fragment float4 fragment_main(VertexOut vert [[stage_in]],
const constant float4 &color) {
return color;
}
'''
texture = Texture(pixel_format=Texture.PixelFormat.RGBA,
component_format=Texture.ComponentFormat.UInt8,
size=[512, 512],
flags=Texture.TextureFlags.ShaderRead
| Texture.TextureFlags.RenderTarget)
render_pass = RenderPass([texture])
render_pass.set_viewport([10, 10], [512 - 10, 512 - 20])
shader = Shader(render_pass, "test_shader", vertex_program, fragment_program)
p = np.array([[0.0, 0.5, 0], [-0.5, -0.5, 0], [0.5, -0.5, 0]],
dtype=np.float32)
shader.set_buffer("position", p)
shader.set_buffer("color", np.array([1, 0, 0, 1], dtype=np.float32))
shader.set_buffer("indices", np.array([0, 1, 2], dtype=np.uint32))
with render_pass:
with shader:
if False:
shader.draw_array(Shader.PrimitiveType.Triangle, 0, 3)
else:
shader.draw_array(Shader.PrimitiveType.Triangle,
0,
def __init__(self):
super(TestApp, self).__init__((1024, 768), "NanoGUI Test")
self.shader = None
window = Window(self, "Button demo")
window.set_position((15, 15))
window.set_layout(GroupLayout())
Label(window, "Push buttons", "sans-bold")
b = Button(window, "Plain button")
def cb():
print("pushed!")
b.set_callback(cb)
b = Button(window, "Styled", icons.FA_ROCKET)
b.set_background_color(Color(0, 0, 1.0, 0.1))
b.set_callback(cb)
Label(window, "Toggle buttons", "sans-bold")
b = Button(window, "Toggle me")
b.set_flags(Button.Flags.ToggleButton)
def change_cb(state):
print("Toggle button state: %s" % str(state))
b.set_change_callback(change_cb)
Label(window, "Radio buttons", "sans-bold")
b = Button(window, "Radio button 1")
b.set_flags(Button.Flags.RadioButton)
b = Button(window, "Radio button 2")
b.set_flags(Button.Flags.RadioButton)
Label(window, "A tool palette", "sans-bold")
tools = Widget(window)
tools.set_layout(
BoxLayout(Orientation.Horizontal, Alignment.Middle, 0, 6))
ToolButton(tools, icons.FA_CLOUD)
ToolButton(tools, icons.FA_FAST_FORWARD)
ToolButton(tools, icons.FA_COMPASS)
ToolButton(tools, icons.FA_UTENSILS)
Label(window, "Popup buttons", "sans-bold")
popup_btn = PopupButton(window, "Popup", icons.FA_FLASK)
popup = popup_btn.popup()
popup.set_layout(GroupLayout())
Label(popup, "Arbitrary widgets can be placed here")
CheckBox(popup, "A check box")
# popup right
popup_btn = PopupButton(popup, "Recursive popup", icons.FA_CHART_PIE)
popup_right = popup_btn.popup()
popup_right.set_layout(GroupLayout())
CheckBox(popup_right, "Another check box")
# popup left
popup_btn = PopupButton(popup, "Recursive popup", icons.FA_DNA)
popup_btn.set_side(Popup.Side.Left)
popup_left = popup_btn.popup()
popup_left.set_layout(GroupLayout())
CheckBox(popup_left, "Another check box")
window = Window(self, "Basic widgets")
window.set_position((200, 15))
window.set_layout(GroupLayout())
Label(window, "Message dialog", "sans-bold")
tools = Widget(window)
tools.set_layout(
BoxLayout(Orientation.Horizontal, Alignment.Middle, 0, 6))
def cb2(result):
print("Dialog result: %i" % result)
b = Button(tools, "Info")
def cb():
dlg = MessageDialog(self, MessageDialog.Type.Information, "Title",
"This is an information message")
dlg.set_callback(cb2)
b.set_callback(cb)
b = Button(tools, "Warn")
def cb():
dlg = MessageDialog(self, MessageDialog.Type.Warning, "Title",
"This is a warning message")
dlg.set_callback(cb2)
b.set_callback(cb)
b = Button(tools, "Ask")
def cb():
dlg = MessageDialog(self, MessageDialog.Type.Warning, "Title",
