSurfaceSpec;
typedef struct MirScreencast MirScreencast;
typedef struct MirPromptSession MirPromptSession;
typedef struct MirBufferStream MirBufferStream;
typedef struct MirPersistentId MirPersistentId;
typedef struct MirBlob MirBlob;
typedef struct MirDisplayConfig MirDisplayConfig;
/* xcb typedefs */
typedef struct xcb_connection_t xcb_connection_t;
typedef uint32_t xcb_window_t;
typedef uint32_t xcb_visualid_t;
/* C11 stdatomic.h types */
typedef _Atomic(_Bool) atomic_bool;
typedef _Atomic(char) atomic_char;
typedef _Atomic(signed char) atomic_schar;
typedef _Atomic(unsigned char) atomic_uchar;
typedef _Atomic(short) atomic_short;
typedef _Atomic(unsigned short) atomic_ushort;
typedef _Atomic(int) atomic_int;
typedef _Atomic(unsigned int) atomic_uint;
typedef _Atomic(long) atomic_long;
typedef _Atomic(unsigned long) atomic_ulong;
typedef _Atomic(long long) atomic_llong;
typedef _Atomic(unsigned long long) atomic_ullong;
typedef _Atomic(uint_least16_t) atomic_char16_t;
typedef _Atomic(uint_least32_t) atomic_char32_t;
typedef _Atomic(wchar_t) atomic_wchar_t;
typedef _Atomic(int_least8_t) atomic_int_least8_t;
typedef _Atomic(uint_least8_t) atomic_uint_least8_t;
typedef _Atomic(int_least16_t) atomic_int_least16_t;
typedef _Atomic(uint_least16_t) atomic_uint_least16_t;
typedef _Atomic(int_least32_t) atomic_int_least32_t;
typedef _Atomic(uint_least32_t) atomic_uint_least32_t;
typedef _Atomic(int_least64_t) atomic_int_least64_t;
typedef _Atomic(uint_least64_t) atomic_uint_least64_t;
typedef _Atomic(int_fast8_t) atomic_int_fast8_t;
typedef _Atomic(uint_fast8_t) atomic_uint_fast8_t;
typedef _Atomic(int_fast16_t) atomic_int_fast16_t;
typedef _Atomic(uint_fast16_t) atomic_uint_fast16_t;
typedef _Atomic(int_fast32_t) atomic_int_fast32_t;
typedef _Atomic(uint_fast32_t) atomic_uint_fast32_t;
typedef _Atomic(int_fast64_t) atomic_int_fast64_t;
typedef _Atomic(uint_fast64_t) atomic_uint_fast64_t;
typedef _Atomic(intptr_t) atomic_intptr_t;
typedef _Atomic(uintptr_t) atomic_uintptr_t;
typedef _Atomic(size_t) atomic_size_t;
typedef _Atomic(ptrdiff_t) atomic_ptrdiff_t;
typedef _Atomic(intmax_t) atomic_intmax_t;
typedef _Atomic(uintmax_t) atomic_uintmax_t;
typedef struct atomic_flag { atomic_bool _Value; } atomic_flag;
typedef enum memory_order {
memory_order_relaxed,
memory_order_consume,
memory_order_acquire,
memory_order_release,
memory_order_acq_rel,
memory_order_seq_cst
} memory_order;
#endif

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#include "_fake_defines.h"
#include "_fake_typedefs.h"

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#include "_fake_defines.h"
#include "_fake_typedefs.h"

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#include "_fake_defines.h"
#include "_fake_typedefs.h"

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#include "_fake_defines.h"
#include "_fake_typedefs.h"

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#!/usr/bin/bash
REPO_ROOT=$(realpath $(dirname $(dirname $0)))
# Generate odin bindings
python $REPO_ROOT/generator/cli.py $REPO_ROOT/clay.h --output-dir $REPO_ROOT/bindings/odin/clay-odin --generator odin --verbose

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from parser import ExtractedSymbols, ExtractedEnum, ExtractedStruct, ExtractedFunction
from typing import Any, Callable, DefaultDict, Literal, NotRequired, Optional, TypedDict
from pathlib import Path
from dataclasses import dataclass
