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libqt5raspi/debian/usr/local/qt5raspi-5.12.5/qml/QtGraphicalEffects/private/GaussianDirectionalBlur.qml

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QML

/****************************************************************************
**
** Copyright (C) 2017 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of the Qt Graphical Effects module.
**
** $QT_BEGIN_LICENSE:LGPL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 3 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL3 included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 3 requirements
** will be met: https://www.gnu.org/licenses/lgpl-3.0.html.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 2.0 or (at your option) the GNU General
** Public license version 3 or any later version approved by the KDE Free
** Qt Foundation. The licenses are as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-2.0.html and
** https://www.gnu.org/licenses/gpl-3.0.html.
**
** $QT_END_LICENSE$
**
****************************************************************************/
import QtQuick 2.12
import QtGraphicalEffects.private 1.12
Item {
id: rootItem
property variant source
property real deviation: (radius + 1) / 3.3333
property real radius: 0.0
property int maximumRadius: 0
property real horizontalStep: 0.0
property real verticalStep: 0.0
property bool transparentBorder: false
property bool cached: false
property bool enableColor: false
property color color: "white"
property real spread: 0.0
property bool enableMask: false
property variant maskSource
SourceProxy {
id: sourceProxy
input: rootItem.source
}
SourceProxy {
id: maskSourceProxy
input: rootItem.maskSource
}
ShaderEffectSource {
id: cacheItem
anchors.fill: rootItem
visible: rootItem.cached
smooth: true
sourceItem: shaderItem
live: true
hideSource: visible
}
ShaderEffect {
id: shaderItem
property variant source: sourceProxy.output
property real deviation: Math.max(0.1, rootItem.deviation)
property real radius: rootItem.radius
property int maxRadius: rootItem.maximumRadius
property bool transparentBorder: rootItem.transparentBorder
property real gaussianSum: 0.0
property real startIndex: 0.0
property real deltaFactor: (2 * radius - 1) / (maxRadius * 2 - 1)
property real expandX: transparentBorder && rootItem.horizontalStep > 0 ? maxRadius / width : 0.0
property real expandY: transparentBorder && rootItem.verticalStep > 0 ? maxRadius / height : 0.0
property variant gwts: []
property variant delta: Qt.vector3d(rootItem.horizontalStep * deltaFactor, rootItem.verticalStep * deltaFactor, startIndex);
property variant factor_0_2: Qt.vector3d(gwts[0], gwts[1], gwts[2]);
property variant factor_3_5: Qt.vector3d(gwts[3], gwts[4], gwts[5]);
property variant factor_6_8: Qt.vector3d(gwts[6], gwts[7], gwts[8]);
property variant factor_9_11: Qt.vector3d(gwts[9], gwts[10], gwts[11]);
property variant factor_12_14: Qt.vector3d(gwts[12], gwts[13], gwts[14]);
property variant factor_15_17: Qt.vector3d(gwts[15], gwts[16], gwts[17]);
property variant factor_18_20: Qt.vector3d(gwts[18], gwts[19], gwts[20]);
property variant factor_21_23: Qt.vector3d(gwts[21], gwts[22], gwts[23]);
property variant factor_24_26: Qt.vector3d(gwts[24], gwts[25], gwts[26]);
property variant factor_27_29: Qt.vector3d(gwts[27], gwts[28], gwts[29]);
property variant factor_30_31: Qt.point(gwts[30], gwts[31]);
property color color: rootItem.color
property real spread: 1.0 - (rootItem.spread * 0.98)
property variant maskSource: maskSourceProxy.output
anchors.fill: rootItem
function gausFunc(x){
//Gaussian function = h(x):=(1/sqrt(2*3.14159*(D^2))) * %e^(-(x^2)/(2*(D^2)));
return (1.0 / Math.sqrt(2 * Math.PI * (Math.pow(shaderItem.deviation, 2)))) * Math.pow(Math.E, -((Math.pow(x, 2)) / (2 * (Math.pow(shaderItem.deviation, 2)))));
}
function updateGaussianWeights() {
gaussianSum = 0.0;
startIndex = -maxRadius + 0.5
var n = new Array(32);
for (var j = 0; j < 32; j++)
n[j] = 0;
var max = maxRadius * 2
var delta = (2 * radius - 1) / (max - 1);
for (var i = 0; i < max; i++) {
n[i] = gausFunc(-radius + 0.5 + i * delta);
gaussianSum += n[i];
}
gwts = n;
}
function buildFragmentShader() {
var shaderSteps = [
"gl_FragColor += texture2D(source, texCoord) * factor_0_2.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_0_2.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_0_2.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_3_5.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_3_5.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_3_5.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_6_8.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_6_8.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_6_8.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_9_11.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_9_11.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_9_11.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_12_14.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_12_14.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_12_14.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_15_17.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_15_17.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_15_17.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_18_20.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_18_20.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_18_20.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_21_23.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_21_23.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_21_23.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_24_26.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_24_26.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_24_26.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_27_29.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_27_29.y; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_27_29.z; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_30_31.x; texCoord += shift;",
"gl_FragColor += texture2D(source, texCoord) * factor_30_31.y; texCoord += shift;"
]
var shader = ""
if (GraphicsInfo.profile == GraphicsInfo.OpenGLCoreProfile)
shader += "#version 150 core\n#define varying in\n#define gl_FragColor fragColor\n#define texture2D texture\nout vec4 fragColor;\n"
shader += fragmentShaderBegin
var samples = maxRadius * 2
if (samples > 32) {
console.log("DirectionalGaussianBlur.qml WARNING: Maximum of blur radius (16) exceeded!")
