// Copyright Mozilla Foundation. See the COPYRIGHT // file at the top-level directory of this distribution. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use super::*; use crate::data::*; use crate::handles::*; use crate::variant::*; // Rust 1.14.0 requires the following despite the asterisk above. use super::in_inclusive_range16; #[derive(Copy, Clone, PartialEq)] enum Iso2022JpDecoderState { Ascii, Roman, Katakana, LeadByte, TrailByte, EscapeStart, Escape, } pub struct Iso2022JpDecoder { decoder_state: Iso2022JpDecoderState, output_state: Iso2022JpDecoderState, // only takes 1 of first 4 values lead: u8, output_flag: bool, pending_prepended: bool, } impl Iso2022JpDecoder { pub fn new() -> VariantDecoder { VariantDecoder::Iso2022Jp(Iso2022JpDecoder { decoder_state: Iso2022JpDecoderState::Ascii, output_state: Iso2022JpDecoderState::Ascii, lead: 0u8, output_flag: false, pending_prepended: false, }) } pub fn in_neutral_state(&self) -> bool { self.decoder_state == Iso2022JpDecoderState::Ascii && self.output_state == Iso2022JpDecoderState::Ascii && self.lead == 0u8 && !self.output_flag && !self.pending_prepended } fn extra_to_input_from_state(&self, byte_length: usize) -> Option { byte_length.checked_add( if self.lead == 0 || self.pending_prepended { 0 } else { 1 } + match self.decoder_state { Iso2022JpDecoderState::Escape | Iso2022JpDecoderState::EscapeStart => 1, _ => 0, }, ) } fn extra_to_output_from_state(&self) -> usize { if self.lead != 0 && self.pending_prepended { 1 + self.output_flag as usize } else { self.output_flag as usize } } pub fn max_utf16_buffer_length(&self, byte_length: usize) -> Option { checked_add( self.extra_to_output_from_state(), self.extra_to_input_from_state(byte_length), ) } pub fn max_utf8_buffer_length_without_replacement(&self, byte_length: usize) -> Option { // worst case: 1 to 3 (half-width katakana) self.max_utf8_buffer_length(byte_length) } pub fn max_utf8_buffer_length(&self, byte_length: usize) -> Option { checked_mul( 3, checked_add( self.extra_to_output_from_state(), self.extra_to_input_from_state(byte_length), ), ) } decoder_functions!( { if self.pending_prepended { // lead was set in EscapeStart and "prepended" // in Escape. debug_assert!(self.lead == 0x24u8 || self.lead == 0x28u8); match dest.check_space_bmp() { Space::Full(_) => { return (DecoderResult::OutputFull, 0, 0); } Space::Available(destination_handle) => { self.pending_prepended = false; self.output_flag = false; match self.decoder_state { Iso2022JpDecoderState::Ascii | Iso2022JpDecoderState::Roman => { destination_handle.write_ascii(self.lead); self.lead = 0x0u8; } Iso2022JpDecoderState::Katakana => { destination_handle .write_upper_bmp(u16::from(self.lead) - 0x21u16 + 0xFF61u16); self.lead = 0x0u8; } Iso2022JpDecoderState::LeadByte => { self.decoder_state = Iso2022JpDecoderState::TrailByte; } _ => unreachable!(), } } } } }, {}, { match self.decoder_state { Iso2022JpDecoderState::TrailByte | Iso2022JpDecoderState::EscapeStart => { self.decoder_state = self.output_state; return (DecoderResult::Malformed(1, 0), src_consumed, dest.written()); } Iso2022JpDecoderState::Escape => { self.pending_prepended = true; self.decoder_state = self.output_state; return (DecoderResult::Malformed(1, 1), src_consumed, dest.written()); } _ => {} } }, { match self.decoder_state { Iso2022JpDecoderState::Ascii => { if b == 0x1Bu8 { self.decoder_state = Iso2022JpDecoderState::EscapeStart; continue; } self.output_flag = false; if b > 0x7Fu8 || b == 0x0Eu8 || b == 0x0Fu8 { return ( DecoderResult::Malformed(1, 0), unread_handle.consumed(), destination_handle.written(), ); } destination_handle.write_ascii(b); continue; } Iso2022JpDecoderState::Roman => { if b == 0x1Bu8 { self.decoder_state = Iso2022JpDecoderState::EscapeStart; continue; } self.output_flag = false; if b == 0x5Cu8 { destination_handle.write_mid_bmp(0x00A5u16); continue; } if b == 0x7Eu8 { destination_handle.write_upper_bmp(0x203Eu16); continue; } if b > 0x7Fu8 || b == 0x0Eu8 || b == 0x0Fu8 { return ( DecoderResult::Malformed(1, 0), unread_handle.consumed(), destination_handle.written(), ); } destination_handle.write_ascii(b); continue; } Iso2022JpDecoderState::Katakana => { if b == 0x1Bu8 { self.decoder_state = Iso2022JpDecoderState::EscapeStart; continue; } self.output_flag = false; if b >= 0x21u8 && b <= 0x5Fu8 { destination_handle.write_upper_bmp(u16::from(b) - 0x21u16 + 0xFF61u16); continue; } return ( DecoderResult::Malformed(1, 0), unread_handle.consumed(), destination_handle.written(), ); } Iso2022JpDecoderState::LeadByte => { if b == 0x1Bu8 { self.decoder_state = Iso2022JpDecoderState::EscapeStart; continue; } self.output_flag = false; if b >= 0x21u8 && b <= 0x7Eu8 { self.lead = b; self.decoder_state = Iso2022JpDecoderState::TrailByte; continue; } return ( DecoderResult::Malformed(1, 0), unread_handle.consumed(), destination_handle.written(), ); } Iso2022JpDecoderState::TrailByte => { if b == 0x1Bu8 { self.decoder_state = Iso2022JpDecoderState::EscapeStart; // The byte in error is the previous // lead byte. return ( DecoderResult::Malformed(1, 1), unread_handle.consumed(), destination_handle.written(), ); } self.decoder_state = Iso2022JpDecoderState::LeadByte; let jis0208_lead_minus_offset = self.lead - 0x21; let byte = b; let handle = destination_handle; // The code below uses else after continue in // order to retain the structure seen in EUC-JP. let trail_minus_offset = byte.wrapping_sub(0x21); // Fast-track Hiragana (60% according to Lunde) // and Katakana (10% acconding to Lunde). if jis0208_lead_minus_offset == 0x03 && trail_minus_offset < 0x53 { // Hiragana handle.write_upper_bmp(0x3041 + u16::from(trail_minus_offset)); continue; } else if jis0208_lead_minus_offset == 0x04 && trail_minus_offset < 0x56 { // Katakana handle.write_upper_bmp(0x30A1 + u16::from(trail_minus_offset)); continue; } else if trail_minus_offset > (0xFE - 0xA1) { return ( DecoderResult::Malformed(2, 0), unread_handle.consumed(), handle.written(), ); } else { let pointer = mul_94(jis0208_lead_minus_offset) + trail_minus_offset as usize; let level1_pointer = pointer.wrapping_sub(1410); if level1_pointer < JIS0208_LEVEL1_KANJI.len() { handle.write_upper_bmp(JIS0208_LEVEL1_KANJI[level1_pointer]); continue; } else { let level2_pointer = pointer.wrapping_sub(4418); if level2_pointer < JIS0208_LEVEL2_AND_ADDITIONAL_KANJI.len() { handle.write_upper_bmp( JIS0208_LEVEL2_AND_ADDITIONAL_KANJI[level2_pointer], ); continue; } else { let ibm_pointer = pointer.wrapping_sub(8272); if ibm_pointer < IBM_KANJI.len() { handle.write_upper_bmp(IBM_KANJI[ibm_pointer]); continue; } else if let Some(bmp) = jis0208_symbol_decode(pointer) { handle.write_bmp_excl_ascii(bmp); continue; } else if let Some(bmp) = jis0208_range_decode(pointer) { handle.write_bmp_excl_ascii(bmp); continue; } else { return ( DecoderResult::Malformed(2, 0), unread_handle.consumed(), handle.written(), ); } } } } } Iso2022JpDecoderState::EscapeStart => { if b == 0x24u8 || b == 0x28u8 { self.lead = b; self.decoder_state = Iso2022JpDecoderState::Escape; continue; } self.output_flag = false; self.decoder_state = self.output_state; return ( DecoderResult::Malformed(1, 0), unread_handle.unread(), destination_handle.written(), ); } Iso2022JpDecoderState::Escape => { let mut state: Option = None; if self.lead == 0x28u8 && b == 0x42u8 { state = Some(Iso2022JpDecoderState::Ascii); } else if self.lead == 0x28u8 && b == 0x4Au8 { state = Some(Iso2022JpDecoderState::Roman); } else if self.lead == 0x28u8 && b == 0x49u8 { state = Some(Iso2022JpDecoderState::Katakana); } else