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2606-viewer-processing
Jungfraujoch/tests/TIFFTest.cpp
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v1.0.0-rc.153 (#63) 
This is an UNSTABLE release. It includes many experimental features, as well as many AI generated fixes. We recommend using rc.152 for production use.

* jfjoch_broker: Add EXPERIMENTAL pixelrefine mode for image processing
* jfjoch_broker: Allow to load user mask from 8-bit and 16-bit TIFF files
* jfjoch_broker: Add ROI calculation in non-FPGA workflow
* jfjoch_broker: Fixes to TCP image pusher
* jfjoch_broker: Remove NUMA bindings
* jfjoch_broker: Improvements to indexing
* jfjoch_broker: For PSI EIGER, trimming energies are taken from the detector configuration (now compulsory) instead of hardcoded values
* jfjoch_writer: Save ROI definitions and the per-pixel ROI bitmap in the master file; azimuthal ROIs support phi (angular) sectors
* jfjoch_viewer: Major redesign with dockable panels and saved layouts, plus on-canvas creation/move/resize of box, circle and azimuthal ROIs
* jfjoch_viewer: Run jfjoch_process reprocessing jobs from inside the GUI and overlay per-run results

Reviewed-on: #63
2026-06-23 20:29:49 +02:00

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// SPDX-FileCopyrightText: 2024 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#include <catch2/catch_all.hpp>
#include <fstream>
#include "../preview/JFJochTIFF.h"
#include "../preview/PreviewImage.h"
#include "../writer/HDF5Objects.h"
#include "../common/RawToConvertedGeometry.h"
#include <iostream>
TEST_CASE("TIFFTest","[TIFF]") {
std::vector<uint16_t> values(512*1024);
CompressedImage image(values, 1024, 512);
REQUIRE_NOTHROW(WriteTIFFToString(image));
}
TEST_CASE("TIFFTest_Write_Read","[TIFF]") {
std::vector<uint32_t> values(512*1024);
for (int i = 0; i < values.size(); i++)
values[i] = (i * 17 + 2);
CompressedImage image(values, 1024, 512);
std::string s;
REQUIRE_NOTHROW(s = WriteTIFFToString(image));
std::vector<uint8_t> buffer;
CompressedImage out = ReadTIFF(s, buffer);
REQUIRE(out.GetMode() == CompressedImageMode::Uint32);
REQUIRE(out.GetWidth() == 1024);
REQUIRE(out.GetHeight() == 512);
REQUIRE(buffer.size() == values.size() * sizeof(uint32_t));
REQUIRE(memcmp(values.data(), buffer.data(), buffer.size()) == 0);
}
TEST_CASE("TIFFTest_Write_Read_8bit","[TIFF]") {
std::vector<uint8_t> values(512*1024);
for (int i = 0; i < values.size(); i++)
values[i] = static_cast<uint8_t>(i * 17 + 2);
CompressedImage image(values, 1024, 512, CompressedImageMode::Uint8);
std::string s;
REQUIRE_NOTHROW(s = WriteTIFFToString(image));
std::vector<uint8_t> buffer;
CompressedImage out = ReadTIFF(s, buffer);
REQUIRE(out.GetMode() == CompressedImageMode::Uint8);
REQUIRE(out.GetWidth() == 1024);
REQUIRE(out.GetHeight() == 512);
REQUIRE(buffer == values);
}
TEST_CASE("TIFFTest_Write_Read_16bit","[TIFF]") {
std::vector<uint16_t> values(512*1024);
for (int i = 0; i < values.size(); i++)
values[i] = static_cast<uint16_t>(i * 17 + 2);
CompressedImage image(values, 1024, 512);
std::string s;
REQUIRE_NOTHROW(s = WriteTIFFToString(image));
std::vector<uint8_t> buffer;
CompressedImage out = ReadTIFF(s, buffer);
REQUIRE(out.GetMode() == CompressedImageMode::Uint16);
REQUIRE(out.GetWidth() == 1024);
REQUIRE(out.GetHeight() == 512);
REQUIRE(buffer.size() == values.size() * sizeof(uint16_t));
REQUIRE(memcmp(values.data(), buffer.data(), buffer.size()) == 0);
}
TEST_CASE("TIFFTest_File","[TIFF]") {
std::vector<uint16_t> values(512*1024);
for (auto &i: values)
i = 345;
CompressedImage image(values, 1024, 512);
REQUIRE_NOTHROW(WriteTIFFToFile("test_image.tiff", image));
}
TEST_CASE("TIFFTest_File_signed","[TIFF]") {
std::vector<int16_t> values(512 * 1024);
for (int i = 0; i < values.size(); i++)
values[i] = static_cast<int16_t>(((i % 2 == 0) ? 1 : -1) * i);
CompressedImage image(values, 1024, 512);
REQUIRE_NOTHROW(WriteTIFFToFile("test_image_signed.tiff", image));
}
rgb rainbowColor(float t) {
// Ensure t is in [0,1]
t = std::max(0.0f, std::min(1.0f, t));
// Convert to hue (0 to 6)
float hue = t * 6.0f;
int phase = static_cast<int>(hue);
float fract = hue - phase;
uint8_t p = static_cast<uint8_t>(255 * (1.0f - fract));
uint8_t q = static_cast<uint8_t>(255 * fract);
uint8_t full = 255;
switch (phase) {
case 0: return {full, q, 0}; // Red to Yellow
case 1: return {p, full, 0}; // Yellow to Green
case 2: return {0, full, q}; // Green to Cyan
case 3: return {0, p, full}; // Cyan to Blue
case 4: return {q, 0, full}; // Blue to Magenta
case 5: return {full, 0, p}; // Magenta to Red
default: return {full, 0, 0}; // Fallback (red)
}
}
TEST_CASE("TIFFTest_File_rgb","[TIFF]") {
std::vector<rgb> values(512 * 1024);
for (int i = 0; i < values.size(); i++) {
float t = static_cast<float>(i % 1024) / (1024 - 1);
values[i] = rainbowColor(t);
}
CompressedImage image(values, 1024, 512);
REQUIRE_NOTHROW(WriteTIFFToFile("test_image_rgb.tiff", image));
}
TEST_CASE("TIFFTest_File_float","[TIFF]") {
std::vector<float> values(512 * 1024);
for (int i = 0; i < values.size(); i++)
values[i] = i / 100.0;
CompressedImage image(values, 1024, 512);
REQUIRE_NOTHROW(WriteTIFFToFile("test_image_float.tiff", image));
}
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