/* | |
* $Id: xy.c,v 1.59 2005/01/14 18:58:04 phil Exp $ | |
* Simulator and host O/S independent XY display simulator | |
* Phil Budne <phil@ultimate.com> | |
* September 2003 | |
* | |
* with changes by Douglas A. Gwyn, 21 Jan. 2004 | |
* | |
* started from PDP-8/E simulator vc8e.c; | |
* This PDP8 Emulator was written by Douglas W. Jones at the | |
* University of Iowa. It is distributed as freeware, of | |
* uncertain function and uncertain utility. | |
*/ | |
/* | |
* Copyright (c) 2003-2004, Philip L. Budne | |
* | |
* 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 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. | |
* | |
* Except as contained in this notice, the names of the authors shall | |
* not be used in advertising or otherwise to promote the sale, use or | |
* other dealings in this Software without prior written authorization | |
* from the authors. | |
*/ | |
#include <stdio.h> | |
#include <stdlib.h> | |
#include <math.h> | |
#include <limits.h> /* for USHRT_MAX */ | |
#include "ws.h" | |
#include "xy.h" | |
/* | |
* The user may select (at compile time) how big a window is used to | |
* emulate the display. Using smaller windows saves memory and screen space. | |
* | |
* Type 30 has 1024x1024 addressing, but only 512x512 visible points. | |
* VR14 has only 1024x768 visible points; VR17 has 1024x1024 visible points. | |
* VT11 supports 4096x4096 addressing, clipping to the lowest 1024x1024 region. | |
* VR48 has 1024x1024 visible points in the main display area and 128x1024 | |
* visible points in a menu area on the right-hand side (1152x1024 total). | |
* VT48 supports 8192x8192 (signed) main-area addressing, clipping to a | |
* 1024x1024 window which can be located anywhere within that region. | |
* (XXX -- That is what the VT11/VT48 manuals say; however, evidence suggests | |
* that the VT11 may actually support 8192x8192 (signed) addressing too.) | |
*/ | |
/* Define the default display type (if display_init() not called) */ | |
#ifndef DISPLAY_TYPE | |
#define DISPLAY_TYPE DIS_TYPE30 | |
#endif /* DISPLAY_TYPE not defined */ | |
/* select a default resolution if display_init() not called */ | |
/* XXX keep in struct display? */ | |
#ifndef PIX_SCALE | |
#define PIX_SCALE RES_HALF | |
#endif /* PIX_SCALE not defined */ | |
/* select a default light-pen hit radius if display_init() not called */ | |
#ifndef PEN_RADIUS | |
#define PEN_RADIUS 4 | |
#endif /* PEN_RADIUS not defined */ | |
/* | |
* note: displays can have up to two different colors (eg VR20) | |
* each color can be made up of any number of phosphors | |
* with different colors and decay characteristics (eg Type 30) | |
*/ | |
#define ELEMENTS(X) (sizeof(X)/sizeof(X[0])) | |
struct phosphor { | |
float red, green, blue; | |
float level; /* decay level (0.5 for half life) */ | |
float t_level; /* seconds to decay to level */ | |
}; | |
struct color { | |
struct phosphor *phosphors; | |
int nphosphors; | |
int half_life; /* for refresh calc */ | |
}; | |
struct display { | |
enum display_type type; | |
char *name; | |
struct color *color0, *color1; | |
short xpoints, ypoints; | |
}; | |
/* | |
* P7 phosphor for type 30 (16ADP7(A?) CRT) | |
* original phosphor constants from Raphael Nabet's XMame 0.72.1 PDP-1 sim. | |
* fast blue (.05s half life), and slow green (.2s half life) | |
*/ | |
static struct phosphor p7[] = { | |
{0.11, 0.11, 1.0, 0.5, 0.05}, /* fast blue */ | |
{1.0, 1.0, 0.11, 0.5, 0.20} /* slow yellow/green */ | |
}; | |
static struct color color_p7 = { p7, ELEMENTS(p7), 125000 }; | |
/* green phosphor for VR14, VR17, VR20 */ | |
static struct phosphor p29[] = {{0.0260, 1.0, 0.00121, 0.5, 0.025}}; | |