"This is a question message", "Yes", "No",
True)
dlg.set_callback(cb2)
b.set_callback(cb)
import os
import sys
os.chdir(sys.path[0])
try:
icons_data = nanogui.load_image_directory(self.nvg_context(),
"icons")
except:
try:
icons_data = nanogui.load_image_directory(
self.nvg_context(), "../icons")
except:
icons_data = nanogui.load_image_directory(
self.nvg_context(), "../resources/icons")
Label(window, "Image panel & scroll panel", "sans-bold")
image_panel_btn = PopupButton(window, "Image Panel")
image_panel_btn.set_icon(icons.FA_IMAGES)
popup = image_panel_btn.popup()
vscroll = VScrollPanel(popup)
img_panel = ImagePanel(vscroll)
img_panel.set_images(icons_data)
popup.set_fixed_size((245, 150))
img_window = Window(self, "Selected image")
img_window.set_position((710, 15))
img_window.set_layout(GroupLayout())
img_view = ImageView(img_window)
img_view.set_image(
Texture(icons_data[0][1] + ".png",
Texture.InterpolationMode.Trilinear,
Texture.InterpolationMode.Nearest))
img_view.center()
def cb(i):
print("Selected item %i" % i)
img_view.set_image(
Texture(icons_data[i][1] + ".png",
Texture.InterpolationMode.Trilinear,
Texture.InterpolationMode.Nearest))
img_panel.set_callback(cb)
Label(window, "File dialog", "sans-bold")
tools = Widget(window)
tools.set_layout(
BoxLayout(Orientation.Horizontal, Alignment.Middle, 0, 6))
b = Button(tools, "Open")
valid = [("png", "Portable Network Graphics"), ("txt", "Text file")]
def cb():
result = nanogui.file_dialog(valid, False)
print("File dialog result = %s" % result)
b.set_callback(cb)
b = Button(tools, "Save")
def cb():
result = nanogui.file_dialog(valid, True)
print("File dialog result = %s" % result)
b.set_callback(cb)
Label(window, "Combo box", "sans-bold")
ComboBox(window,
["Combo box item 1", "Combo box item 2", "Combo box item 3"])
Label(window, "Check box", "sans-bold")
def cb(state):
print("Check box 1 state: %s" % state)
chb = CheckBox(window, "Flag 1", cb)
chb.set_checked(True)
def cb(state):
print("Check box 2 state: %s" % state)
CheckBox(window, "Flag 2", cb)
Label(window, "Progress bar", "sans-bold")
self.progress = ProgressBar(window)
Label(window, "Slider and text box", "sans-bold")
panel = Widget(window)
panel.set_layout(
BoxLayout(Orientation.Horizontal, Alignment.Middle, 0, 20))
slider = Slider(panel)
slider.set_value(0.5)
slider.set_fixed_width(80)
text_box = TextBox(panel)
text_box.set_fixed_size((60, 25))
text_box.set_value("50")
text_box.set_units("%")
text_box.set_font_size(20)
text_box.set_alignment(TextBox.Alignment.Right)
def cb(value):
text_box.set_value("%i" % int(value * 100))
slider.set_callback(cb)
def cb(value):
print("Final slider value: %i" % int(value * 100))
slider.set_final_callback(cb)
window = Window(self, "Misc. widgets")
window.set_position((425, 15))
window.set_layout(GroupLayout())
tab_widget = TabWidget(window)
layer = Widget(tab_widget)
layer.set_layout(GroupLayout())
tab_widget.append_tab("Color Wheel", layer)
Label(layer, "Color wheel widget", "sans-bold")
ColorWheel(layer)
layer = Widget(tab_widget)
layer.set_layout(GroupLayout())
tab_widget.append_tab("Function Graph", layer)
Label(layer, "Function graph widget", "sans-bold")
graph = Graph(layer, "Some function")
graph.set_header("E = 2.35e-3")
graph.set_footer("Iteration 89")
values = [
0.5 * (0.5 * math.sin(i / 10.0) + 0.5 * math.cos(i / 23.0) + 1)
for i in range(100)
]
graph.set_values(values)
