SectrPrototype/code/ui_layout.odin

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package sectr
import "core:math"
import "core:math/linalg"
// Anchor_
// Alignment presets
LayoutAlign_OriginTL_Top :: Vec2{0.5, 0}
LayoutAlign_OriginTL_TopLeft :: Vec2{ 0, 0}
LayoutAlign_OriginTL_TopRight :: Vec2{ 1, 0}
LayoutAlign_OriginTL_Centered :: Vec2{0.5, 0.5}
LayoutAlign_OriginTL_Bottom :: Vec2{0.5, 1}
LayoutAlign_OriginTL_BottomLeft :: Vec2{ 0, 1}
LayoutAlign_OriginTL_BottomRight :: Vec2{ 1, 1}
// LayoutAlign_OriginTL_
Layout_OriginCenter_Centered :: Vec2{0.5, 0.5}
// The UI_Box's actual positioning and sizing
// There is an excess of rectangles here for debug puproses.
UI_Computed :: struct {
// anchors : Range2, // Bounds for anchors within parent
// margins : Range2, // Bounds for margins within parent
padding : Range2, // Bounds for padding's starting bounds (will be offset by border if there is one), only here for debug vis
bounds : Range2, // Bounds for box itself
content : Range2, // Bounds for content (text or children)
text_pos : Vec2, // Position of text within content
text_size : Vec2, // Size of text within content
fresh : b32, // If the auto-layout has been computed for the current frame
}
UI_LayoutDirectionX :: enum(i32) {
Left_To_Right,
Right_To_Left,
}
UI_LayoutDirectionY :: enum(i32) {
Top_To_Bottom,
Bottom_To_Top,
}
UI_LayoutSide :: struct {
// using _ : struct {
top, bottom : UI_Scalar,
left, right : UI_Scalar,
// }
}
UI_LayoutFlag :: enum u32 {
// Will perform scissor pass on children to their parent's bounds
// (Specified in the parent)
Clip_Children_To_Bounds,
// Enforces the box will always remain in a specific position relative to the parent.
// Overriding the anchors and margins.
Fixed_Position_X,
Fixed_Position_Y,
// Enforces box will always be within the bounds of the parent box.
Clamp_Position_X,
Clamp_Position_Y,
// Enroces the widget will maintain its size reguardless of any constraints
// Will override parent constraints (use the size.min.xy to specify the width & height)
Fixed_Width,
Fixed_Height,
// TODO(Ed): Implement this!
// Enforces the widget will have a width specified as a ratio of its height (use the size.min/max.x to specify the scalar)
// If you wish for the width to stay fixed couple with the Fixed_Width flag
Scale_Width_By_Height_Ratio,
// Enforces the widget will have a height specified as a ratio of its width (use the size.min/max.y to specify the scalar)
// If you wish for the height to stay fixed couple with the Fixed_Height flag
Scale_Height_By_Width_Ratio,
// Sets the (0, 0) position of the child box to the parents anchor's center (post-margins bounds)
// By Default, the origin is at the top left of the anchor's bounds
Origin_At_Anchor_Center,
// TODO(Ed): Implement this!
// For this to work, the children must have a minimum size set & their size overall must be greater than the parent's minimum size
Size_To_Content,
// Will size the box to its text.
Size_To_Text,
// TODO(Ed): Implement this!
// Wrap text around the box, text_alignment specifies the justification for its compostion when wrapping.
Text_Wrap,
Count,
}
UI_LayoutFlags :: bit_set[UI_LayoutFlag; u32]
// Used within UI_Box, provides the layout (spacial constraints & specification) of the widget and
UI_Layout :: struct {
flags : UI_LayoutFlags,
anchor : Range2,
alignment : Vec2,
text_alignment : Vec2,
font_size : UI_Scalar,
margins : UI_LayoutSide,
padding : UI_LayoutSide,
border_width : UI_Scalar,
// Position in relative coordinate space.
// If the box's flags has Fixed_Position, then this will be its aboslute position in the relative coordinate space
pos : Vec2,
size : Range2,
// TODO(Ed) : Should thsi just always be WS_Pos for workspace UI?
// (We can union either varient and just know based on checking if its the screenspace UI)
// If the box is a child of the root parent, its automatically in world space and thus will use the tile_pos.
// tile_pos : WS_Pos,
}
UI_LayoutCombo :: struct #raw_union {
array : [UI_StylePreset.Count] UI_Layout,
using layouts : struct {
default, disabled, hot, active : UI_Layout,
}
}
to_ui_layout_side_f32 :: #force_inline proc( pixels : f32 ) -> UI_LayoutSide { return { pixels, pixels, pixels, pixels } }
to_ui_layout_side_vec2 :: #force_inline proc( v : Vec2) -> UI_LayoutSide { return { v.x, v.x, v.y, v.y} }
to_ui_layout_combo :: #force_inline proc( layout : UI_Layout ) -> UI_LayoutCombo { return { layouts = {layout, layout, layout, layout} } }
/*
Layout Interface
Layout for UI_Boxes in the state graph is stored on a per-graph UI_State basis in the fixed sized stack called layout_combo_stack.
The following provides a convient way to manipulate this stack from the assuption of the program's state.ui_context
The following procedure overloads are available from grime.odin:
* ui_layout
* ui_layout_push
*/
ui_layout_peek :: #force_inline proc() -> UI_LayoutCombo { return stack_peek( & get_state().ui_context.layout_combo_stack) }
ui_layout_ref :: #force_inline proc() -> ^UI_LayoutCombo { return stack_peek_ref( & get_state().ui_context.layout_combo_stack) }
ui_layout_push_layout :: #force_inline proc( layout : UI_Layout ) { push( & get_state().ui_context.layout_combo_stack, to_ui_layout_combo(layout)) }
ui_layout_push_theme :: #force_inline proc( combo : UI_LayoutCombo ) { push( & get_state().ui_context.layout_combo_stack, combo ) }
ui_layout_pop :: #force_inline proc() { pop( & get_state().ui_context.layout_combo_stack ) }
@(deferred_none = ui_layout_pop) ui_layout_via_layout :: #force_inline proc( layout : UI_Layout ) { ui_layout_push( layout) }
@(deferred_none = ui_layout_pop) ui_layout_via_combo :: #force_inline proc( combo : UI_LayoutCombo ) { ui_layout_push( combo) }
ui_set_layout :: #force_inline proc( layout : UI_Layout, preset : UI_StylePreset ) { stack_peek_ref( & get_state().ui_context.layout_combo_stack).array[preset] = layout }