UI_latest/tests/compare/test_quality.py

import datetime
import numpy as np
import os
from PIL import Image
import pytest
from pytest import fixture
from typing import Tuple, List

from cv2 import imread, cvtColor, COLOR_BGR2RGB
from skimage.metrics import structural_similarity as ssim


"""
This test suite compares images in 2 directories by file name
The directories are specified by the command line arguments --baseline_dir and --test_dir

"""
# ssim: Structural Similarity Index
# Returns a tuple of (ssim, diff_image)
def ssim_score(img0: np.ndarray, img1: np.ndarray) -> Tuple[float, np.ndarray]:
    score, diff = ssim(img0, img1, channel_axis=-1, full=True)
    # rescale the difference image to 0-255 range
    diff = (diff * 255).astype("uint8")
    return score, diff
    
# Metrics must return a tuple of (score, diff_image)
METRICS = {"ssim": ssim_score}
METRICS_PASS_THRESHOLD = {"ssim": 0.95}


class TestCompareImageMetrics:
    @fixture(scope="class")
    def test_file_names(self, args_pytest):
        test_dir = args_pytest['test_dir']
        fnames = self.gather_file_basenames(test_dir)  
        yield fnames
        del fnames

    @fixture(scope="class", autouse=True)
    def teardown(self, args_pytest):
        yield
        # Runs after all tests are complete
        # Aggregate output files into a grid of images
        baseline_dir = args_pytest['baseline_dir']
        test_dir = args_pytest['test_dir']
        img_output_dir = args_pytest['img_output_dir']
        metrics_file = args_pytest['metrics_file']

        grid_dir = os.path.join(img_output_dir, "grid")
        os.makedirs(grid_dir, exist_ok=True)

        for metric_dir in METRICS.keys():
            metric_path = os.path.join(img_output_dir, metric_dir)
            for file in os.listdir(metric_path):
                if file.endswith(".png"):
                    score = self.lookup_score_from_fname(file, metrics_file)
                    image_file_list = []
                    image_file_list.append([
                                            os.path.join(baseline_dir, file),
                                            os.path.join(test_dir, file),
                                            os.path.join(metric_path, file)
                                            ])
                    # Create grid
                    image_list = [[Image.open(file) for file in files] for files in image_file_list]
                    grid = self.image_grid(image_list)
                    grid.save(os.path.join(grid_dir, f"{metric_dir}_{score:.3f}_{file}"))
    
    # Tests run for each baseline file name
    @fixture()
    def fname(self, baseline_fname):
        yield baseline_fname
        del baseline_fname
    
    def test_directories_not_empty(self, args_pytest):
        baseline_dir = args_pytest['baseline_dir']
        test_dir = args_pytest['test_dir']
        assert len(os.listdir(baseline_dir)) != 0, f"Baseline directory {baseline_dir} is empty"
        assert len(os.listdir(test_dir)) != 0, f"Test directory {test_dir} is empty"

    def test_dir_has_all_matching_metadata(self, fname, test_file_names, args_pytest):
        # Check that all files in baseline_dir have a file in test_dir with matching metadata
        baseline_file_path = os.path.join(args_pytest['baseline_dir'], fname)
        file_paths = [os.path.join(args_pytest['test_dir'], f) for f in test_file_names]
        file_match = self.find_file_match(baseline_file_path, file_paths)
        assert file_match is not None, f"Could not find a file in {args_pytest['test_dir']} with matching metadata to {baseline_file_path}"

    # For a baseline image file, finds the corresponding file name in test_dir and 
    # compares the images using the metrics in METRICS
    @pytest.mark.parametrize("metric", METRICS.keys())
    def test_pipeline_compare(
        self,
        args_pytest,
        fname,
        test_file_names,
        metric,
    ):
        baseline_dir = args_pytest['baseline_dir']
        test_dir = args_pytest['test_dir']
        metrics_output_file = args_pytest['metrics_file']
        img_output_dir = args_pytest['img_output_dir']
        
        baseline_file_path = os.path.join(baseline_dir, fname)

