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更新精度检查脚本加入图像比对检查

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CGH0S7
2026-04-15 00:49:46 +08:00
parent 9c31384b2f
commit ac82ebd889
1 changed files with 219 additions and 47 deletions
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266
AMSS_NCKU_Verify_ASC26.py
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@@ -2,13 +2,18 @@
""" """
AMSS-NCKU GW150914 Simulation Regression Test Script (Comprehensive Version) AMSS-NCKU GW150914 Simulation Regression Test Script (Comprehensive Version)
Verification Requirements: Verification Requirements:
1. RMS errors < 1% for: 1. RMS errors < 1% for:
- 3D Vector Total RMS - 3D Vector Total RMS
- X Component RMS - X Component RMS
- Y Component RMS - Y Component RMS
- Z Component RMS - Z Component RMS
2. ADM constraint violation < 2 (Grid Level 0) 2. ADM constraint violation < 2 (Grid Level 0)
3. The following figure PDFs must match GW150914-origin exactly after rasterization:
- ADM_Constraint_Grid_Level_0.pdf
- BH_Trajectory_21_XY.pdf
- BH_Trajectory_XY.pdf
The script also reports the percentage of differing pixels for each figure.
RMS Calculation Method: RMS Calculation Method:
- Computes trajectory deviation on the XY plane independently for BH1 and BH2 - Computes trajectory deviation on the XY plane independently for BH1 and BH2
@@ -20,9 +25,13 @@ Default: output_dir = GW150914/AMSS_NCKU_output
Reference: GW150914-origin (baseline simulation) Reference: GW150914-origin (baseline simulation)
""" """
import numpy as np import numpy as np
import sys import sys
import os import os
import shutil
import subprocess
import tempfile
from PIL import Image
# ANSI Color Codes # ANSI Color Codes
class Color: class Color:
@@ -49,17 +58,143 @@ def load_bh_trajectory(filepath):
} }
def load_constraint_data(filepath): def load_constraint_data(filepath):
"""Load constraint violation data""" """Load constraint violation data"""
data = [] data = []
with open(filepath, 'r') as f: with open(filepath, 'r') as f:
for line in f: for line in f:
if line.startswith('#'): if line.startswith('#'):
continue continue
parts = line.split() parts = line.split()
if len(parts) >= 8: if len(parts) >= 8:
data.append([float(x) for x in parts[:8]]) data.append([float(x) for x in parts[:8]])
return np.array(data) return np.array(data)
def resolve_figure_dir(path):
"""Resolve the sibling figure directory from an output or figure path."""
normalized = os.path.normpath(path)
if os.path.basename(normalized) == "figure":
return normalized
return os.path.join(os.path.dirname(normalized), "figure")
def render_pdf_to_images(pdf_path, dpi=150):
"""Render a PDF to RGB images using Ghostscript."""
gs_path = shutil.which("gs")
if gs_path is None:
raise RuntimeError("Ghostscript executable 'gs' was not found in PATH")
with tempfile.TemporaryDirectory(prefix="amss_verify_pdf_") as temp_dir:
output_pattern = os.path.join(temp_dir, "page-%03d.ppm")
cmd = [
gs_path,
"-q",
"-dSAFER",
"-dBATCH",
"-dNOPAUSE",
"-sDEVICE=ppmraw",
f"-r{dpi}",
f"-o{output_pattern}",
pdf_path
]
try:
subprocess.run(cmd, check=True, stdout=subprocess.DEVNULL, stderr=subprocess.PIPE, text=True)
except subprocess.CalledProcessError as exc:
message = exc.stderr.strip() or str(exc)
raise RuntimeError(f"Failed to render PDF '{pdf_path}': {message}") from exc
ppm_files = sorted(
os.path.join(temp_dir, filename)
for filename in os.listdir(temp_dir)
if filename.endswith(".ppm")
)
if not ppm_files:
raise RuntimeError(f"No rendered pages were produced for '{pdf_path}'")
images = []
for ppm_file in ppm_files:
with Image.open(ppm_file) as img:
images.append(np.array(img.convert("RGB"), dtype=np.uint8))
return images
def compare_rendered_pages(ref_img, target_img):
"""Return (different_pixels, total_pixels) for two rendered RGB pages."""
ref_h, ref_w = ref_img.shape[:2]
tgt_h, tgt_w = target_img.shape[:2]
total_pixels = max(ref_h, tgt_h) * max(ref_w, tgt_w)
if ref_h == tgt_h and ref_w == tgt_w:
different_pixels = int(np.count_nonzero(np.any(ref_img != target_img, axis=2)))
return different_pixels, total_pixels
diff_mask = np.ones((max(ref_h, tgt_h), max(ref_w, tgt_w)), dtype=bool)
overlap_h = min(ref_h, tgt_h)
overlap_w = min(ref_w, tgt_w)
overlap_diff = np.any(ref_img[:overlap_h, :overlap_w] != target_img[:overlap_h, :overlap_w], axis=2)
diff_mask[:overlap_h, :overlap_w] = overlap_diff
different_pixels = int(np.count_nonzero(diff_mask))
return different_pixels, total_pixels
def compare_pdf_images(ref_pdf, target_pdf, dpi=150, threshold_percent=0.001):
"""Compare two PDFs by rasterizing them and counting differing pixels."""
