You do not need to use the GD library to generate a PNG image of the current time. This program does not use the GD library to generate PNG images of the current time. it is very helpful and useful for reference. how can we organize teaman? Phpfunctionset_4pixel ($ r, $ g, $ B, $ x, $ y) {global $ sx. this program can generate PNG images of the current time without using the GD Library, it is of great reference value to the masses. teaman sorting
Function set_4pixel ($ r, $ g, $ B, $ x, $ y)
{
Global $ sx, $ sy, $ pixels;
$ Ofs = 3 * ($ sx * $ y + $ x );
$ Pixels [$ ofs] = chr ($ r );
$ Pixels [$ ofs + 1] = chr ($ g );
$ Pixels [$ ofs + 2] = chr ($ B );
$ Pixels [$ ofs + 3] = chr ($ r );
$ Pixels [$ ofs + 4] = chr ($ g );
$ Pixels [$ ofs + 5] = chr ($ B );
$ Ofs + = 3 * $ sx;
$ Pixels [$ ofs] = chr ($ r );
$ Pixels [$ ofs + 1] = chr ($ g );
$ Pixels [$ ofs + 2] = chr ($ B );
$ Pixels [$ ofs + 3] = chr ($ r );
$ Pixels [$ ofs + 4] = chr ($ g );
$ Pixels [$ ofs + 5] = chr ($ B );
}
// Function for generating digital images
Function draw2digits ($ x, $ y, $ number)
{
Draw_digit ($ x, $ y, (int) ($ number/10 ));
Draw_digit ($ x + 11, $ y, $ number % 10 );
}
Function draw_digit ($ x, $ y, $ digit)
{
Global $ sx, $ sy, $ pixels, $ digits, $ lines;
$ Digit = $ digits [$ digit];
$ M = 8;
For ($ B = 1, $ I = 0; $ I <7; $ I ++, $ B * = 2 ){
If ($ B & $ digit) ==$ B ){
$ J = $ I * 4;
$ X0 = $ lines [$ j] * $ m + $ x;
$ Y0 = $ lines [$ j + 1] * $ m + $ y;
$ X1 = $ lines [$ j + 2] * $ m + $ x;
$ Y1 = $ lines [$ j + 3] * $ m + $ y;
If ($ x0 = $ x1 ){
$ Ofs = 3 * ($ sx * $ y0 + $ x0 );
For ($ h = $ y0; $ h <= $ y1; $ h ++, $ ofs + = 3 * $ sx ){
$ Pixels [$ ofs] = chr (0 );
$ Pixels [$ ofs + 1] = chr (0 );
$ Pixels [$ ofs + 2] = chr (0 );
}
} Else {
$ Ofs = 3 * ($ sx * $ y0 + $ x0 );
For ($ w = $ x0; $ w <= $ x1; $ w ++ ){
$ Pixels [$ ofs ++] = chr (0 );
$ Pixels [$ ofs ++] = chr (0 );
$ Pixels [$ ofs ++] = chr (0 );
}
}
}
}
}
// Add text to the image
Function add_chunk ($ type)
{
Global $ result, $ data, $ chunk, $ crc_table;
// Chunk: Layer
// Length: 4 bytes: used to calculate chunk
// Chunk type: 4 bytes
// Chunk data: length bytes
// CRC: 4 bytes: cyclic verification
// Copy data and create CRC checksum
$ Len = strlen ($ data );
$ Chunk = pack ("c *", ($ len> 24) & 255,
($ Len> 16) & 255,
($ Len> 8) & 255,
$ Len & 255 );
$ Chunk. = $ type;
$ Chunk. = $ data;
// Calculate a CRC checksum with the bytes chunk [4 .. len-1]
$ Z = 16777215;
$ Z | = 255 <24;
$ C = $ z;
For ($ n = 4; $ n <strlen ($ chunk); $ n ++ ){
$ C8 = ($ c> 8) & 0 xffffff;
$ C = $ crc_table [($ c ^ ord ($ chunk] [$ n]) & 0xff] ^ $ c8;
}
$ Crc = $ c ^ $ z;
$ Chunk. = chr ($ crc> 24) & 255 );
$ Chunk. = chr ($ crc> 16) & 255 );
$ Chunk. = chr ($ crc> 8) & 255 );
$ Chunk. = chr ($ crc & 255 );
// Add the result to $ result
$ Result. = $ chunk;
}
// Main program
$ Sx = 80;
$ Sy = 21;
$ Pixels = "";
// Fill
For ($ h = 0; $ h <$ sy; $ h ++ ){
For ($ w = 0; $ w <$ sx; $ w ++ ){
$ R = 100/$ sx * $ w + 155;
$ G = 100/$ sy * $ h + 155;
$ B = 255-(100/($ sx + $ sy) * ($ w + $ h ));
