'commit'

2 weeks ago · bb126c9969
parent cffd9f275b
commit bb126c9969
10 changed files with 264 additions and 6 deletions
--- a/dsLightRag/T2_Query.py
+++ b/dsLightRag/T2_Query.py
@ -5,7 +5,8 @@ from lightrag import QueryParam

 # 化学
 data = [
-    {"NAME": "Chemistry", "Q": "硝酸光照分解的化学反应方程式是什么", "ChineseName": "化学"},
+    # {"NAME": "Chemistry", "Q": "硝酸光照分解的化学反应方程式是什么", "ChineseName": "化学"},
+    {"NAME": "Chemistry", "Q": "氢气与氧气燃烧的现象", "ChineseName": "化学"},
    {"NAME": "Math", "Q": "氧化铁与硝酸的化学反应方程式是什么", "ChineseName": "数学"},
    {"NAME": "Chinese", "Q": "氧化铁与硝酸的化学反应方程式是什么", "ChineseName": "语文"}]

--- a/dsLightRag/Topic/Chemistry/graph_chunk_entity_relation.graphml
+++ b/dsLightRag/Topic/Chemistry/graph_chunk_entity_relation.graphml
@ -0,0 +1,201 @@
+<?xml version='1.0' encoding='utf-8'?>
+<graphml xmlns="http://graphml.graphdrawing.org/xmlns" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://graphml.graphdrawing.org/xmlns http://graphml.graphdrawing.org/xmlns/1.0/graphml.xsd">
+  <key id="d11" for="edge" attr.name="created_at" attr.type="long" />
+  <key id="d10" for="edge" attr.name="file_path" attr.type="string" />
+  <key id="d9" for="edge" attr.name="source_id" attr.type="string" />
+  <key id="d8" for="edge" attr.name="keywords" attr.type="string" />
+  <key id="d7" for="edge" attr.name="description" attr.type="string" />
+  <key id="d6" for="edge" attr.name="weight" attr.type="double" />
+  <key id="d5" for="node" attr.name="created_at" attr.type="long" />
+  <key id="d4" for="node" attr.name="file_path" attr.type="string" />
+  <key id="d3" for="node" attr.name="source_id" attr.type="string" />
+  <key id="d2" for="node" attr.name="description" attr.type="string" />
+  <key id="d1" for="node" attr.name="entity_type" attr.type="string" />
+  <key id="d0" for="node" attr.name="entity_id" attr.type="string" />
+  <graph edgedefault="undirected">
+    <node id="Nitric Acid">
+      <data key="d0">Nitric Acid</data>
+      <data key="d1">category</data>
+      <data key="d2">Nitric acid (HNO₃) is a chemical compound involved in photodecomposition.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Nitrogen Dioxide">
+      <data key="d0">Nitrogen Dioxide</data>
+      <data key="d1">category</data>
+      <data key="d2">Nitrogen dioxide (NO₂) is a gas produced during the photodecomposition of nitric acid.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Oxygen">
+      <data key="d0">Oxygen</data>
+      <data key="d1">category</data>
+      <data key="d2">Oxygen (O₂) is a gas produced during the photodecomposition of nitric acid.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Water">
+      <data key="d0">Water</data>
+      <data key="d1">category</data>
+      <data key="d2">Water (H₂O) is a byproduct of the photodecomposition of nitric acid.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Hydrogen">
+      <data key="d0">Hydrogen</data>
+      <data key="d1">category</data>
+      <data key="d2">Hydrogen (H₂) is a chemical element involved in combustion with oxygen.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Combustion">
+      <data key="d0">Combustion</data>
+      <data key="d1">event</data>
+      <data key="d2">Combustion is a chemical reaction between hydrogen and oxygen, producing water and energy.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Nitric Acid Photodecomposition">
+      <data key="d0">Nitric Acid Photodecomposition</data>
+      <data key="d1">event</data>
+      <data key="d2">The chemical reaction where nitric acid breaks down into nitrogen dioxide, oxygen, and water under light exposure.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Chemical Equation">
+      <data key="d0">Chemical Equation</data>
+      <data key="d1">category</data>
+      <data key="d2">The mathematical representation of the nitric acid photodecomposition reaction.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Light Exposure">