        # Find file match
        file_paths = [os.path.join(test_dir, f) for f in test_file_names]
        test_file = self.find_file_match(baseline_file_path, file_paths)

        # Run metrics
        sample_baseline = self.read_img(baseline_file_path)
        sample_secondary = self.read_img(test_file)
        
        score, metric_img = METRICS[metric](sample_baseline, sample_secondary)
        metric_status = score > METRICS_PASS_THRESHOLD[metric]

        # Save metric values
        with open(metrics_output_file, 'a') as f:
            run_info = os.path.splitext(fname)[0]
            metric_status_str = "PASS ✅" if metric_status else "FAIL ❌"
            date_str = datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S")
            f.write(f"| {date_str} | {run_info} | {metric} | {metric_status_str} | {score} | \n")

        # Save metric image
        metric_img_dir = os.path.join(img_output_dir, metric)
        os.makedirs(metric_img_dir, exist_ok=True)
        output_filename = f'{fname}'
        Image.fromarray(metric_img).save(os.path.join(metric_img_dir, output_filename))

        assert score > METRICS_PASS_THRESHOLD[metric]

    def read_img(self, filename: str) -> np.ndarray:
        cvImg = imread(filename)
        cvImg = cvtColor(cvImg, COLOR_BGR2RGB)
        return cvImg

    def image_grid(self, img_list: list[list[Image.Image]]):
        # imgs is a 2D list of images
        # Assumes the input images are a rectangular grid of equal sized images
        rows = len(img_list)
        cols = len(img_list[0])

        w, h = img_list[0][0].size
        grid = Image.new('RGB', size=(cols*w, rows*h))
        
        for i, row in enumerate(img_list):
            for j, img in enumerate(row):
                grid.paste(img, box=(j*w, i*h))
        return grid

    def lookup_score_from_fname(self,
                                fname: str,
                                metrics_output_file: str
        ) -> float:
        fname_basestr = os.path.splitext(fname)[0]
        with open(metrics_output_file, 'r') as f:
            for line in f:
                if fname_basestr in line:
                    score = float(line.split('|')[5])
                    return score
        raise ValueError(f"Could not find score for {fname} in {metrics_output_file}")

    def gather_file_basenames(self, directory: str):
        files = []
        for file in os.listdir(directory):
            if file.endswith(".png"):
                files.append(file)
        return files

    def read_file_prompt(self, fname:str) -> str:
        # Read prompt from image file metadata
        img = Image.open(fname)
        img.load()
        return img.info['prompt']
    
    def find_file_match(self, baseline_file: str, file_paths: List[str]):
        # Find a file in file_paths with matching metadata to baseline_file
        baseline_prompt = self.read_file_prompt(baseline_file)

        # Do not match empty prompts
        if baseline_prompt is None or baseline_prompt == "":
            return None

        # Find file match
        # Reorder test_file_names so that the file with matching name is first
        # This is an optimization because matching file names are more likely 
        # to have matching metadata if they were generated with the same script
        basename = os.path.basename(baseline_file)
        file_path_basenames = [os.path.basename(f) for f in file_paths]
        if basename in file_path_basenames:
            match_index = file_path_basenames.index(basename)
            file_paths.insert(0, file_paths.pop(match_index))

        for f in file_paths:
            test_file_prompt = self.read_file_prompt(f)
            if baseline_prompt == test_file_prompt:
                return f
Release on 09.11.24 2024-11-09 14:19:42 +00:00			`import datetime`
			`import numpy as np`
			`import os`
			`from PIL import Image`
			`import pytest`
			`from pytest import fixture`
			`from typing import Tuple, List`

			`from cv2 import imread, cvtColor, COLOR_BGR2RGB`
			`from skimage.metrics import structural_similarity as ssim`