$ Pixels. = chr ($ r );
$ Pixels. = chr ($ g );
$ Pixels. = chr ($ B );
}
}
$ Date = getdate ();
$ S = $ date ["seconds"];
$ M = $ date ["minutes"];
$ H = $ date ["hours"];
$ Digits = array (95, 5,118,117, 45,121,123, 69,127,125 );
$ Lines = array (1, 1, 1, 2, 0, 1, 0, 2, 1, 0, 1, 1, 0, 0, 0, 1, 0, 2, 1, 2, 0, 1, 1, 1, 0, 0, 1, 0 );
Draw2digits (4, 2, $ h );
Draw2digits (30, 2, $ m );
Draw2digits (56, 2, $ s );
Set_4pixel (0, 0, 0, 26, 7 );
Set_4pixel (0, 0, 0, 26, 13 );
Set_4pixel (0, 0, 0, 52, 7 );
Set_4pixel (0, 0, 0, 52, 13 );
// Create a cyclic verification table
$ Z =-306674912; // = 0xedb88320
For ($ n = 0; $ n <256; $ n ++ ){
$ C = $ n;
For ($ k = 0; $ k <8; $ k ++ ){
$ C2 = ($ c> 1) & 0x7fffffff;
If ($ c & 1) $ c = $ z ^ ($ c2); else $ c = $ c2;
}
$ Crc_table [$ n] = $ c;
}
// PNG file signature
$ Result = pack ("c );
// IHDR chunk data:
// Width: 4 bytes
// Height: 4 bytes
// Bit depth: 1 byte (8 bits per RGB value)
// Color type: 1 byte (2 = RGB)
// Compression method: 1 byte (0 = deflate/inflate)
// Filter method: 1 byte (0 = adaptive filtering)
// Interlace method: 1 byte (0 = no interlace)
$ Data = pack ("c *", ($ sx> 24) & 255,
($ Sx> 16) & 255,
($ Sx> 8) & 255,
$ Sx & 255,
($ Sy> 24) & 255,
($ Sy> 16) & 255,
($ Sy> 8) & 255,
$ Sy & 255,
8,
2,
0,
0,
0 );
Add_chunk ("IHDR ");
// Do not translate the text below. please refer to it yourself
// Scanline:
// Filter byte: 0 = none
// RGB bytes for the line
// The scanline is compressed with "zlib", method 8 (RFC-1950 ):
// Compression method/flags code: 1 byte ($78 = method 8, 32 k window)
// Additional flags/check bits: 1 byte ($01: FCHECK = 1, FDICT = 0, FLEVEL = 0)
// Compressed data blocks: n bytes
// One block (RFC-1951 ):
// Bit 0: BFINAL: 1 for the last block
// Bit 1 and 2: BTYPE: 0 for no compression
// Next 2 bytes: LEN (LSB first)
// Next 2 bytes: one's complement of LEN
// LEN bytes uncompressed data
// Check value: 4 bytes (Adler-32 checksum of the uncompressed data)
//
$ Len = ($ sx * 3 + 1) * $ sy;
$ Data = pack ("c *", 0x78, 0x01,
1,
$ Len & 255,
($ Len> 8) & 255,
255-($ len & 255 ),
255-($ len> 8) & 255 ));
$ Start = strlen ($ data );
$ I2 = 0;
For ($ h = 0; $ h <$ sy; $ h ++ ){
$ Data. = chr (0 );
For ($ w = 0; $ w <$ sx * 3; $ w ++ ){
$ Data. = $ pixels [$ i2 ++];
}
}
// Calculate a Adler32 checksum with the bytes data [start .. len-1]
$ S1 = 1;
$ S2 = 0;
For ($ n = $ start; $ n <strlen ($ data); $ n ++ ){
$ S1 = ($ s1 + ord ($ data [$ n]) % 65521;
$ S2 = ($ s2 + $ S1.) % 65521;
}
$ Adler = ($ s2 <16) | $ s1;
$ Data. = chr ($ adler> 24) & 255 );
$ Data. = chr ($ adler> 16) & 255 );
$ Data. = chr ($ adler> 8) & 255 );
$ Data. = chr ($ adler & 255 );
Add_chunk ("IDAT ");
// IEND: marks the end of the PNG-file
$ Data = "";
Add_chunk ("IEND ");
// Print the image
Echo ($ result );
?>
// How to call it is actually very simple. Save the above as Timeimg. php
// Create a new page as follows:
Test
// Call the php file through image connection
Sort. teaman sorting? Php function set_4pixel ($ r, $ g, $ B, $ x, $ y) {global $ sx ,...