Mercurial > public > mk2
view code_part1/OSTC_code_asm_part1/strings.inc @ 110:8aa8acada0fd
Display deco-type icon in surface mode.
author | JeanDo |
---|---|
date | Wed, 22 Dec 2010 03:23:55 +0100 |
parents | dc349e4264bb |
children | 6a94f96e9cea |
line wrap: on
line source
;============================================================================= ; ; File strings.inc ; ; Implementation code various string functions. ; ; This program is free software: you can redistribute it and/or modify ; it under the terms of the GNU General Public License as published by ; the Free Software Foundation, either version 3 of the License, or ; (at your option) any later version. ; ; This program is distributed in the hope that it will be useful, ; but WITHOUT ANY WARRANTY; without even the implied warranty of ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ; GNU General Public License for more details. ; ; You should have received a copy of the GNU General Public License ; along with this program. If not, see <http://www.gnu.org/licenses/>. ; ; Copyright (c) 2010, JD Gascuel. ;============================================================================= ; HISTORY ; 2010-12-02 : [jDG] Creation... ; ; RATIONALS for STRCAT / STRCPY / STRCAT_PRINT / STRCPY_PRINT: ; * Gain PROM space: each time a string operation is done, we have a bunch ; of lines in the style: ; movlw '+' ; movwf POSTINC2 ; movlw '/' ; movwf POSTINC2 ; movlw '-' ; movwf POSTINC2 ; movlw ':' ; movwf POSTINC2 ; call word_processor ; which takes 20 bytes of PROM space (eg. 4 + chars/4). Whereas : ; STRCAT_PRINT "+/-:" ; takes just 10 bytes (4 + chars + 1, even rounded up). ; ; Note that the other common sequence : ; OUTPUTTEXT .113 ; does compile in (6 bytes per call), plus (1 + chars, even rouded up) ; once it the whole code. Also, it is slower to execute, because it have ; to roll through the string table. ; ; RATIONALS for a formating variant... not yet done... ; * Embeding formatting commands into the string allows even mode compact ; sequence. ; Possible commandes: ; \xF0 output_8 ; arg in hi, and move lo to hi, ; \xF1 output_9 ; so we can have two 8bits concertion ; \xF2 output_99 ; in a single sequence... ; \xF3 output_99x ; \xF4 output_16 ; arg in hi:lo ; \xF5 output_16dp 1 ; \xF6 output_16dp 2 ; \xF7 output_16dp 3 ; .... ; Usage: ; movff apnoe_min, hi ; movff apnoe_sec, lo ; FORMAT_PRINT "Time: \xF3:\xF3" ; ; * Cons: code redeability is poor: reader have to remember exactly what ; each cryptic hexa code is doing... ; No-macro-syntax: ; call format_print_block ; DB "Time: ", FORMAT_99x, ':', FORMAT_99x, 0 ; is denitively more secure in that respect... ;============================================================================= ; Copy a short embebed string at start of the string buffer (letter) ; Input: (nothing) ; Output: chars are copied into letter, starting at the beginning. ; FSR2 point to the first unused char (the NULL termination). ; ; Trashed: WREG, TBLPTR, TABLAT, PRODL ; Note: This are all bank-safe call. ; STRCPY macro string call strcpy_block DB string, 0 endm ;============================================================================= ; A variant of STRCPY that appends chars to the current FSR2 pointer. ; Input/Output/Trashed : see STRCPY. STRCAT macro string call strcat_block DB string, 0 endm ;============================================================================= ; A variant of STRCPY that send the string to the word processor afterwards. ; Input/Output: see STRCPY. ; Trashed: See STRCPY + word_processor. In particular, switch RAM to Bank1 ; STRCPY_PRINT macro string call strcpy_block_print DB string, 0 endm ; Trashed: See STRCPY + word_processor. In particular, switch RAM to Bank1 STRCAT_PRINT macro string call strcat_block_print DB string, 0 endm ;============================================================================= ; A shortcut for the macros WIN_TOP + WIN_LEFT + WIN_FONT + WIN_INVERT. ; The idea is to replace a 4x6=24 bytes sequence by a more compact 6bytes one. ; ; Trashed: TBLPTR, TABLAT, WREG. ; Note: This are all bank-safe call. WIN_SMALL macro x, y call start_small_block DB x, y endm WIN_SMALL_INVERT macro x, y call start_small_invert_block DB x, y endm WIN_MEDIUM macro x, y call start_medium_block DB x, y endm WIN_MEDIUM_INVERT macro x, y call start_medium_invert_block DB x, y endm WIN_LARGE macro x, y call start_large_block DB x, y endm WIN_LARGE_INVERT macro x, y call start_large_invert_block DB x, y endm