# Dummy tab used to represent the last tab button.
plus_id = tab_widget.append_tab("+", Widget(tab_widget))
def tab_cb(index):
if index == plus_id:
global counter
# When the "+" tab has been clicked, simply add a new tab.
tab_name = "Dynamic {0}".format(counter)
layer_dyn = Widget(tab_widget)
layer_dyn.set_layout(GroupLayout())
new_id = tab_widget.insert_tab(tab_widget.tab_count() - 1,
tab_name, layer_dyn)
Label(layer_dyn, "Function graph widget", "sans-bold")
graph_dyn = Graph(layer_dyn, "Dynamic function")
graph_dyn.set_header("E = 2.35e-3")
graph_dyn.set_footer("Iteration {0}".format(index * counter))
values_dyn = [
0.5 * abs((0.5 * math.sin(i / 10.0 + counter)) +
(0.5 * math.cos(i / 23.0 + 1 + counter)))
for i in range(100)
]
graph_dyn.set_values(values_dyn)
counter += 1
# We must invoke the layout manager after adding tabs dynamically
self.perform_layout()
tab_widget.set_selected_id(new_id)
tab_widget.set_callback(tab_cb)
window = Window(self, "Grid of small widgets")
window.set_position((425, 300))
layout = GridLayout(Orientation.Horizontal, 2, Alignment.Middle, 15, 5)
layout.set_col_alignment([Alignment.Maximum, Alignment.Fill])
layout.set_spacing(0, 10)
window.set_layout(layout)
Label(window, "Floating point :", "sans-bold")
float_box = TextBox(window)
float_box.set_editable(True)
float_box.set_fixed_size((100, 20))
float_box.set_value("50")
float_box.set_units("GiB")
float_box.set_default_value("0.0")
float_box.set_font_size(16)
float_box.set_format("[-]?[0-9]*\\.?[0-9]+")
Label(window, "Positive integer :", "sans-bold")
int_box = IntBox(window)
int_box.set_editable(True)
int_box.set_fixed_size((100, 20))
int_box.set_value(50)
int_box.set_units("Mhz")
int_box.set_default_value("0")
int_box.set_font_size(16)
int_box.set_format("[1-9][0-9]*")
int_box.set_spinnable(True)
int_box.set_min_value(1)
int_box.set_value_increment(2)
Label(window, "Checkbox :", "sans-bold")
cb = CheckBox(window, "Check me")
cb.set_font_size(16)
cb.set_checked(True)
Label(window, "Combo box :", "sans-bold")
cobo = ComboBox(window, ["Item 1", "Item 2", "Item 3"])
cobo.set_font_size(16)
cobo.set_fixed_size((100, 20))
Label(window, "Color picker :", "sans-bold")
cp = ColorPicker(window, Color(255, 120, 0, 255))
cp.set_fixed_size((100, 20))
def cp_final_cb(color):
print("ColorPicker Final Callback: [{0}, {1}, {2}, {3}]".format(
color.r, color.g, color.b, color.w))
cp.set_final_callback(cp_final_cb)
# setup a fast callback for the color picker widget on a new window
# for demonstrative purposes
window = Window(self, "Color Picker Fast Callback")
window.set_position((425, 300))
layout = GridLayout(Orientation.Horizontal, 2, Alignment.Middle, 15, 5)
layout.set_col_alignment([Alignment.Maximum, Alignment.Fill])
layout.set_spacing(0, 10)
window.set_layout(layout)
window.set_position((425, 500))
Label(window, "Combined: ")
b = Button(window, "ColorWheel", icons.FA_INFINITY)
Label(window, "Red: ")
red_int_box = IntBox(window)
red_int_box.set_editable(False)
Label(window, "Green: ")
green_int_box = IntBox(window)
green_int_box.set_editable(False)
Label(window, "Blue: ")
blue_int_box = IntBox(window)
blue_int_box.set_editable(False)
Label(window, "Alpha: ")
alpha_int_box = IntBox(window)
def cp_fast_cb(color):
b.set_background_color(color)
b.set_text_color(color.contrasting_color())
red = int(color.r * 255.0)
red_int_box.set_value(red)
green = int(color.g * 255.0)
green_int_box.set_value(green)
blue = int(color.b * 255.0)
blue_int_box.set_value(blue)
alpha = int(color.w * 255.0)
alpha_int_box.set_value(alpha)
cp.set_callback(cp_fast_cb)
self.perform_layout()
self.render_pass = RenderPass([self])
self.render_pass.set_clear_color(0, Color(0.3, 0.3, 0.32, 1.0))
if nanogui.api == 'opengl':
vertex_shader = """
#version 330
uniform mat4 mvp;
in vec3 position;
void main() {
