OcclusionSlicer::OcclusionSlicer()
: VolumeSlicer()
, shaderProp_("slicing.shader", "Slicing shader", "sl_occlusion.frag", "sl_singlevolume.vert")
, occlusionbuffer0_(Port::OUTPORT, "image.occlusionbuffer0", "OcclusionBuffer0 Output", false, Processor::INVALID_RESULT,
//RenderPort::RENDERSIZE_DEFAULT, GL_RGBA16F_ARB)
RenderPort::RENDERSIZE_DEFAULT)
, occlusionbuffer1_(Port::OUTPORT, "image.occlusionbuffer1", "OcclusionBuffer1 Output", false, Processor::INVALID_RESULT,
/*RenderPort::RENDERSIZE_DEFAULT, GL_RGBA16F_ARB)*/
RenderPort::RENDERSIZE_DEFAULT)
, outport_(Port::OUTPORT, "image.eyebuffer", "EyeBuffer Output", true, Processor::INVALID_RESULT, RenderPort::RENDERSIZE_RECEIVER)
, cameraHandler_("cameraHandler", "Camera Handler", &camera_)
, sigma_("sigma", "Sigma", 100.0f, 0.0f, 1000.0f)
, radius_("radius", "Radius", 5, 0, 50)
{
addInteractionHandler(cameraHandler_);
addPrivateRenderPort(occlusionbuffer0_);
addPrivateRenderPort(occlusionbuffer1_);
addPort(outport_);
addProperty(shaderProp_);
addProperty(sigma_);
addProperty(radius_);
addProperty(lightPosition_);
}
UnsharpMasking::UnsharpMasking()
: ImageProcessorBypassable("image/unsharpmaskingblur"),
radius_("radius", "Radius", 5, 0, 25),
sigma_("sigma", "Sigma", 2.0f, 0.1f, 10.0f),
amount_("amount", "Amount", 1.0f, 0.f, 10.0f),
threshold_("threshold", "Threshhold", 0.f, 0.f, 0.5f),
alpha_("alpha", "Process Alpha-Channel", true),
inport_(Port::INPORT, "image.inport"),
outport_(Port::OUTPORT, "image.outport"),
privatePort_(Port::OUTPORT, "image.privateport")
{
addProperty(enableSwitch_);
addProperty(sigma_);
addProperty(radius_);
addProperty(amount_);
addProperty(threshold_);
addProperty(alpha_);
sigma_.onChange(CallMemberAction<UnsharpMasking>(this, &UnsharpMasking::sigmaChanged));
radius_.onChange(CallMemberAction<UnsharpMasking>(this, &UnsharpMasking::radiusChanged));
addPort(inport_);
addPort(outport_);
addPrivateRenderPort(&privatePort_);
sigmaFlag_ = false;
radiusFlag_ = false;
}
ExplosionCompositor::ExplosionCompositor()
: ImageProcessor("image/compositor")
, compositingMode_("blendMode", "Blend mode", Processor::INVALID_PROGRAM)
, weightingFactor_("weightingFactor", "Weighting factor", 0.5f, 0.0f, 1.0f)
, inport0_(Port::INPORT, "image.inport0")
, interalPort_(Port::OUTPORT, "internalRenderPort", false)
, outport_(Port::OUTPORT, "image.outport")
, loopOutport_("loop.outport", Port::OUTPORT)
{
loopOutport_.setLoopPort(true);
compositingMode_.addOption("depth-test", "Depth Test", "MODE_DEPTH_TEST");
compositingMode_.addOption("alpha-compositing", "Alpha Compositing", "MODE_ALPHA_COMPOSITING");
compositingMode_.addOption("alpha-blending", "Alpha Blending", "MODE_ALPHA_BLENDING");
compositingMode_.addOption("alpha-blending-b-over-a", "Alpha Blending (B over A)", "MODE_ALPHA_BLENDING_B_OVER_A");
compositingMode_.addOption("weighted-average", "Weighted Average", "MODE_WEIGHTED_AVERAGE");
compositingMode_.addOption("take-first", "Take First", "MODE_TAKE_FIRST");
compositingMode_.addOption("take-second", "Take Second", "MODE_TAKE_SECOND");
compositingMode_.addOption("first-has-priority", "First Has Priority", "MODE_FIRST_HAS_PRIORITY");
compositingMode_.addOption("second-has-priority", "Second Has Priority", "MODE_SECOND_HAS_PRIORITY");
compositingMode_.addOption("maximum-alpha", "Maximum Alpha", "MODE_MAXIMUM_ALPHA");
compositingMode_.addOption("difference", "Difference", "MODE_DIFFERENCE");
compositingMode_.onChange(CallMemberAction<ExplosionCompositor>(this, &ExplosionCompositor::compositingModeChanged));
compositingMode_.select("alpha-compositing");
addProperty(compositingMode_);
addProperty(weightingFactor_);
addPort(inport0_);
addPrivateRenderPort(interalPort_);
//interalPort_.initialize();
addPort(outport_);
addPort(loopOutport_);
}
TNMParallelCoordinates::TNMParallelCoordinates()
: RenderProcessor()
, _inport(Port::INPORT, "in.data")
, _outport(Port::OUTPORT, "out.image")
, _privatePort(Port::OUTPORT, "private.image", false, Processor::INVALID_RESULT, GL_RGBA32F)
