slackbuilds_ponce/games/jzintv/jzintv_dprintf.patch

diff -Naur jzintv-1.0-beta3/src/cp1600/emu_link.c jzintv-1.0-beta3.patched/src/cp1600/emu_link.c
--- jzintv-1.0-beta3/src/cp1600/emu_link.c	2006-07-05 22:11:46.000000000 -0400
+++ jzintv-1.0-beta3.patched/src/cp1600/emu_link.c	2009-02-04 19:12:58.000000000 -0500
@@ -103,18 +103,18 @@
     if (cpu->r[0] != 0x4A5A)
         return;
 
-    //dprintf(("\nEMU-LINK %.4X %.4X %.4X\n", cpu->r[1], cpu->r[2], cpu->r[3]));
+    //jzintv_dprintf(("\nEMU-LINK %.4X %.4X %.4X\n", cpu->r[1], cpu->r[2], cpu->r[3]));
     if (cpu->r[1] > emu_link_api_cnt ||
         emu_link_api[cpu->r[1]] == NULL)
     {
-        //dprintf(("EMU-LINK Invalid API\n"));
+        //jzintv_dprintf(("EMU-LINK Invalid API\n"));
         cpu->C = 1;
         cpu->r[0] = 0xFFFF;
         return;
     }
     
     cpu->r[0] = emu_link_api[cpu->r[1]](cpu, &fail);
-    //dprintf(("EMU-LINK Result:  %.4X %d\n", cpu->r[0], fail));
+    //jzintv_dprintf(("EMU-LINK Result:  %.4X %d\n", cpu->r[0], fail));
 
     cpu->C = fail != 0;
     return;
diff -Naur jzintv-1.0-beta3/src/gif/lzw_enc.c jzintv-1.0-beta3.patched/src/gif/lzw_enc.c
--- jzintv-1.0-beta3/src/gif/lzw_enc.c	2006-07-03 01:04:46.000000000 -0400
+++ jzintv-1.0-beta3.patched/src/gif/lzw_enc.c	2009-02-04 19:12:58.000000000 -0500
@@ -14,9 +14,9 @@
 #include "config.h"
 
 #ifdef DEBUG
-# define dprintf(x) jzp_printf x
+# define jzintv_dprintf(x) jzp_printf x
 #else
-# define dprintf(x) 
+# define jzintv_dprintf(x) 
 #endif
 
 
@@ -46,7 +46,7 @@
         if (i_buf[i] > max_sym) 
             max_sym = i_buf[i];
     dict_stride = max_sym + 1;
-    dprintf(("max_sym = %.2X\n", max_sym));
+    jzintv_dprintf(("max_sym = %.2X\n", max_sym));
 
     /* -------------------------------------------------------------------- */
     /*  Compute and output the starting code-size.                          */
@@ -54,7 +54,7 @@
     for (code_size = 2; code_size < 8; code_size++)
         if ((1 << code_size) > max_sym)
             break;
-    dprintf(("code_size = %.2X\n", code_size));
+    jzintv_dprintf(("code_size = %.2X\n", code_size));
     /* -------------------------------------------------------------------- */
     /*  Allocate the dictionary.  We store the tree in a 2-D array.  One    */
     /*  dimension is the code number, and the other is the codes it chains  */
@@ -89,7 +89,7 @@
     /* -------------------------------------------------------------------- */
     while (i_ptr <= i_end && code != end_of_info)
     {
-        dprintf(("remaining: %10d\n", i_end - i_ptr));
+        jzintv_dprintf(("remaining: %10d\n", i_end - i_ptr));
 
         /* ---------------------------------------------------------------- */
         /*  If dictionary's full, send a clear code and flush dictionary.   */
@@ -97,7 +97,7 @@
         /* ---------------------------------------------------------------- */
         if (next_new_code == 0x1000)
         {
-            dprintf(("CLEAR %.3X %d\n", clear_code, curr_size));
+            jzintv_dprintf(("CLEAR %.3X %d\n", clear_code, curr_size));
 
             curr_word |= clear_code << curr_bits; 
             curr_bits += curr_size;
@@ -106,7 +106,7 @@
                 /* Handle packaging data into 256-byte records */
                 if (o_ptr - last_len_byte == 256)
                 {
-                    dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", 
+                    jzintv_dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", 
                               last_len_byte, o_ptr));
 
