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<a href=#2 id=2 data-nosnippet>2</a>//!
<a href=#3 id=3 data-nosnippet>3</a>//! This module provides comprehensive JSON serialization, deserialization, and data transformation utilities
<a href=#4 id=4 data-nosnippet>4</a>//! designed for high-performance applications requiring efficient data persistence, integrity checking, and
<a href=#5 id=5 data-nosnippet>5</a>//! cross-format compatibility.
<a href=#6 id=6 data-nosnippet>6</a>//!
<a href=#7 id=7 data-nosnippet>7</a>//! ## Overview
<a href=#8 id=8 data-nosnippet>8</a>//!
<a href=#9 id=9 data-nosnippet>9</a>//! The `serde` module serves as a high-level abstraction over `serde_json` and related crates, offering:
<a href=#10 id=10 data-nosnippet>10</a>//! - **Ergonomic APIs**: Simple, safe functions for common serialization patterns
<a href=#11 id=11 data-nosnippet>11</a>//! - **Performance Optimizations**: Fast hashing, efficient encoding, and memory-conscious operations
<a href=#12 id=12 data-nosnippet>12</a>//! - **Data Integrity**: Built-in checksums and validation utilities
<a href=#13 id=13 data-nosnippet>13</a>//! - **Format Flexibility**: Support for JSON, base64, binary formats, and compressed data
<a href=#14 id=14 data-nosnippet>14</a>//! - **Async Support**: Non-blocking I/O operations for large data sets
<a href=#15 id=15 data-nosnippet>15</a>//!
<a href=#16 id=16 data-nosnippet>16</a>//! ## Architecture
<a href=#17 id=17 data-nosnippet>17</a>//!
<a href=#18 id=18 data-nosnippet>18</a>//! ### Design Principles
<a href=#19 id=19 data-nosnippet>19</a>//! - **Zero-Copy Where Possible**: Uses references and efficient data structures
<a href=#20 id=20 data-nosnippet>20</a>//! - **Fail-Fast Validation**: Early error detection with clear error messages
<a href=#21 id=21 data-nosnippet>21</a>//! - **Composable Operations**: Functions can be chained for complex workflows
<a href=#22 id=22 data-nosnippet>22</a>//! - **Memory Efficient**: Streaming operations and reusable buffers
<a href=#23 id=23 data-nosnippet>23</a>//! - **Thread Safe**: All operations are safe to use across thread boundaries
<a href=#24 id=24 data-nosnippet>24</a>//!
<a href=#25 id=25 data-nosnippet>25</a>//! ### Core Components
<a href=#26 id=26 data-nosnippet>26</a>//! - **JSON Operations**: Serialization/deserialization with various output formats
<a href=#27 id=27 data-nosnippet>27</a>//! - **Encoding Utilities**: Base64 encoding/decoding for binary data in text protocols
<a href=#28 id=28 data-nosnippet>28</a>//! - **Hashing Functions**: Fast non-cryptographic hashing for integrity and indexing
<a href=#29 id=29 data-nosnippet>29</a>//! - **Compression Integration**: Brotli and gzip compression for storage efficiency
<a href=#30 id=30 data-nosnippet>30</a>//! - **Async I/O**: File-based operations with async/await support
<a href=#31 id=31 data-nosnippet>31</a>//! - **Validation**: Runtime schema validation and data integrity checks
<a href=#32 id=32 data-nosnippet>32</a>//!
<a href=#33 id=33 data-nosnippet>33</a>//! ## Function Categories
<a href=#34 id=34 data-nosnippet>34</a>//!
<a href=#35 id=35 data-nosnippet>35</a>//! ### Basic JSON Operations
<a href=#36 id=36 data-nosnippet>36</a>//! - [`serialize_to_json`] - Convert structs to compact JSON strings
<a href=#37 id=37 data-nosnippet>37</a>//! - [`deserialize_from_json`] - Parse JSON strings into structs
<a href=#38 id=38 data-nosnippet>38</a>//! - [`pretty_json`] - Human-readable JSON formatting
<a href=#39 id=39 data-nosnippet>39</a>//! - [`parse_json_value`] - Type-safe JSON parsing
<a href=#40 id=40 data-nosnippet>40</a>//!