ref_pages = render_pdf_to_images(ref_pdf, dpi=dpi)
target_pages = render_pdf_to_images(target_pdf, dpi=dpi)
total_pixels = 0
different_pixels = 0
max_pages = max(len(ref_pages), len(target_pages))
for page_idx in range(max_pages):
if page_idx < len(ref_pages) and page_idx < len(target_pages):
page_diff, page_total = compare_rendered_pages(ref_pages[page_idx], target_pages[page_idx])
else:
existing_page = ref_pages[page_idx] if page_idx < len(ref_pages) else target_pages[page_idx]
page_total = existing_page.shape[0] * existing_page.shape[1]
page_diff = page_total
total_pixels += page_total
different_pixels += page_diff
diff_percent = (different_pixels / total_pixels * 100.0) if total_pixels else 0.0
return {
"different_pixels": different_pixels,
"total_pixels": total_pixels,
"diff_percent": diff_percent,
"pages_ref": len(ref_pages),
"pages_target": len(target_pages),
"passed": diff_percent < threshold_percent
}
def compare_required_figures(reference_figure_dir, target_figure_dir):
"""Compare the required GW150914 figure PDFs."""
figure_names = [
"ADM_Constraint_Grid_Level_0.pdf",
"BH_Trajectory_21_XY.pdf",
"BH_Trajectory_XY.pdf"
]
results = []
for figure_name in figure_names:
ref_pdf = os.path.join(reference_figure_dir, figure_name)
target_pdf = os.path.join(target_figure_dir, figure_name)
if not os.path.exists(ref_pdf):
raise FileNotFoundError(f"Reference figure not found: {ref_pdf}")
if not os.path.exists(target_pdf):
raise FileNotFoundError(f"Target figure not found: {target_pdf}")
comparison = compare_pdf_images(ref_pdf, target_pdf)
comparison["name"] = figure_name
results.append(comparison)
return results
def calculate_all_rms_errors(bh_data_ref, bh_data_target): def calculate_all_rms_errors(bh_data_ref, bh_data_target):
""" """
@@ -165,7 +300,7 @@ def print_rms_results(rms_dict, error, threshold=1.0):
return all_passed return all_passed
def print_constraint_results(results, threshold=2.0): def print_constraint_results(results, threshold=2.0):
print(f"\n{Color.BOLD}2. ADM Constraint Violation Analysis (Grid Level 0){Color.RESET}") print(f"\n{Color.BOLD}2. ADM Constraint Violation Analysis (Grid Level 0){Color.RESET}")
print("-" * 65) print("-" * 65)
@@ -180,22 +315,49 @@ def print_constraint_results(results, threshold=2.0):
print(f"\n Maximum violation: {results['max_violation']:.6f}") print(f"\n Maximum violation: {results['max_violation']:.6f}")
print(f" Requirement: < {threshold}") print(f" Requirement: < {threshold}")
print(f" Status: {get_status_text(passed)}") print(f" Status: {get_status_text(passed)}")
return passed return passed
def print_summary(rms_passed, constraint_passed): def print_figure_results(results, threshold_percent=0.001):
print("\n" + Color.BLUE + Color.BOLD + "=" * 65 + Color.RESET) print(f"\n{Color.BOLD}3. Figure Pixel Comparison (PDF Rasterization){Color.RESET}")
print(Color.BOLD + "Verification Summary" + Color.RESET) print("-" * 65)
print(Color.BLUE + Color.BOLD + "=" * 65 + Color.RESET) print(f" Requirement: < {threshold_percent:.3f}% differing pixels\n")
all_passed = rms_passed and constraint_passed all_passed = True
for result in results:
res_rms = get_status_text(rms_passed) passed = result["passed"]
res_con = get_status_text(constraint_passed) all_passed = all_passed and passed
status = get_status_text(passed)
print(f" [1] Comprehensive RMS check: {res_rms}") print(f" {result['name']:32}: {result['diff_percent']:10.6f}% | Status: {status}")
print(f" [2] ADM constraint check: {res_con}")
if result["pages_ref"] != result["pages_target"]:
print(f" {'':32} pages(ref/target): {result['pages_ref']}/{result['pages_target']}")
return all_passed
def print_figure_error(error_message):
print(f"\n{Color.BOLD}3. Figure Pixel Comparison (PDF Rasterization){Color.RESET}")
print("-" * 65)
print(f" {Color.RED}Error: {error_message}{Color.RESET}")
return False
def print_summary(rms_passed, constraint_passed, figure_passed):
print("\n" + Color.BLUE + Color.BOLD + "=" * 65 + Color.RESET)
print(Color.BOLD + "Verification Summary" + Color.RESET)
print(Color.BLUE + Color.BOLD + "=" * 65 + Color.RESET)
all_passed = rms_passed and constraint_passed and figure_passed