                     *last_len_byte = 255;
@@ -125,7 +125,7 @@
             memset(dict, 0, 4096*sizeof(uint_16)*dict_stride);
         } else
         {
-            dprintf(("new code: %.3X = %.3X + %.2X\n", next_new_code, 
+            jzintv_dprintf(("new code: %.3X = %.3X + %.2X\n", next_new_code, 
                      code, next_char));
 
             dict[code*dict_stride + next_char] = next_new_code;
@@ -135,7 +135,7 @@
         }
 
         code = next_char;  /* Previous concat becomes new initial code */
-        dprintf(("next code: %.2X %c\n", code, code == end_of_info ? '*':' '));
+        jzintv_dprintf(("next code: %.2X %c\n", code, code == end_of_info ? '*':' '));
 
         /* ---------------------------------------------------------------- */
         /*  Keep concatenating as long as we stay in the dictionary.        */
@@ -143,7 +143,7 @@
         if (i_ptr == i_end)
         {
             next_char = end_of_info;
-            dprintf(("--> next is EOI!\n"));
+            jzintv_dprintf(("--> next is EOI!\n"));
         } else
         {
             next_code = -1;
@@ -151,7 +151,7 @@
             {
                 next_char = *i_ptr++;
                 next_code = dict[code*dict_stride + next_char];
-                dprintf(("--> code: %.3X + %.2X = %.3X\n", code, 
+                jzintv_dprintf(("--> code: %.3X + %.2X = %.3X\n", code, 
                          next_char, next_code));
 
                 if (next_code)
@@ -162,7 +162,7 @@
 
             if (next_char == end_of_info) 
             { 
-                dprintf(("--> next is EOI! (b)\n"));
+                jzintv_dprintf(("--> next is EOI! (b)\n"));
             }
         }
 
@@ -174,14 +174,14 @@
         /* ---------------------------------------------------------------- */
         curr_word |= code << curr_bits; 
         curr_bits += curr_size;
-        dprintf(("SEND %.4X %d curr: %.8X %2d\n", code, curr_size, 
+        jzintv_dprintf(("SEND %.4X %d curr: %.8X %2d\n", code, curr_size, 
                  curr_word, curr_bits));
         while (curr_bits > 8)
         {
             /* Handle packaging data into 256-byte records */
             if (o_ptr - last_len_byte == 256)
             {
-                dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", last_len_byte, 
+                jzintv_dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", last_len_byte, 
                           o_ptr));
                 *last_len_byte = 255;
                 last_len_byte  = o_ptr++;
@@ -203,7 +203,7 @@
         /* Handle packaging data into 256-byte records */
         if (o_ptr - last_len_byte == 256)
         {
-            dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", last_len_byte, o_ptr));
+            jzintv_dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", last_len_byte, o_ptr));
             *last_len_byte = 255;
             last_len_byte  = o_ptr++;
         }
@@ -223,7 +223,7 @@
     *last_len_byte = o_ptr - last_len_byte - 1;
     *o_ptr++ = 0;
 
-    dprintf(("encoded %d bytes\n", o_ptr - o_buf));
+    jzintv_dprintf(("encoded %d bytes\n", o_ptr - o_buf));
 
     return o_ptr - o_buf;
 
@@ -232,11 +232,11 @@
 }
 
 //#define DEBUG
-#undef dprintf
+#undef jzintv_dprintf
 #ifdef DEBUG
-# define dprintf(x) jzp_printf x
+# define jzintv_dprintf(x) jzp_printf x
 #else
-# define dprintf(x) 
+# define jzintv_dprintf(x) 
 #endif
 
 int lzw_encode2(const uint_8 *i_buf, const uint_8 *i_buf_alt,
@@ -270,7 +270,7 @@
     }
 
     dict_stride = max_sym + 1;
-    dprintf(("max_sym = %.2X\n", max_sym));
+    jzintv_dprintf(("max_sym = %.2X\n", max_sym));
 