SymbolType = Literal['enum', 'struct', 'function']
class BaseGenerator:
def __init__(self, extracted_symbols: ExtractedSymbols):
self.extracted_symbols = extracted_symbols
self.output_content: dict[str, list[str]] = dict()
def generate(self) -> None:
pass
def has_symbol(self, symbol: str) -> bool:
return (
symbol in self.extracted_symbols.enums or
symbol in self.extracted_symbols.structs or
symbol in self.extracted_symbols.functions
)
def get_symbol_type(self, symbol: str) -> SymbolType:
if symbol in self.extracted_symbols.enums:
return 'enum'
elif symbol in self.extracted_symbols.structs:
return 'struct'
elif symbol in self.extracted_symbols.functions:
return 'function'
raise ValueError(f'Unknown symbol: {symbol}')
def _write(self, file_name: str, content: str) -> None:
if file_name not in self.output_content:
self.output_content[file_name] = []
self.output_content[file_name].append(content)
def write_outputs(self, output_dir: Path) -> None:
for file_name, content in self.output_content.items():
(output_dir / file_name).parent.mkdir(parents=True, exist_ok=True)
with open(output_dir / file_name, 'w') as f:
f.write("\n".join(content))
def get_outputs(self) -> dict[str, str]:
return {file_name: "\n".join(content) for file_name, content in self.output_content.items()}

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package clay
import "core:c"
import "core:strings"
when ODIN_OS == .Windows {
foreign import Clay "windows/clay.lib"
} else when ODIN_OS == .Linux {
foreign import Clay "linux/clay.a"
} else when ODIN_OS == .Darwin {
when ODIN_ARCH == .arm64 {
foreign import Clay "macos-arm64/clay.a"
} else {
foreign import Clay "macos/clay.a"
}
} else when ODIN_ARCH == .wasm32 || ODIN_ARCH == .wasm64p32 {
foreign import Clay "wasm/clay.o"
}
when ODIN_OS == .Windows {
EnumBackingType :: u32
} else {
EnumBackingType :: u8
}
{{enums}}
Context :: struct {
}
ClayArray :: struct($type: typeid) {
capacity: i32,
length: i32,
internalArray: [^]type,
}
SizingConstraints :: struct #raw_union {
sizeMinMax: SizingConstraintsMinMax,
sizePercent: c.float,
}
TypedConfig :: struct {
type: ElementConfigType,
config: rawptr,
id: ElementId,
}
{{structs}}
@(link_prefix = "Clay_", default_calling_convention = "c")
foreign Clay {
{{public_functions}}
}
@(link_prefix = "Clay_", default_calling_convention = "c", private)
foreign Clay {
{{private_functions}}
}
@(require_results, deferred_none = _CloseElement)
UI :: proc(configs: ..TypedConfig) -> bool {
_OpenElement()
for config in configs {
#partial switch (config.type) {
case ElementConfigType.Id:
_AttachId(config.id)
case ElementConfigType.Layout:
_AttachLayoutConfig(cast(^LayoutConfig)config.config)
case:
_AttachElementConfig(config.config, config.type)
}
}
_ElementPostConfiguration()
return true
}
Layout :: proc(config: LayoutConfig) -> TypedConfig {
return {type = ElementConfigType.Layout, config = _StoreLayoutConfig(config) }
}
PaddingAll :: proc (padding: u16) -> Padding {
return { padding, padding, padding, padding }
}
Rectangle :: proc(config: RectangleElementConfig) -> TypedConfig {
return {type = ElementConfigType.Rectangle, config = _StoreRectangleElementConfig(config)}
}
Text :: proc(text: string, config: ^TextElementConfig) {
_OpenTextElement(MakeString(text), config)
}
TextConfig :: proc(config: TextElementConfig) -> ^TextElementConfig {
return _StoreTextElementConfig(config)
}
Image :: proc(config: ImageElementConfig) -> TypedConfig {
