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332 lines
8.9 KiB
V
332 lines
8.9 KiB
V
// Copyright (c) 2019-2022 Alexander Medvednikov. All rights reserved.
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// Use of this source code is governed by an MIT license that can be found in the LICENSE file.
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module gg
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import os
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import stbi
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import sokol.gfx
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import sokol.sgl
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// Image holds the fileds and data needed to
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// represent a bitmap/pixel based image in memory.
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[heap]
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pub struct Image {
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pub mut:
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id int
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width int
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height int
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nr_channels int
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ok bool
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data voidptr
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ext string
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simg_ok bool
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simg gfx.Image
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path string
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}
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// create_image creates an `Image` from `file`.
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// TODO return ?Image
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pub fn (mut ctx Context) create_image(file string) Image {
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// println('\ncreate_image("$file")')
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if !os.exists(file) {
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return Image{}
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}
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$if macos {
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if ctx.native_rendering {
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// return C.darwin_create_image(file)
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mut img := C.darwin_create_image(file)
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// println('created macos image: $img.path w=$img.width')
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// C.printf('p = %p\n', img.data)
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img.id = ctx.image_cache.len
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ctx.image_cache << img
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return img
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}
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}
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if !gfx.is_valid() {
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// Sokol is not initialized yet, add stbi object to a queue/cache
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// ctx.image_queue << file
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stb_img := stbi.load(file) or { return Image{} }
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img := Image{
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width: stb_img.width
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height: stb_img.height
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nr_channels: stb_img.nr_channels
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ok: false
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data: stb_img.data
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ext: stb_img.ext
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path: file
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id: ctx.image_cache.len
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}
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ctx.image_cache << img
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return img
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}
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mut img := create_image(file)
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img.id = ctx.image_cache.len
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ctx.image_cache << img
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return img
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}
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// init_sokol_image initializes this `Image` for use with the
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// sokol graphical backend system.
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pub fn (mut img Image) init_sokol_image() &Image {
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// println('\n init sokol image $img.path ok=$img.simg_ok')
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mut img_desc := gfx.ImageDesc{
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width: img.width
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height: img.height
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num_mipmaps: 0
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wrap_u: .clamp_to_edge
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wrap_v: .clamp_to_edge
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label: img.path.str
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d3d11_texture: 0
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}
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img_desc.data.subimage[0][0] = gfx.Range{
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ptr: img.data
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size: usize(img.nr_channels * img.width * img.height)
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}
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img.simg = gfx.make_image(&img_desc)
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img.simg_ok = true
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img.ok = true
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return img
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}
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// draw_image draws the provided image onto the screen.
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pub fn (ctx &Context) draw_image(x f32, y f32, width f32, height f32, img_ &Image) {
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$if macos {
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if img_.id >= ctx.image_cache.len {
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eprintln('gg: draw_image() bad img id $img_.id (img cache len = $ctx.image_cache.len)')
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return
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}
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if ctx.native_rendering {
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if img_.width == 0 {
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return
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}
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if !os.exists(img_.path) {
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return
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}
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C.darwin_draw_image(x, ctx.height - (y + height), width, height, img_)
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return
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}
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}
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ctx.draw_image_with_config(
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img: img_
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img_rect: Rect{x, y, width, height}
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part_rect: Rect{0, 0, img_.width, img_.height}
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)
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}
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// new_streaming_image returns a cached `image_idx` of a special image, that
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// can be updated *each frame* by calling: gg.update_pixel_data(image_idx, buf)
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// ... where buf is a pointer to the actual pixel data for the image.
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// Note: you still need to call app.gg.draw_image after that, to actually draw it.
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pub fn (mut ctx Context) new_streaming_image(w int, h int, channels int, sicfg StreamingImageConfig) int {
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mut img := Image{}
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img.width = w
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img.height = h
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img.nr_channels = channels // 4 bytes per pixel for .rgba8, see pixel_format
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mut img_desc := gfx.ImageDesc{
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width: img.width
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height: img.height
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pixel_format: sicfg.pixel_format
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num_slices: 1
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num_mipmaps: 1
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usage: .stream
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wrap_u: sicfg.wrap_u
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wrap_v: sicfg.wrap_v
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min_filter: sicfg.min_filter
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mag_filter: sicfg.mag_filter
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label: img.path.str
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}
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// Sokol requires that streamed images have NO .ptr/.size initially:
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img_desc.data.subimage[0][0] = gfx.Range{
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ptr: 0
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size: usize(0)
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}
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img.simg = gfx.make_image(&img_desc)
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img.simg_ok = true
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img.ok = true
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img_idx := ctx.cache_image(img)
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return img_idx
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}
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// update_pixel_data is a helper for working with image streams (i.e. images,
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// that are updated dynamically by the CPU on each frame)
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pub fn (mut ctx Context) update_pixel_data(cached_image_idx int, buf &u8) {
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mut image := ctx.get_cached_image_by_idx(cached_image_idx)
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image.update_pixel_data(buf)
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}
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// update_pixel_data updates the sokol specific pixel data associated
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// with this `Image`.
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pub fn (mut img Image) update_pixel_data(buf &u8) {
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mut data := gfx.ImageData{}
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data.subimage[0][0].ptr = buf
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data.subimage[0][0].size = usize(img.width * img.height * img.nr_channels)
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gfx.update_image(img.simg, &data)
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}
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// create_image_with_size creates an `Image` from `file` in the given
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// `width` x `height` dimension.
