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chore: import upstream snapshot with attribution
2026-07-13 12:29:30 +08:00

10 KiB

When To Use std.json

In Zerolang, use std.json for validation, shallow field lookup, object and array cursor access, explicit-allocator parsing, and caller-buffer JSON writing.

Runnable today:

API Return Notes
std.json.validate(text) Bool Checks the current JSON subset without allocation.
std.json.validateBytes(bytes) Bool Checks a Span<u8> JSON payload without allocation.
std.json.parse(alloc, text) Maybe<JsonDoc> Parses with an explicit allocator and returns null on failure.
std.json.parseBytes(alloc, bytes) Maybe<JsonDoc> Parses a Span<u8> payload with an explicit allocator and returns null on failure.
std.json.streamTokens(text) usize Counts stream tokens without building an owned tree.
std.json.streamTokensBytes(bytes) usize Counts stream tokens from a Span<u8> payload.
std.json.writeString(buffer, text) Maybe<String> Writes an escaped JSON string into caller storage.
std.json.decodeBoundary() String Documents the typed decode boundary exposed by current metadata.
std.json.errorNone() u32 Validation status for a clean payload.
std.json.errorInvalid() u32 Validation status for malformed JSON.
std.json.errorTrailing() u32 Validation status for trailing non-whitespace bytes.
std.json.errorName(code) String Returns a stable label for a validation status.
std.json.errorExpected(code) String Returns stable expected-token text for a validation status.
std.json.validateError(bytes) u32 Validates a byte span and returns a structured status code.
std.json.errorOffset(bytes) usize Returns the byte offset where validation fails, or the input length for valid JSON.
std.json.errorLine(bytes) usize Returns the one-based line for the validation error offset.
std.json.errorColumn(bytes) usize Returns the one-based column for the validation error offset.
std.json.field(bytes, key) Maybe<Span<u8>> Returns the raw top-level object field value.
std.json.objectFieldCount(bytes) Maybe<usize> Counts fields in a JSON object slice.
std.json.objectKey(buffer, bytes, ordinal) Maybe<Span<u8>> Decodes an ordinal object key into caller storage.
std.json.objectValue(bytes, ordinal) Maybe<Span<u8>> Returns an ordinal object value as a raw JSON slice.
std.json.arrayCount(bytes) Maybe<usize> Counts items in a JSON array slice.
std.json.arrayValue(bytes, ordinal) Maybe<Span<u8>> Returns an ordinal array value as a raw JSON slice.
std.json.path(bytes, path) Maybe<Span<u8>> Returns a raw value for a dot-separated object path.
std.json.pathString(buffer, bytes, path) Maybe<Span<u8>> Looks up and decodes a string at a dot-separated object path.
std.json.pathU32(bytes, path) Maybe<u32> Looks up and decodes a u32 at a dot-separated object path.
std.json.pathBool(bytes, path) Maybe<Bool> Looks up and decodes a bool at a dot-separated object path.
std.json.stringDecode(buffer, value) Maybe<Span<u8>> Decodes a JSON string value, including Unicode escapes as UTF-8, into caller storage.
std.json.string(buffer, bytes, key) Maybe<Span<u8>> Looks up and decodes a top-level string field.
std.json.u32(bytes, key) Maybe<u32> Looks up and decodes a top-level unsigned integer field.
std.json.bool(bytes, key) Maybe<Bool> Looks up and decodes a top-level boolean field.
std.json.writeStringBytes(buffer, text) Maybe<Span<u8>> Writes an escaped JSON string from byte input.
std.json.writeObject1String(buffer, key, value) Maybe<Span<u8>> Writes a one-field object with a string value.
std.json.writeObject1U32(buffer, key, value) Maybe<Span<u8>> Writes a one-field object with a u32 value.
std.json.writeObject1Bool(buffer, key, value) Maybe<Span<u8>> Writes a one-field object with a bool value.
std.json.writeFieldRaw(buffer, key, value) Maybe<Span<u8>> Writes one object field from a key and validated raw JSON value.
std.json.writeFieldString(buffer, key, value) Maybe<Span<u8>> Writes one object field with an escaped string value.
std.json.writeFieldU32(buffer, key, value) Maybe<Span<u8>> Writes one object field with a u32 value.
std.json.writeFieldBool(buffer, key, value) Maybe<Span<u8>> Writes one object field with a bool value.
std.json.writeObject2Fields(buffer, field0, field1) Maybe<Span<u8>> Writes a two-field object from field fragments and validates the final object.
std.json.writeObject2StringField(buffer, key, value, field1) Maybe<Span<u8>> Writes a two-field object from a string field and a prebuilt field fragment.
std.json.writeObject2U32Field(buffer, key, value, field1) Maybe<Span<u8>> Writes a two-field object from a u32 field and a prebuilt field fragment.
std.json.writeObject2BoolField(buffer, key, value, field1) Maybe<Span<u8>> Writes a two-field object from a bool field and a prebuilt field fragment.
std.json.writeArray2Strings(buffer, value0, value1) Maybe<Span<u8>> Writes a two-item array with escaped string values.
std.json.writeArray2U32(buffer, value0, value1) Maybe<Span<u8>> Writes a two-item array with u32 values.
std.json.writeArray2Bools(buffer, value0, value1) Maybe<Span<u8>> Writes a two-item array with bool values.