     /* -------------------------------------------------------------------- */
     /*  Compute and output the starting code-size.                          */
@@ -278,7 +278,7 @@
     for (code_size = 2; code_size < 8; code_size++)
         if ((1 << code_size) > max_sym)
             break;
-    dprintf(("code_size = %.2X\n", code_size));
+    jzintv_dprintf(("code_size = %.2X\n", code_size));
     /* -------------------------------------------------------------------- */
     /*  Allocate the dictionary.  We store the tree in a 2-D array.  One    */
     /*  dimension is the code number, and the other is the codes it chains  */
@@ -312,7 +312,7 @@
     /* -------------------------------------------------------------------- */
     while (i_idx <= i_len && code != end_of_info)
     {
-        dprintf(("remaining: %10d\n", i_len - i_idx));
+        jzintv_dprintf(("remaining: %10d\n", i_len - i_idx));
 
         /* ---------------------------------------------------------------- */
         /*  If dictionary's full, send a clear code and flush dictionary.   */
@@ -320,7 +320,7 @@
         /* ---------------------------------------------------------------- */
         if (next_new_code == 0x1000)
         {
-            dprintf(("CLEAR %.3X %d\n", clear_code, curr_size));
+            jzintv_dprintf(("CLEAR %.3X %d\n", clear_code, curr_size));
 
             curr_word |= clear_code << curr_bits; 
             curr_bits += curr_size;
@@ -329,7 +329,7 @@
                 /* Handle packaging data into 256-byte records */
                 if (o_ptr - last_len_byte == 256)
                 {
-                    dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", 
+                    jzintv_dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", 
                               last_len_byte, o_ptr));
 
                     *last_len_byte = 255;
@@ -348,7 +348,7 @@
             memset(dict, 0, 4096*sizeof(uint_16)*dict_stride);
         } else
         {
-            dprintf(("new code: %.3X = %.3X + %.2X\n", next_new_code, 
+            jzintv_dprintf(("new code: %.3X = %.3X + %.2X\n", next_new_code, 
                      code, next_char));
 
             dict[code*dict_stride + next_char] = next_new_code;
@@ -358,7 +358,7 @@
         }
 
         code = next_char;  /* Previous concat becomes new initial code */
-        dprintf(("next code: %.2X %c\n", code, code == end_of_info ? '*':' '));
+        jzintv_dprintf(("next code: %.2X %c\n", code, code == end_of_info ? '*':' '));
 
         /* ---------------------------------------------------------------- */
         /*  Keep concatenating as long as we stay in the dictionary.        */
@@ -366,7 +366,7 @@
         if (i_idx == i_len)
         {
             next_char = end_of_info;
-            dprintf(("--> next is EOI!\n"));
+            jzintv_dprintf(("--> next is EOI!\n"));
         } else
         {
             next_code = -1;
@@ -378,19 +378,19 @@
                 if ((tmp = dict[code*dict_stride + i_buf[i_idx]]) != 0)
                 {
                     next_code = tmp;
-                    dprintf(("--> code: %.3X + %.2X(a) = %.3X\n", code, 
+                    jzintv_dprintf(("--> code: %.3X + %.2X(a) = %.3X\n", code, 
                              next_char, next_code));
                 } else 
                 if ((tmp = dict[code*dict_stride + i_buf_alt[i_idx]]) != 0)
                 {
                     next_char = i_buf_alt[i_idx];
                     next_code = tmp;
-                    dprintf(("--> code: %.3X + %.2X(b) = %.3X\n", code, 
+                    jzintv_dprintf(("--> code: %.3X + %.2X(b) = %.3X\n", code, 
                              next_char, next_code));
                 } else
                 {
                     next_code = 0;
-                    dprintf(("--> code: %.3X + %.2X(c) = %.3X\n", code, 
+                    jzintv_dprintf(("--> code: %.3X + %.2X(c) = %.3X\n", code, 
                              next_char, next_code));
                 }
                 i_idx++;
@@ -403,7 +403,7 @@
 
             if (next_char == end_of_info) 
             { 
-                dprintf(("--> next is EOI! (b)\n"));
+                jzintv_dprintf(("--> next is EOI! (b)\n"));
             }
         }
 