			`"""`
			`This test suite compares images in 2 directories by file name`
			`The directories are specified by the command line arguments --baseline_dir and --test_dir`

			`"""`
			`# ssim: Structural Similarity Index`
			`# Returns a tuple of (ssim, diff_image)`
			`def ssim_score(img0: np.ndarray, img1: np.ndarray) -> Tuple[float, np.ndarray]:`
			`score, diff = ssim(img0, img1, channel_axis=-1, full=True)`
			`# rescale the difference image to 0-255 range`
			`diff = (diff * 255).astype("uint8")`
			`return score, diff`

			`# Metrics must return a tuple of (score, diff_image)`
			`METRICS = {"ssim": ssim_score}`
			`METRICS_PASS_THRESHOLD = {"ssim": 0.95}`


			`class TestCompareImageMetrics:`
			`@fixture(scope="class")`
			`def test_file_names(self, args_pytest):`
			`test_dir = args_pytest['test_dir']`
			`fnames = self.gather_file_basenames(test_dir)`
			`yield fnames`
			`del fnames`

			`@fixture(scope="class", autouse=True)`
			`def teardown(self, args_pytest):`
			`yield`
			`# Runs after all tests are complete`
			`# Aggregate output files into a grid of images`
			`baseline_dir = args_pytest['baseline_dir']`
			`test_dir = args_pytest['test_dir']`
			`img_output_dir = args_pytest['img_output_dir']`
			`metrics_file = args_pytest['metrics_file']`

			`grid_dir = os.path.join(img_output_dir, "grid")`
			`os.makedirs(grid_dir, exist_ok=True)`

			`for metric_dir in METRICS.keys():`
			`metric_path = os.path.join(img_output_dir, metric_dir)`
			`for file in os.listdir(metric_path):`
			`if file.endswith(".png"):`
			`score = self.lookup_score_from_fname(file, metrics_file)`
			`image_file_list = []`
			`image_file_list.append([`
			`os.path.join(baseline_dir, file),`
			`os.path.join(test_dir, file),`
			`os.path.join(metric_path, file)`
			`])`
			`# Create grid`
			`image_list = [[Image.open(file) for file in files] for files in image_file_list]`
			`grid = self.image_grid(image_list)`
			`grid.save(os.path.join(grid_dir, f"{metric_dir}_{score:.3f}_{file}"))`

			`# Tests run for each baseline file name`
			`@fixture()`
			`def fname(self, baseline_fname):`
			`yield baseline_fname`
			`del baseline_fname`

			`def test_directories_not_empty(self, args_pytest):`
			`baseline_dir = args_pytest['baseline_dir']`
			`test_dir = args_pytest['test_dir']`
			`assert len(os.listdir(baseline_dir)) != 0, f"Baseline directory {baseline_dir} is empty"`
			`assert len(os.listdir(test_dir)) != 0, f"Test directory {test_dir} is empty"`

			`def test_dir_has_all_matching_metadata(self, fname, test_file_names, args_pytest):`
			`# Check that all files in baseline_dir have a file in test_dir with matching metadata`
			`baseline_file_path = os.path.join(args_pytest['baseline_dir'], fname)`
			`file_paths = [os.path.join(args_pytest['test_dir'], f) for f in test_file_names]`
			`file_match = self.find_file_match(baseline_file_path, file_paths)`
			`assert file_match is not None, f"Could not find a file in {args_pytest['test_dir']} with matching metadata to {baseline_file_path}"`

			`# For a baseline image file, finds the corresponding file name in test_dir and`
			`# compares the images using the metrics in METRICS`
			`@pytest.mark.parametrize("metric", METRICS.keys())`
			`def test_pipeline_compare(`
			`self,`
			`args_pytest,`
			`fname,`
			`test_file_names,`
			`metric,`
			`):`
			`baseline_dir = args_pytest['baseline_dir']`
			`test_dir = args_pytest['test_dir']`
			`metrics_output_file = args_pytest['metrics_file']`
			`img_output_dir = args_pytest['img_output_dir']`

