v/examples/sokol/04_multi_shader_glsl/rt_glsl.v

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/**********************************************************************
*
* Sokol 3d cube multishader demo
*
* Copyright (c) 2021 Dario Deledda. All rights reserved.
* Use of this source code is governed by an MIT license
* that can be found in the LICENSE file.
*
* HOW TO COMPILE SHADERS:
* Run `v shader .` in this directory to compile the shaders.
* For more info and help with shader compilation see `docs.md` and `v help shader`.
*
* TODO:
* - frame counter
**********************************************************************/
import gg
import gg.m4
import gx
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// import math
import sokol.sapp
import sokol.gfx
import sokol.sgl
import time
// GLSL Include and functions
#flag -I @VMODROOT/.
#include "rt_glsl_march.h" # Should be generated with `v shader .` (see the instructions at the top of this file)
#include "rt_glsl_puppy.h" # Should be generated with `v shader .` (see the instructions at the top of this file)
fn C.rt_march_shader_desc(gfx.Backend) &gfx.ShaderDesc
fn C.rt_puppy_shader_desc(gfx.Backend) &gfx.ShaderDesc
const (
win_width = 800
win_height = 800
bg_color = gx.white
)
struct App {
mut:
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gg &gg.Context
texture gfx.Image
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init_flag bool
frame_count int
mouse_x int = -1
mouse_y int = -1
mouse_down bool
// glsl
cube_pip_glsl gfx.Pipeline
cube_bind gfx.Bindings
pipe map[string]gfx.Pipeline
bind map[string]gfx.Bindings
// time
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ticks i64
}
/******************************************************************************
* Texture functions
******************************************************************************/
fn create_texture(w int, h int, buf byteptr) gfx.Image {
sz := w * h * 4
mut img_desc := gfx.ImageDesc{
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width: w
height: h
num_mipmaps: 0
min_filter: .linear
mag_filter: .linear
// usage: .dynamic
wrap_u: .clamp_to_edge
wrap_v: .clamp_to_edge
label: &byte(0)
d3d11_texture: 0
}
// comment if .dynamic is enabled
img_desc.data.subimage[0][0] = gfx.Range{
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ptr: buf
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size: usize(sz)
}
sg_img := gfx.make_image(&img_desc)
return sg_img
}
fn destroy_texture(sg_img gfx.Image) {
gfx.destroy_image(sg_img)
}
// Use only if usage: .dynamic is enabled
fn update_text_texture(sg_img gfx.Image, w int, h int, buf byteptr) {
sz := w * h * 4
mut tmp_sbc := gfx.ImageData{}
tmp_sbc.subimage[0][0] = gfx.Range{
ptr: buf
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size: usize(sz)
}
gfx.update_image(sg_img, &tmp_sbc)
}
/******************************************************************************
* Draw functions
******************************************************************************
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Cube vertex buffer with packed vertex formats for color and texture coords.
Note that a vertex format which must be portable across all
backends must only use the normalized integer formats
(BYTE4N, UBYTE4N, SHORT2N, SHORT4N), which can be converted
to floating point formats in the vertex shader inputs.
The reason is that D3D11 cannot convert from non-normalized
formats to floating point inputs (only to integer inputs),
and WebGL2 / GLES2 don't support integer vertex shader inputs.
