/sved/trunk/mdr/mdrs2023.lib |
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/sved/trunk/mdr/history.txt |
---|
1,13 → 1,23 |
version xxxx (xx xxx xxxx) |
- added the OPL driver (Adlib-style OPL2 FM synth) along with IMF playback |
- new mdr_dos_selfexe() |
- new mdr_dos_truename() |
- new mdr_coutraw_str() and mdr_coutraw_crlf() |
- new mdr_dos_ctrlc_inhibit(), mdr_dos_ctrlc_enable(), mdr_dos_ctrlc_disable() |
- added mdr_bios_ticks() |
- renamed keyb_getkey() to mdr_dos_getkey() |
- renamed keyb_flush() to mdr_dos_flushkeyb() |
- renamed all timer_ functions to mdr_timer_ |
- new mdr_dos_getkey2(), same as mdr_dos_getkey() but immune to CTRL+C |
- new mdr_dos_keypending() |
- removed keyb_getkey_ifany(): use mdr_dos_keypending + mdr_dos_getkey instead |
- renamed pcx_anal() and pcx_load() to mdr_pcx_anal() and mdr_pcx_load() |
- added pcx_loadrow(): loads PCX data row by row (useful on PCX files > 64K) |
- replaced pcx_convto8bpp() by mdr_pcx_to8bpp() |
- vid12_putscanline() optimizations: 22% faster |
- renamed all the mouse_ functions to mdr_mouse_ |
- added mdr_mouse_setcursor() |
- added vid12_waitblank() |
version 2023 (29 Jul 2023) |
- all routines are built as a library now |
/sved/trunk/mdr/inc/mdr/bios.h |
---|
32,4 → 32,8 |
* works on IBM PC, XT, AT - ie. it's always safe */ |
void mdr_bios_tickswait(unsigned short ticks); |
/* returns the current BIOS tick counter (18.2 Hz, 1 tick is roughly 55ms, an |
* hour has 65543 ticks). works on IBM PC, XT, AT - ie. it's always safe */ |
unsigned short mdr_bios_ticks(void); |
#endif |
/sved/trunk/mdr/inc/mdr/dos.h |
---|
108,7 → 108,7 |
/* Determine the canonical name of the specified filename or path and writes |
* the result into result. The input path does not need to actually exist. |
* This function requires a 3.x+ DOS kernel. |
* result is zeroed to an empty string on error. */ |
* name is simply copied to result on error. */ |
void mdr_dos_truename(char *result, const char *name); |
#endif |
/sved/trunk/mdr/inc/mdr/mouse.h |
---|
4,7 → 4,7 |
* This file is part of the Mateusz' DOS Routines (MDR): http://mdr.osdn.io |
* Published under the terms of the MIT License, as stated below. |
* |
* Copyright (C) 2014-2022 Mateusz Viste |
* Copyright (C) 2014-2023 Mateusz Viste |
* |
* Permission is hereby granted, free of charge, to any person obtaining a copy |
* of this software and associated documentation files (the "Software"), to |
29,20 → 29,32 |
#define MDR_MOUSE_H |
/* init the mouse driver (and checks for presence of mouse support at same time) |
* returns 0 if no mouse is present, and the number of buttons otherwise */ |
int mouse_init(void); |
* returns 0 if no mouse is present, and the number of buttons otherwise. |
* after initialization the mouse cursor is hidden, use mdr_mouse_show() to |
* make it visible. */ |
int mdr_mouse_init(void); |
/* shows the mouse pointer */ |
void mouse_show(void); |
void mdr_mouse_show(void); |
/* hides the mouse pointer */ |
void mouse_hide(void); |
void mdr_mouse_hide(void); |
/* get x/y coordinates of the mouse, and returns a bitfield with state of buttons */ |
int mouse_getstate(int *x, int *y); |
int mdr_mouse_getstate(int *x, int *y); |
/* get x/y coordinates of the mouse when the last button release occured since last check. |
returns the id of the button pressed (1 or 2), or 0 if no event occured. */ |
int mouse_fetchrelease(int *x, int *y); |
int mdr_mouse_fetchrelease(int *x, int *y); |
/* set graphic pointer shape. icon is 64-bytes long, two sets of 32. each set |
* of 32 bytes is organized as a 16x16 bitmap, ie. 16 rows of 16-bit values. |