Metadata labels:

  • effects: memory, parse, or alloc
  • allocation behavior: validation and streaming are allocation-free; parse uses explicit allocator only; direct writers write caller buffers
  • target support: target-neutral
  • error behavior: Maybe helpers return null on failure
  • diagnostics: errorOffset, errorLine, and errorColumn locate validation failures; valid JSON reports the end of input
  • ownership notes: parsed documents are owned by explicit allocator storage in this compiler slice
  • examples: examples/std-data-formats.graph, examples/std-json-bytes.graph, conformance/native/pass/std-codec-json-url.graph

Example

pub fn main(world: World) -> Void raises {
    var arena_buf: [16]u8 = [0_u8; 16]
    var arena: FixedBufAlloc = std.mem.fixedBufAlloc(arena_buf)
    let parsed: Maybe<JsonDoc> = std.json.parse(arena, "{\"ok\":true}")
    var out: [16]u8 = [0_u8; 16]
    let text: Maybe<String> = std.json.writeString(out, "zero")
    if parsed.has && text.has && std.json.streamTokens("{\"ok\":true}") == 3 {
        check world.out.write("json ok\n")
    }
}

Byte-span parse form:

pub fn main(world: World) -> Void raises {
    let bytes: Span<u8> = std.mem.span("{\"ok\":1}")
    var arena_buf: [16]u8 = [0_u8; 16]
    var arena: FixedBufAlloc = std.mem.fixedBufAlloc(arena_buf)
    let parsed: Maybe<JsonDoc> = std.json.parseBytes(arena, bytes)
    if parsed.has && std.json.validateBytes(bytes) && std.json.streamTokensBytes(bytes) == 3 {
        check world.out.write("json bytes ok\n")
        return
    }
    check world.err.write("json bytes failed\n")
}

Top-level object lookup and caller-buffer writing:

pub fn main(world: World) -> Void raises {
    let input: Span<u8> = "{\"name\":\"zero\",\"count\":42,\"ok\":true}"
    var name_buf: [8]u8 = [0_u8; 8]
    let name: Maybe<Span<u8>> = std.json.string(name_buf, input, "name")
    let count: Maybe<u32> = std.json.u32(input, "count")
    var count_field_buf: [24]u8 = [0_u8; 24]
    let count_field: Maybe<Span<u8>> = std.json.writeFieldU32(count_field_buf, "count", 42_u32)
    var out: [48]u8 = [0_u8; 48]
    var written: Maybe<Span<u8>> = null
    if count_field.has {
        written = std.json.writeObject2StringField(out, "name", "zero", count_field.value)
    }
    if name.has && count.has && written.has && std.json.validateError(written.value) == std.json.errorNone() {
        check world.out.write("json lookup ok\n")
    }
}

Object and array cursors return borrowed raw JSON slices. Object keys are decoded into caller-owned storage:

pub fn main(world: World) -> Void raises {
    let input: Span<u8> = "{\"user\":{\"name\":\"zero\",\"count\":42},\"items\":[1,2]}"
    let field_count: Maybe<usize> = std.json.objectFieldCount(input)
    var key_buf: [8]u8 = [0_u8; 8]
    let first_key: Maybe<Span<u8>> = std.json.objectKey(key_buf, input, 0)
    let items: Maybe<Span<u8>> = std.json.field(input, "items")
    var name_buf: [8]u8 = [0_u8; 8]
    let name: Maybe<Span<u8>> = std.json.pathString(name_buf, input, "user.name")
    if field_count.has && first_key.has && items.has && std.json.arrayCount(items.value).has && name.has {
        check world.out.write("json cursors ok\n")
    }
}

JSON validation diagnostics are allocation-free. Use std.diag when a human-readable file location is needed:

pub fn main(world: World) -> Void raises {
    let input: Span<u8> = "{\n  \"ok\": tru\n}"
    var location_buf: [24]u8 = [0_u8; 24]
    let location: Maybe<Span<u8>> = std.diag.formatOffsetLocation(location_buf, "config.json", input, std.json.errorOffset(input))
    if std.json.validateError(input) == std.json.errorInvalid() && std.json.errorLine(input) == 2 && location.has {
        check world.out.write(location.value)
        check world.out.write("\n")
    }
}

Small array responses use the same caller-buffer pattern:

pub fn main(world: World) -> Void raises {
    var out: [32]u8 = [0_u8; 32]
    let tags: Maybe<Span<u8>> = std.json.writeArray2Strings(out, "api", "agent")
    if tags.has {
        check world.out.write(tags.value)
    }
}

Design Notes

JSON should not fake allocation-free semantics. Validation, field lookup, string decode, and writing stay allocation-free. String decode writes UTF-8 for Unicode escapes and rejects malformed surrogate pairs.

Parsing into an owned document requires an explicit allocator. The current JsonDoc value is opaque; examples inspect Maybe.has and use token streaming for allocation-free summaries. Field lookup is intentionally shallow: it reads top-level object fields and returns raw slices or typed scalar decodes. Object path lookup follows dot-separated object keys; array indexing remains explicit through arrayValue. When an object contains duplicate keys, name-based lookup returns the first matching value, while ordinal object cursors preserve the source order and expose every field. Validation diagnostics report byte offsets in the source payload; line and column helpers treat lines and columns as one-based byte positions.