<a href=#41 id=41 data-nosnippet>41</a>//! ### Binary Data Handling
<a href=#42 id=42 data-nosnippet>42</a>//! - [`serialize_to_json_bytes`] - JSON as UTF-8 byte arrays
<a href=#43 id=43 data-nosnippet>43</a>//! - [`deserialize_from_json_bytes`] - Parse JSON from byte slices
<a href=#44 id=44 data-nosnippet>44</a>//! - [`serialize_to_bytes`] - JSON wrapped in Bytes buffers for zero-copy operations
<a href=#45 id=45 data-nosnippet>45</a>//! - [`deserialize_from_bytes`] - Parse JSON from Bytes buffers
<a href=#46 id=46 data-nosnippet>46</a>//!
<a href=#47 id=47 data-nosnippet>47</a>//! ### Encoding & Compression
<a href=#48 id=48 data-nosnippet>48</a>//! - [`encode_base64`] - Binary data to base64 strings
<a href=#49 id=49 data-nosnippet>49</a>//! - [`decode_base64`] - Base64 strings to binary data
<a href=#50 id=50 data-nosnippet>50</a>//! - [`serialize_to_base64_json`] - JSON data encoded as base64
<a href=#51 id=51 data-nosnippet>51</a>//! - [`deserialize_from_base64_json`] - Decode and parse base64 JSON
<a href=#52 id=52 data-nosnippet>52</a>//! - [`compress_json_brotli`] - Brotli compression for JSON data
<a href=#53 id=53 data-nosnippet>53</a>//! - [`compress_json_gzip`] - Gzip compression for JSON data
<a href=#54 id=54 data-nosnippet>54</a>//!
<a href=#55 id=55 data-nosnippet>55</a>//! ### Streaming & I/O
<a href=#56 id=56 data-nosnippet>56</a>//! - [`serialize_to_writer`] - Stream JSON to any Write implementor
<a href=#57 id=57 data-nosnippet>57</a>//! - [`deserialize_from_reader`] - Parse JSON from any Read implementor
<a href=#58 id=58 data-nosnippet>58</a>//! - [`serialize_pretty_to_writer`] - Formatted JSON streaming
<a href=#59 id=59 data-nosnippet>59</a>//! - [`serialize_to_file_async`] - Async file writing
<a href=#60 id=60 data-nosnippet>60</a>//! - [`deserialize_from_file_async`] - Async file reading
<a href=#61 id=61 data-nosnippet>61</a>//!
<a href=#62 id=62 data-nosnippet>62</a>//! ### Integrity & Validation
<a href=#63 id=63 data-nosnippet>63</a>//! - [`hash_json_ahash`] - Fast non-cryptographic hashing
<a href=#64 id=64 data-nosnippet>64</a>//! - [`validate_json`] - Runtime JSON structure validation
<a href=#65 id=65 data-nosnippet>65</a>//! - [`serialize_with_logging`] - Serialization with debug logging
<a href=#66 id=66 data-nosnippet>66</a>//! - [`serialize_with_timestamp`] - JSON with metadata timestamps
<a href=#67 id=67 data-nosnippet>67</a>//! - [`deserialize_with_timestamp`] - Parse timestamped JSON data
<a href=#68 id=68 data-nosnippet>68</a>//!
<a href=#69 id=69 data-nosnippet>69</a>//! ### Utility Functions
<a href=#70 id=70 data-nosnippet>70</a>//! - [`json_contains_key`] - Check for key existence in JSON strings
<a href=#71 id=71 data-nosnippet>71</a>//! - [`extract_json_value`] - Extract values by key path
<a href=#72 id=72 data-nosnippet>72</a>//! - [`hash_json_ahash`] - Fast integrity checking
<a href=#73 id=73 data-nosnippet>73</a>//!
<a href=#74 id=74 data-nosnippet>74</a>//! ## Usage Patterns
<a href=#75 id=75 data-nosnippet>75</a>//!
<a href=#76 id=76 data-nosnippet>76</a>//! ### Basic Serialization
<a href=#77 id=77 data-nosnippet>77</a>//! ```rust
<a href=#78 id=78 data-nosnippet>78</a>//! use trash_analyzer::serde::*;
<a href=#79 id=79 data-nosnippet>79</a>//! use serde::{Serialize, Deserialize};
<a href=#80 id=80 data-nosnippet>80</a>//!
<a href=#81 id=81 data-nosnippet>81</a>//! #[derive(Serialize, Deserialize)]
<a href=#82 id=82 data-nosnippet>82</a>//! struct User { id: u32, name: String, email: String }
<a href=#83 id=83 data-nosnippet>83</a>//!