if self.lead == 0x24u8 && (b == 0x40u8 || b == 0x42u8) { state = Some(Iso2022JpDecoderState::LeadByte); } match state { Some(s) => { self.lead = 0x0u8; self.decoder_state = s; self.output_state = s; let flag = self.output_flag; self.output_flag = true; if flag { // We had an escape sequence // immediately following another // escape sequence. Therefore, // the first one of these was // useless. return ( DecoderResult::Malformed(3, 3), unread_handle.consumed(), destination_handle.written(), ); } continue; } None => { // self.lead is still the previous // byte. It will be processed in // the preabmle upon next call. self.pending_prepended = true; self.output_flag = false; self.decoder_state = self.output_state; // The byte in error is not the // current or the previous byte but // the one before those (lone 0x1B). return ( DecoderResult::Malformed(1, 1), unread_handle.unread(), destination_handle.written(), ); } } } } }, self, src_consumed, dest, source, b, destination_handle, unread_handle, check_space_bmp ); } #[cfg(feature = "fast-kanji-encode")] #[inline(always)] fn is_kanji_mapped(bmp: u16) -> bool { // Use the shift_jis variant, because we don't care about the // byte values here. jis0208_kanji_shift_jis_encode(bmp).is_some() } #[cfg(not(feature = "fast-kanji-encode"))] #[cfg_attr( feature = "cargo-clippy", allow(if_let_redundant_pattern_matching, if_same_then_else) )] #[inline(always)] fn is_kanji_mapped(bmp: u16) -> bool { if 0x4EDD == bmp { true } else if let Some(_) = jis0208_level1_kanji_shift_jis_encode(bmp) { // Use the shift_jis variant, because we don't care about the // byte values here. true } else if let Some(_) = jis0208_level2_and_additional_kanji_encode(bmp) { true } else if let Some(_) = position(&IBM_KANJI[..], bmp) { true } else { false } } #[cfg_attr( feature = "cargo-clippy", allow(if_let_redundant_pattern_matching, if_same_then_else) )] fn is_mapped_for_two_byte_encode(bmp: u16) -> bool { // The code below uses else after return to // keep the same structure as in EUC-JP. // Lunde says 60% Hiragana, 30% Kanji, 10% Katakana let bmp_minus_hiragana = bmp.wrapping_sub(0x3041); if bmp_minus_hiragana < 0x53 { true } else if in_inclusive_range16(bmp, 0x4E00, 0x9FA0) { is_kanji_mapped(bmp) } else { let bmp_minus_katakana = bmp.wrapping_sub(0x30A1); if bmp_minus_katakana < 0x56 { true } else { let bmp_minus_space = bmp.wrapping_sub(0x3000); if bmp_minus_space < 3 { // fast-track common punctuation true } else if in_inclusive_range16(bmp, 0xFF61, 0xFF9F) { true } else if bmp == 0x2212 { true } else if let Some(_) = jis0208_range_encode(bmp) { true } else if in_inclusive_range16(bmp, 0xFA0E, 0xFA2D) || bmp == 0xF929 || bmp == 0xF9DC { true } else if let Some(_) = ibm_symbol_encode(bmp) { true } else if let Some(_) = jis0208_symbol_encode(bmp) { true } else { false } } } } #[cfg(feature = "fast-kanji-encode")] #[inline(always)] fn encode_kanji(bmp: u16) -> Option<(u8, u8)> { jis0208_kanji_iso_2022_jp_encode(bmp) } #[cfg(not(feature = "fast-kanji-encode"))] #[inline(always)] fn encode_kanji(bmp: u16) -> Option<(u8, u8)> { if 0x4EDD == bmp { // Ideograph on the symbol row! Some((0x21, 0xB8 - 0x80)) } else if let Some((lead, trail)) = jis0208_level1_kanji_iso_2022_jp_encode(bmp) { Some((lead, trail)) } else if let Some(pos) = jis0208_level2_and_additional_kanji_encode(bmp) { let lead = (pos / 94) + (0xD0 - 0x80); let trail = (pos % 94) + 0x21; Some((lead as u8, trail as u8)) } else if let Some(pos) = position(&IBM_KANJI[..], bmp) { let lead = (pos / 94) + (0xF9 - 0x80); let trail = (pos % 94) + 0x21; Some((lead as u8, trail as u8)) } else { None } } enum Iso2022JpEncoderState { Ascii, Roman, Jis0208, } pub struct Iso2022JpEncoder { state: Iso2022JpEncoderState, } impl Iso2022JpEncoder { pub fn new(encoding: &'static Encoding) -> Encoder { Encoder::new( encoding, VariantEncoder::Iso2022Jp(Iso2022JpEncoder { state: Iso2022JpEncoderState::Ascii, }), ) } pub fn has_pending_state(&self) -> bool { match self.state { Iso2022JpEncoderState::Ascii => false, _ => true, } } pub fn max_buffer_length_from_utf16_without_replacement( &self, u16_length: usize, ) -> Option { // Worst case: every other character is ASCII/Roman and every other // JIS0208. // Two UTF-16 input units: // Transition to Roman: 3 // Roman/ASCII: 1 // Transition to JIS0208: 3 // JIS0208: 2 // End transition: 3 checked_add_opt( checked_add(3, u16_length.checked_mul(4)), checked_div(u16_length.checked_add(1), 2), ) } pub fn max_buffer_length_from_utf8_without_replacement( &self, byte_length: usize, ) -> Option { // Worst case: every other character is ASCII/Roman and every other // JIS0208. // Three UTF-8 input units: 1 ASCII, 2 JIS0208 // Transition to ASCII: 3 // Roman/ASCII: 1 // Transition to JIS0208: 3 // JIS0208: 2 // End transition: 3 checked_add(3, byte_length.checked_mul(3)) } encoder_functions!( { match self.state { Iso2022JpEncoderState::Ascii => {} _ => match dest.check_space_three() { Space::Full(dst_written) => { return (EncoderResult::OutputFull, src_consumed, dst_written); } Space::Available(destination_handle) => { self.state = Iso2022JpEncoderState::Ascii; destination_handle.write_three(0x1Bu8, 0x28u8, 0x42u8); } }, } }, { match self.state { Iso2022JpEncoderState::Ascii => { if c == '\u{0E}' || c == '\u{0F}' || c == '\u{1B}' { return ( EncoderResult::Unmappable('\u{FFFD}'), unread_handle.consumed(), destination_handle.written(), ); } if c <= '\u{7F}' { destination_handle.write_one(c as u8); continue; } if c == '\u{A5}' || c == '\u{203E}' { self.state = Iso2022JpEncoderState::Roman; destination_handle.write_three(0x1Bu8, 0x28u8, 0x4Au8); unread_handle.unread(); continue; } if c > '\u{FFFF}' { return ( EncoderResult::Unmappable(c), unread_handle.consumed(), destination_handle.written(), ); } // Yes, if c is in index, we'll search // again in the Jis0208 state, but this // encoder is not worth optimizing. if is_mapped_for_two_byte_encode(c as u16) { self.state = Iso2022JpEncoderState::Jis0208; destination_handle.write_three(0x1Bu8, 0x24u8, 0x42u8); unread_handle.unread(); continue; } return ( EncoderResult::Unmappable(c), unread_handle.consumed(), destination_handle.written(), ); } Iso2022JpEncoderState::Roman => { if c == '\u{0E}' || c == '\u{0F}' || c == '\u{1B}' { return ( EncoderResult::Unmappable('\u{FFFD}'), unread_handle.consumed(), destination_handle.written(), ); } if c == '\u{5C}' || c == '\u{7E}' { self.state = Iso2022JpEncoderState::Ascii; destination_handle.write_three(0x1Bu8, 0x28u8, 0x42u8); unread_handle.unread(); continue; } if c <= '\u{7F}' { destination_handle.write_one(c as u8); continue; } if c == '\u{A5}' { destination_handle.write_one(0x5Cu8); continue; } if c == '\u{203E}' { destination_handle.write_one(0x7Eu8); continue; } if c > '\u{FFFF}' { return ( EncoderResult::Unmappable(c), unread_handle.consumed(), destination_handle.written(), ); } // Yes, if c is in index, we'll search // again in the Jis0208 state, but this // encoder is not worth optimizing. if is_mapped_for_two_byte_encode(c as u16) { self.state = Iso2022JpEncoderState::Jis0208; destination_handle.write_three(0x1Bu8, 0x24u8, 0x42u8); unread_handle.unread(); continue; } return ( EncoderResult::Unmappable(c), unread_handle.consumed(), destination_handle.written(), ); } Iso2022JpEncoderState::Jis0208 => { if c <= '\u{7F}' { self.state = Iso2022JpEncoderState::Ascii; destination_handle.write_three(0x1Bu8, 0x28u8, 0x42u8); unread_handle.unread(); continue; } if c == '\u{A5}' || c == '\u{203E}' { self.state = Iso2022JpEncoderState::Roman; destination_handle.write_three(0x1Bu8, 0x28u8, 0x4Au8); unread_handle.unread(); continue; } if c > '\u{FFFF}' { // Transition to ASCII here in order // not to make it the responsibility // of the caller. self.state = Iso2022JpEncoderState::Ascii; return ( EncoderResult::Unmappable(c), unread_handle.consumed(), destination_handle.write_three_return_written(0x1Bu8, 0x28u8, 0x42u8), ); } let bmp = c as u16; let handle = destination_handle; // The code below uses else after continue to // keep the same structure as in EUC-JP. // Lunde says 60% Hiragana, 30% Kanji, 10% Katakana let bmp_minus_hiragana = bmp.wrapping_sub(0x3041); if bmp_minus_hiragana < 0x53 { handle.write_two(0x24, 0x21 + bmp_minus_hiragana as u8); continue; } else if in_inclusive_range16(bmp, 0x4E00, 0x9FA0) { if let Some((lead, trail)) = encode_kanji(bmp) { handle.write_two(lead, trail); continue; } else { self.state = Iso2022JpEncoderState::Ascii; return ( EncoderResult::Unmappable(c), unread_handle.consumed(), handle.write_three_return_written(0x1Bu8, 0x28u8, 0x42u8), ); } } else { let bmp_minus_katakana = bmp.wrapping_sub(0x30A1); if bmp_minus_katakana < 0x56 { handle.write_two(0x25, 0x21 + bmp_minus_katakana as u8); continue; } else { let bmp_minus_space = bmp.wrapping_sub(0x3000); if bmp_minus_space < 3 { // fast-track common punctuation handle.write_two(0x21, 0x21 + bmp_minus_space as u8); continue; } let bmp_minus_half_width = bmp.wrapping_sub(0xFF61); if bmp_minus_half_width <= (0xFF9F - 0xFF61) { // We have half-width katakana. The lead is either // row 1 or 5 of JIS X 0208, so the lookup table // only stores the trail. let lead = if bmp != 0xFF70 && in_inclusive_range16(bmp, 0xFF66, 0xFF9D) { 0x25u8 } else { 0x21u8 }; let trail = ISO_2022_JP_HALF_WIDTH_TRAIL[bmp_minus_half_width as usize]; handle.write_two(lead, trail); continue; } else if bmp == 0x2212 { handle.write_two(0x21, 0x5D); continue; } else if let Some(pointer) = jis0208_range_encode(bmp) { let lead = (pointer / 94) + 0x21; let trail = (pointer % 94) + 0x21; handle.write_two(lead as u8, trail as u8); continue; } else if in_inclusive_range16(bmp, 0xFA0E, 0xFA2D) || bmp == 0xF929 || bmp == 0xF9DC { // Guaranteed to be found in IBM_KANJI let pos = position(&IBM_KANJI[..], bmp).unwrap(); let lead = (pos / 94) + (0xF9 - 0x80); let trail = (pos % 94) + 0x21; handle.write_two(lead as u8, trail as u8); continue; } else if let Some(pointer) = ibm_symbol_encode(bmp) { let lead = (pointer / 94) + 0x21; let trail = (pointer % 94) + 0x21; handle.write_two(lead as u8, trail as u8); continue; } else if let Some(pointer) = jis0208_symbol_encode(bmp) { let lead = (pointer / 94) + 0x21; let trail = (pointer % 94) + 0x21; handle.write_two(lead as u8, trail as u8); continue; } else { self.state = Iso2022JpEncoderState::Ascii; return ( EncoderResult::Unmappable(c), unread_handle.consumed(), handle.write_three_return_written(0x1Bu8, 0x28u8, 0x42u8), ); } } } } } }, self, src_consumed, source, dest, c, destination_handle, unread_handle, check_space_three ); } // Any copyright to the test code below this comment is dedicated to the // Public Domain. http://creativecommons.org/publicdomain/zero/1.0/ #[cfg(all(test, feature = "alloc"))] mod tests { use super::super::testing::*; use super::super::*; fn decode_iso_2022_jp(bytes: &[u8], expect: &str) { decode(ISO_2022_JP, bytes, expect); } fn encode_iso_2022_jp(string: &str, expect: &[u8]) { encode(ISO_2022_JP, string, expect); } #[test] fn test_iso_2022_jp_decode() { // Empty decode_iso_2022_jp(b"", &""); // ASCII decode_iso_2022_jp(b"\x61\x62", "\u{0061}\u{0062}"); decode_iso_2022_jp(b"\x7F\x0E\x0F", "\u{007F}\u{FFFD}\u{FFFD}"); // Partial escapes decode_iso_2022_jp(b"\x1B", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$", "\u{FFFD}$"); decode_iso_2022_jp(b"\x1B(", "\u{FFFD}("); decode_iso_2022_jp(b"\x1B.", "\u{FFFD}."); // ISO