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Text File  |  1995-02-13  |  7KB  |  197 lines

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1. C*****************************************************************************
2. C                                                                            *
3. C  FADE.FOR                                                                  *
4. C                                                                            *
5. C  This program demonstrates how to perform a smooth palette fade with       *
6. C  Fastgraph.  This example assumes a 256-color video mode with 6-bit DAC    *
7. C  values (i.e., between 0 and 63).  These values are defined at the top of  *
8. C  this file, so you can change them easily.                                 *
9. C                                                                            *
10. C  The fadein() and fadeout() routines in this program were originally       *
11. C  written by John Wagner, author of the IMPROCES image processing program.  *
12. C                                                                            *
13. C  To compile this program and link it with Fastgraph version 4.0:           *
14. C                                                                            *
15. C     FL /FPi /4I2 /4Nt /AM FADE.FOR /link FGM   (MS FORTRAN 4.x/5.x)        *
16. C     FL32 FADE.FOR FG32MSF.LIB                  (FORTRAN PowerStation)      *
17. C                                                                            *
18. C  This program also can be linked with Fastgraph/Light if you replace the   *
19. C  FGM library reference with FGLM.                                          *
20. C                                                                            *
21. C  Fastgraph (tm) and Fastgraph/Light (tm) are graphics libraries published  *
22. C  by Ted Gruber Software.  For more info, please call, write, or FAX.       *
23. C                                                                            *
24. C  Ted Gruber Software                           orders/info (702) 735-1980  *
25. C  PO Box 13408                                          FAX (702) 735-4603  *
26. C  Las Vegas, NV  89112                                  BBS (702) 796-7134  *
27. C                                                                            *
28. C*****************************************************************************
29.  
30. $INCLUDE: 'C:\FG\FASTGRAF.FI'
31.  
32.       PROGRAM MAIN
33.  
34. C *** these values can be changed for different video modes
35.  
36.       INTEGER NDACS, NCOLORS, VIDEO_MODE
37.       PARAMETER (NDACS = 256)
38.       PARAMETER (NCOLORS = 64)
39.       PARAMETER (VIDEO_MODE = 19)
40.  
41.       INTEGER DELAY
42.       INTEGER OLD_MODE
43.  
44.       INTEGER FG_GETMODE, FG_MEASURE, FG_TESTMODE
45.  
46. C *** in case we're compiling for protected mode
47.  
48.       CALL FG_INITPM
49.  
50. C *** make sure the requested graphics mode is available
51.  
52.       IF (FG_TESTMODE(VIDEO_MODE,1) .EQ. 0) THEN
53.          STOP 'This program requires a 256-color graphics mode.'
54.       END IF
55.  
56. C *** calculate the base delay between DAC updates
57.  
58.       DELAY = FG_MEASURE() / 128
59.  
60. C *** initialize Fastgraph for the requested video mode
61.  
62.       OLD_MODE = FG_GETMODE()
63.       CALL FG_SETMODE(VIDEO_MODE)
64.  
65. C *** for each PCX file, fade it in and then back out
66.  
67.       CALL FADEIN('TOMMY.PCX'//CHAR(0),DELAY)
68.       CALL FG_WAITFOR(36)
69.       CALL FADEOUT(DELAY)
70.       CALL FG_WAITFOR(18)
71.  
72.       CALL FADEIN('BALLOONS.PCX'//CHAR(0),DELAY*2)
73.       CALL FG_WAITFOR(36)
74.       CALL FADEOUT(DELAY*2)
75.       CALL FG_WAITFOR(18)
76.  
77.       CALL FADEIN('MOUSE.PCX'//CHAR(0),DELAY*4)
78.       CALL FG_WAITFOR(36)
79.       CALL FADEOUT(DELAY*4)
80.  
81. C *** restore the original video mode and screen attributes
82.  
83.       CALL FG_SETMODE(OLD_MODE)
84.       CALL FG_RESET
85.  
86.       STOP ' '
87.       END
88.  