@@ -415,14 +415,14 @@
         /* ---------------------------------------------------------------- */
         curr_word |= code << curr_bits; 
         curr_bits += curr_size;
-        dprintf(("SEND %.4X %d curr: %.8X %2d\n", code, curr_size, 
+        jzintv_dprintf(("SEND %.4X %d curr: %.8X %2d\n", code, curr_size, 
                  curr_word, curr_bits));
         while (curr_bits > 8)
         {
             /* Handle packaging data into 256-byte records */
             if (o_ptr - last_len_byte == 256)
             {
-                dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", last_len_byte, 
+                jzintv_dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", last_len_byte, 
                           o_ptr));
                 *last_len_byte = 255;
                 last_len_byte  = o_ptr++;
@@ -444,7 +444,7 @@
         /* Handle packaging data into 256-byte records */
         if (o_ptr - last_len_byte == 256)
         {
-            dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", last_len_byte, o_ptr));
+            jzintv_dprintf(("last_len_byte=%.8X o_ptr=%.8X\n", last_len_byte, o_ptr));
             *last_len_byte = 255;
             last_len_byte  = o_ptr++;
         }
@@ -464,7 +464,7 @@
     *last_len_byte = o_ptr - last_len_byte - 1;
     *o_ptr++ = 0;
 
-    dprintf(("encoded %d bytes\n", o_ptr - o_buf));
+    jzintv_dprintf(("encoded %d bytes\n", o_ptr - o_buf));
 
     return o_ptr - o_buf;
 
diff -Naur jzintv-1.0-beta3/src/ivoice/ivoice.c jzintv-1.0-beta3.patched/src/ivoice/ivoice.c
--- jzintv-1.0-beta3/src/ivoice/ivoice.c	2006-07-05 22:11:46.000000000 -0400
+++ jzintv-1.0-beta3.patched/src/ivoice/ivoice.c	2009-02-04 19:12:58.000000000 -0500
@@ -44,9 +44,9 @@
 
 //#define DEBUG
 #ifdef DEBUG
-#define dprintf(x) jzp_printf x ; jzp_flush()
+#define jzintv_dprintf(x) jzp_printf x ; jzp_flush()
 #else
-#define dprintf(x)
+#define jzintv_dprintf(x)
 #endif
 
 #undef HIGH_QUALITY
@@ -1086,7 +1086,7 @@
 
         iv_smp_ckupd(iv, immed4*16 + opcode);
         
-        dprintf(("$%.4X.%.1X: OPCODE %d%d%d%d.%d%d\n", 
+        jzintv_dprintf(("$%.4X.%.1X: OPCODE %d%d%d%d.%d%d\n", 
                 (iv->pc >> 3) - 1, iv->pc & 7, 
                 !!(opcode & 1), !!(opcode & 2), 
                 !!(opcode & 4), !!(opcode & 8), 
@@ -1211,7 +1211,7 @@
         /* ---------------------------------------------------------------- */
         if (ctrl_xfer)
         {
-            dprintf(("jumping to $%.4X.%.1X: ", iv->pc >> 3, iv->pc & 7));
+            jzintv_dprintf(("jumping to $%.4X.%.1X: ", iv->pc >> 3, iv->pc & 7));
 
             /* ------------------------------------------------------------ */
             /*  Set our "FIFO Selected" flag based on whether we're going   */
@@ -1219,7 +1219,7 @@
             /* ------------------------------------------------------------ */
             iv->fifo_sel = iv->pc == FIFO_ADDR;
 
-            dprintf(("%s ", iv->fifo_sel ? "FIFO" : "ROM"));
+            jzintv_dprintf(("%s ", iv->fifo_sel ? "FIFO" : "ROM"));
 