* a) the first set of 16 shorts defines the background mask - that is, the |
* background will show through wherever there is a 1-bit in that data. |
* b) the second set defines the "XOR mask" - that is, the pixels matching the |
* 1-bit in this data set are toggled. |
* hotspotx and hotspoty define respectively the horizontal and vertical hot |
* spot of the pointer (default being [0,0], that is the top left corner). */ |
void mdr_mouse_setcursor(const unsigned short *icon, unsigned char hotspotx, unsigned char hotspoty); |
#endif |
/sved/trunk/mdr/inc/mdr/opl.h |
---|
0,0 → 1,241 |
/* |
* Library to access OPL2/OPL3 hardware (YM3812 / YMF262) |
* |
* This file is part of the Mateusz' DOS Routines (MDR): http://mdr.osdn.io |
* Published under the terms of the MIT License, as stated below. |
* |
* Copyright (C) 2015-2023 Mateusz Viste |
* |
* Permission is hereby granted, free of charge, to any person obtaining a copy |
* of this software and associated documentation files (the "Software"), to |
* deal in the Software without restriction, including without limitation the |
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or |
* sell copies of the Software, and to permit persons to whom the Software is |
* furnished to do so, subject to the following conditions: |
* |
* The above copyright notice and this permission notice shall be included in |
* all copies or substantial portions of the Software. |
* |
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR |
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, |
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE |
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER |
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING |
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS |
* IN THE SOFTWARE. |
*/ |
#ifndef mdr_opl_h |
#define mdr_opl_h |
struct mdr_opl_timbre { |
unsigned char mod_ws, car_ws; /* waveform select (0-4), reg Exh */ |
unsigned char mod_sr, car_sr; /* sustain/release, reg 8xh */ |
unsigned char mod_ad, car_ad; /* attack/decay, reg 6xh */ |
unsigned char mod_20, car_20; /* tremolo/vibrato/sustain..., reg 2xh */ |
unsigned char mod_40, car_40; /* reg 4xh */ |
unsigned char feedconn; |
}; |
struct mdr_opl_timbretemplate { |
struct { |
unsigned char ws; /* waveform select 0..3 */ |
unsigned char sustlev; /* sustain level 0..15 */ |
unsigned char release; /* release level 0..15 */ |
unsigned char attack; /* attack rate 0..15 */ |
unsigned char decay; /* decay rate 0..15 */ |
unsigned char tremolo; /* tremolo flag 0..1 */ |
unsigned char vibrato; /* vibrato flag 0..1 */ |
unsigned char sustain; /* sustain flag 0..1 */ |
unsigned char ksr; /* KSR (envelope scaling) flag 0..1 */ |
unsigned char mult; /* frequency multiplication factor 0..15 */ |
unsigned char ksl; /* Key Scale Level 0..3 */ |
unsigned char outlev; /* output level 0..63 */ |
} carrier; |
struct { |
unsigned char ws; /* waveform select 0..3 */ |
unsigned char sustlev; /* sustain level 0..15 */ |
unsigned char release; /* release level 0..15 */ |
unsigned char attack; /* attack rate 0..15 */ |
unsigned char decay; /* decay rate 0..15 */ |
unsigned char tremolo; /* tremolo flag 0..1 */ |
unsigned char vibrato; /* vibrato flag 0..1 */ |
unsigned char sustain; /* sustain flag 0..1 */ |
unsigned char ksr; /* KSR (envelope scaling) flag 0..1 */ |
unsigned char mult; /* frequency multiplication factor 0..15 */ |
unsigned char ksl; /* Key Scale Level 0..3 */ |
unsigned char outlev; /* output level 0..63 */ |
} modultr; |
unsigned char feedback;/* FeedBack Modulation Factor 0..7 */ |