*/
struct Vertex_t {
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x f32
y f32
z f32
color u32
// u u16 // for compatibility with D3D11
// v u16 // for compatibility with D3D11
u f32
v f32
}
// march shader init
fn init_cube_glsl_m(mut app App) {
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// cube vertex buffer
// d := u16(32767) // for compatibility with D3D11, 32767 stand for 1
d := f32(1.0)
c := u32(0xFFFFFF_FF) // color RGBA8
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vertices := [
// Face 0
Vertex_t{-1.0, -1.0, -1.0, c, 0, 0},
Vertex_t{ 1.0, -1.0, -1.0, c, d, 0},
Vertex_t{ 1.0, 1.0, -1.0, c, d, d},
Vertex_t{-1.0, 1.0, -1.0, c, 0, d},
// Face 1
Vertex_t{-1.0, -1.0, 1.0, c, 0, 0},
Vertex_t{ 1.0, -1.0, 1.0, c, d, 0},
Vertex_t{ 1.0, 1.0, 1.0, c, d, d},
Vertex_t{-1.0, 1.0, 1.0, c, 0, d},
// Face 2
Vertex_t{-1.0, -1.0, -1.0, c, 0, 0},
Vertex_t{-1.0, 1.0, -1.0, c, d, 0},
Vertex_t{-1.0, 1.0, 1.0, c, d, d},
Vertex_t{-1.0, -1.0, 1.0, c, 0, d},
// Face 3
Vertex_t{ 1.0, -1.0, -1.0, c, 0, 0},
Vertex_t{ 1.0, 1.0, -1.0, c, d, 0},
Vertex_t{ 1.0, 1.0, 1.0, c, d, d},
Vertex_t{ 1.0, -1.0, 1.0, c, 0, d},
// Face 4
Vertex_t{-1.0, -1.0, -1.0, c, 0, 0},
Vertex_t{-1.0, -1.0, 1.0, c, d, 0},
Vertex_t{ 1.0, -1.0, 1.0, c, d, d},
Vertex_t{ 1.0, -1.0, -1.0, c, 0, d},
// Face 5
Vertex_t{-1.0, 1.0, -1.0, c, 0, 0},
Vertex_t{-1.0, 1.0, 1.0, c, d, 0},
Vertex_t{ 1.0, 1.0, 1.0, c, d, d},
Vertex_t{ 1.0, 1.0, -1.0, c, 0, d},
]
mut vert_buffer_desc := gfx.BufferDesc{label: c'cube-vertices'}
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unsafe { C.memset(&vert_buffer_desc, 0, sizeof(vert_buffer_desc)) }
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vert_buffer_desc.size = usize(vertices.len * int(sizeof(Vertex_t)))
vert_buffer_desc.data = gfx.Range{
ptr: vertices.data
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size: usize(vertices.len * int(sizeof(Vertex_t)))
}
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vert_buffer_desc.@type = .vertexbuffer
vbuf := gfx.make_buffer(&vert_buffer_desc)
/* create an index buffer for the cube */
indices := [
u16(0), 1, 2, 0, 2, 3,
6, 5, 4, 7, 6, 4,
8, 9, 10, 8, 10, 11,
/*
u16(14), 13, 12, 15, 14, 12,
16, 17, 18, 16, 18, 19,
22, 21, 20, 23, 22, 20
*/
]
mut index_buffer_desc := gfx.BufferDesc{label: c'cube-indices'}
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unsafe { C.memset(&index_buffer_desc, 0, sizeof(index_buffer_desc)) }
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index_buffer_desc.size = usize(indices.len * int(sizeof(u16)))
index_buffer_desc.data = gfx.Range{
ptr: indices.data
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size: usize(indices.len * int(sizeof(u16)))
}
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index_buffer_desc.@type = .indexbuffer
ibuf := gfx.make_buffer(&index_buffer_desc)
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// create shader
shader := gfx.make_shader(C.rt_march_shader_desc(C.sg_query_backend()))
mut pipdesc := gfx.PipelineDesc{}
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unsafe { C.memset(&pipdesc, 0, sizeof(pipdesc)) }
pipdesc.layout.buffers[0].stride = int(sizeof(Vertex_t))
// the constants [C.ATTR_vs_m_pos, C.ATTR_vs_m_color0, C.ATTR_vs_m_texcoord0] are generated by sokol-shdc
pipdesc.layout.attrs[C.ATTR_vs_m_pos ].format = .float3 // x,y,z as f32
pipdesc.layout.attrs[C.ATTR_vs_m_color0 ].format = .ubyte4n // color as u32
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pipdesc.layout.attrs[C.ATTR_vs_m_texcoord0].format = .float2 // u,v as f32
// pipdesc.layout.attrs[C.ATTR_vs_m_texcoord0].format = .short2n // u,v as u16
pipdesc.shader = shader
pipdesc.index_type = .uint16
pipdesc.depth = gfx.DepthState{
write_enabled: true
compare: .less_equal
}
pipdesc.cull_mode = .back
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pipdesc.label = 'glsl_shader pipeline'.str
mut bind := gfx.Bindings{}
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unsafe { C.memset(&bind, 0, sizeof(bind)) }
bind.vertex_buffers[0] = vbuf
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bind.index_buffer = ibuf
bind.fs_images[C.SLOT_tex] = app.texture
app.bind['march'] = bind
app.pipe['march'] = gfx.make_pipeline(&pipdesc)
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println('GLSL March init DONE!')