escapes decode_iso_2022_jp(b"\x1B(B", ""); // ASCII decode_iso_2022_jp(b"\x1B(J", ""); // Roman decode_iso_2022_jp(b"\x1B$@", ""); // 0208 decode_iso_2022_jp(b"\x1B$B", ""); // 0208 decode_iso_2022_jp(b"\x1B$(D", "\u{FFFD}$(D"); // 2012 decode_iso_2022_jp(b"\x1B$A", "\u{FFFD}$A"); // GB2312 decode_iso_2022_jp(b"\x1B$(C", "\u{FFFD}$(C"); // KR decode_iso_2022_jp(b"\x1B.A", "\u{FFFD}.A"); // Latin-1 decode_iso_2022_jp(b"\x1B.F", "\u{FFFD}.F"); // Greek decode_iso_2022_jp(b"\x1B(I", ""); // Half-width Katakana decode_iso_2022_jp(b"\x1B$(O", "\u{FFFD}$(O"); // 2013 decode_iso_2022_jp(b"\x1B$(P", "\u{FFFD}$(P"); // 2013 decode_iso_2022_jp(b"\x1B$(Q", "\u{FFFD}$(Q"); // 2013 decode_iso_2022_jp(b"\x1B$)C", "\u{FFFD}$)C"); // KR decode_iso_2022_jp(b"\x1B$)A", "\u{FFFD}$)A"); // GB2312 decode_iso_2022_jp(b"\x1B$)G", "\u{FFFD}$)G"); // CNS decode_iso_2022_jp(b"\x1B$*H", "\u{FFFD}$*H"); // CNS decode_iso_2022_jp(b"\x1B$)E", "\u{FFFD}$)E"); // IR decode_iso_2022_jp(b"\x1B$+I", "\u{FFFD}$+I"); // CNS decode_iso_2022_jp(b"\x1B$+J", "\u{FFFD}$+J"); // CNS decode_iso_2022_jp(b"\x1B$+K", "\u{FFFD}$+K"); // CNS decode_iso_2022_jp(b"\x1B$+L", "\u{FFFD}$+L"); // CNS decode_iso_2022_jp(b"\x1B$+M", "\u{FFFD}$+M"); // CNS decode_iso_2022_jp(b"\x1B$(@", "\u{FFFD}$(@"); // 0208 decode_iso_2022_jp(b"\x1B$(A", "\u{FFFD}$(A"); // GB2312 decode_iso_2022_jp(b"\x1B$(B", "\u{FFFD}$(B"); // 0208 decode_iso_2022_jp(b"\x1B%G", "\u{FFFD}%G"); // UTF-8 // ASCII decode_iso_2022_jp(b"\x5B", "\u{005B}"); decode_iso_2022_jp(b"\x5C", "\u{005C}"); decode_iso_2022_jp(b"\x7E", "\u{007E}"); decode_iso_2022_jp(b"\x0E", "\u{FFFD}"); decode_iso_2022_jp(b"\x0F", "\u{FFFD}"); decode_iso_2022_jp(b"\x80", "\u{FFFD}"); decode_iso_2022_jp(b"\xFF", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(B\x5B", "\u{005B}"); decode_iso_2022_jp(b"\x1B(B\x5C", "\u{005C}"); decode_iso_2022_jp(b"\x1B(B\x7E", "\u{007E}"); decode_iso_2022_jp(b"\x1B(B\x0E", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(B\x0F", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(B\x80", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(B\xFF", "\u{FFFD}"); // Roman decode_iso_2022_jp(b"\x1B(J\x5B", "\u{005B}"); decode_iso_2022_jp(b"\x1B(J\x5C", "\u{00A5}"); decode_iso_2022_jp(b"\x1B(J\x7E", "\u{203E}"); decode_iso_2022_jp(b"\x1B(J\x0E", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(J\x0F", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(J\x80", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(J\xFF", "\u{FFFD}"); // Katakana decode_iso_2022_jp(b"\x1B(I\x20", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\x21", "\u{FF61}"); decode_iso_2022_jp(b"\x1B(I\x5F", "\u{FF9F}"); decode_iso_2022_jp(b"\x1B(I\x60", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\x0E", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\x0F", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\x80", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\xFF", "\u{FFFD}"); // 0208 differences from 1978 to 1983 decode_iso_2022_jp(b"\x1B$@\x54\x64", "\u{58FA}"); decode_iso_2022_jp(b"\x1B$@\x44\x5B", "\u{58F7}"); decode_iso_2022_jp(b"\x1B$@\x74\x21", "\u{582F}"); decode_iso_2022_jp(b"\x1B$@\x36\x46", "\u{5C2D}"); decode_iso_2022_jp(b"\x1B$@\x28\x2E", "\u{250F}"); decode_iso_2022_jp(b"\x1B$B\x54\x64", "\u{58FA}"); decode_iso_2022_jp(b"\x1B$B\x44\x5B", "\u{58F7}"); decode_iso_2022_jp(b"\x1B$B\x74\x21", "\u{582F}"); decode_iso_2022_jp(b"\x1B$B\x36\x46", "\u{5C2D}"); decode_iso_2022_jp(b"\x1B$B\x28\x2E", "\u{250F}"); // Broken 0208 decode_iso_2022_jp(b"\x1B$B\x28\x41", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$@\x80\x54\x64", "\u{FFFD}\u{58FA}"); decode_iso_2022_jp(b"\x1B$B\x28\x80", "\u{FFFD}"); if cfg!