修改了Renderer的部分编码

dev-VirtualTexture
wuyize 2023-01-16 15:20:38 +08:00
parent d5959ba8ad
commit 1f6998d05b
6 changed files with 231 additions and 188 deletions

View File

@ -28,7 +28,7 @@ layout(std430, binding = 4) buffer elementOffsetBuffer
{
/**********************
** @[0] elementBvhRoot
** @[1] elementBvhLength
** @[1] styleOffset
** @[2] pointsOffset
** @[3] linesOffset
**********************/
@ -42,6 +42,7 @@ layout(std430, binding = 6) buffer elementDataBuffer
{
float elementData[]; //µãºÍStyle
};
const float PI = 3.14159265358979;
@ -832,6 +833,49 @@ float cubic_bezier_dis(vec2 uv, vec2 p0, vec2 p1, vec2 p2, vec2 p3, bool roundEn
return sqrt(d0);
}
void drawLine(in float d, in uint styleIndex, out vec4 elementColor, out vec2 metallicRoughness)
{
elementColor = vec4(1);
metallicRoughness = vec2(0.8);
switch(int(elementData[styleIndex+3]))
{
case 0:
{
elementColor = vec4(elementData[styleIndex+7],elementData[styleIndex+8],elementData[styleIndex+9],1);
metallicRoughness = vec2(elementData[styleIndex+10],elementData[styleIndex+11]);
break;
}
case 1:
{
elementColor = vec4(mix(vec3(0), vec3(1), d), 1);
metallicRoughness = vec2(0,0.8);
break;
}
case 2:
{
float levels[] = {0.25,0.5,0.75};
vec3 colors[] = {vec3(1,0,0), vec3(0,1,0), vec3(0,0,1), vec3(1,1,0)};
int i = 0;
while(i<3)
{
if(d<levels[i])
{
elementColor = vec4(colors[i], 1);
metallicRoughness = vec2(0,0.8);
break;
}
i++;
}
if(i==3)
{
elementColor = vec4(colors[i], 1);
metallicRoughness = vec2(0,0.8);
}
break;
}
}
}
bool drawElement(uint elementIndex, vec2 localUV, out vec3 color, out vec2 metallicRoughness, inout vec3 debugBVH = vec3(0))
{
bool hitElement = false;
@ -839,7 +883,9 @@ bool drawElement(uint elementIndex, vec2 localUV, out vec3 color, out vec2 metal
uvec4 currentOffset = elementOffset[elementIndex];
uint elementBvhRoot = currentOffset[0];
uint elementBvhLength = currentOffset[1];
//uint elementBvhLength = currentOffset[1];
uint styleIndex = currentOffset[1];
uint elementBvhLength = 0x80000000;
uint pointsOffset = currentOffset[2];
uint linesOffset = currentOffset[3];
@ -857,12 +903,16 @@ bool drawElement(uint elementIndex, vec2 localUV, out vec3 color, out vec2 metal
{
if (leftChild >= elementBvhLength)
{
if (any(greaterThan(bound.xy+vec2(0.001), localUV)) || any(greaterThan(localUV, bound.zw-vec2(0.001))))
if (any(greaterThan(bound.xy+vec2(0.003), localUV)) || any(greaterThan(localUV, bound.zw-vec2(0.003))))
{
debugBVH.g = 0;
debugBVH.r += 1;
}
//uint styleIndex = bvhChildren[elementBvhRoot + elementBvhIndex].y;
uint elementType = bvhChildren[elementBvhRoot + elementBvhIndex].y;
uint styleIndex = bvhChildren[elementBvhRoot + elementBvhIndex].y;
// for(int i = 0; i<200;i++)
if (elementData[styleIndex] == 0.) //Ãæ
if (elementType == 0) //Ãæ
{
uint contourIndex = linesOffset + leftChild - 0x80000000;
@ -892,12 +942,12 @@ bool drawElement(uint elementIndex, vec2 localUV, out vec3 color, out vec2 metal
// vec2(elementData[pxIndex[1]], elementData[pyIndex[1]]),
// vec2(elementData[pxIndex[2]],elementData[pyIndex[2]]),
// vec2(elementData[pxIndex[3]], elementData[pyIndex[3]])};
if( bound.z==p[0].x && distance(localUV, p[3])<0.01)
{
debugBVH = vec3(0,0,1);
}
else if(distance(localUV, p[0])<0.01)
debugBVH = vec3(1,1,1);
// if( bound.z==p[0].x && distance(localUV, p[3])<0.01)
// {
// debugBVH = vec3(0,0,1);
// }
// else if(distance(localUV, p[0])<0.01)
// debugBVH = vec3(1,1,1);
// if (p0 == p1 && p2 == p3)
// {
// num_its += segment_int_test(localUV, p0, p3);
@ -920,7 +970,7 @@ bool drawElement(uint elementIndex, vec2 localUV, out vec3 color, out vec2 metal
}
}
else if (elementData[styleIndex] == 1) //Ïß