, _pickedHandle(-1)
, _brushingIndices("brushingIndices", "Brushing Indices")
, _linkingIndices("linkingIndices", "Linking Indices")
{
addPort(_inport);
addPort(_outport);
addPrivateRenderPort(_privatePort);
addProperty(_brushingIndices);
addProperty(_linkingIndices);
_mouseClickEvent = new EventProperty<TNMParallelCoordinates>(
"mouse.click", "Mouse Click",
this, &TNMParallelCoordinates::handleMouseClick,
tgt::MouseEvent::MOUSE_BUTTON_LEFT, tgt::MouseEvent::CLICK, tgt::Event::MODIFIER_NONE);
addEventProperty(_mouseClickEvent);
_mouseClickEvent = new EventProperty<TNMParallelCoordinates>(
"mouse.rightclick", "Mouse Right Click",
this, &TNMParallelCoordinates::handleMouseClick,
tgt::MouseEvent::MOUSE_BUTTON_RIGHT, tgt::MouseEvent::CLICK, tgt::Event::MODIFIER_NONE);
addEventProperty(_mouseClickEvent);
_mouseMoveEvent = new EventProperty<TNMParallelCoordinates>(
"mouse.move", "Mouse Move",
this, &TNMParallelCoordinates::handleMouseMove,
tgt::MouseEvent::MOUSE_BUTTON_LEFT, tgt::MouseEvent::MOTION, tgt::Event::MODIFIER_NONE);
addEventProperty(_mouseMoveEvent);
_mouseReleaseEvent = new EventProperty<TNMParallelCoordinates>(
"mouse.release", "Mouse Release",
this, &TNMParallelCoordinates::handleMouseRelease,
tgt::MouseEvent::MOUSE_BUTTON_LEFT, tgt::MouseEvent::RELEASED, tgt::Event::MODIFIER_NONE);
addEventProperty(_mouseReleaseEvent);
// Create AxisHandles here with a unique id
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionBottom, 0, tgt::vec2(-1.f, -1.0f)));
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionTop, 1, tgt::vec2(-1.f, 1.0f)));
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionBottom, 2, tgt::vec2(-1.0/3, -1.0f)));
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionTop, 3, tgt::vec2(-1.0/3, 1.0f)));
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionBottom, 4, tgt::vec2(1.0/3, -1.0f)));
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionTop, 5, tgt::vec2(1.0/3, 1.0f)));
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionBottom, 6, tgt::vec2(1.f, -1.0f)));
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionTop, 7, tgt::vec2(1.f, 1.0f)));
}
RenderStore::RenderStore()
: RenderProcessor()
, inport_(Port::INPORT, "image.input")
, privatePort_(Port::OUTPORT, "image.stored", true)
, outport_(Port::OUTPORT, "image.output")
, shaderPrg_(0)
{
addPort(inport_);
addPrivateRenderPort(&privatePort_);
addPort(outport_);
}
DepthDarkening::DepthDarkening()
: ImageProcessorDepth("image/depthdarkening")
, sigma_("sigma", "Sigma", 2.0f, 0.1f, 10.0f)
, lambda_("lambda", "Lambda", 10.0f, 0.0f, 20.0f)
, inport_(Port::INPORT, "image.inport")
, outport_(Port::OUTPORT, "image.outport", true)
, privatePort_(Port::OUTPORT, "image.privateport")
{
addProperty(sigma_);
addProperty(lambda_);
addPort(inport_);
addPort(outport_);
addPrivateRenderPort(privatePort_);
}
StereoMeshEntryExitPoints::StereoMeshEntryExitPoints()
: RenderProcessor()
, entryPort_(Port::OUTPORT, "image.entrypoints", "Entry-points Output", true, Processor::INVALID_RESULT, RenderPort::RENDERSIZE_RECEIVER)
, exitPort_(Port::OUTPORT, "image.exitpoints", "Exit-points Output", true, Processor::INVALID_RESULT, RenderPort::RENDERSIZE_RECEIVER)
, inport_(Port::INPORT, "proxgeometry.geometry", "Proxy Geometry Input")
, tmpPort_(Port::OUTPORT, "image.tmp", "image.tmp", false)
, supportCameraInsideVolume_("supportCameraInsideVolume", "Support camera in volume", true)
, jitterEntryPoints_("jitterEntryPoints", "Jitter entry params", false)
, useFloatRenderTargets_("useFloatRenderTargets", "Use float render targets", false)
, useCulling_("useCulling", "Use culling", true)
, jitterStepLength_("jitterStepLength", "Jitter step length", 0.005f, 0.0005f, 0.025f)
, camera_("camera", "Camera", tgt::Camera(vec3(0.f, 0.f, 3.5f), vec3(0.f, 0.f, 0.f), vec3(0.f, 1.f, 0.f)))
, cameraLeft_("cameraLeft", "Camera Left", tgt::Camera(vec3(0.f, 0.f, 3.5f), vec3(0.f, 0.f, 0.f), vec3(0.f, 1.f, 0.f)))