             /* ------------------------------------------------------------ */
             /*  Control transfers to the FIFO cause it to discard the       */
@@ -1227,14 +1227,14 @@
             /* ------------------------------------------------------------ */
             if (iv->fifo_sel && iv->fifo_bitp)  
             {
-                dprintf(("bitp = %d -> Flush", iv->fifo_bitp));
+                jzintv_dprintf(("bitp = %d -> Flush", iv->fifo_bitp));
 
                 /* Discard partially-read decle. */
                 if (iv->fifo_tail < iv->fifo_head) iv->fifo_tail++;
                 iv->fifo_bitp = 0;
             }
 
-            dprintf(("\n"));
+            jzintv_dprintf(("\n"));
 
             continue;
         }
@@ -1255,7 +1255,7 @@
         #endif
 
         iv->filt.rpt = repeat + 1;
-        dprintf(("repeat = %d\n", repeat));
+        jzintv_dprintf(("repeat = %d\n", repeat));
 
         i = (opcode << 3) | (iv->mode & 6);
         idx0 = sp0256_df_idx[i++];
@@ -1285,7 +1285,7 @@
             field = cr & CR_FIELD;
             value = 0;
 
-            dprintf(("$%.4X.%.1X: len=%2d shf=%2d prm=%2d d=%d f=%d ",
+            jzintv_dprintf(("$%.4X.%.1X: len=%2d shf=%2d prm=%2d d=%d f=%d ",
                      iv->pc >> 3, iv->pc & 7, len, shf, prm, !!delta, !!field));
             /* ------------------------------------------------------------ */
             /*  Clear any registers that were requested to be cleared.      */
@@ -1313,7 +1313,7 @@
             }
             else
             {
-                dprintf((" (no update)\n"));
+                jzintv_dprintf((" (no update)\n"));
                 continue;
             }
 
@@ -1331,7 +1331,7 @@
             if (shf)
                 value <<= shf;
 
-            dprintf(("v=%.2X (%c%.2X)  ", value & 0xFF, 
+            jzintv_dprintf(("v=%.2X (%c%.2X)  ", value & 0xFF, 
                      value & 0x80 ? '-' : '+', 
                      0xFF & (value & 0x80 ? -value : value)));
 
@@ -1342,12 +1342,12 @@
             /* ------------------------------------------------------------ */
             if (field)
             {
-                dprintf(("--field-> r[%2d] = %.2X -> ", prm, iv->filt.r[prm]));
+                jzintv_dprintf(("--field-> r[%2d] = %.2X -> ", prm, iv->filt.r[prm]));
 
                 iv->filt.r[prm] &= ~(~0 << shf); /* Clear the old bits.     */
                 iv->filt.r[prm] |= value;        /* Merge in the new bits.  */
 
-                dprintf(("%.2X\n", iv->filt.r[prm]));
+                jzintv_dprintf(("%.2X\n", iv->filt.r[prm]));
 
                 continue;
             } 
@@ -1357,11 +1357,11 @@
             /* ------------------------------------------------------------ */
             if (delta)
             {
-                dprintf(("--delta-> r[%2d] = %.2X -> ", prm, iv->filt.r[prm]));
+                jzintv_dprintf(("--delta-> r[%2d] = %.2X -> ", prm, iv->filt.r[prm]));
 
                 iv->filt.r[prm] += value;
 
-                dprintf(("%.2X\n", iv->filt.r[prm]));
+                jzintv_dprintf(("%.2X\n", iv->filt.r[prm]));
 
                 continue;
             }
@@ -1370,7 +1370,7 @@
             /*  Otherwise, just write the new value.                        */
             /* ------------------------------------------------------------ */
             iv->filt.r[prm] = value;
-            dprintf(("--value-> r[%2d] = %.2X\n", prm, iv->filt.r[prm]));
+            jzintv_dprintf(("--value-> r[%2d] = %.2X\n", prm, iv->filt.r[prm]));
         }
 
         /* ---------------------------------------------------------------- */
@@ -1727,7 +1727,7 @@
         /* ---------------------------------------------------------------- */
         if ((ivoice->fifo_head - ivoice->fifo_tail) >= 64) 
         {
-            dprintf(("IV: Dropped FIFO write\n"));
+            jzintv_dprintf(("IV: Dropped FIFO write\n"));
             return;
         }