else if (elementType == 1) //Ïß
{
float strokeWidth = elementData[styleIndex+1];
uint contourIndex = linesOffset + leftChild - 0x80000000;
@ -947,7 +997,7 @@ bool drawElement(uint elementIndex, vec2 localUV, out vec3 color, out vec2 metal
mat4x2 p = mat4x2(elementData[pxIndex[0]], elementData[pyIndex[0]],
elementData[pxIndex[1]], elementData[pyIndex[1]],
elementData[pxIndex[2]],elementData[pyIndex[2]],
elementData[pxIndex[2]], elementData[pyIndex[2]],
elementData[pxIndex[3]], elementData[pyIndex[3]]);
bvec3 signTestResult = cubic_bezier_sign_test(localUV, p[0], p[1], p[2], p[3]);
@ -957,50 +1007,16 @@ bool drawElement(uint elementIndex, vec2 localUV, out vec3 color, out vec2 metal
if(lastSign)
signTmp = !signTmp;
float lineType = elementData[styleIndex+4];
if(d<=0.001)
/*if(d<=0.001)
{
hitElement = true;
elementColor = vec4(0,0,0,1);
}
else if(d<=strokeWidth && (lineType==2 || signTmp==(lineType==1-reverseFlag)))
else*/ if(d<=strokeWidth && (lineType==2 || signTmp==(lineType==1-reverseFlag)))
{
d/=strokeWidth;
hitElement = true;
elementColor = vec4(1);
metallicRoughness = vec2(0.8);
if(elementData[styleIndex+3]==0)
{
elementColor = vec4(elementData[styleIndex+7],elementData[styleIndex+8],elementData[styleIndex+9],1);
metallicRoughness = vec2(elementData[styleIndex+10],elementData[styleIndex+11]);
}
else if(elementData[styleIndex+3]==1)
{
elementColor = vec4(mix(vec3(0), vec3(1), d), 1);
metallicRoughness = vec2(0,0.8);
}
else if(elementData[styleIndex+3]==2)
{
float levels[] = {0.25,0.5,0.75};
vec3 colors[] = {vec3(1,0,0), vec3(0,1,0), vec3(0,0,1), vec3(1,1,0)};
int i = 0;
while(i<3)
{
if(d<levels[i])
{
elementColor = vec4(colors[i], 1);
metallicRoughness = vec2(0,0.8);
break;
}
i++;
}
if(i==3)
{
elementColor = vec4(colors[i], 1);
metallicRoughness = vec2(0,0.8);
}
}
drawLine(d, styleIndex, elementColor, metallicRoughness);
}
if(reverse)
reverseFlag = 1;
@ -1022,50 +1038,16 @@ bool drawElement(uint elementIndex, vec2 localUV, out vec3 color, out vec2 metal
if(lastSign)
signTmp = !signTmp;
float lineType = elementData[styleIndex+4];
if(d<=0.001)
/*if(d<=0.001)
{
hitElement = true;
elementColor = vec4(0,0,0,1);
}
else if(d<=strokeWidth && (lineType==2 || signTmp==(lineType==1-reverseFlag)))
else*/ if(d<=strokeWidth && (lineType==2 || signTmp==(lineType==1-reverseFlag)))
{
d/=strokeWidth;
hitElement = true;
elementColor = vec4(1);
metallicRoughness = vec2(0.8);
if(elementData[styleIndex+3]==0)
{
elementColor = vec4(elementData[styleIndex+7],elementData[styleIndex+8],elementData[styleIndex+9],1);
metallicRoughness = vec2(elementData[styleIndex+10],elementData[styleIndex+11]);
}
else if(elementData[styleIndex+3]==1)
{
elementColor = vec4(mix(vec3(0), vec3(1), d), 1);
metallicRoughness = vec2(0,0.8);
}
else if(elementData[styleIndex+3]==2)
{
float levels[] = {0.25,0.5,0.75};
vec3 colors[] = {vec3(1,0,0), vec3(0,1,0), vec3(0,0,1), vec3(1,1,0)};
int i = 0;
while(i<3)
{
if(d<levels[i])
{
elementColor = vec4(colors[i], 1);
metallicRoughness = vec2(0,0.8);
break;
}
i++;
}
if(i==3)
{
elementColor = vec4(colors[i], 1);
metallicRoughness = vec2(0,0.8);
}
}
drawLine(d, styleIndex, elementColor, metallicRoughness);
}
// float strokeWidth = elementData[styleIndex+1];
@ -1148,7 +1130,8 @@ void main()
vec2 metallicRoughness = vec2(0, 0.8);
stack.top = 0;
uint index = 0, visitTime = 0;
uint bvhLength = paintingOffsets[paintingIndex-1].y;
//uint bvhLength = paintingOffsets[paintingIndex-1].y;
uint bvhLength = 0x80000000;
while (index < bvhLength || !stack.empty())
{
while (index < bvhLength)
@ -1167,12 +1150,12 @@ void main()
localUV /= (bound.zw - bound.xy) / 2;