, cameraRight_("cameraRight", "Camera Right", tgt::Camera(vec3(0.f, 0.f, 3.5f), vec3(0.f, 0.f, 0.f), vec3(0.f, 1.f, 0.f)))
, eyeSeparation_("eyeSeparation", "Eye separation", 0.f, 0.f, 1.f)
, cameraDistance_("cameraDistance", "Camera distance", 0.f, 0.f, 5.f)
, shaderProgram_(0)
, shaderProgramJitter_(0)
{
addProperty(supportCameraInsideVolume_);
// jittering
addProperty(jitterEntryPoints_);
jitterEntryPoints_.onChange(CallMemberAction<StereoMeshEntryExitPoints>(this, &StereoMeshEntryExitPoints::onJitterEntryPointsChanged));
onJitterEntryPointsChanged(); // set initial state
jitterStepLength_.setStepping(0.001f);
jitterStepLength_.setNumDecimals(3);
addProperty(jitterStepLength_);
addProperty(useFloatRenderTargets_);
addProperty(useCulling_);
addProperty(camera_);
addProperty(cameraLeft_);
addProperty(cameraRight_);
addProperty(eyeSeparation_);
addProperty(cameraDistance_);
cameraHandler_ = new StereoCameraInteractionHandler("cameraHandler", "Camera",
&camera_, &cameraLeft_, &cameraRight_, &eyeSeparation_, &cameraDistance_);
addInteractionHandler(cameraHandler_);
addPort(entryPort_);
addPort(exitPort_);
addPort(inport_);
addPrivateRenderPort(&tmpPort_);
}
Canny::Canny()
: ImageProcessorDepth("image/canny")
, startThreshold_("startThreshold", "Start threshold", 1.0f, 0.0f, 10.0f)
, runThreshold_("runThreshold", "Run threshold", 0.5f, 0.0f, 10.0f)
, edgeColor_("edgeColor", "Edge color", tgt::vec4(1.0f, 1.0f, 1.0f, 1.0f))
, inport_(Port::INPORT, "image.inport")
, outport_(Port::OUTPORT, "image.outport", true)
, privatePort_(Port::OUTPORT, "image.privateport", true)
{
addProperty(startThreshold_);
addProperty(runThreshold_);
addProperty(edgeColor_);
edgeColor_.setViews(Property::COLOR);
addPort(inport_);
addPort(outport_);
addPrivateRenderPort(&privatePort_);
}
/*
constructor
*/
EntryExitPoints::EntryExitPoints()
: VolumeRenderer(),
shaderProgram_(0),
shaderProgramJitter_(0),
shaderProgramClipping_(0),
supportCameraInsideVolume_("supportCameraInsideVolume",
"Support camera in volume", true),
jitterEntryPoints_("jitterEntryPoints", "Jitter entry params", false),
filterJitterTexture_("filterJitterTexture", "Filter jitter texture", true),
jitterStepLength_("jitterStepLength", "Jitter step length",
0.005f, 0.0005f, 0.025f),
jitterTexture_(0),
camera_("camera", "Camera", tgt::Camera(vec3(0.f, 0.f, 3.5f), vec3(0.f, 0.f, 0.f), vec3(0.f, 1.f, 0.f))),
entryPort_(Port::OUTPORT, "image.entrypoints"),
exitPort_(Port::OUTPORT, "image.exitpoints"),
inport_(Port::INPORT, "volumehandle.volumehandle"),
cpPort_(Port::INPORT, "coprocessor.proxygeometry"),
tmpPort_(Port::OUTPORT, "image.tmp", false)
{
addProperty(supportCameraInsideVolume_);
//
// jittering
//
addProperty(jitterEntryPoints_);
jitterEntryPoints_.onChange(CallMemberAction<EntryExitPoints>(this, &EntryExitPoints::onJitterEntryPointsChanged));
onJitterEntryPointsChanged(); // set initial state
jitterStepLength_.setStepping(0.001f);
jitterStepLength_.setNumDecimals(3);
addProperty(jitterStepLength_);
addProperty(filterJitterTexture_);
filterJitterTexture_.onChange(CallMemberAction<EntryExitPoints>(this, &EntryExitPoints::onFilterJitterTextureChanged));
addProperty(camera_);
cameraHandler_ = new CameraInteractionHandler("cameraHandler", "Camera", &camera_);
addInteractionHandler(cameraHandler_);
addPort(entryPort_);
addPort(exitPort_);
addPort(inport_);
addPort(cpPort_);
addPrivateRenderPort(&tmpPort_);
}
DepthPeelingProcessor::DepthPeelingProcessor()
: RenderProcessor()
, inport_(Port::INPORT, "image.input")
, outport_(Port::OUTPORT, "image.output")
, tempPort_(Port::OUTPORT, "image.temp")
, cpPort_(Port::INPORT, "coprocessor.geometryrenderers", true)
, shaderPrg_(0)
, camera_("camera", "Camera", tgt::Camera(vec3(0.f, 0.f, 3.5f), vec3(0.f, 0.f, 0.f), vec3(0.f, 1.f, 0.f)))
{
addProperty(camera_);
cameraHandler_ = new CameraInteractionHandler("cameraHandler", "Camera Handler", &camera_);
addInteractionHandler(cameraHandler_);
addPort(inport_);