struct color color_p29 = { p29, ELEMENTS(p29), 25000 }; | |
static struct phosphor p40[] = { | |
/* P40 blue-white spot with yellow-green decay (.045s to 10%?) */ | |
{0.4, 0.2, 0.924, 0.5, 0.0135}, | |
{0.5, 0.7, 0.076, 0.5, 0.065} | |
}; | |
static struct color color_p40 = { p40, ELEMENTS(p40), 20000 }; | |
/* "red" -- until real VR20 phosphor type/number/constants known */ | |
static struct phosphor pred[] = { {1.0, 0.37, 0.37, 0.5, 0.10} }; | |
static struct color color_red = { pred, ELEMENTS(pred), 100000 }; | |
static struct display displays[] = { | |
/* | |
* Type 30 | |
* PDP-1/4/5/8/9/10 "Precision CRT" display system | |
* | |
* Raytheon 16ADP7A CRT? | |
* web searches for 16ADP7 finds useful information!! | |
* 16" tube, 14 3/8" square raster | |
* maximum dot size .015" | |
* 50us point plot time (20,000 points/sec) | |
* P7 Phosphor? Two phosphor layers: fast blue, slow yellow/green | |
* 360 lb | |
* 7A at 115+-10V 60Hz | |
*/ | |
{ DIS_TYPE30, "Type 30", &color_p7, NULL, 1024, 1024 }, | |
/* | |
* VR14 | |
* used w/ GT40/44, AX08, VC8E | |
* | |
* Viewable area 6.75" x 9" | |
* 12" diagonal | |
* brightness >= 30 fL | |
* dot size .02" (20 mils) | |
* settle time: | |
* full screen 18us to +/-1 spot diameter | |
* .1" change 1us to +/-.5 spot diameter | |
* weight 75lb | |
*/ | |
{ DIS_VR14, "VR14", &color_p29, NULL, 1024, 768 }, | |
/* | |
* VR17 | |
* used w/ GT40/44, AX08, VC8E | |
* | |
* Viewable area 9.25" x 9.25" | |
* 17" diagonal | |
* dot size .02" (20 mils) | |
* brightness >= 25 fL | |
* phosphor: P39 doped for IR light pen use | |
* light pen: Type 375 | |
* weight 85lb | |
*/ | |
{ DIS_VR17, "VR17", &color_p29, NULL, 1024, 1024 }, | |
/* | |
* VR20 | |
* on VC8E | |
* Two colors!! | |
*/ | |
{ DIS_VR20, "VR20", &color_p29, &color_red, 1024, 1024 }, | |
/* | |
* VR48 | |
* (on VT48 in VS60) | |
* from Douglas A. Gwyn 23 Nov. 2003 | |
* | |
* Viewable area 12" x 12", plus 1.5" x 12" menu area on right-hand side | |
* 21" diagonal | |
* dot size <= .01" (10 mils) | |
* brightness >= 31 fL | |
* phosphor: P40 (blue-white fluorescence with yellow-green phosphorescence) | |
* light pen: Type 377A (with tip switch) | |
* driving circuitry separate | |
* (normally under table on which CRT is mounted) | |
*/ | |
{ DIS_VR48, "VR48", &color_p40, NULL, 1024+VR48_GUTTER+128, 1024 }, | |
/* | |
* Type 340 Display system | |
* on PDP-4/6/7/9/10 | |
* | |
* 1024x1024 | |
* 9 3/8" raster (.01" dot pitch) | |
* 0,0 at lower left | |
* 8 intensity levels | |
*/ | |
{ DIS_TYPE340, "Type 340", &color_p7, NULL, 1024, 1024 } | |
}; | |
/* | |
* Unit time (in microseconds) used to store display point time to | |
* live at current aging level. If this is too small, delay values | |
* cannot fit in an unsigned short. If it is too large all pixels | |
* will age at once. Perhaps a suitable value should be calculated at | |
* run time? When display_init() calculates refresh_interval it | |
* sanity checks for both cases. | |
*/ | |
#define DELAY_UNIT 250 | |
/* levels to display in first half-life; determines refresh rate */ | |
#ifndef LEVELS_PER_HALFLIFE | |
#define LEVELS_PER_HALFLIFE 4 | |
#endif | |
/* after 5 half lives (.5**5) remaining intensity is 3% of original */ | |
#ifndef HALF_LIVES_TO_DISPLAY | |
#define HALF_LIVES_TO_DISPLAY 5 | |
#endif | |
/* | |
* refresh_rate is number of times per (simulated) second a pixel is | |
* aged to next lowest intensity level. | |
* | |
* refresh_rate = ((1e6*LEVELS_PER_HALFLIFE)/PHOSPHOR_HALF_LIFE) | |
* refresh_interval = 1e6/DELAY_UNIT/refresh_rate | |
* = PHOSPHOR_HALF_LIFE/LEVELS_PER_HALF_LIFE | |
* intensities = (HALF_LIVES_TO_DISPLAY*PHOSPHOR_HALF_LIFE)/refresh_interval | |