if (all(lessThan(vec2(-1), localUV)) && all(lessThan(localUV, vec2(1))) && zIndex>color.w)
{
if (zIndex == 1)
debugBVH = vec3(1, 0, 1);
if (any(greaterThan(bound.xy+vec2(0.005), uv)) || any(greaterThan(uv, bound.zw-vec2(0.005))))
debugBVH.g += 0.3;
//uint elementIndex = leftChild - bvhLength;
debugBVH.bg += 0.5 * (localUV + vec2(1));
//debugBVH.bg += 0.5 * (localUV + vec2(1));
debugBVH = vec3(0);
//debugBVH = vec3(0);
vec3 elementColor;
vec2 elementMetallicRoughness;
if(drawElement(leftChild - 0x80000000, localUV, elementColor, elementMetallicRoughness, debugBVH))
@ -1187,7 +1170,9 @@ void main()
}
else if (all(lessThan(bound.xy, uv)) && all(lessThan(uv, bound.zw)))
{
debugBVH.r += 0.02;
if (any(greaterThan(bound.xy+vec2(0.005), uv)) || any(greaterThan(uv, bound.zw-vec2(0.005))))
debugBVH.g += 0.3;
//debugBVH.r += 0.02;
stack.push(index);
index = leftChild;
}
@ -1205,9 +1190,14 @@ void main()
imageStore(gBaseColor, pixelLocation, vec4(color.rgb,1));
imageStore(gMetallicRoughness, pixelLocation, vec4(metallicRoughness, 0, 1));
return;
if (color.a!=-1&&debugBVH==vec3(0))
imageStore(gBaseColor, pixelLocation, vec4(vec3(1, 1, 0),1));
if (/*color.a!=-1&&*/debugBVH==vec3(0))
{
//imageStore(gBaseColor, pixelLocation, vec4(vec3(1, 1, 0),1));
}
else
{
imageStore(gBaseColor, pixelLocation, vec4(debugBVH,1));
imageStore(gMetallicRoughness, pixelLocation, vec4(0,0.8, 0, 1));
}
}

View File

@ -68,7 +68,7 @@ vec3 fresnelSchlick(float cosTheta, vec3 F0)
const int pcfRadius = 3;
float getShadowFromLayer(vec3 fragPosWorldSpace, vec3 normal,int layer)
{
float normalBias = 4. /** (1+pcfRadius)*/ * shadowBiases[layer]*max((1.0 - dot(normal, mainLightDirection)), 0.1)/textureSize(gShadowMap, 0).x;
float normalBias = 1.2*4. /** (1+pcfRadius)*/ * shadowBiases[layer]*max((1.0 - dot(normal, mainLightDirection)), 0.1)/textureSize(gShadowMap, 0).x;
vec4 fragPosLightSpace = lightSpaceMatrices[layer] * vec4(fragPosWorldSpace+normal*normalBias, 1.0);
// perform perspective divide
vec3 projCoords = fragPosLightSpace.xyz / fragPosLightSpace.w;

View File

@ -32,6 +32,7 @@ QPainterPath GroupElement::getPaintObject() const
if (sourceLayer != nullptr) {
sourceLayer->refresh();
return sourceLayer->getCache();
}
else
return QPainterPath();
}

View File

@ -176,7 +176,7 @@ Drawable* Model::processMesh(aiMesh* mesh, const aiScene* scene, aiMatrix4x4 mod
m_mesh->indices.push_back(face.mIndices[j]);
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////
BvhTree rootBvhTree;
vector<BvhTreeData> rootBvhTreeData;
for (int i = 0; i < 1000; i++)
@ -185,8 +185,13 @@ Drawable* Model::processMesh(aiMesh* mesh, const aiScene* scene, aiMatrix4x4 mod
float y = (float)rand() / RAND_MAX * 2 - 1;
float z = 0.05 + x;//(float)rand() / RAND_MAX * (0.1) + x;
float w = 0.05 + y;//(float)rand() / RAND_MAX * (0.1) + y;
rootBvhTreeData.push_back(BvhTreeData( QVector4D(x, y, z, w), 0, encodeZIndexAngle(1, (float)rand() / RAND_MAX * 360)));
rootBvhTreeData.push_back(BvhTreeData(QVector4D(x, y, z, w), 0, encodeZIndexAngle(1, (float)rand() / RAND_MAX * 360)));
//rootBvhTreeData.push_back(BvhTreeData(QVector4D(x, y, z, w), 0, encodeZIndexAngle(1, 0)));
}
/*rootBvhTreeData.push_back(BvhTreeData(QVector4D(-0.7, -0.7, -0.1, -0.1), 0, encodeZIndexAngle(1, 0)));
rootBvhTreeData.push_back(BvhTreeData(QVector4D(-0.8, 0.2, -0.2, 0.8), 0, encodeZIndexAngle(1, 0)));
rootBvhTreeData.push_back(BvhTreeData(QVector4D(0.2, -0.8, 0.8, -0.2), 0, encodeZIndexAngle(1, 0)));
rootBvhTreeData.push_back(BvhTreeData(QVector4D(0.1, 0.1, 0.7, 0.7), 0, encodeZIndexAngle(1, 0)));*/
//rootBvhTreeData.push_back(BvhTreeData(QVector4D(-0.8, -0.8, -0.2, -0.1), 0, 0));