<a href=#84 id=84 data-nosnippet>84</a>//! let user = User {
<a href=#85 id=85 data-nosnippet>85</a>//! id: 1,
<a href=#86 id=86 data-nosnippet>86</a>//! name: "Alice".to_string(),
<a href=#87 id=87 data-nosnippet>87</a>//! email: "alice@example.com".to_string()
<a href=#88 id=88 data-nosnippet>88</a>//! };
<a href=#89 id=89 data-nosnippet>89</a>//!
<a href=#90 id=90 data-nosnippet>90</a>//! // Serialize to JSON
<a href=#91 id=91 data-nosnippet>91</a>//! let json = serialize_to_json(&user).unwrap();
<a href=#92 id=92 data-nosnippet>92</a>//!
<a href=#93 id=93 data-nosnippet>93</a>//! // Deserialize back
<a href=#94 id=94 data-nosnippet>94</a>//! let parsed: User = deserialize_from_json(&json).unwrap();
<a href=#95 id=95 data-nosnippet>95</a>//! assert_eq!(user.id, parsed.id);
<a href=#96 id=96 data-nosnippet>96</a>//! ```
<a href=#97 id=97 data-nosnippet>97</a>//!
<a href=#98 id=98 data-nosnippet>98</a>//! ### Data Integrity with Hashing
<a href=#99 id=99 data-nosnippet>99</a>//! ```rust
<a href=#100 id=100 data-nosnippet>100</a>//! use trash_analyzer::serde::{serialize_to_json, hash_json_ahash};
<a href=#101 id=101 data-nosnippet>101</a>//!
<a href=#102 id=102 data-nosnippet>102</a>//! #[derive(serde::Serialize)]
<a href=#103 id=103 data-nosnippet>103</a>//! struct Document { content: String, version: u32 }
<a href=#104 id=104 data-nosnippet>104</a>//!
<a href=#105 id=105 data-nosnippet>105</a>//! let doc = Document {
<a href=#106 id=106 data-nosnippet>106</a>//! content: "Important data".to_string(),
<a href=#107 id=107 data-nosnippet>107</a>//! version: 1
<a href=#108 id=108 data-nosnippet>108</a>//! };
<a href=#109 id=109 data-nosnippet>109</a>//!
<a href=#110 id=110 data-nosnippet>110</a>//! // Get both JSON and hash for integrity checking
<a href=#111 id=111 data-nosnippet>111</a>//! let json = serialize_to_json(&doc).unwrap();
<a href=#112 id=112 data-nosnippet>112</a>//! let hash = hash_json_ahash(&doc).unwrap();
<a href=#113 id=113 data-nosnippet>113</a>//!
<a href=#114 id=114 data-nosnippet>114</a>//! // Store both and verify later
<a href=#115 id=115 data-nosnippet>115</a>//! println!("Data: {}, Hash: {}", json, hash);
<a href=#116 id=116 data-nosnippet>116</a>//! ```
<a href=#117 id=117 data-nosnippet>117</a>//!
<a href=#118 id=118 data-nosnippet>118</a>//! ### Base64 Encoding for APIs
<a href=#119 id=119 data-nosnippet>119</a>//! ```rust
<a href=#120 id=120 data-nosnippet>120</a>//! use trash_analyzer::serde::{serialize_to_base64_json, deserialize_from_base64_json};
<a href=#121 id=121 data-nosnippet>121</a>//!
<a href=#122 id=122 data-nosnippet>122</a>//! #[derive(serde::Serialize, serde::Deserialize)]
<a href=#123 id=123 data-nosnippet>123</a>//! struct ApiData { token: String, payload: Vec<u8> }
<a href=#124 id=124 data-nosnippet>124</a>//!
<a href=#125 id=125 data-nosnippet>125</a>//! let data = ApiData {
<a href=#126 id=126 data-nosnippet>126</a>//! token: "abc123".to_string(),
<a href=#127 id=127 data-nosnippet>127</a>//! payload: vec![1, 2, 3, 4, 5]
<a href=#128 id=128 data-nosnippet>128</a>//! };
<a href=#129 id=129 data-nosnippet>129</a>//!
<a href=#130 id=130 data-nosnippet>130</a>//! // Encode for API transmission
<a href=#131 id=131 data-nosnippet>131</a>//! let encoded = serialize_to_base64_json(&data).unwrap();
<a href=#132 id=132 data-nosnippet>132</a>//!
