/*
SjASMPlus Z80 Cross Compiler
Copyright (c) 2004-2008 Aprisobal
This software is provided 'as-is', without any express or implied warranty.
In no event will the authors be held liable for any damages arising from the
use of this software.
Permission is granted to anyone to use this software for any purpose,
including commercial applications, and to alter it and redistribute it freely,
subject to the following restrictions:
1. The origin of this software must not be misrepresented; you must not claim
that you wrote the original software. If you use this software in a product,
an acknowledgment in the product documentation would be appreciated but is
not required.
2. Altered source versions must be plainly marked as such, and must not be
misrepresented as being the original software.
3. This notice may not be removed or altered from any source distribution.
*/
// io_tape.cpp
#include "sjdefs.h"
#include "io_tape_ldrs.h"
static unsigned char parity;
static void writebyte(unsigned char, FILE *);
static void writenumber(unsigned int, FILE *);
static void writeword(unsigned int, FILE *);
static void writeheader(unsigned char, const char *, unsigned short, unsigned short, unsigned short, FILE *);
static void writecode(unsigned char* block, aint length, unsigned short loadaddr, bool header, FILE *fp);
static void remove_basic_sp(unsigned char* ram);
static void detect_vars_changes();
static bool has_screen_changes();
static aint remove_unused_space(unsigned char* ram, aint length);
static aint detect_ram_start(unsigned char* ram, aint length);
int TAP_SaveEmpty(char* fname) {
FILE* ff;
if (!FOPEN_ISOK(ff, fname, "wb")) {
Error("opening file for write", fname); return 0;
}
fclose(ff);
return 1;
}
int TAP_SaveBlock(char* fname, unsigned char flag, const char *ftapname, int start, int length, int param2, int param3) {
FILE* fpout;
if (!FOPEN_ISOK(fpout, fname, "ab")) {
Error("opening file for append", fname, FATAL);
}
if (length + start > 0x10000) {
length = -1;
}
if (length <= 0) {
length = 0x10000 - start;
}
int varBase = 0x80, defaultValue = 0x8000;
switch (flag) {
case BASIC:
if (param2 < 0) {
param2 = defaultValue; // no autostart
} else if (param2 >= 16384 && param2 != defaultValue) {
ErrorInt("[SAVETAP] Autostart LINE out of range", param2);
}
if (param3 < 0) {
param3 = length;
}
break;
case CHARS:
varBase = 0xC0;
case NUMBERS:
if (param2 <= 0) {
param2 = 1; // reset to default A variable
}
param2 &= 0x1F;
if (param2 < 1 || param2 > 26) { // A..Z
Error("[SAVETAP] Variable name out of range");
}
param2 = (param2 | varBase) << 8;
param3 = defaultValue;
break;
case CODE:
if (param2 < 0) {
param2 = start;
}
if (param3 < 0) {
param3 = defaultValue;
}
break;
}
if (flag == HEADLESS) {
flag = param3 & 0xff;
} else if (ftapname) {
writeheader(flag, ftapname, length, param2, param3, fpout);
flag = 0xff;
}
writeword(length + 2, fpout);
parity = 0;
writebyte(flag, fpout);
CDeviceSlot *S;
for (aint i = 0, ptr; i < Device->SlotsCount; i++) {
S = Device->GetSlot(i);
if (S->Address + S->Size <= start) continue;
if (length <= 0) break;