//rootBvhTreeData.push_back(BvhTreeData(QVector4D(-0.7, -0.8, -0.2, -0.1), 0, 0));
/* initBound.push_back(QVector4D(-0.8, -0.8, -0.7, -0.7));
@ -206,99 +211,99 @@ Drawable* Model::processMesh(aiMesh* mesh, const aiScene* scene, aiMatrix4x4 mod
// {{-0.5,0.3}, {-0.420466,0.379534}, {-0.736743,0.6}, {-0.624264,0.6}},
// {{-0.624264,0.6}, {-0.511785,0.6}, {-0.579534,0.979534}, {-0.5,0.9}}
//};
/*vector<vector<Point>> lineSet = SvgParser("M377,459.61a11.26,11.26,0,0,1,11.27-11.27H696.12a11.27,11.27,0,0,0,11-8.62A359.84,359.84,0,0,0,708,280.56a11.26,11.26,0,0,0-11-8.73H388.27A11.26,11.26,0,0,1,377,260.57h0a11.26,11.26,0,0,1,11.27-11.26H683.71A11.32,11.32,0,0,0,694.28,234C649.8,113.69,542.57,23.85,412.3,4.12a11.22,11.22,0,0,0-12.76,11.17v158.9a11.26,11.26,0,0,0,11.26,11.27H583.12a11.32,11.32,0,0,0,9.26-17.75c-31.67-46.59-78.51-75.2-109.11-90.07a11.25,11.25,0,0,0-16.13,10.17V115.2a11.24,11.24,0,0,0,6.22,10.07l7.51,3.76a11.28,11.28,0,0,1,5,15.12h0a11.27,11.27,0,0,1-15.11,5l-20-10a11.27,11.27,0,0,1-6.22-10.07V54a11.27,11.27,0,0,1,14.62-10.75c5.11,1.59,125.66,40.35,172.24,149A11.27,11.27,0,0,1,621.11,208H388.27A11.26,11.26,0,0,1,377,196.73V11.36A11.32,11.32,0,0,0,365.89.08C363.34,0,360.79,0,358.22,0s-5.11,0-7.66.08a11.32,11.32,0,0,0-11.11,11.28V196.74A11.26,11.26,0,0,1,328.18,208H95.35A11.27,11.27,0,0,1,85,192.3c46.57-108.67,167.12-147.42,172.23-149A11.26,11.26,0,0,1,271.86,54v75.11a11.25,11.25,0,0,1-6.23,10.07l-20,10a11.27,11.27,0,0,1-15.11-5h0a11.26,11.26,0,0,1,5-15.11l7.52-3.76a11.27,11.27,0,0,0,6.22-10.07V87.82a11.25,11.25,0,0,0-16.14-10.16c-30.6,14.87-77.45,43.48-109.1,90.07a11.3,11.3,0,0,0,9.25,17.74H305.66a11.26,11.26,0,0,0,11.27-11.26V15.31A11.22,11.22,0,0,0,304.17,4.14C173.88,23.86,66.66,113.71,22.17,234a11.32,11.32,0,0,0,10.56,15.29H328.18a11.26,11.26,0,0,1,11.27,11.26v0a11.26,11.26,0,0,1-11.27,11.26H19.52a11.26,11.26,0,0,0-11,8.72,359.84,359.84,0,0,0,.83,159.16,11.26,11.26,0,0,0,11,8.61H328.18a11.26,11.26,0,0,1,11.27,11.27h0a11.26,11.26,0,0,1-11.27,11.26h-294a11.32,11.32,0,0,0-10.53,15.4C69,604.65,175.3,692.78,304.16,712.3a11.21,11.21,0,0,0,12.76-11.16V542.22A11.26,11.26,0,0,0,305.66,531h-166c-9.53,0-14.89,11.22-8.69,18.47,34.09,39.77,74.45,65.66,101.77,80.18a11.25,11.25,0,0,0,16.53-10V591a11.26,11.26,0,0,1,11.26-11.26h0A11.26,11.26,0,0,1,271.85,591v63.85A11.27,11.27,0,0,1,256.8,665.5c-4.45-1.59-109.58-40-171-139.9a11.27,11.27,0,0,1,9.59-17.17H328.18a11.26,11.26,0,0,1,11.27,11.26V705.08a11.32,11.32,0,0,0,11.11,11.28q3.82.07,7.66.08c2.57,0,5.12,0,7.67-.08A11.32,11.32,0,0,0,377,705.08V519.69a11.25,11.25,0,0,1,11.27-11.26H621.1a11.26,11.26,0,0,1,9.59,17.16c-61.46,99.87-166.59,138.3-171,139.9a11.27,11.27,0,0,1-15-10.61V591a11.26,11.26,0,0,1,11.26-11.26h0A11.26,11.26,0,0,1,467.14,591v28.6a11.25,11.25,0,0,0,16.53,10c27.33-14.53,67.68-40.42,101.77-80.19,6.2-7.23.85-18.46-8.69-18.46h-166a11.26,11.26,0,0,0-11.26,11.26V701.12a11.21,11.21,0,0,0,12.76,11.17c128.86-19.51,235.14-107.66,280.48-226a11.33,11.33,0,0,0-10.53-15.41h-294A11.25,11.25,0,0,1,377,459.61ZM35.27,399.53V316.9a11.26,11.26,0,0,1,11.27-11.26H669.92a11.25,11.25,0,0,1,11.26,11.26v82.63a11.25,11.25,0,0,1-11.26,11.26H46.54a11.27,11.27,0,0,1-11.27-11.26Z", 716.45, 716.44).parse();