gl_Position = mvp * vec4(position, 1.0);
}"""
fragment_shader = """
#version 330
out vec4 color;
uniform float intensity;
void main() {
color = vec4(vec3(intensity), 1.0);
}"""
elif nanogui.api == 'gles2' or nanogui.api == 'gles3':
vertex_shader = """
precision highp float;
uniform mat4 mvp;
attribute vec3 position;
void main() {
gl_Position = mvp * vec4(position, 1.0);
}"""
fragment_shader = """
precision highp float;
uniform float intensity;
void main() {
gl_FragColor = vec4(vec3(intensity), 1.0);
}"""
elif nanogui.api == 'metal':
vertex_shader = """
using namespace metal;
struct VertexOut {
float4 position [[position]];
};
vertex VertexOut vertex_main(const device packed_float3 *position,
constant float4x4 &mvp,
uint id [[vertex_id]]) {
VertexOut vert;
vert.position = mvp * float4(position[id], 1.f);
return vert;
}"""
fragment_shader = """
using namespace metal;
fragment float4 fragment_main(const constant float &intensity) {
return float4(intensity);
}"""
self.shader = Shader(
self.render_pass,
# An identifying name
"A simple shader",
vertex_shader,
fragment_shader)
self.shader.set_buffer("indices",
np.array([0, 1, 2, 2, 3, 0], dtype=np.uint32))
self.shader.set_buffer(
"position",
np.array([[-1, -1, 0], [1, -1, 0], [1, 1, 0], [-1, 1, 0]],
dtype=np.float32))
self.shader.set_buffer("intensity", np.array(0.5, dtype=np.float32))
class MyScreen(Screen):
def __init__(self):
Screen.__init__(self, size=[512, 512], caption="Unnamed")
if nanogui.api == 'opengl':
vertex_program = '''
#version 330
in vec3 position;
in vec2 uv;
out vec2 uv_frag;
uniform mat4 mvp;
void main() {
gl_Position = mvp * vec4(position, 1.0);
uv_frag = uv;
}
'''
fragment_program = '''
#version 330
in vec2 uv_frag;
out vec4 fragColor;
uniform sampler2D albedo_texture;
void main() {
fragColor = texture(albedo_texture, uv_frag);
}
'''
elif nanogui.api == 'metal':
vertex_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
float2 uv;
};
vertex VertexOut vertex_main(const device packed_float3 *position,
const device float2 *uv,
constant float4x4 &mvp,
uint id [[vertex_id]]) {
VertexOut vert;
vert.position = mvp * float4(position[id], 1.f);
vert.uv = uv[id];
return vert;
}
'''
fragment_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
float2 uv;
};
fragment float4 fragment_main(VertexOut vert [[stage_in]],
texture2d<float, access::sample> albedo_texture,
sampler albedo_sampler) {
return albedo_texture.sample(albedo_sampler, vert.uv);
}
'''
base_dir = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
image_fname = os.path.join(base_dir, "resources/icons/icon1.png")
image = np.array(Image.open(image_fname))
self.albedo_texture = Texture(
pixel_format=Texture.PixelFormat.RGBA,
component_format=Texture.ComponentFormat.UInt8,
size=image.shape[:2])
self.albedo_texture.upload(image)
self.render_pass = RenderPass(color_targets=[self])
self.shader = Shader(self.render_pass, "test_shader", vertex_program,
fragment_program)
p = np.array([[-1, -1, 0], [1, -1, 0], [1, 1, 0], [-1, 1, 0]],
dtype=np.float32)
uv = np.array([[1, 1], [0, 1], [0, 0], [1, 0]], dtype=np.float32)
indices = np.array([0, 2, 1, 3, 2, 0], dtype=np.uint32)
self.shader.set_buffer("position", p)
self.shader.set_buffer("uv", uv)
self.shader.set_buffer("indices", indices)
self.shader.set_texture("albedo_texture", self.albedo_texture)
def draw_contents(self):
with self.render_pass:
view = nanogui.look_at(origin=[0, -2, -10],
target=[0, 0, 0],
up=[0, 1, 0])
model = nanogui.rotate([0, 1, 0], glfw.getTime() * 0.01)
fbsize = self.framebuffer_size()
proj = nanogui.perspective(fov=25 * np.pi / 180,
near=0.1,
far=20,
aspect=fbsize[0] / float(fbsize[1]))
mvp = proj @ view @ model
self.shader.set_buffer("mvp", np.float32(mvp.T))
with self.shader:
self.shader.draw_array(Shader.PrimitiveType.Triangle,
0,
6,
indexed=True)
