parquet-ruby

Gem Version

Read and write Apache Parquet files from Ruby. This gem wraps the official Apache parquet rust crate, providing:

  • High performance columnar data storage and retrieval
  • Memory-efficient streaming APIs for large datasets
  • Full compatibility with the Apache Parquet specification
  • Simple, Ruby-native APIs that feel natural

Why Use This Library?

Apache Parquet is the de facto standard for analytical data storage, offering:

  • Efficient compression - typically 2-10x smaller than CSV
  • Fast columnar access - read only the columns you need
  • Rich type system - preserves data types, including nested structures
  • Wide ecosystem support - works with Spark, Pandas, DuckDB, and more

Installation

Add this line to your application's Gemfile:

gem 'parquet'

Then execute:

$ bundle install

Or install it directly:

$ gem install parquet

Quick Start

Reading Data

require "parquet"

# Read Parquet files row by row
Parquet.each_row("data.parquet") do |row|
  puts row  # => {"id" => 1, "name" => "Alice", "score" => 95.5}
end

# Or column by column for better performance
Parquet.each_column("data.parquet", batch_size: 1000) do |batch|
  puts batch  # => {"id" => [1, 2, ...], "name" => ["Alice", "Bob", ...]}
end

Writing Data

# Define your schema
schema = [
  { "id" => "int64" },
  { "name" => "string" },
  { "score" => "double" }
]

# Write row by row
rows = [
  [1, "Alice", 95.5],
  [2, "Bob", 82.3]
]

Parquet.write_rows(rows.each, schema: schema, write_to: "output.parquet")

Reading Parquet Files

The library provides two APIs for reading data, each optimized for different use cases:

Row-wise Reading (Sequential Access)

Best for: Processing records one at a time, data transformations, ETL pipelines

# Basic usage - returns hashes
Parquet.each_row("data.parquet") do |row|
  puts row  # => {"id" => 1, "name" => "Alice"}
end

# Memory-efficient array format
Parquet.each_row("data.parquet", result_type: :array) do |row|
  puts row  # => [1, "Alice"]
end

# Read specific columns only
Parquet.each_row("data.parquet", columns: ["id", "name"]) do |row|
  # Only requested columns are loaded from disk
end

# Works with IO objects
File.open("data.parquet", "rb") do |file|
  Parquet.each_row(file) do |row|
    # Process row
  end
end

Column-wise Reading (Analytical Access)

Best for: Analytics, aggregations, when you need few columns from wide tables

# Process data in column batches
Parquet.each_column("data.parquet", batch_size: 1000) do |batch|
  # batch is a hash of column_name => array_of_values
  ids = batch["id"]      # => [1, 2, 3, ..., 1000]
  names = batch["name"]  # => ["Alice", "Bob", ...]

  # Perform columnar operations
  avg_id = ids.sum.to_f / ids.length
end

# Array format for more control
Parquet.each_column("data.parquet",
                    result_type: :array,
                    columns: ["id", "name"]) do |batch|
  # batch is an array of arrays
  # [[1, 2, ...], ["Alice", "Bob", ...]]
end

File Metadata

Inspect file structure without reading data:

 = Parquet.("data.parquet")

puts ["num_rows"]           # Total row count
puts ["created_by"]         # Writer identification
puts ["schema"]["fields"]   # Column definitions
puts ["row_groups"].size    # Number of row groups

Writing Parquet Files

Row-wise Writing

Best for: Streaming data, converting from other formats, memory-constrained environments

# Basic schema definition
schema = [
  { "id" => "int64" },
  { "name" => "string" },
  { "active" => "boolean" },
  { "balance" => "double" }
]

# Stream data from any enumerable
rows = CSV.foreach("input.csv").map do |row|
  [row[0].to_i, row[1], row[2] == "true", row[3].to_f]
end

Parquet.write_rows(rows,
  schema: schema,
  write_to: "output.parquet",
  batch_size: 5000  # Positive rows per batch (default: 1000)
)

Column-wise Writing

Best for: Pre-columnar data, better compression, higher performance

# Prepare columnar data
ids = [1, 2, 3, 4, 5]
names = ["Alice", "Bob", "Charlie", "Diana", "Eve"]
scores = [95.5, 82.3, 88.7, 91.2, 79.8]

# Create batches
batches = [[
  ids,    # First column
  names,  # Second column
  scores  # Third column
]]

schema = [
  { "id" => "int64" },
  { "name" => "string" },
  { "score" => "double" }
]

Parquet.write_columns(batches.each,
  schema: schema,
  write_to: "output.parquet",
  compression: "snappy"  # Options: none, snappy, gzip, lz4, zstd
)

write_columns also accepts logger: with the same Ruby logger interface as row writes.