res_rms = get_status_text(rms_passed)
res_con = get_status_text(constraint_passed)
res_fig = get_status_text(figure_passed)
print(f" [1] Comprehensive RMS check: {res_rms}")
print(f" [2] ADM constraint check: {res_con}")
print(f" [3] Figure pixel comparison: {res_fig}")
final_status = f"{Color.GREEN}{Color.BOLD}ALL CHECKS PASSED{Color.RESET}" if all_passed else f"{Color.RED}{Color.BOLD}SOME CHECKS FAILED{Color.RESET}" final_status = f"{Color.GREEN}{Color.BOLD}ALL CHECKS PASSED{Color.RESET}" if all_passed else f"{Color.RED}{Color.BOLD}SOME CHECKS FAILED{Color.RESET}"
print(f"\n Overall result: {final_status}") print(f"\n Overall result: {final_status}")
@@ -210,12 +372,14 @@ def main():
script_dir = os.path.dirname(os.path.abspath(__file__)) script_dir = os.path.dirname(os.path.abspath(__file__))
target_dir = os.path.join(script_dir, "GW150914/AMSS_NCKU_output") target_dir = os.path.join(script_dir, "GW150914/AMSS_NCKU_output")
script_dir = os.path.dirname(os.path.abspath(__file__)) script_dir = os.path.dirname(os.path.abspath(__file__))
reference_dir = os.path.join(script_dir, "GW150914-origin/AMSS_NCKU_output") reference_dir = os.path.join(script_dir, "GW150914-origin/AMSS_NCKU_output")
target_figure_dir = resolve_figure_dir(target_dir)
bh_file_ref = os.path.join(reference_dir, "bssn_BH.dat") reference_figure_dir = os.path.join(script_dir, "GW150914-origin/figure")
bh_file_target = os.path.join(target_dir, "bssn_BH.dat")
constraint_file = os.path.join(target_dir, "bssn_constraint.dat") bh_file_ref = os.path.join(reference_dir, "bssn_BH.dat")
bh_file_target = os.path.join(target_dir, "bssn_BH.dat")
constraint_file = os.path.join(target_dir, "bssn_constraint.dat")
if not os.path.exists(bh_file_ref): if not os.path.exists(bh_file_ref):
print(f"{Color.RED}{Color.BOLD}Error:{Color.RESET} Baseline trajectory file not found: {bh_file_ref}") print(f"{Color.RED}{Color.BOLD}Error:{Color.RESET} Baseline trajectory file not found: {bh_file_ref}")
@@ -227,9 +391,11 @@ def main():
print(f"{Color.RED}{Color.BOLD}Error:{Color.RESET} Constraint data file not found: {constraint_file}") print(f"{Color.RED}{Color.BOLD}Error:{Color.RESET} Constraint data file not found: {constraint_file}")
sys.exit(1) sys.exit(1)
print_header() print_header()
print(f"\n{Color.BOLD}Reference (Baseline):{Color.RESET} {Color.BLUE}{reference_dir}{Color.RESET}") print(f"\n{Color.BOLD}Reference (Baseline):{Color.RESET} {Color.BLUE}{reference_dir}{Color.RESET}")
print(f"{Color.BOLD}Target (Optimized): {Color.RESET} {Color.BLUE}{target_dir}{Color.RESET}") print(f"{Color.BOLD}Target (Optimized): {Color.RESET} {Color.BLUE}{target_dir}{Color.RESET}")
print(f"{Color.BOLD}Reference Figures: {Color.RESET} {Color.BLUE}{reference_figure_dir}{Color.RESET}")
print(f"{Color.BOLD}Target Figures: {Color.RESET} {Color.BLUE}{target_figure_dir}{Color.RESET}")
bh_data_ref = load_bh_trajectory(bh_file_ref) bh_data_ref = load_bh_trajectory(bh_file_ref)
bh_data_target = load_bh_trajectory(bh_file_target) bh_data_target = load_bh_trajectory(bh_file_target)
@@ -239,12 +405,18 @@ def main():
rms_dict, error = calculate_all_rms_errors(bh_data_ref, bh_data_target) rms_dict, error = calculate_all_rms_errors(bh_data_ref, bh_data_target)
rms_passed = print_rms_results(rms_dict, error) rms_passed = print_rms_results(rms_dict, error)
# Output constraint results # Output constraint results
constraint_results = analyze_constraint_violation(constraint_data) constraint_results = analyze_constraint_violation(constraint_data)
constraint_passed = print_constraint_results(constraint_results) constraint_passed = print_constraint_results(constraint_results)
all_passed = print_summary(rms_passed, constraint_passed) try:
sys.exit(0 if all_passed else 1) figure_results = compare_required_figures(reference_figure_dir, target_figure_dir)
figure_passed = print_figure_results(figure_results)
except (FileNotFoundError, RuntimeError) as exc:
figure_passed = print_figure_error(str(exc))
all_passed = print_summary(rms_passed, constraint_passed, figure_passed)
sys.exit(0 if all_passed else 1)
if __name__ == "__main__": if __name__ == "__main__":
main() main()