def keyboard_event(self, key, scancode, action, modifiers):
if super(MyScreen, self).keyboard_event(key, scancode, action,
modifiers):
return True
if key == glfw.KEY_ESCAPE and action == glfw.PRESS:
self.set_visible(False)
return True
return False
def resize_event(self, size):
self.render_pass.resize(self.framebuffer_size())
super(MyScreen, self).resize_event(size)
return True
def __init__(self):
Screen.__init__(self, size=[512, 512], caption="Unnamed")
if nanogui.api == 'opengl':
vertex_program = '''
#version 330
in vec3 position;
in vec2 uv;
out vec2 uv_frag;
uniform mat4 mvp;
void main() {
gl_Position = mvp * vec4(position, 1.0);
uv_frag = uv;
}
'''
fragment_program = '''
#version 330
in vec2 uv_frag;
out vec4 fragColor;
uniform sampler2D albedo_texture;
void main() {
fragColor = texture(albedo_texture, uv_frag);
}
'''
elif nanogui.api == 'metal':
vertex_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
float2 uv;
};
vertex VertexOut vertex_main(const device packed_float3 *position,
const device float2 *uv,
constant float4x4 &mvp,
uint id [[vertex_id]]) {
VertexOut vert;
vert.position = mvp * float4(position[id], 1.f);
vert.uv = uv[id];
return vert;
}
'''
fragment_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
float2 uv;
};
fragment float4 fragment_main(VertexOut vert [[stage_in]],
texture2d<float, access::sample> albedo_texture,
sampler albedo_sampler) {
return albedo_texture.sample(albedo_sampler, vert.uv);
}
'''
base_dir = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
image_fname = os.path.join(base_dir, "resources/icons/icon1.png")
image = np.array(Image.open(image_fname))
self.albedo_texture = Texture(
pixel_format=Texture.PixelFormat.RGBA,
component_format=Texture.ComponentFormat.UInt8,
size=image.shape[:2])
self.albedo_texture.upload(image)
self.render_pass = RenderPass(color_targets=[self])
self.shader = Shader(self.render_pass, "test_shader", vertex_program,
fragment_program)
p = np.array([[-1, -1, 0], [1, -1, 0], [1, 1, 0], [-1, 1, 0]],
dtype=np.float32)
uv = np.array([[1, 1], [0, 1], [0, 0], [1, 0]], dtype=np.float32)
indices = np.array([0, 2, 1, 3, 2, 0], dtype=np.uint32)
self.shader.set_buffer("position", p)
self.shader.set_buffer("uv", uv)
self.shader.set_buffer("indices", indices)
self.shader.set_texture("albedo_texture", self.albedo_texture)
def __init__(self, parent):
super(MyCanvas, self).__init__(parent, 1)
try:
import numpy as np
if nanogui.api == 'opengl':
vertex_shader = """
#version 330
uniform mat4 mvp;
in vec3 position;
in vec3 color;
out vec4 frag_color;
void main() {
frag_color = vec4(color, 1.0);
gl_Position = mvp * vec4(position, 1.0);
}
"""
fragment_shader = """
#version 330
out vec4 color;
in vec4 frag_color;
void main() {
color = frag_color;
}
"""
elif nanogui.api == 'gles2' or nanogui.api == 'gles3':
vertex_shader = """
precision highp float;
uniform mat4 mvp;
attribute vec3 position;
attribute vec3 color;
varying vec4 frag_color;
void main() {
frag_color = vec4(color, 1.0);
gl_Position = mvp * vec4(position, 1.0);
}
"""
fragment_shader = """
precision highp float;
varying vec4 frag_color;
void main() {
gl_FragColor = frag_color;
}
"""
elif nanogui.api == 'metal':
vertex_shader = """
using namespace metal;
struct VertexOut {
float4 position [[position]];
float4 color;
};
vertex VertexOut vertex_main(const device packed_float3 *position,
const device packed_float3 *color,
constant float4x4 &mvp,
uint id [[vertex_id]]) {
VertexOut vert;
vert.position = mvp * float4(position[id], 1.f);
vert.color = float4(color[id], 1.f);
return vert;
}
"""
fragment_shader = """
using namespace metal;
struct VertexOut {
float4 position [[position]];
float4 color;
};
fragment float4 fragment_main(VertexOut vert [[stage_in]]) {
return vert.color;
}
"""
else:
raise Exception("Unknown graphics API!")