}
// putty shader init
fn init_cube_glsl_p(mut app App) {
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// cube vertex buffer
// d := u16(32767) // for compatibility with D3D11, 32767 stand for 1
d := f32(1.0)
c := u32(0xFFFFFF_FF) // color RGBA8
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vertices := [
// Face 0
Vertex_t{-1.0, -1.0, -1.0, c, 0, 0},
Vertex_t{ 1.0, -1.0, -1.0, c, d, 0},
Vertex_t{ 1.0, 1.0, -1.0, c, d, d},
Vertex_t{-1.0, 1.0, -1.0, c, 0, d},
// Face 1
Vertex_t{-1.0, -1.0, 1.0, c, 0, 0},
Vertex_t{ 1.0, -1.0, 1.0, c, d, 0},
Vertex_t{ 1.0, 1.0, 1.0, c, d, d},
Vertex_t{-1.0, 1.0, 1.0, c, 0, d},
// Face 2
Vertex_t{-1.0, -1.0, -1.0, c, 0, 0},
Vertex_t{-1.0, 1.0, -1.0, c, d, 0},
Vertex_t{-1.0, 1.0, 1.0, c, d, d},
Vertex_t{-1.0, -1.0, 1.0, c, 0, d},
// Face 3
Vertex_t{ 1.0, -1.0, -1.0, c, 0, 0},
Vertex_t{ 1.0, 1.0, -1.0, c, d, 0},
Vertex_t{ 1.0, 1.0, 1.0, c, d, d},
Vertex_t{ 1.0, -1.0, 1.0, c, 0, d},
// Face 4
Vertex_t{-1.0, -1.0, -1.0, c, 0, 0},
Vertex_t{-1.0, -1.0, 1.0, c, d, 0},
Vertex_t{ 1.0, -1.0, 1.0, c, d, d},
Vertex_t{ 1.0, -1.0, -1.0, c, 0, d},
// Face 5
Vertex_t{-1.0, 1.0, -1.0, c, 0, 0},
Vertex_t{-1.0, 1.0, 1.0, c, d, 0},
Vertex_t{ 1.0, 1.0, 1.0, c, d, d},
Vertex_t{ 1.0, 1.0, -1.0, c, 0, d},
]
mut vert_buffer_desc := gfx.BufferDesc{label: c'cube-vertices'}
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unsafe { C.memset(&vert_buffer_desc, 0, sizeof(vert_buffer_desc)) }
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vert_buffer_desc.size = usize(vertices.len * int(sizeof(Vertex_t)))
vert_buffer_desc.data = gfx.Range{
ptr: vertices.data
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size: usize(vertices.len * int(sizeof(Vertex_t)))
}
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vert_buffer_desc.@type = .vertexbuffer
vbuf := gfx.make_buffer(&vert_buffer_desc)
/* create an index buffer for the cube */
indices := [
/*
u16(0), 1, 2, 0, 2, 3,
6, 5, 4, 7, 6, 4,
8, 9, 10, 8, 10, 11,
*/
u16(14), 13, 12, 15, 14, 12,
16, 17, 18, 16, 18, 19,
22, 21, 20, 23, 22, 20
]
mut index_buffer_desc := gfx.BufferDesc{label: c'cube-indices'}
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unsafe { C.memset(&index_buffer_desc, 0, sizeof(index_buffer_desc)) }
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index_buffer_desc.size = usize(indices.len * int(sizeof(u16)))
index_buffer_desc.data = gfx.Range{
ptr: indices.data
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size: usize(indices.len * int(sizeof(u16)))
}
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index_buffer_desc.@type = .indexbuffer
ibuf := gfx.make_buffer(&index_buffer_desc)
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// create shader
shader := gfx.make_shader(C.rt_puppy_shader_desc(C.sg_query_backend()))
mut pipdesc := gfx.PipelineDesc{}
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unsafe { C.memset(&pipdesc, 0, sizeof(pipdesc)) }
pipdesc.layout.buffers[0].stride = int(sizeof(Vertex_t))
// the constants [C.ATTR_vs_p_pos, C.ATTR_vs_p_color0, C.ATTR_vs_p_texcoord0] are generated by sokol-shdc
pipdesc.layout.attrs[C.ATTR_vs_p_pos ].format = .float3 // x,y,z as f32
pipdesc.layout.attrs[C.ATTR_vs_p_color0 ].format = .ubyte4n // color as u32
pipdesc.layout.attrs[C.ATTR_vs_p_texcoord0].format = .float2 // u,v as f32
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// pipdesc.layout.attrs[C.ATTR_vs_p_texcoord0].format = .short2n // u,v as u16
pipdesc.shader = shader
pipdesc.index_type = .uint16
pipdesc.depth = gfx.DepthState{
write_enabled: true
compare: .less_equal
}
pipdesc.cull_mode = .back
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pipdesc.label = 'glsl_shader pipeline'.str
mut bind := gfx.Bindings{}
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unsafe { C.memset(&bind, 0, sizeof(bind)) }
bind.vertex_buffers[0] = vbuf
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bind.index_buffer = ibuf
bind.fs_images[C.SLOT_tex] = app.texture
app.bind['puppy'] = bind
app.pipe['puppy'] = gfx.make_pipeline(&pipdesc)
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println('GLSL Puppy init DONE!')