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//
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// TODO copypasta
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pub fn (mut ctx Context) create_image_with_size(file string, width int, height int) Image {
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if !gfx.is_valid() {
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// Sokol is not initialized yet, add stbi object to a queue/cache
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// ctx.image_queue << file
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stb_img := stbi.load(file) or { return Image{} }
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img := Image{
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width: width
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height: height
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nr_channels: stb_img.nr_channels
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ok: false
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data: stb_img.data
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ext: stb_img.ext
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path: file
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id: ctx.image_cache.len
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}
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ctx.image_cache << img
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return img
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}
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mut img := create_image(file)
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img.id = ctx.image_cache.len
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ctx.image_cache << img
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return img
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}
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// create_image creates an `Image` from `file`.
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//
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// TODO remove this
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fn create_image(file string) Image {
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if !os.exists(file) {
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println('gg.create_image(): file not found: $file')
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return Image{} // none
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}
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stb_img := stbi.load(file) or { return Image{} }
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mut img := Image{
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width: stb_img.width
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height: stb_img.height
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nr_channels: stb_img.nr_channels
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ok: stb_img.ok
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data: stb_img.data
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ext: stb_img.ext
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path: file
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}
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img.init_sokol_image()
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return img
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}
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// create_image_from_memory creates an `Image` from the
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// memory buffer `buf` of size `bufsize`.
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//
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// See also: create_image_from_byte_array
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pub fn (mut ctx Context) create_image_from_memory(buf &u8, bufsize int) Image {
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stb_img := stbi.load_from_memory(buf, bufsize) or { return Image{} }
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mut img := Image{
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width: stb_img.width
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height: stb_img.height
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nr_channels: stb_img.nr_channels
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ok: stb_img.ok
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data: stb_img.data
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ext: stb_img.ext
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id: ctx.image_cache.len
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}
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ctx.image_cache << img
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return img
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}
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// create_image_from_byte_array creates an `Image` from the
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// byte array `b`.
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//
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// See also: create_image_from_memory
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pub fn (mut ctx Context) create_image_from_byte_array(b []u8) Image {
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return ctx.create_image_from_memory(b.data, b.len)
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}
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pub struct StreamingImageConfig {
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pixel_format gfx.PixelFormat = .rgba8
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wrap_u gfx.Wrap = .clamp_to_edge
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wrap_v gfx.Wrap = .clamp_to_edge
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min_filter gfx.Filter = .linear
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mag_filter gfx.Filter = .linear
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num_mipmaps int = 1
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num_slices int = 1
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}
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// draw_image_with_config takes in a config that details how the
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// provided image should be drawn onto the screen
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pub fn (ctx &Context) draw_image_with_config(config DrawImageConfig) {
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id := if !isnil(config.img) { config.img.id } else { config.img_id }
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if id >= ctx.image_cache.len {
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eprintln('gg: draw_image() bad img id $id (img cache len = $ctx.image_cache.len)')
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return
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}
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img := &ctx.image_cache[id]
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if !img.simg_ok {
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return
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}
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mut img_rect := config.img_rect
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if img_rect.width == 0 && img_rect.height == 0 {
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img_rect = Rect{img_rect.x, img_rect.y, img.width, img.height}
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}
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mut part_rect := config.part_rect
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if part_rect.width == 0 && part_rect.height == 0 {
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part_rect = Rect{part_rect.x, part_rect.y, img.width, img.height}
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}
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u0 := part_rect.x / img.width
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v0 := part_rect.y / img.height
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u1 := (part_rect.x + part_rect.width) / img.width
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v1 := (part_rect.y + part_rect.height) / img.height
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x0 := img_rect.x * ctx.scale
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y0 := img_rect.y * ctx.scale
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x1 := (img_rect.x + img_rect.width) * ctx.scale
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mut y1 := (img_rect.y + img_rect.height) * ctx.scale
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if img_rect.height == 0 {
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scale := f32(img.width) / f32(img_rect.width)
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y1 = f32(img_rect.y + int(f32(img.height) / scale)) * ctx.scale
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}
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flip_x := config.flip_x
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flip_y := config.flip_y
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mut u0f := if !flip_x { u0 } else { u1 }
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mut u1f := if !flip_x { u1 } else { u0 }
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mut v0f := if !flip_y { v0 } else { v1 }
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mut v1f := if !flip_y { v1 } else { v0 }
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// FIXME: is this okay?
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match config.effect {
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.alpha { sgl.load_pipeline(ctx.pipeline.alpha) }
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.add { sgl.load_pipeline(ctx.pipeline.add) }
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}
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sgl.enable_texture()
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sgl.texture(img.simg)
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if config.rotate != 0 {
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width := img_rect.width * ctx.scale
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height := (if img_rect.height > 0 { img_rect.height } else { img.height }) * ctx.scale
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sgl.push_matrix()
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sgl.translate(x0 + (width / 2), y0 + (height / 2), 0)
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sgl.rotate(sgl.rad(-config.rotate), 0, 0, 1)
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sgl.translate(-x0 - (width / 2), -y0 - (height / 2), 0)
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}
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sgl.begin_quads()
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sgl.c4b(config.color.r, config.color.g, config.color.b, config.color.a)
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sgl.v3f_t2f(x0, y0, config.z, u0f, v0f)
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sgl.v3f_t2f(x1, y0, config.z, u1f, v0f)
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sgl.v3f_t2f(x1, y1, config.z, u1f, v1f)
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sgl.v3f_t2f(x0, y1, config.z, u0f, v1f)
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sgl.end()
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if config.rotate != 0 {
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sgl.pop_matrix()
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}
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sgl.disable_texture()
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}
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