89. C*****************************************************************************
90. C                                                                            *
91. C  FADEIN                                                                    *
92. C                                                                            *
93. C  Display an image by gradually increasing each DAC's RGB components to     *
94. C  their original values.                                                    *
95. C                                                                            *
96. C*****************************************************************************
97.  
98.       SUBROUTINE FADEIN(PCX_FILE,DELAY)
99.       CHARACTER PCX_FILE*(*)
100.       INTEGER DELAY
101.  
102.       INTEGER NDACS, NCOLORS
103.       PARAMETER (NDACS = 256)
104.       PARAMETER (NCOLORS = 64)
105.  
106.       INTEGER*1 DACS1(0:NDACS*3-1), DACS2(0:NDACS*3-1)
107.       COMMON DACS1, DACS2
108.  
109.       INTEGER I, J
110.       INTEGER STATUS
111.       INTEGER TARGET
112.  
113.       INTEGER FG_PCXPAL, FG_SHOWPCX
114.  
115. C *** get the target DAC values from the PCX file
116.  
117.       STATUS = FG_PCXPAL(PCX_FILE,DACS1)
118.  
119. C *** zero all of the DACs
120.  
121.       DO 10 I = 0,NDACS*3-1
122.          DACS2(I) = 0
123. 10    CONTINUE
124.       CALL FG_SETDACS(0,NDACS,DACS2)
125.  
126. C *** display the blacked-out PCX image
127.  
128.       STATUS = FG_SHOWPCX(PCX_FILE,1)
129.  
130. C *** cycle through the DACs, gradually increasing them to their old values
131.  
132.       DO 30 J = 0,NCOLORS-1
133.  
134. C ****** increment each RGB component if it is below its old value
135.  
136.          TARGET = NCOLORS - J
137.  
138.          DO 20 I = 0,NDACS*3-1
139.             IF (DACS1(I) .GT. TARGET .AND. DACS2(I) .LT. DACS1(I))
140.      +         DACS2(I) = DACS2(I) + 1
141. 20       CONTINUE
142.  
143. C ****** update the DACs each time through the loop
144.  
145.          CALL FG_STALL(DELAY)
146.          CALL FG_SETDACS(0,NDACS,DACS2)
147.  
148. 30    CONTINUE
149.  
150.       RETURN
151.       END
152.  
153. C*****************************************************************************
154. C                                                                            *
155. C  FADEOUT                                                                   *
156. C                                                                            *
157. C  Erase an image by gradually fading each DAC's RGB components to black.    *
158. C                                                                            *
159. C*****************************************************************************
160.  
161.       SUBROUTINE FADEOUT(DELAY)
162.       INTEGER DELAY
163.  
164.       INTEGER NDACS, NCOLORS
165.       PARAMETER (NDACS = 256)
166.       PARAMETER (NCOLORS = 64)
167.  
168.       INTEGER*1 DACS1(0:NDACS*3-1), DACS2(0:NDACS*3-1)
169.       COMMON DACS1, DACS2
170.  
171.       INTEGER I, J
172.  
173. C *** load the dacs1 and dacs2 arrays with the current DAC values
174.  
175.       CALL FG_GETDACS(0,NDACS,DACS1)
176.       CALL FG_GETDACS(0,NDACS,DACS2)
177.  
178. C *** cycle through the DACs, gradually reducing them to 0 (black)
179.  
180.       DO 20 J = 0,NCOLORS-1
181.  
182. C ****** decrement each RGB component if it is above 0
183.  
184.          DO 10 I = 0,NDACS*3-1
185.             IF (DACS2(I) .GT. 0) DACS2(I) = DACS2(I) - 1
186. 10       CONTINUE
187.  
188. C ****** update the DACs each time through the loop
189.  
190.          CALL FG_STALL(DELAY)
191.          CALL FG_SETDACS(0,NDACS,DACS2)
192.  
193. 20    CONTINUE
194.  
195.       RETURN
196.       END
197.