}
[inline]
fn vec4(x f32, y f32, z f32, w f32) m4.Vec4 {
return m4.Vec4{e:[x, y, z, w]!}
}
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fn calc_tr_matrices(w f32, h f32, rx f32, ry f32, in_scale f32) m4.Mat4 {
proj := m4.perspective(60, w/h, 0.01, 10.0)
view := m4.look_at(vec4(f32(0.0) ,0 , 6, 0), vec4(f32(0), 0, 0, 0), vec4(f32(0), 1, 0, 0))
view_proj := view * proj
rxm := m4.rotate(m4.rad(rx), vec4(f32(1), 0, 0, 0))
rym := m4.rotate(m4.rad(ry), vec4(f32(0), 1, 0, 0))
model := rym * rxm
scale_m := m4.scale(vec4(in_scale, in_scale, in_scale, 1))
res := (scale_m * model) * view_proj
return res
}
// march triangles draw
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fn draw_cube_glsl_m(app App) {
if app.init_flag == false {
return
}
ws := gg.window_size_real_pixels()
ratio := f32(ws.width) / ws.height
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dw := f32(ws.width / 2)
dh := f32(ws.height / 2)
rot := [f32(app.mouse_y), f32(app.mouse_x)]
tr_matrix := calc_tr_matrices(dw, dh, rot[0], rot[1], 2.3)
gfx.apply_pipeline(app.pipe['march'])
gfx.apply_bindings(app.bind['march'])
// Uniforms
// *** vertex shadeer uniforms ***
// passing the view matrix as uniform
// res is a 4x4 matrix of f32 thus: 4*16 byte of size
vs_uniforms_range := gfx.Range{
ptr: &tr_matrix
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size: usize(4 * 16)
}
gfx.apply_uniforms(.vs, C.SLOT_vs_params_m, &vs_uniforms_range)
// *** fragment shader uniforms ***
time_ticks := f32(time.ticks() - app.ticks) / 1000
mut tmp_fs_params := [
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f32(ws.width),
ws.height * ratio, // x,y resolution to pass to FS
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0,
0, // dont send mouse position
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/* app.mouse_x, // mouse x */
/* ws.height - app.mouse_y*2, // mouse y scaled */
time_ticks, // time as f32
app.frame_count, // frame count
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0,
0 // padding bytes , see "fs_params" struct paddings in rt_glsl.h
]!
fs_uniforms_range := gfx.Range{
ptr: unsafe { &tmp_fs_params }
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size: usize(sizeof(tmp_fs_params))
}
gfx.apply_uniforms(.fs, C.SLOT_fs_params_p, &fs_uniforms_range)
// 3 vertices for triangle * 2 triangles per face * 6 faces = 36 vertices to draw
gfx.draw(0, (3 * 2) * 3, 1)
}
// puppy triangles draw
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fn draw_cube_glsl_p(app App) {
if app.init_flag == false {
return
}
ws := gg.window_size_real_pixels()
ratio := f32(ws.width) / ws.height
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dw := f32(ws.width / 2)
dh := f32(ws.height / 2)
rot := [f32(app.mouse_y), f32(app.mouse_x)]
tr_matrix := calc_tr_matrices(dw, dh, rot[0], rot[1], 2.3)
// apply the pipline and bindings
gfx.apply_pipeline(app.pipe['puppy'])
gfx.apply_bindings(app.bind['puppy'])
// Uniforms
// *** vertex shadeer uniforms ***
// passing the view matrix as uniform
// res is a 4x4 matrix of f32 thus: 4*16 byte of size
vs_uniforms_range := gfx.Range{
ptr: &tr_matrix
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size: usize(4 * 16)
}
gfx.apply_uniforms(.vs, C.SLOT_vs_params_p, &vs_uniforms_range)
// *** fragment shader uniforms ***
time_ticks := f32(time.ticks() - app.ticks) / 1000
mut tmp_fs_params := [
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f32(ws.width),
ws.height * ratio, // x,y resolution to pass to FS
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0,
0, // dont send mouse position
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/* app.mouse_x, // mouse x */
/* ws.height - app.mouse_y*2, // mouse y scaled */
time_ticks, // time as f32
app.frame_count, // frame count
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0,
0 // padding bytes , see "fs_params" struct paddings in rt_glsl.h
]!
