gl01/internal/igwrap/wrap.go

206 lines
5.4 KiB
Go

package igwrap
import (
"fmt"
"edgaru089.ml/go/gl01/internal/util/itype"
"github.com/inkyblackness/imgui-go/v4"
)
// MenuItem wraps imgui.MenuItemV to create a
// easy-to-use and intuitive interface.
func MenuItem(name, shortcut string, selected *bool, enabled bool) {
if imgui.MenuItemV(name, shortcut, *selected, enabled) {
(*selected) = !(*selected)
}
}
// Text wraps imgui.Text to create a
// shortcut for fmt.Sprintf.
func Text(format string, a ...interface{}) {
imgui.Text(fmt.Sprintf(format, a...))
}
// Begin wraps imgui.BeginV to create a
// easy-to-use and intuitive interface.
//
// You only need to call End() if the function
// returns true.
func Begin(id string, open *bool, flags imgui.WindowFlags) bool {
// skip if the window is not open
if !(*open) {
return false
}
ok := imgui.BeginV(id, open, flags)
if !ok {
imgui.End()
}
return ok
}
// Sliderf creates a slider with 1 float32 variable.
func Sliderf(label string, a *float32, min, max float32) bool {
f := *a
ok := imgui.SliderFloat(label, &f, min, max)
(*a) = f
return ok
}
// Slider2f creates a slider with 2 float32 variables.
func Slider2f(label string, a, b *float32, min, max float32) bool {
f := [2]float32{*a, *b}
ok := imgui.SliderFloat2(label, &f, min, max)
(*a) = f[0]
(*b) = f[1]
return ok
}
// Slider3f creates a slider with 3 float32 variables.
func Slider3f(label string, a, b, c *float32, min, max float32) bool {
f := [3]float32{*a, *b, *c}
ok := imgui.SliderFloat3(label, &f, min, max)
(*a) = f[0]
(*b) = f[1]
(*c) = f[2]
return ok
}
// Slider4f creates a slider with 4 float32 variables.
func Slider4f(label string, a, b, c, d *float32, min, max float32) bool {
f := [4]float32{*a, *b, *c, *d}
ok := imgui.SliderFloat4(label, &f, min, max)
(*a) = f[0]
(*b) = f[1]
(*c) = f[2]
(*d) = f[3]
return ok
}
// Sliderd creates a slider with 1 float64 variable.
func Sliderd(label string, a *float64, min, max float64) bool {
f := float32(*a)
ok := imgui.SliderFloat(label, &f, float32(min), float32(max))
(*a) = float64(f)
return ok
}
// Slider2d creates a slider with 2 float64 variables.
func Slider2d(label string, a, b *float64, min, max float64) bool {
f := [2]float32{float32(*a), float32(*b)}
ok := imgui.SliderFloat2(label, &f, float32(min), float32(max))
(*a) = float64(f[0])
(*b) = float64(f[1])
return ok
}
// Slider3d creates a slider with 3 float64 variables.
func Slider3d(label string, a, b, c *float64, min, max float64) bool {
f := [3]float32{float32(*a), float32(*b), float32(*c)}
ok := imgui.SliderFloat3(label, &f, float32(min), float32(max))
(*a) = float64(f[0])
(*b) = float64(f[1])
(*c) = float64(f[2])
return ok
}
// Slider4d creates a slider with 4 float64 variables.
func Slider4d(label string, a, b, c, d *float64, min, max float64) bool {
f := [4]float32{float32(*a), float32(*b), float32(*c), float32(*d)}
ok := imgui.SliderFloat4(label, &f, float32(min), float32(max))
(*a) = float64(f[0])
(*b) = float64(f[1])
(*c) = float64(f[2])
(*d) = float64(f[3])
return ok
}
// DragVec2d creates a dragger with a itype.Vec2d.
func DragVec2d(label string, vec *itype.Vec2d, speed float64) bool {
f := [2]float32{float32((*vec)[0]), float32((*vec)[1])}
ok := imgui.DragFloat2V(label, &f, float32(speed), 0, 0, "%.3f", imgui.SliderFlagsNoRoundToFormat)
(*vec)[0] = float64(f[0])
(*vec)[1] = float64(f[1])
return ok
}
// DragVec2dv creates a dragger with two float64s.
func DragVec2dv(label string, a, b *float64, speed float64) bool {
f := [2]float32{float32(*a), float32(*b)}
ok := imgui.DragFloat2V(label, &f, float32(speed), 0, 0, "%.3f", imgui.SliderFlagsNoRoundToFormat)
(*a) = float64(f[0])
(*b) = float64(f[1])
return ok
}
// Dragd creates a dragger with one float64.
func Dragd(label string, a *float64, speed float64) bool {
f := float32(*a)
ok := imgui.DragFloatV(label, &f, float32(speed), 0, 0, "%.3f", imgui.SliderFlagsNoRoundToFormat)
(*a) = float64(f)
return ok
}
// Checkbox wraps imgui.Checkbox.
//
// It returns true when selected.
func Checkbox(label string, selected bool) bool {
imgui.Checkbox(label, &selected)
return selected
}
// DragButtonV wraps imgui.Button to create a button
// that can be dragged around.
//
// The pushid, if not empty, is pushed into the ImGUI stack.
//
// It returns the mouse delta, if dragged, in the last frame.
func DragButtonV(label string, pushid string) (delta itype.Vec2d) {
if len(pushid) != 0 {
imgui.PushID(pushid)
defer imgui.PopID()
}
imgui.Button(label)
if imgui.IsItemActive() {
d := imgui.CurrentIO().MouseDelta()
delta = itype.Vec2d{float64(d.X), float64(d.Y)}
}
return
}
// DragButton calls DragButtonV("Drag", pushid) to create a button
// that can be dragged around.
//
// The pushid, if not empty, is pushed into the ImGUI stack.
//
// It returns the mouse delta, if dragged, in the last frame.
func DragButton(pushid string) (delta itype.Vec2d) {
return DragButtonV("Drag", pushid)
}
// DragButtonv wraps DragButton to create a button to be dragged around.
//
// The pushid, if not empty, is pushed into the ImGUI stack.
//
// It returns whether the values has changed.
func DragButtonv(pushid string, x, y *float64, speed float64) bool {
delta := DragButton(pushid).Multiply(speed)
if delta == (itype.Vec2d{}) {
return false
}
(*x) += delta[0]
(*y) += delta[1]
return true
}
// InputInt calls imgui.InputInt.
//
// It accepts int instead of int32.
func InputInt(label string, val *int) bool {
x := int32(*val)
ok := imgui.InputInt(label, &x)
(*val) = int(x)
return ok
}