assert(S->Address <= start && start < S->Address + S->Size);
ptr = (start - S->Address);
while (length && ptr < S->Size) {
writebyte(S->Page->RAM[ptr], fpout);
++start;
++ptr;
--length;
}
}
writebyte(parity, fpout);
fclose(fpout);
return 1;
}
int TAP_SaveSnapshot(char* fname, unsigned short start) {
FILE* fpout;
if (!FOPEN_ISOK(fpout, fname, "wb")) {
Error("opening file for write", fname, FATAL);
}
aint datastart = 0x5E00;
aint exeat = 0x5E00;
aint basiclen = 0x1e + 2;
/* Filetype (0: Basic), with autostart "LINE 10" */
writeheader(0, "LOADER", basiclen, 10, basiclen, fpout);
writeword(basiclen + 2, fpout); // length of block
parity = 0;
writebyte(0xff, fpout);
writebyte(0, fpout);
writebyte(10, fpout); // LINE 10
writebyte(basiclen, fpout); // basic line length
writebyte(0, fpout);
// :CLEAR VAL "xxxxx"
writebyte(0xfd, fpout); // CLEAR
writebyte(0xb0, fpout); // VAL
writebyte('\"', fpout);
writenumber(datastart-1, fpout);
writebyte('\"', fpout);
// :INK VAL "7"
/*writebyte(':', fpout);
writebyte(0xd9, fpout); // INK
writebyte(0xb0, fpout); // VAL
writebyte('\"', fpout);
writenumber(7, fpout);
writebyte('\"', fpout);
// :PAPER VAL "0"
writebyte(':', fpout);
writebyte(0xda, fpout); // PAPER
writebyte(0xb0, fpout); // VAL
writebyte('\"', fpout);
writenumber(0, fpout);
writebyte('\"', fpout);
// :BORDER VAL "0"
writebyte(':', fpout);
writebyte(0xe7, fpout); // BORDER
writebyte(0xb0, fpout); // VAL
writebyte('\"', fpout);
writenumber(0, fpout);
writebyte('\"', fpout);*/
// :CLS
writebyte(':', fpout);
writebyte(0xfb, fpout); // CLS
writebyte(':', fpout);
writebyte(0xef, fpout); /* LOAD */
writebyte('\"', fpout);
writebyte('\"', fpout);
writebyte(0xaf, fpout); /* CODE */
writebyte(':', fpout);
writebyte(0xf9, fpout); /* RANDOMIZE */
writebyte(0xc0, fpout); /* USR */
writebyte(0xb0, fpout); /* VAL */
writebyte('\"', fpout);
writenumber(exeat, fpout);
writebyte('\"', fpout);
writebyte(0x0d, fpout);
writebyte(parity, fpout);
if (!strcmp(DeviceID, "ZXSPECTRUM48")) {
// prepare code block
aint ram_length = 0xA200;
aint ram_start = 0x0000;
unsigned char* ram = (unsigned char*)malloc(ram_length);
if (ram == NULL) ErrorOOM();
memcpy(ram, (unsigned char*)Device->GetSlot(1)->Page->RAM + 0x1E00, 0x2200);
memcpy(ram + 0x2200, (unsigned char*)Device->GetSlot(2)->Page->RAM, 0x4000);
memcpy(ram + 0x6200, (unsigned char*)Device->GetSlot(3)->Page->RAM, 0x4000);
// remove basic vars
remove_basic_sp(ram + ram_length - sizeof(ZX_STACK_DATA));
detect_vars_changes();
ram_length = remove_unused_space(ram, ram_length);
ram_start = detect_ram_start(ram, ram_length);
ram_length -= ram_start;
// write loader
unsigned char *loader = new unsigned char[SaveTAP_ZX_Spectrum_48K_SZ];
memcpy(loader, (char*)&SaveTAP_ZX_Spectrum_48K[0], SaveTAP_ZX_Spectrum_48K_SZ);
if (loader == NULL) ErrorOOM();
// Settings.LoadScreen
loader[SaveTAP_ZX_Spectrum_48K_SZ - 7] = char(has_screen_changes());
loader[SaveTAP_ZX_Spectrum_48K_SZ - 6] = char(start & 0x00FF);
loader[SaveTAP_ZX_Spectrum_48K_SZ - 5] = char(start >> 8);
loader[SaveTAP_ZX_Spectrum_48K_SZ - 4] = char((ram_start + 0x5E00) & 0x00FF);