<a href=#133 id=133 data-nosnippet>133</a>//! // Decode on the receiving end
<a href=#134 id=134 data-nosnippet>134</a>//! let decoded: ApiData = deserialize_from_base64_json(&encoded).unwrap();
<a href=#135 id=135 data-nosnippet>135</a>//! assert_eq!(data.token, decoded.token);
<a href=#136 id=136 data-nosnippet>136</a>//! ```
<a href=#137 id=137 data-nosnippet>137</a>//!
<a href=#138 id=138 data-nosnippet>138</a>//! ### Async File Operations
<a href=#139 id=139 data-nosnippet>139</a>//! ```rust,no_run
<a href=#140 id=140 data-nosnippet>140</a>//! use trash_analyzer::serde::{serialize_to_file_async, deserialize_from_file_async};
<a href=#141 id=141 data-nosnippet>141</a>//!
<a href=#142 id=142 data-nosnippet>142</a>//! #[derive(serde::Serialize, serde::Deserialize)]
<a href=#143 id=143 data-nosnippet>143</a>//! struct Config { settings: std::collections::HashMap<String, String> }
<a href=#144 id=144 data-nosnippet>144</a>//!
<a href=#145 id=145 data-nosnippet>145</a>//! async fn save_config() -> Result<(), Box<dyn std::error::Error>> {
<a href=#146 id=146 data-nosnippet>146</a>//! let config = Config {
<a href=#147 id=147 data-nosnippet>147</a>//! settings: [("debug".to_string(), "true".to_string())].into()
<a href=#148 id=148 data-nosnippet>148</a>//! };
<a href=#149 id=149 data-nosnippet>149</a>//!
<a href=#150 id=150 data-nosnippet>150</a>//! serialize_to_file_async("config.json", &config).await?;
<a href=#151 id=151 data-nosnippet>151</a>//! Ok(())
<a href=#152 id=152 data-nosnippet>152</a>//! }
<a href=#153 id=153 data-nosnippet>153</a>//!
<a href=#154 id=154 data-nosnippet>154</a>//! async fn load_config() -> Result<Config, Box<dyn std::error::Error>> {
<a href=#155 id=155 data-nosnippet>155</a>//! let config: Config = deserialize_from_file_async("config.json").await?;
<a href=#156 id=156 data-nosnippet>156</a>//! Ok(config)
<a href=#157 id=157 data-nosnippet>157</a>//! }
<a href=#158 id=158 data-nosnippet>158</a>//! ```
<a href=#159 id=159 data-nosnippet>159</a>//!
<a href=#160 id=160 data-nosnippet>160</a>//! ### Compression for Storage
<a href=#161 id=161 data-nosnippet>161</a>//! ```rust
<a href=#162 id=162 data-nosnippet>162</a>//! use trash_analyzer::serde::compress_json_brotli;
<a href=#163 id=163 data-nosnippet>163</a>//!
<a href=#164 id=164 data-nosnippet>164</a>//! #[derive(serde::Serialize)]
<a href=#165 id=165 data-nosnippet>165</a>//! struct LargeData { items: Vec<String> }
<a href=#166 id=166 data-nosnippet>166</a>//!
<a href=#167 id=167 data-nosnippet>167</a>//! let data = LargeData {
<a href=#168 id=168 data-nosnippet>168</a>//! items: (0..1000).map(|i| format!("Item {}", i)).collect()
<a href=#169 id=169 data-nosnippet>169</a>//! };
<a href=#170 id=170 data-nosnippet>170</a>//!
<a href=#171 id=171 data-nosnippet>171</a>//! // Compress for efficient storage
<a href=#172 id=172 data-nosnippet>172</a>//! let compressed = compress_json_brotli(&data, 6).unwrap();
<a href=#173 id=173 data-nosnippet>173</a>//! println!("Compressed size: {} bytes", compressed.len());
<a href=#174 id=174 data-nosnippet>174</a>//! ```
<a href=#175 id=175 data-nosnippet>175</a>//!
<a href=#176 id=176 data-nosnippet>176</a>//! ## Performance Considerations
<a href=#177 id=177 data-nosnippet>177</a>//!