unsigned char conn; /* Synthesis type: 0=FM / 1=Additive */ |
}; |
enum MDR_OPL_TIMER { |
MDR_OPL_TIMER_80US = 2, |
MDR_OPL_TIMER_320US = 3 |
}; |
/* frequency groups, to be used with mdr_opl_noteon() and mdr_opl_notebend(). |
* There are 7 frequency groups to choose from. Each group supports a different |
* span of frequencies. Higher groups have wider spans, but at the cost of larger |
* difference between adjacent notes: |
* |
* Block Note 0 Note 1023 Step gap between adjacent notes |
* FGROUP0 0.047 Hz 48.503 Hz 0.048 Hz |
* FGROUP1 0.094 Hz 97.006 Hz 0.095 Hz |
* FGROUP2 0.189 Hz 194.013 Hz 0.190 Hz |
* FGROUP3 0.379 Hz 388.026 Hz 0.379 Hz |
* FGROUP4 0.758 Hz 776.053 Hz 0.759 Hz |
* FGROUP5 1.517 Hz 1552.107 Hz 1.517 Hz |
* FGROUP6 3.034 Hz 3104.215 Hz 3.034 Hz |
* FGROUP7 6.068 Hz 6208.431 Hz 6.069 Hz |
* |
* This shows that block 7 is capable of reaching the highest note (6.2kHz) but |
* since there are 6 Hz between notes the accuracy suffers. Example: note A-4 |
* is 440Hz but in this block, the two closest frequency numbers are 72 and 73, |
* which create tones at 437Hz and 443Hz respectively, neither of which is |
* particularly accurate. Blocks 3 and below are unable to reach as high as |
* 440Hz, but block 4 can. With block 4, frequency numbers 579 and 580 produce |
* 439.4 Hz and 440.2 Hz, considerably closer to the intended frequency. |
* |
* In other words, when calculating notes, the best accuracy is achieved by |
* selecting the lowest possible block number that can reach the desired note |
* frequency. |
* |
* More details: https://moddingwiki.shikadi.net/wiki/OPL_chip#A0-A8:_Frequency_Number |
*/ |
enum mdr_opl_fgroup_t { |
MDR_OPL_FGROUP0 = 0, |
MDR_OPL_FGROUP1 = 1 << 2, |
MDR_OPL_FGROUP2 = 2 << 2, |
MDR_OPL_FGROUP3 = 3 << 2, |
MDR_OPL_FGROUP4 = 4 << 2, |
MDR_OPL_FGROUP5 = 5 << 2, |
MDR_OPL_FGROUP6 = 6 << 2, |
MDR_OPL_FGROUP7 = 7 << 2 |
}; |
/* Hardware detection and initialization. Must be called before any other |
* OPL function. Returns 0 on success, non-zero otherwise. */ |
int mdr_opl_init(void); |
/* close OPL device */ |
void mdr_opl_close(void); |
/* turns off all notes */ |
void mdr_opl_clear(void); |
/* loads an instrument described by properties in a timbre_t struct into |
* the defined voice channel. The OPL2 chip supports up to 9 voice channels, |
* from 0 to 8. The timbre struct can be freed right after this call. */ |
void mdr_opl_loadinstrument(unsigned char voice, const struct mdr_opl_timbre *timbre); |
/* generate a timbre structure based on a timbre template. this is a |
* convenience function meant to provide a human-compatible (more readable) |
* way of generating a timbre struct. */ |
int mdr_opl_timbre_gen(struct mdr_opl_timbre *timbre, const struct mdr_opl_timbretemplate *tpl); |
/* Triggers a note on selected voice channel. |
* freqid is a value between 0 and 1023. The following formula can be used to |
* determine the freq number for a given note frequency (Hz) and block: |
* |
* freqid = frequency * 2^(20 - block) / 49716 |
* |
* The note will be kept "pressed" until mdr_opl_noteoff() is called. */ |
void mdr_opl_noteon(unsigned char voice, unsigned short freqid, enum mdr_opl_fgroup_t fgroup); |
/* changes the frequency of the note currently playing on voice channel, this |
* can be used for pitch bending. */ |
void mdr_opl_notebend(unsigned char voice, unsigned short freqid, enum mdr_opl_fgroup_t fgroup); |
/* releases a note on selected voice. */ |
void mdr_opl_noteoff(unsigned char voice); |
/* adjusts volume of a voice. volume goes from 63 (mute) to 0 (loudest) */ |