+      <data key="d0">Light Exposure</data>
+      <data key="d1">category</data>
+      <data key="d2">The condition required for the photodecomposition of nitric acid to occur.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Gas Production">
+      <data key="d0">Gas Production</data>
+      <data key="d1">category</data>
+      <data key="d2">The generation of nitrogen dioxide and oxygen gases during nitric acid decomposition.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Hydrogen-Oxygen Combustion">
+      <data key="d0">Hydrogen-Oxygen Combustion</data>
+      <data key="d1">event</data>
+      <data key="d2">The chemical reaction between hydrogen and oxygen that produces water and energy.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <node id="Reaction Diagram">
+      <data key="d0">Reaction Diagram</data>
+      <data key="d1">category</data>
+      <data key="d2">Visual representation of the hydrogen-oxygen combustion process.</data>
+      <data key="d3">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d4">unknown_source</data>
+      <data key="d5">1752048391</data>
+    </node>
+    <edge source="Nitric Acid" target="Nitrogen Dioxide">
+      <data key="d6">9.0</data>
+      <data key="d7">Nitric acid decomposes under light to produce nitrogen dioxide.</data>
+      <data key="d8">chemical reaction,photodecomposition</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Nitric Acid" target="Oxygen">
+      <data key="d6">9.0</data>
+      <data key="d7">Nitric acid decomposes under light to produce oxygen.</data>
+      <data key="d8">chemical reaction,photodecomposition</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Nitric Acid" target="Water">
+      <data key="d6">9.0</data>
+      <data key="d7">Nitric acid decomposes under light to produce water.</data>
+      <data key="d8">chemical reaction,photodecomposition</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Nitric Acid" target="Nitric Acid Photodecomposition">
+      <data key="d6">10.0</data>
+      <data key="d7">Nitric acid undergoes photodecomposition when exposed to light.</data>
+      <data key="d8">chemical reaction,light dependence</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Oxygen" target="Hydrogen">
+      <data key="d6">10.0</data>
+      <data key="d7">Hydrogen reacts with oxygen in a combustion reaction to produce water.</data>
+      <data key="d8">chemical reaction,combustion</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Oxygen" target="Hydrogen-Oxygen Combustion">
+      <data key="d6">10.0</data>
+      <data key="d7">Oxygen reacts with hydrogen in a combustion reaction.</data>
+      <data key="d8">chemical reaction,oxidation</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Hydrogen" target="Hydrogen-Oxygen Combustion">
+      <data key="d6">10.0</data>
+      <data key="d7">Hydrogen reacts with oxygen in a combustion reaction.</data>
+      <data key="d8">chemical reaction,energy production</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Nitric Acid Photodecomposition" target="Chemical Equation">
+      <data key="d6">9.0</data>
+      <data key="d7">The chemical equation quantitatively describes the photodecomposition process.</data>
+      <data key="d8">mathematical representation,reaction stoichiometry</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Nitric Acid Photodecomposition" target="Light Exposure">
+      <data key="d6">8.0</data>
+      <data key="d7">Light exposure is necessary to initiate the photodecomposition reaction.</data>
+      <data key="d8">energy input,reaction condition</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Nitric Acid Photodecomposition" target="Gas Production">
+      <data key="d6">9.0</data>
+      <data key="d7">The reaction produces nitrogen dioxide and oxygen gases as products.</data>