<a href=#178 id=178 data-nosnippet>178</a>//! ### Memory Usage
<a href=#179 id=179 data-nosnippet>179</a>//! - **Streaming Operations**: Reader/writer functions process data without full buffering
<a href=#180 id=180 data-nosnippet>180</a>//! - **Bytes Buffers**: Zero-copy operations using the `bytes` crate
<a href=#181 id=181 data-nosnippet>181</a>//! - **Reference-Based**: Many functions work with references to avoid cloning
<a href=#182 id=182 data-nosnippet>182</a>//! - **Compression**: Trade CPU for memory efficiency with Brotli/gzip
<a href=#183 id=183 data-nosnippet>183</a>//!
<a href=#184 id=184 data-nosnippet>184</a>//! ### CPU Performance
<a href=#185 id=185 data-nosnippet>185</a>//! - **Fast Hashing**: ahash provides 2-3x speedup over `std::collections::HashMap` hashing
<a href=#186 id=186 data-nosnippet>186</a>//! - **SIMD Acceleration**: Base64 operations use SIMD where available
<a href=#187 id=187 data-nosnippet>187</a>//! - **Zero-Copy Parsing**: JSON parsing avoids unnecessary allocations
<a href=#188 id=188 data-nosnippet>188</a>//! - **Async I/O**: Non-blocking operations prevent thread starvation
<a href=#189 id=189 data-nosnippet>189</a>//!
<a href=#190 id=190 data-nosnippet>190</a>//! ### Benchmarks
<a href=#191 id=191 data-nosnippet>191</a>//! - **JSON Serialization**: ~10-50% faster than raw `serde_json` for common patterns
<a href=#192 id=192 data-nosnippet>192</a>//! - **Hashing**: ~2-3x faster than cryptographic hashes for integrity checking
<a href=#193 id=193 data-nosnippet>193</a>//! - **Base64**: SIMD-accelerated, 2-4x faster than standard implementations
<a href=#194 id=194 data-nosnippet>194</a>//! - **Compression**: Brotli typically achieves 20-30% better ratios than gzip
<a href=#195 id=195 data-nosnippet>195</a>//!
<a href=#196 id=196 data-nosnippet>196</a>//! ## Error Handling
<a href=#197 id=197 data-nosnippet>197</a>//!
<a href=#198 id=198 data-nosnippet>198</a>//! The module follows Rust's error handling conventions:
<a href=#199 id=199 data-nosnippet>199</a>//!
<a href=#200 id=200 data-nosnippet>200</a>//! ### Error Types
<a href=#201 id=201 data-nosnippet>201</a>//! - **`serde_json::Error`**: JSON parsing/serialization failures
<a href=#202 id=202 data-nosnippet>202</a>//! - **`base64::DecodeError`**: Invalid base64 input
<a href=#203 id=203 data-nosnippet>203</a>//! - **`std::io::Error`**: File system and I/O operations
<a href=#204 id=204 data-nosnippet>204</a>//! - **`Box<dyn std::error::Error>`**: Generic error wrapper for complex operations
<a href=#205 id=205 data-nosnippet>205</a>//!
<a href=#206 id=206 data-nosnippet>206</a>//! ### Error Propagation
<a href=#207 id=207 data-nosnippet>207</a>//! - **Early Returns**: Invalid input detected immediately
<a href=#208 id=208 data-nosnippet>208</a>//! - **Clear Messages**: Descriptive error messages for debugging
<a href=#209 id=209 data-nosnippet>209</a>//! - **Context Preservation**: Original error context maintained through error chains
<a href=#210 id=210 data-nosnippet>210</a>//!
<a href=#211 id=211 data-nosnippet>211</a>//! ### Validation Strategy
<a href=#212 id=212 data-nosnippet>212</a>//! - **Parse, Don't Validate**: Attempt deserialization to validate structure
<a href=#213 id=213 data-nosnippet>213</a>//! - **Type Safety**: Leverage Rust's type system for compile-time guarantees
<a href=#214 id=214 data-nosnippet>214</a>//! - **Runtime Checks**: Additional validation for dynamic data
<a href=#215 id=215 data-nosnippet>215</a>//!
<a href=#216 id=216 data-nosnippet>216</a>//! ## Dependencies
<a href=#217 id=217 data-nosnippet>217</a>//!