* = HALF_LIVES_TO_DISPLAY*LEVELS_PER_HALFLIFE | |
* | |
* See also comments on display_age() | |
* | |
* Try to keep LEVELS_PER_HALFLIFE*HALF_LIVES_TO_DISPLAY*NLEVELS <= 192 | |
* to run on 8-bit (256 color) displays! | |
*/ | |
/* | |
* number of aging periods to display a point for | |
*/ | |
#define NTTL (HALF_LIVES_TO_DISPLAY*LEVELS_PER_HALFLIFE) | |
/* | |
* maximum (initial) TTL for a point. | |
* TTL's are stored 1-based | |
* (a stored TTL of zero means the point is off) | |
*/ | |
#define MAXTTL NTTL | |
/* | |
* number of drawing intensity levels | |
*/ | |
#define NLEVELS (DISPLAY_INT_MAX-DISPLAY_INT_MIN+1) | |
#define MAXLEVEL (NLEVELS-1) | |
/* | |
* Display Device Implementation | |
*/ | |
/* | |
* Each point on the display is represented by a "struct point". When | |
* a point isn't dark (intensity > 0), it is linked into a circular, | |
* doubly linked delta queue (a priority queue where "delay" | |
* represents the time difference from the previous entry (if any) in | |
* the queue. | |
* | |
* All points are aged refresh_rate times/second, each time moved to the | |
* next (logarithmically) lower intensity level. When display_age() is | |
* called, only the entries which have expired are processed. Calling | |
* display_age() often allows spreading out the workload. | |
* | |
* An alternative would be to have intensity levels represent linear | |
* decreases in intensity, and have the decay time at each level change. | |
* Inverting the decay function for a multi-component phosphor may be | |
* tricky, and the two different colors would need different time tables. | |
* Furthermore, it would require finding the correct location in the | |
* queue when adding a point (currently only need to add points at end) | |
*/ | |
/* | |
* 12 bytes/entry on 32-bit system when REFRESH_RATE > 15 | |
* (requires 3MB for 512x512 display). | |
*/ | |
typedef unsigned short delay_t; | |
#define DELAY_T_MAX USHRT_MAX | |
struct point { | |
struct point *next; /* next entry in queue */ | |
struct point *prev; /* prev entry in queue */ | |
delay_t delay; /* delta T in DELAY_UNITs */ | |
unsigned char ttl; /* zero means off, not linked in */ | |
unsigned char level : 7; /* intensity level */ | |
unsigned char color : 1; /* for VR20 (two colors) */ | |
}; | |
static struct point *points; /* allocated array of points */ | |
static struct point _head; | |
#define head (&_head) | |
/* | |
* time span of all entries in queue | |
* should never exceed refresh_interval | |
* (should be possible to make this a delay_t) | |
*/ | |
static long queue_interval; | |
/* convert X,Y to a "struct point *" */ | |
#define P(X,Y) (points + (X) + ((Y)*(size_t)xpixels)) | |
/* convert "struct point *" to X and Y */ | |
#define X(P) (((P) - points) % xpixels) | |
#define Y(P) (((P) - points) / xpixels) | |
static int initialized = 0; | |
/* | |
* global set by O/S display level to indicate "light pen tip switch activated" | |
* (This is used only by the VS60 emulation, also by vttest to change patterns) | |
*/ | |
unsigned char display_lp_sw = 0; | |
/* | |
* global set by DR11-C simulation when DR device enabled; deactivates | |
* light pen and instead reports mouse coordinates as Talos digitizer | |
* data via DR11-C | |
*/ | |
unsigned char display_tablet = 0; | |
/* | |
* can be changed with display_lp_radius() | |
*/ | |
static long scaled_pen_radius_squared; | |
/* run-time -- set by display_init() */ | |
static int xpoints, ypoints; | |
static int xpixels, ypixels; | |
static int refresh_rate; | |
static int refresh_interval; | |
static int ncolors; | |
static enum display_type display_type; | |
static int scale; | |
/* | |
* relative brightness for each display level | |
