Files
Jungfraujoch/viewer/image_viewer/JFJochAzIntImage.cpp
T
leonarski_fandClaude Opus 4.8 ec1308f4a9 viewer: guard Linux-only constructs for Windows/MSVC builds
Step toward building jfjoch_viewer on Windows/MSVC. No change to the Linux
build: D-Bus stays on by default and the XCB plugin is still used.

- CMake: make Qt6::DBus optional via JFJOCH_VIEWER_DBUS (ON on Linux, OFF on
  Windows/macOS where Qt6::DBus does not exist); compile/link/install the dbus/
  adaptor + service file only when enabled. Select the platform integration
  plugin per-OS (QXcb on Linux, QWindows on Windows, QCocoa on macOS) instead
  of hard-coding QXcbIntegrationPlugin.
- JFJochViewerWindow: wrap the adaptor include and D-Bus registration in
  #ifdef JFJOCH_VIEWER_DBUS.
- JFJochImageReadingWorker: the POSIX open()/fstat()/NFS-errno preflight is now
  #ifndef _WIN32, with a portable QFileInfo fallback elsewhere; POSIX-only
  headers are guarded too.
- Replace the POSIX M_PI/M_PI_2 extension with C++20 std::numbers::pi across the
  viewer (not defined by MSVC without _USE_MATH_DEFINES).

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-18 13:50:49 +02:00

116 lines
3.7 KiB
C++

// SPDX-FileCopyrightText: 2025 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#include "JFJochAzIntImage.h"
#include <QVBoxLayout>
#include "../../common/JFJochException.h"
#include <numbers>
JFJochAzIntImage::JFJochAzIntImage(QWidget *parent)
: JFJochImage(parent) {
}
void JFJochAzIntImage::Clear() {
W = 0;
H = 0;
image_fp.clear();
if (scene())
scene()->clear();
resetScenePointers();
}
void JFJochAzIntImage::imageLoaded(std::shared_ptr<const JFJochReaderImage> in_image) {
if (!in_image) {
Clear();
CalcROI();
return;
}
const auto &profile = in_image->ImageData().az_int_profile;
const auto &ds = in_image->Dataset();
int az_bins = ds.azimuthal_bins;
int q_bins = ds.q_bins;
if (az_bins > 0 && q_bins > 0 && profile.size() == static_cast<size_t>(az_bins * q_bins)
&& ds.az_int_bin_to_phi.size() == profile.size() && ds.az_int_bin_to_q.size() == profile.size()) {
image = in_image;
float local_min = range_min, local_max = range_max;
if (auto_range) {
local_min = std::numeric_limits<float>::infinity();
local_max = -std::numeric_limits<float>::infinity();
for (float v : profile) {
if (std::isfinite(v)) {
if (v < local_min) local_min = v;
if (v > local_max) local_max = v;
}
}
if (!std::isfinite(local_min) || !std::isfinite(local_max) || local_max <= local_min) {
Clear();
return;
}
} else {
if (!(std::isfinite(local_min) && std::isfinite(local_max) && local_max > local_min)) {
Clear();
return;
}
}
// Update base class members
W = q_bins;
H = az_bins;
image_fp = profile;
// Update foreground/background for color mapping
background = local_min;
foreground = local_max;
emit backgroundChanged(background);
emit foregroundChanged(foreground);
// Generate pixmap and redraw using base class functionality
GeneratePixmap();
Redraw();
CalcROI();
} else {
Clear();
}
}
void JFJochAzIntImage::mouseHover(QMouseEvent* event) {
if (!scene() || !image || W == 0 || H == 0) return;
QPointF scenePos = mapToScene(event->pos());
int x = static_cast<int>(scenePos.x());
int y = static_cast<int>(scenePos.y());
if (x >= 0 && x < static_cast<int>(W) && y >= 0 && y < static_cast<int>(H)) {
size_t idx = y * W + x;
QString statusText = QString("Q: %1 Å^-1 phi: %2° value: %3")
.arg(QString::number(image->Dataset().az_int_bin_to_q[idx], 'f', 3))
.arg(QString::number(image->Dataset().az_int_bin_to_phi[idx], 'f', 3))
.arg(QString::number(image_fp[idx], 'f', 3));
emit writeStatusBar(statusText, 0);
}
}
void JFJochAzIntImage::mouseDoubleClickEvent(QMouseEvent *event) {
if (!scene() || !image || W == 0 || H == 0) return;
QPointF scenePos = mapToScene(event->pos());
int x = static_cast<int>(scenePos.x());
int y = static_cast<int>(scenePos.y());
if (x >= 0 && x < static_cast<int>(W) && y >= 0 && y < static_cast<int>(H)) {
size_t idx = y * W + x;
float q = image->Dataset().az_int_bin_to_q[idx];
float phi = image->Dataset().az_int_bin_to_phi[idx];
auto geom = image->Dataset().experiment.GetDiffractionGeometry();
auto coord = geom.ResPhiToPxl(2 * std::numbers::pi / q, phi / 180.0 * std::numbers::pi);
emit zoomOnBin(QPointF(coord.first, coord.second));
}
}