samples = 32
}
for (var i = 0; i < samples; i++) {
shader += shaderSteps[i]
}
shader += fragmentShaderEnd
var colorizeSteps = ""
var colorizeUniforms = ""
var maskSteps = ""
var maskUniforms = ""
if (enableColor) {
colorizeSteps += "gl_FragColor = mix(vec4(0), color, clamp((gl_FragColor.a - 0.0) / (spread - 0.0), 0.0, 1.0));\n"
colorizeUniforms += "uniform highp vec4 color;\n"
colorizeUniforms += "uniform highp float spread;\n"
}
if (enableMask) {
maskSteps += "shift *= texture2D(maskSource, qt_TexCoord0).a;\n"
maskUniforms += "uniform sampler2D maskSource;\n"
}
shader = shader.replace("PLACEHOLDER_COLORIZE_STEPS", colorizeSteps)
shader = shader.replace("PLACEHOLDER_COLORIZE_UNIFORMS", colorizeUniforms)
shader = shader.replace("PLACEHOLDER_MASK_STEPS", maskSteps)
shader = shader.replace("PLACEHOLDER_MASK_UNIFORMS", maskUniforms)
fragmentShader = shader
}
onDeviationChanged: updateGaussianWeights()
onRadiusChanged: updateGaussianWeights()
onTransparentBorderChanged: {
buildFragmentShader()
updateGaussianWeights()
}
onMaxRadiusChanged: {
buildFragmentShader()
updateGaussianWeights()
}
Component.onCompleted: {
buildFragmentShader()
updateGaussianWeights()
}
property string fragmentShaderBegin: "
varying mediump vec2 qt_TexCoord0;
uniform highp float qt_Opacity;
uniform lowp sampler2D source;
uniform highp vec3 delta;
uniform highp vec3 factor_0_2;
uniform highp vec3 factor_3_5;
uniform highp vec3 factor_6_8;
uniform highp vec3 factor_9_11;
uniform highp vec3 factor_12_14;
uniform highp vec3 factor_15_17;
uniform highp vec3 factor_18_20;
uniform highp vec3 factor_21_23;
uniform highp vec3 factor_24_26;
uniform highp vec3 factor_27_29;
uniform highp vec3 factor_30_31;
uniform highp float gaussianSum;
uniform highp float expandX;
uniform highp float expandY;
PLACEHOLDER_MASK_UNIFORMS
PLACEHOLDER_COLORIZE_UNIFORMS
void main() {
highp vec2 shift = vec2(delta.x, delta.y);
PLACEHOLDER_MASK_STEPS
highp float index = delta.z;
mediump vec2 texCoord = qt_TexCoord0;
texCoord.s = (texCoord.s - expandX) / (1.0 - 2.0 * expandX);
texCoord.t = (texCoord.t - expandY) / (1.0 - 2.0 * expandY);
texCoord += (shift * index);
gl_FragColor = vec4(0.0, 0.0, 0.0, 0.0);
"
property string fragmentShaderEnd: "
gl_FragColor /= gaussianSum;
PLACEHOLDER_COLORIZE_STEPS
gl_FragColor *= qt_Opacity;
}
"
}
}