* (all but last must be less than 1.0) | |
*/ | |
static float level_scale[NLEVELS]; | |
/* | |
* table of pointer to window system "colors" | |
* for painting each age level, intensity level and beam color | |
*/ | |
void *colors[2][NLEVELS][NTTL]; | |
void | |
display_lp_radius(int r) | |
{ | |
r /= scale; | |
scaled_pen_radius_squared = r * r; | |
} | |
/* | |
* from display_age and display_point | |
* since all points age at the same rate, | |
* only adds points at end of list. | |
*/ | |
static void | |
queue_point(struct point *p) | |
{ | |
int d; | |
d = refresh_interval - queue_interval; | |
queue_interval += d; | |
/* queue_interval should now be == refresh_interval */ | |
#ifdef PARANOIA | |
if (p->ttl == 0 || p->ttl > MAXTTL) | |
printf("queuing %d,%d level %d!\n", X(p), Y(p), p->level); | |
if (d > DELAY_T_MAX) | |
printf("queuing %d,%d delay %d!\n", X(p), Y(p), d); | |
if (queue_interval > DELAY_T_MAX) | |
printf("queue_interval (%d) > DELAY_T_MAX (%d)\n", | |
(int)queue_interval, DELAY_T_MAX); | |
#endif /* PARANOIA defined */ | |
p->next = head; | |
p->prev = head->prev; | |
head->prev->next = p; | |
head->prev = p; | |
p->delay = d; | |
} | |
/* | |
* here to to dynamically adjust interval for examination | |
* of elapsed vs. simulated time, and fritter away | |
* any extra wall-clock time without eating CPU | |
*/ | |
/* | |
* more parameters! | |
*/ | |
/* | |
* upper bound for elapsed time between elapsed time checks. | |
* if more than MAXELAPSED microseconds elapsed while simulating | |
* delay_check simulated microseconds, decrease delay_check. | |
*/ | |
#define MAXELAPSED 100000 /* 10Hz */ | |
/* | |
* lower bound for elapsed time between elapsed time checks. | |
* if fewer than MINELAPSED microseconds elapsed while simulating | |
* delay_check simulated microseconds, increase delay_check. | |
*/ | |
#define MINELAPSED 50000 /* 20Hz */ | |
/* | |
* upper bound for delay (sleep/poll). | |
* If difference between elapsed time and simulated time is | |
* larger than MAXDELAY microseconds, decrease delay_check. | |
* | |
* since delay is elapsed time - simulated time, MAXDELAY | |
* should be <= MAXELAPSED | |
*/ | |
#ifndef MAXDELAY | |
#define MAXDELAY 100000 /* 100ms */ | |
#endif /* MAXDELAY not defined */ | |
/* | |
* lower bound for delay (sleep/poll). | |
* If difference between elapsed time and simulated time is | |
* smaller than MINDELAY microseconds, increase delay_check. | |
* | |
* since delay is elapsed time - simulated time, MINDELAY | |
* should be <= MINELAPSED | |
*/ | |
#ifndef MINDELAY | |
#define MINDELAY 50000 /* 50ms */ | |
#endif /* MINDELAY not defined */ | |
/* | |
* Initial amount of simulated time to elapse before polling. | |
* Value is very low to ensure polling occurs on slow systems. | |
* Fast systems should ramp up quickly. | |
*/ | |
#ifndef INITIAL_DELAY_CHECK | |
#define INITIAL_DELAY_CHECK 1000 /* 1ms */ | |
#endif /* INITIAL_DELAY_CHECK */ | |
/* | |
* gain factor (2**-GAINSHIFT) for adjustment of adjustment | |
* of delay_check | |
*/ | |
#ifndef GAINSHIFT | |
#define GAINSHIFT 3 /* gain=0.125 (12.5%) */ | |
#endif /* GAINSHIFT not defined */ | |
static void | |
display_delay(int t, int slowdown) | |
{ | |
/* how often (in simulated us) to poll/check for delay */ | |
static unsigned long delay_check = INITIAL_DELAY_CHECK; | |
/* accumulated simulated time */ | |
static unsigned long sim_time = 0; | |
unsigned long elapsed; | |
long delay; | |
sim_time += t; | |
if (sim_time < delay_check) | |
return; | |
elapsed = os_elapsed(); /* read and reset elapsed timer */ | |
if (elapsed == ~0L) { /* first time thru? */ | |
slowdown = 0; /* no adjustments */ | |