self.shader = Shader(
self.render_pass(),
# An identifying name
"a_simple_shader",
vertex_shader,
fragment_shader)
# Draw a cube
indices = np.array([
3, 2, 6, 6, 7, 3, 4, 5, 1, 1, 0, 4, 4, 0, 3, 3, 7, 4, 1, 5, 6,
6, 2, 1, 0, 1, 2, 2, 3, 0, 7, 6, 5, 5, 4, 7
],
dtype=np.uint32)
positions = np.array(
[[-1, 1, 1], [-1, -1, 1], [1, -1, 1], [1, 1, 1], [-1, 1, -1],
[-1, -1, -1], [1, -1, -1], [1, 1, -1]],
dtype=np.float32)
colors = np.array([[0, 1, 1], [0, 0, 1], [1, 0, 1], [1, 1, 1],
[0, 1, 0], [0, 0, 0], [1, 0, 0], [1, 1, 0]],
dtype=np.float32)
self.shader.set_buffer("indices", indices)
self.shader.set_buffer("position", positions)
self.shader.set_buffer("color", colors)
self.rotation = 0
except ImportError:
self.shader = None
pass
class MyCanvas(Canvas):
def __init__(self, parent):
super(MyCanvas, self).__init__(parent, 1)
try:
import numpy as np
if nanogui.api == 'opengl':
vertex_shader = """
#version 330
uniform mat4 mvp;
in vec3 position;
in vec3 color;
out vec4 frag_color;
void main() {
frag_color = vec4(color, 1.0);
gl_Position = mvp * vec4(position, 1.0);
}
"""
fragment_shader = """
#version 330
out vec4 color;
in vec4 frag_color;
void main() {
color = frag_color;
}
"""
elif nanogui.api == 'gles2' or nanogui.api == 'gles3':
vertex_shader = """
precision highp float;
uniform mat4 mvp;
attribute vec3 position;
attribute vec3 color;
varying vec4 frag_color;
void main() {
frag_color = vec4(color, 1.0);
gl_Position = mvp * vec4(position, 1.0);
}
"""
fragment_shader = """
precision highp float;
varying vec4 frag_color;
void main() {
gl_FragColor = frag_color;
}
"""
elif nanogui.api == 'metal':
vertex_shader = """
using namespace metal;
struct VertexOut {
float4 position [[position]];
float4 color;
};
vertex VertexOut vertex_main(const device packed_float3 *position,
const device packed_float3 *color,
constant float4x4 &mvp,
uint id [[vertex_id]]) {
VertexOut vert;
vert.position = mvp * float4(position[id], 1.f);
vert.color = float4(color[id], 1.f);
return vert;
}
"""
fragment_shader = """
using namespace metal;
struct VertexOut {
float4 position [[position]];
float4 color;
};
fragment float4 fragment_main(VertexOut vert [[stage_in]]) {
return vert.color;
}
"""
else:
raise Exception("Unknown graphics API!")