addPort(outport_);
addPrivateRenderPort(tempPort_);
addPort(cpPort_);
}
HalfAngleSlicer::HalfAngleSlicer()
: VolumeSlicer()
, shaderProp_("slicing.prg", "Slicing shader", "sl_halfslicing.frag", "sl_singlevolume.vert")
, outport_(Port::OUTPORT, "image.output", "Image Output", false, Processor::INVALID_RESULT, RenderPort::RENDERSIZE_RECEIVER, GL_RGBA16F_ARB)
, lightport_(Port::OUTPORT, "image.lightport", "Light Image Input", false, Processor::INVALID_RESULT, RenderPort::RENDERSIZE_DEFAULT, GL_RGBA16F_ARB)
, lightCamera_(tgt::Camera(tgt::vec3(0.f, -3.5f, -3.5f), tgt::vec3(0.f, 0.f, 0.f), tgt::vec3(0.f, 1.f, 0.f)))
, eyeCamera_("eyeCamera", "Eye Camera", tgt::Camera(tgt::vec3(0.f, 0.f, 3.5f), tgt::vec3(0.f, 0.f, 0.f), tgt::vec3(0.f, 1.f, 0.f)))
, cameraHandler_("cameraHandler", "Camera Handler", &eyeCamera_)
, halfLight_("halfLight", "Light source position", tgt::vec4(0.f, -3.5f, -3.5f, 1.f), tgt::vec4(-15), tgt::vec4(15))
, invert_(false)
{
removeProperty(&camera_);
addInteractionHandler(cameraHandler_);
halfLight_.setViews(Property::View(Property::LIGHT_POSITION | Property::DEFAULT));
addProperty(shaderProp_);
addProperty(eyeCamera_);
addProperty(halfLight_);
addPort(outport_);
addPrivateRenderPort(lightport_);
}
EEPGeometryIntegrator::EEPGeometryIntegrator()
: ImageProcessor("eep_geometry")
, inport0_(Port::INPORT, "image.entry")
, inport1_(Port::INPORT, "image.exit")
, geometryPort_(Port::INPORT, "image.geometry")
, volumeInport_(Port::INPORT, "volumehandle.volumehandle", false, Processor::INVALID_RESULT)
, entryPort_(Port::OUTPORT, "image.postentry", true, Processor::INVALID_PROGRAM)
, exitPort_(Port::OUTPORT, "image.postexit", true, Processor::INVALID_PROGRAM)
, tmpPort_(Port::OUTPORT, "image.tmp", false)
, useFloatRenderTargets_("useFloatRenderTargets", "Use float rendertargets", false)
, camera_("camera", "Camera", tgt::Camera(tgt::vec3(0.f, 0.f, 3.5f), tgt::vec3(0.f, 0.f, 0.f), tgt::vec3(0.f, 1.f, 0.f)))
{
addPort(inport0_);
addPort(inport1_);
addPort(geometryPort_);
addPort(volumeInport_);
addPort(entryPort_);
addPort(exitPort_);
addPrivateRenderPort(&tmpPort_);
addProperty(useFloatRenderTargets_);
addProperty(camera_);
}
Gaussian::Gaussian()
: ImageProcessorBypassable("image/gaussian"),
sigma_("sigma", "Sigma", 2.0f, 0.1f, 10.0f),
blurRed_("blurRed", "Red channel", true),
blurGreen_("blurGreen", "Green channel", true),
blurBlue_("blurBlue", "Blue channel", true),
blurAlpha_("blurAlpha", "Alpha channel", true),
blurDepth_("blurDepth", "Depth channel", false),
inport_(Port::INPORT, "image.inport", "Image Input"),
outport_(Port::OUTPORT, "image.outport", "Image Output"),
privatePort_(Port::OUTPORT, "image.privateport", "image.privateport", true)
{
addProperty(sigma_);
addProperty(blurRed_);
addProperty(blurGreen_);
addProperty(blurBlue_);
addProperty(blurAlpha_);
addProperty(blurDepth_);
addPort(inport_);
addPort(outport_);
addPrivateRenderPort(&privatePort_);
}
//----------------------------------------------------------------------------------------------------------------------------------------------------------------
TNMParallelCoordinates::TNMParallelCoordinates()
: RenderProcessor()
, _inport(Port::INPORT, "in.data")
, _outport(Port::OUTPORT, "out.image")
, _privatePort(Port::OUTPORT, "private.image", false, Processor::INVALID_RESULT, GL_RGBA32F)
, _pickedHandle(-1)
, _font("font", "Font")
, _colorMethod("colorMethod", "Coloring Method")
, _brushingIndices("brushingIndices", "Brushing Indices")
, _linkingIndices("linkingIndices", "Linking Indices")
{
//----------------------------------------------------------------------------------------------------------------------------------------------------------------
addPort(_inport);
addPort(_outport);
addPrivateRenderPort(_privatePort);
addProperty(_font);
addProperty(_colorMethod); //
// Create AxisHandles here with a unique id
// _handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionTop, 0, /* fix startposition */));
// ...