(miri) { // Miri is too slow return; } // Transitions decode_iso_2022_jp(b"\x1B(B\x5C\x1B(J\x5C", "\u{005C}\u{00A5}"); decode_iso_2022_jp(b"\x1B(B\x5C\x1B(I\x21", "\u{005C}\u{FF61}"); decode_iso_2022_jp(b"\x1B(B\x5C\x1B$@\x54\x64", "\u{005C}\u{58FA}"); decode_iso_2022_jp(b"\x1B(B\x5C\x1B$B\x54\x64", "\u{005C}\u{58FA}"); decode_iso_2022_jp(b"\x1B(J\x5C\x1B(B\x5C", "\u{00A5}\u{005C}"); decode_iso_2022_jp(b"\x1B(J\x5C\x1B(I\x21", "\u{00A5}\u{FF61}"); decode_iso_2022_jp(b"\x1B(J\x5C\x1B$@\x54\x64", "\u{00A5}\u{58FA}"); decode_iso_2022_jp(b"\x1B(J\x5C\x1B$B\x54\x64", "\u{00A5}\u{58FA}"); decode_iso_2022_jp(b"\x1B(I\x21\x1B(J\x5C", "\u{FF61}\u{00A5}"); decode_iso_2022_jp(b"\x1B(I\x21\x1B(B\x5C", "\u{FF61}\u{005C}"); decode_iso_2022_jp(b"\x1B(I\x21\x1B$@\x54\x64", "\u{FF61}\u{58FA}"); decode_iso_2022_jp(b"\x1B(I\x21\x1B$B\x54\x64", "\u{FF61}\u{58FA}"); decode_iso_2022_jp(b"\x1B$@\x54\x64\x1B(J\x5C", "\u{58FA}\u{00A5}"); decode_iso_2022_jp(b"\x1B$@\x54\x64\x1B(I\x21", "\u{58FA}\u{FF61}"); decode_iso_2022_jp(b"\x1B$@\x54\x64\x1B(B\x5C", "\u{58FA}\u{005C}"); decode_iso_2022_jp(b"\x1B$@\x54\x64\x1B$B\x54\x64", "\u{58FA}\u{58FA}"); decode_iso_2022_jp(b"\x1B$B\x54\x64\x1B(J\x5C", "\u{58FA}\u{00A5}"); decode_iso_2022_jp(b"\x1B$B\x54\x64\x1B(I\x21", "\u{58FA}\u{FF61}"); decode_iso_2022_jp(b"\x1B$B\x54\x64\x1B$@\x54\x64", "\u{58FA}\u{58FA}"); decode_iso_2022_jp(b"\x1B$B\x54\x64\x1B(B\x5C", "\u{58FA}\u{005C}"); // Empty transitions decode_iso_2022_jp(b"\x1B(B\x1B(J", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(B\x1B(I", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(B\x1B$@", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(B\x1B$B", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(J\x1B(B", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(J\x1B(I", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(J\x1B$@", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(J\x1B$B", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\x1B(J", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\x1B(B", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\x1B$@", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B(I\x1B$B", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$@\x1B(J", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$@\x1B(I", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$@\x1B(B", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$@\x1B$B", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$B\x1B(J", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$B\x1B(I", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$B\x1B$@", "\u{FFFD}"); decode_iso_2022_jp(b"\x1B$B\x1B(B", "\u{FFFD}"); // Transitions to self decode_iso_2022_jp(b"\x1B(B\x5C\x1B(B\x5C", "\u{005C}\u{005C}"); decode_iso_2022_jp(b"\x1B(J\x5C\x1B(J\x5C", "\u{00A5}\u{00A5}"); decode_iso_2022_jp(b"\x1B(I\x21\x1B(I\x21", "\u{FF61}\u{FF61}"); decode_iso_2022_jp(b"\x1B$@\x54\x64\x1B$@\x54\x64", "\u{58FA}\u{58FA}"); decode_iso_2022_jp(b"\x1B$B\x54\x64\x1B$B\x54\x64", "\u{58FA}\u{58FA}"); } #[test] fn test_iso_2022_jp_encode() { // Empty encode_iso_2022_jp("", b""); // ASCII encode_iso_2022_jp("ab", b"ab"); encode_iso_2022_jp("\u{1F4A9}", b"💩"); encode_iso_2022_jp("\x1B", b"�"); encode_iso_2022_jp("\x0E", b"�"); encode_iso_2022_jp("\x0F", b"�"); // Roman encode_iso_2022_jp("a\u{00A5}b", b"a\x1B(J\x5Cb\x1B(B"); encode_iso_2022_jp("a\u{203E}b", b"a\x1B(J\x7Eb\x1B(B"); if !cfg!(miri) { // Miri is too slow encode_iso_2022_jp("a\u{00A5}b\x5C", b"a\x1B(J\x5Cb\x1B(B\x5C"); encode_iso_2022_jp("a\u{203E}b\x7E", b"a\x1B(J\x7Eb\x1B(B\x7E"); encode_iso_2022_jp("\u{00A5}\u{1F4A9}", b"\x1B(J\x5C💩\x1B(B"); encode_iso_2022_jp("\u{00A5}\x1B", b"\x1B(J\x5C�\x1B(B"); encode_iso_2022_jp("\u{00A5}\x0E", b"\x1B(J\x5C�\x1B(B"); encode_iso_2022_jp("\u{00A5}\x0F", b"\x1B(J\x5C�\x1B(B"); encode_iso_2022_jp("\u{00A5}\u{58FA}", b"\x1B(J\x5C\x1B$B\x54\x64\x1B(B"); } // Half-width Katakana encode_iso_2022_jp("\u{FF61}", b"\x1B$B\x21\x23\x1B(B"); encode_iso_2022_jp("\u{FF65}", b"\x1B$B\x21\x26\x1B(B"); if !cfg!