void mdr_opl_voicevolume(unsigned char voice, unsigned char volume); |
/* this is a LOW-LEVEL function that writes a data byte into the reg register |
* of the OPL chip. Use this only if you know exactly what you are doing. */ |
void mdr_opl_regwr(unsigned char reg, unsigned char data); |
/***************************************************************************** |
* IMF AUDIO FILES PLAYBACK * |
* * |
* It is possible to mix IMF playback calls with manual notes, but you must * |
* take care to use only voices not used by your IMF audio. Typically games * |
* tend to use the voice #0 for sound effects and voices #1 to #8 for music. * |
* * |
* The IMF API comes in two version: the normal one, or "imfeasy". The easy * |
* version is easier to use, but requires to have the entire IMF audio file * |
* loaded in memory, while the normal (non-easy) allows for more flexibility * |
* in this regard, potentially allowing for playback of huge IMF files. * |
*****************************************************************************/ |
/*** EASY INTERFACE ***/ |
/* playback initialization, easy interface. imf points to the start of the IMF |
* file. The imf pointer must not be freed as long as playback is ongoing. |
* imflength is the size (in bytes) of the IMF data. |
* clock must be an incrementing value that wraps to 0 after 65535. The clock |
* speed will control the playback's tempo. |
* loopscount tells how many times the song will have to be looped (0 means |
* "loop forever"). |
* returns 0 on success, non-zero otherwise. */ |
int mdr_opl_imfeasy_init(void *imf, unsigned short imflength, unsigned short clock, unsigned char loopscount); |
/* Playback of an IMF file preloaded via mdr_opl_imfeasy_init(). This function |
* must be called repeatedly at a high frequency for best playback quality. |
* Returns 0 on success, 1 if playback ended, -1 on error. */ |
int mdr_opl_imfeasy_play(unsigned short clock); |
/*** ADVANCED INTERFACE ***/ |
/* playback initialization, this function must be called immediately before |
* playback. imf points to the start of the IMF file and must contain at least |
* the first 6 bytes of the audio file. |
* clock must be an incrementing value that wraps to 0 after 65535. |
* the clock speed will control the playback's tempo. |
* returns the amount of consumed bytes (0, 4 or 6) */ |
unsigned short mdr_opl_imf_init(void *imf, unsigned short clock); |
/* Playback, advanced version. Feeds the IMF playback routine with IMF data. |
* Returns the amount of bytes that have been consumed, hence the next call |
* should provide an imf pointer advanced by this many bytes (and imflen |
* decreased accordingly). Such approach might not be the most intuitive, but |
* it allows to load an imf song partially and provide only short chunks of |
* data for playback instead of having to buffer the entire song in memory. |
* For a simpler call that requires to buffer the entire IMF file in memory, |
* see mdr_opl_imf_playeasy(). |
* This function must be called repeatedly at a high frequency for best |
* playback quality. */ |
unsigned short mdr_opl_imf_play(void *imf, unsigned short imflen, unsigned short clock); |
/***************************************************************************** |
* OPL TIMER FUNCTIONS * |
*****************************************************************************/ |
/* configures and starts a timer given type so it emits a tick every count |
* periods. Two timer types are available: |
* MDR_OPL_TIMER_80US - with a period of 80us |
* MDR_OPL_TIMER_320US - with a period of 320us |
* count may range from 0 to 255, but 0 means "256 periods". |