Data Types

Basic Types

schema = [
  # Integers
  { "tiny" => "int8" },         # -128 to 127
  { "small" => "int16" },       # -32,768 to 32,767
  { "medium" => "int32" },      # ±2 billion
  { "large" => "int64" },       # ±9 quintillion

  # Unsigned integers
  { "ubyte" => "uint8" },       # 0 to 255
  { "ushort" => "uint16" },     # 0 to 65,535
  { "uint" => "uint32" },       # 0 to 4 billion
  { "ulong" => "uint64" },      # 0 to 18 quintillion

  # Floating point
  { "price" => "float" },       # 32-bit precision
  { "amount" => "double" },     # 64-bit precision

  # Other basics
  { "name" => "string" },
  { "data" => "binary" },
  { "active" => "boolean" }
]

Date and Time Types

schema = [
  # Date (days since Unix epoch)
  { "date" => "date32" },

  # Timestamps (with different precisions)
  { "created_sec" => "timestamp_second" },
  { "created_ms" => "timestamp_millis" },    # Most common
  { "created_us" => "timestamp_micros" },
  { "created_ns" => "timestamp_nanos" },

  # Time of day (without date)
  { "time_ms" => "time_millis" },    # Milliseconds since midnight
  { "time_us" => "time_micros" }     # Microseconds since midnight
]

Decimal Type (Financial Data)

For exact decimal arithmetic (no floating-point errors):

require "bigdecimal"

schema = [
  # Financial amounts with 2 decimal places
  { "price" => "decimal", "precision" => 10, "scale" => 2 },  # Up to 99,999,999.99
  { "balance" => "decimal", "precision" => 15, "scale" => 2 }, # Larger amounts

  # High-precision calculations
  { "rate" => "decimal", "precision" => 10, "scale" => 8 }     # 8 decimal places
]

# Use BigDecimal for exact values
data = [[
  BigDecimal("19.99"),
  BigDecimal("1234567.89"),
  BigDecimal("0.00000123")
]]

Complex Data Structures

The library includes a powerful Schema DSL for defining nested data:

Using the Schema DSL

schema = Parquet::Schema.define do
  # Simple fields
  field :id, :int64, nullable: false      # Required field
  field :name, :string                    # Optional by default

  # Nested structure
  field :address, :struct do
    field :street, :string
    field :city, :string
    field :location, :struct do
      field :lat, :double
      field :lng, :double
    end
  end

  # Lists
  field :tags, :list, item: :string
  field :scores, :list, item: :int32

  # Maps (dictionaries)
  field :metadata, :map, key: :string, value: :string

  # Complex combinations
  field :contacts, :list, item: :struct do
    field :name, :string
    field :email, :string
    field :primary, :boolean
  end
end

Writing Complex Data

data = [[
  1,                              # id
  "Alice Johnson",                # name
  {                               # address
    "street" => "123 Main St",
    "city" => "Springfield",
    "location" => {
      "lat" => 40.7128,
      "lng" => -74.0060
    }
  },
  ["ruby", "parquet", "data"],    # tags
  [85, 92, 88],                   # scores
  { "dept" => "Engineering" },    # metadata
  [                               # contacts
    { "name" => "Bob", "email" => "bob@example.com", "primary" => true },
    { "name" => "Carol", "email" => "carol@example.com", "primary" => false }
  ]
]]

Parquet.write_rows(data.each, schema: schema, write_to: "complex.parquet")

⚠️ Important Limitations

Timezone Handling in Parquet

The Parquet specification has a fundamental limitation with timezone storage:

  1. UTC-normalized: Any timestamp with timezone info (including "+09:00" or "America/New_York") is converted to UTC
  2. Local/unzoned: Timestamps without timezone info are stored as-is

The original timezone information is permanently lost. This is not a limitation of this library but of the Parquet format itself.

schema = Parquet::Schema.define do
  # These BOTH store in UTC - timezone info is lost!
  field :timestamp_utc, :timestamp_millis, timezone: "UTC"
  field :timestamp_tokyo, :timestamp_millis, timezone: "+09:00"

  # This stores as local time (no timezone)
  field :timestamp_local, :timestamp_millis
end

# If you need timezone preservation, store it separately:
schema = Parquet::Schema.define do
  field :timestamp, :timestamp_millis, has_timezone: true  # UTC storage
  field :original_tz, :string                              # "America/New_York"
end

Performance Tips

  1. Use column-wise reading when you need only a few columns from wide tables
  2. Specify columns parameter to avoid reading unnecessary data
  3. Choose appropriate batch sizes:
    • Larger batches = better throughput but more memory
    • Smaller batches = less memory but more overhead
  4. Pre-sort data by commonly filtered columns for better compression

Memory Management

Writes are streamed: an Enumerator (or any Enumerable) passed to write_rows is consumed in bounded slices rather than materialized up front, and completed row groups are flushed to the destination while the input is still being enumerated. Peak memory is bounded by batch_size and flush_threshold, not by the total dataset size:

Parquet.write_rows(huge_dataset.each,
  schema: schema,
  write_to: "output.parquet",
  batch_size: 1000,              # Rows buffered per write batch (also the
                                 # slice size pulled from an Enumerator)
  flush_threshold: 32 * 1024**2  # Flush a row group to the destination once
                                 # ~32MB of raw row data is staged (default 100MB)
)

flush_threshold bounds both the raw bytes staged since the last flush and the writer's encoded in-progress buffer, so row groups reach the destination incrementally even when compression shrinks the encoded data dramatically. write_columns flushes the same way after each batch of columns.

When write_to: is an IO object instead of a file path, output is staged in a temporary file on disk (memory stays bounded) and copied to the IO after the write completes, so the IO receives its bytes only at the end.

Write batch and sample sizes are bounded before buffer allocation. Very large batch sizes are rejected, and wide schemas have a lower effective batch cap so the writer cannot reserve unbounded per-column value slots.

Architecture

This gem uses a modular architecture:

  • parquet-core: Language-agnostic Rust core for Parquet operations
  • parquet-ruby-adapter: Ruby-specific FFI adapter layer
  • parquet gem: High-level Ruby API

Take a look at ARCH.md

Contributing

Bug reports and pull requests are welcome on GitHub at https://github.com/njaremko/parquet-ruby.

License

The gem is available as open source under the terms of the MIT License.