vector<vector<Point>> lineSet = SvgParser("M377,459.61a11.26,11.26,0,0,1,11.27-11.27H696.12a11.27,11.27,0,0,0,11-8.62A359.84,359.84,0,0,0,708,280.56a11.26,11.26,0,0,0-11-8.73H388.27A11.26,11.26,0,0,1,377,260.57h0a11.26,11.26,0,0,1,11.27-11.26H683.71A11.32,11.32,0,0,0,694.28,234C649.8,113.69,542.57,23.85,412.3,4.12a11.22,11.22,0,0,0-12.76,11.17v158.9a11.26,11.26,0,0,0,11.26,11.27H583.12a11.32,11.32,0,0,0,9.26-17.75c-31.67-46.59-78.51-75.2-109.11-90.07a11.25,11.25,0,0,0-16.13,10.17V115.2a11.24,11.24,0,0,0,6.22,10.07l7.51,3.76a11.28,11.28,0,0,1,5,15.12h0a11.27,11.27,0,0,1-15.11,5l-20-10a11.27,11.27,0,0,1-6.22-10.07V54a11.27,11.27,0,0,1,14.62-10.75c5.11,1.59,125.66,40.35,172.24,149A11.27,11.27,0,0,1,621.11,208H388.27A11.26,11.26,0,0,1,377,196.73V11.36A11.32,11.32,0,0,0,365.89.08C363.34,0,360.79,0,358.22,0s-5.11,0-7.66.08a11.32,11.32,0,0,0-11.11,11.28V196.74A11.26,11.26,0,0,1,328.18,208H95.35A11.27,11.27,0,0,1,85,192.3c46.57-108.67,167.12-147.42,172.23-149A11.26,11.26,0,0,1,271.86,54v75.11a11.25,11.25,0,0,1-6.23,10.07l-20,10a11.27,11.27,0,0,1-15.11-5h0a11.26,11.26,0,0,1,5-15.11l7.52-3.76a11.27,11.27,0,0,0,6.22-10.07V87.82a11.25,11.25,0,0,0-16.14-10.16c-30.6,14.87-77.45,43.48-109.1,90.07a11.3,11.3,0,0,0,9.25,17.74H305.66a11.26,11.26,0,0,0,11.27-11.26V15.31A11.22,11.22,0,0,0,304.17,4.14C173.88,23.86,66.66,113.71,22.17,234a11.32,11.32,0,0,0,10.56,15.29H328.18a11.26,11.26,0,0,1,11.27,11.26v0a11.26,11.26,0,0,1-11.27,11.26H19.52a11.26,11.26,0,0,0-11,8.72,359.84,359.84,0,0,0,.83,159.16,11.26,11.26,0,0,0,11,8.61H328.18a11.26,11.26,0,0,1,11.27,11.27h0a11.26,11.26,0,0,1-11.27,11.26h-294a11.32,11.32,0,0,0-10.53,15.4C69,604.65,175.3,692.78,304.16,712.3a11.21,11.21,0,0,0,12.76-11.16V542.22A11.26,11.26,0,0,0,305.66,531h-166c-9.53,0-14.89,11.22-8.69,18.47,34.09,39.77,74.45,65.66,101.77,80.18a11.25,11.25,0,0,0,16.53-10V591a11.26,11.26,0,0,1,11.26-11.26h0A11.26,11.26,0,0,1,271.85,591v63.85A11.27,11.27,0,0,1,256.8,665.5c-4.45-1.59-109.58-40-171-139.9a11.27,11.27,0,0,1,9.59-17.17H328.18a11.26,11.26,0,0,1,11.27,11.26V705.08a11.32,11.32,0,0,0,11.11,11.28q3.82.07,7.66.08c2.57,0,5.12,0,7.67-.08A11.32,11.32,0,0,0,377,705.08V519.69a11.25,11.25,0,0,1,11.27-11.26H621.1a11.26,11.26,0,0,1,9.59,17.16c-61.46,99.87-166.59,138.3-171,139.9a11.27,11.27,0,0,1-15-10.61V591a11.26,11.26,0,0,1,11.26-11.26h0A11.26,11.26,0,0,1,467.14,591v28.6a11.25,11.25,0,0,0,16.53,10c27.33-14.53,67.68-40.42,101.77-80.19,6.2-7.23.85-18.46-8.69-18.46h-166a11.26,11.26,0,0,0-11.26,11.26V701.12a11.21,11.21,0,0,0,12.76,11.17c128.86-19.51,235.14-107.66,280.48-226a11.33,11.33,0,0,0-10.53-15.41h-294A11.25,11.25,0,0,1,377,459.61ZM35.27,399.53V316.9a11.26,11.26,0,0,1,11.27-11.26H669.92a11.25,11.25,0,0,1,11.26,11.26v82.63a11.25,11.25,0,0,1-11.26,11.26H46.54a11.27,11.27,0,0,1-11.27-11.26Z", 716.45, 716.44).parse();
qDebug() << lineSet.size();
for (vector<Point>& line : lineSet)
{
for (Point& p : line)
p.show();
std::cout << std::endl;
}
ShortCutTree shortCutTree(20);
shortCutTree.buildShortCutTree(lineSet);
vector<GLfloat> pointVector;
vector<GLuint> lineVector;
vector<BvhTreeData> bvhTreeData = shortCutTree.getPointLineAndBvhTree(pointVector, lineVector);
for (auto& data : bvhTreeData)
data.rightSon = 0;
qDebug() << "----------------------------------------------";
qDebug() << "element0CellNum: " << bvhTreeData.size();
//qDebug() << pointVector;
//qDebug() << lineVector;
/*for (BvhTreeData data : bvhTreeData)
{
data.show();
}*/
BvhTree element0Bvh;
element0Bvh.buildBvhTree(bvhTreeData.data(), bvhTreeData.size());
std::vector<GLuint> element0Children;
std::vector<QVector4D> element0Bounds;
element0Bvh.getBvhArray(element0Children, element0Bounds);
//qDebug() << element0Children;
//qDebug() << element0Bounds;
//ShortCutTree shortCutTree(20);
//shortCutTree.buildShortCutTree(lineSet);
//vector<GLfloat> pointVector;
//vector<GLuint> lineVector;
//vector<BvhTreeData> bvhTreeData = shortCutTree.getPointLineAndBvhTree(pointVector, lineVector);
//for (auto& data : bvhTreeData)
// data.rightSon = 0;