(miri) { // Miri is too slow encode_iso_2022_jp("\u{FF66}", b"\x1B$B\x25\x72\x1B(B"); encode_iso_2022_jp("\u{FF70}", b"\x1B$B\x21\x3C\x1B(B"); encode_iso_2022_jp("\u{FF9D}", b"\x1B$B\x25\x73\x1B(B"); encode_iso_2022_jp("\u{FF9E}", b"\x1B$B\x21\x2B\x1B(B"); encode_iso_2022_jp("\u{FF9F}", b"\x1B$B\x21\x2C\x1B(B"); } // 0208 encode_iso_2022_jp("\u{58FA}", b"\x1B$B\x54\x64\x1B(B"); encode_iso_2022_jp("\u{58FA}\u{250F}", b"\x1B$B\x54\x64\x28\x2E\x1B(B"); if !cfg!(miri) { // Miri is too slow encode_iso_2022_jp("\u{58FA}\u{1F4A9}", b"\x1B$B\x54\x64\x1B(B💩"); encode_iso_2022_jp("\u{58FA}\x1B", b"\x1B$B\x54\x64\x1B(B�"); encode_iso_2022_jp("\u{58FA}\x0E", b"\x1B$B\x54\x64\x1B(B�"); encode_iso_2022_jp("\u{58FA}\x0F", b"\x1B$B\x54\x64\x1B(B�"); encode_iso_2022_jp("\u{58FA}\u{00A5}", b"\x1B$B\x54\x64\x1B(J\x5C\x1B(B"); encode_iso_2022_jp("\u{58FA}a", b"\x1B$B\x54\x64\x1B(Ba"); } } #[test] #[cfg_attr(miri, ignore)] // Miri is too slow fn test_iso_2022_jp_decode_all() { let input = include_bytes!("test_data/iso_2022_jp_in.txt"); let expectation = include_str!("test_data/iso_2022_jp_in_ref.txt"); let (cow, had_errors) = ISO_2022_JP.decode_without_bom_handling(input); assert!(had_errors, "Should have had errors."); assert_eq!(&cow[..], expectation); } #[test] #[cfg_attr(miri, ignore)] // Miri is too slow fn test_iso_2022_jp_encode_all() { let input = include_str!("test_data/iso_2022_jp_out.txt"); let expectation = include_bytes!("test_data/iso_2022_jp_out_ref.txt"); let (cow, encoding, had_errors) = ISO_2022_JP.encode(input); assert!(!had_errors, "Should not have had errors."); assert_eq!(encoding, ISO_2022_JP); assert_eq!(&cow[..], &expectation[..]); } #[test] fn test_iso_2022_jp_half_width_katakana_length() { let mut output = [0u8; 20]; let mut decoder = ISO_2022_JP.new_decoder(); { let (result, read, written) = decoder.decode_to_utf8_without_replacement(b"\x1B\x28\x49", &mut output, false); assert_eq!(result, DecoderResult::InputEmpty); assert_eq!(read, 3); assert_eq!(written, 0); } { let needed = decoder .max_utf8_buffer_length_without_replacement(1) .unwrap(); let (result, read, written) = decoder.decode_to_utf8_without_replacement(b"\x21", &mut output[..needed], true); assert_eq!(result, DecoderResult::InputEmpty); assert_eq!(read, 1); assert_eq!(written, 3); assert_eq!(output[0], 0xEF); assert_eq!(output[1], 0xBD); assert_eq!(output[2], 0xA1); } } #[test] fn test_iso_2022_jp_length_after_escape() { let mut output = [0u16; 20]; let mut decoder = ISO_2022_JP.new_decoder(); { let (result, read, written, had_errors) = decoder.decode_to_utf16(b"\x1B", &mut output, false); assert_eq!(result, CoderResult::InputEmpty); assert_eq!(read, 1); assert_eq!(written, 0); assert!(!had_errors); } { let needed = decoder.max_utf16_buffer_length(1).unwrap(); let (result, read, written, had_errors) = decoder.decode_to_utf16(b"A", &mut output[..needed], true); assert_eq!(result, CoderResult::InputEmpty); assert_eq!(read, 1); assert_eq!(written, 2); assert!(had_errors); assert_eq!(output[0], 0xFFFD); assert_eq!(output[1], 0x0041); } } #[test] fn test_iso_2022_jp_encode_from_two_low_surrogates() { let expectation = b"��"; let mut output = [0u8; 40]; let mut encoder = ISO_2022_JP.new_encoder(); let (result, read, written, had_errors) = encoder.encode_from_utf16(&[0xDC00u16, 0xDEDEu16], &mut output[..], true); assert_eq!(result, CoderResult::InputEmpty); assert_eq!(read, 2); assert_eq!(written, expectation.len()); assert!(had_errors); assert_eq!(&output[..written], expectation); } }