+      <data key="d8">gas evolution,reaction products</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+    <edge source="Hydrogen-Oxygen Combustion" target="Reaction Diagram">
+      <data key="d6">7.0</data>
+      <data key="d7">The diagram visually depicts the hydrogen-oxygen combustion process.</data>
+      <data key="d8">reaction mechanism,visual representation</data>
+      <data key="d9">chunk-649eda4a829e2210c955c627ef9e4b49</data>
+      <data key="d10">unknown_source</data>
+      <data key="d11">1752048391</data>
+    </edge>
+  </graph>
+</graphml>
--- a/dsLightRag/Topic/Chemistry/kv_store_doc_status.json
+++ b/dsLightRag/Topic/Chemistry/kv_store_doc_status.json
@ -1,12 +1,12 @@
 {
  "doc-649eda4a829e2210c955c627ef9e4b49": {
-    "status": "processing",
+    "status": "processed",
    "chunks_count": 1,
    "content": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{phantom{Delta}}}{underset{underset{}{text{或光照}}}{=}}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氢气与氧气燃烧的现象如下图所示：\n![](./static/Images/b1737f8d76564d9e86123045b53fc973/media/image1.png)",
    "content_summary": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{phantom{Delta}}}{underset{underset{}{text{或光照}}}{=}}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氢气与氧气燃烧的现象如下图所示：\n![](./static/Images/b1737f8d76564d9e86123045b53fc973/media/image1.png)",
    "content_length": 222,
    "created_at": "2025-07-09T08:05:51.068278+00:00",
-    "updated_at": "2025-07-09T08:05:51.071523+00:00",
+    "updated_at": "2025-07-09T08:06:32.827197+00:00",
    "file_path": "unknown_source"
  }
 }
--- a/dsLightRag/Topic/Chemistry/kv_store_full_docs.json
+++ b/dsLightRag/Topic/Chemistry/kv_store_full_docs.json
@ -0,0 +1,5 @@
+{
+  "doc-649eda4a829e2210c955c627ef9e4b49": {
+    "content": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{phantom{Delta}}}{underset{underset{}{text{或光照}}}{=}}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氢气与氧气燃烧的现象如下图所示：\n![](./static/Images/b1737f8d76564d9e86123045b53fc973/media/image1.png)"
+  }
+}
--- a/dsLightRag/Topic/Chemistry/kv_store_llm_response_cache.json
+++ b/dsLightRag/Topic/Chemistry/kv_store_llm_response_cache.json
--- a/dsLightRag/Topic/Chemistry/kv_store_text_chunks.json
+++ b/dsLightRag/Topic/Chemistry/kv_store_text_chunks.json
@ -0,0 +1,9 @@
+{
+  "chunk-649eda4a829e2210c955c627ef9e4b49": {
+    "tokens": 116,
+    "content": "硝酸光照分解的方程式\n$$4HNO_{3}overset{overset{}{phantom{Delta}}}{underset{underset{}{text{或光照}}}{=}}4NO_{2} uparrow + O_{2} uparrow + 2HO_{2}$$\n氢气与氧气燃烧的现象如下图所示：\n![](./static/Images/b1737f8d76564d9e86123045b53fc973/media/image1.png)",
+    "chunk_order_index": 0,
+    "full_doc_id": "doc-649eda4a829e2210c955c627ef9e4b49",
+    "file_path": "unknown_source"
+  }
+}
--- a/dsLightRag/Topic/Chemistry/vdb_chunks.json
+++ b/dsLightRag/Topic/Chemistry/vdb_chunks.json
--- a/dsLightRag/Topic/Chemistry/vdb_entities.json
+++ b/dsLightRag/Topic/Chemistry/vdb_entities.json
--- a/dsLightRag/Topic/Chemistry/vdb_relationships.json
+++ b/dsLightRag/Topic/Chemistry/vdb_relationships.json
--- a/dsLightRag/static/ai.html
+++ b/dsLightRag/static/ai.html
@ -199,9 +199,8 @@
                    <div class="example-item" onclick="fillExample('苏轼的好朋友都有谁?')">苏轼的好朋友都有谁?</div>
                    <div class="example-item" onclick="fillExample('苏轼的家人都有谁?')">苏轼的家人都有谁?</div>
                    <div class="example-item" onclick="fillExample('苏轼有哪些有名的诗句?')">苏轼有哪些有名的诗句?</div>
-                    <div class="example-item" onclick="fillExample('硝酸的光照分解反应?')">
-                        硝酸的光照分解反应?
-                    </div>
+                    <div class="example-item" onclick="fillExample('硝酸的光照分解反应?')"> 硝酸的光照分解反应?</div>
+                    <div class="example-item" onclick="fillExample('氢气与氧气燃烧的现象?')"> 氢气与氧气燃烧的现象?</div>
                </div>
            </div>
            <div class="example-category">