return {type = ElementConfigType.Image, config = _StoreImageElementConfig(config)}
}
Floating :: proc(config: FloatingElementConfig) -> TypedConfig {
return {type = ElementConfigType.Floating, config = _StoreFloatingElementConfig(config)}
}
Custom :: proc(config: CustomElementConfig) -> TypedConfig {
return {type = ElementConfigType.Custom, config = _StoreCustomElementConfig(config)}
}
Scroll :: proc(config: ScrollElementConfig) -> TypedConfig {
return {type = ElementConfigType.Scroll, config = _StoreScrollElementConfig(config)}
}
Border :: proc(config: BorderElementConfig) -> TypedConfig {
return {type = ElementConfigType.Border, config = _StoreBorderElementConfig(config)}
}
BorderOutside :: proc(outsideBorders: BorderData) -> TypedConfig {
return { type = ElementConfigType.Border, config = _StoreBorderElementConfig((BorderElementConfig){left = outsideBorders, right = outsideBorders, top = outsideBorders, bottom = outsideBorders}) }
}
BorderOutsideRadius :: proc(outsideBorders: BorderData, radius: f32) -> TypedConfig {
return { type = ElementConfigType.Border, config = _StoreBorderElementConfig(
(BorderElementConfig){left = outsideBorders, right = outsideBorders, top = outsideBorders, bottom = outsideBorders, cornerRadius = {radius, radius, radius, radius}},
) }
}
BorderAll :: proc(allBorders: BorderData) -> TypedConfig {
return { type = ElementConfigType.Border, config = _StoreBorderElementConfig((BorderElementConfig){left = allBorders, right = allBorders, top = allBorders, bottom = allBorders, betweenChildren = allBorders}) }
}
BorderAllRadius :: proc(allBorders: BorderData, radius: f32) -> TypedConfig {
return { type = ElementConfigType.Border, config = _StoreBorderElementConfig(
(BorderElementConfig){left = allBorders, right = allBorders, top = allBorders, bottom = allBorders, cornerRadius = {radius, radius, radius, radius}},
) }
}
CornerRadiusAll :: proc(radius: f32) -> CornerRadius {
return CornerRadius{radius, radius, radius, radius}
}
SizingFit :: proc(sizeMinMax: SizingConstraintsMinMax) -> SizingAxis {
return SizingAxis{type = SizingType.FIT, constraints = {sizeMinMax = sizeMinMax}}
}
SizingGrow :: proc(sizeMinMax: SizingConstraintsMinMax) -> SizingAxis {
return SizingAxis{type = SizingType.GROW, constraints = {sizeMinMax = sizeMinMax}}
}
SizingFixed :: proc(size: c.float) -> SizingAxis {
return SizingAxis{type = SizingType.FIXED, constraints = {sizeMinMax = {size, size}}}
}
SizingPercent :: proc(sizePercent: c.float) -> SizingAxis {
return SizingAxis{type = SizingType.PERCENT, constraints = {sizePercent = sizePercent}}
}
MakeString :: proc(label: string) -> String {
return String{chars = raw_data(label), length = cast(c.int)len(label)}
}
ID :: proc(label: string, index: u32 = 0) -> TypedConfig {
return { type = ElementConfigType.Id, id = _HashString(MakeString(label), index, 0) }
}

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from pathlib import Path
import logging
from parser import ExtractedSymbolType
from generators.base_generator import BaseGenerator
logger = logging.getLogger(__name__)
def get_common_prefix(keys: list[str]) -> str:
# find a prefix that's shared between all keys
prefix = ""
for i in range(min(map(len, keys))):
if len(set(key[i] for key in keys)) > 1:
break
prefix += keys[0][i]
return prefix
def snake_case_to_pascal_case(snake_case: str) -> str:
return ''.join(word.lower().capitalize() for word in snake_case.split('_'))
