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fix(HTML): replace non-standard Unicode characters (#2006)

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chore(HTML): replace non-standard Unicode characters for beter downstream tasks

Signed-off-by: Cesar Berrospi Ramis <75900930+ceberam@users.noreply.github.com>
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Cesar Berrospi Ramis
2025-07-29 11:05:35 +02:00
committed by GitHub
parent aae42b37a8
commit 86f70128aa
8 changed files with 125 additions and 52 deletions
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tests/data/groundtruth/docling_v2/wiki_duck.html.json vendored
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@@ -5271,7 +5271,7 @@
"label": "text",
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"orig": "In most modern classifications, the so-called 'true ducks' belong to the subfamily Anatinae, which is further split into a varying number of tribes.[10] The largest of these, the Anatini, contains the 'dabbling' or 'river' ducks named for their method of feeding primarily at the surface of fresh water.[11] The 'diving ducks', also named for their primary feeding method, make up the tribe Aythyini.[12] The 'sea ducks' of the tribe Mergini are diving ducks which specialise on fish and shellfish and spend a majority of their lives in saltwater.[13] The tribe Oxyurini contains the 'stifftails', diving ducks notable for their small size and stiff, upright tails.[14]",
"text": "In most modern classifications, the so-called 'true ducks' belong to the subfamily Anatinae, which is further split into a varying number of tribes.[10] The largest of these, the Anatini, contains the 'dabbling' or 'river' ducks named for their method of feeding primarily at the surface of fresh water.[11] The 'diving ducks', also named for their primary feeding method, make up the tribe Aythyini.[12] The 'sea ducks' of the tribe Mergini are diving ducks which specialise on fish and shellfish and spend a majority of their lives in saltwater.[13] The tribe Oxyurini contains the 'stifftails', diving ducks notable for their small size and stiff, upright tails.[14]"
"text": "In most modern classifications, the so-called 'true ducks' belong to the subfamily Anatinae, which is further split into a varying number of tribes.[10] The largest of these, the Anatini, contains the 'dabbling' or 'river' ducks - named for their method of feeding primarily at the surface of fresh water.[11] The 'diving ducks', also named for their primary feeding method, make up the tribe Aythyini.[12] The 'sea ducks' of the tribe Mergini are diving ducks which specialise on fish and shellfish and spend a majority of their lives in saltwater.[13] The tribe Oxyurini contains the 'stifftails', diving ducks notable for their small size and stiff, upright tails.[14]"
},
{
"self_ref": "#/texts/247",
@@ -5652,7 +5652,7 @@
"label": "text",
"prov": [],
"orig": "Female mallard ducks (as well as several other species in the genus Anas, such as the American and Pacific black ducks, spot-billed duck, northern pintail and common teal) make the classic \"quack\" sound while males make a similar but raspier sound that is sometimes written as \"breeeeze\",[29][self-published source?] but, despite widespread misconceptions, most species of duck do not \"quack\".[30] In general, ducks make a range of calls, including whistles, cooing, yodels and grunts. For example, the scaup which are diving ducks make a noise like \"scaup\" (hence their name). Calls may be loud displaying calls or quieter contact calls.",
"text": "Female mallard ducks (as well as several other species in the genus Anas, such as the American and Pacific black ducks, spot-billed duck, northern pintail and common teal) make the classic \"quack\" sound while males make a similar but raspier sound that is sometimes written as \"breeeeze\",[29][self-published source?] but, despite widespread misconceptions, most species of duck do not \"quack\".[30] In general, ducks make a range of calls, including whistles, cooing, yodels and grunts. For example, the scaup which are diving ducks make a noise like \"scaup\" (hence their name). Calls may be loud displaying calls or quieter contact calls."
"text": "Female mallard ducks (as well as several other species in the genus Anas, such as the American and Pacific black ducks, spot-billed duck, northern pintail and common teal) make the classic \"quack\" sound while males make a similar but raspier sound that is sometimes written as \"breeeeze\",[29][self-published source?] but, despite widespread misconceptions, most species of duck do not \"quack\".[30] In general, ducks make a range of calls, including whistles, cooing, yodels and grunts. For example, the scaup - which are diving ducks - make a noise like \"scaup\" (hence their name). Calls may be loud displaying calls or quieter contact calls."