			`baseline_file_path = os.path.join(baseline_dir, fname)`

			`# Find file match`
			`file_paths = [os.path.join(test_dir, f) for f in test_file_names]`
			`test_file = self.find_file_match(baseline_file_path, file_paths)`

			`# Run metrics`
			`sample_baseline = self.read_img(baseline_file_path)`
			`sample_secondary = self.read_img(test_file)`

			`score, metric_img = METRICS[metric](sample_baseline, sample_secondary)`
			`metric_status = score > METRICS_PASS_THRESHOLD[metric]`

			`# Save metric values`
			`with open(metrics_output_file, 'a') as f:`
			`run_info = os.path.splitext(fname)[0]`
			`metric_status_str = "PASS ✅" if metric_status else "FAIL ❌"`
			`date_str = datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S")`
			`f.write(f"\| {date_str} \| {run_info} \| {metric} \| {metric_status_str} \| {score} \| \n")`

			`# Save metric image`
			`metric_img_dir = os.path.join(img_output_dir, metric)`
			`os.makedirs(metric_img_dir, exist_ok=True)`
			`output_filename = f'{fname}'`
			`Image.fromarray(metric_img).save(os.path.join(metric_img_dir, output_filename))`

			`assert score > METRICS_PASS_THRESHOLD[metric]`

			`def read_img(self, filename: str) -> np.ndarray:`
			`cvImg = imread(filename)`
			`cvImg = cvtColor(cvImg, COLOR_BGR2RGB)`
			`return cvImg`

			`def image_grid(self, img_list: list[list[Image.Image]]):`
			`# imgs is a 2D list of images`
			`# Assumes the input images are a rectangular grid of equal sized images`
			`rows = len(img_list)`
			`cols = len(img_list[0])`

			`w, h = img_list[0][0].size`
			`grid = Image.new('RGB', size=(colsw, rowsh))`

			`for i, row in enumerate(img_list):`
			`for j, img in enumerate(row):`
			`grid.paste(img, box=(jw, ih))`
			`return grid`

			`def lookup_score_from_fname(self,`
			`fname: str,`
			`metrics_output_file: str`
			`) -> float:`
			`fname_basestr = os.path.splitext(fname)[0]`
			`with open(metrics_output_file, 'r') as f:`
			`for line in f:`
			`if fname_basestr in line:`
			`score = float(line.split('\|')[5])`
			`return score`
			`raise ValueError(f"Could not find score for {fname} in {metrics_output_file}")`

			`def gather_file_basenames(self, directory: str):`
			`files = []`
			`for file in os.listdir(directory):`
			`if file.endswith(".png"):`
			`files.append(file)`
			`return files`

			`def read_file_prompt(self, fname:str) -> str:`
			`# Read prompt from image file metadata`
			`img = Image.open(fname)`
			`img.load()`
			`return img.info['prompt']`

			`def find_file_match(self, baseline_file: str, file_paths: List[str]):`
			`# Find a file in file_paths with matching metadata to baseline_file`
			`baseline_prompt = self.read_file_prompt(baseline_file)`

			`# Do not match empty prompts`
			`if baseline_prompt is None or baseline_prompt == "":`
			`return None`

			`# Find file match`
			`# Reorder test_file_names so that the file with matching name is first`
			`# This is an optimization because matching file names are more likely`
			`# to have matching metadata if they were generated with the same script`
			`basename = os.path.basename(baseline_file)`
			`file_path_basenames = [os.path.basename(f) for f in file_paths]`
			`if basename in file_path_basenames:`
			`match_index = file_path_basenames.index(basename)`
			`file_paths.insert(0, file_paths.pop(match_index))`

			`for f in file_paths:`
			`test_file_prompt = self.read_file_prompt(f)`
			`if baseline_prompt == test_file_prompt:`
			`return f`