Merge branch 'main' of http://www.hzkjai.com:27010/huanghai/dsProject

dsLightRag/Topic/Chemistry/graph_chunk_entity_relation.graphml

@@ -16,6 +16,12 @@
     <node id="Nitric Acid">
       <data key="d0">Nitric Acid</data>
       <data key="d1">category</data>
+<<<<<<< HEAD
+      <data key="d2">Nitric Acid (HNO₃) is a chemical compound involved in decomposition and reaction processes described in the text.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+=======
       <data key="d2">Nitric acid (HNO₃) is a chemical compound involved in photodecomposition and reactions with iron oxide.</data>
       <data key="d3">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d4">unknown_source</data>
@@ -52,18 +58,72 @@
       <data key="d3">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d4">unknown_source</data>
       <data key="d5">1752205395</data>
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     </node>
     <node id="Nitrogen Dioxide">
       <data key="d0">Nitrogen Dioxide</data>
       <data key="d1">category</data>
+<<<<<<< HEAD
+      <data key="d2">Nitrogen Dioxide (NO₂) is a gas produced in the decomposition of Nitric Acid and reactions involving Nitric Acid.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Oxygen">
+      <data key="d0">Oxygen</data>
+      <data key="d1">category</data>
+      <data key="d2">Oxygen (O₂) is a gas produced in the decomposition of Nitric Acid and involved in combustion reactions.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Iron Oxide">
+      <data key="d0">Iron Oxide</data>
+      <data key="d1">category</data>
+      <data key="d2">Iron Oxide (FeO) is a chemical compound that reacts with Nitric Acid to produce Iron Nitrate, Hydrogen, and Nitrogen Dioxide.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+=======
       <data key="d2">Nitrogen dioxide (NO₂) is a byproduct of the decomposition of nitric acid and the reaction between iron oxide and nitric acid.</data>
       <data key="d3">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d4">unknown_source</data>
       <data key="d5">1752205395</data>
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     </node>
     <node id="Iron Nitrate">
       <data key="d0">Iron Nitrate</data>
       <data key="d1">category</data>
+<<<<<<< HEAD
+      <data key="d2">Iron Nitrate (Fe(NO₃)₃) is a product of the reaction between Iron Oxide and Nitric Acid.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Hydrogen">
+      <data key="d0">Hydrogen</data>
+      <data key="d1">category</data>
+      <data key="d2">Hydrogen (H₂) is a gas produced in the reaction between Iron Oxide and Nitric Acid and involved in combustion reactions.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Water">
+      <data key="d0">Water</data>
+      <data key="d1">category</data>
+      <data key="d2">Water (H₂O) is a product of the combustion reaction between Hydrogen and Oxygen.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Nitric Acid (HNO₃)">
+      <data key="d0">Nitric Acid (HNO₃)</data>
+      <data key="d1">category</data>
+      <data key="d2">A strong mineral acid involved in decomposition and redox reactions, producing nitrogen dioxide and oxygen when exposed to light or heat.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+=======
       <data key="d2">Iron nitrate (Fe(NO₃)₃) is a product of the reaction between iron oxide and nitric acid.</data>
       <data key="d3">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d4">unknown_source</data>
@@ -76,26 +136,190 @@
       <data key="d3">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d4">unknown_source</data>
       <data key="d5">1752205395</data>
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     </node>
     <node id="Nitrogen Dioxide (NO₂)">
       <data key="d0">Nitrogen Dioxide (NO₂)</data>
       <data key="d1">category</data>
+<<<<<<< HEAD
+      <data key="d2">A reddish-brown gas produced as a byproduct in nitric acid decomposition and iron oxide reactions.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+=======
       <data key="d2">A reddish-brown toxic gas produced as a byproduct in nitric acid decomposition and iron oxide reactions.</data>
       <data key="d3">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d4">unknown_source</data>
       <data key="d5">1752205395</data>
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     </node>
     <node id="Oxygen (O₂)">
       <data key="d0">Oxygen (O₂)</data>
       <data key="d1">category</data>
       <data key="d2">A diatomic gas produced in nitric acid decomposition and consumed in hydrogen combustion.</data>
+<<<<<<< HEAD
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Iron Oxide (FeO)">
+      <data key="d0">Iron Oxide (FeO)</data>
+      <data key="d1">category</data>
+      <data key="d2">A chemical compound that reacts with nitric acid to form iron nitrate, hydrogen gas, and nitrogen dioxide.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Iron Nitrate (Fe(NO₃)₃)">
+      <data key="d0">Iron Nitrate (Fe(NO₃)₃)</data>
+      <data key="d1">category</data>
+      <data key="d2">The product formed when iron oxide reacts with nitric acid under heating conditions.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Hydrogen (H₂)">
+      <data key="d0">Hydrogen (H₂)</data>
+      <data key="d1">category</data>