},
{
"self_ref": "#/texts/272",
@@ -5796,7 +5796,7 @@
"label": "text",
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"orig": "Humans have hunted ducks since prehistoric times. Excavations of middens in California dating to 7800 6400 BP have turned up bones of ducks, including at least one now-extinct flightless species.[33] Ducks were captured in \"significant numbers\" by Holocene inhabitants of the lower Ohio River valley, suggesting they took advantage of the seasonal bounty provided by migrating waterfowl.[34] Neolithic hunters in locations as far apart as the Caribbean,[35] Scandinavia,[36] Egypt,[37] Switzerland,[38] and China relied on ducks as a source of protein for some or all of the year.[39] Archeological evidence shows that Māori people in New Zealand hunted the flightless Finsch's duck, possibly to extinction, though rat predation may also have contributed to its fate.[40] A similar end awaited the Chatham duck, a species with reduced flying capabilities which went extinct shortly after its island was colonised by Polynesian settlers.[41] It is probable that duck eggs were gathered by Neolithic hunter-gathers as well, though hard evidence of this is uncommon.[35][42]",
"text": "Humans have hunted ducks since prehistoric times. Excavations of middens in California dating to 7800 6400 BP have turned up bones of ducks, including at least one now-extinct flightless species.[33] Ducks were captured in \"significant numbers\" by Holocene inhabitants of the lower Ohio River valley, suggesting they took advantage of the seasonal bounty provided by migrating waterfowl.[34] Neolithic hunters in locations as far apart as the Caribbean,[35] Scandinavia,[36] Egypt,[37] Switzerland,[38] and China relied on ducks as a source of protein for some or all of the year.[39] Archeological evidence shows that Māori people in New Zealand hunted the flightless Finsch's duck, possibly to extinction, though rat predation may also have contributed to its fate.[40] A similar end awaited the Chatham duck, a species with reduced flying capabilities which went extinct shortly after its island was colonised by Polynesian settlers.[41] It is probable that duck eggs were gathered by Neolithic hunter-gathers as well, though hard evidence of this is uncommon.[35][42]"
"text": "Humans have hunted ducks since prehistoric times. Excavations of middens in California dating to 7800 - 6400 BP have turned up bones of ducks, including at least one now-extinct flightless species.[33] Ducks were captured in \"significant numbers\" by Holocene inhabitants of the lower Ohio River valley, suggesting they took advantage of the seasonal bounty provided by migrating waterfowl.[34] Neolithic hunters in locations as far apart as the Caribbean,[35] Scandinavia,[36] Egypt,[37] Switzerland,[38] and China relied on ducks as a source of protein for some or all of the year.[39] Archeological evidence shows that Māori people in New Zealand hunted the flightless Finsch's duck, possibly to extinction, though rat predation may also have contributed to its fate.[40] A similar end awaited the Chatham duck, a species with reduced flying capabilities which went extinct shortly after its island was colonised by Polynesian settlers.[41] It is probable that duck eggs were gathered by Neolithic hunter-gathers as well, though hard evidence of this is uncommon.[35][42]"
},
{
"self_ref": "#/texts/281",
@@ -5867,7 +5867,7 @@
"label": "text",
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"orig": "Ducks have many economic uses, being farmed for their meat, eggs, and feathers (particularly their down). Approximately 3 billion ducks are slaughtered each year for meat worldwide.[45] They are also kept and bred by aviculturists and often displayed in zoos. Almost all the varieties of domestic ducks are descended from the mallard (Anas platyrhynchos), apart from the Muscovy duck (Cairina moschata).[46][47] The Call duck is another example of a domestic duck breed. Its name comes from its original use established by hunters, as a decoy to attract wild mallards from the sky, into traps set for them on the ground. The call duck is the world's smallest domestic duck breed, as it weighs less than 1 kg (2.2 lb).[48]",
