# include # include # include # include # include # include # include static void testmsg(char const * fmt,...) { va_list args; va_start(args,fmt); printf("\n+->\n| \x1b[38:2::169:225:61mTesting\x1b[0m \""); vprintf(fmt,args); printf("\"...\n+->\n\n"); va_end(args); } static void testmsgdone(uint_least32_t * num0,uint_least8_t * num1) { *num0 += (uint_least32_t)(*num1); printf("\n+->\n| \x1b[38:2::61:225:169mDone\x1b[0m! (\x1b[38:2::225:61:61mErrors\x1b[0m: %" PRIuLEAST32 ")\n+->\n",*num1); *num1 = UINT8_C(0x0); } int main(void) { u8c_init(); printf("u8c version: %" PRIXLEAST64 ".\n",u8c_ver); printf("Debug build: %" PRIXLEAST8 ".\n",u8c_debug); printf("Thread safe: %" PRIXLEAST8 ".\n",u8c_thrdsafe); uint_least32_t errcount0 = UINT8_C(0x0); uint_least8_t errcount1 = UINT8_C(0x0); testmsg("Error messages"); { uint_least32_t * err = NULL; errcount1 += u8c_geterr(NULL,&err); errcount1 += u8c_println(stdout,err); free(err); } testmsgdone(&errcount0,&errcount1); testmsg("UTF-8 encoding/decoding"); { uint_least32_t * msg0 = (uint_least32_t[]){UINT32_C(0xA2),UINT32_C(0x2C),UINT32_C(0x939),UINT32_C(0x2C),UINT32_C(0x10348),UINT32_C(0x2C),UINT32_C(0x20AC),UINT32_C(0x2C),UINT32_C(0x218A),UINT32_C(0x2C),UINT32_C(0x1F44B),UINT32_C(0x0)}; uint_least8_t * msg1 = NULL; errcount1 += u8c_u8enc(NULL,&msg1,msg0); printf("Encoded: %s\n",msg1); errcount1 += u8c_u8dec(NULL,&msg0,msg1); errcount1 += u8c_u8enc(NULL,&msg1,msg0); printf("Encoded -> Decoded -> Encoded: %s\n",msg1); free(msg0); free(msg1); } testmsgdone(&errcount0,&errcount1); testmsg("Printing (u8c_print)"); { errcount1 += u8c_print(stdout,(uint_least32_t[]){UINT32_C(0x48),UINT32_C(0x65),UINT32_C(0x6C),UINT32_C(0x6C),UINT32_C(0x6F),UINT32_C(0x0),}); errcount1 += u8c_print(stdout,(uint_least32_t[]){UINT32_C(0x20),UINT32_C(0xF0),UINT32_C(0x65),UINT32_C(0x72),UINT32_C(0x65),UINT32_C(0x21),UINT32_C(0xA),UINT32_C(0x0),}); } testmsgdone(&errcount0,&errcount1); testmsg("Printing (u8c_println)"); { errcount1 += u8c_println(stdout,(uint_least32_t[]){UINT32_C(0x48),UINT32_C(0x65),UINT32_C(0x6C),UINT32_C(0x6C),UINT32_C(0x6F),UINT32_C(0x0),}); errcount1 += u8c_println(stdout,(uint_least32_t[]){UINT32_C(0x20),UINT32_C(0xF0),UINT32_C(0x65),UINT32_C(0x72),UINT32_C(0x65),UINT32_C(0x21),UINT32_C(0x0),}); } testmsgdone(&errcount0,&errcount1); testmsg("Text formatting"); { errcount1 += u8c_println(stdout,(uint_least32_t[]){UINT32_C(0x54),UINT32_C(0x68),UINT32_C(0x65),UINT32_C(0x20),UINT32_C(0xFFFD),UINT32_C(0x6E),UINT32_C(0x75),UINT32_C(0x6D),UINT32_C(0x62),UINT32_C(0x65),UINT32_C(0x72),UINT32_C(0xFFFD),UINT32_C(0x20),UINT32_C(0x69),UINT32_C(0x73),UINT32_C(0x20),UINT32_C(0xFFFD),UINT32_C(0x2E),UINT32_C(0x0),},u8c_fmttyp_fgcol,u8c_col_mint,u8c_fmttyp_fgcol0,u8c_fmttyp_int,(int_least64_t){-0x10}); } testmsgdone(&errcount0,&errcount1); testmsg("Colour text"); { errcount1 += u8c_println(stdout,(uint_least32_t[]){UINT32_C(0xFFFD),UINT32_C(0x72),UINT32_C(0x65),UINT32_C(0x64),UINT32_C(0xFFFD),UINT32_C(0x6F),UINT32_C(0x72),UINT32_C(0x61),UINT32_C(0x6E),UINT32_C(0x67),UINT32_C(0x65),UINT32_C(0xFFFD),UINT32_C(0x79),UINT32_C(0x65),UINT32_C(0x6C),UINT32_C(0x6C),UINT32_C(0x6F),UINT32_C(0x77),UINT32_C(0xFFFD),UINT32_C(0x63),UINT32_C(0x68),UINT32_C(0x61),UINT32_C(0x72),UINT32_C(0x74),UINT32_C(0x72),UINT32_C(0x65),UINT32_C(0x75),UINT32_C(0x73),UINT32_C(0x65),UINT32_C(0xFFFD),UINT32_C(0x67),UINT32_C(0x72),UINT32_C(0x65),UINT32_C(0x65),UINT32_C(0x6E),UINT32_C(0xFFFD),UINT32_C(0x6D),UINT32_C(0x69),UINT32_C(0x6E),UINT32_C(0x74),UINT32_C(0xFFFD),UINT32_C(0x63),UINT32_C(0x79),UINT32_C(0x61),UINT32_C(0x6E),UINT32_C(0xFFFD),UINT32_C(0x61),UINT32_C(0x7A),UINT32_C(0x75),UINT32_C(0x72),UINT32_C(0x65),UINT32_C(0xFFFD),UINT32_C(0x62),UINT32_C(0x6C),UINT32_C(0x75),UINT32_C(0x65),UINT32_C(0xFFFD),UINT32_C(0x76),UINT32_C(0x69),UINT32_C(0x6F),UINT32_C(0x6C),UINT32_C(0x65),UINT32_C(0x74),UINT32_C(0xFFFD),UINT32_C(0x6D),UINT32_C(0x61),UINT32_C(0x67),UINT32_C(0x65),UINT32_C(0x6E),UINT32_C(0x74),UINT32_C(0x61),UINT32_C(0xFFFD),UINT32_C(0x72),UINT32_C(0x6F),UINT32_C(0x73),UINT32_C(0x65),UINT32_C(0xFFFD),UINT32_C(0x0),},u8c_fmttyp_fgcol,u8c_col_red,u8c_fmttyp_fgcol,u8c_col_orange,u8c_fmttyp_fgcol,u8c_col_yellow,u8c_fmttyp_fgcol,u8c_col_chartreuse,u8c_fmttyp_fgcol,u8c_col_green,u8c_fmttyp_fgcol,u8c_col_mint,u8c_fmttyp_fgcol,u8c_col_cyan,u8c_fmttyp_fgcol,u8c_col_azure,u8c_fmttyp_fgcol,u8c_col_blue,u8c_fmttyp_fgcol,u8c_col_violet,u8c_fmttyp_fgcol,u8c_col_magenta,u8c_fmttyp_fgcol,u8c_col_rose,u8c_fmttyp_fgcol0); } testmsgdone(&errcount0,&errcount1); testmsg("Combining characters"); { for(uint_least32_t n = UINT32_C(0x300);n <= UINT32_C(0x36F);n += UINT32_C(0x1)) { errcount1 += u8c_print(stdout,(uint_least32_t[]){UINT32_C(0x41),n,UINT32_C(0x20),UINT32_C(0x0),}); fflush(stdout); thrd_sleep(&(struct timespec){.tv_nsec = 0x13DE435},NULL); } errcount1 += u8c_print(stdout,(uint_least32_t[]){UINT32_C(0xA),UINT32_C(0x0),}); } testmsgdone(&errcount0,&errcount1); printf("\n"); printf("Test done!\n"); printf("Total number of errors: %" PRIuLEAST32 ".\n",errcount0); u8c_end(); exit(EXIT_SUCCESS); }