//
addProperty(_brushingIndices);
addProperty(_linkingIndices);
_mouseClickEvent = new EventProperty<TNMParallelCoordinates>(
"mouse.click", "Mouse Click",
this, &TNMParallelCoordinates::handleMouseClick,
tgt::MouseEvent::MOUSE_BUTTON_LEFT, tgt::MouseEvent::CLICK, tgt::Event::MODIFIER_NONE);
addEventProperty(_mouseClickEvent);
_mouseClickEventRight = new EventProperty<TNMParallelCoordinates>(
"mouseright.click", "Mouse Right Click",
this, &TNMParallelCoordinates::handleMouseClickRight,
tgt::MouseEvent::MOUSE_BUTTON_RIGHT, tgt::MouseEvent::CLICK, tgt::Event::MODIFIER_NONE);
addEventProperty(_mouseClickEventRight);
_mouseMoveEvent = new EventProperty<TNMParallelCoordinates>(
"mouse.move", "Mouse Move",
this, &TNMParallelCoordinates::handleMouseMove,
tgt::MouseEvent::MOUSE_BUTTON_LEFT, tgt::MouseEvent::MOTION, tgt::Event::MODIFIER_NONE);
addEventProperty(_mouseMoveEvent);
_mouseReleaseEvent = new EventProperty<TNMParallelCoordinates>(
"mouse.release", "Mouse Release",
this, &TNMParallelCoordinates::handleMouseRelease,
tgt::MouseEvent::MOUSE_BUTTON_LEFT, tgt::MouseEvent::RELEASED, tgt::Event::MODIFIER_NONE);
addEventProperty(_mouseReleaseEvent);
// Create AxisHandles here with a unique id
float x_width = 1.8f / (NUM_DATA_VALUES - 1);
float x_pos = -0.9f;
for( int i = 0; i < 6; i++)
{
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionTop, i, tgt::vec2(x_pos, 0.9f)));
x_pos += x_width;
}
x_pos = -0.9f;
for( int i = 6; i < 12; i++)
{
_handles.push_back(AxisHandle(AxisHandle::AxisHandlePositionBottom, i, tgt::vec2(x_pos, -0.9f)));
x_pos += x_width;
}
}
ButtonOverlayProcessor::ButtonOverlayProcessor()
: ImageProcessor("image/compositor")
, inport_(Port::INPORT, "image.input")
, outport_(Port::OUTPORT, "image.output", "image.output", true, Processor::INVALID_PROGRAM, RenderPort::RENDERSIZE_DEFAULT, GL_RGBA)
, overlayPort_(Port::OUTPORT, "image.overlay", "image.overlay", true, Processor::INVALID_RESULT, RenderPort::RENDERSIZE_DEFAULT, GL_RGBA)
, pickingPort_(Port::OUTPORT, "image.picking", "image.picking", true, Processor::INVALID_RESULT, RenderPort::RENDERSIZE_DEFAULT, GL_RGBA)
, buttonRadiusX_("buttonRadiusX", "Button Size X", 20, 1, 100)
, buttonRadiusY_("buttonRadiusY", "Button Size Y", 20, 1, 100)
, groupBorder_("groupBorder", "Border between Buttons", 5, 0, 30)
, horzBorder_("horzBorder", "Distance from left/right Border", 30, 0, 1000)
, vertBorder_("vertBorder", "Distance from top/bottom Border", 100, 0, 1000)
, fontSize_("fontSize", "Font size", 12, 1, 48)
, opacity_("opacity", "Opacity", 1.0f)
, pushButtonMode_("pushButtonMode", "Use pushbutton mode", false)
#ifdef _MSC_VER
#pragma warning(disable:4355) // passing 'this' is safe here
#endif
, buttonChecker_("mouseEvent.clickButton", "Clicking Button", this,
&ButtonOverlayProcessor::onMouseClick,
tgt::MouseEvent::MOUSE_BUTTON_LEFT, tgt::MouseEvent::PRESSED | tgt::MouseEvent::MOTION | tgt::MouseEvent::RELEASED, tgt::Event::MODIFIER_NONE)
, buttonTexturePressed_(0)
, buttonTextureReleased_(0)
, buttonProps_()
, pushButtonProps_()
, isVisibleProps_()
, nameProps_()
, regenerateOverlay_(false)
, oldSize_(tgt::ivec2(0))
{
addEventProperty(buttonChecker_);
addPort(inport_);
addPort(outport_);
addPrivateRenderPort(&overlayPort_);
addPrivateRenderPort(&pickingPort_);
addProperty(horzBorder_);
addProperty(vertBorder_);
addProperty(buttonRadiusX_);
addProperty(buttonRadiusY_);
addProperty(groupBorder_);
addProperty(opacity_);
addProperty(fontSize_);
addProperty(pushButtonMode_);
buttonRadiusX_.onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
buttonRadiusY_.onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
opacity_.onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
groupBorder_.onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
horzBorder_.onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