loader[SaveTAP_ZX_Spectrum_48K_SZ - 3] = char((ram_start + 0x5E00) >> 8);
loader[SaveTAP_ZX_Spectrum_48K_SZ - 2] = char(ram_length & 0x00FF);
loader[SaveTAP_ZX_Spectrum_48K_SZ - 1] = char(ram_length >> 8);
writecode(loader, SaveTAP_ZX_Spectrum_48K_SZ, 0x5E00, true, fpout);
// write screen$
if (loader[SaveTAP_ZX_Spectrum_48K_SZ - 7]) {
writecode((unsigned char*)Device->GetSlot(1)->Page->RAM, 6912, 16384, false, fpout);
}
// write code block
writecode(ram + ram_start, ram_length, 0x5E00 + ram_start, false, fpout);
free(ram);
} else {
detect_vars_changes();
// prepare main code block
aint ram_length = 0x6200, ram_start = 0x0000;
unsigned char* ram = (unsigned char*)malloc(ram_length);
if (ram == NULL) ErrorOOM();
memcpy(ram, (unsigned char*)Device->GetSlot(1)->Page->RAM + 0x1E00, 0x2200);
memcpy(ram + 0x2200, (unsigned char*)Device->GetSlot(2)->Page->RAM, 0x4000);
ram_length = remove_unused_space(ram, ram_length);
ram_start = detect_ram_start(ram, ram_length);
ram_length -= ram_start;
// init loader
aint loader_defsize;
unsigned char* loader_code;
if (!strcmp(DeviceID, "ZXSPECTRUM128")) {
loader_defsize = SaveTAP_ZX_Spectrum_128K_SZ;
loader_code = (unsigned char*)&SaveTAP_ZX_Spectrum_128K[0];
} else {
loader_defsize = SaveTAP_ZX_Spectrum_256K_SZ;
loader_code = (unsigned char*)&SaveTAP_ZX_Spectrum_256K[0];
}
aint loader_len = loader_defsize + (Device->PagesCount - 2)*5;
unsigned char *loader = new unsigned char[loader_len];
memcpy(loader, loader_code, loader_defsize);
if (loader == NULL) ErrorOOM();
// Settings.Start
loader[loader_defsize - 8] = char(start & 0x00FF);
loader[loader_defsize - 7] = char(start >> 8);
// Settings.MainBlockStart
loader[loader_defsize - 6] = char((ram_start + 0x5E00) & 0x00FF);
loader[loader_defsize - 5] = char((ram_start + 0x5E00) >> 8);
// Settings.MainBlockLength
loader[loader_defsize - 4] = char(ram_length & 0x00FF);
loader[loader_defsize - 3] = char(ram_length >> 8);
// Settings.Page
loader[loader_defsize - 2] = char(Device->GetSlot(3)->Page->Number);
//
unsigned char* pages_ram[1024];
aint pages_len[1024];
aint pages_start[1024];
// build pages table
aint count = 0;
for (aint i=0;i < Device->PagesCount;i++) {
if (Device->GetSlot(2)->Page->Number != i && Device->GetSlot(1)->Page->Number != i) {
aint length = 0x4000;
length = remove_unused_space((unsigned char*)Device->GetPage(i)->RAM, length);
if (length > 0) {
pages_ram[count] = (unsigned char*)Device->GetPage(i)->RAM;
pages_start[count] = detect_ram_start(pages_ram[count], length);
pages_len[count] = length - pages_start[count];
loader[loader_defsize + (count*5) + 0] = char(i);
loader[loader_defsize + (count*5) + 1] = char((pages_start[count] + 0xC000) & 0x00FF);
loader[loader_defsize + (count*5) + 2] = char((pages_start[count] + 0xC000) >> 8);
loader[loader_defsize + (count*5) + 3] = char(pages_len[count] & 0x00FF);
loader[loader_defsize + (count*5) + 4] = char(pages_len[count] >> 8);
count++;
}
}
}
// Table_BlockList.Count
loader[loader_defsize - 1] = char(count);
// Settings.LoadScreen