self.shader = Shader(
self.render_pass(),
# An identifying name
"a_simple_shader",
vertex_shader,
fragment_shader)
# Draw a cube
indices = np.array([
3, 2, 6, 6, 7, 3, 4, 5, 1, 1, 0, 4, 4, 0, 3, 3, 7, 4, 1, 5, 6,
6, 2, 1, 0, 1, 2, 2, 3, 0, 7, 6, 5, 5, 4, 7
],
dtype=np.uint32)
positions = np.array(
[[-1, 1, 1], [-1, -1, 1], [1, -1, 1], [1, 1, 1], [-1, 1, -1],
[-1, -1, -1], [1, -1, -1], [1, 1, -1]],
dtype=np.float32)
colors = np.array([[0, 1, 1], [0, 0, 1], [1, 0, 1], [1, 1, 1],
[0, 1, 0], [0, 0, 0], [1, 0, 0], [1, 1, 0]],
dtype=np.float32)
self.shader.set_buffer("indices", indices)
self.shader.set_buffer("position", positions)
self.shader.set_buffer("color", colors)
self.rotation = 0
except ImportError:
self.shader = None
pass
def draw_contents(self):
if self.shader is None:
return
import numpy as np
view = Matrix4f.look_at(origin=[0, -2, -10],
target=[0, 0, 0],
up=[0, 1, 0])
model = Matrix4f.rotate([0, 1, 0], glfw.getTime())
model2 = Matrix4f.rotate([1, 0, 0], self.rotation)
size = self.size()
proj = Matrix4f.perspective(fov=25 * np.pi / 180,
near=0.1,
far=20,
aspect=size[0] / float(size[1]))
mvp = proj @ view @ model @ model2
self.shader.set_buffer("mvp", np.float32(mvp).T)
with self.shader:
self.shader.draw_array(Shader.PrimitiveType.Triangle,
0,
36,
indexed=True)
def __init__(self):
Screen.__init__(self,
size=[512, 512],
caption="Unnamed",
depth_buffer=True
)
if nanogui.api == 'opengl':
vertex_program = '''
#version 330
in vec3 position;
in vec4 color;
out vec4 color_frag;
uniform mat4 mvp;
void main() {
gl_Position = mvp * vec4(position, 1.0);
color_frag = color;
}
'''
fragment_program = '''
#version 330
in vec4 color_frag;
out vec4 fragColor;
void main() {
fragColor = color_frag;
}
'''
elif nanogui.api == 'metal':
vertex_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
float4 color;
};
vertex VertexOut vertex_main(const device packed_float3 *position,
const device float4 *color,
constant float4x4 &mvp,
uint id [[vertex_id]]) {
VertexOut vert;
vert.position = mvp * float4(position[id], 1.f);
vert.color = color[id];
return vert;
}
'''
fragment_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
float4 color;
};
fragment float4 fragment_main(VertexOut vert [[stage_in]]) {
return vert.color;
}
'''
self.render_pass = RenderPass(
color_targets=[self],
depth_target=self
)
self.shader = Shader(
self.render_pass,
"test_shader",
vertex_program,
fragment_program
)
p = np.array([
[-1, 1, 1], [-1, -1, 1],
[1, -1, 1], [1, 1, 1],
[-1, 1, -1], [-1, -1, -1],
[1, -1, -1], [1, 1, -1]],
dtype=np.float32
)
color = np.array([
[0, 1, 1, 1], [0, 0, 1, 1],
[1, 0, 1, 1], [1, 1, 1, 1],
[0, 1, 0, 1], [0, 0, 0, 1],
[1, 0, 0, 1], [1, 1, 0, 1]],
dtype=np.float32
)
indices = np.array([
3, 2, 6, 6, 7, 3,
4, 5, 1, 1, 0, 4,
4, 0, 3, 3, 7, 4,
1, 5, 6, 6, 2, 1,
0, 1, 2, 2, 3, 0,
7, 6, 5, 5, 4, 7],
dtype=np.uint32
)
self.shader.set_buffer("position", p)
self.shader.set_buffer("color", color)
self.shader.set_buffer("indices", indices)
class MyScreen(Screen):
def __init__(self):
Screen.__init__(self,
size=[512, 512],
caption="Unnamed",
depth_buffer=True
)
if nanogui.api == 'opengl':
vertex_program = '''
#version 330
in vec3 position;
in vec4 color;
out vec4 color_frag;
uniform mat4 mvp;
void main() {
gl_Position = mvp * vec4(position, 1.0);
color_frag = color;
}
'''
fragment_program = '''
#version 330
in vec4 color_frag;
out vec4 fragColor;
void main() {