vertBorder_.onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
fontSize_.onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
for(size_t i = 0; i < 5; i++) {
std::ostringstream os1, os2, os3, os4, os5, os6, os7, os8, os9;
os1 << "showProp" << i;
os2 << "Show Button No. " << i + 1;
isVisibleProps_.push_back(new BoolProperty(os1.str(), os2.str(), false));
isVisibleProps_.back()->onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
addProperty(isVisibleProps_.back());
os3 << "buttonProp" << i;
os4 << "Button Property " << i + 1;
buttonProps_.push_back(new BoolProperty(os3.str(), os4.str(), false));
buttonProps_.back()->onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
addProperty(buttonProps_.back());
os5 << "nameProp" << i;
os6 << "Button Name Property " << i + 1;
os7 << "Button " << i + 1;
nameProps_.push_back(new StringProperty(os5.str(), os6.str(), os7.str()));
nameProps_.back()->onChange(CallMemberAction<ButtonOverlayProcessor>(this, &ButtonOverlayProcessor::onOverlayChange));
addProperty(nameProps_.back());
os8 << "pushButtonProp" << i;
os9 << "Pushbutton Property " << i + 1;
pushButtonProps_.push_back(new ButtonProperty(os8.str(), os9.str()));
addProperty(pushButtonProps_.back());
}
font_ = new tgt::Font(VoreenApplication::app()->getFontPath("Vera.ttf"), 12, tgt::Font::BitmapFont);
//font_ = new tgt::Font(VoreenApplication::app()->getFontPath("VeraMono.ttf"), 12, tgt::BitmapFont);
}
void RenderProcessor::addPrivateRenderPort(RenderPort& port) {
addPrivateRenderPort(&port);
}
TransFuncOverlay::TransFuncOverlay()
: ImageProcessor("image/compositor")
, imageInport_(Port::INPORT, "image.in", "Image Inpput")
, privatePort_(Port::OUTPORT, "private","Privateport")
, outport_(Port::OUTPORT, "image.out", "Image Output")
, fontProp_("voreen.fontprop", "Font:")
, transferFunc_("transferFunction", "Transfer Function:")
, renderPreIntegrationTable_("renderPreIntegrationTable", "Render Pre-Integration Table", false)
, renderOverlay_("renderOverlay", "Render Overlay", true)
, usePixelCoordinates_("usePixelCoordinates", "Move/Resize Overlay by ")
, overlayBottomLeft_("overlayBottomLeft", "Overlay Bottom Left", tgt::ivec2(10), tgt::ivec2(-4096), tgt::ivec2(4096))
, overlayDimensions_("overlayDimensions", "Overlay Dimensions", tgt::ivec2(100), tgt::ivec2(0), tgt::ivec2(4096))
, overlayBottomLeftRelative_("overlayBottomLeftRelative", "Overlay Bottom Left (Relative)", tgt::vec2(0.05f), tgt::vec2(-1.f), tgt::vec2(1.f))
, overlayDimensionsRelative_("overlayDimensionsRelative", "Overlay Dimensions (Relative)", tgt::vec2(0.25f), tgt::vec2(0.f), tgt::vec2(1.f))
, overlayOpacity_("overlayOpacity", "Overlay Opacity", 1.f)
, fontColor_("fontColor","Font Color", tgt::Color(0.f, 0.f, 0.f, 1.f))
, scalingProp_("scalingProp","Scaling",1.f,0.01,10000.f)
, tfUnit_("tfUnit","Unit (max 7 Chars)","")
, renderBorder_("renderBorder", "Render Border", true)
, borderWidth_("borderWidth", "Border Width", 2.f, 0.1f, 10.f)
, borderColor_("borderColor", "Border Color", tgt::Color(0.f, 0.f, 0.f, 1.f))
, copyShader_(0)
{
borderColor_.setViews(Property::COLOR);
fontColor_.setViews(Property::COLOR);
addPort(imageInport_);
addPrivateRenderPort(&privatePort_);
addPort(outport_);
addProperty(fontProp_);
fontProp_.setVisible(false);
addProperty(transferFunc_);
addProperty(renderPreIntegrationTable_);
addProperty(renderOverlay_);
renderOverlay_.setGroupID("general");
addProperty(overlayOpacity_);
overlayOpacity_.setGroupID("general");
addProperty(usePixelCoordinates_);
usePixelCoordinates_.setGroupID("general");
usePixelCoordinates_.addOption("true","Pixel Coordinates",true);
usePixelCoordinates_.addOption("false","Resative Position",false);
usePixelCoordinates_.select("true");
usePixelCoordinates_.onChange(CallMemberAction<TransFuncOverlay>(this, &TransFuncOverlay::onChangeUsePixelCoordinates));