//qDebug() << "----------------------------------------------";
//qDebug() << "element0CellNum: " << bvhTreeData.size();
////qDebug() << pointVector;
////qDebug() << lineVector;
///*for (BvhTreeData data : bvhTreeData)
//{
// data.show();
//}*/
//BvhTree element0Bvh;
//element0Bvh.buildBvhTree(bvhTreeData.data(), bvhTreeData.size());
//std::vector<GLuint> element0Children;
//std::vector<QVector4D> element0Bounds;
//element0Bvh.getBvhArray(element0Children, element0Bounds);
////qDebug() << element0Children;
////qDebug() << element0Bounds;
////std::vector<GLuint> bvhChildren = {
//// //root
//// 1,2,
//// 3,4, 5,6,
//// encodeChild(0),0, encodeChild(0),GLuint(30. / 360 * 65536 + 1 * 65536) /*右儿子用来表示旋转角度和zIndex*/, encodeChild(0),0, encodeChild(0),0
////};
////std::vector<QVector4D> bvhBounds = {
//// //root
//// QVector4D(-1,-1,1,1),
//// QVector4D(-0.9,-0.9,-0.1,0.9), QVector4D(0.1, -0.9,0.9,0.9),
//// QVector4D(-0.8,-0.8,-0.2,-0.1), QVector4D(-0.7,0.2,-0.2,0.7), QVector4D(0.2,-0.8,0.8,-0.1), QVector4D(0.2,0.1,0.8,0.8),
////};
//std::vector<GLuint> bvhChildren;
//std::vector<QVector4D> bvhBounds;
//rootBvhTree.getBvhArray(bvhChildren, bvhBounds);
//
////qDebug() << bvhChildren;
//bvhChildren.insert(bvhChildren.end(), element0Children.begin(), element0Children.end());
//bvhBounds.insert(bvhBounds.end(), element0Bounds.begin(), element0Bounds.end());
//std::vector<GLuint> elementIndex = lineVector;
//std::vector<GLfloat> elementData = {
// //fillStyle
// //fill
// 0,
// //fillType
// 0, //单色
// //fillColorMetallicRoughness
// 240/255.,220/255.,160/255., 0.996,0.18,
//std::vector<GLuint> bvhChildren = {
// //root
// 1,2,
// 3,4, 5,6,
// encodeChild(0),0, encodeChild(0),GLuint(30. / 360 * 65536 + 1 * 65536) /*右儿子用来表示旋转角度和zIndex*/, encodeChild(0),0, encodeChild(0),0
//};
//std::vector<GLuint> elementOffset = {
// //element0
// rootBvhTree.getBvhNodeNum(), //elementBvhRoot
// (GLuint)element0Bounds.size(), //elementBvhLength
// (GLuint)elementData.size(), //pointsOffset
// 0, //linesOffset
//std::vector<QVector4D> bvhBounds = {
// //root
// QVector4D(-1,-1,1,1),
// QVector4D(-0.9,-0.9,-0.1,0.9), QVector4D(0.1, -0.9,0.9,0.9),
// QVector4D(-0.8,-0.8,-0.2,-0.1), QVector4D(-0.7,0.2,-0.2,0.7), QVector4D(0.2,-0.8,0.8,-0.1), QVector4D(0.2,0.1,0.8,0.8),
//};
//elementData.insert(elementData.end(), pointVector.begin(), pointVector.end());
////qDebug() << elementIndex;
////qDebug() << elementData;
std::vector<GLuint> bvhChildren;
std::vector<QVector4D> bvhBounds;
rootBvhTree.getBvhArray(bvhChildren, bvhBounds);
//qDebug() << bvhChildren;
bvhChildren.insert(bvhChildren.end(), element0Children.begin(), element0Children.end());
bvhBounds.insert(bvhBounds.end(), element0Bounds.begin(), element0Bounds.end());
std::vector<GLuint> elementIndex = lineVector;
std::vector<GLfloat> elementData = {
//fillStyle
//fill
0,
//fillType
0, //单色
//fillColorMetallicRoughness
240/255.,220/255.,160/255., 0.996,0.18,
};
std::vector<GLuint> elementOffset = {
//element0
rootBvhTree.getBvhNodeNum(), //elementBvhRoot
0, //styleOffset
(GLuint)elementData.size(), //pointsOffset
0, //linesOffset
};
elementData.insert(elementData.end(), pointVector.begin(), pointVector.end());
//qDebug() << elementIndex;
//qDebug() << elementData;
/////////////////////////////////////////////////////////////////////////////////////////////////
std::vector<GLuint> bvhChildren0 = {
//root
1,2,
3,4, 5,6,
encodeChild(0),0, encodeChild(0),GLuint(30. / 360 * 65536 + 1 * 65536) /*右儿子用来表示旋转角度和zIndex*/, encodeChild(1),0, encodeChild(0),0,
encodeChild(2),0, encodeChild(1),GLuint(30. / 360 * 65536 + 1 * 65536) /*右儿子用来表示旋转角度和zIndex*/, encodeChild(3),0, encodeChild(0),0,