fragColor = color_frag;
}
'''
elif nanogui.api == 'metal':
vertex_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
float4 color;
};
vertex VertexOut vertex_main(const device packed_float3 *position,
const device float4 *color,
constant float4x4 &mvp,
uint id [[vertex_id]]) {
VertexOut vert;
vert.position = mvp * float4(position[id], 1.f);
vert.color = color[id];
return vert;
}
'''
fragment_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
float4 color;
};
fragment float4 fragment_main(VertexOut vert [[stage_in]]) {
return vert.color;
}
'''
self.render_pass = RenderPass(
color_targets=[self],
depth_target=self
)
self.shader = Shader(
self.render_pass,
"test_shader",
vertex_program,
fragment_program
)
p = np.array([
[-1, 1, 1], [-1, -1, 1],
[1, -1, 1], [1, 1, 1],
[-1, 1, -1], [-1, -1, -1],
[1, -1, -1], [1, 1, -1]],
dtype=np.float32
)
color = np.array([
[0, 1, 1, 1], [0, 0, 1, 1],
[1, 0, 1, 1], [1, 1, 1, 1],
[0, 1, 0, 1], [0, 0, 0, 1],
[1, 0, 0, 1], [1, 1, 0, 1]],
dtype=np.float32
)
indices = np.array([
3, 2, 6, 6, 7, 3,
4, 5, 1, 1, 0, 4,
4, 0, 3, 3, 7, 4,
1, 5, 6, 6, 2, 1,
0, 1, 2, 2, 3, 0,
7, 6, 5, 5, 4, 7],
dtype=np.uint32
)
self.shader.set_buffer("position", p)
self.shader.set_buffer("color", color)
self.shader.set_buffer("indices", indices)
def draw_contents(self):
with self.render_pass:
view = Matrix4f.look_at(
origin=[0, -2, -10],
target=[0, 0, 0],
up=[0, 1, 0]
)
model = Matrix4f.rotate(
[0, 1, 0],
glfw.getTime()
)
fbsize = self.framebuffer_size()
proj = Matrix4f.perspective(
fov=25 * np.pi / 180,
near=0.1,
far=20,
aspect=fbsize[0] / float(fbsize[1])
)
mvp = proj @ view @ model
self.shader.set_buffer("mvp", np.float32(mvp).T)
with self.shader:
self.shader.draw_array(Shader.PrimitiveType.Triangle,
0, 36, indexed=True)
def keyboard_event(self, key, scancode, action, modifiers):
if super(MyScreen, self).keyboard_event(key, scancode,
action, modifiers):
return True
if key == glfw.KEY_ESCAPE and action == glfw.PRESS:
self.set_visible(False)
return True
return False
def resize_event(self, size):
self.render_pass.resize(self.framebuffer_size())
super(MyScreen, self).resize_event(size)
return True
def __init__(self):
Screen.__init__(self, [512, 512], "Unnamed")
if nanogui.api == 'opengl':
vertex_program = '''
#version 330
in vec3 position;
void main() {
gl_Position = vec4(position, 1);
}
'''
fragment_program = '''
#version 330
uniform vec4 color;
out vec4 fragColor;
void main() {
fragColor = color;
}
'''
elif nanogui.api == 'metal':
vertex_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
};
vertex VertexOut vertex_main(const device packed_float3 *position,
uint id [[vertex_id]]) {
VertexOut vert;
vert.position = float4(position[id], 1.f);
return vert;
}
'''
fragment_program = '''
using namespace metal;
struct VertexOut {
float4 position [[position]];
};
fragment float4 fragment_main(VertexOut vert [[stage_in]],
const constant float4 &color) {
return color;
}
'''
self.render_pass = RenderPass([self])
self.render_pass.set_viewport([10, 10],
self.framebuffer_size() - [10, 20])
self.shader = Shader(self.render_pass, "test_shader", vertex_program,
fragment_program)
p = np.array([[0.0, 0.5, 0], [-0.5, -0.5, 0], [0.5, -0.5, 0]],
dtype=np.float32)
self.shader.set_buffer("position", p)
self.shader.set_buffer("color", np.array([0, 1, 0, 1],
dtype=np.float32))
self.shader.set_buffer("indices", np.array([0, 1, 2], dtype=np.uint32))