+      <data key="d2">A flammable gas produced in iron oxide-nitric acid reactions and consumed in combustion with oxygen.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+=======
       <data key="d3">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d4">unknown_source</data>
       <data key="d5">1752205395</data>
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     </node>
     <node id="Water (H₂O)">
       <data key="d0">Water (H₂O)</data>
       <data key="d1">category</data>
+<<<<<<< HEAD
+      <data key="d2">The product of hydrogen combustion, formed when hydrogen reacts with oxygen.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Light/Heat (Δ)">
+      <data key="d0">Light/Heat (Δ)</data>
+      <data key="d1">category</data>
+      <data key="d2">The energy input required for nitric acid decomposition and iron oxide reactions.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <node id="Combustion">
+      <data key="d0">Combustion</data>
+      <data key="d1">event</data>
+      <data key="d2">A high-temperature exothermic reaction between hydrogen and oxygen producing water.</data>
+      <data key="d3">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752193087</data>
+    </node>
+    <edge source="Nitric Acid" target="Nitrogen Dioxide">
+      <data key="d6">9.0</data>
+      <data key="d7">Nitric Acid decomposes to produce Nitrogen Dioxide under light or heat.</data>
+      <data key="d8">chemical decomposition,gas production</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Nitric Acid" target="Oxygen">
+      <data key="d6">8.0</data>
+      <data key="d7">Nitric Acid decomposes to produce Oxygen gas under light or heat.</data>
+      <data key="d8">chemical decomposition,gas production</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Nitric Acid" target="Iron Oxide">
+      <data key="d6">10.0</data>
+      <data key="d7">Iron Oxide reacts with Nitric Acid to produce Iron Nitrate, Hydrogen, and Nitrogen Dioxide.</data>
+      <data key="d8">acid-base interaction,chemical reaction</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Oxygen" target="Hydrogen">
+      <data key="d6">9.0</data>
+      <data key="d7">Hydrogen combusts with Oxygen to produce Water.</data>
+      <data key="d8">combustion reaction,energy release</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Nitric Acid (HNO₃)" target="Light/Heat (Δ)">
+      <data key="d6">9.0</data>
+      <data key="d7">Nitric acid requires light or heat energy to decompose into nitrogen dioxide and oxygen.</data>
+      <data key="d8">energy requirement,reaction condition</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Nitric Acid (HNO₃)" target="Nitrogen Dioxide (NO₂)">
+      <data key="d6">10.0</data>
+      <data key="d7">Nitric acid decomposition produces nitrogen dioxide as a primary product.</data>
+      <data key="d8">chemical decomposition,gas production</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Nitric Acid (HNO₃)" target="Oxygen (O₂)">
+      <data key="d6">9.0</data>
+      <data key="d7">Nitric acid decomposition yields oxygen gas as a byproduct.</data>
+      <data key="d8">gas evolution,redox reaction</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Nitric Acid (HNO₃)" target="Iron Oxide (FeO)">
+      <data key="d6">10.0</data>
+      <data key="d7">Iron oxide reacts with nitric acid under heating conditions to produce multiple compounds.</data>
+      <data key="d8">acid-base reaction,redox process</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Oxygen (O₂)" target="Hydrogen (H₂)">
+      <data key="d6">10.0</data>
+      <data key="d7">Hydrogen combusts with oxygen in an exothermic reaction to form water.</data>
+      <data key="d8">combustion,energy release</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Oxygen (O₂)" target="Combustion">
+      <data key="d6">9.0</data>
+      <data key="d7">Oxygen acts as the oxidizer in the hydrogen combustion event.</data>
+      <data key="d8">oxidation,reaction partner</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Iron Oxide (FeO)" target="Iron Nitrate (Fe(NO₃)₃)">
+      <data key="d6">9.0</data>
+      <data key="d7">Iron oxide transforms into iron nitrate through reaction with nitric acid.</data>
+      <data key="d8">chemical transformation,salt formation</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Iron Oxide (FeO)" target="Hydrogen (H₂)">
+      <data key="d6">8.0</data>
+      <data key="d7">The reaction between iron oxide and nitric acid produces hydrogen gas.</data>
+      <data key="d8">gas production,redox byproduct</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+    </edge>
+    <edge source="Hydrogen (H₂)" target="Combustion">
+      <data key="d6">9.0</data>
+      <data key="d7">Hydrogen participates as a fuel in the combustion event.</data>
+      <data key="d8">exothermic process,reactive component</data>
+      <data key="d9">chunk-c944b40c845357549a25762357eaddc7</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752193087</data>
+=======
       <data key="d2">A compound formed in both nitric acid decomposition and hydrogen-oxygen combustion.</data>
       <data key="d3">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d4">unknown_source</data>
@@ -260,6 +484,7 @@
       <data key="d9">chunk-d0c3bf985a3b3b903e2fb35515fdff1e</data>
       <data key="d10">unknown_source</data>
       <data key="d11">1752205395</data>
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     </edge>
   </graph>
 </graphml>