SYMBOL_NAME_OVERRIDES = {
'Clay_TextElementConfigWrapMode': 'TextWrapMode',
'Clay_Border': 'BorderData',
'Clay_SizingMinMax': 'SizingConstraintsMinMax',
}
SYMBOL_COMPLETE_OVERRIDES = {
'Clay_RenderCommandArray': 'ClayArray(RenderCommand)',
'Clay_Context': 'Context',
'Clay_ElementConfig': None,
# 'Clay_SetQueryScrollOffsetFunction': None,
}
# These enums should have output binding members that are PascalCase instead of UPPER_SNAKE_CASE.
ENUM_MEMBER_PASCAL = {
'Clay_RenderCommandType',
'Clay_TextElementConfigWrapMode',
'Clay__ElementConfigType',
}
ENUM_MEMBER_OVERRIDES = {
'Clay__ElementConfigType': {
'CLAY__ELEMENT_CONFIG_TYPE_BORDER_CONTAINER': 'Border',
'CLAY__ELEMENT_CONFIG_TYPE_FLOATING_CONTAINER': 'Floating',
'CLAY__ELEMENT_CONFIG_TYPE_SCROLL_CONTAINER': 'Scroll',
}
}
ENUM_ADDITIONAL_MEMBERS = {
'Clay__ElementConfigType': {
'Id': 65,
'Layout': 66,
}
}
TYPE_MAPPING = {
'*char': '[^]c.char',
'const *char': '[^]c.char',
'*void': 'rawptr',
'bool': 'bool',
'float': 'c.float',
'uint16_t': 'u16',
'uint32_t': 'u32',
'int32_t': 'c.int32_t',
'uintptr_t': 'rawptr',
'intptr_t': 'rawptr',
'void': 'void',
}
STRUCT_TYPE_OVERRIDES = {
'Clay_Arena': {
'nextAllocation': 'uintptr',
'capacity': 'uintptr',
},
'Clay_SizingAxis': {
'size': 'SizingConstraints',
},
"Clay_RenderCommand": {
"zIndex": 'i32',
},
}
STRUCT_MEMBER_OVERRIDES = {
'Clay_ErrorHandler': {
'errorHandlerFunction': 'handler',
},
'Clay_SizingAxis': {
'size': 'constraints',
},
}
STRUCT_OVERRIDE_AS_FIXED_ARRAY = {
'Clay_Color',
'Clay_Vector2',
}
FUNCTION_PARAM_OVERRIDES = {
'Clay_SetCurrentContext': {
'context': 'ctx',
},
}
FUNCTION_TYPE_OVERRIDES = {
'Clay_CreateArenaWithCapacityAndMemory': {
'offset': '[^]u8',
},
'Clay_SetMeasureTextFunction': {
'userData': 'uintptr',
},
'Clay_RenderCommandArray_Get': {
'index': 'i32',
},
"Clay__AttachElementConfig": {
"config": 'rawptr',
},
}
class OdinGenerator(BaseGenerator):
def generate(self) -> None:
self.generate_structs()
self.generate_enums()
self.generate_functions()
odin_template_path = Path(__file__).parent / 'odin' / 'clay.template.odin'
with open(odin_template_path, 'r') as f:
template = f.read()
self.output_content['clay.odin'] = (
template
.replace('{{structs}}', '\n'.join(self.output_content['struct']))
.replace('{{enums}}', '\n'.join(self.output_content['enum']))
.replace('{{public_functions}}', '\n'.join(self.output_content['public_function']))
.replace('{{private_functions}}', '\n'.join(self.output_content['private_function']))
.splitlines()
)
del self.output_content['struct']
del self.output_content['enum']
del self.output_content['private_function']
del self.output_content['public_function']
def get_symbol_name(self, symbol: str) -> str:
if symbol in SYMBOL_NAME_OVERRIDES:
return SYMBOL_NAME_OVERRIDES[symbol]
symbol_type = self.get_symbol_type(symbol)
base_name = symbol.removeprefix('Clay_')
if symbol_type == 'enum':
return base_name.removeprefix('_') # Clay_ and Clay__ are exported as public types.