//elememt0
1,2,
encodeChild(20)/*contour索引由于contour不定长这里需要给到contour在elementIndex中位置*/,14/*style索引在elementData中位置*/, encodeChild(24), 14,
encodeChild(20)/*contour索引由于contour不定长这里需要给到contour在elementIndex中位置*/,0/*封闭图形*/, encodeChild(24), 0,
//elememt1
encodeChild(12)/*contour索引*/, 39
encodeChild(12)/*contour索引*/, 1/*线*/
};
std::vector<QVector4D> bvhBounds0 = {
//root
QVector4D(-1,-1,1,1),
QVector4D(-0.9,-0.9,-0.1,0.9), QVector4D(0.1, -0.9,0.9,0.9),
QVector4D(-0.8,-0.8,-0.2,-0.1), QVector4D(-0.7,0.2,-0.2,0.7), QVector4D(0.2,-0.8,0.8,-0.1), QVector4D(0.2,0.1,0.8,0.8),
QVector4D(-0.8,-0.8,-0.2,-0.1), QVector4D(-0.7,0.2,-0.2,0.7), QVector4D(0.2,-0.8,0.8,-0.1), QVector4D(0.3,0.2,0.7,0.7),
//elememt0
QVector4D(-1,-1,1,1),
QVector4D(-1,-1,-0.2,1), QVector4D(-0.2,-1,1,1),
@ -308,12 +313,22 @@ Drawable* Model::processMesh(aiMesh* mesh, const aiScene* scene, aiMatrix4x4 mod
std::vector<GLuint> elementOffset0 = {
//element0
7, //elementBvhRoot
3, //elementBvhLength
14, //styleOffset
0, //pointsOffset
0, //linesOffset
//element1
10, //elementBvhRoot
1, //elementBvhLength
39, //styleOffset
21, //pointsOffset
28, //linesOffset
//element2
10, //elementBvhRoot
51, //styleOffset
21, //pointsOffset
28, //linesOffset
//element3
10, //elementBvhRoot
63, //styleOffset
21, //pointsOffset
28, //linesOffset
};
@ -361,6 +376,23 @@ Drawable* Model::processMesh(aiMesh* mesh, const aiScene* scene, aiMatrix4x4 mod
//strokeEndType
0, //途실
//strokeFillType
0, //单色
//线类型
2, //左侧
//线外描边宽度
0,
//线外描边方式
0, //单色
//strokeFillColorMetallicRoughness
1,0,1, 0,0.8,
//strokeStyle
//stroke
1,
//strokeWidth
0.1,
//strokeEndType
0, //圆角
//strokeFillType
2, //데<>
//窟잚謹
1, //璘꿋
@ -369,13 +401,30 @@ Drawable* Model::processMesh(aiMesh* mesh, const aiScene* scene, aiMatrix4x4 mod
//窟棍췄긋렘駕
0, //데<>
//strokeFillColorMetallicRoughness
1,0,1, 0,0.8
1,0,1, 0,0.8,
//strokeStyle
//stroke
1,
//strokeWidth
0.1,
//strokeEndType
0, //圆角
//strokeFillType
1, //单色
//线类型
0, //左侧
//线外描边宽度
0,
//线外描边方式
0, //单色
//strokeFillColorMetallicRoughness
1,0,1, 0,0.8,
};
//m_mesh->paintingIndex = paintingHelper->addPainting(bounds.size(), std::vector<GLuint>(children.begin()+2, children.end()), bounds,
// elementOffset, elementIndex, elementData);
//m_mesh->paintingIndex = paintingHelper->addPainting(rootBvhTree.getBvhNodeNum(), bvhChildren, bvhBounds,
// elementOffset, elementIndex, elementData);
/* m_mesh->paintingIndex = paintingHelper->addPainting(rootBvhTree.getBvhNodeNum(), bvhChildren, bvhBounds,
elementOffset, elementIndex, elementData);*/
m_mesh->paintingIndex = paintingHelper->addPainting(7, bvhChildren0, bvhBounds0,
elementOffset0, elementIndex0, elementData0);
m_mesh->setupMesh();

View File

@ -31,7 +31,7 @@ int ShortCutTree::getPointIndex(Point nowPoint) {
bool ShortCutTree::IsBorderValueResonable(double value, set <double>& valueSet) {
bool isResonable = true;
auto iter = valueSet.lower_bound(value);
if (iter != valueSet.end() && fabs(*iter-value) <= eps) {
if (iter != valueSet.end() && fabs(*iter - value) <= eps) {
isResonable = false;
}
if (iter != valueSet.begin()) {
@ -64,9 +64,9 @@ bool ShortCutTree::isLineEqual(PointIndexVector& a, PointIndexVector& b) const {
}
void ShortCutTree::monotonization(vector<PointVector>& inLines, vector<std::shared_ptr<Line>>& outLines) {
for (PointVector&l: inLines) {
for (PointVector& l : inLines) {
std::shared_ptr<Line> nowLine;
switch(l.size()) {
switch (l.size()) {
case 2: nowLine.reset(new StraightLine(l)); break;
case 3: case 4: nowLine.reset(new CubicBezier(l)); break;
default: break;
@ -77,9 +77,9 @@ void ShortCutTree::monotonization(vector<PointVector>& inLines, vector<std::shar