"text": "Ducks have many economic uses, being farmed for their meat, eggs, and feathers (particularly their down). Approximately 3 billion ducks are slaughtered each year for meat worldwide.[45] They are also kept and bred by aviculturists and often displayed in zoos. Almost all the varieties of domestic ducks are descended from the mallard (Anas platyrhynchos), apart from the Muscovy duck (Cairina moschata).[46][47] The Call duck is another example of a domestic duck breed. Its name comes from its original use established by hunters, as a decoy to attract wild mallards from the sky, into traps set for them on the ground. The call duck is the world's smallest domestic duck breed, as it weighs less than 1 kg (2.2 lb).[48]"
"text": "Ducks have many economic uses, being farmed for their meat, eggs, and feathers (particularly their down). Approximately 3 billion ducks are slaughtered each year for meat worldwide.[45] They are also kept and bred by aviculturists and often displayed in zoos. Almost all the varieties of domestic ducks are descended from the mallard (Anas platyrhynchos), apart from the Muscovy duck (Cairina moschata).[46][47] The Call duck is another example of a domestic duck breed. Its name comes from its original use established by hunters, as a decoy to attract wild mallards from the sky, into traps set for them on the ground. The call duck is the world's smallest domestic duck breed, as it weighs less than 1 kg (2.2 lb).[48]"
},
{
"self_ref": "#/texts/286",
@@ -6136,7 +6136,7 @@
"label": "list_item",
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"orig": "^ \"Duckling\". Kernerman English Multilingual Dictionary (Beta Version). K. Dictionaries Ltd. 20002006. Retrieved 2015-05-22.",
"text": "^ \"Duckling\". Kernerman English Multilingual Dictionary (Beta Version). K. Dictionaries Ltd. 20002006. Retrieved 2015-05-22.",
"text": "^ \"Duckling\". Kernerman English Multilingual Dictionary (Beta Version). K. Dictionaries Ltd. 2000-2006. Retrieved 2015-05-22.",
"enumerated": true,
"marker": ""
},
@@ -6192,7 +6192,7 @@
"label": "list_item",
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"orig": "^ Livezey 1986, pp. 737738.",
"text": "^ Livezey 1986, pp. 737738.",
"text": "^ Livezey 1986, pp. 737-738.",
"enumerated": true,
"marker": ""
},
@@ -6220,7 +6220,7 @@
"label": "list_item",
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"orig": "^ Donne-Goussé, Laudet & Hänni 2002, pp. 353354.",
"text": "^ Donne-Goussé, Laudet & Hänni 2002, pp. 353354.",
"text": "^ Donne-Goussé, Laudet & Hänni 2002, pp. 353-354.",
"enumerated": true,
"marker": ""
},
@@ -6276,7 +6276,7 @@
"label": "list_item",
"prov": [],
"orig": "^ Kear 2005, p. 622623.",
"text": "^ Kear 2005, p. 622623.",
"text": "^ Kear 2005, p. 622-623.",
"enumerated": true,
"marker": ""
},
@@ -6402,7 +6402,7 @@
"label": "list_item",
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"orig": "^ a b Pratt, Bruner & Berrett 1987, pp. 98107.",
"text": "^ a b Pratt, Bruner & Berrett 1987, pp. 98107.",
"text": "^ a b Pratt, Bruner & Berrett 1987, pp. 98-107.",
"enumerated": true,
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@@ -6416,7 +6416,7 @@
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"orig": "^ Fitter, Fitter & Hosking 2000, pp. 523.",
"text": "^ Fitter, Fitter & Hosking 2000, pp. 523.",
"text": "^ Fitter, Fitter & Hosking 2000, pp. 52-3.",
"enumerated": true,
"marker": ""
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@@ -6472,7 +6472,7 @@
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"orig": "^ Rohwer, Frank C.; Anderson, Michael G. (1988). \"Female-Biased Philopatry, Monogamy, and the Timing of Pair Formation in Migratory Waterfowl\". Current Ornithology. pp. 187221. doi:10.1007/978-1-4615-6787-5_4. ISBN 978-1-4615-6789-9.",
"text": "^ Rohwer, Frank C.; Anderson, Michael G. (1988). \"Female-Biased Philopatry, Monogamy, and the Timing of Pair Formation in Migratory Waterfowl\". Current Ornithology. pp. 187221. doi:10.1007/978-1-4615-6787-5_4. ISBN 978-1-4615-6789-9.",
"text": "^ Rohwer, Frank C.; Anderson, Michael G. (1988). \"Female-Biased Philopatry, Monogamy, and the Timing of Pair Formation in Migratory Waterfowl\". Current Ornithology. pp. 187-221. doi:10.1007/978-1-4615-6787-5_4. ISBN 978-1-4615-6789-9.",
"enumerated": true,
"marker": ""
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@@ -6486,7 +6486,7 @@