elapsed = sim_time; | |
} | |
/* | |
* get delta between elapsed (real) time, and simulated time. | |
* if simulated time running faster, we need to slow things down (delay) | |
*/ | |
if (slowdown) | |
delay = sim_time - elapsed; | |
else | |
delay = 0; /* just poll */ | |
#ifdef DEBUG_DELAY2 | |
printf("sim %d elapsed %d delay %d\r\n", sim_time, elapsed, delay); | |
#endif | |
/* | |
* Try to keep the elapsed (real world) time between checks for | |
* delay (and poll for window system events) bounded between | |
* MAXELAPSED and MINELAPSED. Also tries to keep | |
* delay/poll time bounded between MAXDELAY and MINDELAY -- large | |
* delays make the simulation spastic, while very small ones are | |
* inefficient (too many system calls) and tend to be inaccurate | |
* (operating systems have a certain granularity for time | |
* measurement, and when you try to sleep/poll for very short | |
* amounts of time, the noise will dominate). | |
* | |
* delay_check period may be adjusted often, and oscillate. There | |
* is no single "right value", the important things are to keep | |
* the delay time and max poll intervals bounded, and responsive | |
* to system load. | |
*/ | |
if (elapsed > MAXELAPSED || delay > MAXDELAY) { | |
/* too much elapsed time passed, or delay too large; shrink interval */ | |
if (delay_check > 1) { | |
delay_check -= delay_check>>GAINSHIFT; | |
#ifdef DEBUG_DELAY | |
printf("reduced period to %d\r\n", delay_check); | |
#endif /* DEBUG_DELAY defined */ | |
} | |
} | |
else if (elapsed < MINELAPSED || slowdown && delay < MINDELAY) { | |
/* too little elapsed time passed, or delta very small */ | |
int gain = delay_check>>GAINSHIFT; | |
if (gain == 0) | |
gain = 1; /* make sure some change made! */ | |
delay_check += gain; | |
#ifdef DEBUG_DELAY | |
printf("increased period to %d\r\n", delay_check); | |
#endif /* DEBUG_DELAY defined */ | |
} | |
if (delay < 0) | |
delay = 0; | |
/* else if delay < MINDELAY, clamp at MINDELAY??? */ | |
/* poll for window system events and/or delay */ | |
ws_poll(NULL, delay); | |
sim_time = 0; /* reset simulated time clock */ | |
/* | |
* delay (poll/sleep) time included in next "elapsed" period | |
* (clock not reset after a delay) | |
*/ | |
} /* display_delay */ | |
/* | |
* here periodically from simulator to age pixels. | |
* | |
* calling often with small values will age a few pixels at a time, | |
* and assist with graceful aging of display, and pixel aging. | |
* | |
* values should be smaller than refresh_interval! | |
* | |
* returns true if anything on screen changed. | |
*/ | |
int | |
display_age(int t, /* simulated us since last call */ | |
int slowdown) /* slowdown to simulated speed */ | |
{ | |
struct point *p; | |
static int elapsed = 0; | |
int changed; | |
if (!initialized && !display_init(DISPLAY_TYPE, PIX_SCALE)) | |
return 0; | |
display_delay(t, slowdown); | |
changed = 0; | |
elapsed += t; | |
if (elapsed < DELAY_UNIT) | |
return 0; | |
t = elapsed / DELAY_UNIT; | |
elapsed %= DELAY_UNIT; | |
while ((p = head->next) != head) { | |
int x, y; | |
/* look at oldest entry */ | |
if (p->delay > t) { /* further than our reach? */ | |
p->delay -= t; /* update head */ | |
queue_interval -= t; /* update span */ | |
break; /* quit */ | |
} | |
x = X(p); | |
y = Y(p); | |
#ifdef PARANOIA | |
if (p->ttl == 0) | |
printf("BUG: age %d,%d ttl zero\n", x, y); | |
#endif /* PARANOIA defined */ | |
/* dequeue point */ | |
p->prev->next = p->next; | |
p->next->prev = p->prev; | |
t -= p->delay; /* lessen our reach */ | |
queue_interval -= p->delay; /* update queue span */ | |
ws_display_point(x, y, colors[p->color][p->level][--p->ttl]); | |
changed = 1; | |