}
void ShortCutTree::generateShortCutSegment(ShortCutNode& nowTreeNode) {
Point p = {0, 0};
Point p = { 0, 0 };
set<pair<int, int> > pointSet;
for (int & lineIndex : nowTreeNode.lineSet) {
for (int& lineIndex : nowTreeNode.lineSet) {
int type = allLines[lineIndex]->judgeOneSideIntersection(nowTreeNode.bound.z(), nowTreeNode.bound.y(), nowTreeNode.bound.w(), false), lineIndexBegin, lineIndexEnd;
if (type >= 2) {
if (type == 2) {
@ -88,7 +88,7 @@ void ShortCutTree::generateShortCutSegment(ShortCutNode& nowTreeNode) {
if (type == 3) {
p = allLines[lineIndex]->getBegin();
}
lineIndexBegin = getPointIndex({ nowTreeNode.bound.z(), nowTreeNode.bound.w()});
lineIndexBegin = getPointIndex({ nowTreeNode.bound.z(), nowTreeNode.bound.w() });
lineIndexEnd = getPointIndex({ nowTreeNode.bound.z(), p.y });
auto iter = pointSet.find({ lineIndexBegin, lineIndexEnd });
if (iter != pointSet.end()) {
@ -100,7 +100,7 @@ void ShortCutTree::generateShortCutSegment(ShortCutNode& nowTreeNode) {
}
}
if (nowTreeNode.windingIncrement != 0) {
int lineIndexBegin = getPointIndex({ nowTreeNode.bound.z(), nowTreeNode.bound.y()});
int lineIndexBegin = getPointIndex({ nowTreeNode.bound.z(), nowTreeNode.bound.y() });
int lineIndexEnd = getPointIndex({ nowTreeNode.bound.z(), nowTreeNode.bound.w() });
auto iter = pointSet.find({ lineIndexBegin, lineIndexEnd });
if (iter != pointSet.end()) {
@ -122,7 +122,7 @@ void ShortCutTree::generateShortCutSegment(ShortCutNode& nowTreeNode) {
bool ShortCutTree::handleShortCutNode(ShortCutNode& fa, ShortCutNode& nowTreeNode, double yValue, vector<ShortCutNode>& v, int& sumIncrement) {
nowTreeNode.windingIncrement = sumIncrement;
for (int & lineIndex : fa.lineSet) {
for (int& lineIndex : fa.lineSet) {
int type = allLines[lineIndex]->judgeOneSideIntersection(yValue, nowTreeNode.bound.x(), nowTreeNode.bound.z(), true);
if (type == 2)
sumIncrement++;
@ -132,7 +132,7 @@ bool ShortCutTree::handleShortCutNode(ShortCutNode& fa, ShortCutNode& nowTreeNod
nowTreeNode.lineSet.push_back(lineIndex);
}
}
qDebug() << nowTreeNode.lineSet.size() ;
qDebug() << nowTreeNode.lineSet.size();
if (nowTreeNode.lineSet.size() <= requiredLineMin) {
if (nowTreeNode.lineSet.empty() && nowTreeNode.windingIncrement == 0)
return false;
@ -245,7 +245,7 @@ void ShortCutTree::spliteToShortCutTree() {
}
if (isUpperDivided) {
++eastGroupSize;
lineBound.push({yMid, segment.second});
lineBound.push({ yMid, segment.second });
for (auto& nowTreeNode : upperTreeNodes) {
nowTreeNode.eastGroup = eastGroupSize;
Q.push(nowTreeNode);
@ -276,7 +276,7 @@ vector<BvhTreeData> ShortCutTree::getPointLineAndBvhTree(vector<float>& resPoint
std::cout << now.windingIncrement << ' ';
}
for (auto& mapIter : pointMap) {
tmpPoints.push_back({ mapIter.second , mapIter.first});
tmpPoints.push_back({ mapIter.second , mapIter.first });
}
sort(tmpPoints.begin(), tmpPoints.end());
for (auto& vectorIter : tmpPoints) {
@ -295,6 +295,7 @@ vector<BvhTreeData> ShortCutTree::getPointLineAndBvhTree(vector<float>& resPoint
BvhTreeData oneData;
oneData.leftSon = resLines.size();
//oneData.rightSon = rightSon;
oneData.rightSon = 0;
oneData.bound = nowTreeNode.bound;
std::cout << nowTreeNode.lineSet.size() << ' ';
resLines.push_back(nowTreeNode.lineSet.size());

View File

@ -9,6 +9,8 @@ RendererWidget::RendererWidget(QWidget *parent)
ui.openGLWidget, &RendererGLWidget::setMainLightPitch);
QObject::connect(ui.horizontalSlider_2, &QSlider::valueChanged,
ui.openGLWidget, &RendererGLWidget::setMainLightYaw);
ui.horizontalSlider->setValue(105);
ui.horizontalSlider_2->setValue(80);
}
RendererWidget::~RendererWidget()