dsLightRag/Topic/Chemistry/kv_store_doc_status.json

@@ -1,4 +1,14 @@
 {
+<<<<<<< HEAD
+  "doc-c944b40c845357549a25762357eaddc7": {
+    "status": "processed",
+    "chunks_count": 1,
+    "content": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{{Delta}}}{=}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氧化铁与硝酸的加热反应方程式\n$$FeO + 4HNO_{3}overset{overset{}{{Delta}}}{=}Fe(NO_{3})_{3} + 2H_{2} uparrow + NO_{2} uparrow$$\n氢气与氧气燃烧的现象如下图所示：\n$$2H_{2} + O_{2}overset{overset{}{text{燃烧}}}{=}2H_{2}O$$\n![](./Images/554076793cbb4ac7a6baa38782527b22/media/image1.png)",
+    "content_summary": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{{Delta}}}{=}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氧化铁与硝酸的加热反应方程式\n$$FeO + 4HNO_{3}overset{overset{}{{Delta}}}{=}Fe(NO_{3})_{3} + 2H_{2} uparrow + NO_{2} uparrow$$\n氢气与氧气燃烧的现象如下图所示：\n$$2H_{2} + O_{2}overset{ov...",
+    "content_length": 344,
+    "created_at": "2025-07-11T00:17:16.979064+00:00",
+    "updated_at": "2025-07-11T00:18:08.428207+00:00",
+=======
   "doc-d0c3bf985a3b3b903e2fb35515fdff1e": {
     "status": "processed",
     "chunks_count": 1,
@@ -7,6 +17,7 @@
     "content_length": 344,
     "created_at": "2025-07-11T03:42:25.898814+00:00",
     "updated_at": "2025-07-11T03:43:17.438419+00:00",
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     "file_path": "unknown_source"
   }
 }

dsLightRag/Topic/Chemistry/kv_store_full_docs.json

@@ -1,5 +1,10 @@
 {
+<<<<<<< HEAD
+  "doc-c944b40c845357549a25762357eaddc7": {
+    "content": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{{Delta}}}{=}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氧化铁与硝酸的加热反应方程式\n$$FeO + 4HNO_{3}overset{overset{}{{Delta}}}{=}Fe(NO_{3})_{3} + 2H_{2} uparrow + NO_{2} uparrow$$\n氢气与氧气燃烧的现象如下图所示：\n$$2H_{2} + O_{2}overset{overset{}{text{燃烧}}}{=}2H_{2}O$$\n![](./Images/554076793cbb4ac7a6baa38782527b22/media/image1.png)"
+=======
   "doc-d0c3bf985a3b3b903e2fb35515fdff1e": {
     "content": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{{Delta}}}{=}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氧化铁与硝酸的加热反应方程式\n$$FeO + 4HNO_{3}overset{overset{}{{Delta}}}{=}Fe(NO_{3})_{3} + 2H_{2} uparrow + NO_{2} uparrow$$\n氢气与氧气燃烧的现象如下图所示：\n$$2H_{2} + O_{2}overset{overset{}{text{燃烧}}}{=}2H_{2}O$$\n![](./Images/c8c0221648af480699a364fd50cbbeb6/media/image1.png)"
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
   }
 }