* |
* You may use only one timer at a time. |
* |
* EXAMPLE: setting up MDR_OPL_TIMER_80US with a count of 25 would make the |
* timer tick every 2ms (25 * 80us). */ |
void mdr_opl_timer_set(enum MDR_OPL_TIMER timertype, unsigned char count); |
/* returns 1 if timer tick occured, 0 otherwise. After a tick has been |
* returned, this function will return 0 until next tick. |
* |
* it is important to note that there is no way to know whether one tick |
* passed since last time, or more, so it is up to you to make sure you call |
* this function fast enough. */ |
unsigned char mdr_opl_timer_tick(void); |
#endif |
/sved/trunk/mdr/inc/mdr/pcx.h |
---|
4,7 → 4,7 |
* This file is part of the Mateusz' DOS Routines (MDR): http://mdr.osdn.io |
* Published under the terms of the MIT License, as stated below. |
* |
* Copyright (C) 2022 Mateusz Viste |
* Copyright (C) 2022-2023 Mateusz Viste |
* |
* Permission is hereby granted, free of charge, to any person obtaining a copy |
* of this software and associated documentation files (the "Software"), to |
28,6 → 28,8 |
#ifndef MDR_PCX_H |
#define MDR_PCX_H |
#include <stdio.h> /* FILE */ |
struct pcx_hdr { |
unsigned char rle; |
unsigned char bpp; |
41,10 → 43,35 |
} pal[256]; |
}; |
int pcx_anal(struct pcx_hdr *h, FILE *fd, unsigned long offset, unsigned short len); |
int pcx_load(void *ptr, size_t ptrsz, const struct pcx_hdr *h, FILE *fd, unsigned long offset); |
/* analyzes the header of a PCX file and fills the pcx_hdr struct accordingly. |
* fd must be a valid (open) file descriptor. |
* offset is the address inside the file where the PCX data is located |
* (usually 0, unless the file is some kind of container). |
* len is the total length of the PCX data. len=0 means "same as file size" |
* returns 0 on success, non-zero otherwise. */ |
int mdr_pcx_anal(struct pcx_hdr *h, FILE *fd, unsigned long offset, unsigned long len); |
/* convert img to 8bpp if needed (ie unpack 2 and 4bpp data to 8bpp) */ |
int pcx_convto8bpp(void *img, const struct pcx_hdr *h); |
/* this function should be called to load the next row of a PCX file into a |
* buffer pointed at by bufptr. you will typically want to call this function |
* h->max_y times. ptr must be at least (h->max_x + 1) bytes large for 8bpp. |
* the pcx_hdr struct must have been produced by pcx_anal(). |
* returns 0 on success, non-zero otherwise. */ |
int mdr_pcx_loadrow(void *bufptr, const struct pcx_hdr *h, FILE *fd); |
/* load an entire PCX file into a pixel buffer. the PCX data must have been |
* previously analyzed by pcx_anal() and the fd file pointer must not have been |
* modified since then. the destination buffer must be large enough to hold all |
* pixels, ie. (h->max_x + 1) * (h->max_y + 1) for 8 bpp. |
* returns 0 on success, non-zero otherwise. */ |
int mdr_pcx_load(void *ptr, const struct pcx_hdr *h, FILE *fd); |
/* convert img to 8bpp if needed (ie unpack 2 and 4bpp data to 8bpp). |
* the conversion is performed in-place, make sure the img buffer is large |
* enough to accomodate the size of the data after conversion (ie. twice as |
* big on 4bpp source, 4x times as big on 2bpp source and 8x as big on 1bpp |
* source). |
* if rowflag is set to a non-zero value, then the routine assumes img |
* contains only a single row of pixels */ |
int mdr_pcx_to8bpp(void *img, const struct pcx_hdr *h, unsigned char rowflag); |
#endif |
/sved/trunk/mdr/inc/mdr/timer.h |
---|
4,7 → 4,7 |
* This file is part of the Mateusz' DOS Routines (MDR): http://mdr.osdn.io |
* Published under the terms of the MIT License, as stated below. |
* |