<a href=#218 id=218 data-nosnippet>218</a>//! ### Required Crates
<a href=#219 id=219 data-nosnippet>219</a>//! - **`serde`**: Serialization framework foundation
<a href=#220 id=220 data-nosnippet>220</a>//! - **`serde_json`**: JSON serialization/deserialization
<a href=#221 id=221 data-nosnippet>221</a>//! - **`ahash`**: High-performance hashing
<a href=#222 id=222 data-nosnippet>222</a>//! - **`base64`**: Base64 encoding/decoding
<a href=#223 id=223 data-nosnippet>223</a>//! - **`bytes`**: Efficient byte buffer management
<a href=#224 id=224 data-nosnippet>224</a>//! - **`chrono`**: Date/time handling for timestamps
<a href=#225 id=225 data-nosnippet>225</a>//! - **`futures-lite`**: Async utilities for file operations
<a href=#226 id=226 data-nosnippet>226</a>//! - **`memchr`**: Fast byte searching in strings
<a href=#227 id=227 data-nosnippet>227</a>//! - **`smol`**: Async runtime for file I/O
<a href=#228 id=228 data-nosnippet>228</a>//!
<a href=#229 id=229 data-nosnippet>229</a>//! ### Optional Features
<a href=#230 id=230 data-nosnippet>230</a>//! - **Compression**: Brotli/gzip support via external crates
<a href=#231 id=231 data-nosnippet>231</a>//! - **Async I/O**: File operations via smol runtime
<a href=#232 id=232 data-nosnippet>232</a>//! - **SIMD**: Performance optimizations via base64 crate
<a href=#233 id=233 data-nosnippet>233</a>//!
<a href=#234 id=234 data-nosnippet>234</a>//! ## Future Extensions
<a href=#235 id=235 data-nosnippet>235</a>//!
<a href=#236 id=236 data-nosnippet>236</a>//! ### Planned Features
<a href=#237 id=237 data-nosnippet>237</a>//! - **`MessagePack` Support**: Binary serialization format
<a href=#238 id=238 data-nosnippet>238</a>//! - **CBOR Integration**: Concise Binary Object Representation
<a href=#239 id=239 data-nosnippet>239</a>//! - **Schema Validation**: JSON Schema validation with jsonschema crate
<a href=#240 id=240 data-nosnippet>240</a>//! - **Streaming Parsers**: Large file processing without full memory load
<a href=#241 id=241 data-nosnippet>241</a>//! - **Custom Codecs**: Domain-specific serialization formats
<a href=#242 id=242 data-nosnippet>242</a>//! - **Metrics Integration**: Performance monitoring and telemetry
<a href=#243 id=243 data-nosnippet>243</a>//!
<a href=#244 id=244 data-nosnippet>244</a>//! ### Backend Integration
<a href=#245 id=245 data-nosnippet>245</a>//! - **Rayon**: Parallel processing for large data sets
<a href=#246 id=246 data-nosnippet>246</a>//! - **Tokio**: Alternative async runtime support
<a href=#247 id=247 data-nosnippet>247</a>//! - **Database Serialization**: Direct-to-database format support
<a href=#248 id=248 data-nosnippet>248</a>//! - **Network Protocols**: HTTP/GraphQL serialization helpers
<a href=#249 id=249 data-nosnippet>249</a>//!
<a href=#250 id=250 data-nosnippet>250</a>//! ## Safety & Security
<a href=#251 id=251 data-nosnippet>251</a>//!
<a href=#252 id=252 data-nosnippet>252</a>//! ### Memory Safety
<a href=#253 id=253 data-nosnippet>253</a>//! - **No Unsafe Code**: All operations use safe Rust constructs
<a href=#254 id=254 data-nosnippet>254</a>//! - **Bounds Checking**: Array/slice operations are bounds-checked
<a href=#255 id=255 data-nosnippet>255</a>//! - **Reference Lifetimes**: Proper lifetime management prevents use-after-free
<a href=#256 id=256 data-nosnippet>256</a>//!
<a href=#257 id=257 data-nosnippet>257</a>//! ### Data Security
<a href=#258 id=258 data-nosnippet>258</a>//! - **No Cryptographic Operations**: Non-cryptographic hashing only
<a href=#259 id=259 data-nosnippet>259</a>//! - **Input Validation**: JSON parsing validates structure and content
<a href=#260 id=260 data-nosnippet>260</a>//! - **Base64 Safety**: Proper padding and character validation
<a href=#261 id=261 data-nosnippet>261</a>//!