dsLightRag/Topic/Chemistry/kv_store_text_chunks.json

@@ -1,9 +1,17 @@
 {
+<<<<<<< HEAD
+  "chunk-c944b40c845357549a25762357eaddc7": {
+    "tokens": 195,
+    "content": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{{Delta}}}{=}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氧化铁与硝酸的加热反应方程式\n$$FeO + 4HNO_{3}overset{overset{}{{Delta}}}{=}Fe(NO_{3})_{3} + 2H_{2} uparrow + NO_{2} uparrow$$\n氢气与氧气燃烧的现象如下图所示：\n$$2H_{2} + O_{2}overset{overset{}{text{燃烧}}}{=}2H_{2}O$$\n![](./Images/554076793cbb4ac7a6baa38782527b22/media/image1.png)",
+    "chunk_order_index": 0,
+    "full_doc_id": "doc-c944b40c845357549a25762357eaddc7",
+=======
   "chunk-d0c3bf985a3b3b903e2fb35515fdff1e": {
     "tokens": 195,
     "content": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{{Delta}}}{=}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氧化铁与硝酸的加热反应方程式\n$$FeO + 4HNO_{3}overset{overset{}{{Delta}}}{=}Fe(NO_{3})_{3} + 2H_{2} uparrow + NO_{2} uparrow$$\n氢气与氧气燃烧的现象如下图所示：\n$$2H_{2} + O_{2}overset{overset{}{text{燃烧}}}{=}2H_{2}O$$\n![](./Images/c8c0221648af480699a364fd50cbbeb6/media/image1.png)",
     "chunk_order_index": 0,
     "full_doc_id": "doc-d0c3bf985a3b3b903e2fb35515fdff1e",
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     "file_path": "unknown_source"
   }
 }

dsLightRag/Topic/Chinese/kv_store_llm_response_cache.json

@@ -19,6 +19,69 @@
       "embedding_min": null,
       "embedding_max": null,
       "original_prompt": "苏轼的家人都有谁?"
+<<<<<<< HEAD
+    },
+    "0866bc72067432ca7e2676c73832db63": {
+      "return": "{\"high_level_keywords\": [\"\\u785d\\u9178\\u5206\\u89e3\", \"\\u5149\\u7167\\u53cd\\u5e94\", \"\\u5316\\u5b66\\u53cd\\u5e94\"], \"low_level_keywords\": [\"\\u785d\\u9178\", \"\\u5149\\u7167\", \"\\u5206\\u89e3\\u4ea7\\u7269\", \"\\u53cd\\u5e94\\u6761\\u4ef6\", \"\\u5316\\u5b66\\u65b9\\u7a0b\\u5f0f\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "硝酸的光照分解反应?"
+    },
+    "d76baeceecdfd9ed35f72d4f94537986": {
+      "return": "{\"high_level_keywords\": [\"\\u5316\\u5b66\\u53cd\\u5e94\", \"\\u71c3\\u70e7\\u73b0\\u8c61\", \"\\u6c14\\u4f53\\u53cd\\u5e94\"], \"low_level_keywords\": [\"\\u6c22\\u6c14\", \"\\u6c27\\u6c14\", \"\\u6c34\", \"\\u706b\\u7130\", \"\\u70ed\\u91ca\\u653e\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "氢气与氧气燃烧的现象?"
+    },
+    "39927327159cfd7cca859e211cc6e357": {
+      "return": "{\"high_level_keywords\": [\"\\u6559\\u5b66\\u8bbe\\u8ba1\", \"\\u51e0\\u4f55\\u6982\\u5ff5\", \"\\u6570\\u5b66\\u6559\\u80b2\"], \"low_level_keywords\": [\"\\u70b9\", \"\\u7ebf\", \"\\u9762\", \"\\u4f53\", \"\\u89d2\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "帮我写一下 如何理解点、线、面、体、角 的教学设计"
+    },
+    "554f9fea1b1b2beda037f4f9d375ad01": {
+      "return": "{\"high_level_keywords\": [\"\\u82cf\\u8f7c\", \"\\u670b\\u53cb\", \"\\u4eba\\u9645\\u5173\\u7cfb\"], \"low_level_keywords\": [\"\\u9ec4\\u5ead\\u575a\", \"\\u7c73\\u82be\", \"\\u8521\\u8944\", \"\\u6b27\\u9633\\u4fee\", \"\\u738b\\u5b89\\u77f3\", \"\\u6587\\u540c\", \"\\u79e6\\u89c2\", \"\\u6641\\u8865\\u4e4b\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "苏轼的好朋友都有谁?"
+    },
+    "0a884d9573c9ac6f3fa795301a5fd43b": {
+      "return": "{\"high_level_keywords\": [\"\\u5386\\u53f2\\u4eba\\u7269\", \"\\u4e2d\\u56fd\\u6587\\u5316\"], \"low_level_keywords\": [\"\\u9648\\u5b63\\u5e38\", \"\\u5317\\u5b8b\", \"\\u82cf\\u8f7c\", \"\\u6cb3\\u4e1c\\u72ee\\u543c\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "陈季常是谁？"
+    },
+    "f228e58d06f5c7d16ab6f7094e733f60": {
+      "return": "{\"high_level_keywords\": [\"\\u82cf\\u8f7c\", \"\\u6709\\u540d\\u8bd7\\u53e5\", \"\\u6587\\u5b66\\u4f5c\\u54c1\"], \"low_level_keywords\": [\"\\u6c34\\u8c03\\u6b4c\\u5934\", \"\\u5ff5\\u5974\\u5a07\\u00b7\\u8d64\\u58c1\\u6000\\u53e4\", \"\\u6c5f\\u57ce\\u5b50\\u00b7\\u5bc6\\u5dde\\u51fa\\u730e\", \"\\u9898\\u897f\\u6797\\u58c1\", \"\\u996e\\u6e56\\u4e0a\\u521d\\u6674\\u540e\\u96e8\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "苏轼有哪些有名的诗句?"
+=======
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     }
   }
 }