* Copyright (C) 2014-2022 Mateusz Viste |
* Copyright (C) 2014-2023 Mateusz Viste |
* |
* Permission is hereby granted, free of charge, to any person obtaining a copy |
* of this software and associated documentation files (the "Software"), to |
28,25 → 28,24 |
#ifndef MDR_TIMER_H |
#define MDR_TIMER_H |
/* reset the timer value, this can be used by the application to make sure |
* no timer wrap occurs during critical parts of the code flow */ |
void timer_reset(void); |
/* Starts the timer by reprogramming the 8253 chip from its default 18.2 Hz |
* frequency to about 1.1 kHz. It is mandatory to revert the timer to its |
* original frequency via mdr_timer_stop() before your application quits. */ |
void mdr_timer_init(void); |
/* This routine will stop the fast clock if it is going. It has void return |
* value so that it can be an exit procedure. */ |
void timer_stop(void); |
/* Fills res with the amount of microseconds that elapsed since either |
* mdr_timer_init() or mdr_timer_reset(), whichever was called last. |
* Note that the res counter wraps around approximately every 71 minutes if |
* mdr_timer_reset() is not called. */ |
void mdr_timer_read(unsigned long *res); |
/* This routine will start the fast clock rate by installing the |
* handle_clock routine as the interrupt service routine for the clock |
* interrupt and then setting the interrupt rate up to its higher speed |
* by programming the 8253 timer chip. |
* This routine does nothing if the clock rate is already set to |
* its higher rate, but then it returns -1 to indicate the error. */ |
void timer_init(void); |
/* Reset the timer value, this can be used by the application to make sure |
* no timer wrap occurs during critical parts of your code flow */ |
void mdr_timer_reset(void); |
/* This routine will return the present value of the time, which is |
* read from the nowtime structure. Interrupts are disabled during this |
* time to prevent the clock from changing while it is being read. */ |
void timer_read(unsigned long *res); |
/* Stops (uninstalls) the timer. This must be called before your application |
* quits, otherwise the system will likely crash. This function has a void |
* return value so that it can be registered as an atexit() procedure. */ |
void mdr_timer_stop(void); |
#endif |
/sved/trunk/mdr/inc/mdr/vid12.h |
---|
4,7 → 4,7 |
* This file is part of the Mateusz' DOS Routines (MDR): http://mdr.osdn.io |
* Published under the terms of the MIT License, as stated below. |
* |
* Copyright (C) 2022 Mateusz Viste |
* Copyright (C) 2022-2023 Mateusz Viste |
* |
* Permission is hereby granted, free of charge, to any person obtaining a copy |
* of this software and associated documentation files (the "Software"), to |
29,12 → 29,16 |
#define MDR_VID12_H |
/* init video mode 12h (640x480x16c) */ |
/* init video mode 12h (640x480x16c) |
* remember to call vid12_close() at exit time */ |
void vid12_init(void); |
/* Wait until VBLANK */ |
/* wait until VBLANK */ |
void vid12_waitvblank(void); |
/* wait until ANY blank: either VBLANK or HBLANK */ |
void vid12_waitblank(void); |
/* clear screen using color |
* this function is fastest when color is 0 or 15 */ |
void vid12_cls(unsigned char color); |
48,15 → 52,27 |
* pattern must be 8 bytes long */ |
void vid12_linepat(unsigned short linefirst, unsigned short linelast, const unsigned char *pattern); |
/* deinit video mode 12h and resets to previous mode */ |
void vid12_close(void); |
/* puts a pixel on screen */ |
void vid12_putpixel(unsigned short x, unsigned short y, unsigned char col); |
/* draws a horizonatal line from [x1,y] to [x2,y] */ |