/* queue it back up, unless we just turned it off! */ | |
if (p->ttl > 0) | |
queue_point(p); | |
} | |
return changed; | |
} /* display_age */ | |
/* here from window system */ | |
void | |
display_repaint(void) { | |
struct point *p; | |
int x, y; | |
/* | |
* bottom to top, left to right. | |
*/ | |
for (p = points, y = 0; y < ypixels; y++) | |
for (x = 0; x < xpixels; p++, x++) | |
if (p->ttl) | |
ws_display_point(x, y, colors[p->color][p->level][p->ttl-1]); | |
ws_sync(); | |
} | |
/* (0,0) is lower left */ | |
static int | |
intensify(int x, /* 0..xpixels */ | |
int y, /* 0..ypixels */ | |
int level, /* 0..MAXLEVEL */ | |
int color) /* for VR20! 0 or 1 */ | |
{ | |
struct point *p; | |
int bleed; | |
if (x < 0 || x >= xpixels || y < 0 || y >= ypixels) | |
return 0; /* limit to display */ | |
p = P(x,y); | |
if (p->ttl) { /* currently lit? */ | |
#ifdef LOUD | |
printf("%d,%d old level %d ttl %d new %d\r\n", | |
x, y, p->level, p->ttl, level); | |
#endif /* LOUD defined */ | |
/* unlink from delta queue */ | |
p->prev->next = p->next; | |
if (p->next == head) | |
queue_interval -= p->delay; | |
else | |
p->next->delay += p->delay; | |
p->next->prev = p->prev; | |
} | |
bleed = 0; /* no bleeding for now */ | |
/* EXP: doesn't work... yet */ | |
/* if "recently" drawn, same or brighter, same color, make even brighter */ | |
if (p->ttl >= MAXTTL*2/3 && level >= p->level && p->color == color && | |
level < MAXLEVEL) | |
level++; | |
/* | |
* this allows a dim beam to suck light out of | |
* a recently drawn bright spot!! | |
*/ | |
if (p->ttl != MAXTTL || p->level != level || p->color != color) { | |
p->ttl = MAXTTL; | |
p->level = level; | |
p->color = color; /* save color even if monochrome */ | |
ws_display_point(x, y, colors[p->color][p->level][p->ttl-1]); | |
} | |
queue_point(p); /* put at end of list */ | |
return bleed; | |
} | |
int | |
display_point(int x, /* 0..xpixels (unscaled) */ | |
int y, /* 0..ypixels (unscaled) */ | |
int level, /* DISPLAY_INT_xxx */ | |
int color) /* for VR20! 0 or 1 */ | |
{ | |
long lx, ly; | |
if (!initialized && !display_init(DISPLAY_TYPE, PIX_SCALE)) | |
return 0; | |
/* scale x and y to the displayed number of pixels */ | |
/* handle common cases quickly */ | |
if (scale > 1) { | |
if (scale == 2) { | |
x >>= 1; | |
y >>= 1; | |
} | |
else { | |
x /= scale; | |
y /= scale; | |
} | |
} | |
#if DISPLAY_INT_MIN > 0 | |
level -= DISPLAY_INT_MIN; /* make zero based */ | |
#endif | |
intensify(x, y, level, color); | |
/* no bleeding for now (used to recurse for neighbor points) */ | |
if (ws_lp_x == -1 || ws_lp_y == -1) | |
return 0; | |
lx = x - ws_lp_x; | |
ly = y - ws_lp_y; | |
return lx*lx + ly*ly <= scaled_pen_radius_squared; | |
} /* display_point */ | |
/* | |
* calculate decay color table for a phosphor mixture | |
* must be called AFTER refresh_rate initialized! | |
*/ | |
static void | |
phosphor_init(struct phosphor *phosphors, int nphosphors, int color) | |
{ | |
int ttl; | |
/* for each display ttl level; newest to oldest */ | |
for (ttl = NTTL-1; ttl > 0; ttl--) { | |
struct phosphor *pp; | |
double rr, rg, rb; /* real values */ | |
/* fractional seconds */ | |
double t = ((double)(NTTL-1-ttl))/refresh_rate; | |
int ilevel; /* intensity levels */ | |
int p; | |
/* sum over all phosphors in mixture */ | |
rr = rg = rb = 0.0; | |
for (pp = phosphors, p = 0; p < nphosphors; pp++, p++) { | |
double decay = pow(pp->level, t/pp->t_level); | |
rr += decay * pp->red; | |
rg += decay * pp->green; | |
rb += decay * pp->blue; | |
} | |
/* scale for brightness for each intensity level */ | |
for (ilevel = MAXLEVEL; ilevel >= 0; ilevel--) { | |
int r, g, b; | |
void *cp; | |
/* | |