dsLightRag/Topic/Math/kv_store_llm_response_cache.json

@@ -9,6 +9,49 @@
       "embedding_min": null,
       "embedding_max": null,
       "original_prompt": "小学数学中有哪些常见模型？"
+<<<<<<< HEAD
+    },
+    "9b37cd625bfa223f5c83501990ad6be1": {
+      "return": "{\"high_level_keywords\": [\"\\u82cf\\u8f7c\", \"\\u5bb6\\u4eba\", \"\\u5bb6\\u5ead\\u5173\\u7cfb\"], \"low_level_keywords\": [\"\\u82cf\\u6d35\", \"\\u82cf\\u8f99\", \"\\u738b\\u5f17\", \"\\u738b\\u671d\\u4e91\", \"\\u82cf\\u8fc8\", \"\\u82cf\\u8fc7\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "苏轼的家人都有谁?"
+    },
+    "0866bc72067432ca7e2676c73832db63": {
+      "return": "{\"high_level_keywords\": [\"\\u785d\\u9178\\u5206\\u89e3\", \"\\u5149\\u7167\\u53cd\\u5e94\", \"\\u5316\\u5b66\\u53cd\\u5e94\"], \"low_level_keywords\": [\"\\u785d\\u9178\", \"\\u5149\\u7167\", \"\\u5206\\u89e3\\u4ea7\\u7269\", \"\\u53cd\\u5e94\\u6761\\u4ef6\", \"\\u5316\\u5b66\\u65b9\\u7a0b\\u5f0f\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "硝酸的光照分解反应?"
+    },
+    "d76baeceecdfd9ed35f72d4f94537986": {
+      "return": "{\"high_level_keywords\": [\"\\u5316\\u5b66\\u53cd\\u5e94\", \"\\u71c3\\u70e7\\u73b0\\u8c61\", \"\\u6c14\\u4f53\\u53cd\\u5e94\"], \"low_level_keywords\": [\"\\u6c22\\u6c14\", \"\\u6c27\\u6c14\", \"\\u6c34\", \"\\u706b\\u7130\", \"\\u70ed\\u91ca\\u653e\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "氢气与氧气燃烧的现象?"
+    },
+    "39927327159cfd7cca859e211cc6e357": {
+      "return": "{\"high_level_keywords\": [\"\\u6559\\u5b66\\u8bbe\\u8ba1\", \"\\u51e0\\u4f55\\u6982\\u5ff5\", \"\\u6570\\u5b66\\u6559\\u80b2\"], \"low_level_keywords\": [\"\\u70b9\", \"\\u7ebf\", \"\\u9762\", \"\\u4f53\", \"\\u89d2\"]}",
+      "cache_type": "keywords",
+      "chunk_id": null,
+      "embedding": null,
+      "embedding_shape": null,
+      "embedding_min": null,
+      "embedding_max": null,
+      "original_prompt": "帮我写一下 如何理解点、线、面、体、角 的教学设计"
+=======
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786
     }
   }
 }

dsLightRag/static/markdown/Chemistry.md

@@ -4,4 +4,8 @@ $$4HNO_{3}\overset{\overset{}{{\Delta}}}{=}4NO_{2} \uparrow + O_{2} \uparrow + 2
 $$FeO + 4HNO_{3}\overset{\overset{}{{\Delta}}}{=}Fe(NO_{3})_{3} + 2H_{2} \uparrow + NO_{2} \uparrow$$
 氢气与氧气燃烧的现象如下图所示：
 $$2H_{2} + O_{2}\overset{\overset{}{\text{燃烧}}}{=}2H_{2}O$$
+<<<<<<< HEAD
+![](./Images/554076793cbb4ac7a6baa38782527b22/media/image1.png)
+=======
 ![](./Images/c8c0221648af480699a364fd50cbbeb6/media/image1.png)
+>>>>>>> 402c9596e8417ab8a6aefc9985d04acf0169c786