elif symbol_type == 'struct':
return base_name
elif symbol_type == 'function':
return base_name
raise ValueError(f'Unknown symbol: {symbol}')
def format_type(self, type: ExtractedSymbolType) -> str:
if isinstance(type, str):
return type
parameter_strs = []
for param_name, param_type in type['params']:
parameter_strs.append(f"{param_name}: {self.format_type(param_type or 'unknown')}")
return_type_str = ''
if type['return_type'] is not None and type['return_type'] != 'void':
return_type_str = ' -> ' + self.format_type(type['return_type'])
return f"proc \"c\" ({', '.join(parameter_strs)}){return_type_str}"
def resolve_binding_type(self, symbol: str, member: str | None, member_type: ExtractedSymbolType | None, type_overrides: dict[str, dict[str, str]]) -> str | None:
if isinstance(member_type, str):
if member_type in SYMBOL_COMPLETE_OVERRIDES:
return SYMBOL_COMPLETE_OVERRIDES[member_type]
if symbol in type_overrides and member in type_overrides[symbol]:
return type_overrides[symbol][member]
if member_type in TYPE_MAPPING:
return TYPE_MAPPING[member_type]
if member_type and self.has_symbol(member_type):
return self.get_symbol_name(member_type)
if member_type and member_type.startswith('*'):
result = self.resolve_binding_type(symbol, member, member_type[1:], type_overrides)
if result:
return f"^{result}"
return None
if member_type is None:
return None
resolved_parameters = []
for param_name, param_type in member_type['params']:
resolved_param = self.resolve_binding_type(symbol, param_name, param_type, type_overrides)
if resolved_param is None:
return None
resolved_parameters.append((param_name, resolved_param))
resolved_return_type = self.resolve_binding_type(symbol, None, member_type['return_type'], type_overrides)
if resolved_return_type is None:
return None
return self.format_type({
"params": resolved_parameters,
"return_type": resolved_return_type,
})
def generate_structs(self) -> None:
for struct, struct_data in sorted(self.extracted_symbols.structs.items(), key=lambda x: x[0]):
members = struct_data['attrs']
if not struct.startswith('Clay_'):
continue
if struct in SYMBOL_COMPLETE_OVERRIDES:
continue
binding_name = self.get_symbol_name(struct)
if binding_name.startswith('_'):
continue
if struct in STRUCT_OVERRIDE_AS_FIXED_ARRAY:
array_size = len(members)
first_elem = list(members.values())[0]
array_type = None
if 'type' in first_elem:
array_type = first_elem['type']
if array_type in TYPE_MAPPING:
array_binding_type = TYPE_MAPPING[array_type]
elif array_type and self.has_symbol(self.format_type(array_type)):
array_binding_type = self.get_symbol_name(self.format_type(array_type))
else:
self._write('struct', f"// {struct} ({array_type}) - has no mapping")
continue
self._write('struct', f"// {struct} (overridden as fixed array)")
self._write('struct', f"{binding_name} :: [{array_size}]{array_binding_type}")
self._write('struct', "")
continue
raw_union = ' #raw_union' if struct_data.get('is_union', False) else ''
self._write('struct', f"// {struct}")
self._write('struct', f"{binding_name} :: struct{raw_union} {{")
for member, member_info in members.items():
if struct in STRUCT_TYPE_OVERRIDES and member in STRUCT_TYPE_OVERRIDES[struct]:
member_type = 'unknown'
elif not 'type' in member_info:
self._write('struct', f" // {member} (unknown type)")
continue
else:
member_type = member_info['type']
binding_member_name = member
if struct in STRUCT_MEMBER_OVERRIDES and member in STRUCT_MEMBER_OVERRIDES[struct]:
binding_member_name = STRUCT_MEMBER_OVERRIDES[struct][member]
member_binding_type = self.resolve_binding_type(struct, member, member_type, STRUCT_TYPE_OVERRIDES)
if member_binding_type is None:
self._write('struct', f" // {binding_member_name} ({member_type}) - has no mapping")
continue
self._write('struct', f" {binding_member_name}: {member_binding_type}, // {member} ({member_type})")
self._write('struct', "}")