* convert to 16-bit integer; clamp at 16 bits. | |
* this allows the sum of brightness factors across phosphors | |
* for each of R G and B to be greater than 1.0 | |
*/ | |
r = rr * level_scale[ilevel] * 0xffff; | |
if (r > 0xffff) r = 0xffff; | |
g = rg * level_scale[ilevel] * 0xffff; | |
if (g > 0xffff) g = 0xffff; | |
b = rb * level_scale[ilevel] * 0xffff; | |
if (b > 0xffff) b = 0xffff; | |
cp = ws_color_rgb(r, g, b); | |
if (!cp) { /* allocation failed? */ | |
if (ttl == MAXTTL-1) { /* brand new */ | |
if (ilevel == MAXLEVEL) /* highest intensity? */ | |
cp = ws_color_white(); /* use white */ | |
else | |
cp = colors[color][ilevel+1][ttl]; /* use next lvl */ | |
} /* brand new */ | |
else if (r + g + b >= 0xffff*3/3) /* light-ish? */ | |
cp = colors[color][ilevel][ttl+1]; /* use previous TTL */ | |
else | |
cp = ws_color_black(); | |
} | |
colors[color][ilevel][ttl] = cp; | |
} /* for each intensity level */ | |
} /* for each TTL */ | |
} /* phosphor_init */ | |
static struct display * | |
find_type(enum display_type type) | |
{ | |
int i; | |
struct display *dp; | |
for (i = 0, dp = displays; i < ELEMENTS(displays); i++, dp++) | |
if (dp->type == type) | |
return dp; | |
return NULL; | |
} | |
int | |
display_init(enum display_type type, int sf) | |
{ | |
static int init_failed = 0; | |
struct display *dp; | |
int half_life; | |
int i; | |
if (initialized) { | |
/* cannot change type once started */ | |
/* XXX say something???? */ | |
return type == display_type; | |
} | |
if (init_failed) | |
return 0; /* avoid thrashing */ | |
init_failed = 1; /* assume the worst */ | |
dp = find_type(type); | |
if (!dp) { | |
fprintf(stderr, "Unknown display type %d\r\n", (int)type); | |
goto failed; | |
} | |
/* Initialize display list */ | |
head->next = head->prev = head; | |
display_type = type; | |
scale = sf; | |
xpoints = dp->xpoints; | |
ypoints = dp->ypoints; | |
/* increase scale factor if won't fit on desktop? */ | |
xpixels = xpoints / scale; | |
ypixels = ypoints / scale; | |
/* set default pen radius now that scale is set */ | |
display_lp_radius(PEN_RADIUS); | |
ncolors = 1; | |
/* | |
* use function to calculate from looking at avg (max?) | |
* of phosphor half lives??? | |
*/ | |
#define COLOR_HALF_LIFE(C) ((C)->half_life) | |
half_life = COLOR_HALF_LIFE(dp->color0); | |
if (dp->color1) { | |
if (dp->color1->half_life > half_life) | |
half_life = COLOR_HALF_LIFE(dp->color1); | |
ncolors++; | |
} | |
/* before phosphor_init; */ | |
refresh_rate = (1000000*LEVELS_PER_HALFLIFE)/half_life; | |
refresh_interval = 1000000/DELAY_UNIT/refresh_rate; | |
/* | |
* sanity check refresh_interval | |
* calculating/selecting DELAY_UNIT at runtime might avoid this! | |
*/ | |
/* must be non-zero; interval of 1 means all pixels will age at once! */ | |
if (refresh_interval < 1) { | |
/* decrease DELAY_UNIT? */ | |
fprintf(stderr, "NOTE! refresh_interval too small: %d\r\n", | |
refresh_interval); | |
/* dunno if this is a good idea, but might be better than dying */ | |
refresh_interval = 1; | |
} | |
/* point lifetime in DELAY_UNITs will not fit in p->delay field! */ | |
if (refresh_interval > DELAY_T_MAX) { | |
/* increase DELAY_UNIT? */ | |
fprintf(stderr, "bad refresh_interval %d > DELAY_T_MAX %d\r\n", | |
refresh_interval, DELAY_T_MAX); | |
goto failed; | |
} | |
/* | |
* before phosphor_init; | |
* set up relative brightness of display intensity levels | |
* (could differ for different hardware) | |
* | |
* linear for now. boost factor insures low intensities are visible | |
*/ | |
#define BOOST 5 | |
for (i = 0; i < NLEVELS; i++) | |
level_scale[i] = ((float)i+1+BOOST)/(NLEVELS+BOOST); | |
points = (struct point *)calloc((size_t)xpixels, | |
