refactor(util): split into two files

2022-05-16 14:22:53 +02:00 · 2022-05-16 14:22:53 +02:00 · 055b168ff1
parent 1d3c7a1651
commit 055b168ff1
7 changed files with 114 additions and 107 deletions
--- a/src/build/build.v
+++ b/src/build/build.v
@ -9,9 +9,10 @@ import client
 import strings
 import util

-const container_build_dir = '/build'
-
-const build_image_repo = 'vieter-build'
+const (
+	container_build_dir = '/build'
+	build_image_repo    = 'vieter-build'
+)

 // create_build_image creates a builder image given some base image which can
 // then be used to build & package Arch images. It mostly just updates the
--- a/src/docker/README.md
+++ b/src/docker/README.md
@ -1,5 +1,3 @@
-# docker
-
 This module implements part of the Docker Engine API v1.41
 ([documentation](https://docs.docker.com/engine/api/v1.41/)) using socket-based
 HTTP communication.
--- a/src/docker/stream.v
+++ b/src/docker/stream.v
@ -58,9 +58,9 @@ pub fn (mut r ChunkedResponseReader) read(mut buf []u8) ?int {
 // This function should only be called if the previous chunk has been
 // completely consumed.
 fn (mut r ChunkedResponseReader) read_chunk_size() ?u64 {
+	if r.started {
 		mut buf := []u8{len: 2}

-	if r.started {
 		// Each chunk ends with a `\r\n` which we want to skip first
 		r.reader.read(mut buf)?
 	}
--- a/src/env/env.v
+++ b/src/env/env.v
@ -3,12 +3,13 @@ module env
 import os
 import toml

-// The prefix that every environment variable should have
-const prefix = 'VIETER_'
-
-// The suffix an environment variable in order for it to be loaded from a file
-// instead
-const file_suffix = '_FILE'
+const (
+	// The prefix that every environment variable should have
+	prefix      = 'VIETER_'
+	// The suffix an environment variable in order for it to be loaded from a file
+	// instead
+	file_suffix = '_FILE'
+)

 fn get_env_var(field_name string) ?string {
 	env_var_name := '$env.prefix$field_name.to_upper()'
--- a/src/util/README.md
+++ b/src/util/README.md
@ -0,0 +1,2 @@
+This module defines a few useful functions used throughout the codebase that
+don't specifically fit inside a module.
--- a/src/util/stream.v
+++ b/src/util/stream.v
@ -0,0 +1,95 @@
+// Functions for interacting with `io.Reader` & `io.Writer` objects.
+module util
+
+import io
+import os
+
+// reader_to_writer tries to consume the entire reader & write it to the writer.
+pub fn reader_to_writer(mut reader io.Reader, mut writer io.Writer) ? {
+	mut buf := []u8{len: 10 * 1024}
+
+	for {
+		bytes_read := reader.read(mut buf) or { break }
+		mut bytes_written := 0
+
+		for bytes_written < bytes_read {
+			c := writer.write(buf[bytes_written..bytes_read]) or { break }
+
+			bytes_written += c
+		}
+	}
+}
+
+// reader_to_file writes the contents of a BufferedReader to a file
+pub fn reader_to_file(mut reader io.BufferedReader, length int, path string) ? {
+	mut file := os.create(path)?
+	defer {
+		file.close()
+	}
+
+	mut buf := []u8{len: reader_buf_size}
+	mut bytes_left := length
+
+	// Repeat as long as the stream still has data
+	for bytes_left > 0 {
+		// TODO check if just breaking here is safe
+		bytes_read := reader.read(mut buf) or { break }
+		bytes_left -= bytes_read
+
+		mut to_write := bytes_read
+
+		for to_write > 0 {
+			// TODO don't just loop infinitely here
+			bytes_written := file.write(buf[bytes_read - to_write..bytes_read]) or { continue }
+			// file.flush()
+
+			to_write = to_write - bytes_written
+		}
+	}
+}
+
+// match_array_in_array<T> returns how many elements of a2 overlap with a1. For
+// example, if a1 = "abcd" & a2 = "cd", the result will be 2. If the match is
+// not at the end of a1, the result is 0.
+pub fn match_array_in_array<T>(a1 []T, a2 []T) int {
+	mut i := 0
+	mut match_len := 0
+
+	for i + match_len < a1.len {
+		if a1[i + match_len] == a2[match_len] {
+			match_len += 1
+		} else {
+			i += match_len + 1
+			match_len = 0
+		}
+	}
+
+	return match_len
+}
+
+// read_until_separator consumes an io.Reader until it encounters some
+// separator array. The data read is stored inside the provided res array.
+pub fn read_until_separator(mut reader io.Reader, mut res []u8, sep []u8) ? {
+	mut buf := []u8{len: sep.len}
+
+	for {
+		c := reader.read(mut buf)?
+		res << buf[..c]
+
+		match_len := match_array_in_array(buf[..c], sep)
+
+		if match_len == sep.len {
+			break
+		}
+
+		if match_len > 0 {
+			match_left := sep.len - match_len
+			c2 := reader.read(mut buf[..match_left])?
+			res << buf[..c2]
+
+			if buf[..c2] == sep[match_len..] {
+				break
+			}
+		}
+	}
+}
--- a/src/util/util.v
+++ b/src/util/util.v
@ -1,13 +1,13 @@
 module util

