Applied John's updated ReadConfigFile() changes to the fractals demos.

git-svn-id: https://svn.code.sf.net/p/freeglut/code/trunk@220 7f0cb862-5218-0410-a997-914c9d46530a
This commit is contained in:
rkrolib 2003-10-09 16:34:23 +00:00
parent 25545149da
commit 45899e5ed9
2 changed files with 86 additions and 50 deletions

View File

@ -195,49 +195,67 @@ Special(int key, int x, int y)
glutPostRedisplay();
}
void readConfigFile ( char *fnme )
{
FILE *fptr = fopen ( fnme, "rt" ) ;
int i ;
char inputline [ 256 ] ;
/* Read a header line */
fgets ( inputline, 256, fptr ) ;
if ( fptr )
{
/* Read a header line */
fgets ( inputline, 256, fptr ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read the window title */
fgets ( inputline, 256, fptr ) ;
/* We assume here that this line will not exceed 79 characters plus a
newline (window_title is 80 characters long). That'll cause a buffer
overflow. For a simple program like this, though, we're letting it
slide!
*/
sscanf ( inputline, "%[a-zA-Z0-9!@#$%^&*()+=/\\_-\" ]", window_title ) ;
/* Read the window title */
fgets ( inputline, 256, fptr ) ;
/* We assume here that this line will not exceed 79 characters plus a
newline (window_title is 80 characters long). That'll cause a buffer
overflow. For a simple program like this, though, we're letting it
slide!
*/
sscanf ( inputline, "%[a-zA-Z0-9!@#$%^&*()+=/\\_-\" ]", window_title ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read the number of affine transformations */
fgets ( inputline, 256, fptr ) ;
sscanf ( inputline, "%d", &num_trans ) ;
/* Read the number of affine transformations */
fgets ( inputline, 256, fptr ) ;
sscanf ( inputline, "%d", &num_trans ) ;
affine = (AffineTrans *)malloc ( num_trans * sizeof(AffineTrans) ) ;
affine = (AffineTrans *)malloc ( num_trans * sizeof(AffineTrans) ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
for ( i = 0; i < num_trans; i++ )
{
/* Read an affine transformation definition */
fgets ( inputline, 256, fptr ) ;
sscanf ( inputline, "%lf %lf %lf %lf %lf %lf", &affine[i].a00, &affine[i].a01,
&affine[i].a10, &affine[i].a11, &affine[i].b0, &affine[i].b1 ) ;
}
}
else /* No data file, set a default */
{
printf ( "ERROR opening file <%s>\n", fnme ) ;
strcpy ( window_title, "Cantor Dust" ) ;
num_trans = 2 ;
affine = (AffineTrans *)malloc ( num_trans * sizeof(AffineTrans) ) ;
affine[0].a00 = 0.25 ; affine[0].a01 = 0.00 ; affine[0].a10 = 0.00 ; affine[0].a11 = 0.25 ;
affine[0].b0 = 0.0 ; affine[0].b1 = 0.0 ;
affine[1].a00 = 0.25 ; affine[1].a01 = 0.00 ; affine[1].a10 = 0.00 ; affine[1].a11 = 0.25 ;
affine[1].b0 = 0.5 ; affine[1].b1 = 0.0 ;
}
for ( i = 0; i < num_trans; i++ )
{
double m00, m01, m10, m11 ; /* Matrix "I" minus "A" */
double determ ; /* Determinant of this matrix */
/* Read an affine transformation definition */
fgets ( inputline, 256, fptr ) ;
sscanf ( inputline, "%lf %lf %lf %lf %lf %lf", &affine[i].a00, &affine[i].a01,
&affine[i].a10, &affine[i].a11, &affine[i].b0, &affine[i].b1 ) ;
/* Calculate the stationary point */
m00 = 1.0 - affine[i].a00 ;

View File

@ -186,49 +186,67 @@ Special(int key, int x, int y)
glutPostRedisplay();
}
void readConfigFile ( char *fnme )
{
FILE *fptr = fopen ( fnme, "rt" ) ;
int i ;
char inputline [ 256 ] ;
/* Read a header line */
fgets ( inputline, 256, fptr ) ;
if ( fptr )
{
/* Read a header line */
fgets ( inputline, 256, fptr ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read the window title */
fgets ( inputline, 256, fptr ) ;
/* We assume here that this line will not exceed 79 characters plus a
newline (window_title is 80 characters long). That'll cause a buffer
overflow. For a simple program like this, though, we're letting it
slide!
*/
sscanf ( inputline, "%[a-zA-Z0-9!@#$%^&*()+=/\\_-\" ]", window_title ) ;
/* Read the window title */
fgets ( inputline, 256, fptr ) ;
/* We assume here that this line will not exceed 79 characters plus a
newline (window_title is 80 characters long). That'll cause a buffer
overflow. For a simple program like this, though, we're letting it
slide!
*/
sscanf ( inputline, "%[a-zA-Z0-9!@#$%^&*()+=/\\_-\" ]", window_title ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read the number of affine transformations */
fgets ( inputline, 256, fptr ) ;
sscanf ( inputline, "%d", &num_trans ) ;
/* Read the number of affine transformations */
fgets ( inputline, 256, fptr ) ;
sscanf ( inputline, "%d", &num_trans ) ;
affine = (AffineTrans *)malloc ( num_trans * sizeof(AffineTrans) ) ;
affine = (AffineTrans *)malloc ( num_trans * sizeof(AffineTrans) ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
/* Read a comment line */
fgets ( inputline, 256, fptr ) ;
for ( i = 0; i < num_trans; i++ )
{
/* Read an affine transformation definition */
fgets ( inputline, 256, fptr ) ;
sscanf ( inputline, "%lf %lf %lf %lf %lf %lf", &affine[i].a00, &affine[i].a01,
&affine[i].a10, &affine[i].a11, &affine[i].b0, &affine[i].b1 ) ;
}
}
else /* No data file, set a default */
{
printf ( "ERROR opening file <%s>\n", fnme ) ;
strcpy ( window_title, "Cantor Dust" ) ;
num_trans = 2 ;
affine = (AffineTrans *)malloc ( num_trans * sizeof(AffineTrans) ) ;
affine[0].a00 = 0.25 ; affine[0].a01 = 0.00 ; affine[0].a10 = 0.00 ; affine[0].a11 = 0.25 ;
affine[0].b0 = 0.0 ; affine[0].b1 = 0.0 ;
affine[1].a00 = 0.25 ; affine[1].a01 = 0.00 ; affine[1].a10 = 0.00 ; affine[1].a11 = 0.25 ;
affine[1].b0 = 0.5 ; affine[1].b1 = 0.0 ;
}
for ( i = 0; i < num_trans; i++ )
{
double m00, m01, m10, m11 ; /* Matrix "I" minus "A" */
double determ ; /* Determinant of this matrix */
/* Read an affine transformation definition */
fgets ( inputline, 256, fptr ) ;
sscanf ( inputline, "%lf %lf %lf %lf %lf %lf", &affine[i].a00, &affine[i].a01,
&affine[i].a10, &affine[i].a11, &affine[i].b0, &affine[i].b1 ) ;
/* Calculate the stationary point */
m00 = 1.0 - affine[i].a00 ;