void vid12_hline(unsigned short y, unsigned short x1, unsigned short x2, unsigned char color); |
/* write an entire scanline (640 pixels) to screen. the pixels data must be |
* a serie of 640 bytes having values in the range [0..15] */ |
void vid12_putscanline(unsigned short scanline, const unsigned char *pixels); |
/* set index palette color to given R,G,B value. each R,G,B component must be |
* a 6 bit value in the range [0..63] (where 63 is the maximum luminosity) */ |
void vid12_setpalette(unsigned char index, unsigned char r, unsigned char g, unsigned char b); |
/***************************** |
* VRAM TO VRAM operations * |
*****************************/ |
/* prepares VGA for a VRAM-to-VRAM copy operation */ |
void vid12_vramcpy_prep(void); |
68,5 → 84,4 |
/* sets VGA back to its normal state after VRAM-to-VRAM operations */ |
void vid12_vramcpy_done(void); |
void vid12_setpalette(unsigned char index, unsigned char r, unsigned char g, unsigned char b); |
#endif |
/sved/trunk/mdr/mdrs2024.lib |
---|
Cannot display: file marked as a binary type. |
svn:mime-type = application/octet-stream |
Property changes: |
Added: svn:mime-type |
+application/octet-stream |
\ No newline at end of property |
/sved/trunk/mdr/readme.txt |
---|
3,8 → 3,8 |
http://mdr.osdn.io |
Mateusz' DOS Routines (MDR) is a collection of C library that contain a variety |
of routines to ease the development of real mode DOS applications. |
Mateusz' DOS Routines (MDR) is a C library that contains a variety of routines |
to ease the development of real mode DOS applications. |
These routines are mostly targeted at the Open Watcom compiler, but might work |
with other C compilers as well. |
19,10 → 19,11 |
DOS functions interacting with DOS |
KEYB basic functions to interact with the keyboard |
MOUSE mouse routines |
OPL OPL2 (Adlib style) audio |
PCX parsing, loading and uncompressing PCX images |
RS232 writing to and reading from an RS-232 ("COM") port |
SBDIGI playing digitized sounds with a SoundBlaster-compatible card |
TIMER high-resolution timer, relies on PIT reprogramming |
TIMER high-resolution (1 kHz) timer, relies on PIT reprogramming |
TRIGINT sin and cos functions using integers only (8086-compatible) |
UNZIP iteration over ZIP archives (no decompression code) |
VID12 driver for mode 12h VGA graphic (640x480, 16 colors) |
30,7 → 31,7 |
WAVE parsing and loading WAVE sound files |
XMS detecting and using XMS memory to store data |
Documentation is contained within header (*.H) files. |
Documentation is contained in header (*.H) files in the INC\MDR\ directory. |
+============================================================================+ |
43,16 → 44,16 |
Example program, KBTEST.C: |
#include <mdr\keyb.h> |
#include <mdr\dos.h> |
int main(void) { |
keyb_getkey(); |
mdr_dos_getkey(); |
return(0); |
} |
How to compile with the Watcom C Compile and Link Utility: |
wcl -ms kbtest.c mdrs2023.lib |
wcl -ms kbtest.c mdrs2024.lib |
+============================================================================+ |
59,7 → 60,7 |
| COMPILATION FROM SOURCES | |
+============================================================================+ |
Should you wish to compile MDR from souces instead of relying on precompiled |
Should you wish to compile MDR from sources instead of relying on precompiled |
LIB binaries, you will need the Watcom (or Open Watcom) C compiler and use its |
wmake utility as follows: |
66,7 → 67,7 |
wmake clean |
wmake model=<MEMORY MODEL> |
valid options are: |
valid memory model options are: |
wmake model=s |
wmake model=c |