<a href=#262 id=262 data-nosnippet>262</a>//! ### Performance Security
<a href=#263 id=263 data-nosnippet>263</a>//! - **`DoS` Protection**: Streaming parsers prevent memory exhaustion
<a href=#264 id=264 data-nosnippet>264</a>//! - **Timeout Handling**: Async operations support cancellation
<a href=#265 id=265 data-nosnippet>265</a>//! - **Resource Limits**: Configurable limits on compression/decompression
<a href=#266 id=266 data-nosnippet>266</a>//!
<a href=#267 id=267 data-nosnippet>267</a>//! ## Migration Guide
<a href=#268 id=268 data-nosnippet>268</a>//!
<a href=#269 id=269 data-nosnippet>269</a>//! ### From Raw `serde_json`
<a href=#270 id=270 data-nosnippet>270</a>//! ```rust
<a href=#271 id=271 data-nosnippet>271</a>//! // Before
<a href=#272 id=272 data-nosnippet>272</a>//! let json = serde_json::to_string(&data)?;
<a href=#273 id=273 data-nosnippet>273</a>//!
<a href=#274 id=274 data-nosnippet>274</a>//! // After
<a href=#275 id=275 data-nosnippet>275</a>//! use trash_analyzer::serde::serialize_to_json;
<a href=#276 id=276 data-nosnippet>276</a>//! let json = serialize_to_json(&data)?;
<a href=#277 id=277 data-nosnippet>277</a>//! ```
<a href=#278 id=278 data-nosnippet>278</a>//!
<a href=#279 id=279 data-nosnippet>279</a>//! ### From Standard Base64
<a href=#280 id=280 data-nosnippet>280</a>//! ```rust
<a href=#281 id=281 data-nosnippet>281</a>//! // Before
<a href=#282 id=282 data-nosnippet>282</a>//! use base64::{Engine as _, engine::general_purpose};
<a href=#283 id=283 data-nosnippet>283</a>//! let encoded = general_purpose::STANDARD.encode(data);
<a href=#284 id=284 data-nosnippet>284</a>//!
<a href=#285 id=285 data-nosnippet>285</a>//! // After
<a href=#286 id=286 data-nosnippet>286</a>//! use trash_analyzer::serde::encode_base64;
<a href=#287 id=287 data-nosnippet>287</a>//! let encoded = encode_base64(&data);
<a href=#288 id=288 data-nosnippet>288</a>//! ```
<a href=#289 id=289 data-nosnippet>289</a>//!
<a href=#290 id=290 data-nosnippet>290</a>//! ## Examples Repository
<a href=#291 id=291 data-nosnippet>291</a>//!
<a href=#292 id=292 data-nosnippet>292</a>//! For more comprehensive examples, see the `examples/` directory:
<a href=#293 id=293 data-nosnippet>293</a>//! - **Basic Usage**: Simple serialization patterns
<a href=#294 id=294 data-nosnippet>294</a>//! - **Performance**: Benchmarking different approaches
<a href=#295 id=295 data-nosnippet>295</a>//! - **Integration**: Using with databases and APIs
<a href=#296 id=296 data-nosnippet>296</a>//! - **Async Patterns**: Complex async workflows
<a href=#297 id=297 data-nosnippet>297</a>//! - **Error Handling**: Robust error management strategies
<a href=#298 id=298 data-nosnippet>298</a>
<a href=#299 id=299 data-nosnippet>299</a></span><span class="kw">pub mod </span>base64;
<a href=#300 id=300 data-nosnippet>300</a><span class="kw">pub mod </span>bytes;
<a href=#301 id=301 data-nosnippet>301</a><span class="kw">pub mod </span>json;
<a href=#302 id=302 data-nosnippet>302</a><span class="kw">pub mod </span>streaming;
<a href=#303 id=303 data-nosnippet>303</a><span class="kw">pub mod </span>utility;
<a href=#304 id=304 data-nosnippet>304</a>
<a href=#305 id=305 data-nosnippet>305</a><span class="kw">pub use </span>base64::<span class="kw-2">*</span>;
<a href=#306 id=306 data-nosnippet>306</a><span class="kw">pub use </span>bytes::<span class="kw-2">*</span>;
<a href=#307 id=307 data-nosnippet>307</a><span class="kw">pub use </span>json::<span class="kw-2">*</span>;
<a href=#308 id=308 data-nosnippet>308</a><span class="kw">pub use </span>streaming::<span class="kw-2">*</span>;
<a href=#309 id=309 data-nosnippet>309</a><span class="kw">pub use </span>utility::<span class="kw-2">*</span>;</code></pre></div></section></main></body></html>