self._write('struct', '')
def generate_enums(self) -> None:
for enum, members in sorted(self.extracted_symbols.enums.items(), key=lambda x: x[0]):
if not enum.startswith('Clay_'):
continue
if enum in SYMBOL_COMPLETE_OVERRIDES:
continue
binding_name = self.get_symbol_name(enum)
common_member_prefix = get_common_prefix(list(members.keys()))
self._write('enum', f"// {enum}")
self._write('enum', f"{binding_name} :: enum EnumBackingType {{")
for member in members:
if enum in ENUM_MEMBER_OVERRIDES and member in ENUM_MEMBER_OVERRIDES[enum]:
binding_member_name = ENUM_MEMBER_OVERRIDES[enum][member]
else:
binding_member_name = member.removeprefix(common_member_prefix)
if enum in ENUM_MEMBER_PASCAL:
binding_member_name = snake_case_to_pascal_case(binding_member_name)
if members[member] is not None:
self._write('enum', f" {binding_member_name} = {members[member]}, // {member}")
else:
self._write('enum', f" {binding_member_name}, // {member}")
if enum in ENUM_ADDITIONAL_MEMBERS:
self._write('enum', ' // Odin specific enum types')
for member, value in ENUM_ADDITIONAL_MEMBERS[enum].items():
self._write('enum', f" {member} = {value},")
self._write('enum', "}")
self._write('enum', '')
def generate_functions(self) -> None:
for function, function_info in sorted(self.extracted_symbols.functions.items(), key=lambda x: x[0]):
if not function.startswith('Clay_'):
continue
if function in SYMBOL_COMPLETE_OVERRIDES:
continue
is_private = function.startswith('Clay__')
write_to = 'private_function' if is_private else 'public_function'
binding_name = self.get_symbol_name(function)
return_type = function_info['return_type']
binding_return_type = self.resolve_binding_type(function, None, return_type, {})
if binding_return_type is None:
self._write(write_to, f" // {function} ({return_type}) - has no mapping")
continue
skip = False
binding_params = []
for param_name, param_type in function_info['params']:
binding_param_name = param_name
if function in FUNCTION_PARAM_OVERRIDES and param_name in FUNCTION_PARAM_OVERRIDES[function]:
binding_param_name = FUNCTION_PARAM_OVERRIDES[function][param_name]
binding_param_type = self.resolve_binding_type(function, param_name, param_type, FUNCTION_TYPE_OVERRIDES)
if binding_param_type is None:
skip = True
binding_params.append(f"{binding_param_name}: {binding_param_type}")
if skip:
self._write(write_to, f" // {function} - has no mapping")
continue
binding_params_str = ', '.join(binding_params)
return_str = f" -> {binding_return_type}" if binding_return_type != 'void' else ''
self._write(write_to, f" {binding_name} :: proc({binding_params_str}){return_str} --- // {function}")

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from dataclasses import dataclass
from typing import Optional, TypedDict, NotRequired, Union
from pycparser import c_ast, parse_file, preprocess_file
from pathlib import Path
import os
import json
import shutil
import logging
logger = logging.getLogger(__name__)
ExtractedSymbolType = Union[str, "ExtractedFunction"]
class ExtractedStructAttributeUnion(TypedDict):
type: Optional[ExtractedSymbolType]
class ExtractedStructAttribute(TypedDict):
type: NotRequired[ExtractedSymbolType]
union: NotRequired[dict[str, Optional[ExtractedSymbolType]]]
class ExtractedStruct(TypedDict):
attrs: dict[str, ExtractedStructAttribute]
is_union: NotRequired[bool]
ExtractedEnum = dict[str, Optional[str]]
ExtractedFunctionParam = tuple[str, Optional[ExtractedSymbolType]]
class ExtractedFunction(TypedDict):
return_type: Optional["ExtractedSymbolType"]
params: list[ExtractedFunctionParam]
@dataclass
class ExtractedSymbols:
structs: dict[str, ExtractedStruct]
enums: dict[str, ExtractedEnum]
functions: dict[str, ExtractedFunction]
def get_type_names(node: c_ast.Node, prefix: str="") -> Optional[ExtractedSymbolType]:
if isinstance(node, c_ast.TypeDecl) and hasattr(node, 'quals') and node.quals:
prefix = " ".join(node.quals) + " " + prefix
if isinstance(node, c_ast.PtrDecl):
prefix = "*" + prefix
if isinstance(node, c_ast.FuncDecl):
func: ExtractedFunction = {
'return_type': get_type_names(node.type),
'params': [],
}
for param in node.args.params:
if param.name is None:
continue
func['params'].append((param.name, get_type_names(param)))
return func
if hasattr(node, 'names'):
return prefix + node.names[0] # type: ignore
elif hasattr(node, 'type'):
return get_type_names(node.type, prefix) # type: ignore
return None
class Visitor(c_ast.NodeVisitor):
def __init__(self):
self.structs: dict[str, ExtractedStruct] = {}
self.enums: dict[str, ExtractedEnum] = {}
self.functions: dict[str, ExtractedFunction] = {}
def visit_FuncDecl(self, node: c_ast.FuncDecl):
# node.show()
# logger.debug(node)
node_type = node.type
is_pointer = False
if isinstance(node.type, c_ast.PtrDecl):
node_type = node.type.type
is_pointer = True
if hasattr(node_type, "declname"):
return_type = get_type_names(node_type.type)
if return_type is not None and isinstance(return_type, str) and is_pointer:
return_type = "*" + return_type
func: ExtractedFunction = {
'return_type': return_type,
'params': [],
}
for param in node.args.params:
if param.name is None:
continue
func['params'].append((param.name, get_type_names(param)))
self.functions[node_type.declname] = func
self.generic_visit(node)
def visit_Struct(self, node: c_ast.Struct):
# node.show()
if node.name and node.decls:
struct = {}
for decl in node.decls:
struct[decl.name] = {
"type": get_type_names(decl),
}
self.structs[node.name] = {
'attrs': struct,
}
self.generic_visit(node)
def visit_Typedef(self, node: c_ast.Typedef):
# node.show()
if hasattr(node.type, 'type') and hasattr(node.type.type, 'decls') and node.type.type.decls:
struct = {}
for decl in node.type.type.decls:
if hasattr(decl, 'type') and hasattr(decl.type, 'type') and isinstance(decl.type.type, c_ast.Union):
union = {}
for field in decl.type.type.decls:
union[field.name] = get_type_names(field)
struct[decl.name] = {
'union': union
}
else:
struct[decl.name] = {
"type": get_type_names(decl),
}
self.structs[node.name] = {
'attrs': struct,
'is_union': isinstance(node.type.type, c_ast.Union),
}
if hasattr(node.type, 'type') and isinstance(node.type.type, c_ast.Enum):
enum = {}
for enumerator in node.type.type.values.enumerators:
if enumerator.value is None:
enum[enumerator.name] = None
else:
enum[enumerator.name] = enumerator.value.value
self.enums[node.name] = enum
self.generic_visit(node)
def parse_headers(input_files: list[Path], tmp_dir: Path) -> ExtractedSymbols:
cpp_args = ["-nostdinc", "-D__attribute__(x)=", "-E"]
# Make a new clay.h that combines the provided input files, so that we can add bindings for customized structs
with open(tmp_dir / 'merged_clay.h', 'w') as f:
for input_file in input_files:
with open(input_file, 'r') as f2:
for line in f2:
# Ignore includes, as they should be manually included in input_files.
if line.startswith("#include"):
continue
# Ignore the CLAY_IMPLEMENTATION define, because we only want to parse the public api code.
# This is helpful so that the user can provide their implementation code, which will contain any custom extensions
if "#define CLAY_IMPLEMENTATION" in line:
continue
f.write(line)
# Preprocess the file
logger.info("Preprocessing file")
preprocessed = preprocess_file(tmp_dir / 'merged_clay.h', cpp_path="cpp", cpp_args=cpp_args) # type: ignore
with open(tmp_dir / 'clay.preprocessed.h', 'w') as f:
f.write(preprocessed)
# Parse the file
logger.info("Parsing file")
ast = parse_file(tmp_dir / 'clay.preprocessed.h', use_cpp=False) # type: ignore
# Extract symbols
visitor = Visitor()
visitor.visit(ast)
result = ExtractedSymbols(
structs=visitor.structs,
enums=visitor.enums,
functions=visitor.functions
)
return result

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pycparser==2.22