 import os
-import io
 import crypto.md5
 import crypto.sha256

-const reader_buf_size = 1_000_000
-
-const prefixes = ['B', 'KB', 'MB', 'GB']
+const (
+	reader_buf_size = 1_000_000
+	prefixes        = ['B', 'KB', 'MB', 'GB']
+)

 // Dummy struct to work around the fact that you can only share structs, maps &
 // arrays
@ -23,50 +23,6 @@ pub fn exit_with_message(code int, msg string) {
 	exit(code)
 }

-// reader_to_writer tries to consume the entire reader & write it to the writer.
-pub fn reader_to_writer(mut reader io.Reader, mut writer io.Writer) ? {
-	mut buf := []u8{len: 10 * 1024}
-
-	for {
-		bytes_read := reader.read(mut buf) or { break }
-		mut bytes_written := 0
-
-		for bytes_written < bytes_read {
-			c := writer.write(buf[bytes_written..bytes_read]) or { break }
-
-			bytes_written += c
-		}
-	}
-}
-
-// reader_to_file writes the contents of a BufferedReader to a file
-pub fn reader_to_file(mut reader io.BufferedReader, length int, path string) ? {
-	mut file := os.create(path)?
-	defer {
-		file.close()
-	}
-
-	mut buf := []u8{len: util.reader_buf_size}
-	mut bytes_left := length
-
-	// Repeat as long as the stream still has data
-	for bytes_left > 0 {
-		// TODO check if just breaking here is safe
-		bytes_read := reader.read(mut buf) or { break }
-		bytes_left -= bytes_read
-
-		mut to_write := bytes_read
-
-		for to_write > 0 {
-			// TODO don't just loop infinitely here
-			bytes_written := file.write(buf[bytes_read - to_write..bytes_read]) or { continue }
-			// file.flush()
-
-			to_write = to_write - bytes_written
-		}
-	}
-}
-
 // hash_file returns the md5 & sha256 hash of a given file
 // TODO actually implement sha256
 pub fn hash_file(path &string) ?(string, string) {
@ -108,49 +64,3 @@ pub fn pretty_bytes(bytes int) string {

 	return '${n:.2}${util.prefixes[i]}'
 }
-
-// match_array_in_array<T> returns how many elements of a2 overlap with a1. For
-// example, if a1 = "abcd" & a2 = "cd", the result will be 2. If the match is
-// not at the end of a1, the result is 0.
-pub fn match_array_in_array<T>(a1 []T, a2 []T) int {
-	mut i := 0
-	mut match_len := 0
-
-	for i + match_len < a1.len {
-		if a1[i + match_len] == a2[match_len] {
-			match_len += 1
-		} else {
-			i += match_len + 1
-			match_len = 0
-		}
-	}
-
-	return match_len
-}
-
-// read_until_separator consumes an io.Reader until it encounters some
-// separator array. The data read is stored inside the provided res array.
-pub fn read_until_separator(mut reader io.Reader, mut res []u8, sep []u8) ? {
-	mut buf := []u8{len: sep.len}
-
-	for {
-		c := reader.read(mut buf)?
-		res << buf[..c]
-
-		match_len := match_array_in_array(buf[..c], sep)
-
-		if match_len == sep.len {
-			break
-		}
-
-		if match_len > 0 {
-			match_left := sep.len - match_len
-			c2 := reader.read(mut buf[..match_left])?
-			res << buf[..c2]
-
-			if buf[..c2] == sep[match_len..] {
-				break
-			}
-		}
-	}
-}