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pdftract/tests/debug_fingerprint_fixture_content.rs
jedarden d0f52751ce fix(pdftract-39gey): fix indent trigger to not split drop-cap paragraphs 
The indent trigger was using .abs() which fired on both increased indent
(non-indented → indented) AND decreased indent (indented → non-indented).
This caused drop-cap style paragraphs (indented first line, flush-left
continuation) to incorrectly split into two blocks.

Per plan Phase 4.4 heuristic #2, indent change should only trigger when the
current line is MORE indented (to the right, larger x0) than the block
average - i.e., a new paragraph starting after non-indented text. It should
NOT trigger for decreased indent (first line indented, rest flush-left).

Fix: Remove .abs() and only check if line_x0 - block_avg_x0 > threshold.

Tests:
- test_indented_first_line_new_block: PASS (non-indented → indented splits)
- test_indented_first_line_of_paragraph_not_split: PASS (drop cap stays together)
- All 179 line module tests: PASS
2026-06-07 13:43:19 -04:00

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//! Debug test for fingerprint fixture content hashing
use pdftract_core::document::parse_pdf_file;
use pdftract_core::fingerprint::{compute_fingerprint, FingerprintInput, PageFingerprintData, ContentStreamData};
use pdftract_core::parser::pages::{flatten_page_tree};
use std::path::PathBuf;
#[test]
fn debug_fixture_content_difference() {
let v1_path = PathBuf::from("tests/fingerprint/fixtures/content_edit_one_glyph/v1.pdf");
let v2_path = PathBuf::from("tests/fingerprint/fixtures/content_edit_one_glyph/v2.pdf");
println!("=== Parsing v1.pdf ===");
let (fp1, catalog1, pages1, resolver1) = parse_pdf_file(&v1_path)
.expect("Failed to parse v1.pdf");
println!("Fingerprint v1: {}", fp1);
println!("Page count: {}", pages1.len());
if let Some(page) = pages1.first() {
println!("First page contents: {:?}", page.contents);
println!("First page MediaBox: {:?}", page.media_box);
}
println!("\n=== Parsing v2.pdf ===");
let (fp2, catalog2, pages2, resolver2) = parse_pdf_file(&v2_path)
.expect("Failed to parse v2.pdf");
println!("Fingerprint v2: {}", fp2);
println!("Page count: {}", pages2.len());
if let Some(page) = pages2.first() {
println!("First page contents: {:?}", page.contents);
println!("First page MediaBox: {:?}", page.media_box);
}
println!("\n=== Content stream comparison ===");
// Let's check the actual content stream data
if let (Some(page1), Some(page2)) = (pages1.first(), pages2.first()) {
if let (Some(&content_ref1), Some(&content_ref2)) = (page1.contents.first(), page2.contents.first()) {
println!("Content ref v1: {:?}", content_ref1);
println!("Content ref v2: {:?}", content_ref2);
// Resolve and print the streams
if let Ok(obj1) = resolver1.resolve(content_ref1) {
println!("Content obj v1 type: {:?}", std::mem::discriminant(&obj1));
if let pdftract_core::parser::object::PdfObject::Stream(stream1) = obj1 {
println!("Stream v1 dict keys: {:?}", stream1.dict.keys().collect::<Vec<_>>());
println!("Stream v1 raw bytes (first 100): {:?}...", &stream1.data[..stream1.data.len().min(100)]);
}
}
if let Ok(obj2) = resolver2.resolve(content_ref2) {
println!("Content obj v2 type: {:?}", std::mem::discriminant(&obj2));
if let pdftract_core::parser::object::PdfObject::Stream(stream2) = obj2 {
println!("Stream v2 dict keys: {:?}", stream2.dict.keys().collect::<Vec<_>>());
println!("Stream v2 raw bytes (first 100): {:?}...", &stream2.data[..stream2.data.len().min(100)]);
}
}
}
}
println!("\n=== Fingerprints are {} ===", if fp1 == fp2 { "IDENTICAL" } else { "DIFFERENT" });
}
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