ypixels * sizeof(struct point)); | |
if (!points) | |
goto failed; | |
if (!ws_init(dp->name, xpixels, ypixels, ncolors)) | |
goto failed; | |
phosphor_init(dp->color0->phosphors, dp->color0->nphosphors, 0); | |
if (dp->color1) | |
phosphor_init(dp->color1->phosphors, dp->color1->nphosphors, 1); | |
initialized = 1; | |
init_failed = 0; /* hey, we made it! */ | |
return 1; | |
failed: | |
fprintf(stderr, "Display initialization failed\r\n"); | |
return 0; | |
} | |
void | |
display_reset(void) | |
{ | |
/* XXX tear down window? just clear it? */ | |
} | |
void | |
display_sync(void) | |
{ | |
ws_sync(); | |
} | |
void | |
display_beep(void) | |
{ | |
ws_beep(); | |
} | |
int | |
display_xpoints(void) | |
{ | |
return xpoints; | |
} | |
int | |
display_ypoints(void) | |
{ | |
return ypoints; | |
} | |
int | |
display_scale(void) | |
{ | |
return scale; | |
} | |
/* | |
* handle keyboard events | |
* | |
* data switches; 18 -- enough for PDP-1/4/7/9/15 (for munching squares!) | |
* 123 456 789 qwe rty uio | |
* bit toggled on key up | |
* all cleared on space | |
* | |
* spacewar switches; bit high as long as key down | |
* asdf kl;' | |
* just where PDP-1 spacewar expects them! | |
* key mappings same as MIT Media Lab Java PDP-1 simulator | |
* | |
*/ | |
unsigned long spacewar_switches = 0; | |
/* here from window system */ | |
void | |
display_keydown(int k) | |
{ | |
switch (k) { | |
case 'f': case 'F': spacewar_switches |= 01; break; /* torpedos */ | |
case 'd': case 'D': spacewar_switches |= 02; break; /* engines */ | |
case 'a': case 'A': spacewar_switches |= 04; break; /* rotate R */ | |
case 's': case 'S': spacewar_switches |= 010; break; /* rotate L */ | |
case '\'': case '"': spacewar_switches |= 040000; break; /* torpedos */ | |
case ';': case ':': spacewar_switches |= 0100000; break; /* engines */ | |
case 'k': case 'K': spacewar_switches |= 0200000; break; /* rotate R */ | |
case 'l': case 'L': spacewar_switches |= 0400000; break; /* rotate L */ | |
default: return; | |
} | |
} | |
/* here from window system */ | |
void | |
display_keyup(int k) | |
{ | |
unsigned long test_switches = cpu_get_switches(); | |
/* fetch console switches from simulator? */ | |
switch (k) { | |
case 'f': case 'F': spacewar_switches &= ~01; return; | |
case 'd': case 'D': spacewar_switches &= ~02; return; | |
case 'a': case 'A': spacewar_switches &= ~04; return; | |
case 's': case 'S': spacewar_switches &= ~010; return; | |
case '\'': case '"': spacewar_switches &= ~040000; return; | |
case ';': case ':': spacewar_switches &= ~0100000; return; | |
case 'k': case 'K': spacewar_switches &= ~0200000; return; | |
case 'l': case 'L': spacewar_switches &= ~0400000; return; | |
case '1': test_switches ^= 1<<17; break; | |
case '2': test_switches ^= 1<<16; break; | |
case '3': test_switches ^= 1<<15; break; | |
case '4': test_switches ^= 1<<14; break; | |
case '5': test_switches ^= 1<<13; break; | |
case '6': test_switches ^= 1<<12; break; | |
case '7': test_switches ^= 1<<11; break; | |
case '8': test_switches ^= 1<<10; break; | |
case '9': test_switches ^= 1<<9; break; | |
case 'q': case 'Q': test_switches ^= 1<<8; break; | |
case 'w': case 'W': test_switches ^= 1<<7; break; | |
case 'e': case 'E': test_switches ^= 1<<6; break; | |
case 'r': case 'R': test_switches ^= 1<<5; break; | |
case 't': case 'T': test_switches ^= 1<<4; break; | |
case 'y': case 'Y': test_switches ^= 1<<3; break; | |
case 'u': case 'U': test_switches ^= 1<<2; break; | |
case 'i': case 'I': test_switches ^= 1<<1; break; | |
case 'o': case 'O': test_switches ^= 1; break; | |
case ' ': test_switches = 0; break; | |
default: return; | |
} | |
cpu_set_switches(test_switches); | |
} |