fs_uniforms_range := gfx.Range{
ptr: unsafe { &tmp_fs_params }
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size: usize(sizeof(tmp_fs_params))
}
gfx.apply_uniforms(.fs, C.SLOT_fs_params_p, &fs_uniforms_range)
// 3 vertices for triangle * 2 triangles per face * 6 faces = 36 vertices to draw
gfx.draw(0, (3 * 2) * 3, 1)
}
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fn draw_start_glsl(app App) {
if app.init_flag == false {
return
}
ws := gg.window_size_real_pixels()
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// ratio := f32(ws.width) / ws.height
// dw := f32(ws.width / 2)
// dh := f32(ws.height / 2)
gfx.apply_viewport(0, 0, ws.width, ws.height, true)
}
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fn draw_end_glsl(app App) {
gfx.end_pass()
gfx.commit()
}
fn frame(mut app App) {
ws := gg.window_size_real_pixels()
// clear
mut color_action := gfx.ColorAttachmentAction{
action: .clear
value: gfx.Color{
r: 0.0
g: 0.0
b: 0.0
a: 1.0
}
}
mut pass_action := gfx.PassAction{}
pass_action.colors[0] = color_action
gfx.begin_default_pass(&pass_action, ws.width, ws.height)
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/*
// glsl cube
if app.frame_count % 1 == 1{
draw_cube_glsl_m(app)
} else {
draw_cube_glsl_p(app)
}
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*/
draw_start_glsl(app)
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draw_cube_glsl_m(app)
draw_cube_glsl_p(app)
draw_end_glsl(app)
app.frame_count++
}
/******************************************************************************
* Init / Cleanup
******************************************************************************/
fn my_init(mut app App) {
// set max vertices,
// for a large number of the same type of object it is better use the instances!!
desc := sapp.create_desc()
gfx.setup(&desc)
sgl_desc := sgl.Desc{
max_vertices: 50 * 65536
}
sgl.setup(&sgl_desc)
// create chessboard texture 256*256 RGBA
w := 256
h := 256
sz := w * h * 4
tmp_txt := unsafe { malloc(sz) }
mut i := 0
for i < sz {
unsafe {
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y := (i >> 0x8) >> 5 // 8 cell
x := (i & 0xFF) >> 5 // 8 cell
// upper left corner
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if x == 0 && y == 0 {
tmp_txt[i + 0] = byte(0xFF)
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tmp_txt[i + 1] = byte(0)
tmp_txt[i + 2] = byte(0)
tmp_txt[i + 3] = byte(0xFF)
}
// low right corner
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else if x == 7 && y == 7 {
tmp_txt[i + 0] = byte(0)
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tmp_txt[i + 1] = byte(0xFF)
tmp_txt[i + 2] = byte(0)
tmp_txt[i + 3] = byte(0xFF)
} else {
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col := if ((x + y) & 1) == 1 { 0xFF } else { 128 }
tmp_txt[i + 0] = byte(col) // red
tmp_txt[i + 1] = byte(col) // green
tmp_txt[i + 2] = byte(col) // blue
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tmp_txt[i + 3] = byte(0xFF) // alpha
}
i += 4
}
}
app.texture = create_texture(w, h, tmp_txt)
unsafe { free(tmp_txt) }
// glsl
init_cube_glsl_m(mut app)
init_cube_glsl_p(mut app)
app.init_flag = true
}
fn cleanup(mut app App) {
gfx.shutdown()
}
/******************************************************************************
* events handling
******************************************************************************/
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fn my_event_manager(mut ev gg.Event, mut app App) {
if ev.typ == .mouse_down {
app.mouse_down = true
}
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if ev.typ == .mouse_up {
app.mouse_down = false
}
if app.mouse_down == true && ev.typ == .mouse_move {
app.mouse_x = int(ev.mouse_x)
app.mouse_y = int(ev.mouse_y)
}
if ev.typ == .touches_began || ev.typ == .touches_moved {
if ev.num_touches > 0 {
touch_point := ev.touches[0]
app.mouse_x = int(touch_point.pos_x)
app.mouse_y = int(touch_point.pos_y)
}
}
}
/******************************************************************************
* Main
******************************************************************************/
[console] // is needed for easier diagnostics on windows
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fn main() {
// App init
mut app := &App{
gg: 0
}
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app.gg = gg.new_context(
width: win_width
height: win_height
create_window: true
window_title: '3D Dual shader Cube - click and rotate with the mouse'
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user_data: app
bg_color: bg_color
frame_fn: frame
init_fn: my_init
cleanup_fn: cleanup
event_fn: my_event_manager
)
app.ticks = time.ticks()
app.gg.run()
}