setPropertyGroupGuiName("general","General");
addProperty(overlayBottomLeft_);
overlayBottomLeft_.setGroupID("overlayAbs");
addProperty(overlayDimensions_);
overlayDimensions_.setGroupID("overlayAbs");
addProperty(overlayBottomLeftRelative_);
overlayBottomLeftRelative_.setGroupID("overlayPer");
addProperty(overlayDimensionsRelative_);
overlayDimensionsRelative_.setGroupID("overlayPer");
setPropertyGroupGuiName("overlayAbs","Overlay Options (absolute)");
setPropertyGroupGuiName("overlayPer","Overlay Options (relative)");
addProperty(fontColor_);
fontColor_.setGroupID("overlay settings");
addProperty(tfUnit_);
tfUnit_.setGroupID("overlay settings");
addProperty(scalingProp_);
scalingProp_.setGroupID("overlay settings");
addProperty(renderBorder_);
renderBorder_.setGroupID("overlay settings");
addProperty(borderWidth_);
borderWidth_.setGroupID("overlay settings");
addProperty(borderColor_);
borderColor_.setGroupID("overlay settings");
setPropertyGroupGuiName("overlay settings","Overlay Settings");
onChangeUsePixelCoordinates();
//privatePort_.resize(ppSizeX_,ppSizeY_);
}
TextOverlay::TextOverlay()
: ImageProcessor("textoverlay")
, inport_(Port::INPORT, "image.input", "Image Input")
, outport_(Port::OUTPORT, "image.output", "Image Output")
, privatePort_(Port::OUTPORT, "image.tmp")
, text0_(Port::INPORT, "text.text0", "Text0 Input", true)
, text1_(Port::INPORT, "text.text1", "Text1 Input", true)
, text2_(Port::INPORT, "text.text2", "Text2 Input", true)
, text3_(Port::INPORT, "text.text3", "Text3 Input", true)
, enabled_("enabled", "Enabled", true)
, layout0_("layout0", "Text position 1:")
, layout1_("layout1", "Text position 2:")
, layout2_("layout2", "Text position 3:")
, layout3_("layout3", "Text position 4:")
#ifdef _MSC_VER
#pragma warning(disable:4355) // passing 'this' is safe here
#endif
, mouseMoveEventProp_("mouseEvent.move", "Move Event", this, &TextOverlay::mouseMove,
tgt::MouseEvent::MOUSE_BUTTON_NONE, tgt::MouseEvent::MOTION, tgt::MouseEvent::MODIFIER_NONE)
#ifdef _MSC_VER
#pragma warning(disable:4355) // passing 'this' is safe here
#endif
, mouseEnterExitEventProp_("mouseEvent.EnterExit", "Enter/Exit Event", this, &TextOverlay::mouseEnterExit,
tgt::MouseEvent::MOUSE_BUTTON_NONE, tgt::MouseEvent::ENTER_EXIT, tgt::MouseEvent::MODIFIER_NONE)
, viewportSize_(0,0)
, mousePos_(0,0)
, fontProp_("voreen.fontprop", "Font:")
, blendMode_("blendMode","Color Mode:")
, fontColor_("fontColor","Color of Font:",tgt::vec4(1.0f))
, renderFollowMouseText_(false)
{
addPort(inport_);
addPort(outport_);
addPrivateRenderPort(&privatePort_);
addPort(text0_);
addPort(text1_);
addPort(text2_);
addPort(text3_);
std::vector<Option<std::string> > options;
options.push_back(Option<std::string>("FOLLOW", "Follow mouse", ""));
options.push_back(Option<std::string>("N", "North", ""));
options.push_back(Option<std::string>("NE", "North-East", ""));
options.push_back(Option<std::string>("E", "East", ""));
options.push_back(Option<std::string>("SE", "South-East", ""));
options.push_back(Option<std::string>("S", "South", ""));
options.push_back(Option<std::string>("SW", "South-West", ""));
options.push_back(Option<std::string>("W", "West", ""));
options.push_back(Option<std::string>("NW", "North-West", ""));
options.push_back(Option<std::string>("CENTER", "Center", ""));
layout0_.setOptions(options);
layout0_.select("NW");
layout1_.setOptions(options);
layout1_.select("NW");
layout2_.setOptions(options);
layout2_.select("NW");
layout3_.setOptions(options);
layout3_.select("NW");
blendMode_.addOption("auto","Inverse Color of Background",0);
blendMode_.addOption("fix","Chosen Color",1);
blendMode_.select("auto");
blendMode_.onChange(CallMemberAction<TextOverlay>(this, &TextOverlay::blendModeOnChange));
fontColor_.setViews(Property::COLOR);