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"orig": "^ Smith, Cyndi M.; Cooke, Fred; Robertson, Gregory J.; Goudie, R. Ian; Boyd, W. Sean (2000). \"Long-Term Pair Bonds in Harlequin Ducks\". The Condor. 102 (1): 201205. doi:10.1093/condor/102.1.201. hdl:10315/13797.",
"text": "^ Smith, Cyndi M.; Cooke, Fred; Robertson, Gregory J.; Goudie, R. Ian; Boyd, W. Sean (2000). \"Long-Term Pair Bonds in Harlequin Ducks\". The Condor. 102 (1): 201205. doi:10.1093/condor/102.1.201. hdl:10315/13797.",
"text": "^ Smith, Cyndi M.; Cooke, Fred; Robertson, Gregory J.; Goudie, R. Ian; Boyd, W. Sean (2000). \"Long-Term Pair Bonds in Harlequin Ducks\". The Condor. 102 (1): 201-205. doi:10.1093/condor/102.1.201. hdl:10315/13797.",
"enumerated": true,
"marker": ""
},
@@ -6951,7 +6951,7 @@
"label": "list_item",
"prov": [],
"orig": "Donne-Goussé, Carole; Laudet, Vincent; Hänni, Catherine (July 2002). \"A molecular phylogeny of Anseriformes based on mitochondrial DNA analysis\". Molecular Phylogenetics and Evolution. 23 (3): 339356. Bibcode:2002MolPE..23..339D. doi:10.1016/S1055-7903(02)00019-2. PMID 12099792.",
"text": "Donne-Goussé, Carole; Laudet, Vincent; Hänni, Catherine (July 2002). \"A molecular phylogeny of Anseriformes based on mitochondrial DNA analysis\". Molecular Phylogenetics and Evolution. 23 (3): 339356. Bibcode:2002MolPE..23..339D. doi:10.1016/S1055-7903(02)00019-2. PMID 12099792.",
"text": "Donne-Goussé, Carole; Laudet, Vincent; Hänni, Catherine (July 2002). \"A molecular phylogeny of Anseriformes based on mitochondrial DNA analysis\". Molecular Phylogenetics and Evolution. 23 (3): 339-356. Bibcode:2002MolPE..23..339D. doi:10.1016/S1055-7903(02)00019-2. PMID 12099792.",
"enumerated": false,
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@@ -6993,7 +6993,7 @@
"label": "list_item",
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"orig": "Fieldhouse, Paul (2002). Food, Feasts, and Faith: An Encyclopedia of Food Culture in World Religions. Vol. I: AK. Santa Barbara: ABC-CLIO. ISBN 978-1-61069-412-4.",
"text": "Fieldhouse, Paul (2002). Food, Feasts, and Faith: An Encyclopedia of Food Culture in World Religions. Vol. I: AK. Santa Barbara: ABC-CLIO. ISBN 978-1-61069-412-4.",
"text": "Fieldhouse, Paul (2002). Food, Feasts, and Faith: An Encyclopedia of Food Culture in World Religions. Vol. I: A-K. Santa Barbara: ABC-CLIO. ISBN 978-1-61069-412-4.",
"enumerated": false,
"marker": ""
},
@@ -7077,7 +7077,7 @@
"label": "list_item",
"prov": [],
"orig": "Livezey, Bradley C. (October 1986). \"A phylogenetic analysis of recent Anseriform genera using morphological characters\" (PDF). The Auk. 103 (4): 737754. doi:10.1093/auk/103.4.737. Archived (PDF) from the original on 2022-10-09.",
"text": "Livezey, Bradley C. (October 1986). \"A phylogenetic analysis of recent Anseriform genera using morphological characters\" (PDF). The Auk. 103 (4): 737754. doi:10.1093/auk/103.4.737. Archived (PDF) from the original on 2022-10-09.",
"text": "Livezey, Bradley C. (October 1986). \"A phylogenetic analysis of recent Anseriform genera using morphological characters\" (PDF). The Auk. 103 (4): 737-754. doi:10.1093/auk/103.4.737. Archived (PDF) from the original on 2022-10-09.",
"enumerated": false,
"marker": ""
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@@ -7091,7 +7091,7 @@
"label": "list_item",
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"orig": "Madsen, Cort S.; McHugh, Kevin P.; de Kloet, Siwo R. (July 1988). \"A partial classification of waterfowl (Anatidae) based on single-copy DNA\" (PDF). The Auk. 105 (3): 452459. doi:10.1093/auk/105.3.452. Archived (PDF) from the original on 2022-10-09.",
"text": "Madsen, Cort S.; McHugh, Kevin P.; de Kloet, Siwo R. (July 1988). \"A partial classification of waterfowl (Anatidae) based on single-copy DNA\" (PDF). The Auk. 105 (3): 452459. doi:10.1093/auk/105.3.452. Archived (PDF) from the original on 2022-10-09.",
"text": "Madsen, Cort S.; McHugh, Kevin P.; de Kloet, Siwo R. (July 1988). \"A partial classification of waterfowl (Anatidae) based on single-copy DNA\" (PDF). The Auk. 105 (3): 452-459. doi:10.1093/auk/105.3.452. Archived (PDF) from the original on 2022-10-09.",
"enumerated": false,
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