loader[loader_defsize - 9] = char(has_screen_changes());
// write loader
writecode(loader, loader_len, 0x5E00, true, fpout);
// write screen$
if (loader[loader_defsize - 9]) {
writecode((unsigned char*)Device->GetSlot(1)->Page->RAM, 6912, 0x4000, false, fpout);
}
// write code blocks
for (aint i=0;i < count;i++) {
writecode(pages_ram[i] + pages_start[i], pages_len[i], 0xC000 + pages_start[i], false, fpout);
}
// write main code block
writecode(ram + ram_start, ram_length, 0x5E00 + ram_start, false, fpout);
free(ram);
}
fclose(fpout);
return 1;
}
static void writenumber(unsigned int i, FILE *fp) {
int c;
c=i/10000;
i-=c*10000;
writebyte(c+48, fp);
c=i/1000;
i-=c*1000;
writebyte(c+48, fp);
c=i/100;
i-=c*100;
writebyte(c+48, fp);
c=i/10;
writebyte(c+48, fp);
i%=10;
writebyte(i+48, fp);
}
static void writeword(unsigned int i, FILE *fp) {
writebyte(i%256,fp);
writebyte(i/256,fp);
}
static void writebyte(unsigned char c, FILE *fp) {
fputc(c,fp);
parity^=c;
}
static void writeheader(unsigned char flag, const char *fname, unsigned short param1, unsigned short param2, unsigned short param3, FILE *fp) {
/* Write out the code header file */
writeword(19, fp); /* Header len */
writebyte(0, fp); /* Header is 0 */
parity = 0;
writebyte(flag, fp); /* Filetype flag */
const char *ptr = fname;
for (int i = 0; i < 10; i++) {
if (*ptr) {
writebyte(*ptr++, fp);
} else {
writebyte(' ', fp);
}
}
writeword(param1, fp);
writeword(param2, fp);
writeword(param3, fp);
writebyte(parity, fp);
}
static void writecode(unsigned char* block, aint length, unsigned short loadaddr, bool header, FILE *fp) {
if (header) {
/* Filetype (3: Code) */
writeheader(3, "loader", length, loadaddr, 0, fp);
}
/* Now onto the data bit */
writeword(length + 2, fp); /* Length of next block */
parity = 0;
writebyte(255, fp); /* Data... */
for (aint i = 0; i < length; i++) {
writebyte(block[i], fp);
}
writebyte(parity, fp);
}
static void remove_basic_sp(unsigned char* ram) {
bool remove = true;
for (size_t i=0; i < sizeof(ZX_STACK_DATA);i++) {
if (ZX_STACK_DATA[i] != ram[i]) {
remove = false;
}
}
if (remove) {
for (size_t i=0; i < sizeof(ZX_STACK_DATA);i++) {
ram[i] = 0;
}
}
}
static void detect_vars_changes() {
unsigned char *psys = (unsigned char*)Device->GetSlot(1)->Page->RAM + 0x1C00;
bool nobas48 = false;
for (size_t i=0; i < sizeof(ZX_SYSVARS_DATA);i++) {
if (ZX_SYSVARS_DATA[i] != psys[i]) {
nobas48 = true;
}
}
if (nobas48) {
Warning("[SAVETAP] Tape file will not contain data from 0x5B00 to 0x5E00");
}
}
static bool has_screen_changes() {
unsigned char *pscr = (unsigned char*)Device->GetSlot(1)->Page->RAM;
for (int i=0; i < 0x1800;i++) {
if (0 != pscr[i]) {
return true;
}
}
for (int i=0x1800; i < 0x1B00;i++) {
if (0x38 != pscr[i]) {
return true;
}
}
return false;
}
static aint remove_unused_space(unsigned char* ram, aint length) {
while (length > 0 && ram[length-1] == 0) {
length--;
}
return length;
}
static aint detect_ram_start(unsigned char* ram, aint length) {
aint start = 0;
while (start < length && ram[start] == 0) {
start++;
}
return start;
}
//eof io_tape.cpp