use core::fmt::Display; use dharitri_wasm::{api::uncallable::UncallableApi, formatter::*, types::CodeMetadata}; #[derive(Default)] struct SimpleReceiver(String); impl FormatByteReceiver for SimpleReceiver { type Api = UncallableApi; fn append_bytes(&mut self, bytes: &[u8]) { self.0.push_str(core::str::from_utf8(bytes).unwrap()); } fn append_managed_buffer(&mut self, _item: &dharitri_wasm::types::ManagedBuffer) { unimplemented!() } fn append_managed_buffer_lower_hex( &mut self, _item: &dharitri_wasm::types::ManagedBuffer, ) { unimplemented!() } fn append_managed_buffer_binary( &mut self, _item: &dharitri_wasm::types::ManagedBuffer, ) { unimplemented!() } } /// Expects that the output from SCDisplay is the same as the standard Rust display. fn check_display(item: T) where T: SCDisplay + Display, { let mut receiver = SimpleReceiver::default(); SCDisplay::fmt(&item, &mut receiver); let expected = format!("{item}"); assert_eq!(receiver.0, expected); } #[test] fn test_display_unsigned() { check_display(0u8); check_display(50u8); check_display(0u16); check_display(50u16); check_display(0u32); check_display(5u32); check_display(50u32); check_display(0u64); check_display(5u64); check_display(50u64); check_display(u64::MAX); } #[test] fn test_format_signed() { check_display(0i32); check_display(5i32); check_display(50i32); check_display(-1i32); check_display(-50i32); check_display(-100i32); check_display(i8::MAX); check_display(i8::MIN); check_display(i16::MAX); check_display(i16::MIN); check_display(i32::MAX); check_display(i32::MIN); check_display(i64::MAX); check_display(i64::MIN); } fn check_code_metadata_display(item: T, expected: &str) where T: SCDisplay, { let mut receiver = SimpleReceiver::default(); SCDisplay::fmt(&item, &mut receiver); assert_eq!(receiver.0.as_str(), expected); } #[test] fn test_display_code_metadata() { check_code_metadata_display(CodeMetadata::UPGRADEABLE, "Upgradeable"); check_code_metadata_display(CodeMetadata::READABLE, "Readable"); check_code_metadata_display(CodeMetadata::PAYABLE, "Payable"); check_code_metadata_display(CodeMetadata::PAYABLE_BY_SC, "PayableBySC"); check_code_metadata_display( CodeMetadata::UPGRADEABLE | CodeMetadata::READABLE, "Upgradeable|Readable", ); check_code_metadata_display( CodeMetadata::UPGRADEABLE | CodeMetadata::PAYABLE, "Upgradeable|Payable", ); check_code_metadata_display( CodeMetadata::UPGRADEABLE | CodeMetadata::PAYABLE_BY_SC, "Upgradeable|PayableBySC", ); check_code_metadata_display( CodeMetadata::READABLE | CodeMetadata::PAYABLE, "Readable|Payable", ); check_code_metadata_display( CodeMetadata::READABLE | CodeMetadata::PAYABLE_BY_SC, "Readable|PayableBySC", ); check_code_metadata_display( CodeMetadata::PAYABLE | CodeMetadata::PAYABLE_BY_SC, "Payable|PayableBySC", ); check_code_metadata_display( CodeMetadata::UPGRADEABLE | CodeMetadata::READABLE | CodeMetadata::PAYABLE, "Upgradeable|Readable|Payable", ); check_code_metadata_display( CodeMetadata::UPGRADEABLE | CodeMetadata::READABLE | CodeMetadata::PAYABLE_BY_SC, "Upgradeable|Readable|PayableBySC", ); check_code_metadata_display( CodeMetadata::UPGRADEABLE | CodeMetadata::PAYABLE | CodeMetadata::PAYABLE_BY_SC, "Upgradeable|Payable|PayableBySC", ); check_code_metadata_display( CodeMetadata::READABLE | CodeMetadata::PAYABLE | CodeMetadata::PAYABLE_BY_SC, "Readable|Payable|PayableBySC", ); check_code_metadata_display( CodeMetadata::UPGRADEABLE | CodeMetadata::PAYABLE | CodeMetadata::READABLE | CodeMetadata::PAYABLE_BY_SC, "Upgradeable|Readable|Payable|PayableBySC", ); check_code_metadata_display(CodeMetadata::DEFAULT, "Default"); } fn check_lower_hex_eq(item: T, expected: &str) { let mut receiver = SimpleReceiver::default(); SCLowerHex::fmt(&item, &mut receiver); assert_eq!(receiver.0.as_str(), expected); } /// Expects that the output from SCLowerHex is the same as the standard Rust display. fn check_lower_hex(item: T) { let expected = format!("{:x}", &item); println!("{:x}", &item); check_lower_hex_eq(item, expected.as_str()); } #[test] fn test_lower_hex_usigned() { check_lower_hex(0x0u8); check_lower_hex(0x50u8); check_lower_hex(0xFFu8); check_lower_hex(0x0u16); check_lower_hex(0x50u16); check_lower_hex(0xFFFFu16); check_lower_hex(0x0u32); check_lower_hex(0x50u32); check_lower_hex(0xFFFFFFFFu32); check_lower_hex(0x50u32); check_lower_hex(0x0u64); check_lower_hex(0x5u64); check_lower_hex(0x50u64); check_lower_hex(u64::MAX); } #[test] fn test_lower_hex_signed() { check_lower_hex(0xai32); check_lower_hex(5i32); check_lower_hex(50i32); check_lower_hex(-2i32); check_lower_hex(-1i16); check_lower_hex(-50i32); check_lower_hex(-100i32); check_lower_hex(-0xFFi32); check_lower_hex(-0xFFFFi32); check_lower_hex(-0x01i64); check_lower_hex(-0x50i64); check_lower_hex(-0xFFi64); check_lower_hex(-0xFFFFi64); check_lower_hex(-0xFFFFFFFFi64); check_lower_hex(i8::MAX); check_lower_hex(i8::MIN); check_lower_hex(i16::MAX); check_lower_hex(i16::MIN); check_lower_hex(i32::MAX); check_lower_hex(i32::MIN); check_lower_hex(i64::MAX); check_lower_hex(i64::MIN); } #[test] fn test_lower_hex_code_metadata() { check_lower_hex_eq(CodeMetadata::UPGRADEABLE, "0100"); check_lower_hex_eq(CodeMetadata::READABLE, "0400"); check_lower_hex_eq(CodeMetadata::PAYABLE, "0002"); check_lower_hex_eq(CodeMetadata::PAYABLE_BY_SC, "0004"); check_lower_hex_eq( CodeMetadata::UPGRADEABLE | CodeMetadata::PAYABLE | CodeMetadata::READABLE | CodeMetadata::PAYABLE_BY_SC, "0506", ); } fn check_binary_eq(item: T, expected: &str) { let mut receiver = SimpleReceiver::default(); SCBinary::fmt(&item, &mut receiver); assert_eq!(receiver.0.as_str(), expected); } #[test] fn test_binary_code_metadata() { check_binary_eq(CodeMetadata::UPGRADEABLE, "0000000100000000"); check_binary_eq(CodeMetadata::READABLE, "0000010000000000"); check_binary_eq(CodeMetadata::PAYABLE, "0000000000000010"); check_binary_eq(CodeMetadata::PAYABLE_BY_SC, "0000000000000100"); check_binary_eq( CodeMetadata::UPGRADEABLE | CodeMetadata::PAYABLE | CodeMetadata::READABLE | CodeMetadata::PAYABLE_BY_SC, "0000010100000110", ); }