addProperty(enabled_);
addProperty(layout0_);
addProperty(layout1_);
addProperty(layout2_);
addProperty(layout3_);
addEventProperty(mouseMoveEventProp_);
addEventProperty(mouseEnterExitEventProp_);
addProperty(fontProp_);
addProperty(blendMode_);
addProperty(fontColor_);
blendModeOnChange();
}
OrientationOverlay::OrientationOverlay()
: ImageProcessor("image/orientationoverlay")
, inport_(Port::INPORT, "image.input", "Image Input")
, outport_(Port::OUTPORT, "image.output", "Image Output")
, privatePort_(Port::OUTPORT, "image.tmp", "image.tmp", false)
, drawCube_("drawCube", "Draw Cube", true)
, drawAxes_("drawAxes", "Draw Axes", false)
, drawTextures_("drawTextures", "Draw Cube Textures", true)
, colorizeTextures_("colorizeTextures", "Colorize Textures", false)
, filenameFront_("filenameFront", "Front Texture", "Select texture",
VoreenApplication::app()->getUserDataPath("textures"), "*.jpg;*.png;*.bmp",
FileDialogProperty::OPEN_FILE)
, filenameBack_("filenameBack", "Back Texture", "Select texture",
VoreenApplication::app()->getUserDataPath("textures"), "*.jpg;*.png;*.bmp",
FileDialogProperty::OPEN_FILE)
, filenameTop_("filenameTop", "Top Texture", "Select texture",
VoreenApplication::app()->getUserDataPath("textures"), "*.jpg;*.png;*.bmp",
FileDialogProperty::OPEN_FILE)
, filenameBottom_("filenameBottom", "Bottom Texture", "Select texture",
VoreenApplication::app()->getUserDataPath("textures"), "*.jpg;*.png;*.bmp",
FileDialogProperty::OPEN_FILE)
, filenameLeft_("filenameLeft", "Left Texture", "Select texture",
VoreenApplication::app()->getUserDataPath("textures"), "*.jpg;*.png;*.bmp",
FileDialogProperty::OPEN_FILE)
, filenameRight_("filenameRight", "Right Texture", "Select texture",
VoreenApplication::app()->getUserDataPath("textures"), "*.jpg;*.png;*.bmp",
FileDialogProperty::OPEN_FILE)
, shiftX_("shiftX", "Horizontal Position", 0.85f, 0.0f, 1.0f)
, shiftY_("shiftY", "Vertical Position", 0.15f, 0.0f, 1.0f)
, cubeSize_("cubeSize", "Cube Size", 0.15f, 0.05, 1)
, axisLength_("axisLength", "Axes Length", 0.15f, 0.1, 4.f)
, camera_("camera", "Camera", tgt::Camera(vec3(0.f, 0.f, 3.5f), vec3(0.f, 0.f, 0.f), vec3(0.f, 1.f, 0.f)))
, frontTex_(0)
, backTex_(0)
, topTex_(0)
, leftTex_(0)
, bottomTex_(0)
, rightTex_(0)
, reloadTextures_(false)
, loadingTextures_(false)
{
addPort(inport_);
addPort(outport_);
addPrivateRenderPort(&privatePort_);
addProperty(drawCube_);
addProperty(drawAxes_);
addProperty(drawTextures_);
filenameFront_.onChange(CallMemberAction<OrientationOverlay>(this, &OrientationOverlay::reloadTextures));
addProperty(colorizeTextures_);
addProperty(filenameFront_);
filenameBack_.onChange(CallMemberAction<OrientationOverlay>(this, &OrientationOverlay::reloadTextures));
addProperty(filenameBack_);
filenameTop_.onChange(CallMemberAction<OrientationOverlay>(this, &OrientationOverlay::reloadTextures));
addProperty(filenameTop_);
filenameBottom_.onChange(CallMemberAction<OrientationOverlay>(this, &OrientationOverlay::reloadTextures));
addProperty(filenameBottom_);
filenameLeft_.onChange(CallMemberAction<OrientationOverlay>(this, &OrientationOverlay::reloadTextures));
addProperty(filenameLeft_);
filenameRight_.onChange(CallMemberAction<OrientationOverlay>(this, &OrientationOverlay::reloadTextures));
addProperty(filenameRight_);
addProperty(shiftX_);
addProperty(shiftY_);
addProperty(cubeSize_);
addProperty(axisLength_);
addProperty(camera_);
// set initial texture names
std::string texturePath = VoreenApplication::app()->getResourcePath("textures");
textureNames_[0] = texturePath + "/axial_t.png";
textureNames_[1] = texturePath + "/axial_b.png";
textureNames_[2] = texturePath + "/coronal_f.png";
textureNames_[3] = texturePath + "/coronal_b.png";
textureNames_[4] = texturePath + "/sagittal_l.png";
textureNames_[5] = texturePath + "/sagittal_r.png";
}
